How can I explain why my mechs don't sink into the ground?

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Everybody loves the concept of mechs, but there is one big practical problem with them that gets worse the fewer legs they have: ground pressure. tl;dr: big heavy object on two small thin spindly ones isn't very good at not sinking into even the hardest ground.



Currently I'm handwaving past this issue with anti-gravity type generators installed in every mech (although these could have interesting tactical implications with respect to their failure), but I'd prefer something a little more substantial and/or closer to what we know today to make my worldscape more accessible to readers.



About the only thing I can come up with is some sort of ridiculously light and strong super-alloy, but that also feels like a somewhat obvious piece of "technological magic".







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    Whether its sinks or not will be dependant on your mechs size and density but they'd need to be ridiculously heavy before they'd starting "sinking" into solid ground.
    – BMS21
    Aug 16 at 12:07






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    @ArtificialSoul Even with the square cube law the ground (of course dependant on material) can take huge amounts of pressure and even if they are scaled up proportionally to a human they would have to become huge and therefore ridiculously heavy to overcome the grounds pressure limit.
    – BMS21
    Aug 16 at 12:59






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    You are aware that regular houses on most terrain need to get a foundation to prevent sinking, right? So as soon as we scale mechs up close to the weight of the house it is very reasonable to assume that they sink in some terrain - which is what OP wants to avoid. They do not need to be colossally huge to have this be a problem. Smaller than a house is probably problematic enough.
    – ArtificialSoul
    Aug 16 at 13:12






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    To put @ArtificialSoul 's point another way: if the mech weighs more than a house, and it's standing on ground weaker than the house's foundation, and its feet are smaller than the house, it's reasonable to expect it to sink into the ground.
    – Charles
    Aug 16 at 15:20






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    How fast would houses without a foundation sink? A house is designed to remain in place for many decades, whereas a mech probably moves around often.
    – R..
    Aug 16 at 23:16














up vote
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down vote

favorite
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Everybody loves the concept of mechs, but there is one big practical problem with them that gets worse the fewer legs they have: ground pressure. tl;dr: big heavy object on two small thin spindly ones isn't very good at not sinking into even the hardest ground.



Currently I'm handwaving past this issue with anti-gravity type generators installed in every mech (although these could have interesting tactical implications with respect to their failure), but I'd prefer something a little more substantial and/or closer to what we know today to make my worldscape more accessible to readers.



About the only thing I can come up with is some sort of ridiculously light and strong super-alloy, but that also feels like a somewhat obvious piece of "technological magic".







share|improve this question
















  • 4




    Whether its sinks or not will be dependant on your mechs size and density but they'd need to be ridiculously heavy before they'd starting "sinking" into solid ground.
    – BMS21
    Aug 16 at 12:07






  • 1




    @ArtificialSoul Even with the square cube law the ground (of course dependant on material) can take huge amounts of pressure and even if they are scaled up proportionally to a human they would have to become huge and therefore ridiculously heavy to overcome the grounds pressure limit.
    – BMS21
    Aug 16 at 12:59






  • 1




    You are aware that regular houses on most terrain need to get a foundation to prevent sinking, right? So as soon as we scale mechs up close to the weight of the house it is very reasonable to assume that they sink in some terrain - which is what OP wants to avoid. They do not need to be colossally huge to have this be a problem. Smaller than a house is probably problematic enough.
    – ArtificialSoul
    Aug 16 at 13:12






  • 15




    To put @ArtificialSoul 's point another way: if the mech weighs more than a house, and it's standing on ground weaker than the house's foundation, and its feet are smaller than the house, it's reasonable to expect it to sink into the ground.
    – Charles
    Aug 16 at 15:20






  • 5




    How fast would houses without a foundation sink? A house is designed to remain in place for many decades, whereas a mech probably moves around often.
    – R..
    Aug 16 at 23:16












up vote
17
down vote

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up vote
17
down vote

favorite
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5





Everybody loves the concept of mechs, but there is one big practical problem with them that gets worse the fewer legs they have: ground pressure. tl;dr: big heavy object on two small thin spindly ones isn't very good at not sinking into even the hardest ground.



Currently I'm handwaving past this issue with anti-gravity type generators installed in every mech (although these could have interesting tactical implications with respect to their failure), but I'd prefer something a little more substantial and/or closer to what we know today to make my worldscape more accessible to readers.



About the only thing I can come up with is some sort of ridiculously light and strong super-alloy, but that also feels like a somewhat obvious piece of "technological magic".







share|improve this question












Everybody loves the concept of mechs, but there is one big practical problem with them that gets worse the fewer legs they have: ground pressure. tl;dr: big heavy object on two small thin spindly ones isn't very good at not sinking into even the hardest ground.



Currently I'm handwaving past this issue with anti-gravity type generators installed in every mech (although these could have interesting tactical implications with respect to their failure), but I'd prefer something a little more substantial and/or closer to what we know today to make my worldscape more accessible to readers.



About the only thing I can come up with is some sort of ridiculously light and strong super-alloy, but that also feels like a somewhat obvious piece of "technological magic".









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asked Aug 16 at 12:02









Ian Kemp

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  • 4




    Whether its sinks or not will be dependant on your mechs size and density but they'd need to be ridiculously heavy before they'd starting "sinking" into solid ground.
    – BMS21
    Aug 16 at 12:07






  • 1




    @ArtificialSoul Even with the square cube law the ground (of course dependant on material) can take huge amounts of pressure and even if they are scaled up proportionally to a human they would have to become huge and therefore ridiculously heavy to overcome the grounds pressure limit.
    – BMS21
    Aug 16 at 12:59






  • 1




    You are aware that regular houses on most terrain need to get a foundation to prevent sinking, right? So as soon as we scale mechs up close to the weight of the house it is very reasonable to assume that they sink in some terrain - which is what OP wants to avoid. They do not need to be colossally huge to have this be a problem. Smaller than a house is probably problematic enough.
    – ArtificialSoul
    Aug 16 at 13:12






  • 15




    To put @ArtificialSoul 's point another way: if the mech weighs more than a house, and it's standing on ground weaker than the house's foundation, and its feet are smaller than the house, it's reasonable to expect it to sink into the ground.
    – Charles
    Aug 16 at 15:20






  • 5




    How fast would houses without a foundation sink? A house is designed to remain in place for many decades, whereas a mech probably moves around often.
    – R..
    Aug 16 at 23:16












  • 4




    Whether its sinks or not will be dependant on your mechs size and density but they'd need to be ridiculously heavy before they'd starting "sinking" into solid ground.
    – BMS21
    Aug 16 at 12:07






  • 1




    @ArtificialSoul Even with the square cube law the ground (of course dependant on material) can take huge amounts of pressure and even if they are scaled up proportionally to a human they would have to become huge and therefore ridiculously heavy to overcome the grounds pressure limit.
    – BMS21
    Aug 16 at 12:59






  • 1




    You are aware that regular houses on most terrain need to get a foundation to prevent sinking, right? So as soon as we scale mechs up close to the weight of the house it is very reasonable to assume that they sink in some terrain - which is what OP wants to avoid. They do not need to be colossally huge to have this be a problem. Smaller than a house is probably problematic enough.
    – ArtificialSoul
    Aug 16 at 13:12






  • 15




    To put @ArtificialSoul 's point another way: if the mech weighs more than a house, and it's standing on ground weaker than the house's foundation, and its feet are smaller than the house, it's reasonable to expect it to sink into the ground.
    – Charles
    Aug 16 at 15:20






  • 5




    How fast would houses without a foundation sink? A house is designed to remain in place for many decades, whereas a mech probably moves around often.
    – R..
    Aug 16 at 23:16







4




4




Whether its sinks or not will be dependant on your mechs size and density but they'd need to be ridiculously heavy before they'd starting "sinking" into solid ground.
– BMS21
Aug 16 at 12:07




Whether its sinks or not will be dependant on your mechs size and density but they'd need to be ridiculously heavy before they'd starting "sinking" into solid ground.
– BMS21
Aug 16 at 12:07




1




1




@ArtificialSoul Even with the square cube law the ground (of course dependant on material) can take huge amounts of pressure and even if they are scaled up proportionally to a human they would have to become huge and therefore ridiculously heavy to overcome the grounds pressure limit.
– BMS21
Aug 16 at 12:59




@ArtificialSoul Even with the square cube law the ground (of course dependant on material) can take huge amounts of pressure and even if they are scaled up proportionally to a human they would have to become huge and therefore ridiculously heavy to overcome the grounds pressure limit.
– BMS21
Aug 16 at 12:59




1




1




You are aware that regular houses on most terrain need to get a foundation to prevent sinking, right? So as soon as we scale mechs up close to the weight of the house it is very reasonable to assume that they sink in some terrain - which is what OP wants to avoid. They do not need to be colossally huge to have this be a problem. Smaller than a house is probably problematic enough.
– ArtificialSoul
Aug 16 at 13:12




You are aware that regular houses on most terrain need to get a foundation to prevent sinking, right? So as soon as we scale mechs up close to the weight of the house it is very reasonable to assume that they sink in some terrain - which is what OP wants to avoid. They do not need to be colossally huge to have this be a problem. Smaller than a house is probably problematic enough.
– ArtificialSoul
Aug 16 at 13:12




15




15




To put @ArtificialSoul 's point another way: if the mech weighs more than a house, and it's standing on ground weaker than the house's foundation, and its feet are smaller than the house, it's reasonable to expect it to sink into the ground.
– Charles
Aug 16 at 15:20




To put @ArtificialSoul 's point another way: if the mech weighs more than a house, and it's standing on ground weaker than the house's foundation, and its feet are smaller than the house, it's reasonable to expect it to sink into the ground.
– Charles
Aug 16 at 15:20




5




5




How fast would houses without a foundation sink? A house is designed to remain in place for many decades, whereas a mech probably moves around often.
– R..
Aug 16 at 23:16




How fast would houses without a foundation sink? A house is designed to remain in place for many decades, whereas a mech probably moves around often.
– R..
Aug 16 at 23:16










16 Answers
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The ground is pretty strong



In an answer to another question, I demonstrate that a 20,000 ton kaiju shouldn't have too much trouble moving around on land, with feet only twice as large (area wise) relative to its body as a human.



A human sprinter puts out a ground reaction force of 3000 N or roughly 150 kPa (from that link). For a 100 ton mech (heavier than a main battle tank), ground force at rest is 1 MN (roughly), which requires only ~7 m$^2$ of foot surface area to yield equivalent ground pressure of a human sprinter's foot. Triple this for safety, and divide by four legs, and you would need each of the four 'feet' of the mech to be around 2 meters square in size. Not super large, not super impractical.






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    @LordFarquaad: Due to the related math involved, that also makes it impassable for humans.
    – Mooing Duck
    Aug 16 at 23:39






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    As a side note, this is mostly why snow rackets work, they distribute the weight on a wider surface. It's also why on an ice crust it's safer to use vehicles with tracks than with wheels.
    – ChatterOne
    Aug 17 at 8:48






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    @MooingDuck: Curiously enough, due to the height difference of typical humans vs. typical pedestrian mechs some grounds that for tactical purposes are (nigh) impassable to humans may still be passable to mechs, e. g. not-too-deep swamps.
    – David Foerster
    Aug 17 at 12:54






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    @DavidFoerster: I realized it can work in reverse too. If there's giant soft spots, a giant food can't pass, but small feet can navigate between.
    – Mooing Duck
    Aug 17 at 17:00






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    This seems to be comparing the dynamic load of a sprinter sprinting to the static load of a mech just standing around. Also, it's a pretty small mech - not even as heavy as two M1 Abrams tanks.
    – user2357112
    Aug 17 at 17:55

















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Warhammer 40k features Titans, gigantic bipedal war machines ranging from 20 to 80 meters in height, layered in armour and bristling with weaponry.



They explicitly don't care about ground-pressure. Where they go, they leave meters-deep footprints and crush boulders to gravel. To a thousand ton walker, soil and rock might as well be ankle-deep mud.



However, the largest of them compensate for their extreme mass by using anti-gravity systems to reduce it. These don't so much hover as lighten the load enough to walk without sinking to the bedrock.






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    On the 40k anti-grav systems: they also allow you to lower the centre of gravity (anti-grav the top, leave the feet at full weight) for stability
    – Chronocidal
    Aug 16 at 14:44










  • @Chronocidal: What you intend to lower has nothing to do with gravity and weight/lift, its proper name is the center of mass, and won't be shifted by anti-gravity.
    – Ben Voigt
    Aug 17 at 1:55






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    @BenVoigt About 50:50 - the centre of mass, which won't change, will impact momentum, and how the mech reacts to forces from other objects. The centre of gravity will drop, and relates to the force generated by gravity (a.k.a. "weight") acting on the mass of the mech itself - similar to the difference in control between front-wheel and rear-wheel drive. But, because mass and weight are typically treatable as directly proportional, (barring extreme gravitational gradients such as the Lagrange points between 2 stars that are about to collide) these points are normally almost exactly the same.
    – Chronocidal
    Aug 17 at 7:33






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    I expect that rather depends on how your anti-gravity systems work. if they provide lift vs gravity then they don't affect mass or inertia, if they nullify mass in some way to make the vehicle physically lighter, that'd definitely affect the vehicle's center of mass.
    – Ruadhan
    Aug 17 at 8:23

















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This toy has booms around 80 meters long and can weight up to 14,200 metric tons, depending on configuration:



Bucket wheel excavator



It leaves some tracks on dirt, but that's it. Notice how it goes around without sinking into the ground, which would be very bad for it since it has no legs.



As long as your mechs have a weight-to-surface ratio not less favourable than the bucket-wheel excavator's, and are not walking on quicksand, they shouldn't have to bother about sinking.






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    The crawler transporting the Saturn V was even more impressive ;)
    – L.Dutch♦
    Aug 16 at 19:35











  • @L.Dutch it was only 2,700 tons heavy though. Baggers are usually five times heavier.
    – Renan
    Aug 16 at 20:19






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    Accordng to Wikipedia, that thing (or something similar) has less ground pressure than a bicycle, a car or an elephant. .
    – canadianer
    Aug 17 at 1:42










  • You've not mentioned what that thing is: the 'Bagger 293'.
    – Max Barraclough
    Aug 18 at 19:51

















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I've talked about it before, when your Mech starts growing you are going to need more legs. And using small excavator arms as legs it's practically feasible to have an 8 legged Mech of 100+tons, something that tanks have trouble with as the tanks are limited by length and width just as much as a Mech is limited by the square cube law.



If you want to have as few legs as possible then the biggest problem is ground pressure. However you can use that sagging into the ground as an advantage. For example instead of wider feet you create a spiked cone at the bottom that quickly widens. The surface of the cone already is larger than the surface of the feet. The cone will drive itself into the ground and as it does so the supportive surface grows. Additionally the weight of the Mech wont just push the earth down, it'll push it sideways meaning less groundpressure for the ground directly below it. Since you are also into the ground you have a better grip, allowing you to climb steeper inclines. This is also the part where a Mech becomes useful: it wont have lots of advantages in open terrain due to lower velocities but in hilly or mountain terrain a Mech's mobility would be higher than a tank. Still, making larger legs or splitting the feet into multiple smaller "legs" with a large surface area they stand on (and the ability to stand better on uneven terrain) are additional options.



Another often tauted disadvantage is disabling the legs. While a destroyed leg is definitely worse for a Mech than a tank, a Mech would be the only vehicle that can effectively armor the entirety of the leg. Additionally anyone firing at the legs themselves with an AT weapon would be send back to training as firing at the smaller and constantly accelerating/decelerating legs is a recipy for disaster. Anyone with training would aim for the joints where the legs meet the chassis which is practically the same as with a normal tank. That would make a Mech still less vulnerable to disabling fire due to the armor on the legs but the consequences for a successful hit are larger.



Edit: for those against the spike idea, you can easily expand on it and design better. For example a cylinder with a hollow shaped like a cone on the bottom of the feet: the edges are "sharp" and push the soil to the center of the cone where it compacts. It also adds surface area and even watery mud would get high pressures to support the feet as it goes deeper.






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  • Regarding your idea of the spikes: While i do think it's a good solution it only works to a certain size. If your mech is colossal then it would have to lift its legs a lot for every step as it would have to pull out the spikes.
    – ArtificialSoul
    Aug 16 at 12:49






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    Also regarding the idea of the spikes: The mechs would be difficult/cumbersome to move over surfaces you don't want to poke full of holes. Mechs defending a critical airfield would be unable to cross the runways and taxiways, or else they'd do the enemy's work for them. The same applies to roads and bridges. Your mechs would need to be trailer-able onto some large truck with wheels to get them across paved surfaces. That would also be useful for moving the mechs to the frontlines quickly, as the truck could probably drive faster than the mech can walk.
    – Jared K
    Aug 16 at 14:17










  • @Jared K Mechs wouldnt be as useful as tanks for defending an airfield unless it's something like the Swiss mountain airfields. If you still want to use them there you do it like most vehicles do nowadays: modular. The airfield and surroundings are almost certainly made to handle heavy traffic so the ground is likely able to handle the pressure if you take the spikes off. Also you'd better be building Mech trenches, Mech's are perfect for popping up, firing and going down, then moving further along the trench. This is something tanks cant do as well.
    – Demigan
    Aug 16 at 14:56










  • @artificialsoul if you are talking about the 10+m tall 200+ton bipedal mechs with weapons out of every orifice then yes. But at that point you might as well make a 20m long tank with 5cm long tracks, say Segway made it and tracks are perfect for ground pressure and you've got about the same lunacy.
    – Demigan
    Aug 16 at 14:59






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    Ack! No, no, no! By going to spikes you make the feet sink deeper for the same amount of weight. In effect, you increase the ability to penetrate the ground, and that is not what you're trying to do. " the weight of the Mech wont just push the earth down, it'll push it sideways". Exactly. And making it easier for the foot to push dirt out of it's way makes it sink deeper, not less.
    – WhatRoughBeast
    Aug 16 at 17:10

















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Larger feet are what camels use to prevent sinking into the desert. Your mechs could use that technique (it reduces pressure by increasing the area of force application). They could also have rockets or boosters of some sort to lift them out if they do get stuck.



Also, the idea of mechs sinking into the ground could be a cool plot device, explaining why mechs can't be used in a certain situation. Booster fuel could be a limitation on the amount of time a mech can walk before it has to return.






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    From an engineering perspective, firm clay can take 10 tons or so (100kN) per square metre, without issue. That's the typical maximum loading for house foundations here in London, and they have to be reliable for decades or more.



    Ignoring the massive safety factors built into that working, and also ignoring the need to be rigid (if the ground sinks a metre does the mech care?), and also ignoring the need for stability over time (gradual changes over decades don't matter), it wouldn't surprise me if you could safely load of the order of 10 times that on clay. And of course that's on a soft material.



    Dynamic forces are a bit different but probably won't make much difference - if the mech can cope with a metre of ground movement as it places a foot, the dynamic force issue will probably be swallowed up within that movement, or by the mech's handling of foot placement, and feedback of ground support/resistance.



    Short version - not a worry.






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      Don't change the properties of the mech - change the properties of the planet



      Given that it is not specified where the mech action is happening, set the action on a low gravity world (or worlds), rather than using handwavium to provide artificial antigravity. Mechs are far less impractical in low gravity, where with the addition of jets/rockets they can blur the line between ground and air units.



      This also has the advantage that the poor pilot/s stuck in the mech are subjected to less impact force from landings - movies love showing giant mechs making equally giant vertical leaps. This ignores the fact that without the "knees" bending much more than typically shown on every landing, for the pilot a fall of 20m in a big mech is just as damaging as a fall of 20m in your average car (less survivable if the mech pilot is standing up miming the mech's actions).






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        Don´t use steel bodies



        Although iron and steel may be the first option that comes to our head when talking about mechs, we must not forget that actually there are many tracks of scientific investigation of new alternative materials that can be stronger than steel and weight much more less. Assuming the Mech technology is still many years in the future, it is not unlikely to suppose that Mechs could be made of a non-metallic composite material (much more lighter, and therefore with less risk of sink into the ground).



        And the trick is not only in the material itself, but in the way the material is shaped. For example: a single sheet of paper cannot support itself horizontally between two separated bricks. But if you bend the sheet of paper and make a rectangular long box (a prism) you can colocate it horizontaly supported by the two separated bricks, and the same paper will support itself properly.



        At a molecular level, you can play with the structures of some materials and enhance a desired characteristic. Take for example, the graphene: graphene is stronger than steel but breaks like glass. However, you can build a spongy graphene structure able to be lighter than the flimsiest plastic and 10 times stronger than steel (not commercially available yet, but works nicely in the laboratory).



        With a more advanced manufacturing technology (in the same future where the mechs are fabricated) surely there will be more options like this.



        Here is the link to that article about the graphene material:
        https://www.livescience.com/57432-stronger-than-steel-material.html



        EDIT: And just to clarify: This super-alloys are in no way "technological magic"

        :)






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          This is what I was thinking when I read it. By the time we're actually using mechs, I would think we would have a wealth of structural "meta-materials" to play around with; along with much better analysis so that we can make smarter designs. Finite element programs can already come up with some really cool designs when they are set to optimize materials vs. strength. I could easily see new materials and new computer-driven analysis taking this really far in the next hundred years or so.
          – JMac
          Aug 16 at 16:43

















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        More legs to spread the weight.



        Also, you could have the legs "splay" a network of supporting struts at each step, multiplying the "feet" surface either above or immediately beneath the surface. In both cases, this has serious implications on the mech's deployability (can't walk on some kinds of terrains, and the mechs could be lamed by shooting at their feet - a very literal Achilles' heel).






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          If you have two or more legs that distribute the weight of the mech over a larger portion of the ground, it should be feasible.



          How large are your mechs going to be? This is a large factor in how much they weigh, and ultimately how large the "feet" need to be. I'd recommend looking into the mechs from Chromehounds, or even the Mantis from Halo for inspiration regarding mech leg structure.






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            Have the setting be on a planet with less gravity. Overlapping a light alloy, big feet, and a lighter gravity setting would basically minimize the problem.



            (An alternate to light gravity is a dense atmosphere and a mech filled with helium. idk how well it would work unless the atmosphere was super dense though.)






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              Triangular pyramid shaped feet, distributes the weight in 3 directions.



              But the key is with hydraulic shocks.



              The triangular pyramid shaped feet hold it up and allow its gyro to find its balance. While the hydraulic shocks are what truly keep it from sinking in; as the feet touch the shocks kick in and ease the weight down, unlike plopping it down.



              It's like the difference between dropping a bowling ball onto styrofoam vs placing it onto styrofoam. Dropping it destroys the styrofoam while placing it sees no change to its structure. The hydraulic shocks make it more like the weight is being placed onto the ground instead of just crashing into it.



              That said, these would still have to be very impressive shocks and maybe hydraulic isnt strong enough but at least that's the direction I would focus on, or at least have my scientists focus on at least.



              Hope that helps.






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                I would suggest that in addition to increasing the size of the contact area of the feet, you also need to change the overall shape of the mech as well.



                Given issues like the square/cube law and stability due to the centre of gravity, a mech won't scale up like some monster human, but rather will become wider, have "tree trunk" legs that are proportionally much wider than human legs and likely a relatively squat torso. The idea of "arms" is really a bit of a non starter as well, the changes to balance while moving multi ton arms around (much less the recoil of arm mounted weapons) would make moving and fighting immensely more complicated.



                If anything, the form factor might be more like the "Huey, Dewey and Louie" robots from the 1970 era movie "Silent Running"



                enter image description here



                Sure they're cute now, but imagine if they were 20' tall and bristling with weapons



                OF course even with this they will still be vulnerable to virtually everything a modern military force can bring to bear, the Mech will have to deal with everything from 500lb "Small Diameter Bombs" launched from a stealth F-35 100 km away to Infantry solders firing Javelin "Fire and Forget" ATGM's from 4750 meters. Only truly deranged or desperate people would actually approach close enough to use an RPG or Carl Gustav type anti tank weapon.



                This suggests the Mech will likely have a large proportion of its carrying capacity devoted to countermeasures such as the CIWS, Trophy active defence systems and 100kW lasers, rather than massive batteries of cannons and missiles. As a mobile protective system for a land based formation, you may have found the niche for Mechs in battle.






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                • I refer you to the Dreadnought
                  – Ruadhan
                  Aug 17 at 8:26

















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                Your mechs could just roll around on tread in their feet instead of walking. That way you only have to worry about the weight to calculate pressure and not the amount of force your mech puts on the ground when it walks/run/does taekwando.



                This would easily take care of explaining how your mechs are fast, and why their feet are so big. it would also allow you to Piggy back off of tread technology.



                You should also start thinking about using some un-attain-ium techno-magic material like gundam does. In Gundam 00 the mechs are built with E carbon, which is just better Carbon fiber. In wing, Gundam's are literally built with Gundanium which is essentially a special blend of titanium built in such a way that it ends up with a damn near perfect matrix - the molecules are all packed uniformly - with highly advantageous properties. You're going to want to make your mechs light since you're going for realism.



                Another solution is straight out of pretty much every mech anime. Your Mechs don't walk that much, they fly. This is another popular solution I've seen to how your mech doesn't break the ground while landing after a running jump kick or something else a little dumb.



                Look at how much force you put on the ground running vs walking vs standing. There's quite a difference. Just having large feet to reduce pressure isn't the only thing to consider.






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                  0
                  down vote













                  In my opinion anti-gravitation devices should not be used as such an explanation. Any Society which has technology on that level would have weapons available which far exceed our imagination and definitely no needs for mechs in the conventional sense. So unless you introduce a very good explanation (e.g. they found devices from another civilization).






                  share|improve this answer



























                    up vote
                    -1
                    down vote













                    'Big feet' (surface area) seems to be the general solution, in addition to "They sink into the ground a bit". Largest land animal being the elephant, foot diameter of 40-50cm, area of about 2 square feet, 13,000 lbs, 2 legs, 3,500 lbs. per foot?






                    share|improve this answer




















                    • There is already a well written answer already addressing the contact area.
                      – L.Dutch♦
                      Aug 16 at 19:34










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                    16 Answers
                    16






                    active

                    oldest

                    votes








                    16 Answers
                    16






                    active

                    oldest

                    votes









                    active

                    oldest

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                    active

                    oldest

                    votes








                    up vote
                    48
                    down vote













                    The ground is pretty strong



                    In an answer to another question, I demonstrate that a 20,000 ton kaiju shouldn't have too much trouble moving around on land, with feet only twice as large (area wise) relative to its body as a human.



                    A human sprinter puts out a ground reaction force of 3000 N or roughly 150 kPa (from that link). For a 100 ton mech (heavier than a main battle tank), ground force at rest is 1 MN (roughly), which requires only ~7 m$^2$ of foot surface area to yield equivalent ground pressure of a human sprinter's foot. Triple this for safety, and divide by four legs, and you would need each of the four 'feet' of the mech to be around 2 meters square in size. Not super large, not super impractical.






                    share|improve this answer
















                    • 8




                      @LordFarquaad: Due to the related math involved, that also makes it impassable for humans.
                      – Mooing Duck
                      Aug 16 at 23:39






                    • 5




                      As a side note, this is mostly why snow rackets work, they distribute the weight on a wider surface. It's also why on an ice crust it's safer to use vehicles with tracks than with wheels.
                      – ChatterOne
                      Aug 17 at 8:48






                    • 2




                      @MooingDuck: Curiously enough, due to the height difference of typical humans vs. typical pedestrian mechs some grounds that for tactical purposes are (nigh) impassable to humans may still be passable to mechs, e. g. not-too-deep swamps.
                      – David Foerster
                      Aug 17 at 12:54






                    • 1




                      @DavidFoerster: I realized it can work in reverse too. If there's giant soft spots, a giant food can't pass, but small feet can navigate between.
                      – Mooing Duck
                      Aug 17 at 17:00






                    • 1




                      This seems to be comparing the dynamic load of a sprinter sprinting to the static load of a mech just standing around. Also, it's a pretty small mech - not even as heavy as two M1 Abrams tanks.
                      – user2357112
                      Aug 17 at 17:55














                    up vote
                    48
                    down vote













                    The ground is pretty strong



                    In an answer to another question, I demonstrate that a 20,000 ton kaiju shouldn't have too much trouble moving around on land, with feet only twice as large (area wise) relative to its body as a human.



                    A human sprinter puts out a ground reaction force of 3000 N or roughly 150 kPa (from that link). For a 100 ton mech (heavier than a main battle tank), ground force at rest is 1 MN (roughly), which requires only ~7 m$^2$ of foot surface area to yield equivalent ground pressure of a human sprinter's foot. Triple this for safety, and divide by four legs, and you would need each of the four 'feet' of the mech to be around 2 meters square in size. Not super large, not super impractical.






                    share|improve this answer
















                    • 8




                      @LordFarquaad: Due to the related math involved, that also makes it impassable for humans.
                      – Mooing Duck
                      Aug 16 at 23:39






                    • 5




                      As a side note, this is mostly why snow rackets work, they distribute the weight on a wider surface. It's also why on an ice crust it's safer to use vehicles with tracks than with wheels.
                      – ChatterOne
                      Aug 17 at 8:48






                    • 2




                      @MooingDuck: Curiously enough, due to the height difference of typical humans vs. typical pedestrian mechs some grounds that for tactical purposes are (nigh) impassable to humans may still be passable to mechs, e. g. not-too-deep swamps.
                      – David Foerster
                      Aug 17 at 12:54






                    • 1




                      @DavidFoerster: I realized it can work in reverse too. If there's giant soft spots, a giant food can't pass, but small feet can navigate between.
                      – Mooing Duck
                      Aug 17 at 17:00






                    • 1




                      This seems to be comparing the dynamic load of a sprinter sprinting to the static load of a mech just standing around. Also, it's a pretty small mech - not even as heavy as two M1 Abrams tanks.
                      – user2357112
                      Aug 17 at 17:55












                    up vote
                    48
                    down vote










                    up vote
                    48
                    down vote









                    The ground is pretty strong



                    In an answer to another question, I demonstrate that a 20,000 ton kaiju shouldn't have too much trouble moving around on land, with feet only twice as large (area wise) relative to its body as a human.



                    A human sprinter puts out a ground reaction force of 3000 N or roughly 150 kPa (from that link). For a 100 ton mech (heavier than a main battle tank), ground force at rest is 1 MN (roughly), which requires only ~7 m$^2$ of foot surface area to yield equivalent ground pressure of a human sprinter's foot. Triple this for safety, and divide by four legs, and you would need each of the four 'feet' of the mech to be around 2 meters square in size. Not super large, not super impractical.






                    share|improve this answer












                    The ground is pretty strong



                    In an answer to another question, I demonstrate that a 20,000 ton kaiju shouldn't have too much trouble moving around on land, with feet only twice as large (area wise) relative to its body as a human.



                    A human sprinter puts out a ground reaction force of 3000 N or roughly 150 kPa (from that link). For a 100 ton mech (heavier than a main battle tank), ground force at rest is 1 MN (roughly), which requires only ~7 m$^2$ of foot surface area to yield equivalent ground pressure of a human sprinter's foot. Triple this for safety, and divide by four legs, and you would need each of the four 'feet' of the mech to be around 2 meters square in size. Not super large, not super impractical.







                    share|improve this answer












                    share|improve this answer



                    share|improve this answer










                    answered Aug 16 at 12:51









                    kingledion

                    63.1k21197344




                    63.1k21197344







                    • 8




                      @LordFarquaad: Due to the related math involved, that also makes it impassable for humans.
                      – Mooing Duck
                      Aug 16 at 23:39






                    • 5




                      As a side note, this is mostly why snow rackets work, they distribute the weight on a wider surface. It's also why on an ice crust it's safer to use vehicles with tracks than with wheels.
                      – ChatterOne
                      Aug 17 at 8:48






                    • 2




                      @MooingDuck: Curiously enough, due to the height difference of typical humans vs. typical pedestrian mechs some grounds that for tactical purposes are (nigh) impassable to humans may still be passable to mechs, e. g. not-too-deep swamps.
                      – David Foerster
                      Aug 17 at 12:54






                    • 1




                      @DavidFoerster: I realized it can work in reverse too. If there's giant soft spots, a giant food can't pass, but small feet can navigate between.
                      – Mooing Duck
                      Aug 17 at 17:00






                    • 1




                      This seems to be comparing the dynamic load of a sprinter sprinting to the static load of a mech just standing around. Also, it's a pretty small mech - not even as heavy as two M1 Abrams tanks.
                      – user2357112
                      Aug 17 at 17:55












                    • 8




                      @LordFarquaad: Due to the related math involved, that also makes it impassable for humans.
                      – Mooing Duck
                      Aug 16 at 23:39






                    • 5




                      As a side note, this is mostly why snow rackets work, they distribute the weight on a wider surface. It's also why on an ice crust it's safer to use vehicles with tracks than with wheels.
                      – ChatterOne
                      Aug 17 at 8:48






                    • 2




                      @MooingDuck: Curiously enough, due to the height difference of typical humans vs. typical pedestrian mechs some grounds that for tactical purposes are (nigh) impassable to humans may still be passable to mechs, e. g. not-too-deep swamps.
                      – David Foerster
                      Aug 17 at 12:54






                    • 1




                      @DavidFoerster: I realized it can work in reverse too. If there's giant soft spots, a giant food can't pass, but small feet can navigate between.
                      – Mooing Duck
                      Aug 17 at 17:00






                    • 1




                      This seems to be comparing the dynamic load of a sprinter sprinting to the static load of a mech just standing around. Also, it's a pretty small mech - not even as heavy as two M1 Abrams tanks.
                      – user2357112
                      Aug 17 at 17:55







                    8




                    8




                    @LordFarquaad: Due to the related math involved, that also makes it impassable for humans.
                    – Mooing Duck
                    Aug 16 at 23:39




                    @LordFarquaad: Due to the related math involved, that also makes it impassable for humans.
                    – Mooing Duck
                    Aug 16 at 23:39




                    5




                    5




                    As a side note, this is mostly why snow rackets work, they distribute the weight on a wider surface. It's also why on an ice crust it's safer to use vehicles with tracks than with wheels.
                    – ChatterOne
                    Aug 17 at 8:48




                    As a side note, this is mostly why snow rackets work, they distribute the weight on a wider surface. It's also why on an ice crust it's safer to use vehicles with tracks than with wheels.
                    – ChatterOne
                    Aug 17 at 8:48




                    2




                    2




                    @MooingDuck: Curiously enough, due to the height difference of typical humans vs. typical pedestrian mechs some grounds that for tactical purposes are (nigh) impassable to humans may still be passable to mechs, e. g. not-too-deep swamps.
                    – David Foerster
                    Aug 17 at 12:54




                    @MooingDuck: Curiously enough, due to the height difference of typical humans vs. typical pedestrian mechs some grounds that for tactical purposes are (nigh) impassable to humans may still be passable to mechs, e. g. not-too-deep swamps.
                    – David Foerster
                    Aug 17 at 12:54




                    1




                    1




                    @DavidFoerster: I realized it can work in reverse too. If there's giant soft spots, a giant food can't pass, but small feet can navigate between.
                    – Mooing Duck
                    Aug 17 at 17:00




                    @DavidFoerster: I realized it can work in reverse too. If there's giant soft spots, a giant food can't pass, but small feet can navigate between.
                    – Mooing Duck
                    Aug 17 at 17:00




                    1




                    1




                    This seems to be comparing the dynamic load of a sprinter sprinting to the static load of a mech just standing around. Also, it's a pretty small mech - not even as heavy as two M1 Abrams tanks.
                    – user2357112
                    Aug 17 at 17:55




                    This seems to be comparing the dynamic load of a sprinter sprinting to the static load of a mech just standing around. Also, it's a pretty small mech - not even as heavy as two M1 Abrams tanks.
                    – user2357112
                    Aug 17 at 17:55










                    up vote
                    12
                    down vote













                    Warhammer 40k features Titans, gigantic bipedal war machines ranging from 20 to 80 meters in height, layered in armour and bristling with weaponry.



                    They explicitly don't care about ground-pressure. Where they go, they leave meters-deep footprints and crush boulders to gravel. To a thousand ton walker, soil and rock might as well be ankle-deep mud.



                    However, the largest of them compensate for their extreme mass by using anti-gravity systems to reduce it. These don't so much hover as lighten the load enough to walk without sinking to the bedrock.






                    share|improve this answer


















                    • 2




                      On the 40k anti-grav systems: they also allow you to lower the centre of gravity (anti-grav the top, leave the feet at full weight) for stability
                      – Chronocidal
                      Aug 16 at 14:44










                    • @Chronocidal: What you intend to lower has nothing to do with gravity and weight/lift, its proper name is the center of mass, and won't be shifted by anti-gravity.
                      – Ben Voigt
                      Aug 17 at 1:55






                    • 3




                      @BenVoigt About 50:50 - the centre of mass, which won't change, will impact momentum, and how the mech reacts to forces from other objects. The centre of gravity will drop, and relates to the force generated by gravity (a.k.a. "weight") acting on the mass of the mech itself - similar to the difference in control between front-wheel and rear-wheel drive. But, because mass and weight are typically treatable as directly proportional, (barring extreme gravitational gradients such as the Lagrange points between 2 stars that are about to collide) these points are normally almost exactly the same.
                      – Chronocidal
                      Aug 17 at 7:33






                    • 1




                      I expect that rather depends on how your anti-gravity systems work. if they provide lift vs gravity then they don't affect mass or inertia, if they nullify mass in some way to make the vehicle physically lighter, that'd definitely affect the vehicle's center of mass.
                      – Ruadhan
                      Aug 17 at 8:23














                    up vote
                    12
                    down vote













                    Warhammer 40k features Titans, gigantic bipedal war machines ranging from 20 to 80 meters in height, layered in armour and bristling with weaponry.



                    They explicitly don't care about ground-pressure. Where they go, they leave meters-deep footprints and crush boulders to gravel. To a thousand ton walker, soil and rock might as well be ankle-deep mud.



                    However, the largest of them compensate for their extreme mass by using anti-gravity systems to reduce it. These don't so much hover as lighten the load enough to walk without sinking to the bedrock.






                    share|improve this answer


















                    • 2




                      On the 40k anti-grav systems: they also allow you to lower the centre of gravity (anti-grav the top, leave the feet at full weight) for stability
                      – Chronocidal
                      Aug 16 at 14:44










                    • @Chronocidal: What you intend to lower has nothing to do with gravity and weight/lift, its proper name is the center of mass, and won't be shifted by anti-gravity.
                      – Ben Voigt
                      Aug 17 at 1:55






                    • 3




                      @BenVoigt About 50:50 - the centre of mass, which won't change, will impact momentum, and how the mech reacts to forces from other objects. The centre of gravity will drop, and relates to the force generated by gravity (a.k.a. "weight") acting on the mass of the mech itself - similar to the difference in control between front-wheel and rear-wheel drive. But, because mass and weight are typically treatable as directly proportional, (barring extreme gravitational gradients such as the Lagrange points between 2 stars that are about to collide) these points are normally almost exactly the same.
                      – Chronocidal
                      Aug 17 at 7:33






                    • 1




                      I expect that rather depends on how your anti-gravity systems work. if they provide lift vs gravity then they don't affect mass or inertia, if they nullify mass in some way to make the vehicle physically lighter, that'd definitely affect the vehicle's center of mass.
                      – Ruadhan
                      Aug 17 at 8:23












                    up vote
                    12
                    down vote










                    up vote
                    12
                    down vote









                    Warhammer 40k features Titans, gigantic bipedal war machines ranging from 20 to 80 meters in height, layered in armour and bristling with weaponry.



                    They explicitly don't care about ground-pressure. Where they go, they leave meters-deep footprints and crush boulders to gravel. To a thousand ton walker, soil and rock might as well be ankle-deep mud.



                    However, the largest of them compensate for their extreme mass by using anti-gravity systems to reduce it. These don't so much hover as lighten the load enough to walk without sinking to the bedrock.






                    share|improve this answer














                    Warhammer 40k features Titans, gigantic bipedal war machines ranging from 20 to 80 meters in height, layered in armour and bristling with weaponry.



                    They explicitly don't care about ground-pressure. Where they go, they leave meters-deep footprints and crush boulders to gravel. To a thousand ton walker, soil and rock might as well be ankle-deep mud.



                    However, the largest of them compensate for their extreme mass by using anti-gravity systems to reduce it. These don't so much hover as lighten the load enough to walk without sinking to the bedrock.







                    share|improve this answer














                    share|improve this answer



                    share|improve this answer








                    edited Aug 17 at 8:28

























                    answered Aug 16 at 13:57









                    Ruadhan

                    2,564316




                    2,564316







                    • 2




                      On the 40k anti-grav systems: they also allow you to lower the centre of gravity (anti-grav the top, leave the feet at full weight) for stability
                      – Chronocidal
                      Aug 16 at 14:44










                    • @Chronocidal: What you intend to lower has nothing to do with gravity and weight/lift, its proper name is the center of mass, and won't be shifted by anti-gravity.
                      – Ben Voigt
                      Aug 17 at 1:55






                    • 3




                      @BenVoigt About 50:50 - the centre of mass, which won't change, will impact momentum, and how the mech reacts to forces from other objects. The centre of gravity will drop, and relates to the force generated by gravity (a.k.a. "weight") acting on the mass of the mech itself - similar to the difference in control between front-wheel and rear-wheel drive. But, because mass and weight are typically treatable as directly proportional, (barring extreme gravitational gradients such as the Lagrange points between 2 stars that are about to collide) these points are normally almost exactly the same.
                      – Chronocidal
                      Aug 17 at 7:33






                    • 1




                      I expect that rather depends on how your anti-gravity systems work. if they provide lift vs gravity then they don't affect mass or inertia, if they nullify mass in some way to make the vehicle physically lighter, that'd definitely affect the vehicle's center of mass.
                      – Ruadhan
                      Aug 17 at 8:23












                    • 2




                      On the 40k anti-grav systems: they also allow you to lower the centre of gravity (anti-grav the top, leave the feet at full weight) for stability
                      – Chronocidal
                      Aug 16 at 14:44










                    • @Chronocidal: What you intend to lower has nothing to do with gravity and weight/lift, its proper name is the center of mass, and won't be shifted by anti-gravity.
                      – Ben Voigt
                      Aug 17 at 1:55






                    • 3




                      @BenVoigt About 50:50 - the centre of mass, which won't change, will impact momentum, and how the mech reacts to forces from other objects. The centre of gravity will drop, and relates to the force generated by gravity (a.k.a. "weight") acting on the mass of the mech itself - similar to the difference in control between front-wheel and rear-wheel drive. But, because mass and weight are typically treatable as directly proportional, (barring extreme gravitational gradients such as the Lagrange points between 2 stars that are about to collide) these points are normally almost exactly the same.
                      – Chronocidal
                      Aug 17 at 7:33






                    • 1




                      I expect that rather depends on how your anti-gravity systems work. if they provide lift vs gravity then they don't affect mass or inertia, if they nullify mass in some way to make the vehicle physically lighter, that'd definitely affect the vehicle's center of mass.
                      – Ruadhan
                      Aug 17 at 8:23







                    2




                    2




                    On the 40k anti-grav systems: they also allow you to lower the centre of gravity (anti-grav the top, leave the feet at full weight) for stability
                    – Chronocidal
                    Aug 16 at 14:44




                    On the 40k anti-grav systems: they also allow you to lower the centre of gravity (anti-grav the top, leave the feet at full weight) for stability
                    – Chronocidal
                    Aug 16 at 14:44












                    @Chronocidal: What you intend to lower has nothing to do with gravity and weight/lift, its proper name is the center of mass, and won't be shifted by anti-gravity.
                    – Ben Voigt
                    Aug 17 at 1:55




                    @Chronocidal: What you intend to lower has nothing to do with gravity and weight/lift, its proper name is the center of mass, and won't be shifted by anti-gravity.
                    – Ben Voigt
                    Aug 17 at 1:55




                    3




                    3




                    @BenVoigt About 50:50 - the centre of mass, which won't change, will impact momentum, and how the mech reacts to forces from other objects. The centre of gravity will drop, and relates to the force generated by gravity (a.k.a. "weight") acting on the mass of the mech itself - similar to the difference in control between front-wheel and rear-wheel drive. But, because mass and weight are typically treatable as directly proportional, (barring extreme gravitational gradients such as the Lagrange points between 2 stars that are about to collide) these points are normally almost exactly the same.
                    – Chronocidal
                    Aug 17 at 7:33




                    @BenVoigt About 50:50 - the centre of mass, which won't change, will impact momentum, and how the mech reacts to forces from other objects. The centre of gravity will drop, and relates to the force generated by gravity (a.k.a. "weight") acting on the mass of the mech itself - similar to the difference in control between front-wheel and rear-wheel drive. But, because mass and weight are typically treatable as directly proportional, (barring extreme gravitational gradients such as the Lagrange points between 2 stars that are about to collide) these points are normally almost exactly the same.
                    – Chronocidal
                    Aug 17 at 7:33




                    1




                    1




                    I expect that rather depends on how your anti-gravity systems work. if they provide lift vs gravity then they don't affect mass or inertia, if they nullify mass in some way to make the vehicle physically lighter, that'd definitely affect the vehicle's center of mass.
                    – Ruadhan
                    Aug 17 at 8:23




                    I expect that rather depends on how your anti-gravity systems work. if they provide lift vs gravity then they don't affect mass or inertia, if they nullify mass in some way to make the vehicle physically lighter, that'd definitely affect the vehicle's center of mass.
                    – Ruadhan
                    Aug 17 at 8:23










                    up vote
                    11
                    down vote













                    This toy has booms around 80 meters long and can weight up to 14,200 metric tons, depending on configuration:



                    Bucket wheel excavator



                    It leaves some tracks on dirt, but that's it. Notice how it goes around without sinking into the ground, which would be very bad for it since it has no legs.



                    As long as your mechs have a weight-to-surface ratio not less favourable than the bucket-wheel excavator's, and are not walking on quicksand, they shouldn't have to bother about sinking.






                    share|improve this answer
















                    • 1




                      The crawler transporting the Saturn V was even more impressive ;)
                      – L.Dutch♦
                      Aug 16 at 19:35











                    • @L.Dutch it was only 2,700 tons heavy though. Baggers are usually five times heavier.
                      – Renan
                      Aug 16 at 20:19






                    • 4




                      Accordng to Wikipedia, that thing (or something similar) has less ground pressure than a bicycle, a car or an elephant. .
                      – canadianer
                      Aug 17 at 1:42










                    • You've not mentioned what that thing is: the 'Bagger 293'.
                      – Max Barraclough
                      Aug 18 at 19:51














                    up vote
                    11
                    down vote













                    This toy has booms around 80 meters long and can weight up to 14,200 metric tons, depending on configuration:



                    Bucket wheel excavator



                    It leaves some tracks on dirt, but that's it. Notice how it goes around without sinking into the ground, which would be very bad for it since it has no legs.



                    As long as your mechs have a weight-to-surface ratio not less favourable than the bucket-wheel excavator's, and are not walking on quicksand, they shouldn't have to bother about sinking.






                    share|improve this answer
















                    • 1




                      The crawler transporting the Saturn V was even more impressive ;)
                      – L.Dutch♦
                      Aug 16 at 19:35











                    • @L.Dutch it was only 2,700 tons heavy though. Baggers are usually five times heavier.
                      – Renan
                      Aug 16 at 20:19






                    • 4




                      Accordng to Wikipedia, that thing (or something similar) has less ground pressure than a bicycle, a car or an elephant. .
                      – canadianer
                      Aug 17 at 1:42










                    • You've not mentioned what that thing is: the 'Bagger 293'.
                      – Max Barraclough
                      Aug 18 at 19:51












                    up vote
                    11
                    down vote










                    up vote
                    11
                    down vote









                    This toy has booms around 80 meters long and can weight up to 14,200 metric tons, depending on configuration:



                    Bucket wheel excavator



                    It leaves some tracks on dirt, but that's it. Notice how it goes around without sinking into the ground, which would be very bad for it since it has no legs.



                    As long as your mechs have a weight-to-surface ratio not less favourable than the bucket-wheel excavator's, and are not walking on quicksand, they shouldn't have to bother about sinking.






                    share|improve this answer












                    This toy has booms around 80 meters long and can weight up to 14,200 metric tons, depending on configuration:



                    Bucket wheel excavator



                    It leaves some tracks on dirt, but that's it. Notice how it goes around without sinking into the ground, which would be very bad for it since it has no legs.



                    As long as your mechs have a weight-to-surface ratio not less favourable than the bucket-wheel excavator's, and are not walking on quicksand, they shouldn't have to bother about sinking.







                    share|improve this answer












                    share|improve this answer



                    share|improve this answer










                    answered Aug 16 at 17:32









                    Renan

                    32k768164




                    32k768164







                    • 1




                      The crawler transporting the Saturn V was even more impressive ;)
                      – L.Dutch♦
                      Aug 16 at 19:35











                    • @L.Dutch it was only 2,700 tons heavy though. Baggers are usually five times heavier.
                      – Renan
                      Aug 16 at 20:19






                    • 4




                      Accordng to Wikipedia, that thing (or something similar) has less ground pressure than a bicycle, a car or an elephant. .
                      – canadianer
                      Aug 17 at 1:42










                    • You've not mentioned what that thing is: the 'Bagger 293'.
                      – Max Barraclough
                      Aug 18 at 19:51












                    • 1




                      The crawler transporting the Saturn V was even more impressive ;)
                      – L.Dutch♦
                      Aug 16 at 19:35











                    • @L.Dutch it was only 2,700 tons heavy though. Baggers are usually five times heavier.
                      – Renan
                      Aug 16 at 20:19






                    • 4




                      Accordng to Wikipedia, that thing (or something similar) has less ground pressure than a bicycle, a car or an elephant. .
                      – canadianer
                      Aug 17 at 1:42










                    • You've not mentioned what that thing is: the 'Bagger 293'.
                      – Max Barraclough
                      Aug 18 at 19:51







                    1




                    1




                    The crawler transporting the Saturn V was even more impressive ;)
                    – L.Dutch♦
                    Aug 16 at 19:35





                    The crawler transporting the Saturn V was even more impressive ;)
                    – L.Dutch♦
                    Aug 16 at 19:35













                    @L.Dutch it was only 2,700 tons heavy though. Baggers are usually five times heavier.
                    – Renan
                    Aug 16 at 20:19




                    @L.Dutch it was only 2,700 tons heavy though. Baggers are usually five times heavier.
                    – Renan
                    Aug 16 at 20:19




                    4




                    4




                    Accordng to Wikipedia, that thing (or something similar) has less ground pressure than a bicycle, a car or an elephant. .
                    – canadianer
                    Aug 17 at 1:42




                    Accordng to Wikipedia, that thing (or something similar) has less ground pressure than a bicycle, a car or an elephant. .
                    – canadianer
                    Aug 17 at 1:42












                    You've not mentioned what that thing is: the 'Bagger 293'.
                    – Max Barraclough
                    Aug 18 at 19:51




                    You've not mentioned what that thing is: the 'Bagger 293'.
                    – Max Barraclough
                    Aug 18 at 19:51










                    up vote
                    10
                    down vote













                    I've talked about it before, when your Mech starts growing you are going to need more legs. And using small excavator arms as legs it's practically feasible to have an 8 legged Mech of 100+tons, something that tanks have trouble with as the tanks are limited by length and width just as much as a Mech is limited by the square cube law.



                    If you want to have as few legs as possible then the biggest problem is ground pressure. However you can use that sagging into the ground as an advantage. For example instead of wider feet you create a spiked cone at the bottom that quickly widens. The surface of the cone already is larger than the surface of the feet. The cone will drive itself into the ground and as it does so the supportive surface grows. Additionally the weight of the Mech wont just push the earth down, it'll push it sideways meaning less groundpressure for the ground directly below it. Since you are also into the ground you have a better grip, allowing you to climb steeper inclines. This is also the part where a Mech becomes useful: it wont have lots of advantages in open terrain due to lower velocities but in hilly or mountain terrain a Mech's mobility would be higher than a tank. Still, making larger legs or splitting the feet into multiple smaller "legs" with a large surface area they stand on (and the ability to stand better on uneven terrain) are additional options.



                    Another often tauted disadvantage is disabling the legs. While a destroyed leg is definitely worse for a Mech than a tank, a Mech would be the only vehicle that can effectively armor the entirety of the leg. Additionally anyone firing at the legs themselves with an AT weapon would be send back to training as firing at the smaller and constantly accelerating/decelerating legs is a recipy for disaster. Anyone with training would aim for the joints where the legs meet the chassis which is practically the same as with a normal tank. That would make a Mech still less vulnerable to disabling fire due to the armor on the legs but the consequences for a successful hit are larger.



                    Edit: for those against the spike idea, you can easily expand on it and design better. For example a cylinder with a hollow shaped like a cone on the bottom of the feet: the edges are "sharp" and push the soil to the center of the cone where it compacts. It also adds surface area and even watery mud would get high pressures to support the feet as it goes deeper.






                    share|improve this answer






















                    • Regarding your idea of the spikes: While i do think it's a good solution it only works to a certain size. If your mech is colossal then it would have to lift its legs a lot for every step as it would have to pull out the spikes.
                      – ArtificialSoul
                      Aug 16 at 12:49






                    • 2




                      Also regarding the idea of the spikes: The mechs would be difficult/cumbersome to move over surfaces you don't want to poke full of holes. Mechs defending a critical airfield would be unable to cross the runways and taxiways, or else they'd do the enemy's work for them. The same applies to roads and bridges. Your mechs would need to be trailer-able onto some large truck with wheels to get them across paved surfaces. That would also be useful for moving the mechs to the frontlines quickly, as the truck could probably drive faster than the mech can walk.
                      – Jared K
                      Aug 16 at 14:17










                    • @Jared K Mechs wouldnt be as useful as tanks for defending an airfield unless it's something like the Swiss mountain airfields. If you still want to use them there you do it like most vehicles do nowadays: modular. The airfield and surroundings are almost certainly made to handle heavy traffic so the ground is likely able to handle the pressure if you take the spikes off. Also you'd better be building Mech trenches, Mech's are perfect for popping up, firing and going down, then moving further along the trench. This is something tanks cant do as well.
                      – Demigan
                      Aug 16 at 14:56










                    • @artificialsoul if you are talking about the 10+m tall 200+ton bipedal mechs with weapons out of every orifice then yes. But at that point you might as well make a 20m long tank with 5cm long tracks, say Segway made it and tracks are perfect for ground pressure and you've got about the same lunacy.
                      – Demigan
                      Aug 16 at 14:59






                    • 3




                      Ack! No, no, no! By going to spikes you make the feet sink deeper for the same amount of weight. In effect, you increase the ability to penetrate the ground, and that is not what you're trying to do. " the weight of the Mech wont just push the earth down, it'll push it sideways". Exactly. And making it easier for the foot to push dirt out of it's way makes it sink deeper, not less.
                      – WhatRoughBeast
                      Aug 16 at 17:10














                    up vote
                    10
                    down vote













                    I've talked about it before, when your Mech starts growing you are going to need more legs. And using small excavator arms as legs it's practically feasible to have an 8 legged Mech of 100+tons, something that tanks have trouble with as the tanks are limited by length and width just as much as a Mech is limited by the square cube law.



                    If you want to have as few legs as possible then the biggest problem is ground pressure. However you can use that sagging into the ground as an advantage. For example instead of wider feet you create a spiked cone at the bottom that quickly widens. The surface of the cone already is larger than the surface of the feet. The cone will drive itself into the ground and as it does so the supportive surface grows. Additionally the weight of the Mech wont just push the earth down, it'll push it sideways meaning less groundpressure for the ground directly below it. Since you are also into the ground you have a better grip, allowing you to climb steeper inclines. This is also the part where a Mech becomes useful: it wont have lots of advantages in open terrain due to lower velocities but in hilly or mountain terrain a Mech's mobility would be higher than a tank. Still, making larger legs or splitting the feet into multiple smaller "legs" with a large surface area they stand on (and the ability to stand better on uneven terrain) are additional options.



                    Another often tauted disadvantage is disabling the legs. While a destroyed leg is definitely worse for a Mech than a tank, a Mech would be the only vehicle that can effectively armor the entirety of the leg. Additionally anyone firing at the legs themselves with an AT weapon would be send back to training as firing at the smaller and constantly accelerating/decelerating legs is a recipy for disaster. Anyone with training would aim for the joints where the legs meet the chassis which is practically the same as with a normal tank. That would make a Mech still less vulnerable to disabling fire due to the armor on the legs but the consequences for a successful hit are larger.



                    Edit: for those against the spike idea, you can easily expand on it and design better. For example a cylinder with a hollow shaped like a cone on the bottom of the feet: the edges are "sharp" and push the soil to the center of the cone where it compacts. It also adds surface area and even watery mud would get high pressures to support the feet as it goes deeper.






                    share|improve this answer






















                    • Regarding your idea of the spikes: While i do think it's a good solution it only works to a certain size. If your mech is colossal then it would have to lift its legs a lot for every step as it would have to pull out the spikes.
                      – ArtificialSoul
                      Aug 16 at 12:49






                    • 2




                      Also regarding the idea of the spikes: The mechs would be difficult/cumbersome to move over surfaces you don't want to poke full of holes. Mechs defending a critical airfield would be unable to cross the runways and taxiways, or else they'd do the enemy's work for them. The same applies to roads and bridges. Your mechs would need to be trailer-able onto some large truck with wheels to get them across paved surfaces. That would also be useful for moving the mechs to the frontlines quickly, as the truck could probably drive faster than the mech can walk.
                      – Jared K
                      Aug 16 at 14:17










                    • @Jared K Mechs wouldnt be as useful as tanks for defending an airfield unless it's something like the Swiss mountain airfields. If you still want to use them there you do it like most vehicles do nowadays: modular. The airfield and surroundings are almost certainly made to handle heavy traffic so the ground is likely able to handle the pressure if you take the spikes off. Also you'd better be building Mech trenches, Mech's are perfect for popping up, firing and going down, then moving further along the trench. This is something tanks cant do as well.
                      – Demigan
                      Aug 16 at 14:56










                    • @artificialsoul if you are talking about the 10+m tall 200+ton bipedal mechs with weapons out of every orifice then yes. But at that point you might as well make a 20m long tank with 5cm long tracks, say Segway made it and tracks are perfect for ground pressure and you've got about the same lunacy.
                      – Demigan
                      Aug 16 at 14:59






                    • 3




                      Ack! No, no, no! By going to spikes you make the feet sink deeper for the same amount of weight. In effect, you increase the ability to penetrate the ground, and that is not what you're trying to do. " the weight of the Mech wont just push the earth down, it'll push it sideways". Exactly. And making it easier for the foot to push dirt out of it's way makes it sink deeper, not less.
                      – WhatRoughBeast
                      Aug 16 at 17:10












                    up vote
                    10
                    down vote










                    up vote
                    10
                    down vote









                    I've talked about it before, when your Mech starts growing you are going to need more legs. And using small excavator arms as legs it's practically feasible to have an 8 legged Mech of 100+tons, something that tanks have trouble with as the tanks are limited by length and width just as much as a Mech is limited by the square cube law.



                    If you want to have as few legs as possible then the biggest problem is ground pressure. However you can use that sagging into the ground as an advantage. For example instead of wider feet you create a spiked cone at the bottom that quickly widens. The surface of the cone already is larger than the surface of the feet. The cone will drive itself into the ground and as it does so the supportive surface grows. Additionally the weight of the Mech wont just push the earth down, it'll push it sideways meaning less groundpressure for the ground directly below it. Since you are also into the ground you have a better grip, allowing you to climb steeper inclines. This is also the part where a Mech becomes useful: it wont have lots of advantages in open terrain due to lower velocities but in hilly or mountain terrain a Mech's mobility would be higher than a tank. Still, making larger legs or splitting the feet into multiple smaller "legs" with a large surface area they stand on (and the ability to stand better on uneven terrain) are additional options.



                    Another often tauted disadvantage is disabling the legs. While a destroyed leg is definitely worse for a Mech than a tank, a Mech would be the only vehicle that can effectively armor the entirety of the leg. Additionally anyone firing at the legs themselves with an AT weapon would be send back to training as firing at the smaller and constantly accelerating/decelerating legs is a recipy for disaster. Anyone with training would aim for the joints where the legs meet the chassis which is practically the same as with a normal tank. That would make a Mech still less vulnerable to disabling fire due to the armor on the legs but the consequences for a successful hit are larger.



                    Edit: for those against the spike idea, you can easily expand on it and design better. For example a cylinder with a hollow shaped like a cone on the bottom of the feet: the edges are "sharp" and push the soil to the center of the cone where it compacts. It also adds surface area and even watery mud would get high pressures to support the feet as it goes deeper.






                    share|improve this answer














                    I've talked about it before, when your Mech starts growing you are going to need more legs. And using small excavator arms as legs it's practically feasible to have an 8 legged Mech of 100+tons, something that tanks have trouble with as the tanks are limited by length and width just as much as a Mech is limited by the square cube law.



                    If you want to have as few legs as possible then the biggest problem is ground pressure. However you can use that sagging into the ground as an advantage. For example instead of wider feet you create a spiked cone at the bottom that quickly widens. The surface of the cone already is larger than the surface of the feet. The cone will drive itself into the ground and as it does so the supportive surface grows. Additionally the weight of the Mech wont just push the earth down, it'll push it sideways meaning less groundpressure for the ground directly below it. Since you are also into the ground you have a better grip, allowing you to climb steeper inclines. This is also the part where a Mech becomes useful: it wont have lots of advantages in open terrain due to lower velocities but in hilly or mountain terrain a Mech's mobility would be higher than a tank. Still, making larger legs or splitting the feet into multiple smaller "legs" with a large surface area they stand on (and the ability to stand better on uneven terrain) are additional options.



                    Another often tauted disadvantage is disabling the legs. While a destroyed leg is definitely worse for a Mech than a tank, a Mech would be the only vehicle that can effectively armor the entirety of the leg. Additionally anyone firing at the legs themselves with an AT weapon would be send back to training as firing at the smaller and constantly accelerating/decelerating legs is a recipy for disaster. Anyone with training would aim for the joints where the legs meet the chassis which is practically the same as with a normal tank. That would make a Mech still less vulnerable to disabling fire due to the armor on the legs but the consequences for a successful hit are larger.



                    Edit: for those against the spike idea, you can easily expand on it and design better. For example a cylinder with a hollow shaped like a cone on the bottom of the feet: the edges are "sharp" and push the soil to the center of the cone where it compacts. It also adds surface area and even watery mud would get high pressures to support the feet as it goes deeper.







                    share|improve this answer














                    share|improve this answer



                    share|improve this answer








                    edited Aug 17 at 18:22

























                    answered Aug 16 at 12:25









                    Demigan

                    4,7041224




                    4,7041224











                    • Regarding your idea of the spikes: While i do think it's a good solution it only works to a certain size. If your mech is colossal then it would have to lift its legs a lot for every step as it would have to pull out the spikes.
                      – ArtificialSoul
                      Aug 16 at 12:49






                    • 2




                      Also regarding the idea of the spikes: The mechs would be difficult/cumbersome to move over surfaces you don't want to poke full of holes. Mechs defending a critical airfield would be unable to cross the runways and taxiways, or else they'd do the enemy's work for them. The same applies to roads and bridges. Your mechs would need to be trailer-able onto some large truck with wheels to get them across paved surfaces. That would also be useful for moving the mechs to the frontlines quickly, as the truck could probably drive faster than the mech can walk.
                      – Jared K
                      Aug 16 at 14:17










                    • @Jared K Mechs wouldnt be as useful as tanks for defending an airfield unless it's something like the Swiss mountain airfields. If you still want to use them there you do it like most vehicles do nowadays: modular. The airfield and surroundings are almost certainly made to handle heavy traffic so the ground is likely able to handle the pressure if you take the spikes off. Also you'd better be building Mech trenches, Mech's are perfect for popping up, firing and going down, then moving further along the trench. This is something tanks cant do as well.
                      – Demigan
                      Aug 16 at 14:56










                    • @artificialsoul if you are talking about the 10+m tall 200+ton bipedal mechs with weapons out of every orifice then yes. But at that point you might as well make a 20m long tank with 5cm long tracks, say Segway made it and tracks are perfect for ground pressure and you've got about the same lunacy.
                      – Demigan
                      Aug 16 at 14:59






                    • 3




                      Ack! No, no, no! By going to spikes you make the feet sink deeper for the same amount of weight. In effect, you increase the ability to penetrate the ground, and that is not what you're trying to do. " the weight of the Mech wont just push the earth down, it'll push it sideways". Exactly. And making it easier for the foot to push dirt out of it's way makes it sink deeper, not less.
                      – WhatRoughBeast
                      Aug 16 at 17:10
















                    • Regarding your idea of the spikes: While i do think it's a good solution it only works to a certain size. If your mech is colossal then it would have to lift its legs a lot for every step as it would have to pull out the spikes.
                      – ArtificialSoul
                      Aug 16 at 12:49






                    • 2




                      Also regarding the idea of the spikes: The mechs would be difficult/cumbersome to move over surfaces you don't want to poke full of holes. Mechs defending a critical airfield would be unable to cross the runways and taxiways, or else they'd do the enemy's work for them. The same applies to roads and bridges. Your mechs would need to be trailer-able onto some large truck with wheels to get them across paved surfaces. That would also be useful for moving the mechs to the frontlines quickly, as the truck could probably drive faster than the mech can walk.
                      – Jared K
                      Aug 16 at 14:17










                    • @Jared K Mechs wouldnt be as useful as tanks for defending an airfield unless it's something like the Swiss mountain airfields. If you still want to use them there you do it like most vehicles do nowadays: modular. The airfield and surroundings are almost certainly made to handle heavy traffic so the ground is likely able to handle the pressure if you take the spikes off. Also you'd better be building Mech trenches, Mech's are perfect for popping up, firing and going down, then moving further along the trench. This is something tanks cant do as well.
                      – Demigan
                      Aug 16 at 14:56










                    • @artificialsoul if you are talking about the 10+m tall 200+ton bipedal mechs with weapons out of every orifice then yes. But at that point you might as well make a 20m long tank with 5cm long tracks, say Segway made it and tracks are perfect for ground pressure and you've got about the same lunacy.
                      – Demigan
                      Aug 16 at 14:59






                    • 3




                      Ack! No, no, no! By going to spikes you make the feet sink deeper for the same amount of weight. In effect, you increase the ability to penetrate the ground, and that is not what you're trying to do. " the weight of the Mech wont just push the earth down, it'll push it sideways". Exactly. And making it easier for the foot to push dirt out of it's way makes it sink deeper, not less.
                      – WhatRoughBeast
                      Aug 16 at 17:10















                    Regarding your idea of the spikes: While i do think it's a good solution it only works to a certain size. If your mech is colossal then it would have to lift its legs a lot for every step as it would have to pull out the spikes.
                    – ArtificialSoul
                    Aug 16 at 12:49




                    Regarding your idea of the spikes: While i do think it's a good solution it only works to a certain size. If your mech is colossal then it would have to lift its legs a lot for every step as it would have to pull out the spikes.
                    – ArtificialSoul
                    Aug 16 at 12:49




                    2




                    2




                    Also regarding the idea of the spikes: The mechs would be difficult/cumbersome to move over surfaces you don't want to poke full of holes. Mechs defending a critical airfield would be unable to cross the runways and taxiways, or else they'd do the enemy's work for them. The same applies to roads and bridges. Your mechs would need to be trailer-able onto some large truck with wheels to get them across paved surfaces. That would also be useful for moving the mechs to the frontlines quickly, as the truck could probably drive faster than the mech can walk.
                    – Jared K
                    Aug 16 at 14:17




                    Also regarding the idea of the spikes: The mechs would be difficult/cumbersome to move over surfaces you don't want to poke full of holes. Mechs defending a critical airfield would be unable to cross the runways and taxiways, or else they'd do the enemy's work for them. The same applies to roads and bridges. Your mechs would need to be trailer-able onto some large truck with wheels to get them across paved surfaces. That would also be useful for moving the mechs to the frontlines quickly, as the truck could probably drive faster than the mech can walk.
                    – Jared K
                    Aug 16 at 14:17












                    @Jared K Mechs wouldnt be as useful as tanks for defending an airfield unless it's something like the Swiss mountain airfields. If you still want to use them there you do it like most vehicles do nowadays: modular. The airfield and surroundings are almost certainly made to handle heavy traffic so the ground is likely able to handle the pressure if you take the spikes off. Also you'd better be building Mech trenches, Mech's are perfect for popping up, firing and going down, then moving further along the trench. This is something tanks cant do as well.
                    – Demigan
                    Aug 16 at 14:56




                    @Jared K Mechs wouldnt be as useful as tanks for defending an airfield unless it's something like the Swiss mountain airfields. If you still want to use them there you do it like most vehicles do nowadays: modular. The airfield and surroundings are almost certainly made to handle heavy traffic so the ground is likely able to handle the pressure if you take the spikes off. Also you'd better be building Mech trenches, Mech's are perfect for popping up, firing and going down, then moving further along the trench. This is something tanks cant do as well.
                    – Demigan
                    Aug 16 at 14:56












                    @artificialsoul if you are talking about the 10+m tall 200+ton bipedal mechs with weapons out of every orifice then yes. But at that point you might as well make a 20m long tank with 5cm long tracks, say Segway made it and tracks are perfect for ground pressure and you've got about the same lunacy.
                    – Demigan
                    Aug 16 at 14:59




                    @artificialsoul if you are talking about the 10+m tall 200+ton bipedal mechs with weapons out of every orifice then yes. But at that point you might as well make a 20m long tank with 5cm long tracks, say Segway made it and tracks are perfect for ground pressure and you've got about the same lunacy.
                    – Demigan
                    Aug 16 at 14:59




                    3




                    3




                    Ack! No, no, no! By going to spikes you make the feet sink deeper for the same amount of weight. In effect, you increase the ability to penetrate the ground, and that is not what you're trying to do. " the weight of the Mech wont just push the earth down, it'll push it sideways". Exactly. And making it easier for the foot to push dirt out of it's way makes it sink deeper, not less.
                    – WhatRoughBeast
                    Aug 16 at 17:10




                    Ack! No, no, no! By going to spikes you make the feet sink deeper for the same amount of weight. In effect, you increase the ability to penetrate the ground, and that is not what you're trying to do. " the weight of the Mech wont just push the earth down, it'll push it sideways". Exactly. And making it easier for the foot to push dirt out of it's way makes it sink deeper, not less.
                    – WhatRoughBeast
                    Aug 16 at 17:10










                    up vote
                    8
                    down vote













                    Larger feet are what camels use to prevent sinking into the desert. Your mechs could use that technique (it reduces pressure by increasing the area of force application). They could also have rockets or boosters of some sort to lift them out if they do get stuck.



                    Also, the idea of mechs sinking into the ground could be a cool plot device, explaining why mechs can't be used in a certain situation. Booster fuel could be a limitation on the amount of time a mech can walk before it has to return.






                    share|improve this answer
























                      up vote
                      8
                      down vote













                      Larger feet are what camels use to prevent sinking into the desert. Your mechs could use that technique (it reduces pressure by increasing the area of force application). They could also have rockets or boosters of some sort to lift them out if they do get stuck.



                      Also, the idea of mechs sinking into the ground could be a cool plot device, explaining why mechs can't be used in a certain situation. Booster fuel could be a limitation on the amount of time a mech can walk before it has to return.






                      share|improve this answer






















                        up vote
                        8
                        down vote










                        up vote
                        8
                        down vote









                        Larger feet are what camels use to prevent sinking into the desert. Your mechs could use that technique (it reduces pressure by increasing the area of force application). They could also have rockets or boosters of some sort to lift them out if they do get stuck.



                        Also, the idea of mechs sinking into the ground could be a cool plot device, explaining why mechs can't be used in a certain situation. Booster fuel could be a limitation on the amount of time a mech can walk before it has to return.






                        share|improve this answer












                        Larger feet are what camels use to prevent sinking into the desert. Your mechs could use that technique (it reduces pressure by increasing the area of force application). They could also have rockets or boosters of some sort to lift them out if they do get stuck.



                        Also, the idea of mechs sinking into the ground could be a cool plot device, explaining why mechs can't be used in a certain situation. Booster fuel could be a limitation on the amount of time a mech can walk before it has to return.







                        share|improve this answer












                        share|improve this answer



                        share|improve this answer










                        answered Aug 16 at 12:19









                        Adrian Hall

                        614112




                        614112




















                            up vote
                            6
                            down vote













                            From an engineering perspective, firm clay can take 10 tons or so (100kN) per square metre, without issue. That's the typical maximum loading for house foundations here in London, and they have to be reliable for decades or more.



                            Ignoring the massive safety factors built into that working, and also ignoring the need to be rigid (if the ground sinks a metre does the mech care?), and also ignoring the need for stability over time (gradual changes over decades don't matter), it wouldn't surprise me if you could safely load of the order of 10 times that on clay. And of course that's on a soft material.



                            Dynamic forces are a bit different but probably won't make much difference - if the mech can cope with a metre of ground movement as it places a foot, the dynamic force issue will probably be swallowed up within that movement, or by the mech's handling of foot placement, and feedback of ground support/resistance.



                            Short version - not a worry.






                            share|improve this answer
























                              up vote
                              6
                              down vote













                              From an engineering perspective, firm clay can take 10 tons or so (100kN) per square metre, without issue. That's the typical maximum loading for house foundations here in London, and they have to be reliable for decades or more.



                              Ignoring the massive safety factors built into that working, and also ignoring the need to be rigid (if the ground sinks a metre does the mech care?), and also ignoring the need for stability over time (gradual changes over decades don't matter), it wouldn't surprise me if you could safely load of the order of 10 times that on clay. And of course that's on a soft material.



                              Dynamic forces are a bit different but probably won't make much difference - if the mech can cope with a metre of ground movement as it places a foot, the dynamic force issue will probably be swallowed up within that movement, or by the mech's handling of foot placement, and feedback of ground support/resistance.



                              Short version - not a worry.






                              share|improve this answer






















                                up vote
                                6
                                down vote










                                up vote
                                6
                                down vote









                                From an engineering perspective, firm clay can take 10 tons or so (100kN) per square metre, without issue. That's the typical maximum loading for house foundations here in London, and they have to be reliable for decades or more.



                                Ignoring the massive safety factors built into that working, and also ignoring the need to be rigid (if the ground sinks a metre does the mech care?), and also ignoring the need for stability over time (gradual changes over decades don't matter), it wouldn't surprise me if you could safely load of the order of 10 times that on clay. And of course that's on a soft material.



                                Dynamic forces are a bit different but probably won't make much difference - if the mech can cope with a metre of ground movement as it places a foot, the dynamic force issue will probably be swallowed up within that movement, or by the mech's handling of foot placement, and feedback of ground support/resistance.



                                Short version - not a worry.






                                share|improve this answer












                                From an engineering perspective, firm clay can take 10 tons or so (100kN) per square metre, without issue. That's the typical maximum loading for house foundations here in London, and they have to be reliable for decades or more.



                                Ignoring the massive safety factors built into that working, and also ignoring the need to be rigid (if the ground sinks a metre does the mech care?), and also ignoring the need for stability over time (gradual changes over decades don't matter), it wouldn't surprise me if you could safely load of the order of 10 times that on clay. And of course that's on a soft material.



                                Dynamic forces are a bit different but probably won't make much difference - if the mech can cope with a metre of ground movement as it places a foot, the dynamic force issue will probably be swallowed up within that movement, or by the mech's handling of foot placement, and feedback of ground support/resistance.



                                Short version - not a worry.







                                share|improve this answer












                                share|improve this answer



                                share|improve this answer










                                answered Aug 16 at 18:00









                                Stilez

                                2,57469




                                2,57469




















                                    up vote
                                    3
                                    down vote













                                    Don't change the properties of the mech - change the properties of the planet



                                    Given that it is not specified where the mech action is happening, set the action on a low gravity world (or worlds), rather than using handwavium to provide artificial antigravity. Mechs are far less impractical in low gravity, where with the addition of jets/rockets they can blur the line between ground and air units.



                                    This also has the advantage that the poor pilot/s stuck in the mech are subjected to less impact force from landings - movies love showing giant mechs making equally giant vertical leaps. This ignores the fact that without the "knees" bending much more than typically shown on every landing, for the pilot a fall of 20m in a big mech is just as damaging as a fall of 20m in your average car (less survivable if the mech pilot is standing up miming the mech's actions).






                                    share|improve this answer
























                                      up vote
                                      3
                                      down vote













                                      Don't change the properties of the mech - change the properties of the planet



                                      Given that it is not specified where the mech action is happening, set the action on a low gravity world (or worlds), rather than using handwavium to provide artificial antigravity. Mechs are far less impractical in low gravity, where with the addition of jets/rockets they can blur the line between ground and air units.



                                      This also has the advantage that the poor pilot/s stuck in the mech are subjected to less impact force from landings - movies love showing giant mechs making equally giant vertical leaps. This ignores the fact that without the "knees" bending much more than typically shown on every landing, for the pilot a fall of 20m in a big mech is just as damaging as a fall of 20m in your average car (less survivable if the mech pilot is standing up miming the mech's actions).






                                      share|improve this answer






















                                        up vote
                                        3
                                        down vote










                                        up vote
                                        3
                                        down vote









                                        Don't change the properties of the mech - change the properties of the planet



                                        Given that it is not specified where the mech action is happening, set the action on a low gravity world (or worlds), rather than using handwavium to provide artificial antigravity. Mechs are far less impractical in low gravity, where with the addition of jets/rockets they can blur the line between ground and air units.



                                        This also has the advantage that the poor pilot/s stuck in the mech are subjected to less impact force from landings - movies love showing giant mechs making equally giant vertical leaps. This ignores the fact that without the "knees" bending much more than typically shown on every landing, for the pilot a fall of 20m in a big mech is just as damaging as a fall of 20m in your average car (less survivable if the mech pilot is standing up miming the mech's actions).






                                        share|improve this answer












                                        Don't change the properties of the mech - change the properties of the planet



                                        Given that it is not specified where the mech action is happening, set the action on a low gravity world (or worlds), rather than using handwavium to provide artificial antigravity. Mechs are far less impractical in low gravity, where with the addition of jets/rockets they can blur the line between ground and air units.



                                        This also has the advantage that the poor pilot/s stuck in the mech are subjected to less impact force from landings - movies love showing giant mechs making equally giant vertical leaps. This ignores the fact that without the "knees" bending much more than typically shown on every landing, for the pilot a fall of 20m in a big mech is just as damaging as a fall of 20m in your average car (less survivable if the mech pilot is standing up miming the mech's actions).







                                        share|improve this answer












                                        share|improve this answer



                                        share|improve this answer










                                        answered Aug 16 at 13:29









                                        KerrAvon2055

                                        2,2581513




                                        2,2581513




















                                            up vote
                                            3
                                            down vote













                                            Don´t use steel bodies



                                            Although iron and steel may be the first option that comes to our head when talking about mechs, we must not forget that actually there are many tracks of scientific investigation of new alternative materials that can be stronger than steel and weight much more less. Assuming the Mech technology is still many years in the future, it is not unlikely to suppose that Mechs could be made of a non-metallic composite material (much more lighter, and therefore with less risk of sink into the ground).



                                            And the trick is not only in the material itself, but in the way the material is shaped. For example: a single sheet of paper cannot support itself horizontally between two separated bricks. But if you bend the sheet of paper and make a rectangular long box (a prism) you can colocate it horizontaly supported by the two separated bricks, and the same paper will support itself properly.



                                            At a molecular level, you can play with the structures of some materials and enhance a desired characteristic. Take for example, the graphene: graphene is stronger than steel but breaks like glass. However, you can build a spongy graphene structure able to be lighter than the flimsiest plastic and 10 times stronger than steel (not commercially available yet, but works nicely in the laboratory).



                                            With a more advanced manufacturing technology (in the same future where the mechs are fabricated) surely there will be more options like this.



                                            Here is the link to that article about the graphene material:
                                            https://www.livescience.com/57432-stronger-than-steel-material.html



                                            EDIT: And just to clarify: This super-alloys are in no way "technological magic"

                                            :)






                                            share|improve this answer
















                                            • 2




                                              This is what I was thinking when I read it. By the time we're actually using mechs, I would think we would have a wealth of structural "meta-materials" to play around with; along with much better analysis so that we can make smarter designs. Finite element programs can already come up with some really cool designs when they are set to optimize materials vs. strength. I could easily see new materials and new computer-driven analysis taking this really far in the next hundred years or so.
                                              – JMac
                                              Aug 16 at 16:43














                                            up vote
                                            3
                                            down vote













                                            Don´t use steel bodies



                                            Although iron and steel may be the first option that comes to our head when talking about mechs, we must not forget that actually there are many tracks of scientific investigation of new alternative materials that can be stronger than steel and weight much more less. Assuming the Mech technology is still many years in the future, it is not unlikely to suppose that Mechs could be made of a non-metallic composite material (much more lighter, and therefore with less risk of sink into the ground).



                                            And the trick is not only in the material itself, but in the way the material is shaped. For example: a single sheet of paper cannot support itself horizontally between two separated bricks. But if you bend the sheet of paper and make a rectangular long box (a prism) you can colocate it horizontaly supported by the two separated bricks, and the same paper will support itself properly.



                                            At a molecular level, you can play with the structures of some materials and enhance a desired characteristic. Take for example, the graphene: graphene is stronger than steel but breaks like glass. However, you can build a spongy graphene structure able to be lighter than the flimsiest plastic and 10 times stronger than steel (not commercially available yet, but works nicely in the laboratory).



                                            With a more advanced manufacturing technology (in the same future where the mechs are fabricated) surely there will be more options like this.



                                            Here is the link to that article about the graphene material:
                                            https://www.livescience.com/57432-stronger-than-steel-material.html



                                            EDIT: And just to clarify: This super-alloys are in no way "technological magic"

                                            :)






                                            share|improve this answer
















                                            • 2




                                              This is what I was thinking when I read it. By the time we're actually using mechs, I would think we would have a wealth of structural "meta-materials" to play around with; along with much better analysis so that we can make smarter designs. Finite element programs can already come up with some really cool designs when they are set to optimize materials vs. strength. I could easily see new materials and new computer-driven analysis taking this really far in the next hundred years or so.
                                              – JMac
                                              Aug 16 at 16:43












                                            up vote
                                            3
                                            down vote










                                            up vote
                                            3
                                            down vote









                                            Don´t use steel bodies



                                            Although iron and steel may be the first option that comes to our head when talking about mechs, we must not forget that actually there are many tracks of scientific investigation of new alternative materials that can be stronger than steel and weight much more less. Assuming the Mech technology is still many years in the future, it is not unlikely to suppose that Mechs could be made of a non-metallic composite material (much more lighter, and therefore with less risk of sink into the ground).



                                            And the trick is not only in the material itself, but in the way the material is shaped. For example: a single sheet of paper cannot support itself horizontally between two separated bricks. But if you bend the sheet of paper and make a rectangular long box (a prism) you can colocate it horizontaly supported by the two separated bricks, and the same paper will support itself properly.



                                            At a molecular level, you can play with the structures of some materials and enhance a desired characteristic. Take for example, the graphene: graphene is stronger than steel but breaks like glass. However, you can build a spongy graphene structure able to be lighter than the flimsiest plastic and 10 times stronger than steel (not commercially available yet, but works nicely in the laboratory).



                                            With a more advanced manufacturing technology (in the same future where the mechs are fabricated) surely there will be more options like this.



                                            Here is the link to that article about the graphene material:
                                            https://www.livescience.com/57432-stronger-than-steel-material.html



                                            EDIT: And just to clarify: This super-alloys are in no way "technological magic"

                                            :)






                                            share|improve this answer












                                            Don´t use steel bodies



                                            Although iron and steel may be the first option that comes to our head when talking about mechs, we must not forget that actually there are many tracks of scientific investigation of new alternative materials that can be stronger than steel and weight much more less. Assuming the Mech technology is still many years in the future, it is not unlikely to suppose that Mechs could be made of a non-metallic composite material (much more lighter, and therefore with less risk of sink into the ground).



                                            And the trick is not only in the material itself, but in the way the material is shaped. For example: a single sheet of paper cannot support itself horizontally between two separated bricks. But if you bend the sheet of paper and make a rectangular long box (a prism) you can colocate it horizontaly supported by the two separated bricks, and the same paper will support itself properly.



                                            At a molecular level, you can play with the structures of some materials and enhance a desired characteristic. Take for example, the graphene: graphene is stronger than steel but breaks like glass. However, you can build a spongy graphene structure able to be lighter than the flimsiest plastic and 10 times stronger than steel (not commercially available yet, but works nicely in the laboratory).



                                            With a more advanced manufacturing technology (in the same future where the mechs are fabricated) surely there will be more options like this.



                                            Here is the link to that article about the graphene material:
                                            https://www.livescience.com/57432-stronger-than-steel-material.html



                                            EDIT: And just to clarify: This super-alloys are in no way "technological magic"

                                            :)







                                            share|improve this answer












                                            share|improve this answer



                                            share|improve this answer










                                            answered Aug 16 at 15:51









                                            Carlos Zamora

                                            1,228216




                                            1,228216







                                            • 2




                                              This is what I was thinking when I read it. By the time we're actually using mechs, I would think we would have a wealth of structural "meta-materials" to play around with; along with much better analysis so that we can make smarter designs. Finite element programs can already come up with some really cool designs when they are set to optimize materials vs. strength. I could easily see new materials and new computer-driven analysis taking this really far in the next hundred years or so.
                                              – JMac
                                              Aug 16 at 16:43












                                            • 2




                                              This is what I was thinking when I read it. By the time we're actually using mechs, I would think we would have a wealth of structural "meta-materials" to play around with; along with much better analysis so that we can make smarter designs. Finite element programs can already come up with some really cool designs when they are set to optimize materials vs. strength. I could easily see new materials and new computer-driven analysis taking this really far in the next hundred years or so.
                                              – JMac
                                              Aug 16 at 16:43







                                            2




                                            2




                                            This is what I was thinking when I read it. By the time we're actually using mechs, I would think we would have a wealth of structural "meta-materials" to play around with; along with much better analysis so that we can make smarter designs. Finite element programs can already come up with some really cool designs when they are set to optimize materials vs. strength. I could easily see new materials and new computer-driven analysis taking this really far in the next hundred years or so.
                                            – JMac
                                            Aug 16 at 16:43




                                            This is what I was thinking when I read it. By the time we're actually using mechs, I would think we would have a wealth of structural "meta-materials" to play around with; along with much better analysis so that we can make smarter designs. Finite element programs can already come up with some really cool designs when they are set to optimize materials vs. strength. I could easily see new materials and new computer-driven analysis taking this really far in the next hundred years or so.
                                            – JMac
                                            Aug 16 at 16:43










                                            up vote
                                            2
                                            down vote













                                            More legs to spread the weight.



                                            Also, you could have the legs "splay" a network of supporting struts at each step, multiplying the "feet" surface either above or immediately beneath the surface. In both cases, this has serious implications on the mech's deployability (can't walk on some kinds of terrains, and the mechs could be lamed by shooting at their feet - a very literal Achilles' heel).






                                            share|improve this answer
























                                              up vote
                                              2
                                              down vote













                                              More legs to spread the weight.



                                              Also, you could have the legs "splay" a network of supporting struts at each step, multiplying the "feet" surface either above or immediately beneath the surface. In both cases, this has serious implications on the mech's deployability (can't walk on some kinds of terrains, and the mechs could be lamed by shooting at their feet - a very literal Achilles' heel).






                                              share|improve this answer






















                                                up vote
                                                2
                                                down vote










                                                up vote
                                                2
                                                down vote









                                                More legs to spread the weight.



                                                Also, you could have the legs "splay" a network of supporting struts at each step, multiplying the "feet" surface either above or immediately beneath the surface. In both cases, this has serious implications on the mech's deployability (can't walk on some kinds of terrains, and the mechs could be lamed by shooting at their feet - a very literal Achilles' heel).






                                                share|improve this answer












                                                More legs to spread the weight.



                                                Also, you could have the legs "splay" a network of supporting struts at each step, multiplying the "feet" surface either above or immediately beneath the surface. In both cases, this has serious implications on the mech's deployability (can't walk on some kinds of terrains, and the mechs could be lamed by shooting at their feet - a very literal Achilles' heel).







                                                share|improve this answer












                                                share|improve this answer



                                                share|improve this answer










                                                answered Aug 16 at 15:51









                                                LSerni

                                                24.1k24276




                                                24.1k24276




















                                                    up vote
                                                    1
                                                    down vote













                                                    If you have two or more legs that distribute the weight of the mech over a larger portion of the ground, it should be feasible.



                                                    How large are your mechs going to be? This is a large factor in how much they weigh, and ultimately how large the "feet" need to be. I'd recommend looking into the mechs from Chromehounds, or even the Mantis from Halo for inspiration regarding mech leg structure.






                                                    share|improve this answer
























                                                      up vote
                                                      1
                                                      down vote













                                                      If you have two or more legs that distribute the weight of the mech over a larger portion of the ground, it should be feasible.



                                                      How large are your mechs going to be? This is a large factor in how much they weigh, and ultimately how large the "feet" need to be. I'd recommend looking into the mechs from Chromehounds, or even the Mantis from Halo for inspiration regarding mech leg structure.






                                                      share|improve this answer






















                                                        up vote
                                                        1
                                                        down vote










                                                        up vote
                                                        1
                                                        down vote









                                                        If you have two or more legs that distribute the weight of the mech over a larger portion of the ground, it should be feasible.



                                                        How large are your mechs going to be? This is a large factor in how much they weigh, and ultimately how large the "feet" need to be. I'd recommend looking into the mechs from Chromehounds, or even the Mantis from Halo for inspiration regarding mech leg structure.






                                                        share|improve this answer












                                                        If you have two or more legs that distribute the weight of the mech over a larger portion of the ground, it should be feasible.



                                                        How large are your mechs going to be? This is a large factor in how much they weigh, and ultimately how large the "feet" need to be. I'd recommend looking into the mechs from Chromehounds, or even the Mantis from Halo for inspiration regarding mech leg structure.







                                                        share|improve this answer












                                                        share|improve this answer



                                                        share|improve this answer










                                                        answered Aug 16 at 12:05









                                                        Cole Simchick

                                                        937




                                                        937




















                                                            up vote
                                                            0
                                                            down vote













                                                            Have the setting be on a planet with less gravity. Overlapping a light alloy, big feet, and a lighter gravity setting would basically minimize the problem.



                                                            (An alternate to light gravity is a dense atmosphere and a mech filled with helium. idk how well it would work unless the atmosphere was super dense though.)






                                                            share|improve this answer
























                                                              up vote
                                                              0
                                                              down vote













                                                              Have the setting be on a planet with less gravity. Overlapping a light alloy, big feet, and a lighter gravity setting would basically minimize the problem.



                                                              (An alternate to light gravity is a dense atmosphere and a mech filled with helium. idk how well it would work unless the atmosphere was super dense though.)






                                                              share|improve this answer






















                                                                up vote
                                                                0
                                                                down vote










                                                                up vote
                                                                0
                                                                down vote









                                                                Have the setting be on a planet with less gravity. Overlapping a light alloy, big feet, and a lighter gravity setting would basically minimize the problem.



                                                                (An alternate to light gravity is a dense atmosphere and a mech filled with helium. idk how well it would work unless the atmosphere was super dense though.)






                                                                share|improve this answer












                                                                Have the setting be on a planet with less gravity. Overlapping a light alloy, big feet, and a lighter gravity setting would basically minimize the problem.



                                                                (An alternate to light gravity is a dense atmosphere and a mech filled with helium. idk how well it would work unless the atmosphere was super dense though.)







                                                                share|improve this answer












                                                                share|improve this answer



                                                                share|improve this answer










                                                                answered Aug 16 at 13:37









                                                                Clay Deitas

                                                                3,207522




                                                                3,207522




















                                                                    up vote
                                                                    0
                                                                    down vote













                                                                    Triangular pyramid shaped feet, distributes the weight in 3 directions.



                                                                    But the key is with hydraulic shocks.



                                                                    The triangular pyramid shaped feet hold it up and allow its gyro to find its balance. While the hydraulic shocks are what truly keep it from sinking in; as the feet touch the shocks kick in and ease the weight down, unlike plopping it down.



                                                                    It's like the difference between dropping a bowling ball onto styrofoam vs placing it onto styrofoam. Dropping it destroys the styrofoam while placing it sees no change to its structure. The hydraulic shocks make it more like the weight is being placed onto the ground instead of just crashing into it.



                                                                    That said, these would still have to be very impressive shocks and maybe hydraulic isnt strong enough but at least that's the direction I would focus on, or at least have my scientists focus on at least.



                                                                    Hope that helps.






                                                                    share|improve this answer
























                                                                      up vote
                                                                      0
                                                                      down vote













                                                                      Triangular pyramid shaped feet, distributes the weight in 3 directions.



                                                                      But the key is with hydraulic shocks.



                                                                      The triangular pyramid shaped feet hold it up and allow its gyro to find its balance. While the hydraulic shocks are what truly keep it from sinking in; as the feet touch the shocks kick in and ease the weight down, unlike plopping it down.



                                                                      It's like the difference between dropping a bowling ball onto styrofoam vs placing it onto styrofoam. Dropping it destroys the styrofoam while placing it sees no change to its structure. The hydraulic shocks make it more like the weight is being placed onto the ground instead of just crashing into it.



                                                                      That said, these would still have to be very impressive shocks and maybe hydraulic isnt strong enough but at least that's the direction I would focus on, or at least have my scientists focus on at least.



                                                                      Hope that helps.






                                                                      share|improve this answer






















                                                                        up vote
                                                                        0
                                                                        down vote










                                                                        up vote
                                                                        0
                                                                        down vote









                                                                        Triangular pyramid shaped feet, distributes the weight in 3 directions.



                                                                        But the key is with hydraulic shocks.



                                                                        The triangular pyramid shaped feet hold it up and allow its gyro to find its balance. While the hydraulic shocks are what truly keep it from sinking in; as the feet touch the shocks kick in and ease the weight down, unlike plopping it down.



                                                                        It's like the difference between dropping a bowling ball onto styrofoam vs placing it onto styrofoam. Dropping it destroys the styrofoam while placing it sees no change to its structure. The hydraulic shocks make it more like the weight is being placed onto the ground instead of just crashing into it.



                                                                        That said, these would still have to be very impressive shocks and maybe hydraulic isnt strong enough but at least that's the direction I would focus on, or at least have my scientists focus on at least.



                                                                        Hope that helps.






                                                                        share|improve this answer












                                                                        Triangular pyramid shaped feet, distributes the weight in 3 directions.



                                                                        But the key is with hydraulic shocks.



                                                                        The triangular pyramid shaped feet hold it up and allow its gyro to find its balance. While the hydraulic shocks are what truly keep it from sinking in; as the feet touch the shocks kick in and ease the weight down, unlike plopping it down.



                                                                        It's like the difference between dropping a bowling ball onto styrofoam vs placing it onto styrofoam. Dropping it destroys the styrofoam while placing it sees no change to its structure. The hydraulic shocks make it more like the weight is being placed onto the ground instead of just crashing into it.



                                                                        That said, these would still have to be very impressive shocks and maybe hydraulic isnt strong enough but at least that's the direction I would focus on, or at least have my scientists focus on at least.



                                                                        Hope that helps.







                                                                        share|improve this answer












                                                                        share|improve this answer



                                                                        share|improve this answer










                                                                        answered Aug 16 at 22:22









                                                                        Software_Programineer

                                                                        23212




                                                                        23212




















                                                                            up vote
                                                                            0
                                                                            down vote













                                                                            I would suggest that in addition to increasing the size of the contact area of the feet, you also need to change the overall shape of the mech as well.



                                                                            Given issues like the square/cube law and stability due to the centre of gravity, a mech won't scale up like some monster human, but rather will become wider, have "tree trunk" legs that are proportionally much wider than human legs and likely a relatively squat torso. The idea of "arms" is really a bit of a non starter as well, the changes to balance while moving multi ton arms around (much less the recoil of arm mounted weapons) would make moving and fighting immensely more complicated.



                                                                            If anything, the form factor might be more like the "Huey, Dewey and Louie" robots from the 1970 era movie "Silent Running"



                                                                            enter image description here



                                                                            Sure they're cute now, but imagine if they were 20' tall and bristling with weapons



                                                                            OF course even with this they will still be vulnerable to virtually everything a modern military force can bring to bear, the Mech will have to deal with everything from 500lb "Small Diameter Bombs" launched from a stealth F-35 100 km away to Infantry solders firing Javelin "Fire and Forget" ATGM's from 4750 meters. Only truly deranged or desperate people would actually approach close enough to use an RPG or Carl Gustav type anti tank weapon.



                                                                            This suggests the Mech will likely have a large proportion of its carrying capacity devoted to countermeasures such as the CIWS, Trophy active defence systems and 100kW lasers, rather than massive batteries of cannons and missiles. As a mobile protective system for a land based formation, you may have found the niche for Mechs in battle.






                                                                            share|improve this answer




















                                                                            • I refer you to the Dreadnought
                                                                              – Ruadhan
                                                                              Aug 17 at 8:26














                                                                            up vote
                                                                            0
                                                                            down vote













                                                                            I would suggest that in addition to increasing the size of the contact area of the feet, you also need to change the overall shape of the mech as well.



                                                                            Given issues like the square/cube law and stability due to the centre of gravity, a mech won't scale up like some monster human, but rather will become wider, have "tree trunk" legs that are proportionally much wider than human legs and likely a relatively squat torso. The idea of "arms" is really a bit of a non starter as well, the changes to balance while moving multi ton arms around (much less the recoil of arm mounted weapons) would make moving and fighting immensely more complicated.



                                                                            If anything, the form factor might be more like the "Huey, Dewey and Louie" robots from the 1970 era movie "Silent Running"



                                                                            enter image description here



                                                                            Sure they're cute now, but imagine if they were 20' tall and bristling with weapons



                                                                            OF course even with this they will still be vulnerable to virtually everything a modern military force can bring to bear, the Mech will have to deal with everything from 500lb "Small Diameter Bombs" launched from a stealth F-35 100 km away to Infantry solders firing Javelin "Fire and Forget" ATGM's from 4750 meters. Only truly deranged or desperate people would actually approach close enough to use an RPG or Carl Gustav type anti tank weapon.



                                                                            This suggests the Mech will likely have a large proportion of its carrying capacity devoted to countermeasures such as the CIWS, Trophy active defence systems and 100kW lasers, rather than massive batteries of cannons and missiles. As a mobile protective system for a land based formation, you may have found the niche for Mechs in battle.






                                                                            share|improve this answer




















                                                                            • I refer you to the Dreadnought
                                                                              – Ruadhan
                                                                              Aug 17 at 8:26












                                                                            up vote
                                                                            0
                                                                            down vote










                                                                            up vote
                                                                            0
                                                                            down vote









                                                                            I would suggest that in addition to increasing the size of the contact area of the feet, you also need to change the overall shape of the mech as well.



                                                                            Given issues like the square/cube law and stability due to the centre of gravity, a mech won't scale up like some monster human, but rather will become wider, have "tree trunk" legs that are proportionally much wider than human legs and likely a relatively squat torso. The idea of "arms" is really a bit of a non starter as well, the changes to balance while moving multi ton arms around (much less the recoil of arm mounted weapons) would make moving and fighting immensely more complicated.



                                                                            If anything, the form factor might be more like the "Huey, Dewey and Louie" robots from the 1970 era movie "Silent Running"



                                                                            enter image description here



                                                                            Sure they're cute now, but imagine if they were 20' tall and bristling with weapons



                                                                            OF course even with this they will still be vulnerable to virtually everything a modern military force can bring to bear, the Mech will have to deal with everything from 500lb "Small Diameter Bombs" launched from a stealth F-35 100 km away to Infantry solders firing Javelin "Fire and Forget" ATGM's from 4750 meters. Only truly deranged or desperate people would actually approach close enough to use an RPG or Carl Gustav type anti tank weapon.



                                                                            This suggests the Mech will likely have a large proportion of its carrying capacity devoted to countermeasures such as the CIWS, Trophy active defence systems and 100kW lasers, rather than massive batteries of cannons and missiles. As a mobile protective system for a land based formation, you may have found the niche for Mechs in battle.






                                                                            share|improve this answer












                                                                            I would suggest that in addition to increasing the size of the contact area of the feet, you also need to change the overall shape of the mech as well.



                                                                            Given issues like the square/cube law and stability due to the centre of gravity, a mech won't scale up like some monster human, but rather will become wider, have "tree trunk" legs that are proportionally much wider than human legs and likely a relatively squat torso. The idea of "arms" is really a bit of a non starter as well, the changes to balance while moving multi ton arms around (much less the recoil of arm mounted weapons) would make moving and fighting immensely more complicated.



                                                                            If anything, the form factor might be more like the "Huey, Dewey and Louie" robots from the 1970 era movie "Silent Running"



                                                                            enter image description here



                                                                            Sure they're cute now, but imagine if they were 20' tall and bristling with weapons



                                                                            OF course even with this they will still be vulnerable to virtually everything a modern military force can bring to bear, the Mech will have to deal with everything from 500lb "Small Diameter Bombs" launched from a stealth F-35 100 km away to Infantry solders firing Javelin "Fire and Forget" ATGM's from 4750 meters. Only truly deranged or desperate people would actually approach close enough to use an RPG or Carl Gustav type anti tank weapon.



                                                                            This suggests the Mech will likely have a large proportion of its carrying capacity devoted to countermeasures such as the CIWS, Trophy active defence systems and 100kW lasers, rather than massive batteries of cannons and missiles. As a mobile protective system for a land based formation, you may have found the niche for Mechs in battle.







                                                                            share|improve this answer












                                                                            share|improve this answer



                                                                            share|improve this answer










                                                                            answered Aug 17 at 4:50









                                                                            Thucydides

                                                                            76.7k674223




                                                                            76.7k674223











                                                                            • I refer you to the Dreadnought
                                                                              – Ruadhan
                                                                              Aug 17 at 8:26
















                                                                            • I refer you to the Dreadnought
                                                                              – Ruadhan
                                                                              Aug 17 at 8:26















                                                                            I refer you to the Dreadnought
                                                                            – Ruadhan
                                                                            Aug 17 at 8:26




                                                                            I refer you to the Dreadnought
                                                                            – Ruadhan
                                                                            Aug 17 at 8:26










                                                                            up vote
                                                                            0
                                                                            down vote













                                                                            Your mechs could just roll around on tread in their feet instead of walking. That way you only have to worry about the weight to calculate pressure and not the amount of force your mech puts on the ground when it walks/run/does taekwando.



                                                                            This would easily take care of explaining how your mechs are fast, and why their feet are so big. it would also allow you to Piggy back off of tread technology.



                                                                            You should also start thinking about using some un-attain-ium techno-magic material like gundam does. In Gundam 00 the mechs are built with E carbon, which is just better Carbon fiber. In wing, Gundam's are literally built with Gundanium which is essentially a special blend of titanium built in such a way that it ends up with a damn near perfect matrix - the molecules are all packed uniformly - with highly advantageous properties. You're going to want to make your mechs light since you're going for realism.



                                                                            Another solution is straight out of pretty much every mech anime. Your Mechs don't walk that much, they fly. This is another popular solution I've seen to how your mech doesn't break the ground while landing after a running jump kick or something else a little dumb.



                                                                            Look at how much force you put on the ground running vs walking vs standing. There's quite a difference. Just having large feet to reduce pressure isn't the only thing to consider.






                                                                            share|improve this answer
























                                                                              up vote
                                                                              0
                                                                              down vote













                                                                              Your mechs could just roll around on tread in their feet instead of walking. That way you only have to worry about the weight to calculate pressure and not the amount of force your mech puts on the ground when it walks/run/does taekwando.



                                                                              This would easily take care of explaining how your mechs are fast, and why their feet are so big. it would also allow you to Piggy back off of tread technology.



                                                                              You should also start thinking about using some un-attain-ium techno-magic material like gundam does. In Gundam 00 the mechs are built with E carbon, which is just better Carbon fiber. In wing, Gundam's are literally built with Gundanium which is essentially a special blend of titanium built in such a way that it ends up with a damn near perfect matrix - the molecules are all packed uniformly - with highly advantageous properties. You're going to want to make your mechs light since you're going for realism.



                                                                              Another solution is straight out of pretty much every mech anime. Your Mechs don't walk that much, they fly. This is another popular solution I've seen to how your mech doesn't break the ground while landing after a running jump kick or something else a little dumb.



                                                                              Look at how much force you put on the ground running vs walking vs standing. There's quite a difference. Just having large feet to reduce pressure isn't the only thing to consider.






                                                                              share|improve this answer






















                                                                                up vote
                                                                                0
                                                                                down vote










                                                                                up vote
                                                                                0
                                                                                down vote









                                                                                Your mechs could just roll around on tread in their feet instead of walking. That way you only have to worry about the weight to calculate pressure and not the amount of force your mech puts on the ground when it walks/run/does taekwando.



                                                                                This would easily take care of explaining how your mechs are fast, and why their feet are so big. it would also allow you to Piggy back off of tread technology.



                                                                                You should also start thinking about using some un-attain-ium techno-magic material like gundam does. In Gundam 00 the mechs are built with E carbon, which is just better Carbon fiber. In wing, Gundam's are literally built with Gundanium which is essentially a special blend of titanium built in such a way that it ends up with a damn near perfect matrix - the molecules are all packed uniformly - with highly advantageous properties. You're going to want to make your mechs light since you're going for realism.



                                                                                Another solution is straight out of pretty much every mech anime. Your Mechs don't walk that much, they fly. This is another popular solution I've seen to how your mech doesn't break the ground while landing after a running jump kick or something else a little dumb.



                                                                                Look at how much force you put on the ground running vs walking vs standing. There's quite a difference. Just having large feet to reduce pressure isn't the only thing to consider.






                                                                                share|improve this answer












                                                                                Your mechs could just roll around on tread in their feet instead of walking. That way you only have to worry about the weight to calculate pressure and not the amount of force your mech puts on the ground when it walks/run/does taekwando.



                                                                                This would easily take care of explaining how your mechs are fast, and why their feet are so big. it would also allow you to Piggy back off of tread technology.



                                                                                You should also start thinking about using some un-attain-ium techno-magic material like gundam does. In Gundam 00 the mechs are built with E carbon, which is just better Carbon fiber. In wing, Gundam's are literally built with Gundanium which is essentially a special blend of titanium built in such a way that it ends up with a damn near perfect matrix - the molecules are all packed uniformly - with highly advantageous properties. You're going to want to make your mechs light since you're going for realism.



                                                                                Another solution is straight out of pretty much every mech anime. Your Mechs don't walk that much, they fly. This is another popular solution I've seen to how your mech doesn't break the ground while landing after a running jump kick or something else a little dumb.



                                                                                Look at how much force you put on the ground running vs walking vs standing. There's quite a difference. Just having large feet to reduce pressure isn't the only thing to consider.







                                                                                share|improve this answer












                                                                                share|improve this answer



                                                                                share|improve this answer










                                                                                answered Aug 17 at 15:16









                                                                                Steve

                                                                                91828




                                                                                91828




















                                                                                    up vote
                                                                                    0
                                                                                    down vote













                                                                                    In my opinion anti-gravitation devices should not be used as such an explanation. Any Society which has technology on that level would have weapons available which far exceed our imagination and definitely no needs for mechs in the conventional sense. So unless you introduce a very good explanation (e.g. they found devices from another civilization).






                                                                                    share|improve this answer
























                                                                                      up vote
                                                                                      0
                                                                                      down vote













                                                                                      In my opinion anti-gravitation devices should not be used as such an explanation. Any Society which has technology on that level would have weapons available which far exceed our imagination and definitely no needs for mechs in the conventional sense. So unless you introduce a very good explanation (e.g. they found devices from another civilization).






                                                                                      share|improve this answer






















                                                                                        up vote
                                                                                        0
                                                                                        down vote










                                                                                        up vote
                                                                                        0
                                                                                        down vote









                                                                                        In my opinion anti-gravitation devices should not be used as such an explanation. Any Society which has technology on that level would have weapons available which far exceed our imagination and definitely no needs for mechs in the conventional sense. So unless you introduce a very good explanation (e.g. they found devices from another civilization).






                                                                                        share|improve this answer












                                                                                        In my opinion anti-gravitation devices should not be used as such an explanation. Any Society which has technology on that level would have weapons available which far exceed our imagination and definitely no needs for mechs in the conventional sense. So unless you introduce a very good explanation (e.g. they found devices from another civilization).







                                                                                        share|improve this answer












                                                                                        share|improve this answer



                                                                                        share|improve this answer










                                                                                        answered Aug 18 at 10:04









                                                                                        Sascha

                                                                                        1111




                                                                                        1111




















                                                                                            up vote
                                                                                            -1
                                                                                            down vote













                                                                                            'Big feet' (surface area) seems to be the general solution, in addition to "They sink into the ground a bit". Largest land animal being the elephant, foot diameter of 40-50cm, area of about 2 square feet, 13,000 lbs, 2 legs, 3,500 lbs. per foot?






                                                                                            share|improve this answer




















                                                                                            • There is already a well written answer already addressing the contact area.
                                                                                              – L.Dutch♦
                                                                                              Aug 16 at 19:34














                                                                                            up vote
                                                                                            -1
                                                                                            down vote













                                                                                            'Big feet' (surface area) seems to be the general solution, in addition to "They sink into the ground a bit". Largest land animal being the elephant, foot diameter of 40-50cm, area of about 2 square feet, 13,000 lbs, 2 legs, 3,500 lbs. per foot?






                                                                                            share|improve this answer




















                                                                                            • There is already a well written answer already addressing the contact area.
                                                                                              – L.Dutch♦
                                                                                              Aug 16 at 19:34












                                                                                            up vote
                                                                                            -1
                                                                                            down vote










                                                                                            up vote
                                                                                            -1
                                                                                            down vote









                                                                                            'Big feet' (surface area) seems to be the general solution, in addition to "They sink into the ground a bit". Largest land animal being the elephant, foot diameter of 40-50cm, area of about 2 square feet, 13,000 lbs, 2 legs, 3,500 lbs. per foot?






                                                                                            share|improve this answer












                                                                                            'Big feet' (surface area) seems to be the general solution, in addition to "They sink into the ground a bit". Largest land animal being the elephant, foot diameter of 40-50cm, area of about 2 square feet, 13,000 lbs, 2 legs, 3,500 lbs. per foot?







                                                                                            share|improve this answer












                                                                                            share|improve this answer



                                                                                            share|improve this answer










                                                                                            answered Aug 16 at 17:48









                                                                                            Mox

                                                                                            1393




                                                                                            1393











                                                                                            • There is already a well written answer already addressing the contact area.
                                                                                              – L.Dutch♦
                                                                                              Aug 16 at 19:34
















                                                                                            • There is already a well written answer already addressing the contact area.
                                                                                              – L.Dutch♦
                                                                                              Aug 16 at 19:34















                                                                                            There is already a well written answer already addressing the contact area.
                                                                                            – L.Dutch♦
                                                                                            Aug 16 at 19:34




                                                                                            There is already a well written answer already addressing the contact area.
                                                                                            – L.Dutch♦
                                                                                            Aug 16 at 19:34

















                                                                                             

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