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Editing v0.31:Material science
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| − | {{ | + | {{av}} {{Quality|Fine}} |
| − | + | {{L|Material|Materials}} have a number of properties representing real world variables that describe how they respond to inputs. In particular, the game now has a number of variables that describe what happens to a material when it's put under stress. | |
==What is stress?== | ==What is stress?== | ||
In the real world, an object is stressed when a force is applied to the object. Depending on the nature of the force applied, this stress can take a number of forms, and the object can respond differently based on its material and how that material handles different stresses. | In the real world, an object is stressed when a force is applied to the object. Depending on the nature of the force applied, this stress can take a number of forms, and the object can respond differently based on its material and how that material handles different stresses. | ||
| − | In the material raws, whenever you see 'yield', 'fracture', or ' | + | In the material raws, whenever you see 'yield', 'fracture', or 'elasticity', that property is a stress-related quality. |
==When does Dwarf Fortress make stress calculations?== | ==When does Dwarf Fortress make stress calculations?== | ||
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The first set of words are things like Impact, Bending, and so forth. These describe modes of applying force. | The first set of words are things like Impact, Bending, and so forth. These describe modes of applying force. | ||
| − | The following explanations assumes real world physics sort of apply (since [[ | + | The following explanations assumes real world physics sort of apply (since [[Toady One]] chose real world properties). |
===Mechanical Performance Properties=== | ===Mechanical Performance Properties=== | ||
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Fracture: The fracture point is the amount of stress or force necessarily to cause the material to fail, or in other words, to break. | Fracture: The fracture point is the amount of stress or force necessarily to cause the material to fail, or in other words, to break. | ||
| − | + | Elasticity: This variable tells you how much deformation occurs to the material while it is deforming elastically. That is, as long as the force is less than the yield strength, stress * elasticity = deformation distance. The smaller the elasticity, the less deformation occurs under stress. | |
| − | Note: | + | Note: Elasticity is the inverse of the Elastic Modulus. Thus a highly elastic material has low elastic modulus, and engages is less elastic collisions. Yes, its confusing. |
===Modes of Applying Force=== | ===Modes of Applying Force=== | ||
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Compressive: Force applied by exerting pressure on an object, like trying to squish something between your hands. | Compressive: Force applied by exerting pressure on an object, like trying to squish something between your hands. | ||
| − | Tensile: Force applied by pulling on something, like suspending one object via another. ( | + | Tensile: Force applied by pulling on something, like suspending one object via another. (Ie, if you suspend a fan from a metal pole, you are applying a tensile force to the pole). |
Torsion: Force applied by twisting something. Note that you're twisting some portion of the object relative to itself to cause a torsion stress to be applied to it. (Consider trying to twist a metal rod by grasping at either end and attempting to wring it - yes, you'd have to apply a lot of force to succeed). | Torsion: Force applied by twisting something. Note that you're twisting some portion of the object relative to itself to cause a torsion stress to be applied to it. (Consider trying to twist a metal rod by grasping at either end and attempting to wring it - yes, you'd have to apply a lot of force to succeed). | ||
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Bending: Force applied by bending a material. | Bending: Force applied by bending a material. | ||
| + | |||
| + | ==I'm mostly here to learn about combat... How does this work in game?== | ||
| + | Since we don't have access to the code, we need to use !!Science!! to figure out how the game actually uses these variables. | ||
===Hypotheses based on Real World=== | ===Hypotheses based on Real World=== | ||
| − | *High | + | *High elasticity should reduce the effectiveness of a weapon. (the more it deforms, the longer it takes to break contact with the struck surface and thus the more inelastic the collision is). |
| − | *High | + | *High elasticity should be good for armor, because it decreases the force transferred by a weapon (to a point - it can't be so inelastic as to render the armor useless!) |
| − | == | + | ===Believed Interactions=== |
| − | + | Remember, we need data before we add anything here. | |
| − | + | ===Open Questions=== | |
| + | *When you strike something, does the striking object (ie, weapon) test for damage as well as the struck target? | ||
| + | *lots of specific performance questions and when the game uses particular variables | ||
| + | *How well do real world hypotheses actually describe game mechanics regarding these variables | ||