Difference between revisions of "ConstitutiveLaws"

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! Class !! description !! dev. status !! validated !! publications !! example script !! maintainer(s)
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! Class !! description !! dev. status !! validated !! publications !! example script !! maintainer(s) !! active users
 
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!bgcolor="#99cc00" | Law2_ScGeom_FrictPhys_CundallStrack
 
!bgcolor="#99cc00" | Law2_ScGeom_FrictPhys_CundallStrack
| The traditional Cundall's linear elastic-plastic law. This law has three parameters : tangential stiffness, normal stiffness, and friction coefficient - it modelizes dry contacts (no tensile force allowed). || mature || yes || (>10 papers) e.g. Scholtes2009c, Chareyre2012a || triax-basic.py || Bruno Chareyre
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| The traditional Cundall's linear elastic-plastic law. This law has three parameters : tangential stiffness, normal stiffness, and friction coefficient - it modelizes dry contacts (no tensile force allowed). || mature || yes || (>10 papers) e.g. Scholtes2009c, Chareyre2012a || triax-basic.py || Bruno Chareyre || >10
 
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!bgcolor="#99cc00" | Law2_ScGeom6D_CohFrictPhys_CohesionMoment
 
!bgcolor="#99cc00" | Law2_ScGeom6D_CohFrictPhys_CohesionMoment
| An augmented version of Law2_ScGeom_FrictPhys_CundallStrack with cohesion and torques at contacts. Creep is optional. || mature || yes || not yet || triax-cohesive.py || Bruno Chareyre
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| An augmented version of Law2_ScGeom_FrictPhys_CundallStrack with cohesion and torques at contacts. Creep is optional. || mature || yes || not yet || triax-cohesive.py || Bruno Chareyre || F. Kneib
 
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!bgcolor="#99cc00" | Law2_ScGeom_MindlinPhys_Mindlin
 
!bgcolor="#99cc00" | Law2_ScGeom_MindlinPhys_Mindlin
| The non-linear elastic Hertz-Mindlin no-slip solution contact law. The law also allows for rolling resistance and non-linear viscous damping. || mature || yes || Modenese2012b || mindlin.py || Chiara Modenese
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| The non-linear elastic Hertz-Mindlin no-slip solution contact law. The law also allows for rolling resistance and non-linear viscous damping. || mature || yes || Modenese2012b || mindlin.py || Chiara Modenese || C. Modenese, C. Jakob
 
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!bgcolor="#99cc00" | Law2_ScGeom_WirePhys_WirePM
 
!bgcolor="#99cc00" | Law2_ScGeom_WirePhys_WirePM
| A contact law for steel wires which is defined by a piece-wise linear stress-strain curve. The contact law considers tensile forces only. || mature || yes || Thoeni2011, Bertrand2008 || WireMatPM/wirecontacttest.py WireMatPM/wiretensiltest.py || Klaus Thoeni
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| A contact law for steel wires which is defined by a piece-wise linear stress-strain curve. The contact law considers tensile forces only. || mature || yes || Thoeni2011, Bertrand2008 || WireMatPM/wirecontacttest.py WireMatPM/wiretensiltest.py || Klaus Thoeni || K. Thoeni
 
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!bgcolor="#FFFF00" | Law2_CylScGeom_FrictPhys_CundallStrack
 
!bgcolor="#FFFF00" | Law2_CylScGeom_FrictPhys_CundallStrack
| Similar to Law2_ScGeom_FrictPhys_CundallStrack but adapted to interactions between spheres and chained cylinders. || in development || more or less || not yet || chained-cylinder-roots.py || Bruno Chareyre, François Kneib
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| Similar to Law2_ScGeom_FrictPhys_CundallStrack but adapted to interactions between spheres and chained cylinders. || in development || more or less || not yet || chained-cylinder-roots.py || Bruno Chareyre, François Kneib || B. Chareyre, F. Kneib, I. Olmedo
 
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!bgcolor="#FFFF00" | Law2_CylScGeom6D_CohFrictPhys_CohesionMoment
 
!bgcolor="#FFFF00" | Law2_CylScGeom6D_CohFrictPhys_CohesionMoment
| Similar to Law2_ScGeom6D_CohFrictPhys_CohesionMoment but adapted to interactions between spheres and chained cylinders. || in development || no || not yet || CohesiveCylinderSphere.py || François Kneib, Bruno Chareyre
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| Similar to Law2_ScGeom6D_CohFrictPhys_CohesionMoment but adapted to interactions between spheres and chained cylinders. || in development || no || not yet || CohesiveCylinderSphere.py || François Kneib, Bruno Chareyre || B. Chareyre, F. Kneib, I. Olmedo
 
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!bgcolor="#FFFF00" | Law2_ScGeom_ViscoFrictPhys_CundallStrack
 
!bgcolor="#FFFF00" | Law2_ScGeom_ViscoFrictPhys_CundallStrack
| Generalized Maxwell model of visco-elasto-plastic interactions (2 springs and 2 dashpots for each force component). || in development || no || || - || Bruno Chareyre
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| Generalized Maxwell model of visco-elasto-plastic interactions (2 springs and 2 dashpots for each force component). || in development || no || || - || Bruno Chareyre || B. Chareyre
 
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!bgcolor="#ff0000" | Law2_SomeGeom_CpmPhys_Cpm
 
!bgcolor="#ff0000" | Law2_SomeGeom_CpmPhys_Cpm

Revision as of 10:59, 5 October 2012

Constitutive laws

This page should grow to give overview of all constitutive laws in Yade. The purpose is twofold:

  1. Names of respective classes do not say much and it seems that lot of code is duplicated; should improve orientation in material models available
  2. Not all laws are in the same development stage. Some of them are well validated while others are purely experimental. Users should quickly find out which ones are safe to use in this table.

Yade users are strongly encouraged to choose one of the green laws unless a reason exist to decide otherwise.


Class description dev. status validated publications example script maintainer(s) active users
Law2_ScGeom_FrictPhys_CundallStrack The traditional Cundall's linear elastic-plastic law. This law has three parameters : tangential stiffness, normal stiffness, and friction coefficient - it modelizes dry contacts (no tensile force allowed). mature yes (>10 papers) e.g. Scholtes2009c, Chareyre2012a triax-basic.py Bruno Chareyre >10
Law2_ScGeom6D_CohFrictPhys_CohesionMoment An augmented version of Law2_ScGeom_FrictPhys_CundallStrack with cohesion and torques at contacts. Creep is optional. mature yes not yet triax-cohesive.py Bruno Chareyre F. Kneib
Law2_ScGeom_MindlinPhys_Mindlin The non-linear elastic Hertz-Mindlin no-slip solution contact law. The law also allows for rolling resistance and non-linear viscous damping. mature yes Modenese2012b mindlin.py Chiara Modenese C. Modenese, C. Jakob
Law2_ScGeom_WirePhys_WirePM A contact law for steel wires which is defined by a piece-wise linear stress-strain curve. The contact law considers tensile forces only. mature yes Thoeni2011, Bertrand2008 WireMatPM/wirecontacttest.py WireMatPM/wiretensiltest.py Klaus Thoeni K. Thoeni
Law2_CylScGeom_FrictPhys_CundallStrack Similar to Law2_ScGeom_FrictPhys_CundallStrack but adapted to interactions between spheres and chained cylinders. in development more or less not yet chained-cylinder-roots.py Bruno Chareyre, François Kneib B. Chareyre, F. Kneib, I. Olmedo
Law2_CylScGeom6D_CohFrictPhys_CohesionMoment Similar to Law2_ScGeom6D_CohFrictPhys_CohesionMoment but adapted to interactions between spheres and chained cylinders. in development no not yet CohesiveCylinderSphere.py François Kneib, Bruno Chareyre B. Chareyre, F. Kneib, I. Olmedo
Law2_ScGeom_ViscoFrictPhys_CundallStrack Generalized Maxwell model of visco-elasto-plastic interactions (2 springs and 2 dashpots for each force component). in development no - Bruno Chareyre B. Chareyre
Law2_SomeGeom_CpmPhys_Cpm A generic class for inheritance by more specialized functors (e.g.Law2_ScGeom_CpmPhys_Cpm). Not to be used in simulations.
Law2_Dem3DofGeom_CpmPhys_Cpm
Law2_Dem3DofGeom_RockPMPhys_Rpm
Law2_L3Geom_FrictPhys_ElPerfPl
Law2_L6Geom_FrictPhys_Linear
Law2_ScGeom6D_NormalInelasticityPhys_NormalInelasticity
Law2_ScGeom_CFpmPhys_CohesiveFrictionalPM
Law2_ScGeom_CpmPhys_Cpm
Law2_ScGeom_MindlinPhys_HertzWithLinearShear
Law2_ScGeom_MindlinPhys_MindlinDeresiewitz
Law2_ScGeom_ViscElPhys_Basic