1 Material Models for Structural Analysis
1.1 Elastic materials
1.1.1 Isotropic linear elastic material - IsoLE
1.1.2 Orthotropic linear elastic material - OrthoLE
1.1.3 General anisotropic linear elastic material - AnisoLE
1.1.4 1D linear elastic material with different tension and compression stiffness - isoAxysymm1D
1.1.5 Hyperelastic material - Simo-Pister Material
1.1.6 Hyperelastic material - Compressible Mooney-Rivlin
1.1.7 Hyperelastic material - Compressible Ogden
1.1.8 Hyperelastic material - Blatz-Ko
1.2 Winkler-Pasternak model
1.3 Large-strain master material
1.4 Plasticity-based material models
1.4.1 Drucker-Prager model - DruckerPrager
1.4.2 Drucker-Prager model with tension cut-off and isotropic damage - DruckerPragerCut
1.4.3 Mises plasticity model with isotropic damage - MisesMat
1.4.4 Mises plasticity model with isotropic damage, nonlocal - MisesMatNl, MisesMatGrad
1.4.5 Rankine plasticity model with isotropic damage and its nonlocal formulations - RankMat, RankMatNl, RankMatGrad
1.4.6 Perfectly plastic material with Mises yield condition - Steel1
1.4.7 Composite plasticity model for masonry - Masonry02
1.4.8 Nonlinear elasto-plastic material model for concrete plates and shells - Concrete2
1.5 Material models for tensile failure
1.5.1 Nonlinear elasto-plastic material model for concrete plates and shells - Concrete2
1.5.2 Smeared rotating crack model - Concrete3
1.5.3 Smeared rotating crack model with transition to scalar damage - linear softening - RCSD
1.5.4 Smeared rotating crack model with transition to scalar damage - exponential softening - RCSDE
1.5.5 Nonlocal smeared rotating crack model with transition to scalar damage - RCSDNL
1.5.6 Isotropic damage model for tensile failure - Idm1
1.5.7 Nonlocal isotropic damage model for tensile failure - Idmnl1
1.5.8 Anisotropic damage model - Mdm
1.5.9 Isotropic damage model for interfaces
1.5.10 Isotropic damage model for interfaces using tabulated data for damage
1.6 Material models specific to concrete
1.6.1 Mazars damage model for concrete - MazarsModel
1.6.2 Nonlocal Mazars damage model for concrete - MazarsModelnl
1.6.3 CebFip78 model for concrete creep with aging - CebFip78
1.6.4 Double-power law model for concrete creep with aging - DoublePowerLaw
1.6.5 Eurocode 2 model for concrete creep and shrinkage - EC2CreepMat
1.6.6 B3 and MPS models for concrete creep with aging
1.6.7 MPS damage model
1.6.8 Microplane model M4 - Microplane_M4
1.6.9 Damage-plastic model for concrete - ConcreteDPM
1.6.10 Damage-plastic model for concrete - CDPM2
1.6.11 Fixed crack model for concrete - ConcreteFCM
1.6.12 Viscoelastic fixed crack model for concrete - ConcreteFCMViscoelastic
1.6.13 Fixed crack model for fiber reinforced composites - FRCFCM
1.6.14 “Nonlocal” model for SHCC
1.7 Orthotropic damage model with fixed crack orientations for composites - CompDamMat
1.8 Orthotropic elastoplastic model with isotropic damage - TrabBone3d
1.8.1 Local formulation
1.8.2 Nonlocal formulation - TrabBoneNL3d
1.9 Material models for interfaces
1.9.1 Cohesive interface material - cohInt
1.9.2 Isotropic damage model for interfaces
1.9.3 Simple interface material - obsolete
1.9.4 Bond-slip model for reinforced concrete - BondCEB
1.10 Material models for lattice elements
1.10.1 Linear elastic lattice model
1.10.2 Scalar damage lattice model
1.10.3 Plasticity damage lattice model
1.10.4 Slip lattice model
1.10.5 Bond lattice model
1.10.6 Viscoelastic lattice model
1.10.7 Viscoelastic damage lattice model
1.10.8 Viscoelastic plasticity damage lattice model
1.11 Material models for steel relaxation
1.11.1 Model for relaxation of prestressing steel - SteelRelaxMat
1.12 User-defined material models using MFront
2 Material Models for Transport Problems
2.1 Isotropic linear material for heat transport – IsoHeat
2.2 Isotropic linear material for moisture transport – IsoLinMoisture
2.3 Isotropic material for moisture transport based on Bažant and Najjar – BazantNajjarMoisture
2.4 Nonlinear isotropic material for moisture transport – NlIsoMoisture
2.5 Material for cement hydration - CemhydMat
2.6 Material for cement hydration - HydratingConcreteMat
2.7 Coupled heat and mass transport material model - HeMotk
2.8 Coupled heat and mass transport material model - HeMoKunzel
2.9 Material for unsaturated flow in lattice models – LatticeTransMat
2.9.1 One-dimensional transport element
2.9.2 Constitutive laws
3 Material Models for Fluid Dynamic
3.1 Newtonian fluid - NewtonianFluid
3.2 Bingham fluid - BinghamFluid
3.3 Two-fluid material - TwoFluidMat
3.4 FE² fluid - FE2FluidMaterial