OOF2: The Manual
Name
Displacement
Details
-
Class:
TwoVectorField
- Dimension: 2
-
Displacement
is used by the followingProperties
:- Mechanical:Elasticity:Isotropic
- Mechanical:Elasticity:Anisotropic:Cubic
- Mechanical:Elasticity:Anisotropic:Hexagonal
- Mechanical:Elasticity:Anisotropic:Tetragonal
- Mechanical:Elasticity:Anisotropic:TrigonalA
- Mechanical:Elasticity:Anisotropic:TrigonalB
- Mechanical:Elasticity:Anisotropic:Orthorhombic
- Mechanical:Elasticity:Anisotropic:Monoclinic
- Mechanical:Elasticity:Anisotropic:Triclinic
- Mechanical:Elasticity:LargeStrain:Isotropic
- Mechanical:Elasticity:LargeStrain:Anisotropic:Cubic
- Mechanical:Elasticity:LargeStrain:Anisotropic:Hexagonal
- Mechanical:Elasticity:LargeStrain:Anisotropic:Tetragonal
- Mechanical:Elasticity:LargeStrain:Anisotropic:TrigonalA
- Mechanical:Elasticity:LargeStrain:Anisotropic:TrigonalB
- Mechanical:Elasticity:LargeStrain:Anisotropic:Orthorhombic
- Mechanical:Elasticity:LargeStrain:Anisotropic:Monoclinic
- Mechanical:Elasticity:LargeStrain:Anisotropic:Triclinic
- Mechanical:MassDensity:ConstantMassDensity
- Mechanical:Viscosity:Isotropic
- Mechanical:Damping:Isotropic
- Couplings:PiezoElectricity:Cubic:Td
- Couplings:PiezoElectricity:Hexagonal:D3h
- Couplings:PiezoElectricity:Hexagonal:C6v
- Couplings:PiezoElectricity:Hexagonal:D6
- Couplings:PiezoElectricity:Hexagonal:D6i
- Couplings:PiezoElectricity:Hexagonal:C6
- Couplings:PiezoElectricity:Trigonal:C3v
- Couplings:PiezoElectricity:Trigonal:D3
- Couplings:PiezoElectricity:Trigonal:C3
- Couplings:PiezoElectricity:Tetragonal:D2d
- Couplings:PiezoElectricity:Tetragonal:C4v
- Couplings:PiezoElectricity:Tetragonal:D4
- Couplings:PiezoElectricity:Tetragonal:C4i
- Couplings:PiezoElectricity:Tetragonal:C4
- Couplings:PiezoElectricity:Orthorhombic:C2v
- Couplings:PiezoElectricity:Orthorhombic:D2
- Couplings:PiezoElectricity:Monoclinic:Cs
- Couplings:PiezoElectricity:Monoclinic:C2
- Couplings:PiezoElectricity:Triclinic:C1
Description
The values of the Displacement
Field
are
usually found by solving the Force_Balance Equation
. Its conjugate Flux
is Stress.
The in-plane
Displacement
Field
has two components,
and
. Its
companion out-of-plane
Field
,
Displacement_z
, has three components,
,
, and
.