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foam-extend4.1-coherent-io/applications/solvers/solidMechanics/elasticPlasticNonLinTLSolidFoam/calculateThirdOrderDissipativeTerm.H

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// Calculate third order dissipative term as outlined by Demirdzic
// This removes unphysical high frequency oscillations that may
// appear in the solution. This term goes to zero on convergence
// assuming a linear/quadratic displacement field, or the error
// is second order
// volVectorField divThirdOrderTerm
// (
// IOobject
// (
// "divThirdOrderTerm",
// runTime.timeName(),
// mesh,
// IOobject::NO_READ,
// IOobject::NO_WRITE
// ),
// mesh,
// dimensionedVector("zero", dimForce/dimVolume, vector::zero)
// );
// average gradDU of neighbouring cell centres
// interpolation scheme should be midPoint
surfaceTensorField averageGradDU("averageGradDU", fvc::interpolate(gradDU, "averageGradDU"));
// average face gradDU extrapolated from neighbouring cell centres
surfaceTensorField extrapGradDU
(
IOobject
(
"extrapGradDU",
runTime.timeName(),
mesh,
IOobject::NO_READ,
IOobject::NO_WRITE
),
mesh,
dimensionedTensor("zero", dimless, tensor::zero)
);
volVectorField gradGradDUcompXX = fvc::grad(gradDU.component(tensor::XX), "gradGradDU");
volVectorField gradGradDUcompXY = fvc::grad(gradDU.component(tensor::XY), "gradGradDU");
volVectorField gradGradDUcompXZ = fvc::grad(gradDU.component(tensor::XZ), "gradGradDU");
volVectorField gradGradDUcompYX = fvc::grad(gradDU.component(tensor::YX), "gradGradDU");
volVectorField gradGradDUcompYY = fvc::grad(gradDU.component(tensor::YY), "gradGradDU");
volVectorField gradGradDUcompYZ = fvc::grad(gradDU.component(tensor::YZ), "gradGradDU");
volVectorField gradGradDUcompZX = fvc::grad(gradDU.component(tensor::ZX), "gradGradDU");
volVectorField gradGradDUcompZY = fvc::grad(gradDU.component(tensor::ZY), "gradGradDU");
volVectorField gradGradDUcompZZ = fvc::grad(gradDU.component(tensor::ZZ), "gradGradDU");
// third order tensor components
volScalarField gradGradDUXXX = gradGradDUcompXX.component(vector::X);
volScalarField gradGradDUXXY = gradGradDUcompXY.component(vector::X);
volScalarField gradGradDUXXZ = gradGradDUcompXZ.component(vector::X);
volScalarField gradGradDUXYX = gradGradDUcompYX.component(vector::X);
volScalarField gradGradDUXYY = gradGradDUcompYY.component(vector::X);
volScalarField gradGradDUXYZ = gradGradDUcompYZ.component(vector::X);
volScalarField gradGradDUXZX = gradGradDUcompZX.component(vector::X);
volScalarField gradGradDUXZY = gradGradDUcompZY.component(vector::X);
volScalarField gradGradDUXZZ = gradGradDUcompZZ.component(vector::X);
volScalarField gradGradDUYXX = gradGradDUcompXX.component(vector::Y);
volScalarField gradGradDUYXY = gradGradDUcompXY.component(vector::Y);
volScalarField gradGradDUYXZ = gradGradDUcompXZ.component(vector::Y);
volScalarField gradGradDUYYX = gradGradDUcompYX.component(vector::Y);
volScalarField gradGradDUYYY = gradGradDUcompYY.component(vector::Y);
volScalarField gradGradDUYYZ = gradGradDUcompYZ.component(vector::Y);
volScalarField gradGradDUYZX = gradGradDUcompZX.component(vector::Y);
volScalarField gradGradDUYZY = gradGradDUcompZY.component(vector::Y);
volScalarField gradGradDUYZZ = gradGradDUcompZZ.component(vector::Y);
volScalarField gradGradDUZXX = gradGradDUcompXX.component(vector::Z);
volScalarField gradGradDUZXY = gradGradDUcompXY.component(vector::Z);
volScalarField gradGradDUZXZ = gradGradDUcompXZ.component(vector::Z);
volScalarField gradGradDUZYX = gradGradDUcompYX.component(vector::Z);
volScalarField gradGradDUZYY = gradGradDUcompYY.component(vector::Z);
volScalarField gradGradDUZYZ = gradGradDUcompYZ.component(vector::Z);
volScalarField gradGradDUZZX = gradGradDUcompZX.component(vector::Z);
volScalarField gradGradDUZZY = gradGradDUcompZY.component(vector::Z);
volScalarField gradGradDUZZZ = gradGradDUcompZZ.component(vector::Z);
forAll(extrapGradDU.internalField(), facei)
{
const label own = mesh.owner()[facei];
const label nei = mesh.neighbour()[facei];
const vector deltaOwn = mesh.Cf()[facei] - mesh.C()[own];
const vector deltaNei = mesh.Cf()[facei] - mesh.C()[nei];
const tensor& gradDUOwn = gradDU.internalField()[own];
const tensor& gradDUNei = gradDU.internalField()[nei];
// as there is there is no thirdOrderTensor class, we will
// calculate (deltaOwn&gradGradDUOwn) out manually
// tensor deltaOwnDotgradGradDUOwn = tensor::zero;
// tensor deltaNeiDotgradGradDUNei = tensor::zero;
// deltaOwnDotgradGradDUOwn[tensor::XX] = deltaOwn & gradGradDUcompXX.internalField()[own];
// deltaNeiDotgradGradDUNei[tensor::XX] = deltaNei & gradGradDUcompXX.internalField()[nei];
// deltaOwnDotgradGradDUOwn[tensor::XY] = deltaOwn & gradGradDUcompXY.internalField()[own];
// deltaNeiDotgradGradDUNei[tensor::XY] = deltaNei & gradGradDUcompXY.internalField()[nei];
// deltaOwnDotgradGradDUOwn[tensor::XZ] = deltaOwn & gradGradDUcompXZ.internalField()[own];
// deltaNeiDotgradGradDUNei[tensor::XZ] = deltaNei & gradGradDUcompXZ.internalField()[nei];
// deltaOwnDotgradGradDUOwn[tensor::YX] = deltaOwn & gradGradDUcompYX.internalField()[own];
// deltaNeiDotgradGradDUNei[tensor::YX] = deltaNei & gradGradDUcompYX.internalField()[nei];
// deltaOwnDotgradGradDUOwn[tensor::YY] = deltaOwn & gradGradDUcompYY.internalField()[own];
// deltaNeiDotgradGradDUNei[tensor::YY] = deltaNei & gradGradDUcompYY.internalField()[nei];
// deltaOwnDotgradGradDUOwn[tensor::YZ] = deltaOwn & gradGradDUcompYZ.internalField()[own];
// deltaNeiDotgradGradDUNei[tensor::YZ] = deltaNei & gradGradDUcompYZ.internalField()[nei];
// deltaOwnDotgradGradDUOwn[tensor::ZX] = deltaOwn & gradGradDUcompZX.internalField()[own];
// deltaNeiDotgradGradDUNei[tensor::ZX] = deltaNei & gradGradDUcompZX.internalField()[nei];
// deltaOwnDotgradGradDUOwn[tensor::ZY] = deltaOwn & gradGradDUcompZY.internalField()[own];
// deltaNeiDotgradGradDUNei[tensor::ZY] = deltaNei & gradGradDUcompZY.internalField()[nei];
// deltaOwnDotgradGradDUOwn[tensor::ZZ] = deltaOwn & gradGradDUcompZZ.internalField()[own];
// deltaNeiDotgradGradDUNei[tensor::ZZ] = deltaNei & gradGradDUcompZZ.internalField()[nei];
scalar gradGradDUXXXOwn = gradGradDUXXX.internalField()[own];
scalar gradGradDUXXYOwn = gradGradDUXXY.internalField()[own];
scalar gradGradDUXXZOwn = gradGradDUXXZ.internalField()[own];
scalar gradGradDUXYXOwn = gradGradDUXYX.internalField()[own];
scalar gradGradDUXYYOwn = gradGradDUXYY.internalField()[own];
scalar gradGradDUXYZOwn = gradGradDUXYZ.internalField()[own];
scalar gradGradDUXZXOwn = gradGradDUXZX.internalField()[own];
scalar gradGradDUXZYOwn = gradGradDUXZY.internalField()[own];
scalar gradGradDUXZZOwn = gradGradDUXZZ.internalField()[own];
scalar gradGradDUYXXOwn = gradGradDUYXX.internalField()[own];
scalar gradGradDUYXYOwn = gradGradDUYXY.internalField()[own];
scalar gradGradDUYXZOwn = gradGradDUYXZ.internalField()[own];
scalar gradGradDUYYXOwn = gradGradDUYYX.internalField()[own];
scalar gradGradDUYYYOwn = gradGradDUYYY.internalField()[own];
scalar gradGradDUYYZOwn = gradGradDUYYZ.internalField()[own];
scalar gradGradDUYZXOwn = gradGradDUYZX.internalField()[own];
scalar gradGradDUYZYOwn = gradGradDUYZY.internalField()[own];
scalar gradGradDUYZZOwn = gradGradDUYZZ.internalField()[own];
scalar gradGradDUZXXOwn = gradGradDUZXX.internalField()[own];
scalar gradGradDUZXYOwn = gradGradDUZXY.internalField()[own];
scalar gradGradDUZXZOwn = gradGradDUZXZ.internalField()[own];
scalar gradGradDUZYXOwn = gradGradDUZYX.internalField()[own];
scalar gradGradDUZYYOwn = gradGradDUZYY.internalField()[own];
scalar gradGradDUZYZOwn = gradGradDUZYZ.internalField()[own];
scalar gradGradDUZZXOwn = gradGradDUZZX.internalField()[own];
scalar gradGradDUZZYOwn = gradGradDUZZY.internalField()[own];
scalar gradGradDUZZZOwn = gradGradDUZZZ.internalField()[own];
// nei
scalar gradGradDUXXXNei = gradGradDUXXX.internalField()[nei];
scalar gradGradDUXXYNei = gradGradDUXXY.internalField()[nei];
scalar gradGradDUXXZNei = gradGradDUXXZ.internalField()[nei];
scalar gradGradDUXYXNei = gradGradDUXYX.internalField()[nei];
scalar gradGradDUXYYNei = gradGradDUXYY.internalField()[nei];
scalar gradGradDUXYZNei = gradGradDUXYZ.internalField()[nei];
scalar gradGradDUXZXNei = gradGradDUXZX.internalField()[nei];
scalar gradGradDUXZYNei = gradGradDUXZY.internalField()[nei];
scalar gradGradDUXZZNei = gradGradDUXZZ.internalField()[nei];
scalar gradGradDUYXXNei = gradGradDUYXX.internalField()[nei];
scalar gradGradDUYXYNei = gradGradDUYXY.internalField()[nei];
scalar gradGradDUYXZNei = gradGradDUYXZ.internalField()[nei];
scalar gradGradDUYYXNei = gradGradDUYYX.internalField()[nei];
scalar gradGradDUYYYNei = gradGradDUYYY.internalField()[nei];
scalar gradGradDUYYZNei = gradGradDUYYZ.internalField()[nei];
scalar gradGradDUYZXNei = gradGradDUYZX.internalField()[nei];
scalar gradGradDUYZYNei = gradGradDUYZY.internalField()[nei];
scalar gradGradDUYZZNei = gradGradDUYZZ.internalField()[nei];
scalar gradGradDUZXXNei = gradGradDUZXX.internalField()[nei];
scalar gradGradDUZXYNei = gradGradDUZXY.internalField()[nei];
scalar gradGradDUZXZNei = gradGradDUZXZ.internalField()[nei];
scalar gradGradDUZYXNei = gradGradDUZYX.internalField()[nei];
scalar gradGradDUZYYNei = gradGradDUZYY.internalField()[nei];
scalar gradGradDUZYZNei = gradGradDUZYZ.internalField()[nei];
scalar gradGradDUZZXNei = gradGradDUZZX.internalField()[nei];
scalar gradGradDUZZYNei = gradGradDUZZY.internalField()[nei];
scalar gradGradDUZZZNei = gradGradDUZZZ.internalField()[nei];
tensor deltaOwnDotgradGradDUOwn = tensor
(
deltaOwn.x()*gradGradDUXXXOwn + deltaOwn.y()*gradGradDUYXXOwn + deltaOwn.z()*gradGradDUZXXOwn,
deltaOwn.x()*gradGradDUXXYOwn + deltaOwn.y()*gradGradDUYXYOwn + deltaOwn.z()*gradGradDUZXYOwn,
deltaOwn.x()*gradGradDUXXZOwn + deltaOwn.y()*gradGradDUYXZOwn + deltaOwn.z()*gradGradDUZXZOwn,
deltaOwn.x()*gradGradDUXYXOwn + deltaOwn.y()*gradGradDUYYXOwn + deltaOwn.z()*gradGradDUZYXOwn,
deltaOwn.x()*gradGradDUXYYOwn + deltaOwn.y()*gradGradDUYYYOwn + deltaOwn.z()*gradGradDUZYYOwn,
deltaOwn.x()*gradGradDUXYZOwn + deltaOwn.y()*gradGradDUYYZOwn + deltaOwn.z()*gradGradDUZYZOwn,
deltaOwn.x()*gradGradDUXZXOwn + deltaOwn.y()*gradGradDUYZXOwn + deltaOwn.z()*gradGradDUZZXOwn,
deltaOwn.x()*gradGradDUXZYOwn + deltaOwn.y()*gradGradDUYZYOwn + deltaOwn.z()*gradGradDUZZYOwn,
deltaOwn.x()*gradGradDUXZZOwn + deltaOwn.y()*gradGradDUYZZOwn + deltaOwn.z()*gradGradDUZZZOwn
);
tensor deltaNeiDotgradGradDUNei = tensor
(
deltaNei.x()*gradGradDUXXXNei + deltaNei.y()*gradGradDUYXXNei + deltaNei.z()*gradGradDUZXXNei,
deltaNei.x()*gradGradDUXXYNei + deltaNei.y()*gradGradDUYXYNei + deltaNei.z()*gradGradDUZXYNei,
deltaNei.x()*gradGradDUXXZNei + deltaNei.y()*gradGradDUYXZNei + deltaNei.z()*gradGradDUZXZNei,
deltaNei.x()*gradGradDUXYXNei + deltaNei.y()*gradGradDUYYXNei + deltaNei.z()*gradGradDUZYXNei,
deltaNei.x()*gradGradDUXYYNei + deltaNei.y()*gradGradDUYYYNei + deltaNei.z()*gradGradDUZYYNei,
deltaNei.x()*gradGradDUXYZNei + deltaNei.y()*gradGradDUYYZNei + deltaNei.z()*gradGradDUZYZNei,
deltaNei.x()*gradGradDUXZXNei + deltaNei.y()*gradGradDUYZXNei + deltaNei.z()*gradGradDUZZXNei,
deltaNei.x()*gradGradDUXZYNei + deltaNei.y()*gradGradDUYZYNei + deltaNei.z()*gradGradDUZZYNei,
deltaNei.x()*gradGradDUXZZNei + deltaNei.y()*gradGradDUYZZNei + deltaNei.z()*gradGradDUZZZNei
);
// get average of extrapolated values
tensor extrapFaceGrad =
0.5*
(
gradDUOwn + (deltaOwnDotgradGradDUOwn)
+
gradDUNei + (deltaNeiDotgradGradDUNei)
);
extrapGradDU.internalField()[facei] = extrapFaceGrad;
}
// correction is zero on boundary
forAll(extrapGradDU.boundaryField(), patchi)
{
extrapGradDU.boundaryField()[patchi] =
averageGradDU.boundaryField()[patchi];
}
// calculate thirdOrderTerm
volVectorField divThirdOrderTerm
(
"thirdOrderTerm",
fvc::div
(
(2*muf+lambdaf)*mesh.Sf() & (extrapGradDU - averageGradDU)
)
);
// if(runTime.outputTime())
// {
// divThirdOrderTerm.write();
// averageGradDU.write();
// extrapGradDU.write();
// }