if(divDSigmaExpMethod == "standard") { divDSigmaExp = fvc::div ( mu*gradDU.T() + lambda*(I*tr(gradDU)) - (mu + lambda)*gradDU, "div(sigma)" ); } else if(divDSigmaExpMethod == "surface") { divDSigmaExp = fvc::div ( muf*(mesh.Sf() & fvc::interpolate(gradDU.T())) + lambdaf*(mesh.Sf() & I*fvc::interpolate(tr(gradDU))) - (muf + lambdaf)*(mesh.Sf() & fvc::interpolate(gradDU)) ); } else if(divDSigmaExpMethod == "decompose") { surfaceTensorField shearGradU = ((I - n*n)&fvc::interpolate(gradDU)); divDSigmaExp = fvc::div ( mesh.magSf() *( - (muf + lambdaf)*(fvc::snGrad(U)&(I - n*n)) + lambdaf*tr(shearGradU&(I - n*n))*n + muf*(shearGradU&n) ) ); } else if(divDSigmaExpMethod == "expLaplacian") { divDSigmaExp = - fvc::laplacian(mu + lambda, U, "laplacian(DU,U)") + fvc::div ( mu*gradDU.T() + lambda*(I*tr(gradDU)), "div(sigma)" ); } else { FatalError << "divDSigmaExp method " << divDSigmaExpMethod << " not found!" << endl; }