//- write force displacement to file if(historyPatchID != -1) { Info << "Writing disp-force to file for patch " << historyPatchName << endl; vector disp = gAverage(U.boundaryField()[historyPatchID]); //- for small strain or moving mesh vector force = gSum(mesh.boundary()[historyPatchID].Sf() & sigma.boundaryField()[historyPatchID]); //- for large strain total lagrangian // tensorField F = I + gradU.boundaryField()[historyPatchID]; // vector force = gSum(mesh.Sf().boundaryField()[historyPatchID] & (sigma.boundaryField()[historyPatchID] & F)); // Info << "Writing strain-stress to file for patch " << historyPatchName // << endl; // average stress strain //symmTensor stress = gAverage(sigma.boundaryField()[historyPatchID]); //symmTensor strain = gAverage(epsilon.boundaryField()[historyPatchID]); // write to file if(Pstream::master()) { OFstream& forceDispFile = *forceFilePtr; label width = 20; forceDispFile << disp.x() << " " << disp.y() << " " << disp.z(); forceDispFile.width(width); forceDispFile << force.x() << " " << force.y() << " " << force.z() << endl; // OFstream& stressStrainFile = *stressFilePtr; // stressStrainFile << strain.xx() << " " << strain.xy() << " " << strain.xz() << " " // << strain.yy() << " " << strain.yz() << " " << strain.zz(); // stressStrainFile.width(width); // stressStrainFile << stress.xx() << " " << stress.xy() << " " << stress.xz() << " " // << stress.yy() << " " << stress.yz() << " " << stress.zz() // << endl; } }