// -*- C++ -*- // $RCSfile: tetragonal.C,v $ // $Revision: 1.5 $ // $Author: langer $ // $Date: 2005/02/17 19:11:31 $ /* This software was produced by NIST, an agency of the U.S. government, * and by statute is not subject to copyright in the United States. * Recipients of this software assume all responsibilities associated * with its operation, modification and maintenance. However, to * facilitate maintenance we ask that before distributing modifed * versions of this software, you first contact the authors at * oof_manager@ctcms.nist.gov. */ #include "materialcmd.h" #include "tetragonal.h" #include "readbinary.h" CharString TetragonalMaterial::type("tetragonal"); MaterialTypeRegistration TetragonalMaterial::reg("tetragonal", new MaterialCmd, new MaterialTriCmd, 3.5); float TetragonalMaterial::c11_dflt(1.0); float TetragonalMaterial::c12_dflt(0.0); float TetragonalMaterial::c13_dflt(0.0); float TetragonalMaterial::c16_dflt(0.0); float TetragonalMaterial::c33_dflt(1.0); float TetragonalMaterial::c44_dflt(0.5); float TetragonalMaterial::c66_dflt(0.5); float TetragonalMaterial::alpha11_dflt(1.0); float TetragonalMaterial::alpha33_dflt(1.0); #ifdef THERMAL float TetragonalMaterial::kappa11_dflt(1.0); float TetragonalMaterial::kappa33_dflt(1.0); #endif // THERMAL EulerAngle TetragonalMaterial::orientation_dflt; void TetragonalMaterial::output(FILE *fp_goof, unsigned char &flag, int n1, int n2, int n3) const { MaterialT::output(fp_goof, flag, n1, n2, n3); writebinary(fp_goof, float(orientation.alpha())); writebinary(fp_goof, float(orientation.beta())); writebinary(fp_goof, float(orientation.gamma())); writebinary(fp_goof, flag); writebinary(fp_goof, c11); writebinary(fp_goof, c12); writebinary(fp_goof, c13); writebinary(fp_goof, c16); writebinary(fp_goof, c33); writebinary(fp_goof, c44); writebinary(fp_goof, c66); writebinary(fp_goof, alpha11); writebinary(fp_goof, alpha33); #ifdef THERMAL writebinary(fp_goof, kappa11); writebinary(fp_goof, kappa33); #endif // THERMAL } void TetragonalMaterial::output(FILE *fp_goof, unsigned char &flag, int n1, int n2, int n3, int same_element) const { MaterialT::output(fp_goof, flag, n1, n2, n3, same_element); writebinary(fp_goof, float(orientation.alpha())); writebinary(fp_goof, float(orientation.beta())); writebinary(fp_goof, float(orientation.gamma())); writebinary(fp_goof, flag); writebinary(fp_goof, same_element); writebinary(fp_goof, c11); writebinary(fp_goof, c12); writebinary(fp_goof, c13); writebinary(fp_goof, c16); writebinary(fp_goof, c33); writebinary(fp_goof, c44); writebinary(fp_goof, c66); writebinary(fp_goof, alpha11); writebinary(fp_goof, alpha33); #ifdef THERMAL writebinary(fp_goof, kappa11); writebinary(fp_goof, kappa33); #endif // THERMAL } int TetragonalMaterial::compare(const Material *other) const { if(!MaterialT::compare(other)) return 0; TetragonalMaterial *m2 = (TetragonalMaterial*) other; if(c11 != m2->c11) return 0; if(c12 != m2->c12) return 0; if(c13 != m2->c13) return 0; if(c16 != m2->c16) return 0; if(c33 != m2->c33) return 0; if(c44 != m2->c44) return 0; if(c66 != m2->c66) return 0; if(alpha11 != m2->alpha11) return 0; if(alpha33 != m2->alpha33) return 0; #ifdef THERMAL if(kappa11 != m2->kappa11) return 0; if(kappa33 != m2->kappa33) return 0; #endif // THERMAL if(!(orientation == m2->orientation)) return 0; return 1; } // ------------- std::vector *TetragonalMaterial::print_properties(ostream &os) const { std::vector *names = MaterialT::print_properties(os); CharString pname = newPropertyName(); os << "OOF.LoadData.Property.Elasticity.Anisotropic.Tetragonal(name='" << pname << "', cijkl=TetragonalRank4TensorCij(c11=" << c11 << ", c12=" << c12 << ", c13=" << c13 << ", c16=" << c16 << ", c33=" << c33 << ", c44=" << c44 << ", c66=" << c66 << "))" << endl; names->push_back("Elasticity:Anisotropic:Tetragonal:" + pname); pname = newPropertyName(); os << "OOF.LoadData.Property.Orientation(name='" << pname << "', angles=Abg(alpha=" << orientation.alpha() << ", beta=" << orientation.beta() << ", gamma=" << orientation.gamma() << "))" << endl; names->push_back("Orientation:" + pname); if(alpha11 != 0.0 || alpha33 != 0.0) { pname = newPropertyName(); os << "OOF.LoadData.Property.Thermal.ThermalExpansion.Anisotropic.Tetragonal(name='" << pname << "', alpha=TetragonalRank2Tensor(xx=" << alpha11 << ", zz=" << alpha33 << "), T0=" #ifndef THERMAL << 0.0 #else // THERMAL << t0 #endif // THERMAL << ")" << endl; names->push_back("Thermal:ThermalExpansion:Anisotropic:Tetragonal:" + pname); } #ifdef THERMAL if(kappa11 != 0.0 || kappa33 != 0.0) { pname = newPropertyName(); os << "OOF.LoadData.Property.Thermal.Conductivity.Anisotropic.Tetragonal(name='" << pname << "', kappa=TetragonalRank2Tensor(xx=" << kappa11 << ", zz=" << kappa33 << "))" << endl; names->push_back("Thermal:Conductivity:Anisotropic:Tetragonal:" + pname); } #endif // THERMAL return names; }