C_NAD m_objNAD = new C_NAD(); // doriesit konstruktor a naplnenie Mat #endregion Fields #region Constructors public CCalcul() { // Basic Cross-section Data and Classification // s niektorymi objektami potrebujem pracovat aj dalej, takze by to malo byt inak :-/ // Mat jednu triedu, vytvarat jej objekt ako clensky v tejto triede a volat rozne konštruktory podla ECrScShType ???- zbytocne vela premennych - rozne typy maju rozne dáta switch (m_eCrScType) { case ECrScShType1.eCrScType_I: // I and H - section { C_GEO___I objGeo = new C_GEO___I(m_eSym, m_eProd); C_MAT___I objMat = new C_MAT___I(objGeo, m_eSym); C_ADD___I objAdd = new C_ADD___I(m_objNAD, objGeo, objMat, m_objCrSc, m_eSym, m_eProd); C_STR___I objStr = new C_STR___I(m_objIFO, objGeo, m_objCrSc, m_eSym); C___I objClass = new C___I(objGeo, objMat,m_objIFO,m_objNAD,objStr,m_eSym,m_eProd); if (objClass.m_iClass == 4) { C___I4 objC___I4 = new C___I4(m_objCrSc, objGeo, m_objIFO, objStr, objClass, objMat, objAdd, m_eSym); } break; } case ECrScShType1.eCrScType_C: // C and U (channel) - section { C_GEO___U objGeo = new C_GEO___U(m_eProd); C_MAT___U objMat = new C_MAT___U(objGeo, m_eSym); C_ADD___U objAdd = new C_ADD___U(m_objNAD, objGeo, objMat, m_objCrSc, m_eProd); C_STR___U objStr = new C_STR___U(m_objIFO, objGeo, m_objCrSc); C___U objClass = new C___U(objGeo, objMat, m_objIFO, m_objNAD, objStr); if (objClass.m_iClass == 4) { C___U4 objC___U4 = new C___U4(m_objCrSc, objGeo, m_objIFO, objStr, objClass, objMat, objAdd); } break; } case ECrScShType1.eCrScType_L: // L (angle) - section , equal and unequal { C_GEO___L objGeo = new C_GEO___L(m_eSym, m_eProd); C_MAT___L objMat = new C_MAT___L(objGeo, m_eSym); C_ADD___L objAdd = new C_ADD___L(m_objNAD, objGeo, objMat, m_objCrSc, m_eSym, m_eProd); C_STR___L objStr = new C_STR___L(m_objIFO, objGeo, m_objCrSc, m_eSym); C___L objClass = new C___L(objGeo, objMat, objStr); if (objClass.m_iClass == 4) { C___L4 objC___L4 = new C___L4(m_objCrSc, objGeo, m_objIFO, objStr, objClass, objMat, objAdd, m_eSym); } break; } case ECrScShType1.eCrScType_T: // T - section { /* C_GEO___T objGeo = new C_GEO___I(m_eSym, m_eProd); C_MAT___T objMat = new C_MAT___I(objGeo, m_eSym); C_ADD___I objAdd = new C_ADD___I(m_objNAD, objGeo, objMat, m_objCrSc, m_eSym, m_eProd); C_STR___I objStr = new C_STR___I(m_objIFO, objGeo, m_objCrSc, m_eSym); C___I objC___I = new C___I(objGeo, objMat, m_objIFO, m_objNAD, objStr, m_eSym, m_eProd); if (objC___I.m_iClass == 4) { C___I4 objC___I4 = new C___I4(m_objCrSc, objGeo, m_objIFO, objStr, objC___I, objMat, objAdd, m_eSym); } */ break; } case ECrScShType1.eCrScType_HL: // HoLLow / box - section, hollow - section (square and rectangular) { C_GEO__HL objGeo = new C_GEO__HL(m_eProd); C_MAT__HL objMat = new C_MAT__HL(objGeo, m_eProd); C_ADD__HL objAdd = new C_ADD__HL(m_objNAD, objGeo, objMat, m_objCrSc, m_eProd); C_STR__HL objStr = new C_STR__HL(m_objIFO, objGeo, m_objCrSc, m_eProd); C__HL objClass = new C__HL(objGeo, objMat, m_objIFO, m_objNAD, objStr, m_eSym, m_eProd); if (objClass.m_iClass == 4) { C__HL4 objC__HL4 = new C__HL4(m_objCrSc, objGeo, m_objIFO, objStr, objClass, objMat, objAdd, m_eProd); } break; } case ECrScShType1.eCrScType_FB: // Flat Bar { /* C_GEO___I objGeo = new C_GEO___I(m_eSym, m_eProd); C_MAT___I objMat = new C_MAT___I(objGeo, m_eSym); C_ADD___I objAdd = new C_ADD___I(m_objNAD, objGeo, objMat, m_objCrSc, m_eSym, m_eProd); C_STR___I objStr = new C_STR___I(m_objIFO, objGeo, m_objCrSc, m_eSym); C___I objC___I = new C___I(objGeo, objMat, m_objIFO, m_objNAD, objStr, m_eSym, m_eProd); if (objC___I.m_iClass == 4) { C___I4 objC___I4 = new C___I4(m_objCrSc, objGeo, m_objIFO, objStr, objC___I, objMat, objAdd, m_eSym); } */ break; } case ECrScShType1.eCrScType_RB: // Round Bar { /* C_GEO___I objGeo = new C_GEO___I(m_eSym, m_eProd); C_MAT___I objMat = new C_MAT___I(objGeo, m_eSym); C_ADD___I objAdd = new C_ADD___I(m_objNAD, objGeo, objMat, m_objCrSc, m_eSym, m_eProd); C_STR___I objStr = new C_STR___I(m_objIFO, objGeo, m_objCrSc, m_eSym); C___I objC___I = new C___I(objGeo, objMat, m_objIFO, m_objNAD, objStr, m_eSym, m_eProd); if (objC___I.m_iClass == 4) { C___I4 objC___I4 = new C___I4(m_objCrSc, objGeo, m_objIFO, objStr, objC___I, objMat, objAdd, m_eSym); }*/ break; } case ECrScShType1.eCrScType_TU: // TUbe { C_GEO__TU objGeo = new C_GEO__TU(m_eProd); C_MAT__TU objMat = new C_MAT__TU(objGeo); C_ADD__TU objAdd = new C_ADD__TU(m_objNAD, objGeo, objMat, m_objCrSc, m_eProd); C_STR__TU objStr = new C_STR__TU(m_objIFO, objGeo, m_objCrSc); C__TU objC__TU = new C__TU(objGeo, objMat, m_objIFO, m_objNAD, objStr); if (objC__TU.m_iClass == 4) { //Error } break; } default: { break; } } // Cross-section Design // Stability Design // Nasleduje if / else pre urcenie spravneho posudku ktory sa ma vytvorit // objekty CH_10000 - CH_90000 }
public C___L4(CCrSc objCrSc, C_GEO___L objGeo, C_IFO objIFO, C_STR___L objStr, C___L objC__L, C_MAT___L objMat, C_ADD___L objAdd, ECrScSymmetry1 eSym) { // EN 1993-1-5,Table 4.2 GetEff_OUT(objStr.m_fSP_Sigma_x_Ed[2], Math.Min(objStr.m_fSP_Sigma_x_Ed[0], objStr.m_fSP_Sigma_x_Ed[1]), objGeo.m_fc_a, objGeo.m_ft_a, objMat.FEps, fSigma_1_a, fSigma_2_a, fPsi_a, fk_Sigma_a, fLambda_rel_p_a, fRho_a, fb_eff_a, fb_red_a, fb_em_a, objMat.BStainlessS); // EN 1993-1-5,Table 4.2 GetEff_OUT(objStr.m_fSP_Sigma_x_Ed[4], Math.Min(objStr.m_fSP_Sigma_x_Ed[5], objStr.m_fSP_Sigma_x_Ed[6]), objGeo.m_fc_b, objGeo.m_ft_b, objMat.FEps, fSigma_1_b, fSigma_2_b, fPsi_b, fk_Sigma_b, fLambda_rel_p_b, fRho_b, fb_eff_b, fb_red_b, fb_em_b, objMat.BStainlessS); if (fb_red_a > 0.0f || fb_red_b > 0.0f) { m_fA_eff = objCrSc.m_fA - fb_red_a * objGeo.m_ft_a - fb_red_b * objGeo.m_ft_b; fz_eff_c = (objCrSc.m_fA * objCrSc.m_fz_S - fb_red_a * objGeo.m_ft_a * (objGeo.m_fh - fb_em_a) - fb_red_b * objGeo.m_ft_b * objGeo.m_ft_b / 2.0f ) / m_fA_eff; fy_eff_c = (objCrSc.m_fA * objCrSc.m_fy_S - fb_red_a * objGeo.m_ft_a * objGeo.m_ft_a / 2.0f - fb_red_b * objGeo.m_ft_b * (objGeo.m_fb - fb_em_b) ) / m_fA_eff; m_fI_eff_yy = objCrSc.m_fI_yy + objCrSc.m_fA * sqr(fz_eff_c - objCrSc.m_fz_S) - objGeo.m_ft_a * (float)Math.Pow(fb_red_a, 3) / 12.0f - fb_red_a * objGeo.m_ft_a * sqr(objGeo.m_fh - fb_em_a - fz_eff_c) - fb_red_b * (float)Math.Pow(objGeo.m_ft_b, 3) / 12.0f - fb_red_b * objGeo.m_ft_b * sqr(fz_eff_c - objGeo.m_ft_b / 2.0f); m_fI_eff_zz = objCrSc.m_fI_zz + objCrSc.m_fA * sqr(fy_eff_c - objCrSc.m_fy_S) - (float)Math.Pow(objGeo.m_ft_a, 3) * fb_red_a / 12.0f - fb_red_a * objGeo.m_ft_a * sqr(fy_eff_c - objGeo.m_ft_a / 2.0f) - (float)Math.Pow(fb_red_b, 3) * objGeo.m_ft_b / 12.0f - fb_red_b * objGeo.m_ft_b * sqr(objGeo.m_fb - fb_em_b - fy_eff_c); m_fI_eff_yz = objCrSc.m_fI_yz + objCrSc.m_fA * (objCrSc.m_fy_S - fy_eff_c) * (fz_eff_c - objCrSc.m_fz_S) - fb_red_a * objGeo.m_ft_a * (fy_eff_c - objGeo.m_ft_a / 2.0f) * (objGeo.m_fh - fb_em_a - fz_eff_c) - fb_red_b * objGeo.m_ft_b * (fz_eff_c - objGeo.m_ft_b / 2.0f) * (objGeo.m_fb - fb_em_b - fy_eff_c); m_fI_eff_y = (m_fI_eff_yy + m_fI_eff_zz) / 2.0f + (float)Math.Sqrt(sqr((m_fI_eff_yy - m_fI_eff_zz) / 2.0f) + sqr(m_fI_eff_yz)); m_fI_eff_z = (m_fI_eff_yy + m_fI_eff_zz) / 2.0f - (float)Math.Sqrt(sqr((m_fI_eff_yy - m_fI_eff_zz) / 2.0f) + sqr(m_fI_eff_yz)); if (m_fI_eff_yy != m_fI_eff_zz) objGeo.m_fAlpha_Axis = 0.5f * (float)Math.Atan((2.0f * m_fI_eff_yz) / (m_fI_eff_zz - m_fI_eff_yy)); else objGeo.m_fAlpha_Axis = -0.785398163f; // = -45? float m_fe_Ny_zz = fz_eff_c - objCrSc.m_fz_S; float m_fe_Nz_yy = fy_eff_c - objCrSc.m_fy_S; m_fe_Ny = m_fe_Nz_yy * (float)Math.Cos(objGeo.m_fAlpha_Axis) + m_fe_Ny_zz * (float)Math.Sin(objGeo.m_fAlpha_Axis); m_fe_Nz = -m_fe_Nz_yy * (float)Math.Sin(objGeo.m_fAlpha_Axis) + m_fe_Ny_zz * (float)Math.Cos(objGeo.m_fAlpha_Axis); objStr.m_fSP_y_par[0] = -fy_eff_c; objStr.m_fSP_z_par[0] = fz_eff_c - objGeo.m_fh + fb_red_a; objStr.m_fSP_y_par[1] = -fy_eff_c + objGeo.m_ft_a; objStr.m_fSP_z_par[1] = fz_eff_c - objGeo.m_fh + fb_red_a; objStr.m_fSP_y_par[2] = -fy_eff_c; objStr.m_fSP_z_par[2] = fz_eff_c - objGeo.m_ft_b - objGeo.m_fr; objStr.m_fSP_y_par[3] = -fy_eff_c; objStr.m_fSP_z_par[3] = fz_eff_c; objStr.m_fSP_y_par[4] = -fy_eff_c + objGeo.m_ft_a + objGeo.m_fr; objStr.m_fSP_z_par[4] = fz_eff_c; objStr.m_fSP_y_par[5] = -fy_eff_c + objGeo.m_fb - fb_red_b; objStr.m_fSP_z_par[5] = fz_eff_c; objStr.m_fSP_y_par[6] = -fy_eff_c + objGeo.m_fb - fb_red_b; objStr.m_fSP_z_par[6] = fz_eff_c - objGeo.m_ft_b; float rz_max = 0.0f; float ry_max = 0.0f; for (int iSP = 0; iSP < 7; iSP++) { objStr.m_fSP_y[iSP] = objStr.m_fSP_y_par[iSP] * (float)Math.Cos(objGeo.m_fAlpha_Axis) + objStr.m_fSP_z_par[iSP] * (float)Math.Sin(objGeo.m_fAlpha_Axis); objStr.m_fSP_z[iSP] = -objStr.m_fSP_y_par[iSP] * (float)Math.Sin(objGeo.m_fAlpha_Axis) + objStr.m_fSP_z_par[iSP] * (float)Math.Cos(objGeo.m_fAlpha_Axis); rz_max = Math.Max(rz_max, Math.Abs(objStr.m_fSP_z[iSP])); ry_max = Math.Max(ry_max, Math.Abs(objStr.m_fSP_y[iSP])); } m_fW_eff_y_min = m_fI_eff_y / rz_max; m_fW_eff_z_min = m_fI_eff_z / ry_max; } else { m_fA_eff = objCrSc.m_fA; fz_eff_c = objCrSc.m_fz_S; fy_eff_c = objCrSc.m_fy_S; m_fI_eff_y = objCrSc.m_fI_y; m_fI_eff_z = objCrSc.m_fI_z; m_fW_eff_y_min = objCrSc.m_fW_el_y_min; m_fW_eff_z_min = objCrSc.m_fW_el_z_min; m_fe_Ny = 0.0f; m_fe_Nz = 0.0f; } m_fN_pl_eff = m_fA_eff * objMat.Ff_y; }