Esempio n. 1
0
 public C__HL4(CCrSc objCrSc, C_GEO__HL objGeo, C_IFO objIFO, C_STR__HL objStr, C__HL objC_HL, C_MAT__HL objMat, C_ADD__HL objAdd, ECrScPrType1 eProd)
 {
     if (eProd != ECrScPrType1.eCrSc_wld && eProd != ECrScPrType1.eCrSc_wldnorm)
         GetCrSc4_HLR(objCrSc, objGeo, objIFO, objStr, objC_HL, objMat, objAdd);
     else
         GetCrSc4_HLW(objCrSc, objGeo, objIFO, objStr, objC_HL, objMat, objAdd);
 }
Esempio n. 2
0
        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
        }
Esempio n. 3
0
        void GetCrSc4_HLR(CCrSc objCrSc, C_GEO__HL objGeo, C_IFO objIFO, C_STR__HL objStr, C__HL objC_HL, C_MAT__HL objMat, C_ADD__HL objAdd)
        {
            if (objC_HL.m_iClass_fu == 4 || objC_HL.m_iClass_fb == 4)
            {
                // EN 1993-1-5,Table 4.1
                GetEff_INT(objStr.m_fSigma_fuA,
                                         objStr.m_fSigma_fuB,
                                         objGeo.m_fc_f,
                                         objGeo.m_ft_f,
                                         objMat.m_fEps_f,
                                         fSigma_1_fu,
                                         fSigma_2_fu,
                                         fPsi_fu,
                                         fk_Sigma_fu,
                                         fLambda_rel_p_fu,
                                         fRho_fu,
                                         fb_eff_fu,
                                         fb_e1_fu,
                                         fb_e2_fu,
                                         fb_red_fu,
                                         fb_em_fu,
                                         objMat.BStainlessS);

                // EN 1993-1-5,Table 4.1
                GetEff_INT(objStr.m_fSigma_fbA,
                                         objStr.m_fSigma_fbB,
                                         objGeo.m_fc_f,
                                         objGeo.m_ft_f,
                                         objMat.m_fEps_f,
                                         fSigma_1_fb,
                                         fSigma_2_fb,
                                         fPsi_fb,
                                         fk_Sigma_fb,
                                         fLambda_rel_p_fb,
                                         fRho_fb,
                                         fb_eff_fb,
                                         fb_e1_fb,
                                         fb_e2_fb,
                                         fb_red_fb,
                                         fb_em_fb,
                                         objMat.BStainlessS);

                fA_eff_f = objCrSc.m_fA - (fb_red_fu + fb_red_fb) * objGeo.m_ft_f;

                fz_eff_c_f = (objCrSc.m_fA * objGeo.m_fh / 2.0f -
                              fb_red_fu * objGeo.m_ft_f * objGeo.m_ft_f / 2.0f -
                              fb_red_fb * objGeo.m_ft_f * (objGeo.m_fh - objGeo.m_ft_f / 2.0f)
                             ) / fA_eff_f;

                fy_eff_c_f = (objCrSc.m_fA * objGeo.m_fb / 2.0f -
                              fb_red_fu * objGeo.m_ft_f * (objGeo.m_ft_w + objGeo.m_fr + fb_em_fu) -
                              fb_red_fb * objGeo.m_ft_f * (objGeo.m_ft_w + objGeo.m_fr + fb_em_fb)
                              ) / fA_eff_f;

                fI_eff_y_f = objCrSc.m_fI_y +
                             objCrSc.m_fA * sqr(fz_eff_c_f - objGeo.m_fh / 2.0f) -
                             fb_red_fu * (float)Math.Pow(objGeo.m_ft_f, 3) / 12.0f -
                             fb_red_fu * objGeo.m_ft_f * sqr(fz_eff_c_f - objGeo.m_ft_f / 2.0f) -
                             fb_red_fb * (float)Math.Pow(objGeo.m_ft_f, 3) / 12.0f -
                             fb_red_fb * objGeo.m_ft_f * sqr(objGeo.m_fh - fz_eff_c_f - objGeo.m_ft_f / 2.0f);

                fI_eff_z_f = objCrSc.m_fI_z +
                             objCrSc.m_fA * sqr(fy_eff_c_f - objGeo.m_fb / 2.0f) -
                             (float)Math.Pow(fb_red_fu, 3) * objGeo.m_ft_f / 12.0f -
                             fb_red_fu * objGeo.m_ft_f * sqr(fy_eff_c_f - fb_em_fu - objGeo.m_ft_w - objGeo.m_fr) -
                             (float)Math.Pow(fb_red_fb, 3) * objGeo.m_ft_f / 12.0f -
                             fb_red_fb * objGeo.m_ft_f * sqr(fy_eff_c_f - fb_em_fb - objGeo.m_ft_w - objGeo.m_fr);
            }
            else
            {
                fb_red_fu = 0.0f;
                fb_red_fb = 0.0f;

                fb_em_fu = 0.0f;
                fb_em_fb = 0.0f;

                fA_eff_f = objCrSc.m_fA;

                fz_eff_c_f = objGeo.m_fh / 2.0f;
                fy_eff_c_f = objGeo.m_fb / 2.0f;
                fI_eff_y_f = objCrSc.m_fI_y;
                fI_eff_z_f = objCrSc.m_fI_z;
            }

            if (objC_HL.m_iClass_w == 4)
            {

                float fSigma_N = objIFO.FN_Ed / fA_eff_f;
                float fSigma_My_wo = objIFO.FM_y_Ed / fI_eff_y_f * (fz_eff_c_f - objGeo.m_ft_f - objGeo.m_fr);
                float fSigma_My_wu = objIFO.FM_y_Ed / fI_eff_y_f * (objGeo.m_fh - fz_eff_c_f - objGeo.m_ft_f - objGeo.m_fr);
                float fSigma_Mz_wl = objIFO.FM_z_Ed / fI_eff_z_f * (fy_eff_c_f - objGeo.m_ft_w - objGeo.m_fr);
                float fSigma_Mz_wr = objIFO.FM_z_Ed / fI_eff_z_f * (objGeo.m_fb - fy_eff_c_f - objGeo.m_ft_w - objGeo.m_fr);

                objStr.m_fSigma_wlA = fSigma_N - fSigma_My_wo + fSigma_Mz_wl;
                objStr.m_fSigma_wlB = fSigma_N + fSigma_My_wu + fSigma_Mz_wl;

                // EN 1993-1-5,Table 4.1
                GetEff_INT(objStr.m_fSigma_wlA,
                                         objStr.m_fSigma_wlB,
                                         objGeo.m_fc_w,
                                         objGeo.m_ft_w,
                                         objMat.m_fEps_w,
                                         fSigma_1_wl,
                                         fSigma_2_wl,
                                         fPsi_wl,
                                         fk_Sigma_wl,
                                         fLambda_rel_p_wl,
                                         fRho_wl,
                                         fb_eff_wl,
                                         fb_e1_wl,
                                         fb_e2_wl,
                                         fb_red_wl,
                                         fb_em_wl,
                                         objMat.BStainlessS);

                objStr.m_fSigma_wrA = fSigma_N - fSigma_My_wo - fSigma_Mz_wl;
                objStr.m_fSigma_wrB = fSigma_N + fSigma_My_wu - fSigma_Mz_wl;

                // EN 1993-1-5,Table 4.1
                GetEff_INT(objStr.m_fSigma_wrA,
                                         objStr.m_fSigma_wrB,
                                         objGeo.m_fc_w,
                                         objGeo.m_ft_w,
                                         objMat.m_fEps_w,
                                         fSigma_1_wr,
                                         fSigma_2_wr,
                                         fPsi_wr,
                                         fk_Sigma_wr,
                                         fLambda_rel_p_wr,
                                         fRho_wr,
                                         fb_eff_wr,
                                         fb_e1_wr,
                                         fb_e2_wr,
                                         fb_red_wr,
                                         fb_em_wr,
                                         objMat.BStainlessS);

                m_fA_eff = fA_eff_f - (fb_red_wl + fb_red_wr) * objGeo.m_ft_w;

                fz_eff_c = (objCrSc.m_fA * objGeo.m_fh / 2.0f -
                           fb_red_fu * objGeo.m_ft_f * objGeo.m_ft_f / 2.0f -
                           fb_red_fb * objGeo.m_ft_f * (objGeo.m_fh - objGeo.m_ft_f / 2.0f) -
                           fb_red_wl * objGeo.m_ft_w * (fb_em_wl + objGeo.m_ft_f + objGeo.m_fr) -
                           fb_red_wr * objGeo.m_ft_w * (fb_em_wr + objGeo.m_ft_f + objGeo.m_fr)
                          ) / m_fA_eff;

                fy_eff_c = (objCrSc.m_fA * objGeo.m_fb / 2.0f -
                            fb_red_fu * objGeo.m_ft_f * (fb_em_fu + objGeo.m_ft_w + objGeo.m_fr) -
                            fb_red_fb * objGeo.m_ft_f * (fb_em_fb + objGeo.m_ft_w + objGeo.m_fr) -
                            fb_red_wl * objGeo.m_ft_w * objGeo.m_ft_w / 2.0f -
                            fb_red_wr * objGeo.m_ft_w * (objGeo.m_fb - objGeo.m_ft_w / 2.0f)
                           ) / m_fA_eff;

                m_fI_eff_y = objCrSc.m_fI_y +
                           objCrSc.m_fA * sqr(fz_eff_c - objGeo.m_fh / 2.0f) -
                           fb_red_fu * (float)Math.Pow(objGeo.m_ft_f, 3) / 12.0f -
                           fb_red_fu * objGeo.m_ft_f * sqr(fz_eff_c - objGeo.m_ft_f / 2.0f) -
                           fb_red_fb * (float)Math.Pow(objGeo.m_ft_f, 3) / 12.0f -
                           fb_red_fb * objGeo.m_ft_f * sqr(objGeo.m_fh - fz_eff_c - objGeo.m_ft_f / 2.0f) -
                           (float)Math.Pow(fb_red_wl, 3) * objGeo.m_ft_w / 12.0f -
                           fb_red_wl * objGeo.m_ft_w * sqr(fz_eff_c - fb_em_wl - objGeo.m_ft_f - objGeo.m_fr) -
                           (float)Math.Pow(fb_red_wr, 3) * objGeo.m_ft_w / 12.0f -
                           fb_red_wr * objGeo.m_ft_w * sqr(fz_eff_c - fb_em_wr - objGeo.m_ft_f - objGeo.m_fr);

                m_fI_eff_z = objCrSc.m_fI_z +
                            objCrSc.m_fA * sqr(fy_eff_c - objGeo.m_fb / 2.0f) -
                           (float)Math.Pow(fb_red_fu, 3) * objGeo.m_ft_f / 12.0f -
                           fb_red_fu * objGeo.m_ft_f * sqr(fy_eff_c - fb_em_fu - objGeo.m_ft_w - objGeo.m_fr) -
                            (float)Math.Pow(fb_red_fb, 3) * objGeo.m_ft_f / 12.0f -
                           fb_red_fb * objGeo.m_ft_f * sqr(fy_eff_c - fb_em_fb - objGeo.m_ft_w - objGeo.m_fr) -
                           (float)Math.Pow(objGeo.m_ft_w, 3) * fb_red_wl / 12.0f -
                           objGeo.m_ft_w * fb_red_wl * sqr(fy_eff_c - objGeo.m_ft_w / 2.0f) -
                           (float)Math.Pow(objGeo.m_ft_w, 3) * fb_red_wr / 12.0f -
                           objGeo.m_ft_w * fb_red_wr * sqr(objGeo.m_fb - fy_eff_c - objGeo.m_ft_w / 2.0f);
            }
            else
            {
                fb_red_wl = 0.0f;
                fb_red_wr = 0.0f;

                m_fA_eff = fA_eff_f;

                fz_eff_c = fz_eff_c_f;
                fy_eff_c = fy_eff_c_f;
                m_fI_eff_y = fI_eff_y_f;
                m_fI_eff_z = fI_eff_z_f;
            }

            m_fA_eff = objCrSc.m_fA - (fb_red_fu + fb_red_fb + fb_red_wl + fb_red_wr) *objGeo.m_ft;

            m_fN_pl_eff = m_fA_eff * objMat.Ff_y;

            m_fe_Ny = fz_eff_c - objGeo.m_fh / 2.0f;
            m_fe_Nz = fy_eff_c - objGeo.m_fb / 2.0f;

            m_fW_eff_y_min = m_fI_eff_y / Math.Max(fz_eff_c, objGeo.m_fh - fz_eff_c);
            m_fW_eff_z_min = m_fI_eff_z / Math.Max(fy_eff_c, objGeo.m_fb - fy_eff_c);
        }