void GetEIF____00_41_UV(CMLoad_41 Load, float fL, out float fA, out float fB, out float fMa, out float fMb) { // Temporary fA = 0.0f; fB = 0.0f; fMa = 0.0f; fMb = 0.0f; }
// Trapezoidal void GetEIF_0__0__41_UV(CMLoad_41 Load, float fL, out float fA, out float fB, out float fMa, out float fMb) { // Not implemented yet // Temporary fA = 0.0f; fB = 0.0f; fMa = fMb = 0f; }
void GetMLoadPart_41(CMLoad_41 Load, CE_1D_BASE Member, FEM_CALC_BASE.Enums.EElemSuppType2D eMType, out float fA, out float fB, out float fMa, out float fMb) { switch (eMType) { case Enums.EElemSuppType2D.eEl_00_00: // Both Side restrained { GetEIF_00_00_41_UV(Load, Member.FLength, out fA, out fB, out fMa, out fMb); return; } case Enums.EElemSuppType2D.eEl_00_0_: { GetEIF_00_0__41_UV(Load, Member.FLength, out fA, out fB, out fMa, out fMb); return; } case Enums.EElemSuppType2D.eEl_0__00: { GetEIF_0__00_41_UV(Load, Member.FLength, out fA, out fB, out fMa, out fMb); return; } case Enums.EElemSuppType2D.eEl_0__0_: { GetEIF_0__0__41_UV(Load, Member.FLength, out fA, out fB, out fMa, out fMb); return; } case Enums.EElemSuppType2D.eEl_00___: { GetEIF_0__00_41_UV(Load, Member.FLength, out fA, out fB, out fMa, out fMb); return; } case Enums.EElemSuppType2D.eEl____00: { GetEIF_0__0__41_UV(Load, Member.FLength, out fA, out fB, out fMa, out fMb); return; } default: { // Exception fA = fB = fMa = fMb = 0.0f; return; } } }
// Trapezoidal void GetEIF_00_00_41_UV(CMLoad_41 Load, float fL, out float fA, out float fB, out float fMa, out float fMb) { float fb = fL - 2f * Load.Fa; fA = fB = (Load.Fq / 2f) * (fL - Load.Fa); fMa = -(Load.Fq / (12f * fL)) * (MathF.Pow3(fL) + MathF.Pow3(Load.Fa) - 2f * MathF.Pow2(Load.Fa) * fL); fMb = -fMa; }
void GetMLoadPart_41(CMLoad_41 Load, CE_1D_BASE Member, FEM_CALC_BASE.Enums.EElemSuppType2D eMType, out float fA, out float fB) { // Temporary fA = fB = 0.0f; }