!************************************ !* Module: CONSTITUTIVE * !************************************ !* contains: * !* - constitutive equations * !* - Schmid matrices calculation * !* - Hardening matrices definition * !* - Parameters definition * !* - orientations? * !************************************ MODULE constitutive !*** Include other modules *** use prec, only: pReal,pInt implicit none ! QUESTION: would it be wise to outsource these to _constitutive_ ?? YES! ! *** Slip resistances at (t=t0) and (t=t1) *** ! allocate(constitutive_state_old(constitutive_Nstatevars,constitutive_maxNgrains,mesh_maxNips,mesh_NcpElems)) !allocate(constitutive_state_new(constitutive_Nstatevars,constitutive_maxNgrains,mesh_maxNips,mesh_NcpElems)) !state_tauc_slip_old = 0.0_pReal !state_tauc_slip_new = 0.0_pReal ! *** Transformation to get the MARC order *** ! *** 11,22,33,12,23,13 *** ! MISSING this should be outsourced to FEM-spec !temp=Cslip_66(4,:) !Cslip_66(4,:)=Cslip_66(6,:) !Cslip_66(6,:)=Cslip_66(5,:) !Cslip_66(5,:)=temp !temp=Cslip_66(:,4) !Cslip_66(:,4)=2.0d0*Cslip_66(:,6) !Cslip_66(:,6)=2.0d0*Cslip_66(:,5) !Cslip_66(:,5)=2.0d0*temp !*********************************************** !* Definition of crystal structures properties * !*********************************************** !* Number of crystal structures (1-FCC,2-BCC,3-HCP) integer(pInt), parameter :: constitutive_MaxCrystalStructure = 3 !* Total number of slip systems per crystal structure !* (as to be changed according the definition of slip systems) integer(pInt), dimension(constitutive_MaxCrystalStructure), parameter :: constitutive_MaxNslipOfStructure = & reshape((/12,48,12/),(/constitutive_MaxCrystalStructure/)) !* Maximum number of slip systems over crystal structures integer(pInt), parameter :: constitutive_MaxMaxNslipOfStructure = 48 !* Slip direction, slip normales and Schmid matrices real(pReal), dimension(3,3,constitutive_MaxMaxNslipOfStructure,constitutive_MaxCrystalStructure) :: constitutive_Sslip real(pReal), dimension(6,constitutive_MaxMaxNslipOfStructure,constitutive_MaxCrystalStructure) :: constitutive_Sslip_v real(pReal), dimension(3,constitutive_MaxMaxNslipOfStructure,constitutive_MaxCrystalStructure) :: constitutive_sn real(pReal), dimension(3,constitutive_MaxMaxNslipOfStructure,constitutive_MaxCrystalStructure) :: constitutive_sd !*** Slip systems for FCC structures (1) *** !* System {111}<110> Sort according Eisenlohr&Hantcherli data constitutive_sd(:, 1,1)/ 0, 1,-1/ ; data constitutive_sn(:, 1,1)/ 1, 1, 1/ data constitutive_sd(:, 2,1)/-1, 0, 1/ ; data constitutive_sn(:, 2,1)/ 1, 1, 1/ data constitutive_sd(:, 3,1)/ 1,-1, 0/ ; data constitutive_sn(:, 3,1)/ 1, 1, 1/ data constitutive_sd(:, 4,1)/ 0,-1,-1/ ; data constitutive_sn(:, 4,1)/-1,-1, 1/ data constitutive_sd(:, 5,1)/ 1, 0, 1/ ; data constitutive_sn(:, 5,1)/-1,-1, 1/ data constitutive_sd(:, 6,1)/-1, 1, 0/ ; data constitutive_sn(:, 6,1)/-1,-1, 1/ data constitutive_sd(:, 7,1)/ 0,-1, 1/ ; data constitutive_sn(:, 7,1)/ 1,-1,-1/ data constitutive_sd(:, 8,1)/-1, 0,-1/ ; data constitutive_sn(:, 8,1)/ 1,-1,-1/ data constitutive_sd(:, 9,1)/ 1, 1, 0/ ; data constitutive_sn(:, 9,1)/ 1,-1,-1/ data constitutive_sd(:,10,1)/ 0, 1, 1/ ; data constitutive_sn(:,10,1)/-1, 1,-1/ data constitutive_sd(:,11,1)/ 1, 0,-1/ ; data constitutive_sn(:,11,1)/-1, 1,-1/ data constitutive_sd(:,12,1)/-1,-1, 0/ ; data constitutive_sn(:,12,1)/-1, 1,-1/ !*** Slip systems for BCC structures (2) *** !* System {110}<111> !* Sort? data constitutive_sd(:, 1,2)/ 1,-1, 1/ ; data constitutive_sn(:, 1,2)/ 0, 1, 1/ data constitutive_sd(:, 2,2)/-1,-1, 1/ ; data constitutive_sn(:, 2,2)/ 0, 1, 1/ data constitutive_sd(:, 3,2)/ 1, 1, 1/ ; data constitutive_sn(:, 3,2)/ 0,-1, 1/ data constitutive_sd(:, 4,2)/-1, 1, 1/ ; data constitutive_sn(:, 4,2)/ 0,-1, 1/ data constitutive_sd(:, 5,2)/-1, 1, 1/ ; data constitutive_sn(:, 5,2)/ 1, 0, 1/ data constitutive_sd(:, 6,2)/-1,-1, 1/ ; data constitutive_sn(:, 6,2)/ 1, 0, 1/ data constitutive_sd(:, 7,2)/ 1, 1, 1/ ; data constitutive_sn(:, 7,2)/-1, 0, 1/ data constitutive_sd(:, 8,2)/ 1,-1, 1/ ; data constitutive_sn(:, 8,2)/-1, 0, 1/ data constitutive_sd(:, 9,2)/-1, 1, 1/ ; data constitutive_sn(:, 9,2)/ 1, 1, 0/ data constitutive_sd(:,10,2)/-1, 1,-1/ ; data constitutive_sn(:,10,2)/ 1, 1, 0/ data constitutive_sd(:,11,2)/ 1, 1, 1/ ; data constitutive_sn(:,11,2)/-1, 1, 0/ data constitutive_sd(:,12,2)/ 1, 1,-1/ ; data constitutive_sn(:,12,2)/-1, 1, 0/ !* System {112}<111> !* Sort? data constitutive_sd(:,13,2)/-1, 1, 1/ ; data constitutive_sn(:,13,2)/ 2, 1, 1/ data constitutive_sd(:,14,2)/ 1, 1, 1/ ; data constitutive_sn(:,14,2)/-2, 1, 1/ data constitutive_sd(:,15,2)/ 1, 1,-1/ ; data constitutive_sn(:,15,2)/ 2,-1, 1/ data constitutive_sd(:,16,2)/ 1,-1, 1/ ; data constitutive_sn(:,16,2)/ 2, 1,-1/ data constitutive_sd(:,17,2)/ 1,-1, 1/ ; data constitutive_sn(:,17,2)/ 1, 2, 1/ data constitutive_sd(:,18,2)/ 1, 1,-1/ ; data constitutive_sn(:,18,2)/-1, 2, 1/ data constitutive_sd(:,19,2)/ 1, 1, 1/ ; data constitutive_sn(:,19,2)/ 1,-2, 1/ data constitutive_sd(:,20,2)/-1, 1, 1/ ; data constitutive_sn(:,20,2)/ 1, 2,-1/ data constitutive_sd(:,21,2)/ 1, 1,-1/ ; data constitutive_sn(:,21,2)/ 1, 1, 2/ data constitutive_sd(:,22,2)/ 1,-1, 1/ ; data constitutive_sn(:,22,2)/-1, 1, 2/ data constitutive_sd(:,23,2)/-1, 1, 1/ ; data constitutive_sn(:,23,2)/ 1,-1, 2/ data constitutive_sd(:,24,2)/ 1, 1, 1/ ; data constitutive_sn(:,24,2)/ 1, 1,-2/ !* System {123}<111> !* Sort? data constitutive_sd(:,25,2)/ 1, 1,-1/ ; data constitutive_sn(:,25,2)/ 1, 2, 3/ data constitutive_sd(:,26,2)/ 1,-1, 1/ ; data constitutive_sn(:,26,2)/-1, 2, 3/ data constitutive_sd(:,27,2)/-1, 1, 1/ ; data constitutive_sn(:,27,2)/ 1,-2, 3/ data constitutive_sd(:,28,2)/ 1, 1, 1/ ; data constitutive_sn(:,28,2)/ 1, 2,-3/ data constitutive_sd(:,29,2)/ 1,-1, 1/ ; data constitutive_sn(:,29,2)/ 1, 3, 2/ data constitutive_sd(:,30,2)/ 1, 1,-1/ ; data constitutive_sn(:,30,2)/-1, 3, 2/ data constitutive_sd(:,31,2)/ 1, 1, 1/ ; data constitutive_sn(:,31,2)/ 1,-3, 2/ data constitutive_sd(:,32,2)/-1, 1, 1/ ; data constitutive_sn(:,32,2)/ 1, 3,-2/ data constitutive_sd(:,33,2)/ 1, 1,-1/ ; data constitutive_sn(:,33,2)/ 2, 1, 3/ data constitutive_sd(:,34,2)/ 1,-1, 1/ ; data constitutive_sn(:,34,2)/-2, 1, 3/ data constitutive_sd(:,35,2)/-1, 1, 1/ ; data constitutive_sn(:,35,2)/ 2,-1, 3/ data constitutive_sd(:,36,2)/ 1, 1, 1/ ; data constitutive_sn(:,36,2)/ 2, 1,-3/ data constitutive_sd(:,37,2)/ 1,-1, 1/ ; data constitutive_sn(:,37,2)/ 2, 3, 1/ data constitutive_sd(:,38,2)/ 1, 1,-1/ ; data constitutive_sn(:,38,2)/-2, 3, 1/ data constitutive_sd(:,39,2)/ 1, 1, 1/ ; data constitutive_sn(:,39,2)/ 2,-3, 1/ data constitutive_sd(:,40,2)/-1, 1, 1/ ; data constitutive_sn(:,40,2)/ 2, 3,-1/ data constitutive_sd(:,41,2)/-1, 1, 1/ ; data constitutive_sn(:,41,2)/ 3, 1, 2/ data constitutive_sd(:,42,2)/ 1, 1, 1/ ; data constitutive_sn(:,42,2)/-3, 1, 2/ data constitutive_sd(:,43,2)/ 1, 1,-1/ ; data constitutive_sn(:,43,2)/ 3,-1, 2/ data constitutive_sd(:,44,2)/ 1,-1, 1/ ; data constitutive_sn(:,44,2)/ 3, 1,-2/ data constitutive_sd(:,45,2)/-1, 1, 1/ ; data constitutive_sn(:,45,2)/ 3, 2, 1/ data constitutive_sd(:,46,2)/ 1, 1, 1/ ; data constitutive_sn(:,46,2)/-3, 2, 1/ data constitutive_sd(:,47,2)/ 1, 1,-1/ ; data constitutive_sn(:,47,2)/ 3,-2, 1/ data constitutive_sd(:,48,2)/ 1,-1, 1/ ; data constitutive_sn(:,48,2)/ 3, 2,-1/ !*** Slip systems for HCP structures (3) *** !* Basal systems {0001}<1120> (independent of c/a-ratio) !* 1- (0 0 0 1)[-2 1 1 0] !* 2- (0 0 0 1)[ 1 -2 1 0] !* 3- (0 0 0 1)[ 1 1 -2 0] !* Plane (hkil)->(hkl) !* Direction [uvtw]->[(u-t) (v-t) w] !* Automatical transformation from Bravais to Miller !* not done for the moment !* Sort? data constitutive_sd(:, 1,3)/-1, 0, 0/ ; data constitutive_sn(:, 1,3)/ 0, 0, 1/ data constitutive_sd(:, 2,3)/ 0,-1, 0/ ; data constitutive_sn(:, 2,3)/ 0, 0, 1/ data constitutive_sd(:, 3,3)/ 1, 1, 0/ ; data constitutive_sn(:, 3,3)/ 0, 0, 1/ !* 1st type prismatic systems {1010}<1120> (independent of c/a-ratio) !* 1- ( 0 1 -1 0)[-2 1 1 0] !* 2- ( 1 0 -1 0)[ 1 -2 1 0] !* 3- (-1 1 0 0)[ 1 1 -2 0] !* Sort? data constitutive_sd(:, 4,3)/-1, 0, 0/ ; data constitutive_sn(:, 4,3)/ 0, 1, 0/ data constitutive_sd(:, 5,3)/ 0,-1, 0/ ; data constitutive_sn(:, 5,3)/ 1, 0, 0/ data constitutive_sd(:, 6,3)/ 1, 1, 0/ ; data constitutive_sn(:, 6,3)/-1, 1, 0/ !* 1st type 1st order pyramidal systems {1011}<1120> !* plane normales depend on the c/a-ratio !* 1- ( 0 -1 1 1)[-2 1 1 0] !* 2- ( 0 1 -1 1)[-2 1 1 0] !* 3- (-1 0 1 1)[ 1 -2 1 0] !* 4- ( 1 0 -1 1)[ 1 -2 1 0] !* 5- (-1 1 0 1)[ 1 1 -2 0] !* 6- ( 1 -1 0 1)[ 1 1 -2 0] !* Sort? data constitutive_sd(:, 7,3)/-1, 0, 0/ ; data constitutive_sn(:, 7,3)/ 0,-1, 1/ data constitutive_sd(:, 8,3)/ 0,-1, 0/ ; data constitutive_sn(:, 8,3)/ 0, 1, 1/ data constitutive_sd(:, 9,3)/ 1, 1, 0/ ; data constitutive_sn(:, 9,3)/-1, 0, 1/ data constitutive_sd(:,10,3)/-1, 0, 0/ ; data constitutive_sn(:,10,3)/ 1, 0, 1/ data constitutive_sd(:,11,3)/ 0,-1, 0/ ; data constitutive_sn(:,11,3)/-1, 1, 1/ data constitutive_sd(:,12,3)/ 1, 1, 0/ ; data constitutive_sn(:,12,3)/ 1,-1, 1/ !* Slip-slip interactions matrices !* (defined for the moment as crystal structure property and not as material property) !* (may be changed in the future) real(pReal), dimension(constitutive_MaxMaxNslipOfStructure,constitutive_MaxMaxNslipOfStructure,constitutive_MaxCrystalStructure) :: constitutive_hardening_matrix real(pReal), parameter :: constitutive_latent_hardening=1.4 !************************************* !* Definition of material properties * !************************************* !* Number of materials integer(pInt) materials_maxN !* Crystal structure and number of selected slip systems per material integer(pInt), dimension(:) , allocatable :: materials_CrystalStructure integer(pInt), dimension(:) , allocatable :: materials_Nslip !* Maximum number of selected slip systems over materials integer(pInt), allocatable :: materials_MaxNslip !* Elastic constants and matrices real(pReal), dimension(:) , allocatable :: materials_C11 real(pReal), dimension(:) , allocatable :: materials_C12 real(pReal), dimension(:) , allocatable :: materials_C13 real(pReal), dimension(:) , allocatable :: materials_C33 real(pReal), dimension(:) , allocatable :: materials_C44 real(pReal), dimension(:,:,:), allocatable :: materials_Cslip_66 ! NB: Cslip_66(1:6,1:6,number of materials) !* Visco-plastic material parameters real(pReal), dimension(:) , allocatable :: materials_s0_slip real(pReal), dimension(:) , allocatable :: materials_gdot0_slip real(pReal), dimension(:) , allocatable :: materials_n_slip real(pReal), dimension(:) , allocatable :: materials_h0 real(pReal), dimension(:) , allocatable :: materials_s_sat real(pReal), dimension(:) , allocatable :: materials_w0 ! NB: Parameters(number of materials) !************************************ !* Definition of texture properties * !************************************ !* Number of textures integer(pInt) textures_maxN !* Textures definition character(len=80), dimension(:), allocatable :: textures_ODFfile character(len=80), dimension(:), allocatable :: textures_symmetry integer(pInt), dimension(:) , allocatable :: textures_Ngrains ! NB: symmetry(number of texture) CONTAINS !**************************************** !* - constitutive_init !* - constitutive_SchmidMatrices !* - constitutive_HardeningMatrices !* - constitutive_CountSections !* - constitutive_Parse_UnknownPart !* - constitutive_Parse_MaterialPart !* - constitutive_Parse_TexturePart !* - constitutive_Parse_MatTexDat !* - constitutive_Lp !* - constitutive_TangentLp !* - consistutive_DotState !**************************************** subroutine constitutive_init() !************************************** !* Module initialization * !************************************** call constitutive_calc_SchmidMatrices() call constitutive_calc_HardeningMatrices() call constitutive_parse_MatTexDat('materials_textures.mpie') end subroutine subroutine constitutive_SchmidMatrices() !************************************** !* Calculation of Schmid matrices * !************************************** use prec, only: pReal,pInt implicit none !* Definition of variables integer(pInt) i,j,k,l real(pReal) invNorm !* Iteration over the crystal structures do l=1,3 !* Iteration over the systems do k=1,constitutive_MaxNslipOfStructure(l) !* Defintion of Schmid matrix forall (i=1:3,j=1:3) constitutive_Sslip(i,j,k,l)=constitutive_sd(i,k,l)*constitutive_sn(j,k,l) endforall !* Normalization of Schmid matrix invNorm=dsqrt(1.0_pReal/((constitutive_sn(1,k,l)**2+constitutive_sn(2,k,l)**2+constitutive_sn(3,k,l)**2)*(constitutive_sd(1,k,l)**2+constitutive_sd(2,k,l)**2+constitutive_sd(3,k,l)**2))) constitutive_Sslip(:,:,k,l)=constitutive_Sslip(:,:,k,l)*invNorm !* Vectorization of normalized Schmid matrix !* according MARC component order 11,22,33,12,23,13 constitutive_Sslip_v(1,k,l)=constitutive_Sslip(1,1,k,l) constitutive_Sslip_v(2,k,l)=constitutive_Sslip(2,2,k,l) constitutive_Sslip_v(3,k,l)=constitutive_Sslip(3,3,k,l) constitutive_Sslip_v(4,k,l)=constitutive_Sslip(1,2,k,l)+constitutive_Sslip(2,1,k,l) constitutive_Sslip_v(5,k,l)=constitutive_Sslip(2,3,k,l)+constitutive_Sslip(3,3,k,l) constitutive_Sslip_v(6,k,l)=constitutive_Sslip(1,3,k,l)+constitutive_Sslip(3,1,k,l) enddo enddo end subroutine subroutine constitutive_HardeningMatrices() !**************************************** !* Hardening matrix (see Kalidindi) * !**************************************** use prec, only: pReal,pInt implicit none !* Definition of variables integer(pInt) i,j,k,l !* Initialization of the hardening matrix constitutive_hardening_matrix=constitutive_latent_hardening !* Iteration over the crystal structures do l=1,3 select case(l) !* Hardening matrix for FCC structures case (1) do k=1,10,3 forall (i=1:3,j=1:3) constitutive_hardening_matrix(k-1+i,k-1+j,l)=1.0_pReal endforall enddo !* Hardening matrix for BCC structures case (2) do k=1,11,2 forall (i=1:2,j=1:2) constitutive_hardening_matrix(k-1+i,k-1+j,l)=1.0_pReal endforall enddo do k=13,48 constitutive_hardening_matrix(k,k,l)=1.0_pReal enddo !* Hardening matrix for HCP structures case (3) forall (i=1:3,j=1:3) constitutive_hardening_matrix(i,j,l)=1.0_pReal endforall do k=4,12 constitutive_hardening_matrix(k,k,l)=1.0_pReal enddo end select enddo end subroutine subroutine constitutive_CountSections(file,count,part) !********************************************************************* !* This subroutine reads a "part" from the input file until the next * !* part is reached and counts the number of "sections" in the part * !* INPUT: * !* - file : file ID * !* OUTPUT: * !* - part : name of the next "part" * !* - count : number of sections inside the current "part" * !********************************************************************* use prec, only: pInt use IO, only: IO_stringPos,IO_stringValue,IO_lc implicit none !* Definition of variables character(len=80) part,line,tag integer(pInt) file,count,pos integer(pInt), dimension(3) :: positions count=0 part='' do while(.true.) read(unit=file,fmt='(a80)',END=100) line positions=IO_stringPos(line,1) tag=IO_lc(IO_stringValue(line,positions,1)) if (tag(1:1)=='<' .and. tag(len(tag):len(tag)=='>') then part=tag(2:len(tag)-1) exit elseif (tag(1:1)=='[' .and. tag(len(tag):len(tag)==']') then count=count+1 endif enddo 100 return end subroutine character(len=80) function constitutive_Parse_UnknownPart(file) !********************************************************************* !* This function reads a unknown "part" from the input file until * !* the next part is reached * !* INPUT: * !* - file : file ID * !********************************************************************* use prec, only: pInt use IO, only: IO_stringPos,IO_stringValue,IO_lc implicit none !* Definition of variables character(len=80) line,tag integer(pInt), parameter :: maxNchunks = 1 integer(pInt) file integer(pInt), dimension(1+2*maxNchunks) :: positions constitutive_parse_unknownPart = '' do while(.true.) read(unit=file,fmt='(a80)',end=100) line positions = IO_stringPos(line,maxNchunks) tag = IO_lc(IO_stringValue(line,positions,1)) if (tag(1:1)=='<' .and. tag(len(tag):len(tag)=='>') then constitutive_parse_unknownPart = tag(2:len(tag)-1) exit endif enddo 100 return end function character(len=80) function constitutive_Parse_MaterialPart(file) !********************************************************************* !* This function reads a material "part" from the input file until * !* the next part is reached * !* INPUT: * !* - file : file ID * !********************************************************************* use prec, only: pInt use IO, only: IO_stringPos,IO_stringValue,IO_lc implicit none !* Definition of variables character(len=80) line,tag integer(pInt), parameter :: maxNchunks = 2! may be more than 2 chunks ..? integer(pInt) file,section integer(pInt), dimension(1+2*maxNchunks) :: positions section = 0 constitutive_parse_materialPart = '' do while(.true.) read(unit=file,fmt='(a80)',end=100) line positions = IO_stringPos(line,maxNchunks) ! parse leading chunks tag = IO_lc(IO_stringValue(line,positions,1)) if (tag(1:1)=='#') then ! skip comment line cycle elseif (tag(1:1)=='<' .and. tag(len(tag):len(tag)=='>') then constitutive_parse_materialPart = tag(2:len(tag)-1) exit elseif (tag(1:1)=='[' .and. tag(len(tag):len(tag)==']') then section = section+1 else if (section>0) then select case(tag) case ('crystal_structure') materials_CrystalStructure(section)=IO_intValue(line,positions,2) case ('nslip') materials_Nslip(section)=IO_intValue(line,positions,2) case ('C11') materials_C11(section)=IO_floatValue(line,positions,2) case ('C12') materials_C12(section)=IO_floatValue(line,positions,2) case ('C13') materials_C13(section)=IO_floatValue(line,positions,2) case ('C33') materials_C33(section)=IO_floatValue(line,positions,2) case ('C44') materials_C44(section)=IO_floatValue(line,positions,2) case ('s0_slip') materials_s0_slip(section)=IO_floatValue(line,positions,2) case ('gdot0_slip') materials_gdot0_slip(section)=IO_floatValue(line,positions,2) case ('n_slip') materials_n_slip(section)=IO_floatValue(line,positions,2) case ('h0') materials_h0(section)=IO_floatValue(line,positions,2) case ('s_sat') materials_s_sat(section)=IO_floatValue(line,positions,2) case ('w0') materials_w0(section)=IO_floatValue(line,positions,2) case default write(6,*) 'Unknown material parameter ',line end select endif endif enddo 100 return end function character(len=80) function constitutive_Parse_TexturePart(file) !********************************************************************* !* This function reads a texture "part" from the input file until * !* the next part is reached * !* INPUT: * !* - file : file ID * !********************************************************************* use prec, only: pInt use IO, only: IO_stringPos,IO_stringValue,IO_lc implicit none !* Definition of variables character(len=80) line,tag integer(pInt), parameter :: maxNchunks = 10 ! may be more than 10 chunks ..? integer(pInt) file,pos,section integer(pInt), dimension(1+2*maxNchunks) :: positions section = 0 constitutive_parse_texturePart = '' do while(.true.) read(unit=file,fmt='(a80)',end=100) line positions = IO_stringPos(line,maxNchunks) ! parse leading chunks tag = IO_lc(IO_stringValue(line,positions,1)) if (tag(1:1)=='#') then ! skip comment line cycle elseif (tag(1:1)=='<' .and. tag(len(tag):len(tag)=='>') then constitutive_parse_texturePart = tag(2:len(tag)-1) exit elseif (tag(1:1)=='[' .and. tag(len(tag):len(tag)==']') then section = section+1 else if (section>0) then select case(tag) case ('hybridIA') textures_ODFfile(section)=IO_stringValue(line,positions,2) case ('gauss') case ('fiber') case ('ngrains') textures_Ngrains(section)=IO_intValue(line,positions,2) case ('symmetry') textures_symmetry(section)=IO_stringValue(line,positions,2) case default write(6,*) 'Unknown texture parameter ',line end select endif endif enddo 100 return end function subroutine constitutive_Parse_MatTexDat(filename) !********************************************************************* !* This function reads the material and texture input file * !* INPUT: * !* - filename : name of input file * !********************************************************************* use prec, only: pReal,pInt use IO implicit none !* Definition of variables character(len=*) filename character(len=80) part,formerPart integer(pInt) sectionCount,i,j,m !* Open input file open(200,FILE=filename,ACTION='READ',STATUS='OLD',ERR=100) !* First reading: number of materials and textures !* Arrays allocation part = '_dummy_' do while (part/='') formerPart = part call constitutive_countSections(200,sectionCount,part) select case (formerPart) case ('materials') materials_maxN = sectionCount case ('textures') textures_maxN = sectionCount end select enddo allocate(textures_ODFfile(textures_maxN)) ; textures_ODFfile='' allocate(textures_Ngrains(textures_maxN)) ; textures_Ngrains=0_pInt allocate(textures_symmetry(textures_maxN)) ; textures_symmetry='' allocate(materials_CrystalStructure(materials_maxN)) ; materials_CrystalStructure=0_pInt allocate(materials_Nslip(materials_maxN)) ; materials_Nslip=0_pInt allocate(materials_C11(materials_maxN)) ; materials_C11=0.0_pReal allocate(materials_C12(materials_maxN)) ; materials_C12=0.0_pReal allocate(materials_C13(materials_maxN)) ; materials_C13=0.0_pReal allocate(materials_C33(materials_maxN)) ; materials_C33=0.0_pReal allocate(materials_C44(materials_maxN)) ; materials_C44=0.0_pReal allocate(materials_s0_slip(materials_maxN)) ; materials_s0_slip=0.0_pReal allocate(materials_gdot0_slip(materials_maxN)) ; materials_gdot0_slip=0.0_pReal allocate(materials_n_slip(materials_maxN)) ; materials_n_slip=0.0_pReal allocate(materials_h0(materials_maxN)) ; materials_h0=0.0_pReal allocate(materials_s_sat(materials_maxN)) ; materials_s_sat=0.0_pReal allocate(materials_w0(materials_maxN)) ; materials_w0=0.0_pReal !* Second reading: materials and textures are stored part = '_dummy_' do while (part/='') select case (part) case ('materials') part = constitutive_parse_materialPart(200) case ('textures') part = constitutive_parse_texturePart(200) case default part = constitutive_parse_unknownPart(200) end select end do !* Close input file close(200) do m=1,material_maxN material_Cslip_66(:,:,m) = 0.0_pReal select case (material_crystal_structure) case (1:2) ! cubic structure do i=1,3 do j=1,3 material_Cslip_66(i,j,m) = C12 enddo material_Cslip_66(i,i,m) = C11 material_Cslip_66(i+3,i+3,m) = C44 enddo case (3) ! hcp structure MISSING correct do i=1,3 do j=1,3 material_Cslip_66(i,j,m) = C12 enddo material_Cslip_66(i,i,m) = C11 material_Cslip_66(i+3,i+3,m) = C44 enddo end select material_Cslip_3333(:,:,:,:,m) = math_66to3333(Cslip_66(:,:,m)) end do ! MISSING some consistency checks may be..? return 100 call IO_error(110) ! corrupt matarials_textures file end subroutine real(pReal) function constitutive_Lp(Tstar_v,ipc,ip,el) !********************************************************************* !* This subroutine contains the constitutive equation for * !* calculating the velocity gradient * !* INPUT: * !* - Tstar_v : 2nd Piola Kirchhoff stress tensor * !* - ipc : component-ID of current integration point * !* - ip : current integration point * !* - el : current element * !********************************************************************* use prec, only: pReal,pInt implicit none !* Definition of variables !integer(pInt) matID,i !real(pReal) tau_slip(constitutive_Nslip(matID)) !real(pReal) tauc_slip(constitutive_Nslip(matID)) !real(pReal) gdot_slip(constitutive_Nslip(matID)) !real(pReal) dgdot_dtaucslip(constitutive_Nslip(matID)) !* Iteration over the systems !do i=1,constitutive_Nslip(matID) ! gdot_slip(i)=constitutive_gdot0_slip(matID)*(abs(tau_slip(i))/tauc_slip(i))**constitutive_n_slip(matID)*sign(1.0_pReal,tau_slip(i)) ! dgdot_dtaucslip(i)=constitutive_gdot0_slip(matID)*(abs(tau_slip(i))/tauc_slip(i))**(constitutive_n_slip(matID)-1.0_pReal)*constitutive_n_slip(matID)/tauc_slip(i) !enddo return end function subroutine constitutive_TangentLp(Tstar_v,ipc,ip,el,dLp_dTstar,dLpT_dTstar) !********************************************************************* !* This subroutine contains the constitutive equation for * !* calculating the velocity gradient * !* INPUT: * !* - Tstar_v : 2nd Piola Kirchhoff stress tensor * !* - ipc : component-ID of current integration point * !* - ip : current integration point * !* - el : current element * !* OUTPUT: * !* - dLp_dTstar : derivative of Lp * !* - dLpT_dTstar : derivative of tranposed Lp * !********************************************************************* use prec, only: pReal,pInt implicit none !* Definition of variables !integer(pInt) matID,i,j !real(pReal) tauc_slip(constitutive_Nslip(matID)) !real(pReal) gdot_slip(constitutive_Nslip(matID)) !real(pReal) dtauc_slip(constitutive_Nslip(matID)) !real(pReal) self_hardening(constitutive_Nslip(matID)) !* Self-Hardening of each system !do i=1,constitutive_Nslip(matID) ! self_hardening(i)=constitutive_h0(matID)*(1.0_pReal-tauc_slip(i)/constitutive_s_sat(matID))**constitutive_w0(matID)*abs(gdot_slip(i)) !enddo !* Hardening for all systems !i=constitutive_Nslip(matID) !j=constitutive_crystal_structure(matID) !dtauc_slip=matmul(constitutive_hardening_matrix(1:i,1:i,j),self_hardening) return end subroutine real(pReal) function constitutive_DotState(Tstar_v,ipc,ip,el) !********************************************************************* !* This subroutine contains the constitutive equation for * !* calculating the velocity gradient * !* INPUT: * !* - Tstar_v : 2nd Piola Kirchhoff stress tensor * !* - ipc : component-ID of current integration point * !* - ip : current integration point * !* - el : current element * !********************************************************************* use prec, only: pReal,pInt implicit none !* Definition of variables !integer(pInt) matID,i !real(pReal) dt,Lp(3,3) !real(pReal) tau_slip(constitutive_Nslip(matID)) !real(pReal) tauc_slip_new(constitutive_Nslip(matID)) !real(pReal) gdot_slip(constitutive_Nslip(matID)) !* Calculation of Lp !Lp=0.0_pReal !do i=1,constitutive_Nslip(matID) ! gdot_slip(i)=constitutive_gdot0_slip(matID)*(abs(tau_slip(i))/tauc_slip(i))**constitutive_n_slip(matID)*sign(1.0_pReal,tau_slip(i)) ! Lp=Lp+gdot_slip(i)*constitutive_Sslip(:,:,i,constitutive_crystal_structure(matID)) !enddo return end function END MODULE