fixed problem in internal stress calculation for periodic neighborhood

This commit is contained in:
Christoph Kords 2011-02-25 08:10:11 +00:00
parent f525c02ded
commit e022810e66
1 changed files with 14 additions and 4 deletions

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@ -815,7 +815,8 @@ use mesh, only: mesh_NcpElems, &
FE_NipNeighbors, & FE_NipNeighbors, &
mesh_ipNeighborhood, & mesh_ipNeighborhood, &
mesh_ipVolume, & mesh_ipVolume, &
mesh_ipCenterOfGravity mesh_ipCenterOfGravity, &
mesh_ipAreaNormal
use material, only: homogenization_maxNgrains, & use material, only: homogenization_maxNgrains, &
material_phase, & material_phase, &
phase_localConstitution, & phase_localConstitution, &
@ -856,14 +857,18 @@ integer(pInt) myInstance, & ! current instance
ns, & ! short notation for the total number of active slip systems ns, & ! short notation for the total number of active slip systems
neighboring_el, & ! element number of my neighbor neighboring_el, & ! element number of my neighbor
neighboring_ip, & ! integration point of my neighbor neighboring_ip, & ! integration point of my neighbor
opposite_el, & ! element number of my opposite neighbor
opposite_ip, & ! integration point of my opposite neighbor
c, & ! index of dilsocation character (edge, screw) c, & ! index of dilsocation character (edge, screw)
n, & ! index of my current neighbor n, & ! index of my current neighbor
opposite_n, & ! index of my opposite neighbor
s, & ! index of my current slip system s, & ! index of my current slip system
t, & ! index of dilsocation type (e+, e-, s+, s-, used e+, used e-, used s+, used s-) t, & ! index of dilsocation type (e+, e-, s+, s-, used e+, used e-, used s+, used s-)
sLattice, & ! index of my current slip system according to lattice order sLattice, & ! index of my current slip system according to lattice order
i, & i, &
j j
real(pReal) nu ! poisson's ratio real(pReal) nu ! poisson's ratio
real(pReal), dimension(3) :: deltaCoG ! difference of two centers of gravities (distance vector to my neighbor in reference configuration)
real(pReal), dimension(3,2) :: rhoExcessDifference, & ! finite differences of excess density (in 3 directions for edge and screw) real(pReal), dimension(3,2) :: rhoExcessDifference, & ! finite differences of excess density (in 3 directions for edge and screw)
disloGradients ! spatial gradient in excess dislocation density (in 3 directions for edge and screw) disloGradients ! spatial gradient in excess dislocation density (in 3 directions for edge and screw)
real(pReal), dimension(3,3) :: sigma, & ! dislocation stress for one slip system in its slip system frame real(pReal), dimension(3,3) :: sigma, & ! dislocation stress for one slip system in its slip system frame
@ -967,9 +972,14 @@ if (.not. phase_localConstitution(myPhase)) then
neighboring_rhoExcess(n,1:2,1:ns) = rhoExcess neighboring_rhoExcess(n,1:2,1:ns) = rhoExcess
else else
neighboring_F = math_mul33x33(Fe(1:3,1:3,g,neighboring_ip,neighboring_el), Fp(1:3,1:3,g,neighboring_ip,neighboring_el)) neighboring_F = math_mul33x33(Fe(1:3,1:3,g,neighboring_ip,neighboring_el), Fp(1:3,1:3,g,neighboring_ip,neighboring_el))
neighboring_position(1:3,n) = & deltaCoG = mesh_ipCenterOfGravity(1:3,neighboring_ip,neighboring_el) - mesh_ipCenterOfGravity(1:3,ip,el)
0.5_pReal * math_mul33x3(math_mul33x33(invFe,neighboring_F) + Fp(1:3,1:3,g,ip,el), & if (math_mul3x3(deltaCoG, mesh_ipAreaNormal(1:3,n,neighboring_ip,neighboring_el)) < 0.0_pReal) then ! periodic surface, so this is a twin
mesh_ipCenterOfGravity(1:3,neighboring_ip,neighboring_el) - mesh_ipCenterOfGravity(1:3,ip,el)) opposite_n = n + mod(n,2) - mod(n+1,2)
opposite_el = mesh_ipNeighborhood(1,opposite_n,ip,el)
opposite_ip = mesh_ipNeighborhood(2,opposite_n,ip,el)
deltaCoG = mesh_ipCenterOfGravity(1:3,ip,el) - mesh_ipCenterOfGravity(1:3,opposite_ip,opposite_el) ! assume that the twin neighbor has the same size as the opposite neighbor
endif
neighboring_position(1:3,n) = 0.5_pReal * math_mul33x3(math_mul33x33(invFe,neighboring_F) + Fp(1:3,1:3,g,ip,el), deltaCoG)
forall (s = 1:ns, c = 1:2) & forall (s = 1:ns, c = 1:2) &
neighboring_rhoExcess(n,c,s) = state(g,neighboring_ip,neighboring_el)%p((2*c-2)*ns+s) & neighboring_rhoExcess(n,c,s) = state(g,neighboring_ip,neighboring_el)%p((2*c-2)*ns+s) &
+ abs(state(g,neighboring_ip,neighboring_el)%p((2*c+2)*ns+s)) & + abs(state(g,neighboring_ip,neighboring_el)%p((2*c+2)*ns+s)) &