mean velocity of dislocation corrected for higher temperatures

- v_wait: obstacle spacing over waiting time (effective velocity) - v_run: 'true' velocity of a dislocation moving between obstacles for higher temperatures v_run becomes important and bounds the velocity
2018-10-02 15:56:18 +02:00 · 2018-10-02 15:56:18 +02:00 · 9cc3a77e01
parent 5d1e648d17
commit 9cc3a77e01
1 changed files with 22 additions and 15 deletions
--- a/src/plastic_dislotwin.f90
+++ b/src/plastic_dislotwin.f90
@ -1404,20 +1404,27 @@ pure subroutine kinetics_slip(prm,stt,mse,of,Mp,temperature,gdot_slip,dgdot_dtau
   tau, &
   stressRatio, &
   StressRatio_p, &
-   BoltzmannRatio
+   BoltzmannRatio, &
   v_wait_inverse, &                                  !< inverse of the effective velocity of a dislocation waiting at obstacles
   v_run_inverse, &                                   !< inverse of the velocity of a free moving dislocation
   tau_eff                                            !< effective resolved stress
 integer(pInt) :: i 
 do i = 1_pInt, prm%totalNslip
   tau(i) = math_mul33xx33(Mp,prm%Schmid_slip(1:3,1:3,i))
 enddo
 tau_eff = abs(tau)-mse%threshold_stress_slip(:,of)
 significantStress: where(tau_eff > tol_math_check)
   stressRatio    = tau_eff/(prm%SolidSolutionStrength+prm%tau_peierls)
   StressRatio_p  = stressRatio** prm%p
   BoltzmannRatio = prm%Qedge/(kB*Temperature)
   v_wait_inverse = prm%v0**(-1.0_pReal) * exp(BoltzmannRatio*(1.0_pReal-StressRatio_p)** prm%q)
   v_run_inverse  = prm%B/(tau_eff*prm%burgers_slip)
   gdot_slip = sign(stt%rhoEdge(:,of)*prm%burgers_slip/(v_wait_inverse+v_run_inverse),tau)
 significantStress: where((abs(tau)-mse%threshold_stress_slip(:,of)) > tol_math_check)
   stressRatio = ((abs(tau)- mse%threshold_stress_slip(:,of))/&
                   (prm%SolidSolutionStrength+prm%tau_peierls(:)))
   StressRatio_p       = stressRatio** prm%p
   BoltzmannRatio      = prm%Qedge/(kB*Temperature)
   gdot_slip = stt%rhoEdge(:,of)*prm%burgers_slip* prm%v0 &
                  * sign(exp(-BoltzmannRatio*(1.0_pReal-StressRatio_p)** prm%q), tau)
   dgdot_dtau = abs(gdot_slip)*BoltzmannRatio*prm%p * prm%q &
              / (prm%SolidSolutionStrength+prm%tau_peierls) &
              * stressRatio**(prm%p-1.0_pReal)*(1.0_pReal-StressRatio_p)**(prm%q-1.0_pReal)
@ -1428,11 +1435,11 @@ pure subroutine kinetics_slip(prm,stt,mse,of,Mp,temperature,gdot_slip,dgdot_dtau
 if(present(dgdot_dtau_slip)) dgdot_dtau_slip = dgdot_dtau
-end subroutine
+end subroutine kinetics_slip
 !--------------------------------------------------------------------------------------------------
-!> @brief calculates shear rates on slip systems
+!> @brief calculates shear rates on twin systems
 !--------------------------------------------------------------------------------------------------
 pure subroutine kinetics_twin(prm,stt,mse,of,Mp,temperature,gdot_slip,gdot_twin,dgdot_dtau_twin)
 use prec, only: &
@ -1475,7 +1482,7 @@ pure subroutine kinetics_twin(prm,stt,mse,of,Mp,temperature,gdot_slip,gdot_twin,
     s1=prm%fcc_twinNucleationSlipPair(1,i)
     s2=prm%fcc_twinNucleationSlipPair(2,i)
     if (tau(i) < mse%tau_r_twin(i,of)) then
-       Ndot0_twin=(abs(gdot_slip(s1))*(stt%rhoEdge(s2,of)+stt%rhoEdgeDip(s2,of))+&  !!!!! correct?
+       Ndot0_twin=(abs(gdot_slip(s1))*(stt%rhoEdge(s2,of)+stt%rhoEdgeDip(s2,of))+&
                   abs(gdot_slip(s2))*(stt%rhoEdge(s1,of)+stt%rhoEdgeDip(s1,of)))/&
               (prm%L0_twin*prm%burgers_slip(i))*&
               (1.0_pReal-exp(-prm%VcrossSlip/(kB*Temperature)*&
@ -1500,7 +1507,7 @@ pure subroutine kinetics_twin(prm,stt,mse,of,Mp,temperature,gdot_slip,gdot_twin,
 if(present(dgdot_dtau_twin)) dgdot_dtau_twin = dgdot_dtau
-end subroutine
+end subroutine kinetics_twin
 !--------------------------------------------------------------------------------------------------
@ -1547,8 +1554,8 @@ pure subroutine kinetics_trans(prm,stt,mse,of,Mp,temperature,gdot_slip,gdot_tran
     s1=prm%fcc_twinNucleationSlipPair(1,i)
     s2=prm%fcc_twinNucleationSlipPair(2,i)
     if (tau(i) < mse%tau_r_trans(i,of)) then
-       Ndot0_trans=(abs(gdot_slip(s1))*(stt%rhoEdge(s2,of)+stt%rhoEdgeDip(s2,of))+&  ! s1/s2 mixing correct?
+       Ndot0_trans=(abs(gdot_slip(s1))*(stt%rhoEdge(s2,of)+stt%rhoEdgeDip(s2,of))+&
-                   abs(gdot_slip(s2))*(stt%rhoEdge(s1,of)+stt%rhoEdgeDip(s1,of)))/&
+                    abs(gdot_slip(s2))*(stt%rhoEdge(s1,of)+stt%rhoEdgeDip(s1,of)))/&
               (prm%L0_trans*prm%burgers_slip(i))*&                               ! burgers_slip correct?
               (1.0_pReal-exp(-prm%VcrossSlip/(kB*Temperature)*&
               (mse%tau_r_trans(i,of)-tau)))
@ -1583,7 +1590,7 @@ pure subroutine kinetics_trans(prm,stt,mse,of,Mp,temperature,gdot_slip,gdot_tran
 !
 ! if(present(dgdot_dtau_twin)) dgdot_dtau_twin = dgdot_dtau
 !
-end subroutine
+end subroutine kinetics_trans
 !--------------------------------------------------------------------------------------------------
 !> @brief return array of constitutive results