branch only once
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Martin Diehl
parent
0116e2dae6
commit
017c182640
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@ -966,7 +966,7 @@ pure subroutine kinetics_tw(Mp,T,dot_gamma_sl,ph,en,&
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tau(i) = math_tensordot(Mp,prm%P_tw(1:3,1:3,i))
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isFCC: if (prm%fccTwinTransNucleation) then
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x0 = mu*prm%b_tw(i)**2/(Gamma*8.0_pReal*PI)*(2.0_pReal+nu)/(1.0_pReal-nu) ! ToDo: In the paper, this is the Burgers vector for slip
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tau_r = mu*prm%b_tw(i)/(2.0_pReal*PI)*(1.0_pReal/(x0+prm%x_c_tw)+cos(pi/3.0_pReal)/x0)
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tau_r = mu*prm%b_tw(i)/(2.0_pReal*PI)*(1.0_pReal/(x0+prm%x_c_tw)+cos(PI/3.0_pReal)/x0)
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if (tau(i) < tau_r) then ! ToDo: correct?
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s=prm%fcc_twinNucleationSlipPair(1:2,i)
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dot_N_0(i)=(abs(dot_gamma_sl(s(1)))*(stt%rho_mob(s(2),en)+stt%rho_dip(s(2),en))+&
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@ -1022,13 +1022,12 @@ pure subroutine kinetics_tr(Mp,T,dot_gamma_sl,ph,en,&
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ddot_gamma_dtau_tr
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real, dimension(param(ph)%sum_N_tr) :: &
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tau, &
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dot_N_0, &
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stressRatio_s, &
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ddot_gamma_dtau
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real :: &
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stressRatio_s, &
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tau, tau_r, &
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dot_N_0, &
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x0, &
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tau_r, &
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Gamma, &
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mu, nu
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integer, dimension(2) :: &
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@ -1043,28 +1042,23 @@ pure subroutine kinetics_tr(Mp,T,dot_gamma_sl,ph,en,&
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Gamma = prm%Gamma_sf(1) + prm%Gamma_sf(2) * (T-prm%T_ref)
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do i = 1, prm%sum_N_tr
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tau(i) = math_tensordot(Mp,prm%P_tr(1:3,1:3,i))
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tau = math_tensordot(Mp,prm%P_tr(1:3,1:3,i))
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x0 = mu*prm%b_tr(i)**2/(Gamma*8.0_pReal*PI)*(2.0_pReal+nu)/(1.0_pReal-nu) ! ToDo: In the paper, this is the Burgers vector for slip
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tau_r = mu*prm%b_tr(i)/(2.0_pReal*PI)*(1.0_pReal/(x0+prm%x_c_tr)+cos(pi/3.0_pReal)/x0)
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if (tau(i) < tau_r) then ! ToDo: correct?
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tau_r = mu*prm%b_tr(i)/(2.0_pReal*PI)*(1.0_pReal/(x0+prm%x_c_tr)+cos(PI/3.0_pReal)/x0)
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if (tau > tol_math_check .and. tau < tau_r) then
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s=prm%fcc_twinNucleationSlipPair(1:2,i)
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dot_N_0(i)=(abs(dot_gamma_sl(s(1)))*(stt%rho_mob(s(2),en)+stt%rho_dip(s(2),en))+&
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abs(dot_gamma_sl(s(2)))*(stt%rho_mob(s(1),en)+stt%rho_dip(s(1),en)))/&
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(prm%L_tr*prm%b_sl(i))*(1.0_pReal-exp(-prm%V_cs/(K_B*T)*(tau_r-tau(i))))
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dot_N_0=(abs(dot_gamma_sl(s(1)))*(stt%rho_mob(s(2),en)+stt%rho_dip(s(2),en))+&
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abs(dot_gamma_sl(s(2)))*(stt%rho_mob(s(1),en)+stt%rho_dip(s(1),en)))/&
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(prm%L_tr*prm%b_sl(i))*(1.0_pReal-exp(-prm%V_cs/(K_B*T)*(tau_r-tau)))
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StressRatio_s = (dst%tau_hat_tr(i,en)/tau)**prm%s(i)
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dot_gamma_tr(i) = dst%V_tr(i,en) * dot_N_0*exp(-StressRatio_s)
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ddot_gamma_dtau(i) = (dot_gamma_tr(i)*prm%s(i)/tau)*StressRatio_s
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else
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dot_N_0(i)=0.0_pReal
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dot_gamma_tr(i) = 0.0_pReal
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ddot_gamma_dtau(i) = 0.0_pReal
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end if
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end do
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significantStress: where(tau > tol_math_check)
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StressRatio_s = (dst%tau_hat_tr(:,en)/tau)**prm%s
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dot_gamma_tr = dst%V_tr(:,en) * dot_N_0*exp(-StressRatio_s)
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ddot_gamma_dtau = (dot_gamma_tr*prm%s/tau)*StressRatio_s
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else where significantStress
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dot_gamma_tr = 0.0_pReal
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ddot_gamma_dtau = 0.0_pReal
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end where significantStress
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end associate
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if (present(ddot_gamma_dtau_tr)) ddot_gamma_dtau_tr = ddot_gamma_dtau
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