DAMASK_EICMD/code/material.config

#####################
# $Id$
#####################
<homogenization>
#####################

[SX]
type	isostrain
Ngrains	1

[Grain_Cluster]
type	RGC
ngrains			8
clustersize		2	2	2        # product of these numbers must be equal to ngrains(!)
grainsizeparameter	3.2e+3	3.2e+3	3.2e+3   # 	3.9e3	3.6e3	3.9e3
overproportionality	1.6e+0	1.6e+0	1.6e+0	 #	1.6e0	1.6e0	1.6e0
(output)		constitutivework
(output)		penaltyenergy
(output)		magnitudemismatch

[Taylor2]
type	isostrain
Ngrains	2

#####################
<microstructure>
#####################

[Aluminum_Poly]
(constituent)	phase 3	texture	1	fraction	1.0

[Aluminum_001]
(constituent)	phase 3	texture	2	fraction	1.0

[Aluminum_j2]
(constituent)	phase 1	texture	1	fraction	1.0

[DP_Steel]
(constituent)	phase	1	texture	1	fraction	0.82
(constituent)	phase	2	texture	1	fraction	0.18 

#####################
<phase>
#####################

[Aluminum_J2isotropic]

constitution            j2

(output)                flowstress
(output)                strainrate

c11                     110.9e9
c12                     58.34e9
taylorfactor            3
tau0                    31e6
gdot0                   0.001
n                       20
h0                      75e6
tausat                  63e6
w0                      2.25
relevantResistance      1

[Aluminum_phenopowerlaw]
# slip only
constitution            phenopowerlaw

(output)                resistance_slip
(output)                shearrate_slip
(output)                resolvedstress_slip
(output)                totalshear
(output)                resistance_twin
(output)                shearrate_twin
(output)                resolvedstress_twin
(output)                totalvolfrac

lattice_structure       fcc
Nslip                   12  0  0  0              # per family
Ntwin                    0  0  0  0              # per family

c11                     106.75e9
c12                     60.41e9
c44                     28.34e9

gdot0_slip              0.001
n_slip                  20
tau0_slip                 31e6                # per family
tausat_slip               63e6               # per family
w0_slip                 2.25
gdot0_twin              0.001
n_twin                  20
tau0_twin                 31e6               # per family
s_pr                    0                        # push-up factor for slip saturation due to twinning
twin_b                  0
twin_c                  0
twin_d                  0
twin_e                  0
h0_slipslip             75e6
h0_sliptwin             0
h0_twinslip             0
h0_twintwin             0
interaction_slipslip    1 1 1.4 1.4 1.4 1.4
interaction_sliptwin    1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
interaction_twinslip    1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
interaction_twintwin    1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 
relevantResistance      1

[Aluminum_nonlocal]

constitution		        nonlocal
/nonlocal/

(output)                rho
(output)                rho_edge
(output)                rho_screw
(output)                excess_rho_edge
(output)                excess_rho_screw
(output)                rho_forest
(output)                rho_dip
(output)                rho_edge_dip
(output)                rho_screw_dip
(output)                shearrate
(output)                resolvedstress
(output)                resistance

lattice_structure       fcc
Nslip                   12  0  0  0               # number of slip systems per family

c11                     106.75e9
c12                     60.41e9
c44                     28.34e9

burgers                 2.86e-10  0  0  0        # Burgers vector in m
rhoEdgePos0             1e10  0  0  0            # Initial positive edge dislocation density in m/m**3
rhoEdgeNeg0             1e10  0  0  0            # Initial negative edge dislocation density in m/m**3
rhoScrewPos0            1e10  0  0  0            # Initial positive screw dislocation density in m/m**3
rhoScrewNeg0            1e10  0  0  0            # Initial negative screw dislocation density in m/m**3
rhoEdgeDip0             1  0  0  0               # Initial edge dipole dislocation density in m/m**3
rhoScrewDip0            1  0  0  0               # Initial screw dipole dislocation density in m/m**3
v0                      1e-4  0  0  0            # prefactor for dislocation velocity
dDipMinEdge             1e-9  0  0  0            # minimum distance for stable edge dipoles in m
dDipMinScrew            1e-9  0  0  0            # minimum distance for stable screw dipoles in m
lambda0                 100  0  0  0             # prefactor for mean free path 
atomicVolume            1.7e-29
D0                      1e-4                     # prefactor for self-diffusion coefficient
Qsd                     2.3e-19                  # activation energy for dislocation climb
relevantRho             1e3                      # dislocation density considered relevant
interaction_SlipSlip    1.0  2.2  3.0  1.6  3.8  4.5  # Dislocation interaction coefficient

[BCC_Ferrite]
constitution            phenopowerlaw
lattice_structure       bcc
Nslip                   12  0  0  0              # per family
Ntwin                    0  0  0  0              # per family
c11                     233.3e9
c12                     135.5e9
c44                     118.0e9
gdot0_slip              0.001
n_slip                  20
tau0_slip               88.0e6 0 0 0             # per family
tausat_slip             201.0e6 0 0 0            # per family
gdot0_twin              0.001
n_twin                  20
tau0_twin               31.0e6 0 0 0             # per family
s_pr                    0                        # push-up factor for slip saturation due to twinning
twin_b                  0
twin_c                  0
twin_d                  0
twin_e                  0
h0_slipslip             391.0e6
h0_sliptwin             0
h0_twinslip             0
h0_twintwin             0
interaction_slipslip    1 1 1.4 1.4 1.4 1.4
interaction_sliptwin    1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
interaction_twinslip    1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
interaction_twintwin    1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
w0_slip                 1.0
relevantResistance      1

[BCC_Martensite]
constitution            phenopowerlaw
lattice_structure       bcc
Nslip                   12  0  0  0              # per family
Ntwin                    0  0  0  0              # per family
c11                     511.1e9
c12                     296.9e9
c44                     258.5e9
gdot0_slip              0.001
n_slip                  20
tau0_slip               396.0e6 0 0 0            # per family
tausat_slip             1120.0e6 0 0 0           # per family
gdot0_twin              0.001
n_twin                  20
tau0_twin               31.0e6 0 0 0             # per family
s_pr                    0                        # push-up factor for slip saturation due to twinning
twin_b                  0
twin_c                  0
twin_d                  0
twin_e                  0
h0_slipslip             215000.0e6
h0_sliptwin             0
h0_twinslip             0
h0_twintwin             0
interaction_slipslip    1 1 1.4 1.4 1.4 1.4
interaction_sliptwin    1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
interaction_twinslip    1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
interaction_twintwin    1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
w0_slip                 4.0
relevantResistance      1


[TWIP steel FeMnC]

#(output)			edge_density
#(output)			dipole_density
#(output)			shear_rate_slip
#(output)			mfp_slip
#(output)			resolved_stress_slip
#(output)			threshold_stress_slip
#(output)			twin_fraction
#(output)			shear_rate_twin
#(output)			mfp_twin
#(output)			resolved_stress_twin
#(output)			threshold_stress_twin

### Material parameters ###
lattice_structure	fcc
constitution	dislotwin
C11			175.0e9		# From Music et al. Applied Physics Letters 91, 191904 (2007)
C12			115.0e9
C44			135.0e9
grainsize		2.0e-5		# Average grain size [m]

### Dislocation glide adjusting parameters ###
Nslip				12 0 0 0
slipburgers			2.56e-10 0 0 0	# Burgers vector of slip system [m]
rhoedge0			1.0e12 0 0 0	# Initial dislocation density [m/m<>]
rhoedgedip0			1.0 0 0 0		# Initial dislocation density [m/m<>]
Qedge				3.7e-19 0 0 0	# Activation energy for dislocation glide [J]
v0                	1.0e-4 0 0 0      # Initial glide velocity [m/s]
CLambdaSlip			10.0 0 0 0		# Adj. parameter controlling dislocation mean free path
D0				4.0e-5      	# Vacancy diffusion prefactor [m<>/s]
Qsd				4.5e-19           # Activation energy for climb [J]
pexponent               1.0               # p-exponent in glide velocity
qexponent               1.0               # p-exponent in glide velocity
Catomicvolume		1.0			# Adj. parameter controlling the atomic volume [in b]
Cedgedipmindistance	1.0			# Adj. parameter controlling the minimum dipole distance [in b]
relevantRho			1.0e-200
interactionSlipSlip	0.122 0.122 0.625 0.07 0.137 0.122	# Interaction coefficients (Kubin et al. 2008)

### dislocation density-based constitutive parameters ###
Ntwin				12
twinburgers			1.47e-10		# Burgers vector of twin system [m]
twinsize			5.0e-8		# Twin stack mean thickness [m]	
maxtwinfraction		1.0			# Maximum admissible twin volume fraction
Ndot0				0.0			# Number of potential source per volume per time [1/m<>.s] 
rexponent			10.0			# r-exponent in glide velocity
Cmfptwin			1.0			# Adj. parameter controlling twin mean free path
Cthresholdtwin		1.0			# Adj. parameter controlling slip threshold stress
interactionSlipTwin	0.0 1.0		# Dislocation interaction coefficients
interactionTwinTwin	0.0 1.0		# Dislocation interaction coefficients

#####################
<texture>
#####################

[Rolling]
hybridIA	DP_EBSD.linearODF

[random]

[001]
(gauss)		phi1	0.000	Phi	0.000	phi2	0.000	scatter	0.000	fraction	1.000

[101]
(gauss)		phi1	0.000	Phi	45.000	phi2	90.000	scatter	0.000	fraction	1.000

[111]
(gauss)		phi1	0.000	Phi	54.7356	phi2	45.000	scatter	0.000	fraction	1.000

[123]
(gauss)		phi1	209.805	Phi	29.206	phi2	63.435	scatter	0.000	fraction	1.000