Merge branch 'config2yaml' into 'development'

Config2yaml

See merge request damask/DAMASK!341
This commit is contained in:
Philip Eisenlohr 2021-02-23 14:25:55 +00:00
commit 5ee538a38e
19 changed files with 97 additions and 174 deletions

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Subproject commit 3efdf7dd9de96fe6c55240ecf6d0d78d9d0e36ec Subproject commit f654a4143b1fbbecd137dc5d2193f5cf48ab1448

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[SX]
type isostrain
Ngrains 1
{./Homogenization_Damage_NonLocal.config}
{./Homogenization_Thermal_Conduction.config}
{./Homogenization_VacancyFlux_CahnHilliard.config}
{./Homogenization_Porosity_PhaseField.config}
{./Homogenization_HydrogenFlux_CahnHilliard.config}

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# Kuo, J. C., Mikrostrukturmechanik von Bikristallen mit Kippkorngrenzen. Shaker-Verlag 2004. http://edoc.mpg.de/204079 # Kuo, J. C., Mikrostrukturmechanik von Bikristallen mit Kippkorngrenzen. Shaker-Verlag 2004. http://edoc.mpg.de/204079
Aluminum: Aluminum:
lattice: aP
mechanics: mechanics:
lattice: aP output: [F, P, F_e, F_p, L_p]
elasticity: {C_11: 110.9e9, C_12: 58.34e9, type: hooke} elasticity: {type: hooke, C_11: 110.9e9, C_12: 58.34e9}
output: [F, P, Fe, Fp, Lp]
plasticity: plasticity:
type: isotropic type: isotropic
output: [xi] output: [xi]

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# Maiti and Eisenlohr 2018 Scripta Materialia
Air: Air:
lattice: aP
mechanics: mechanics:
lattice: aP output: [F, P, F_e, F_p, L_p]
elasticity: {C_11: 10e9, C_12: 0.0, type: hooke} elasticity: {type: hooke, C_11: 1e8, C_12: 1e6}
output: [F, P, Fe, Fp, Lp]
plasticity: plasticity:
type: isotropic type: isotropic
output: [xi] output: [xi]
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M: 3 M: 3
h_0: 1e6 h_0: 1e6
a: 2 a: 2
dilatation: true dilatation: True

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[Aluminum]
elasticity hooke
plasticity phenopowerlaw
(output) resistance_slip
(output) accumulatedshear_slip
lattice_structure fcc
Nslip 12 # 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
a_slip 2.25
h0_slipslip 75e6
interaction_slipslip 1 1 1.4 1.4 1.4 1.4

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Aluminum:
lattice: cF
mechanics:
output: [F, P, F_e, F_p, L_p, O]
elasticity: {C_11: 106.75e9, C_12: 60.41e9, C_44: 28.34e9, type: hooke}
plasticity:
N_sl: [12]
a_sl: 2.25
dot_gamma_0_sl: 0.001
h_0_sl_sl: 75e6
h_sl_sl: [1, 1, 1.4, 1.4, 1.4, 1.4]
n_sl: 20
output: [xi_sl, gamma_sl]
type: phenopowerlaw
xi_0_sl: [31e6]
xi_inf_sl: [63e6]

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# Tasan et.al. 2015 International Journal of Plasticity # Tasan et.al. 2015 International Journal of Plasticity
# Diehl et.al. 2015 Meccanica # Diehl et.al. 2015 Meccanica
Ferrite: Ferrite:
lattice: cI
mechanics: mechanics:
lattice: cI
elasticity: {C_11: 233.3e9, C_12: 135.5e9, C_44: 118.0e9, type: hooke} elasticity: {C_11: 233.3e9, C_12: 135.5e9, C_44: 118.0e9, type: hooke}
plasticity: plasticity:
N_sl: [12, 12] N_sl: [12, 12]

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# Tasan et.al. 2015 International Journal of Plasticity # Tasan et.al. 2015 International Journal of Plasticity
# Diehl et.al. 2015 Meccanica # Diehl et.al. 2015 Meccanica
Martensite: Martensite:
lattice: cI
mechanics: mechanics:
lattice: cI
elasticity: {C_11: 417.4e9, C_12: 242.4e9, C_44: 211.1e9, type: hooke} elasticity: {C_11: 417.4e9, C_12: 242.4e9, C_44: 211.1e9, type: hooke}
plasticity: plasticity:
N_sl: [12, 12] N_sl: [12, 12]

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# parameters fitted by D. Ma to:
# I. Kovács, G. Vörös
# On the mathematical description of the tensile stress-strain curves of polycrystalline face centered cubic metals
# International Journal of Plasticity, Volume 12, Issue 1, 1996, Pages 3543
# DOI: 10.1016/S0749-6419(95)00043-7
[gold_phenopowerlaw]
elasticity hooke
plasticity phenopowerlaw
(output) resistance_slip
lattice_structure fcc
Nslip 12 # per family
c11 191.0e9
c12 162.0e9
c44 42.20e9
gdot0_slip 0.001
n_slip 83.3
tau0_slip 26.25e6 # per family
tausat_slip 53.00e6 # per family
a_slip 1.0
h0_slipslip 75e6
interaction_slipslip 1 1 1.4 1.4 1.4 1.4

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# parameters fitted by D. Ma to:
# On the mathematical description of the tensile stress-strain curves of polycrystalline face centered cubic metals
# International Journal of Plasticity, Volume 12, Issue 1, 1996, Pages 35-43
# DOI: 10.1016/S0749-6419(95)00043-7
Gold:
lattice: cF
mechanics:
output: [F, P, F_e, F_p, L_p, O]
elasticity: {type: hooke, C_11: 191e9, C_12: 162e9, C_44: 42.2e9}
plasticity:
type: phenopowerlaw
output: [xi_sl]
N_sl: [12]
n_sl: 83
dot_gamma_0_sl: 0.001
h_0_sl_sl: 75e6
h_sl_sl: [1, 1, 1.4, 1.4, 1.4, 1.4]
a_sl: 1.0
xi_0_sl: [26e6]
xi_inf_sl: [53e6]

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#-------------------#
<phase>
#-------------------#
/echo/
[Mg]
plasticity phenopowerlaw
elasticity hooke
(output) resistance_slip
(output) resistance_twin
lattice_structure hex
c/a 1.62350 # from Tromans 2011, Elastic Anisotropy of HCP Metal Crystals and Polycrystals
c11 59.3e9 # - " -
c33 61.5e9 # - " -
c44 16.4e9 # - " -
c12 25.7e9 # - " -
c13 21.4e9 # - " -
# basal prism prism pyr(a) pyr(c+a) pyr(c+a)
Nslip 3 3 0 6 0 6 # from Agnew et al 2006, Validating a polycrystal model for the elastoplastic response of mg alloy AZ32 using in situ neutron diffraction
# T1 C1 T2 C2
Ntwin 6 0 0 6 # - " -
# basal prism prism pyr(a) pyr(c+a) pyr(c+a)
tau0_slip 10.0e6 55.0e6 0 60.0e6 0.0 60.0e6 # - " - table 1, pyr(a) set to pyr(c+a)
tausat_slip 40.0e6 135.0e6 0 150.0e6 0.0 150.0e6 # - " - table 1, pyr(a) set to pyr(c+a)
# T1 C1 T2 C2
tau0_twin 40e6 0.0 0.0 60.0e6 # - " - table 1, compressive twin guessed by Steffi, tensile twin modified to match experimental results
h0_twintwin 50.0e6 # - " - table 1, same range as theta_0
h0_slipslip 500.0e6 # - " - table 1, same range as theta_0
h0_twinslip 150.0e6 # guessing
interaction_slipslip 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 # just guessing
interaction_twintwin 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 # - " -
interaction_sliptwin 1 1 1 1 1 1 1 1 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 1 1 1 1 1 1 1 1 # - " -
####################################################
# open for discussion
####################################################
n_twin 20
n_slip 20
gdot0_twin 0.001
gdot0_slip 0.001
twin_b 0
twin_c 0
twin_d 20
twin_e 20
a_slip 2.25
s_pr 10.0 # push-up factor for slip saturation due to twinning

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# Tromans 2011, Elastic Anisotropy of HCP Metal Crystals and Polycrystals
Magnesium:
lattice: hP
c/a: 1.62350
mechanics:
output: [F, P, F_e, F_p, L_p, O]
elasticity: {C_11: 59.3e9, C_12: 25.7e9, C_13: 21.4e9, C_33: 61.5e9, C_44: 16.4e9, type: hooke}
plasticity:
N_sl: [3, 3, 0, 6, 0, 6]
N_tw: [6, 0, 0, 6]
h_0_tw_tw: 50.0e6
h_0_sl_sl: 500.0e6
h_0_tw_sl: 150.0e6
h_sl_sl: [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1]
h_tw_tw: [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1]
h_sl_tw: [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1]
h_tw_sl: [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1]
output: [xi_sl, xi_tw]
type: phenopowerlaw
xi_0_sl: [10.0e6, 55.0e6, 0, 60.0e6, 0.0, 60.0e6]
xi_inf_sl: [40.0e6, 135.0e6, 0, 150.0e6, 0.0, 150.0e6]
xi_0_tw: [40e6, 0.0, 0.0, 60.0e6]
####################################################
# open for discussion
####################################################
a_sl: 2.25
dot_gamma_0_sl: 0.001
dot_gamma_0_tw: 0.001
n_sl: 20
n_tw: 20
f_sl_sat_tw: 10.0

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[cpTi-alpha]
plasticity phenopowerlaw
elasticity hooke
lattice_structure hex
covera_ratio 1.587
# M. Levy, Handbook of Elastic Properties of Solids, Liquids, and Gases (2001)
c11 160.0e9
c12 90.0e9
c13 66.0e9
c33 181.7e9
c44 46.5e9
# C. Zambaldi, "Orientation informed nanoindentation of a-titanium: Indentation pileup in hexagonal metals deforming by prismatic slip", J. Mater. Res., Vol. 27, No. 1, Jan 14, 2012
gdot0_slip 0.001
n_slip 20
nslip 3 3 0 6
tau0_slip 349.3e6 150e6 0 1107.9e6
tausat_slip 568.6e6 1502.2e6 0 3420.1e6
a_slip 2
h0_slipslip 15e6
interaction_slipslip 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1

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# M. Levy, Handbook of Elastic Properties of Solids, Liquids, and Gases (2001)
# C. Zambaldi, "Orientation informed nanoindentation of a-titanium: Indentation pileup in hexagonal metals deforming by prismatic slip", J. Mater. Res., Vol. 27, No. 1, Jan 14, 2012
Ti-alpha:
lattice: hP
c/a: 1.587
mechanics:
output: [F, P, F_e, F_p, L_p, O]
elasticity: {C_11: 160.0e9, C_12: 90.0e9, C_13: 66.0e9, C_33: 181.7e9, C_44: 46.5e9, type: hooke}
plasticity:
N_sl: [3, 3, 0, 0, 12]
a_sl: 2.0
dot_gamma_0_sl: 0.001
h_0_sl_sl: 200e6
h_sl_sl: [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1]
n_sl: 20
output: [gamma_sl]
type: phenopowerlaw
xi_0_sl: [349e6, 150e6, 0, 0, 1107e6]
xi_inf_sl: [568e6, 1502e6, 0, 0, 3420e6]

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[001]
(gauss) phi1 0.000 Phi 0.000 phi2 0.000

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

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

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[123]
(gauss) phi1 209.805 Phi 29.206 phi2 63.435

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# The material.config file needs to specify five parts:
# homogenization, microstructure, crystallite, phase, and texture.
# You can either put the full text in here or include suited separate files
<homogenization>
{./Homogenization_Isostrain_SX.config}
<microstructure>
[one_only]
crystallite 1
(constituent) phase 1 texture 1 fraction 1.0
<crystallite>
{./Crystallite_All.config}
<phase>
{./Phase_Phenopowerlaw_Aluminum.config}
<texture>
{./Texture_Gauss_001.config}