diff --git a/VERSION b/VERSION index abc45afde..c7934861f 100644 --- a/VERSION +++ b/VERSION @@ -1 +1 @@ -v3.0.0-alpha-510-g4a16aa223 +v3.0.0-alpha-523-gf4b5d5f24 diff --git a/examples/ConfigFiles/Phase_Isotropic_AluminumIsotropic.config b/examples/ConfigFiles/Phase_Isotropic_AluminumIsotropic.config deleted file mode 100644 index 3a91035ea..000000000 --- a/examples/ConfigFiles/Phase_Isotropic_AluminumIsotropic.config +++ /dev/null @@ -1,20 +0,0 @@ -[Aluminum_Isotropic] -# Kuo, J. C., Mikrostrukturmechanik von Bikristallen mit Kippkorngrenzen. Shaker-Verlag 2004. http://edoc.mpg.de/204079 - -elasticity hooke -plasticity isotropic - -(output) flowstress -(output) strainrate - -lattice_structure iso - -c11 110.9e9 -c12 58.34e9 -m 3 -tau0 31e6 -gdot0 0.001 -n 20 -h0 75e6 -tausat 63e6 -a 2.25 diff --git a/examples/ConfigFiles/Phase_Isotropic_AluminumIsotropic.yaml b/examples/ConfigFiles/Phase_Isotropic_AluminumIsotropic.yaml new file mode 100644 index 000000000..446efc194 --- /dev/null +++ b/examples/ConfigFiles/Phase_Isotropic_AluminumIsotropic.yaml @@ -0,0 +1,16 @@ +# Kuo, J. C., Mikrostrukturmechanik von Bikristallen mit Kippkorngrenzen. Shaker-Verlag 2004. http://edoc.mpg.de/204079 +Aluminum: + elasticity: {C_11: 110.9e9, C_12: 58.34e9, type: hooke} + generic: + output: [F, P, Fe, Fp, Lp] + lattice: iso + plasticity: + type: isotropic + output: [xi] + xi_0: 31e6 + xi_inf: 63e6 + dot_gamma_0: 0.001 + n: 20 + M: 3 + h_0: 75e6 + a: 2.25 diff --git a/examples/ConfigFiles/Phase_Isotropic_FreeSurface.config b/examples/ConfigFiles/Phase_Isotropic_FreeSurface.config deleted file mode 100644 index 9a01c5a35..000000000 --- a/examples/ConfigFiles/Phase_Isotropic_FreeSurface.config +++ /dev/null @@ -1,24 +0,0 @@ -[Air] - -## Isotropic Material model to simulate free surfaces ## -## For more information see paper Maiti+Eisenlohr2018, Scripta Materialia, -## "Fourier-based spectral method solution to finite strain crystal plasticity with free surfaces" - -elasticity hooke -plasticity isotropic - -/dilatation/ - -(output) flowstress -(output) strainrate - -lattice_structure iso -c11 10e9 -c12 0.0 -gdot0 0.001 -tau0 0.3e6 -tausat 0.6e6 -h0 1e6 -n 5 -m 3 -a 2 diff --git a/examples/ConfigFiles/Phase_Isotropic_FreeSurface.yaml b/examples/ConfigFiles/Phase_Isotropic_FreeSurface.yaml new file mode 100644 index 000000000..20148c4fb --- /dev/null +++ b/examples/ConfigFiles/Phase_Isotropic_FreeSurface.yaml @@ -0,0 +1,17 @@ +# Maiti and Eisenlohr 2018 Scripta Materialia +Air: + elasticity: {C_11: 10e9, C_12: 0.0, type: hooke} + generic: + output: [F, P, Fe, Fp, Lp] + lattice: iso + plasticity: + type: isotropic + output: [xi] + xi_0: 0.3e6 + xi_inf: 0.6e6 + dot_gamma_0: 0.001 + n: 5 + M: 3 + h_0: 1e6 + a: 2 + dilatation: true diff --git a/examples/SpectralMethod/Polycrystal/material.yaml b/examples/SpectralMethod/Polycrystal/material.yaml index 671136d40..0717d4eab 100644 --- a/examples/SpectralMethod/Polycrystal/material.yaml +++ b/examples/SpectralMethod/Polycrystal/material.yaml @@ -5,112 +5,112 @@ homogenization: mech: {type: none} material: - - constituents: - - fraction: 1.0 + - homogenization: SX + constituents: + - phase: Aluminum + fraction: 1.0 O: [1.0, 0.0, 0.0, 0.0] - phase: Aluminum - homogenization: SX - - constituents: - - fraction: 1.0 + - homogenization: SX + constituents: + - phase: Aluminum + fraction: 1.0 O: [0.7936696712125002, -0.28765777461664166, -0.3436487135089419, 0.4113964260949434] - phase: Aluminum - homogenization: SX - - constituents: - - fraction: 1.0 + - homogenization: SX + constituents: + - phase: Aluminum + fraction: 1.0 O: [0.3986143167493579, -0.7014883552495493, 0.2154871765709027, 0.5500781677772945] - phase: Aluminum - homogenization: SX - - constituents: - - fraction: 1.0 + - homogenization: SX + constituents: + - phase: Aluminum + fraction: 1.0 O: [0.28645844315788244, -0.022571491243423537, -0.467933059311115, -0.8357456192708106] - phase: Aluminum - homogenization: SX - - constituents: - - fraction: 1.0 + - homogenization: SX + constituents: + - phase: Aluminum + fraction: 1.0 O: [0.33012772942625784, -0.6781865350268957, 0.6494525351030648, 0.09638521992649676] - phase: Aluminum - homogenization: SX - - constituents: - - fraction: 1.0 + - homogenization: SX + constituents: + - phase: Aluminum + fraction: 1.0 O: [0.43596817439583935, -0.5982537129781701, 0.046599032277502436, 0.6707106499919265] - phase: Aluminum - homogenization: SX - - constituents: - - fraction: 1.0 + - homogenization: SX + constituents: + - phase: Aluminum + fraction: 1.0 O: [0.169734823419553, -0.699615227367322, -0.6059581215838098, -0.33844257746495854] - phase: Aluminum - homogenization: SX - - constituents: - - fraction: 1.0 + - homogenization: SX + constituents: + - phase: Aluminum + fraction: 1.0 O: [0.9698864809294915, 0.1729052643205874, -0.15948307917616958, 0.06315956884687175] - phase: Aluminum - homogenization: SX - - constituents: - - fraction: 1.0 + - homogenization: SX + constituents: + - phase: Aluminum + fraction: 1.0 O: [0.46205660912967883, 0.3105054068891252, -0.617849551030653, 0.555294529545738] - phase: Aluminum - homogenization: SX - - constituents: - - fraction: 1.0 + - homogenization: SX + constituents: + - phase: Aluminum + fraction: 1.0 O: [0.4512443497461787, -0.7636045534540555, -0.04739348426715133, -0.45939142396805815] - phase: Aluminum - homogenization: SX - - constituents: - - fraction: 1.0 + - homogenization: SX + constituents: + - phase: Aluminum + fraction: 1.0 O: [0.2161856212656443, -0.6581450184826598, -0.5498086209601588, 0.4667112513346289] - phase: Aluminum - homogenization: SX - - constituents: - - fraction: 1.0 + - homogenization: SX + constituents: + - phase: Aluminum + fraction: 1.0 O: [0.8753220715350803, -0.4561599367657419, -0.13298279533852678, -0.08969369719975541] - phase: Aluminum - homogenization: SX - - constituents: - - fraction: 1.0 + - homogenization: SX + constituents: + - phase: Aluminum + fraction: 1.0 O: [0.11908260752431069, 0.18266024809834172, -0.7144822594012615, -0.664807992845101] - phase: Aluminum - homogenization: SX - - constituents: - - fraction: 1.0 + - homogenization: SX + constituents: + - phase: Aluminum + fraction: 1.0 O: [0.751104669484278, 0.5585633382623958, -0.34579336397009175, 0.06538900566860861] - phase: Aluminum - homogenization: SX - - constituents: - - fraction: 1.0 + - homogenization: SX + constituents: + - phase: Aluminum + fraction: 1.0 O: [0.08740438971703973, 0.8991264096610437, -0.4156704205935976, 0.10559485570696363] - phase: Aluminum - homogenization: SX - - constituents: - - fraction: 1.0 + - homogenization: SX + constituents: + - phase: Aluminum + fraction: 1.0 O: [0.5584325870096193, 0.6016408353068798, -0.14280340445801173, 0.5529814994483859] - phase: Aluminum - homogenization: SX - - constituents: - - fraction: 1.0 + - homogenization: SX + constituents: + - phase: Aluminum + fraction: 1.0 O: [0.4052725440888093, 0.25253073423599154, 0.5693263597910454, -0.669215876471182] - phase: Aluminum - homogenization: SX - - constituents: - - fraction: 1.0 + - homogenization: SX + constituents: + - phase: Aluminum + fraction: 1.0 O: [0.7570164606888676, 0.15265448024694664, -0.5998021466848317, 0.20942796551297105] - phase: Aluminum - homogenization: SX - - constituents: - - fraction: 1.0 + - homogenization: SX + constituents: + - phase: Aluminum + fraction: 1.0 O: [0.6987659297138081, -0.132172211261028, -0.19693254724422338, 0.6748883269678543] - phase: Aluminum - homogenization: SX - - constituents: - - fraction: 1.0 + - homogenization: SX + constituents: + - phase: Aluminum + fraction: 1.0 O: [0.7729330445886478, 0.21682179052722322, -0.5207379472917645, 0.2905078484066341] - phase: Aluminum - homogenization: SX phase: Aluminum: elasticity: {C_11: 106.75e9, C_12: 60.41e9, C_44: 28.34e9, type: hooke} generic: - output: [F, P, Fe, Fp, Lp] + output: [F, P, Fe, Fp, Lp, O] lattice: fcc plasticity: N_sl: [12]