Merge branch 're-fit-temperature-dependent-parameters' into 'development'

re-fit temperature dependend parameters

See merge request damask/DAMASK!696
This commit is contained in:
Franz Roters 2023-01-09 11:19:36 +00:00
commit 545b813ec3
31 changed files with 239 additions and 232 deletions

@ -1 +1 @@
Subproject commit b258fe86c2fb4bc74e5649a100328a38bcb3c997 Subproject commit 547bfe56d67cba358a7bb9582f2f7c0e344befd8

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@ -1,62 +0,0 @@
type: dislotwin
output: [rho_mob, rho_dip, gamma_sl, Lambda_sl, tau_pass, f_tw, Lambda_tw, f_tr]
# Slip
N_sl: [12]
b_sl: [2.56e-10]
Q_sl: [3.5e-19]
p_sl: [0.325]
q_sl: [1.55]
B: [0.001]
i_sl: [30.0]
rho_mob_0: [1.0e+12]
rho_dip_0: [1.0]
v_0: [1.0e+4]
tau_0: [3.5e+8]
D_a: 1.0 # minimum dipole distance / b
Q_cl: 4.5e-19 # Activation energy for climb / J
h_sl-sl: [0.122, 0.122, 0.625, 0.07, 0.137, 0.137, 0.122] # Interaction coefficients (Kubin et al. 2008)
h_tw-sl: [0.0] # ToDo: values not known
# Twin
N_tw: [12]
b_tw: [1.40e-10]
L_tw: 1.8e-7
i_tw: 10.0
t_tw: [5.0e-8]
p_tw: [3.0] # A
h_tw-tw: [0.0, 1.0] # ToDo: values not known
h_sl-tw: [0.0, 1.0, 1.0] # ToDo: values not known
# Transformation
N_tr: [12]
b_tr: [1.40e-10]
L_tr: 1.8e-7
i_tr: 3.0
t_tr: [1.0e-7]
p_tr: [3.0] # B
V_mol: 7.09e-6
Delta_G: 1.33343932e+02
Delta_G,T: 2.56640412
Delta_G,T^2: 1.49524179e-03
h_tr-tr: [1.0, 1.0] # guessing
h_sl-tr: [0.0, 1.0, 1.0] # guessing
# Twin & Transformation
T_ref: 298.15
Gamma_sf: 2.89394017e-02
Gamma_sf,T: 1.22823814e-04
Gamma_sf,T^2: 1.47322968e-07
x_c: 1.0e-9
V_cs: 1.67e-29
a_cF: 3.62e-10
c/a_hP: 1.633
# Slip & Twin & Transformation
D: 2.0e-5

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@ -4,10 +4,11 @@ references:
- R.H. Bogaard et al., - R.H. Bogaard et al.,
Thermochimica Acta 218:373-393, 1993, Thermochimica Acta 218:373-393, 1993,
https://doi.org/10.1016/0040-6031(93)80437-F, https://doi.org/10.1016/0040-6031(93)80437-F,
fit to Fig. 6 (T_min=100K, T_max=1400K) fit to Fig. 6 (T_min=100K, T_max=1200K)
Alpha_11: 2.068e-08 Alpha_11: 14.9e-6
Alpha_11,T: 1.579e-09 Alpha_11,T: 1.838e-08
Alpha_11,T^2: 3.449e-13 Alpha_11,T^2: -2.028e-11
Alpha_11,T^3: 9.173e-15
T_ref: 293.15 T_ref: 293.15

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@ -4,8 +4,8 @@ references:
- https://commons.wikimedia.org/wiki/File:Coefficient_dilatation_lineique_aciers.svg, - https://commons.wikimedia.org/wiki/File:Coefficient_dilatation_lineique_aciers.svg,
fit to image description (Scilab code) fit to image description (Scilab code)
Alpha_11: 12.70371e-6 Alpha_11: 10.2e-6
Alpha_11,T: 7.54e-9 Alpha_11,T: 1.260e-08
Alpha_11,T^2: -1.0e-11 Alpha_11,T^2: -1.000e-11
T_ref: 273.0 T_ref: 293.15

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@ -0,0 +1,16 @@
type: thermalexpansion
references:
- Z. Li and R.C. Bradt,
Journal of the American Ceramic Society 69(12):863-866, 1986,
https://doi.org/10.1111/j.1151-2916.1986.tb07385.x
Alpha_11: 3.27e-6
Alpha_11,T: 3.25e-9
Alpha_11,T^2: -1.36e-12
Alpha_33: 3.18e-6
Alpha_33,T: 2.48e-9
Alpha_33,T^2: -8.51e-13
T_ref: 273.15

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@ -0,0 +1,12 @@
type: thermalexpansion
references:
- Z. Li and R.C. Bradt,
Journal of Materials Science 21:4366-4368, 1986,
https://doi.org/10.1007/BF01106557
Alpha_11: 3.19e-6
Alpha_11,T: 3.60e-9
Alpha_11,T^2: -1.68e-12
T_ref: 273.15

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@ -6,11 +6,11 @@ references:
https://doi.org/10.1107/S0365110X62000742, https://doi.org/10.1107/S0365110X62000742,
fit to Tab. 2 (T_min=30ºC, T_max=210ºC) fit to Tab. 2 (T_min=30ºC, T_max=210ºC)
Alpha_11: 1.639e-05 Alpha_11: 16.4e-6
Alpha_11,T: 1.799e-08 Alpha_11,T: 1.799e-08
Alpha_11,T^2: 1.734e-10 Alpha_11,T^2: 1.734e-10
Alpha_33: 3.263e-05 Alpha_33: 32.6e-6
Alpha_33,T: 1.387e-08 Alpha_33,T: 1.387e-08
Alpha_33,T^2: 5.794e-10 Alpha_33,T^2: 5.794e-10

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@ -2,9 +2,9 @@ type: thermalexpansion
references: references:
- https://commons.wikimedia.org/wiki/File:Coefficient_dilatation_lineique_aciers.svg, - https://commons.wikimedia.org/wiki/File:Coefficient_dilatation_lineique_aciers.svg,
fit to image description (Scilab code) fit to Scilab code for generating the image (T_min=100ºC, T_max=400ºC)
Alpha_11: 11.365e-6 Alpha_11: 10.1e-6
Alpha_11,T: 5.0e-9 Alpha_11,T: 5.000e-09
T_ref: 273.0 T_ref: 293.15

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@ -3,21 +3,23 @@ type: Hooke
references: references:
- J.R. Neighbours and G.A. Alers, - J.R. Neighbours and G.A. Alers,
Physical Review 111:707-712, 1958, Physical Review 111:707-712, 1958,
https://doi.org/10.1103/PhysRev.111.707 https://doi.org/10.1103/PhysRev.111.707,
fit to Tab. I (T_min=100K, T_max=300K)
- Y.A. Chang and L. Himmel, - Y.A. Chang and L. Himmel,
Journal of Applied Physics 37:3567-3572, 1966, Journal of Applied Physics 37:3567-3572, 1966,
https://doi.org/10.1063/1.1708903 https://doi.org/10.1063/1.1708903,
fit to Tab. II (T_min=300K, T_max=800K)
C_11: 122.9e+9 C_11: 124.1e+9
C_11,T: -313.5e+5 C_11,T: -3.148e+7
C_11,T^2: -107.3e+2 C_11,T^2: -6.594e+3
C_12: 91.55e+9 C_12: 93.7e+9
C_12,T: -164.1e+5 C_12,T: -1.657e+7
C_12,T^2: -681.6e+1 C_12,T^2: -4.220e+3
C_44: 42.63e+9 C_44: 46.4e+9
C_44,T: -180.5e+5 C_44,T: -1.775e+7
C_44,T^2: -353.8e+1 C_44,T^2: -1.973e+3
T_ref: 300 T_ref: 293.15

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@ -6,20 +6,20 @@ references:
https://doi.org/10.1063/1.1713309, https://doi.org/10.1063/1.1713309,
fit to Tab. I (T_min=100K, T_max=300K) fit to Tab. I (T_min=100K, T_max=300K)
- D. Gerlich and E.S. Fisher, - D. Gerlich and E.S. Fisher,
Journal of Physics and Chemistry of Solids 30:1197-1205, 1969 Journal of Physics and Chemistry of Solids 30:1197-1205, 1969,
https://doi.org/10.1016/0022-3697(69)90377-1, https://doi.org/10.1016/0022-3697(69)90377-1,
fit to Tab. 2 (T_min=293K, T_max=900K) fit to Tab. 2 (T_min=293K, T_max=900K)
C_11: 106.9e+9 C_11: 106.9e+9
C_11,T: -3.685e+7 C_11,T: -3.691e+7
C_11,T^2: -1.016e+4 C_11,T^2: -9.790e+3
C_12: 60.55e+9 C_12: 60.5e+9
C_12,T: -8.307e+6 C_12,T: -8.412e+6
C_12,T^2: -4.353e+3 C_12,T^2: -3.972e+3
C_44: 28.37e+9 C_44: 28.4e+9
C_44,T: -1.418e+7 C_44,T: -1.413e+7
C_44,T^2: -3.253e+3 C_44,T^2: -3.408e+3
T_ref: 293.15 T_ref: 293.15

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@ -1,11 +1,25 @@
type: Hooke type: Hooke
references: references:
- J.P. Hirth and J. Lothe, - J.R. Neighbours and G.A. Alers,
Theory of Dislocations, 1982, Physical Review 111:707-712, 1958,
John Wiley & Sons, https://doi.org/10.1103/PhysRev.111.707,
page 837 fit to Tab. II (T_min=100K, T_max=300K)
- Y.A. Chang and L. Himmel,
Journal of Applied Physics 37:3567-3572, 1966,
https://doi.org/10.1063/1.1708903,
fit to Tab. III (T_min=300K, T_max=800K)
C_11: 186.e+9 C_11: 192.7e+9
C_12: 157.e+9 C_11,T: -3.472e+7
C_44: 42.e+9 C_11,T^2: 1.102e+3
C_12: 163.2e+9
C_12,T: -2.607e+7
C_12,T^2: 2.397e+3
C_44: 42.2e+9
C_44,T: -1.172e+7
C_44,T^2: -3.078e+3
T_ref: 293.15

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@ -1,21 +1,25 @@
type: Hooke type: Hooke
references: references:
- W.C. Overton, Jr. and J. Gaffney, - W.C. Overton Jr. and J. Gaffney,
Physical Review 98(4):969-977, 1955, Physical Review 98(4):969-977, 1955,
https://doi.org/10.1103/PhysRev.98.969, https://doi.org/10.1103/PhysRev.98.969,
fit to Tab. I (T_min=100K, T_max=300K) fit to Tab. I (T_min=100K, T_max=300K)
- Y.A. Chang and L. Himmel,
Journal of Applied Physics 37:3567-3572, 1966,
https://doi.org/10.1063/1.1708903,
fit to Tab. II (T_min=300K, T_max=800K)
C_11: 168.6e+9 C_11: 168.9e+9
C_11,T: -3.779e+7 C_11,T: -3.332e+7
C_11,T^2: -2.536e+4 C_11,T^2: -1.074e+4
C_12: 121.5e+9 C_12: 121.8e+9
C_12,T: -1.632e+7 C_12,T: -1.402e+7
C_12,T^2: -1.116e+4 C_12,T^2: -9.003e+3
C_44: 75.59e+9 C_44: 75.8e+9
C_44,T: -2.912e+7 C_44,T: -2.555e+7
C_44,T^2: -1.669e+4 C_44,T^2: -2.188e+3
T_ref: 293.15 T_ref: 293.15

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@ -6,16 +6,16 @@ references:
https://doi.org/10.1063/1.1661710 https://doi.org/10.1063/1.1661710
fit to Tab. II (T_min=25ºC, T_max=880ºC) fit to Tab. II (T_min=25ºC, T_max=880ºC)
C_11: 232.1e+9 C_11: 232.2e+9
C_11,T: -4.678e+7 C_11,T: -4.683e+7
C_11,T^2: -5.762e+4 C_11,T^2: -5.988e+4
C_12: 135.9e+9 C_12: 136.4e+9
C_12,T: -1.695e+7 C_12,T: -1.970e+7
C_12,T^2: 1.555e+3 C_12,T^2: 3.760e+3
C_44: 117.0e+9 C_44: 117.0e+9
C_44,T: -2.047e+7 C_44,T: -2.015e+7
C_44,T^2: -2.814e+2 C_44,T^2: -7.485e+2
T_ref: 293.15 T_ref: 293.15

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@ -4,18 +4,15 @@ references:
- Wang et al., - Wang et al.,
Materials Science and Engineering:A 674:406-412, 2016, Materials Science and Engineering:A 674:406-412, 2016,
https://doi.org/10.1016/j.msea.2016.08.010, https://doi.org/10.1016/j.msea.2016.08.010,
fitted to Tab. 2 (last 3 rows) fit to Tab. 2 (last 3 rows)
C_11: 243.3e+9 C_11: 243.9e+9
C_11,T: -6.380e+5 C_11,T: -5.410e+7
C_11,T^2: -8.362e+4
C_12: 156.7e+9 C_12: 157.0e+9
C_12,T: 2.091e+7 C_12,T: -9.352e+6
C_12,T^2: -4.675e+4
C_44: 117.8e+9 C_44: 117.9e+9
C_44,T: -3.800e+7 C_44,T: -2.798e+7
C_44,T^2: 1.587e+4
T_ref: 293.15 T_ref: 293.15

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@ -6,23 +6,23 @@ references:
https://doi.org/10.1103/PhysRev.107.972, https://doi.org/10.1103/PhysRev.107.972,
fit to Tab. I (T_min=100K, T_max=300K) fit to Tab. I (T_min=100K, T_max=300K)
C_11: 59.50e+9 C_11: 59.5e+9
C_11,T: -1.930e+7 C_11,T: -1.930e+7
C_11,T^2: -1.215e+4 C_11,T^2: -1.215e+4
C_33: 61.72e+9 C_12: 25.6e+9
C_33,T: -2.175e+7
C_33,T^2: -5.624e+3
C_44: 16.46e+9
C_44,T: -1.006e+7
C_44,T^2: -7.692e+3
C_12: 25.62e+9
C_12,T: -2.216e+6 C_12,T: -2.216e+6
C_12,T^2: -4.138e+3 C_12,T^2: -4.138e+3
C_13: 21.46e+9 C_44: 16.5e+9
C_44,T: -1.006e+7
C_44,T^2: -7.692e+3
C_33: 61.7e+9
C_33,T: -2.175e+7
C_33,T^2: -5.624e+3
C_13: 21.5e+9
C_13,T: -1.921e+6 C_13,T: -1.921e+6
C_13,T^2: -4.283e+3 C_13,T^2: -4.283e+3

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@ -7,15 +7,15 @@ references:
fit to Tab. 2 (T_min=100K, T_max=700K) fit to Tab. 2 (T_min=100K, T_max=700K)
C_11: 251.0e+9 C_11: 251.0e+9
C_11,T: -4.998e+7 C_11,T: -4.967e+7
C_11,T^2: -2.952e+4 C_11,T^2: -3.327e+4
C_12: 150.0e+9 C_12: 150.0e+9
C_12,T: -4.269e+6 C_12,T: -3.714e+6
C_12,T^2: -6.429e+3 C_12,T^2: -7.414e+3
C_44: 123.7e+9 C_44: 123.7e+9
C_44,T: -3.618e+7 C_44,T: -3.621e+7
C_44,T^2: -7.024e+3 C_44,T^2: -8.017e+3
T_ref: 293.15 T_ref: 293.15

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@ -4,29 +4,24 @@ references:
- J.A. Rayne and B.S. Chandrasekhar, - J.A. Rayne and B.S. Chandrasekhar,
Physical Review 120(5):1658-1663, 1960, Physical Review 120(5):1658-1663, 1960,
https://doi.org/10.1103/PhysRev.120.1658, https://doi.org/10.1103/PhysRev.120.1658,
fit to Fig. 2 (T_min=100K, T_max=300K) and Tab. IV (C_13, T_min=77K, T_max=300K) fit to Tab. IV (T_min=77K, T_max=300K)
C_11: 72.90e+9 C_11: 72.6e+9
C_11,T: -4.399e+7 C_11,T: -4.135e+7
C_11,T^2: -2.645e+4
C_12: 59.27e+9 C_12: 59.4e+9
C_12,T: 1.058e+7 C_12,T: 6.726e+6
C_12,T^2: 1.002e+4
C_13: 35.80e+9 C_44: 22.2e+9
C_44,T: -1.870e+7
C_33: 88.8e+9
C_33,T: -5.381e+7
C_13: 35.8e+9
C_13,T: -2.870e+6 C_13,T: -2.870e+6
C_33: 88.78e+9 C_66: 24.1e+9
C_33,T: -5.250e+7 C_66,T: -1.709e+7
C_33,T^2: 3.546e+3
C_44: 22.26e+9
C_44,T: -1.982e+7
C_44,T^2: -8.711e+3
C_66: 24.18e+9
C_66,T: -1.806e+7
C_66,T^2: -4.112e+3
T_ref: 293.15 T_ref: 293.15

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@ -0,0 +1,21 @@
type: Hooke
references:
- F.H. Featherston and J.R. Neighbours,
Physical Review 130(4):1324-1333, 1963,
https://doi.org/10.1103/PhysRev.130.1324,
fit to Tab. II (T_min=100K, T_max=300K)
C_11: 523.6e+9
C_11,T: -7.704e+7
C_11,T^2: -1.562e+5
C_12: 204.6e+9
C_12,T: -2.485e+7
C_12,T^2: -1.182e+5
C_44: 160.7e+9
C_44,T: -1.028e+7
C_44,T^2: 1.291e+4
T_ref: 293.15

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@ -4,30 +4,26 @@ references:
- E.S. Fisher and C.J. Renken, - E.S. Fisher and C.J. Renken,
Physical Review 135(2A):A482-A494, 1964, Physical Review 135(2A):A482-A494, 1964,
https://doi.org/10.1103/PhysRev.135.A482, https://doi.org/10.1103/PhysRev.135.A482,
fit to Tab. IV (T_min=150K, T_max=250K) fit to Tab. IV (T_min=77K, T_max=923K)
- H. Ogi et al.,
Acta Materialia 52(7):2075-2080, 2004,
https://doi.org/10.1016/j.actamat.2004.01.002,
fit to Fig. 3 (T_min=300K, T_max=900K)
C_11: 162.6e+9 C_11: 162.5e+9
C_11,T: -6.150e+7 C_11,T: -5.915e+7
C_11,T^2: -5.557e+2 C_11,T^2: 1.156e+4
C_33: 183.3e+9 C_12: 91.8e+9
C_33,T: -1.655e+07 C_12,T: 2.192e+7
C_33,T^2: -1.022e+04 C_12,T^2: -1.621e+4
C_44: 45.80e+9 C_44: 46.8e+9
C_44,T: -2.936e+07 C_44,T: -1.857e+7
C_44,T^2: 7.120e+02 C_44,T^2: -3.745e+3
C_12: 89.97e+9 C_33: 180.6e+9
C_12,T: 2.776e+6 C_33,T: -4.110e+7
C_12,T^2: -2.389e+4 C_33,T^2: 7.330e+3
C_13: 69.53e+9 C_13: 68.9e+9
C_13,T: 1.057e+7 C_13,T: 2.965e+6
C_13,T^2: -2.966e+3 C_13,T^2: -5.767e+3
T_ref: 293.15 T_ref: 293.15

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@ -1,20 +1,18 @@
type: Hooke type: Hooke
references: references:
- F.H. Featherston and J.R. Nieghbours, - F.H. Featherston and J.R. Neighbours,
Physical Review 130(4):1324-1333, Physical Review 130(4):1324-1333, 1963,
https://doi.org/10.1103/PhysRev.130.1324, https://doi.org/10.1103/PhysRev.130.1324,
fit to Tab. III (T_min=100K, T_max=300K) fit to Tab. III (T_min=100K, T_max=300K)
C_11: 523.6e+9 C_11: 524.3e+9
C_11,T: -7.607e+7 C_11,T: -4.794e+07
C_11,T^2: -1.551e+5
C_12: 205.1e+9 C_12: 205.1e+9
C_12,T: -2.843e+6 C_12,T: -2.836e+06
C_44: 160.8e+9 C_44: 160.7e+9
C_44,T: -1.057e+7 C_44,T: -1.269e+07
C_44,T^2: 9.933e+3
T_ref: 293.15 T_ref: 293.15

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@ -26,7 +26,7 @@ h_sl-sl: [0.009, 0.72, 0.009, 0.05, 0.05, 0.06, 0.09]
w: [2.992e-09] # 11b w: [2.992e-09] # 11b
# values in Cereceda et al. are high, using parameters from Gröger et al. # values in Cereceda et al. are high, using parameters from Gröger et al.
a_nonSchmid: [0.0, 0.56, 0.75] # Table 2 a_nonSchmid: [0.0, 0.56, 0.75] # Tab. 2
# (almost) no annhilation, adjustment needed for simulations beyond the yield point # (almost) no annhilation, adjustment needed for simulations beyond the yield point
i_sl: [1] # c, eq. (25) i_sl: [1] # c, eq. (25)

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@ -40,7 +40,7 @@ nu_a: 50.e+9
B: 1.e-2 B: 1.e-2
f_ed: 1.0 # k_3 f_ed: 1.0 # k_3
h_sl-sl: [0, 0, 0.625, 0.07, 0.137, 0.137, 0.122] # Table 3.4 h_sl-sl: [0, 0, 0.625, 0.07, 0.137, 0.137, 0.122] # Tab. 3.4
chi_GB: 0.0 # full blocking at GB chi_GB: 0.0 # full blocking at GB
chi_surface: 1.0 # no blocking at surface chi_surface: 1.0 # no blocking at surface

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@ -40,7 +40,7 @@ nu_a: 50.e+9
B: 1.e-3 B: 1.e-3
f_ed: 0.01 # k_3 f_ed: 0.01 # k_3
h_sl-sl: [0, 0, 0.625, 0.07, 0.137, 0.137, 0.122] # Table 3.4 h_sl-sl: [0, 0, 0.625, 0.07, 0.137, 0.137, 0.122] # Tab. 3.4
chi_GB: 0.0 # full blocking at GB chi_GB: 0.0 # full blocking at GB
chi_surface: 1.0 # no blocking at surface chi_surface: 1.0 # no blocking at surface

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@ -7,9 +7,11 @@ references:
output: [T] output: [T]
K_11: 2.380e+2 K_11: 2.374e+2
K_11,T: 2.068e-3 K_11,T: 8.952e-3
K_11,T^2: -7.765e-5 K_11,T^2: 2.650e-5
K_11,T^3: -5.687e-7
K_11,T^4: 6.407e-10
T_ref: 293.15 T_ref: 293.15

View File

@ -2,14 +2,16 @@ references:
- J.G. Hust and A.B. Lankford, - J.G. Hust and A.B. Lankford,
Thermal Conductivity of Aluminum, Copper, Iron, and Tungsten from 1K to the Melting Point, Thermal Conductivity of Aluminum, Copper, Iron, and Tungsten from 1K to the Melting Point,
US Department of Commerce, Boulder, Colorado, 1984, US Department of Commerce, Boulder, Colorado, 1984,
fit to Tab. 2.4.1 (RRR=1000, T_min=200K, T_max=1000K) fit to Tab. 2.4.1 (RRR=300, T_min=150K, T_max=1000K)
- https://www.mit.edu/~6.777/matprops/copper.htm - https://www.mit.edu/~6.777/matprops/copper.htm
output: [T] output: [T]
K_11: 4.039e+2 K_11: 4.005e+2
K_11,T: -8.119e-2 K_11,T: -1.075e-1
K_11,T^2: 1.454e-5 K_11,T^2: 3.293e-4
K_11,T^3: -7.533e-7
K_11,T^4: 5.223e-10
T_ref: 293.15 T_ref: 293.15

View File

@ -2,14 +2,15 @@ references:
- J.G. Hust and A.B. Lankford, - J.G. Hust and A.B. Lankford,
Thermal Conductivity of Aluminum, Copper, Iron, and Tungsten from 1K to the Melting Point, Thermal Conductivity of Aluminum, Copper, Iron, and Tungsten from 1K to the Melting Point,
US Department of Commerce, Boulder, Colorado, 1984, US Department of Commerce, Boulder, Colorado, 1984,
fit to Tab. 4.4.1 (RRR=300, T_min=200K, T_max=1000K) fit to Tab. 4.4.1 (RRR=300, T_min=150K, T_max=1000K)
- https://www.engineeringtoolbox.com/specific-heat-metals-d_152.html - https://www.engineeringtoolbox.com/specific-heat-metals-d_152.html
output: [T] output: [T]
K_11: 8.055e+1 K_11: 8.034e+1
K_11,T: -1.051e-1 K_11,T: -1.216e-1
K_11,T^2: 5.464e-5 K_11,T^2: 1.327e-4
K_11,T^3: -7.993e-8
T_ref: 293.15 T_ref: 293.15

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@ -2,14 +2,16 @@ references:
- Y.S. Touloukian et al., - Y.S. Touloukian et al.,
TPRC Data Series Volume 1. Thermal conductivity - metallic elements and alloys, TPRC Data Series Volume 1. Thermal conductivity - metallic elements and alloys,
IFI/Plenum, 1970, IFI/Plenum, 1970,
fit to Tab. 35R (T_min=150K, T_max=500K) fit to Tab. 35R (T_min=80K, T_max=500K)
- https://www.engineeringtoolbox.com/specific-heat-metals-d_152.html - https://www.engineeringtoolbox.com/specific-heat-metals-d_152.html
output: [T] output: [T]
K_11: 9.132e+1 K_11: 9.311e+1
K_11,T: -1.525e-1 K_11,T: -8.719e-2
K_11,T^2: 3.053e-4 K_11,T^2: -3.793e-4
K_11,T^3: -4.003e-6
K_11,T^4: 2.676e-8
T_ref: 293.15 T_ref: 293.15

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@ -2,18 +2,22 @@ references:
- Y.S. Touloukian et al., - Y.S. Touloukian et al.,
TPRC Data Series Volume 1. Thermal conductivity - metallic elements and alloys, TPRC Data Series Volume 1. Thermal conductivity - metallic elements and alloys,
IFI/Plenum, 1970, IFI/Plenum, 1970,
fit to Tab. 61R (T_min=100K, T_max=400K) fit to Tab. 61R (T_min=80K, T_max=500K)
- https://www.engineeringtoolbox.com/specific-heat-metals-d_152.html - https://www.engineeringtoolbox.com/specific-heat-metals-d_152.html
output: [T] output: [T]
K_11: 7.414e+1 K_11: 7.495e+1
K_11,T: -6.465e-2 K_11,T: -5.646e-2
K_11,T^2: 2.066e-4 K_11,T^2: 1.420e-5
K_11,T^3: -5.390e-7
K_11,T^4: 4.012e-9
K_33: 5.147e+1 K_33: 5.204e+1
K_33,T: -4.506e-2 K_33,T: -3.940e-2
K_33,T^2: 1.435e-4 K_33,T^2: 7.037e-6
K_33,T^3: -3.738e-7
K_33,T^4: 2.873e-9
T_ref: 293.15 T_ref: 293.15

View File

@ -2,14 +2,16 @@ references:
- J.G. Hust and A.B. Lankford, - J.G. Hust and A.B. Lankford,
Thermal Conductivity of Aluminum, Copper, Iron, and Tungsten from 1K to the Melting Point, Thermal Conductivity of Aluminum, Copper, Iron, and Tungsten from 1K to the Melting Point,
US Department of Commerce, Boulder, Colorado, 1984, US Department of Commerce, Boulder, Colorado, 1984,
fit to Tab. 5.4.1 (RRR=300, T_min=200K, T_max=1000K) fit to Tab. 5.4.1 (RRR=300, T_min=100K, T_max=2000K)
- https://www.mit.edu/~6.777/matprops/tungsten.htm - https://www.mit.edu/~6.777/matprops/tungsten.htm
output: [T] output: [T]
K_11: 1.758e+2 K_11: 1.750e+2
K_11,T: -1.605e-1 K_11,T: -1.809e-1
K_11,T^2: 1.160e-4 K_11,T^2: 2.257e-4
K_11,T^3: -1.395e-7
K_11,T^4: 3.192e-11
T_ref: 293.15 T_ref: 293.15

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@ -9,7 +9,7 @@ module constants
public public
real(pReal), parameter :: & real(pReal), parameter :: &
T_ROOM = 293.15_pReal, & !< Room temperature in K (20°C) T_ROOM = 293.15_pReal, & !< Room temperature (20°C) in K (https://en.wikipedia.org/wiki/ISO_1)
K_B = 1.380649e-23_pReal, & !< Boltzmann constant in J/Kelvin (https://doi.org/10.1351/goldbook) K_B = 1.380649e-23_pReal, & !< Boltzmann constant in J/Kelvin (https://doi.org/10.1351/goldbook)
N_A = 6.02214076e23_pReal !< Avogadro constant in 1/mol (https://doi.org/10.1351/goldbook) N_A = 6.02214076e23_pReal !< Avogadro constant in 1/mol (https://doi.org/10.1351/goldbook)

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@ -2331,13 +2331,13 @@ subroutine selfTest
call random_number(C) call random_number(C)
C = lattice_symmetrize_C66(C,'cI') C = lattice_symmetrize_C66(C,'cI')
if (dNeq(lattice_isotropic_mu(C,'isostrain','cI'), lattice_isotropic_mu(C,'isostrain','hP'), 1.0e-9_pReal)) & if (dNeq(lattice_isotropic_mu(C,'isostrain','cI'), lattice_isotropic_mu(C,'isostrain','hP'), 5.0e-9_pReal)) &
error stop 'isotropic_mu/isostrain/cI-hP' error stop 'isotropic_mu/isostrain/cI-hP'
if (dNeq(lattice_isotropic_nu(C,'isostrain','cF'), lattice_isotropic_nu(C,'isostrain','cI'), 1.0e-9_pReal)) & if (dNeq(lattice_isotropic_nu(C,'isostrain','cF'), lattice_isotropic_nu(C,'isostrain','cI'), 5.0e-9_pReal)) &
error stop 'isotropic_nu/isostrain/cF-tI' error stop 'isotropic_nu/isostrain/cF-tI'
if (dNeq(lattice_isotropic_mu(C,'isostress','cI'), lattice_isotropic_mu(C,'isostress'), 1.0e-9_pReal)) & if (dNeq(lattice_isotropic_mu(C,'isostress','cI'), lattice_isotropic_mu(C,'isostress'), 5.0e-9_pReal)) &
error stop 'isotropic_mu/isostress/cI-hP' error stop 'isotropic_mu/isostress/cI-hP'
if (dNeq(lattice_isotropic_nu(C,'isostress','cF'), lattice_isotropic_nu(C,'isostress'), 1.0e-9_pReal)) & if (dNeq(lattice_isotropic_nu(C,'isostress','cF'), lattice_isotropic_nu(C,'isostress'), 5.0e-9_pReal)) &
error stop 'isotropic_nu/isostress/cF-tI' error stop 'isotropic_nu/isostress/cF-tI'
end subroutine selfTest end subroutine selfTest