OGS
UniaxialElasticityModel.h
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1
12#pragma once
13
14#include "SimplifiedElasticityModel.h"
15
16namespace ProcessLib
17{
18namespace ThermoRichardsFlow
19{
20struct UniaxialElasticityModel : SimplifiedElasticityModel
21{
22 UniaxialElasticityModel()
23 {
24 DBUG("using uniaxial simplified mechanics model");
25 }
26
27 double storageContribution(
28 MaterialPropertyLib::Phase const& solid_phase,
29 MaterialPropertyLib::VariableArray const& variables,
30 ParameterLib::SpatialPosition const& x_position, double const t,
31 double const dt) override
32 {
33 auto const E = MaterialPropertyLib::formEigenVector<3>(
34 solid_phase[MaterialPropertyLib::PropertyType::youngs_modulus]
35 .value(variables, x_position, t, dt));
36 auto const nu = MaterialPropertyLib::formEigenVector<3>(
37 solid_phase[MaterialPropertyLib::PropertyType::poissons_ratio]
38 .value(variables, x_position, t, dt));
39 auto const nu12 = nu[0];
40 auto const nu23 = nu[1];
41 auto const nu13 = nu[2];
42 auto const nu21 = nu12 * E[1] / E[0];
43 auto const nu32 = nu23 * E[2] / E[1];
44 auto const nu31 = nu13 * E[2] / E[0];
45 auto const D = 1 - nu12 * nu21 - nu23 * nu32 - nu31 * nu13 -
46 2 * nu12 * nu23 * nu31;
47 return D / (E[2] * (1 - nu12 * nu21));
48 }
49
50 double thermalExpansivityContribution(
51 Eigen::Matrix<double, 3, 3> const&
52 solid_linear_thermal_expansion_coefficient,
53 MaterialPropertyLib::Phase const& solid_phase,
54 MaterialPropertyLib::VariableArray const& variables,
55 ParameterLib::SpatialPosition const& x_position, double const t,
56 double const dt) override
57 {
58 auto const E = MaterialPropertyLib::formEigenVector<3>(
59 solid_phase[MaterialPropertyLib::PropertyType::youngs_modulus]
60 .value(variables, x_position, t, dt));
61 auto const nu = MaterialPropertyLib::formEigenVector<3>(
62 solid_phase[MaterialPropertyLib::PropertyType::poissons_ratio]
63 .value(variables, x_position, t, dt));
64 auto const nu12 = nu[0];
65 auto const nu23 = nu[1];
66 auto const nu13 = nu[2];
67 auto const nu21 = nu12 * E[1] / E[0];
68 auto const D = (1 - nu12 * nu21);
69 return -(solid_linear_thermal_expansion_coefficient(2, 2) +
70 solid_linear_thermal_expansion_coefficient(0, 0) *
71 (nu13 + nu12 * nu23) / D +
72 solid_linear_thermal_expansion_coefficient(1, 1) *
73 (nu23 + nu13 * nu21) / D);
74 }
75};
76
77} // namespace ThermoRichardsFlow
78} // namespace ProcessLib
DBUG
void DBUG(fmt::format_string< Args... > fmt, Args &&... args)
Definition Logging.h:30
MaterialPropertyLib::formEigenVector< 3 >
template Eigen::Matrix< double, 3, 1 > formEigenVector< 3 >(MaterialPropertyLib::PropertyDataType const &values)
ProcessLib::ThermoRichardsFlow::UniaxialElasticityModel::storageContribution
double storageContribution(MaterialPropertyLib::Phase const &solid_phase, MaterialPropertyLib::VariableArray const &variables, ParameterLib::SpatialPosition const &x_position, double const t, double const dt) override
Definition UniaxialElasticityModel.h:27
ProcessLib::ThermoRichardsFlow::UniaxialElasticityModel::thermalExpansivityContribution
double thermalExpansivityContribution(Eigen::Matrix< double, 3, 3 > const &solid_linear_thermal_expansion_coefficient, MaterialPropertyLib::Phase const &solid_phase, MaterialPropertyLib::VariableArray const &variables, ParameterLib::SpatialPosition const &x_position, double const t, double const dt) override
Definition UniaxialElasticityModel.h:50