da/dbe/_nonlinear_k4_8h_source.html

/*******************************************************************************

 * Copyright (C) 2017-2025 Theodore Chang

 *

 * This program is free software: you can redistribute it and/or modify

 * it under the terms of the GNU General Public License as published by

 * the Free Software Foundation, either version 3 of the License, or

 * (at your option) any later version.

 *

 * This program is distributed in the hope that it will be useful,

 * but WITHOUT ANY WARRANTY; without even the implied warranty of

 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the

 * GNU General Public License for more details.

 *

 * You should have received a copy of the GNU General Public License

 * along with this program.  If not, see <http://www.gnu.org/licenses/>.

 ******************************************************************************/

#ifndef NONLINEARK4_H

#define NONLINEARK4_H


#include <Material/Material1D/Material1D.h>


struct DataNonlinearK4 {

    const double elastic_modulus, hardening_k;

};


class NonlinearK4 : protected DataNonlinearK4, public Material1D {

    static constexpr unsigned max_iteration = 20u;


    const bool apply_damage, apply_crack_closing, objective_damage;


    [[nodiscard]] virtual pod2 compute_tension_backbone(double) const = 0;

    [[nodiscard]] virtual pod2 compute_compression_backbone(double) const = 0;


    [[nodiscard]] virtual pod2 compute_tension_damage(double) const = 0;

    [[nodiscard]] virtual pod2 compute_compression_damage(double) const = 0;


    int compute_plasticity();


    void compute_crack_close_branch();


protected:

    [[nodiscard]] double objective_scale(double, double) const;


public:

    NonlinearK4(

        unsigned, // tag

        double,   // elastic modulus

        double,   // hardening parameter

        double,   // density

        bool,     // apply damage

        bool,     // apply crack closing

        bool      // objective damage

    );


    int initialize(const shared_ptr<DomainBase>&) override;


    [[nodiscard]] double get_parameter(ParameterType) const override;


    int update_trial_status(const vec&) override;


    int clear_status() override;

    int commit_status() override;

    int reset_status() override;


    void print() override;

};


struct DataConcreteK4 {

    const double hardening_t, hardening_d;

    const double f_t, f_c, k_peak, f_y;

    const double zeta_t, zeta_c;

    const double hardening_c = (f_c - f_y) / k_peak;

};


class ConcreteK4 final : protected DataConcreteK4, public NonlinearK4 {

    [[nodiscard]] pod2 compute_tension_backbone(double) const override;

    [[nodiscard]] pod2 compute_compression_backbone(double) const override;


    [[nodiscard]] pod2 compute_tension_damage(double) const override;

    [[nodiscard]] pod2 compute_compression_damage(double) const override;


public:

    ConcreteK4(

        unsigned,    // tag

        double,      // elastic modulus

        double,      // hardening parameter

        vec&&,       // parameters

        double = 0., // density

        bool = true, // apply damage

        bool = true, // apply crack closing

        bool = false // objective damage

    );


    unique_ptr<Material> get_copy() override;

};


#endif


Material1D.h

ParameterType
ParameterType
Definition ParameterType.h:21

ConcreteK4
Definition NonlinearK4.h:87

ConcreteK4::get_copy
unique_ptr< Material > get_copy() override
Definition NonlinearK4.cpp:212

Material1D
A Material1D class.
Definition Material1D.h:34

NonlinearK4
A ConcreteK4 material class.
Definition NonlinearK4.h:38

NonlinearK4::print
void print() override
Definition NonlinearK4.cpp:179

NonlinearK4::update_trial_status
int update_trial_status(const vec &) override
Definition NonlinearK4.cpp:136

NonlinearK4::reset_status
int reset_status() override
Definition NonlinearK4.cpp:171

NonlinearK4::commit_status
int commit_status() override
Definition NonlinearK4.cpp:163

NonlinearK4::get_parameter
double get_parameter(ParameterType) const override
Definition NonlinearK4.cpp:131

NonlinearK4::objective_scale
double objective_scale(double, double) const
Definition NonlinearK4.cpp:109

NonlinearK4::initialize
int initialize(const shared_ptr< DomainBase > &) override
Definition NonlinearK4.cpp:123

NonlinearK4::clear_status
int clear_status() override
Definition NonlinearK4.cpp:155

pod2
std::array< double, 2 > pod2
Definition Material.h:36

DataConcreteK4
Definition NonlinearK4.h:80

DataConcreteK4::k_peak
const double k_peak
Definition NonlinearK4.h:82

DataConcreteK4::hardening_c
const double hardening_c
Definition NonlinearK4.h:84

DataConcreteK4::f_c
const double f_c
Definition NonlinearK4.h:82

DataConcreteK4::f_t
const double f_t
Definition NonlinearK4.h:82

DataConcreteK4::zeta_t
const double zeta_t
Definition NonlinearK4.h:83

DataConcreteK4::zeta_c
const double zeta_c
Definition NonlinearK4.h:83

DataConcreteK4::hardening_d
const double hardening_d
Definition NonlinearK4.h:81

DataConcreteK4::hardening_t
const double hardening_t
Definition NonlinearK4.h:81

DataConcreteK4::f_y
const double f_y
Definition NonlinearK4.h:82

DataNonlinearK4
Definition NonlinearK4.h:34

DataNonlinearK4::hardening_k
const double hardening_k
Definition NonlinearK4.h:35

DataNonlinearK4::elastic_modulus
const double elastic_modulus
Definition NonlinearK4.h:35