KratosMultiphysics
KRATOS Multiphysics (Kratos) is a framework for building parallel, multi-disciplinary simulation software, aiming at modularity, extensibility, and high performance. Kratos is written in C++, and counts with an extensive Python interface.
Public Member Functions | Public Attributes | List of all members
models_solver.MaterialsSolver Class Reference
Inheritance diagram for models_solver.MaterialsSolver:
Collaboration diagram for models_solver.MaterialsSolver:

Public Member Functions

def __init__ (self, model_part, custom_settings)
 
def GetEndTime (self)
 
def Initialize (self)
 
def InitializeSolutionStep (self)
 Solve loop methods ####. More...
 
def Solve (self)
 
def FinalizeSolutionStep (self)
 
def Finalize (self)
 
def initialize_calculation_variables (self)
 

Public Attributes

 settings
 
 integration_settings
 
 strain_settings
 
 model_part
 
 properties
 
 material_law
 
 process_info
 
 parameters
 
 PK2
 
 Kirchhoff
 
 Cauchy
 
 print_output
 
 echo_level
 
 options
 
 N
 
 DN_DX
 
 stress_vector
 
 strain_vector
 
 constitutive_matrix
 
 dimension
 
 nodes
 
 number_of_nodes
 
 geometry
 
 F
 
 detF
 
 file
 

Constructor & Destructor Documentation

◆ __init__()

def models_solver.MaterialsSolver.__init__ (   self,
  model_part,
  custom_settings 
)

Member Function Documentation

◆ Finalize()

def models_solver.MaterialsSolver.Finalize (   self)

◆ FinalizeSolutionStep()

def models_solver.MaterialsSolver.FinalizeSolutionStep (   self)

◆ GetEndTime()

def models_solver.MaterialsSolver.GetEndTime (   self)

◆ Initialize()

def models_solver.MaterialsSolver.Initialize (   self)

◆ initialize_calculation_variables()

def models_solver.MaterialsSolver.initialize_calculation_variables (   self)

◆ InitializeSolutionStep()

def models_solver.MaterialsSolver.InitializeSolutionStep (   self)

Solve loop methods ####.

◆ Solve()

def models_solver.MaterialsSolver.Solve (   self)

Member Data Documentation

◆ Cauchy

models_solver.MaterialsSolver.Cauchy

◆ constitutive_matrix

models_solver.MaterialsSolver.constitutive_matrix

◆ detF

models_solver.MaterialsSolver.detF

◆ dimension

models_solver.MaterialsSolver.dimension

◆ DN_DX

models_solver.MaterialsSolver.DN_DX

◆ echo_level

models_solver.MaterialsSolver.echo_level

◆ F

models_solver.MaterialsSolver.F

◆ file

models_solver.MaterialsSolver.file

◆ geometry

models_solver.MaterialsSolver.geometry

◆ integration_settings

models_solver.MaterialsSolver.integration_settings

◆ Kirchhoff

models_solver.MaterialsSolver.Kirchhoff

◆ material_law

models_solver.MaterialsSolver.material_law

◆ model_part

models_solver.MaterialsSolver.model_part

◆ N

models_solver.MaterialsSolver.N

◆ nodes

models_solver.MaterialsSolver.nodes

◆ number_of_nodes

models_solver.MaterialsSolver.number_of_nodes

◆ options

models_solver.MaterialsSolver.options

◆ parameters

models_solver.MaterialsSolver.parameters

◆ PK2

models_solver.MaterialsSolver.PK2

◆ print_output

models_solver.MaterialsSolver.print_output

◆ process_info

models_solver.MaterialsSolver.process_info

◆ properties

models_solver.MaterialsSolver.properties

◆ settings

models_solver.MaterialsSolver.settings

◆ strain_settings

models_solver.MaterialsSolver.strain_settings

◆ strain_vector

models_solver.MaterialsSolver.strain_vector

◆ stress_vector

models_solver.MaterialsSolver.stress_vector

The documentation for this class was generated from the following file: