Material_Library > 1dMaterials > InelSeries1dMat
InelSeries1dMat
Purpose
1d series model of several inelastic materials
Synopsis
MatResp = InelSeries1dMat (action,MatNo,MatData,MatState)
Description
INELSERIES1dMAT 1d series model of several inelastic materials MATRESP = INELSERIES1dMAT (ACTION,MAT_NO,MATDATA,MATSTATE) the function determines the current material state under total strain EPSI for a 1d series model of several inelastic materials ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ the character variable ACTION should have one of the following values ACTION = 'chec' function checks material property data for omissions and returns default values in MATDATA 'init' function returns the material history variables in MATSTATE 'forc' function returns the material stress (tensor) in MATSTATE 'stif' function returns the material tangent modulus and the stress (tensor) in MATSTATE 'post' function returns data structure MATPOST with post-processing information 'debu' function returns data structure MATSTATE with detailed processing information depending on the value of character variable ACTION the function returns information in data structure MATRESP for the material with number MAT_NO; data structure MATDATA supplies the material property data ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ data structure MATRESP stands for one of the following data objects depending on value of ACTION MATRESP = MATDATA for action = 'chec' MATRESP = MATSTATE for action = 'init' MATRESP = MATSTATE for action = 'stif' MATRESP = MATSTATE for action = 'forc' MATRESP = MATSTATE for action = 'debu' MATRESP = MATPOST for action = 'post' MATRESP is empty for unsupported keywords ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ MATSTATE is a data structure with information about the current material state in fields eps = total strain Deps = strain increments from last convergence DDeps = strain increments from last iteration epsdot = strain rate km = material stiffness matrix; returned under ACTION = 'stif' sig = stress; returned under ACTION = 'stif' or 'forc' Past = material history variables at last converged state Pres = current values of material history variables Past and Pres contain the following history variable(s): sig = material stress Ceps = vector of component strains .Mat{m} = history variables of material component m in fields Past and Pres ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ MATDATA is a data structure with material property information; it has the fields MaxIter = maximum number of iterations for material state determination Tol = tolerance for compatibility relation .CMatName{m} = function name for material component m .CMatData{m} = properties for material component m ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ MATPOST is a data structure with material response information for post-processing in fields eps = total strain sig = uniaxial stress Ceps = vector of component strains
Cross-Reference Information
This function calls: