This option is used to define material constants for the Mullins effect in filled rubber elastomers or for modeling energy dissipation in elastomeric foams. It can be used only with the *HYPERELASTIC or the *HYPERFOAM options.
Products: Abaqus/Standard Abaqus/Explicit Abaqus/CAE
Type: Model data
Level: Model
Abaqus/CAE: Property module
“Hyperelastic behavior of rubberlike materials,” Section 22.5.1 of the Abaqus Analysis User's Guide
“Hyperelastic behavior in elastomeric foams,” Section 22.5.2 of the Abaqus Analysis User's Guide
“Mullins effect,” Section 22.6.1 of the Abaqus Analysis User's Guide
“Energy dissipation in elastomeric foams,” Section 22.6.2 of the Abaqus Analysis User's Guide
“UMULLINS,” Section 1.1.48 of the Abaqus User Subroutines Reference Guide
“VUMULLINS,” Section 1.2.23 of the Abaqus User Subroutines Reference Guide
Include this parameter if the material constants are to be computed by Abaqus from data taken from simple tests on a material specimen. If this parameter is omitted, the material constants can be given directly on the data lines or the damage variable can be defined through user subroutine UMULLINS in Abaqus/Standard or VUMULLINS in Abaqus/Explicit.
This parameter can be used only when the TEST DATA INPUT parameter is used; it defines the value of while the other coefficients of the Mullins effect model are fitted from the test data. It cannot be specified if both the R and M parameters are also specified (use the data line instead to specify all three parameters). If this parameter is omitted, will be determined from a nonlinear, least-squares fit of the test data. Allowable values of BETA are . The M and BETA parameters cannot both be zero.
Set this parameter equal to the number of field variables, in addition to temperature, on which the material parameters depend. If this parameter is omitted, it is assumed that the material parameters are constant or depend only on temperature. See “Specifying field variable dependence” in “Material data definition,” Section 21.1.2 of the Abaqus Analysis User's Guide, for more information.
This parameter is not relevant if the USER or the TEST DATA INPUT parameter is included.
This parameter can be used only when the TEST DATA INPUT parameter is used; it defines the value of m while the other coefficients of the Mullins effect model are fitted from the test data. It cannot be specified if both the R and BETA parameters are also specified (use the data line instead to specify all three parameters). If this parameter is omitted, m will be determined from a nonlinear, least-squares fit of the test data. Allowable values of M are . The M and BETA parameters cannot both be zero.
This parameter can be used only when the TEST DATA INPUT parameter is used; it defines the value of r while the other coefficients of the Mullins effect model are fitted from the test data. It cannot be specified if both the M and BETA parameters are also specified (use the data line instead to specify all three parameters). If this parameter is omitted, r will be determined from a nonlinear, least-squares fit of the test data. Allowable values of R are .
No data lines are used with this option when the TEST DATA INPUT parameter is specified. The data are given instead under the *BIAXIAL TEST DATA, *PLANAR TEST DATA, and *UNIAXIAL TEST DATA options. These options are applicable except for the case where the damage variable is defined by the user.
First line:
r.
m.
(If this entry is left blank, the default value is taken to be 0.0 in Abaqus/Standard and 0.1 in Abaqus/Explicit.)
Temperature.
First field variable.
Etc., up to four field variables.
Subsequent lines (only needed if the DEPENDENCIES parameter has a value greater than four):
Fifth field variable.
Etc., up to eight field variables per line.
Repeat this set of data lines as often as necessary to define the material constants as a function of temperature and other predefined field variables.
No data lines are needed if the PROPERTIES parameter is omitted or set to 0. Otherwise, first line:
Material properties, eight per line.
Repeat this data line as often as necessary to define the material properties.