This option is used to generalize a material's elastic response to include viscoelasticity. The viscoelasticity can be defined as a function of frequency for steady-state small-vibration analyses or as a function of reduced time for time-dependent analyses.
Products: ABAQUS/Standard ABAQUS/Explicit
Type: Model data
Level: Model
This parameter applies only to ABAQUS/Standard analyses.
Use this parameter to choose the frequency domain definition. In this case the material's long-term elasticity must be defined using the *ELASTIC or the *HYPERELASTIC option.
Set FREQUENCY=CREEP TEST DATA to define the frequency domain response using a Prony series representation of the relaxation moduli, if the Prony series parameters are to be computed from shear and volumetric creep test data.
Set FREQUENCY=FORMULA to define the dissipative material parameters by the power law formulæ.
Set FREQUENCY=PRONY to define the frequency domain response using a Prony series representation of the relaxation moduli by specifying the Prony series parameters.
Set FREQUENCY=RELAXATION TEST DATA to define the frequency domain response using a Prony series representation of the relaxation moduli, if the Prony series parameters are to be computed from shear and volumetric relaxation test data.
Set FREQUENCY=TABULAR to provide tabular definition of the frequency domain response.
Use this parameter to choose the time domain definition. In this case the material's elasticity must be defined using the *ELASTIC, the *HYPERELASTIC, or the *HYPERFOAM option.
Set TIME=CREEP TEST DATA if the Prony series parameters are to be computed by ABAQUS from data taken from shear and volumetric creep tests.
Set TIME=FREQUENCY DATA if the Prony series parameters are to be computed by ABAQUS from frequency-dependent cyclic test data.
Set TIME=PRONY to define a linear, isotropic, viscoelastic material by giving the parameters of the Prony series representation of the relaxation moduli.
Set TIME=RELAXATION TEST DATA if the Prony series parameters are to be computed by ABAQUS from data taken from shear and volumetric relaxation tests.
This parameter applies only to ABAQUS/Standard analyses.
This parameter can be used only in conjunction with FREQUENCY=TABULAR to specify the nature of preload used for defining frequency-domain viscoelastic material properties or effective thickness-direction gasket properties.
Set PRELOAD=UNIAXIAL to specify that the frequency-domain viscoelastic material properties correspond to a uniaxial test.
Set PRELOAD=VOLUMETRIC to specify that the frequency-domain viscoelastic material properties correspond to a volumetric test. This setting is not meaningful when used with gasket elements to define effective thickness-direction properties.
Use this parameter to define whether the *VISCOELASTIC option is being used to define continuum material properties or effective thickness-direction gasket properties.
Set TYPE=ISOTROPIC (default, and only option for ABAQUS/Explicit) to define continuum material properties. This choice is appropriate when the viscoelasic material model is used for any continuum, structural, or special-purpose elements whose material response is modeled using continuum material properties (examples of such special-purpose elements include modeling cohesive elements with a continuum response—see Modeling of an adhesive layer of finite thickness” in “Defining the constitutive response of cohesive elements using a continuum approach, Section 26.5.5 of the ABAQUS Analysis User's Manual, or gasket elements with a material response—see Defining the gasket behavior using a material model, Section 26.6.5 of the ABAQUS Analysis User's Manual).
Set TYPE=TRACTION to define effective thickness-direction gasket properties. This option is supported only for gasket elements whose behavior is modeled directly using a gasket behavior model (Defining the gasket behavior directly using a gasket behavior model, Section 26.6.6 of the ABAQUS Analysis User's Manual).
Set this parameter equal to the allowable average root-mean-square error of the data points in the least-squares fit. The default is 0.01 (1%).
Set this parameter equal to the maximum number of terms N in the Prony series. ABAQUS will perform the least-squares fit from to NMAX until convergence is achieved for the lowest N with respect to ERRTOL. The default and maximum value is 13.
First (and only) line:
Real part of .
Imaginary part of .
Value of a.
Real part of . If the material is incompressible, this value is ignored.
Imaginary part of . If the material is incompressible, this value is ignored.
Value of b. If the material is incompressible, this value is ignored.
First line:
Real part of .
Imaginary part of .
Real part of . If the material is incompressible, this value is ignored.
Imaginary part of . If the material is incompressible, this value is ignored.
Frequency, f, in cycles per time.
Repeat this data line as often as necessary to define the dissipative part of the material behavior.
First line:
Uniaxial loss modulus.
Uniaxial storage modulus.
Frequency, f, in cycles per time.
Uniaxial nominal strain (defines the level of uniaxial preload).
Repeat this data line as often as necessary to define the uniaxial loss and storage moduli as functions of frequency and preload.
First line:
Bulk loss modulus.
Bulk storage modulus.
Frequency, f, in cycles per time.
Volume ratio, J (current volume/original volume; defines the level of volumetric preload).
Repeat this data line as often as necessary to define the bulk loss and storage moduli as functions of frequency and preload.
First line:
, the modulus ratio in the first term in the Prony series expansion of the shear relaxation modulus.
, the modulus ratio in the first term in the Prony series expansion of the bulk relaxation modulus.
, the relaxation time for the first term in the Prony series expansion.
Repeat this data line as often as necessary to define the second, third, etc. terms in the Prony series. There is no restriction on the number of terms in the Prony series.
No data lines are used with this option when either TIME=CREEP TEST DATA or TIME=RELAXATION TEST DATA is specified. The test data are given by the *SHEAR TEST DATA and the *VOLUMETRIC TEST DATA options or by the *COMBINED TEST DATA option.
First line:
Effective thickness-direction loss modulus.
Effective thickness-direction storage modulus.
Frequency, f, in cycles per time.
Closure (defines the level of preload).
Repeat this data line as often as necessary to define the effective thickness-direction gasket loss and storage moduli as functions of frequency and preload.
First line:
Real part of . , where represents the complex effective thickness direction dynamic stiffness.
Imaginary part of . , where represents the complex effective thickness direction dynamic stiffness.
Frequency, f, in cycles per time.
Repeat this data line as often as necessary to define the normalized effective thickness-direction gasket loss and storage moduli as functions of frequency.