*TRS

Used to define temperature-time shift for time history viscoelastic analysis.

This option can be used in conjunction with the VISCOELASTIC option. In addition, in Abaqus/Explicit it can be used with the VISCOSITY option, and in Abaqus/Standard it can be used in conjunction with the *EXPANSION option to define the Tool-Narayanaswamy-Moynihan (TNM) model.

In an Abaqus/Standard analysis, either the nonlinear viscoelasticity must be defined by using the VISCOELASTIC, NONLINEAR option or viscoelasticity must be defined in the time domain by using the VISCOELASTIC, TIME option.

Related Topics
*EXPANSION
*VISCOELASTIC
*VISCOSITY
In Other Guides
Time domain viscoelasticity
Parallel rheological framework
Structural relaxation in glass
UTRS
UTRSNETWORK
VUTRS

ProductsAbaqus/StandardAbaqus/ExplicitAbaqus/CAE

TypeModel data

LevelModel

Abaqus/CAEProperty module

Optional parameters

DEFINITION

Set DEFINITION=WLF (default) to define the shift function by the Williams-Landel-Ferry approximation.

Set DEFINITION=ARRHENIUS to define the shift function by the Arrhenius approximation.

Set DEFINITION=USER to define the shift function in user subroutines. In Abaqus/Standard analyses define the shift function in user subroutine UTRS for the linear viscoelastic model (see Time domain viscoelasticity) or in user subroutine UTRSNETWORK for the nonlinear viscoelastic model defined using the parallel rheological framework (see Parallel rheological framework). In Abaqus/Explicit analyses define the shift function in user subroutine VUTRS for the linear viscoelastic model.

Set DEFINITION=TNM to define the shift and response functions for the Tool-Narayanaswamy-Moynihan model.

PROPERTIES

This parameter applies only to Abaqus/Explicit analyses and to Abaqus/Standard analyses if user subroutine UTRSNETWORK is used to define the shift function.

Set this parameter equal to the number of properties being entered. The properties are available for use in user subroutines VUTRS or UTRSNETWORK.

Data line to define the shift function by the Williams-Landel-Ferry approximation

First (and only) line

  1. Reference temperature, θ0.

  2. Calibration constant, C1.

  3. Calibration constant, C2.

Data line to define the shift function by the Arrhenius approximation

First (and only) line

  1. Reference temperature, θ0.

  2. Activation energy, E0.

In addition, you need to specify the universal gas constant and absolute zero using the PHYSICAL CONSTANTS option.

Data lines to define material properties for a user-defined shift function (DEFINITION=USER)

No data lines are needed if the PROPERTIES parameter is omitted or set to 0. Otherwise, first line

  1. Enter the material properties, eight per line.

Repeat this data line as often as necessary to define all material properties.

Data lines to define the shift and response functions for the TNM model

First line
  1. Reference temperature, θR.
  2. Activation energy, E0.
  3. Material parameter, χ.
  4. Initial fictive temperature, θfict0.
  5. Number of terms in the response function.
Second line
  1. Coefficient, C1, in the first term of the response function.
  2. Relaxation time, τ1, in the first term of the response function.

In addition, you need to specify the universal gas constant and absolute zero using the PHYSICAL CONSTANTS option.

Repeat this data line as often as necessary to define the second, third, etc. terms of the response function. There is no restriction on the number of terms in the response function.