Shear damage

The Shear damage initiation criterion is a model for predicting the onset of damage due to shear band localization. The model assumes that the equivalent plastic strain at the onset of damage is a function of the shear stress ratio and strain rate. The shear criterion can be used in conjunction with the Mises, Johnson-Cook, Hill, and Drucker-Prager plasticity models, including equation of state.

Context:

For more information, see Damage initiation for ductile metals.

  1. From the menu bar in the Edit Material dialog box, select MechanicalDamage for Ductile MetalsShear Damage.

    (For information on displaying the Edit Material dialog box, see Creating or editing a material.)

  2. Enter the material parameter, ks.

  3. To define material damage data that depend on temperature, toggle on Use temperature-dependent data.

    A column labeled Temp appears in the Data table.

  4. To define behavior data that depend on field variables, click the arrows to the right of the Number of field variables field to increase or decrease the number of field variables.

    Field variable columns appear in the Data table.

  5. Enter damage parameters in the Data table:

    Fracture Strain

    Equivalent fracture strain at damage initiation.

    Shear Stress Ratio

    The shear stress ratio is defined as θs=(q+ksp)/τmax , where q is the Mises equivalent stress, p is the pressure stress, and τmax is the maximum shear stress.

    Strain Rate

    The equivalent plastic strain rate, ε¯˙pl.

    Temp

    Temperature, θ.

    Field n

    Predefined field variables.

    You may need to expand the dialog box to see all the columns in the Data table. For detailed information on how to enter data, see Entering tabular data.

  6. Select SuboptionsDamage Evolution to define the material degradation that takes place once damage begins.

    For more information, see Damage evolution.”

  7. Click OK to exit the material editor.