Using the Johnson-Cook hardening model to define classical metal plasticity

From the menu bar in the Edit Material dialog box, select MechanicalPlasticityPlastic.

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

Click the arrow to the right of the Hardening field, and select Johnson-Cook.

Enter the following data in the Data table:

A, B, n, and m

Material parameters measured at or below the transition temperature.

Melting Temp

Melting temperature, ${\theta }_{\mathrm{melt}}$, above which the material is melted and behaves like a fluid.

Transition Temp

Transition temperature, ${\theta }_{\mathrm{transition}}$. There is no temperature dependence on the expression of the yield stress at or below the transition temperature.

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.

If desired, use the Suboptions menu to enter additional data. See the following sections for details:

• Defining rate-dependent yield with yield stress ratios”

• Specifying the annealing temperature of an elastic-plastic material”

Click OK to create the material and to close the Edit Material dialog box. Alternatively, you can select another material behavior to define from the menus in the Edit Material dialog box (see Browsing and modifying material behaviors, for more information).