Difference between revisions of "Hardening Laws"

From OSUPDOCS
Jump to navigation Jump to search
 
(One intermediate revision by the same user not shown)
Line 6: Line 6:
  Material ID,name,type
  Material ID,name,type
       .
       .
     plasticLaw (Law_Name or number)
     Hardening (Law_Name or number)
     Law_Property (value)
     Law_Property (value)
       .
       .
Line 16: Line 16:
  <Material Type='#' Name='name'>
  <Material Type='#' Name='name'>
         .
         .
       <plasticLaw>(Law_Name or number)</plasticLaw>
       <Hardening>(Law_Name or number)</Hardening>
       <Law_property>(value)</Law_property>
       <Law_property>(value)</Law_property>
         .
         .
Line 23: Line 23:
In both these options:
In both these options:


* <tt>plasticLaw</tt> is the name or number of the desired hardening law (see table of [[#Available Hardening Laws|available hardening laws]]).
* <tt>(Law_Name or number)</tt> is the name or number of the desired hardening law (see table of [[#Available Hardening Laws|available hardening laws]]).
* <tt>Law_Property</tt> - after selecting the hardening law, set all required properties for that law. Refer to each [[#Available Hardening Laws|hardening law]] for the names and descriptions of properties that can be set. The <tt>(value)</tt> is the value for that property.
* <tt>Law_Property</tt> - after selecting the hardening law, set all required properties for that law. Refer to each [[#Available Hardening Laws|hardening law]] for the names and descriptions of properties that can be set. Replace the command name <tt>Law_Property</tt> with the property name and set <tt>(value)</tt> is the value for that property.


== Available Hardening Laws ==
== Available Hardening Laws ==
Line 45: Line 45:
|-
|-
| [[Steinberg-Lund Hardening|SL]] || align="center"| 5 || Steinberg-Lund hardening law
| [[Steinberg-Lund Hardening|SL]] || align="center"| 5 || Steinberg-Lund hardening law
|-
| [[Dislocation Density Based Hardening|DDB-PPM]] || align="center"| 7 || A dislocation density based polycrystal plasticity model
|}
|}

Latest revision as of 08:28, 19 April 2017

Plasticity materials implement their yield behavior by combining them with hardening laws. The material definition sets the equation of state properties for the material and the selected hardening law determines the yield criterion.

Selecting a Hardening Law

Hardening laws are assigned to materials within their material definition. In scripted files, a hardening law is added within a material command block as follows:

Material ID,name,type
      .
   Hardening (Law_Name or number)
   Law_Property (value)
      .
      .
Done

Selecting a hardening law in an XML input file has the form:

<Material Type='#' Name='name'>
        .
     <Hardening>(Law_Name or number)</Hardening>
     <Law_property>(value)</Law_property>
        .
</Material>

In both these options:

  • (Law_Name or number) is the name or number of the desired hardening law (see table of available hardening laws).
  • Law_Property - after selecting the hardening law, set all required properties for that law. Refer to each hardening law for the names and descriptions of properties that can be set. Replace the command name Law_Property with the property name and set (value) is the value for that property.

Available Hardening Laws

Materials that allow hardening laws can pick them from the following table. Unless otherwise stated, any such material can use any hardening law. By mixing and matching materials and hardening laws you have options for many types of materials. A single material definition, however, can only use one hardening law.

Name Number Description
Linear 1 Linear hardening (which includes elastic-plastic as a special case)
Nonlinear 2 Nonlinear hardening law
Nonlinear2 6 An alternate nonlinear hardening law
JohnsonCook 3 Johnson Cook hardening law
SCGL 4 Steinberg-Cochran-Guinan hardening law
SL 5 Steinberg-Lund hardening law
DDB-PPM 7 A dislocation density based polycrystal plasticity model