Difference between revisions of "JWLPlusPlus Material"

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== History Variables ==
== History Variables ==


None
This material tracks two history variables:
 
# J or the volumetric strain (''i.e.'', the determinant of the deformation gradient).
# Fraction reacted. The fracture reacted is zero for particle ahead of the detonation wave front, one behind in, and transitions for zero to one across the detonation wave front defined by the <tt>Dw</tt> material property.


== Examples ==
== Examples ==


The following commands are for water for scripted or <tt>XML</tt> input files
The following commands are for water for scripted or <tt>XML</tt> input files

Revision as of 14:20, 12 May 2020

Constitutive Law

This MPM material is a programmed-burn model for simulating certain detonation scenarios.


Material Properties

The properties for a Tait liquid are:

Property Description Units Default
time0 Detonation start time time units 0
StartX Detonation starting x position length units 0
StartY Detonation starting y position length units 0
StartZ Detonation starting z position length units 0
NormX Planar wave normal in x direction length units 0
NormY Planar wave normal in y direction length units 0
NormZ Planar wave normal in z direction length units 0
Dv Detonation velocity alt velocity units none
Dw Detonation front width. The extent of reaction of these particle goes from 0 to 1 over a length equal to this width. The time for a given partile to burn once it starts is thus Dw/Dv. length units none
DeleteDist Particle deletion distance. If a particle is greater than this distance from the starting location (for spherical wave) or starting plane (for planar wave), the particle is deleted from the simulation. length units none
nm none none
Ajwl pressure units none
Bjwl pressure units none
Cjwl pressure units none
R1 none none
R2 none none
Omega none none

History Variables

This material tracks two history variables:

  1. J or the volumetric strain (i.e., the determinant of the deformation gradient).
  2. Fraction reacted. The fracture reacted is zero for particle ahead of the detonation wave front, one behind in, and transitions for zero to one across the detonation wave front defined by the Dw material property.

Examples

The following commands are for water for scripted or XML input files