- Traction-separation cohesive behavior
-
The traction-separation cohesive behavior approach is described in detail in
Modeling moving cracks with the cohesive segments method and phantom nodes.
You can specify the material properties that define the evolution of damage
leading to eventual failure. You apply the material to the section that is
assigned to the crack domain. You can choose to associate a normal behavior
contact interaction property with the XFEM
crack that defines the contact of cracked element surfaces. For detailed
information, see
Specifying a contact interaction property for XFEM.
To assist convergence as the material fails, you can introduce localized
damping using the viscous regularization technique. For more information, see
Damage stabilization.
- Linear elastic
fracture mechanics (LEFM)
-
The linear elastic fracture mechanics
(LEFM) approach uses the modified Virtual
Crack Closure Technique (VCCT) to calculate the strain energy release rate at
the crack tip. The approach is more appropriate for brittle fracture problems
and is described in detail in
Modeling moving cracks based on the principles of linear elastic fracture mechanics (LEFM) and phantom nodes.
To use this approach, you must create a fracture criterion contact interaction
property, as described in
Specifying fracture criterion properties for crack propagation.
If you specify localized damping in the contact interaction property,
Abaqus
will use the viscous regularization technique to assist convergence as the
material fails. For more information, see
Specifying fracture criterion properties for crack propagation.
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