Shear band insertion for capturing strain localization

The localization of shear strain into narrow bands is a common failure mechanism under dynamic loading, and we present an approach to capture this behavior in a numerical framework. The approach employs a mixture theory for embedding the band material, and thus avoids the daunting task of computatio...

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Bibliographic Details
Main Authors: Margraf, Jonathan, Barton, Nathan
Format: Conference Proceeding
Language:English
Subjects:
Copper
Dynamic loads
Edge dislocations
Equilibrium conditions
Failure mechanisms
Insertion
Iterative methods
Micrometers
Shear bands
Shear localization
Shear strain
Strain localization
Traction
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Summary:The localization of shear strain into narrow bands is a common failure mechanism under dynamic loading, and we present an approach to capture this behavior in a numerical framework. The approach employs a mixture theory for embedding the band material, and thus avoids the daunting task of computational discretization of the band's geometric features that are often on the scale of micrometers. An iterative solver for traction balance is used in the mixture theory, and this strategy for treating material interfaces has advantages across a wider class of problems. The traction balance methodology solves the appropriate compatibility and stress equilibrium conditions between the shear band and the bulk material within a given computational zone. The propensity for strain localization thus affects the macroscopic behavior of the zone without the need to fully discretize the shear band. For general loading scenarios, the code must be able to detect elements in which shear bands might form and the orientation of such bands. A novel shear band insertion approach has been developed for this task. Example applications of the traction balance methodology coupled with shear band insertion are shown.
ISSN:0094-243X
1551-7616
DOI:10.1063/12.0000889