Numerical simulation of the fractures of anisotropic materials characterized by the high degree of anisotropy of elongation at break

The failure criteria of anisotropic materials, the criteria being expressed via deformations, are rarely applied in practice, and are usually used for low-ductility materials. Another situation involves the simulation of failures in materials with the high anisotropy of mechanical properties and tha...

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Bibliographic Details
Main Authors: Kobenko, S V, Krivosheina, M N, Kozlova, M A, Tuch, E V, Yu, Konysheva I
Format: Conference Proceeding
Language:English
Subjects:
Anisotropy
Computer simulation
Criteria
Elastic anisotropy
Elastic properties
Elongation
Failure
Failure analysis
Impact loads
Longitudinal waves
Mechanical properties
Plastic deformation
Plastic properties
Strain
Tensors
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Summary:The failure criteria of anisotropic materials, the criteria being expressed via deformations, are rarely applied in practice, and are usually used for low-ductility materials. Another situation involves the simulation of failures in materials with the high anisotropy of mechanical properties and that suffer elastic-brittle fracture. For such materials the failure criteria are formulated using ultimate strains and strain tensor invariants. For simulating the fractures of materials that are characterized by the anisotropy of strength properties, the failure criteria are applied with the critical values of stresses and strains, as well as their intensities. Using the value of cumulative plastic strain as a failure criterion does reflect the anisotropy of elastic and plastic properties of a material, but it does not reflect that of the strength properties. The application of this method allows accounting the total plastic strain induced by tension and compression in the conditions of the wave strain of targets during their impact loading.
ISSN:0094-243X
1551-7616
DOI:10.1063/1.4898933