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Generalized cavitation criterion for poro-hyperelastic materials
A cavitation criterion defines a failure surface in three-dimensional stress space, which represents the onset of excessive void growth and therefore the strong degradation of the bulk modulus considering rubber-like materials [2, 3]. The damaging effect of cavitation was analyzed experimentally by Busse [1], Yerzley [9] and later Gent & Lindley [5]. In the pioneering work of Gent & Lindley [5], two flat cylinders vulcanized with thin sheets of natural rubber were tested in axial tension.
Generalized cavitation criterion for poro-hyperelastic materials
A cavitation criterion defines a failure surface in three-dimensional stress space, which represents the onset of excessive void growth and therefore the strong degradation of the bulk modulus considering rubber-like materials [2, 3]. The damaging effect of cavitation was analyzed experimentally by Busse [1], Yerzley [9] and later Gent & Lindley [5]. In the pioneering work of Gent & Lindley [5], two flat cylinders vulcanized with thin sheets of natural rubber were tested in axial tension.
Generalized cavitation criterion for poro-hyperelastic materials
Schneider, Jens (editor) / Kiziltoprak, Nihat (editor) / Drass, M. (author) / Kolupaev, V. A. (author) / Rosendahl, P. L. (author) / Schneider, J. (author) / Becker, W. (author)
Forschungskolloquium 2018 Grasellenbach ; Chapter: 6 ; 20-23
2018-09-07
4 pages
Article/Chapter (Book)
Electronic Resource
German
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