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Analysis of shear localization in porous materials based on a lower bound approach

✍ Scribed by Y. Sun; D. Wang

Publisher
Springer Netherlands
Year
1995
Tongue
English
Weight
575 KB
Volume
71
Category
Article
ISSN
1573-2673

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✦ Synopsis

The conditions for shear localization in porous materials are examined based on the lower bound approach proposed by the present authors. The influence of void nucleation and material inhomogeneity on the critical strain to localization is investigated and an improved plastic strain controlled nucleation criterion is proposed which makes it possible to include the influence of hydrostatic stress and avoid the ambiguity caused by the non-normality flow rule. The constitutive behavior of porous materials (including the yield loci, the void growth rate and the stress-strain curve) is also examined and comparison is made between the theoretical result and the experiment. Finally the instability and fracture of sintered CP Ti alloy and AISI4340 steels is analyzed and results are compared with the experiment.

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