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A density-dependent endochronic plasticity for powder compaction processes
Bakhshiani, A ; Sharif University of Technology | 2004
75
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- Type of Document: Article
- DOI: 10.1007/s00466-004-0553-5
- Publisher: Springer Verlag , 2004
- Abstract:
- This paper is concerned with the numerical modeling of powder cold compaction process using a density-dependent endochronic plasticity model. Endochronic plasticity theory is developed based on a large strain plasticity to describe the nonlinear behavior of powder material. The elastic response is stated in terms of hypoelastic model and endochronic plasticity constitutive equations are stated in unrotated frame of reference. A trivially incrementally objective integration scheme for rate constitutive equations is established. Algorithmic modulus consistent with numerical integration algorithm of constitutive equations is extracted. It is shown how the endochronic plasticity describes the behavior of powder material from the initial stage of compaction to final stage, in which material behaves as solid metals. It is also shown that some commonly used plasticity models for powder material can be derived as special cases of the proposed endochronic theory. Finally, the numerical schemes are examined for efficiency in the modeling of a plain bush, a rotational-flanged and a shaped tablet powder compaction component
- Keywords:
- Constitutive modeling ; Endochronic theory ; Hypoelastic model ; Large strain ; Plastic deformation ; Powder forming
- Source: Computational Mechanics ; Volume 34, Issue 1 , 2004 , Pages 53-66 ; 01787675 (ISSN)
- URL: https://link.springer.com/article/10.1007/s00466-004-0553-5