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NEW ANISOTROPIC STRAIN-RATE POTENTIAL FOR HEXAGONAL METALS
- Authors
- Cazacu, O.; Yoon, J-H.; Yoon, J-W.
- Issue Date
- Apr-2010
- Publisher
- SPRINGER FRANCE
- Keywords
- Anisotropic strain-rate potential; Tension-Compression asymmetry; Hexagonal closed packed metals; elasto-plastic stress integration algorithm
- Citation
- INTERNATIONAL JOURNAL OF MATERIAL FORMING, v.3, no.suppl 1, pp.227 - 230
- Indexed
- SCIE
SCOPUS
- Journal Title
- INTERNATIONAL JOURNAL OF MATERIAL FORMING
- Volume
- 3
- Number
- suppl 1
- Start Page
- 227
- End Page
- 230
- ISSN
- 1960-6206
- Abstract
- Theoretical description of plastic anisotropy requires the definition of either stress potentials or plastic strain-rate potentials. In general, strain-rate potentials are more suitable for process design. Existing strain-rate potentials (phenomenological or texture-based) are applicable only to the description of the plastic behavior of materials with cubic crystal structure. Very recently, Cazacu et al. [5] have developed an orthotropic strain-rate potential for hexagonal metals. This strain-rate potential is the exact work-conjugate of the anisotropic stress potential CPB06 of Cazacu et al. [6]. In this paper, a fully implicit time integration algorithm for this potential is developed and applied to the description of the anisotropy and tension-compression asymmetry of high-purity a-titanium. The simulation results confirm the improved capabilities of the model over existing strain-rate potentials and the robustness and accuracy of the integration algorithm.
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Related Researcher
- Yoon, Jong hun
- ERICA 공학대학 (DEPARTMENT OF MECHANICAL ENGINEERING)