Modeling the mechanical behavior of tantalum

Modeling the mechanical behavior of tantalum

A crystal plasticity model is proposed to simulate the large plastic deformation and texture evolution in tantalum over a wide range of strain rates. In the model, a modification of the viscoplastic power law for slip and a Taylor interaction law for polycrystals are employed, which account for the...

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Veröffentlicht in:Metallurgical and Materials Transactions. A, Physical Metallurgy and Materials Science Physical Metallurgy and Materials Science, 1997, Vol.28 (1), p.113-122
Hauptverfasser: LEE, B.-J, VECCHIO, K. S, AHZI, S, SCHOENFELD, S
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Condensed matter: structure, mechanical and thermal properties
Deformation and plasticity (including yield, ductility, and superplasticity)
Exact sciences and technology
MATERIALS SCIENCE
MATHEMATICAL MODELS
Mechanical and acoustical properties of condensed matter
MECHANICAL PROPERTIES
Mechanical properties of solids
Metals. Metallurgy
Physics
PLASTICITY
SIMULATION
SLIP
STRAIN HARDENING
STRAIN RATE
STRAINS
STRESSES
TANTALUM
TEMPERATURE DEPENDENCE
TEXTURE
VERIFICATION
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Zusammenfassung:A crystal plasticity model is proposed to simulate the large plastic deformation and texture evolution in tantalum over a wide range of strain rates. In the model, a modification of the viscoplastic power law for slip and a Taylor interaction law for polycrystals are employed, which account for the effects of strain hardening, strain-rate hardening, and thermal softening. A series of uniaxial compression tests in tantalum at strain rates ranging from 10 exp -3 to 10 exp 4 s exp -1 were conducted and used to verify the model's simulated stress-strain response. Initial and evolved deformation textures were also measured for comparison with predicted textures from the model. Applications of this crystal plasticity model are made to examine the effect of different initial crystallographic textures in Ta subjected to uniaxial compression deformation or biaxial tensile deformation.
ISSN:1073-5623
1543-1940
DOI:10.1007/s11661-997-0087-5