Temperature dependence of the yield stress in α-titanium investigated with crystal plasticity analysis

Yelm Okuyama; Masaki Tanaka; Tetsuya Ohashi; Tatsuya Morikawa

doi:10.4028/www.scientific.net/MSF.941.1474

Temperature dependence of the yield stress in α-titanium investigated with crystal plasticity analysis

Yelm Okuyama, Masaki Tanaka, Tetsuya Ohashi, Tatsuya Morikawa

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

1 Citation (Scopus)

Abstract

The effect of the activated slip systems on the temperature dependence of yield stress was investigated in α-Ti by using crystal plasticity finite element method. A model for finite element analysis (FEA) was constructed based on experimental results. The displacement in FEA was applied up to the nominal strain of 4% which is the same strain as the experimental one. Stress-strain curves were obtained, which corresponds to experimental data taken every 50 K between 73 K and 673 K. The used material constants which are temperature dependent were elastic constants, and lattice friction stresses. The lattice friction stresses of basal slip systems were set to be higher than that of pyramidal slip systems at 73 K. Then, the lattice friction stresses were set to be closer as the temperature increases. It was found that the activation of slip systems is strong temperature dependent, and that the yield stress depends on the number of active slip systems.

Original language	English
Title of host publication	THERMEC 2018
Editors	R. Shabadi, Mihail Ionescu, M. Jeandin, C. Richard, Tara Chandra
Publisher	Trans Tech Publications Ltd
Pages	1474-1478
Number of pages	5
ISBN (Print)	9783035712087
DOIs	https://doi.org/10.4028/www.scientific.net/MSF.941.1474
Publication status	Published - 2018
Event	10th International Conference on Processing and Manufacturing of Advanced Materials, 2018 - Paris, France Duration: Jul 9 2018 → Jul 13 2018

Publication series

Name	Materials Science Forum
Volume	941 MSF
ISSN (Print)	0255-5476
ISSN (Electronic)	1662-9752

Conference

Conference	10th International Conference on Processing and Manufacturing of Advanced Materials, 2018
Country/Territory	France
City	Paris
Period	7/9/18 → 7/13/18

All Science Journal Classification (ASJC) codes

Materials Science(all)
Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering

Access to Document

10.4028/www.scientific.net/MSF.941.1474

Cite this

Okuyama, Y., Tanaka, M., Ohashi, T., & Morikawa, T. (2018). Temperature dependence of the yield stress in α-titanium investigated with crystal plasticity analysis. In R. Shabadi, M. Ionescu, M. Jeandin, C. Richard, & T. Chandra (Eds.), THERMEC 2018 (pp. 1474-1478). (Materials Science Forum; Vol. 941 MSF). Trans Tech Publications Ltd. https://doi.org/10.4028/www.scientific.net/MSF.941.1474

Temperature dependence of the yield stress in α-titanium investigated with crystal plasticity analysis. / Okuyama, Yelm; Tanaka, Masaki; Ohashi, Tetsuya et al.
THERMEC 2018. ed. / R. Shabadi; Mihail Ionescu; M. Jeandin; C. Richard; Tara Chandra. Trans Tech Publications Ltd, 2018. p. 1474-1478 (Materials Science Forum; Vol. 941 MSF).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Okuyama, Y, Tanaka, M, Ohashi, T & Morikawa, T 2018, Temperature dependence of the yield stress in α-titanium investigated with crystal plasticity analysis. in R Shabadi, M Ionescu, M Jeandin, C Richard & T Chandra (eds), THERMEC 2018. Materials Science Forum, vol. 941 MSF, Trans Tech Publications Ltd, pp. 1474-1478, 10th International Conference on Processing and Manufacturing of Advanced Materials, 2018, Paris, France, 7/9/18. https://doi.org/10.4028/www.scientific.net/MSF.941.1474

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abstract = "The effect of the activated slip systems on the temperature dependence of yield stress was investigated in α-Ti by using crystal plasticity finite element method. A model for finite element analysis (FEA) was constructed based on experimental results. The displacement in FEA was applied up to the nominal strain of 4% which is the same strain as the experimental one. Stress-strain curves were obtained, which corresponds to experimental data taken every 50 K between 73 K and 673 K. The used material constants which are temperature dependent were elastic constants, and lattice friction stresses. The lattice friction stresses of basal slip systems were set to be higher than that of pyramidal slip systems at 73 K. Then, the lattice friction stresses were set to be closer as the temperature increases. It was found that the activation of slip systems is strong temperature dependent, and that the yield stress depends on the number of active slip systems.",

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AB - The effect of the activated slip systems on the temperature dependence of yield stress was investigated in α-Ti by using crystal plasticity finite element method. A model for finite element analysis (FEA) was constructed based on experimental results. The displacement in FEA was applied up to the nominal strain of 4% which is the same strain as the experimental one. Stress-strain curves were obtained, which corresponds to experimental data taken every 50 K between 73 K and 673 K. The used material constants which are temperature dependent were elastic constants, and lattice friction stresses. The lattice friction stresses of basal slip systems were set to be higher than that of pyramidal slip systems at 73 K. Then, the lattice friction stresses were set to be closer as the temperature increases. It was found that the activation of slip systems is strong temperature dependent, and that the yield stress depends on the number of active slip systems.

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Temperature dependence of the yield stress in α-titanium investigated with crystal plasticity analysis

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