Thermomechanical characterization of P/M Ti-Fe-Mo-Y alloy with a fine lamellar microstructure

B. Liu; Y. P. Li; Hiroaki Matsumoto; Y. B. Liu; Y. Liu; A. Chiba

doi:10.1016/j.msea.2010.12.055

Thermomechanical characterization of P/M Ti-Fe-Mo-Y alloy with a fine lamellar microstructure

B. Liu, Y. P. Li, Hiroaki Matsumoto, Y. B. Liu, Y. Liu, A. Chiba

Materials Processing and Characterization Division

Research output: Contribution to journal › Article › peer-review

25 Citations (Scopus)

Abstract

Thermomechanical response of a newly designed α + β type Ti-1.5Fe-2.25Mo-0.6Y (wt.%) alloy produced by elemental powder metallurgy (P/M) route was studied using hot compression process. Detailed analyses of the deformation behavior combined with a microstructure observation were carried out to characterize the deformation mechanisms under various conditions. The results indicate that the flow softening of the present alloy is a continuous dynamic-recrystallization (DRX) process. At a given strain, the proportion of low angle grain boundaries (LAGBs) shows a close affinity to the Zener-Hollomon parameter (Z) and the relation can be expressed as LAGBs% = (-10.2 ± 5). +. 4. log. Z, which well describes the relation between the deformed microstructure and deformation parameters. The P/M Ti-1.5Fe-2.25Mo-0.6Y alloy is found to possess good workability, based on the compression experiments and the processing map. The good deformation ability is believed to be attributed to the initial fine microstructure derived from the P/M route.

Original language	English
Pages (from-to)	2345-2352
Number of pages	8
Journal	Materials Science and Engineering A
Volume	528
Issue number	6
DOIs	https://doi.org/10.1016/j.msea.2010.12.055
Publication status	Published - 2011 Mar 15

Keywords

EBSD
Powder metallurgy
Processing map
Thermomechanical processing
Titanium alloy

ASJC Scopus subject areas

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

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10.1016/j.msea.2010.12.055

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@article{742923d5bbe347a5b1cc196103a54651,

title = "Thermomechanical characterization of P/M Ti-Fe-Mo-Y alloy with a fine lamellar microstructure",

abstract = "Thermomechanical response of a newly designed α + β type Ti-1.5Fe-2.25Mo-0.6Y (wt.%) alloy produced by elemental powder metallurgy (P/M) route was studied using hot compression process. Detailed analyses of the deformation behavior combined with a microstructure observation were carried out to characterize the deformation mechanisms under various conditions. The results indicate that the flow softening of the present alloy is a continuous dynamic-recrystallization (DRX) process. At a given strain, the proportion of low angle grain boundaries (LAGBs) shows a close affinity to the Zener-Hollomon parameter (Z) and the relation can be expressed as LAGBs% = (-10.2 ± 5). +. 4. log. Z, which well describes the relation between the deformed microstructure and deformation parameters. The P/M Ti-1.5Fe-2.25Mo-0.6Y alloy is found to possess good workability, based on the compression experiments and the processing map. The good deformation ability is believed to be attributed to the initial fine microstructure derived from the P/M route.",

keywords = "EBSD, Powder metallurgy, Processing map, Thermomechanical processing, Titanium alloy",

author = "B. Liu and Li, {Y. P.} and Hiroaki Matsumoto and Liu, {Y. B.} and Y. Liu and A. Chiba",

note = "Funding Information: The work was partially supported by the Minister of Science & Technology under contract no. 2007BAE07B05 .",

year = "2011",

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doi = "10.1016/j.msea.2010.12.055",

language = "English",

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T1 - Thermomechanical characterization of P/M Ti-Fe-Mo-Y alloy with a fine lamellar microstructure

AU - Liu, B.

AU - Li, Y. P.

AU - Matsumoto, Hiroaki

AU - Liu, Y. B.

AU - Liu, Y.

AU - Chiba, A.

N1 - Funding Information: The work was partially supported by the Minister of Science & Technology under contract no. 2007BAE07B05 .

PY - 2011/3/15

Y1 - 2011/3/15

N2 - Thermomechanical response of a newly designed α + β type Ti-1.5Fe-2.25Mo-0.6Y (wt.%) alloy produced by elemental powder metallurgy (P/M) route was studied using hot compression process. Detailed analyses of the deformation behavior combined with a microstructure observation were carried out to characterize the deformation mechanisms under various conditions. The results indicate that the flow softening of the present alloy is a continuous dynamic-recrystallization (DRX) process. At a given strain, the proportion of low angle grain boundaries (LAGBs) shows a close affinity to the Zener-Hollomon parameter (Z) and the relation can be expressed as LAGBs% = (-10.2 ± 5). +. 4. log. Z, which well describes the relation between the deformed microstructure and deformation parameters. The P/M Ti-1.5Fe-2.25Mo-0.6Y alloy is found to possess good workability, based on the compression experiments and the processing map. The good deformation ability is believed to be attributed to the initial fine microstructure derived from the P/M route.

AB - Thermomechanical response of a newly designed α + β type Ti-1.5Fe-2.25Mo-0.6Y (wt.%) alloy produced by elemental powder metallurgy (P/M) route was studied using hot compression process. Detailed analyses of the deformation behavior combined with a microstructure observation were carried out to characterize the deformation mechanisms under various conditions. The results indicate that the flow softening of the present alloy is a continuous dynamic-recrystallization (DRX) process. At a given strain, the proportion of low angle grain boundaries (LAGBs) shows a close affinity to the Zener-Hollomon parameter (Z) and the relation can be expressed as LAGBs% = (-10.2 ± 5). +. 4. log. Z, which well describes the relation between the deformed microstructure and deformation parameters. The P/M Ti-1.5Fe-2.25Mo-0.6Y alloy is found to possess good workability, based on the compression experiments and the processing map. The good deformation ability is believed to be attributed to the initial fine microstructure derived from the P/M route.

KW - EBSD

KW - Powder metallurgy

KW - Processing map

KW - Thermomechanical processing

KW - Titanium alloy

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Thermomechanical characterization of P/M Ti-Fe-Mo-Y alloy with a fine lamellar microstructure

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