PHASE TRANSFORMATIONS IN Ti-10V-2Fe-3Al NEAR β-ALLOY DURING AGING

Acta Metall Sin

1989, Vol. 25

Issue (1): 18-24 DOI:

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PHASE TRANSFORMATIONS IN Ti-10V-2Fe-3Al NEAR β-ALLOY DURING AGING

ZHANG Shaoqing;TAO Chunhu Institute of Aeronautical Materials; Beijing

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ZHANG Shaoqing;TAO Chunhu Institute of Aeronautical Materials; Beijing. PHASE TRANSFORMATIONS IN Ti-10V-2Fe-3Al NEAR β-ALLOY DURING AGING. Acta Metall Sin, 1989, 25(1): 18-24.

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Abstract The phase transformations in Ti-10V-2Fe-3Al alloy during aging havebeen studied by means of X-ray diffraction and TEM techniques. The morphologyand distribution of precipitated phases were examined. The lattice parameters of αand β phases as a function of the aging time is obtained, the hardness variationof the specimens related to the aging temperature and time has been given as well.

Key words: Ti alloy phase transformation

Received: 18 January 1989

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1 Duerig T W, Terlinde G T, Williams J C. Metall Trans, 1980; 11A: 1987
2 Terlinde G T, Duerig T W, Williams J C. In: Kimura H, Izumi O eds., Titanium'80 Science and Technology, Vol. Ⅱ, New York: AIME, 1980: 1571
3 Duerig T W. Middleton R M, Terlinde G T, Williams J C. In: Kimura H, Izumi O eds., Titanium'80 Science and Technology, Vol. Ⅱ, New York: AIME, 1980: 1503
4 Duerig T W, Albrecht J, Richter D, Fischer P. Acta Metall, 1982; 30: 2161
5 Toran J R. Biederman R R. In: Kimura H, Izumi O eds., Titanium'80 Science and Technology, Vol. Ⅱ, New York: AIME, 1980: 1491
6 张少卿,陶春虎,钛科学与工程,Vol.Ⅱ,第六届全国钛及钛合金学术交流会文集,北京:原子能出版社,1987:193
7 Sugimoto T, Kamei K, Komatsu S, et. al. In: Luetjering G, Zwicker U, Bunk W eds., Titanium and Science Technology, Vol. Ⅲ, Oberursel: Deutsche Gesellschaft fur Metallkunde E. V., 1985: 1583
8 Hickman B S. J Inst Met, 1968; 96: 330
9 Hickman B S. Trans TMS-AIME, 1969; 245: 1329
10 Williams J C. In: Jaffee R I, Burte H M eds., Titanium Science and Technology, Vol. Ⅲ, New York: Plemum, 1973: 1433
11 Duerig T W, Terlinde G T, Williams J C. In: Kimura H, Izumi O eds., Titanium'80 Science and Technology, Vol. Ⅱ, New York: AIME, 1980: 129

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