TY - JOUR
T1 - Microstructures of Ti50Al45Mo5 alloy powders produced by plasma rotating electrode process
AU - Hata, S.
AU - Oki, K.
AU - Hashimoto, T.
AU - Kuwano, N.
N1 - Funding Information:
The PREPed powders were kindly provided by R. Kuma-gae, Fukuda Metal Foil & Powder Co., Ltd. (Kyoto, Japan). The authors thank F. Yoshida and K. Ikeda, Kyushu University, for their kind help in the EBSD analysis, and K. Waka-sugi, Kyushu University, for his cooperation in the EPMA measurement. This work was partly supported by Grants-in-Aid for Scientific Research (Nos. 09242106 and 10450234) from the Ministry of Education, Science, Sports and Culture, Japan.
PY - 2001/8
Y1 - 2001/8
N2 - Microstructures of Ti50Al45Mo5 (at.%) alloy powders produced by the plasma rotating electrode process (PREP) were investigated. The powders have inhomogeneous structures, which consist of dendrites and rounded grains. The dendrites, which show a "rosettelike" morphology, are formed on the powder surface and around the rounded grains. The rosettelike dendrites are of hexagonal α2 (D019) phase even though the dendrites have an equiaxial morphology, and a small amount of β2 (B2) phase is also contained inside. It is suggested that the solidification to α (hcp-A3) phase occurred by the peritectic reaction between the primary β (bcc-A2) dendrites and the liquid: L + β → L + β + α. The rounded grains, on the other hand, are of β2 phase in which acicular α or α2 laths are precipitated with the Burgers orientation relationship. Antiphase domain boundaries in the β2 matrix are intersected by α(α2) laths. It is interpreted that the α(α2) laths were formed by the solid-state transformations: β2 → β2 + α → β2 + α2. The formation of the two different microstructures in the powder particles is rationalized in terms of the changes in local composition of the liquid phase during the rapid solidification process.
AB - Microstructures of Ti50Al45Mo5 (at.%) alloy powders produced by the plasma rotating electrode process (PREP) were investigated. The powders have inhomogeneous structures, which consist of dendrites and rounded grains. The dendrites, which show a "rosettelike" morphology, are formed on the powder surface and around the rounded grains. The rosettelike dendrites are of hexagonal α2 (D019) phase even though the dendrites have an equiaxial morphology, and a small amount of β2 (B2) phase is also contained inside. It is suggested that the solidification to α (hcp-A3) phase occurred by the peritectic reaction between the primary β (bcc-A2) dendrites and the liquid: L + β → L + β + α. The rounded grains, on the other hand, are of β2 phase in which acicular α or α2 laths are precipitated with the Burgers orientation relationship. Antiphase domain boundaries in the β2 matrix are intersected by α(α2) laths. It is interpreted that the α(α2) laths were formed by the solid-state transformations: β2 → β2 + α → β2 + α2. The formation of the two different microstructures in the powder particles is rationalized in terms of the changes in local composition of the liquid phase during the rapid solidification process.
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U2 - 10.1361/105497101770332938
DO - 10.1361/105497101770332938
M3 - Article
AN - SCOPUS:0035417551
SN - 1547-7037
VL - 22
SP - 386
EP - 393
JO - Bulletin of Alloy Phase Diagrams
JF - Bulletin of Alloy Phase Diagrams
IS - 4
ER -