チタン含有合金および関連する製造方法

Japanese Patent JP7453663

B2

Titanium-containing alloys are generally described. The titanium-containing alloys are, according to certain embodiments, nanocrystalline. According to certain embodiments, the titanium-containing alloys have high relative densities. The titanium-containing alloys can be relatively stable, according to certain embodiments. Inventive methods for making titanium-containing alloys are also described herein. The inventive methods for making titanium-containing alloys can involve, according to certain embodiments, sintering nanocrystalline particulates comprising titanium and at least one other metal to form a titanium-containing nanocrystalline alloy.

Graetz, Kathryn
Shu, Christopher A.

JP2019512799A

March 21, 2024

September 07, 2017

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Massachusetts Institute of Technology

B22F3/10; B22F1/00; B22F1/14; B82Y30/00; B82Y40/00; C22C1/04; C22C14/00

JP2007515551A

Yong Liu et al.,“Powder metallurgical low-modulus Ti-Mg alloys for biomedical applications”, Materials Science and Engineering,C 56,2015,p241-250
C. Machio et al.,“Characterization of mechanically alloyed f.c.c. Ti-Mg-based powders”, Powder Technology 207(2011) p387-395
家城悌等、「焼結温度を変えた純チタン焼結体の機械的性質」、三重県工業技術センター研究報告No.20、1996年(https://www.mpstpc.pref.mie.lg.jp/pdf/104203.pdf)
仲井正昭ら,非平衡プロセスを用いた非固溶元素の合金化効果の探索,低炭素社会実現のための基盤材料創製研究事業に係る研究プログラム助成研究成果報告書,日本,東北大学金属材料研究所,2015年12月31日,p.30-36

Shusaku Yamamoto
Natsuki Morishita

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