Martensite Aging Effect in Ti–Pd and Ti–Pd–Ni High Temperature Shape Memory Alloys
Author:
Affiliation:
1. Institute of Materials Science, University of Tsukuba
2. R&D Yokohama Laboratory, Furukawa Electric Co. Ltd.
Publisher
Japan Institute of Metals
Subject
General Engineering
Link
https://www.jstage.jst.go.jp/article/matertrans1989/40/9/40_9_895/_pdf
Reference30 articles.
1. 1) N. M. Matveeva, Yu. K. Kovneristyi, A. S. Savinov, V. P. Sivokha and V. N. Khachin: J. de Phys., C4 (1982), 249-253.
2. 2) M. Nishida, T. Hara, A. Chiba and K. Hiraga: Displacive Phase Transformations and Their Applications in Materials Engineering, ed. by K. Inoue, K. Mukherjee, K. Otsuka and H. Chen, TMS, (1988), pp. 257-266.
3. 3) K. Enami, K. Horii and J. Takahashi, ISIJ Int., 29 (1989), 430-437.
4. 4) P. G. Lindquist and C. M. Wayman: Int. Conf. on Engineering Aspects of Shape Memory Alloys (ed. T. W. Duering, K.N. Melton, D. Stockel and C. M. Wayman), Butterworth-Heinemann, London, (1990), pp. 58-68.
5. 5) K. Otsuka, K. Oda, Y. Ueno, M. Piao, T. Ueki and H. Horikawa: Scripta Metall., 29 (1993), 1355-1358.
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