Article citationsMore>>
Fukuda, M., Yoshida, T., Iseda, A., Semba, H., Saito, E., Kitamura, M., Dohi, T., Aoki, H., Muroki, K., Fukutomi, H., Sato, K., Satio, N., Hirakawa, Y., Nishii, T., Takahashi, T. and Matubara, Y. (2016) 700°C A-USC Technology Development in Japan. Proceedings of 8th International Conference on Advances in Materials Technology for Fossil Power Plants, Algarve, 10-14 October 2016, 12-23.
has been cited by the following article:
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TITLE:
The Effect of Cold Working on Creep Rupture Strength and Microstructure of Ni-23Cr-7W Alloy
AUTHORS:
Yoshiki Shioda, Keiji Kubushiro, Youhei Sakakibara, Kyohei Nomura, Yoshinori Murata
KEYWORDS:
A-USC, HR6W, Cold Working, Creep Strength, Grain Boundary Shielding Ratio, M23C6 Carbide
JOURNAL NAME:
World Journal of Mechanics,
Vol.7 No.10,
October
30,
2017
ABSTRACT: In order to clarify the reason why the creep rupture time of pre-strained Ni-23Cr-7W Alloy (HR6W) is longer than that of the non-pre-strained HR6W, microstructures of HR6W after a series of creep tests were investigated. The creep tests were conducted at 750°C, 90 and 100 MPa. In the pre-strained samples, the grain boundary shielding ratio by precipitates was larger than that of the non-pre-strained sample. In addition, in the pre-strained samples the size of the M23C6 carbide in the grains was finer than in the non-pre-strained sample. The W content in the M23C6 carbide in the pre-strained samples tended to be larger than in the non-pre-strained sample. Therefore, the Ostwald ripening of the carbide was delayed and the size of M23C6 carbide was thought to be fine for a long time. These observations show that creep strength in the pre-strained samples is higher than that of the non-pre-strained sample because of both precipitation strengthening inside of the grains and grain boundaries.
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