|
|
|
| WORK STRENGTHENING OF BIPHASE W-Ni-Fe ALLOYS AND THEIR MICROSTRUCTURE |
| ZHU Guisen; LIU Mingcheng; ZHEN Zhenxian (Central Iron and Steel Research Institute; Ministry of Metallurgical Industry Beijing) |
|
Cite this article:
ZHU Guisen; LIU Mingcheng; ZHEN Zhenxian (Central Iron and Steel Research Institute; Ministry of Metallurgical Industry Beijing). WORK STRENGTHENING OF BIPHASE W-Ni-Fe ALLOYS AND THEIR MICROSTRUCTURE. Acta Metall Sin, 1983, 19(6): 45-120.
|
|
|
Abstract The correlation among the percentage reduction, mechanical properties and microstructure of 3 biphase W-Ni-Fe alloys swaged under lower temperature has been investigated. It was resulted that the strength and hardness of the alloys increase with the increase of their W contents. However, the alloys of higher W contents have no more strengthened under the reduction beyond 15%. The room temperature tensile strength and hardness may be increased about 50% if it is of 93% W. Their microstructure markedly shows that the W grains are elongated along the longitudinal working direction. The cleavage failure across W grains becomes the main mode of fracture and the slip bands can be observed on them. The deformation feature and the mechanism of these biphase W alloys have been also discussed. Furthermore, it is suggested that the superior mechnical properties as a whole of the alloys may be produced by the vacuum annealing at the temperature between 800—1200℃.
|
|
Received: 18 June 1983
|
1 Krock, R.H.; Shepard, L.A., Trans. Metall. Soc. AIME, 227 (1963) , 1127.
2 #12
3 Ekbom, L., Scand. J. Metall., 5 (1976) , 179.
4 Northcutt, W.G., Jr., Y/DA-6666, 1976, p. 13.
5 朱桂森;刘铭成;林忠杰;俞淑延,金属学报,17(1981) ,39.
6 Ariel, E.; Barta, J.; Brandon, D., Powder Metall, Int., 5 (1973) , 126
7 #12 |
| No Suggested Reading articles found! |
|
|
Viewed |
|
|
|
Full text
|
|
|
|
|
Abstract
|
|
|
|
|
Cited |
|
|
|
|
| |
Shared |
|
|
|
|
| |
Discussed |
|
|
|
|
