B.Z. Li1)
,
Y.P. Song1)
,
K.U. Kainer2)
,
H. Zhang3)
,
J.P.Xie1) and R.Xiang4) 1) Department of Materials Engineering
,
Luoyang Institute of Technology
,
Luoyang 471039
,
China2) Institute of Material Science and Technology
,
TU Clausthal
,
D 38678 Clausthal Zellerfeld
,
Germany 3) Institute of Mechanicaland Electrical Engineering
,
Zengzhou University
,
Zengzhou 450052
,
China 4) Luoyang Steeland Iron Group Corp
,
Luoyang 471023
,
China
金属学报(英文版)
Theinvestigation of physicometallurgicalphenomena forthe CC formingof WCP/ Fe Ccom posites wasperformed. Resultsshow that underthe patentcondition, WCP/ Fe Ccomposite surfacelayerof16 20 m m heavycross sectioncan beacquiredintheoutsideofa hollow cylin der. The surface of CTC particlescould be partially dissolved by Fe containing melt. Thefineshortstick like WCcrystallitesarein situseparated neartothesurfaceof CTC particles.Far from the CTC particles,someseparated, finetungsten carbidecrystallitesand Fe, W,Mo and Cretc. containing web composite carbides, are distributed on the matrix of WCP/ Fe Ccomposite. Fe Calloy matrix of the hollow composite cylinder is alloyed in differenthigh levels.
关键词:
physicometallurgical phenomena
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