Composition, Processing Technology and Property of Ceramic Die Materials Containing Rare Earth Additives
来源期刊:JOURNAL OF RARE EARTHS2007年增刊第1期
论文作者:Fang Bin Xu Chonghai Xiao Guangchun
Key words:ceramic die material; composition; processing technology; mechanical property; engineering performance; rare earths;
Abstract: Development and application of new ceramic die materials is one of the important topics in the field of die research. The composition, processing technology, mechanical property and engineering performance of the ceramic materials such as cermet, ZTA, TZP, TZP/Al2O3, TZP/TiC/Al2O3, PSZ and Sialon, etc., with rare earth yttrium, lanthanum and cerium, and so on working as additives, were investigated and analyzed in the present study. Problems existed in the research and application of rare earth ceramic die materials were discussed. Rare earth additives can effectively improve the mechanical property and engineering performance of ceramic die materials. Thus, it will have further perspectives of wider application. More attention should be paid in the future to the toughening and strengthening of the ceramic die materials, the adding forms and kinds of rare earth elements and acting mechanisms of rare earth additives in ceramic die materials.
Fang Bin1,Xu Chonghai1,Xiao Guangchun1
(1.School of Mechanical Engineering, Shandong Institute of Light Industry, jinan 250353, China;
2.School of Mechanical Engineering, Shandong University, jinan 250061, China)
Abstract:Development and application of new ceramic die materials is one of the important topics in the field of die research. The composition, processing technology, mechanical property and engineering performance of the ceramic materials such as cermet, ZTA, TZP, TZP/Al2O3, TZP/TiC/Al2O3, PSZ and Sialon, etc., with rare earth yttrium, lanthanum and cerium, and so on working as additives, were investigated and analyzed in the present study. Problems existed in the research and application of rare earth ceramic die materials were discussed. Rare earth additives can effectively improve the mechanical property and engineering performance of ceramic die materials. Thus, it will have further perspectives of wider application. More attention should be paid in the future to the toughening and strengthening of the ceramic die materials, the adding forms and kinds of rare earth elements and acting mechanisms of rare earth additives in ceramic die materials.
Key words:ceramic die material; composition; processing technology; mechanical property; engineering performance; rare earths;
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