简要回顾了细晶、超细晶CuCr系合金的研究状况.较为详细地介绍了三种制备细晶、超细晶CuCr系合金材料的快速凝固工艺,以及部分研究者们应用快速凝固工艺制备这一合金的成果.
参考文献
[1] | Rieder W.F.;Schussek M. .The influence of composition and Cr particle size of Cu/Cr contacts on chopping current, contact resistance, and breakdown voltage in vacuum interrupters[J].IEEE transactions on components, hybrids, and manufacturing technology,1989(2):273-283. |
[2] | Frey F et al.Metallurgical aspects of contact materials for vacuum switch devices[J].IEEE Transactions on Plasma Science,1989,17(05):734. |
[3] | Jin Y.;Takeuchi T.;Suzuki HG.;Adachi K. .Ageing characteristics of Cu Cr in-situ composite[J].Journal of Materials Science,1998(5):1333-1341. |
[4] | Mülter R .Arc-melted CuCr alloys as contact materials for vacuum mterrupters[J].Sciemens Forsch-u Entwick Ber Bd,1988,17(03):105. |
[5] | 王亚平,张丽娜,杨志懋,丁秉钧,周敬恩.细晶-超细晶CuCr触头材料的研究进展[J].高压电器,1997(02):34. |
[6] | 王亚平 等.微晶CuCr材料的制备及电击穿性能的研究[J].西安交通大学学报,1997,31(03):76. |
[7] | 梁淑华,范志康,胡锐.细晶CuCr系触头材料的研究[J].粉末冶金技术,2000(03):196-199. |
[8] | 王亚平 等.纳米晶CuCr触头材料的制备及性能[J].兵器材料科学与工程,1998,21(03):9. |
[9] | 李月珠.快速凝固技术和材料[M].北京:国防工业出版社,1993 |
[10] | Morris M A;Morris D G .Micro-structures and mechanical properties of rapidly solidified Cu-Cr alloys[J].Acta Materialia,1987,35(10):2511. |
[11] | Batawi E et al.Effect of Small Alloying Additions on Behavior of Rapidly Solidified Cu-Cr Alloys[J].Materials Science and Technology,1990,6:892. |
[12] | J. Stobrawa;L. Ciura;Z. Rdzawski .Rapidly solidified strips of Cu-Cr alloys[J].Scripta materialia,1996(11):1759-1763. |
[13] | Patel A N;Diamond S .The effects of nonequlibrium processing in the development of copper alloys[J].Materials Science and Engineering,1988,98:329. |
[14] | Morris D G;Morris M A .Rapid solidification and mechanical alloying techniques applied to Cu-Cr alloys[J].Materials Science and Engineering,1988,A104:201. |
[15] | Liu P et al.Strengthening mechanisms in a rapidly solidified and aged Cu-Cr alloy[J].Journal of Materials Science,2000,35:1691. |
[16] | 刘平 等.快速凝固Cu-Cr合金时效析出的共格强化效应[J].金属学报,1999,35(06):561. |
[17] | 刘平 等.Zr和Mg对快速凝固Cu-Cr合金时效析出过程的影响[J].金属热处理学报,1999,20(02):46. |
[18] | Kang BX;Cao XG;Huang JL;Yen B;Gu HC;Liu P .Aging precipitation and recrystallization of rapidly solidified Cu-Cr-Zr-Mg alloy[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,1999(1/2):262-267. |
[19] | 刘平 等.时效处理对快速凝固Cu-Cr-Zr合金组织和性能的影响[J].有色金属,1999,51(01):70. |
[20] | Tenwick M J;Davies H A .Enhanced Strength in High Conductivity Copper Alloys[J].Materials Science,1988,98:543. |
[21] | Tenwick M J;Davies H A;S. Steeb;H. Warlimont.Rapidly Solidified Metals V[M].,1985:67. |
[22] | Hayzelden C et al.Rapid solidification microstructures in austenitic Fe-Ni alloys[J].Acta Materialia,1983,31(03):379. |
[23] | Blank M;S.Steeb;H. Warlimont.Rapidly Solidified Metals V[M].,1985:883. |
[24] | Arnberg L et al.A new high strenghhigh conductivity Cu-0. 5wt%Zr alloy produced by rapid solidification tech nology[J].Materials Science and Engineering,1986,83:115. |
[25] | 向青春,周彼德,李荣德.快速凝固法制取金属粉末技术的发展状况[J].粉末冶金技术,2000(04):283-291. |
[26] | Perepezko J H .Nucleation in undercooled liquids[J].Materials Science and Engineering,1984,65(01):125. |
[27] | 张树格;赖和怡 .水雾化金属粉末的形状与粒度间的关系[J].粉末冶金技术,1983,6(01):1. |
[28] | 刘平 等.多级雾化Cu-Cr-Zr-Mg合金的时效硬化行为[J].有色金属,1999,51(04):71. |
[29] | 张璟;周哲玮 .喷射成形中的喷射雾化机理研究[J].粉末冶金技术,1999,17(03):163. |
[30] | 李月珠.快速凝固技术和材料[M].北京:国防工业出版社,1993:121. |
[31] | 冼爱平.大功率真空开关铜铬触头材料[J].中国有色金属学报,2001(05):731-740. |
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