Al2O3/ Cu复合材料不仅具有和纯铜一样优良的导电、导热性能 ,而且由于弥散强化的作用使其拥有高的硬度和强度 ,特别是优越的高温强度 ,从而使其成为越来越重要的工程材料之一.论述了 Al2O3/ Cu复合材料的强化机理及 Cu-Al合金的内氧化机理 ,重点阐述了内氧化过程中 Al2O3颗粒的形核、长大和粗化,并采用内氧化法制备了性能优越的 Al2O3/ Cu复合材料.
参考文献
| [1] | 尹志民,张生龙.高强高导铜合金研究热点及发展趋势[J].矿冶工程,2002(02):1-5,9. |
| [2] | 孙世清,毛磊,刘宗茂,郭志猛,殷声.Al2O3-Cu和C-Cu复合材料研究进展[J].河北科技大学学报,2001(01):7-10,21. |
| [3] | Naser J;Riehemann W;Ferkel H .Dispersion hardening of metals by nanoscaled ceramic powders[J].Materials Science and Engineering,1997,A234-236:467-469. |
| [4] | Srivatsan T S;Narendra N;Troxell J D .Tensile deformation and fracture behavior of an oxide dispersion strengthened copper alloy[J].Materials & Design,2000,21:191-198. |
| [5] | Zwilsky K M;Grant N J .Dispersion strengthening in the copper alumina system[J].Transactions of the Metallurgical Society of AIME,1961,221:371-377. |
| [6] | 程建奕,汪明朴,钟卫佳,王艳辉,李周,洪斌,熊晓明,曹先杰.内氧化法制备的Cu-Al2O3合金的显微组织与性能[J].材料热处理学报,2003(01):23-27. |
| [7] | 贾燕民,丁秉钧.制备弥散强化铜的新工艺[J].稀有金属材料与工程,2000(02):141-143. |
| [8] | Upadhyaya A;Upadhyaya G S .Sintering of copper-alumina composites throung blending and mechanical alloying powder metallurgy routes[J].Materials & Design,1995,16:41-45. |
| [9] | 申玉田,崔春翔,吴人洁,徐艳姬,孟凡斌.Cu-Al合金内氧化工艺及动力学的研究[J].稀有金属材料与工程,2001(01):44-49. |
| [10] | MOUSTAFA S F;Abdel-Hamid Z;Abd-Elhay A M .Copper matrix SiC and Al2O3 particulate compostes by powder metallurgy technique[J].Materials Letters,2002,53:244-249. |
| [11] | Nadkarni A V.Dispersion strengthened copper properties and applications[A].Metall Soc AIME,Warrendale,1984:77-101. |
| [12] | Rhines F N;Johnson W A;Anderson W A .Rates of high temperature oxidation of dilute copper alloys[J].Transactions AIME,1942,147:205-221. |
| [13] | Meijering J L;Druyvesteyn M J .Hardening of metals by internal oxidation[R].Phillips Research Report,1947. |
| [14] | 宁爱林,申奇志,雷先明,彭北山.弥散强化铜的研制现状与展望[J].邵阳高等专科学校学报,2001(03):165-166. |
| [15] | 武建军,张运,李国彬,雷廷权.Al2O3/Cu复合材料的塑性变形及再结晶[J].复合材料学报,2000(02):106-110. |
| [16] | Naser J;Ferkel H;Riehemann W .Grain stabilization of copper with nanoscaled Al2O3 powder[J].Materials Science and Engineering,1997,A234-236:470-473. |
| [17] | Humphreys F J .The nucleation of recrystallization at second phase particles in deformed aluminium[J].Acta Materialia,1977,25:1323. |
| [18] | 朱日彰;何其东;齐慧滨.金属腐蚀及耐高温腐蚀材料[M].上海:上海科学技术出版社,1995 |
| [19] | 伯克斯 N;迈耶 G H.金属高温氧化导论[M].北京:冶金工业出版社,1989:99-142. |
| [20] | Pasterek R L;Rapp R A .The solubility and diffusivity of oxygen in solid copper from electrochemical measurements[J].Transactions of the Metallurgical Society of AIME,1969,245:1711-1720. |
| [21] | Cussler E L;Diffusion.Mass Transfer in Fluid Systems[M].Cambridge:Cambridge University Press,1984 |
| [22] | 周国洪,李华伦,胡锐.铜铝合金的氧化分析[J].西北工业大学学报,2002(02):176-179. |
| [23] | 申玉田,崔春翔,孟凡斌,吴人洁.Cu-Al合金内氧化及Cu氧化行为的热力学分析[J].粉末冶金技术,2001(01):28-32. |
| [24] | Dromsky J A;Lend F V;Ansell G S .Growth of aluminum oxide particles in a nickel matrix[J].Transactions of the Metallurgical Society of AIME,1962,224:236-239. |
| [25] | Martin J W;Doherty R D;Cantor B.Stability of Microstructure in Metallic System s(the Second edition)[M].Cambridge: Ed Cambridge University Press,1997 |
| [26] | Meijering J L.Internal oxidation in alloys[A].Herman H,Wiley,New York,1971:1-81. |
| [27] | 蔡继红,董治中,董向红.Al2O3弥散强化铜的制备与性能影响因素[J].热固性树脂,1999(04):80. |
| [28] | 刘建文 .一种生产内氧化弥散强化铜铝合金的简化工艺[J].机械工程材料,1999,23(02):27-33. |
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