A heat-resistant dispersion-strengthening nano-Al2O3/Cu composite with high strength and high electric conductivity was fabricated in a multiplex medium. The internal oxidation product, microstructures and properties of the composite,and the process flow were systematically studied. It is confirmed that this new technique simplifies the process and improves the properties of the composite. X-ray analysis indicates that the alumina particles formed during internal oxidation consist of a large mount of γ-Al2O3 and a certain amount of θ-Al2O3 and α-Al2O3,TEM observation shows that the obtained γ-Al2O3 nano-particles are uniformly distributed in the copper grains; their mean size and space between particles are 7 nm and 30 nm, respectively. The main properties of the composite with 50% cold deformation are as follows: the electric conductivity is 51 MS/m (87%IACS), σb = 628 MPa, and the hardness is HRB86. After annealing at 1273 K, all or most of the above properties remain, and the microstructures are still dependent on elongated fiber-form grains.
参考文献
| [1] | Lee D W;Kim B.K .Nanostructured Cu-Al2O3 composite produced by thermochemical process for electrode application[J].Materials Letters,2004,58:378. |
| [2] | Besterci M;Velgosova O;Lesko A;Kohutek I .Microstructural parameters of Cu-Al2O3 dispersion strengthened materials, Adv[J].Powder Technology Ⅲ Mater Sci Forum,2003,416(04):35. |
| [3] | Min GH;Song L;Yu H.S .High strength and electric conductivity copper-based composites[J].Gongneng Cailiao(in Chinese),1997,28(04):342. |
| [4] | Broyles S E;Anderson K.R;Groza J.R;Gibeling J.C .Creep deformation of dispersion-strengthened copper[J].Metallurgical and Materials Transactions,1996,27:1217. |
| [5] | Groza J .Heat-resistant dispersion-strengthened copper alloys[J].Journal of Materials Engineering and Performance,1992,1(01):113. |
| [6] | Cheng J Y;Wang M P;Li Z;Wang Y.H. Xiao C.W. Hong B .[J].Nonferrous Metals Society of China,2004,14(01):121. |
| [7] | Tian S G;Shao H·M .Structure and properties of Cu-Al powder sintered alloy after internal oxidation,Powder Metall[J].Technol(in Chinese),1995,13(04):289. |
| [8] | Pan Y G .Cu-Al2O3 alloys used as IC leading-in wire frame, Instrum[J].Mater(in Chinese),1987,18(03):174. |
| [9] | Sun H B;Wheat H G .Corrosion study of Al2O3 dispersion strengthened Cu metal matrix composites in NaCl solutions[J].Journal of Materials Science,1993,28:5435. |
| [10] | Shan B Q;Li H.L.Oxide dispersion strengthening and mechanical alloying[J].Essentials ofAdvanced Materials for High Technology Science and Technology Press of China Beijing,1993:145. |
| [11] | Liang SH;Fang L;Xu L;Fan ZK .Effect of Al content on the properties and microstructure of Al2O3-Cu composite prepared by internal oxidation[J].Journal of Composite Materials,2004(17):1495-1504. |
| [12] | Marques M T;Correia J.B;Criado J.M;Dianez M.J.,Matteazzi P .High-temperature stability of a nanostructured Cu-Al2O3 alloy, Adv[J].Mater Forum IKey Eng Mater,2002,230(02):652. |
| [13] | Besterci M;Ivan J;Kovac L .Influence of Al2O3 particles volume fraction on fracture mechanism in the Cu-Al2O3 system[J].Materials Letters,2000,46(2-3):181. |
| [14] | Besterci M;Ivan J;Kovac L .Influence of particles in Cu-Al2O3 system on fracture mechanism,Mater[J].Sci Eng A Struct Mater Prop Microstruct Process,2001,319:667. |
| [15] | Shen Y T;Cui C X;Shen Y.F;Xu Y J , Liu H .Thermodynamic analysis of internal oxidation of Cu-Al alloy, Rare Met[J].Materials and Engineering(in Chinese),2004,33(06):576. |
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