具有纳米相复合结构的互不溶体系合金的机械合金化研究
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摘要
互不溶体系合金在机械合金化的非平衡过程中能够形成纳米相复合结构,并显示出与其微米尺度结构合金所不同的独特性能。纳米相复合结构不仅是互不溶体系中亚稳态结构的重要的一种,也是纳米材料体系中重要的一种。综述了近年来具有纳米相复合结构的互不溶体系合金的机械合金化研究进展,着重介绍了纳米相复合结构的形成机理,以及纳米相复合结构的热稳定性、力学和物理性能。
Nanophase composite structure can be obtained by non-equilibrium mechanical alloying in immiscible system,which shows the unique properties compared with microscale structure.Nanophase composite structure is an important metastable structure in immiscible system,and is also an important nanostructure material system.The progress in mechanical alloying of immiscible system with nanophase composite structure is overviewed,with focus on the formation mechanism of nanophase composite structure,as well as thermal stability,mechanical and physical properties.
Nanophase composite structure can be obtained by non-equilibrium mechanical alloying in immiscible system,which shows the unique properties compared with microscale structure.Nanophase composite structure is an important metastable structure in immiscible system,and is also an important nanostructure material system.The progress in mechanical alloying of immiscible system with nanophase composite structure is overviewed,with focus on the formation mechanism of nanophase composite structure,as well as thermal stability,mechanical and physical properties.
引文
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28 Jang S,Urohit Y,Irving D L,et al.Influence of Pb segregation on the deformation of nanocrystalline Al:Insights from molecular simulations[J].Acta Mater,2008,56:4750
29 Zhu M,Zeng M Q,Gao Y,et al.Microstructure and wear properties of Al-Pb-Cu alloys prepared by mechanical alloying[J].Wear,2002,253:832
30 Liu X,Zeng M Q,Ma Y,et al.Wear behavior of Al-Sn alloys with different distribution of Sn dispersoids manipulated by mechanical alloying and sintering[J].Wear,2008,265:1857
31 Lu Z C,Zeng M Q,Gao Y,et al.Significant improvement of wear properties by creating micro/nano dual-scale structure in Al-Sn alloys[J].Wear,2012,296:469
32 Rosner H,Scheer P,Weissmuller J,et al.The impact of particle morphology on the melting characteristics of matrixembedded Pb nanocrystals[J].Philos Mag Lett,2003,83(8):511
33 Mahon S W,Song X,Howson M A,et al.GMR in a Cu90-Co10alloy produced by mechanical alloying[J].Mater Sci Forum,1996,225-227:157
2 Guduru R K,Scattergood R O,Koch C C,et al.Mechanical properties of nanocrystalline Fe-Pb and Fe-Al2O3[J].Scr Mater,2006,54:1879
3 Mojtahedi M,Goodarzi M,Aboutalebi M R,et al.Investigation on the formation of Cu-Fe nano crystalline super-saturated solid solution developed by mechanical alloying[J].J Alloys Compd,2013,550:380
4 Gaffet E,Louison C,Harmelin M,et al.Metastable phase transformations induced by ball-milling in the Cu-W system[J].Mater Sci Eng A,1991,134:1380
5 Selvakumar N,Vettivel S C.Thermal,electrical and wear behavior of sintered Cu-W nanocomposite[J].Mater Des,2013,46:16
6 朱敏.纳米结构合金的机械合金化制备[J].华南理工大学学报:自然科学版,2002,30(11):89
7 Ma E.Alloys created between immiscible elements[J].Prog Mater Sci,2005,50:413
8 Dorofeev G A,Elsukov E P,Ui′vanov A L.Mechanical alloying of immiscible elements in the Fe-Mg system[J].Inorg Mater,2004,40(7):793
9 Yavari A R,Desre P J,Benameur T.Mechanically driven alloying of immiscible elements[J].Phys Rev Lett,1992,68(14):2235
10 Eckert J,Holzer J C,Johnson W L.Thermal stability and grain growth behavior of mechanically alloyed nanocrystalline Fe-Cu alloys[J].J Appl Phys,1993,73(1):131
11 Zhu M,Li B L,Gao Y,et al.Microstructure characteristics of nanophase composite synthesized by mechanical alloying of immiscible Pb-Al and Fe-Cu systems[J].Scr Mater,1997,36(4):447
12 Uenishi K,Kobayashi K F,Ishihara K N,et al.Formation of a super-saturated solid in the Ag-Cu system by mechanical alloying[J].Mater Sci Eng A,1991,134:1342
13 Zhu M,Che X Z,Li Z X,et al.Mechanical alloying of immiscible Pb-Al binary system by high energy ball milling[J].J Mater Sci,1998,33:5873
14 Liu X,Zeng M Q,Ma Y,et al.Melting behavior and the correlation of Sn distribution on hardness in a nanostructured Al-Sn alloy[J].Mater Sci Eng A,2009,506:1
15 Zhu M,Wu Z F,Zeng M Q,et al.Bimodal growth of the nanophases in the dual-phase composites produced by mechanical alloying in immiscible Cu-Ag system[J].J Mater Sci,2008,43:3259
16 Zhu M,Gao Y,Chung C Y,et al.Improvement of the wear behaviour of Al-Pb alloys by mechanical alloying[J].Wear,2000,242:47
17 Sheng H W,Lu K,Ma E.Melting and freezing behavior of embedded nanoparticles in ball-milled Al-10wt%M(M=In,Sn,Bi,Cd,Pb)mixtures[J].Acta Mater,1998,46:5195
18 Wu Z F,Zeng M Q,Ouyang L Z,et al.Ostwald ripening of Pb nanocrystalline phase in mechanically milled Al-Pb alloys and the influence of Cu additive[J].Scr Mater,2005,53:529
19 Fang F,Zeng M Q,Che X Z,et al.Embedded atom potential calculation of the Al-Pb immiscible alloy system[J].J Alloys Compd,2002,340:252
20 Fang F,Shu X L,Deng H Q,et al.Modified analytic EAM potentials for the binary immiscible alloy systems[J].Mater Sci Eng A,2007,355:357
21 Ohnuma I,Ishida K.Computer simulation of grain growth in dual-phase structure[J].Philos Mag A,1999,79(5):1131
22 He L,Ma E.Processing and microhardness of bulk Cu-Fe nanocomposites[J].Nanostruct Mater,1996,7(3):327
23 He L,Allard L F,Ma E.Fe-Cu two-phase nanocomposites:Application of a modified rule of mixtures[J].Scr Mater,2000,42:517
24 Venugopal T,Rao K P,Murty B S.Mechanical and electrical properties of Cu-Ta nanocomposites prepared by high-energy ball milling[J].Acta Mater,2007,55:4439
25 Sheng H W,Zhou F,Hu Z Q,et al.Investigation of Al-Pb nanocomposites synthesized by nonequilibrium processes[J].J Mater Res,1998,13(2):308
26 Koteswararao V R,Ronald O S,Korukonda L M,et al.Effect of Pb on the mechanical properties of nanocrystalline Al[J].Scr Mater,2006,55:155
27 Jang S,Purohit Y,Irving D L,et al.Molecular dynamics simulations of deformation in nanocrystalline Al-Pb alloys[J].Mater Sci Eng A,2008,493:53
28 Jang S,Urohit Y,Irving D L,et al.Influence of Pb segregation on the deformation of nanocrystalline Al:Insights from molecular simulations[J].Acta Mater,2008,56:4750
29 Zhu M,Zeng M Q,Gao Y,et al.Microstructure and wear properties of Al-Pb-Cu alloys prepared by mechanical alloying[J].Wear,2002,253:832
30 Liu X,Zeng M Q,Ma Y,et al.Wear behavior of Al-Sn alloys with different distribution of Sn dispersoids manipulated by mechanical alloying and sintering[J].Wear,2008,265:1857
31 Lu Z C,Zeng M Q,Gao Y,et al.Significant improvement of wear properties by creating micro/nano dual-scale structure in Al-Sn alloys[J].Wear,2012,296:469
32 Rosner H,Scheer P,Weissmuller J,et al.The impact of particle morphology on the melting characteristics of matrixembedded Pb nanocrystals[J].Philos Mag Lett,2003,83(8):511
33 Mahon S W,Song X,Howson M A,et al.GMR in a Cu90-Co10alloy produced by mechanical alloying[J].Mater Sci Forum,1996,225-227:157