在CO2/SF6气氛保护下,采用压铸的方法将-200目的Al63Cu25Fe12准晶粉末注入到熔融的AZ91镁合金中,于720℃和一定的压力下保压30min,制备了新型的(Al63Cu25Fe12)p/AZ91镁基复合材料.结果表明,在复合过程中,准晶相分解出的自由Cu向基体扩散并与基体中的Al发生反应,生成的金属间化合物分布在准晶颗粒周围,同时Mg向颗粒中浸渗填充到颗粒的孔隙中;复合材料具有不同于基体镁合金的固溶时效特征,需要更长的时间才能达到时效峰值;复合材料经过热挤压和热处理后的力学性能显著提高,抗拉强度从AZ91铸态材料的189.54MPa提高到359.38MPa,但塑性有所降低.
A novel Mg-based composites(Al63 Cu25 Fe12 )p/AZ91 is prepared by pressure die casting protected by CO2/SF6 condition. The -200 mesh quasicrystalline powders are poured into the molten AZ91 Mg alloy and then rapidly stirred for 30min at 720℃. The results show that quasicrystalline phase decompose in process of die casting and the Cu atoms diffuse from powders into the matrix and combine with Mg and Al in the matrix, which produces metalliccompound dispersing along the grain boundary. In the mean time, the Mg atoms diffuse into the powders and substitute the Cu atoms sites. After heat-treated with solid solution and aging, composites of (Al63 Cu25 Fe12 )p/AZ91 is different from Mg alloy,they need more time to get the aging hardness peak. The mechanical properties of composites have been improved outstandingly by hot-extruded and treatment of solution and aging, the tensile strength is from 189. 54MPa up to 359. 38MPa. However, the plasticity of composites decreases.
参考文献
[1] | Bonasso N;Rouxel D;Pigeat P .Icosahedral Al62Cu25.5Fe12.5 phase in the presence of carbon[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2005(1/2):166-170. |
[2] | Rouxel D;Pigeat P .Surface oxidation and thin film preparation of AlCuFe quasicrystals[J].Surface Science,2006,81:488. |
[3] | Rosas G;Perez R .On the relationships between icosahedral phase diagrams and quasicrystalline phase transformation in Al-Cu-Fe alloys[J].Material Science and Engineering,2001,298A:79. |
[4] | Elina H S .Microstructure,fabrication and properties of quasicrystalline Al-Cu-Fe alloys:A review[J].Alloys and Compounds,2004,363:154. |
[5] | Nicula R;Turquier F;Stir M et al.Quasicrystal phase formation in Al-Cu-Fe nanopowders during field-activated sintering(FAST)[J].Alloys and Compounds,2007,434-435:319. |
[6] | Tsai A P;Yoshimura M .High active quasicrystalline Al-CuFe catalyst for steam reforming of methanol[J].Applied Catalysis A:General,2001,214:237. |
[7] | Bloom P D;Andereqq James W;Sheares Valerie V et al.Fabrication and wear resistance of Al-Cu-Fe quasicrystal-epoxy composites[J].MATERIALS SCIENCE & ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING,2003,360:46. |
[8] | Tsai A P et al.Synthesis of quasicrystalline particle-dispersed Al base composite alloys[J].Materials Research Bulletin,1993,8(01):5. |
[9] | Tsai A P;Guo J Q;Abe E .Alloys:A stable binary quasicrystal[J].Nature,2000,408:537. |
[10] | Biner S B et al.Composite material reinforced with atomized quasicrystalline quasicrystalline particles and method of making same[P].USA,5851317,1998. |
[11] | 齐育红,张占平,黑祖昆.Estimation of thermal expansion properties of quasicrystalline alloys[J].中国有色金属学会会刊(英文版),2004(01):152-155. |
[12] | Kudela S .Magnesium-lithium matrix composites-An overview[J].Mater Product Techn,2003,18(1-3):91. |
[13] | V. Kevorkijan .AZ80 and ZC71/SiC/12p closed die forgings for automotive applications: technical and economic assessment of possible mass production[J].Materials Science and Technology: MST: A publication of the Institute of Metals,2003(10):1386-1390. |
[14] | 李元东,郝远,闫峰云,方铭.AZ91D镁合金在半固态等温热处理中的组织演变[J].中国有色金属学报,2001(04):571-575. |
[15] | 曾荣昌,柯伟,徐永波,韩恩厚,朱自勇.Mg合金的最新发展及应用前景[J].金属学报,2001(07):673-685. |
[16] | 徐洲,李志强,王硕.Al-Cu-Fe准晶及其晶体类似相与纯Mg的界面反应[J].中国有色金属学报,2001(z2):167-171. |
[17] | Pinhero P J et al.Surface oxidation of quasicrystalline AlCuFe alloy:No effect of surface orientation and grain boundaries on the final state[J].Materials Research,1999,14(08):3185. |
[18] | 陈振华;严红革;陈吉华.镁合金[M].北京:化学工业出版社,2004:304. |
[19] | Mikucki B A et al.Extruded Mg alloy reinforced with ceramic particles[J].Soc Automotive Eng Trans,1990,99:597. |
[20] | Luo A .Heterogenous nucleation and grain refinement in cast Mg/SiCp metal matrix composites[J].Canadian Metallurgical Quarterly,1996,35(04):375. |
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