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热挤压对YAl_(2p)/Mg-14Li-3Al复合材料组织和性能的影响 被引量:2

Effect of hot extrusion on structure and properties of YAl_(2p)/Mg-14Li-3Al composites
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摘要 利用搅拌铸造法制备出不同体积分数的YAl_(2p)/Mg-14Li-3Al复合材料,然后将其挤压成薄壁管材,通过金相显微镜、扫描电镜和万能试验机等手段研究了热挤压变形对复合材料显微组织及力学性能的影响。结果表明,通过热挤压变形,YAl_(2p)增强体的分散性得到改善,复合材料的显微组织明显细化,力学性能显著提升。其中挤压态体积分数为1%的YAl_(2p)/Mg-14Li-3Al复合材料与铸态相比,抗拉强度和屈服强度均提高了60%以上,塑性得到改善。在挤压的过程中,复合材料的挤压力峰值与Mg-14Li-3Al合金相比略有增加,且挤压力峰值达到的时间存在滞后的现象。 YAl2p/Mg-14Li-3Al composites with different volume fraction were fabricated by stir casting,and then the as-cast ingots were extruded as composite thin-walled tubes with the defined experimental parameters. Effects of hot extrusion deformation on microstructure and mechanical properties of YAl2p/Mg-14Li-3Al composites were investigated by optical microscope,scanning electronic microscope,tensile tests and so on.The results show that hot extrusion deformation can effectively improve the YAl_(2p)distribution and the mechanical properties of the composites. In addition,the grains of matrix are significantly refined after hot extrusion.For as-extruded YAl_(2p)/Mg-14Li-3Al composites with volume fraction of 1%,compared with as-cast condition,the tensile strength and the yield strength are both improved by over 60%,and the ductility is improved. In the process of hot extrusion,the extrusion pressure peak of the composite is improved slightly compared with Mg-14Li-3Al alloy,and the time of the peak pressure of the composite lags behind the alloy.
出处 《北京航空航天大学学报》 EI CAS CSCD 北大核心 2017年第12期2547-2553,共7页 Journal of Beijing University of Aeronautics and Astronautics
基金 国家自然科学基金(50901005) 航空科学基金(2010ZF51068)~~
关键词 热挤压 Mg-Li-Al基复合材料 YAl2p 显微组织 力学性能 hot extrusion Mg-Li-A1 matrix composites YA12p microstructure mechanical property
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  • 1范才河,陈刚,严红革,陈振华.稀土在镁及镁合金中的作用[J].材料导报,2005,19(7):61-63. 被引量:62
  • 2吴玉锋,杜文博,聂祚仁,曹林锋,左铁镛.颗粒增强镁基复合材料研究进展[J].稀有金属材料与工程,2007,36(1):184-188. 被引量:19
  • 3Thakur S K, Dhindaw B K, Hort N et al. Materials Science Forum[J], 2003, 419-422:837.
  • 4Ye Haizhi, Liu Xingyang. Journal of Materials Science[J], 2004, 39(20): 6153.
  • 5Chino Y, Mauchi M. Journal of Japan Institute of Light Metals[J], 2001, 5(10): 498.
  • 6Volkova E F. Metal Science and Heat Treatment[J], 2006, 48(11-12): 473.
  • 7Wang Yingxin, Zeng Xiaoqin, Ding Wenjiang. Scripta Materialia[J], 2006, 54(2): 269.
  • 8ZouJin(邹晋) ZhangJianyun(张建云) ZhouXianliang(周贤良).金属材料研究,1973,:105-105.
  • 9廖乾初 孙福玉 蓝芬兰.准解理断裂的本质.金属学报,1979,02.
  • 10Prasad Y V R K, Rao K P, Gupta M. Composite Science and Technology[J], 2009, 69:1070.

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