文章摘要
杨博威,刘文月,高民强,等.挤压比对流变挤压成形Al-0.1Fe合金组织性能的影响[J].精密成形工程,2024,16(8):52-60.
YANG Bowei,LIU Wenyue,GAO Minqiang,et al.Effect of Extrusion Ratio on Microstructure and Properties of Al-0.1Fe Alloy Fabricated by Continuous Rheo-extrusion[J].Journal of Netshape Forming Engineering,2024,16(8):52-60.
挤压比对流变挤压成形Al-0.1Fe合金组织性能的影响
Effect of Extrusion Ratio on Microstructure and Properties of Al-0.1Fe Alloy Fabricated by Continuous Rheo-extrusion
投稿时间:2024-03-19  
DOI:10.3969/j.issn.1674-6457.2024.08.006
中文关键词: 挤压比  流变挤压  Al-0.1Fe合金  组织性能  导电率
英文关键词: extrusion ratio  continuous rheo-extrusion  Al-0.1Fe alloy  microstructure and properties  conductivity
基金项目:国家自然科学基金(U2341253,52101068);国家重点研发计划(2022YFE0137900,2021YFB3702005)
作者单位
杨博威 海洋装备用金属材料及其应用国家重点实验室辽宁 鞍山 114009
鞍钢集团北京研究院有限公司北京 102200 
刘文月 海洋装备用金属材料及其应用国家重点实验室辽宁 鞍山 114009
鞍钢集团北京研究院有限公司北京 102200 
高民强 大连交通大学 连续挤压教育部工程研究中心辽宁 大连 116028 
刘鑫 海洋装备用金属材料及其应用国家重点实验室辽宁 鞍山 114009
鞍钢集团北京研究院有限公司北京 102200 
郭庆涛 海洋装备用金属材料及其应用国家重点实验室辽宁 鞍山 114009
鞍钢集团北京研究院有限公司北京 102200 
巩俐 海洋装备用金属材料及其应用国家重点实验室辽宁 鞍山 114009
鞍钢集团北京研究院有限公司北京 102200 
管仁国 大连交通大学 连续挤压教育部工程研究中心辽宁 大连 116028 
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中文摘要:
      目的 研究挤压比对流变挤压态Al-0.1Fe合金微观组织演化和力学性能的影响规律,为通过流变挤压成形制备高性能Al材过程中挤压比的选用提供依据与参考。方法 采用重力铸造和流变挤压方法制备了Al-0.1Fe合金,对比了铸态和流变挤压态Al-0.1Fe合金的微观组织和力学性能,通过Arrhenius方程建立了晶界迁移速率与温度之间的关系,研究了流变挤压过程中不同挤压比对Al-0.1Fe合金组织性能的影响。结果 流变挤压变形可消除铸造过程中形成的粗大枝晶,破碎微米尺寸Al3Fe相,使之转变为细小的等轴晶和纳米尺寸Al3Fe相;当挤压比从4增大至6.25时,流变挤压态Al-0.1Fe合金的晶粒逐渐细化,位错密度提高,纳米尺寸Al3Fe相逐渐球化,合金强度和硬度提高,导电率降低;当挤压比为9时,大量摩擦热和变形热增大了晶界迁移速率,导致流变挤压态Al-0.1Fe合金的晶粒和纳米尺寸Al3Fe相发生粗化,位错密度降低,伸长率和导电率提高。结论 在流变挤压成形过程中适当提高挤压比可以细化合金的微观组织,提高合金的力学性能;当挤压比过高时,合金微观组织发生粗化,导致合金的力学性能降低。
英文摘要:
      The work aims to investigate the effect of extrusion ratio on the microstructure evolution and mechanical properties of Al-0.1Fe alloy fabricated by continuous rheo-extrusion (CRE) forming, to provide reference for selecting extrusion ratio of high-performance CRE Al alloys. Al-0.1Fe alloy was prepared by gravity casting and CRE, respectively. The variation in microstructure and mechanical properties of as-cast and CRE Al-0.1Fe alloy were revealed. The relationship between grain boundary migration rate and temperature was established by the Arrhenius equation. The effects of different extrusion ratios on the microstructure and mechanical properties of Al-0.1Fe alloy during CRE were studied. The results showed that the coarse dendrites and micron-sized Al3Fe phases were eliminated, broken, and changed into fine equiaxed grains and nano-sized Al3Fe phases during CRE, respectively. The grains were refined and dislocation density enhancement was achieved in the CRE Al-0.1Fe alloy with extrusion ratio increasing from 4 to 6.25, while spheroidization occurred on nano-sized Al3Fe phases. The strength and hardness increased, but the ductility decreased. As the extrusion ratio increased to 9, the high friction and deformation heat improved the grain boundary migration rate, resulting in the coarsening of grains and nano-sized Al3Fe phases in the CRE Al-0.1Fe alloy. The dislocation density decreased, while the elongation and ductility increased. The microstructure of the alloy can be refined during CRE through appropriately increasing the extrusion ratio, and the mechanical properties can be improved as a result. However, the microstructure of the alloy tend to coarsen and mechanical properties decrease during CRE with excessive extrusion ratio.
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