用非晶合金细化变质处理A356铝合金的显微组织和力学性能
Microstructures and Mechanical Properties of A356 Aluminum Alloys after Modificated by Adding Amorphous Alloy
摘 要
通过添加不同量的Zr56Co22Al16Ag6非晶合金条带对用Al-5Ti-1B预细化的A356铝合金进行细化变质处理,然后再进行固溶时效热处理,研究了合金的显微组织和力学性能,并探讨了非晶合金的细化强化机制。结果表明:随着非晶合金添加量的增加,铝合金的晶粒尺寸和二次枝晶间距均逐渐减小,力学性能得到了提高;铝合金的共晶组织中出现了弥散分布的颗粒状Al3Zr相,该相作为非均质形核的核心,起到细化晶粒的作用;加入质量分数为0.4%的非晶合金,并设定孕育期为10 min,铝合金可获得最佳的细化效果,其经固溶时效处理后的抗拉强度和伸长率比未加入非晶合金的分别提高了7%和64.4%。
Zr56Co22Al16Ag6非晶合金条带
力学性能
A356 aluminum alloy
Zr56Co22Al16Ag6 amorphous alloy ribbon
mechanical property
Abstract
A356 aluminum alloy with Al-5Ti-1B pre-refine treatment was modified by adding various amounts of Zr56Co22Al16Ag6 amorphous alloy ribbons, and then solid solution and aging heat treatment was executed on the aluminum alloy. The microstructure and mechanical properties of the aluminum alloy were studied, and the amorphous ribbon's refine mechanism was also discussed. The results show that with the increase of amorphous alloy ribbon's adding amounts, grain size and the secondary dendrite spacing of the aluminum alloy all decrease, and the mechanical properties of the aluminum alloy are improved. Dispersed granular Al3Zr phase is found in eutectic structure, the phase increases the number of nucleus, hence refines the grains. Adding 0.4wt% Zr56Co22Al16Ag6 amorphous alloy ribbons and setting incubation period of 10 min could make the aluminum alloy obtain the best refining effect, and after solid solution and aging treatment, tensile strength and elongation of the aluminum alloy owned the higher mechanical properties, compared with the aluminum alloy without adding amorphous ribbons, its tensile strength and elongation increased by 7%and 64.4%, respectively.
中图分类号 TG146.2 DOI 10.11973/jxgccl201701014
所属栏目 试验研究
基金项目 国家高技术研究发展计划资助项目(2013AA030702)
收稿日期 2015/9/11
修改稿日期 2016/9/23
网络出版日期
作者单位点击查看
备注苏云高(1989-),男,河北沧州人,硕士研究生。
引用该论文: SU Yun-gao,CUI Zhen-duo,ZHU Sheng-li,ZHAO Nai-qin,DING Jian,ZHAO Wei-min. Microstructures and Mechanical Properties of A356 Aluminum Alloys after Modificated by Adding Amorphous Alloy[J]. Materials for mechancial engineering, 2017, 41(1): 65~71
苏云高,崔振铎,朱胜利,赵乃勤,丁俭,赵维民. 用非晶合金细化变质处理A356铝合金的显微组织和力学性能[J]. 机械工程材料, 2017, 41(1): 65~71
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【6】傅高升,孙锋山,王连登,等.中间合金对铝合金细化处理的现状分析与初探[J].特种铸造及有色合金,2011,31(2):50-53.
【7】张柏清,马洪涛,李建国,等.Al-Ti-C中间合金细化剂的组织及其细化性能[J].金属学报,2000,36(4):341-346.
【8】贺永东,张新明.微量Cr、Mn、Ti、Zr细化7A55铝合金铸锭组织的效果与机理[J].中国有色金属学报,2005,15(10):1594-1601.
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【10】ROBSON J D. A new model for prediction of dispersoid precipitation in aluminium alloys containing zirconium and scandium[J]. Acta Mater,2004,52(6):1409-1421.
【11】LEFEBVRE W,DANOIX F,HALLEM H,et al. Precipitation kinetic of Al3(Sc,Zr) dispersoids in aluminium[J]. J Alloys Compd,2009,470:107-110.
【12】JIA Z H,PHILIPPE J. Precipitation behaviour of Al3Zr precipitate in Al-Cu-Zr and Al-Cu-Zr-Ti-V alloys[J]. Transactions of Nonferrous Metals Society of China,2012,22:1860-1865.
【13】ZHONG Z H,BIAN X F,WANG Y,et al. Solidification microstructure formation of an Al-Ce-Sr alloy under conventional and rapid solidification conditions[J]. Journal of Alloys and Compounds,2002,346:134-141.
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