磁化学原位合成制备ZrB2p/A356复合材料及其表征
In-situ Synthesized ZrB2p/A356 Composites by Magnetic-Chemical Reaction and Its Characterization
摘 要
采用磁化学原位反应技术,以A356-K2ZrF6-KBF4为反应体系成功制备出ZrB2颗粒增强A356基复合材料;采用XRD、SEM和拉伸试验机对该复合材料的物相组成、显微组织和力学性能进行了研究.结果表明:反应生成的ZrB2颗粒尺寸为1.0~1.3 μm,颗粒形貌为规则六方体,分布均匀;相对于常规的原位反应方法,脉冲磁场能有效促进化学反应的进程,阻止颗粒的团聚长大,使颗粒分布更加均匀;该复合材料的抗拉强度达到273.1 MPa,较未施加脉冲磁场的223.5 MPa提高了22.19%,伸长率略有下降;室温拉伸断口表现出明显的韧窝断裂特征,为塑性断裂.
原位反应
铝基复合材料
力学性能
magnetic-chemistry
in-situ reaction
aluminum matrix composite
mechanical property
Abstract
ZrB2 particle reinforced A356 matrix composites were prepared using A356-K2ZrF6-KBF4 as reaction system by magnetic-chemical in-situ reactive synthesis method.Phase composition,microstructure and mechanical properties of the composite were investigated by means of XRD,SEM and tensile test machine.The results show that the obtained ZrB2 particles with average size of 0.1-0.3 μm had regular hexagonal morphology and distributed uniformly in the matrix alloy.Compared with the traditional in-situ reaction,the pulse magnetic field could effectively improve the chemical reaction process,prevent the particles agglomeration and growth,make the particles distributed more uniformly.The tensile strength of the composites reached 273.1 MPa,which was increased by 22.19% compared with that of the composites without pulse magnetic filed (223.5 MPa).And the elongation reduced.The obvious dimple-crack characteristics on the tensile fracture surface at room temperature of the composites were observed,and the fracture mechanism was plastic fracture.
中图分类号 TG249.9
所属栏目 新材料 新工艺
基金项目 国家“863”高技术研究项目(2007AA03Z548);教育部科学技术研究重点项目(207038);江苏省六大人才高峰项目(06-D-021);江苏省博士后科研资助计划(0801009B);江苏大学高级专业人才科研启动基金项目(08JDG014)
收稿日期 2009/10/6
修改稿日期 2010/6/20
网络出版日期
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备注刘磊(1983-),男,安徽宿州人,硕士研究生.
引用该论文: LIU Lei,ZHAO Yu-tao,JIA Zhi-hong,CHEN Gang,XUAN Dong-hua. In-situ Synthesized ZrB2p/A356 Composites by Magnetic-Chemical Reaction and Its Characterization[J]. Materials for mechancial engineering, 2010, 34(12): 29~32
刘磊,赵玉涛,贾志宏,陈刚,轩动华. 磁化学原位合成制备ZrB2p/A356复合材料及其表征[J]. 机械工程材料, 2010, 34(12): 29~32
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