摘要
The influence of Ti-Si-Mg-AI wire on microstructure and mechanical properties of SiCp/A1 metal matrix composite joints produced by plasma arc in-situ weld-alloying was investigated. Argon-nitrogen mixture was used as plasma gas and Ti-Si-Mg-A1 flux-cored wires as filled composites. Weldments were submitted to tensile test. Meanwhile, the macro morphology and microstructure of the joints were examined. The result shows that the formation ofneedie-like harmful phase A14C3 is effectively inhibited and the wettability of molten pool is improved by adding Ti-Si-Mg-A1 flux-cored wires. With 15Ti-5Si-5Mg-A1 flux-cored wire as filled composite, the maximum tensile strength of the welded joint is 267 MPa, which is up to 83% that of the matrix composites under annealed condition.
研究Ti-Si-Mg-Al焊丝对等离子弧原位合金化焊接制备SiC颗粒/铝金属基复合材料的微观结构和力学性能的影响。以氩氮混合气体为离子气,采用Ti-Si-Mg-Al药芯焊丝作为填充材料,对焊接接头进行拉伸试验,并对宏观形态和微观组织进行分析。结果表明:以Ti-Si-Mg-Al药芯焊丝作为原位反应填充材料,可以有效抑制针状脆性相Al4C3的生成。以15Ti-5Si-5Mg-Al药芯焊丝作为填充材料时,焊接接头的最大抗拉强度为267MPa,达到退火条件下基体材料强度的83%。
基金
Project (09003) supported by the Open-Fund Research of State Key Laboratory of Advanced Welding and Joining,Harbin Institute of Technology,China
Project (JD0805) supported by the Science and Technology Innovation Team,Jiangsu University,China
