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钎料表面微结构对糊状钎剂黏附性的影响
引用本文:杜全斌,龙伟民,路全彬,张青科. 钎料表面微结构对糊状钎剂黏附性的影响[J]. 焊接学报, 2017, 38(2): 37-40
作者姓名:杜全斌  龙伟民  路全彬  张青科
作者单位:郑州机械研究所 新型钎焊材料与技术国家重点实验室, 郑州 450001
基金项目:国家国际科技合作计划资助项目,感谢河南省重大科技专项(141100211100)的资金资助
摘    要:文中采用金相显微镜、润湿角测定仪、表面张力仪等分析手段,分析了钎料表面微结构对糊状钎剂黏附性的影响.结果表明,糊状钎剂可在擦洗、擦洗+精轧两种钎料表面黏附润湿或浸湿,但不能自行铺展润湿.与擦洗钎料相比,糊状钎剂在擦洗+精轧钎料表面具有更大的接触角滞后、糊状钎剂黏附量,且黏附层分布相对均匀,收缩坑较少.糊状钎剂在擦洗、擦洗+精轧钎料表面的黏附功和黏附张力,分别为106.39,29.89和110.28,33.78 mN/m.糊状钎剂在擦洗+精轧钎料表面具有更大的黏附功和黏附张力,是其表面黏附量大、黏附层均匀、收缩坑少的主要原因.

关 键 词:钎料   表面微结构   糊状钎剂   黏附张力
收稿时间:2015-10-27

Effect of surface microstructure on adhesive ability of flux suspension
DU Quanbin,LONG Weimin,LU Quanbin and ZHANG Qingke. Effect of surface microstructure on adhesive ability of flux suspension[J]. Transactions of The China Welding Institution, 2017, 38(2): 37-40
Authors:DU Quanbin  LONG Weimin  LU Quanbin  ZHANG Qingke
Affiliation:State Key Laboratory of Advanced Brazing Filler Metals, Zhengzhou Research Institute of Mechanical Engineering, Zhengzhou 450001, China
Abstract:This paper studied the effect of surface microstructure on wettability of flux suspension with the equipment of OM, Wetting Angle Tester and Surface Tensiometer. Experiment results and analysis show that flux suspension can adhesional wet or soak on the surface microstructure of brazing filler metal which is treated by scrubbing,scrubbing+finish rolling, but can't self wetting. Compared with scrubbing filler metals, scrub+finishing filler metals have lager contact angle hysteresis, adhesive quality of flux suspension. Adhesion layer is well distributed, and has less shrinkage hole. The adhesion work and adhesion tension are 106.39, 29.89 and 110.28, 33.78 mN/m, when flux suspension is wetting brazing filler metals treated respectively by scrubbing、scrubbing+finish rolling. With larger adhesion work and adhesion tension of scrub+finishing filler metals result in larger adhesive quality of flux suspension,well-distributed adhesion layer and less shrinkage hole.
Keywords:brazing filler metal  surface microstructure  flux suspension  adhesion tension
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