Formation of microlayers of clad residue on aluminium brazing sheet during melting and resolidification in brazing process

F. Gao; D. P. Sekulic; Y. Y. Qian; J. G. Morris

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Formation of microlayers of clad residue on aluminium brazing sheet during melting and resolidification in brazing process

机译：钎焊过程中熔化和再固化过程中铝钎焊板上形成残留的微层

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The present paper is devoted to an analysis of clad residue formation during a controlled atmosphere brazing (CAB) process applied to composite aluminium brazing sheets. Evolution of the microstructure of the clad residue, and in particular the mass of resolidified clad formed, were studied. Observations confirmed that, even under optimal brazing conditions, a residue layer (formed away from the joint zone) always appears after brazing. It was established that the peak brazing temperature plays an important role in the process responsible for formation of the residue mass. However, dwell time at the peak brazing temperature does not have a significant influence on clad residue mass accumulation beyond its known influence on substrate dissolution and core metal erosion in the joint zone.

机译：本文致力于对复合铝钎焊薄板进行可控气氛钎焊（CAB）过程中熔覆残余物形成的分析。研究了包层残余物的微观结构的演变，特别是形成的再固化包层的质量。观察结果证实，即使在最佳钎焊条件下，钎焊后总会出现残留层（远离接头区域形成）。已经确定，峰值钎焊温度在负责残留物形成的过程中起着重要作用。但是，在峰值钎焊温度下的停留时间对复合残渣质量积累没有显着影响，除了已知的影响基体溶解和接头区域内核心金属腐蚀之外。

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《Materials Science and Technology: MST: A publication of the Institute of Metals》 |2004年第5期|共8页
作者
F. Gao; D. P. Sekulic; Y. Y. Qian; J. G. Morris;
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正文语种 eng
中图分类工程材料学;
关键词
Aluminium alloys; Cladding; Aluminium silicon alloys; Residues;

机译：铝合金;覆层;铝硅合金;残渣;

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1. Formation of microlayers of clad residue on aluminium brazing sheet during melting and resolidification in brazing process [J] . F. Gao, D. P. Sekulic, Y. Y. Qian, Materials Science and Technology: MST: A publication of the Institute of Metals . 2004,第5期

机译：钎焊过程中熔化和再固化过程中铝钎焊板上形成残留的微层
2. Influence of process parameters on thermal cycle and intermetallic compounds formation in high speed laser weld-brazing of aluminium-steel angle joints [J] . Guillaume Filliard, Mohamed El Mansori, Mathieu De Metz-Noblat, Procedia Manufacturing . 2018,第2期

机译：工艺参数对铝钢角焊缝高速激光焊接中热循环和金属间化合物形成的影响
3. Influence of process parameters on thermal cycle and intermetallic compounds formation in high speed laser weld-brazing of aluminium-steel angle joints [J] . Guillaume Filliard, Mohamed El Mansori, Mathieu De Metz-Noblat, Procedia Manufacturing . 2018,第3期

机译：工艺参数对铝钢角焊缝高速激光焊接中热循环和金属间化合物形成的影响
4. Electrochemical and microstructural characterization of multi-clad aluminium brazing sheets [C] . Kirill BORDO, Visweswara Chakravarthy GUDLA, Lionel PEGUET, European Corrosion Congress . 2018

机译：多包层铝钎焊床的电化学和微观结构表征
5. Transport phenomena involving molten clad during aluminum brazing process. [D] . Zhao, Hui. 2005

机译：铝钎焊过程中涉及熔覆的传输现象。
6. The Study on Mechanical Strength of Titanium-Aluminum Dissimilar Butt Joints by Laser Welding-Brazing Process [O] . Xiongfeng Zhou, Ji’an Duan, Fan Zhang, 2019

机译：钛铝异种对接接头机械强度的激光焊接-钎焊研究
7. Effect of Bismuth Addition to Brazing Sheet Claddings on Fluxless Brazability of Aluminum(Welding Physics, Process Instrument) [O] . TAKEMOTO Tadashi, OKAMOTO Ikuo 2013

机译：钎料熔覆层中添加铋对铝无熔剂钎焊性能的影响（焊接物理，工艺与仪器）

Formation of microlayers of clad residue on aluminium brazing sheet during melting and resolidification in brazing process

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