SnBiAg无铅钎料恒温激光焊接数值模拟与实验研究.docx
SnBiAg无铅钎料恒温激光焊接数值模拟与实验研究
目录
SnBiAg无铅钎料恒温激光焊接数值模拟与实验研究(1)..........4
内容概要................................................4
1.1研究背景及意义.........................................4
1.2国内外研究现状.........................................5
1.3研究内容与方法.........................................6
SnBiAg无铅钎料材料特性分析..............................7
2.1SnBiAg合金的成分与结构.................................8
2.2机械性能与物理性能.....................................9
2.3焊接性能与应用前景....................................10
激光焊接理论基础.......................................12
3.1激光焊接原理..........................................13
3.2焊接热传导与温度场....................................14
3.3焊缝形貌与组织结构....................................15
数值模拟方法与实现.....................................17
4.1数值模拟算法选择......................................18
4.2模型建立与边界条件设定................................19
4.3模拟结果与分析........................................21
实验设计与实施.........................................22
5.1实验设备与材料准备....................................22
5.2实验参数确定与优化....................................23
5.3实验过程记录与数据分析................................25
结果对比与讨论.........................................26
6.1数值模拟结果与实验结果的对比..........................28
6.2影响因素分析..........................................29
6.3改进措施与展望........................................30
总结与结论.............................................31
7.1研究成果总结..........................................33
7.2存在问题与不足........................................33
7.3未来发展方向..........................................34
SnBiAg无铅钎料恒温激光焊接数值模拟与实验研究(2).........36
内容概述...............................................36
1.1研究背景与意义........................................36
1.2钎料焊接技术概述......................................37
1.3研究内容与方法........................................38
文献综述...............................................39
2.1SnBiAg无铅钎料的研究进展..............................41
2.2激光焊接技术发展......................................42
2.3数值模拟在钎料焊接中的应用............................43
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