采用电场激活扩散连接技术(FADB)实现了AZ31B/Cu的扩散连接.利用SEM、EDS和TEM分析了扩散溶解层的显微组织、相组成和界面元素分布.采用万能试验机对连接界面的抗剪切性能进行了测试.结果表明:AZ31B与Cu通过固相扩散形成了良好的冶金结合界面,扩散温度低于475℃时扩散溶解层由MgCu2、Mg2Cu和MgCuAl组成,此时接头的薄弱环节为Mg2Cu.扩散温度为500℃时扩散溶解层由Mg2Cu、(α-Mg+ Mg2Cu)共晶组织和MgCuAl组成,共晶组织的形成导致接头的抗剪强度进一步降低,并成为新的薄弱环节.当扩散温度为450℃,保温时间为30min时,界面的抗剪强度随保温时间的延长先增大后减小,最大可达40.23MPa.
参考文献
| [1] | 刘静安.镁合金加工技术发展趋势与开发应用前景[J].轻合金加工技术,2001(11):1-7. |
| [2] | E. Schubert;M. Klassen;I. Zerner .Light-weight structures produced by laser beam joining for future applications in automobile and aerospace industry[J].Journal of Materials Processing Technology,2001(1):2-8. |
| [3] | 李亚江;王娟;刘强.有色金属焊接及应用[M].北京:化学工业出版社,2006 |
| [4] | Yutaka S. Sato;Seung Hwan C. Park;Masato Michiuchi;Hiroyuki Kokawa .Constitutional liquation during dissimilar friction stir welding of Al and Mg alloys[J].Scripta materialia,2004(9):1233-1236. |
| [5] | Jian Zhang;Qiang Shen;Guoqiang Luo;Meijuan Li;Lianmeng Zhang .Microstructure and bonding strength of diffusion welding of Mo/Cu joints with Ni interlayer[J].Materials & design,2012(Aug.):81-86. |
| [6] | Yao, W;Wu, AP;Zou, GS;Ren, HL .Formation process of the bonding joint in Ti/Al diffusion bonding[J].Materials Science & Engineering. A, Structural Materials: Properties, Microstructure and Processing,2008(1-2):456-463. |
| [7] | Guo He;Honghua Liu;Qingbiao Tan .Diffusion bonding of Ti-2.5Al-2.5Mo-2.5Zr and Co-Cr-Mo alloys[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,2011(27):7324-7329. |
| [8] | 陈波,熊华平,毛唯,程耀永.SiO2f/SiO2复合材料自身及其与铜、不锈钢的钎焊[J].航空材料学报,2012(01):35-40. |
| [9] | Liu LM;Wang SX;Zhao LM .Study on the dissimilar magnesium alloy and copper lap joint by TIG welding[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2008(1/2):206-209. |
| [10] | 王生希 .镁铜异种金属TIG焊接性的研究[D].大连理工大学,2006. |
| [11] | L. Xu;Y.Y. Cui;Y.L. Hao;R. Yang .Growth of intermetallic layer in multi-laminated Ti/Al diffusion couples[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2006(1/2):638-647. |
| [12] | Liu P;Li YJ;Geng HR;Wang J .Investigation of interfacial structure of Mg/Al vacuum diffusion-bonded joint[J].Vacuum: Technology Applications & Ion Physics: The International Journal & Abstracting Service for Vacuum Science & Technology,2006(5):395-399. |
| [13] | Xinjian Yuan;Kunlun Tang;Yongqiang Deng;Jun Luo;Guangmin Sheng .Impulse pressuring diffusion bonding of a copper alloy to a stainless steel with/without a pure nickel interlayer[J].Materials & design,2013(Dec.):359-366. |
| [14] | 周媛,熊华平,毛唯,陈波,叶雷.TiAl合金与高温合金的扩散焊接头组织及性能[J].材料工程,2012(08):88-91,100. |
| [15] | 杜双明,刘刚,王明静.AZ31B/Cu异种金属过渡液相扩散焊接头的显微组织及性能[J].中国有色金属学报,2013(05):1255-1261. |
| [16] | G. MAHENDRAN,V. BALASUBRAMANIAN,T. SENTHILVELAN.Influences of diffusion bonding process parameters on bond characteristics of Mg-Cu dissimilar joints[J].中国有色金属学报(英文版),2010(06):997-1005. |
| [17] | 吴铭方 .铝合金与不锈钢低温扩散焊及界面主组元扩散行为研究[D].江苏大学,2011. |
| [18] | Y. Zhou;Q. Wang;D.L. Sun .Co-effect of heat and direct current on growth of intermetallic layers at the interface of Ti-Ni diffusion couples[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,2011(4):1201-1205. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%