联系方式

张贵锋,工学博士,教授,博士生导师。
研究方向:

焊接方法、焊接设备与焊接材料的研发
1. 固相焊工艺与设备:固相扩散焊(DB)与液相扩散焊(TLP)、搅拌摩擦焊(FSW)及其新工艺、超声波焊(USW)、热压焊等;
2. 特种钎焊:搅拌摩擦钎焊(FSB)、压力钎焊、半固态钎焊、复合钎焊;
3. 金属基复合材料(MMC)的焊接、制备与应用;
4. 先进弧焊方法与设备系统(含焊接自动化);
5. 先进结构材料焊接冶金与焊接材料;

6. 异种金属连接方法;
7. 电子封装焊接材料。
 科研成果推广:

1. 搅拌摩擦焊制备“铝软连接”、“双金属复合板”的专利方法与专利制品;

2. 特种焊方法:异种(同种)金属大面积焊接、修复专利方法---搅拌摩擦钎焊(FSB);搅拌摩擦点钎焊(FSSB:friction stir spot brazing)方法与设备

3. 特种焊材:不同体积分数铝基复合材料(SiCp/ZL101)专用钎料;

4. 管材、棒材液相扩散焊(TLP)焊接设备与焊接材料(协助指导:杨永兴教授);

5. 制冷设备用铜—铝管接头储能焊专用焊接设备(国家科技进步三等奖,第1完成人:邱凤翔教授);

6. 开关用铜软连接专用焊接设备(协助指导:王士元教授)。

招生信息:

每年招收3名硕士研究生(优先招收焊接专业、材料成形专业毕业生);1~2名博士研究生。

联系方式:

Email:gfzhang@mail.xjtu.edu.cn

期刊论文:

[1] Guifeng Zhang, Wei Su, Jianxun Zhang, and Zhongxin Wei. Friction Stir Brazing: a Novel Process for Fabricating Al/Steel Layered Composite and for Dissimilar Joining of Al to Steel. Metallurgical and Materials Transactions A, 2011, 42(9)2850-2861.

 

[2] Guifeng Zhang, Xianjin Lioa, Bo Chen, Jianxuin Zhang. Approach to producing in situ reinforcing phase within active transient liquid phase (A-TLP) bond seam of aluminum matrix composite. Metallurgical and Materials Transactions A, 2015, 46(6): 2568-2578.

 

[3] Guifeng Zhang, Wei Su, Akio Suzumura. Active-transient liquid phase (A-TLP) bonding of pure aluminum matrix composite reinforced with short alumina fiber using Al-12Si-xTi foils as active interlayer. Metallurgical and Materials Transactions B, 2016,47(6):2026-2039.

 

[4] Guifeng Zhang, Linjie Zhang, Changwei Kang, Jianxun Zhang. Development of friction stir spot brazing (FSSB). Materials and Design, 2016, 94: 502-514.

 

[5]  Guifeng Zhang, Jie Cai, Biqiang Chen, Tingting Xu. Availability of in-situ reinforced active-transient liquid phase bond with good wettability for 70 vol.% SiCp/A356 composite using Al-Mg-Ga-Ti interlayer. Materials and Design, 2016, 110: 653-662.

 

[6] Guifeng Zhang, Jianxun Zhang, Yi Pei, Siyu Li, Donglang Chai. Joining of Al2O3p/Al composites by transient liquid phase (TLP) bonding and a novel process of active-transient liquid phase (A-TLP) bonding. Materials Science and Engineering A, 2008, 488: 146-156.

 

[7] Zhang, G. F., Jiao W. M., Zhao, J. P., Zhang, J. X. Friction stud welding of steel stud to Al plate. Welding Journal. 2013, 92(1), 54-57.

 

[8] G. F. Zhang, W. Su, J. Zhang, J. X. Zhang. Visual observation of the effect of tilting tool on forging action during FSW of aluminium sheet. Science and Technology of Welding & Joining. 2011, 16(1): 87-91.

 

[9] G. F. Zhang, W. M. Jiao, J. X. Zhang. Filling friction stir weld keyhole using pin free tool and T shaped filler bit. Science and Technology of Welding and Joining, 2014, 19(2): 98-104.

[10] G. F. Zhang, K. Zhang, L. J. Zhang, and J. X. Zhang. An approach to disrupting thick intermetallic compound interfacial layer in friction stir brazing (FSB) of Al/Cu plates. Science and Technology of Welding and Joining. 2014, 19(7): 554-559.

 

[11] Guifeng Zhang. Wei Su, Jianxun Zhang, Suzumura, A. Wetting Behavior of a Novel Al-Si-Ti Active Brazing Filler Metal Foil on Aluminum Matrix Composite. Journal of Materials Engineering and Performance, 2013, 22(7):1982-1994.

 

[12] Guifeng Zhang, Bo Chen, Minzheng Jin, Jianxun Zhang. Active-Transient Liquid Phase (A-TLP) Bonding of High Volume Fraction SiC Particle Reinforced A356 Matrix Composite. Materials Transaction, 2015, 56(2): 212-217.

 

[13] Guifeng Zhang, Yasuo Takahashi, Zhonghao Heng, Kazumasa Takashima and Kouta Misawa. Ultrasonic weldability of Al ribbon to Cu sheet and the dissimilar joint formation mode. Materials Transaction, 2015, 56(11): 1842-1851.

 

[14] ZHANG Gui-feng, SU Wei, ZHANG Jian-xun, SUZUMURA Akio. Development of Al-12Si-xTi system active ternary filler metals for Al metal matrix composites. Transaction of Nonferrous Metals Society of China. 2012, 22(3): 596-603.

[15] Guifeng Zhang, Wei Su, Jun Zhang, Zhongxin Wei, Jianxun Zhang. Effects of shoulder on interfacial bonding during fiction stir lap welding of thin aluminum sheet. Transaction of Nonferrous Metals Society of China. 2010, 20(12): 2223-2228.

[16] 张贵锋,张建勋,裴怡,牛靖. 相变扩散钎焊新工艺及主组元扩散行为. 金属学报,2004,40(6): 653-658. (SCI: 833LJ)

 

[17] 张贵锋,张建勋,张华,裴怡,王士元. 预置中间层的相变超塑性焊接新工艺及其接头组织. 金属学报,2003, 39(6): 655-660. (SCI : 697TB)

[18]  Guifeng Zhang, Zhongxin Wei, Biqiang Chen, and Bo Chen. Abnormal transient liquid phase bondability of high-volume fraction SiC particle-reinforced A356 composite for Cu interlayer and the interlayer improvement routes. Journal of Materials Engineering and Performance. 2017, 26(12): 5921–5937.

 

[19] Gui-Feng Zhang,  Kai Zhang,  Yang Guo,  Jian-Xun Zhang. A comparative study of friction stir brazing and furnace brazing for dissimilar metals of Al and Cu plates. Metallography, Microstructure, and Analysis.2014, 3:272–280.

[20] Zhang Guifeng, Su Wei, Guo Yang, Liao Xianjin, Zhang Jianxun and Suzumura Akio. Development of three kinds of active ternary filler metals of Al-Si-Ti, Zn-Al-Ti and Cu-Al-Ti systems for Al metal matrix composites. China Welding, 2011, 20(2): 73-80.

[21] Zhang Guifeng, ZhangJianxun, Pei Yi. Joining of metal bars by a new process of transformation-diffusion brazing. China Welding, 2006, 15(1): 16-19. 

 

[22] 张贵锋, 张建勋, 李思玉. 铝基复合材料活性液相扩散焊新工艺. 西安交通大学学报, 2009, 43(11): 71-74.

[23] 张贵锋, 苏伟, 张建勋. 铝与异种金属的搅拌摩擦钎焊(FSB)新工艺及其在Al/steel双金属复合板制备中的应用. 材料科学与工艺, 2009, 17(Sup.1): 185-190.

[24] 张贵锋, 苗慧霞, 张建勋, 裴怡, 肖克民, 杨永兴.焊后多次正火对超细晶粒钢热影响区组织与硬度的影响. 西安交通大学学报, 2008, 42(1): 65-69.

[25] 张贵锋,张建勋,钟明波,裴 怡.铝基复合材料/低碳钢异种材料过渡液相扩散焊. 焊接学报,  2007, 28(9):59-62.

[26] 张贵锋, 张建勋, 裴怡, 米运卿. 相变- 扩散钎焊工艺焊接接头缺陷分析. 焊接学报, 2004, 25(3)93-96.

[27] 张贵锋, 郭咏华, 徐明志, 张建勋. 高效搅拌摩擦钎焊制备铝/ 钢双金属复合板的可行性研究.西安交通大学学报, 2010, 44(12): 93-98.

[28] 张贵锋, 张建勋, 裴怡, 徐健. Ni基及Fe基非晶态箔带钎料对碳素钢管的润湿行为. 焊接学报,2006, 27(7): 61-64.

         [29] 张贵锋,苗慧霞,张建勋,裴怡,王健,张延涛. 紧急水冷及焊后正火对超细晶粒钢接头热影响区组织与硬度的影响, 焊接学报, 2007, 12(8): 47-50.