付昆昆 研究员


付昆昆,男,19848月生,同济大学青年百人,特聘研究员,博士生导师。研究方向包括先进复合材料的损伤预测和冲击防护技术、先进材料和结构力学行为的数值模拟、先进复合材料的雷击完整性分析、高性能涂层材料的设计制备和力学表征。付昆昆博士是同济大学“青年百人”获得者,曾先后在澳大利亚悉尼大学、新南威尔士大学等世界一流学府进行博士后研究工作和教学工作,师从澳大利亚技术科学与工程院院士澳籍华裔Lin Ye教授。近年来先后承担和参与了国家自然科学基金项目、澳大利亚ARC发现类项目、船舶动力基础科研项目、国家重点实验室开放课题等多项重要研究课题和10余项企业横向项目。担任1个国际期刊的编委、2届国际会议的筹委会委员、2届国际会议的技术委员会委员、4个国际知名学术组织的成员和10余个知名SCI期刊的长期审稿人。在Composites Science and TechnologyComposite Structures等国内外知名期刊上累计发表40余篇期刊文章(其中,SCI检索近30篇),获得国家专利1项,受邀负责1篇英文学术专著章节的编写,作为起草人参与了1项国家标准的制定。


欢迎力学、材料、航空、机械、化学等相关专业的硕士生和博士生报考加盟本课题组,本课题组和澳大利亚、美国、德国、香港等国际知名大学课题组具有密切的合作关系,可以联合培养研究生。另招收博士后和副研究员各一名。


联系方式:
电子邮箱:1984fukunkun@tongji.edu.cn

电话:13918082606

教育经历

2010.09-2014.05  博士学位  同济大学(悉尼大学)

2007.09-2010.04  硕士学位  中国舰船研究院

2003.09-2007.06  学士学位  南京航空航天大学

工作经历

2018.10-至今    特聘研究员   同济大学航空航天与力学学院/高等研究院

2018.04-2018.10  博士后研究员  新南威尔士大学

2015.08-2018.03  博士后研究员  悉尼大学

2014.05-2015.06  工程师     中船重工第703研究所

代表性SCI期刊论文

  1. K. Fu, H. Wang, L. Chang, M. Foley, K. Friedrich, L. Ye. (2018). Low-velocity impact behaviour of a shear thickening fluid (STF) and STF-filled sandwich composite panels. Composites Science and Technology. 165, 74-83.

  2. K. Fu, H. Wang, S. Wang, L. Chang, L. Shen, L. Ye. (2018). Compressive behaviour of shear thickening fluids with concentrated polymers at high strain rates. Materials & Design. 140, 295-306.

  3. K. Fu, L. Sheppard, L. Chang, X. An, C. Yang, L. Ye. (2018). Comparative study on plasticity and fracture behaviour of Ti/Al multilayers. Tribology International. 126, 344-351.

  4. K. Fu, L. Sheppard, L. Chang, X. An, C. Yang, L. Ye. (2018). Length-scale-dependent nanoindentation creep behaviour of Ti/Al multilayers by magnetron sputtering. Materials Characterization. 139, 159-170.

  5. K. Fu, L. Ye, L. Chang, C. Yang, Z. Zhong. (2017). Modelling of lightning strike damage to CFRP composites with an advanced protection system. Part I: thermal–electrical transition. Composite Structures. 165, 83-90.

  6. K. Fu, X. An, L. Chang, C. Yang, L. Sheppard, H. Wang, L. Ye. (2017). Ultra-high specific strength and deformation behavior of nanostructured Ti/Al multilayers. Journal of Physics D: Applied Physics. 50, 365302.

  7. K. Fu, L. Chang, L. Ye, Y. Yin. (2017). Thickness-dependent fracture behaviour of brittle films on a ductile substrate under nanoindentation.Vacuum. 144, 107-115.

  8. K. Fu, L. Chang, C. Yang, L. Sheppard, H. Wang, M. Maandal, L. Ye. (2017). Plastic behaviour of high-strength lightweight Al/Ti multilayered films. Journal of Materials Science. 52, 13956-13965.

  9. K. Fu, L. Chang, L. Ye, Y. Yin. (2016). Indentation stress-based models to predict fracture properties of brittle thin film on a ductile substrate. Surface & Coatings Technology. 296, 46-57.

  10. K. Fu, L. Chang, B. Zheng, Y. Tang, H. Wang. (2015). On determination of representative stress-strain relation of metallic materials using instrumented indentation. Materials & Design. 65, 989-994.

  11. K. Fu, L. Chang, B. Zheng, Y. Tang, Y. Yin. (2015). Analysis on cracking in hard thin films on a soft substrate under Berkovich indentation. Vacuum. 112, 29-32.

  12. K. Fu, Y. Chang, Y. Tang, B. Zheng. (2014). Effect of loading rate on the creep behaviour of epoxy resin insulators by nanoindentation. Journal of Materials Science:Materials in Electronics, 25, 3552-3558.

  13. K. Fu, L. Chang, Y. Yin, L. Ye, B. Zheng. (2014). A method for defining initial stress in progressively deposited film on a substrate. International Journal of Modern Physics B, 28, 1450056.

  14. K. Fu, Y. Yin, L. Chang, D. Shou, B. Zheng, L. Ye. (2013). Analysis on multiple ring-like cracks in thin amorphous carbon film on soft substrate under nanoindentation. Journal of Physics D: Applied Physics, 46, 505314.