Chen Changhai

                                             


Faculty Content

Associate Researcher

Phone: +86-15827171807

Email: chenchanghai@hust.edu.cn

Academic Areas: Structural mechanics, Explosion dynamics

Research Interests: Explosion dynamics, Protection technology


Academic Degrees

PhD in Naval Architecture and Ocean Engineering, 2013, Naval University of Engineering (China)

ME in Naval Architecture and Ocean Engineering, 2009, Naval University of Engineering (China)

BE in Naval Architecture and Ocean Engineering, 2007, Naval University of Engineering (China)


Professional Experience

Associate Researcher (2018-present); Huazhong University of Sci. & Tech., China

Lecturer (2013-2018): Naval University of Engineering, China


Publications

1. Hou Hailiang, Chen Changhai*, Cheng Yuansheng, Zhang Pan, Tian Xuebing, Liu Ting, Wang Junze. Effect of structural configuration on air blast resistance of polyurea-coated composite steel plates: Experimental studies. Materials & Design 2019; 182: 108049. (IF: 5.770)

2. Chen Changhai*, Zhu Xi, Hou Hailiang, et al. Analytical model for high-velocity perforation of moderately thick ultra-high molecular weight polyethylene-woven laminated plates[J]. Journal of Composite Materials, 2015, 49(17): 2119-2136.SCI:WOS:000357571900006EI20133816758162

3. Chen Changhai*, Zhu Xi, Hou Hailiang, et al. An experimental study on the ballistic performance of FRP-steel plates completely penetrated by a hemispherical-nosed projectile[J]. Steel and Composite Structures, 2014, 16(3): 269-288.SCI:WOS:000337313600003EI20141317510525

4. Li Dian, Hou Hailiang*, Chen Changhai, et al. Experimental study on the combined damage of multi-layered composite structures subjected to close-range explosion of simulated warheads[J]. International Journal of Impact Engineering, 2018, 114: 133-146. (SCI:WOS:000425563100013, EI: 20180904835880)

5. Chen Changhai, Zhu Xi*, Zhang Lijun, et al. A comparative experimental study on the blast-resistant performances of single and multi-layered thin plates under close-range airblast loading[J]. China Ocean Engineering, 2013, 27(4): 523-535. SCI:WOS:000323201700008EI20133816758162

6. Chen Changhai*, Zhu Xi, Hou Hailiang, et al. A new analytical model for the low-velocity perforation of thin steel plates by hemispherical-nosed projectiles[J]. Defence Technology, 2017.SCI:WOS:000414454600002


Courses Taught

Offshore platform structure and strength, Undergraduate

Marine resources and development, Undergraduate


Project

1. National Natural Science Foundation of China (NSFC), Investigation on mechanism and load characteristic of the combined effect of air-blast waves and high-velocity fragments, Grant No. 514092532015-2017

2. Fundamental Research Funds for the Central Universities, Research on failure mechanism of polyurea-coated ceramic/metallic composite structures under the combined effect of shock wave and fragment loadings, Grant No. 2019kfyXJJS007, 2019-2021


Awards