学术动态
当前位置: 学院首页 > 学术动态 > 正文

辛志博参加国际会议回国报告

发布时间:2018-07-19 点击数:

 汇报安排:

题目:ECCM18参会报告

时间:2018720日下午2:30

地点:交大曲江校区西五楼A302

报告人:博1417辛志博

参加国际会议信息:

会议名称:ECCM18 - 18th European Conference on Composite Materials          

会议日期:24-28th June 2018

会议地点:Athens, Greece

会议简介:18th European Conference on Composite Materials is organized by the Department of Mechanical Engineering and Aeronautics of the University of Patras, under the patronage of the European Society for Composite Materials (ESCM).ECCM is the Europe's leading conference on composite materials and, traditionally, host scientists, engineers and designers, both of Academia and Industry, coming from all the areas of the world. The size of the worldwide composite community has been growing significantly in the last years and over 1,000 participants are expected to attend the event. The conference will attract internationally renowned scientists and engineers in the field of aerospace, automotive and mechanical engineering and will bring together the scientific and the application-oriented world.

会议交流工作

Oral presentation: Energy Absorption Properties of CFRP Composites Tube with Discontinuous Plies

报告人:辛志博

参会论文信息:

TitleEnergy Absorption Properties of CFRP Composites Tube with Discontinuous Plies

AuthorZhibo Xin, Yugang Duan, Jin Zhou

Abstract:The carbon fiber reinforced plastic (CFRP) composite with overlapped discontinuous plies have been proven to exhibit advanced pseudo-ductility. This paper aims to use a similar concept to design CFRP square tube and investigate the effect of energy absorption capability with two cut-ply strategy: i) the cut direction had an angle of α tilted respect the loading direction which is the axial direction of the square specimens; ii) the cut direction had an angle of β tilted follow the fiber orientation. The quasi-static axial compression tests are conducted to explore failure process, crashworthiness characteristics and the corresponding energy absorption mechanisms. Experimental results showed that cutting angle α and β have a significant influence on the energy absorption performance. Increasing the angle of α from 15° to 70° led to an increase in specific energy absorption (SEA) from 51.0J/g to 73.1J/g. On the contrary, SEA decreased (from76.7 J/g to 56.9 J/g) with increasing β. However, they all exceed the SEA of continuous specimen (56.2J/g). This work demonstrates that the energy absorption performance of composite tubes can be improved by proper selection of cutting strategy and cutting angle.

欢迎各位感兴趣的同学届时前来交流。

地址:陕西省西安市咸宁西路28号 邮编:710049
           版权所有:西安交通大学机械学院     站点维护: 网络信息中心 陕ICP备06008037号