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博士生凡正杰出国参加国际会议回国汇报通知

发布时间:2017-06-20 点击数:

博士生凡正杰出国参加国际会议回国汇报通知

汇报题目:参加The ASME 2017 Manufacturing Science and Engineering Conference (MSEC2017) 参会报告

汇报时间:2017年6月20日(星期二) 19:30

汇报地点:科技园西五楼北A328会议室

汇报人:凡正杰

会议名称:The ASME 2017 Manufacturing Science and Engineering Conference (MSEC2017)

会议时间:4-8 June 2017

会议地点:University of Southern California,Los Angeles,USA

会议简介:The purpose of the meeting is to join us for the 45th SME North American Manufacturing Research Conference (NAMRC), the Manufacturing Engineering Division (MED) of ASME’s 12th Manufacturing Science and Engineering Conference (MSEC2017), and the Japan Society of Mechanical Engineers (JSME) International Conference on Materials Processing (ICM&P 2017) to be held at the campus of the Southern California in Los Angeles, California. This conference is the premier international forum for applied research and industrial applications in manufacturing and design. The 2017 conference schedule will include keynote and technical presentations, expert panels, student poster presentations, an exhibition of industry partners, an early career forum, an awards banquet, luncheons and more. This conference will highlight cutting edge manufacturing research in technical paper, technical presentation, poster, and panel sessions.

会议交流工作

Oral presentation: Numerical simulations and experiments research into laser re-melted thermal barrier coatings coated single crystal superalloy assisted with preheating

报告人:凡正杰

参加论文信息

Title: Numerical simulations and experiments research into laser re-melted thermal barrier coatings coated single crystal superalloy assisted with preheating

Author:Zhengjie Fan, Kedian Wang*, Xia Dong

Abstract: In this study, compared with directly laser re-melting, a novel method was adopted to re-melt thermal barrier coatings (TBCs) coated with single crystal superalloy. Prior to each re-melting process, samples were preheated to 300 ºC, 600 ºC and 800 ºC respectively by an induction heater. After laser re-melting treatment, the thermal damage and recrystallization of nickel baser single crystal superalloy nearby the TBC/substrate were primary researched. Moreover, thermo hydrodynamics characteristics of molten pool have been developed to simulate the experimental process. Numerical simulations and experiments indicated that preheating can decrease the threshold laser energy and thus reduce the thermal damage of underlying substrate during laser re-melted thermal barrier coatings coated single crystal superalloy.

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