会议名称(中文): 第二届高锰钢能源应用研讨会
会议名称(英文): 2nd High Mn Steels for Energy Applications Symposium
所属学科: 金属材料,材料加工与处理
开始日期: 2014-06-15
结束日期: 2014-06-20
所在国家: 韩国
所在城市: 韩国
具体地点: Busan, Kore
主办单位: 国际近海与极地工程学会
[ 重要日期 ]
摘要截稿日期: 2013-11-10
[ 会务组联系方式 ]
联系人: Dr. HyunWoo Jin
E-MAIL: h.w.jin@exxonmobil.com
会议网站: http://www.isope.org/call4papers/2014/CALL-2014-MN-1004.pdf
会议背景介绍: ISOPE 2014 conference will host the Second High Manganese Steel for Energy Applications Symposium. This symposium will focus on the emerging research directed toward all ferrous alloys with enhanced Manganese (Mn) alloying (3~40wt.%) and industrial applications of suchalloyed steels with emphasis in applications potential for energy industry. Extensive research in the last decade has shown that this class of alloyed steel has the scientific/technological interestand potential to significantly impact the industry. This class of alloyed steel is now being introduced in new structural and functional applications, such as automotive, cryogenic, and corrosion/wear resistance applications. Progress in a wide range of applications for the high Mn alloyed steels crucially depends on the development of new fabrication and processing technologies, along with a fundamental understanding of the relationship between the chemistry, structure and properties. Abstracts will be solicited on topics across a broad range of issues from fabrication (mineral extraction, melting, refining, casting, forging, heat treatment), alloy design, microstructure characterization, thermodynamics, computational modelling, phase transformation, mechanical properties, welding, hardfacing/coating, corrosion, wear performance, embrittlement mechanisms, computational simulations, and novel applications.
征文范围及要求: Suggested Topics
 Thermodynamics / Phase Transformation
 Alloy Design / Microstructure Control
 Mechanical Properties / Deformation Mechanism
 Welding/Joining Technologies
 Low Temperature Properties
 Coating / Surface Treatment
 Steelmaking / Casting
 Hot Working / Heat Treatment
 Corrosion/Wear Performance
 Computational Simulation
 Mechanisms of Embrittlement
 Industry Applications
