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2018年材料强度和应用力学国际会议(MSAM 2018)

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发表于 2017-12-19 14:05 | 显示全部楼层 |阅读模式
学术会议
会议名称: 2018年材料强度和应用力学国际会议
所属学科:
会议类型: 国际会议
论文是否检索: SCI EI 
开始时间: 2018年4月10日
结束时间: 2018年4月13日
会议地点: 日本·北九州市·北九州国际会议中心
主办单位: 日本九州工业大学、日本材料学会
承办单位:
摘要截稿时间:
全文截稿时间: 2018年1月26日
联系人:
联系电话: 18154309082
电子邮件: msam@msamconf.org
通讯地址:
邮编: -
网址: http://www.msamconf.org/index.html

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会议简介:

      为给材料力学相关领域的专家学者及工程人员等营造良好的学术交流氛围,第一届材料强度和应用力学国际会议将于2018年4月10日至13日在日本北九州市召开。本次会议旨在搭建一个国际性合作交流平台,使该领域内知名学者和产业界人士能充分分享研究成果与经验,探讨所面临的问题与动态,就相关科技发展的前沿展开广泛深入的学术交流研讨,以推动材料力学的应用进程。


  本次会议设主题报告、特邀报告、口头报告和张贴报告等四个环节,欢迎广大科研工作者积极投稿参会。

  International Conference on Material Strength and Applied Mechanics (MSAM 2018) will be held from April 10th to 13th, 2018 in Kitakyushu City, Japan. MSAM 2018 will represent a broad forum for all aspects of material strength to promote our fundamental understanding of material strength under different conditions. MSAM 2018 will also provide an opportunity to present and discuss recent analytical, experimental and computational results in the field of Applied Mechanics to bridge the gap between physical theory and its application to technology. The plenary session will include Keynote Speeches, Invited Speeches, Poster Presentations and Oral Presentations.

  Kitakyushu city has developed around heavy and chemical industries since the government-run Yawata Steel Works began operations in 1901, and has underpinned industrial modernization and rapid economic growth in Japan. Recently, a concentration of industries has gathered in Kitakyushu that includes robotics, auto, and telecommunications industries. Kitakyushu has several beautiful areas such as the Kanmon Straits area, Mojiko Retro, and the Kokura Castle area.

  On behalf of the Organizing Committee, we cordially invite you to attend MSAM 2018 and we look forward to meeting you all in Kitakyushu, Japan!

征稿主题:
       Strength of Materials
  Fatigue
  Stress Analysis
  Solid Mechanics
  Fracture Mechanics
  Cyclic Deformation
  High strength alloys
  Ductile and Brittle Fracture
  Mechanics of Nano-materials
  Mechanics of Biomaterials
  Materials Forming
  Plastic Deformation
  Phase Transformations
  Materials Engineering
  Notch Mechanics
  Mechanics of Metals
  High Temperature Deformation
  Adhesion and Interfacial Strength
  Numerical methods and optimal design of structures

  Applied Mechanics
  Vibration
  Contact Mechanics
  Structural Mechanics
  Particle Mechanics
  Boundary Layers
  Drops, Bubbles and Multiphase Flows
  Wave Propagation
  Welding & Joining
  Heat and Mass Transfer
  Experimental Mechanics
  Renewable Energy Mechanics
  Surface Engineering/coatings
  Scale Bridging Materials Modeling
  Plasticity, Fracture, and Damage Mechanics
  Computational Mechanics
  Rolling Mechanics
  Materials Properties, Measuring Methods and Applications

  【材料强度领域】材料疲劳、应力分析、固体力学、断裂力学、失效破坏、弹性变形、循环变形、高强度合金、韧性和脆性断裂、纳米材料力学、生物材料力学、材料成型、塑性变形、相变、材料工程、金属力学、高温变形、附着力和界面强度、材料的屈服强度、结构的数值方法与优化设计、材料的加工硬化特性、高温蠕变、黏弹塑性等


  【应用力学领域】振动学、接触力学、弹性力学、固体力学、流体力学、流变学、结构力学、质点力学、断裂力学、边界层、多相流动、波传播、焊接连接、热质传递、工程结构实验力学、可再造能源力学、表面工程、材料建模、塑性、断裂和损伤力学、计算力学、滚动力学、材料性能、测量方法及应用等
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