2018年5月外教授课信息
Additive manufacturing and process optimization
Prof. Shengmin Guo
Department of Mechanical & Industrial Engineering,Louisiana State University,USA
The objective of this course is to present a comprehensive training on additive manufacturing (AM), spanning from fundamentals to applications and technology trends, and with strong focus on laser based AM and process optimization. Participants will learn the fundamentals of AM processes, will understand basic AM process optimization strategies, and will receive trainings on the safe operation of metal 3D printers.
Process optimizations will be discussed via detailed examples and case studies. Particular emphasis will be placed on design principles,the simulation methodology, and advanced material characterizations to achieve high-performance metallic parts. Discussions will be given on state-of-the-art metal 3D printers and software packages. A discussion of how metal 3D printing and advanced material characterization would influence existing engineering design and manufacturing will also be included.
上课时间:
2018.5.18 周五:9:00-11:30 (3课时)
2018.5.19周六:9:00-11:30 (3课时),14:00-17:15 (4课时)
2018.05.21周一:18:30-21:00 (3课时)
2018.05.22周二:18:30-21:00 (3课时)
注:每次课3或者4课时含有休息时间15分钟。
上课地点:材料学院A601会议室
学生报名联系人:闫健 15850578661@163.com
外教简历:
Shengmin Guo
Professor of Mechanical Engineering
Department of Mechanical & Industrial Engineering
Louisiana State University
Educational Background
• B.Eng., Engineering Mechanics, Tsinghua University, 1991
• M.Eng., Fluid Mechanics, Tsinghua University, 1993
• D.Phil., Engineering Science, University of Oxford, 1998
Work experiences
• Dr. Guo was a lecturer at the University of Oxford (England) and the University of Manchester Institute of Science and Technology (England) from 1998 to 2004.
• He joined LSU Mechanical Engineering Department in August 2004 as an Assistant Professor and was promoted to Professor in 2014.
Dr. Guo’s research activities are in the fields of thermal fluids, instrumentation, power generation, laser additive manufacturing, and high temperature materials. His current research focus is on laser based additive manufacturing. He has published more than 100 papers in the peer reviewed journals. His research projects are funded by NSF, NASA, DOE, Air Force and industry.
