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Materials Science & Engineering / Manufacturing Engineering Graduate Lecture Series

周三,2020年9月23日
12:00 PM下午12:45
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回收的材料:一个途径材料的可持续性

机械工程,九州体育

brajendra米什拉博士

bmishra@wpi.edu,(508)831-5711

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博士。 brajendra米什拉 is the Kenneth G. Merriam Distinguished Professor of Mechanical Engineering and Director of the Materials and Manufacturing Engineering Program. He serves as the Director of Metal Processing Institute [MPI] at the 九州体育 [九州体育平台].  Dr. Mishra is also the Director of the National Science Foundation’s Industry/University Collaborative 研究 Center on Resource Recovery & Recycling. Brajendra received his Bachelor of Technology degree in Metallurgical Engineering from the Indian Institute of Technology in Kharagpur, India and his M.S. and Ph.D. in Materials Science & Engineering from the University of Minnesota in Minneapolis. Prior 至 joining 九州体育平台, Prof. Mishra was a Professor of Corrosion and Physico-chemical processing in Metallurgical & Materials Engineering at the Colorado School of Mines (CSM) for twenty-five years, where he now serves as a University Emeritus Professor. Dr. Mishra has authored over 600 technical publications in refereed journals and conference proceedings and has authored/edited 20 books. Dr. Mishra is a Fellow of ASM (2001) and TMS (2016). Mishra received the Distinguished Service Award from the Minerals Metals & Materials Society (2010) and the highest award of Honorary Membership form the Indian Institute of Metals (2008). Brajendra served as the 2006 President of The Mineral, Metals & Materials Society (TMS) of AIME and the 2011 President of Amer. Institute of Mining, Metallurgical & Petroleum Engineers. Dr. Mishra received the Presidential Citation of AIME in 2015 and the Kenneth Andrew Roe Award from the Amer. Assoc. of Engineering Societies (2016). Dr. Mishra received the Distinguished Alumnus Award from the Indian Institute of Technology in India.

抽象

实现一个可行的和可持续的循环经济可以在所有类型的行业采用生命周期的方法来制造才能实现。这种方法要求我们尽量减少生产中使用的新的主要资源,并采用精益过程,其中金属和材料得到充分回收和行业迈向零浪费的战术移动。智能制造,因此,在目标的材料最小化使用。所有形式的添加剂制造的具有最小减色处理中,结合具有增强性质的材料可导致循环经济的目标。修理,再利用和工程材料的装修必须考虑到前后期的消费制成品的完整循环。

通过主要商品(汽车,电子,航空航天等)的初级以及次级生产者产生的高价值的材料废料具有通过循环,使他们的过程在经济上,大力和环境健壮以回收资源。在此演示文稿,示例将来自各个制造行业给予地方结束生命材料管理可以实现精益生产目标,从而导致循环经济。   

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