HIGHL IGHTS A D V A N C E D M A T E R I A L S & P R O C E S S E S | M A Y / J U N E 2 0 2 2 5 3 2020 Edward DeMille Campbell Memorial Lecture Tuesday, September 13 | 9:00 – 10:00 a.m. IMAT, New Orleans Dr. Mrityunjay Singh, FASM Chief Scientist, Ohio Aerospace Institute, Cleveland “Additive Manufacturing: Disrupting Global Supply Chains and Enabling Sustainable Development” The integration of new materials and innovative manufacturing technologies into product supply chains is critically needed to address human and societal needs and to promote sustainable development and economic competitiveness. Recently, there has been tremendous growth in the additive manufacturing (AM) landscape with the introduction of high-end machines suitable for industrial applications. In addition, availability of desktop 3D printers as well as open source printers and platforms have also facilitated the large-scale growth of distributed manufacturing. The paradigm shift in thinking, where one can turn their design into product on demand, is leading to new business models and challenging traditional models of product development and distribution. In this presentation, an overview of different AM technologies will be provided along with technical challenges and opportunities. Various examples of materials (polymers, ceramics, metals, hybrids, and multi-material systems) and structures achieved from utilizing a wide variety of additive manufacturing approaches will be provided. Technical challenges and opportunities for the use of additivemanufacturing as a powerful enabler for sustainable development and a disruptive technological threat to global supply chains for different materials and systems will be presented. 2022 Edward DeMille Campbell Memorial Lecture Tuesday, September 13 | 10:30 – 11:30 a.m. IMAT, New Orleans Dr. Hamish L. Fraser, FASM Ohio Regents Eminent Scholar and Professor, Center for the Accelerated Maturation of Materials, MSE, The Ohio State University, Columbus “Modern Physical Metallurgy: Importance, Use of New Tools, and How to Finance the Metallic Materials Enterprise” Physical metallurgy has been a subject of study for a considerable period of time, and as advances have been achieved, major contributions have been made to systems and components in a wide variety of technological areas. In the age of one and two-dimensional materials, device materials, and the like, there appears to be a somewhat reduced interest in physical metallurgy if funding numbers are used as a gauge. This lecture will review the importance of physical metallurgy in the modern day and will show how new tools, both computational and experimental, have contributed to a major increase in our understanding of metallic materials. The ways and means of financing research and development of new metallic materials will be discussed, involving a comparison of funding opportunities in the U.S. versus other developed nations, such as in Europe. 2022 ASM/TMS Distinguished Lectureship in Materials and Society Tuesday, October 11 | at MS&T in Pittsburgh Dr. Iver E. Anderson, FASM Senior Metallurgist, Ames Laboratory, Iowa “Materials Research on Clean Energy: For the Sake of Our Grandchildren” To attack and, hopefully, to reverse greenhouse gas (GHG) growth, the critical but formidable goal of net zero GHG emissions by 2050 must be reached. This will require major efforts from across society, especially a “leap of faith” by all the world’s economies. From the latest IPCC report, it is becoming increasingly apparent that we must do this for the health and well-being of our own children and grandchildren, if we want to help them avoid predictable climate disasters. Therefore, we professionals in the materials science and engineering community must make our best efforts to work on important GHG emission challenges to make the economic leap to green technologies more pragmatic and palatable. Recent analysis shows that there are huge market opportunities that can arrive with clean energy transitions, particularly if several key materials technology barriers are overcome. With solutions to these critical materials problems resulting from research that is supported by enlightened governments and industry leaders, a new global energy economy can emerge quite naturally. The new sustainable economy has the potential to create millions of excellent jobs across a host of new supply chains, along with many more generations of smiling grandchildren. Singh Fraser LECTURERS Anderson
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