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Accelerating Technology Transition
Accelerating the transition of new technologies into systems and products will be crucial to the Department of Defenses development of a lighter, more flexible fighting force. Current long transition times-ten years or more is now typical-are attributed to the complexity of the process. To help meet these challenges, the Department of Defense asked the National Research Council to examine lessons learned from rapid technology applications by integrated design and manufacturing groups. This report presents the results of that study, which was based on a workshop held to explore these successful cases. Three key areas emerged: creating a culture for innovation and rapid technology transition; methodologies and approaches; and enabling tools and databases.
U.S. Industry in 2000
U.S. industry faced a gloomy outlook in the late 1980s. Then, industrial performance improved dramatically through the 1990s and appears pervasively brighter today. A look at any group of industries, however, reveals important differences in the factors behind the resurgenceâ€"in industry structure and strategy, research performance, and location of activitiesâ€"as well as similarities in the national policy environment, impact of information technology, and other factors. U.S. Industry in 2000 examines eleven key manufacturing and service industries and explores how they arrived at the present and what they face in the future. It assesses changing practices in research and innovation, technology adoption, and international operations. Industry analyses shed light on how science and technology are applied in the marketplace, how workers fare as jobs require greater knowledge, and how U.S. firms responded to their chief competitors in Europe and Asia. The book will be important to a wide range of readers with a stake in U.S. industrial performance: corporate executives, investors, labor representatives, faculty and students in business and economics, and public policymakers.
Foundry Processes
For a number of years it has been a General Motors Research Laboratories custom to hold a symposium on a subject which is new and emerging, and to invite the best people in the world in that subject to come together to talk to each other. Initially, I had some difficulty in regarding foundry processes as a new and emerging subject. Copper alloys have been in foundry practice for about six thousand years. Foundrymen working with those alloys have been recognized, as such, for nearly all that time. Iron has a much shorter history, probably only three or four thousand years. So what's new? What is new is that a subject which has always been so complex and so difficult that it could only be a craft skill, with bits and pieces of knowledge and bits and pieces of insight, has begun to yield to new abilities to solve very complex problems. We do this now because we can handle great amounts of data by computational means, using new and more complicated theoretical treatments than we could deal with before. In fact, we have a new technology with which we can attack these terribly difficult problems. Thus, foundry processing is becoming a new subject because new things can be done with it.
Engineering Solutions for Sustainability
A wealth of resources and topics of discussion from the Engineering Solutions for Sustainability: Materials and Resources workshop held in Switzerland in 2009 Natural resources are the lifeblood of agricultural and industrial endeavors that contribute to our social and economic well-being. Yet, even as these resources dwindle from mismanagement, there is still no clear consensus in the engineering community of what actually defines "sustainable engineering." This publication offers the engineering profession a multi-disciplinary blueprint for action by presenting topics of discussion from the Engineering Solutions for Sustainability: Materials and Resources workshop held at the école Polyte...
Review of Progress in Quantitative Nondestructive Evaluation
This authoritative and up-to-date series provides a comprehensive review of the latest research results in quantitative nondestructive evaluation (NDE). Leading investigators working in government agencies, major industries, and universities present a broad spectrum of work extending from basic research to early engineering applications.
REWAS 2022: Developing Tomorrow’s Technical Cycles (Volume I)
The 7th installment of the REWAS conference series held at the TMS Annual Meeting& Exhibition focuses on developing tomorrow’s technical cycles. The papers in thiscollection explore the latest technical and societal developments enabling sustainabilitywithin our global economy with an emphasis on recycling and waste management. The2022 collection includes contributions from the following symposia: • Coupling Metallurgy and Sustainability: An EPD Symposium in Honor of Diran Apelian• Recovering the Unrecoverable• Sustainable Production and Development Perspectives• Automation and Digitalization for Advanced Manufacturing• Decarbonizing the Materials Industry
