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Special topic volume with invited peer reviewed papers only
A comprehensive treatment of the economic and global impacts of the advanced materials industry This book represents the first comprehensive investigation of the emerging international advanced materials industry and its profound impact on the world's industrialized and newly emerging economies. It examines the ways in which science, technology, business, and markets have converged to produce one of the most dynamic industries in recent years—one that is increasingly controlling global technological progress as a whole. From the unique vantage point of this crucial industry, this book illuminates the major differences in how the world's two economic superpowers—the United States and the European Union—perceive and carry forward the technology creation process and what these differences mean for achieving national and regional competitive advantage in the twenty-first century. It draws upon a rich body of source materials spanning from 1970 through 2007 as well as actual in-depth interviews and internal corporate and governmental documentation. The book is organized thematically, with each section highlighting critical perspectives on the rise of the international advanced materials industry and its impact on the relative competitiveness of the United States and the European Union. It concludes with a discussion of how what we have learned about advanced materials in the West tells us of the future competitive power of an emerging Asia. The Advanced Materials Revolution is essential reading for researchers, executives, and managers working in the advanced materials and related technological fields, as well as professionals and scholars in the academic, investment, consulting, and government communities. It also serves as a valuable case study textbook for advanced undergraduate and graduate courses in business, management, entrepreneurship, technology studies, chemical and materials engineering, economics, economic history, and regional and economic development.
This book is about applied materials research in industry. It presents various important topics and challenges and gives guidance to materials researchers who move to industry. The book focuses on the materials manufacturing issues for industrial application. It deals with developments and challenges in traditional materials areas, such as metals and ceramics, and new opportunities that have risen from nanotechnology and additive manufacturing. The chapters, written by senior people from large companies, include successful manufacturing undertakings, several distinct and unresolved manufacturing challenges, with the focus on approaches, timelines and the skills needed for future company research and development. The book provides a cross-section of current and future approaches valuable for new employees and academics working in industry.
As one of the eighteen field-specific reports comprising the comprehensive scope of the strategic general report of the Chinese Academy of Sciences, this sub-report addresses long-range planning for developing science and technology in the field of advanced materials science. They each craft a roadmap for their sphere of development to 2050. In their entirety, the general and sub-group reports analyze the evolution and laws governing the development of science and technology, describe the decisive impact of science and technology on the modernization process, predict that the world is on the eve of an impending S&T revolution, and call for China to be fully prepared for this new round of S&T advancement. Based on the detailed study of the demands on S&T innovation in China's modernization, the reports draw a framework for eight basic and strategic systems of socio-economic development with the support of science and technology, work out China's S&T roadmaps for the relevant eight basic and strategic systems in line with China's reality, further detail S&T initiatives of strategic importance to China's modernization, and provide S&T decision-makers with comprehensive consultations for the development of S&T innovation consistent with China's reality. Supported by illustrations and tables of data, the reports provide researchers, government officials and entrepreneurs with guidance concerning research directions, the planning process, and investment. Founded in 1949, the Chinese Academy of Sciences is the nation's highest academic institution in natural sciences. Its major responsibilities are to conduct research in basic and technological sciences, to undertake nationwide integrated surveys on natural resources and ecological environment, to provide the country with scientific data and consultations for government's decision-making, to undertake government-assigned projects with regard to key S&T problems in the process of socio-economic development, to initiate personnel training, and to promote China's high-tech enterprises through its active engagement in these areas.
Materials are important in the pursuit of virtually every human endeavor. Advances in materials are applied not only in advanced technological systems such as spacecraft, jet engines, computers, and telecommunications but also in a world of more familiar applications from automobiles to floor coverings to fishing rods. This book addresses the factors that impede the transition of new materials from concepts into commercial use. It identifies policies and actions that government and industry, together with universities, can take to remove these impediments. Incentives to accelerate the commercialization of advanced materials are suggested, and recommendations are presented on ways to stimulate competitive commercialization of materials by government, industry, and academia.
The Materials Research Science and Engineering Centers (MRSEC) Impact Assessment Committee was convened by the National Research Council in response to an informal request from the National Science Foundation. Charged to examine the impact of the MRSEC program and to provide guidance for the future, the committee included experts from across materials research as well as several from outside the field. The committee developed a general methodology to examine the MRSEC centers and after extensive research and analysis, came to the following conclusions. MRSEC center awards continue to be in great demand. The intense competition within the community for them indicates a strong perceived value. Using more quantitative measures, the committee examined the performance and impact of MRSEC activities over the past decade in the areas of research, facilities, education and outreach, and industrial collaboration and technology transfer. The MRSEC program has had important impacts of the same high standard of quality as those of other multi-investigator or individual-investigator programs. Although the committee was largely unable to attribute observed impacts uniquely to the MRSEC program, MRSECs generally mobilize efforts that would not have occurred otherwise. Because of an observed decline in the effectiveness of the centers, the committee recommended a restructuring the MRSEC program to allow more efficient use and leveraging of resources. The new program should fully invest in centers of excellence as well as in stand-alone teams of researchers to allow tighter focus on key strengths of the program. In its report, the committee outlines one potential vision for how this might be accomplished in a revenue-neutral fashion.