The purpose of this book is to describe how lean and supply chain management can be combined to achieve world-class business performance. To accomplish this purpose, the book contains both basic material on lean and supply chain management, as well as content from current journal research findings, strategies, issues, concepts, philosophies, procedures, methodologies, and practices in managing a lean supply chain. Presented in a topical fashion, the chapters deal with a wide-range of subjects that support, nurture, and advance principles, concepts, and methodologies of lean supply chain management.
The first industrial revolution was accompanied by the emergence of the School of Engineering, the second brought about the School of Electrical Engineering, and the third digital revolution led to the School of Information. It is now obvious that the change in this quantum revolution must lead to the emergence of the School of Quantum Science and Technology. Quantum technology can develop comprehensively through the integration of science, technology, engineering, art and mathematics (STEAM). In 1925, Heisenberg developed the Matrix Mechanics, cracking the mysteries of the Quantum world. Coinciding with the 100th anniversary of Matrix Mechanics, in 2024, the General Assembly of the United Nations proclaimed 2025 the 'International Year of Quantum Science and Technology,' along with a year-long initiative celebrating the profound impacts of quantum science on technology, culture, and our understanding of the natural world.This book outlines the importance of the 'Second Quantum Revolution,' introduces quantum computers, quantum communications, and quantum sensors, and then provides a framework for the emergence of the quantum Internet of Things. What basic quantum literacy should modern citizens have in this era? The 'Second Quantum Revolution,' where quantum knowledge and engineering technology are once again combined, will provide faster, more effective, and more sensitive quantum facilities to accelerate cross-field exploration, and will also make human life more comfortable and convenient than ever before.In the 'First Quantum Revolution' in the 20th century, humans learned quantum science from nature and used existing materials to make quantum components. In the 'Second Quantum Revolution' in the 21st century, humans further used quantum science to construct quantum engineering. We now make materials and components that are not found in nature and assemble new quantum machines to benefit mankind! This is the stage of a glorious quantum era, which is a hundred times more brilliant than the past classical physics era.
Micro and Nanophased Polymeric Composites: Durability Assessment in Engineering Applications provides a comprehensive review of in-service environmental damage and degradation studies of FRP composites in a broad range of different applications. End-users such as academic and industrial researchers and materials scientists and engineers working in the design, analysis, and manufacture of composite material systems will be able to identify the possible superior advantages and limitations of FRP composites in various applications. Particular emphasis is given on the identification of various failure micro-mechanisms leading to unprecedented failure in different harsh and hostile environments. Divided into two distinct parts, the first section focuses on fundamentals, with key chapters on the main constituents of FRP composites, mechanical properties, characterization techniques, and processing and fabrication techniques. Part two focuses on polymer composites under different in-service applications, including the marine and space environment, chemical and corrosive environments, high and low temperature environments, and other critical environments. Covers various micro-mechanisms of failure under different environmental conditions, including moisture diffusion kinetics and the effects of aging parameters on microstructures Discusses the impact of different nanoscale reinforcements on the environmental durability of conventional FRP composites Presents a comprehensive approach with widespread applications such as low earth orbit space environments and different corrosive environments
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