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This new volume examines the mathematical and experimental methods for advanced engineering materials and structures. It also helps to determine practical applications under a wide range of conditions, helping to set up what is needed to produce a new generation of new materials. The diversity of such mathematical models and experimental methods applied for different types of advanced materials and structures and their behavior is highlighted in this volume. The subjects covered in this book include geospatial information systems (GIS) and networked sensors modeling, mathematical modeling in fluid and solid mechanics, deformations in a nonlocal isotropic thermoelastic materials, optical properties of solid materials, nanoscale and modern energy materials and devices, smart materials-based E-nose technology, and more. New Advances in Materials Technologies: Experimental Characterizations, Theoretical Modeling and Field Practices is an essential reference that will be useful for researchers who specialize in advanced materials and structures, experimental mechanics of materials, mathematical modeling, and related fields of applied mathematics. This book is also suitable for post-graduate engineering students who need to have an overview on applied in mechanics of materials.
Examines the mathematical and experimental methods for advanced engineering materials and structures to determine practical applications under a wide range of conditions. The diversity of such mathematical models and experimental methods applied for different types of advanced materials and structures and their behavior is highlighted.
The future national security environment will present the naval forces with operational challenges that can best be met through the development of military capabilities that effectively leverage rapidly advancing technologies in many areas. The panel envisions a world where the naval forces will perform missions in the future similar to those they have historically undertaken. These missions will continue to include sea control, deterrence, power projection, sea lift, and so on. The missions will be accomplished through the use of platforms (ships, submarines, aircraft, and spacecraft), weapons (guns, missiles, bombs, torpedoes, and information), manpower, materiel, tactics, and processes (acquisition, logistics, and so on.). Accordingly, the Panel on Technology attempted to identify those technologies that will be of greatest importance to the future operations of the naval forces and to project trends in their development out to the year 2035. The primary objective of the panel was to determine which are the most critical technologies for the Department of the Navy to pursue to ensure U.S. dominance in future naval operations and to determine the future trends in these technologies and their impact on Navy and Marine Corps superiority. A vision of future naval operations ensued from this effort. These technologies form the base from which products, platforms, weapons, and capabilities are built. By combining multiple technologies with their future attributes, new systems and subsystems can be envisioned. Technology for the United States Navy and Marine Corps, 2000-2035 Becoming a 21st-Century Force: Volume 2: Technology indentifies those technologies that are unique to the naval forces and whose development the Department of the Navy clearly must fund, as well as commercially dominated technologies that the panel believes the Navy and Marine Corps must learn to adapt as quickly as possible to naval applications. Since the development of many of the critical technologies is becoming global in nature, some consideration is given to foreign capabilities and trends as a way to assess potential adversaries' capabilities. Finally, the panel assessed the current state of the science and technology (S&T) establishment and processes within the Department of the Navy and makes recommendations that would improve the efficiency and effectiveness of this vital area. The panel's findings and recommendations are presented in this report.
Volume is indexed by Thomson Reuters CPCI-S (WoS). Advanced Materials and Processing are important areas of research in Engineering Science and Technology, which have to focus on bridging the critical gap between researchers and engineers in order to shape the new world. Advanced Materials and Processing play an increasingly important role in the global economy and in daily life. Researchers and engineers strive to develop new devices and processes, using mathematical and analytical tools, in order to create technologies for a rapidly expanding range of materials and manufacturing processes. A large proportion of the present papers addressed current scientific research and provided solutions to industrial problems; thereby creating an environment of mutual interest to industry and academia. The papers are grouped into 10 chapters: 1. Forming Processes, 2. Casting, Joining and Related Processes, 3. Materials, 4. Materials Removal Processes, 5. High Energy Beam Removal Process, 6. Precision Engineering and Nano-Technology, 7. Surface Engineering, 8. Computer-Aided Engineering, 9. Green Manufacturing and Management, 10. Others. This comprehensive coverage will be much appreciated by readers.
International Conference on Recent Advances in Materials and Manufacturing Technologies (ICRAMMT 2018) Selected, peer reviewed papers from the 2nd International Conference on Recent Advances in Materials and Manufacturing Technologies (ICRAMMT-2018), November 19-20, 2018, Hyderabad, India
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.
Advanced Materials and Processing are important areas of research in Engineering Science and Technology, and require a critical focus on bridging the gap between researchers and engineers. Advanced materials and processing play an increasingly important role in the global economy and in daily life. Researchers and engineers strive to develop new devices and processes, using mathematical and analytical tools to create technologies to handle the rapidly expanding range of materials and manufacturing processes. The Advances in Materials and Processing Technologies conference series creates a stimulating environment for the research collaboration of scholars at the local, national and international levels, contributes to the collective development of a knowledge-based society and economy.
Building on the success of previous editions, this book continues to provide engineers with a strong understanding of the three primary types of materials and composites, as well as the relationships that exist between the structural elements of materials and their properties. The relationships among processing, structure, properties, and performance components for steels, glass-ceramics, polymer fibers, and silicon semiconductors are explored throughout the chapters. The discussion of the construction of crystallographic directions in hexagonal unit cells is expanded. At the end of each chapter, engineers will also find revised summaries and new equation summaries to reexamine key concepts.
Advances in Laser Materials Processing: Technology, Research and Application, Second Edition, provides a revised, updated and expanded overview of the area, covering fundamental theory, technology and methods, traditional and emerging applications and potential future directions. The book begins with an overview of the technology and challenges to applying the technology in manufacturing. Parts Two thru Seven focus on essential techniques and process, including cutting, welding, annealing, hardening and peening, surface treatments, coating and materials deposition. The final part of the book considers the mathematical modeling and control of laser processes. Throughout, chapters review the scientific theory underpinning applications, offer full appraisals of the processes described and review potential future trends. A comprehensive practitioner guide and reference work explaining state-of-the-art laser processing technologies in manufacturing and other disciplines Explores challenges, potential, and future directions through the continuous development of new, application-specific lasers in materials processing Provides revised, expanded and updated coverage
This book presents the select proceedings of the first International Conference on Energy and Materials Technologies (ICEMT) 2021, organized by the Department of Mechanical Engineering, Sri Sivasubramaniya Nadar College of Engineering, Kalavakkam, India. It covers the recent technologies in two broad thematic areas: energy and materials. Various topics covered in this book include advanced materials and characterization, mechanical behavior of materials, nanomaterials and nanotechnology, biomaterials, composite materials, environmental-friendly materials, structural materials, advances in aerospace technology, and advanced materials and manufacturing. The book is useful for students, researchers, and professionals in the area of mechanical engineering, especially various domains of materials.