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1st World Conference on Advanced Materials for Defense (AUXDEFENSE 2018) Selected, peer reviewed papers from the 1st World Conference on Advanced Materials for Defense (AUXDEFENSE 2018), September 3-4 , 2018, Lisbon, Portugal
Unmanned ground vehicles (UGV) are expected to play a key role in the Army's Objective Force structure. These UGVs would be used for weapons platforms, logistics carriers, and reconnaissance, surveillance, and target acquisition among other things. To examine aspects of the Army's UGV program, assess technology readiness, and identify key issues in implementing UGV systems, among other questions, the Deputy Assistant Secretary of the Army for Research and Technology asked the National Research Council (NRC) to conduct a study of UGV technologies. This report discusses UGV operational requirements, current development efforts, and technology integration and roadmaps to the future. Key recommendations are presented addressing technical content, time lines, and milestones for the UGV efforts.
Full of illustrations and photographs, this publication is a comprehensive history of the many innovations in tanks and other military ground vehicles and equipment developed by the engineers at TARDEC, the U.S. Army Tank Automotive Research, Development and Engineering Center. TARDEC was formed in 1946 as an outgrowth of the Detroit Arsenal Tank Plant built during World War II. During the early years, emphasis was placed on evolving new technologies to improve military ground vehicles, culminating in the development of the M1 Abrams tank. Since then, TARDEC has grown to be a key center for advanced technologies for military ground vehicles and equipment. Recent years have brought an explosion of technology development and integration, from hybrid engines to fuel cells, from analytical simulation to enormous physical simulators, and from small robots to entire unmanned vehicles.
Lightweighting is a concept well known to structural designers and engineers in all applications areas, from laptops to bicycles to automobiles to buildings and airplanes. Reducing the weight of structures can provide many advantages, including increased energy efficiency, better design, improved usability, and better coupling with new, multifunctional features. While lightweighting is a challenge in commercial structures, the special demands of military vehicles for survivability, maneuverability and transportability significantly stress the already complex process. Application of Lightweighting Technology to Military Vehicles, Vessels, and Aircraft assesses the current state of lightweighting implementation in land, sea, and air vehicles and recommends ways to improve the use of lightweight materials and solutions. This book considers both lightweight materials and lightweight design; the availability of lightweight materials from domestic manufacturers; and the performance of lightweight materials and their manufacturing technologies. It also considers the "trade space"-that is, the effect that use of lightweight materials or technologies can have on the performance and function of all vehicle systems and components. This book also discusses manufacturing capabilities and affordable manufacturing technology to facilitate lightweighting. Application of Lightweighting Technology to Military Vehicles, Vessels, and Aircraft will be of interest to the military, manufacturers and designers of military equipment, and decision makers.
This book examines the application of nanoscience and nanotechnology in military defence strategies. Both historical and current perspectives on military technologies are discussed. The book provides comprehensive details on current trends in the application of nanotechnology to ground, air, and naval specializations. Furthermore, nanotechnology-enabled high energy explosives and propellants, chemical, biological, radiation, and nuclear threats and their detection/protection, and camouflage and stealth for signature management of military targets in multispectral wavelength signals are analyzed. The book also covers nanotechnology-enabled armor and platforms, which may serve as lightweight and high mechanical strength options in contrast to conventional systems. Finally, the book also emphasizes future military applications of nanotechnology and its integration into ‘smart’ materials. Provides comprehensive details on trends in the application of nanotechnology to ground, air, and naval defence systems; Examines the application of nanoscience and nanotechnology in military defence strategies; Offers pathways and research avenues for development of nanotechnology and materials applications in military capacities.
In order to achieve the revolutionary new defense capabilities offered by materials science and engineering, innovative management to reduce the risks associated with translating research results will be needed along with the R&D. While payoff is expected to be high from the promising areas of materials research, many of the benefits are likely to be evolutionary. Nevertheless, failure to invest in more speculative areas of research could lead to undesired technological surprises. Basic research in physics, chemistry, biology, and materials science will provide the seeds for potentially revolutionary technologies later in the 21st century.
In order to achieve the Army's envisioned Objective Force related to deployability, transportability, and mobility, the Committee on Lightweight Materials for the 21st Century Army Trucks was asked to identify research and technology development opportunities related to the introduction of new lightweight structural materials for light medium and heavy Army trucks.
Advanced Polymer Nanocomposites: Science Technology and Applications presents a detailed review of new and emerging research outcomes from fundamental concepts that are relevant to science, technology and advanced applications. Sections cover key drivers such as the rising demand for lightweight and high strength automotive parts, the need for sustainable packaging materials and conservation of flavor in the food, drinks and beverages industries, and defense initiatives such as ballistic protection, fire retardation and electromagnetic shielding. With contributions from international authors working at the cutting-edge of research, this book will be an essential reference resource for materials scientists, chemists, manufacturers and polymer engineers. Through recent advances in nanotechnology, researchers can now manipulate atoms to create materials and products that are changing the way we live our lives. These materials have enhanced properties, such as tensile strength, impact and scratch resistance, electrical and thermal conductivity, thermal stability and fire resistance. Combines processing, properties and advanced commercial applications Emphasizes synthesis and fabrication techniques Focuses on environmental and health aspects Covers future challenges, opportunities, recycling and sustainability Contains contributions from high-profile, cutting-edge international researchers