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The need for advanced thermal management materials in electronic packaging has been widely recognized as thermal challenges become barriers to the electronic industry’s ability to provide continued improvements in device and system performance. With increased performance requirements for smaller, more capable, and more efficient electronic power devices, systems ranging from active electronically scanned radar arrays to web servers all require components that can dissipate heat efficiently. This requires that the materials have high capability of dissipating heat and maintaining compatibility with the die and electronic packaging. In response to critical needs, there have been revolutionary advances in thermal management materials and technologies for active and passive cooling that promise integrable and cost-effective thermal management solutions. This book meets the need for a comprehensive approach to advanced thermal management in electronic packaging, with coverage of the fundamentals of heat transfer, component design guidelines, materials selection and assessment, air, liquid, and thermoelectric cooling, characterization techniques and methodology, processing and manufacturing technology, balance between cost and performance, and application niches. The final chapter presents a roadmap and future perspective on developments in advanced thermal management materials for electronic packaging. Key Features: •Covers ceramics and glasses, polymers, metals, metallic composites, multi-material laminates, carbonaceous materials, and carbon-matrix composites •Provides the reader with a comprehensive understanding of thermal management solutions •Includes fundamentals of heat transfer and materials characterization techniques •Assesses cost and performance in thermal management.

Electronic apparatus and appliances -- Temperature control. --- Electronic apparatus and appliances. --- Electronic packaging -- Materials. --- Electronic apparatus and appliances --- Electronic packaging --- Electrical & Computer Engineering --- Engineering & Applied Sciences --- Electrical Engineering --- Temperature control --- Materials --- Microelectronic packaging. --- Microelectronic packaging --- Materials. --- Packaging (Microelectronics) --- Physics. --- Electronic circuits. --- Thermodynamics. --- Heat engineering. --- Heat transfer. --- Mass transfer. --- Electronics. --- Microelectronics. --- Optical materials. --- Electronic materials. --- Electronic Circuits and Devices. --- Optical and Electronic Materials. --- Engineering Thermodynamics, Heat and Mass Transfer. --- Electronics and Microelectronics, Instrumentation. --- Microelectronics --- Engineering. --- Electrical engineering --- Physical sciences --- Construction --- Industrial arts --- Technology --- Optics --- Microminiature electronic equipment --- Microminiaturization (Electronics) --- Electronics --- Microtechnology --- Semiconductors --- Miniature electronic equipment --- Mass transport (Physics) --- Thermodynamics --- Transport theory --- Heat transfer --- Thermal transfer --- Transmission of heat --- Energy transfer --- Heat --- Mechanical engineering --- Electronic materials --- Electron-tube circuits --- Electric circuits --- Electron tubes --- Chemistry, Physical and theoretical --- Dynamics --- Mechanics --- Physics --- Heat-engines --- Quantum theory

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Flexible electronics. --- Printed electronics. --- Nanotechnology --- Organic electronics --- Printing --- Electronic apparatus and appliances --- Wearable technology

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To meet the demands of students, scientists and engineers for a systematic reference source, this book introduces, comprehensively and in a single voice, research and development progress in emerging metamaterials and derived functional metadevices. Coverage includes electromagnetic, optical, acoustic, thermal, and mechanical metamaterials and related metadevices. Metamaterials are artificially engineered composites with designed properties beyond those attainable in nature and with applications in all aspects of materials science. From spatially tailored dielectrics to tunable, dynamic materials properties and unique nonlinear behavior, metamaterial systems have demonstrated tremendous flexibility and functionality in electromagnetic, optical, acoustic, thermal, and mechanical engineering.  Furthermore, the field of metamaterials has been extended from the mere pursuit of various exotic properties towards the realization of practical devices, leading to the concepts of dynamically-reconfigurable metadevices and functional metasurfaces. The book explores the fundamental physics, design, and engineering aspects, as well as the full array of state-of-the-art applications to electronics, telecommunications, antennas, and energy harvesting. Future challenges and potential in regard to design, modeling and fabrication are also addressed.

Vibrations --- Optics. Quantum optics --- Electronics and optics of solids --- Relation between energy and economics --- Electrical engineering --- Applied physical engineering --- geluidsleer --- akoestiek --- composieten --- energie (technologie) --- ingenieurswetenschappen --- transistoren --- halfgeleiders --- elektrische circuits --- microwaves