Thermal Transport for Applications in Micro/Nanomachining


Book Description

Beginning with an overview of nanomachining, this monograph introduces the relevant concepts from solid-state physics, thermodynamics, and lattice structures. It then covers modeling of thermal transport at the nanoscale and details simulations of different processes relevant to nanomachining. The final chapter summarizes the important points and discusses directions for future work to improve the modeling of nanomachining.




Heat Transfer Physics


Book Description

This graduate textbook describes atomic-level kinetics of thermal energy storage, transport, and transformation by principal energy carriers. The second edition includes applications in energy conversion, expanded examples of size effects, inclusion of junction quantum transport, and discussion of graphene and its phonon and electronic conductances. Numerous examples, illustrations, and homework problems with answers to enhance learning are included.




Micro and Nanomachining Technology-Size, Model and Complex Mechanism


Book Description

Recent advances in science and technology such as online monitoring techniques, coupling of various processing methods, surface characterization and measurement techniques have greatly promoted the development of ultraprecise machining technology. This precision now falls into the micrometer and nanometer range - hence the name micro & nanomachining technology (MNT). Machining is a complex phenomenon associated with a variety of different mechanical, physical, and chemical processes. Common principles defining control mechanisms such as O Jamie de geometry, Newton mechanics, Macroscopic Thermodynamics and Electromagnetics are not applicable to phenomena occurring at the nanometer scale whereas quantum effects, wave characteristics and the microscopic fluctuation become the dominant factors. A remarkable enhancement in computational capability through advanced computer hardware and high performance computation techniques (parallel computation) has enabled researchers to employ large scale parallel numerical simulations to investigate micro & nanomachining technologies and gain insights into related processes. Micro and Nanomachining Technology - Size, Model and Complex Mechanism introduces readers to the basics of micro & nanomachining (MNT) technology and covers some of the above techniques including molecular dynamics and finite element simulations, as well as complexity property and multiscale MNT methods. This book meets the growing need of Masters students or Ph.D. students studying nanotechnology, mechanical engineering or materials engineering, allowing them to understand the design and process issues associated with precision machine tools and the fabrication of precision components.




Micro and Nanomanufacturing Volume II


Book Description

This book is a comprehensive treatment of micro and nanofabrication techniques, and applies established and research laboratory manufacturing techniques to a wide variety of materials. It is a companion volume to “Micro and Nanomanufacturing” (2007) and covers new topics such as aligned nanowire growth, molecular dynamics simulation of nanomaterials, atomic force microscopy for microbial cell surfaces, 3D printing of pharmaceuticals, microvascular coaptation methods, and more. The chapters also cover a wide variety of applications in areas such as surgery, auto components, living cell detection, dentistry, nanoparticles in medicine, and aerospace components. This is an ideal text for professionals working in the field, and for graduate students in micro and nanomanufacturing courses.




Thermal Radiation Heat Transfer


Book Description

Explore the Radiative Exchange between Surfaces Further expanding on the changes made to the fifth edition, Thermal Radiation Heat Transfer, 6th Edition continues to highlight the relevance of thermal radiative transfer and focus on concepts that develop the radiative transfer equation (RTE). The book explains the fundamentals of radiative transfer, introduces the energy and radiative transfer equations, covers a variety of approaches used to gauge radiative heat exchange between different surfaces and structures, and provides solution techniques for solving the RTE. What’s New in the Sixth Edition This revised version updates information on properties of surfaces and of absorbing/emitting/scattering materials, radiative transfer among surfaces, and radiative transfer in participating media. It also enhances the chapter on near-field effects, addresses new applications that include enhanced solar cell performance and self-regulating surfaces for thermal control, and updates references. Comprised of 17 chapters, this text: Discusses the fundamental RTE and its simplified forms for different medium properties Presents an intuitive relationship between the RTE formulations and the configuration factor analyses Explores the historical development and the radiative behavior of a blackbody Defines the radiative properties of solid opaque surfaces Provides a detailed analysis and solution procedure for radiation exchange analysis Contains methods for determining the radiative flux divergence (the radiative source term in the energy equation) Thermal Radiation Heat Transfer, 6th Edition explores methods for solving the RTE to determine the local spectral intensity, radiative flux, and flux gradient. This book enables you to assess and calculate the exchange of energy between objects that determine radiative transfer at different energy levels.




Progress on Advanced Manufacture for Micro/Nano Technology 2005


Book Description

Proceedings of 2005 International Conference on Advanced Manufacture, held in Taipei, Taiwan, R.O.C., November 28th - December 2nd, 2005




Transport in Laser Microfabrication


Book Description

Provides researchers and practitioners with the technical background to understand transport phenomena in laser microfabrication applications.




Sustainable Utilization of Nanoparticles and Nanofluids in Engineering Applications


Book Description

In the present state of manufacturing industries, industrial and commercial components have been prepared for low energy consumption and high performance. Recent and emerging nanoparticles and nanofluid technologies must be incorporated into advanced manufacturing processes to improve the performance of sustainable materials and manufacturing processes. It is essential to assess the activities involved in nanoparticle and nanofluid applications, identify the potential impacts, and discuss various utilization methods for nanoparticles and nanofluids, the economy, the environment, and engineering applications. Sustainable Utilization of Nanoparticles and Nanofluids in Engineering Applications provides the latest research and significant potential to apply nanomaterials and nanofluids in various engineering applications. It is a reference guide to provide real-life problems with feasible potential systems, models, and examples related to the application, synthesis, innovations, and properties of advanced nanomaterials and nanofluids. Covering key topics including sustainable development, utilization, and innovation of nanoparticles and nanofluids, this reference work is ideal for industry professionals, material scientists, manufacturing industry professionals, material selectors, design engineers, machine instructors, administrators, researchers, academicians, postgraduates, scholars, and instructors.




Nanomaterials and Nanoliquids: Applications in Energy and Environment


Book Description

This book discusses recent work on the use of nanoparticles in energy and environment-related work. This book presents experimental, numerical, analytical, and theoretical work on the use of nanomaterials in energy and environment. This book helps to highlight cutting-edge research and is a ready reference for the researchers working in this arena of academia and industries. This book provides insights related to various forms of nanotechnological applications in green buildings, environmental and electrochemical, solar distillation systems, green energy, storage tank of the SWH system, solar concentrator system's receiver, and CFD simulations of various aspects of nanofluids/hybrid nanofluids, which are particularly useful, valuable for the betterment of society.




Proceedings of Fifth International Conference on Inventive Material Science Applications


Book Description

The book is a collection of best selected research papers presented at the 5th International Conference on Inventive Material Science Applications (ICIMA 2022) organized by PPG Institute of Technology, Coimbatore, India, during May 6–7, 2022. The book includes original research by material science researchers toward developing a compact and efficient functional elements and structures for micro-, nano-, and optoelectronic applications. The book covers important topics like nanomaterials and devices, optoelectronics, sustainable electronic materials, nanocomposites and nanostructures, hybrid electronic materials, medical electronics, computational material science, wearable electronic devices and models, and optical/nanosensors.