Thermal transport for applications in micro/nanomachining by B. T. Wong

Cover of: Thermal transport for applications in micro/nanomachining | B. T. Wong

Published by Springer in Berlin, New York .

Written in English

Read online

Subjects:

  • Nanostructured materials -- Transport properties,
  • Machining,
  • Nanotechnology

Edition Notes

Includes bibliographical references (p. [221]-228) and index.

Book details

StatementB.T. Wong, M.P. Mengüç.
SeriesMicrotechnology and MEMS
ContributionsMengüç, M. Pinar.
Classifications
LC ClassificationsTA418.9.N35 W66 2008
The Physical Object
Paginationxvii, 231 p. :
Number of Pages231
ID Numbers
Open LibraryOL22981239M
ISBN 109783540736059
LC Control Number2008921485

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Thermal Transport for Applications in Micro/Nanomachining (Microtechnology and MEMS) [Basil T. Wong, M. Pinar Mengüç] on *FREE* shipping on qualifying offers.

Beginning with an overview of nanomachining, this monograph introduces the relevant concepts from solid-state physics. With the recent advances in nanosciences, micro/nanoscale engineering applications are bound to be more common, complex and challenging.

Further understanding of thermal transport down to nanometer scales will be crucial for the design and operation of new devices, which is possible only with the use of better theoretical and numerical models of energy transfer mechanisms involving photons.

With the recent advances in nanosciences, micro/nanoscale engineering applications are bound to be more common, complex and challenging. Further understanding of thermal transport down to nanometer scales will be crucial for the design and operation of new devices, which is possible only with the use of better theoretical and numerical models of energy transfer mechanisms involving photons.

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Thermal Transport in Carbon-Based Nanomaterials describes the thermal properties of various carbon nanomaterials and then examines their applications in thermal management and renewable energy.

Carbon nanomaterials include: one-dimensional (1D) structures, like nanotubes; two-dimensional (2D) crystal lattice with only one-atom-thick planar sheets, like graphenes; composites based on carbon Manufacturer: Elsevier. 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. Two flowcharts are provided to help the reader to choose an appropriate transport model and formulate a numerical modeling scheme for different micro/nanomachining applications.

Keywords Monte Carlo Transport Equation Optical Phonon Energy Carrier Acoustic Phonon. In this chapter, first an overview of the MD is given; after that results are presented to discuss thermal transport at nanoscales where the simulations are coupled with a Monte Carlo method for the solution of electron-beam transport equation.

Silicon Micro-/Nanomachining and Applications. DOI: /_9. In book: Micro and Nanomanufacturing Volume II (pp) Thermal transport by direct transmission of. The basics of two-temperature model are discussed for application to thermal transport during electron-beam based micro/nanomachining process.

The propagation of electrons in the target material. A unique focus on experimental techniques for the characterization of thermal transport in micro/nanoscale materials. In the rapidly evolving field of nanotechnology, it ultimately comes down Thermal transport for applications in micro/nanomachining book experiments and measurement techniques to obtain and validate data on the thermophysical properties of nanoscale and nanostructured materials for various engineering applications.4/5(1).

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Microtechnology and MEMS. Springer, Berlin, Heidelberg. Thermal Transport in Carbon-Based Nanomaterials describes the thermal properties of various carbon nanomaterials and then examines their applications in thermal management and renewable energy. Carbon nanomaterials include: one-dimensional (1D) structures, like nanotubes; two-dimensional (2D) crystal lattice with only one-atom-thick planar sheets, like graphenes; composites based on carbon.

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The chapter focuses on general machining effects, size effects, nanomachining processes, and a comparison between micro- and nanomachining. An explanation of how size effects at the microscale affect the removal of material and its implication on shaping material at Cited by: 4.

Monte Carlo Methods for Radiative Transfer. Thermal Transport for Applications in Micro/Nanomachining This book is a sequel to the monograph Molecular.

Contains 1 Book and 1 Digital (delivered electroni ISBN Thermal Transport for Applications in Micro/Nanomachining Basil T Wong, M Pinar Menguc The book covers very fundamental concepts of thermal radiation and radiative transport in participating and nonparticipating media, recent advances in inverse problems and.

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non-conventional material removal processes byblock-4, indira gandhi national open university (ignou), new. The complete guide to understanding and using lasers in material processing!Lasers are now an integral part of modern society, providing extraordinary opportunities for innovation in an ever-widening range of material processing and manufacturing applications.

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Fundamentals and Applications of Micro And Nano Machining Sanket N Bhavsar 1, Dr S Aravindan 2, and Prof P Venkateswara Rao 3 1 G H Patel College of Engineering &. It begins with a description of the experimental techniques that have been widely used for measuring thermal transport through these nanostructures, which include a thermal bridge method based on suspended micro-devices and the 3ω technique.

Measurement results of thermal transport through individual carbon nanomaterials (i.e., carbon. A diverse spectrum of technology drivers such as improved thermal barriers, higher efficiency thermoelectric energy conversion, phase-change memory, heat-assisted magnetic recording, thermal management of nanoscale electronics, and nanoparticles for thermal medical therapies are motivating studies of the applied physics of thermal transport at the by:   The book presents the fundamentals, technical design and details and practical applications.

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Wong. He is co-editor of the Wiley-VCH book series SENSORS UPDATE and ADVANCED MICRO AND NANOSYSTEMS as well as the Springer book series MICROTECHNOLOGY AND MEMS. From to he was the program director of the.

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Wong, M. Mengüç. Introduction. Graphene is a 2D allotrope of carbon consisting of a single layer of sp 2 carbon atoms in a hexagonal lattice and has been proposed a promising heat transfer material due to its excellent in-plane thermal conductivity of ∼ W/m K at room temperature.A number of experimental and theoretical studies have focused on pristine graphene (fabricated using the Cited by: Microscale and Nanoscale Heat Transfer: Analysis, Design, and Applications features contributions from prominent researchers in the field of micro- and nanoscale heat transfer and associated technologies and offers a complete understanding of thermal transport in nano-materials and devices.

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Thermal Transport in Oblique Finned Micro/Minichannels. [Yan Fan; Poh Seng Lee; Pawan Kumar Singh; Yong Jiun Lee] -- The main aim of this book is to introduce and give an overview of a novel, easy, and highly effective heat transfer augmentation technique for single-phase micro/minichannel heat sink.

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