High Pressure Surface Science and Engineering

High Pressure Surface Science and Engineering

by Yury Gogotsi
     
 

ISBN-10: 0750308818

ISBN-13: 9780750308816

Pub. Date: 11/28/2003

Publisher: Taylor & Francis

In many instances of mechanical interaction between two materials, the physical
contact affects only the outermost surface layer, with little discernible influence on the bulk of the material. The resultant high pressures in these localised regimes can induce surface structural changes such as deformation, phase transformation and amorphization. The

Overview

In many instances of mechanical interaction between two materials, the physical
contact affects only the outermost surface layer, with little discernible influence on the bulk of the material. The resultant high pressures in these localised regimes can induce surface structural changes such as deformation, phase transformation and amorphization. The understanding of these physical phenomena is critical in the study of common 'contact loading' processes such as scratching, grinding, milling, polishing, indentation testing, wear, friction and erosion.

Product Details

ISBN-13:
9780750308816
Publisher:
Taylor & Francis
Publication date:
11/28/2003
Series:
Series in Material Science and Engineering Series
Pages:
639
Product dimensions:
6.30(w) x 9.30(h) x 1.40(d)

Table of Contents

Introduction. High Pressure Surface Science and Engineering - A New Area of Research
(Y Gogotsi, Drexel University, USA)
Chapter 1 Phase Transitions Induced by Mechanical Compression
(JJ Gilman, University of California at Los Angeles, USA)
Chapter 2 Simulation of Pressure-Induced Phase Transformations
2,1 Contact Mechanics Models Accounting for Phase Transformations
(BA Galanov and V. Kindrachuk, National Academy of Sciences, Ukraine)
2,2 Molecular Dynamics Simulation of Phase Transformations in Monocrystalline Silicon
(L Zhang and WCD Cheong, University of Sydney, Australia)
2,3 High-Pressure Phases of Group IV and III-V Semiconductors
(G Ackland, University of Edinburgh, UK)
Chapter 3 Continuum Mechanical Fundamentals of Mechanochemistry
(VI Levitas, Texas Tech University, USA)
Chapter 4 Experimental Techniques in High Pressure Surface Science
4,1 Depth-Sensing Nanoindentation
(A Fischer-Cripps, CSIRO, Australia)
4,2 Nanomechanical Characterization of Ceramic Materials
(B Bhushan, Ohio State University, USA; X Li, University of South Carolina, USA)
4,3 Raman Microspectroscopy
(V Domnich and Y Gogotsi, Drexel University, USA)
4,4 Transmission Electron Microscopy
(D Ge and Y Gogotsi, Drexel University, USA)
Chapter 5 Experimental Studies of Phase Transformations Induced by Contact Loading
5,1 Indentation Induced Phase Transformations in Semiconductors
(V Domnich, D Ge and Y Gogotsi, Drexel University, USA)
5,2 Indentation Induced Phase Transformations in Ceramics
(V Domnich and Y Gogotsi, Drexel University, USA)
5,3 Zirconia Ceramics: Phase Transformations and Micro Raman Spectroscopy
(M Dorn and KG Nickel, University of Tübingen, Germany)
5,4 Phase Transformations Under Dynamic Loading
(T Juliano, V Domnich and Y Gogotsi, Drexel University, USA)
Chapter 6 Ductile Regime Machining of Semiconductors and Ceramics
(J Patten and H Cherukuri, University of North Carolina at Charlotte, USA
J Yan, Kitami Institute of Technology, Japan)

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