Indentation Techniques in Ceramic Materials Characterization: Proceedings of the symposium held at the 105th Annual Meeting of The American Ceramic Society, April 27-30, in Nashville, Tennessee, Ceramic Transactions / Edition 1

Indentation Techniques in Ceramic Materials Characterization: Proceedings of the symposium held at the 105th Annual Meeting of The American Ceramic Society, April 27-30, in Nashville, Tennessee, Ceramic Transactions / Edition 1

by Ahmad G. Solomah
     
 

ISBN-10: 1574982125

ISBN-13: 9781574982121

Pub. Date: 01/03/2004

Publisher: Wiley

Indentation techniques have become widely used in the characterization of brittle solids due to their simplicity, cost effectiveness, rapidness, and maybe most importantly, the indenter itself can be used as a mechanical microprobe in thin films, interfaces, grain boundaries, and nanocomposites. The papers in these proceedings cover measurement techniques,

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Overview

Indentation techniques have become widely used in the characterization of brittle solids due to their simplicity, cost effectiveness, rapidness, and maybe most importantly, the indenter itself can be used as a mechanical microprobe in thin films, interfaces, grain boundaries, and nanocomposites. The papers in these proceedings cover measurement techniques, reliability of, and problems associated with this testing method. Also included is the application of nano-indentation technique, as a new frontier in brittle solids characterization, e.g., thin film and nano-composite materials.

Product Details

ISBN-13:
9781574982121
Publisher:
Wiley
Publication date:
01/03/2004
Series:
Ceramic Transactions Series, #33
Pages:
170
Product dimensions:
6.08(w) x 8.98(h) x 0.38(d)

Table of Contents

Indentation Techniques in Ceramic Materials Characterization.

Accuracy of Empirical Formulae to Measure the Toughness of Transformation-Toughened Ceramics - How Accurate Do You Need Your KIC? (A.G. Solomah).

Vickers Indentation: A Powerful Tool for the Analysis of Fatigue Behavior on Glasses (V.M. Sglavo and M. Bertoldi).

Nano-Indentation as a Complimentary Method to XRD and RCA for Calculating Residual Stress in Thin Films (W.D. Nothwang, C. Hubbard, E. Ngo and M.W. Cole).

Strength Degradation from Contact Fatigue in Dental Crown Composites (D.Y. Lee, S.-J. Lee, I.-S. Park, D.-J. Kim and B.-Y. Kim).

Application of Focused Ion Beam Miller in Indentation Fracture Characterization (R.J. Moon, Z.-H. Xie, M. Hoffman, P.R. Munroe and Y.-B. Cheng).

Local T/M Phase Amount Determination in the Vicinity of Indentations and Scratches in Zirconia (M.T. Dorn and K.G. Nickel).

Investigation of the Creep Behavior of a Ceramic-based Composite Using Nanoindentation Testing of the Creeping Constituent (R. Goodall, A. Kahl, T.W. Clyne and J.A. Fernie).

An Experimental Assessment of Using Crack-Opening Displacements to Determine Indentation Toughness from Vickers Indents (J.J. Kruzic and R.O. Ritchie).

Combined Nanoindentation Technique and Acoustic Determination of the Elastic Properties of Float Glass Surface (O. Goodman and B. Derby).

Microindentation of Thermal Barrier Coatings Using High-Temperature Displacement Sensitive Indenter (C.-H. Kim, A.H. Heuer and B.D. Kernan).

Residual Stress Bend Effect Due to Diamond-Tip Scribing of an Al2O3-TiC Composite Ceramic (B.W. Austin, T. Randall and R.O. Scattergood).

Ductile Grinding of Brittle Materials (R.O. Scattergood).

Nano-Compression of Carbon Micro-Balloons with a Flat-Ended Cylindrical Indenter (G. Gouadec, K. Carlisle, K.K. Chawla, M.C. Koopman, G.M. Gladysz and M. Lewis).

Open Forum: Vickers Indentation Technique - Problems and Solutions (A.G. Solomah).

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