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Nanoindentation

Part of the Solid Mechanics and Its Applications book series (SMIA, volume 123)

Keywords

Fracture Toughness Interfacial Crack Indentation Volume Strain Energy Release Rate Berkovich Indenter 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

References

  1. 13.1.
    Oliver, W.C. and Pharr, G.M. (1992) ‘An improved technique for determining hardness and elastic modulus using load and displacement sensing indentation experiments,’ Journal of Materials Research 7, 1564–1583.Google Scholar
  2. 13.2.
    Lawn, B.R., Evans, A.G. and Marshall, D.B. (1980) ‘Elastic/plastic indentation damage in ceramics: The median/radial crack system,’ Journal of the American Ceramic Society 63, 574–581.Google Scholar
  3. 13.3.
    Pharr, G.M. (1998) ‘Measurement of mechanical properties by ultra-low load indentation,’ Materials Science and Engineering A253, 151–159.Google Scholar
  4. 13.4.
    Evans, A.G. and Hutchinson, J.W. (1984) ‘On the mechanics of delamination and spelling in compressed films,’ International Journal of Solids and Structures 20, 455–466.Google Scholar
  5. 13.5.
    Marshall, D.B. and Evans, A.G. (1984) ‘Measurement of adherence of residually stressed thin films by indentation. I. Mechanics of interface delamination,’ Journal of Applied Physics 56, 2632–2638.Google Scholar
  6. 13.6.
    De Boer, M.P. and Gerberich, W.W. (1996) ‘Microwedge indentation of the thin film fine line I. Mechanics,’ Acta Materiala 44, 3169–3175.Google Scholar
  7. 13.7.
    Vlassak, J.J., Drory, M.D. and Nix, W.D. (1997) ‘A simple technique for measuring the adhesion of brittle films to ductile substrates with application to diamond-coated titanium,’ Journal of Materials Research 12, 1900–1910.Google Scholar

Copyright information

© Springer 2005

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