Contact Mechanics at Nanometric Scale Using Nanoindentation Technique for Brittle and Ductile Materials

Title:Contact Mechanics at Nanometric Scale Using Nanoindentation Technique for Brittle and Ductile Materials

Volume: 6 Issue: 2

Author(s): J. J. Roa, E. Rayon, M. Morales, M. Segarra

Affiliation:

Keywords: Contact Mechanics, Nanometric Scale, Nanoindentation Technique, brittle materials, ductile materials, Microindentation, Macroindentation, Elastic Regimen, Elastic-to-Plastic Regimen, Indenter Employed, Indenter Shape, Sink-in Effects, elastic modulus, stress-strain curve), Dimensionless Factor

Abstract: In the last years, Nanoindentation or Instrumented Indentation Technique has become a powerful tool to study the mechanical properties at micro/nanometric scale (commonly known as hardness, elastic modulus and the stress-strain curve). In this review, the different contact mechanisms (elastic and elasto-plastic) are discussed, the recent patents for each mechanism (elastic and elasto-plastic) are summarized in detail, and the basic equations employed to know the mechanical behaviour for brittle and ductile materials are described.

Cite this article as:

J. J. Roa, E. Rayon, M. Morales, M. Segarra , Contact Mechanics at Nanometric Scale Using Nanoindentation Technique for Brittle and Ductile Materials , Recent Patents on Nanotechnology 2012; 6 (2) . https://dx.doi.org/10.2174/187221012800270162