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Indentation of elastically anisotropic half-spaces by cones and parabolae of revolution
J.G. Swadener, G.M. Pharr
Mechanical, Biomedical & Design Engineering
College of Engineering and Physical Sciences
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Dive into the research topics of 'Indentation of elastically anisotropic half-spaces by cones and parabolae of revolution'. Together they form a unique fingerprint.
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Keyphrases
Indentation
100%
Anisotropic Half-space
100%
First-order
33%
High Mass Loading
33%
Stiffness
33%
Single Crystal
33%
Elastic Analysis
33%
Indentation Modulus
33%
Anisotropic Elastic Media
33%
Depth-sensing Indentation
33%
Indentation Test
33%
Elastic Regime
33%
Load Management System
33%
Conical Indentation
33%
Parabola
33%
Indenter Shape
33%
Simplified Method
33%
Spherical Indentation
33%
Ceramic Materials
33%
Indenter
33%
Engineering
Indentation
100%
Anisotropic
100%
Elastic Analysis
14%
Elastic Regime
14%
Material Science
Indentation
100%
Ceramic Material
14%
Single Crystal
14%