The Compelling Case for Indentation as a Functional Exploratory and Characterization Tool

The utility of indentation testing for characterizing a wide range of mechanical properties of brittle materials is highlighted in light of recent articles questioning its validity, specifically in relation to the measurement of toughness. Contrary to assertion by some critics, indentation fracture...

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Veröffentlicht in:	Journal of the American Ceramic Society 2015-09, Vol.98 (9), p.2671-2680
Hauptverfasser:	Marshall, David B., Cook, Robert F., Padture, Nitin P., Oyen, Michelle L., Pajares, Antonia, Bradby, Jodie E., Reimanis, Ivar E., Tandon, Rajan, Page, Trevor F., Pharr, George M., Lawn, Brian R.
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Schlagworte:	Fracture mechanics MATERIALS SCIENCE Mechanical properties Uncertainty Validity
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creator	Marshall, David B. Cook, Robert F. Padture, Nitin P. Oyen, Michelle L. Pajares, Antonia Bradby, Jodie E. Reimanis, Ivar E. Tandon, Rajan Page, Trevor F. Pharr, George M. Lawn, Brian R.
description	The utility of indentation testing for characterizing a wide range of mechanical properties of brittle materials is highlighted in light of recent articles questioning its validity, specifically in relation to the measurement of toughness. Contrary to assertion by some critics, indentation fracture theory is fundamentally founded in Griffith–Irwin fracture mechanics, based on model crack systems evolving within inhomogeneous but well‐documented elastic and elastic–plastic contact stress fields. Notwithstanding some numerical uncertainty in associated stress intensity factor relations, the technique remains an unrivalled quick, convenient and economical means for comparative, site‐specific toughness evaluation. Most importantly, indentation patterns are unique fingerprints of mechanical behavior and thereby afford a powerful functional tool for exploring the richness of material diversity. At the same time, it is cautioned that unconditional usage without due attention to the conformation of the indentation patterns can lead to overstated toughness values. Limitations of an alternative, more engineering approach to fracture evaluation, that of propagating a precrack through a “standard” machined specimen, are also outlined. Misconceptions in the critical literature concerning the fundamental nature of crack equilibrium and stability within contact and other inhomogeneous stress fields are discussed.
doi_str_mv	10.1111/jace.13729
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Notwithstanding some numerical uncertainty in associated stress intensity factor relations, the technique remains an unrivalled quick, convenient and economical means for comparative, site‐specific toughness evaluation. Most importantly, indentation patterns are unique fingerprints of mechanical behavior and thereby afford a powerful functional tool for exploring the richness of material diversity. At the same time, it is cautioned that unconditional usage without due attention to the conformation of the indentation patterns can lead to overstated toughness values. Limitations of an alternative, more engineering approach to fracture evaluation, that of propagating a precrack through a “standard” machined specimen, are also outlined. 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At the same time, it is cautioned that unconditional usage without due attention to the conformation of the indentation patterns can lead to overstated toughness values. Limitations of an alternative, more engineering approach to fracture evaluation, that of propagating a precrack through a “standard” machined specimen, are also outlined. 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subjects	Fracture mechanics MATERIALS SCIENCE Mechanical properties Uncertainty Validity
title	The Compelling Case for Indentation as a Functional Exploratory and Characterization Tool
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