Dipen K. Patel scite author profile

The stress-strain fields realized in spherical indentation tests are highly heterogeneous, and present a significant challenge to the recovery of bulk stress-strain responses such as those measured in simple compression tests performed on samples with a uniform cross section in the gauge section. In this paper, we critically explore the correlations between indentation stressstrain curves and the simple compression stress-strain curves using the finite element model of indentation as a surrogate for the actual experiment. The central advantage of using a finite element model is that it allows us to critically explore the sensitivity of various assumptions or values of parameters or other choices made in the analyses protocols on the extracted results. Based on this study, a general protocol has been established to reliably recover the uniaxial stress-strain response directly from the indentation stress-strain curve for isotropic elastic-plastic materials. The protocols developed are validated for a range of hardening behaviors.

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Calibrated localization relationships for elastic response of polycrystalline aggregates

Yabansu

Patel

Kalidindi

2014

Acta Materialia

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Strong cube recrystallization texture in silicon steel by twin-roll casting process

et al. 2014

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Extracting single-crystal elastic constants from polycrystalline samples using spherical nanoindentation and orientation measurements

2014

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Modeling the pyrolysis of preceramic polymers: A kinetic study of the polycarbosilane SMP-10

Key

Patel

Wilks

et al. 2021

Journal of the European Ceramic Society

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Dipen K. Patel

Correlation of spherical nanoindentation stress-strain curves to simple compression stress-strain curves for elastic-plastic isotropic materials using finite element models

Calibrated localization relationships for elastic response of polycrystalline aggregates

Strong cube recrystallization texture in silicon steel by twin-roll casting process

Extracting single-crystal elastic constants from polycrystalline samples using spherical nanoindentation and orientation measurements

Modeling the pyrolysis of preceramic polymers: A kinetic study of the polycarbosilane SMP-10

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