Bridging Simulations and Experiments in Microstructure Evolution

M. C. Demirel; A. P. Kuprat; D. C. George; A. D. Rollett

doi:10.1103/PhysRevLett.90.016106

Bridging Simulations and Experiments in Microstructure Evolution

M. C. Demirel, A. P. Kuprat, D. C. George, A. D. Rollett

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Abstract

We demonstrate the importance of anisotropic interface properties in microstructure evolution by comparing computed evolved microstructures to final experimental microstructures of 5170 grains in 19 thin aluminum foil samples. This is the first time that a direct experimental validation of simulation has been performed at the level of individual grains. We observe that simulated microstructures using curvature-driven grain boundary motion and anisotropic interface properties agree well with experimentally evolved microstructures, whereas agreement is poor when isotropic properties are used.

Original language	English (US)
Pages (from-to)	4
Number of pages	1
Journal	Physical review letters
Volume	90
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevLett.90.016106
State	Published - 2003

All Science Journal Classification (ASJC) codes

General Physics and Astronomy

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10.1103/PhysRevLett.90.016106

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title = "Bridging Simulations and Experiments in Microstructure Evolution",

abstract = "We demonstrate the importance of anisotropic interface properties in microstructure evolution by comparing computed evolved microstructures to final experimental microstructures of 5170 grains in 19 thin aluminum foil samples. This is the first time that a direct experimental validation of simulation has been performed at the level of individual grains. We observe that simulated microstructures using curvature-driven grain boundary motion and anisotropic interface properties agree well with experimentally evolved microstructures, whereas agreement is poor when isotropic properties are used.",

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AB - We demonstrate the importance of anisotropic interface properties in microstructure evolution by comparing computed evolved microstructures to final experimental microstructures of 5170 grains in 19 thin aluminum foil samples. This is the first time that a direct experimental validation of simulation has been performed at the level of individual grains. We observe that simulated microstructures using curvature-driven grain boundary motion and anisotropic interface properties agree well with experimentally evolved microstructures, whereas agreement is poor when isotropic properties are used.

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Bridging Simulations and Experiments in Microstructure Evolution

Abstract

All Science Journal Classification (ASJC) codes

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