Estimation of 3D grain size distributions from 2D sections in real and simulated microstructures

Thomas van der Jagt; Martina Vittorietti; Karo Sedighiani; Cornelis Bos; Geurt Jongbloed

doi:10.1016/j.commatsci.2025.113949

Estimation of 3D grain size distributions from 2D sections in real and simulated microstructures

Thomas van der Jagt, Martina Vittorietti, Karo Sedighiani, Cornelis Bos, Geurt Jongbloed

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Abstract

Obtaining information about the 3D grain size distribution of metallic microstructures is crucial for understanding the mechanical behavior of metals. This paper addresses the problem of estimating the 3D grain size distribution from 2D cross sections. This is a well-known stereological problem and different estimators have been proposed in the literature. We propose a statistical estimation procedure that provides consistent estimates without relying on arbitrary binning choices. When applying this procedure to space filling structures, we investigate the impact of the choice of grain shape and propose a heuristic to choose the best grain shape. To validate our approach, we employ simulations using Laguerre–Voronoi diagrams and apply our methodology to a sample of Interstitial-Free steel, obtained via EBSD.

Original language	English
Article number	113949
Number of pages	10
Journal	Computational Materials Science
Volume	256
DOIs	https://doi.org/10.1016/j.commatsci.2025.113949
Publication status	Published - 2025

Keywords

Consistency
Estimation
Grain size distribution
Microstructure
Simulations
Stereology

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10.1016/j.commatsci.2025.113949

1-s2.0-S0927025625002927-mainFinal published version, 2.25 MBLicence: CC BY

Cite this

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title = "Estimation of 3D grain size distributions from 2D sections in real and simulated microstructures",

abstract = "Obtaining information about the 3D grain size distribution of metallic microstructures is crucial for understanding the mechanical behavior of metals. This paper addresses the problem of estimating the 3D grain size distribution from 2D cross sections. This is a well-known stereological problem and different estimators have been proposed in the literature. We propose a statistical estimation procedure that provides consistent estimates without relying on arbitrary binning choices. When applying this procedure to space filling structures, we investigate the impact of the choice of grain shape and propose a heuristic to choose the best grain shape. To validate our approach, we employ simulations using Laguerre–Voronoi diagrams and apply our methodology to a sample of Interstitial-Free steel, obtained via EBSD.",

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T1 - Estimation of 3D grain size distributions from 2D sections in real and simulated microstructures

AU - Jagt, Thomas van der

AU - Vittorietti, Martina

AU - Sedighiani, Karo

AU - Bos, Cornelis

AU - Jongbloed, Geurt

PY - 2025

Y1 - 2025

N2 - Obtaining information about the 3D grain size distribution of metallic microstructures is crucial for understanding the mechanical behavior of metals. This paper addresses the problem of estimating the 3D grain size distribution from 2D cross sections. This is a well-known stereological problem and different estimators have been proposed in the literature. We propose a statistical estimation procedure that provides consistent estimates without relying on arbitrary binning choices. When applying this procedure to space filling structures, we investigate the impact of the choice of grain shape and propose a heuristic to choose the best grain shape. To validate our approach, we employ simulations using Laguerre–Voronoi diagrams and apply our methodology to a sample of Interstitial-Free steel, obtained via EBSD.

AB - Obtaining information about the 3D grain size distribution of metallic microstructures is crucial for understanding the mechanical behavior of metals. This paper addresses the problem of estimating the 3D grain size distribution from 2D cross sections. This is a well-known stereological problem and different estimators have been proposed in the literature. We propose a statistical estimation procedure that provides consistent estimates without relying on arbitrary binning choices. When applying this procedure to space filling structures, we investigate the impact of the choice of grain shape and propose a heuristic to choose the best grain shape. To validate our approach, we employ simulations using Laguerre–Voronoi diagrams and apply our methodology to a sample of Interstitial-Free steel, obtained via EBSD.

KW - Consistency

KW - Estimation

KW - Grain size distribution

KW - Microstructure

KW - Simulations

KW - Stereology

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DO - 10.1016/j.commatsci.2025.113949

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VL - 256

JO - Computational Materials Science

JF - Computational Materials Science

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Estimation of 3D grain size distributions from 2D sections in real and simulated microstructures

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