Statistical verification of 2D-to-3D conversion of size and number density of particles

Statistical verification of 2D-to-3D conversion of size and number density of particles

Particle/grain size and their number density arecommonly characterized in two dimensions (2D) from planaroptical or SEM micrographs of polished samples. Accurateconversion of such quantities into the three dimensional (3D)values are necessary for prediction of material properties.Several contradicti...

Full description

Bibliographic Details
Main Authors: Ahmed Elkholy, Wael Rady, Mahmoud Ahmadein
Format: Article
Language:Arabic
Published: Faculty of engineering, Tanta University 2019-03-01
Series:Journal of Engineering Research - Egypt
Subjects:
quantitative metallography
image analysis
grain size
particle size
Online Access:https://erjeng.journals.ekb.eg/article_125490_31eef99dff2be8b8ef7c5cf2fa37e4f4.pdf
Description
Summary:Particle/grain size and their number density arecommonly characterized in two dimensions (2D) from planaroptical or SEM micrographs of polished samples. Accurateconversion of such quantities into the three dimensional (3D)values are necessary for prediction of material properties.Several contradicting conversion correlations are available inliterature. The main objective of the current works it to verifysome of them. For this purpose, geometrical (3D) models ofrandomly distributed mono-size spheres were constructed andsliced at different planes. The particle count and their size werevariated within the same control volume. The statisticalinvestigations of the date suggested a (2D)-to-(3D) conversionfactor of 1.152377 ± 0.009427, which is very close to some ofearlier works [A. N. Sinha, 1999].
ISSN:2356-9441
2735-4873

Similar Items