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PUBLICATIONS

Comprehensive Evaluation of AIMS Texture, Angularity, and Dimension Measurements

Published

Author(s)

Enad M. Mahmoud, Leslie L. Gates, Eyad A. Masad, Sinan T. Erdogan, Edward Garboczi

Abstract

Aggregates are the most widely used construction materials in the world in structures built from both asphaltic and portland cement concrete composites. The performance of these composites is affected by aggregate shape characteristics (e.g., angularity, texture, dimensions). The Aggregate Imaging System (AIMS) is a computer automated system that was developed to measure aggregate shape characteristics using digital camera images of aggregates. This paper addresses four issues concerning AIMS measurements: (1) enhanced ways of handling and classifying the large datasets typically generated, (2) enhanced automation in processing fine aggregate images that appear to contain touching particles, (3) an improved consideration of measurement variability or repeatability between different operators, different AIMS units, and for aggregate placement and orientation, and (4) comparison of AIMS dimensional measurements with true 3-D dimensional measurements using X-ray tomography on a large coarse aggregate dataset. The various aggregate sets used in this study covered a broad range of angularity and texture. The AIMS measurements of the ratios of dimensions were found to have excellent agreement with the more accurate X-ray tomography values, but the measurements of the individual dimensions were systematically low by about 10 %.
Citation
Cement and Concrete Research
Volume
22
Issue
4
Pub Type
Journals

Download Paper

https://doi.org/10.1061/(ASCE)MT.1943-5533.0000033
Local Download

Keywords

Aggregate, Texture, Angularity, Imaging, X-Ray tomography, Material Technology
Materials, Fire, Concrete / cement and Buildings and Construction

Citation

Mahmoud, E. , Gates, L. , Masad, E. , Erdogan, S. and Garboczi, E. (2009), Comprehensive Evaluation of AIMS Texture, Angularity, and Dimension Measurements, Cement and Concrete Research, [online], https://doi.org/10.1061/(ASCE)MT.1943-5533.0000033, https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=900979 (Accessed October 28, 2025)

Issues

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Created July 3, 2009, Updated July 24, 2024
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