Litcius/Paper detail

Random Material Property Fields of 3D Concrete Microstructures Based on CT Image Reconstruction

George Stefanou, Dimitrios Savvas, P. Metsis

2021Materials20 citationsDOIOpen Access PDF

Abstract

The purpose of this paper is to determine the random spatially varying elastic properties of concrete at various scales taking into account its highly heterogeneous microstructure. The reconstruction of concrete microstructure is based on computed tomography (CT) images of a cubic concrete specimen. The variability of the local volume fraction of the constituents (pores, cement paste and aggregates) is quantified and mesoscale random fields of the elasticity tensor are computed from a number of statistical volume elements obtained by applying the moving window method on the specimen along with computational homogenization. Based on the statistical characteristics of the mesoscale random fields, it is possible to assess the effect of randomness in microstructure on the mechanical behavior of concrete.

Topics & Concepts

RandomnessMicrostructureHomogenization (climate)Mesoscale meteorologyMaterials scienceRandom fieldVolume fractionComposite materialGeologyMathematicsStatisticsBiologyBiodiversityEcologyClimatologyRock Mechanics and ModelingComposite Material MechanicsDrilling and Well Engineering