Stochastic Mesoscopic Modeling of Concrete Systems Containing Recycled Concrete Aggregates Using Monte Carlo Methods

Document Type

Article

Publication Date

3-1-2022

Abstract

This paper investigates the applicability of numerically generated recycled concrete aggregate (RCA) systems by varying the material properties. The methodology was adopted by using a computational algorithm that can generate concrete systems with different RCA replacement levels to numerically simulate recycled aggregate concrete (RAC) systems under mechanical loading. Numerically simulated results are compared with an experimental database that has been established, including a substantial data set on RAC mixture design proportions. RAC geometries and material properties were stochastically generated using Monte Carlo simulation methods, resulting in 200 representative numerical models that were subjected to simulated mechanical loading. The overall variability of the concrete properties was not well-predicted in the numerical models compared to the experimental database results due to modeling limitations and material heterogeneity exhibited in experiments. The variability of tensile strength was governed by the complex strain localization patterns in the interfacial transition zone (ITZ) phases in RAC systems that were simulated.

Identifier

85134794901 (Scopus)

Publication Title

ACI Materials Journal

External Full Text Location

https://doi.org/10.14359/51734483

ISSN

0889325X

First Page

3

Last Page

18

Issue

2

Volume

119

Grant

18.517

Fund Ref

American Concrete Institute Foundation

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