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Title: Stiffness Degradation of Concrete Due to Alkali-Silica Reaction: A Computational Homogenization Approach

Author(s): Thuc Nhu Nguyen, R. Emre Erkmen, Leandro F. M. Sanchez, and Jianchun Li

Publication: Materials Journal

Volume: 117

Issue: 6

Appears on pages(s): 65-76

Keywords: alkali-silica reaction; computational homogenization; crack configuration; representative volume element

DOI: 10.14359/51728125

Date: 11/1/2020

Abstract:
Alkali-silica reaction (ASR) is one of the most harmful distress mechanisms affecting concrete infrastructure worldwide. ASR is a chemical reaction that generates a secondary product, which induces expansive pressure within the reacting aggregate material and adjacent cement paste upon moisture uptake, leading to cracking, loss of material integrity, and functionality of the affected structure. In this work, a computational homogenization approach is proposed to model the impact of ASR-induced cracking on concrete stiffness as a function of its development. A representative volume element (RVE) of the material at the mesoscale is developed, which enables the input of the cracking pattern and extent observed from a series of experimental testing. The model is appraised on concrete mixtures presenting different mechanical properties and incorporating reactive coarse aggregates. The results have been compared with experimental results reported in the literature. The case studies considered for the analysis show that stiffness reduction of ASR-affected concrete presenting distinct damage degrees can be captured using the proposed mesoscale model as the predictions of the proposed methodology fall in between the upper and lower bounds of the experimental results.