Experimental investigation of ASR-affected concrete – The influence of uniaxial loading on the evolution of mechanical properties, expansion and damage indices

Simen Sørgaard Kongshaug,Oddbjørn Oseland,Terje Kanstad,Max A.N Hendriks,Eva Rodum,Gro Markeset

doi:10.1016/j.conbuildmat.2020.118384

Abstract

The alkali silica reaction (ASR) in concrete causes internal localized swelling and micro cracking, which result in expansion and correlated deterioration of the concrete material. The stress state of the concrete is known to affect expansion due to ASR, with an anisotropic stress state giving rise to anisotropic expansion. Similarly, the orientation and extent of micro cracking have a directional effect on the concrete mechanical behaviour. This research studied the effect of sustained uniaxial compressive stress on the evolution of the mechanical behaviour of concrete in compression. Concrete cubes of 230 mm side length were uniaxially restrained and stored in accelerated conditions, with cores drilled in two directions for mechanical tests: a cyclic test in compression, i.e. a stiffness damage test (SDT) and a complete stress-strain test. A clear directional dependency of the mechanical characteristics was found. Furthermore, the results indicate that reduction in modulus of elasticity is well correlated with the expansion in the test direction. On the other hand, the damage indices obtained from the SDT merely relate to the expansion, which puts in question the SDT’s ability to predict ASR expansion in stressed concrete and therefore in concrete structures.

Highlights

Alkali-silica reaction (ASR) in concrete is a chemical reaction between alkalis mostly from the cement paste, and silica from reactive aggregates
From each stress-strain relationship, the modulus of elasticity and stiffness damage test (SDT)-indices (SDI, plastic damage index (PDI) and non-linearity index (NLI)) were calculated, and the results are presented
Concrete cubes of 230 mm side length were stored in accelerated conditions (60 °C) and compared to reference cubes stored at 20 °C

Summary

Introduction

Alkali-silica reaction (ASR) in concrete is a chemical reaction between alkalis mostly from the cement paste, and silica from reactive aggregates. Pressure develops in the ASR gel and causes tensile stresses in the surrounding material. The effect of ASR on the concrete is expansion (strains) and degradation of material properties like stiffness and strength [1,2]. The expansion is related to the degree and orientation of the micro cracking in the material, which result in anisotropic material behaviour in terms of stiffness and strength. Barbosa et al [8] studied the influence of the ASR-induced crack orientation on the compressive strength and modulus of elasticity of drilled cores from ASR-damaged slab bridges.

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Conclusion