Abstract
Alkali Silica Reaction (ASR) occurs in concrete when the alkali hydroxides (Na+, K+ and OH-) from the cement react with unstable silica, SiO2, in some types of aggregate. The resulting gel will expand when it absorbs water, potentially leading to cracking and overall expansion of the concrete. Concrete aggregates available in Hawaii have not demonstrated a history of ASR, however, results of accelerated laboratory tests using ASTM C1260 indicated a potential for ASR with some aggregates. In order to assess the accuracy of the laboratory test results, a long-term field study of the potential for ASR in concretes made with Hawaiian aggregates was initiated in 2011. Forty concrete specimens were constructed of various concrete mixtures using aggregates from all Hawaiian aggregate sources, and some US mainland aggregates known to exhibit ASR expansion. The specimens are located in an open field site in Manoa valley on the Hawaiian Island of Oahu, exposed to relatively high humidity and frequent rainfall. A weather station at the site records the ambient conditions on a continual basis. This paper describes the field evaluation program and presents the results after six years of monitoring. Comparisons are made between the field observations and accelerated laboratory tests.
Highlights
Alkali Silica Reaction, ASR, was first discovered in the early 1930’s by Thomas Stanton [1]
A number of the Hawaiian aggregates indicate potential ASR based on the ASTM C1260 test, but only one, from the Waikoloa quarry on Hawaii Island, is clearly reactive based on the ASTM C1293 test
A study was performed to assess the potential for Alkali Silica Reaction (ASR) in concrete fabricated using aggregates from a number of Hawaiian quarries
Summary
Alkali Silica Reaction, ASR, was first discovered in the early 1930’s by Thomas Stanton [1]. Was that the partial replacement of high alkali cement with a suitable pozzolanic material prevents excessive expansion within the concrete [1]. Both are methods still employed today as mitigation techniques for ASR. These aggregates were used in seven of the field specimens along with Hawaiian aggregates and high-alkali cement. Full details of the material properties and mix designs for each of the 40 field specimens are provided in [2]
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