Issue Date | Title | Author(s) |
2019-05 | Accelerated autoclave test for determining alkali silica reaction of concrete | Gowripalan, N; Cao, J; Sirivivatnanon, V; South, W |
2020-12-16 | Accelerated test for assessing the potential risk of alkali-silica reaction in
concrete using an autoclave | Cao, J; Gowripalan, N; Sirivivatnanon, V; South, W |
2015-09-02 | Acid-Soluble and Water-Soluble Chloride – Testing Proficiency and Specification | South, W; Thomas, T; Sirivivatnanon, V |
2019-09-08 | Assessment of Aggregate Reactivity Using Slurry Tests | Thomas, P; Ha Hau, V; Vessalas, K; Sirivivatnanon, V; South, W |
2019-09-09 | Assessment of ASR expansions using an ultra-accelerated test | Gowripalan, N; Cao, J; Sirivivatnanon, V; South, W |
2017-10-22 | Assessment of Test Methods for ASR Aggregate Reactivity | Thomas, P; Ha Hau, WF; Vessalas, K; Sirivivatnanon, V; South, W |
2021-06-01 | Comparison of the effect of ASR deterioration on the load carrying capacity of concrete structural elements in accelerated laboratory tests and in the field | Gowripalan, N; Cao, J; Sirivivatnanon, V; South, W |
2016-05-01 | General Purpose Cement with Increased Limestone Content in Australia | Mohammadi, IJ; South, W |
2015-08-30 | Linking New Australian Alkali Silica Reactivity Tests to World-Wide Performance Data | Rocker, P; Mohammadi, J; Sirivivatnanon, V; South, W |
2019-09-08 | A Plastic-Damage Model for Concrete under Cyclic Loads | Sarikaya, A; Erkmen, RE; Gowripalan, N; Sirivivatnanon, V; South, W |
2016-11-15 | Reliability of new Australian test methods in predicting alkali silica reaction of field concrete | Sirivivatnanon, V; Mohammadi, J; South, W |
2021-01-01 | The ability of SCMs to mitigate ASR in cements of higher alkali contents assessed by pore solution method | Tapas, MJ; Sofia, L; Vessalas, K; Thomas, P; South, W; Sirivivatnanon, V; Scrivener, K; Lopes Batista, A; Santos Silva, A; Fernandes, I; Oliveira Santos, L; Custódio, J; Serra, C |