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H., (2012). \u201cRecycled glass as a partial replacement for fine aggregate in self compacting concrete.\u201d <i>Construction and Building Materials<\/i>, 35, 785-791.","DOI":"10.1016\/j.conbuildmat.2012.04.117"},{"key":"2","unstructured":"2) ASTM C 39\/C 39M, (2005). \u201c<i>Standard test method for compressive strength of cylindrical concrete specimens<\/i>.\u201d Philadelphia: American Society of Testing and Materials."},{"key":"3","unstructured":"3) ASTM C 109\/C 109M, (2005). \u201c<i>Standard test method for compressive strength of hydraulic cement mortars<\/i> (<i>using 2-in. or<\/i> [<i>50-mm<\/i>] <i>cube specimens<\/i>).\u201d Philadelphia: American Society of Testing and Materials."},{"key":"4","unstructured":"4) ASTM C 1202, (2005). \u201c<i>Standard test method for electrical indication of concrete\u2019s ability to resist chloride ion penetration<\/i>.\u201d Philadelphia: American Society of Testing and Materials."},{"key":"5","unstructured":"5) BS EN 12390-8, (2009). \u201c<i>Testing hardened concrete part 8: depth of penetration of water under pressure<\/i>.\u201d London: British Standards Institution, London."},{"key":"6","unstructured":"6) BS EN 12390-3, (2009). \u201c<i>Testing hardened concrete Part 3: compressive strength of test specimens<\/i>.\u201d London: British Standard Institution."},{"key":"7","doi-asserted-by":"crossref","unstructured":"7) Carsana, M., Frassoni, M. and Bertolini, L., (2014). \u201cComparison of ground waste glass with other supplementary cementitious materials.\u201d <i>Cement and Concrete Composites<\/i>, 45, 39-45.","DOI":"10.1016\/j.cemconcomp.2013.09.005"},{"key":"8","doi-asserted-by":"crossref","unstructured":"8) Du, H. and Tan, K. H., (2013). \u201cUse of waste glass as sand in mortar: Part II - alkali-silica reaction and mitigation methods.\u201d <i>Cement and Concrete Composites<\/i>, 35(1), 118-126.","DOI":"10.1016\/j.cemconcomp.2012.08.029"},{"key":"9","doi-asserted-by":"crossref","unstructured":"9) Du, H. and Tan, K. H., (2014a). \u201cConcrete with recycled glass as fine aggregates.\u201d <i>ACI Materials Journal<\/i>, 111(1), 47-58.","DOI":"10.14359\/51686446"},{"key":"10","doi-asserted-by":"crossref","unstructured":"10) Du, H. and Tan, K. H., (2014b). \u201cEffect of particle size on alkali-silica reaction in recycled glass mortars.\u201d <i>Construction and Building Materials<\/i>, 66, 275-285.","DOI":"10.1016\/j.conbuildmat.2014.05.092"},{"key":"11","doi-asserted-by":"crossref","unstructured":"11) Du, H. and Tan, K. H., (2014c). \u201cTransport properties of concrete with glass powder as supplementary cementitious material.\u201d <i>ACI Materials Journal<\/i>, accepted for publication.","DOI":"10.14359\/51687363"},{"key":"12","doi-asserted-by":"crossref","unstructured":"12) Dyer, T. D. and Dhir, R. K. (2001). \u201cChemical reactions of glass cullet used as cement component.\u201d <i>Journal of Materials in Civil Engineering<\/i>, 13(6), 412-417.","DOI":"10.1061\/(ASCE)0899-1561(2001)13:6(412)"},{"key":"13","unstructured":"13) Helmuth, R., (1987). \u201c<i>Fly ash in cement and concrete<\/i>.\u201d Illinois: Portland Cement Association."},{"key":"14","doi-asserted-by":"crossref","unstructured":"14) Jain, J. A. and Neithalath, N., (2010). \u201cChloride transport in fly ash and glass powder modified concretes-influence of test methods on microstructure.\u201d <i>Cement and Concrete Composites<\/i>, 32(2), 148-156.","DOI":"10.1016\/j.cemconcomp.2009.11.010"},{"key":"15","unstructured":"15) Jawed, I. and Skalny, J., (1978). \u201cAlkalis in cement: a review II. 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H., Shim, J.W., Sim, J., Lee, H.G. and Zi, G., (2014). \u201cDurability properties of a concrete with waste glass sludge exposed to freeze-and-thaw condition and de-icing salt.\u201d <i>Construction and Building Materials<\/i>, 66, 398-402.","DOI":"10.1016\/j.conbuildmat.2014.05.081"},{"key":"19","unstructured":"19) Kocaba, V., (2009). \u201cDevelopment and evaluation of methods to follow microstructural development of cementitious systems including slags.\u201d PhD thesis. Ecole Polytechnique Federale de Lausanne."},{"key":"20","doi-asserted-by":"crossref","unstructured":"20) Ling, T. C., Poon, C. S. and Kou, S. C., (2011). \u201cFeasibility of using recycled glass in architectural cement mortars.\u201d <i>Cement and Concrete Composites<\/i>, 33(8), 848-854.","DOI":"10.1016\/j.cemconcomp.2011.05.006"},{"key":"21","doi-asserted-by":"crossref","unstructured":"21) Matos, A. M. and Sousa-Coutinho, J., (2012). \u201cDurability of mortar using waste glass powder as cement replacement.\u201d <i>Construction and Building Materials<\/i>, 36, 205-215.","DOI":"10.1016\/j.conbuildmat.2012.04.027"},{"key":"22","doi-asserted-by":"crossref","unstructured":"22) McGrath, P. F. and Hooton, R. D., (1999). \u201cRe-evaluation of the AASHTO T259 90-day salt ponding test.\u201d <i>Cement and Concrete Research<\/i>, 29(8), 1239-1248.","DOI":"10.1016\/S0008-8846(99)00058-7"},{"key":"23","unstructured":"23) Mindess, S., Young, J. F. and Darwin, D., (2003). \u201cConcrete.\u201d 2nd ed. New Jersey: Prentice Hall."},{"key":"24","doi-asserted-by":"crossref","unstructured":"24) Mirzahosseini, M. and Riding, K. 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