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2. Al-Khatib, M.I. and S. Al-Martini, 2017. Predicting the rheology of self-consolidating concrete under hot weather. Proc. Inst. Civil Eng.-Constr. Mater., (In Press). 10.1680/jcoma.16.00055.
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3. Al-Martini, S. and M. Nehdi, 2010. Effects of heat and mixing time on self-compacting concrete. ICE Constr. Mater. J., 163: 175-182.
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4. Nehdi, M. and S. Al-Martini, 2009. Coupled effects of high temperature, prolonged mixing time and chemical admixtures on rheology of fresh concrete. ACI Mater. J., 106: 231-240.
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5. Nehdi, M. and S. Al Martini, 2009. Estimating time and temperature dependent yield stress of cement paste using oscillatory rheology and genetic algorithms. Cem. Concr. Res., 39: 1007-1016.
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6. Martini, S.A. and M. Nehdi, 2009. Coupled effects of time and high temperature on rheological properties of cement pastes incorporating various superplasticizers. J. Mater. Civil Eng., 21: 392-401.
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7. Al-Martini, S. and M. Nehdi, 2009. Genetic algorithm-based yield stress equations for concrete at high temperature and prolonged mixing time. Comput. Concr., 6: 343-356.
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8. Nehdi, M. and S. Al Martini, 2007. Effect of temperature on oscillatory shear behavior of portland cement paste incorporating chemical admixtures. J. Mater. Civil Eng., 19: 1090-1100.
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