Within WP4, I would like to contribute to the following tasks:
1. Development of a model to simulate the combined carbonation and mechanical loading;
2. Experimental work: limited contribution because we only have the setups to carbonate samples without mechanical loading; we may measure water permeability using our novel setup;
3. Literature review on combined actions.
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1. Phung, Q. T., N. Maes, D. Jacques, G. De Schutter, G. Ye and J. Perko (2016). "Modelling the carbonation of cement pastes under a CO2 pressure gradient considering both diffusive and convective transport." Construction and Building Materials 114: 333-351.
2. Phung, Q. T., N. Maes, G. De Schutter, D. Jacques and G. Ye (2013). "Determination of water permeability of cementitious materials using a controlled constant flow method." Construction and Building Materials 47(0): 1488-1496.
3. Phung, Q. T., N. Maes, D. Jacques, E. Bruneel, I. Van Driessche, G. Ye and G. De Schutter (2015). "Effect of limestone fillers on microstructure and permeability due to carbonation of cement pastes under controlled CO2 pressure conditions." Construction and Building Materials 82(0): 376-390.
4. Patel, R. A., Q. T. Phung, S. C. Seetharam, J. Perko, D. Jacques, N. Maes, G. De Schutter, G. Ye and K. Van Breugel (2016). "Diffusivity of saturated ordinary Portland cement-based materials: A critical review of experimental and analytical modelling approaches." Cement and Concrete Research 90: 52-72.
5. Kottititum, B., Q. T. Phung, N. Maes, W. Prakaypan and T. Srinophakun (2018). "Early Age Carbonation of Fiber-Cement Composites under Real Processing Conditions: A Parametric Investigation." Applied Sciences: 21.
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