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    List of publications of Didier SNOECK


      Contributions to collective works (5)
  1. 1. Lefever, G., Aggelis, D. G., De Belie, N., Van Hemelrijck, D., & Snoeck, D. (2022). Nanomaterials in self-healing cementitious composites. In Recent Advances in Nano-Tailored Multi-Functional Cementitious Composites (pp. 141-159). Elsevier. doi:10.1016/B978-0-323-85229-6.00013-5
  2. 2. Snoeck, D. (2021). Superabsorbent polymers as a solution for various problems in construction engineering. In Superabsorbent Polymers: Chemical Design, Processing, and Applications (pp. 143-170). De Gruyter. doi:10.1515/9781501519116-006
  3. 3. Copuroglu, O., Schlangen, E., Nishiwaki, T., Van Tittelboom, K., Snoeck, D., De Belie, N., & De Rooij, M. (2013). Experimental techniques used to verify healing. In Self-Healing Phenomena in Cement-Based Materials: State-of-the-Art Report of RILEM Technical Committee 221-SHC. doi:10.1007/978-94-007-6624-2
  4. 4. Reinhardt, H.-W., Jonkers, H., Van Tittelboom, K., Snoeck, D., De Belie, N., De Muynck, W., Verstraete, W., Wang, J., & Mechtcherine, V. (2013). Recovery against environmental actions. In Self-Healing Phenomena in Cement-Based Materials: State-of-the-Art Report of RILEM Technical Committee 221-SHC. doi:10.1007/978-94-007-6624-2
  5. 5. Li, V. C., Sakulich, A., Reinhardt, H.-W., Schlangen, E., Van Tittelboom, K., Snoeck, D., De Belie, N., Joseph, C., Gardner, D., Lark, R., Mihashi, H., & Nishiwaki, T. (2013). Recovery against mechanical actions. In Self-Healing Phenomena in Cement-Based Materials: State-of-the-Art Report of RILEM Technical Committee 221-SHC. doi:10.1007/978-94-007-6624-2
    6.   Peer-reviewed journal articles (101)
  6. 1. Lefever, G., Van Hemelrijck, D., Snoeck, D., & Aggelis, D. G. (2022). Self-healing assessment of cementitious mortars through ultrasonic monitoring. Cement & concrete composites, 133, 104683. doi:10.1016/j.cemconcomp.2022.104683
  7. 2. Snoeck, D., Roigé, N., Manso, S., Segura, I., & De Belie, N. (2022). The effect of (and the potential of recycled) superabsorbent polymers on the water retention capability and bio-receptivity of cementitious materials. Resources, conservation and recycling, 177, 106016. doi:10.1016/j.resconrec.2021.106016
  8. 3. Schröfl, C., Erk, K., Siriwatwechakul, W., Wyrzykowski, M., & Snoeck, D. (2022). Recent progress in superabsorbent polymers for concrete. Cement and concrete research, 151, 106648. doi:10.1016/j.cemconres.2021.106648
  9. 4. Tenório Filho, J. R., Mannekens, E., Van Tittelboom, K., Van Vlierberghe, S., De Belie, N., & Snoeck, D. (2021). Innovative SuperAbsorbent Polymers (iSAPs) to construct crack-free reinforced concrete walls: An in-field large-scale testing campaign. Journal of Building Engineering, 43, 102639. doi:10.1016/j.jobe.2021.102639
  10. 5. di Summa, D., Tenório Filho, J. R., Snoeck, D., Van den Heede, P., Van Vlierberghe, S., Ferrara, L., & De Belie, N. (2022). Environmental and economic sustainability of crack mitigation in reinforced concrete with SuperAbsorbent polymers (SAPs). Journal of cleaner production, 358, 131998. doi:10.1016/j.jclepro.2022.131998
  11. 6. Lefever, G., Van Hemelrijck, D., Aggelis, D. G., & Snoeck, D. (2022). Evaluation of self-healing in cementitious materials with superabsorbent polymers through ultrasonic mapping. Construction & building materials, 344, 128272. doi:10.1016/j.conbuildmat.2022.128272
  12. 7. Tenório Filho, J. R., de Araújo, M. A. P. G., Mannekens, E., De Belie, N., & Snoeck, D. (2022). Alginate- and sulfonate-based superabsorbent polymers for application in cementitious materials: Effects of kinetics on internal curing and other properties. Cement and concrete research, 159, 106889. doi:10.1016/j.cemconres.2022.106889
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