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All issues Volume 289 (2019) MATEC Web Conf., 289 (2019) 08007 References
Open Access
Issue
MATEC Web Conf.
Volume 289, 2019
Concrete Solutions 2019 – 7th International Conference on Concrete Repair
Article Number 08007
Number of page(s) 8
Section Service Life Modelling
DOI https://doi.org/10.1051/matecconf/201928908007
Published online 28 August 2019
  1. C.-p. Gu, G. Ye, W. Sun. A review of the chloride transport properties of cracked concrete: experiments and simulations. Journal of Zhejiang University-SCIENCE A. (2015);16(2):81–92. [CrossRef] [Google Scholar]
  2. B. Šavija, E. Schlangen. Chloride ingress in cracked concrete-a literature review. Advances in modeling concrete service life: Springer; 2012. p. 133-42. [Google Scholar]
  3. M. Maes, K. Van Tittelboom, N. De Belie. The efficiency of self-healing cementitious materials by means of encapsulated polyurethane in chloride containing environments. Construction and Building Materials. (2014);71:528–37. [Google Scholar]
  4. P. Van den Heede, B. Van Belleghem, M. A. Pereira Gomes de Araújo, J. L. Garcia Feiteira, N. De Belie. Screening of different encapsulated polymer-based healing agents for chloride exposed self-healing concrete using chloride migration tests. (2018) KEY ENGINEERING MATERIALS. (2018). [Google Scholar]
  5. B. Van Belleghem, P. Van den Heede, K. Van Tittelboom, N. De Belie. Quantification of the service life extension and environmental benefit of chloride exposed self-healing concrete. (2017) MATERIALS. (2017). [Google Scholar]
  6. Y. Ç. Erşan, K. Van Tittelboom, N. Boon, N. De Belie. Nitrite producing bacteria inhibit reinforcement bar corrosion in cementitious materials. Scientific reports. (2018);8(1):14092. [Google Scholar]
  7. D. Snoeck, P. Dubruel, N. De Belie. Superabsorbent polymers to prevent water movement in cementitious materials. INTERNATIONAL JOURNAL OF 3 R'S. (2012);3(3):432–40. [Google Scholar]
  8. D. Snoeck, S. Steuperaert, K. Van Tittelboom, P. Dubruel, N. De Belie. Visualization of water penetration in cementitious materials with superabsorbent polymers by means of neutron radiography. Cement and Concrete Research. (2012);42(8):1113–21. [CrossRef] [Google Scholar]
  9. D. Snoeck, J. Dewanckele, V. Cnudde, N. De Belie. X-ray computed microtomography to study autogenous healing of cementitious materials promoted by superabsorbent polymers. Cement and Concrete Composites. (2016);65:83–93. [CrossRef] [Google Scholar]
  10. M. T. Hasholt, O. M. Jensen. Chloride migration in concrete with superabsorbent polymers. Cement and Concrete Composites. (2015);55:290–7. [CrossRef] [Google Scholar]
  11. H. Beushausen, M. Gillmer, M. Alexander. The influence of superabsorbent polymers on strength and durability properties of blended cement mortars. Cement and Concrete Composites. (2014);52:73–80. [CrossRef] [Google Scholar]
  12. T. Van Mullem, E. Gruyaert, B. Debbaut, R. Caspeele, N. De Belie. Novel active crack width control technique to reduce the variation on water permeability results for self-healing concrete. Construction and Building Materials. (2019);203:541–51. [CrossRef] [Google Scholar]
  13. T. Van Mullem, K. Van Tittelboom, E. Gruyaert, R. Caspeele, N. De Belie, editors. Development of an improved cracking method to reduce the variability in testing the healing efficiency of self-healing mortar containing encapsulated polymers. Concrete Repair, Rehabilitation and Retrofitting (ICCRRR2018); 2018: EDP Sciences. [Google Scholar]
  14. E. Gruyaert, B. Debbaut, D. Snoeck, P. Díaz, A. Arizo, E. Tziviloglou, et al. Self-healing mortar with pH-sensitive superabsorbent polymers: testing of the sealing efficiency by water flow tests. Smart Materials and Structures. (2016);25(8):084007. [CrossRef] [Google Scholar]
  15. E. Tziviloglou, V. Wiktor, J. Wang, K. Paine, M. Alazhari, A. Richardson, et al., editors. Evaluation of experimental methodology to assess the sealing efficiency of bacteria-based self-healing mortar: round robin test. RILEM Conference on Microorganisms-Cementitious Materials Interactions; 2016: RILEM. [Google Scholar]
  16. A. Mignon, D. Snoeck, D. Schaubroeck, N. Luickx, P. Dubruel, S. Van Vlierberghe, et al. pH-responsive superabsorbent polymers: A pathway to self-healing of mortar. Reactive and Functional Polymers. (2015);93:68–76. [CrossRef] [Google Scholar]
  17. W. Jin, Y. Yan, H. Wang. Chloride diffusion in the cracked concrete. Fracture Mechanics of Concrete and Concrete Structures-Assessment, Durability, Monitoring and Retrofitting. (2010):880–6. [Google Scholar]

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