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Abstract
Among all investigated approaches to obtain self-healing properties in concrete, autonomous healing of cracks through release of embedded polymer-based healing agents, seems a very promising approach. However, a suitable healing agent is needed to assure that also upon multiple crack formation, all cracks can be healed. For this purpose methyl methacrylate seems a suitable agent as it can create a very strong bond with the cementitious matrix. This will assure that after autonomous crack repair, later cracks appear at another location, where the self-healing mechanism is still intact and can thus still cause release of healing agent. As some problems with regard to the methyl methacrylate healing agent were found in previous research, these were tackled within this study by following three different approaches. The most promising approach(es) were selected for further use with regard to self-healing of concrete.
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PERMEABILITY

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Citation

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MLA
Van Tittelboom, Kim, et al. “Multiple Self-Repair of Concrete Cracks by Encapsulated Methyl Methacrylate.” Life-Cycle of Engineering Systems: Emphasis on Sustainable Civil Infrastructure Proceedings of the Fifth International Symposium on Life-Cycle Civil Engineering (IALCCE 2016), 16-19 October 2016, Delft, The Netherlands, edited by Jaap Bakker et al., CRC PRESS-BALKEMA, 2017, pp. 1334–41.
APA
Van Tittelboom, K., Vanlerberghe, B., De Belie, N., Pereira Gomes de Araújo, M. A., & Van Vlierberghe, S. (2017). Multiple self-repair of concrete cracks by encapsulated methyl methacrylate. In J. Bakker, D. M. Frangopol, & K. van Breugel (Eds.), Life-Cycle of Engineering Systems: Emphasis on Sustainable Civil Infrastructure Proceedings of the Fifth International Symposium on Life-Cycle Civil Engineering (IALCCE 2016), 16-19 October 2016, Delft, The Netherlands (pp. 1334–1341). LEIDEN: CRC PRESS-BALKEMA.
Chicago author-date
Van Tittelboom, Kim, Brecht Vanlerberghe, Nele De Belie, Maria Adelaide Pereira Gomes de Araújo, and Sandra Van Vlierberghe. 2017. “Multiple Self-Repair of Concrete Cracks by Encapsulated Methyl Methacrylate.” In Life-Cycle of Engineering Systems: Emphasis on Sustainable Civil Infrastructure Proceedings of the Fifth International Symposium on Life-Cycle Civil Engineering (IALCCE 2016), 16-19 October 2016, Delft, The Netherlands, edited by Jaap Bakker, Dan M. Frangopol, and Klaas van Breugel, 1334–41. LEIDEN: CRC PRESS-BALKEMA.
Chicago author-date (all authors)
Van Tittelboom, Kim, Brecht Vanlerberghe, Nele De Belie, Maria Adelaide Pereira Gomes de Araújo, and Sandra Van Vlierberghe. 2017. “Multiple Self-Repair of Concrete Cracks by Encapsulated Methyl Methacrylate.” In Life-Cycle of Engineering Systems: Emphasis on Sustainable Civil Infrastructure Proceedings of the Fifth International Symposium on Life-Cycle Civil Engineering (IALCCE 2016), 16-19 October 2016, Delft, The Netherlands, ed by. Jaap Bakker, Dan M. Frangopol, and Klaas van Breugel, 1334–1341. LEIDEN: CRC PRESS-BALKEMA.
Vancouver
1.
Van Tittelboom K, Vanlerberghe B, De Belie N, Pereira Gomes de Araújo MA, Van Vlierberghe S. Multiple self-repair of concrete cracks by encapsulated methyl methacrylate. In: Bakker J, Frangopol DM, van Breugel K, editors. Life-Cycle of Engineering Systems: Emphasis on Sustainable Civil Infrastructure Proceedings of the Fifth International Symposium on Life-Cycle Civil Engineering (IALCCE 2016), 16-19 October 2016, Delft, The Netherlands. LEIDEN: CRC PRESS-BALKEMA; 2017. p. 1334–41.
IEEE
[1]
K. Van Tittelboom, B. Vanlerberghe, N. De Belie, M. A. Pereira Gomes de Araújo, and S. Van Vlierberghe, “Multiple self-repair of concrete cracks by encapsulated methyl methacrylate,” in Life-Cycle of Engineering Systems: Emphasis on Sustainable Civil Infrastructure Proceedings of the Fifth International Symposium on Life-Cycle Civil Engineering (IALCCE 2016), 16-19 October 2016, Delft, The Netherlands, Delft, 2017, pp. 1334–1341.
@inproceedings{8136454,
  abstract     = {{Among all investigated approaches to obtain self-healing properties in concrete, autonomous healing of cracks through release of embedded polymer-based healing agents, seems a very promising approach.
However, a suitable healing agent is needed to assure that also upon multiple crack formation, all cracks can be healed. For this purpose methyl methacrylate seems a suitable agent as it can create a very strong bond with the cementitious matrix. This will assure that after autonomous crack repair, later cracks appear at another location, where the self-healing mechanism is still intact and can thus still cause release of healing agent. As some problems with regard to the methyl methacrylate healing agent were found in previous research, these were tackled within this study by following three different approaches. The most promising approach(es) were selected for further use with regard to self-healing of concrete.}},
  author       = {{Van Tittelboom, Kim and Vanlerberghe, Brecht and De Belie, Nele and Pereira Gomes de Araújo, Maria Adelaide and Van Vlierberghe, Sandra}},
  booktitle    = {{Life-Cycle of Engineering Systems: Emphasis on Sustainable Civil Infrastructure Proceedings of the Fifth International Symposium on Life-Cycle Civil Engineering (IALCCE 2016), 16-19 October 2016, Delft, The Netherlands}},
  editor       = {{Bakker, Jaap and Frangopol, Dan M. and van Breugel, Klaas}},
  isbn         = {{9781138028470}},
  keywords     = {{PERMEABILITY}},
  language     = {{eng}},
  location     = {{Delft}},
  pages        = {{1334--1341}},
  publisher    = {{CRC PRESS-BALKEMA}},
  title        = {{Multiple self-repair of concrete cracks by encapsulated methyl methacrylate}},
  year         = {{2017}},
}

Web of Science
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