An Experimental Study on the Healing Performance of Cement Composites According to Mixing Ratio of Self-Healing Hybrid Capsules |
Yun-Wang, Choi
(Department of Civil Engineering, Semyung University)
Jun-Ho, Park (Department of Civil Engineering, Semyung University) Yong-Jic, Kim (Department of Environment and Energy Engineering, Daejin University) Sung-Rok, Oh (Research & Development Team, Newjust Co., Ltd.) |
1 | Lee, J.S. (2021). Research on the self-healing performance improvement of the cracks by the encapsulation of orgarnic-inorganic mixtures, Ph.D Thesis, Hanyang University, Korea [in Korean]. |
2 | Liu, Y., Zhuge, Y., Fan, W., Duan, W., Wang, L. (2022). Recycling industrial wastes into self-healing concrete: a review, Journal of Environmental Research, 214(4), 113975. |
3 | Ma, H., Qian, S., Zhang, Z. (2014). Effect of self-healing on water permeability and mechanical property of medium-early-strength engineered cementitious composites, Construction and Building Materials, 68, 92-101. |
4 | Mehta, N., Kumar, P., Verma, A.K., Umaraw, P., Kumar, Y., Malav, O.P., Sazili, A.Q., Dominguez, R., Lorenzo, J.M. (2022). Microencapsulation as a noble technique for the application of bioactive compounds in the food industry: a comprehensive review, Applied Sciences, 12(3), 1424. |
5 | Mostavi, E., Asadi, S., Hassan, M.M., Alansari, M. (2015). Evaluation of self-healing mechanisms in concrete with double-walled sodium silicate microcapsules, Journal of Materials in Civil Engineering, 27(12). |
6 | Nam, E.J. (2020). A study on the self-healing properties of cement composites using solid capsules with crystal growth type inorganic materials, Master's Thesis, Semyung University, Korea [in Korean]. |
7 | Oh, S.R. (2017). A study on the development and properties of cementitous composite materials utilizing capsules for crack self-healing, Ph.D Thesis, Semyung University, Korea [in Korean]. |
8 | Panesar, D. K. (2013). Cellular concrete properties and the effect of synthetic and protein foaming agents, Construction and Building Materials, 44, 575-584. DOI |
9 | Ahn, T.H., Kishi, T. (2010). Crack self-healing behavior of cementitious composites incorporating various mineral admixtures, Journal of Advanced Concrete Technology, 8(2), 171-186. DOI |
10 | Alghamri, R., Al-Tabbaa, A. (2018). Self-healing of cracks in mortars using novel PVA-coated pellets of different expansive agents, Construction and Building Materials, 254, 119254. |
11 | An, E.J., Shin, M.S. (2014). Healing mechanisms and assessment techniques of self-healing concrete, Proceeding of Korea Concrete Institute, 26(2), 477-479. |
12 | Park, J.H. (2022). A study on the crack self-healing properties of cement mortar using hybrid capsules, Master's Thesis, Semyung University, Korea [in Korean]. |
13 | Qureshi, T., Kanellopoulos, A., Al-Tabbaa, A. (2019). Autogenous self-healing of cement with expansive minerals-II: Impact of age and the role of optimised expansive minerals in healing performance, Construction and Building Materials, 194, 266-275. DOI |
14 | Qureshi, T.S., Kanellopoulos, A., Al-Tabbaa, A. (2016). Encapsulation of expansive powder minerals within a concentric glass capsule system for self-healing concrete, Construction and Building Materials, 121, 629-643. DOI |
15 | Sangadji, S., Schlangen, E. (2013). Mimicking bone healing process to self repair concrete structure novel approach using porous network concrete, Procedia Engineering, 54, 315-326. DOI |
16 | Sharma, N., Sharma, S., Sharma, S.K., Mehta, R. (2020). Evaluation of corrosion inhibition and self healing capabilities of nanoclay and tung oil microencapsulated epoxy coatings on rebars in concrete, Construction and Building Materials, 259, 120278. |
17 | Yang, Z., Hollar, J., He, X., Shi, X. (2011). A self-healing cementitious composite using oil core/silica gel shell microcapsules, Journal of Cement and Concrete Composites, 33(4), 506-512. DOI |
18 | Song, Y.K., Jo, Y.H., Lim, Y.J., Cho, S.Y., Yu, H.C., Ryu, B.C., Chung, C.M. (2013). Sunlight-induced self-healing of a microcapsule - Type protective coating, ACS Applied Materials & Interfaces, 5(4), 1378-1384. DOI |
19 | Wan, P., Liu, Q., Wu, S., Zhao, Z., Chen, S., Zou, Y., Rao, W., Yu, X. (2020). A novel microwave induced oil release pattern of calcium alginate/nano-Fe3O4 composite capsules for asphalt self-healing, Journal of Cleaner Production, 297, 126721. |
20 | White, S.R., Sottos, N.R., Geubelle, P.H., Moore, J.S., Kessler, M.R., Sriram, S.R., Brown, E.N., Viswanathan, S. (2001). Autonomic healing of polymer composites, Nature, 409(6822), 794-797. DOI |
21 | Bao, S., Liu, Q., Rao, W., Yu, X., Zhang, L. (2020). Synthesis and characterization of calcium alginate-attapulgite composite capsules for long term asphalt self-healing, Construction and Building Materials, 265, 120779. |
22 | Choi, S.W., Bae, W.H., Lee, G.M., Shin, G.J. (2017a). Correlation between crack width and water flow of cracked mortar specimens measured by constant water head permeability test, Journal of the Korea Concrete Institute, 29(3), 267-273. DOI |
23 | Choi, Y.W., Nam, E.J., Oh, S.R., Lee, K.M. (2020). An experimental study on the mechanical healing properties of self-healing mortar with solid capsules using crystal growth type inorganic materials, Journal of the Korean Recycled Construction Resources Institute, 8(4), 581-589. |
24 | Choi, Y.W., Nam, E.J., Park, J.H., Oh, S.R. (2022). The effect of crack self-healing hybrid capsules composition ratio on the healing properties of cement composites, Journal of the Korean Recycled Construction Resources Institute, 10(3), 335-342 [in Korean]. |
25 | Ikoma, H., Kishi, T., Sakai, Y., Kayondo, M. (2015). Elucidation of rapid reduction of water flow through concrete crack regarded as self-healing phenomenon, Journal of Ceramic Processing Research, 16, 22-27. |
26 | Choi, Y.W., Oh, S.R., Choi, B.G. (2017c). A study on the manufacturing properties of crack self-healing capsules using cement powder for addition to cement composites, Advances in Materials Science and Engineering, 10, 1-10. |
27 | Choi, Y.W., Oh, S.R., Choi, B.G., Kim, C.G. (2017b). A fundamental study on the influence of performance of cementitious composites of inorganic core material for self-healing capsule of cracks, Journal of the Korea Institute for Structural Maintenance and Inspection, 21(1), 74-82. |
28 | Feng, J., Dong, H., Wang, R., Su, Y. (2020). A novel capsule by poly(ethylene glycol) granulation for self-healing concrete, Cement and Concrete Research, 133, 106053. |
29 | Kanellopoulos, A., Qureshi, T.S., Al-Tabbaa, A. (2015). Glass encapsulated minerals for self-healing in cement based composites, Construction and Building Materials, 98, 780-791. DOI |
30 | Kim, C.G. (2017). A study on the Crack Self Healing Properties of Cement Mortar Utilizing Micro Capsules with Liquid-type Inorganic Materials, Master's Thesis, Semyung University, Korea [In Korean]. |
31 | Kim, C.G., Oh, S.R., Kim, J.H., Choi, Y.W. (2021). The effect of the self-healing microcapsules on the quality and healing properties of cement composites, Journal of the Korea Recycled Construction Resources Institute, 9(3), 386-396. |
32 | Lee, D.K., Shin, K.J. (2020). Performance evaluation method of self-healing concrete using gas diffusion experiment, Journal of the Korea Recycled Construction Resources Institute, 8(1), 74-82. |