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NTIS 바로가기Journal of the Korean Recycled Construction Resources Institute = 한국건설순환자원학회 논문집, v.10 no.3, 2022년, pp.335 - 342
최연왕 (세명대학교 토목공학과) , 남은준 (세명대학교 건설공학과) , 박준호 (세명대학교 건설공학과) , 오성록 ((주)넥트)
In this study, self-healing hybrid capsules were prepared by mixing self-healing solid capsules and self-healing microcapsules using inorganic materials as core materials. Self-healing hybrid capsules were mixed with 3 % according to the composition ratio of 3:7, 5:5, and 7:3 based on the mass of th...
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.
Alghamri, R., Al-Tabbaa, A. (2018). Self-healing of cracks in mortars using novel PVA-coated pellets of different expansive agents, Journal of Construction and Building Materials, 254, 119254.
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.
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, Journal of Construction and Building Materials, 265, 120779.
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, Proceeding of Korea Concrete Institute, 29(3), 267-273.
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.
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, Journal of Advances in Materials Science and Engineering, 10, 1-10.
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 Korea Recycled Construction Resources Institute, 8(4), 581-589.
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.
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.
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.
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].
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.
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.
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.
Lee, J.S. (2021). Research on the Self-Healing Performance Improvement of the Cracks by the Encapsulation of OrgarnicInorganic Mixtures, Ph.D. Thesis, Hanyang University, Korea [in Korean].
Ma, H., Qian, S., Zhang, Z. (2014). Effect of self-healing on water permeability and mechanical property of medium-early-strength engineered cementitious composites, Journal of Construction and Building Materials, 68, 92-101.
Mehta, N., Kumar, P., Verma, A.K., Umaraw, P., Kumar, Y., Malav, O.P., Sazili, A.Q., Dom nguez, R., Lorenzo, J.M. (2022). Microencapsulation as a noble technique for the application of bioactive compounds in the food industry: a comprehensive review, Journal of Applied Sciences, 12(3), 1424.
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), 04015035.
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].
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].
Panesar, D.K. (2013). Cellular concrete properties and the effect of synthetic and protein foaming agents, Journal of Construction and Building Materials, 44, 575-584.
Qureshi, T.S., Kanellopoulos, A., Al-Tabbaa, A. (2016). Encapsulation of expansive powder minerals within a concentric glass capsule system for self-healing concrete, Journal of Construction and Building Materials, 121, 629-643.
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.
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.
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.
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.
Wan, P., Liu, Q., Wu, S., Zhao, Z., Chen, S., Zou, Y., Rao, W., Yu, X. (2021). A novel microwave induced oil release pattern of calcium alginate/nano-Fe3O4 composite capsules for asphalt self-healing, Journal of Cleaner Production, 297, 126721.
White, S.R., Sottos, N.R., Geubelle, P.H., Moore, J.S. (2001). Autonomic healing of polymer composites, Journal of Nature, 409(6822), 794.
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.
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