Aims & Scope | Editorial Board| Open Access | Subscription Info. | KCI Impact Factor | Contact us
Archives | Search

Original Article

Water Infiltration Detection Performance of MWCNTs-incorporated Grouts based on Injection Experiments
Ji Hye Sung^*, Jeongjun Park^**† , Dong Seop Jeong^*, Ilhwan You^***, Hee Up Lee^**, Seung-Jung Lee^*†
* Department of Civil and Environmental Engineering, Incheon National University
** Principal Researcher, Korea Railroad Research Institute
*** Assistant Professor, Department of Rural Construction Engineering, Jeonbuk National University
주입 실험 기반 MWCNTs 혼입 그라우트의 수분 침투 감지 특성
성지혜^* · 박정준^**† · 정동섭^* · 유일환^*** · 이희업^** · 이승정^*†
This article is an open access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/4.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

References

1. Yu, P., Wu, H., Liu, C., and Xu, Z., “Water Leakage Diagnosis in Metro Tunnels by Integration of Laser Point Cloud and Infrared Thermal Imaging,” The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol. XLII-3, 2018, pp. 2167-2171.
2. Huang, H., Cheng, W., Zhou, M., Chen, J., and Zhao, S., “Towards Automated 3D Inspection of Water Leakages in Shield Tunnel Linings Using Mobile Laser Scanning Data,” Sensors, Vol. 20, No. 22, 2020.
3. Chen, J., Yu, X., Liu, S., Chen, T., Wang, W., Jeon, G., and He, B., “Tunnel SAM Adapter: Adapting Segment Anything Model for Tunnel Water Leakage Inspection,” Geohazard Mechanics, Vol. 2, No. 1, 2024, pp. 29-36.
4. Wang, P., and Shi, G., “Image Segmentation of Tunnel Water Leakage Defects in Complex Environments Using an Improved Unet Model,” Scientific Reports, Vol. 14, No. 1, 2024.
5. Choi, S.K., Back, S.H., An, J.B., and Kwon, T.H., “Geotechnical Investigation on Causes and Mitigation of Ground Subsidence during Underground Structure Construction,” Journal of Korean Tunnelling and Underground Space Association, Vol. 18, No. 2, 2016, pp. 143-154.
6. Cho, S.H., and Lee, K.S., “Analysis of Ground Subsidence Causes and Case Studies in Urban Areas: Focusing on Overseas Examples,” Journal of Disaster Prevention, Vol. 16, No. 3, 2014, pp. 16-23.
7. Han, D.H., Kang, L.H., Thayer, J., and Farrar, C., “Manufacturing Method for Sensor-Structure Integrated Composite Structure,” Composites Research, Vol. 28, No. 4, 2015, pp. 155-161.
8. Kwon, D.J., Wang, Z.J., Choi, J.Y., Shin, P.S., and Park, J.M., “A Study of Damage Sensing and Repairing Effect of CNT Nanocomposites,” Composites Research, Vol. 27, No. 6, 2014, pp. 219-224.
9. Wang, Z.J., Kwon, D.J., Gu, G.Y., Kim, H.S., Kim, D.S., Lee, C.S., and Park, J.M., “Evaluation of Mechanical Properties and Damage Sensing of CNT-Polypropylene Composites by Electro-Micromechanical Techniques,” Composites Research, Vol. 26, No. 1, 2013, pp. 1-6.
10. Lee, S.-J., You, I., Zi, G., and Yoo, D.-Y., “Experimental Investigation of Piezoresistive Properties of Cement Composites with Hybrid Carbon Fibers and Nanotubes,” Sensors, Vol. 17, No. 11, 2017, Article No. 2516.
11. Lee, H., Park, S., Park, S., and Chung, W., “Enhanced Detection Systems of Filling Rates Using Carbon Nanotube Cement Grout,” Nanomaterials, Vol. 10, No. 1, 2019.
12. Yoo, D.-Y., You, I., Zi, G., and Lee, S.-J., “Effect of Carbon Nanomaterial Type and Amount on Self-Sensing Capacity of Cement Paste,” Measurement, Vol. 134, 2019, pp. 750-761.
13. Lee, S.-J., You, I., Kim, S., Shin, H.-O., and Yoo, D.-Y., “Self-Sensing Capacity of Ultra-High-Performance Concrete Containing Steel Fibers and Conductive Powders in Tension,” Cement and Concrete Composites, Vol. 125, 2022, Article No. 104331.
14. You, I., Yoo, D.-Y., Kim, S., Kim, M.-J., and Zi, G., “Electrical and Self-Sensing Properties of Ultra-High-Performance Fiber-Reinforced Concrete with Carbon Nanotubes,” Sensors, Vol. 17, No. 10, 2017, Article No. 2481.
15. Yoo, D.-Y., You, I., Youn, H., and Lee, S.-J., “Electrical and Piezoresistive Properties of Cement Composites with Carbon Nanomaterials,” Journal of Composite Materials, Vol. 52, No. 24, 2018, pp. 3325-3340.
16. Hong, G., Choi, S., Yoo, D., Oh, T., Song, Y., and Yeon, J. H., “Moisture Dependence of Electrical Resistivity in Under-percolated Cement-based Composites with Multi-walled Carbon Nanotubes,” Journal of Materials Research and Technology, Vol. 16, 2021, pp. 47-58.
17. Zhang, L., Ding, S., Han, B., Yu, X., and Ni, Y., “Effect of Water Content on the Piezoresistive Property of Smart Cement-based Materials with Carbon Nanotube/nanocarbon Black Composite Filler,” Composites Part A: Applied Science and Manufacturing, Vol. 119, 2019, pp. 8-20.
18. Lee, S., Park, J., Sung, J., Kim, B., Lee, H. U., and You, I., “Conductive Grout with Multiwalled Carbon Nanotubes for Water Cut-off Self-monitoring in Underground Tunnels,” Nondestructive Testing and Evaluation, 2025, [online published].
19. Zhou, M., Fan, F., Zheng, Z., and Ma, C., “Modeling of Grouting Penetration in Porous Medium with Influence of Grain Distribution and Grout-Water Interaction,” Processes, Vol. 10, No. 1, 2021.
20. Zhou, Z., Zang, H., Wang, S., Du, X., Ma, D., and Zhang, J., “Filtration Behaviour of Cement-based Grout in Porous Media,” Transport in Porous Media, Vol. 125, No. 3, 2018, pp. 435-463.
21. Markou, I.N., Christodoulou, D.N., and Droudakis, A.I., “Injections of Microfine Cement Grouts into Sand Columns for Penetrability and Effectiveness Evaluation,” Proceedings of the ISSMGE - TC 211 International Symposium on Ground Improvement (IS-GI 2012), Brussels, Belgium, May 31-June 1. 2012, pp. 291-301.
22. Yoon, I.K., Moon, J.H., and Kim, Y.G., “Evaluation of High-Viscosity Grouting Injection Performance for Reinforcement of Rock Joint in Deep-Depth Tunnels,” Journal of the Korean Geo-Environmental Society, Vol. 25, No. 5, 2024, pp. 15-19.
23. Jeoung, J.H., Hwang, S.P., Lee, J.H., and Lee, T.H., “The Study on Evaluation of Injection Performance in Micro Crack Depending on Viscosity of Grouting Material,” Journal of the Korean Society for Hazard Mitigation, Vol. 16, No. 5, 2016, pp. 239-245.
24. Lee, D.J., Ryu, S.W., and Ku, B.C., “A Review of Carbon-Reinforced Carbon Nanotube Fibers Composites,” Composites Research, Vol. 32, No. 3, 2019, pp. 127-133.
25. Chhun, K.T., and Yune, C.Y., “Laboratory Evaluation of Grouted Bulb Region Using Cross-Hole Electrical Resistivity Tomography,” Tunnel and Underground Space, Vol. 32, No. 2, 2022, pp. 105-116.
26. Konsta-Gdoutos, M. S., Metaxa, Z. S., and Shah, S. P., “Highly Dispersed Carbon Nanotube Reinforced Cement Based Materials,” Cement and Concrete Research, Vol. 40, No. 7, 2010, pp. 1052-1059.
27. Kim, B.K., Effect of Oscillatory Injection to Behavior of Cement-Based Permeation Grouting, Ph.D. Dissertation, Korea University, 2018.
28. Eyo, E. U., Ng'ambi, S., and Abbey, S. J., “An Overview of Soil-water Characteristic Curves of Stabilised Soils and Their Influential Factors,” Journal of King Saud University - Engineering Sciences, Vol. 34, No. 1, 2020, pp. 31-45.
29. Jeong, J.H., Kim, K.H., Song, M.K., and Shin, J.H., “Groundwater Control Measures for Deep Urban Tunnels,” Journal of Korean Tunnelling and Underground Space Association, Vol. 23, No. 6, 2021, pp. 403-421.

This Article

2025; 38(4): 403-413

Published on Aug 31, 2025
10.7234/composres.2025.38.4.403
Received on Jun 11, 2025
Revised on Jul 12, 2025
Accepted on Jul 23, 2025

Services

Shared

Correspondence to

Jeongjun Park**, Seung-Jung Lee*
* Department of Civil and Environmental Engineering, Incheon National University
** Principal Researcher, Korea Railroad Research Institute
E-mail: jjpark@krri.re.kr, seungjung@inu.ac.kr