This work is licensed under the Creative Commons Attribution 4.0 International License.
Liu, F., Olesen, K. B., Borregaard, A. R., & Vollertsen, J. (2019). Microplastics in urban and highway stormwater retention ponds. Science of The Total Environment, 671.Search in Google Scholar
Manjarrez, Lino, Zhang, & Lianyang. (2018). Utilization of copper mine tailings as road base construction material through geopolymerization. Journal of Materials in Civil Engineering.Search in Google Scholar
Wang, Y., Tran, K. T., & Horhota, D. (2021). Road sinkhole detection with 2d ambient noise tomography. Geophysics(1), 1-45.Search in Google Scholar
Baghini, M. S., & Ismail, A. (2017). Application of carboxylated styrene-butadiene emulsion-portland cement mixture as road base material. The international journal of pavement engineering, 18(11-12), 1070-1080.Search in Google Scholar
Gargoum, S. A., El Basyouny, K., Shalkamy, A., & Gouda, M. (2018). Feasibility of extracting highway vertical profiles from lidar data. Canadian Journal of Civil Engineering, cjce-2017-0620.Search in Google Scholar
Suresh, M., Pal, M., Sarkar, D., & Majumdar, K. (2022). Generation of electricity using piezoelectric material: study on asphalt pavement structure on rural road. Journal of Materials in Civil Engineering.Search in Google Scholar
Naidoo, S., & Steyn, W. J. V. M. (2018). Performance of thermoplastic roadmarking material. Civil Engineering(JUN.APP.), 9-22.Search in Google Scholar
R., K., Swami, N., K., & S., et al. (2018). Kimberlite tailings: a road construction material. Transportation Research Record, 1989-2(1), 131-134.Search in Google Scholar
Zhang, J., Wang, P., Wang, H., Soares, L., Pei, J., & Ge, J. (2021). Development and verification of integrated photoelectric system for noncontact detection of pavement ponding and freezing. Structural Control and Health Monitoring.Search in Google Scholar
Cao, R., Fang, Z., & Shang, Y. (2022). Production of a new base material for load-bearing water-storing road. Journal of Materials in Civil Engineering(7), 34.Search in Google Scholar
Mymrin, V., Aibuldinov, E. K., Alekseev, K., Petukhov, V., Avanci, M. A., & Kholodov, A., et al. (2019). Efficient road base material from kazakhstan’s natural loam strengthened by ground cooled ferrous slag activated by lime production waste. Journal of Cleaner Production, 231(SEP.10), 1428-1436.Search in Google Scholar
Hadel, O., Breixo, G. M., & Alvaro, G. (2018). Induction-heatable asphalt pellets as a new material in road maintenance. Journal of Materials in Civil Engineering, 30(11), 04018300.1-04018300.9.Search in Google Scholar
Maherzi, W., Benzerzour, M., Mamindy-Pajany, Y., Van Veen, E., Boutouil, M., & Abriak, N. E. (2018). Beneficial reuse of brest-harbor (france)-dredged sediment as alternative material in road building: laboratory investigations. Environmental Technology, 39(5-8), 566-580.Search in Google Scholar
Huang, G., Lv, C., He, J., Zhang, X., & Huang, H. (2020). Study on preparation and characterization of graphene based on ball milling method. Journal of Nanomaterials, 2020(424), 1-11.Search in Google Scholar
Burak, T. E., & Murat, O. (2023). Mechanical and economic evaluation of recycled concrete aggregate as granular road base and subbase material. Journal of Materials in Civil Engineering.Search in Google Scholar
Koutrakis, P., & Greenbaum, D. (2021). Enhancing near-road exposure assessment. Journal of the Air & Waste Management Association, 71(2), 115-117.Search in Google Scholar
Zhao, Z., Han, J., & Song, L. (2021). Yolo-highway: an improved highway center marking detection model for unmanned aerial vehicle autonomous flight. Mathematical Problems in Engineering, 2021(7), 1-14.Search in Google Scholar