dc.identifier.citation |
1. Xavier, R. M., Martin, B., Babu, L. A., Jose, L. E., & Roy, L. (2018). A review on fiber modified stone matrix asphalt. International Research Journal of Engineering and Technology (IRJET), 5(3). 2. AASHTO T 305-14. "Determination of Draindown Characteristics in Uncompacted Asphalt Mixtures." (2018). 3. Wu, M. M., Li, R., Zhang, Y. Z., Fan, L., Lv, Y. C., & Wei, J. M. (2015). Stabilizing and reinforcing effects of different fibers on asphalt mortar performance. Petroleum Science, 12(1), 189-196. 4. Bhanu, V. U., & Kumar, N. P. (2021). Influence of glass fibres in stone mastic asphalt. In IOP Conference Series: Materials Science and Engineering (Vol. 1025, No. 1, p. 012020). IOP Publishing. 5. Chen, J. S., & Lin, K. Y. (2005). Mechanism and behavior of bitumen strength reinforcement using fibers. Journal of materials science, 40(1), 87-95. 6. Mashaan, N., Karim, M., Khodary, F., Saboo, N., & Milad, A. (2021). Bituminous Pavement Reinforcement with Fiber: A Review. CivilEng, 2(3), 599-611 7. Bindu C S 2012 Influence of Additives on the Characteristics of Stone Matrix Asphalt, PhD Thesis, Cochin University of Science and Technology 8. Radzi, N. A. M., Masri, K. A., Ramadhansyah, P. J., Jasni, N. E., Arshad, A. K., Ahmad, J., ... & Yaacob, H. (2020). Stability and Resilient Modulus of Porous Asphalt Incorporating Steel Fiber. In IOP Conference Series: Materials Science and Engineering (Vol. 712, No. 1, p. 012027). IOP Publishing. 9. Vishnu, T. B. (2023). Laboratory investigation on the fatigue performance of asphalt mixes reinforced with human hair fiber in pavement application. Materials Today: Proceedings. 10. Gupta, A. (2014). Human hair “waste” and its utilization: gaps and possibilities. Journal of Waste Management, 2014. 11. Eisa, M. S., Basiouny, M. E., & Daloob, M. I. (2021). Effect of adding glass fiber on the properties of asphalt mix. International Journal of Pavement Research and Technology, 14, 403-409. 16 12. Gupta, A., Rodriguez-Hernandez, J., & Castro-Fresno, D. (2019). Incorporation of additives and fibers in porous asphalt mixtures: A review. Materials, 12(19), 3156. 13. Kumar, P., Sikdar, P. K., Bose, S., & Chandra, S. (2004). Use of jute fibre in stone matrix asphalt. Road materials and pavement design, 5(2), 239-249. 14. Chin, C., & Charoentham, N. (2021). Laboratory investigation of stone mastic asphalt mixtures containing coconut fiber. Engineering and Applied Science Research, 48(2), 131-136 15. Enieb, M., Diab, A., & Yang, X. (2021). Short-and long-term properties of glass fiber reinforced asphalt mixtures. International Journal of Pavement Engineering, 22(1), 64-76. 16. Madani, Chinoun., Khedoudja, Soudani., Smail, Haddadi. (2022). Physical and Rheological characterization of modified bitumen by NBR/EVA association. Innovative Infrastructure Solutions, doi: 10.1007/S41062-021- 00709-4. 17. Roberto, M., Aurilio., Mike, Aurilio., Hassan, Baaj. (2022). The effect of a chemical warm mix additive on the self-healing capability of bitumen. Journal of Testing and Evaluation, 50(2):20210207-. doi: 10.1520/JTE20210207. 18. Pinki, Deb., Kh., Lakshman, Singh. (2022). Mix design, durability and strength enhancement of cold mix asphalt: a state-of-the-art review. Innovative Infrastructure Solutions, 7(1):1-22. doi: 10.1007/S41062-021-00600-2. 19. Mohamad, Hosein, Dehnad., Behrouz, Damyar., Hossein, Z., Farahani. (2021). Rheological Evaluation of Modified Bitumen by EVA and Crumb Rubber Using RSM Optimization. Advances in Materials Science and Engineering, 2021:1-8. doi: 10.1155/2021/9825541. 20. Ahmad, Alfalah., Daniel, Offenbacker., Ayman, Ali., Yusuf, Mehta., Mohamed, Elshaer., Mohamed, Elshaer., Christopher, DeCarlo. (2021). Evaluating the impact of fiber type and dosage rate on laboratory performance of Fiber-Reinforced asphalt mixtures. Construction and Building Materials, 310:125217-. doi: 10.1016/J.CONBUILDMAT.2021.125217. 21. Doo, Yeol, Yoo., Nemkumar, Banthia. (2022). High-performance strain hardening cementitious composites with tensile strain capacity exceeding 4%: 17 A review. Cement & Concrete Composites, 125:104325-. doi: 10.1016/J.CEMCONCOMP.2021.104325. 22. Mugahed, Amran., Roman, Fediuk., Hakim, S., Abdelgader., Gunasekaran, Murali., Togay, Ozbakkaloglu., Y., Huei, Lee., Y., Yong, Lee. (2022). Fiber reinforced alkali-activated concrete: A review. Journal of building engineering, 45:103638-. doi: 10.1016/J.JOBE.2021.10363 |
en_US |