Review of the Development and Property Evaluation of High-Performance Hybrid Fiber-Reinforced Concrete
Keywords:
High-performance concrete, Hybrid fiber reinforcement, Mechanical properties, Durability, Fiber typesAbstract
The evolution of high-performance hybrid fiber-reinforced concrete (HPHFRC) has garnered significant interest due to its enhanced mechanical properties and durability characteristics compared to conventional concrete. This review explores recent advancements in the development and assessment of HPHFRC, focusing on its composition, performance, and application. Hybrid fiber reinforcement, combining different types of fibers such as steel, polypropylene, and glass, offers a synergistic effect that improves the concrete’s strength, toughness, and crack resistance. The review examines various studies that highlight the impact of fiber types, proportions, and distribution on the concrete's mechanical properties, including compressive strength, tensile strength, and impact resistance. Additionally, it addresses the effects of hybrid fibers on durability aspects, such as resistance to shrinkage, permeability, and abrasion. The review further discusses the practical applications of HPHFRC in structural and non-structural elements, showcasing its potential benefits in improving the lifespan and performance of concrete structures. The findings provide insights into optimal fiber combinations and dosages, guiding future research and practical implementations in the field of high-performance concrete.
References
Kou, S. C., Poon, C. S., & Agrela, F. (2011). Comparisons of natural and recycled aggregate concretes prepared with the addition of different mineral admixtures. Cement and Concrete Composites, 33(8), 788-795.
Yu, R., Spiesz, P., & Brouwers, H. J. H. (2014). Mix design and properties assessment of ultra-high performance fibre reinforced concrete (UHPFRC). Cement and concrete research, 56, 29-39.
Abbas, S., Soliman, A. M., & Nehdi, M. L. (2015). Exploring mechanical and durability properties of ultra-high performance concrete incorporating various steel fiber lengths and dosages. Construction and Building Materials, 75, 429-441.
Malik, Anvaj & Kumar, G.S. & Manivel, S.. (2018). Experimental study on basalt fiber reinforced self-compacting concrete enhanced with carbon fiber. International Journal of Pure and Applied Mathematics. 119. 41-46.
Khalil, Wasan & Ahmed, Hisham & Hussein, Zainab. (2018). Behavior of high performance artificial lightweight aggregate concrete reinforced with hybrid fibers. MATEC Web of Conferences. 162. 02001. 10.1051/matecconf/201816202001.
Prathipati, S R R. (2020). Mechanical Behavior of Hybrid Fiber Reinforced High Strength Concrete with Graded Fibers. International Journal of Engineering. 33. 10.5829/IJE.2020.33.08B.04.
Zhang, Bing & Zhao, Jun-Liang & Huang, Tao & Zhang, Ning-Yuan & Zhang, Yi-Jie & Hu, Xia-Min. (2020). Effect of fiber angles on hybrid fiber-reinforced polymer–concrete–steel double-skin tubular columns under monotonic axial compression. Advances in Structural Engineering. 23. 136943321989591. 10.1177/1369433219895916.
Zhang, Tao & Pan, Deng. (2021). Mechanical properties of steel-polypropylene hybrid fiber reinforced concrete in building structure: steel-polypropylene hybrid fiber reinforced concrete in building structure. Stavební obzor - Civil Engineering Journal. 30. 10.14311/CEJ.2021.02.0037.
Sridhar, Radhika & Abbas, Mohamad. (2022). Experimental study on hybrid fiber reinforced concrete with composite layers. Materials Today: Proceedings. 65. 489-494. 10.1016/j.matpr.2022.03.032.
Mohtasham Moein, Mohammad & Saradar, Ashkan & Rahmati, Komeil & Hatami Shirkouh, Arman & Sadrinejad, Iman & Aramali, Vartenie & Karakouzian, Moses. (2022). Investigation of Impact Resistance of High-Strength Portland Cement Concrete Containing Steel Fibers. Materials. 15. 7157. 10.3390/ma15207157.
Zhang, Jingjing & Liu, Chao & Wang, Jianning & Feng, Xuguang & Liu, Huanqin. (2023). Experimental Study on Flexural Performance of Precast Prestressed Concrete Beams with Fiber Reinforcement. Buildings. 13. 1982. 10.3390/buildings13081982.
Abdel-Karim, Ahmed & Khalil, Gamal & Ewis, Ahmed & Makhlouf, M.. (2023). Impact of developed hybrid polypropylene fiber inclusion on the flexural performance of concrete beams reinforced with innovative hybrid bars. Construction and Building Materials. 409. 134113. 10.1016/j.conbuildmat.2023.134113.
Kumar, N., Kumar, P., Kumar, A. and Kumar, R., 2023. An Investigation of Asphalt Mixtures Using a Naturally Occurring Fibre. AMERICAN JOURNAL OF SCIENCE AND LEARNING FOR DEVELOPMENT, 2(6), pp.80-87.
Kumar, A., Yadav, O. and Shukla, R., 2023. A COMPREHENSIVE REVIEW PAPER ON PARTIAL CEMENT SUBSTITUTION IN CEMENT MORTAR WITH WOOD ASH. Research in Multidisciplinary Subjects, 1, p.26.
Kumar, A., Yadav, O. and Kumar, A.N., 2023. A review paper on production of environment friendly concrete by using sewage water. International Journal of Creative Research Thoughts (IJCRT), ISSN, pp.2320-2882.
Kumar, N. and Kumar, A., Development of Self Compacting Concrete with Ternary Cementitious Blend Containing OPC, Silica Fume, and High-Volume Fly Ash.
IS 456: 2000, “Indian Standard Code of Practice for Plain and Reinforced Concrete”, Bureau of Indian Standard, New Delhi
IS 10262: 1982, “Recommended Guidelines for Concrete Mix design”, Bureau of Indian Standard, New Delhi
IS 383: 1970, “Specification for Coarse aggregate and Fine aggregate from Natural Sources for Concrete”, Bureau of Indian Standard, New Delhi.
