Self-healing concrete using fly ash, macro synthetic fibres and recycled aggregates

Self-healing concrete using fly ash, macro synthetic fibres and recycled aggregates

Автор: Sabri Mohanad Muayad Sabri, Javed Muhammad Faisal, Muhammad Arslan

Журнал: Строительство уникальных зданий и сооружений @unistroy

Статья в выпуске: 6 (104), 2022 года.

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The development of cracks in concrete can reduce its durability and service life, causing its steel rebar to be exposed to harmful substances from the external environment, eventually leading to strength loss of concrete and high repair costs. Self-healing technique can eradicate the crack spontaneously, likely replacing or decreasing maintenance and repair costs. Self-healing concrete using low calcium Fly Ash with recycled Aggregate (RCA) and macro synthetic fibers is a novel approach to increase durability and serviceability, decreasing repair and maintenance costs. This research intends to create self-healing concrete using different volumes of Fly Ash with partially replaced RCA and macro synthetic fibers and to study the autogenous behavior of Fly Ash. Various volumes of Fly Ash 35%,45%, and 60%, respectively, were used. In addition, the coarse Aggregate was partially replaced with RCA. The results show that replacing RCA with natural Aggregate and using Fly Ash significantly decreased the strength of concrete. Thus, to increase the mechanical properties of concrete macro synthetic fibers were used at two percentages 5% and 1%, respectively. After that, concrete samples were cracked after 28 days of curing, and after 5 weeks, they were cured for autogenous self-healing. The results showed that using Fly Ash from 45-50% gave the optimum healing to cracks in 5 weeks and the use of macro synthetic fibers at 0.5% caused the best improvement in mechanical properties of concrete with good workability.

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Self-healing, fly ash, macro synthetic fibres, concrete, healing properties, mechanical properties

Короткий адрес: https://sciup.org/143179861

IDR: 143179861   |   DOI: 10.4123/CUBS.104.5

Список литературы Self-healing concrete using fly ash, macro synthetic fibres and recycled aggregates

  • Zhang, Z.; Gao, Y.; Gao, Y.; Jia, F.; Gao, G. A self-adhesive, self-healing zwitterionic hydrogel electrolyte for high-voltage zinc-ion hybrid supercapacitors. Chemical Engineering Journal 2022, 139014-139014, doi:10.1016/j.cej.2022.139014.
  • Luhar, S.; Luhar, I.; Shaikh, F.U.A. A Review on the Performance Evaluation of Autonomous Self-Healing Bacterial Concrete: Mechanisms, Strength, Durability, and Microstructural Properties. Journal of Composites Science 2022, 6, 1-35, doi:10.3390/jcs6010023.
  • Islam, M.M.; Hoque, N.; Islam, M.; Ibney Gias, I. An Experimental Study on the Strength and Crack Healing Performance of E. coli Bacteria-Induced Microbial Concrete. Advances in Civil Engineering 2022, 2022, doi:10.1155/2022/3060230.
  • Huang, X.; Kaewunruen, S. Self-healing concrete; INC: 2020; pp. 825-856.
  • Farhadi, S.; Ziadloo, S. Self-healing microbial concrete-a review. Materials Science Forum 2020, 990 MSF, 8-12, doi:10.4028.
  • Sigh, S. Self Healing Concrete ( Bio-Concrete). 2019.
  • Morsali, S.; Yucel Isildar, G.; Hamed Zar gari, Z.; Tahni, A. The application of bacteria as a main factor in self-healing concrete technology. Journal of Building Pathology and Rehabilitation 2019, 4, 1-6, doi:10.1007/s41024-019-0045-9.
  • Karthik, C.; P, R.M.R. Properties of Bacterial-based Self-healing Concrete- A review. 2019.
  • Van Tittelboom, K.; Van den Heede, P.; De Belie, N.D. Self-healing concrete with encapsulated polyurethane; Elsevier Ltd: 2018; pp. 429-466.
  • Ubertini, F.; D'Alessandro, A. Concrete with self-sensing properties; Elsevier Ltd: 2018; pp. 501-530.
  • Vijay, K.; Murmu, M.; Deo, S.V. Bacteria based self healing concrete – A review. Construction and Building Materials 2017, 152, 1008-1014, doi:10.1016/j.conbuildmat.2017.07.040.
  • Amran, M.; Onaizi, A.M.; Fediuk, R.; Vatin, N.I.; Rashid, R.S.M.; Abdelgader, H.; Ozbakkaloglu, T. Self-Healing Concrete as a Prospective Construction Material: A Review. Materials 2022, 15, 1-46, doi:10.3390/ma15093214.
  • Research, G.V. Self-healing Concrete Market Size, Share & Trends Analysis Report By Form (Intrinsic, Capsule Based, Vascular), By Application (Residential, Industrial, Commercial, Infrastructure), By Region, And Segment Forecasts, 2020 - 2027. 2020, 1-7.
  • De Belie, N.; Wang, J.; Bundur, Z.B.; Paine, K. Bacteria-based concrete; Elsevier Ltd: 2018; pp. 531-567.
  • Kanellopoulou, I.A.; Kartsonakis, I.A.; Charitidis, C.A. The Effect of Superabsorbent Polymers on the Microstructure and Self-Healing Properties of Cementitious-Based Composite Materials. Applied Sciences 2021, 11, doi:10.3390/app11020700.
  • Karatzas, A.; Bilalis, P.; Kartsonakis, I.A.; Kordas, G.C. Reversible spherical organic water microtraps. Journal of Non-Crystalline Solids 2012, 358, 443-445, doi:10.1016/j.jnoncrysol.2011.10.010.
  • Pappas, G.S.; Liatsi, P.; Kartsonakis, I.A.; Danilidis, I.; Kordas, G. Synthesis and characterization of new SiO2–CaO hollow nanospheres by sol–gel method: Bioactivity of the new system. Journal of Non-Crystalline Solids 2008, 354, 755-760, doi:10.1016/j.jnoncrysol.2007.09.007.
  • Qureshi, T.; Al-Tabbaa, A. Self-Healing Concrete and Cementitious Materials. Advanced Functional Materials 2020, doi:10.5772/intechopen.92349.
  • Kulkarni, P.B.; Nemade, P.D.; Wagh, M.P. Healing of generated cracks in cement mortar using MICP. Civil Engineering Journal (Iran) 2020, 6, 679-692, doi:10.28991/cej-2020-03091500.
  • Sudha, N.; Gowsalaya, T.; Hemavarshini, A.; Lakshmi, S.G. Experimental Investigations on Strength Properties of Self-healing Bacterial Concrete Using M-Sand. International Journal of Advance Research and Innovation 2019, 6, 1-4.
  • Zhang, M.; Xing, F.; Cui, H.; Lu, H.; Andalib, R.; Abd Majid, M.Z.; Hussin, M.W.; Ponraj, M.; Keyvanfar, A.; Mirza, J.; et al. A Review on Bacteria - Based Self-Healing Concrete. Eco-efficient Repair and Rehabilitation of Concrete Infrastructures 2018, 5, 1-7, doi:10.1016/B978-0-12-818961-0.00003-X.
  • Van Tittelboom, K.; Van den Heede, P.; De Belie, N.D.; Andalib, R.; Abd Majid, M.Z.; Hussin, M.W.; Ponraj, M.; Keyvanfar, A.; Mirza, J.; Lee, H.S.; et al. Bacterial Self Healing Concrete-an Innovative Repair Technique. Eco-efficient Repair and Rehabilitation of Concrete Infrastructures 2018, 5, 1-7, doi:10.13140/RG.2.1.3267.5680.
  • Gandhimathi, A.; Vigneswari, N.; Janani, S.M.; Ramya, D.; Suji, D.; Meenambal, T. Experimental Study on Self – Healing Concrete. 2012, 5, 17-28.
  • Zhang, M.; Xing, F.; Cui, H.; Lu, H. Study on self-healing concrete with pre-embedded healing agent. Advanced Materials Research 2011, 250-253, 405-408, doi:10.4028.
  • Varma, P.C.R.; Colreavy, J.; Cassidy, J.; Oubaha, M.; Duffy, B.; McDonagh, C. Effect of organic chelates on the performance of hybrid sol-gel coated AA 2024-T3 aluminium alloys. Progress in Organic Coatings 2009, 66, 406-411, doi:10.1016/j.porgcoat.2009.09.004.
  • Feugeas, F.; Tran, M.; Chakri, S. Bio-based admixture with substances derived from bacteria for the durability of concrete. Eco-efficient Repair and Rehabilitation of Concrete Infrastructures 2018, 569-587, doi:10.1016/B978-0-08-102181-1.00020-4.
  • Estokova, A.; Smolakova, M.; Luptakova, A.; Strigac, J. Changes in water absorptivity of slag based cement mortars exposed to sulphur-oxidising A.Thiooxidans bacteria. IOP Conference Series: Materials Science and Engineering 2017, 251, doi:10.1088/1757-899X/251/1/012034.
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