Fresh, Mechanical, and Durability Properties of Concrete Contains Natural Material as an Admixture, an Overview
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Abstract
Nowadays, the performance criteria for concrete construction are moving toward eco-efficiency, which is a method of producing highly durable and environmentally friendly concrete while minimizing both manufacturing costs and environmental load. Admixtures are commonly used in all concrete construction; however, some of them are harmful to human health and cause leaching, which is responsible for environmental pollution. On this principle, one of the eco-efficiency method's techniques is to use natural materials as additives in concrete. The paper continues to discuss the experi-mental data generated at the author's laboratory as part of exploratory work on the use of natural materials and their impact on the properties of cement, mortars, and concretes in terms of improving fresh, mechanical, and durability properties of concrete , The paper concludes that the observed impacts of using these natural material additions on the properties of mortar and concrete will motivate greater research in these areas, thereby improving the sustainability of concrete constructions.
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Journal of Studies in Science and Engineering is licensed under a Creative Commons Attribution License 4.0 (CC BY-4.0).
References
Gagg, C.R., 2014. Cement and concrete as an engineering material: An historic appraisal and case study analysis. Engineering Failure Analysis, 40, pp.114-140.
Faqe, H., 2020, November. Effect of Chemical Activators on the Compressive Strength of Cement-Slag Mortar. In IOP Conference Series: Materials Science and Engineering (Vol. 978, No. 1, p. 012004). IOP Publishing.
Patel, G.K. and Deo, S.V., 2016. Effect of natural organic materials as admixture on properties of concrete. Indian J. Sci. Technol., 9(37), pp. 1-8.
Faqe, H., Dabaghh, H. And Mohammed, A., 2020. Natural Admixture as an Alternative for Chemical Admixture In Concrete Technology: A Review. Journal of Duhok University, 23(2), pp.301-308.
Thirumalini, P. and Sekar, S.K., 2013. Review on herbs used as admixture in lime mortar used in ancient structures. Indian J. Appl. Res, 3(8), pp.295-298.
Woldemariam, A.M., Oyawa, W.O. and Abuodha, S.O., 2014. Cypress tree extract as an eco-friendly admixture in concrete. International Journal of Civil Engineering & Technology (IJCIET), 5(6), pp.25-36.
Otoko, G.R. and Ephraim, M.E., 2014. Concrete admixture and set retarder potential of palm liquor. European International Journal of Science and Technology ISSN: 2304, 9693(3), pp. 74-80.
Shareef, K.M., Navaneeth, A.P., Bhavia, K.K., Harikrishna, A.S., Anas, P.M. and Maya, P., 2016. Pulp black liquor-an admixture in concrete. Int. J. Civ. Eng., 3(3), pp.40-46.
Patel, G.K. and Deo, S.V., 2016. Parametric study of natural organic materials as admixture in concrete. International Journal of Applied Engineering Research, 11(9), pp.6271-6277.
T.S. Ramesh Babua, T.S., Neeraja, D., Daniel, M. and Warabo, U., 2017 Effect of Natural Admixture on Durability Properties of Conventional and Class C Fly Ash Blended Concrete, American Journal of Engineering Research (AJER), 6(10), pp.321-333.
Pathan, S.B. and Singh, V.V., 2017. Using molasses in concrete as a time retarding admixture. International Journal of Engineering Research & Technology, 6(11), pp.509-513.
Izaguirre, A., Lanas, J. and Álvarez, J.I., 2011. Effect of a biodegradable natural polymer on the properties of hardened lime-based mortars. Materiales de construccion, 61(302), pp.257-274.
Sathya, A., Bhuvaneshwari, P., Niranjan, G. and Vishveswaran, M., 2014. Influence of bio admixture on mechanical properties of cement and concrete. Asian journal of applied sciences, 7(4), pp.205-214.
Woldemariam, A.M., Oyawa, W.O. and Abuodha, S.O., 2015. The use of plant extract as shrinkage reducing admixture (SRA) to reduce early age shrinkage and cracking on cement mortar. International Journal of Innovation and Scientific Research, 13(1), pp.136-144.
Otunyo, A.W. and Koate, I., 2015. Sugar cane juice as a retarding admixture in concrete production. Global journal of engineering research, 14(1), pp.17-23.
Otunyo, A.W., Onwusiri, S.C. and Nwaiwu, N., 2015. Effect of sugar cane juice on slump values, setting times and strength of concrete. Nigerian Journal of Technology, 34(2), pp.254-258.
Aprana, A.B. and Keerthi Gowda, B.S., 2017. Effect of Sugar on Setting-Time and Compressive Strength of Concrete. In International conference ICGCSC-2017, MITE. pp.335-337.
Hazarika, A., Hazarika, I. and Saikia, N., 2016. The effect of a plant based polymeric material on the fresh and hardened states properties of cement mortar. In 1st International Conference on Civil Engineering for Sustainable Development-Opportunities and Challenges. Guwahati, India, pp. 1-5.
Karandikar, M.V., Sarase, S.B., Lele, P.G. and Khadaikar, S.A., 2014. Use of natural bio-polymers for improved mortar and concrete properties of cement–a review. Indian Concrete Journal, 88(7), pp.84-109.
Aswathi, K.P., Hanna, P., George, J.K. and Shameer, K., 2017. Effect of Natural Rubber Latex as admixtures in concrete. Int. Res. J. Eng. Technol., 4, pp.2031-2034.
Elinwa, A.U., Abdulbasir, G. and Abdulkadir, G., 2018. Gum Arabic as an admixture for cement concrete production. Construction and Building Materials, 176, pp.201-212.
Ramesh Babu, T. and Neeraja, D., 2017. A experimental study of natural admixture effect on conventional concrete and high volume class F flyash blended concrete. Case studies in construction materials, 6, pp.43-62.
Aquilina, A., Borg, R.P. and Buhagiar, J., 2018, November. The application of Natural Organic Additives in Concrete: Opuntia ficus-indica. In IOP Conference Series: Materials Science and Engineering (Vol. 442, No. 1, p. 012016). IOP Publishing.
Raj, S.M., Raja, C.K., Karuthapandi, M. and Saranya, M.V., 2019. Experimental Study on Eco-Concrete using Natural Admixtures. SSRG International Journal of Civil Engineering (SSRG-IJCE), pp.5-7.
Mahmood, H.F., Dabbagh, H. and Mohammed, A.A., 2021. Comparative study on using chemical and natural ad-mixtures (grape and mulberry extracts) for concrete. Case Studies in Construction Materials, 15, p.e00699.