Eco-Friendly Concrete Using Fly Ash and Recycled Aggregates
DOI:
https://doi.org/10.64882/ijrt.v14.iS1.1115Keywords:
high performance concrete, recycled aggregates, fly ash, super plasticizers, coarse aggregates, permeability, compressive strength, tensile strength, flexural strengthAbstract
There Is a growing demand for the development of new type concrete due to its high strength, performance, durability, serviceability and overall economy in long term. high performance concrete meets all of the above criteria to fulfil our needs. high performance concrete provides new possibilities of lighter and larger structures with economy and resource consumption than that of traditional concrete, steel and other building materials. in the present work we have taken recycled aggregates in different percentages to replace the natural aggregates and the use of fly ash as replacement of cement. the aim of my work is to prepare a concrete of high strength with the usage of recycled aggregates as they are the waste materials generally used for land filling and other works which pollute the environment. So, to protect the environment and make it properly usable we are using the recycled aggregates here to make a ecofriendly high-performance concrete.
References
Ajibola I. Tijani, Jian Yang, and Samir Dirar (2015), “Enhancing the Performance of Recycled Aggregate Concrete with Microsilica” International Journal of Structural and Civil Engineering Research, 4(4), 347-354.
B Sarath Chandra Kumar, Vamsi Krishna and P Saha (2014) ,“Sustainable Development Using Recycled Aggregate” International Journal of Modern Engineering Research, 2(1), 165-171.
IS: 10262-2009, “Recommended Guidelines for Concrete Mix design”, Bureau of Indian Standard, New Delhi.
IS: 3812-2003 Specification for Fly Ash for use as pozzolana and admixture.
IS: 8112-1989 Specification for 43 grades Ordinary Portland Cement. Shaikh Sameer Younus, and Ashfaq Samiuddin Shaikh (2010), “High performance concrete using recycled aggregate” International Journal of Research in Science & Engineering, 1(3), 155-164.
M ChakradharaRao, S.K.Bhattacharyya, and S. V. Barai (2011), “Recycled concrete aggregate and its use in concrete” ICI Journal, 4(7), 231-239.
M VijayaSekhar Reddy, I V Ramana Reddy and K Madan Mohan Reddy (2012), “Durability of High-Performance Concrete Containing Supplementary Cementing Materials using Rapid Chloride Permeability Test” International Journal of Structural and Civil Engineering, 1(1), 93-99.
Md. Safiuddin and MohdZaminJumaat (2010), “Utilization of solid wastes in construction materials” International Journal of the Physical Sciences, 5(13), 1952-1963.
P. Magudeaswaran, P.Eswaramoorthi and D. Pradeep Kumar (2015), “Green High Performance Concrete using Eco Sand and Industrial Wastes” International Journal of Innovative Research in Chemical Science, Engineering and Technology,13(2), 661-671.
R. K. Kolisetty and H.S.Chore (2013), “Utilization of Waste Materials in Construction Activities: A Green Concept” International conference on Green Computing and Technology, 2(3), 1-7.
Shishir Bansal and S K Singh (2014), “A Sustainable Approach towards the Construction and Demolition Waste” International Journal of Innovative Research in Science, Engineering and Technology, 3(2), 9226-9235.
Suraya Hani Adnan, Lee Yee Loon and Ismail Abdul Rahman (2009),“Compressive Strength of Recycled Aggregate Concrete with Various Percentage of Recycled Aggregate” University Tun Hussein Onn Malaysia.
Swati Choudhary, Rishab Bajaj, and Rajesh Kumar Sharma (2014), “Study of high-performance concrete” Journal of Civil Engineering and Environmental Technology, 1(5), 109-117.
T.R. Naik and G. Moriconi (2004),” Environmentally Friendly durable concrete made with recycled aggregates for sustainable concrete construction.”
Tushar R Sonawane and Sunil Pimplikar (2012), “Use of Recycled Aggregate Concrete” IOSR Journal of Mechanical and Civil Engineering, 4(11), 52-59.
Vivian W. Y. Tam and C. M. Tam (2006),” Assessment of Durability of Recycled Aggregate Concrete Produced by Two-Stage Mixing Approach” Civil Engineering Department, Hong Kong.
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