Experimental study on partial replacement of fine aggregateby lathe steel waste with natural fibre in concrete

  • Authors

    • Pooja S Lachyan Assistance Professor , M.Tech Structural Engineering, Department Of Civil Engineering , Sinhgad Institute Of Technology And Science, Pune , Maharashtra , India
    • Fajal Mohammad Shaikh U.G. Student , Department Of Civil Engineering , Sinhgad Institute Of Technology And Science, Pune , Maharashtra , India
    • Vinayak Raghunath Patil U.G. Student , Department Of Civil Engineering , Sinhgad Institute Of Technology And Science, Pune , Maharashtra , India
    • Saurabh Mahendra Rajguru U.G. Student , Department Of Civil Engineering , Sinhgad Institute Of Technology And Science, Pune , Maharashtra , India
    • Om Roopchand Pawara U.G. Student , Department Of Civil Engineering , Sinhgad Institute Of Technology And Science, Pune , Maharashtra , India
    • Ganesh Babasaheb Sathe U.G. Student , Department Of Civil Engineering , Sinhgad Institute Of Technology And Science, Pune , Maharashtra , India
    2024-05-27
    https://doi.org/10.14419/brse8568
  • Engineering; Concrete; Lathe Steel Waste; Fibre; Cement; Lathe Machine Steel Scrap; Reuse; Compressive Strength; Flexural Strength; Split Tensile Strength.
  • Abstract

    This topic focused on bettering concrete properties by replacing traditional materials with waste products, like from the steel industry, and
    incorporating natural fibres. The aim of this research are to mitigating environmental hazards connected with industrial waste while improving concrete performance. The studies investigated the feasibility of using steel lathe waste as a partial replace for fine aggregate in
    concrete, along with including coconut Fiber for some reason. Through experimental analysis, the percent of lathe scrap replacement and
    natural fibre incorporation is determined to achieve the mechanical properties wanted. The research assesses the compressive, tensile, and
    flexural strengths, as well workability and consistency of the concrete mixes - important stuff. Additionally, durability and resistance to
    environmental factors are being looked at. Comparative analysis includes figuring out cost-effectiveness with traditional concrete, even
    though it might be obvious. The project's scope includes a rather comprehensive investigation into the benefits and challenges of these
    alternative materials, contributing to sustainable construction practices, and minimizing environmental impact.

  • References

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  • How to Cite

    Pooja S Lachyan, Fajal Mohammad Shaikh, Vinayak Raghunath Patil, Saurabh Mahendra Rajguru, Om Roopchand Pawara, & Ganesh Babasaheb Sathe. (2024). Experimental study on partial replacement of fine aggregateby lathe steel waste with natural fibre in concrete. International Journal of Engineering & Technology, 13(1), 173-181. https://doi.org/10.14419/brse8568