International Journal of Technology

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Partial Replacement of Cement with Marble Powder in Concrete


Affiliations
1 Department of Civil Engineering, St. Josephs College of Engineering & Technology, Thanjavur, India
     

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Marble powder is one of the most active research areas that encompass a number of disciplines including civil engineering and construction materials. The marble industry inevitably produces wastes, irrespective of the improvements introduced in manufacturing processes. In the marble industry, about 50 to 60% production waste. These waste create many environmental dust problems in now a day to day society. In requiring a suitable form of management in order to achieve sustainable development. In this paper explained about the behavior of concrete with partial replacement of cement with added percentage values of marble powder and attain required strength. Partial replacement of marble powder in cement accordingly in the range of 20%, 30%, 40%, by weight for M20 grade of concrete. With this experimental research work the problem of waste production management of this agro waste are will be solved. It analyzed the research work the compressive strength, flextural strength, split tensile strength values at 7, 14, 28 day. The test results show that the compressive strength, split-tensile strength and flexural strengths are achieved up to 30% to 40% replacement of cement with marble powder without affecting the characteristic strength of M20 (1:1.5:3) grade concrete.

Keywords

Cement (53 Grade), Marble Powder, Fine Aggregate (M-Sand), Coarse Aggregate (20mm Size).
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  • Lalji Prajapati, I. N. Patel, V. V. Agarwal “Analysis Of The Strength And Durability Of The Concrete With Partially Replaced By The Ceramic Slurry Waste Powder”. IJETAE: International Emerging Technology and Advanced Engineering, Vol. 4, Issue 3, March-2014, PP.725-729.

  • Amitkumar D. Raval, Dr. Indrajit N. Patel, Prof. Jayeshkumar Pitroda, “Reuse Of Ceramic Industry Wastes For The Elaboration Of Eco-efficient Concrete”. International Journal Of Advanced Engineering Research and Studies, Vol. 2, Issue 3, April-June, 2013 PP. 103–105.

  • F. Pacheco Torgal, A. Shahsavandi, S. Jalali, “Mechanical Properties And Durability Of Concrete With Partial Replacement Of Portland Cement By Ceramic Wastes”. 1St International Conference, September 12th – 14th 2011.

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  • Jay Patel, Dr. (Smt.) B. K. Shah, Prof. P.J.Patel, “The Potential Pozzolanic Activity of Different Ceramic Waste Powder as Cement Mortar Component (Strength Activity Index)” International Journal of Engineering Trends and Technology (IJETT) – Volume 9, Number 6, Mar 2014.


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  • Partial Replacement of Cement with Marble Powder in Concrete

Abstract Views: 864  |  PDF Views: 6

Authors

Vijayvenkatesh Chandrasekaran
Department of Civil Engineering, St. Josephs College of Engineering & Technology, Thanjavur, India

Abstract


Marble powder is one of the most active research areas that encompass a number of disciplines including civil engineering and construction materials. The marble industry inevitably produces wastes, irrespective of the improvements introduced in manufacturing processes. In the marble industry, about 50 to 60% production waste. These waste create many environmental dust problems in now a day to day society. In requiring a suitable form of management in order to achieve sustainable development. In this paper explained about the behavior of concrete with partial replacement of cement with added percentage values of marble powder and attain required strength. Partial replacement of marble powder in cement accordingly in the range of 20%, 30%, 40%, by weight for M20 grade of concrete. With this experimental research work the problem of waste production management of this agro waste are will be solved. It analyzed the research work the compressive strength, flextural strength, split tensile strength values at 7, 14, 28 day. The test results show that the compressive strength, split-tensile strength and flexural strengths are achieved up to 30% to 40% replacement of cement with marble powder without affecting the characteristic strength of M20 (1:1.5:3) grade concrete.

Keywords


Cement (53 Grade), Marble Powder, Fine Aggregate (M-Sand), Coarse Aggregate (20mm Size).

References