International Research Journal of Engineering and Technology (IRJET)
e-ISSN: 2395-0056
Volume: 09 Issue: 05 | May 2022
p-ISSN: 2395-0072
www.irjet.net
“STUDY OF CONCRETE CUBE BY USING LATHE SCRAP AND TREATED WASTE WATER” Prof.N.S.Pote1,Ms Shrutika Mukate2, Ms Mrunal Mane3 , , Ms Diksha Kolte4 , Mr. Vaishnav Burhan5 1Prof.
Debt. of Civil Engineering, JSPMs Rajarshi Shahu College of Engineering, Pune, Maharashtra. Debt. of Civil Engineering, JSPMs Rajarshi Shahu College of Engineering, Pune, Maharashtra, India. ---------------------------------------------------------------------***--------------------------------------------------------------------season the insufficiency of water is a major problem. At that Abstract 2,3,4,5Student,
time we have to study different types of water that means a waste water. Right now we loose million liters of waste water and there is no planning for the use this water rather than discharging in river and the farming. After treating sewage waste water and the testing of waste water in a laboratory if it has similar properties like a potable water then we can use the waste water for the construction purpose. In waste water there is a lot of impurities, bacteria there is a great possibility of killing the bacteria due to heat of hydration. So we can easily use concrete for residential purpose. The benefit of this project is we save millions litter of waste water which we dispose in the river and decreases waste of potable water on a great scale.
Concrete consists of cement, coarse aggregate, fine aggregate and water. Their proportion in the concrete is fixed depending upon the grade of concrete and it determines the strength also. Currently waste water problem and production of steel waste without management is become a major problem in the construction industry. This paper presents the use of waste water and lathe scrap in concrete for better improvement of the concrete. The objective of this paper is to study the impact of addition of lathe scrap and the replacement of potable water by the treating waste water in concrete and the compare it with conventional concrete.
2. AIM & OBJECTIVE
The tests conducted are COMPRESSIVE STRENGTH TEST, FLEXURAL STRENGTH TEST and SPLIT TENSIL TEST and experiments are conducted by adding the 2% Lathe Scrap by weight of cement and calculating their strengths at 7 days and 28 days for M20 grade concrete.
1.
To look over the use of steel scraps as steel fiber in rigid concrete.
2.
To study the effect of lathe scrap on concrete.
3.
To compare the properties of tap water and the treated waste water.
All the test results showed an increase in compressive strength as well as flexural strength in early-age at 7 days as well as better results on 28 days when compared to normal M20 grade concrete.
4.
To look over the Compressive, Flexural and Tensile strength of concrete using lathe scrap and waste water.
5.
To propose best suitable water for mixing the concrete.
Key Words: Steel Fibre Reinforced Concrete1, Treated waste water2, Lathe scrap3, Universal testing machine4, workability5,
METHODOLOGY
1. INTRODUCTION Population of India is rapidly developing continuosly along with construction industry. In the construction, industry there is no option for concrete. The effective use of locally available material is more important in the recent years. There is one material lathe scrap which is easily available. It describes as steel scrap fiber reinforced concrete (SSFRC). The main role of the fibers is to enrich the toughness of the SSFRC under different type of load on concrete. Toughness is called to area under the load vs. deflection curve i.e. fibers problem for increasing population specially in summer
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1.
To determine the mix design for M20 grade of concrete.
2.
To determine properties of treated waste water.
3.
To compare waste water properties with the potable water.
4.
Select waste water having properties similar with waste water.
5.
To finding out the properties of the lathe scrap
6.
To prepare mix design of M20 by using 2% lathe scrap and the treated waste water.
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