
The present investigations are aimed at studying the effect of quarry dust when it is replaced with sand partially in concrete. The quarry dust samples collected from Paritala region were studied and compared in terms of geotechnical properties. The physical properties of Zone II following quarry dust were used in compressive strength study.

The effect of quarry dust on the flexural strength of concrete has been experimentally studied and reported in this paper. Concrete used was prepared by replacing 25% and 100% of sand by weight with quarry dust.

May 22, 2017· The concept of replacement of natural fine aggregate by quarry dust which is highlighted in the study could boost the consumption of quarry dust generated from quarries. By replacement of quarry dust, the requirement of land fill area can be reduc.

In the present investigation, an experimental program was carried out to study the workability and compressive strength of concrete made using stone dust as

The effect of quarry dust on the flexural strength of concrete has been experimentally studied and reported in this paper. Concrete used was prepared by replacing 25% and 100% of

Safiuddin et al. [12] investigated the influence of partial replacement of sand with quarry dust and cement with mineral admixtures on the compressive strength of concrete

Effect of quarry dust on compressive strength of concrete The 100 mm size concrete cubes were used as test specimens to determine the compressive strength. The test results of the cubes are compiled in Figures 2 to 7. 59. The compressive strength of concrete cube (100% replacement of sand with quarry dust) and natural sand were compared. The

clear picture that quarry dust can be utilized in concrete mixtures as a good substitute for natural river sand giving higher strength at 50% replacement. Index Terms- Concrete, quarry dust, river sand, compressive strength. I. INTRODUCTION oncrete is

Request PDF A STUDY OF THE EFFECTS OF RECYCLED PLASTIC MATERIALS AND QUARRY DUST ON COMPRESSIVE STRENGTH OF CONCRETE Sustainability and material use is playing a leading role in the

This paper investigates the effect of quarry dust as a of this study was conducted to determine the testing value of material properties and the compressive strength of concrete produced to be

Effect of quarry dust on compressive strength of concrete The 100 mm size concrete cubes were used as test specimens to determine the compressive strength. The test results of the cubes are compiled in Figures 2 to 7. 59. The compressive strength of concrete cube (100% replacement of sand with quarry dust) and natural sand were compared. The

Request PDF A STUDY OF THE EFFECTS OF RECYCLED PLASTIC MATERIALS AND QUARRY DUST ON COMPRESSIVE STRENGTH OF CONCRETE Sustainability and material use is playing a leading role in the

This research work was experimentally carried out to investigate comparing the effects of Rice Husk Ash (RHA) and Quarry Dust on the compressive strength of concrete using local aggregates as super pozzolans at optimum replacement percentage which

of sand with quarry dust and cement with mineral admixtures on the compressive strength of concrete Gambhir (1995), whereas Celik and Marar (1996) investigated the influence of partial replacement of fine aggregate with crushed stone dust at varying percentages in the properties

Objectives: In the present study, by-product of stone crushed, quarry dust is replaced as a fine aggregate with 20%, 30%, 40%, 50% replacement. Methods/Analysis: The fine aggregate is being replaced with fine aggregate and the compressive strength is

COMPRESSIVE STRENGTH OF CONCRETE USING LATERITIC SAND AND QUARRY DUST AS FINE AGGREGATE Joseph O. Ukpata1, Maurice E. Ephraim2 and Godwin A. Akeke1 1Department of Civil Engineering, Cross River University of Technology, Calabar, Nigeria 2Department of Civil Engineering, Rivers State University of Science and Technology, Port Harcourt, Nigeria

compressive strength and split tensile strength of all grades of quarry dust concrete tends to reduce by a certain percentage when water cement ratio was increased from 0.5 to 0.65 in steps of 0.05.

An experimental investigation has been done to effect of fly ash by partially replacing in cement from 0 to 50% and replacing river sand by quarry dust (0-50%) for various mixes. This research paper produce the compressive strength, split tensile strength and durability

Concrete is the most used construction material having basic ingredients as binding material, fine aggregate, coarse aggregate and water in predetermined proportion all the ingredients are homogeneously mixed to obtain resulting mixed of desired

The depletion in the sources of natural sand and the demand for reduction in cost of construction has led to an urgent need to identify a substitute for river sand. Quarry dust, which is a by-product from the granite crushing processes in quarrying

Research Article Study on Compressive Strength of Quarry Dust as Fine Aggregate in Concrete K.ShyamPrakash 1 andCh.HanumanthaRao 2 Department of Civil Engineering, PVP Siddhartha Institute of Technology, Kanuru, Vijayawada, Andhra Pradesh, India

Poonam, anoop bishnoi, and manju bala. 2015. effect of quarry dust as partial replacement of sand in concrete. international journal of all research education and scientific methods 3615. raharjo, d., subakti, a., and tabvio. 2013. mixed concrete optimization using fly ash,silica fume and iron slag on the sccs compressive strength.

Jul 01, 2017· Yes As quarry dust(also called as crushed sand) is a byproduct obtained after crushing of stones(rocks) to make aggregates. * Results have shown that the concrete

to study the effect of partial replacement of fine aggregates by quarry dust and cement by fly ash on cement concrete. 1.2 NEED FOR INVESTIGATION Quarry Dust These residues are generally less than 1% aggregate production in the normal concrete. The introduction of quarry dust for mixing is limited due to its high fineness.

The depletion in the sources of natural sand and the demand for reduction in cost of construction has led to an urgent need to identify a substitute for river sand. Quarry dust, which is a by-product from the granite crushing processes in quarrying

Research Article Study on Compressive Strength of Quarry Dust as Fine Aggregate in Concrete K.ShyamPrakash 1 andCh.HanumanthaRao 2 Department of Civil Engineering, PVP Siddhartha Institute of Technology, Kanuru, Vijayawada, Andhra Pradesh, India

Poonam, anoop bishnoi, and manju bala. 2015. effect of quarry dust as partial replacement of sand in concrete. international journal of all research education and scientific methods 3615. raharjo, d., subakti, a., and tabvio. 2013. mixed concrete optimization using fly ash,silica fume and iron slag on the sccs compressive strength.

Jul 01, 2017· Yes As quarry dust(also called as crushed sand) is a byproduct obtained after crushing of stones(rocks) to make aggregates. * Results have shown that the concrete

to study the effect of partial replacement of fine aggregates by quarry dust and cement by fly ash on cement concrete. 1.2 NEED FOR INVESTIGATION Quarry Dust These residues are generally less than 1% aggregate production in the normal concrete. The introduction of quarry dust for mixing is limited due to its high fineness.

The partial replacement of quarry dust gave a 28 days’ peak compressive strength at 40% replacement level and decreases for 50% replacement. Figure 3 shows the compressive strength relation for both normal concrete and quarry dust concrete, at the age of 28 days for M30, M25, and M20 grades of concrete for different w/c ratios of 0.45 and 0.5.

compressive strength with both compression testing machine and Rebound hammer test. II. SCOPE OF PRESENT STUDY In this study, M15 grade of concrete was obtained and the mixtures were modified by partially replacing natural sand with quarry dust. The strength of concrete was evaluated in terms of compressive strength by compression testing

The obtained result shows higher compressive strength in 28 days curing period compare to 7-days curing. . The average compressive strength of concrete cubes for 10% quarry dust is 24.37 MPa at 7 days, which then increased to 34.82 MPa at 28 days. For 20%, the compressive strength develops from 25.32 MPa at 7 days to 35.67 MPa at 28

In this investigation, 450 cylinders are tested to investigate concrete compressive strength of SCC with different percentages of fly ash, silica fume and the combination of fly ash and silica fume respectively. In addition to investigate the effect of curing conditions on concrete compressive strength.

This paper present a report on the possibility of developing high performance concrete (HPC) using quarry dust as part of fine aggregates. Quarry dust was used to replace 20% of sand in silica fume-quarry dust (SFQD) and silica fume (SF) concretes. Besides, silica fume was used as 10% replacement of cement in both SF and SFQD concretes.

the concrete i.e. Compressive Strength and Splitting Tensile Strength of Concrete. Cement is being replaced with different types of waste materials to achieve the aforementioned benefits. This research paper reveals the effect of the partial replacement of cement with the Stone Quarry Dust on Compressive Strength

dust. To find the effect of quarry dust various tests are conducted like compressive strength test and workability test (compaction factor). The set of series are, M20 & M25 grade of concrete with 10, 20, 30, 40, 50 and 60 percentage replacement of quarry dust tested for 7 days, and 28 days is studied and the results are presented.

effect of super plasticizer in quarry dust replaced concrete and reported that the compressive strength of quarry dust concrete can be improved with admixture E [6]. As suggested by Prachoom Khamput, super plasticizers can be used to improve the workability of quarry dust replaced concrete [7]. Nagaraj and David Manning have observed

Effect of quarry dust on the compressive strength The compressive strength results achieved at 1 day, 3 days, 7 days and 28 days for slag- and cement-based samples are presented in Fig. 3 . Obviously, the cement-based series exhibits higher compressive values than slag-based series at all curing periods.
Copyright © 2004-2020 by Fruitful Machinery Technology Co. LTD All rights reserved.Sitemap