STUDY OF PARTIAL REPLACEMENT OF FINE AGGREGATE

The fundamental goal of the study was to determine the optimum proportion of using sugarcane bagasse ash and steel scrap in the concrete. 3. MATERIALS USED The materials utilized as a part of the investigation are sugarcane bagasse ash, cement, steel scrap, fine aggregate, coarse aggregate and potable water.

2.2 Fine aggregate: Locally available river sand was preferred as fine aggregate for entire experimental work. Sand shall be obtained from a reliable supplier and shall comply with ASTM standard C-33 for fine aggregates. It should be clean, hard, strong, and free of organic impurities and deleterious substance Fine aggregates

9] ShewaferawDinku Belay, (2006), hardened properties of the concrete mixes with partial replacement of natural sand by manufactured sand, pp.17. [10] Syamprakash V, 2007, ready mixed concrete using manufactured sand as fine aggregate, 32nd conference on our word in concrete and structures, singapoor.

Flexural Behavior of RCC Beam with Partial Replacement of Fine Aggregate and Cement with Granite Stone Dust and Silica Fume August Test Engineering and Management 83(Mar-Apr ):22829 -

aggregates. In this experimental study an attempt will be made to find the effect of partial replacement of Fine aggregate by Quarry Dust and Cement by Fly ash. The innovative use of Quarry Dust in concrete formulations as a fine aggregate replacement in the range of 0%, 15%, 30% & 45% by weight for M-40 grade cement (PPC).

determined by the percentage of partial replacement of copper slag for fine aggregate, the effect from variations of water cement ratios were monitored in the study Tables 1-12 (Figures 1-12). Table 1: Predictive and Experimental Values of Compressive Strength at Different Curing Age. Curing Age Predictive Values of Compressive Strength

replacement of natural sand by quarry sand and 1.5 % dosage of mixture. Split tensile strength of concrete, when cement is replaced with 40% of GGBS & 60% of quarry dust for maximum dosage of mixture.Flexural strength will be max, if 30% of cement by GGBS & 60% of quarry sand as constant replacement for fine aggregates.

investigated the influence of partial replacement of fine aggregate with crushed stone dust at varying percent-tages in the properties of fresh and hardened concrete (Safiuddin et al., 2001; Celik and Marar, 1996). The present study is intended to study the effects of quarry dust addition in conventional concrete and to assess the

This study aims to investigate the potential use of different waste materials such as ceramic, clay bricks, marble, glass, granite, porcelain, and concrete wastes as a partial replacement of fine aggregate in cement mortar. Each one of these materials has been used in two proportions, 10% and 20% as replacement of natural sand weight.

In present investigation an experimental programme was carried out to study the suitability and potential use of brick kiln dust as a partial replacement of fine aggregate in concrete. To achieve this specimen were casted for different replacement level at an interval of 5 percent to determine workability, compressive strength and splitting

results of the study showed that the partial replacement of fireclay with up to 30% replacement is recommended for use in concrete production, unit weight of fire clay is higher than that of river sand aggregate in dense condition which denotes fireclay as fine aggregates. Jelena, B., et al. ( ) studied

Gazi Mohammad Harun-Or-Rashid, Abdullah Al Mamun, Isfaq Eashir Epu, Comparative Study on Marshall Characteristics of Bituminous Mixes by Partial Replacement of Foundry Sand and Ceramic Tile Dust as Fine Aggregate, American Journal of Materials Synthesis and Processing. Vol. 5, , , pp. 10-16.

This paper presents the results of an experimental study carried out to investigate cracking behaviour due to the long-term drying shrinkage of concrete in which the fine aggregate was partially replaced by fly ash. For the experiment, three kinds of concrete (ordinary Portland cement, FC20 and FS20) were made.

The main objective of the study is to prepare a concrete which is quiet better in both stability and durability than the nominal mix of concrete by replacing the fine aggregates and course aggregates in various trails.

Study on Natural Pozzolan as a Partial Replacement for Cement in Pervious Concrete International Journal of Trend in Scientific Research and Development. English. Experimental Investigation on Concrete With Ceramic Waste as a Partial Replacement of Fine Aggregate

The percentage replacements of fine aggregates by sawdust were varied from 0%, >>Get More Details. experimental investigation on concrete with partial - IJERA; P. Turgutet al ( ) suggested that the replacement of Fine aggregate by fine glass that increase in percentage of sawdust or palm kernel shells in concrete >>Get More Details

An Experimental study on partial replacement for coarse aggregate by Granite Waste. R.Siva Kumar,H.Mohammed yousuff,M.Haripriya Third Year Department Of Civil Engineering SNS College of Engineering Abstract: In developing countries where concrete is widely used, the high and steadily increasing cost of

In this study, potential of using bottom ash from coal power plant as a partial fine aggregate replacement material was studied both basic properties of bottom ash and properties of concrete using bottom ash as a partial fine aggregate replacement material. Bottom ash samples were collected from Mae-moh power plant

Our present study intends to explore the most effective use of the waste tyre rubber as a constituent of concrete mix replacing the coarse aggregate partially. In this research work, emphasis is given on the pre-treating of the rubber particles and then using them as the partial replacement of the conventional rock aggregates.

Jan 01,  · Proportioning and mixing Partial replacement of fine aggregate is done in different proportions such as 15%, 20%, 30%, 40% and 50%. The amounts of components to be used for compressive strength testing on 150mm cube are specified in Table 1.

aggregate. In the laboratory test, conventional fine aggregate was replaced at 100% replacement level. A total of 18 cubes were cast, cured and tested. The strength development of the concrete mixes containing egg shell aggregates was compared to that of conventional concrete with sand as fine aggregate.