Study of Granulated Blast Furnace Slag as an Alternative to River Sand and Manufactured Sand as Fine Aggregate in Concrete
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1 Study of Granulated Blast Furnace Slag as an Alternative to River Sand and Manufactured Sand as Fine Aggregate in Concrete Ch.Srinivasarao¹, M. Kameswararao² 1 Research Scholar, Dept. of Civil Engineering, K L University, Guntur (Dt), AP, India. 2 Professor, Dept. of Civil Engineering, Malla Reddy College of Engineering, Hyderabad, India. Abstract-The present challenge in front of Civil Engineers is to find alternative materials for fine aggregates in concrete. Since, most of the state Govt. banned the dredging of River sand. To maintain a balance between the environmental problems and Construction industry, it is necessary to find out the alternative materials for fine aggregates to be used in concrete. In this connection, Granulated Blast Furnace Slag was considered as a fine aggregate in concrete. At present, in India steel Industry produces about 40 Million Tonnes. By 2020 it is estimated as 60 million tonnes. The Author has investigated the effect of compressive strength of concrete, when Granulated blast furnace slag was used as a fine aggregate in concrete. This work includes the partially and fully replacement of river sand by granulated slag in M25 Grade of concrete with a constant 0.45 W/C ratio. Slag replacement of 50, 80, 100% are used. It has been observed that concrete made with 50% of river sand and 50 % Granulated blast furnace Slag (GBFS) shown Best results comparatively with 100% replacement. Keywords GBFS, Granulated Blast Furnace Slag, River Sand, Manufactured Sand, Concrete I. INTRODUCTION The Concrete Industry is the largest consumer of natural resources like, sand, gravel, crushed rock, etc. Sand & crushed stone requirement is about to the tune of 10 billion tonnes per annum.natural sand obtained from river bed is getting depleted and due to indiscriminate dredging, most of the State Govt. s imposed a ban on mining of river sand. Environmental restrictions for dredging of sand from riverbeds have resulted in a search for alternative source. The challenge for the government is to reduce the industrial by products which impacts to both health and environment when not disposed properly [1]. Granulated slag, steel chips are industrial by products in the Iron and steel industry and causes a nuisance. Increase in population which causes an acute shortage of building Materials and the civil Engineers have been challenged to convert the Industrial by products to useful Building and Construction materials [2]. Thus, the manufactured fine aggregates and Granulated Blast Furnace Slag appear as an attractive alternative to natural fine aggregates for cement mortars and concrete. Slag is a non-metallic inert by product of steel industry primarily consists of silicates, Alumino silicates, and calcium-alumina silicates. The choice of aggregates is important and their quality plays a key role; they can not only limit the strength of concrete but their characteristics, they effect the durability and performance of concrete[3]. The inherent benefits of slag play critical part in the preservation of natural resources whilst delivering premium performance. The inherent benefits of slag play critical part in the preservation of natural resources and performance. Hence, it could be recommended that Granulated Blast Furnace Slag(GBFS) could be effectively utilized as fine aggregate in masonry, plastering and all concrete applications. Studies show that, the Natural sand can be replaced by Granulated slag as a fine aggregate in concrete [4-6]. A. Granulated Blast Furnace Slag (GBFS) Granulated Slag is being produced during the process of manufacturing the pig Iron in Blast furnace at around 1400 to 1500 C in the molten form. The granulated slag is obtained by rapidly chilling (Quenching) the molten ash from the furnace by means of water or steam and air and it consisting essentially of glass containing silicates and Alumina Silicates of lime.fig.1 Samples of GBFS, Natural sand, Manufactured sand. Fig: 1 GBFS Natural sand manufactured sand Malla Reddy Engineering College (Autonomous), Volume 3, Issue 2, June
2 II. OBJECTIVES AND METHODOLOGY OF THE STUDY The Primary objective of the investigation is to study the suitability of GBFS as per IS:383 and the development of the compressive strength of concrete made with GBFS as a fine aggregate in M25 Grade of concrete in severe condition. 1. Conducting of Sieve Analysis of River Sand, Manufactured Sand and Granulated Slag, 2. The development of the compressive strength of concrete made with Granulated slag as a fine aggregate (GBFS) in M25 Grade of concrete in severe condition. The author tested the concrete cubes with Ordinary Portland cement and with Portland Pozzolana Cement (PPC) for 3 days, 7days and 28 Days compressive strength. The concrete cubes were casted with 100% river sand as a reference and replacement of river sand by 50%, 80% and 100% by GBFS for observation. Slump is also noted at all replacement levels. Finally, based on analysis and discussions of the test results, conclusions are drawn. III. EXPERIMENTAL RESULTS Conducting of Sieve Analysis of River Sand, Manufactured Sand and Granulated Blast Furnace Slag (GBFS). A. Sieve Analysis: Sample of 3 kg of fine aggregate brought to an air-dry condition before weighing and sieving by means of heating at a temp. of 1000C the air- dry sample is weighed and sieved successively on the sieves starting with largest i.e. 4.75mm, 2.36mm, 1.18mm, 600mic, 300mic, 150mic. Each sieve had been shaken separately over a clean tray on completion of sieving; the material retained on each sieve with the material cleaned from the mesh had been weighed. The cumulative weight passing each sieve had been calculated as a percentage of the total sample weight. The results were compared with the limits given are IS: 383 for different zones such as Zone-I, II, III & IV and accordingly, the results were tabulated as per the limitations. TABLE 3.1: PHYSICAL PROPERTIES OF RIVER SAND, MANUFACTURED SAND AND GRANULATED SLAG S. No Description River Sand Manufactured Sand Granulated Slag Relevant IS code 1 Specific Gravity IS: 2386, Part-III 2 Bulk Density Kg/m IS: 2386, Part-III 3 Moisture Content (%) IS: 2386, Part-III 4 Water absorption (%) IS: 2386, Part-III IS: 2386, Part-IV 5 Fineness Modulus IS: 2386 Part- I 6 Fines through 75 µ, % IS: 383 IS Sieve TABLE 3.2: SIEVE ANALYSIS OF RIVER SAND, MANUFACTURED SAND AND GRANULATED SLAG River sand % Passing Manufactured Sand% Passing Granulated Slag % Passing % Age passing for single sized aggregates of Normal Sand (IS ) Zone II 4.75mm to mm to mm to Microns to Microns to Microns to 10 Cement OPC 53Gr. (X) (IS: ) PPC (Y) IS:1489 part-i TABLE 3.3: PHYSICAL PROPERTIES OF X(OPC 53GR.) AND Y(PPC)CEMENT IST FST Compressive strength MPa. Sp.Gravity (Minutes) (Minutes) 3 Days 7 Days 28 Days Fineness Sq.M/Kg Malla Reddy Engineering College (Autonomous), Volume 3, Issue 2, June
3 Percentage passing through Journal of Research in Science, Technology, Engineering and Management (JoRSTEM) River Sand Manufactur ed Sand Granulated Slag Sieve size in mm Fig 3.1: Sieve Analysis TABLE: 3.4 COARSE AGGREGATE AND GBFS AS A FINE AGGREGATE (TESTED AS PER IS 2386): Cumulative percentage of material passing IS Sieve Size, mm Coarse Aggregate Fine Aggregate (GBS) mm < 10 mm Fine Aggregate (GBFS) conforming to Zone II to meet IS 383 specification for combined grading of coarse aggregate, the following proportions of different sizes were used. Coarse aggregate (20mm) = 60%, and Coarse aggregate (<12.5mm) = 40% TABLE: 3.5 CHEM. ADMIXTURE: MID PCE ECMAS92 SP IS Sieve Size, mm Cumulative percentage of material passing Combined Limits as per 20mm (60%) <12.5mm (40%) Grading IS: IV. DESIGN MIX FOR M25 AS PER IS TABLE: 4.1 Cement River sand Coarse Aggregate Per Cub.M Total Water Chemical Ad. Kg/Cub.M Per Kg/Cub.M 20mm 12.5mm Lit. (0.45w/c) Mix Lit TABLE 4.2 COMPRESSIVE STRENGTH (MPA) OF CONCRETE CUBES WITH OPC AND 100% RIVER SAND Cube 1A mm Cube 1B Cube 1C Avg Malla Reddy Engineering College (Autonomous), Volume 3, Issue 2, June
4 TABLE 4.2 COMPRESSIVE STRENGTH (MPA) OF CONCRETE CUBES WITH OPC AND 100% RIVER SAND Cube 1A mm Cube 1B Cube 1C Avg TABLE 4.3 COMPRESSIVE STRENGTH (MPA) OF CONCRETE CUBES WITH OPC AND 50% GBFS Cube 2A Cube 2B Cube 2C Avg TABLE 4.4 COMPRESSIVE STRENGTH (MPA) OF CONCRETE CUBES WITH OPC AND 80% GBFS Cube 3A Cube 3B Cube 3C Avg TABLE 4.5 COMPRESSIVE STRENGTH (MPA) OF CONCRETE CUBES WITH OPC AND 100% GBFS Cube 4A Cube 4B Cube 4C Avg TABLE 4.6 COMPRESSIVE STRENGTH (MPA) OF CONCRETE CUBES WITH PPC AND 100% RIVER SAND Cube 1P Cube 1P Cube 1P Avg TABLE 4.7 COMPRESSIVE STRENGTH (MPA) OF CONCRETE CUBES WITH PPC AND 50% GBFS Cube 2P Cube 2P Cube 2P Avg TABLE 4.8 COMPRESSIVE STRENGTH (MPA) OF CONCRETE CUBES WITH PPC AND 80% GBFS Cube 3P Cube 3P Cube 3P Avg TABLE 4.9 COMPRESSIVE STRENGTH (MPA) OF CONCRETE CUBES WITH PPC AND 100% GBFS Cube 4P Cube 4P Cube 4P Avg Malla Reddy Engineering College (Autonomous), Volume 3, Issue 2, June
5 V. RESULTS AND DISCUSSIONS As per the above Physical analysis the GBFS can be used as fine aggregate in concrete and mortar as a replacement of natural sand, since, it meets IS: and satisfy Zone:II. In OPC and PPC concrete, the natural river sand was replaced by Granulated blast furnace slag at 50, 80 and 100%. The compressive strength of concrete made with OPC with 100% natural river sand as a reference and compared with the replacement of natural sand by 50%, 80% and 100%GBFS. Concrete cube with 100% got 51.60Mpa at 28 days when, natural sand was replaced by 50% the compressive strength achieved at 49.5Mpa. At 80 % and 100% replacement levels, the compressive strength achieved at 44.6 and 39.8 The concrete made with PPC with 100% natural sand got the compressive strength of 49.0Mpa at 28 days and 46.7MPa, 39.5Mpa and 31.2 Mpa at replacement of natural river sand by GBFS by 50, 80 &100% respectively. The workability also noted for concrete made with OPC and PPC with 100%natural sand given at 130mm and 145mm respectively. The slump measured at replacement of natural sand by GBFS at 50, 80 and 100% were 110, 70, 45mm and 120, 75 and 55mm respectively. Based on the test results, we have observed that the GBFS percentage is increased towards 100% in concrete, there a decrease in compressive strength as well as workability in OPC and PPC concrete. VI. CONCLUSION It is recommended that 50% natural sand can be replaced by GBFS to get the optimum compressive strength and workability as compared with 100% natural river sand concrete made with OPC and PPC. REFERENCES [1] Alwaell A, Nadziakiewicz MJ. Recycling of scale and steel chips waste as a partial replacement of sand in concrete. Construct Build mate, 2012, 28(1), pp [2] Turgut p, Algin HM. Limestone dust and wood saw dust as brick material. Build Environ, 2007, 42(9), pp [3] Neville, MA. proprieties Des betons. Edition Eyrolles, Paris,1998, 35(12), pp [4] ZeghichiL. The effect of replacement of natural aggregates by slag products on the strength of the concrete. Asian J. Civ. Eng.2006, 7(1), [5] Sudavizhi M, llangovan S R. Performance of copper slag and ferrous slag as partial replacement of sand in concrete. Int J. civ. Struct. Eng, 2011, 1(4), pp [6] Alnuaimi AS. Effects of copper slag as a replacement for fine aggregate on the behaviour and ultimate strength of reinforced concrete slender columns, TJER 2012, 9(2),pp [7] IS: : Specification for coarse and fine aggregates from natural sources for concrete, Bureau of Indian standards, New Delhi, [8] IS: , Specification for Granulated Blast Furnace Slag for the manufacture of Portland Slag Cement. [9] ASTM-C 989: Standard Specification for Ground Granulated Blast Furnace Slag for use in concrete and mortars. [10] IS: Specification for artificial lightweight aggregates for concrete and Masonry units. [11] IS: (Part-1) : Methods of test for aggregates for concrete-particle size and shape IS: (Part- 3) : Methods of test for aggregates for concrete- Specific gravity, density, Voids, absorption and bulking. Malla Reddy Engineering College (Autonomous), Volume 3, Issue 2, June
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