Scrap Tiles As Replacement As Aggregate - telstatusnl Know More. Mechanical properties of concrete utilising waste ceramic In the floor and wall tile series, it is shown that the aggregate replacement proportion had little effect on the compressive strength of the specimens, with a maximum strength decrease of 43% and 56% in the floor and wall ...
tiles - waste from clay brick and tile industry, in plain cement concrete as an alternative to sand/natural aggregate, subject to fulfilling the requirements of the Code. Various experimental studies regarding tile aggregates can be helpful for this initiative of BIS to promote the
Replacement of stone Dust and Ceramic scrap as Aggregate in Concrete. Kiran Niveditha. Dept. of Civil Engineering, CIT, Gubbi, Tumkur, India. Natural coarse aggregate in concrete can be replace with ceramic waste aggregate as its properties are well within the range of specifications.
Mar 31, 2018 The crushed waste ceramic tiles were substituted in place of fine aggregates in the following percentages (0%, 20%, 25%, 30% 35% and 40%) in the concrete mix. The water /cement ratio used was 0.6. The compressive strength of the concrete cast with the above partial replacement of fine aggregate were determined after, 7 and 28 days age of curing.
Apr 24, 2018 Aggregates consist of 70% to 75% of volume of concrete. So reduce the consumption of natural aggregates, waste ceramic tile or broken tiles as coarse aggregates can be a new scientific sobriety in the field of sustainable concrete. A huge amount of tiles get broken. in the tile industries and construction projects.
Nov 01, 2021 Moreover, Tavakoli et al. investigated the utilization of ceramic tile waste as natural aggregate replacement and observed that the unit weight of hardened concrete varied in the range of 24412294 kg/m 3 and 2441-2385 kg/m 3 with fine tile aggregate content of 0100% and coarse tile aggregate content of 1040%, respectively. They ...
Mar 31, 2018 In the study waste crushed tiles were used to partially replace the fine and coarse aggregate (10% and 20%). They observed that the optimum percentage of coarse aggregate that can be replaced by crushed tiles is 10%. 2 also studied the reuse of ceramic tiles waste (CWT) as aggregate in concrete.
material to use them as partial replacement to the natural course aggregate. Separated the tile waste which is 20mm. Crushed tiles were partially replaced in place of coarse aggregate by the percentages of 5%, 10%, 15% and 20%. This tiles were collected form dundigal construction sight. Nominal size I20mm Specific gravity I2.7
Experimental study of partial replacement of coarse aggregate with co co nut shell and lathe scrap in concrete M.Deepak 1, A.Edmond Sekar 2, R.Suryanarayanan 3, 1 Assistant Professor, 2,3,4 UG Students, Department of Civil Engineering, Karpagam
It was found that, the concrete made of waste ceramic tile aggregate produced more strength in compression, split tensile and flexure than ceramic insulator scrap and broken glass material.
Sep 16, 2019 The quantity of ceramic waste tile in Nigeria has been on the increase without consideration for potential reused or recycling. This increases the
The outcome of this project shall be useful for various industries and workshop generating steel scrap from lathe machine Index ... balustrades, plain cement tiles, mosaic tiles, pavement blocks, lamp-posts, drain covers, benches pavements and other infrastruc- ... Experimental study on concrete in partial replacement of fine aggregate with ...
Hence, the crushed waste ceramic tiles were used in concrete as a replacement for natural coarse aggregates with 10%, 20%, 30%, 40% and 50% of substitution. After analyzing results, the optimum ...
May 01, 2020 The present study investigates the use of PET as a replacement for sand in concrete. In this study, a concrete mix with a 28-day compressive strength of 35 MPa was prepared, and then natural sand was replaced by 10%50% of crushed recycled plastic to determine the impact of substitution levels on concrete properties.
Partial Replacement of Coarse aggregate in Concrete by Waste Rubber Tire A.Chandran Department of Civil Engineering, SA Engineering College, Chennai, Tamil Nadu, India ... management strategy for scrap tires is the ... roofing tiles etc. Significant problem of rubber
Scrap-tyre rubber replacement for aggregate and filler in concrete Eshmaiel Ganjian a,*, Morteza Khorami b and Ali Akbar Maghsoudi c a Coventry University, Faculty of Engineering and Computing, Department of Built Environment, Coventry CV1 5FB, UK b . Building and Housing Research Centre/Eslamshahr Islamic Azad University, Tehran, P.O. Box 13145-
T1 - Scrap-tyre-rubber replacement for aggregate and filler in concrete. AU - Ganjian, E. AU - Khorami, M. AU - Maghsoudi, A.A. PY - 2009/5. Y1 - 2009/5. N2 - In this research the performance of concrete mixtures incorporating 5%, 7.5% and 10% of discarded tyre rubber as aggregate and cement replacements was investigated.
The results indicated effectiveness of tiles as coarse aggregate by partial replacement of conventional concrete by 20 %, 30%, 50%and cement as rice husk ash with 10%,15% and 20% without affecting the design strength. Also Combined RHA Tiles replacement is in above percentage mixing.
Nov 15, 2016 Crushed tiles were partially replaced in place of coarse aggregate by the percentages of 10%, 20% and 30%, 40% and 50% individually and along with replacement of fine aggregate with granite powder also. 2.1.6 CERAMIC TILE-FINE AGGREGATE The tile aggregate after crushing results in some material which is finer in size. This material is also ...
J.Swathi et al. (2015) partially replaced fine aggregate with copper slag as 20%, 40% and 60% and coarse aggregate with waste ceramic tiles as 10%, 20% and 30%.M40 grade of concrete was used. Compressive strength increased by 7.59N/mm 2 at a combination of 40% copper slag with 10% waste ceramic tiles and also Flexure increased by 4.07%.
aggregate are popular in developed countries like USA, UK, Japan, Germany and Denmark etc., but in India, it is yet to find wide use due to its limited availability, practical difficulties in breaking the concrete. Reddy (2010) investigated on stone dust and ceramic scrap
rubber tire as replacement to natural aggregate has advantage of saving in natural constituent which is used in the production e. In this experimental study M20 grade concrete is used as reference point. In this study the effect of using scrap t of coarse aggregate (4%,8% and 12% replacement)on various properties of concrete like
Apr 10, 2018 When used as partial replacement of cement, sand, and aggregate in concrete, the effect of tyre and tile waste on workability, durability, and compressive strength of the concrete has also been presented. Recycled tiles and tyres have been used with or without any other admixtures to sustainably improve the strength and bearing capacity of soil.
utilized only as substitution of aggregatessmall scale. Umapathy et. al.4used rise husk ash and waste tiles in various percentages. A total number of 81 cubes, and were cast and tested 7,17,28 days. They found that tile powder up to 30% and further replacement of cement with tile powder decreases the strength gradually Singh et.
the copper slag as fine aggregate replacement in range of 20%, 30%, 40% by weight of sand and the waste ceramic tiles as coarse aggregate replacement in range 10%, 20%, 30% by weight of aggregate. In this concrete, strength and durability properties such as Compressive Strength, Split Tensile Strength and Flexural Strength had been evaluated ...
waste aggregate decreases with increase of ceramic waste aggregate, compr essive strength slightly drops with 100% substitutio n 8. Strength of concrete increases due to replacing fine aggregate with s tone dust and declined with the replacing of coarse aggregate with ceramic scrap 9.
International Journal of Engineering and Techniques - Volume 3 Issue 5, Sep - Oct 2017 RESEARCH ARTICLE OPEN ACCESS Partial Replacement of Coarse aggregate in Concrete by Waste Rubber Tire A.Chandran Department of Civil Engineering, SA Engineering College, Chennai, Tamil Nadu, India Abstract Throughout the world, the disposal of used tires is a major environmental problem causing
In the mix proportion for concrete using waste aggregates, the conventional stone aggregate was completely replaced by ceramic insulator scrap, broken tiles and broken glass. Fig. 1a Broken Tile aggregate Fig. 1b Broken glass pieces 2.4 Casting and Testing of specimen
Jan 25, 2021 Workability and absorption properties of the broken tiles concrete also exhibited the same trend with that of compressive strength. The study concluded that BTC at 28 days possesses strikingly similar characteristics with normal concrete up to 20% replacement. Keywords Broken Ceramic Tiles, Workability, Compressive Strength, Water Absorption. 1.
A. M. Sekar (2017) 1 has examined that partial replacement of coarse aggregate by waste ceramic tile in concrete. In this investigation, an endeavor has been made to discover the appropriateness of ceramic coarse aggregate as a conceivable
May 15, 2013 Use of Waste Materials As a replacement of Coarse Aggregate in Concrete Mix ... According to them, scrap tyre aggregates ranging from 20-1 mm were obtained. The material was sieved and split into two groups of tyre aggregate coarse rubber aggregate (19-10mm) and fine rubber aggregate material (10-4.75 mm). ... (2012) According to them, six ...
replacement of sand or partial replacement of coarse aggregate but in this research both the components has been used parallel at equal percentage. Ceramic Waste . The amount of ceramic tile waste on earth is enough for use as a coarse and fine aggregate in concrete. Ceramic tile is produced from natural materials sintered at high
size to separate fine and coarse material. Aggregate of size more than 4.75 mm and less than 10 mm was used as coarse aggregate and less than 4.75 mm was used as a replacement to fine aggregate in the mix. Properties of aggregates are given in Table 1. The waste was then transported to brick manufacturing plant site.
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. Every one of these materials are clarified underneath. Cement Ordinary Portland cement from Penna
Ceramic waste Broken tiles were collected from the solid waste of ceramic manufacturing unit and from demolished building. The waste tiles were crushed into small pieces by manually as shows in Figure-1 into required sizes. After braking tile into smaller pieces sieve analysis is carried. The tile pieces which passing through 4.75 mm sieve and