An Examination the Use of Sugarcane Bagasse Ash as Cement Partial Substitutes in Concrete (original) (raw)
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AN EXPERIMENTAL STUDY ON MECHANICAL PROPERTIES OF CONCRETE BY USING SUGARCANE BAGASSE ASH
Increasing demand and consumption of cement investigators, researchers and scientist made in examination of alternate binders that are biodegradable and contribute towards waste management. The construction industry is the foremost consumer of natural resources which led to exhaustion of good quality natural sand (fine aggregate). This situation constrains us to explore alternative materials for cement and fine aggregate. Sugarcane bagasse ash is a left-over industrial byproduct which is used as a replacement of both natural sand and cement. The use of industrial and unindustrialized(agricultural) waste produced by industrial processes has been the attention on waste reduction. Juice is dig out(extracted) from sugar cane then ash is produced by burning. This research scrutinizes the possibility of using sugarcane bagasse ash as partial replacement of specific ingredients in concrete. In this paper SCBA has been chemically and substantially categorized and partially replaced fine aggregate in the ratio of 0%, 10%, 20%, 30% and 40% and 10% by the weight of cement in concrete. The mix proportion for M25 grade concrete was derived. Our study gave an effective result for the replacement. We could get a satisfactory concrete with SCBA content of 10% and 30% replacement for cement and fine aggregate respectively.
This paper presents the use of sugarcane bagasse ash (SCBA) as a pozzolanic material for producing high-strength concrete. The utilization of industrial and agricultural waste produced by industrial processes has been the focus on waste reduction. Ordinary Portland cement (OPC) is partially replaced with finely sugarcane bagasse ash. In this research physical characteristics, chemical combination (XRF test), TG-DTA were investigated and compared with cement.The concrete mixtures, in part, are replaced with 0%, 10%,15%, 20%,25% and 30% of BA respectively. In addition, the compressive strength, the flexural strength, the split tensile tests were determined. The bagasse ash was sieved through No. 600 sieve. The mix design used for making the concrete specimens was based on previous research work from literature. The water –cement ratios varied from 0.44 to 0.63. The tests were performed at 7, 28,56 and 90 days of age in order to evaluate the effects of the addition SCBA on the concrete. The test result indicate that the strength of concrete increase up to 15% SCBA replacement with cement.
IJCSNS International Journal of Computer Science and Network Security, 2022
The increase in demand and consumption of cement, scientists and researchers are searching to develop alternative binding materials that are not only ecofriendly, but equally contribute to manage the waste. The use of industrial byproduct and agricultural waste obtained through industrial procedures has focused on managing the waste and their reduction. Sugarcane bagasse ash (SCBA) being one of the agricultural waste is a fibrous waste product produced by sugar mills. During the process at Sugar mills, the Fluid from sugarcane is extracted and ash is produced by burning bagasse at high temperatures. In this research study, (SCBA) has been replaced partially in ratios of 0%, 5%, 10%, and 15% by weight of total cement in concrete mixture. Fresh and hardened concrete properties were obtained through tests which include workability test, compressive strength and tensile strength. The test result revealed that the compressive and tensile strengths of concrete increased till 5% SCBA replacement in concrete.
Effect of use of Sugarcane Bagasse Ash by partial replacement of Cement in Concrete
2019
The composition of concrete is cement, aggregate and water. With time and use of technology, the scientists discovered the benefits that came with use of admixtures in the concrete production. This project focuses on how Sugar Cane Bagasse Ash (SCBA) can be used to replace cement partially in order to improve the performance of concrete. Recycling of waste construction materials saves natural resources, saves energy, reduces solid waste, reduces air and water pollutants and reduces greenhouse gases. In addition to this, the effective use of recycled waste will act as a substitute for the materials that are conventionally purchased new and by adopting a policy such as this will be able to reduce the cost materials, save energy and help conserve resources. This will also lead to the possibility of reducing costs for companies, even though they will have to pay for the recycled materials. The Silica present in the Bagasse ash reacts with components of cement during hydration and impart...
International Journal of Engineering Research and Technology (IJERT), 2015
https://www.ijert.org/an-experimental-study-on-strength-properties-of-concrete-by-partially-replacing-cement-with-sugarcane-baggase-ash https://www.ijert.org/research/an-experimental-study-on-strength-properties-of-concrete-by-partially-replacing-cement-with-sugarcane-baggase-ash-IJERTV4IS020208.pdf With increasing demand and consumption of cement, researchers and scientist are in search of developing alternate binders that are eco-friendly and contribute towards waste management. The utilization of industrial and agricultural waste produced by industrial processes has been the focus on waste reduction. One of the agro waste sugar cane bagasse ash (SCBA) which is a fibrous waste product obtained from sugar mills as byproduct. Juice is extracted from sugar cane then ash produced by burning bagasse in uncontrolled condition and at very high temperature. In this paper SCBA has been chemically and physically characterized and partially replaced in the ratio of 0%, 10%, 15%, and 20% by weight of cement in concrete. The properties for fresh concrete are tested like slump cone test and for hardened concrete compressive strength at the age of 7,28,56 and 90 days. The test result indicate that the strength of concrete increase up to 15% SCBA replacement with cement.
EFFECT OF SUGARCANE BAGASSE ASH ON STRENGTH PROPERTIES OF CONCRETE
The present study focuses on the utilization of Sugarcane Bagasse Ash as replacement material for cement in concrete production. Sugarcane Bagasse ash contains high amorphous silica content and aluminium ion. For experimental investigations, Sugarcane bagasse ash and its chemical properties are obtained from KCP sugar factory, Andhra Pradesh. Ordinary Portland cement was partly replaced by sugarcane bagasse ash in the ratio of 0%, 5%, 10%, 15%, 20% and 25% by weight and the influence of Sugarcane bagasse ash as a partial replacement material has been examined on fresh concrete tests by Compaction factor test and Slump cone test as well as on hardened concrete with tests for Compressive strength, Split tensile strength, Flexural strength and Modulus of Elasticity. The results indicate that inclusion of Sugarcane Bagasse Ash in concrete up to 20% level significantly enhanced the strength of concrete. The highest strength was obtained at 10% Sugarcane bagasse ash replacement level.
A review on strength characteristics of concrete incorporating sugarcane bagasse ash
Sustainability, Agri, Food and Environmental Research, 2021
Sugarcane bagasse ash is an offshoot of sugar factories found after burning of sugarcane bagasse which itself is found after the extraction of sugar from sugarcane. The disposal of this material causes environmental problems surrounding sugar factories. Sugarcane bagasse ash is rich in silica that can play the role of an effective pozzolana which leads to improve pozzolanic reactions resulting in better performing building materials. Light weight concrete can be prepared from low density bagasse ash. Surface reactions are improved due to its high specific surface area. Some percentage of cement is replaced with bagasse ash to determine the fresh and hardened properties of the concrete mix. Compressive strength of the concrete can be improved tremendously on later stages of addition of bagasse ash. Incorporating sugarcane bagasse ash in concrete can further alter the other various performance of concrete. Keywords—sugarcane bagasse ash, pozzolana, fresh and hardened properties.
Suitability of Sugar Cane Bagasse Ash as a Replacement for Cement in Concrete
International Journal of Advances in Scientific Research and Engineering (ijasre), 2019
This study is aimed at investigating the compressive strength of concrete using Sugarcane Bagasse Ash (SCBA) as a replacement for cement in concrete using two grades of concrete; grade 20, and 30 respectively. Sugarcane bagasse ash is the waste product of the combustion of bagasse for energy in sugar factories and is also by-products of agricultural waste, sugar cane bagasse ash are disposed of in the landfill and are now becoming an environmental concern. The concrete cube cast was; control (0%) 2%, 4%, 6% and 8% respectively, the cube was cast, cured and tested at 7days, 14days, and 28days. Although the results of this study have shown a significant reduction in compressive strength of concrete utilizing SCBA than normal concrete, it can be concluded that optimum amount of sugarcane bagasse ash that can be replaced with cement is 6% by weight without any admixtures.
SUGARCANE BAGASSE ASH CONCRETE
This paper presents an extensive experimental study to investigate the possibility of using sugarcane bagasse ash (SCBA) as a partial replacement of cement in concretes. For this purpose, specimens containing 5, 10, and 15% SCBA in addition to a control specimen were prepared. To evaluate the mechanical properties of concrete specimens, compressive strength, tensile strength, impact resistance, workability and water absorption tests were performed. In addition to this, Resistance towards salts was tested by Chloride Penetration Test and Permeability Test was also conducted to check the suitability of SCBA for Road Construction. The results indicated that improvements in strength and impact resistance in concrete are observed as compared with the control sample when cement was replaced with bagasse ash at 5%. The 5% replacement also showed good results for impact strength and tensile strength, and had less Chloride Penetration as compared to the higher replacement. The Microstructure analysis of Normal Concrete and SCBA Concrete has also been analyzed using SEM (Scanning Electron Microscope) and XRD(X-ray Diffractometer).