A Comparative Study on the Strength Properties of Concrete Using Bottom Ash and Washed Bottom Ash as Partial Replacement of Fine Aggregate

The management of solid industrial waste is of big global concern nowadays. The majority of industries are not interested in the treatment and safe disposal of industrial waste due to its high cost involvements, causing environmental and other ecological impacts. The disposal of waste foundry sand is of prime importance due to the big volume produced from the metal casting industries all over the world as well as the waste bottom ash produced from the thermal power plant. The possibility of substituting natural fine aggregate with industrial by-products such as bottom ash and foundry sand offers technical, economic and environmental advantages which are of greater importance in the present context of sustainability in construction sector. Concrete is the most important engineering material and the addition of some other material may change the properties of concrete. Studies have been carried out to investigate the possibility of utilizing the board range of material as partial replacement material for cement and aggregate in the production of concrete. Natural fine aggregate are becoming scarcity because of its huge utility in various constitution process the possibility of substituting natural fine aggregate with industrial by product such as waste foundry sand and bottom ash in concrete. This study investigate the effect of waste of bottom ash and foundry sand is equal quantities as partial replacement of fine aggregate in 0%, 20%, 30%, 40% on concrete properties such as compression strength and split tensile strength. This study also aims to encourage industries to start commercial production of concrete products using waste bottom ash and foundry sand.

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Strength properties and micro-structural properties of concrete containing coal bottom ash as partial replacement of fine aggregate

Construction and Building Materials ◽

10.1016/j.conbuildmat.2013.09.026 ◽

2014 ◽

Vol 50 ◽

pp. 246-256 ◽

Cited By ~ 85

Author(s):

Malkit Singh ◽

Rafat Siddique

Keyword(s):

Structural Properties ◽

Bottom Ash ◽

Strength Properties ◽

Partial Replacement ◽

Fine Aggregate ◽

Coal Bottom Ash

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The Strength Behavior of Self-Compacting Concrete Incorporating Bottom Ash as Partial Replacement to Fine Aggregate

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.773-774.916 ◽

2015 ◽

Vol 773-774 ◽

pp. 916-922 ◽

Cited By ~ 1

Author(s):

Norul Ernida Zainal Abidin ◽

Mohd Haziman Wan Ibrahim ◽

Norwati Jamaluddin ◽

Kartini Kamaruddin ◽

Ahmad Farhan Hamzah

Keyword(s):

Bottom Ash ◽

Cementitious Materials ◽

Strength Properties ◽

Partial Replacement ◽

Fine Aggregate ◽

Replacement Level ◽

Self Compacting Concrete ◽

Split Tensile Strength ◽

Natural Sand ◽

Set Up

Self-compacting concrete which commonly abbrevited as SCC is a special concrete that have the ability to consilodate fully under its own self-weight without any internal or external vibration. This paper presents the experimental investigation carried out to study the strength of self-compacting concrete incorporating bottom ash at different replacement level of natural sand. The composite cement was used and the replacement level of bottom ash to natural sand is set up to 30% by volume. The strength properties such as compressive strength, split tensile strength and flexural strength of the concrete at the age of 7 and 28 days of curing day were conducted. Results shows that the strength of the concrete with bottom ash increased up to replacement level 15% higher than control specimens. This show that bottom ash can be used as supplimentary cementitious materials, having the pozzolanic reactivty.

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Strength and Corrosion Resistive Properties of Concrete Containing Quarry Dust as Fine Aggregate with GGBFS

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.243-249.5775 ◽

2011 ◽

Vol 243-249 ◽

pp. 5775-5778 ◽

Cited By ~ 2

Author(s):

M. Devi ◽

K. Kannan

Keyword(s):

Strength Properties ◽

Chloride Ions ◽

Partial Replacement ◽

Optimum Level ◽

Fine Aggregate ◽

Split Tensile Strength ◽

Natural Sand ◽

Weight Loss Method ◽

Loss Method ◽

Quarry Dust

Demand for natural sand in concrete is increasing day by day since the available sand cannot meet the rising demand of construction sector. This paper reports the experimental study undertaken to investigate the influence of partial replacement of cement with Ground Granulated Blast Furnace Slag(GGBFS) in concrete containing quarry dust as fine aggregate. The cement was replaced by 10%, 20%, 30%, 40% and 50% of GGBFS and tests were conducted to determine the optimum level of replacement of GGBFS in quarry dust concrete. The specimens were subjected to compressive strength, split tensile strength, flexural strength, and bond strength tests at 7days, 28days, 56days, 90days and 150 days. The resistance to corrosion is evaluated based on the performance of the concrete for the penetration of chloride ions by means of impressed voltage technique in saline medium and Gravimetric weight loss method. Results herein reveal that an increase in slag proportion increases the strength properties and decreases the rate and amount of corrosion of reinforcement and among the various percentages of replacement 40% is found to be optimum with better strength and corrosion resistance properties.

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Coal Bottom Ash as Partial Replacement of Fine Aggregate in Asphaltic Concrete

UNIOSUN Journal of Engineering and Environmental Sciences ◽

10.36108/ujees/0202.20.0130 ◽

2020 ◽

Vol 2 (1) ◽

Author(s):

H. Mohammed

Keyword(s):

Fixed Bed ◽

Bottom Ash ◽

Partial Replacement ◽

Fine Aggregate ◽

Asphaltic Concrete ◽

Air Voids ◽

Coal Bottom Ash ◽

Asphalt Mix ◽

Materials Used ◽

Marshall Stability

The effect of coal bottom ash (CBA) on the characteristics of asphaltic concrete was investigated with a view to assess its suitability as a partial replacement of fine aggregate. Coal procured from Lafia-Obi coal mines was burnt in a fixed bed combustor until a sand size residual was produced. The properties of the materials used for the study were characterize using standard procedures. The CBA was introduced in the asphalt mix at an increasing rate of 10, 15, 20 and 25% content by weight of the fine aggregate and test samples of asphaltic concrete were prepared. The samples were subjected to Marshall stability test. Results showed that the specific gravity and absorption test for granite dust were 2.45 and 0.25%, respectively, while those of the CBA were 2.86 and 0.58% respectively. The result of stability, flow, bulk density, voids filled in bitumen (VFB), air voids (VA) and voids in mineral aggregate (VMA) of the asphaltic concrete at 0% CBA were 12.02 kN, 3.04 mm, 2.491g/cm3, 66.0%, 4.3%, 12.7% respectively; while the values at 20% CBA content were 16.97 kN, 3.51mm, 2.514g/ cm3 , 71.2%, 3.4%, 11.9% respectively. The result showed that coal bottom ash in asphaltic mix improved its properties.

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Evaluating Optimum Strength of Geopolymer Concrete using Quarry Rock Dust with inclusion of natural and hybrid fibers under ambient curing

International Journal of Engineering and Advanced Technology - Regular Issue ◽

10.35940/ijeat.f1182.089620 ◽

2020 ◽

Vol 9 (6) ◽

pp. 1-5

Keyword(s):

Construction Industry ◽

Glass Fibers ◽

Strength Properties ◽

Waste Materials ◽

Partial Replacement ◽

Fine Aggregate ◽

Geopolymer Concrete ◽

Hybrid Fibers ◽

River Sand ◽

Rock Dust

Conventionally used cement –a primary binder also a necessitate element in producing concrete rates first in the construction industry. Production of conventional cement requires a greater skill and is energy intensive. The usage of waste materials in the production of concrete and reduction in cement content was only the possible alternative in the past decade. Associated risks with the production of Ordinary Portland Cement are well known. A greener aided with a natural friendly claim can be made only with the usage of the waste materials and reduction in evolving respiration gas to the atmosphere. Almost all works are carried out using source material fly ash, with fine aggregate and coarse aggregate. Concrete plays a vital role in the construction industry and on the other hand, river sand; one of the essential material has become very expensive which is a scarce material. Depletion of sand is a hectic issue due to increased usage of sand in construction. No other replacement materials such as quarry rock dust is not concentrated in casting geopolymer specimens. Even though in some research papers the replacement materials are added only in partial replacement without aiming on 100% replacement. Many researches mainly focus towards test results of GPC specimens using steel fibers, glass fibers. But the study related to natural fibers and hybrid fibers are found scarce. The main part of this work aimed at characterizing the engineering strength properties of geopolymer concrete by 100% replacement of fine aggregate with quarry rock dust. Hence, combination of flyash and quarry rock dust in GPC have been considered for evaluating the mechanical properties of geopolymer concrete. Also, investigation focuses on incorporation of three different fibers namely polypropylene fibers(PF), coir fibers(CF) and hybrid fibers(HF) in different percentage of proportions such as 0.5%,1%,and 1.5% to determine the maximum strength properties of GPC.

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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 ◽

10.11648/j.ajmsp.20200501.12 ◽

2020 ◽

Vol 5 (1) ◽

pp. 10

Author(s):

Gazi Mohammad Harun-Or-Rashid ◽

Abdullah Al Mamun ◽

Isfaq Eashir Epu

Keyword(s):

Comparative Study ◽

Ceramic Tile ◽

Partial Replacement ◽

Fine Aggregate ◽

Foundry Sand

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A Study on Fresh and Hardened Properties of Concrete with Partial Replacement of Bottom Ash as a Fine Aggregate

Recent Advancements in Geotechnical Engineering ◽

10.21741/9781644901618-4 ◽

2021 ◽

Keyword(s):

Industrial Waste ◽

Raw Materials ◽

Bottom Ash ◽

Industrial Wastes ◽

Partial Replacement ◽

Fine Aggregate ◽

Research Papers ◽

Fine Aggregates ◽

Concrete Production ◽

Hardened Properties

Abstract. To overcome the shortage of natural resources for the production of concrete, many waste materials are used to replace the raw materials of concrete. In this way, bottom ash is one of the major industrial wastes which shall be used as the replacement of materials in concrete production. It shall be used to replace the materials either up to one-third. This review brings out the evaluation of the industrial waste material which can be repeatedly used as a substitution for concrete as fine aggregate. This paper reviewed the use of industrial waste i.e., bottom ash as fine aggregate in the concrete. The parameters discussed were physical, chemical, fresh, and hardened properties of the concrete with partial replacement of bottom ash. By reviewing some of the research papers, concluded that 10-15% replacement of fine aggregates is acceptable for all the properties of concrete. High utilization of natural sources -gives the pathway to produce more industrial wastes which are responsible for the development of new sustainable development.

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Hardened Behavior of Fly Ash Incorporated Concrete with Bottom Ash (FACB) as Partial Replacement of Fine Aggregate

International Journal of Innovative Technology and Exploring Engineering - Special Issue ◽

10.35940/ijitee.d1909.029420 ◽

2020 ◽

Vol 9 (4) ◽

pp. 2898-2907 ◽

Cited By ~ 2

Keyword(s):

Fly Ash ◽

Thermal Power ◽

Bottom Ash ◽

Partial Replacement ◽

Fine Aggregate ◽

Experimental Scheme ◽

Fly Ash Concrete ◽

Wide Range ◽

Binder Ratio ◽

User Friendly

The utilization of thermal power plant waste ashes (fly ash and bottom ash) in concrete as partial replacement of cement and sand could be an important step toward development of sustainable, user-friendly and economical infrastructure. For this purpose, different concrete mixes were considered at constant binder content of 300kg/m3 and differ water-to-binder ratio (w / (c + f) mainly as 0.5 , 0.55 and 0.6. Also six wide range of fly ash replacement levels (f/c ratio) namely 0, 0.11, 0.25, 0.43, 0.67 and 1.0 were introduced in the experimental scheme. The 3-days to 180 days compressive strengths of FACB was measured at interval of 3, 7, 28, 56 and 90 days. This study also presents a relationship between the ratios of split tensile (ft) strength to compressive strength (fc). It is applicable to lean concrete having consideration of curing period at early age (3day) to long term (180days). The results of this investigation are principally important, because the comprehensive information on the dependability of the relationships has not been available for (w/c+f) and bottom ash combination. The investigational results of this work are indicated that waste-Bottom ash with the regular sizes can be used successfully as a fine aggregate in fly ash concrete (FAC). The Study also reflected in finding constant “k” by ACI code equation for fly ash and bottom ash mix concrete. It has obtained between 0.337 - 0.504. This could be useful in finding splitting tensile strength when concrete carrying fly ash and bottom ash.

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