use the waste products like e-waste and flyash which harm the environment and difficult to decompose and reuse. In this research i am going to use e-waste as coarse aggregates in replacement with different percentage and fly ash as a complete filler. Keywords: E-waste, Flyash, Bituminous concrete. 1. INTRODUCTION
proportions were arrived and E-waste was added to the concrete mix with a w/c ratio 0.5. the percentage of E-waste added by weight was 0, 5,10,15 and 20. Control mix concrete and modified concrete with varying percentage of E-waste and the percentage for various replacement levels are presented in Table 2. TABLE 2.DETALS OF CONCRETE MIX
The power improvement sample of E-waste concrete is similar to that of conventional concrete however there is a decrease in strength at all the …
"The "e-waste concrete" innovation is the beacon of hope to this waste problem, reusing tons of used electrical circuits from and industrial sectors. The concrete will reduce environmental impact by replacing the cement made by blasting limestone mountain," Assoc.Prof.Dr. Burachat Chatveera emphasized.
N "Recycle of E-Waste in Concrete" International Journal of Science and Research. 7. Senophiyah Mary J. "Inventorisation of E-Waste and Developing a Policy – Bulk Consumer Perspective" International Conference on Solid Waste Management. 8. Sunil Ahirwar …
Properties of aggregates play a major role in defining the properties of concrete produced from it. This paper reports an experimental work carried out to study the effectiveness of e-waste to be used as partial replacement of Coarse aggregates. E-waste is the discarded electrical or electronic devices.
Recycled polycarbonate from electronic waste and its use in concrete: Effect of irradiation. Construction and Building Materials 2019;201:778-785. [15] Needhidasan S, Vigneshwar CR, Ramesh B. Amalgamation of E-waste plastics in concrete with super plasticizer for better strength.
different proportions of e -waste to make this type of concrete better and economical than the conventional concrete. For this purpose, research was taken-up to develop e-waste (EC) concrete using e-waste and M-sand as fine aggregates at different proportions. 1.4 Objectives of the Study To procure and process e-waste.
Efforts have been made in the concrete industry to use e-waste plastics as a partial replacement of the coarse or fine aggregates. The present study is focused on replacing conventional coarse aggregate ranging from 0 to 12.5% with e-waste plastic for M 20 grade concrete using manufacturing sand.
Concrete is the most widely used construction material all over the world in view of its compressive strength, high mouldabilty, structural stability and economic considerations. It reduces the demand of new resources and cuts down the cost and effort of transport and production. Recycling is defined as the process of collecting and preparing recyclable materials and reusing them in their ...
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project is made on the use of E-waste particles as fine aggregates in concrete with a percentage substitute ranging from 0 % to 20% i.e. (5%, 10%, 15% and 20%). Compressive strength Concrete with and without E- waste material as a fine aggregate was observed. The feasibility of utilizing E-waste
7. Electronic plastic can be effectively used in concrete. 5. Future scope 1. E-waste granules can be used partial replacement to coarse aggregates 2. With variation in small percentage range of e-waste plastic granules, It is effect on concrete strength can be studied. 3. Effect on flexural strength and durability of concrete can be studied. 4.
The yield of concrete reduces when E-Waste is used as a replacement material for sand. It is coherent that E-waste can be biased by using them as constructional material. The compressive strength and split tensile strength of concrete pertaining to E-Waste aggregate is slightly lesser in comparison with control mix concrete sample.
Keywords: Concrete, E-Waste, Workability, Partial Replacement, Properties _____ I. INTRODUCTION Concrete is the most commonly used construction material and nearly every type of infrastructure as well as houses and buildings. Concrete is well known heterogeneous mix of cement, water and aggregates. The admixtures are added in concrete to
of the new waste materials used in the concrete industry is E-waste. For solving the disposal of large amount of E-waste material, reuse of E-waste in concrete industry is considered as the most feasible application. E-waste is one of the fastest growing waste streams in the world. In developed countries, previously it was about 1%
In this study expose the recycling E wastes are used in concrete by the way of partial replacement of coarse aggregate at certain percentages. The wastes are added in the percentages of 5%, 10% ...
The amount of fly ash content added to the E-waste concrete resulted in an increase of the workability of the concrete & was performing better than the latter one. Admixture with 20% fly ash as partially replacing the cement, flexural strength is increased around. 2.8 Pa …
Electronic waste or e-waste defines rejected electrical or electronic devices. Secondhand electronics which are destined for recover, resale, salvage, recycling, or disposal are also considered e-waste. Electronic waste is an emerging concern posing serious contamination problems to the human and the environment. E-waste disposal is a typical task for whole over the world. …
E-waste plastic is a new category of waste plastic that needs more attention. In recent years, researchers have been investigating the feasibility of recycling e-waste plastic in concrete. Ashwini Manjunath (2016) replaced a natural aggregate of concrete with 10%, 20%, and 30% of e-waste plastic aggregate.
The wastes may be used either as fine filler or aggregates in concrete and bituminous based constructions efficiently. Usage of waste/s conserves the natural resources also. Present study magnifies the scenario of application of electronic wastes in different forms i.e., plastic, metal etc. in bituminous and concrete based mixtures.
In the present study the influence of E-waste as a partial replacement of coarse aggregate in concrete mixture is investigated. The mix design of M20 grade of concrete for normal mix (without E-waste) and with a partial replacement of coarse aggregates with E-waste material with 5%, 10%, 15%, 20%, 25% and 30% is carried out.
Recycling of Demolished Concrete and E-waste. Abstract: Concrete is the most widely used construction material all over the world in view of its compressive strength, high mouldabilty, structural stability and economic considerations. It reduces the demand of new resources andcuts down the cost and effort of transport and production.
An experimental study is made on the utilization of E-waste particles as fine and coarse aggregates in concrete with a percentage replacement ranging from 0%, 20% to 30% i.e. (0%, 10%, 20% and 30%) on the strength criteria of M20 Concrete. Compressive strength, Tensile strength and Flexural strength Concrete with and without E- waste plastic as ...
E-waste is used as one such alternative for aggregate in concrete. This paper presents a summary on probable use of E-waste in concrete on the basis of different researchers and it marches strong ...
The search feature below enables you to find organizations that recover unwanted electronics. The organizations listed in this directory are participants in the Covered Electronic Waste Recycling Program established by California's Electronic Waste Recycling Act of 2003. You should contact any of the listed organizations to determine the details of their services, hours, and any potential ...
from concrete in percentage and add e-waste percentage of sand like 5% 10% and 15%. The present our project aspires that the major work has been replacing of E–waste in the production of low cost concrete in civil engineering society. Keywords — waste problem, replacement with sand, make concrete, test on e-waste material concrete
concrete with the addition of Electronic waste in concrete. It is found that the use of Electronic waste aggregates results in the formation of light weight concrete. In this research article Coarse aggregate is partially replaced by E- waste from 0% to 30% Then in these mix 10%, 20% and 30% of fly ash is also added by partial replacement of ...