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Mobile crushers can also be called mobile crushing plants, mobile crushers, etc. It is an inevitable product of high-tech crushing technology in the new era, and its main features are that it can be operated mobilely, can walk freely, and is more convenient for transitions, ensuring that the equipment While the production is safe, the work process is more reliable.
·Concrete is one of the most versatile and globally used construction materials It is strong and durable easier to maintain resistant to fire simple to use and can be fitted to any size or shape [1] So for having all these notable characteristics along with an economic price value the use of concrete is increasing gradually [2] However it has been estimated that the
·This is a logical approach as it uses carbon capture and utilization as a way to help close resource loops Nonetheless there is arguably also value in exploring the use of concrete waste for carbon sequestration as a primary function beyond those processes which can also supply a saleable product
Article history Received 30 December 2020 Accepted 2 March 2021 Published Online 30 March 2021 In this digital era usage of electric and electronic devices has become the need of people Evolution of technology triggers the adoption of new devices over old and discarded appliances turned into the electronic wastes also termed as e waste/s E waste from any source has
·Every year the use of electronic plastic results in the generation of a significant quantity of garbage in India recycling it into concrete may assist to reduce the amount of waste that must be
·Therefore using these wastes in concrete production could be an effective measure in maintaining the environment and improving the properties of concrete Hence the crushed waste ceramic tiles
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 accumulation of electronic waste E waste has become a significant global environmental issue driven by the characteristics of the modern era and the ever increasing use of electronic devices Thus a sustainable approach is necessary to overcome this issue In this paper an overview of utilizing E waste as a sustainable aggregate in concrete production was
For solving the disposal of large amount of E waste material partial use of E waste in concrete industry is considered as the most feasible application The e waste like non metallic parts of PCB plates can be recovered and can be used as an ingredient in concrete So we can use this e waste to achieve desire concrete in terms of their
·Use of 5% e waste in polymer concrete did not had negative effect in concrete Martínez et al 2019 [13] Gamma irradiated poly carbonate particles 3% 6% and 15% as aggre gates
·Study on E Waste Concrete and Comparing with Conventional Concrete concluded that E Waste gives better compressive strength at 15% of replacement to coarse aggregate Ankur Gupta et al in the paper A Review Paper on Use of E Waste in Concrete concluded that E waste is potentially a better material for concrete addition
·Therefore it is recommended that for use as an aggregate in concrete the e plastic waste ought to have a high specific gravity low water absorption levels and favorable and comparable abrasion
·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 Objectives of the Study To procure and process e waste
This paper presents a summary on probable use of E waste in concrete on the basis of different researchers and it marches strong possibility of E waste being used as additional of aggregate as well as environmental impact The use of natural aggregates in concrete will be decreased if different types of by product is used in concrete as a
·To use e waste plastics as a partial replacement of the coarse or fine aggregates replacing conventional coarse aggregate ranging from 0 to % with e waste plastic for M 20 grade concrete [1
·Concrete production is characterized by a significant demand for energy and raw materials The construction maintenance and demolition of engineering works cause excessive polluting waste that
Disposal of E waste is a typical task faced in many regions across the globe Computer wastes that are land filled produces contaminated leachates which eventually pollute the groundwater Acids and sludge obtained from melting computer chips if disposed on the ground causes acidification of soil Utilization of Ewaste is a partial solution to environmental and ecological
·Experimental focus on the Possibility of replacing E Waste with aggregate for a new mixture of concrete E waste is partially replaced with 5% 110% 15% & and 20% and tested to evaluate strength in compression for 7 days 14 days and 28 days The bending strength results were compared with those of conventional concrete shown higher values
·One of the effective method to remove E waste is to use it for construction purposes Aggregates in concrete are partially replaced by E waste treated or crushed in certain percentages in M25 concrete and their properties are tested By using E waste in concrete we are not only reducing the waste
·The present study aims to study the behavior of concrete blocks of f´ c = 210 kg/cm ² adding polyester textile waste with 3 % 6 % 9 % 12 % and 15 %; void content compressive strength and
·The accumulation of electronic waste E waste has become a significant global environmental issue driven by the characteristics of the modern era and the ever increasing use of electronic devices
·Electronic waste is also a source of valuable metals But the high generation of e waste becomes more challenging due to the toxic components availability The available treatments are not enough to overcome the e waste generation with its detrimental impacts on human health and environment The e waste management is continually developing many
·Currently recycling of waste materials in construction is being considered very important because waste generation is posing serious threats to our living environment Hence to induce sustainability in the ongoing urban development researchers around the globe are using numerous wastes in concrete as partial substitutes of binders cement lime etc and fillers
Effect of E waste on the properties of concrete such as compressive strength split tensile strength and durability are presented Recently the electronics industry had made advancement with leaps and bounds in the production of products The amazing developments have certainly enriched the quality of our growth of technology up gradation of technical
·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 % with e waste plastic for M 20 grade concrete using manufacturing sand It has been found that the compressive strength
·Waste ceramic is produced from different sources and if not reused is often disposed of in landfills contributing to the pressure on landfill capacity and potentially releasing toxins into the surrounding environment as ceramics break down over time The waste can easily be crushed to the required sizes which has interested many researchers It has been used as
·For solving the disposal of large amount of E waste material partial use of E waste in concrete industry is considered as the most feasible application The e waste like non metallic parts of PCB plates can be recovered and can be used as an ingredient in concrete So we can use this e waste to achieve desire concrete in terms of their properties
·The significance of this research is to resourcefully use E waste in concrete by achieving optimum performance by testing physical workability & mechanical properties The E waste generated at Pillai HOC College of Engineering and Technology PHCET Rasayani was used as partial replacement of coarse aggregate CA in combination with fly ash
