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Journal articles on the topic 'Aluminum cans Scrap'

Author: Grafiati
Published: 4 June 2025
Last updated: 1 August 2025

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1

Coelho, Rodrigo Estevam, Paulo Jesus Costa Esteves, and Jorge Ferreira Brito. "Processing Aluminum Scrap Vial Mechanical Alloying and Subsequently Hot Extrusion." Materials Science Forum 591-593 (August 2008): 212–17. http://dx.doi.org/10.4028/www.scientific.net/msf.591-593.212.

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Recycle aluminum cans, an alternative route is presented in this work. The aluminum cans are cut in little flakes with a shears, and then the materials were milled, obtained fine powders. The weight ratio of the balls to powder was 10 to 1. Equipment of a horizontal high energy ball mill was utilized. The powder mixture was processed during 0.5, 1 and 2 hours at 950 rpm and after milling, the powders were directly hot extrusion. The extruder bars were submitted at a tensile tests and samples microstructures were analyzed by optical microscope. Experimental results obtained shows that the techn
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2

Ahmad, Farhan, Akhyar, and Ali Masri. "Experiment on Hardness and Impact Strength of Recycled Aluminum Alloys by Metal Casting Process." Materials Science Forum 961 (July 2019): 65–72. http://dx.doi.org/10.4028/www.scientific.net/msf.961.65.

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In this present work, the effects of recycled aluminum scraps on the impact and hardness properties and microstructures with a melting process are studied. The method was conducted to determine an impact toughness by Charphy pendulums; hardness materials by Vickers's test; and chemical composition by spectroscopy. Four types of aluminum scraps have been recycled using a metal casting process. They are beverage cans, aluminum profile bar waste, gasoline engine piston, and scrap pans. The results show that the maximum hardness obtained is 54.13 VHN on the material of the gasoline engine piston.
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3

Renaldy, Amadeus, Risa Nurin Baiti, I. Putu Gede Sopan Rahtika, and Komang Widhi Widantha. "Mold Design for Injection Molding Machine Using Recycled Aluminum." LOGIC : Jurnal Rancang Bangun dan Teknologi 25, no. 1 (2025): 54–60. https://doi.org/10.31940/logic.v25i1.54-60.

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The use of aluminum is widely spread from beverage cans, car parts, airplanes, trains, and household furniture. This is due to its lightweight and good corrosion resistance. However, as a metal aluminum waste is difficult to be decomposed naturally. Aluminum metal takes 80 to 100 years to decompose. So the accumulation of untreated scrap aluminum can pollute the environment. One of the solutions is to recycle aluminum by melting and re-casting it into a new shape: a mold for polymer processing. The waste of beverage cans was cleaned from any dirt and adhesive. Then, they were turned into small
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4

Mokaizh, Aiman A. Bin, Motasem Y. D. Alazaiza, Madhusudhan Bangalore Ramu та Dia Eddin Nassani. "Synthesis of Sustainable γ-Alumina Catalyst/Catalyst Support from Aluminum Can Waste: Study of the Influence of Reaction Temperature". Catalysts 15, № 3 (2025): 215. https://doi.org/10.3390/catal15030215.

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The indiscriminate disposal of empty aluminum beverage cans poses a major environmental pollution problem. The last decade has witnessed coordinated research targeted at finding cost-effective and practical solutions to minimize and utilize solid waste, which has become a major global environmental concern. This research is focused on the use of readily available waste aluminum (Al) cans for the synthesis of gamma-alumina. This work aims to synthesize γ-alumina from scrap Al cans using the sol-gel method, as well as their characterization. This study further explores the impact of reaction tem
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5

Litwińczyk-Kwaśnicka, M., M. Rozpondek, and J. Siwka. "Influence the Thermal Process of the Removing the Varnish Coats to the Cleanness of the Surface Aluminium Scrap." Materials Science Forum 638-642 (January 2010): 876–81. http://dx.doi.org/10.4028/www.scientific.net/msf.638-642.876.

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The recycling of aluminium packagings is the complex process in due to of the variety of applied varnishes. The compounds of these varnishes in the raised temperature are decomposed and the reactions products may be: gas and/or carbon and in some cases mineral compounds from pigments and the filling materials. Removing the layer organic from aluminium packagings be holds mainly on the thermal processes. In the paper are described the results of removing the varnish coats from surface of the aluminium cans for drinks. The investigations were carried out in the rotary furnace (Linn High Therm) i
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6

Ftatsi, Mbetmi Guy-de-patience, Tatsadjieu Yannick Ngandjon, and Chekam François Juvenaul Tamo. "Design and Construction from Local Materials of an Aluminum Recycling Foundry." Engineering and Technology Journal 9, no. 08 (2024): 4907–15. https://doi.org/10.5281/zenodo.13379081.

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In the low-carbon global aluminum cycle actual perspective, the need of remelting aluminum is in constant increase. The objective of this work was to build a portable aluminum foundry based on local materials. This foundry can be used to make small spare parts in complete safety and/or as practical melting equipment. The foundry is made up of a butane combustion Furnace and various tools for     handling molten aluminum. The Furnace was manufactured by recycling a defective gas cylinder. After removing the top of the bottle, we lined the inside with a layer of local clay wh
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7

Alabi, Okunola A., and Yetunde M. Adeoluwa. "Production Usage, and Potential Public Health Effects of Aluminum Cookware: A Review." Annals of Science and Technology 5, no. 1 (2020): 20–30. http://dx.doi.org/10.2478/ast-2020-0003.

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AbstractThe ingestion of aluminum from food containers such as cookware, cans, utensils and wrappings and its subsequent release into the environment is a growing public health concern. Aluminum is widely used in manufacturing cookware due to its malleability, high heat conductivity, light weight, durability, availability and affordability. This paper therefore gives a review of most relevant literatures on the benefits and risks of the various types of aluminum cookware in use, the composition and the public health effects of aluminum ingestion. Studies that reported the leaching of aluminum
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8

Mohammed A. Abuqunaydah, Zayad M. Sheggaf, Muheieddin Meftah Elghanudi, and Salem A. Salem. "Recyclability of aluminium piston alloy." مجلة جامعة بني وليد للعلوم الإنسانية والتطبيقية 8, no. 3 (2023): 99–103. http://dx.doi.org/10.58916/jhas.v8i3.122.

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One of the most recycled and recyclable materials now in use is aluminium. Frequently, aluminium cans, automobile components, and window frames are recycled back into itself. A vital component of the contemporary aluminium industry is recycling. Recycled aluminium production uses only around 5% of the energy required to produce new aluminium, resulting in lower carbon emissions and cost savings for both corporations and end users. As a result, today's use of roughly 75% of all aluminum created throughout history. Recycling rates for aluminium exceed 90% in the majority of industrial sectors, i
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9

Chakthin, Sainatee, Patarawan Kahawong та Payoon Senthongkaew. "The Modification of β-Al5FeSi Phase in Al-Si-Mg-Fe Alloys by Utilizing Recycled Beverage Can Body in Casting Process". Key Engineering Materials 675-676 (січень 2016): 660–63. http://dx.doi.org/10.4028/www.scientific.net/kem.675-676.660.

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The acicular iron intermetallic compound, β-Al5FeSi, is often quoted as disadvantages in aluminum based alloy ingots because of its brittleness. This undeniable phase, however, is found to show less effects on the ingots properties if trace manganese is added. The modified round ended and Chinese script-like structure showed significant higher ductility. The present work reports results of prospective experiments designed for obtaining shape modification of the iron intermetallic compound exclusively from readily available scrap aluminum cans as a source of manganese. A356 aluminum alloy with
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10

k. Oleiwi, Jawad. "Study the Effect of Iron Powder Additives on Mechanical properties of Recycling of Aluminum Cans Scrap." Engineering and Technology Journal 34, Issue 5 A (2016): 830–38. http://dx.doi.org/10.30684/etj.34.5a.2.

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11

Jurni, Muhammad, and Rudi Siswanto. "PENGARUH TEMPERATUR TUANG DAN JENIS MATERIAL AL RONGSOK (PISTON SEPEDA MOTOR DAN KALENG MINUMAN) TERHADAP POROSITAS, KEKERASAN, DAN STRUKTUR MIKRO HASIL PENGECORAN EVAPORATIVE." JTAM ROTARY 1, no. 2 (2019): 95. http://dx.doi.org/10.20527/jtam_rotary.v1i2.1740.

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Aluminum used many generated from household, workshop, office, factory and so on. All this time, the Al scrap is only collected by the owner and sold to the foundry foundry industry. It can be recycled into various products for various alternative products and has the potential to become a source of business. The evaporative casting method is to use Styrofoam as a pattern dumped in the printed sand. This method will produce castings that match the pattern of Styrofoam made. Melting is done by liquefying Al in a crucible furnace and then poured with a variation of casting temperatur of 650°C, 7
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12

Kruglova, Maria S. "Trash-art in China and Korea: Struggle for the Cultural Heritage — the Case of Porcelain." Oriental Courier, no. 4 (2022): 117. http://dx.doi.org/10.18254/s268684310023833-4.

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The article discusses examples of trash art created by contemporary Chinese and Korean artists. In view of the environmental and social agenda, contemporary artists often use materials once used for completely different purposes. Chinese and Korean artists are no exception here. The author considers examples of the broken porcelain used to create new art objects created in China and Korea. Beijing-based artist Li Xiaofeng creates wearable dresses from broken porcelain from the Song, Ming, and Qing dynasties, and works with new broken porcelain to create designs with fashion houses such as Laco
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13

Joshua O. Akintade, Olakunle O. Joseph, and Olufunmilayo O. Joseph. "Development of Aluminium smelting furnace for recycling and recovery of Aluminium from waste." Global Journal of Engineering and Technology Advances 22, no. 3 (2025): 071–80. https://doi.org/10.30574/gjeta.2025.22.3.0023.

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The 8% of the earth’s crust is aluminium. It is the most abundant metal in the world after oxygen and silicon. It is quite useful in aircraft design, building construction, automobiles, and domestic and industrial food processing utensils and equipment. Currently, 60% of aluminium products are recyclable, and improvement on that percentage is ongoing. Refining virgin aluminium is very challenging and costs 400% higher than recycling aluminium from scrap. Used aluminium products such as pots, cans, utensils, roofing sheets, and others are wasting away. A rotary furnace was designed and fabricat
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14

Chate, Ganesh R., Raviraj M. Kulkarni, Manjunath Patel Gowdru Chandrashekarappa, et al. "Synthesis and Characterization of Fe2O3 Nanoparticles Reinforced to Recycled Industrial Aluminium Scrap & Waste Aluminium Beverage Cans for Preparing Metal Matrix Nanocomposites." Frattura ed Integrità Strutturale 16, no. 60 (2022): 229–42. http://dx.doi.org/10.3221/igf-esis.60.16.

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Increased material demand in all sectors is primarily due to exponential growth in population to fulfill human needs and comforts. Recycling of collected aluminium beverage cans and Al 6061 alloy scraps from industries ensures energy savings with reduced environmental problems in fabricating composite parts economically. The iron oxide (α-Fe2O3) nanoparticles were prepared by precipitation method using ferric chloride and ammonia as a precursor. The prepared nanoparticles were characterized by using Transmission Electron Microscope (TEM), X-Ray Diffraction (XRD) and Fourier Transform Infrared
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15

Kolbeinsen, Leiv. "The beginning and the end of the aluminium value chain." Matériaux & Techniques 108, no. 5-6 (2020): 506. http://dx.doi.org/10.1051/mattech/2021008.

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Metallic aluminium does not naturally occur in nature, and it was largely unknown, virtually a mystery, until 200 years ago. The modern aluminium production using a hydrometallurgical refining process for making alumina followed by electrolysis of this mineral was first developed in 1886 and, in principle, the same technology is still used to this day. About 90% of alumina refineries in the world use the Bayer process for refining Bauxite ore. It is very efficient, but it can only be used on high quality bauxite with low content of admixtures, especially silicon. The Bayer process also generat
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16

Nwigbo, Michael N., David H. Lebari, Gbenenee B. Robinson, and Ikata Ipeghanimuneen. "Design, Fabrication and Performance Evaluation of a Dual Powered Crucible Furnace for Aluminium Cans Recycling." INTERNATIONAL JOURNAL OF ENGINEERING AND MODERN TECHNOLOGY 8, no. 3 (2022): 37–51. http://dx.doi.org/10.56201/ijemt.v8.no3.2022.pg37.51.

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There is great need for metal scraps recycling and commercialization in Nigeria owning to the abundant and indiscriminate disposal of metal scraps which constitute health hazard to citizens through the blockage of drainage systems, causing erosion and flooding, defaces the aesthetics of the cities through mounting heaps of metallic waste. This research work designed and fabricated a manually operated dual powered tilting crucible furnace suitable for laboratory and workshop practice for recycling of aluminium cans and scraps and other low melting metals and alloys. It consists of a cylindrical
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17

Skuibida, Olena. "GREEN ALUMINUM: TRENDS AND PROSPECTS." Grail of Science, no. 18-19 (September 4, 2022): 165–69. http://dx.doi.org/10.36074/grail-of-science.26.08.2022.29.

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Due to its properties aluminum is a vital resource for circular economy and zero waste technologies, recycling and sustainability. Recycling aluminum provides an opportunity to decrease carbon dioxide emissions by replacing primary aluminum. Recycling of aluminum requires nearly 5% of energy needed for primary production, that results in greenhouse gases emissions of 0,5 tons of CO2e. Recycled aluminum’s main route is for production of casting alloys. With proper metallurgical processing scrape and aluminum waste can be used to make almost any product: wheels, chassis, transmissions in transpo
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18

Mandatsy Moungomo, Jean Brice, Donatien Nganga Kouya, and Victor Songmene. "Aluminium Machining Chips Formation, Treatment & Recycling: A Review." Key Engineering Materials 710 (September 2016): 71–76. http://dx.doi.org/10.4028/www.scientific.net/kem.710.71.

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The recycling of alumium alloys has been growing in interest and applications during the last fourthy years and has become a cost effective, ecological and reliable way to produce aluminium parts. The aluminium scraps that can be recycled include cans and machining chips. The machining processes produce chips of various sizes and shapes, wet or dry, oxidised or not, depending on type of process and the machining conditions, parameters and tools used. Some processes produce metallic dusts and fine chips while other produce large or medium size chips. In some industries such as mould making and
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19

Kaushal, Kishor Sahoo1 &. Devendra Dohare2. "A REVIEW ON RECYCLING AND APPLICATION OF WASTE PLASTIC IN CONSTRUCTION FIELD." GLOBAL JOURNAL OF ENGINEERING SCIENCE AND RESEARCHES 6, no. 6 (2019): 173–77. https://doi.org/10.5281/zenodo.3262346.

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The utilisation of plastics is the major concern in the present scenario, the consumption of plastics has increased drastically; consequently, the responsible disposal of plastic wastes has created serious social and environmental arguments. Recycling and re-refining are the applicable processes for the upgrading of plastic wastes by converting them into reusable products such as aggregates and liquefied petroleum gas (LPG).Plastics pyrolysis may provide for the disposal of plastic wastes with the recovery of valuable gasoline-range hydrocarbons. These pyrolytic products can be divided into a
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20

Mutede, Tandiwe. "Proposed Integrated Solid Waste Recycling Model in Namibia." African Journal of Social Sciences and Humanities Research 7, no. 2 (2024): 285–97. http://dx.doi.org/10.52589/ajsshr-bnbo88cv.

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This article presents a proposed recycling model in Namibia as a way of enhancing solid waste recycling. Scrap metal, plastic, paper, glass, electronic waste, and aluminium cans are recycled materials in Namibia. Face to face interviews, document evidence and site observations were used to qualitatively establish an understanding of recycling practices in the country. Despite its potential, a national study on solid waste recycling as an emerging industry in Namibia conducted in 2019 concluded that recycling of solid waste in the country was low and limited to major cities of Windhoek, Swakopm
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21

Ercoli, Roberto, Andrea Orlando, Daniele Borrini, Franco Tassi, Gabriele Bicocchi, and Alberto Renzulli. "Hydrogen-Rich Gas Produced by the Chemical Neutralization of Reactive By-Products from the Screening Processes of the Secondary Aluminum Industry." Sustainability 13, no. 21 (2021): 12261. http://dx.doi.org/10.3390/su132112261.

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In the framework of the industry of secondary aluminum, the chemical neutralization of highly reactive materials that come from the pre-treatment screening processes of scraps (beverage cans and domestic appliances) was investigated through experiments in aqueous alkaline solutions. Metallic aluminum-rich by-products are classified, according to EU law, as dangerous waste, as they can potentially develop flammable gases capable of forming explosive mixtures with air. In this way they cannot be disposed of in landfills for non-hazardous wastes if chemical neutralization is not planned and perfo
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22

Wang, Chengmin, Anatoly Politov, Xiuhui Wang, and Jinlong Yang. "Study on Preparation Technology and Heat Conduction Mechanism of High-Purity & Ultra-Fine Alumina Powder from Scrap Aluminum Cans." Archives of Foundry Engineering, March 26, 2024, 158–64. http://dx.doi.org/10.24425/afe.2024.149264.

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In view of the increasing scarcity of bauxite resources in China, the high energy consumption and high pollution of electrolytic aluminum, and the requirements for energy conservation and environmental protection, aluminum recycling and high-value utilization of its derivatives have evolved into a crucial development requirement for the aluminum industry in the future. As an important part of the development of recycled aluminum resources, the high-value application of scrap aluminum cans has always been a hot research topic in various recycled aluminum processing enterprises and scientific re
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23

Jawad, K. Oleiwi. "Study the Effect of Iron Powder Additives on Mechanical properties of Recycling of Aluminum Cans Scrap." May 25, 2016. https://doi.org/10.5281/zenodo.3838743.

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This paper involves the effect of iron powder in recycling of aluminum cans scrap on some mechanical properties. This process includes burning aluminum cans to remove paint and shredding into small pieces then melting aluminum pieces using an electrical furnace at (750 ºC). Iron powder (0.6, 1.2 and 1.8 wt %) was added to the melt sequentially. The composition is then casted into cylinder steel molds. The mechanical and metallurgical characteristics of the fabricated alloys were studied through an optical microscope including hardness, tensile testing, scanning electronic microscope and X
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24

Guy-de-patience, Ftatsi Mbetmi, Ngandjon Tatsadjieu Yannick, and Tamo Chekam François Juvenaul. "Design and Construction from Local Materials of an Aluminum Recycling Foundry." Engineering and Technology Journal 09, no. 08 (2024). http://dx.doi.org/10.47191/etj/v9i08.41.

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In the low-carbon global aluminum cycle actual perspective, the need of remelting aluminum is in constant increase. The objective of this work was to build a portable aluminum foundry based on local materials. This foundry can be used to make small spare parts in complete safety and/or as practical melting equipment. The foundry is made up of a butane combustion Furnace and various tools for handling molten aluminum. The Furnace was manufactured by recycling a defective gas cylinder. After removing the top of the bottle, we lined the inside with a layer of local clay which serves as a 5-centim
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25

Tandiwe, P. Mutede, and Chakabwata William. "Motivation for Recycling Solid Waste and Exploration of Regulatory Framework: A Case Study of Namibia." September 27, 2023. https://doi.org/10.5281/zenodo.8382083.

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In this paper the authors discuss the motivations of recycling companies together with stakeholders practicing and promoting recycling solid waste as well as to explore policy and legislation that inform waste recycling in Namibia. The paper is an extract from a national study (2019) on recycling solid waste an emerging raw material industry in Namibia. Solid waste, products such as paper, plastic, glass, aluminium cans, scrap metal and e- waste were recycled. However what was not very clear to the generality of the populace were the motives for formal companies’ engagement in the recycl
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