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How is aluminium made? Explore different processes such as bauxite mining, alumina production, the smelting process and others,
· archived 5/18/2026, 12:38:30 AMscreenshotcached html Extraction of Aluminium You are using Internet Explorer 11 or earlier, this browser is no longer supported by this website. We suggest to use a modern browser. Your browser does not support JavaScript! Materials ServicesMaterials UKMaterials UKSearch Materials UK HomeCareersDownloadsLocationsSearch search tk-menu tk-close Search search tk-menu tk-close ProductsServicesAerospaceAdditive ManufacturingCompany BrochuresContact Us Materials UK HomeCareersDownloadsLocationsExtraction of AluminiumHow is Aluminum Made?Aluminum makes up 8% of the earth's soil and rocks making it the third most abundant element in the earth's crust after oxygen and silicon, respectively.The compound does not occur in pure form. Instead, the aluminum atoms bind with other metals forming compounds. Unlike other minerals like iron that only require melting to separate the compound, making aluminum is slightly different. With aluminum, the process is complicated and requires significant amounts of energy.That is why most aluminum smelters are always built within the vicinity of power energy sources.Step 1- Bauxite MiningThe first step in the production of aluminum is the extraction of bauxites from the ground. Bauxites are the most common raw material in aluminum production. They are mainly made up of aluminum oxide mixed with some other minerals.If the bauxite contains more than 50% aluminum oxide, it's considered as high quality. However, there is a lot of variation in bauxites. They can be solid, dense, or crumbly. They also vary in color, with the most common one being brick red, brown, or flaming red because of iron oxide.If the concentration of iron oxide is low, the bauxite can be white or grey. It's also possible to find bauxite in yellow, dark-green, or multi-colour with shades of red, blue, purple, or black depending on the composition.Step 2 - Alumina ProductionAfter mining the bauxite, the next step in making aluminum is processing the raw material into alumina, a white powder, also known as aluminum oxide.Depending on the quality of the bauxite, about 4-5 tons of it can yield about 2 tons of alumina, which will produce one ton of aluminum.Extraction of AluminiumAluminium is the most abundant metal on earth however, it doesn't come in its pure form. It has to be extracted from its ore, called bauxite. The process of extracting aluminium is resource-intensive, which makes aluminium among the most expensive metals to produce.Aluminium extraction is done through a process called electrolysis that can be subdivided into three stages, resulting in aluminium as we know it. These stages of aluminium extraction include:Bauxite MiningVarious minerals can be used in the aluminium extraction process. The most commonly used raw material is bauxite, which is made up of a combination of aluminium oxide, mixed with other minerals.During mining, bauxite is classified depending on the percentage of aluminium oxide it contains. High-quality bauxite contains more than 50% of aluminium oxide. It comes in different colours, and it can appear as brick red, grey, white, purple, black, bluish and other multi-colours, depending on the combination of minerals.Structurally, the bauxite can be solid, crumbly or dense. Again, this depends on the mineral composition.Alumina ProductionAfter mining, the bauxite is processed to make alumina, also known as aluminium oxide, which is a white powder. There are various methods of making alumina, but the most commonly used process is the Bayer Process.The Bayer Process was first discovered over 100 years ago and has remained the preferred method of making alumina. Although the Bayer process is highly efficient, it can only be used on high-quality bauxite, especially with a very low composition of silicon.The Bayer ProcessThe making of alumina starts with dissolving the aluminium hydrate that is found in bauxite in concentrated caustic soda at high temperatures.When the temperature of the solution is lowered, the concentration increases, and aluminium hydrate crystallises. The other minerals and elements found in bauxite don’t dissolve or recrystallise, they settle to the bottom. The aluminium hydrate can then be isolated from the ballast, which is also known as the red mud.The red mud comprises of silicon, iron, titanium and various other minerals, found in the mined bauxite. The separated mud is disposed into special areas, while the aluminium hydrate proceeds with the aluminium extraction process. Processing of Aluminium Hydrate CrystalsThe aluminium hydrate crystals are fairly large and easily filtered from the solution. The crystals are then washed with water, dried and then heated (calcined) to remove the water. The resulting product is what is called alumina.Alumina doesn’t have a limited shelf life but it is highly hygroscopic and has to be stored in the right conditions. Instead of battling to keep the alumina away from water, most manufacturers prefer to send the alumina for smelting as fast as possible.The Smelting ProcessThe smelting process starts with stacking the alumina into piles, weighing up to 30,000 tonnes. To get to this weight, the stacks of alumina can be as high as 12 metres. The pile is subdivided and loaded into railroad cars for dispatch to the smelting facility.Electrolytic ReductionThrough electrolysis, alumina produces aluminium. Before that however, another component, called cryolite, is required in the process.Cryolite is a natural fluoride mineral that is manufactured artificially because of its rarity as a natural mineral. The use of cryolite is the final step required to transform alumina into aluminium through electrolytic reduction.This process takes place inside an aluminium smelter. These are rectangular buildings with a length, exceeding one kilometre in some instances. Inside the buildings, there are hundreds of reduction cells in rows, hooked up to power sources using massive cables.Each of the cells consumes about 4 – 6 volts of power, with an amperage of 300 – 400 KA and sometimes even more. This process is mainly driven by power, and most of it is automated.There’s an automatic system that delivers alumina into the cells every few minutes. Inside the cells, high temperatures and a conducive environment, created by the cryolite, breaks down the bonds between aluminium and oxygen.The aluminium settles at the bottom of the cells, while the oxygen combines with carbon to make carbon dioxide.Special vacuum buckets are used to extract the aluminium from the cells, after which it is taken to the cast house once the bucket is full.At the cast house, the aluminium is cast into ingots, weighing between 6kgs and 30 tonnes. At the cast house, the aluminium is also given its chemical composition by mixing it with other alloying elements to increase its strength, alter its heat transmission properties and also make it denser.There are over 100 aluminium alloys in the market, each designed to cater to various applications and exhibit specific characteristics, according to the environment where it is used, and all of them start as a bauxite that goes through the above process.Links to downloads Approvals Quality Documents Brochures Aluminium Datasheets Stainless Steel Datasheets Metal weight calculator Behind the scenes Technical Information PagesCarbon Steel vs Stainless SteelHow to Drill MetalHow Stainless Steel is MadeDensity of Stainless SteelDoes Stainless Steel Rust?Does Aluminium Rust?Is Stainless Steel MagenticIs Aluminium Magnetic?What is the Melting Point of AluminiumMild Steel in UseStrongest MetalsHow is Steel Made?How to Prevent CorrosionHow to Clean AluminiumHow is Aluminium Made?Aircraft Grade AluminiumAerospace Grade AluminiumBest Way to Paint AluminiumMarine Grade Aluminiumup to top arrow-up arrow-down Materials ServicesMaterials UKCompanyProductsServicesContact UsLocationsCareers thyssenkrupp AG Corporate website thyssenkrupp Materials (UK) Ltd © 2022 SitemapImprintLegal notesShare tk-share FacebookTwitter Email We use cookies to provide you with an optimal website experience. 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