to lower its melting point as the process is very expensive :)
to produce an aluminium alloy
No, it cannot be extracted this way as aluminium is a much stronger reducing agent than carbon and has greater affinity to oxygen. It is rather extracted by the process of electrolysis by passing electricity through molten aluminum ore which is bauxite mixed with cryolite.
Aluminum is extracted from bauxite, the ore in which aluminum oxide is found, through a refining process known as the Bayer process. The bauxite is mixed sodium hydroxide and heated, which separates the aluminum oxide because it dissolves in the sodium hydroxide while the rest of the bauxite does not.
In inorganic chemistry, an aluminium gallium arsenide is a mixed arsenide of aluminium and gallium, used as a semiconductor.
An alloy of aluminum and chromium is marketed as Aluminum Chromium.
There are many different answers but some of the most common ones are:Aluminium is very expensive when being extractedAluminium on it's own is a soft metal, but it makes hard alloys. these can be used for planes, electricity cables, window frames, etc.
No, it cannot be extracted this way as aluminium is a much stronger reducing agent than carbon and has greater affinity to oxygen. It is rather extracted by the process of electrolysis by passing electricity through molten aluminum ore which is bauxite mixed with cryolite.
Aluminum is extracted from bauxite, the ore in which aluminum oxide is found, through a refining process known as the Bayer process. The bauxite is mixed sodium hydroxide and heated, which separates the aluminum oxide because it dissolves in the sodium hydroxide while the rest of the bauxite does not.
In inorganic chemistry, an aluminium gallium arsenide is a mixed arsenide of aluminium and gallium, used as a semiconductor.
Magnalium is an alloy magnesium-aluminium.
washing machine, cutlery, motorcycle fuel tanks, paint (when mixed with oil), aluminium foil etc.
Bauxite is usually strip mined because it is almost always found near the surface of the terrain, with little or no overburden. Approximately 70% to 80% of the world's dry bauxite production is processed first into alumina, and then into aluminium by electrolysis as of 2010. Bauxite rocks are typically classified according to their intended commercial application: metallurgical, abrasive, cement, chemical, and refractory. Usually, bauxite ore is heated in a pressure vessel along with a sodium hydroxide solution at a temperature of 150 to 200 °C. At these temperatures, the aluminium is dissolved as an aluminate (the Bayer process). After separation of ferruginous residue (red mud) by filtering, pure gibbsite is precipitated when the liquid is cooled, and then seeded with fine-grained aluminium hydroxide. The gibbsite is usually converted into aluminium oxide, Al2O3, by heating. This mineral becomes molten at a temperature of about 1000 °C, when the mineral cryolite is added as a flux. Next, this molten substance can yield metallic aluminium by passing an electric current through it in the process of electrolysis, which is called the Hall--Héroult process after its American and French discoverers in 1886. Prior to the Hall--Héroult process, elemental aluminium was made by heating ore along with elemental sodium or potassium in a vacuum. The method was complicated and consumed materials that were themselves expensive at that time. This made early elemental aluminium more expensive than gold.[4]
Yes. There are several alloys where aluminium is mixed with other metals.
An alloy of aluminum and chromium is marketed as Aluminum Chromium.
The products of electrolysis have to be carried with care as the products do not have to mixed again into its orignal form
Iron mixtured mixed with Aluminium oxide and potassium oxide.
You have to separate it from any other materials is been joined or mixed with.
To make bronze, smelt tin ore and copper ore.