In fact, it is because of aluminium that human beings have been able to fly in the first place, ever since the Wright brothers used aluminium to make the engine crankcase for their first wood-frame biplane.
Given that aluminium is comparable in strength to steel with only a fraction of the weight, using it in aircraft construction affords planes more weight capacity for cargo and passengers, as well as greater fuel-efficiency.
Download full datasheet for free on Matmatch. The advancement of spacecraft and rocket technology is directly tied to the advancement of aluminium alloys. Spacecraft windows are also a particularly great application of materials science: one way of making them is aluminium oxynitride , which is actually a transparent ceramic we use to make things bulletproof.
Light and strong materials bode well for ships, especially ones that fill the hull with cargo. This allows for more weight to be loaded in the form of goods, people, or fuel. In addition to tankers and large ships, aluminium is used in constructing yachts, speedboats, and underwater vessels.
Most sporting boats are also built from aluminium, from keel to mast, which gives them a speed advantage in races and adds excitement to leisure activity. Trains can function very well using iron and steel, as they have for centuries. But why not improve upon a design if you are able to do so? Using aluminium components in place of steel can have advantages: aluminium is easier to form and improves efficiency.
While railways were once made mainly from iron, many elements of modern trains are made from aluminium. The aluminium alloys used in these high-speed rail carriages have lower density but comparable strength to steel, as well as excellent corrosion resistance that helps with maintenance.
Furthermore, aluminium alloy cables are increasingly being used as a substitute for traditional copper cables in railway transmissions and installations.
Aluminium is billed as the most cost-effective and environmentally-friendly way to increase performance, boost fuel economy, and reduce emissions while improving safety and durability. The automotive industry relies heavily on the use of aluminium and steel as it gives them fuel efficiency and manages to reduce carbon dioxide emissions. It allows developers to reduce the weight of trains to cut down on friction resistance.
From flat screen TVs, laptops, tablets, smartphones, and even some household items, aluminium makes it look modern yet sophisticated with its finish. The metal has excellent heat conductivity meaning that it is widely used as heatsinks in electrical appliances.
This is more ductile compared to copper, which enables it to be merged easily with wires. In particular, the automotive industry has seen the greatest growth in aluminium consumption, to the detriment of steel.
Due to its multitude of alloys and uses, which cover all types of sectors within the industry, aluminium has come to be considered as one of the strategic metals par excellence. And this in spite of being such a common element. And up to here this summary to the uses of the aluminium that we can find in our day to day as well as in the industry.
As you have seen, we really live surrounded by this strategic material. If you are interested in continuing your research into the uses of aluminium, be sure to visit the rest of our entries and take a look at our gallery of projects , where you will find more than buildings whose facades have aluminium composite panels.
This website uses cookies so that we can provide you with the best user experience possible. If you continue we assume that you consent to receive all cookies on our website. Read more. Why is Aluminium so popular? What is aluminium commonly used for? Aircrafts Due to its low weight, considerable strength and workability, aluminium is ideal for aircrafts, including commercial aircrafts that are produced en masse.
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