Steel is an incredibly useful material that is used in a multitude of applications. In fact, it is estimated that more than 55% of the average car is composed of steel. Its flexibility is determined by the type of alloy elements that are employed to create it, as find out here now these factors impact the strength of the material and durability as well as its performance. The way in which the metal is cooled has significant impact on its microstructure and consequently, its overall properties. It is also possible to manipulate it to obtain specific characteristics such as yield strength, machinability and resistance to corrosion.

In its simplest form the term steel refers to iron that has been alloyed with other elements to improve its physical properties and make it suitable for particular uses. The proportions of the additional alloying elements determines which category of steel it belongs to and the overall performance in different applications.

For instance, stainless is made up of a minimum of 11 percent chrome. This makes it invulnerable against corrosion. This makes it ideal for a variety of applications such as cutting boards and kitchen utensils. Tool steel, on the other hand is extremely high in strength and abrasion resistance that makes it a preferred material for hand machines and tools. Carbon steels also lend themselves to a wide range of applications due to their high ductility. Electrical steel is a specialized steel grade that contains silicon (typically at least 3%) This enhances the magnetic properties and decreases the loss of eddy current, making it great for transformer cores and electric motor laminations.