The process is used on non-ferrous metals such as brass, bronze, and aluminum.

It's also used for the manufacture of computer parts and automobiles.

It is also used in oil and gas industry, the military, as well as other industries.

There are many heat treatments that can be applied to materials.

Different materials are treated differently.

Some can be tempered while some are hardened.

Hardness describes the capacity of a material not to fracture or absorb energy.

Energy per unit volume measures this property.

Temperature affects the hardness.

Less-hard materials can be easily deformed.

Each heat treatment method has its advantages.

To alter the crystalline structures of metals, or their alloys, heat treatment is a process that involves heating and cooling.

The process can produce a wide variety of benefits, including improved hardness, temperature resistance, ductility, and strength.

It's a critical step in the manufacture of components and metal parts.

It is a process that increases the metal's hardness and durability.

Heat treatment, however, also aids in the preservation of its shape.

The heat treatment process is used to harden, soften, or change the properties of metals and glass.

Normalizing, tempering, and annealing are some of the most common applications.

The first two are commonly used for changing the properties of metal, but plastics and glass can also undergo this process.

It improves the physical properties of metals, such as wear resistance and ductility.

In a heat treatment, the alloy is heated to an elevated temperature and then quickly cooled.

For the best results, heat and cooling are key.

This process can be repeated many times depending upon the properties desired.

When the process completes, the metal should cool down to regain the original properties.

Heat treatment alters the microstructure and properties of the metal.

You can change the composition of metals by altering the speed of cooling and diffusion within the microstructure.

It can affect the strength, durability, and elasticity of metal alloys.

This can lead to an increase in strength for a steel bolt, or aluminum beam.

In the manufacturing process, heat treatment changes the physical and chemical properties of metals.

There are four main types of heat treatment: annealing, tempering, hardening, and normalizing.

A heat treatment makes a material stronger, more durable to impact.

The process is also used to soften metal.

Heat treatment refers to the controlled heat treatment of metals.

It involves heating them up to a certain temperature then holding them there until they cool down in a media.

There are many types of heat treatment that can be used depending on the metal.

Some of these processes are annealing, tempering, and case hardening.

Annealing (for ferrous metals) is the process whereby the metal is heated to a specified temperature before being cooled to form a microstructure.

This process also increases the metal's ability to withstand heat and conduct electricity.