Die Casting – Advantages and Disadvantages

Die casting is a process in which molten metal is forced under high pressure into mold cavities. The metal hardens to get a desired shape. In recent times, plastic molded parts have replaced die-casting, as they are cheaper and lighter than die cast parts. Die-casting can be done using a cold chamber or hot chamber process.

About Die Casting Process

Die casting is a widespread non-expendable technique in which metal are forced into the mold cavity under high pressure. Die casting mold that are known as dies can be used repeatedly to produce castings in a variety of sizes, shapes and wall thickness. The mold cavities are designed with intricate designs that enables in producing complex shapes with accuracy, surface finish and attractiveness..

History of Die Casting

In the early days of die casting only low-pressure injection method was used, but today high-pressure casting techniques like squeeze casting and semi-solid die casting methods are use to cast more than 4500 pounds per square inch. Initially, only tin and lead were die caste, but now magnesium, copper and other alloys are also to cast using this highly popular process.

Die Casting Process

In this process molten metal or other materials are forced, under high pressure into the cavities of the steel mold. Dies are two part molds that are made of alloy tool steel – The fixer die half and the ejector die half. The die or mold is fabricated with the impression of the component that is to cast. There are four types of dies:

Single cavity to produce one component

Multiple cavity to produce a number of identical parts

Unit die to produce different parts at one time

Combinations die to produce several different parts for an assembly

The molten metal is injected into the die under high pressure and high speed, which helps in producing a casting that is smooth and precise as the original mold. The pressure is maintained on the mold until the hot metal solidifies. When the metal is hardened, the die is opened to remove the casting.

There are several variations on the basic process that can be used to produce castings for specific applications. These include:

Squeeze casting – A method by which molten alloy is cast without turbulence and gas entrapment at high pressure to yield high quality, dense, heat treatable components.

Semi-solid molding – A procedure where semi-solid metal billets are cast to provide dense, heat treatable castings with low porosity.

Alloys used

Aluminum, copper, lead, zinc and tin based alloys are predominantly used in die-casting.

Automation

In modern day, sophisticated die casting machines are used that ensures consistent quality control. Every machined die-casting differs in the method in which molten meal is poured into the die. Automations are used to lubricate dies, pour the metal into the chamber, etc. Two processes called the hot chamber and the cold chamber methods are used for die casting.

Applications

Die casting is most suitable for casting medium sized parts with complex details. Die-casting is the largest casting technique that is used to manufacture consumer, commercial and industrial products like automobiles, toys, parts of sink faucet, connector housing, gears, etc. Most die castings are done from non-ferrous metals like aluminum, magnesium, etc.

Advantages

Economical process that can be used for a wide range of complex application

Parts have longer service life, dimensional accuracy and close tolerance

Post machining can be totally eliminated

A process that can be fully automated

Mold can be use repeatedly.

Disadvantages

Casting weight must be between 30 grams.

Casting must be smaller than 600 mm (24 in)

High initial cost.

Limited to high-fluidity metals.


Post time: 03-28-2017