There's more to injection molding (IM) than producing plastic Barbie Doll shoes and Action Man weapons. Not only plastic, but any material that can be somehow liquefied and injected into a mold can be subjected to the IM process. This applies to polymers, sugar in its many forms, glass, metals and other materials. IM is used to make everything from precision machined airplane parts to jelly alligators.
Chocolates, futuristic plastic chairs, dustpans and even shoes may be made by injecting some material into a mold. Molds are designed by designers and engineers and then handed over to a moldmaker to transform the design into a metal mold, which is finally precision-machined. The process, which has been around since the middle of the 19th century, is extremely versatile and gives rise to an infinite number of widgets and parts for sewing machines, automobiles and rocket ships.
One use for IM with which we are all familiar is in the making of military miniatures and collectible toy soldiers. In many cases, the pieces are intricately designed and crafted to the specifications of a particular war. Enthusiasts are able to create exact replicas of battles. Prices vary with the rank of the soldier and the complexity of the design. For example, the Duke of Wellington sitting on horseback can fetch a price of around $200, while lower-ranking troops cost a fraction of that price.
Electric train collectors are also avid users of IM technology. As with miniature soldiers, the pieces here are made of molded metal and painted. The authenticity and level of detail of the train driver, the little mailmen, babies in buggies, etc., is a wonder to behold.
To produce metal parts, a fine metal dust is created and blended with a binder to produce a feedstock material that will go through machinery made from plastic. Surgical blade holders are manufactured using this process, as are engine parts for everything from motorcycles to airplanes.
The vast range of objects that can be produced using IM is astounding. The injecting and molding machines are themselves built from parts that are the product of IM technology.
Many different industries feed into the IM process. Computer software, polymers, binders and machinery are all necessary to fuel the process. It will, however, be fun to see how IM technology evolves in response to the up and coming 3D printing process.
Chocolates, futuristic plastic chairs, dustpans and even shoes may be made by injecting some material into a mold. Molds are designed by designers and engineers and then handed over to a moldmaker to transform the design into a metal mold, which is finally precision-machined. The process, which has been around since the middle of the 19th century, is extremely versatile and gives rise to an infinite number of widgets and parts for sewing machines, automobiles and rocket ships.
One use for IM with which we are all familiar is in the making of military miniatures and collectible toy soldiers. In many cases, the pieces are intricately designed and crafted to the specifications of a particular war. Enthusiasts are able to create exact replicas of battles. Prices vary with the rank of the soldier and the complexity of the design. For example, the Duke of Wellington sitting on horseback can fetch a price of around $200, while lower-ranking troops cost a fraction of that price.
Electric train collectors are also avid users of IM technology. As with miniature soldiers, the pieces here are made of molded metal and painted. The authenticity and level of detail of the train driver, the little mailmen, babies in buggies, etc., is a wonder to behold.
To produce metal parts, a fine metal dust is created and blended with a binder to produce a feedstock material that will go through machinery made from plastic. Surgical blade holders are manufactured using this process, as are engine parts for everything from motorcycles to airplanes.
The vast range of objects that can be produced using IM is astounding. The injecting and molding machines are themselves built from parts that are the product of IM technology.
Many different industries feed into the IM process. Computer software, polymers, binders and machinery are all necessary to fuel the process. It will, however, be fun to see how IM technology evolves in response to the up and coming 3D printing process.
About the Author:
Henry A. Parker has taught plastics molding techniques for over 15 years. He specializes in injection molding and thermoforming. If you are interested in learning more about plastic pallets for sale then he recommends you visit his friends at PTM: Custom Plastics Injection Molding Company.
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