Think about injection molding and your mind immediately goes to plastic army men and other tiny toys and accessories that toddlers love to cram in their ears, nose, throat, etc. The process, injecting fluid material into a mold, applies to all sorts of other materials, too. Metals, glass, confections, polymers and elastomers can all be molded and then custom machined to produce everything from a jelly snakes to car doors.
Mobile phone covers, toy bricks, plastic forks, styrofoam cups, metal scissors and the fans that go inside computers to keep them from overheating while you are playing Candy Crusher, all of these items are fashioned using IM technology. The process, which was first used in the mid-19th century, is amazingly versatile and yields gizmos and widgets for everything from kitchen gadgets to the International Space Station.
One application for the art is in the manufacture of collectible toy soldiers and military miniatures. If there was a war, chances are there are miniature toy soldiers for some enthusiast to recreate it. A horseback-mounted Duke of Wellington can set a collector back in the realm of $200. Intricately detailed and meticulously painted, lesser soldiers can be acquired for a much more reasonable price. Of course, when you are purchasing hundreds of the brave soldiers, it adds up pretty fast.
Electric toy train enthusiasts are avid consumers of IM technology. Where do you think the little toy trees and little toy engineers and signalmen come from? The amount of authenticity and detail that goes into making these items is breath-taking. Built to last, these pieces are often manufactured from molded metal so they are sufficiently robust to be passed down from generation to generation.
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 range of objects that can be manufactured using this technology is amazing. There are a lot of parts that one would not intuitively think were made this way. Even the parts for the machines that do the injecting and molding have injected and molded parts inside them.
A surprising number of feeder industries are part of the IM process. Computer software programmers, polymer manufactures, the chemical industry that makes binders and other additives and the makers of molding machines all contribute to the art and science of the IM process. One thing that will be fun to watch in the coming years is how the IM industry will develop as the field of three-dimensional printing becomes more common.
Mobile phone covers, toy bricks, plastic forks, styrofoam cups, metal scissors and the fans that go inside computers to keep them from overheating while you are playing Candy Crusher, all of these items are fashioned using IM technology. The process, which was first used in the mid-19th century, is amazingly versatile and yields gizmos and widgets for everything from kitchen gadgets to the International Space Station.
One application for the art is in the manufacture of collectible toy soldiers and military miniatures. If there was a war, chances are there are miniature toy soldiers for some enthusiast to recreate it. A horseback-mounted Duke of Wellington can set a collector back in the realm of $200. Intricately detailed and meticulously painted, lesser soldiers can be acquired for a much more reasonable price. Of course, when you are purchasing hundreds of the brave soldiers, it adds up pretty fast.
Electric toy train enthusiasts are avid consumers of IM technology. Where do you think the little toy trees and little toy engineers and signalmen come from? The amount of authenticity and detail that goes into making these items is breath-taking. Built to last, these pieces are often manufactured from molded metal so they are sufficiently robust to be passed down from generation to generation.
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 range of objects that can be manufactured using this technology is amazing. There are a lot of parts that one would not intuitively think were made this way. Even the parts for the machines that do the injecting and molding have injected and molded parts inside them.
A surprising number of feeder industries are part of the IM process. Computer software programmers, polymer manufactures, the chemical industry that makes binders and other additives and the makers of molding machines all contribute to the art and science of the IM process. One thing that will be fun to watch in the coming years is how the IM industry will develop as the field of three-dimensional printing becomes more common.
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 plastic solutions then he recommends you visit his friends at PTM: Custom Plastics Injection Molding Company.
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