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Plastic injection machines mold liquid plastic into solids to create a wide variety of objects and parts. They are simple and inexpensive to construct and use, with only a few major parts. The appropriate machine is chosen based on the desired product’s size and shape. The liquid is forced into the mold through a piston injection system or reciprocating screw and held in place by mechanical or hydraulic force. Performance issues are easily resolved. The plastic injection industry produces about 32% of the earth’s plastic by weight and has annual revenues in the billions of US dollars.
A plastic injection machine is used to mold liquid plastic into solids. Liquid plastic, made up of various resins depending on the desired product, is used to create a wide variety of objects and parts. The machines used to produce the plastics range in size from very small to extremely large, depending on the desired end product.
Part of the plastic injection machine’s popularity is based on its simple, inexpensive construction and ease of use. It has only a small number of major parts. These include the hopper, barrel, heater, a plunger needle, a coating unit, and an ejector. The sizes and types of each of these parts vary according to the materials to be printed.
After determining the size and shape of the desired product, the appropriate plastic injection machine is chosen. It may need to be purpose built if the product is an odd size or shape. The raw materials are emptied into the hopper. If dyes or tints are used, they are added at this point.
The materials are pulled into the barrel by gravity and become liquid when heat is applied. When this process is completed, the liquid is forced into the mold through a piston injection system or reciprocating screw. The piston injection system is preferred when at least 1/5 of the hopper material is needed in the mold; the reciprocating screw is favored for smaller quantities, as it provides greater control.
As the liquid cools in the mold and becomes solid, the mold is held in place by mechanical or hydraulic force. This stage determines what the final product will look like. Different resins shrink at different rates, and mold designs take these fluctuations into account to ensure the desired results.
Plastic injection machines are highly reliable in their performance. If performance issues arise, they are usually resolved quickly and easily. Usually, reducing the heating temperature in the hopper can quickly remedy burnt or scorched products. Making changes to the thickness or heat of the mold can resolve warping issues. Adjusting the temperature, pressure levels or moisture content can correct surface inconsistencies.
The introduction of the plastic injection machine in 1872 transformed the plastics industry. The plastic injection industry produces about 32% of the earth’s plastic by weight and has annual revenues in the billions of US dollars. The industry is credited with producing millions of robust and affordable production parts, machine components, and consumer goods every year.
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