Creating plastic toys, pieces and components can be done in a number of ways, depending on certain factors such as to what the purpose of that item is to be. Each aspect of this procedure has to be carefully calculated to accommodate for each product's specific structural and functional issues. One method that proves most effective in many circumstances is injection molding.
This is a process by which products are manufactured by injecting very specific substances into a special mold. The materials that can be used in this method are plentiful, as are the varied ways in which the system works. The specific performance requirements of the final product will determine the combinations that will be used.
This process is the preferred method for making plastic pieces, both for single production and mass manufacturing. It is used to make a variety of things such as molded toys, dishware, bottle caps, electronic housings, combs, containers and various machine components. Various car parts, from the smallest connector to an entire panel, are created in this way.
Low labor costs and a large selection of manufacturing materials are just two of the many advantages presented with this method. The items made in this way, using the proper substance, have a high tolerance as well as the ability to reproduce exact replicas easily. Because of the precision in mold design, there is very little waste and hardly any need to finish the parts once they are ejected from the casing.
Unfortunately, there are also a few disadvantages to this procedure. To begin with, the process itself has particular limitations due to the way it must be set up and how it operates. There is also the issue of the initial tooling investment for new pieces being quite expensive, though they do tend to pay for themselves when molds are used multiple times.
Polymers of all sorts, all thermoplastics and quite a few elastomers and thermosets, are acceptable for use in this process. The sheer number of these substances provides tens of thousands of fabrication options. Many of these can be combined together or mixed with complimentary alloys in order to create a formula that is best suited for the intended purpose.
What the molded piece will be used for will determine which material, or mixture of multiple ones, will be the best choice. Some products will need to withstand a greater amount of stress or function in more intense temperatures than others will, so the composition must meet those standards. The range of possibilities of what may be created in this manner is vast and varied.
This is a process by which products are manufactured by injecting very specific substances into a special mold. The materials that can be used in this method are plentiful, as are the varied ways in which the system works. The specific performance requirements of the final product will determine the combinations that will be used.
This process is the preferred method for making plastic pieces, both for single production and mass manufacturing. It is used to make a variety of things such as molded toys, dishware, bottle caps, electronic housings, combs, containers and various machine components. Various car parts, from the smallest connector to an entire panel, are created in this way.
Low labor costs and a large selection of manufacturing materials are just two of the many advantages presented with this method. The items made in this way, using the proper substance, have a high tolerance as well as the ability to reproduce exact replicas easily. Because of the precision in mold design, there is very little waste and hardly any need to finish the parts once they are ejected from the casing.
Unfortunately, there are also a few disadvantages to this procedure. To begin with, the process itself has particular limitations due to the way it must be set up and how it operates. There is also the issue of the initial tooling investment for new pieces being quite expensive, though they do tend to pay for themselves when molds are used multiple times.
Polymers of all sorts, all thermoplastics and quite a few elastomers and thermosets, are acceptable for use in this process. The sheer number of these substances provides tens of thousands of fabrication options. Many of these can be combined together or mixed with complimentary alloys in order to create a formula that is best suited for the intended purpose.
What the molded piece will be used for will determine which material, or mixture of multiple ones, will be the best choice. Some products will need to withstand a greater amount of stress or function in more intense temperatures than others will, so the composition must meet those standards. The range of possibilities of what may be created in this manner is vast and varied.
About the Author:
Genevive B. Mata has taught plastics molding techniques for over 15 years. He specializes in injection molding and thermoforming. If you are interested in learning more about eco plastic solutions then he recommends you visit his friends at PTM: Custom Plastics Injection Molding Company.
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