When coming up with design for insert molds, you have to be mindful of some factors that may directly or indirectly affect the efficiency and success of the entire process. For starters, you have to be mindful of the wall thickness of the mold itself, as that will affect how heat is distributed and dissipated. Too thick, and you may have difficulty cooling a mod down; if it is too thin, you may risk having a product that cools off too fast, causing deformities.
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You also have to pay attention to the nature of the raw materials used. How you handle plastic products will not be the same way you handle metallic molds, the latter requires more expertise and advanced machinery. The availability of the said materials is also another important thing you have to pay attention to; you cannot create something out of thin air after all. The nature of the design is another area that demands some deep thought.
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Molding is the process of transforming raw plastic into the desired end product shape or form. Every product needs a unique molding method, and the overmolding process and insert molding design types are widely regarded as the best on the market.
The traditional plastic production method includes melting or softening the plastic at extremely high temperatures and then molding it into useable forms using various processes.
In this blog article, we will go through insert molding and the different design issues associated with the method in depth. The purpose of this post is to describe the worlds most popular and recommended molding process (insert mold), its working methodology, design concerns, advantages, and applications in many areas.
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