Benefits of Injection Molding for Medical Sector by think3D

Every day around the world the use of plastic is limitless, research laboratories, clinics, universities, and hospitals. Numerous plastic products are used as medical parts, appliances, and support devices.

So based on the facts, plastic injection molding is perfect for making high volumes of identical, close-tolerance products, which includes both solid parts as well as hollow and semi-hollow closures and cases.

Here are the reasons to consider plastic injection molding for medical products:

Process Control and Reliability:

The history of plastic injection molding goes back almost 100 years ago. That means the process has been continuously refined and improved to the point where it’s very stable and reliable. There is advanced modeling software available that takes much of the guesswork out of tool design. And, with modern digital controls on plastic injection molding machines, the process parameters can be quickly tuned for optimal performance and to reduce production lead time to a minimum.

 

High Volumes:

All injection molding projects first start with a molding tool and die. To make a complex shape might require making an equally complex mold tool, so there is an initial product development investment that needs to be considered before a single part is made. But once the tool is approved it’s possible to make hundreds of thousands of duplicate parts in plastic very quickly and economically. In fact, larger volumes tend to recoup the tooling costs over time because of lower price-per-part. This is perfect for rather generic items like containers, tubes, or disposable single-use products like syringes.

Ideal for Enclosures:

Injection molding is especially useful when making cases and enclosures. It’s technically possible to use some other process to make a box, such as CNC machining or Vacuum casting, and sometimes there are good reasons for doing so. But those other methods would be much slower,  consume more raw material,  and would be prohibitively expensive. That is why this would make sense only for low-volume or custom jobs when you don’t want to invest in a tool. Enclosures come in all shapes and sizes. Some are just simple parts like tool-holding trays, pill dispensers, or housings for sensors. Large plastic housings are especially beneficial for sophisticated medical equipment. Not only is plastic lightweight, durable, and less expensive than an alternative material, it also will not interfere with electromagnetic energy such as would be used in CAT scans, MRIs, and X-rays. And some plastic resins are also unaffected by radiation.

Versatility:

There are thousands of plastic resins to choose from that are easily available on the commercial market. And luckily many of these resins are suitable for medical applications. These resins have mechanical and chemical properties which are well understood so it’s easy to choose the one that’s most appropriate for its end use and environment. Some resins are heat stable, chemically resistant, strong, lightweight, biodegradable, and biocompatible. Plastic is increasingly popular when used for prosthetics, replacement joints, or other products that will be in permanent contact with the body.

This content was originally published on the think3D website.

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