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Typical MIM parts used in disposable surgical instruments and assembled in a clean room. (Image from Micro)Metal injection molding (MIM) works well for high-volume production of small, complex medical device parts of consistent quality.Demand for small, lightweight, high-strength, complex-shaped components is growing across industries today, from automotive, consumer electronics, aerospace and defense to orthodontics and medical devices.Traditional machining and injection molding each has its pros and cons in producing components for medical devices, especially where parts may be smaller and require more maneuverability. Metal injection molding (MIM) is a hybrid technology that integrates the shaping capability of plastic injection molding and the materials flexibility of conventional powd...
Relese time: 2019 - 08 - 15
Views:146
A machine learning tool is being developed by Purdue University to increase the accuracy in additive manufacturing. The resulting research could increase precision and reduce testing time.
Relese time: 2019 - 02 - 21
Views:144
3D printing has been around for decades but has experienced a surge of popularity in recent years. The beauty of 3D printing is that it’s a simple technology that can be applied to all sorts of fields. It’s lowered the barrier for anyone to design and create and opened up opportunities to streamline processes already in place.
Relese time: 2019 - 02 - 13
Views:150
Additive manufacturing (AM) technologies offer a range of advantages for the wind industry. The following examples show that implementation is possible, and even recommended, for a more market-competitive energy supplier. Once the technologies are more developed, reliable and standardized, the supplier chains will be reduced and the production could be more localized, reducing the transportation times and costs, allowing the implementation of AM in the wind industry.
Relese time: 2019 - 02 - 11
Views:143
At a rapidly growing rate, the medical industry continues to recognise the added value of additive manufacturing (AM or 3D Printing) for a vast range of medical applications. AM is now used in the development of new surgical cutting and drill guides, orthopedic implants, and prosthetics as well as the creation of patient-specific replicas of bones, organs, and blood vessels. Medical uses for 3D printing also include creation of anatomical models, tissue and organ fabrication and pharmaceutical research regarding drug dosage forms, delivery, and discovery.
Relese time: 2019 - 01 - 21
Views:149
In the world of medical device manufacturing, several common methods exist for working with metal. They are: casting, forging or forming, and milling. Other sub-categories also exist, such as turning, sand casting and electrical discharge machining (EDM).  Each method of manufacturing has strengths and weaknesses, and different applications may call for one approach over another. However, when creating extremely complex end-user products such as those that contain lattice structures, none of the traditional metal manufacturing technologies work.
Relese time: 2019 - 01 - 17
Views:145
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