Metal stamping is not just for decorative usages; metal stamping can be used for highly complex and advanced industries, such as the medical supply industry. Metal stamping can be used to create very small and precise parts that are used within the medical supply industry. When it comes to manufacturing a new medical device, it is important to explore all manufacturing methods to develop the best method for your device. Metal stamping is a manufacturing method that has become more common in the medical device industry due to advances that allow for more precise manufacturing.

Way #1: Implantable Components

Multiple devices can be implanted inside of someone to help with their medical care. For example, one popular implanted device is a cardioverter defibrillator (ICD), which helps to send the right electrical signal to one's heart.

Other types of implantable components include artificial hips, heart pacemakers, and spinal screws and rods. Various metal screws, pins, plates, and rods are also implanted to fix traumatic fractures.

Most of these implanted components are very tiny and have to be created just right. Metal stamping is used to make implantable components cost-effectively and safely.

Way #2: Surgical Instruments

When it comes to surgery, you need exact instruments for each type of surgery that is performed. Metal stamping can be used to help create surgical instruments. Metal stamping can be used to ensure that specific components meet legal tolerance limits. Metal stamping can act as an alternative to other production methods, such as traditional machining, to create precise and strong surgical instruments. Metal stamping can be used to produce various components necessary for surgical instruments. The process can be used to put various components together and ensure that those components meet the strength and integrity requirements necessary for an essential medical tool.  

Way #3: Device Enclosures

When it comes to implanted medical devices, not only are the devices themselves small and precise, they also often need to be housed inside of very small and strong enclosures to ensure the device remains protected and isn't rejected by one's body. Most implanted devices, such as a pacemaker or a cochlear device, are enclosed inside of titanium. The titanium enclosure for an implanted medical device can be made using metal stamping.

Metal stamping has evolved to the point where it can be used for precise applications, where strength and precision are key, such as within the medical device industry. If you oversee the manufacturing process for a medical device, such as a surgical instrument, an implantable component, or a device enclosure, you should consider using metal stamping as the manufacturing method for this product.