Business and Management

Laser Processing’s Importance in the Medical Device Industry

From the management of the cardiac rhythm to neuromodulation, orthopedic and hearing implants, laser material processing systems play crucial parts in the development of these life-enhancing devices. These are just a few of the most popular applications for laser processing systems that are used in the production of medical devices, and the range is expanding quickly. 

Even the foundation for entirely new products has been centered around laser machine system technology. Lasers have always been a major part of the medical industry. Since their first commercialization in the 1970s, they were accepted by the medical industry. 

They have developed the kinds of products they can make and have allowed for innovative and better medical product designs. For example, we are now at the point where we can use ultra-short-pulsed lasers to do machining operations on medical equipment with minimum heat input. You may go through https://protolase.com/ if you want the best laser processing in medical devices.

MeKo Manufacturing - Laser Material Processing

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In many critical categories, Laser technology can make a difference. For instance, cardiovascular rhythm management (CRM) seeks to improve the living quality of those with a heart that often beats too fast or fails to beat.

In a variety of industries, laser procedures are used to create CRM devices, for example, laser welding using pulsed fiber lasers to create a hermetically sealed pacemaker's cartridge, stripping wire of the electrodes that are used in the device by using q-switched and shorter pulsed lasers as well as laser marking UDI codes on the device using fiber lasers. 

Pacemakers incorporate heat-sensitive electronics into their components and this is one of the reasons laser systems were employed during their initial development because the net heat transfer is minimal or controlled with properly engineered laser systems.

Lasers can also be automated, such as by incorporating them into a glovebox welding system to reduce oxidation of welded pacemakers. Prior to the mid-2000s advent of fiber laser technology in the medical device market, these devices were built with legacy solid-state rod-based lasers from the late 1980s and early 1990s.

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