Medical device manufacturers face very complex challenges. The competition is fierce, the environment is dynamic, the pressure to innovate is immense and the regulatory and compliance standards are constantly changing. As medical device manufacturers introduce new products and enter new markets.
They must have the support of manufacturing partners who invest in technology that delivers accurate, consistent, repeatable, and timely results. For medical devices, precision laser precision is the most valuable technology for cutting, welding, drilling, and marking components.
Laser processing in medical devices is a high-performance solution for creating geometrically complex and intricate features in modern materials within very tight tolerances. If you are in search of laser processing in medical devices you may visit protolase.com/.
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No other manufacturing tool delivers the same stable and accurate energy required to manufacture a precision device where quality has such a large impact on patient outcomes.
The first production laser was introduced in 1965. Developed by Western Electric, a large American electrical engineering, and manufacturing company responsible for many important developments in industrial technology, it is used to drill holes in a diamond matrix.
Two years later, a German scientist designed a laser cutting nozzle and used oxygen gas to cut a 1 mm thick steel sheet with a focused CO2 laser beam. Several years later, three Boeing researchers wrote a paper concluding that with significant research and development, gas-assisted lasers could become an effective tool for cutting hard materials such as titanium, Hastelloy, and ceramics.