Medical device makers encounter extremely difficult obstacles. The competition is severe, the environment is dynamic, there is enormous demand to innovate, and regulatory and compliance standards are continuously changing. As medical device makers launch new products and expand into new areas.
They must rely on manufacturing partners who invest in technology that produces accurate, consistent, repeatable, and timely results. Accuracy laser precision is the most useful technology for cutting, welding, drilling, and labeling components in medical equipment.
In medical devices, laser processing is a high-performance option for generating geometrically complicated and elaborate features in current materials with very tight tolerances.
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No other manufacturing tool provides the same consistent and exact energy required to create a precision device where quality is so important to patient outcomes.
In 1965, the first commercial laser was introduced. It is used to drill holes in a diamond matrix and was developed by Western Electric, a large American electrical engineering, and manufacturing firm that is responsible for many important advancements in industrial technology.
A German scientist developed a laser cutting nozzle and used oxygen gas to cut a 1 mm thick steel sheet with a focussed CO2 laser beam two years later. Several years later, three Boeing researchers published a report indicating that with further research and development, gas-assisted lasers might become an excellent tool for cutting hard materials including titanium, Hastelloy, and ceramics.