The Effects of Lasers on Medical Devices

Lasers are increasingly being used in a wide range of medical applications, from surgery to dermatology. This article is about the effects lasers have on medical devices – what they do to them and how you should handle them when using them.

Lasers and medical devices

The use of lasers in medical devices has been gaining popularity in recent years. Lasers can be used to remove material, weld joints, and seal seams on medical devices. The ablation process using a laser can also be used to destroy cancer cells or other unwanted tissue.

Laser Material Processing

Image Source Google

Benefits of lasers on medical devices

Lasers are one of the most versatile and advanced medical technologies available. They can be used to treat a variety of skin conditions and injuries, as well as to perform various surgeries. In addition, they can be used to read diagnostic information from medical devices.

The benefits of lasers on medical devices include: 

  • Reduced healing time

  • Improved accuracy and precision

  • Reduced trauma

The effect of lasers on medical devices

If you're like most people, you probably think of lasers as devices used by scientists and Hollywood filmmakers to set things on fire. But lasers are also powerful medical tools that can be used to treat a variety of conditions. In this article, we'll discuss the effects of lasers on medical devices.

Lasers are classified according to their wavelength. The three main types of lasers are visible (425-495 nanometers), infrared (932-1064 nanometers), and ultraviolet (1064-1260 nanometers).

Everything You Need to Know About Laser Processing for Medical Devices

Medical device manufacturers face very complex challenges. The competition is fierce and the environment is dynamic. The pressure to innovate is immense and it is necessary to meet ever-changing regulatory and compliance standards. 

As best medical laser manufacturers are launching new products and entering new markets, it is very important for them to get support.

Medical Device Machining: A Dialogue With Laser Light Technologies - Medical Product Outsourcing

Image Source Google

Manufacturing partners invest in technology that delivers accurate, consistent, repeatable, and timely results. For medical devices, pinpoint laser precision is the most valuable technology for cutting, welding, drilling, and marking components.

Laser processing is a powerful solution for creating complex and geometrically complex features at advanced stage materials with very tight tolerances.

No other means of production produces the same stable and accurate energy required for manufacturing precision equipment where quality has a major impact on patient outcomes.

A brief history of lasers in production

The first commercially available laser was introduced in 1965. It was used to drill holes in diamond dies and was developed by Western Electric, a major American electrical engineering, and manufacturing company responsible for many seminal developments in industrial engineering. 

Two years later, a German scientist developed the laser cutting nozzle and used oxygen assist gas to cut a 1 mm thick steel sheet with a focused CO2 laser beam. 

After a few years, three Boeing researchers published a paper concluding that, with additional R&D, laser gas-assist could be an effective tool for cutting hard materials such as titanium, Hastelloy, and ceramic. In 1975, the first commercially available moving optics CO2 laser cutting system with a configuration comparable to modern equipment was introduced.