laser cutting device

Laser - Wikipedia

A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation. The term "laser" originated as an acronym for "light amplification by stimulated emission of radiation".Fundamentals · Design · Laser physics · Continuous and pulsed modes of operation · History

Medical Device Laser Cutting | LaserStar

Medical device laser cutting is used extensively in the design and manufacture of medical devices and implants such as stents, heart valves and other medical devices as well as medical tools and components and improves the fit, form and function.

Laser Cutter | eBay

A laser cutter tackles trays of items as easily as it slides through slim sets. A laser cutter presents a safer alternative to cutting components with a sharp blade. Being more precise, a laser cutter reduces waste by limiting the likelihood of causing chips, dings, and scratches.

Laser Cutting Services - Laserage Technology Corporation

As device precision increases and prices become more affordable, laser power technology is becoming increasingly prevalent. The technology is typically employed for cutting, drilling, and welding in the aerospace, medical, and microelectronics industries.

Custom Laser Cutting Service. Fast Laser Cut Designs ...

Laser cutting is a subtractive manufacturing technology that uses a high power laser beam to cut flat sheet materials. A computer directs this laser to follow the cutting line in your digital design. The high precision laser vaporises a cut line through the material, leaving a 90 degree high quality cut edge finish.

Laser Fine Cutting - rofin

Laser Fine Cutting Cutting Widths Below 20 µm. ... Foils commonly used in the medical device industry made of polymethylmethacrylate, polypropylene or colored polycarbonate can be cut and perforated with high speed and high accuracy by CO 2 lasers equipped with fast scanner heads.

Laser Fine Cutting - rofin

Laser Fine Cutting Cutting Widths Below 20 µm. ... Foils commonly used in the medical device industry made of polymethylmethacrylate, polypropylene or colored polycarbonate can be cut and perforated with high speed and high accuracy by CO 2 lasers equipped with fast scanner heads.

Medical Industry - Laserage Technology Corporation

Leaders in Medical Device Laser Processing. At Laserage, our precision tube cutting, laser machining, laser cutting, laser drilling, plastic cutting and other medical laser capabilities—including finishing and custom assemblies—are backed by over 35 years of experience.

Lasers for Medical Device Manufacturing | LaserStar

Laser Cutting Medical Devices. Precision laser cutting is now emerging as the preferred choice in medical device manufacturing for many machining applications such as thin wall metal tube cutting and other applications requiring superior edge quality, tight …

Laser Cutting, Welding, Marking | Norwood Medical

With more than four decades of experience in medical device manufacturing, Norwood Medical realizes the importance that laser technology plays in the production of high-precision implants and instruments.

Medical Device Laser Processing: Welding, Cutting, Tube ...

Tegra Medical offers extensive laser processing services -- welding, cutting, drilling, abrasion and marking -- for the medical device industry. Our more than 20 years of experience in laser processing gives you the assurance that whatever your needs, we've handled them before.

SpectralyticsWebsiteInfo - Home

Laser cutting solutions for all of your medical devices From metal and composites to the latest space-age polymers, nobody is better at getting the job done right, on-time and on-budget with laser processing experts who also have your back.

Laser Cutter and Cutting Machines from Epilog Laser

Bring a design to life with a laser cutter. Create amazingly detailed miniature models and prototypes with an Epilog Laser system. A laser cutting machine is the perfect precision tool for cutting plywood, balsa, foam board, cardboard, taskboard, and basswood to create prototypes and architectural models.

The Advantages And Disadvantages Of Laser Cutting ...

Laser cutting and laser cutter machines are a form of technology that uses an optical device to chop materials and is usually used for industrial production applications and is, however, additionally beginning to be utilized by colleges, small businesses and hobbyists.

Laser Processing for the Medical Industry

Laser cutting has many advantages over other methods of cutting for medical device manufacturing. Being a non-contact process, laser cutting does not require blades or tools to be replaced or sharpened and the laser does not impart any unnecessary force on the product being cut.

Laser Cutting Services - Micro Laser Cutting | Laser Light ...

Laser Cutting Let’s maximize the superior accuracy and speed of laser cutting. Laser cutting is compatible with numerous materials and offers far more control and a cleaner finish than conventional cutting.

Laser Tube Cutting | Litron

Laser Cut Tubing. As medical devices continue to get smaller, lasers are becoming the only viable way to economically manufacture critical device components. Whether it is laser tube cutting or welding of a clevis pin, Litron has the solution.

US8053703B2 - Laser cutting device - Google Patents

An exemplary laser cutting device ( 300 ) includes a laser source ( 40 ), a lens module ( 51 ), a sprayer ( 60 ), a first rotating subassembly ( 52 ), and a second rotating subassembly ( 53 ). The lens module is configured for focusing a laser beam emitting from the laser source.

Glowforge - the 3D laser printer

Under FDA regulations, the Glowforge Basic and Glowforge Plus are categorized as Class 1 lasers, like a DVD player, so no special precautions are required to use them. The Pro model is a Class 4 device like other lasers, and requires additional precautions.

Laser Cutting – Lumenous Device Technologies

Laser beam kerf width varies with alloy, thickness, and speed of process. A typical range is 20microns (0.0008”) to 100microns (0.004”). We recommend planning on a kerf of 30microns (0.0012”) if your part can accommodate it.

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