We have manufacturers, suppliers and service providers from the area Laser marking systems for medical technology, marking lasers for medical technology, UDI-compliant laser marking

Laser marking systems for medical technology, marking lasers for medical technology, UDI-compliant laser marking, laser marking of medical products, laser marking of implants, laser marking of surgical instruments

There are three basic types of laser marking systems used for medical product marking: steered-beam laser writing YAG lasers, imaged-mask pulsed CO 2 (ICP) CO2 lasers, and dot matrix CO2 lasers. Each differs in the wavelength and mark application, and most are designed for international use. All are compliant with European norms and safety standards. Listed below are some of the most common uses for these systems.

UDI: UDI marking systems allow manufacturers to create a unique device identifier for a product. These systems can be used to create a unique digital coding for each product. Unlike traditional coding methods, these systems store all relevant information in a database. This allows for effective recall and tracking. For example, when a faulty medical device is found, FDA personnel can quickly isolate the problem by looking up the serial number.

Optical Passivation: Most medical equipment undergoes chemical passivation to enhance its inherent corrosion resistance. In doing so, the equipment is less likely to attract germs. By contrast, laser marking technology uses a chemical solution to mark instruments without altering the surface's chemical coating. The marked surfaces retain corrosion resistance for years. This feature allows manufacturers to save money and improve efficiency. In addition, it is easier to maintain and service these systems.

Optical Imaging: A laser-based marking system uses a specialized lens for accurate image registration. The light from a laser beam is focused on a sample. In this way, the mark appears as a sharp line or dot. The process is analogous to a slide projector. The marker emits a bright beam that illuminates a metal stencil mask. Then, the sample is optically imaged through a lens.

Optical Inkjet-based laser marking systems are available in various colors and thicknesses. Stainless steel and titanium are ideal materials for laser-stamping. They can also be used to mark medical devices. Optical inkjet marking systems are a good choice for this industry because they offer the highest quality in a single step. These machines are also more efficient than traditional thermal-inkjet printers. These technologies are very fast and precise, and are widely used in industry.

CO 2 CO2 laser systems are available as dot matrix or scanned-spot laser writing markers. The latter has the advantage of being portable and compact. It requires no external gas or cooling system and can code through several materials. The CO2 laser system is computer-controlled and can be operated remotely. TYKMA's CO2 markers are compatible with all kinds of environments. They are extremely durable, and can withstand all types of usage.

An industrial laser marking system can mark various types of materials, including aluminum, steel, copper, and titanium. The marking process leaves permanent marks on the material. Unlike ordinary inkjet printing, the laser-spot is a more reliable, and more environmentally-friendly option. There are also other advantages to using a laser-spotter. In contrast to inkjet, a CO2 beam has a higher contrast.