The UV marking laser is capable of performing high-contrast markings on very delicate materials thanks to the high absorption index of UV radiation. The Fly UV colors the product surface through a photochemical process, and the heat produced by the marking is so limited that it does not damage the component. With a typical pulse duration of 20ns, this laser guarantees optimal results for various applications, such as transparent or colored plastics, medical plastics, and highly additive plastics for electronic component housings. This laser is ideal for the medical sector, home appliances, and glass marking.
The UV marking laser uses a wavelength of 355nm, part of the ultraviolet spectrum, to achieve high-resolution markings on delicate materials. Its efficiency derives from the high absorption index of UV radiation by target materials, which allows for precise markings with minimal thermal impact. The marking process is predominantly photochemical, limiting heat generation and preventing structural damage to sensitive components. The high absorption index of UV radiation and the 20ns pulse duration make this technology particularly suitable for markings on transparent or colored plastics, medical materials, and high-performance plastics used in electronic components. The UV laser is also ideal for glass marking, where it is essential to avoid microfractures. Integration into automated production environments is facilitated by the system’s versatility and its ability to operate with high precision on high-speed production lines, making it an essential tool for sectors where marking quality and durability are critical.
EFL 100
150 ± 10
87 (61X61)
EFL 160
225 ± 10
140 (100X100)
EFL 254
325 ± 10
220 (150X150)
EFL 330
395 ± 10
290 (205X205)
EFL 420
500 ± 10
424 (300X300)
In this mode, the laser operates without a control PC, making it suitable for integration into production lines where space is limited. No operator interface is necessary, and installation time is significantly reduced.
In an automated environment, as an alternative to FlyCAD, there is the FlyPowermark software with a completely customizable operator interface. We can manage various data input methods, for example, access to the company’s factory system (database, web services, TCP/IP protocols). Furthermore, being potentially able to manage an infinite number of lasers, it is possible to design the application to simultaneously control all the lasers present on the production line.
