Los láseres de estado sólido de nanosegundos son ideales para aplicaciones de marcado de vidrio

Como material muy común, el vidrio se usa ampliamente en la vida diaria, la construcción, la industria, la instrumentación, la medicina y la salud, etc., y varios productos de vidrio surgen en una corriente interminable.

Para decoración, distinción, estadísticas, lucha contra la falsificación y otros fines, el marcado en la superficie del vidrio se ha convertido en una forma común, como métodos simples como pegar etiquetas autoadhesivas, o mediante inyección de tinta tradicional, tinta, serigrafía, marcado neumático. Otros métodos... Debido a varias limitaciones de la tecnología y las herramientas de procesamiento, el efecto de marcado de vidrio no es ideal. Por un lado, existen fenómenos como el marcado perdido y el marcado incorrecto y, por otro lado, los marcados anteriores pueden perderse o volverse borrosos con el tiempo. , causando algunos problemas a los usuarios, y no es una tarea fácil marcar uniformemente productos de vidrio con superficies irregulares como superficies curvas.

El marcado de vidrio necesita con urgencia una forma de lograr un marcado a largo plazo, y las personas también han llevado a cabo una exploración a largo plazo en este campo.

uv laser | green laser | Ultraviolet lasers | uv dpss laser | nanosecond laser | UV laser source | Solid State Lasers

Since glass is a fragile item, the uniform marking on the surface of glass products requires high process requirements. Laser marking belongs to non-contact processing, which has the characteristics of high peak power, delicate marking effect and high processing efficiency. It is very suitable for marking the surface of glass products.

When the laser is irradiated on the glass surface, part of it will be reflected on the surface, and the other part will pass through. Due to the high transmittance of glass, when using laser marking, a strong energy density is often required. The nanosecond solid-state laser developed and designed by RFH can choose to output ultraviolet laser with a wavelength of 355nm, with short wavelength and high beam quality, M2<1.2, can form a very thin beam, only micron level, narrow pulse width (<15ns@40kHz) , the energy is concentrated, which can bring very high peak power, and the heat affected zone is small during processing.

After industrial integration, through the setting of marking parameters, adjust the scanning mode and speed, adjust to the appropriate focal length, achieve the best spot focal depth, and then achieve clear marking, taking into account the marking of curved glass and flat glass, can be On the glass material, marks including pictures, text, numbers, trademarks, barcodes, production batch numbers, etc. are realized.

In fact, RFH has fully considered the needs of diversified production in industrial production when designing and developing products. This nanosecond solid-state laser has a stable overall structure and strong expansibility. Models with various powers and wavelengths are available. For example, the output power of the 355nm wavelength ultraviolet laser can be selected to be greater than 5W and greater than 30W, and the average output power of the 532nm green laser can reach 40W, which brings a variety of choices for the field of high-precision micromachining.