Specifications Laser-pumped mode: lamp-pumped Laser wavelength: 1064nm Laser frequency: 0-50khz Laser power: 50w Q-switch mode: acoustic-optic q-switch Pulse width: 20ns Beam quality: m2 < 10 Maximum carving speed points /s: 7000mm/s Standard engraving range (mm): 100 100 Laser head number: 1 Focal length: 100mm Focus diameter: 0.05mm Minimum marking characters: 0.3mm Cooling method: water-cooled Easy-wearing parts: kr lamp Easy-wearing parts usage time: 800 hours Applicable materials: metal and some non-metallic materials Input power: ac380v 10% 50-60hz Equipment power: 5kw The software: english and chinese marking software Engraving accuracy: 0.005mm Repeat accuracy: 0.005mm
Technical parameters: Maximum laser power: 10w Laser wavelength: 10.64¦ìm Laser repetition frequency: 50 khz Standard engraving range: 110mm110mm Engraving depth: 5mm Engraving line speed: 7000mm / s Minimum line width: 0.1mm Minimum characters: 0.4mm Repeat accuracy: 0.01mm Total power: 0.6kw The demand for electricity: 220v / single phase / 50hz / 3a.
Technical parameters: Maximum laser power: 30w Laser wavelength: 10.64ìm Laser repetition frequency: 50khz Standard engraving range: 110mm110mm Engraving depth: 5mm.
Maximum laser power: 50w Laser wavelength: 1064nm Beam quality m2:
Specifications Maximum laser power: 12w Laser wavelength: 1064nm Beam quality m2: < 2.5 Q-switch frequency: 100khz Minimum q-switch laser pulse width: 25ns The largest q-switch peak laser power: 100kw Standard engraving range: 110x110mm / 200x200mm Minimum line width: 0.01mm Repeat accuracy: 0.001mm Total power: 2kw The demand for electricity: 220v 22v/50hz/10a.
Co2 laser, with co2 gas as the working material, fills co2 and other ancillary gases into the discharge tube. While heightening the electrode voltage, glow discharge will generate in the discharge tube, then we can release the gas laser. After the released energy is amplified, we can carry out laser processing. Laser has large power, which is controlled by software, and continuously adjustable.
Supplier: Metal marking machine, electro-chemical marking machine, laser etched machine, pneumatic marking machine, co2 laser marking machine, lamp-pumped laser marking machine, diode laser marking machine, fiber laser marking machine, laser carving machine, laser welding machines, laser cutting machine, laser scribing machine, laser jet coding machine, laser filling mold machine, laser engraving machine, pcb laser drilling machine, ctp laser plate-maker, laser resistor trimming machine
The UV laser marking machine is developed by using a 355nm UV laser. This machine uses a third-order intracavity frequency doubling technology. Compared with infrared lasers, the 355nm UV laser has a very small spot, and the marking effect is directly interrupted by a short-wavelength laser. The molecular chain greatly reduces the mechanical deformation of the material. Thermal deformation (cold light), because it is mainly used for ultra-fine marking and engraving. It is especially suitable for applications such as marking, micro-hole drilling of food and pharmaceutical packaging materials, high-speed dicing of glass materials, and complex pattern cutting of silicon wafers.
At A.S Engineers & Fabricators, we utilize cutting-edge laser and CNC (Computer Numerical Control) machines to deliver precision engineering solutions for a wide range of applications. Our laser machines offer high-speed, high-precision cutting and engraving capabilities, allowing us to work with various materials, including metals, plastics, and composites. With laser technology, we can create intricate designs, precise cuts, and detailed engravings to meet the most demanding requirements. In addition to laser technology, our CNC machines provide advanced machining capabilities for turning, milling, drilling, and more. These automated machines ensure consistent and accurate production of complex parts and components, with fast turnaround times and minimal waste. Precision Laser and CNC machines offer high levels of precision, allowing for accurate cutting, engraving, and machining of intricate designs and complex shapes. Repeatability The automated nature of laser and CNC machining ensures consistent results, with the ability to replicate parts accurately across large production runs Versatility These machines can work with a wide range of materials, including metals, plastics, wood, and composites, making them versatile for various industries and applications Complexity These machines can create complex geometries and intricate patterns that would be difficult or impossible to achieve with traditional machining methods Speed Laser and CNC machines can produce parts and components quickly and efficiently, reducing production time and increasing productivity. Minimal Waste Laser and CNC machining produce minimal waste compared to traditional methods, as they optimize material usage and reduce the need for manual finishing