Fiber Laser Marker

Fiber Laser Marker

Keywords: Fiber Laser Marker

The quality fiber lasers are used in our laser marking machines. The excellent beam quality and power stability of the fiber lasers make our fibre laser markers a multi-purpose tool.

  • High quality lasers used
  • Powerful software
  • Reliable and easy operation
  • Various combinations

The pulsed fiber lasers are used in the fiber laser marking machines. The excellent beam quality and power stability of the fiber lasers make our fibre laser markers a multi-purpose tool. Maintenance and lifetime of the product is no more an issue. The simple integration of the system requires no after-installation service. The fiber laser machine is the ideal solution for a broad range of indus­trial applications. Our laser marking systems are being widely used in laser marking of hard, fragile or soft products or materials in production lines.

Machine Parameters:

Model: STX-F20/30/50/100
Laser parameters Optical laser Fiber Laser
Laser wavelength 1064nm
Average output power 20/30/50/100W
Modulation frequency range 20kHz~80kHz
Galvo Parameters Maximum speed 7000mm/s
resolution 0.001mm
Repositioning precision ±0.003mm
Optical Output Characteristics Marking area 110*110mm/200*200mm/300*300mm
Minimum line width 0.01mm
Minimum height of characters 0.2mm
Cooling system Cooling way Air cooling
System Properties Laser power supply 0.5KW/AC220V/50Hz~60Hz(optional 110V)
Manual working table stroke Movements itinerary 285 mm (desktop type)
Environmental requirements 0 ~ 35 ° C, 90% or humidity

Typical Applications:

  1. Laser marking of metal & non-metal materials and products: stainless steel, copper, aluminium alloy, ceramics, plastics, organics, thermo-elastomer rubbers, paper, name cards, turbine blades
  2. Electronic industry: capacitor, inductor, PCB, IC, connector, control panel, instrument
  3. Others: cosmetics, food package, bottle, gift, advertisement & sign crafts, craft & gift making

Above is our standard marker configurations. We can provides more and custom-designed configurations according to your specific needs such as OEM, integrated, portable, enclosed and mini fiber laser markers. For portable laser marker, you may need a lab jack to place your workpiece. For integrated marker, the laser is placed on a Z-axis adjustable table to mark the workpieces with various height. For safety, you can use an enclosure to cover the laser. For OEM laser marker, you just buy these inpidual parts/system and then you assemble these parts into your own marking system.

Also there are many brands of fiber lasers to be selected according to your needs on quality and pricing. Please call us if you have any further questions. More examples of configurations are shown as follows:

We also can custom-design and -make various marking machines for your specific applications such as

We have the following more stages, tables and outlooks for your selection: Custom-made available upon request.

fiber laser markers

fiber laser markers

fiber laser marker

fiber laser marker

fiber laser marker

fiber laser marker

fiber laser marker

fiber laser marker

Application Notes:

  • Marking field: Marking field depends on scan lens (f-theta lens) once other parameters and parts are confirmed. Large field sizes demand the use of lenses of long focal length. In turn, this leads to increase focused spot size and decrease laser power density on the workpiece. Thus reasonable mark field should be carefully selected. If both small focused beam diameter (narrow line width) and large marking field are simultaneously required, a XY moving table is recommended for best performance. However, there may be a little alignment along the junction edges of neighbour pisions since the moving accuracy and resolution are always limited.
  • Focused beam diameter: The focused beam diameter is related to f-theta lens, beam expander and laser parameter (beam quality, beam diameter, beam pergence etc). Higher laser power always needs larger beam diameter and thus results in worse beam quality (such as larger pergence angle etc) and further results in larger focused beam diameter.
  • Mark linewidth: in order to get narrow linewidth, 1) you may use the f-theta lens with smaller mark field and beam expander with larger beam expansion ratio. 2) You may increase beam quality by inserting an aperture inside laser resonator. 3) you may increase the marking speed.

  • Online submission
  • Send us a message

    CLOSE