Overview:
The Fiber Laser Marking Machine, being an industrial marking tool, seamlessly integrates with laser marking software to control galvanometer scanners. These scanners effectively facilitate the relative motion between the laser spot and the workpiece. Moreover, at the core of this machine’s marking mechanism control system, lasers and optics synergize to ensure precise and efficient marking processes.
In the realm of Industrial Marking, there exists a wide range of applications and products. The versatility of this field allows for the incorporation of diverse combinations of characters, graphics, logos, unique serialized alphanumeric codes, or distinct bar-code designs. Such marking options serve multiple purposes, including traceability, anti-counterfeiting measures, and the identification of materials, batches, or manufacturers.
Laser marking, a non-contact approach to mark physical surfaces, harnesses the power of laser energy. Notably, the flexibility of laser marking enables easy editing of mark data, encompassing letters and graphics, with the aid of graphic utilities on a computer. Additionally, the application of laser technology extends beyond marking, finding extensive use in intricate processing on metal surfaces.
Application:
Laser markings prove indispensable across a wide range of industries. They play a vital role in printing 2D codes on automotive parts, branding logos on electronic components and electrical devices, incorporating lot numbers, and marking diverse items such as automotive parts, electronic components, electrical devices, machines, tools, semiconductors/LCDs, molded parts, and medical instruments.
MOPA Fiber Laser:
- Common fiber lasers and solid-state lasers use mirrors to resonate and amplify the laser. The laser is output by Q-switching. Using this technology, it is difficult to produce a reliable, durable laser with high quality and flexibility. MOPA all-fiber lasers eliminate the resonator structure and enable a high-quality beam with stability, durability, and flexibility.
- SIL provides Industrial, Industrial Enclosed and Desktop Fiber Laser Marking Machine models.
Specifications
- Stainless steel, mild steel, aluminium, titanium, copper, brass, ceramics, and some plastics such as PVC, PA, and ABS are all appropriate materials for Fiber marking.
- Permanent marking process that is 10X faster than traditional marking methods on inclined planes, curved surfaces, pipes, cylinders, and so on.
- High-speed on-the-fly marking for mass production with customizable material handling solutions.
- Low operating costs with zero maintenance.
- Environmental-friendly laser marking process that does not require any consumables such as ink, sticky labels, etc.
- Additional attachments and features like Rotary, the On-Fly system, and Auto Trace are available.
- The marked part will not wear or peel off because it is marked directly on the product.
- No product deformation and fine quality in intricate marking are enhanced.
- High-speed process marking is faster for large production industries; hence, it is widely adopted on a large scale.
- Marking data can include logos, graphics, model numbers, serial numbers, 2D codes, and more.
- Can be integrated into your existing manufacturing automation process.
| Model | SIL Accuwrite F – 20/30/50/60/100 Watts |
| Power | 20 W to 100 W |
| Wavelength | 1063 ±3 nm |
| Beam quality | <1.2 (M2) |
| Output power adjustment range | 10 – 100 % |
| Pulse repetition rate | 20 – 400 KHz |
| Power stability | <±1% |
| Focus spot diameter | <0.05mm |
| Working area | 70 X 70/100 X100/150 X 150/200 X 200/300 X 300 mm |
| Max marking depth | 1.2mm |
| Max marking speed | 1500 standard characters / second |
| Minimum line width | 0.05mm |
| Minimum character | 0.5mm |
| Repetition accuracy | ±0.003 mm |
| Operation system | Windows XP /7/8/10 |
| Cooling mode | Air cooling |
| Ambient temperature | 15°C – 35° C |
| Power requirement | 220V/single phase/50Hz/<600W |
| Life of laser module | 100000Hrs |
| Guide Laser/Red Aiming Beam | Yes 660nm |
