The Desktop Fiber Laser Marking Machine (fully customizable to your needs) delivers an adaptable, high-performance laser marking solution for offices, studios, startups, research institutions, and on-site outdoor tasks. With powerful expandability, it supports USB, Ethernet, and RS232 interfaces for seamless integration and remote control, pairs with various rotary heads for cylindrical/curved workpieces (e.g., rings, pipes), features adaptable fixtures for stable marking of diverse shapes/sizes, and allows easy galvanometer direction adjustment to meet precision requirements. Surpassing standard models, it enables DIY high-performance computer configuration to optimize performance and equips a cutting-edge 3D galvanometer (powered by advanced CPUs/GPUs) for efficient handling of intricate 3D graphics, ensuring superior marking quality. Compact yet robust, it excels at small-batch customization, rapid prototyping, lab experiments, and fieldwork—making it an ideal choice for buyers seeking a customizable laser marker, 3D laser engraver, or versatile desktop marking system.
| NO. | Project | Parameter |
|---|---|---|
| 1 | Model number | HF10XX |
| 2 | Laser power | 30W/50W/100W/200W (Optional) |
| 3 | Laser level | Class IV (IEC 60825-1) |
| 4 | Laser type | Pulse Fiber Laser |
| 5 | Wavelength | 1064nm |
| 6 | Marking field | 110*110mm-300*300mm/600*600/1000*1000mm (optional) |
| 7 | Marking depth | ≤0.01mm |
| 8 | Marking speed | ≤10000mm/s(optional) |
| 9 | Marking line width | 0.01-0.2mm |
| 10 | Min character size | 0.015mm |
| 11 | Repeat accuracy | 0.01mm |
| 12 | Cooling method | Air-cooled |
| 13 | Laser source expected life | >100,000 hours |
| 14 | Standard user interface | PC/Laptop |
| 15 | Consumables | No |
| 16 | Temperature | 0-45ºC |
| 17 | Power consumption | 700 W |
| 18 | Electrical requirement | L/N/PE 100 - 240 VAC, 50/60 Hz |
| Category | Material | Reaction | Category | Material | Reaction |
|---|---|---|---|---|---|
| Metal | Stainless steel | √√ | Plastic | PE | √ |
| Aluminum | √√ | PP | - | ||
| Anodized aluminum | √√ | PVC | √√ | ||
| Brass | √√ | PPR | √ | ||
| Coated metal | √√ | ABS | √ | ||
| Copper | √ | PET | - | ||
| Gold, silver, nickel, platinum | √ | Nylon | √ | ||
| Carbon steel | √√ | MPP | - | ||
| Titanium | √√ | PC | - | ||
| Ceramics | Ceramic | √ | Medical Ceramic | Electrical and medical ceramic | √ |
A1: Under standard laboratory conditions, the high-performance pulse fiber laser source features an expected lifespan of over 100,000 hours.
A2: The machine is highly effective on various metals (such as stainless steel, aluminum, brass, copper, carbon steel, and titanium), plastics (including PE, PVC, PPR, and ABS), as well as different types of ceramics.
A3: No, this desktop fiber laser marking system operates completely without consumables, keeping maintenance costs and operating expenses extremely low.
A4: To allow seamless integration and convenient remote control, the machine is equipped with multiple connectivity interfaces, supporting USB, Ethernet, and RS232 connections.
A5: The machine features an integrated air-cooled system, ensuring optimal thermal management and stable performance without requiring liquid chillers.
A6: The system delivers a fast marking speed of up to 10,000 mm/s (optional) with a high repeat and positioning accuracy of 0.01 mm.