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Machine Type: Fiber laser marking machine
Main Use: Permanent marking on metal parts, tools, nameplates, housings, and industrial components
Marking Content: Serial numbers, logos, QR codes, barcodes, part numbers, date codes, and traceability information
Power Options: 30W / 50W / 100W / 200W
Marking Area: 110 × 110 mm to 300 × 300 mm depending on configuration
Typical Materials: Stainless steel, carbon steel, aluminum, anodized aluminum, brass, copper, titanium, and coated metals
Optional Accessories: Rotary device, electric lift, fine-tuning worktable, fume extractor, foot switch, and conveyor
This fiber laser marking machine is built for factories and workshops that need clear, permanent marks on metal parts. It is commonly used where the mark needs to stay readable through storage, assembly, shipment, and daily use rather than sitting on a label or an ink layer.
In practical purchasing, buyers usually care less about headline wording and more about whether the machine fits their material, part size, marking content, and production rhythm. That is the logic behind this setup: flexible power options, workable field sizes, and accessory choices that can be matched to the actual job.
A laser marking machine for metal is usually chosen when product identification has to remain on the part itself. This includes serial numbers on hardware, QR codes on housings, logos on tools, model information on nameplates, and traceability marks on industrial components. In these cases, the marking process is not just cosmetic. It supports production control, after-sales tracking, and day-to-day part identification.
This machine is suitable for workshops handling mixed products as well as factories running repeated batches of the same part. It can be used as a standalone station or adapted with accessories based on how the workpiece is loaded and how the production line is arranged.
Different marking areas are available from 110 × 110 mm to 300 × 300 mm, which helps when products vary in size or when several parts need to be positioned in one cycle.
The galvanometer system supports text, codes, and logo marking with stable beam movement, which is important when the same result needs to be repeated across batches.
The software supports common factory marking work such as serial numbers, graphics, logos, date codes, barcodes, and QR codes without making the setup process unnecessarily complicated.
Power can be selected according to the material, marking speed, and expected result. In real projects, that choice is usually made from sample requirements rather than from specification comparison alone.
For rings, tubes, cups, and similar workpieces, a rotary device helps keep the part positioned correctly during marking and makes curved-surface work more practical.
When the mark position matters, a fine-tuning worktable helps adjust the fixture and part location with more control, especially for smaller components.
In many workshops, consumables are not the biggest cost on paper, but they do add handling, replacement, and storage work over time. A laser-based system removes that part of the process for routine marking tasks.
No regular ink replacement
No solvent-based marking workflow
More straightforward for repeated identification work
Where marking is placed near assembly or inspection areas, a cleaner workflow can make the station easier to manage. This is one reason fiber laser marking is often preferred for identification jobs on finished or semi-finished parts.
Less residue than consumable-based marking methods
Suitable for more controlled work areas
Easier to fit into existing workshop routines
The same marking task does not suit every machine setup. Some customers need a compact station for small parts. Others need a larger field, a rotary device, or a batch workflow arrangement. This machine is built around that reality rather than a one-size-fits-all claim.
30W to 200W power options
Multiple marking field sizes
Optional accessories for different workpieces
For traceability work, the mark needs to remain readable after handling, packing, transport, and use. That is why this type of fiber laser marking machine is widely used for part codes, QR codes, product information, and long-term identification.
Suitable for serial numbers and tracking codes
Useful for product identification and after-sales traceability
Applicable to logos, text, and machine-readable codes
This fiber laser marking machine for metal is mainly used on stainless steel, carbon steel, aluminum, anodized aluminum, brass, copper, titanium, and selected coated surfaces. Final results vary with surface finish, reflectivity, required contrast, and marking content. In practice, sample testing is the most reliable way to confirm the right setup.
| Material Category | Material | Typical Suitability |
|---|---|---|
| Metal | Stainless steel | Suitable |
| Metal | Carbon steel | Suitable |
| Metal | Aluminum / anodized aluminum | Suitable |
| Metal | Brass | Suitable |
| Metal | Copper | Conditional |
| Metal | Titanium | Suitable |
| Other | Coated or plated surfaces | Depends on application |
This machine is commonly used where the mark needs to remain on the product itself. Typical work includes hardware identification, motor housing coding, logo marking on metal accessories, product information on aluminum parts, and selected coding applications on coated or engineered surfaces.
Used for product codes, part numbers, logos, and identification marks on hardware fittings and tool components.
Suitable for QR codes, serial numbers, and tracking information on motor housings and other industrial parts.
Useful where compact assemblies need readable coding in limited space without changing the overall product layout.
Applied to logos, product details, and identification marks on metal parts where a direct surface mark is preferred.
Can be used for coding and product information on selected pipe and extrusion-related applications depending on the material.
Suitable for selected coated surfaces where brand marks, product information, or decorative identification is required.
1064 nm pulse fiber laser platform for metal marking applications
Available power options: 30W / 50W / 100W / 200W
Optional marking field from 110 × 110 mm up to 300 × 300 mm
Suitable for serial numbers, logos, barcodes, QR codes, and traceability marks
Air-cooled design for routine industrial use
Optional accessories depending on workpiece form and workflow requirements
| Model | HF10XX |
| Laser Power | 30W / 50W / 100W / 200W |
| Laser Type | Pulse fiber laser |
| Wavelength | 1064 nm |
| Marking Area | 110 × 110 / 150 × 150 / 200 × 200 / 250 × 250 / 300 × 300 mm |
| Marking Depth | ≤0.01 mm |
| Marking Speed | ≤10000 mm/s depending on configuration and application |
| Line Width | 0.01–0.2 mm |
| Minimum Character Size | 0.015 mm |
| Repeat Accuracy | 0.01 mm |
| Cooling Method | Air-cooled |
| Expected Laser Source Life | >100,000 hours |
| User Interface | Touch panel / PC |
| Consumables | No |
| Working Temperature | 0–45℃ |
| Power Consumption | 700W |
| Electrical Requirement | L/N/PE 100–240 VAC, 50/60 Hz |
Stainless Steel Sample
Jewelry Sample
Aluminum Alloy Sample
Coated Surface Sample
The base machine is only part of the final setup. Depending on the workpiece and workflow, accessories may be needed to make loading, positioning, or batch handling more practical.
Helps adjust working height more easily when products vary in thickness or fixture height.
Useful where the workstation needs cleaner air management during repeated or continuous marking.
Suitable for manual or semi-automatic operation where hands-free triggering improves handling.
Can be considered for batch or semi-automatic marking processes where product flow needs to be managed more efficiently.
It is mainly used for permanent marking on metal parts, including serial numbers, logos, QR codes, barcodes, product information, and traceability content.
Typical materials include stainless steel, carbon steel, aluminum, anodized aluminum, brass, copper, titanium, and selected coated surfaces. Final results depend on the actual part condition and marking requirement.
The right option depends on material type, marking speed, part size, and the effect you need. In most cases, sample-based evaluation is the most practical way to confirm configuration.
Yes. A rotary device can be added for rings, tubes, cups, and other cylindrical workpieces.
It helps to provide the material, product photo, marking area, marking content, and expected output. That makes it easier to recommend a setup that actually fits the application.
Share your material, part size, marking content, and expected output, and we can suggest a more suitable configuration.
If needed, sample parts or drawings can also be reviewed before final selection.
Contact HND LASER for quotation and application support.
