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Product Type: Mini industrial fiber laser welding machine
Main Use: Precision welding for stainless steel, carbon steel(MS), aluminum alloy, galvanized sheet, and other common metal parts
Core Advantage: Small footprint, convenient movement, and better adaptability to different product structures,replace traditional MIG welding equipment in certain applications
Typical Users: Metal fabrication shops, hardware manufacturers, custom metal part suppliers, and factories with limited workspace,entrepreneurs, small studios
In many factories, the real question is not only how to complete the weld, but how to fit the machine into the actual production environment. Some workshops have limited floor space. Some production lines change layout frequently. In other cases, the parts themselves are not uniform, so one fixed welding setup is not always practical.
This mini industrial fiber laser welding machine is intended for that type of working condition. The compact machine body takes up less space, which makes workshop planning easier. It is also more convenient to move when the welding position changes or when one machine needs to support more than one work area.
As a fiber laser welding machine, it is designed for precision welding on common metal parts while keeping the equipment structure practical for daily production. For buyers comparing a standard laser welding machine with a larger industrial system, this model is usually considered when flexibility and space use are part of the decision.
A mini laser welding machine is often chosen when a standard industrial system would take up too much room in the workshop.
When the welding point is not fixed in one place, easier movement becomes a practical advantage.
This machine is more suitable for production where parts do not all follow the same structure or welding layout.
Buyers usually look at whether the machine can stay practical, manageable, and stable in everyday production.
In smaller factories, equipment size affects more than storage. It also affects how operators move, how materials are transferred, and whether the production line can be adjusted later.
How this machine helps: Its smaller footprint makes it easier to place in limited workshop areas without creating unnecessary pressure on layout planning.
Some manufacturers do not run one fixed welding task all day. The machine may need to support different stations or different product lines.
How this machine helps: Compared with larger equipment, a compact laser welding machine is easier to move and reposition when production needs change.
In real production, one workshop may handle cabinets, frames, housings, brackets, and custom metal parts in the same week. That makes flexibility more important than a one-task-only setup.
How this machine helps: This industrial laser welding machine is better suited to production where part structures vary and where one machine needs to support more than one welding condition.
B2B buyers usually care about practical questions: whether the weld is consistent, whether the machine fits the line, whether workers can manage it, and whether it can keep running steadily over time.
How this machine helps: As a fiber laser welding machine, it is intended to provide a more controlled welding process for common metal work without forcing the buyer into a larger system than the job actually requires.
The exact setup should match the material, part structure, welding target, and production requirement. The following table keeps the previously confirmed technical items, while options may vary depending on configuration.
| Model | NCW1500 / NCW2000 / NCW3000 |
| Laser Wavelength | 1080nm |
| Laser Power | 1500W / 2000W / 3000W |
| Optical Fiber Length | 10m (default for 1500W/2000W), 20m (default for 3000W) |
| Welding Head Type | Double wobble (default) |
| Wobble Shapes | Point, Circle, Line and other shapes |
| Cooling Method | Water cooling |
| Protective Gas | Argon / Nitrogen |
| Max. Air Pressure | 0.6 Mpa |
| Electricity Supply | 380V / 50Hz |
| Max. Power | 8KW / 11KW / 15KW |
| Arm Length | 920mm |
| Loading Weight | 20KG |
| No. Control Axes | 6 |
| Max Reach | 1725mm |
| Position Repeatability | ±0.04mm |
| Motion Range | J1: ±170° / J2: -140° to +80° / J3: -75° to +200° / J4: ±190° / J5: ±130° / J6: ±360° |
| Max Speed | J1: 300°/s / J2: 300°/s / J3: 400°/s / J4: 550°/s / J5: 560°/s / J6: 975°/s |
| Motor Output | J1: 2kw / J2: 2kw / J3: 0.675kw / J4: 0.2kw / J5: 0.2kw / J6: 0.2kw |
| Weight | ≈230kg |
| Installation | Ground, hanging |
| Protection Level | Wrist: IP67 / Base axis: IP65 |
| Ambient Temperature | 0~45°C |
| Ambient Humidity | Usually below 75%RH, short-term below 90%RH |
| Vibration Acceleration | Below 4.9m/s⊃2; (0.5G) |
| Electronic Control Box Specification | Three-phase 380VAC, 50Hz / 60Hz, 1200mm × 1400mm × 2000mm |
The table below provides the previously confirmed welding thickness reference. Actual weldability still depends on material condition, joint design, process settings, and the required welding result.
| Power | Material | Stainless Steel | Carbon Steel | Galvanized Sheet | Aluminum |
| 1500W | Max. welding thickness | 3mm | 3mm | 3mm | 3mm |
| 2000W | 5mm | 5mm | 5mm | 4mm | |
| 3000W | 7mm | 7mm | 7mm | 5mm | |
| 100% penetration with one-sided welding | |||||
This laser welding machine is mainly intended for common industrial metal materials. Actual welding performance depends on material thickness, joint structure, surface condition, and process settings.
| Material Category | Material | Reaction |
|---|---|---|
| Metal | Stainless steel | √√ |
| Aluminum | √ | |
| Anodized aluminum | √√ | |
| Brass | √ | |
| Nickel alloy | √√ | |
| Copper | √ | |
| Galvanized steel | √ | |
| Gold, silver, nickel, platinum | √√ | |
| Carbon steel | √√ | |
| Titanium | √√ | |
| Gold | √ |
Excellent Reaction: √√ Good Reaction: √ Poor Reaction: -
The following sample images show common material directions related to this type of laser welding machine. Actual welding results still depend on material thickness, joint design, fixture condition, and parameter settings used in production.
Stainless steel
Carbon steel parts
Brass
Aluminum
Copper
The machine is usually considered for production environments where the welding task is repeated, the parts are metal-based, and the buyer needs a more manageable equipment size than a larger automated system.
Suitable for cabinets, frames, brackets, housings, and other fabricated metal parts that require a controlled welding process.
Useful for factories producing different hardware parts where part structure and welding positions may vary from one job to another.
A practical option when the workshop handles more than one type of part and needs a welding machine that is easier to adapt.
Often considered when the buyer needs industrial welding capability without giving too much floor space to the machine itself.
Different production tasks may require different machine structures. If the application is not suitable for this compact model, other laser welding machine solutions can be considered according to part size, material type, welding position, and output requirement.
Yes, that is one of the main reasons buyers consider this type of machine. A smaller laser welding machine is easier to place in limited workshop space and is often more practical when the production layout cannot accommodate a larger system.
It is intended for that kind of use. In many factories, one machine needs to support more than one part structure. Even so, the final welding result still depends on the material, thickness, joint design, and process settings used in actual production.
Common applications include stainless steel, carbon steel, aluminum, and galvanized sheet. Other metal materials may also be possible, but the suitability should be judged according to the actual welding requirement and confirmed configuration.
In most cases, the key points are the main material, part size, joint type, required weld result, and how the machine will be used in the workshop. These factors are usually more important than comparing one isolated specification.
Daily checks usually focus on the welding head area, protective parts, cable condition, cooling condition, gas supply if used, and overall machine cleanliness. Stable daily maintenance helps keep the welding process more predictable and reduces unexpected downtime.
