Industrial fiber laser cutting and welding machines are advanced tools that use fiber optic technology to generate high-intensity laser beams.
With minimal consumables and reduced operating costs, fiber laser machines provide a cost-effective solution for high-quality material processing.
Material: Sheet and tubes
Industrial laser cutter
1,5 to 36kW
- Stable performance
- Only original brand
- Local technicians
Material: up to 5mm steel
Laser welding
Safety certified by German TÜV
Welding
Cleaning
Fiber laser steel cutting machine price in UAE
Trasparent uncomplicated pricing
Including in the machine price
- Extended warranty
- Low maintenance, local technicians
Working area 3000x1500mm to 8000x2500mm
| Material | 3kW | 4kW | 6kW | 10kW |
| Carbon steel | 20 mm | 25 | 30 | 40 |
| Stainless steel | 12 mm | 12 | 16 | 40 |
| Brass | 8 mm | 8 | 8 | 20 |
| Aluminium | 10 mm | 12 | 12 | 40 |
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Best price performance
Compare not only the purchase price, but also the total costs over the 5 years
Safety certified
by TÜV Germany
Increase your profit
All compenents original brand
Durable
Less maintenance
Open type fiber laser cutting machine price
Average price is 81k AED
Technicians here in UAE
Starting from 3kW, durable for 5 years with good low cost maintenance
Floor space 3 x 1,5 m
Location of store: Dubai Industrial Area
Get price today
Fully-enclosed fiber laser cutting machine
1,5 to 36kW
- Stable performance
- Only original brand
- Local technicians
- Metall sheet
- Tube, pipe and profiles
Improved safety and efficiency, environmental protection and larger floor space
Laser welder
Starting from 18k AED
Safety certified by German TÜV
Welding
Cleaning
Laser Welding Machine?
Yes, if safety approved —> only our machine !
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Don't miss this offer
Only AED 19,000 with many accessories
Surely you don't want to play Star Wars with the laser welding...
Buy safety certified !
Easier and faster
Excellent results
Durable quality fiber laser welding
Fiber laser manual cutting
Advantages of Fiber Laser Welding
10x faster technology, in practice 5x faster than gas welding
2x faster than other laser welding machines on the market!
Low thermal distortion, no glowing or deformation of workpieces
Smooth and beautiful weld seam up to 1m/minute
Flexible processing like never before
Materials and Weld Seam
1500W can weld up to 5mm stainless steel, aluminum or copper
2000W version up to 8mm
Automatic wire feed with 0.8 to 1.6mm filler
Weld seam up to 10mm, at max speed up to 6mm
Product Overview
Handheld laser welder capacity
500 Watt • 7/64“ G12 2.5mm
1500 Watts • 5mm thickness
2000W • 8mm
3000W for + up to
Water cooling or air cooling and portal
WPQR by AWS, LSC and CE certified by SGS
Laser Source
The performance of different laser brands varies greatly. Photoelectric conversion efficiency up to 48%.
Energy saving of more than 15%
Service and Support
Reliable with multiple locations in Europe
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Buy safety certified laser welding machine - from €6,000
1500 Watts or 3kW - welds 5 times faster
With more accessories and cooling system for 24h welding
Laser welding machines are revolutionary technology in the manufacturing industry. They use a high-energy laser beam to heat and fuse materials, resulting in a strong, permanent bond.
Laser welding technology offers several advantages over conventional welding methods. First, it enables high precision. Because the laser beam is very narrow, it can be precisely directed to the area to be welded. This reduces the risk of damage to surrounding materials and enables welding of complex or small parts.
Second, laser welding is very fast. The laser can be switched on and off in fractions of a second, resulting in high welding speed. This can significantly reduce production times and increase efficiency.
Third, laser welding creates a strong bond. The laser generates high heat that enables deep penetration into the material. This results in a strong, permanent bond that is often stronger than the original material.
Despite these advantages, there are also some challenges with laser welding. These include the high costs for purchasing and maintaining the equipment as well as the need for special training for operation. In addition, laser welding can cause problems with some materials, such as certain plastics.
Overall, laser welding is a powerful and versatile technology that has the potential to revolutionize the manufacturing industry. With the right equipment and training, it can be an efficient and effective method for manufacturing a wide variety of products.
Fiber Laser Technology
The Cutting and Welding Revolution in Modern Manufacturing
The Fiber Laser Breakthrough
Fiber laser technology has redefined industrial material processing, offering unprecedented precision and efficiency in both cutting and welding applications. Unlike traditional CO₂ lasers, fiber lasers generate their beam within optical fibers doped with rare-earth elements, producing a concentrated energy source that outperforms conventional methods in speed, quality, and operating costs.
A modern fiber laser cutting system producing intricate parts from stainless steel with micron-level precision
The adoption of fiber lasers has grown exponentially across industries due to their remarkable advantages: electrical efficiency exceeding 30%, minimal maintenance requirements, and the ability to process reflective metals without the safety concerns of CO₂ systems. These characteristics have made fiber lasers the preferred choice for manufacturers seeking to optimize their production workflows.
Fiber Laser Cutting machine for sale
Beam Generation
Diode pumps inject light into ytterbium-doped optical fibers, creating a laser beam with wavelengths around 1,070 nm - ideal for metal absorption.
Beam Delivery
Flexible fiber optic cables transport the laser to the cutting head, eliminating the complex mirror systems of CO₂ lasers.
Material Interaction
The focused beam (typically 0.1-0.3mm diameter) melts the metal while high-pressure assist gas blows away molten material.
Cutting Capabilities by Material
Carbon Steel
Clean cuts up to 30mm thick at speeds exceeding 20m/min for thin sheets with dross-free edges.
Stainless Steel
Oxidation-free cuts up to 25mm thick with minimal heat-affected zone (HAZ) for critical applications.
Aluminum
Reflective metal processing up to 20mm thick with specialized cutting heads and parameters.
Copper & Brass
Challenging reflective metals made manageable with pulsed fiber laser technology.
Fiber Laser Welding Advancements
Fiber laser welding represents a quantum leap in joining technology, offering deep penetration welds with minimal thermal distortion. The concentrated beam enables keyhole welding - creating a vapor channel through the material that produces exceptionally strong, narrow welds.
Welding Mode Comparison
| Welding Type | Beam Characteristics | Typical Applications |
|---|---|---|
| Conduction Welding | Low power density (10⁴ W/cm²) | Thin materials, cosmetic welds |
| Keyhole Welding | High power density (10⁶ W/cm²) | Deep penetration, thick sections |
| Hybrid Welding | Laser + arc combination | High-deposition applications |
| Remote Welding | Scanner-based processing | High-speed small components |
Modern fiber laser welding systems incorporate real-time monitoring using pyrometers and cameras to ensure consistent weld quality. Adaptive optics can adjust beam parameters mid-weld to compensate for joint gaps or material variations, significantly reducing defect rates.
Components of a fiber laser machine
Laser Source
Modular designs from 1kW to 20kW with water cooling and redundant diode arrays for continuous operation.
Cutting/Welding Head
Precision optics with auto-focus, capacitive height sensing, and protective window monitoring.
Motion System
Linear motor drives achieving 5g acceleration with ±0.02mm positioning accuracy.
Control System
Industrial PCs with proprietary software for path optimization and parameter management.
Industry 4.0 Integration
- Predictive Maintenance: Monitoring diode life, coolant quality, and optical component wear
- Process Analytics: Real-time weld quality assessment through plasma monitoring
- Digital Twin: Virtual system modeling for process optimization
- Automation Ready: Standard interfaces for robotic integration
Laser Applications Transforming Industries
Cutting Applications
Automotive
High-volume blanking of body panels with 0.1mm precision and burr-free edges.
Aerospace
Contour cutting of titanium components with minimal heat input to preserve material properties.
Medical
Micro-cutting of stent patterns with feature sizes below 50 microns.
Welding Applications
Battery Manufacturing
Hermetic sealing of lithium-ion battery cases with zero contamination.
Power Generation
Deep-penetration welding of turbine components in nickel superalloys.
Electronics
Precision welding of micro-components with heat input control to 10 joules.
Emerging Technologies of fiber laser
The frontier of fiber laser development continues to advance with several groundbreaking innovations:
- Ultrafast Pulsing: Picosecond and femtosecond lasers enabling cold ablation processes
- Beam Shaping: Dynamic focus optics creating custom intensity profiles
- Multi-Wavelength Systems: Combined fiber lasers targeting different material properties
- Green Fiber Lasers: 515nm wavelength for high copper absorption
- AI Process Control: Machine learning optimizing parameters in real-time
These advancements promise to further expand the capabilities of fiber laser systems, opening new applications in semiconductor processing, photovoltaic manufacturing, and advanced material development.