FL-C Laser Cutting Machine
The FL-C laser cutting machine delivers high-precision, high-speed cutting with advanced fiber laser technology, a sturdy build, and user-friendly controls for superior performance.
Providing ultra-fine cuts with minimal deviation, enabling the fabrication of complex shapes, intricate patterns, and delicate metals.
Operates at significantly higher speeds than CO2 lasers, boosting production efficiency and reducing turnaround time for orders.
They consume less electricity and require minimal maintenance, thus reducing long-term production costs.
Handles a wide range of metals—stainless steel, carbon steel, aluminum, brass—with consistent quality across varying thicknesses.
Built with robust components for long-term operation under tough conditions, minimizing downtime and maximizing productivity.
Producing fewer emissions, cleaner edges, and environmentally responsible manufacturing without compromising quality.
| Model | FL3015C | FL4015C | FL4020C | FL6015C | FL6025C |
| Cutting Range | 3000*1500mm | 4000*1500mm | 4000*2000mm | 6000*1500mm | 6000*2500mm |
| Laser Type | Fiber Laser | ||||
| Laser Power | 1500-6000W | ||||
| Laser Generator | Raycus/Max/IPG | ||||
| Laser Cutting Head | Raytools | ||||
| Servo Motor And Driver | Delta | ||||
| Servo Motor Power | 1500W-3000W: XY=750W, Z=400W; 6000W: XY=850W, Z=400W |
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| Guide Rails | Taiwan Linear Rails | ||||
| X, Y-Axis Rack | Deutschland | ||||
| X, Y-Axis Gear | Germany Atlanta | ||||
| X, Y-Axis Reducer | Shinpo/Motoreducer | ||||
| Max Acceleration | 0.8G | ||||
| Max Linkage Speed | 70m/min | ||||
| Z-Axis Travel | 100mm | ||||
| Positioning Accuracy | 0.05mm | ||||
| Repositioning Accuracy | 0.03mm | ||||
| Control System | FSCUT | ||||
The lead time for our fiber laser cutting machine is typically 30 to 40 working days, covering the entire process from order confirmation to shipment. This timeframe ensures that every machine undergoes thorough manufacturing, assembly, and quality control before delivery. The production process begins with order confirmation, where design specifications and technical requirements are finalized. Standard models generally follow the expected lead time, while customized configurations may take longer due to additional engineering and component sourcing.
While the standard lead time remains within 30 to 40 working days, several factors can affect the actual delivery schedule. Custom orders with special features or additional accessories may require extended production time. Additionally, the availability of specific components and the overall factory workload can influence manufacturing speed. Bulk orders may take slightly longer due to increased quality control measures. External factors such as supply chain disruptions or peak production periods can also play a role. Once the machine is ready for dispatch, shipping duration depends on the chosen transportation method and the destination.
For those needing an expedited process, we recommend confirming orders early to secure a production slot, selecting standard models with minimal customization, and working closely with our team to explore the fastest shipping options. By following these steps, we can help reduce delays and ensure a smooth and timely delivery.
Selecting the best laser cutting machine depends on several factors, including the type of materials you work with, required precision, production volume, and budget.
Selecting the best laser cutting machine depends on multiple factors, including material type, thickness, size, accuracy needs, production volume, budget, and automation features. For cutting metals, fiber lasers provide the best efficiency, while CO2 lasers are better suited for non-metal applications. A well-chosen laser cutter ensures optimal performance, cost-effectiveness, and long-term reliability based on your specific manufacturing needs.
Laser cutting machines are widely used for precision cutting in industries such as metal fabrication, automotive, and electronics. To ensure seamless operation, these machines support a range of file formats that cater to different design software and user requirements.
The compatibility of laser cutting machines with multiple file formats makes them adaptable for various industries, from industrial manufacturing to artistic design. Choosing the right file format ensures precise cuts, minimal errors, and high-quality output. For the best results, always use vector-based files such as DXF, AI, and DWG, as they maintain design accuracy and allow smooth cutting operations.
We offer a comprehensive warranty policy to ensure reliable performance and long-term support for our laser cutting machines. Below is a detailed breakdown of our warranty coverage, including the warranty period, terms and conditions for different components, and how customers can apply for warranty service.
Our laser cutting machine has a 3-year warranty on the entire machine, a 2-year warranty on the laser generator, and a 1-year warranty on core components. This structured warranty ensures that customers receive high-quality support and service. To maintain the performance of the machine and extend its life, we recommend regular maintenance and correct operation. If any problems arise, our technical support team can assist with troubleshooting and warranty claims.
Our laser cutting machines meet international quality, safety, and regulatory standards, ensuring reliability, compliance, and customer confidence. Below is a detailed overview of the key certifications our machines hold and their significance.
Our laser cutting machines are certified to meet international quality and safety standards, including ISO 9001, CE, and FDA certifications. These certifications ensure that our machines are manufactured with strict quality control, meet European safety regulations, and comply with U.S. laser safety requirements. Customers can be assured of high performance, reliability, and legal compliance when purchasing and operating our machines.
On-site technical support is available for laser cutting machines, providing customers with hands-on assistance for installation, troubleshooting, training, and maintenance. However, this service comes at an additional cost. The standard service fee is US$200 per day, and customers are also responsible for covering the engineer’s round-trip airfare, board, lodging, and local transportation if required. This ensures that customers receive expert guidance directly at their facility to maximize machine performance and minimize downtime. The process for requesting on-site support involves contacting customer service, providing details of the issue, receiving a cost estimate, and scheduling an engineer visit. While on-site service is a valuable option, customers can also choose remote support, which includes troubleshooting via phone, email, or video calls, as well as access to online training materials and documentation at no additional cost. If in-person assistance is necessary, we are ready to arrange a visit to ensure the machine operates efficiently and reliably.
Every Faster Laser machine is built with the latest advancements, ensuring precise cuts, faster operation speeds, and the ability to handle complex designs effortlessly.
We use only premium-grade materials and components, ensuring that every machine delivers consistent performance and maintains durability under heavy use.
Our team works closely with each customer to develop tailored laser cutting solutions that meet specific production needs and business objectives.
Faster Laser provides thorough training, responsive technical support, and ongoing maintenance services to keep your machines running at peak efficiency.
We offer high-quality laser cutting machines at competitive prices, ensuring you get maximum performance and long-term value from your investment.
With years of expertise and a strong global client base, Faster Laser has built a reputation for reliability, innovation, and customer satisfaction.
8 reviews for FL-C Laser Cutting Machine
Michael –
Our automotive contracts demand repeatability, and the fiber laser meets those audits with ease. Edge hardness stays low, preventing micro-cracks during subsequent bending. Cut part geometry matches CAD within microns. The built-in camera gives a clear view of the process, allowing instant root-cause checks if something drifts off spec.
Maria –
We replaced two plasma tables with one unit and immediately noticed tighter kerfs, lower dross, and half the electricity costs. Nesting software helps save sheet material, cutting scrap by nearly 12 percent. Operators praise the auto-focus head for handling mixed gauges without manual tweaks. Training new staff took just two afternoon sessions.
Xander –
Live demos close deals quickly. The machine boots fast and loads sample programs from a USB stick. Cutting six-millimeter aluminum while we chat impresses visitors. Noise insulation lets conversations continue without shouting. Potential clients trust the capability because they see it firsthand rather than in marketing brochures.
Daniel –
I appreciate the modular design—optic chains and filters slide out without special tools. Predictive alarms flag consumables early, so I can replace them before failure. The fiber source has shown zero power drop over a full year. Minimal grease points keep service time to a few minutes each week.
David –
I run small batches of custom brackets in carbon steel. The fiber laser’s rapid pierce time means jobs that once filled a shift now finish before lunch. Maintenance is mostly lens wipes and checking the coolant. The light path stays stable, so program changes don’t require test cuts. Clients notice the cleaner edges.
Emily –
Prototype turnaround used to be a bottleneck, but now I can export DXF, upload it, and see the part in my hand inside an hour. Thin copper projects that warped on other machines remain perfectly flat. The intuitive control panel means I rarely need help from the shop floor crew.
Yvonne –
Stainless chassis cut on this machine fit assembly jigs without rework. Edge smoothness keeps handlers safe, reducing glove costs. The nesting wizard prints part labels that simplify kitting. By switching to nitrogen-rich shop air for medium gauges, we cut gas expenses further while maintaining flawless cosmetic finishes.
John –
After eight months of daily use, this laser cutting machine still holds ±0.02 mm tolerance on stainless steel. Cut edges stay smooth, so finishing crews work faster. The touchscreen menu is clear, and software updates install in minutes. Support answers emails within an hour, even on weekends. Downtime has effectively disappeared.