FC2000 | RECI 2000W Fiber Laser Source | Pendstar Laser
- Reci Laser designs and manufactures the FC series of high-power single-mode continuous-wave fibre lasers. The average power surpasses 3000W with a single resonant cavity and single-mode beam quality, overcoming the challenges of transverse mode instability (TMI), stimulated Raman scattering (SRS), and poor beam quality. Because of the high average power, numerous anti-high-reflection, high beam quality, and high electro-optic conversion efficiency, this line of products is suitable for fine cutting, metal welding, surface treatment, 3D printing, and rapid prototyping.
Features:
- High average power: up to 2000W
- Good beam quality: M2= =1.3~7
- The output fiber length is customizable
- High electro-optic conversion efficiency: >33%
Parameters:
Model | FC 2000 |
Output Power(W) | ≥2000 |
Central Wavelength(nm) | 1080±3 |
Operating Mode | CW/Modulate |
Output Power Regulation Range(%) | 10~100 |
Max Modulation Frequency(kHz) | 20 |
Power Instability(%) | < 3 |
Indicated Red Light Power(mW) | >0.5 |
Beam Delivery Optics | QBH |
Output Fiber Diameter(μm) | 30/50 |
Delivery Fiber Length(m) | 10 or 15 |
Operating Voltage(VAC) | AC 220V 50/60Hz |
Max Power Consumption(W) | <7280 |
Control Model | Ext. AD/Loc. AD |
Ambient Temperature(℃) | 5~40 |
Ambient Humidity(%) | <70 |
QBH Cooling Water Temperature(℃) | Room temperature (No condensation) |
Storage Temperature(℃) | -10~60 |
Cooling Temperature(℃) | 25 (28 in summer) |
Cooling Flow(L/min) | >20 |
Size W*H*D(mm³) (with hand-piece) | 483×125×506 |
Weight(kg) | <40 |
Industry Applications:
- Metalworking:
A. Cutting: It cuts stainless steel, carbon steel, and aluminium alloy precisely. Complex form cutting with smooth cutting edges, high precision, and small heat-affected zones is possible for metal plates and pipes. In mechanical manufacturing, car parts processing, and metal goods, it cuts metal structural parts, shells, and parts.
B. Welding: 2000W can weld thick metals. It works well on medium and thin metal plates and can be used in auto, electronics, and mechanical welding. For instance, welding vehicle bodywork, electrical casings, and mechanical parts.
C. Cladding: It can clad metal. The substrate surface’s wear, corrosion, heat, and oxidation resistance are improved by metallurgically bonding a surface coating to it by placing coating materials on it and irradiating it with a laser to melt and solidify quickly. Surface repair and strengthening of mechanical parts, moulds, rollers, etc. are common uses. - Electronic manufacturing: It can cut, drill, and weld PCBs and electronic components. It meets electronic manufacturing quality and precision standards with its high-precision processing. Including welding tiny electrical components and carving delicate PCB lines.
- Automotive manufacturing:A. Parts processing: Enhance precision, quality, and safety by cutting, welding, and cladding engine, transmission, and body parts.
B. Automobile interior manufacturing: Cuts and welds seat frames and interior panels. It improves production productivity and product quality by processing complicated shapes. - Scientific research: Materials science, physics, and chemistry employ it as a laser source. Studies of laser-matter interaction, laser processing of materials, and laser-induced chemical processes.
- Aerospace: It can weld aircraft structural parts and fix aircraft engine blades. It meets aircraft part quality and reliability standards with its high precision and energy.