RECI FC12000D Fiber Laser Source 12000W | Pendstar Laser
- It provides high-quality laser output for a variety of applications. Its tremendous power makes it excellent for metal processing, ensuring accuracy and efficiency. Its versatility and dependability make it a great tool in industrial settings.
Features:
- High average power: up to 12,000 W
- Good beam quality: M2= =1.3~7
- The output fiber length is customizable
- High electro-optic conversion efficiency: >33%
Parameters:
Model | FC 12000 |
Output Power(W) | 12000 |
Central Wavelength(nm) | 1080±3 |
Operating Mode | CW/Modulate |
Max Modulation Frequency(kHz) | 20 |
Power Instability(%) | < 3 |
Red Laser | Yes |
Beam Delivery Optics | Q+ /LOE |
Output Fiber Diameter(μm) | 100 |
Operating Voltage(VAC) | 380V±10%、50/60HZ |
Delivery Fiber Length(m) | 20 |
Operating Voltage(VAC) | 380V±10%、50/60HZ |
Max Power Consumption(W) | 35000 |
Control Model | Ext. AD/Loc. AD |
Power Range(%) | 10~100 |
Ambient Temperature(℃) | 5~40 |
Ambient Humidity(%) | <70 |
QBH Cooling Water Temperature(℃) | Room temperature |
Cooling Temperature(℃) | 25(Summer 27) |
Size W*H*D(mm³) | 482.6×169×1173 |
Weight(kg) | <100 |
Applications:
The RECI 12000W laser source has a variety of applications.
In metal processing, it is particularly useful for cutting big metal plates and complex shapes with high precision and speed. It can be utilised in industries like shipbuilding, where massive steel plates must be cut precisely. It is capable of welding heavy-duty metal structures, resulting in robust and long-lasting welds. In metal fabrication, it aids in the production of large-scale metal components for machinery and construction.
It has applications in the automobile industry, including as cutting and welding car body pieces. The high power enables efficient processing of thicker materials, increasing production efficiency and quality. It can also be used to make aeronautical components, which require high precision and strength.
The RECI 6000W laser source has a wide range of applications in scientific research. For example, it can be used to investigate the interaction of lasers with various materials and to develop novel manufacturing procedures.
Furthermore, it can be employed in the manufacture of industrial equipment and large-scale infrastructure projects. Its power and versatility make it an indispensable tool for a wide range of industries.