FAQ with the: Fiber Lasers for Additive Manufacturing

Essential fiber laser maintenance steps include:
Cleaning the protective lens and optical components
Checking cooling systems and airflow
Inspecting fiber connections and cables
Monitoring power output and beam quality
Updating software and control systems
Regular attention to these steps ensures stable and efficient operation.

When discussing fiber laser vs CO2, the main difference lies in their wavelength, efficiency, and application range. Fiber lasers operate at a shorter wavelength (~1060 nm), which is highly absorbed by metals, enabling faster and more efficient processing. CO2 lasers operate at around 10,600 nm and are better suited for cutting non-metal materials such as wood, acrylic, and textiles. Additionally, fiber lasers require less maintenance and consume less energy compared to CO2 systems.

AM laser is a specialized laser launched by our company for the 3D printing industry, which can currently be applied in fields such as aerospace, automotive manufacturing, molds, industrial design, medical biology, etc.

Our entire company’s R&D team has over 80 people (you can research and write this number based on the actual number of R&D personnel in the company), with a dedicated R&D team for additive products of over 30 people, including technical personnel from various research institutes and universities under the 985.211 project. Additive laser products are independently developed by combining multiple technical talents and engineers.

1. High power stability and perfect precision control: printing power stability of ± 1%, improving printing accuracy; Laser power 5% -100% proportional linear output debugging.

2. High electro-optical conversion rate up to 52%.

3. Strong control compatibility: The laser control interface has strong logical compatibility, making it convenient for various applications to expand.

4. Strong environmental adaptability and high reliability: It has passed various national standard tests (such as high temperature and low temperature, transportation vibration, dripping, salt spray, etc.)