YAG-LP-80

The YAG-LP-80 is an Nd:YAG long-pulse laser with an adjustable laser pulse width ranging from 0.5ms to 300ms and a maximum energy output of 80J. It is primarily used for applications such as semiconductor heating and igniting metal powders.

YAG-LP-80 Long-Pulse Nd:YAG Laser

The YAG-LP-80 is an industrial-grade long-pulse Nd:YAG laser designed for applications that require low repetition rates and stable single-pulse energy. With wide pulse-width tuning and excellent beam quality, it ensures consistent results in deep welding, surface hardening, material modification, and laboratory research. The modular design reduces maintenance time and cost, while industrial-grade cooling guarantees long-term stable operation.

Key Features

• ·  Stable single-pulse energy output for high process repeatability.

• ·  Wide pulse-width tuning from milliseconds to tens of milliseconds to meet diverse applications.

• ·  Excellent beam quality with low M² for improved focusing and reduced heat-affected zones.

• ·  Modular architecture for quick servicing and easy spare part replacement.

• ·  Industrial cooling system for reliable long-term operation.

• ·  Process support, sample testing, and parameter optimization available on request.

Typical Applications

• ·  Deep metal welding and penetration of thick plates.

• ·  Surface hardening and thermal treatment of alloys.

• ·  Surface modification, cleaning, and texturing.

• ·  Laboratory research and material performance studies.

• ·  Precision welding of medical devices and fine components.

Certificates and Safety

The YAG-LP-80 is classified as a Class 4 laser. Proper protective eyewear and safety enclosures are required during operation. The system complies with international standards such as IEC 60825-1 and can be supplied with CE and ISO certifications as applicable. A detailed Safety Guide is available for download to support safe installation and daily use.

FAQ

• Which materials can it process?
  Suitable for stainless steel, carbon steel, aluminum, copper alloys, and other metals.

• What is the impact of pulse width and repetition rate?
  Pulse width defines the heat input window; longer pulses are ideal for penetration welding, while repetition rate influences processing speed and cumulative heat effects.

• Do you provide sample testing?
  Yes, we provide sample testing and process reports, with optional video demonstrations.

• What is the maintenance cycle?
  Routine checks are recommended every 6–12 months for optics and cooling systems. Spare parts such as pumping modules, cooling units, and Q-switch components are readily available.

• Can the system be customized?
  Yes, options include fiber output, different focusing lenses, and custom pulse shapes to meet specific process requirements.