Raycus Ultra series long focal depth cutting lasers

Raycus Ultra Series Lasers Introduction

Raycus's newly launched Ultra series lasers for long depth of focus cutting are designed to break through industry barriers! As an "all-rounder," it achieves a groundbreaking combination of long depth of focus and large focal spot size for the first time, bringing a double leap in cutting efficiency for both thin and thick plates.

High beam quality (BBP1.3), high electro-optical efficiency (42.7%), and high stability (±0.53%) lay the foundation for high-speed, high-quality cutting, significantly reducing operating costs and ensuring consistent processing quality.

The Ultra series lasers have 3 major performance advantages

1. Ultra-stable output: High stability (±0.53%) ensures consistent processing quality.

2. Extreme energy saving: High electro-optical efficiency (42.7%) significantly reduces operating costs.

3. Suitable for both thin and thick applications: High beam quality (BBP 1.3) lays the foundation for high-speed and high-quality operation.

Raycus 6 core technologies enable its "all-around" performance

1. Circular Modified Fiber: Innovation in core components effectively suppresses photo-darkening and nonlinear effects, resulting in superior performance; higher matching degree meets the requirements of high power and high beam quality.

2. Wavelength-Locked Pump Source Technology: Employing inclined multi-core and polarization combining technology, single-pump output power reaches 1400W, with power stability improved to ±0.5%, ensuring stable output from the source.

3. Photo-Darkening Suppression Technology: By optimizing fiber fabrication processes and using high-performance glass, photoelectric conversion efficiency and anti-darkening performance are significantly improved.

4. High-Brightness Single-Module Mode Control: Utilizing segmented M² control, beam quality standards are established from the design stage for modules, combining beams, and laser systems; beam quality is controlled at the system level, achieving high beam quality (M²<4, leading by 20%) and high optical efficiency (>85%, leading by 10%).

5. Unique Active Beam Control: Improves beam quality by compressing the divergence angle, converting excessive divergence light into cladding light and scattering it.

6. Focused beam reconstruction technology: The focused beam reconstruction technology is adopted to further improve beam performance; the Ultra series has a long depth of focus and a large focal spot, which significantly improves the cutting speed of both thin and thick plates.

Application performance data

1. RFL-C6000 Ultra: Compared to a standard 6kW unit, efficiency is increased by 30%-120%, with a cutting speed increase of up to 246% for 10mm brass, resulting in annual electricity savings of approximately USD 5,000 (based on 8 hours of full-load processing per workday).

2. RFL-C12000 Ultra: Compared to a standard 12kW unit, cutting efficiency for 10mm and thinner plates is increased by an average of approximately 50%, and for 10-40mm thick plates by 15%-140%, resulting in annual electricity savings of over USD 8,000 (based on 8 hours of full-load processing per workday).

3. RFL-C20000 Ultra: Average cutting speed is increased by approximately 24%, with a cutting speed increase of over 40% for 10mm and 20mm stainless steel, achieving efficiency comparable to a 30kW unit, resulting in annual electricity savings of over USD 12,000 (based on 8 hours of full-load processing per workday).

4. RFL-C30000 Ultra: Overall stainless steel cutting efficiency is improved by 25%; under nitrogen cutting conditions for stainless steel, the efficiency is on par with a 40kW machine! Annual electricity savings of over 20,000 USD (based on 8 hours of full-load processing on a weekday).