Water-Cooled Pulsed Laser Cleaning Machine – Detailed Introduction

Overview

The Water-Cooled Pulsed Laser Cleaning Machine is a high-performance industrial cleaning system designed for continuous, stable, and high-precision surface treatment. By using nanosecond pulsed fiber laser technology combined with an efficient water-cooling system, it delivers reliable cleaning performance for long operating hours and demanding industrial environments.

Compared with air-cooled models, water-cooled pulsed laser cleaners offer better thermal stability, higher duty cycles, and longer service life, making them ideal for medium- to heavy-duty laser cleaning applications.

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Working Principle

The machine emits high-energy pulsed laser beams that are selectively absorbed by surface contaminants such as rust, paint, oil, oxide layers, coatings, or residues. These contaminants rapidly heat up, expand, and detach from the substrate through vaporization or micro-explosion effects.

Because the laser operates in short pulse durations (nanosecond level):

• Heat input to the base material is extremely low

• The substrate remains intact and undeformed

• Cleaning is precise and controllable

This non-contact process ensures high cleaning efficiency with minimal material loss.

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Water-Cooling System Advantages

The integrated industrial water-cooling system provides several critical benefits:

• Stable laser output during long continuous operation

• Efficient heat dissipation for laser source and optical components

• Improved reliability in high-temperature or heavy-duty environments

• Extended laser lifespan and reduced maintenance risk

Water cooling is especially recommended for higher-power pulsed laser systems and 24/7 industrial operation.

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Key Technical Specifications (Typical)

• Laser Type: Pulsed fiber laser

• Laser Power Options: 200W / 300W / 500W / 1000W (customizable)

• Wavelength: 1064 nm

• Pulse Width: Nanosecond level (adjustable)

• Pulse Frequency: Wide adjustable range

• Cooling Method: Industrial water cooling

• Cleaning Mode: Handheld or robotic integration

• Power Adjustment: 1–100% digital control

• Power Supply: AC 380V / 220V, 50–60Hz

• Fiber Length: Standard 5–10 m (custom options available)

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Design & Configuration

• Industrial cabinet structure for stable operation

• Handheld laser cleaning head with ergonomic design

• Touchscreen control panel for parameter adjustment

• High-quality water chiller for temperature control

• Optional automation interface for robotic or production-line integration

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Applications

The water-cooled pulsed laser cleaning machine is widely used in demanding industrial scenarios:

Metal Processing & Manufacturing

• Rust and oxide removal from steel, aluminum, and alloys

• Surface preparation before welding, coating, or bonding

Mold & Tooling Industry

• Injection mold and die cleaning

• Rubber, plastic, and silicone mold residue removal

Automotive & Aerospace

• Cleaning of engine parts, gears, brake components

• Oxide and coating removal from precision parts

Shipbuilding & Heavy Industry

• Large-area rust removal

• Maintenance of steel structures and equipment

Power & Energy Industry

• Cleaning of turbines, generators, and mechanical components

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Advantages Over Air-Cooled Laser Cleaning Machines

• More suitable for long continuous operation

• Higher power handling capability

• Greater output stability

• Lower thermal stress on internal components

• Ideal for industrial-grade, high-frequency use

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Environmental & Safety Benefits

• No chemicals, abrasives, or consumables

• No wastewater or secondary pollution

• Non-contact and non-destructive cleaning process

• Reduced labor intensity and operating cost

With proper laser safety protection and fume extraction, the system provides a clean, safe, and eco-friendly working environment.

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Conclusion

The Water-Cooled Pulsed Laser Cleaning Machine is a robust and efficient solution for high-precision, high-load industrial cleaning applications. Its superior cooling performance ensures stable laser output, long service life, and consistent cleaning quality, even in demanding conditions.

It is an ideal choice for users who require powerful performance, continuous operation, and industrial-level reliability.