Laser cleaning is a modern, non-contact cleaning technique that uses a focused laser beam to remove contaminants and rust. Laser rust removal is more precise and environmentally friendly than traditional methods that use abrasives or harmful chemicals. Instead, excess layers are heated and evaporated by the laser beam without damaging the underlying material, making it a preferred choice for industries that demand highly precise surface cleaning.
The main advantage of laser cleaning is its precision. Treatments can be finely controlled and targeted to precise areas such that surrounding areas are not affected. Therefore, this technique is best for parts with small dimensions or highly sensitive components and materials that can be damaged by traditional methods.
The flexibility of laser rust removal also includes a very versatile working mechanism, including most metals, plastics, ceramics and composites. Laser rust removal is used as part of machinery maintenance in the aerospace and automotive industries to prepare surfaces to ensure a flawless bond for welding or coating. Industrial cleaning using lasers to restore heritage, laser rust removal removes rust, dirt while preserving the original structure and details.
From an operational perspective, laser cleaning solutions are both efficient and cost-effective. They produce minimal waste and require less maintenance compared to traditional cleaning methods, reducing labor-intensive efforts. These advantages, as well as their environmental sustainability, make laser cleaning a great cutting-edge solution for industries that focus on precision, safety, and environmentally conscious practices.
Category: Laser Cutting, Sheet Metal Fabrication, Turnkey Solution
We use advanced Laser cleaning technology to provide top-quality surface preparation and restoration. Our systems, including both standalone and handheld options, are tailored for specific materials and tasks, ensuring precise and consistent results.
Our standalone systems are perfect for large-scale or automated jobs. They excel at removing rust, paint, coatings, and contaminants from metals like steel, aluminum, and iron. The process is efficient and gentle, making it suitable for delicate surfaces that require non-abrasive treatment.
For more flexible tasks, our handheld systems offer mobility and ease of use on-site. They are particularly effective for cleaning hard-to-reach areas and work well on metals, plastics, and ceramics. These systems deliver thorough cleaning while protecting the base material.
We provide reliable surface treatment with minimal damage. Whether for small-scale restoration or large industrial projects, our systems offer trusted solutions to meet your needs.
System Type
Standalone
Max Laser Power
100 W
Peak Power
2 kW
Cleaning Area
300 x 300 mm
Min Cleaning Thickness
0.05 mm
Max Part Size
1000 x 500 x 500 mm
Min Part Size
10 x 10 x 0.4 mm
Part Qty
1 - 1,00,000
Minimum Lead Time
Next Day
Standard Lead time
3 Days
Materials Suitable for Cutting: Carbon Steel, Stainless Steel, Aluminium, Brass, Copper, Titanium, Inconel, Galvanized Steel, High-Speed Steel (HSS), Alloy Steels, Nitinol, Gold, Silver, Platinum, Superalloys.
Auxiliary Support: Fixturing, De-Oxidation
System Type
Handheld
Max Laser Power
1.5 kW
Laser Spot Size
0.2 - 2 mm
Cleaning Width
100 mm
Min Cleaning Thickness
0.1 mm
Max Part Size
2500 x 2500 x 500 mm
Min Part Size
100 x 100 x 0.5 mm
Part Qty
1 - 1,00,000
Minimum Lead Time
Next Day
Standard Lead time
3 Days
Materials Suitable for Cutting: Carbon Steel, Stainless Steel, Aluminium, Brass, Copper, Titanium, Inconel, Galvanized Steel, High-Speed Steel (HSS), Alloy Steels, Nitinol, Gold, Silver, Platinum, Superalloys.
Auxiliary Support: Fixturing, De-Oxidation, Grinding
We offer laser cleaning services that provide precise, non-contact surface preparation for a variety of materials. Our advanced laser cleaning technology effectively removes rust, coatings, and contaminants without damaging the base material. The table below highlights the compatibility of different materials with laser cleaning, showcasing the process’s effectiveness on a range of surfaces and the expected cleaning quality.
Laser Cleaning Compatibility Table: This table demonstrates how laser cleaning interacts with different materials, offering insights into the process’s efficiency and surface preservation.
Laser Cleaning Compatibility Table
Material | Cleaning Efficiency | Surface Preservation | Notes |
Stainless Steel | Very High | Excellent | Effective for removing rust,
coatings, and contaminants |
Carbon Steel | High | Good | Requires control to avoid surface
roughness |
Aluminum | Medium | Excellent | Gentle cleaning, care needed to avoid
surface damage |
Copper | High | Good | Effective for oxide layer removal |
Brass | High | Excellent | Efficient for removing oxidation
without surface damage |
Titanium | High | Excellent | Maintains surface quality while
cleaning efficiently |
Cast Iron | Medium | Fair | Requires caution to prevent surface
pitting |
Rubber | Low | Poor | May cause degradation or melting |
Plastics | Low | Poor | Not recommended due to melting risk |
Wood | Medium | Fair | Can char or burn if not carefully
controlled |
Stone (e.g., Marble) | Very High | Excellent | Effective for graffiti removal and
surface restoration |
Glass | Medium | Excellent | Suitable for removing contaminants
without scratches |
Ceramics | High | Excellent | No surface damage, efficient
contaminant removal |
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