Service Overview
By precisely controlling the energy, spot size, and movement trajectory of the laser beam, high-precision and high-efficiency cutting of various materials can be achieved. Compared with traditional cutting methods, laser cutting offers significant advantages such as high cutting accuracy, excellent cut quality, small heat-affected zone, fast processing speed, and the ability to cut complex shapes.
Our laser cutting equipment utilizes advanced laser generators and precise CNC systems, capable of stably outputting high-power, high-quality laser beams. Our automated laser cutting service integrates an FMS system, supporting 24-hour continuous production. Our professional technical team possesses extensive experience and expertise in laser cutting, and can precisely adjust processing parameters based on the characteristics of different materials and the specific requirements of our customers, ensuring cutting quality and efficiency. Whether it’s thin sheet cutting or thick plate processing, whether it’s regular shapes or complex irregular parts, we can provide our customers with high-quality, high-precision laser cutting services.
Processing capacity
| Category | Describe |
| Maximum cutting thickness | Metal materials: Stainless steel 20mm, carbon steel 25mm, aluminum alloy 10mm (special cases can be negotiated) |
| Minimum cutting size | 0.5 × 0.5 mm (customizable) |
| General tolerances | Cutting dimension tolerance: ±0.1mm; Cutting straightness tolerance: ±0.2mm (this is consistently achieved with standard processing; further optimization is possible for special requirements). |
| Delivery date | For small-batch orders, the lead time is 5-10 days, subject to actual project assessment. |
| Customized services | The materials that can be processed include stainless steel, carbon steel, alloy steel, aluminum alloy, copper alloy, titanium alloy, and other metal materials. We support various cutting methods, including two-dimensional planar cutting and three-dimensional volumetric cutting. For thick-plate stainless steel laser cutting, we optimize auxiliary gas parameters to ensure a dross-free cut on 25mm carbon steel. If you require consultation on laser cutting processes for thin-walled parts, our engineers can provide optimized solutions to prevent deformation. |
Our advantages
- Quality Assurance System: We have established a rigorous quality control process, from material inspection before cutting and real-time monitoring during the cutting process to dimensional and quality inspection after cutting, ensuring that every cut piece meets quality standards. We utilize advanced testing equipment, such as laser thickness gauges and image measuring instruments, to ensure the quality of the cutting process.
- Non-contact processing: During laser cutting, the laser beam does not come into direct contact with the workpiece, thus avoiding mechanical stress and deformation. This makes it particularly suitable for processing thin-walled parts, easily deformable parts, and materials that require high surface integrity.
- Flexible processing adaptability: It can cut parts of various shapes, whether simple straight lines and circles, or complex curves and irregular patterns, easily achieving laser cutting of irregularly shaped metal parts. It can also provide customized cutting services according to customer needs, meeting the diverse product design requirements of different industries.
- High-efficiency processing speed: Laser cutting offers fast processing speeds, enabling rapid prototyping for small batches and high processing efficiency. This significantly shortens production cycles, especially for large-scale production. Furthermore, the equipment features a high degree of automation, allowing for continuous and stable cutting operations with minimal human intervention.
- High-quality cutting results: The cuts are narrow and smooth, free of burrs and slag, with a small heat-affected zone. The cut parts require little to no subsequent processing. For materials requiring high surface quality, such as stainless steel decorative panels, it effectively guarantees the appearance quality and performance of the product, resulting in burr-free cuts.
- High-precision cutting: The laser beam, when focused, produces a very small spot, enabling high-precision cutting and positioning. The high cutting accuracy meets the demanding requirements of precision parts processing, such as the cutting of electronic components and the machining of precision mechanical parts.
Application areas
Electronics Industry
Used for cutting the packaging shells, circuit boards, and shielding covers of electronic components. Its high precision and low heat-affected zone characteristics effectively protect the performance of electronic components and improve the reliability and stability of electronic products.
Automotive Industry
Cutting of automotive body parts, interior components, chassis parts, etc. The high precision and efficiency of laser cutting help improve the quality and production efficiency of automotive parts, meeting the needs of large-scale, high-quality production in the automotive industry. As a laser cutting supplier for automotive parts, we provide distortion-free cutting solutions for body sheet metal parts, suitable for mass production requirements.
Mechanical Manufacturing Industry
Cutting various mechanical parts, such as sheet metal parts, flanges, gears, shafts, etc. It can improve the processing accuracy and production efficiency of parts, reduce subsequent processing steps, and is an indispensable processing method in mechanical manufacturing.
Frequently Asked Questions
Do parts processed by laser cutting require subsequent heat treatment?
In most cases, parts cut by laser do not require subsequent heat treatment. This is because laser cutting produces a small heat-affected zone, resulting in relatively little thermal deformation and residual stress. However, for some materials with special requirements regarding residual stress and microstructure (such as certain high-strength alloys), appropriate heat treatment may be necessary to improve performance, depending on the specific circumstances.
What factors affect the cutting speed in laser cutting processes?
Laser cutting speed is affected by various factors, mainly including laser power, material type and thickness, cutting method (such as pulsed cutting or continuous cutting), and the type and pressure of the assist gas. Generally, higher laser power, thinner materials, and appropriate assist gas lead to faster cutting speeds.
What difficult-to-process materials can be cut using laser cutting?
Laser cutting can process materials that are difficult to handle with traditional machining methods, such as high-hardness cemented carbides and high-melting-point tungsten-molybdenum alloys. By rationally adjusting laser parameters and auxiliary processes, effective cutting of these materials can be achieved. For example, in the precision laser cutting technology for titanium alloys, we use nitrogen protection to prevent oxidation and ensure the cutting quality of aerospace parts.