| Quantity: | |
|---|---|
NHY-L0013
NHY
| Item | Specification |
| Process Method | High-Precision Fiber Laser Cutting (non-contact processing, no material deformation) |
| Processable Materials | Stainless steel, carbon steel, aluminum, brass, copper, galvanized steel, aluminum alloy |
| Available Thickness | 0.3mm – 17mm (adjustable according to material performance and design requirements) |
| Cutting Precision | ±0.02mm tolerance, ensuring precise fit and efficient assembly |
| Cutting Surface | Burr-free, smooth edge, no deformation, no surface scratches or damage |
| Processing Format | Support DXF, DWG, CAD, PDF design files; accept hand-drawn sketch customization |
| Production Mode | Prototype development, small-batch trial production, large-scale mass production |
Our laser cutting process adopts intelligent digital control technology, achieving a cutting tolerance of ±0.02mm. This high precision ensures that each finished metal part fits perfectly with your assembly components, eliminating the need for secondary trimming, adjustment, or modification—effectively saving your labor costs and improving production efficiency.
The non-contact laser cutting method avoids direct friction between the cutting tool and the metal surface, resulting in burr-free, smooth, and flat cutting edges. This excellent surface finish not only enhances the aesthetic value of the product but also reduces the workload of secondary processing (such as grinding, polishing, and deburring), helping you save time and resources.
Compared with traditional mechanical cutting technologies, our laser cutting equipment can easily process complex shapes, irregular contours, hollow patterns, and non-standard parts that are difficult to achieve with conventional methods. We fully support personalized customization, turning your unique design concepts and drawings into high-quality finished metal workpieces.
New energy equipment components (solar panel brackets, wind turbine parts)
Mechanical equipment accessories (brackets, transmission parts, connectors)
Automotive decorative components (interior trims, exterior accessories)
Architectural metal decorations (decorative screens, wall panels, railings)
Electronic equipment parts (internal brackets, shell components, connectors)
Metal craft products (custom art pieces, decorative ornaments)
Industrial automation parts (conveyor components, sensor brackets)
Furniture accessories (decorative parts, supports, frames)
Challenge: The client needed custom laser-cut metal brackets and components for their solar energy equipment. Their previous supplier’s products had inconsistent precision, poor corrosion resistance, and long delivery times, leading to equipment assembly delays and reduced reliability.
Solution: We collaborated with them to produce laser-cut stainless steel and aluminum brackets, using high-precision fiber laser cutting equipment to ensure ±0.02mm tolerance. We selected corrosion-resistant materials and optimized their design files for laser cutting efficiency, providing prototype samples for approval before mass production.
Equipment reliability improved by 90%: High-precision, corrosion-resistant parts eliminated assembly errors and premature wear, enhancing equipment performance.
Delivery time shortened by 35%: Our efficient production workflow met the client’s tight deadlines, reducing project delays.
Maintenance costs cut by 40%: The durable, corrosion-resistant components reduced the need for frequent replacements, saving the client time and money.
Material waste reduced by 19%: Optimized nesting software minimized raw material waste, lowering the client’s overall production costs.
100% dimensional inspection via CMM
Material certification (RoHS, mill test reports)
Fatigue and torque testing for critical applications
ISO 9001, ITAF 16949, ISO14001
