Laser cutting is a highly accurate and efficient method for cutting ultra-thin metal sheets, such as 0.022mm mould components. The process uses a focused laser beam to achieve precision cuts, making it ideal for the manufacture of moulds and tooling components that require extreme accuracy, tight tolerances, and high-quality surfaces.
High Precision and Accuracy
Laser cutting can achieve micron-level precision, making it ideal for mould components that require extremely tight tolerances.
Capable of producing intricate features, such as small holes and complex geometries, which are commonly required in mould design.
Clean and Burr-Free Edges
Laser cutting creates smooth, clean-cut edges without the need for post-processing such as deburring.
This reduces manufacturing time and enhances the quality of the mould components.
Minimal Heat-Affected Zone (HAZ)
The laser beam’s focused energy minimizes the heat-affected zone. This prevents distortion, warping, and material degradation, which is especially important when working with thin materials like 0.022mm steel.
Non-Contact Process
Laser cutting does not apply physical force to the material, which means no risk of deformation.
This is particularly beneficial when cutting delicate, ultra-thin mould components that can be easily damaged by mechanical processes.
Ability to Cut Complex Shapes
Laser cutting is ideal for producing custom and complex shapes that are difficult to achieve with traditional mechanical cutting methods.
Useful for precision mould cavities and components that require intricate detail.
High-Speed Processing
Laser cutting allows for rapid production of small, detailed parts.
Ideal for mass production of mould components, where speed and efficiency are crucial.
Laser cutting is used to produce mould cavities, inserts, and precision components used in injection moulding processes.
The precision of laser cutting ensures accurate replication of complex designs in the final molded parts.
Mould components such as cutting dies, press dies, and moulding inserts are commonly made using laser cutting.
The process is ideal for high-quality, precision moulding tools that require extreme accuracy for effective production.
Laser cutting is used for automotive tooling parts, including moulded components for interior and exterior parts.
It ensures consistent, precise shapes and dimensions in high-volume automotive production.
In aerospace, laser cutting is used for lightweight, high-precision mould components required in parts like aircraft engines and structural components.
This process ensures the integrity of thin, high-performance parts subjected to extreme conditions.
Laser cutting enables the production of precision mould components used in the manufacture of medical devices such as implants, surgical instruments, and diagnostic equipment.
The process ensures biocompatibility and high precision for safety and functionality.
Laser cutting is used for the production of precision moulds used to manufacture components for electronics such as circuit boards, connectors, and microelectronic enclosures.
It ensures high-quality parts with tight tolerances for sensitive applications.
✔ Extreme Precision – Achieves micron-level accuracy essential for moulding applications.
✔ Clean, Burr-Free Edges – Reduces the need for additional finishing processes.
✔ Minimal Heat-Affected Zone – Prevents material distortion and ensures consistent quality.
✔ Non-Contact Cutting – Reduces risk of deformation of thin, delicate materials.
✔ Complex Shape Capability – Ideal for intricate mould features and custom designs.
✔ Efficient and Fast – High-speed cutting enables rapid, high-volume production.
Laser cutting is an ideal solution for producing high-precision, ultra-thin mould components like 0.022mm parts. It offers numerous advantages in industries that demand exacting standards and consistent quality, ensuring the effective production of complex and durable moulding tools.
Laser Nozzles Ceramic Holders Collimation/Focus lens Tube Tooling Kits Goggles Ceramic Locker Ring Seal Ring/Washer