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Parameter | Product Parameter |
Drilling Diameter | 0.01mm - 0.5mm (e.g.) |
Material | Carbide / Diamond (Specify) |
Coating | Titanium Nitride, Diamond-like Carbon (DLC) (Specify) |
Shank Type | Cylindrical, Weldon (Specify) |
Application | Electronics, Medical, Optics, Aerospace (Specify) |
High Precision
Achieve micron-level accuracy in hole diameter and position.
Excellent Wear Resistance
Maintain cutting performance during extended use.
Material Versatility
Suitable for various materials, including metals, plastics, and composites.
Effective Heat Dissipation
Minimize overheating through optimized cooling design.
High-precision cutting
The ultra-fine drilling tools use advanced manufacturing processes to ensure that each drill bit has extremely high precision and consistency. This allows users to perform drilling tasks at the micron level, achieving highly accurate hole diameters and position control, widely applicable in fields such as electronics, medical, and optics.
Excellent wear resistance
This series of tools use high-quality materials and advanced hardening techniques, significantly improving the wear resistance of the drill bits. This means that ultra-fine drilling tools can maintain good cutting performance during long-term use, reducing the cost and time of frequent tool replacement.
Strong adaptability
Ultra-fine drilling tools can be used on various materials, including metals, plastics, and composite materials. This versatility allows users to meet the needs of different application scenarios without purchasing multiple tools, thereby improving work efficiency and application flexibility.
Optimized cooling design
Ultra-fine drilling tools are equipped with an optimized cooling design that effectively dissipates heat during the cutting process, reducing the risk of overheating the drill bit. This technology can maintain the optimal working temperature of the drill bit, thereby improving cutting accuracy and extending tool life.
Electronic Component Processing
Ultrafine drilling tools are widely used in the electronics industry, especially in the processing of small circuit boards and precision electronic components. Through ultrafine drilling, accurate apertures can be provided while ensuring minimal damage to the components, thereby achieving efficient assembly and high-quality electrical connections.
Medical Device Manufacturing
In the medical industry, ultrafine drilling tools are used to manufacture precision medical devices such as syringes, catheters, and implants. These tools can drill tiny and uniform holes to meet strict standards and requirements, ensuring the reliability and functionality of the equipment.
Optical Device Processing
In the field of optics, ultrafine drilling tools are commonly used for drilling holes in optical lenses and filters. Their high precision and stability allow ultrafine drilling to create small holes in complex materials, enabling precise control of light and optimizing optical performance.
Aerospace and Aviation Component Manufacturing
Ultrafine drilling tools also have important applications in the aerospace and aviation industries, especially in the manufacturing of lightweight alloy components. They can provide the required strength and reliability without adding weight, ensuring the safety and performance of aircraft.
Jewelry and Precision Craftsmanship
In jewelry design and precision craftsmanship, ultrafine drilling tools are used to cut and carve intricate patterns and holes. This allows designers to achieve complex details in extremely small spaces, enhancing the artistic value and market competitiveness of jewelry.
Q: What materials are suitable for ultrafine drilling tools?
A: Ultrafine drilling tools are suitable for a variety of materials, including metals, plastics, and composite materials. The specific choice should be based on the hardness, thickness, and diameter of the hole to be drilled. Before use, please confirm the compatibility of the selected drill bit with the material.
Q: How to choose the appropriate drill bit diameter?
A: When choosing the drill bit diameter, it should be based on the final hole size requirements and material characteristics. Generally, the smaller the diameter, the more fragile the drill bit, so it is recommended to consult the recommended diameter in the operation manual and make a careful choice based on the specific application.
Q: How to avoid overheating of the drill bit during use?
A: To avoid overheating of the drill bit, ensure the use of appropriate speed and feed rate. Additionally, it is recommended to use coolant to reduce friction and temperature, prolonging the tool's lifespan. Regularly stopping to check the condition of the drill bit is also an effective way to prevent overheating.
