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What industries do tungsten steel angle cutters apply to
Tungsten steel angle cutters (including angle milling cutters, chamfering cutters, etc.) are widely used in industrial scenarios such as machinery manufacturing, automotive, mold, aerospace, electronics, and new energy, due to their high hardness, high wear resistance, and angular precision. They are primarily utilized for precision angle machining and edge processing.Sources:www.kmjjw.cn | PublishDate:2026.01.05
Core application industries and scenarios
1. Machinery manufacturing industry
Used for chamfering, beveling, and machining angle slots of components such as gearbox bodies, hydraulic valve blocks, and bearing housings, it accommodates multiple specifications of angles ranging from 30° to 160°. Commonly used with straight shank/taper shank angle tools, it features fast response, high precision, and an efficiency improvement of over 40% compared to high-speed steel tools.
Typical scenario: CNC machining centers perform 90°/45° chamfering on shaft and disc parts, as well as batch deburring and edge finishing on automated production lines.
2. Automobile manufacturing industry
The angular machining and edge chamfering of key components such as engine blocks, transmission casings, and steering knuckles ensure assembly accuracy and sealing.
Angle milling of aluminum alloy/high-strength steel components such as battery trays and motor housings for new energy vehicles meets the high-speed cutting requirements of lightweight materials.
Typical tool: direct-acting high-speed tungsten steel angle tool, with a response time of 5–15ms, meeting the requirements of high-cycle production.
3. Mold manufacturing industry
Machining of cavity slopes and parting surface angles for injection molds, stamping dies, and die-casting molds, as well as precision angle slotting of mold inserts.
For precision angle grinding of high-hardness die steel (HRC50–65), coated tungsten steel angle tools are commonly used, balancing wear resistance and surface quality.
Typical applications: 3D surface angle milling and edge chamfering for shoe molds and home appliance molds.
4. Aerospace and military industry
Angle machining of components made of difficult-to-machine materials such as titanium alloys and high-temperature alloys, including milling of bevels and angle slots for aircraft landing gear and engine blades.
The angular positioning and edge treatment of precision military components must adhere to stringent dimensional tolerance and surface roughness specifications.
5. Electronics and precision instrument industry
For micro-angle machining of semiconductor packaging molds and electronic connectors, small-diameter tungsten steel angle cutters (φ1–φ6mm) are commonly used, suitable for complex structures.
Precision machining of stainless steel/titanium alloy components for medical devices and optical instruments ensures sterility and assembly accuracy.
6. New energy industry
The angle processing of photovoltaic module frames and inverter housings is suitable for efficient cutting of aluminum alloy profiles.
For angle milling of large components such as wind turbine gearboxes and bearing housings, large-diameter tungsten steel angle cutters are commonly used, balancing efficiency and precision.
7. Other industries
Rail transit: The angular splicing and edge chamfering of the aluminum alloy frame of the train carriages enhance structural stability and aesthetics.
Hardware and furniture: Angle processing of metal components and furniture hardware, meeting the 90° angle fixing requirements of panel furniture connectors.