Processing of hard and brittle materials
Hard and brittle materials have low ductility and are prone to breakage. They must be processed using low-load methods such as fine machining, grooving and grinding, and combined with cooling and low-vibration equipment to reduce edge breakage and meet the high precision requirements of semiconductors, aerospace and optics.
Common types
- Quartz:High purity and low thermal expansion, used in semiconductor fixtures and optical components.
- Ceramic:It has high hardness, insulation and corrosion resistance, and is suitable for electronic, medical and precision parts.
- SiC:High thermal conductivity and high strength, used in semiconductor manufacturing processes and high-temperature structural components.
- Sapphire:Its high transparency and scratch resistance make it commonly used in optoelectronic and sensing components.
Metal Processing
Metal materials have high strength but vary greatly in processing. They are prone to sticking to tools or hardening, requiring different drilling, milling, deep hole drilling, turning, tapping and other processing methods depending on the material. They are widely used in the machinery, mold, automotive, aerospace and electronics industries.
Common types
- Titanium Alloys:High specific strength, corrosion resistance, biomedical compatibility; commonly used in aerospace and medical fields.
- Aluminum & Al Alloys:Lightweight, with excellent thermal conductivity and easy to cut; mainstream for automotive/machinery/heat dissipation components.
- Magnesium Alloys:Ultralight weight, excellent damping; suitable for weight-sensitive components such as aerospace/sports equipment/guide rails.
- Cobalt Alloys:High temperature strength and abrasion resistance; long service life, suitable for harsh environments.
Composite Material Processing
Composite materials combine two or more materials, possessing high strength and lightweight properties, but are prone to delamination, burrs, and thermal damage during processing. They require high-speed milling, precision drilling, and low-heat processing methods and are widely used in aerospace, sporting goods, and automotive structures.
Common types
- CFRP:With ultra-high specific strength/rigidity and excellent fatigue resistance, it is suitable for sports equipment, aerospace structures, and automotive lightweighting.
- GFRP:It has low cost and good electrical insulation, and is used for shells, covers, and secondary load-bearing structures.
- Honeycomb sandwich composite structure:A high bending rigidity/low weight structure is formed by using honeycomb core material + panel (CFRP/aluminum).
High-cleanliness Parts Cleaning
High-cleanliness parts cleaning refers to the removal of contaminants such as oil, chips, rust, and dust generated during CNC machining or use, using chemical, physical, or ultrasonic methods, to ensure that parts meet the quality requirements for assembly, inspection, or final use. Cleaning not only targets external surfaces but also includes hard-to-reach areas such as holes, crevices, and internal cavities. This process is commonly used in the aerospace, automotive, medical, semiconductor, and precision mold industries to ensure the reliability and lifespan of parts.
Gear OEM
Gear manufacturing services are based on customer designs or samples, involving machining, heat treatment, and grinding, covering spur gears, helical gears, spiral bevel gears, worm gears, and planetary gears. CNC hobbing, grinding, and lapping are used to ensure tooth profile accuracy and meshing quality.
Remove Burrs
Used after component processing, this equipment removes burrs and sharp edges generated by cutting, gear hobbing, stamping, drilling, or grinding to ensure the safety and quality stability of subsequent assembly, heat treatment, surface treatment, and actual operation. The equipment can be customized according to the workpiece material (such as carbon steel, alloy steel, stainless steel, aluminum alloy, cast iron, copper alloy, etc.) and the workpiece size and weight, combined with its shape and precision requirements, to improve process consistency and production efficiency.