Blades are mainly made of stainless steel, titanium alloy or superalloy, with difficult-to-machine characteristics including high hardness, high strength, corrosion resistance and high temperature resistance. Tool wear is severe, work hardening is pronounced, and cutting is challenging.
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- Watch Case
- Lens Ring
- Industrial Lens Mount
- Joint Components - Femoral Part
- Joint Components - Tibial Tray
- Joint Components -Femoral Stem
- Trauma Components - Bone Plate
- Cervical Spine Components - Pedicle Screw Dovetail Head
- Joint Components - Acetabular Cup Machining Solution
- Joint Components - Femoral Cap
Steam Turbine Blade Machining Solutions
5-axis Contour Milling
High-feed Milling Cutter APM00-RO10/12/16
Round inserts with multiple anti-rotation locating surfaces for secure insert clamping
Cutting edge design features high feed rate and excellent stability
Equipped with AP403M grade for difficult-to-machine materials
High-feed Milling Cutter APM00-RO10/12/16
Finish Machining of Blade Root Grooves
M160 Series Solid Carbide Milling Cutters
Diameter range D5–D20
Suitable for stainless steel and superalloy machining
Unequal tooth pitch and variable helix angle design effectively suppresses tool vibration
M160 Series Solid Carbide Milling Cutters
Roughing & Semi-finishing of Transition Fillets
APM00-RP08/10 Milling Cutter
Anti-rotation locating groove at insert bottom for secure insert clamping
Helical edge design for low cutting force characteristics
2-in-1 insert design, compatible with peripheral and center inserts
APM00-RP08/10 Milling Cutter
Rough Machining of Blade Root Grooves
Shoulder Milling Cutter ASM90-AO10
90° principal cutting edge angle, diameter range D16–D32
Cutter bodies available with various interfaces, diameters and coarse/fine tooth options
Positive indexable inserts, AP403M grade is suitable for stainless steel machining
Shoulder Milling Cutter ASM90-AO10