Ultra Long Tool Life:Advanced TiAlN coating reduces cutting heat & friction, wear resistance far better than standard taps, lower tool replacement cost, eco-friendly mass production.
No Tap Breakage Risk:Thread milling produces less cutting heat, avoid tap fracture in deep stainless steel holes, stable processing without scrapped workpieces.
Excellent Chip Evacuation:Optimized flute structure prevents chip clogging, consistent stable performance for deep hole & high-speed threading.
High Precision & Smooth Surface: Strict tolerance control, burr-free smooth thread finish, meet aerospace & medical high-standard requirements.
High Efficiency & Cost Saving :Support drilling + threading integrated processing without pre-drilling; one tool fits multiple thread sizes, reduce tap inventory. Single rotation completes full thread to double output.
Aerospace Components:Thread machining for landing gear fittings, engine stainless steel mounts, high precision tolerance required.
Medical Devices & Implants:Produce burr-free sterile threads for surgical instruments, titanium stainless steel implants, comply with medical industry strict standards.
General Precision Machinery:Batch stainless steel shell, fastener, hydraulic fitting thread mass production.
Q1: Why choose thread mill instead of tap for stainless steel processing?
A1: Thread mill generates less cutting heat, completely eliminate tap breakage risk; single tool can adjust multiple thread sizes, cut down tool inventory, save production time & cost.
Q2: Can this cutter machine hardened stainless steel like 17-4 PH?
A2: Yes. Our carbide thread mill is specially designed for hardened metal up to HRC45, matched with TiAlN high temperature resistant coating to guarantee stable cutting performance.
Q3: How to set feed & speed parameters for stainless steel?
A3: Suggest low RPM with moderate feed rate 50-100 SFM, adjust RPM & coolant flow based on stainless steel grade to balance machining efficiency and tool service life.