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SUPSTEED
Titanium Alloy Corner Radius End Mills
SUPSTEED Titanium Alloy Corner Radius End Mills
Engineered for precision and durability in demanding applications, SUPSTEED’s Titanium Alloy Corner Radius End Mills are the ultimate solution for machining difficult materials like titanium, Inconel, and stainless steel. Ideal for aerospace, medical device manufacturing, and high-performance automotive industries.
Key Features:
Exceptional Strength: Manufactured from premium micro-grain carbide for maximum rigidity and resistance to deflection.
Enhanced Durability: Advanced TiAlN coating reduces wear, resists high temperatures, and extends tool life significantly.
Superior Finish: The corner radius design strengthens the tool tip, minimizes chipping, and ensures high-quality surface finishes.
Optimized Performance: Precision-ground flutes facilitate efficient chip evacuation, reducing heat buildup and enabling higher feed rates.
Applications:
Perfect for heavy-duty profiling, slotting, and finishing operations where strength, precision, and surface quality are critical.
Show Details
Specitications
| SIZES(D*fL*sD*L) | |
| D3*9*D4*50L | D12*30*D12*75L |
| D4*10*D4*50L | D14*45*D14*100L |
| D5*13*D6*50L | D16*45*D16*100L |
| D6*15*D6*50L | D20*45*D20*100L |
| D8*20*D8*50L | |
| D10*25*D10*75L | |
| D12*30*D12*75L | |
Clients Good Feedback
Factory
Service Introduction
Logistics Package
FAQ
1. What is a titanium alloy corner radius end mill?
It's a cutting tool designed for milling titanium alloys, featuring a rounded corner (instead of a sharp one) to distribute cutting forces, reduce chipping, and improve tool life.
2. Why use a corner radius for titanium?
The rounded edge strengthens the tool tip, reduces stress concentration, and prevents premature failure in tough titanium alloys, leading to more consistent performance and longer life.
3. What are the main applications?
It's ideal for profiling, slotting, and shoulder milling in aerospace, medical, and automotive industries where titanium components require precise machining and smooth finishes.
4. How to choose the right corner radius?
Select based on material hardness and desired finish. A larger radius offers better strength for roughing, while a smaller one allows for finer details and tighter corners.
5. What are the best practices for using it?
Use high-pressure coolant, lower feed rates, and stable machining conditions. Ensure rigid setup to minimize vibration and avoid tool deflection for optimal results.
Titanium Alloy Corner Radius End Mills
SUPSTEED Titanium Alloy Corner Radius End Mills
Engineered for precision and durability in demanding applications, SUPSTEED’s Titanium Alloy Corner Radius End Mills are the ultimate solution for machining difficult materials like titanium, Inconel, and stainless steel. Ideal for aerospace, medical device manufacturing, and high-performance automotive industries.
Key Features:
Exceptional Strength: Manufactured from premium micro-grain carbide for maximum rigidity and resistance to deflection.
Enhanced Durability: Advanced TiAlN coating reduces wear, resists high temperatures, and extends tool life significantly.
Superior Finish: The corner radius design strengthens the tool tip, minimizes chipping, and ensures high-quality surface finishes.
Optimized Performance: Precision-ground flutes facilitate efficient chip evacuation, reducing heat buildup and enabling higher feed rates.
Applications:
Perfect for heavy-duty profiling, slotting, and finishing operations where strength, precision, and surface quality are critical.
Show Details
Specitications
| SIZES(D*fL*sD*L) | |
| D3*9*D4*50L | D12*30*D12*75L |
| D4*10*D4*50L | D14*45*D14*100L |
| D5*13*D6*50L | D16*45*D16*100L |
| D6*15*D6*50L | D20*45*D20*100L |
| D8*20*D8*50L | |
| D10*25*D10*75L | |
| D12*30*D12*75L | |
Clients Good Feedback
Factory
Service Introduction
Logistics Package
FAQ
1. What is a titanium alloy corner radius end mill?
It's a cutting tool designed for milling titanium alloys, featuring a rounded corner (instead of a sharp one) to distribute cutting forces, reduce chipping, and improve tool life.
2. Why use a corner radius for titanium?
The rounded edge strengthens the tool tip, reduces stress concentration, and prevents premature failure in tough titanium alloys, leading to more consistent performance and longer life.
3. What are the main applications?
It's ideal for profiling, slotting, and shoulder milling in aerospace, medical, and automotive industries where titanium components require precise machining and smooth finishes.
4. How to choose the right corner radius?
Select based on material hardness and desired finish. A larger radius offers better strength for roughing, while a smaller one allows for finer details and tighter corners.
5. What are the best practices for using it?
Use high-pressure coolant, lower feed rates, and stable machining conditions. Ensure rigid setup to minimize vibration and avoid tool deflection for optimal results.
