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Titanium Alloy Ball Nose End Mills
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 | |
SUPSTEED Titanium Alloy Ball Nose End Mills: Precision for Complex Contours
Elevate your machining capabilities with SUPSTEED’s Titanium Alloy Ball Nose End Mills. Engineered for superior performance in profiling, contouring, and finishing complex 3D shapes, these tools are the ideal choice for mold making, aerospace components, and automotive prototyping. Perfect for machining a wide range of materials, including steel, stainless steel, cast iron, and titanium alloys.
Key Features & Benefits:
Premium Titanium Coating: Significantly enhances surface hardness and heat resistance, reducing tool wear and extending service life.
Precision Ball Nose Design: Excellently machines intricate contours and curved surfaces with high accuracy and exceptional surface finish.
Optimized Helix & Flute Design: Ensures efficient chip evacuation, reduces cutting resistance, and minimizes vibration for smoother operation.
Rigorous Quality Control: Manufactured from ultra-fine micro-grain carbides and undergo strict inspection to guarantee durability and reliability.
Clients Good Feedback
Factory
Service Introduction
Logistics Package
FAQ
1. What are titanium Alloy ball nose end mills used for?
They are ideal for 3D contouring, sculpting, and fine-detail finishing in tough materials like titanium alloys, stainless steel, and Inconel.
2. What coating is best for machining titanium?
AlTiN (Aluminum Titanium Nitride) or TiAlN coatings are highly recommended for their heat resistance and ability to withstand high cutting temperatures.
3. How do I achieve the best finish with these tools?
Use a toolpath with a consistent stepover (typically 5-10% of the tool diameter) and employ a climb milling technique for a superior surface finish.
4. What are signs of tool wear?
Look for changed cutting sounds, increased vibration, poor surface finish, or discoloration on the workpiece. Premature wear often happens due to excessive heat.
5. Why is a reduced neck design important?
It provides greater clearance for deep cavity machining and complex 3D shapes, preventing the tool holder from colliding with the workpiece.
Titanium Alloy Ball Nose End Mills
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 | |
SUPSTEED Titanium Alloy Ball Nose End Mills: Precision for Complex Contours
Elevate your machining capabilities with SUPSTEED’s Titanium Alloy Ball Nose End Mills. Engineered for superior performance in profiling, contouring, and finishing complex 3D shapes, these tools are the ideal choice for mold making, aerospace components, and automotive prototyping. Perfect for machining a wide range of materials, including steel, stainless steel, cast iron, and titanium alloys.
Key Features & Benefits:
Premium Titanium Coating: Significantly enhances surface hardness and heat resistance, reducing tool wear and extending service life.
Precision Ball Nose Design: Excellently machines intricate contours and curved surfaces with high accuracy and exceptional surface finish.
Optimized Helix & Flute Design: Ensures efficient chip evacuation, reduces cutting resistance, and minimizes vibration for smoother operation.
Rigorous Quality Control: Manufactured from ultra-fine micro-grain carbides and undergo strict inspection to guarantee durability and reliability.
Clients Good Feedback
Factory
Service Introduction
Logistics Package
FAQ
1. What are titanium Alloy ball nose end mills used for?
They are ideal for 3D contouring, sculpting, and fine-detail finishing in tough materials like titanium alloys, stainless steel, and Inconel.
2. What coating is best for machining titanium?
AlTiN (Aluminum Titanium Nitride) or TiAlN coatings are highly recommended for their heat resistance and ability to withstand high cutting temperatures.
3. How do I achieve the best finish with these tools?
Use a toolpath with a consistent stepover (typically 5-10% of the tool diameter) and employ a climb milling technique for a superior surface finish.
4. What are signs of tool wear?
Look for changed cutting sounds, increased vibration, poor surface finish, or discoloration on the workpiece. Premature wear often happens due to excessive heat.
5. Why is a reduced neck design important?
It provides greater clearance for deep cavity machining and complex 3D shapes, preventing the tool holder from colliding with the workpiece.
