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Double Chamfer End Mills
Our company provides high-quality up-and-down chamfering milling cutters—precision-engineered tools designed for versatile and accurate edge chamfering, deburring, and beveling in a wide range of machining applications. These cutters feature a unique bidirectional cutting design that allows effective material removal in both climb (up) and conventional (down) milling directions, offering exceptional flexibility and efficiency on the shop floor.
Crafted from premium-grade tungsten steel (tungsten carbide with optimized cobalt content), our chamfering cutters deliver outstanding hardness, toughness, and resistance to chipping and thermal wear. Each tool is precision-ground using advanced CNC grinding technology to ensure exact cutting angles and consistent edge geometry, guaranteeing repeatable, burr-free chamfers on every pass.
To further enhance performance and longevity, the cutters are coated with advanced wear-resistant layers such as TiAlN, AlTiN, or TiN using PVD (Physical Vapor Deposition) technology. These coatings improve surface hardness, reduce friction, and provide excellent resistance to heat and oxidation—ensuring reliable performance even during prolonged high-speed operations.
The innovative flute and cutting edge design minimizes vibration and chatter, resulting in smooth, clean cuts with a superior surface finish. This makes our chamfering cutters ideal for achieving professional-grade edges on materials including carbon steel, stainless steel, cast iron, aluminum, brass, copper, and various high-strength alloys.
Suitable for both rough chamfering and fine finishing, these tools are widely used in mold & die making, metal fabrication, automotive manufacturing, aerospace components, and maintenance operations where precision edge preparation is critical. Available in multiple included angles (such as 45°, 60°, and 90°) and shank configurations, they are compatible with CNC machining centers, milling machines, and portable machining equipment.
Whether removing sharp edges, preparing weld joints, or improving part aesthetics and safety, our up-and-down chamfering milling cutters combine durability, versatility, and precision to deliver consistent, high-quality results—every time.
Show Details
Specitications
| SIZES(60°/90°/120° | |
| D2*0.64H*d0.9*3L*D4*50L | |
| D3*0.92H*d1.4*4L*D4*50L | |
| D4*1.24H*d1.9*8L*D4*50L | |
| D5*1.56H*d2.3*10L*D6*50L | |
| D6*1.9H*d2.8*10L*D6*50L | |
| D8*2.54H*d3.6*12L*D8*60L | |
| D10*3.18H*d4.5*15L*D10*60L | |
| D12*3.81H*d5.4*18L*D12*60L |
Clients Good Feedback
Factory
Service Introduction
Logistics Package
FAQ
Q1: What is an up-and-down chamfering milling cutter?
A1: An up-and-down chamfering milling cutter is a specialized end mill designed to chamfer or bevel edges effectively in both climb milling (up) and conventional milling (down) directions. Its unique bidirectional cutting geometry allows for flexible use on CNC machines and manual mills, enabling efficient deburring, edge preparation, and angular finishing without repositioning the tool or workpiece.
Q2: What materials are these chamfering cutters suitable for?
A2: Our up-and-down chamfering cutters are engineered for use on a wide range of materials, including carbon steel, stainless steel, cast iron, aluminum, brass, copper, and various engineering alloys. Thanks to their high-hardness tungsten carbide substrate and advanced wear-resistant coatings, they maintain sharpness and performance across both ferrous and non-ferrous metals.
Q3: What advantages does the bidirectional cutting design offer?
A: The bidirectional (up-and-down) cutting edge allows smooth and efficient material removal regardless of the feed direction. This increases operational flexibility, reduces tool changes, and improves machining efficiency—especially in complex setups or confined spaces. It also helps distribute wear evenly across the cutting edges, extending tool life.
Q4: What coating options do you use, and how do they benefit performance?
A: Our chamfering cutters are coated with high-performance layers such as TiAlN, AlTiN, or TiN using PVD technology. These coatings enhance surface hardness, reduce friction during cutting, resist heat and oxidation, and prevent edge buildup—especially when machining sticky materials like aluminum or corrosion-resistant stainless steels. This results in longer tool life and consistent chamfer quality.
Q5: Can these cutters be used for both rough chamfering and fine finishing?
A: Yes, these cutters are ideal for both rough chamfering and precision finishing operations. Their optimized flute geometry and sharp cutting edges ensure efficient material removal during aggressive cuts, while minimizing vibration to deliver a clean, smooth, and burr-free edge finish—reducing or eliminating the need for manual polishing or deburring.
Double Chamfer End Mills
Our company provides high-quality up-and-down chamfering milling cutters—precision-engineered tools designed for versatile and accurate edge chamfering, deburring, and beveling in a wide range of machining applications. These cutters feature a unique bidirectional cutting design that allows effective material removal in both climb (up) and conventional (down) milling directions, offering exceptional flexibility and efficiency on the shop floor.
Crafted from premium-grade tungsten steel (tungsten carbide with optimized cobalt content), our chamfering cutters deliver outstanding hardness, toughness, and resistance to chipping and thermal wear. Each tool is precision-ground using advanced CNC grinding technology to ensure exact cutting angles and consistent edge geometry, guaranteeing repeatable, burr-free chamfers on every pass.
To further enhance performance and longevity, the cutters are coated with advanced wear-resistant layers such as TiAlN, AlTiN, or TiN using PVD (Physical Vapor Deposition) technology. These coatings improve surface hardness, reduce friction, and provide excellent resistance to heat and oxidation—ensuring reliable performance even during prolonged high-speed operations.
The innovative flute and cutting edge design minimizes vibration and chatter, resulting in smooth, clean cuts with a superior surface finish. This makes our chamfering cutters ideal for achieving professional-grade edges on materials including carbon steel, stainless steel, cast iron, aluminum, brass, copper, and various high-strength alloys.
Suitable for both rough chamfering and fine finishing, these tools are widely used in mold & die making, metal fabrication, automotive manufacturing, aerospace components, and maintenance operations where precision edge preparation is critical. Available in multiple included angles (such as 45°, 60°, and 90°) and shank configurations, they are compatible with CNC machining centers, milling machines, and portable machining equipment.
Whether removing sharp edges, preparing weld joints, or improving part aesthetics and safety, our up-and-down chamfering milling cutters combine durability, versatility, and precision to deliver consistent, high-quality results—every time.
Show Details
Specitications
| SIZES(60°/90°/120° | |
| D2*0.64H*d0.9*3L*D4*50L | |
| D3*0.92H*d1.4*4L*D4*50L | |
| D4*1.24H*d1.9*8L*D4*50L | |
| D5*1.56H*d2.3*10L*D6*50L | |
| D6*1.9H*d2.8*10L*D6*50L | |
| D8*2.54H*d3.6*12L*D8*60L | |
| D10*3.18H*d4.5*15L*D10*60L | |
| D12*3.81H*d5.4*18L*D12*60L |
Clients Good Feedback
Factory
Service Introduction
Logistics Package
FAQ
Q1: What is an up-and-down chamfering milling cutter?
A1: An up-and-down chamfering milling cutter is a specialized end mill designed to chamfer or bevel edges effectively in both climb milling (up) and conventional milling (down) directions. Its unique bidirectional cutting geometry allows for flexible use on CNC machines and manual mills, enabling efficient deburring, edge preparation, and angular finishing without repositioning the tool or workpiece.
Q2: What materials are these chamfering cutters suitable for?
A2: Our up-and-down chamfering cutters are engineered for use on a wide range of materials, including carbon steel, stainless steel, cast iron, aluminum, brass, copper, and various engineering alloys. Thanks to their high-hardness tungsten carbide substrate and advanced wear-resistant coatings, they maintain sharpness and performance across both ferrous and non-ferrous metals.
Q3: What advantages does the bidirectional cutting design offer?
A: The bidirectional (up-and-down) cutting edge allows smooth and efficient material removal regardless of the feed direction. This increases operational flexibility, reduces tool changes, and improves machining efficiency—especially in complex setups or confined spaces. It also helps distribute wear evenly across the cutting edges, extending tool life.
Q4: What coating options do you use, and how do they benefit performance?
A: Our chamfering cutters are coated with high-performance layers such as TiAlN, AlTiN, or TiN using PVD technology. These coatings enhance surface hardness, reduce friction during cutting, resist heat and oxidation, and prevent edge buildup—especially when machining sticky materials like aluminum or corrosion-resistant stainless steels. This results in longer tool life and consistent chamfer quality.
Q5: Can these cutters be used for both rough chamfering and fine finishing?
A: Yes, these cutters are ideal for both rough chamfering and precision finishing operations. Their optimized flute geometry and sharp cutting edges ensure efficient material removal during aggressive cuts, while minimizing vibration to deliver a clean, smooth, and burr-free edge finish—reducing or eliminating the need for manual polishing or deburring.
