 |
Solid Carbide 4 Flute Square End Mill
4 Flute
Spiral
High Speed Cutting
Cast Iron, Alloy Steel, Tool Steel,Stainless Steel, High-temp Alloys, Titanium Alloys, Non-ferrous Alloys
TiAlN, TiSiN, Nano
0.005-0.01
Stub, Standard, Extra-Long,38-330mm
| Quantity: | |
|---|---|
| Model No. | Flute Diameter (mm) | Flute length (mm) | Shank Diameter (mm) | Overall length (mm) |
| D4*10*D4*50 | 4 | 10 | 4 | 50 |
Model No. | Flute Diameter (mm) | Flute length (mm) | Shank Diameter (mm) | Overall length (mm) |
D4*12*D4*75 | 4 | 12 | 4 | 75 |
D4*16*D4*100 | 4 | 16 | 4 | 100 |
Carbide end mills can withstand high temperatures generated during the milling process, allowing for faster cutting speeds and increased productivity.
The hardness and heat resistance of carbide square end mills contribute to their superior cutting performance.
Carbide square end mills offer high rigidity and stability during cutting, minimizing tool deflection and vibrations.
The rigidity and stability of carbide square end mills help minimize chatter during the milling process.
Carbide square end mills are renowned for their exceptional hardness. This hardness allows them to maintain their cutting edge for longer periods, resulting in extended tool life and reduced tool replacement costs.
Carbide end mills exhibit high heat resistance, enabling them to withstand the elevated temperatures generated during the machining process. This feature allows for higher cutting speeds and increased productivity.
The combination of hardness and heat resistance in carbide square end mills contributes to their superior cutting performance. They can efficiently remove material and create precise square-shaped features with excellent surface finishes.
With their exceptional cutting performance and heat resistance, carbide square end mills contribute to increased productivity. They allow for higher cutting speeds, reducing machining time and increasing overall efficiency.
Carbide end mills often feature multiple flutes, which aid in efficient chip evacuation. This helps prevent chip clogging and enhances the surface finish of the machined part.
Carbide square end mills offer high levels of stability and rigidity during cutting. This characteristic minimizes tool deflection and vibrations, resulting in improved accuracy and dimensional precision.
Carbide square end mills are available in a wide range of sizes, flute configurations, and cutting edge geometries. This allows for precise tool selection based on specific machining requirements.
The purpose of applying a coating to a carbide end mill is to enhance its performance, durability, and overall effectiveness in various machining operations.
TiN is a popular coating choice for carbide square end mills. It offers excellent wear resistance and provides a protective layer on the tool's surface, reducing friction and extending tool life. TiN coatings are effective when machining non-ferrous materials and can enhance performance in general-purpose milling applications.
TiCN coatings offer improved hardness and heat resistance compared to TiN. They are suitable for machining ferrous materials, including steel and cast iron. TiCN coatings provide excellent wear resistance, reduced friction, and increased tool life.
AlTiN coatings are known for their exceptional hardness, high-temperature resistance, and excellent wear resistance. They are suitable for machining abrasive materials, such as hardened steels and stainless steels. AlTiN coatings provide extended tool life and enhanced performance in high-speed machining applications.
DLC coatings offer excellent hardness, low friction, and high lubricity. They are effective when machining aluminum, copper, and non-ferrous materials. DLC coatings can reduce built-up edge and enhance the chip flow, resulting in improved surface finish and reduced cutting forces.
A 4mm end mill, with its 4mm diameter cutting edge, is a versatile cutting tool that finds applications in a variety of machining operations. Here are some common applications of a 4mm end mill:
4mm end mills are frequently used for general milling operations, including facing, contouring, and pocketing. They can quickly remove material to achieve the desired shape or size.
Slotting involves cutting narrow, deep channels into a workpiece. 4mm end mills are suitable for creating slots of this size, commonly used in applications such as mounting brackets and keyways.
In profile milling, the end mill follows the outline or contour of the workpiece to create specific shapes or features. A 4mm end mill is versatile for detailed profile milling tasks in industries like aerospace, automotive, and mold making.
4mm end mills can be used for engraving, adding serial numbers, logos, or decorative patterns on various surfaces. This is valuable in industries like jewelry making, product branding, and custom woodworking.
For precision micro-machining tasks, where small, intricate details are required, a 4mm end mill can be used to create fine features. This is important in industries such as electronics, aerospace, and medical device manufacturing.
During the prototyping phase of product development, a 4mm end mill helps create small-scale models and prototypes with precision and fine details, which is common in industries ranging from automotive to consumer electronics.
In the manufacturing of electronic components, including printed circuit boards (PCBs), 4mm end mills are used for precision machining. They create tiny traces, drill holes, and mill features on PCBs.
Tool and die makers use 4mm end mills for creating small features and details on molds, dies, and tooling used in various manufacturing processes.
When producing small components with fine details, a 4mm end mill is valuable. Industries such as watchmaking, precision engineering, and medical devices benefit from the accuracy it offers.
Woodworkers use 4mm end mills for fine woodworking, crafting intricate designs or patterns into wooden surfaces. This is especially common in custom furniture and cabinetry.
In the automotive sector, 4mm end mills are employed for machining smaller components like engine parts, brackets, and connectors, which require precision and intricate detailing.
For machining aerospace components, 4mm end mills are used in applications where precision and small-scale features are essential, such as aircraft structural parts and engine components.
In summary, the 4mm end mill's versatile size and precision cutting capabilities make it a valuable tool for creating intricate details, precise profiles, and accurate dimensions on various materials, from metals and plastics to wood and ceramics. Its wide range of applications makes it indispensable in many industries.
1、What is a 4mm end mill?
A 4mm end mill is a cutting tool with a 4mm diameter cutting edge, used in machining operations to remove material and shape workpieces with precision.
You can cut a wide range of materials with a 4mm end mill, including metals (aluminum, steel, brass), plastics, wood, ceramics, and composites. Material choice determines the specific type of end mill and cutting parameters.
Common applications include general milling, slotting, profile milling, engraving, micro-machining, prototype development, electronics production, tool and die making, small parts manufacturing, and woodworking.
Consider factors such as the material you're working with, the type of cut you need (e.g., slotting, profiling, engraving), and the desired surface finish. Different end mill designs, such as ball nose or square end, are suited for specific tasks.
A 2-flute end mill has two cutting edges, while a 4-flute end mill has four. 2-flute end mills are generally better for chip evacuation and are often used in softer materials. 4-flute end mills provide more cutting edges, improving surface finish, and are suitable for harder materials.
Cutting speeds and feeds depend on factors like material type, tool material, and machine capabilities. You can use cutting speed and feed rate formulas or consult cutting tool manufacturers' recommendations for specific combinations.
Keep them clean and free of debris, and store them properly. Regularly check for signs of wear, such as dull cutting edges, and replace as needed. Lubrication may be necessary depending on the material and tool.
Yes, you can use a 4mm end mill in a standard milling machine, provided that the machine has the necessary spindle speed and rigidity to handle the cutting forces. Ensure your machine is properly calibrated for precision work.
Always wear appropriate personal protective equipment, including safety glasses or a face shield. Secure your workpiece properly to prevent movement during machining and be aware of the cutting tool's location at all times.
Yes, we are facotry. Founded in 2004,Ruiyu Tools has established itself as a trusted provider of high-quality drill bits, end mills, and other non-standard tools.
Before purchasing, please contact us to confirm model No. and drawings to avoid any misunderstanding.
Yes.We can supply OEM&ODM and make customized design for any specific application.
We suggest you ording a sample. And you can also send us email with detailed photos and specifications for checking if you cannot get enough information in the product page.
Non-standard tools 5-10 Working days,Standard tools usually 1-2 days.
| Model No. | Flute Diameter (mm) | Flute length (mm) | Shank Diameter (mm) | Overall length (mm) |
| D4*10*D4*50 | 4 | 10 | 4 | 50 |
Model No. | Flute Diameter (mm) | Flute length (mm) | Shank Diameter (mm) | Overall length (mm) |
D4*12*D4*75 | 4 | 12 | 4 | 75 |
D4*16*D4*100 | 4 | 16 | 4 | 100 |
Carbide end mills can withstand high temperatures generated during the milling process, allowing for faster cutting speeds and increased productivity.
The hardness and heat resistance of carbide square end mills contribute to their superior cutting performance.
Carbide square end mills offer high rigidity and stability during cutting, minimizing tool deflection and vibrations.
The rigidity and stability of carbide square end mills help minimize chatter during the milling process.
Carbide square end mills are renowned for their exceptional hardness. This hardness allows them to maintain their cutting edge for longer periods, resulting in extended tool life and reduced tool replacement costs.
Carbide end mills exhibit high heat resistance, enabling them to withstand the elevated temperatures generated during the machining process. This feature allows for higher cutting speeds and increased productivity.
The combination of hardness and heat resistance in carbide square end mills contributes to their superior cutting performance. They can efficiently remove material and create precise square-shaped features with excellent surface finishes.
With their exceptional cutting performance and heat resistance, carbide square end mills contribute to increased productivity. They allow for higher cutting speeds, reducing machining time and increasing overall efficiency.
Carbide end mills often feature multiple flutes, which aid in efficient chip evacuation. This helps prevent chip clogging and enhances the surface finish of the machined part.
Carbide square end mills offer high levels of stability and rigidity during cutting. This characteristic minimizes tool deflection and vibrations, resulting in improved accuracy and dimensional precision.
Carbide square end mills are available in a wide range of sizes, flute configurations, and cutting edge geometries. This allows for precise tool selection based on specific machining requirements.
The purpose of applying a coating to a carbide end mill is to enhance its performance, durability, and overall effectiveness in various machining operations.
TiN is a popular coating choice for carbide square end mills. It offers excellent wear resistance and provides a protective layer on the tool's surface, reducing friction and extending tool life. TiN coatings are effective when machining non-ferrous materials and can enhance performance in general-purpose milling applications.
TiCN coatings offer improved hardness and heat resistance compared to TiN. They are suitable for machining ferrous materials, including steel and cast iron. TiCN coatings provide excellent wear resistance, reduced friction, and increased tool life.
AlTiN coatings are known for their exceptional hardness, high-temperature resistance, and excellent wear resistance. They are suitable for machining abrasive materials, such as hardened steels and stainless steels. AlTiN coatings provide extended tool life and enhanced performance in high-speed machining applications.
DLC coatings offer excellent hardness, low friction, and high lubricity. They are effective when machining aluminum, copper, and non-ferrous materials. DLC coatings can reduce built-up edge and enhance the chip flow, resulting in improved surface finish and reduced cutting forces.
A 4mm end mill, with its 4mm diameter cutting edge, is a versatile cutting tool that finds applications in a variety of machining operations. Here are some common applications of a 4mm end mill:
4mm end mills are frequently used for general milling operations, including facing, contouring, and pocketing. They can quickly remove material to achieve the desired shape or size.
Slotting involves cutting narrow, deep channels into a workpiece. 4mm end mills are suitable for creating slots of this size, commonly used in applications such as mounting brackets and keyways.
In profile milling, the end mill follows the outline or contour of the workpiece to create specific shapes or features. A 4mm end mill is versatile for detailed profile milling tasks in industries like aerospace, automotive, and mold making.
4mm end mills can be used for engraving, adding serial numbers, logos, or decorative patterns on various surfaces. This is valuable in industries like jewelry making, product branding, and custom woodworking.
For precision micro-machining tasks, where small, intricate details are required, a 4mm end mill can be used to create fine features. This is important in industries such as electronics, aerospace, and medical device manufacturing.
During the prototyping phase of product development, a 4mm end mill helps create small-scale models and prototypes with precision and fine details, which is common in industries ranging from automotive to consumer electronics.
In the manufacturing of electronic components, including printed circuit boards (PCBs), 4mm end mills are used for precision machining. They create tiny traces, drill holes, and mill features on PCBs.
Tool and die makers use 4mm end mills for creating small features and details on molds, dies, and tooling used in various manufacturing processes.
When producing small components with fine details, a 4mm end mill is valuable. Industries such as watchmaking, precision engineering, and medical devices benefit from the accuracy it offers.
Woodworkers use 4mm end mills for fine woodworking, crafting intricate designs or patterns into wooden surfaces. This is especially common in custom furniture and cabinetry.
In the automotive sector, 4mm end mills are employed for machining smaller components like engine parts, brackets, and connectors, which require precision and intricate detailing.
For machining aerospace components, 4mm end mills are used in applications where precision and small-scale features are essential, such as aircraft structural parts and engine components.
In summary, the 4mm end mill's versatile size and precision cutting capabilities make it a valuable tool for creating intricate details, precise profiles, and accurate dimensions on various materials, from metals and plastics to wood and ceramics. Its wide range of applications makes it indispensable in many industries.
1、What is a 4mm end mill?
A 4mm end mill is a cutting tool with a 4mm diameter cutting edge, used in machining operations to remove material and shape workpieces with precision.
You can cut a wide range of materials with a 4mm end mill, including metals (aluminum, steel, brass), plastics, wood, ceramics, and composites. Material choice determines the specific type of end mill and cutting parameters.
Common applications include general milling, slotting, profile milling, engraving, micro-machining, prototype development, electronics production, tool and die making, small parts manufacturing, and woodworking.
Consider factors such as the material you're working with, the type of cut you need (e.g., slotting, profiling, engraving), and the desired surface finish. Different end mill designs, such as ball nose or square end, are suited for specific tasks.
A 2-flute end mill has two cutting edges, while a 4-flute end mill has four. 2-flute end mills are generally better for chip evacuation and are often used in softer materials. 4-flute end mills provide more cutting edges, improving surface finish, and are suitable for harder materials.
Cutting speeds and feeds depend on factors like material type, tool material, and machine capabilities. You can use cutting speed and feed rate formulas or consult cutting tool manufacturers' recommendations for specific combinations.
Keep them clean and free of debris, and store them properly. Regularly check for signs of wear, such as dull cutting edges, and replace as needed. Lubrication may be necessary depending on the material and tool.
Yes, you can use a 4mm end mill in a standard milling machine, provided that the machine has the necessary spindle speed and rigidity to handle the cutting forces. Ensure your machine is properly calibrated for precision work.
Always wear appropriate personal protective equipment, including safety glasses or a face shield. Secure your workpiece properly to prevent movement during machining and be aware of the cutting tool's location at all times.
Yes, we are facotry. Founded in 2004,Ruiyu Tools has established itself as a trusted provider of high-quality drill bits, end mills, and other non-standard tools.
Before purchasing, please contact us to confirm model No. and drawings to avoid any misunderstanding.
Yes.We can supply OEM&ODM and make customized design for any specific application.
We suggest you ording a sample. And you can also send us email with detailed photos and specifications for checking if you cannot get enough information in the product page.
Non-standard tools 5-10 Working days,Standard tools usually 1-2 days.
