Heat-resistant alloy end mill series
DV-SCMS type (multi-blade, square type) / DV-OCSAR type (radial type)
Ideal for titanium and heat-resistant alloy processing related to aircraft!
1. Low-resistance, multi-flute solid square end mill DV-SCMS type that can process heat-resistant alloys at high speed and high efficiency. 2. Radius end mill DV-OCSAR type that suppresses chatter and achieves high-speed, high-efficiency processing of heat-resistant alloys and titanium alloys widely used in the aerospace industry.
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basic information
DV-SCMS Type: 1. A low-resistance, multi-flute solid end mill capable of processing heat-resistant alloys at high speed and high efficiency. 2. By adopting a special shape for the cutting edge specifications, chatter is suppressed, enabling trochoidal machining. 3. Long lifespan due to the newly developed value coating. DV-OCSAR Type: 1. A radius end mill that realizes high-speed and high-efficiency machining while suppressing chatter in the processing of heat-resistant alloys and titanium alloys widely used in the aerospace industry. 2. By incorporating uneven division and an uneven lead angle of 42°-45°, as well as applying uneven leads even to the corner R section (patent pending), it demonstrates a higher level of chatter suppression effect. 3. The reduction of chatter results in a good machining surface even for thin-walled workpieces like blades and corner R sections in pocket machining. 4. Long lifespan due to the use of a substrate with high thermal conductivity and a value coating with high heat resistance.
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Applications/Examples of results
The processing surface is good even for thin work like blades and corner R parts of pocket machining. There are many adoption results from aircraft manufacturers and others!
Line up(2)
| Model number | overview |
|---|---|
| DV-SCMS type | Multi-blade, square type |
| DV-OCSAR type | Radial type |
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Company information
Since our founding in 1938, we have recognized the potential of cemented carbide in industry and have independently pioneered innovations in cemented carbide tools and the evolution of processing. Based on the powder metallurgy technology cultivated in cemented carbide manufacturing, we have successively introduced innovative technologies to the market, including the world's first practical application of conventional cermet chips, the development of ball end mills and drills with spiral cutting edges, and end mills with twisted cutting edges. In recent years, we have created highly original new technologies in various fields, such as diamond and cemented carbide integrated sintered products, cemented carbide for irregular gear forming molds, and tool materials made from rare metal-reduced alloys, which we sell worldwide. In addition to developing materials and products, we consistently conduct in-house production from the preparation of raw powders, ensuring stable high-quality products, which we believe has earned us the trust of our customers. Today, there are very few products in the world that do not undergo machining processes such as cutting or plastic processing. Even in the realm of advanced science, the advancement of processing technology is essential for practical application and industrialization. In this era of global competition, we will challenge new fields without being bound by convention, adhering to the philosophy that "management is creation" and "richly creative technology development" to contribute to the world.
![[Processing Example] Consolidation of rough machining and finishing machining of aluminum.](https://image.mono.ipros.com/public/product/image/1b5/2001180882/IPROS58869922489823426365.png?w=280&h=280)
![[Processing Example] Improved chip trouble in end mill counterboring operations.](https://image.mono.ipros.com/public/product/image/ec7/2001180892/IPROS41941676007705200802.png?w=280&h=280)
