Maximum chip discharge with mini chips!!
A multi-blade tool that adopts a unique small-sized 3D chip with low cutting resistance, capable of high-efficiency machining even at an ap of 1.0mm. It can perform high feed and shoulder cutting with a single tool, and also includes the "Hard Chip EPHW type" for high-hardness materials and the "Mirror Chip YPHW type" for finishing the bottom and sides.
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basic information
1. By increasing the chip size, machining with a cutting depth of ap = 1.0mm is possible. 2. The adoption of a unique 3D chip reduces cutting resistance by 25% compared to conventional products. 3. The multi-edge design enables high feed machining. 4. Chip discharge volume... achieves 144cc/min with a φ32 modular type. 5. Even at a machining depth of 1.7mm or more, cutting resistance and power values do not change, so there are no issues with vertical wall machining. 6. The holder adopts a high-rigidity G body and comes with coolant holes in all sizes. 7. A new chip "Hard Chip EPHW type" capable of rough and finishing machining of high-hardness materials over 60HRC, as well as "Mirror Chip YPHW type" for bottom and side finishing, are available in the lineup.
Price information
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Delivery Time
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Applications/Examples of results
We can handle everything from general steel to high-hardness materials, titanium alloys, and heat-resistant alloys!
Line up(9)
| Model number | overview |
|---|---|
| MQX | QM Max Modular Head |
| QXP | QM Max Face Mill |
| EPMT | Chip for QM Max (for high feed) |
| EPMW | Chip for QM Max (high feed edge reinforcement type) |
| ZPMT | Chip for QM Max (shoulder milling with R0.4, R0.8, R2.0 options) |
| ZPMT-PL | Chip for QM Max (shoulder milling, medium to finishing) |
| EPHW | Chip for QM Max (for high hardness materials) |
| YPHW | Chip for QM Max (for bottom and side finishing and contour machining mirror chip) |
| MSN | "Stubborn and Resolute" All Carbide Shank Arbor |
catalog(1)
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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.