The PML-4RFP series solid carbide end mills are designed for high-performance general milling applications, with a focus on deep cavity milling. Featuring a 4-flute design with a straight shank, these tools offer excellent performance in demanding machining environments, especially for deep cuts where stability and rigidity are key.
The long neck and short cutting edge design of the PML-4RFP series are specifically engineered to provide optimal performance in deep cavity milling, allowing for better access and control in deep and narrow sections. These end mills excel in reducing vibration and maintaining cutting stability, even under heavy machining loads.
Made from high-quality solid carbide, the PML-4RFP end mills offer superior wear resistance, durability, and longevity, even during high-speed operations. The design ensures smooth cutting, with the right balance between strength and flexibility, making these tools highly reliable in a variety of milling tasks. The available range of sizes, from 6mm to 16mm in diameter, makes it easy to select the right tool for your specific application.
Whether you’re working with tough materials or intricate geometries, the PML-4RFP series delivers precision and efficiency. Its advanced geometry ensures effective chip removal, reducing the risk of tool clogging and maintaining a smooth cutting surface throughout the process.
Features:
High-performance solid carbide construction for durability
4-flute design ensures smooth cutting and effective chip removal
Long neck and short cutting edge for deep cavity milling
Excellent stability during heavy and deep cutting operations
Available in a variety of sizes (6mm to 16mm in diameter)
Designed for deep cavity, precision milling with reduced vibration
Upgrade your machining capabilities with the PML-4RFP solid carbide end mills, designed to handle deep cavity milling with exceptional precision and efficiency. Whether for heavy-duty cutting or fine detailing, these tools offer the reliability and performance you need for a wide range of applications.
