Power Tools - Router Bits The Cleveland C95503 STYLE 3200 1/8X1/4X1-1/2 CFRP MILL END NICKED ROUTER is a high-performance router bit designed for precision cutting in composite materials, particularly carbon fiber reinforced plastic (CFRP). Engineered for durability and efficiency, this router bit is an essential tool for professionals in the automotive and manufacturing sectors seeking enhanced machining capabilities.

Key Features

• Size and Specifications: Features a diameter of 1/8 inch, a cutting length of 1/4 inch, and an overall length of 1-1/2 inches, making it versatile for various routing applications.

• Material Construction: Crafted from high-quality carbide, ensuring long-lasting sharpness and resistance to wear when cutting through tough materials like CFRP.

• Nick Design: The nicked design facilitates smoother cutting action and reduces chipping, providing cleaner edges and better finishes on composite parts.

• Precision Engineering: Manufactured with tight tolerances to ensure consistent performance and accuracy, essential for intricate routing tasks in automotive applications.

• Compatibility: Compatible with most standard routers, making it an easy addition to your tool collection.

Applications

• Automotive Industry: Ideal for machining composite components in automotive manufacturing, enhancing the production of lightweight parts that meet performance standards.

• Aerospace and Defense: Suitable for precision routing in aerospace applications where CFRP is commonly used for its strength-to-weight ratio.

• Custom Fabrication: Perfect for custom fabrication projects requiring intricate routing of composite materials.

Benefits

• Enhanced Efficiency: The specialized design reduces the need for secondary finishing processes, saving time and increasing productivity.

• Durable Performance: Carbide construction ensures longevity and reduces tool changes, minimizing downtime during machining operations.

• Superior Finish: Achieves high-quality finishes on routed edges, critical for both aesthetic and functional requirements in advanced manufacturing.