Showing all 3 results
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Spiral Flush Trim
Flush Trim, 12.70 x 31.80 Spiral Down Cut – 1/4″ Shank – BETOP
Solid Carbide Spiral Cutter: At the heart of this router bit is a robust spiral cutter made from solid carbide. Known for its exceptional hardness and resistance to wear and tear, carbide ensures a longer life for the bit and a cleaner cut on your materials.
Steel Shank Fusion: The cutting edge is expertly fused to a high-grade steel shank. This fusion process, likely involving advanced metallurgical techniques, ensures a strong bond between the carbide and steel, providing stability and reducing the risk of breakage.Replacement Alan Cap Screw M3 X 7 Part No - VALVH3X7
Replacement Bearing - DIM1910070
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Spiral Flush Trim
Flush Trim, 12.70 x 31.80 Spiral Down Cut 2 Bearings – 1/2″ Shank – BETOP
Solid Carbide Spiral Cutter: At the heart of this router bit is a robust spiral cutter made from solid carbide. Known for its exceptional hardness and resistance to wear and tear, carbide ensures a longer life for the bit and a cleaner cut on your materials.
Steel Shank Fusion: The cutting edge is expertly fused to a high-grade steel shank. This fusion process, likely involving advanced metallurgical techniques, ensures a strong bond between the carbide and steel, providing stability and reducing the risk of breakage.
Designed to cut through stock and gives clean cuts in both top and bottom. No tear out as bit is designed to pull work into the center of the stock.
Replacement Alan Cap Screw M3 X 7 Part No - VALVH3X7
Replacement Bearing - DIM1910070 -
Spiral Flush Trim
Flush Trim, Pattern Upp BB, 12.70 x 31.80mm Spiral – Patern – 1/4″ Shank – BETOP
Solid Carbide Spiral Cutter: At the heart of this router bit is a robust spiral cutter made from solid carbide. Known for its exceptional hardness and resistance to wear and tear, carbide ensures a longer life for the bit and a cleaner cut on your materials.
Steel Shank Fusion: The cutting edge is expertly fused to a high-grade steel shank. This fusion process, likely involving advanced metallurgical techniques, ensures a strong bond between the carbide and steel, providing stability and reducing the risk of breakage.