EnPoint 60 Degree 3.175mm 1/8” Shank 0.1mm Tip 2-Flutes 38mm Total Length CNC Router Bits Carving Liner Metal V Bits for Steel Aluminum PCB MDF Wood Acrylic DIY Woodworking Carbide Engraving Bits
Carbide Engraving Bits, EnPoint 60 Degree 3.175mm 1/8' Shank 0.1mm Tip 2-Flutes 38mm Total Length CNC Router Bits Carving Liner Metal V Bits for Steel Aluminum PCB MDF Wood Acrylic DIY Woodworking - -. Carbide Engraving Bits, EnPoint 60 Degree 3.175mm 1/8" Shank 0.1mm Tip 2-Flutes 38mm Total Length CNC Router Bits Carving Liner Metal V Bits for Steel Aluminum PCB MDF Wood Acrylic DIY Woodworking - -. Unique V design maximizes the tip strength by removing the minimum amount of material from the end. 。 Carbide engraving tools with high hardness, wear resisting, exceptionally durable than other engraving tools. 。 With a unique mirror grinding processing for cutting edge produces an excellent surface finish. Reduce chance of burr and deviation. 。 Designed with a sharper cutting edge that provides a cleaner cut when cutting aluminum and brass, help you get the work done efficiently. 。 Perfect choice for carving and lettering details. Mainly used for the engraving and marking of stainless steel, aluminum, brass. Works well with spring loaded engraving tools, CNC milling machines, end mill holders and etc. 。 Specification。 Quantity: 5pcs。 Name: engraving bits。 Material: solid carbide。 Cutting Angle: 0 degree。 Tip Diameter: 0.1mm(0.00 inch)。 Total Length: mm(1.9 inches)。 Shank Diameter: 3.15mm(0.15 inch)。 Product Type: flutes straight grooves 。 。 Features。 100% Brand new, never used, precision grinding.。 Ultra-fine, submicron solid carbide made, high quality and corrosion resistant, durable service.。 Using advanced technology and adopt good quality materials, lasting longer than other engraving bits.。 Mainly used for acrylics & plastics, carbon fiber, chipboard, laminated veneers, MDF, PCB, solid surface, wood.。 With a unique mirror grinding processing for cutting edge produces an excellent surface finish. Reduce chance of burr and deviation. 。 。 。 。






