60 Degree V Bit - 1/4Shank - 1/4 Cut Diameter - 3 Flute

VBC-60250F3
Shank Diameter - .250" (1/4")
Cut Diameter - .250" (1/4")
Included Angle - 60 Deg.
Number of Flutes - 3
 
Product Description
Our 3-Flute V-Bit Cutting Tools are meticulously engineered to redefine precision in woodworking and sign-making. Crafted from the highest quality micro-grain carbide, these tools are the epitome of durability and sharpness. The advanced tool geometries are designed to leave laser-sharp, precise cuts, ensuring your work stands out with pristine detail.
One standout feature is the elimination of chipout, a common issue faced with other products, especially when working with delicate materials like Oramask. Our V-Bit tools make chipout a thing of the past, allowing for clean and flawless cuts, even on the most intricate and fragile designs. Whether you're a professional sign maker or a woodworking enthusiast, these 3-Flute V-Bit Cutting Tools are your go-to choice for achieving the highest level of precision and quality in your projects.
 
DLC Coating
Diamond-Like Carbon (DLC) coating is a revolutionary innovation in materials engineering, renowned for its extraordinary combination of extreme hardness and exceptional lubricity properties.
DLC, as the name suggests, exhibits a hardness akin to natural diamonds, making it exceptionally wear-resistant and durable.
Its remarkable lubricity, akin to the smoothness of graphite, allows DLC-coated surfaces to minimize friction and reduce wear in mechanical systems, ensuring a longer lifespan and enhanced performance.
DLC's unique ability to provide a protective, ultra-thin layer with diamond-like hardness while also facilitating ultra-low coefficient of friction is a game-changer in cutting tools!
DLC, or Diamond-Like Carbon coating, is a game-changer for carbide cutting tools, extending tool life by up to 3 times when compared to uncoated carbide. Its exceptional hardness provides unparalleled wear resistance, ensuring longevity.
DLC's inherent lubricity reduces friction during cutting, ensuring smoother operations, reduced tool wear, and enhanced precision, a critical advantage in demanding machining applications.
This dual advantage not only enhances durability but also boosts cutting precision, ultimately leading to increased efficiency and cost savings for cutting applications.