Resin Bond

SMART CUT® Series 3000R Resin Bond, Diamond Cut Off Blade

Resin Bond Diamond Cut off blades (Fine Size Diamond) for use on manual tile saws
SMART CUT® Series 3000R are the highest quality & most commonly used Resin Bond Diamond Cut off Blades / Cut Off Wheels available today. Finer Diamond Grit Size, and Slightly Higher Diamond Content then the SMART CUT Series 2000R blades. They are used for cutting very thin wall tubing, more fragile material, that need best surface finish possible to achieve. Cutting speed would be slower then the 2000R series. These blades cut more slowly due to their finer grit size, which provides less aggressive material removal. They are better suited for precision tasks where cut quality is prioritized over speed. The finer grit results in a much smoother surface finish with minimal chipping, making them ideal when a high-quality, clean cut is needed, especially for delicate materials The resin bond diamond cut off blades / cut off wheels excel in delivering superior cut quality compared to other diamond cutting blade, making them ideal for applications where cut quality and surface finish is highly important. They are designed to operate at higher speeds to minimize heat generation and improve surface finishes.

SMART CUT® Series 400 Wafering Blade, Resin Bond

Resin Bond Diamond Wafering Blades for use on Precision & Laboratory type Cut off Saws
SMART CUT®  Series 400 are Designed for Precision, Chip Free cutting of wide variety of materials These are very thin kerf blades and are very delicate. Must be used on high precision specialized laboratory cutting saws (not tile saws, trim saws, etc) The diamond section can be easily broken if the material moves while cutting, blade is dropped, material is feed to fast into the blade, material is not fed consistently straight into the blade (shifts position) etc. Diamond Size is Medium providing faster cutting speed, while still providing surface quality unmatched by 95% of other blades.

SMART CUT® Series 600 RCBN CBN, Resin Bond Cut Off Blades

SMART CUT®  Series 600 RCBN CBN, Cut Off blades are designed for cutting of extremely hard ferrous metals (HV 500 - 1400) used on large variety of high speed & abrasive cut off saws.
Resin bond CBN Cut Off Blades offer superior cut quality than any type diamond wafering blade available. Recommended for applications where cut quality and surface finish is very important. Compared to their sintered (metal bond) wafering blade counterparts. Resin Bond CBN Cut Off Blades offer far superior cut quality than the finest size metal bond (sintered) bade. Recommended for cutting Tool Steels, Heat-sensitive Materials, Hard Alloys, Soft Ferrous Alloys, Titanium Alloys where low heat generation or improved surface finish is desired. Most commonly used at higher speeds.

SMART CUT™ Series 2000

SMART CUT® Series 2000 are the highest quality & most commonly used Resin Bond Diamond Cut off Blades / Cut Off Wheels available today. Designed specifically for cutting a wide array of materials such as soda lime and borosilicate glass tubing, along with ultra hard and brittle materials such as ceramic tubing materials like Al203, silicon carbide, sapphire, and tungsten carbide, & exotic metals. These blades also handle metals and alloys with ease. While they can be used dry, employing coolant is advised to achieve the best results. The resin bond diamond cut off blades / cut off wheels excel in delivering superior cut quality compared to other diamond cutting blade, making them ideal for applications where cut quality and surface finish is highly important. They are designed to operate at higher speeds to minimize heat generation and improve surface finishes. SMART CUT® resin bond diamond wheels are engineered to maximize blade life while maintaining your desired cut quality and speed. These blades offer numerous advantages, including unmatched cut quality that often eliminates the need for secondary finishing operations. They feature a faster and freer cutting speed, generate less heat, and apply minimal stress to the material.