Specification Brand : mitoharet BulletPoint : 14x7 Method MR407 Blue Wheel 4x156 (38mm) BulletPoint1 : These cutting discs are designed for cutting fiberglass, steel, iron, plastic, stainless steel, and other ferrous metals. BulletPoint2 : 5 Inch x 0.04 Inch x 7/8 Inch (Diameter: 5 x Arbor Hole Size: 7/8 x Thickness: 0.04). BulletPoint3 : Ultra thin metal cutting discs in 5-inch diameter, amount of removed metal is reduced, increasing cutting speed and reducing the heat generated. BulletPoint4 : Our cutting wheels are made with a proprietary blend of premium abrasive grains. These grains are self- sharpening and provide an aggressive cut. BulletPoint5 : Ultra-thin design minimizes material loss while maximizing precision. Color : RED CompatibleDevices : Angle Grinder ConstructionType : Cut-off Wheels ExteriorFinish : Painted ExternallyAssignedProductIdentifier : 6903036369964 ExternallyAssignedProductIdentifier1 : 191682022104 ExternallyAssignedProductIdentifier2 : 0191682022104 FitType : Universal Fit IncludedComponents : Cut-Off Wheels ItemName : mitoharet 5 in x 0.04 in x 7/8 in Metal & Stainless Steel Cutting Wheel, 50-Pack Cut-Off Wheels, Thin Metal Cutting Disc for Angle Grinder ItemOffset : 38 millimeters ItemPackageDimensions_Height : 8 centimeters ItemPackageDimensions_Length : 13 centimeters ItemPackageDimensions_Width : 13 centimeters ItemPackageQuantity : 1 ItemTypeKeyword : abrasive-cutoff-wheels ItemTypeName : Parts Manufacturer : mitoharet Material : Aluminum Oxide MaximumRotationalSpeed : 12250 rpm ModelName : Cut-Off Wheels ModelNumber : MR40746046651 NumberOfItems : 50 PackageLevel : unit PartNumber : does not apply ProductDescription : 50-Pack Cut-Off Wheels
Specification: Size: 5" x 0.04" x 7/8" Diameter: 5" Thickness: 0.04" Arbor Hole Size: 7/8" Max Operating Speed: 12,250 RPM Colour: black or white (Same product - Random delivery)
Features: - Crafted with premium Aluminum Oxide grain, these discs are designed for fast cutting action and long life. - Ultra-thin design minimizes material loss while maximizing precision.