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Tang files pottance file hand
Technical informationPFERD Hand File 6" Swiss Pattern Cut 1Item number19300153Cut1EDP no.12617Height5/32 InchLength6 InchPFERD TOOLS type800Width5/8 InchShapePottance files, handPackaging unit12 EACHSmall, handy files for use on delicate components. Swiss cut 1 for medium precision work.Special featuresCompact, handy design.Designed for small and delicate workpieces.Workpiece materialsSteels up to 370 HV (< 38 HRC)ApplicationsChamferingDeburringFinishingRoundingSurface workWorking on edges (chamfering, rounding)Compatible power toolsManual application
Tang files round
Technical informationPFERD Round File 8" Swiss Pattern Cut 1Item number19309203Cut1EDP no.12798Length8 InchPFERD TOOLS type845Dia. external5/16 InchShapeRoundPackaging unit12 EACHSmall, handy files for use on delicate components. Swiss cut 1 for medium precision work.Special featuresCompact, handy design.Designed for small and delicate workpieces.Workpiece materialsSteels up to 370 HV (< 38 HRC)ApplicationsChamferingDeburringFinishingRoundingWorking on edges (chamfering, rounding)Compatible power toolsManual application
Tang files square
Technical informationPFERD Square File 6" Swiss Pattern Cut 0Item number19312152Cut0EDP no.12848Length6 InchPFERD TOOLS type860Width1/4 InchShapeSquarePackaging unit12 EACHSmall, handy files for use on delicate components. Swiss cut 0 for coarse precision work.Special featuresCompact, handy design.Designed for small and delicate workpieces.Workpiece materialsSteels up to 370 HV (< 38 HRC)ApplicationsChamferingDeburringFinishingRoundingSurface workWorking on edges (chamfering, rounding)Compatible power toolsManual application
Tang files three square
Technical informationPFERD Three Square File 6" Swiss Pattern Cut 2Item number19311154Cut2EDP no.12875Length6 InchPFERD TOOLS type855Width3/8 InchShapeThree squarePackaging unit12 EACHSmall, handy files for use on delicate components. Swiss cut 2 for medium-fine precision work.Special featuresCompact, handy design.Designed for small and delicate workpieces.Workpiece materialsSteels up to 370 HV (< 38 HRC)ApplicationsChamferingDeburringFinishingRoundingSurface workWorking on edges (chamfering, rounding)Compatible power toolsManual application
Three square saw files double ultra-slim
Technical informationPFERD Double Extra Slim Taper Saw File 8" Second CutItem number11404202Cut2Cut files typeSecondEDP no.17035Length8 InchPFERD TOOLS type1239Width5/16 InchPackaging unit10 EACHThree square saw files from PFERD are triangular tapered tanged files. The saw files are suitable for use on steel and cast steel and especially suitable for sharpening sawing tools. PFERD offers three square saw files in various versions and shapes. Triangular files, tapered to the tip with tang. Cut on three sides and three edges. Second cut for universal sharpening tasks. Files come in industrial packaging without handles.Special featuresGood stock removal rate.Durable.Versatile.Workpiece materialsSteels up to 370 HV (< 38 HRC)Cast steelApplicationsSharpeningCompatible power toolsManual application
Three square saw files slim
Technical informationPFERD Slim Taper Saw File 8" Second CutItem number11402202Cut2Cut files typeSecondEDP no.17026Incl. handlewithoutLength8 InchPFERD TOOLS type1237Width15/32 InchPackaging unit10 EACHThree square saw files from PFERD are triangular tapered tanged files. The saw files are suitable for use on steel and cast steel and especially suitable for sharpening sawing tools. PFERD offers three square saw files in various versions and shapes. Triangular files, tapered to the tip with tang. Cut on three sides and three edges. Second cut for universal sharpening tasks. Files come in industrial packaging without handles.Special featuresGood stock removal rate.Durable.Versatile.Workpiece materialsSteels up to 370 HV (< 38 HRC)Cast steelApplicationsSharpeningCompatible power toolsManual application
Three square saw files ultra-slim
Technical informationPFERD Extra Slim Taper Saw File 6" Second CutItem number11403152Cut2Cut files typeSecondEDP no.17029Incl. handlewithoutLength6 InchPFERD TOOLS type1238Width9/32 InchPackaging unit10 EACHThree square saw files from PFERD are triangular tapered tanged files. The saw files are suitable for use on steel and cast steel and especially suitable for sharpening sawing tools. PFERD offers three square saw files in various versions and shapes. Triangular files, tapered to the tip with tang. Cut on three sides and three edges. Second cut for universal sharpening tasks. Files come in industrial packaging without handles.Special featuresGood stock removal rate.Durable.Versatile.Workpiece materialsSteels up to 370 HV (< 38 HRC)Cast steelApplicationsSharpeningCompatible power toolsManual application
Tungsten carbide burs for robotics, KZW Shape, 1/2" x 1" x 1/4" Shank
Single cut burs are ideal for machining cast iron, steel, stainless steel (INOX), nickel-based alloys, and titanium alloys. These burs have a high stock removal rate and achieve a good surface finish quality. Special bur shape for robot applications. The combination of various bur shapes enables hard-to-reach components to be deburred and chamfered in just one operation.Special featuresLess programming needed due to fewer product changes.High-quality HICOAT® coating for a longer tool life and improved performance.Ideal surface finish.High surface quality.Work on almost all materials up to 940 HV (68 HRC).Workpiece materialsAnnealed cast ironBlack annealed cast iron (GTS, GJMB)BrassBronzeCase-hardened steelsCast ironCast steelCobalt-based alloysCopperGrey/nodular cast iron (GG/GJL, GGG/GJS)Hard aluminium alloysHard non-ferrous metalHardened, heat-treated steels over 370 HV (38 HRC)High-temperature-resistant materialsNickel-based alloys (e.g. Inconell and Hastelloy)Stainless steel (INOX)SteelSteel, cast steelSteels over 220 HV (> 95 HB)Steels up to 220 HV (< 95 HB)Steels up to 370 HV (< 38 HRC)TitaniumTitanium alloysTool steelsWhite annealed cast iron (GTW, GJMW)ApplicationsCutting out holesDeburringLevelingMillingSurface workWorking on edgesWorking on edges (chamfering, rounding)Compatible power toolsRobotStraight grinder
Tungsten carbide burs for robotics, KZW Shape, 1/4" x 1/2" x 1/8" Shank
Single cut burs are ideal for machining cast iron, steel, stainless steel (INOX), nickel-based alloys, and titanium alloys. These burs have a high stock removal rate and achieve a good surface finish quality. Special bur shape for robot applications. The combination of various bur shapes enables hard-to-reach components to be deburred and chamfered in just one operation.Special featuresLess programming needed due to fewer product changes.High-quality HICOAT® coating for a longer tool life and improved performance.Ideal surface finish.High surface quality.Work on almost all materials up to 940 HV (68 HRC).Workpiece materialsAnnealed cast ironBlack annealed cast iron (GTS, GJMB)BrassBronzeCase-hardened steelsCast ironCast steelCobalt-based alloysCopperGrey/nodular cast iron (GG/GJL, GGG/GJS)Hard aluminium alloysHard non-ferrous metalHardened, heat-treated steels over 370 HV (38 HRC)High-temperature-resistant materialsNickel-based alloys (e.g. Inconell and Hastelloy)Stainless steel (INOX)SteelSteel, cast steelSteels over 220 HV (> 95 HB)Steels up to 220 HV (< 95 HB)Steels up to 370 HV (< 38 HRC)TitaniumTitanium alloysTool steelsWhite annealed cast iron (GTW, GJMW)ApplicationsCutting out holesDeburringLevelingMillingSurface workWorking on edgesWorking on edges (chamfering, rounding)Compatible power toolsRobotStraight grinder
Tungsten carbide burs for versatile use, Diamond cut, 14° Taper bur with radius end – Shape L
Diamond cut burs are designed for machining stainless steel (INOX), steel, and high-temperature-resistant materials such as nickel-based and cobalt-based alloys. They have high stock removal with short chips, and achieve a good surface finish. Universal line burs are designed for fine and coarse stock removal on the key materials used in industrial manufacturing. They provide a good stock removal rate and are not specific to a particular material. 14° Taper bur with round radius end, shape L.Special featuresGood stock removal rate due to high quality tungsten carbide, bur shape, cut, and optional coating.Durable.The highly accurate concentricity enables precise work free from chatter marks. This considerably reduces wear on the bur and power tool or machine.High surface quality.Recommendations for useThe smaller the bur diameter is in the area being used, the higher the recommended rotational speed can be.For the most cost-effective bur use, work with higher rotational/peripheral speeds. For burs with a 1/4" shank diameter, use power tools with a power output from 300 watts.Workpiece materialsBronzeCase-hardened steelsCast steelCobalt-based alloysHard aluminium alloysHard non-ferrous metalHardened, heat-treated steels over 370 HV (38 HRC)High-temperature-resistant materialsNickel-based alloys (e.g. Inconell and Hastelloy)Stainless steel (INOX)SteelSteel, cast steelSteels over 220 HV (> 95 HB)Steels up to 220 HV (< 95 HB)Steels up to 370 HV (< 38 HRC)TitaniumTitanium alloysTool steelsApplicationsCutting out holesDeburringLevelingMillingMilling outSurface workWork on weld seamsCompatible power toolsFlexible shaft driveTool machineRobotStationary machinesStraight grinder
Tungsten carbide burs for versatile use, Diamond cut, Ball bur – Shape D
Diamond cut burs are designed for machining stainless steel (INOX), steel, and high-temperature-resistant materials such as nickel-based and cobalt-based alloys. They have high stock removal with short chips, and achieve a good surface finish. Universal line burs are designed for fine and coarse stock removal on the key materials used in industrial manufacturing. They provide a good stock removal rate and are not specific to a particular material. Ball-shaped bur, shape D.Special featuresGood stock removal rate due to high quality tungsten carbide, bur shape, cut, and optional coating.Durable.The highly accurate concentricity enables precise work free from chatter marks. This considerably reduces wear on the bur and power tool or machine.High surface quality.Recommendations for useFor the most cost-effective bur use, work with higher rotational/peripheral speeds. For burs with a 1/4" shank diameter, use power tools with a power output from 300 watts.Workpiece materialsBronzeCase-hardened steelsCast steelCobalt-based alloysHard aluminium alloysHard non-ferrous metalHardened, heat-treated steels over 370 HV (38 HRC)High-temperature-resistant materialsNickel-based alloys (e.g. Inconell and Hastelloy)Stainless steel (INOX)SteelSteel, cast steelSteels over 220 HV (> 95 HB)Steels up to 220 HV (< 95 HB)Steels up to 370 HV (< 38 HRC)TitaniumTitanium alloysTool steelsApplicationsCutting out holesDeburringLevelingMillingMilling outSurface workWork on weld seamsCompatible power toolsFlexible shaft driveTool machineRobotStationary machinesStraight grinder
Tungsten carbide burs for versatile use, Diamond cut, Cone bur with pointed end – Shape M
Diamond cut burs are designed for machining stainless steel (INOX), steel, and high-temperature-resistant materials such as nickel-based and cobalt-based alloys. They have high stock removal with short chips, and achieve a good surface finish. Universal line burs are designed for fine and coarse stock removal on the key materials used in industrial manufacturing. They provide a good stock removal rate and are not specific to a particular material. Cone bur with pointed end, shape M.Special featuresGood stock removal rate due to high quality tungsten carbide, bur shape, cut, and optional coating.Durable.The highly accurate concentricity enables precise work free from chatter marks. This considerably reduces wear on the bur and power tool or machine.High surface quality.Recommendations for useThe smaller the bur diameter is in the area being used, the higher the recommended rotational speed can be.For the most cost-effective bur use, work with higher rotational/peripheral speeds. For burs with a 1/4" shank diameter, use power tools with a power output from 300 watts.Workpiece materialsBronzeCase-hardened steelsCast steelCobalt-based alloysHard aluminium alloysHard non-ferrous metalHardened, heat-treated steels over 370 HV (38 HRC)High-temperature-resistant materialsNickel-based alloys (e.g. Inconell and Hastelloy)Stainless steel (INOX)SteelSteel, cast steelSteels over 220 HV (> 95 HB)Steels up to 220 HV (< 95 HB)Steels up to 370 HV (< 38 HRC)TitaniumTitanium alloysTool steelsApplicationsCutting out holesDeburringLevelingMillingMilling outSurface workWork on weld seamsCompatible power toolsFlexible shaft driveTool machineRobotStationary machinesStraight grinder
Tungsten carbide burs for versatile use, Diamond cut, Cylindrical bur with end cut – Shape B
Diamond cut burs are designed for machining stainless steel (INOX), steel, and high-temperature-resistant materials such as nickel-based and cobalt-based alloys. They have high stock removal with short chips, and achieve a good surface finish. Universal line burs are designed for fine and coarse stock removal on the key materials used in industrial manufacturing. They provide a good stock removal rate and are not specific to a particular material. Cylindrical bur with end cut, shape B.Special featuresGood stock removal rate due to high quality tungsten carbide, bur shape, cut, and optional coating.Durable.The highly accurate concentricity enables precise work free from chatter marks. This considerably reduces wear on the bur and power tool or machine.High surface quality.Recommendations for useFor the most cost-effective bur use, work with higher rotational/peripheral speeds. For burs with a 1/4" shank diameter, use power tools with a power output from 300 watts.Workpiece materialsBronzeCase-hardened steelsCast steelCobalt-based alloysHard aluminium alloysHard non-ferrous metalHardened, heat-treated steels over 370 HV (38 HRC)High-temperature-resistant materialsNickel-based alloys (e.g. Inconell and Hastelloy)Stainless steel (INOX)SteelSteel, cast steelSteels over 220 HV (> 95 HB)Steels up to 220 HV (< 95 HB)Steels up to 370 HV (< 38 HRC)TitaniumTitanium alloysTool steelsApplicationsCutting out holesDeburringLevelingMillingMilling outSurface workWork on weld seamsCompatible power toolsFlexible shaft driveTool machineRobotStationary machinesStraight grinder
Tungsten carbide burs for versatile use, Diamond cut, Cylindrical bur with plain end (uncut) – Shape A
Diamond cut burs are designed for machining stainless steel (INOX), steel, and high-temperature-resistant materials such as nickel-based and cobalt-based alloys. They have high stock removal with short chips, and achieve a good surface finish. Universal line burs are designed for fine and coarse stock removal on the key materials used in industrial manufacturing. They provide a good stock removal rate and are not specific to a particular material. Cylindrical burSpecial featuresGood stock removal rate due to high quality tungsten carbide, bur shape, cut, and optional coating.Durable.The highly accurate concentricity enables precise work free from chatter marks. This considerably reduces wear on the bur and power tool or machine.High surface quality.Recommendations for useFor the most cost-effective bur use, work with higher rotational/peripheral speeds. For burs with a 1/4" shank diameter, use power tools with a power output from 300 watts.Workpiece materialsBronzeCase-hardened steelsCast steelCobalt-based alloysHard aluminium alloysHard non-ferrous metalHardened, heat-treated steels over 370 HV (38 HRC)High-temperature-resistant materialsNickel-based alloys (e.g. Inconell and Hastelloy)Stainless steel (INOX)SteelSteel, cast steelSteels over 220 HV (> 95 HB)Steels up to 220 HV (< 95 HB)Steels up to 370 HV (< 38 HRC)TitaniumTitanium alloysTool steelsApplicationsCutting out holesDeburringLevelingMillingMilling outSurface workWork on weld seamsCompatible power toolsFlexible shaft driveTool machineRobotStationary machinesStraight grinder
Tungsten carbide burs for versatile use, Diamond cut, Cylindrical bur with radius end – Shape C
Diamond cut burs are designed for machining stainless steel (INOX), steel, and high-temperature-resistant materials such as nickel-based and cobalt-based alloys. They have high stock removal with short chips, and achieve a good surface finish. Universal line burs are designed for fine and coarse stock removal on the key materials used in industrial manufacturing. They provide a good stock removal rate and are not specific to a particular material. Cylindrical bur with rounded radius end, shape C.Special featuresGood stock removal rate due to high quality tungsten carbide, bur shape, cut, and optional coating.Durable.The highly accurate concentricity enables precise work free from chatter marks. This considerably reduces wear on the bur and power tool or machine.High surface quality.Recommendations for useFor the most cost-effective bur use, work with higher rotational/peripheral speeds. For burs with a 1/4" shank diameter, use power tools with a power output from 300 watts.Workpiece materialsBronzeCase-hardened steelsCast steelCobalt-based alloysHard aluminium alloysHard non-ferrous metalHardened, heat-treated steels over 370 HV (38 HRC)High-temperature-resistant materialsNickel-based alloys (e.g. Inconell and Hastelloy)Stainless steel (INOX)SteelSteel, cast steelSteels over 220 HV (> 95 HB)Steels up to 220 HV (< 95 HB)Steels up to 370 HV (< 38 HRC)TitaniumTitanium alloysTool steelsApplicationsCutting out holesDeburringLevelingMillingMilling outSurface workWork on weld seamsCompatible power toolsFlexible shaft driveTool machineRobotStationary machinesStraight grinder
Tungsten carbide burs for versatile use, Diamond cut, Oval bur – Shape E
Diamond cut burs are designed for machining stainless steel (INOX), steel, and high-temperature-resistant materials such as nickel-based and cobalt-based alloys. They have high stock removal with short chips, and achieve a good surface finish. Universal line burs are designed for fine and coarse stock removal on the key materials used in industrial manufacturing. They provide a good stock removal rate and are not specific to a particular material. Oval bur.Special featuresGood stock removal rate due to high quality tungsten carbide, bur shape, cut, and optional coating.Durable.The highly accurate concentricity enables precise work free from chatter marks. This considerably reduces wear on the bur and power tool or machine.High surface quality.Recommendations for useFor the most cost-effective bur use, work with higher rotational/peripheral speeds. For burs with a 1/4" shank diameter, use power tools with a power output from 300 watts.Workpiece materialsBronzeCase-hardened steelsCast steelCobalt-based alloysHard aluminium alloysHard non-ferrous metalHardened, heat-treated steels over 370 HV (38 HRC)High-temperature-resistant materialsNickel-based alloys (e.g. Inconell and Hastelloy)Stainless steel (INOX)SteelSteel, cast steelSteels over 220 HV (> 95 HB)Steels up to 220 HV (< 95 HB)Steels up to 370 HV (< 38 HRC)TitaniumTitanium alloysTool steelsApplicationsCutting out holesDeburringLevelingMillingMilling outSurface workWork on weld seamsCompatible power toolsFlexible shaft driveTool machineRobotStationary machinesStraight grinder
Tungsten carbide burs for versatile use, Diamond cut, Tree bur with pointed end – Shape G
Diamond cut burs are designed for machining stainless steel (INOX), steel, and high-temperature-resistant materials such as nickel-based and cobalt-based alloys. They have high stock removal with short chips, and achieve a good surface finish. Universal line burs are designed for fine and coarse stock removal on the key materials used in industrial manufacturing. They provide a good stock removal rate and are not specific to a particular material. Tree bur with pointed end, shape G.Special featuresGood stock removal rate due to high quality tungsten carbide, bur shape, cut, and optional coating.Durable.The highly accurate concentricity enables precise work free from chatter marks. This considerably reduces wear on the bur and power tool or machine.High surface quality.Recommendations for useThe smaller the bur diameter is in the area being used, the higher the recommended rotational speed can be.For the most cost-effective bur use, work with higher rotational/peripheral speeds. For burs with a 1/4" shank diameter, use power tools with a power output from 300 watts.Workpiece materialsBronzeCase-hardened steelsCast steelCobalt-based alloysHard aluminium alloysHard non-ferrous metalHardened, heat-treated steels over 370 HV (38 HRC)High-temperature-resistant materialsNickel-based alloys (e.g. Inconell and Hastelloy)Stainless steel (INOX)SteelSteel, cast steelSteels over 220 HV (> 95 HB)Steels up to 220 HV (< 95 HB)Steels up to 370 HV (< 38 HRC)TitaniumTitanium alloysTool steelsApplicationsCutting out holesDeburringLevelingMillingMilling outSurface workWork on weld seamsCompatible power toolsFlexible shaft driveTool machineRobotStationary machinesStraight grinder
Tungsten carbide burs for versatile use, Diamond cut, Tree bur with radius end – Shape F
Diamond cut burs are designed for machining stainless steel (INOX), steel, and high-temperature-resistant materials such as nickel-based and cobalt-based alloys. They have high stock removal with short chips, and achieve a good surface finish. Universal line burs are designed for fine and coarse stock removal on the key materials used in industrial manufacturing. They provide a good stock removal rate and are not specific to a particular material. Tree bur with radius end, shape F.Special featuresGood stock removal rate due to high quality tungsten carbide, bur shape, cut, and optional coating.Durable.The highly accurate concentricity enables precise work free from chatter marks. This considerably reduces wear on the bur and power tool or machine.High surface quality.Recommendations for useThe smaller the bur diameter is in the area being used, the higher the recommended rotational speed can be.For the most cost-effective bur use, work with higher rotational/peripheral speeds. For burs with a 1/4" shank diameter, use power tools with a power output from 300 watts.Workpiece materialsBronzeCase-hardened steelsCast steelCobalt-based alloysHard aluminium alloysHard non-ferrous metalHardened, heat-treated steels over 370 HV (38 HRC)High-temperature-resistant materialsNickel-based alloys (e.g. Inconell and Hastelloy)Stainless steel (INOX)SteelSteel, cast steelSteels over 220 HV (> 95 HB)Steels up to 220 HV (< 95 HB)Steels up to 370 HV (< 38 HRC)TitaniumTitanium alloysTool steelsApplicationsCutting out holesDeburringLevelingMillingMilling outSurface workWork on weld seamsCompatible power toolsFlexible shaft driveTool machineRobotStationary machinesStraight grinder
Tungsten carbide burs for versatile use, Double cut, 14° Taper bur with radius end – Shape L
Double cut burs are cross cut and ideal for machining cast iron, steel, stainless steel (INOX), nickel-based alloys, and titanium alloys. These burs have a high stock removal rate. Universal line burs are designed for fine and coarse stock removal on the key materials used in industrial manufacturing. They provide a good stock removal rate and are not specific to a particular material. 14° Taper bur with round radius end, shape L.Special featuresGood stock removal rate due to high quality tungsten carbide, bur shape, cut, and optional coating.Durable.The highly accurate concentricity enables precise work free from chatter marks. This considerably reduces wear on the bur and power tool or machine.High surface quality.Recommendations for useThe smaller the bur diameter is in the area being used, the higher the recommended rotational speed can be.For the most cost-effective bur use, work with higher rotational/peripheral speeds. For burs with a 1/8" shank diameter, use power tools with a power output of 75 to 300 watts.For the most cost-effective bur use, work with higher rotational/peripheral speeds. For burs with a 1/4" shank diameter, use power tools with a power output from 300 watts.Safety notesFor safety reasons, the maximum application speeds with contact with the workpiece require a reduction in the recommended speed of tungsten carbide burs with standard shanks. Observe the reduced speeds outlined in the product details.When working with longer shanks, it is crucial that the bur is in contact with the workpiece (or inserted in the hole or slot to be machined) before the power tool is turned on. As a rule, the bur must remain in contact with the workpiece for as long as the machine is running. Failure to observe this procedure may result in shank failure (bending) and hence an increased risk of accidents. If continuous contact between the tool and the workpiece is not guaranteed during use, the maximum idling speeds must not be exceeded.Not designed for robotic or stationary applications due to risk of bending. Use only rigid clamping systems/power tools.Workpiece materialsAnnealed cast ironBlack annealed cast iron (GTS, GJMB)Case-hardened steelsCast ironCast steelCobalt-based alloysGrey/nodular cast iron (GG/GJL, GGG/GJS)Hard aluminium alloysHardened, heat-treated steels over 370 HV (38 HRC)High-temperature-resistant materialsNickel-based alloys (e.g. Inconell and Hastelloy)Stainless steel (INOX)SteelSteel, cast steelSteels over 220 HV (> 95 HB)Steels up to 220 HV (< 95 HB)Steels up to 370 HV (< 38 HRC)Tool steelsWhite annealed cast iron (GTW, GJMW)ApplicationsCutting out holesDeburringLevelingMillingMilling outSurface workWork on weld seamsCompatible power toolsFlexible shaft driveTool machineRobotStationary machinesStraight grinder
Tungsten carbide burs for versatile use, Double cut, Ball bur – Shape D
Double cut burs are cross cut and ideal for machining cast iron, steel, stainless steel (INOX), nickel-based alloys, and titanium alloys. These burs have a high stock removal rate. Universal line burs are designed for fine and coarse stock removal on the key materials used in industrial manufacturing. They provide a good stock removal rate and are not specific to a particular material. Ball-shaped bur, shape D.Special featuresGood stock removal rate due to high quality tungsten carbide, bur shape, cut, and optional coating.Durable.The highly accurate concentricity enables precise work free from chatter marks. This considerably reduces wear on the bur and power tool or machine.High surface quality.Recommendations for useFor the most cost-effective bur use, work with higher rotational/peripheral speeds. For burs with a 1/8" shank diameter, use power tools with a power output of 75 to 300 watts.For the most cost-effective bur use, work with higher rotational/peripheral speeds. For burs with a 1/4" shank diameter, use power tools with a power output from 300 watts.Safety notesFor safety reasons, the maximum application speeds with contact with the workpiece require a reduction in the recommended speed of tungsten carbide burs with standard shanks. Observe the reduced speeds outlined in the product details.When working with longer shanks, it is crucial that the bur is in contact with the workpiece (or inserted in the hole or slot to be machined) before the power tool is turned on. As a rule, the bur must remain in contact with the workpiece for as long as the machine is running. Failure to observe this procedure may result in shank failure (bending) and hence an increased risk of accidents. If continuous contact between the tool and the workpiece is not guaranteed during use, the maximum idling speeds must not be exceeded.Not designed for robotic or stationary applications due to risk of bending. Use only rigid clamping systems/power tools.Workpiece materialsAnnealed cast ironBlack annealed cast iron (GTS, GJMB)Case-hardened steelsCast ironCast steelCobalt-based alloysGrey/nodular cast iron (GG/GJL, GGG/GJS)Hard aluminium alloysHardened, heat-treated steels over 370 HV (38 HRC)High-temperature-resistant materialsNickel-based alloys (e.g. Inconell and Hastelloy)Stainless steel (INOX)SteelSteel, cast steelSteels over 220 HV (> 95 HB)Steels up to 220 HV (< 95 HB)Steels up to 370 HV (< 38 HRC)Tool steelsWhite annealed cast iron (GTW, GJMW)ApplicationsCutting out holesDeburringLevelingMillingMilling outSurface workWork on weld seamsCompatible power toolsFlexible shaft driveTool machineRobotStationary machinesStraight grinder
Tungsten carbide burs for versatile use, Double cut, Cone bur with pointed end – Shape M
Double cut burs are cross cut and ideal for machining cast iron, steel, stainless steel (INOX), nickel-based alloys, and titanium alloys. These burs have a high stock removal rate. Universal line burs are designed for fine and coarse stock removal on the key materials used in industrial manufacturing. They provide a good stock removal rate and are not specific to a particular material. Cone bur with pointed end, shape M.Special featuresGood stock removal rate due to high quality tungsten carbide, bur shape, cut, and optional coating.Durable.The highly accurate concentricity enables precise work free from chatter marks. This considerably reduces wear on the bur and power tool or machine.High surface quality.Recommendations for useThe smaller the bur diameter is in the area being used, the higher the recommended rotational speed can be.For the most cost-effective bur use, work with higher rotational/peripheral speeds. For burs with a 1/8" shank diameter, use power tools with a power output of 75 to 300 watts.For the most cost-effective bur use, work with higher rotational/peripheral speeds. For burs with a 1/4" shank diameter, use power tools with a power output from 300 watts.Workpiece materialsAnnealed cast ironBlack annealed cast iron (GTS, GJMB)Case-hardened steelsCast ironCast steelCobalt-based alloysGrey/nodular cast iron (GG/GJL, GGG/GJS)Hard aluminium alloysHardened, heat-treated steels over 370 HV (38 HRC)High-temperature-resistant materialsNickel-based alloys (e.g. Inconell and Hastelloy)Stainless steel (INOX)SteelSteel, cast steelSteels over 220 HV (> 95 HB)Steels up to 220 HV (< 95 HB)Steels up to 370 HV (< 38 HRC)Tool steelsWhite annealed cast iron (GTW, GJMW)ApplicationsCutting out holesDeburringLevelingMillingMilling outSurface workWork on weld seamsCompatible power toolsFlexible shaft driveTool machineRobotStationary machinesStraight grinder
Tungsten carbide burs for versatile use, Double cut, Cylindrical bur with end cut – Shape B
Double cut burs are cross cut and ideal for machining cast iron, steel, stainless steel (INOX), nickel-based alloys, and titanium alloys. These burs have a high stock removal rate. Universal line burs are designed for fine and coarse stock removal on the key materials used in industrial manufacturing. They provide a good stock removal rate and are not specific to a particular material. Cylindrical bur with end cut, shape B.Special featuresGood stock removal rate due to high quality tungsten carbide, bur shape, cut, and optional coating.Durable.The highly accurate concentricity enables precise work free from chatter marks. This considerably reduces wear on the bur and power tool or machine.High surface quality.Recommendations for useFor the most cost-effective bur use, work with higher rotational/peripheral speeds. For burs with a 1/4" shank diameter, use power tools with a power output from 300 watts.Safety notesFor safety reasons, the maximum application speeds with contact with the workpiece require a reduction in the recommended speed of tungsten carbide burs with standard shanks. Observe the reduced speeds outlined in the product details.When working with longer shanks, it is crucial that the bur is in contact with the workpiece (or inserted in the hole or slot to be machined) before the power tool is turned on. As a rule, the bur must remain in contact with the workpiece for as long as the machine is running. Failure to observe this procedure may result in shank failure (bending) and hence an increased risk of accidents. If continuous contact between the tool and the workpiece is not guaranteed during use, the maximum idling speeds must not be exceeded.Not designed for robotic or stationary applications due to risk of bending. Use only rigid clamping systems/power tools.Workpiece materialsAnnealed cast ironBlack annealed cast iron (GTS, GJMB)Case-hardened steelsCast ironCast steelCobalt-based alloysGrey/nodular cast iron (GG/GJL, GGG/GJS)Hard aluminium alloysHardened, heat-treated steels over 370 HV (38 HRC)High-temperature-resistant materialsNickel-based alloys (e.g. Inconell and Hastelloy)Stainless steel (INOX)SteelSteel, cast steelSteels over 220 HV (> 95 HB)Steels up to 220 HV (< 95 HB)Steels up to 370 HV (< 38 HRC)Tool steelsWhite annealed cast iron (GTW, GJMW)ApplicationsCutting out holesDeburringLevelingMillingMilling outSurface workWork on weld seamsCompatible power toolsFlexible shaft driveTool machineRobotStationary machinesStraight grinder
Tungsten carbide burs for versatile use, Double cut, Cylindrical bur with plain end (uncut) – Shape A
Double cut burs are cross cut and ideal for machining cast iron, steel, stainless steel (INOX), nickel-based alloys, and titanium alloys. These burs have a high stock removal rate. Universal line burs are designed for fine and coarse stock removal on the key materials used in industrial manufacturing. They provide a good stock removal rate and are not specific to a particular material. Cylindrical burSpecial featuresGood stock removal rate due to high quality tungsten carbide, bur shape, cut, and optional coating.Durable.The highly accurate concentricity enables precise work free from chatter marks. This considerably reduces wear on the bur and power tool or machine.High surface quality.Recommendations for useFor the most cost-effective bur use, work with higher rotational/peripheral speeds. For burs with a 1/8" shank diameter, use power tools with a power output of 75 to 300 watts.For the most cost-effective bur use, work with higher rotational/peripheral speeds. For burs with a 1/4" shank diameter, use power tools with a power output from 300 watts.Safety notesFor safety reasons, the maximum application speeds with contact with the workpiece require a reduction in the recommended speed of tungsten carbide burs with standard shanks. Observe the reduced speeds outlined in the product details.When working with longer shanks, it is crucial that the bur is in contact with the workpiece (or inserted in the hole or slot to be machined) before the power tool is turned on. As a rule, the bur must remain in contact with the workpiece for as long as the machine is running. Failure to observe this procedure may result in shank failure (bending) and hence an increased risk of accidents. If continuous contact between the tool and the workpiece is not guaranteed during use, the maximum idling speeds must not be exceeded.Not designed for robotic or stationary applications due to risk of bending. Use only rigid clamping systems/power tools.Workpiece materialsAnnealed cast ironBlack annealed cast iron (GTS, GJMB)Case-hardened steelsCast ironCast steelCobalt-based alloysGrey/nodular cast iron (GG/GJL, GGG/GJS)Hard aluminium alloysHardened, heat-treated steels over 370 HV (38 HRC)High-temperature-resistant materialsNickel-based alloys (e.g. Inconell and Hastelloy)Stainless steel (INOX)SteelSteel, cast steelSteels over 220 HV (> 95 HB)Steels up to 220 HV (< 95 HB)Steels up to 370 HV (< 38 HRC)Tool steelsWhite annealed cast iron (GTW, GJMW)ApplicationsCutting out holesDeburringLevelingMillingMilling outSurface workWork on weld seamsCompatible power toolsFlexible shaft driveTool machineRobotStationary machinesStraight grinder
Tungsten carbide burs for versatile use, Double cut, Cylindrical bur with radius end – Shape C
Double cut burs are cross cut and ideal for machining cast iron, steel, stainless steel (INOX), nickel-based alloys, and titanium alloys. These burs have a high stock removal rate. Universal line burs are designed for fine and coarse stock removal on the key materials used in industrial manufacturing. They provide a good stock removal rate and are not specific to a particular material. Cylindrical bur with rounded radius end, shape C.Special featuresGood stock removal rate due to high quality tungsten carbide, bur shape, cut, and optional coating.Durable.The highly accurate concentricity enables precise work free from chatter marks. This considerably reduces wear on the bur and power tool or machine.High surface quality.Recommendations for useFor the most cost-effective bur use, work with higher rotational/peripheral speeds. For burs with a 1/8" shank diameter, use power tools with a power output of 75 to 300 watts.For the most cost-effective bur use, work with higher rotational/peripheral speeds. For burs with a 1/4" shank diameter, use power tools with a power output from 300 watts.Safety notesFor safety reasons, the maximum application speeds with contact with the workpiece require a reduction in the recommended speed of tungsten carbide burs with standard shanks. Observe the reduced speeds outlined in the product details.When working with longer shanks, it is crucial that the bur is in contact with the workpiece (or inserted in the hole or slot to be machined) before the power tool is turned on. As a rule, the bur must remain in contact with the workpiece for as long as the machine is running. Failure to observe this procedure may result in shank failure (bending) and hence an increased risk of accidents. If continuous contact between the tool and the workpiece is not guaranteed during use, the maximum idling speeds must not be exceeded.Not designed for robotic or stationary applications due to risk of bending. Use only rigid clamping systems/power tools.Workpiece materialsAnnealed cast ironBlack annealed cast iron (GTS, GJMB)Case-hardened steelsCast ironCast steelCobalt-based alloysGrey/nodular cast iron (GG/GJL, GGG/GJS)Hard aluminium alloysHardened, heat-treated steels over 370 HV (38 HRC)High-temperature-resistant materialsNickel-based alloys (e.g. Inconell and Hastelloy)Stainless steel (INOX)SteelSteel, cast steelSteels over 220 HV (> 95 HB)Steels up to 220 HV (< 95 HB)Steels up to 370 HV (< 38 HRC)Tool steelsWhite annealed cast iron (GTW, GJMW)ApplicationsCutting out holesDeburringLevelingMillingMilling outSurface workWork on weld seamsCompatible power toolsFlexible shaft driveTool machineRobotStationary machinesStraight grinder