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MSC Up To 2022 Part 3 - (153843 Products)

Scientific Cutting Tools - 0.063" Groove Width, 3/8" Min Hole Diam, 3/4" Max Hole Depth, Retaining Ring Grooving Tool - 0.11" Projection, 1-3/4" Shank Length, 2-1/2" OAL, Solid Carbide, Uncoated - Exact Industrial Supply

Scientific Cutting Tools - 0.063" Groove Width, 3/8" Min Hole Diam, 3/4" Max Hole Depth, Retaining Ring Grooving Tool - 0.11" Projection, 1-3/4" Shank Length, 2-1/2" OAL, Solid Carbide, Uncoated


Item #: 44044485
Brand: Scientific Cutting Tools
Model #: GT062-12
Exact Tooling IR#: 04

Features and Benefits

Retaining rings are used for cutting internal grooves with straight edges.
Solid carbide provides better rigidity than high speed steel. It is extremely heat-resistant and used for high speed applications on cast iron, nonferrous materials, plastics, and other tough-to-machine materials.
Uncoated tools do not feature supportive treatments on the cutting edge. They are are used at reduced speeds for general applications on nonferrous metals.
Product Specifications
Grooving Tool Type Retaining Ring
Material Solid Carbide
Shank Diameter (Decimal Inch) 0.3750
Shank Diameter (Inch) 3/8
Groove Width (Decimal Inch) 0.0630
Projection (Decimal Inch) 0.1100
Minimum Hole Diameter (Decimal Inch) 0.3750
Maximum Hole Depth (Decimal Inch) 0.7500
Maximum Hole Depth (Inch) 3/4
Overall Length (Decimal Inch) 2.5000
Overall Length (Inch) 2-1/2
Finish/Coating Uncoated
Shank Length (Decimal Inch) 1.7500
Material Grade Submicron

$50.84

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Iscar - 2mm Groove Width, 8mm Min Hole Diam, 20mm Max Hole Depth, Face Grooving Tool - 20mm Projection, 35mm OAL, Solid Carbide, TiAlN/TiN Finish - Exact Industrial Supply

Iscar - 2mm Groove Width, 8mm Min Hole Diam, 20mm Max Hole Depth, Face Grooving Tool - 20mm Projection, 35mm OAL, Solid Carbide, TiAlN/TiN Finish


Item #: 40741308
Brand: Iscar
Model #: 6403910
Exact Tooling IR#: 04

Features and Benefits

Solid carbide provides better rigidity than high speed steel. It is extremely heat-resistant and used for high speed applications on cast iron, nonferrous materials, plastics, and other tough-to-machine materials.
TiAlN/TiN is a multilayer coating that combines the high hardness of TiN and the heat resistance of TiAlN. It is commonly used on softer materials in general purpose applications.
Product Specifications
Grooving Tool Type Face
Material Solid Carbide
Shank Diameter (Decimal Inch) 0.2756
Shank Diameter (mm) 7.00
Groove Width (Decimal Inch) 0.0787
Groove Width (mm) 2.00
Projection (Decimal Inch) 0.7874
Projection (mm) 20.00
Minimum Hole Diameter (Decimal Inch) 0.3150
Minimum Hole Diameter (mm) 8.00
Maximum Hole Depth (Decimal Inch) 0.7874
Maximum Hole Depth (mm) 20.00
Overall Length (Decimal Inch) 1.3780
Overall Length (mm) 35.00
Finish/Coating TiAlN/TiN
Manufacturer Grade IC1008

$66.10

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Iscar - 0.5mm Groove Width, 2mm Min Hole Diam, 15mm Max Hole Depth, Grooving Grooving Tool - 15mm Projection, 29mm OAL, Solid Carbide, TiAlN/TiN Finish - Exact Industrial Supply

Iscar - 0.5mm Groove Width, 2mm Min Hole Diam, 15mm Max Hole Depth, Grooving Grooving Tool - 15mm Projection, 29mm OAL, Solid Carbide, TiAlN/TiN Finish


Item #: 43265867
Brand: Iscar
Model #: 6403944
Exact Tooling IR#: 04

Features and Benefits

Grooving tools are used for recessing or undercutting a workpiece.
Solid carbide provides better rigidity than high speed steel. It is extremely heat-resistant and used for high speed applications on cast iron, nonferrous materials, plastics, and other tough-to-machine materials.
TiAlN/TiN is a multilayer coating that combines the high hardness of TiN and the heat resistance of TiAlN. It is commonly used on softer materials in general purpose applications.
Product Specifications
Grooving Tool Type Grooving
Material Solid Carbide
Shank Diameter (Decimal Inch) 0.1575
Shank Diameter (mm) 4.00
Groove Width (Decimal Inch) 0.0197
Groove Width (mm) 0.50
Projection (Decimal Inch) 0.5906
Projection (mm) 15.00
Minimum Hole Diameter (Decimal Inch) 0.0787
Minimum Hole Diameter (mm) 2.00
Maximum Hole Depth (Decimal Inch) 0.5906
Maximum Hole Depth (mm) 15.00
Overall Length (Decimal Inch) 1.1417
Overall Length (mm) 29.00
Finish/Coating TiAlN/TiN
Manufacturer Grade IC908
Material Grade Submicron

$66.10

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Iscar - 6mm Min Bore Diam, 1.8mm Max Bore Depth, 6mm Shank Diam, Corner Radius & Profile Boring Bar - 0.006" Corner Radius, Right Hand Cut, Solid Carbide, TiAlN Finish - Exact Industrial Supply

Iscar - 6mm Min Bore Diam, 1.8mm Max Bore Depth, 6mm Shank Diam, Corner Radius & Profile Boring Bar - 0.006" Corner Radius, Right Hand Cut, Solid Carbide, TiAlN Finish


Item #: 69700888
Brand: Iscar
Model #: 6412026
Exact Tooling IR#: 04

Features and Benefits

Solid carbide is used for high performace applications. It is extremely heat resistant and used on cast iron, nonferrous metals and other tough to machine materials.
Titanium aluminum nitride (TiAlN) has a higher hardness than TiN and TiCN. It is extremely heat-resistant and commonly used for high speed applications on stainless steels, nickel and titanium alloys.
Product Specifications
Minimum Bore Diameter (Decimal Inch) 0.2360
Minimum Bore Diameter (mm) 6.00
Maximum Bore Depth (Decimal Inch) 0.0710
Maximum Bore Depth (mm) 1.80
Material Solid Carbide
Material Grade Micrograin
Boring Bar Type Corner Radius; Profile Boring
Shank Diameter (Decimal Inch) 0.2360
Shank Diameter (mm) 6.0000
Overall Length (Decimal Inch) 1.7720
Overall Length (mm) 45.00
Cutting Direction Right Hand
Finish/Coating TiAlN
Corner Radius (Decimal Inch) 0.0060
Corner Radius (mm) 0.15
Bar End Angle 8
Manufacturer Grade IC908

$71.50

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Scientific Cutting Tools - 0.088" Groove Width, 3/8" Min Hole Diam, 1-1/4" Max Hole Depth, Retaining Ring Grooving Tool - 0.11" Projection, 1-1/4" Shank Length, 2-1/2" OAL, Solid Carbide, Uncoated - Exact Industrial Supply

Scientific Cutting Tools - 0.088" Groove Width, 3/8" Min Hole Diam, 1-1/4" Max Hole Depth, Retaining Ring Grooving Tool - 0.11" Projection, 1-1/4" Shank Length, 2-1/2" OAL, Solid Carbide, Uncoated


Item #: 73463630
Brand: Scientific Cutting Tools
Model #: GT087-20
Exact Tooling IR#: 04

Features and Benefits

Retaining rings are used for cutting internal grooves with straight edges.
Solid carbide provides better rigidity than high speed steel. It is extremely heat-resistant and used for high speed applications on cast iron, nonferrous materials, plastics, and other tough-to-machine materials.
Uncoated tools do not feature supportive treatments on the cutting edge. They are are used at reduced speeds for general applications on nonferrous metals.
Product Specifications
Grooving Tool Type Retaining Ring
Material Solid Carbide
Shank Diameter (Decimal Inch) 0.3750
Shank Diameter (Inch) 3/8
Groove Width (Decimal Inch) 0.0880
Projection (Decimal Inch) 0.1100
Minimum Hole Diameter (Decimal Inch) 0.3750
Maximum Hole Depth (Decimal Inch) 1.2500
Maximum Hole Depth (Inch) 1-1/4
Overall Length (Decimal Inch) 2.5000
Overall Length (Inch) 2-1/2
Finish/Coating Uncoated
Shank Length (Decimal Inch) 1.2500
Material Grade Submicron

$50.84

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Tungaloy - 0.6mm Min Bore Diam, 4mm Shank Diam, Boring, Chamfering & Profile Boring Bar - 0.002" Corner Radius, Right Hand Cut, Carbide-Tipped, TiAlN Finish - Exact Industrial Supply

Tungaloy - 0.6mm Min Bore Diam, 4mm Shank Diam, Boring, Chamfering & Profile Boring Bar - 0.002" Corner Radius, Right Hand Cut, Carbide-Tipped, TiAlN Finish


Item #: 47675210
Brand: Tungaloy
Model #: 6861123
Exact Tooling IR#: 04

Features and Benefits

Carbide-tipped is made of solid carbide brazed onto steel shank. It is commonly used on ferrous and nonferrous metals including cast iron, steel and steel alloys.
Titanium aluminum nitride (TiAlN) has a higher hardness than TiN and TiCN. It is extremely heat-resistant and commonly used for high speed applications on stainless steels, nickel and titanium alloys.
Product Specifications
Minimum Bore Diameter (Decimal Inch) 0.0240
Minimum Bore Diameter (mm) 0.60
Material Carbide-Tipped
Boring Bar Type Boring; Chamfering; Profile Boring
Shank Diameter (Decimal Inch) 0.1570
Shank Diameter (mm) 4.0000
Overall Length (Decimal Inch) 0.7280
Overall Length (mm) 18.50
Cutting Direction Right Hand
Finish/Coating TiAlN
Corner Radius (Decimal Inch) 0.0020
Corner Radius (mm) 0.04
Bar End Angle 20
Manufacturer Grade SH730

$58.45

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Tungaloy - 0.6mm Min Bore Diam, 4mm Shank Diam, Boring, Chamfering & Profile Boring Bar - 0.002" Corner Radius, Right Hand Cut, Carbide-Tipped, TiAlN Finish - Exact Industrial Supply

Tungaloy - 0.6mm Min Bore Diam, 4mm Shank Diam, Boring, Chamfering & Profile Boring Bar - 0.002" Corner Radius, Right Hand Cut, Carbide-Tipped, TiAlN Finish


Item #: 47675103
Brand: Tungaloy
Model #: 6861099
Exact Tooling IR#: 04

Features and Benefits

Carbide-tipped is made of solid carbide brazed onto steel shank. It is commonly used on ferrous and nonferrous metals including cast iron, steel and steel alloys.
Titanium aluminum nitride (TiAlN) has a higher hardness than TiN and TiCN. It is extremely heat-resistant and commonly used for high speed applications on stainless steels, nickel and titanium alloys.
Product Specifications
Minimum Bore Diameter (Decimal Inch) 0.0240
Minimum Bore Diameter (mm) 0.60
Material Carbide-Tipped
Boring Bar Type Boring; Chamfering; Profile Boring
Shank Diameter (Decimal Inch) 0.1570
Shank Diameter (mm) 4.0000
Overall Length (Decimal Inch) 0.7680
Overall Length (mm) 19.50
Cutting Direction Right Hand
Finish/Coating TiAlN
Corner Radius (Decimal Inch) 0.0020
Corner Radius (mm) 0.04
Bar End Angle 20
Manufacturer Grade SH730

$58.45

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Scientific Cutting Tools - 0.063" Groove Width, 3/8" Min Hole Diam, 3/8" Max Hole Depth, Retaining Ring Grooving Tool - 0.11" Projection, 2-1/8" Shank Length, 2-1/2" OAL, Solid Carbide, Uncoated - Exact Industrial Supply

Scientific Cutting Tools - 0.063" Groove Width, 3/8" Min Hole Diam, 3/8" Max Hole Depth, Retaining Ring Grooving Tool - 0.11" Projection, 2-1/8" Shank Length, 2-1/2" OAL, Solid Carbide, Uncoated


Item #: 69736007
Brand: Scientific Cutting Tools
Model #: GT062-6
Exact Tooling IR#: 04

Features and Benefits

Retaining rings are used for cutting internal grooves with straight edges.
Solid carbide provides better rigidity than high speed steel. It is extremely heat-resistant and used for high speed applications on cast iron, nonferrous materials, plastics, and other tough-to-machine materials.
Uncoated tools do not feature supportive treatments on the cutting edge. They are are used at reduced speeds for general applications on nonferrous metals.
Product Specifications
Grooving Tool Type Retaining Ring
Material Solid Carbide
Shank Diameter (Decimal Inch) 0.3750
Shank Diameter (Inch) 3/8
Groove Width (Decimal Inch) 0.0630
Projection (Decimal Inch) 0.1100
Minimum Hole Diameter (Decimal Inch) 0.3750
Maximum Hole Depth (Decimal Inch) 0.3750
Maximum Hole Depth (Inch) 3/8
Overall Length (Decimal Inch) 2.5000
Overall Length (Inch) 2-1/2
Finish/Coating Uncoated
Shank Length (Decimal Inch) 2.1250
Material Grade Submicron

$50.84

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Scientific Cutting Tools - 0.056" Groove Width, 3/8" Min Hole Diam, 1/2" Max Hole Depth, Retaining Ring Grooving Tool - 0.11" Projection, 2" Shank Length, 2-1/2" OAL, Solid Carbide, Uncoated - Exact Industrial Supply

Scientific Cutting Tools - 0.056" Groove Width, 3/8" Min Hole Diam, 1/2" Max Hole Depth, Retaining Ring Grooving Tool - 0.11" Projection, 2" Shank Length, 2-1/2" OAL, Solid Carbide, Uncoated


Item #: 64383565
Brand: Scientific Cutting Tools
Model #: GT055-8
Exact Tooling IR#: 04

Features and Benefits

Retaining rings are used for cutting internal grooves with straight edges.
Solid carbide provides better rigidity than high speed steel. It is extremely heat-resistant and used for high speed applications on cast iron, nonferrous materials, plastics, and other tough-to-machine materials.
Uncoated tools do not feature supportive treatments on the cutting edge. They are are used at reduced speeds for general applications on nonferrous metals.
Product Specifications
Grooving Tool Type Retaining Ring
Material Solid Carbide
Shank Diameter (Decimal Inch) 0.3750
Shank Diameter (Inch) 3/8
Groove Width (Decimal Inch) 0.0560
Projection (Decimal Inch) 0.1100
Minimum Hole Diameter (Decimal Inch) 0.3750
Maximum Hole Depth (Decimal Inch) 0.5000
Maximum Hole Depth (Inch) 1/2
Overall Length (Decimal Inch) 2.5000
Overall Length (Inch) 2-1/2
Finish/Coating Uncoated
Shank Length (Decimal Inch) 2.0000
Material Grade Submicron

$50.84

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Use Code: 2%OFF

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Scientific Cutting Tools - 0.056" Groove Width, 3/8" Min Hole Diam, 1" Max Hole Depth, Retaining Ring Grooving Tool - 0.11" Projection, 1-1/2" Shank Length, 2-1/2" OAL, Solid Carbide, Uncoated - Exact Industrial Supply

Scientific Cutting Tools - 0.056" Groove Width, 3/8" Min Hole Diam, 1" Max Hole Depth, Retaining Ring Grooving Tool - 0.11" Projection, 1-1/2" Shank Length, 2-1/2" OAL, Solid Carbide, Uncoated


Item #: 44051761
Brand: Scientific Cutting Tools
Model #: GT055-16
Exact Tooling IR#: 04

Features and Benefits

Retaining rings are used for cutting internal grooves with straight edges.
Solid carbide provides better rigidity than high speed steel. It is extremely heat-resistant and used for high speed applications on cast iron, nonferrous materials, plastics, and other tough-to-machine materials.
Uncoated tools do not feature supportive treatments on the cutting edge. They are are used at reduced speeds for general applications on nonferrous metals.
Product Specifications
Grooving Tool Type Retaining Ring
Material Solid Carbide
Shank Diameter (Decimal Inch) 0.3750
Shank Diameter (Inch) 3/8
Groove Width (Decimal Inch) 0.0560
Projection (Decimal Inch) 0.1100
Minimum Hole Diameter (Decimal Inch) 0.3750
Maximum Hole Depth (Decimal Inch) 1.0000
Maximum Hole Depth (Inch) 1
Overall Length (Decimal Inch) 2.5000
Overall Length (Inch) 2-1/2
Finish/Coating Uncoated
Shank Length (Decimal Inch) 1.5000
Material Grade Submicron

$50.84

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Scientific Cutting Tools - 0.127" Groove Width, 3/8" Min Hole Diam, 1" Max Hole Depth, Retaining Ring Grooving Tool - 0.11" Projection, 1-1/2" Shank Length, 2-1/2" OAL, Solid Carbide, Uncoated - Exact Industrial Supply

Scientific Cutting Tools - 0.127" Groove Width, 3/8" Min Hole Diam, 1" Max Hole Depth, Retaining Ring Grooving Tool - 0.11" Projection, 1-1/2" Shank Length, 2-1/2" OAL, Solid Carbide, Uncoated


Item #: 59985960
Brand: Scientific Cutting Tools
Model #: GT126-16
Exact Tooling IR#: 04

Features and Benefits

Retaining rings are used for cutting internal grooves with straight edges.
Solid carbide provides better rigidity than high speed steel. It is extremely heat-resistant and used for high speed applications on cast iron, nonferrous materials, plastics, and other tough-to-machine materials.
Uncoated tools do not feature supportive treatments on the cutting edge. They are are used at reduced speeds for general applications on nonferrous metals.
Product Specifications
Grooving Tool Type Retaining Ring
Material Solid Carbide
Shank Diameter (Decimal Inch) 0.3750
Shank Diameter (Inch) 3/8
Groove Width (Decimal Inch) 0.1270
Projection (Decimal Inch) 0.1100
Minimum Hole Diameter (Decimal Inch) 0.3750
Maximum Hole Depth (Decimal Inch) 1.0000
Maximum Hole Depth (Inch) 1
Overall Length (Decimal Inch) 2.5000
Overall Length (Inch) 2-1/2
Finish/Coating Uncoated
Shank Length (Decimal Inch) 1.5000
Material Grade Submicron

$50.84

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Scientific Cutting Tools - 0.07" Groove Width, 3/8" Min Hole Diam, 1/4" Max Hole Depth, Retaining Ring Grooving Tool - 0.11" Projection, 2-1/4" Shank Length, 2-1/2" OAL, Solid Carbide, Uncoated - Exact Industrial Supply

Scientific Cutting Tools - 0.07" Groove Width, 3/8" Min Hole Diam, 1/4" Max Hole Depth, Retaining Ring Grooving Tool - 0.11" Projection, 2-1/4" Shank Length, 2-1/2" OAL, Solid Carbide, Uncoated


Item #: 44051944
Brand: Scientific Cutting Tools
Model #: GT069-4
Exact Tooling IR#: 04

Features and Benefits

Retaining rings are used for cutting internal grooves with straight edges.
Solid carbide provides better rigidity than high speed steel. It is extremely heat-resistant and used for high speed applications on cast iron, nonferrous materials, plastics, and other tough-to-machine materials.
Uncoated tools do not feature supportive treatments on the cutting edge. They are are used at reduced speeds for general applications on nonferrous metals.
Product Specifications
Grooving Tool Type Retaining Ring
Material Solid Carbide
Shank Diameter (Decimal Inch) 0.3750
Shank Diameter (Inch) 3/8
Groove Width (Decimal Inch) 0.0700
Projection (Decimal Inch) 0.1100
Minimum Hole Diameter (Decimal Inch) 0.3750
Maximum Hole Depth (Decimal Inch) 0.2500
Maximum Hole Depth (Inch) 1/4
Overall Length (Decimal Inch) 2.5000
Overall Length (Inch) 2-1/2
Finish/Coating Uncoated
Shank Length (Decimal Inch) 2.2500
Material Grade Submicron

$50.84

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Scientific Cutting Tools - 0.04" Groove Width, 3/8" Min Hole Diam, 1/4" Max Hole Depth, Retaining Ring Grooving Tool - 0.11" Projection, 2-1/4" Shank Length, 2-1/2" OAL, Solid Carbide, Uncoated - Exact Industrial Supply

Scientific Cutting Tools - 0.04" Groove Width, 3/8" Min Hole Diam, 1/4" Max Hole Depth, Retaining Ring Grooving Tool - 0.11" Projection, 2-1/4" Shank Length, 2-1/2" OAL, Solid Carbide, Uncoated


Item #: 74533100
Brand: Scientific Cutting Tools
Model #: GT039-4
Exact Tooling IR#: 04

Features and Benefits

Retaining rings are used for cutting internal grooves with straight edges.
Solid carbide provides better rigidity than high speed steel. It is extremely heat-resistant and used for high speed applications on cast iron, nonferrous materials, plastics, and other tough-to-machine materials.
Uncoated tools do not feature supportive treatments on the cutting edge. They are are used at reduced speeds for general applications on nonferrous metals.
Product Specifications
Grooving Tool Type Retaining Ring
Material Solid Carbide
Shank Diameter (Decimal Inch) 0.3750
Shank Diameter (Inch) 3/8
Groove Width (Decimal Inch) 0.0400
Projection (Decimal Inch) 0.1100
Minimum Hole Diameter (Decimal Inch) 0.3750
Maximum Hole Depth (Decimal Inch) 0.2500
Maximum Hole Depth (Inch) 1/4
Overall Length (Decimal Inch) 2.5000
Overall Length (Inch) 2-1/2
Finish/Coating Uncoated
Shank Length (Decimal Inch) 2.2500
Material Grade Submicron

$50.84

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Use Code: 2%OFF

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Scientific Cutting Tools - 0.088" Groove Width, 3/8" Min Hole Diam, 1/2" Max Hole Depth, Retaining Ring Grooving Tool - 0.11" Projection, 2" Shank Length, 2-1/2" OAL, Solid Carbide, Uncoated - Exact Industrial Supply

Scientific Cutting Tools - 0.088" Groove Width, 3/8" Min Hole Diam, 1/2" Max Hole Depth, Retaining Ring Grooving Tool - 0.11" Projection, 2" Shank Length, 2-1/2" OAL, Solid Carbide, Uncoated


Item #: 67871558
Brand: Scientific Cutting Tools
Model #: GT087-8
Exact Tooling IR#: 04

Features and Benefits

Retaining rings are used for cutting internal grooves with straight edges.
Solid carbide provides better rigidity than high speed steel. It is extremely heat-resistant and used for high speed applications on cast iron, nonferrous materials, plastics, and other tough-to-machine materials.
Uncoated tools do not feature supportive treatments on the cutting edge. They are are used at reduced speeds for general applications on nonferrous metals.
Product Specifications
Grooving Tool Type Retaining Ring
Material Solid Carbide
Shank Diameter (Decimal Inch) 0.3750
Shank Diameter (Inch) 3/8
Groove Width (Decimal Inch) 0.0880
Projection (Decimal Inch) 0.1100
Minimum Hole Diameter (Decimal Inch) 0.3750
Maximum Hole Depth (Decimal Inch) 0.5000
Maximum Hole Depth (Inch) 1/2
Overall Length (Decimal Inch) 2.5000
Overall Length (Inch) 2-1/2
Finish/Coating Uncoated
Shank Length (Decimal Inch) 2.0000
Material Grade Submicron

$50.84

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Use Code: 2%OFF

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Scientific Cutting Tools - 0.04" Groove Width, 3/8" Min Hole Diam, 3/8" Max Hole Depth, Retaining Ring Grooving Tool - 0.11" Projection, 2-1/8" Shank Length, 2-1/2" OAL, Solid Carbide, Uncoated - Exact Industrial Supply

Scientific Cutting Tools - 0.04" Groove Width, 3/8" Min Hole Diam, 3/8" Max Hole Depth, Retaining Ring Grooving Tool - 0.11" Projection, 2-1/8" Shank Length, 2-1/2" OAL, Solid Carbide, Uncoated


Item #: 44051696
Brand: Scientific Cutting Tools
Model #: GT039-6
Exact Tooling IR#: 04

Features and Benefits

Retaining rings are used for cutting internal grooves with straight edges.
Solid carbide provides better rigidity than high speed steel. It is extremely heat-resistant and used for high speed applications on cast iron, nonferrous materials, plastics, and other tough-to-machine materials.
Uncoated tools do not feature supportive treatments on the cutting edge. They are are used at reduced speeds for general applications on nonferrous metals.
Product Specifications
Grooving Tool Type Retaining Ring
Material Solid Carbide
Shank Diameter (Decimal Inch) 0.3750
Shank Diameter (Inch) 3/8
Groove Width (Decimal Inch) 0.0400
Projection (Decimal Inch) 0.1100
Minimum Hole Diameter (Decimal Inch) 0.3750
Maximum Hole Depth (Decimal Inch) 0.3750
Maximum Hole Depth (Inch) 3/8
Overall Length (Decimal Inch) 2.5000
Overall Length (Inch) 2-1/2
Finish/Coating Uncoated
Shank Length (Decimal Inch) 2.1250
Material Grade Submicron

$50.84

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Use Code: 2%OFF

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Scientific Cutting Tools - 0.127" Groove Width, 3/8" Min Hole Diam, 1/2" Max Hole Depth, Retaining Ring Grooving Tool - 0.11" Projection, 2" Shank Length, 2-1/2" OAL, Solid Carbide, Uncoated - Exact Industrial Supply

Scientific Cutting Tools - 0.127" Groove Width, 3/8" Min Hole Diam, 1/2" Max Hole Depth, Retaining Ring Grooving Tool - 0.11" Projection, 2" Shank Length, 2-1/2" OAL, Solid Carbide, Uncoated


Item #: 60911229
Brand: Scientific Cutting Tools
Model #: GT126-8
Exact Tooling IR#: 04

Features and Benefits

Retaining rings are used for cutting internal grooves with straight edges.
Solid carbide provides better rigidity than high speed steel. It is extremely heat-resistant and used for high speed applications on cast iron, nonferrous materials, plastics, and other tough-to-machine materials.
Uncoated tools do not feature supportive treatments on the cutting edge. They are are used at reduced speeds for general applications on nonferrous metals.
Product Specifications
Grooving Tool Type Retaining Ring
Material Solid Carbide
Shank Diameter (Decimal Inch) 0.3750
Shank Diameter (Inch) 3/8
Groove Width (Decimal Inch) 0.1270
Projection (Decimal Inch) 0.1100
Minimum Hole Diameter (Decimal Inch) 0.3750
Maximum Hole Depth (Decimal Inch) 0.5000
Maximum Hole Depth (Inch) 1/2
Overall Length (Decimal Inch) 2.5000
Overall Length (Inch) 2-1/2
Finish/Coating Uncoated
Shank Length (Decimal Inch) 2.0000
Material Grade Submicron

$50.84

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Scientific Cutting Tools - 0.063" Groove Width, 0.31" Min Hole Diam, 1" Max Hole Depth, Undercut Grooving Tool - 0.11" Projection, 1-1/2" Shank Length, 2-1/2" OAL, Solid Carbide, AlTiN+ Finish - Exact Industrial Supply

Scientific Cutting Tools - 0.063" Groove Width, 0.31" Min Hole Diam, 1" Max Hole Depth, Undercut Grooving Tool - 0.11" Projection, 1-1/2" Shank Length, 2-1/2" OAL, Solid Carbide, AlTiN+ Finish


Item #: 44080661
Brand: Scientific Cutting Tools
Model #: UC31062-16A
Exact Tooling IR#: 04

Features and Benefits

Undercut groove tools are used for undercutting inside corners of a machined workpiece.
Solid carbide provides better rigidity than high speed steel. It is extremely heat-resistant and used for high speed applications on cast iron, nonferrous materials, plastics, and other tough-to-machine materials.
ALTiN+ is a nano structured ALTiN coating with special additives. It has high hardness, protects against high temperatures and has exceptional oxidation stability. It is used on a broad range of materials including high temp alloys and stainless steels.
Product Specifications
Grooving Tool Type Undercut
Material Solid Carbide
Shank Diameter (Decimal Inch) 0.3125
Shank Diameter (Inch) 5/16
Groove Width (Decimal Inch) 0.0630
Projection (Decimal Inch) 0.1100
Minimum Hole Diameter (Decimal Inch) 0.3100
Maximum Hole Depth (Decimal Inch) 1.0000
Overall Length (Decimal Inch) 2.5000
Overall Length (Inch) 2-1/2
Finish/Coating AlTiN+
Shank Length (Decimal Inch) 1.5000
Material Grade Submicron

$51.18

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Scientific Cutting Tools - 0.047" Groove Width, 3/8" Min Hole Diam, 1/4" Max Hole Depth, Retaining Ring Grooving Tool - 0.11" Projection, 2-1/4" Shank Length, 2-1/2" OAL, Solid Carbide, Uncoated - Exact Industrial Supply

Scientific Cutting Tools - 0.047" Groove Width, 3/8" Min Hole Diam, 1/4" Max Hole Depth, Retaining Ring Grooving Tool - 0.11" Projection, 2-1/4" Shank Length, 2-1/2" OAL, Solid Carbide, Uncoated


Item #: 05076914
Brand: Scientific Cutting Tools
Model #: GT046-4
Exact Tooling IR#: 04

Features and Benefits

Retaining rings are used for cutting internal grooves with straight edges.
Solid carbide provides better rigidity than high speed steel. It is extremely heat-resistant and used for high speed applications on cast iron, nonferrous materials, plastics, and other tough-to-machine materials.
Uncoated tools do not feature supportive treatments on the cutting edge. They are are used at reduced speeds for general applications on nonferrous metals.
Product Specifications
Grooving Tool Type Retaining Ring
Material Solid Carbide
Shank Diameter (Decimal Inch) 0.3750
Shank Diameter (Inch) 3/8
Groove Width (Decimal Inch) 0.0470
Projection (Decimal Inch) 0.1100
Minimum Hole Diameter (Decimal Inch) 0.3750
Maximum Hole Depth (Decimal Inch) 0.2500
Maximum Hole Depth (Inch) 1/4
Overall Length (Decimal Inch) 2.5000
Overall Length (Inch) 2-1/2
Finish/Coating Uncoated
Shank Length (Decimal Inch) 2.2500
Material Grade Submicron

$50.84

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Kyocera - 5mm Min Bore Diam, 25mm Max Bore Depth, 5mm Shank Diam, Boring Bar - 0.00315" Corner Radius, Right Hand Cut, Solid Carbide, Uncoated - Exact Industrial Supply

Kyocera - 5mm Min Bore Diam, 25mm Max Bore Depth, 5mm Shank Diam, Boring Bar - 0.00315" Corner Radius, Right Hand Cut, Solid Carbide, Uncoated


Item #: 50364264
Brand: Kyocera
Model #: 8842580
Exact Tooling IR#: 04

Features and Benefits

Solid carbide is used for high performace applications. It is extremely heat resistant and used on cast iron, nonferrous metals and other tough to machine materials.
Boring bars are used to enlarge or finish the inside diameter of a workpiece.
Uncoated tools do not feature supportive treatments on the cutting edge. They are are used at reduced speeds in general applications on non-ferrous metals.
Product Specifications
Minimum Bore Diameter (Decimal Inch) 0.1969
Minimum Bore Diameter (mm) 5.00
Maximum Bore Depth (Decimal Inch) 0.9843
Maximum Bore Depth (mm) 25.00
Material Solid Carbide
Boring Bar Type Boring
Shank Diameter (Decimal Inch) 0.1969
Shank Diameter (mm) 5.0000
Overall Length (Decimal Inch) 2.2874
Overall Length (mm) 58.10
Cutting Direction Right Hand
Finish/Coating Uncoated
Corner Radius (Decimal Inch) 0.003150
Corner Radius (mm) 0.08
Bar End Angle 5
Manufacturer Grade GW05

$56.73

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Iscar - 1mm Min Bore Diam, 0.05mm Max Bore Depth, 4mm Shank Diam, Corner Radius & Profile Boring Bar - 0.001" Corner Radius, Left Hand Cut, Solid Carbide, TiCrVN Finish - Exact Industrial Supply

Iscar - 1mm Min Bore Diam, 0.05mm Max Bore Depth, 4mm Shank Diam, Corner Radius & Profile Boring Bar - 0.001" Corner Radius, Left Hand Cut, Solid Carbide, TiCrVN Finish


Item #: 46654000
Brand: Iscar
Model #: 3309740
Exact Tooling IR#: 04

Features and Benefits

Solid carbide is used for high performace applications. It is extremely heat resistant and used on cast iron, nonferrous metals and other tough to machine materials.
TiCrVN hard nitride coatings are ideal for small machining operations.
Product Specifications
Minimum Bore Diameter (Decimal Inch) 0.0390
Minimum Bore Diameter (mm) 1.00
Maximum Bore Depth (Decimal Inch) 0.0020
Maximum Bore Depth (mm) 0.05
Material Solid Carbide
Material Grade Micrograin
Boring Bar Type Corner Radius; Profile Boring
Shank Diameter (Decimal Inch) 0.1570
Shank Diameter (mm) 4.0000
Overall Length (Decimal Inch) 0.8660
Overall Length (mm) 22.00
Cutting Direction Left Hand
Finish/Coating TiCrVN
Corner Radius (Decimal Inch) 0.0010
Corner Radius (mm) 0.02
Bar End Angle 8
Manufacturer Grade IC909

$70.90

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