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COVID-19: Jak reaguje Kennametal
Płytki Top Notch™ do obróbki rowków i toczenia
Płytki Top Notch™ do obróbki rowków i toczenia
Płytki Top Notch™ do obróbki rowków i toczenia
Płytki Top Notch™ do obróbki rowków i toczenia

Obróbka rowków i przecinanie

Płytki Top Notch™ do obróbki rowków i toczenia

Workpiece Material

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SAP Material Number ISO Catalog Number ANSI Catalog Number Grade Insert Size [W] Cutting Width [W] Cutting Width [APMAX] Profile AP Maximum [APMAX] Profile AP Maximum [RR] Corner Radius [RR] Corner Radius [T] Cuttg Depth [T] Cutting Depth
1818434 NP2002RK NP2002RK KC5010 2 3.820 .1500 2.7520 .1083 0.2540 .0100 2.8050 .1104
4109879 NP2002RK NP2002RK KCU25 2 3.820 .1500 2.7520 .1083 0.2540 .0100 2.8050 .1104
4175899 NP2002RK NP2002RK KCU10 2 3.820 .1500 2.7520 .1083 0.2540 .0100 2.8050 .1104
4109880 NP2012RK NP2012RK KCU25 2 3.8200 .1500 2.7770 .1093 0.2540 .0100 2.8050 .1104
1818437 NP3002RK NP3002RK KC5010 3 4.950 .1950 3.8400 .1512 0.2540 .0100 5.0800 .2000
1818439 NP3012RK NP3012RK KC5025 3 4.950 .1950 3.8650 .1522 0.2540 .0100 5.0800 .2000
4109882 NP3012RK NP3012RK KCU25 3 4.950 .1950 3.8650 .1522 0.2540 .0100 5.0800 .2000
1818435 NP2002RK NP2002RK KC5025 2 3.820 .1500 2.7520 .1083 0.2540 .0100 2.8050 .1104
1818436 NP2012RK NP2012RK KC5025 2 3.820 .1500 2.7770 .1093 0.2540 .0100 2.8050 .1104
1818438 NP3002RK NP3002RK KC5025 3 4.950 .1950 3.8400 .1512 0.2540 .0100 5.0800 .2000
4109881 NP3002RK NP3002RK KCU25 3 4.950 .1950 3.8400 .1512 0.2540 .0100 5.0800 .2000
4175946 NP3002RK NP3002RK KCU10 3 4.950 .1950 3.8400 .1512 0.2540 .0100 5.0800 .2000
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Workpiece Material
  • P Steel (12)
    • P0
      Low-Carbon Steels, Long Chipping C < .25%; <125 HB; <530 N/mm^2 UTS
      (12)
    • P1
      Low-Carbon Steels, Short Chipping C < .25%; <125 HB; <530 N/mm^2 UTS
      (12)
    • P2
      Medium and High Carbon Steels C < .25%; <220 HB; <25 HRC; >530 N/mm^2 UTS
      (12)
    • P3
      Alloy Steels & Tool Steels C > .25%; <330 HB; <35 HRC; 600-850 N/mm^2 UTS
      (12)
    • P4
      Alloy Steels & Tool Steels C > .25%; 350-420 HB; 35-43 HRC; 850-1400 N/mm^2 UTS
      (12)
    • P5
      Ferritic, Martensitic, and PH Stainless Steels <330 HB; <35 HRC; 600-900 N/mm^2 UTS
      (12)
    • P6
      High Strength Ferritic, Martensitic, and PH Stainless Steels 350-450 HB; 35-43 HRC; 900-2400 N/mm^2 UTS
      (12)
  • M Stainless Steel (12)
    • M1
      Austenitic Stainless Steel 130-200 HB; <600 N/mm^2 UTS
      (12)
    • M2
      High Strength Austenitic Stainless and Cast Stainless Steels 150-230 HB; <25 HRC; >600 N/mm^2 UTS
      (12)
    • M3
      Duplex Stainless Steel 135-275 HB; <30 HRC; 500-1200 N/mm^2 UTS
      (12)
  • K Cast Iron (12)
    • K1
      Gray Cast Iron 120-290 HB; <32 HRC; 125-500 N/mm^2 UTS
      (12)
    • K2
      Low and Medium Strength CGI and Ductile Irons 130-260 HB; <28 HRC; <600 N/mm^2 UTS
      (12)
    • K3
      High Strength Ductile and Austempered Ductile Iron 180-350 HB; <43 HRC; >600 N/mm^2 UTS
      (12)
  • N Non-Ferrous Materials (12)
    • N1
      Wrought Aluminum
      (12)
    • N2
      Low-Silicon Aluminum Alloys and Magnesium Alloys Si <12.2%
      (12)
    • N4
      Copper, Brass, Zinc-based on machinability index range of 70-100
      (12)
    • N5
      Nylon, Plastics, Rubbers, Phenolics, Resins, Fiberglass
      (12)
    • N6
      Carbon, Graphite Composites, CFRP
      (12)
  • S High-Temp Alloys (12)
    • S1
      Iron-Based, Heat-Resistant Alloys 160-260 HB; 25-48 HRC; 500-1200 N/mm^2 UTS
      (12)
    • S2
      Cobalt-Based, Heat-Resistant Alloys 250-450 HB; 25-48 HRC; 1000-1450 N/mm^2 UTS
      (12)
    • S3
      Nickel-Based, Heat Resistant Alloys 160-450 HB; <48 HRC; 600-1700 N/mm^2 UTS
      (12)
    • S4
      Titanium and Titanium Alloys 300-400 HB; 33-43 HRC; 900-1600 N/mm^2 UTS
      (12)
  • H Hardened Materials (4)
    • H1
      Hardened Materials 44-48 HRC
      (4)
    • H2
      Hardened Materials 48-55 HRC
      (2)
Applications
  • Back Boring (12)
  • Boring (12)
  • Cut-Off (12)
  • Face Grooving (12)
  • Facing (12)
  • Grooving (12)
  • ID Facing (12)
  • ID Grooving (12)
  • ID Thread Turning (12)
  • OD Thread Turning (12)
  • Plunge Turning (12)
  • Profiling (12)
  • Turning (12)
Cutting Condition
  • Heavily Interrupted Cut (12)
  • Lightly Interrupted Cut (12)
  • Smooth Cut (12)
  • Varying Depth of Cut (12)
Cutting Edges Per Insert
to
cornerConfiguration
Corner Radius
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Corner Radius
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application
Minimum Depth of Cut
Minimum Depth of Cut
Minimum Feed
Minimum Feed
Drilling Condition
  • Heavily Interrupted Cut (12)
  • Lightly Interrupted Cut (12)
  • Smooth Cut (12)
  • Varying Depth of Cut (12)
Grade Of Cutting Tool
  • KC5025 (4)
  • KCU25 (4)
  • KC5010 (2)
  • KCU10 (2)
Wiper Insert
  • N (12)
Minimum Axial Groove Diameter
to
Minimum Axial Groove Diameter
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Maximum Axial Groove Diameter
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Maximum Axial Groove Diameter
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frontEnd
Cutting Width
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Cutting Width
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Insert Shape
  • TN-TOP NOTCH (12)
insertGeometry
Shape
  • TN-TOP NOTCH (12)
Insert Seat Size
  • 2 (6)
  • 3 (6)
Cutting Tool Material
  • H W (12)
Insert Thickness
to
Insert Thickness
to
other
Grade
  • KC5025 (4)
  • KCU25 (4)
  • KC5010 (2)
  • KCU10 (2)
Platform
  • Top Notch (10)
Tool Unit
  • I (12)
  • M (12)
Maximum Cutting Insert Depth
to
Maximum Cutting Insert Depth
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Drilling Condition Material
  • K-All (12)
  • M-All (12)
  • N-All (12)
  • P-All (12)
  • S-All (12)
  • H-All (8)
Cutting Condition Material
  • K-All (12)
  • M-All (12)
  • N-All (12)
  • P-All (12)
  • S-All (12)
  • H-All (8)
Insert Hand
  • R (12)
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Grades

  • KC5010

    Composition: An advanced PVD AlTiN coating over a very deformation-resistant unalloyed carbide substrate. The new and improved coating enables speeds to be increased by 50–100%.
    Application: The KC5010 grade is ideal for finishing to general machining of most workpiece materials at higher speeds. Excellent for machining most steels, stainless steels, cast irons, non-ferrous materials, and super alloys under stable conditions. It also performs well machining hardened and short chipping materials.

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  • KC5025

    Composition: An advanced PVD-AlTiN-coated grade with a tough, ultra-fine-grain unalloyed substrate.
    Application: For general-purpose machining of most steels, stainless steels, high-temp alloys, titanium, irons, and non-ferrous materials. Speeds may vary from low to medium and will handle interruptions and high feed rates.

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  • KCU10

    Composition: An advanced multilayer PVD coating over a very deformation-resistant unalloyed carbide substrate. The new and improved coating improves edge stability with wide range speed and feed capabilities.
    Application: The KCU10 grade is ideal for finishing to general machining of most workpiece materials at a wide range of speed and feed capabilities. Excellent for machining most steels, stainless steels, cast irons, non-ferrous materials, and super alloys with improved edge toughness and higher cutting speed/feed capability.

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  • KCU25

    Turning Composition: An advanced PVD grade with hard AlTiN coating and fine-grain unalloyed substrate. The new and improved coating improves edge stability with wide range speed and feed capabilities.

    Turning Application: The KCU25 grade is ideal for general machining of most steels, stainless steels, high-temp alloys, titanium, irons, and non-ferrous materials in a wide range of speeds and feeds with improved edge toughness for interrupted cut and high feed rates.

    Holemaking Composition: Advanced CVD TiCN-Al2O3 coating combined with a tough carbide substrate.

    Holemaking Application: First choice for steel, stainless steel, and cast iron. This grade offers adequate deformation resistance, excellent edge strength, and superior wear resistance over a wide range of machining conditions for high productivity with very good reliability.

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