WNMG 060412E-SM:T8430 INSERT

PRA7977432 MFG #: 7977432
$6.75 / EA
  • Manufacturer Grade: T8430
  • Insert Style: WNMG
  • Insert Size: 060412
  • Corner Radius: 0.047"
  • Chipbreaker: SM
  • Surface Treatment: PVD, TiAlN+TiN Coated
  • ANSI Designation: WNMG 333-SM:T8430
  • Direction of Cut: Neutral
  • For Use On: Cast Iron, Cast Steel, Hardened Steel, High Temperature Alloys, Non-Ferrous Metals, Stainless Steel and Steel
  • Hole Diameter: 0.15"
  • Included Angle: 80°
  • Inscribed Circle: 3/8"
  • ISO Designation: WNMG 060412E-SM:T8430
  • Length: 0.256"
  • Material: Carbide
  • Material Grade: H, K, M, N, P, S
  • Maximum Depth of Cut: 1 mm, 1.4 mm, 1.7 mm
  • Rake: Negative
  • Relief Angle:
  • Seat Size: 6
  • Series: WNMG
  • Shape: Trigon
  • Thickness: 0.187"
  • Type: Indexable
QTY
  • Item Features
  • 3-D chip-breaker ensures chip-breaking control at wide range of feeds and depths of cut
  • Unique titanium-boron-nitride (TiBN) top layer for build-up edge reduction and improved performance
  • New coating generation provides increased durability and performance
  • It is the most versatile grade for general turning and heavy roughing, even in unfavorable conditions
  • Wide chip-groove enhances the chip-control when machining tough materials improving chip evacuation
  • Shallow chip-groove ensures chip-breaking at wide range of cutting feeds
  • Raised chip-breaker back wall height forces the chip to curl more tightly which improves the ability to chip-break allowing machining of tough work-materials with lower feeds
  • Neutral geometry increases the impact -resistance of the insert enhancing the ability to machine with heavier feed and higher depth of cut
  • WC-Co based substrate submicron grained, provides high hardness and abrasive wear-resistance, -resistance against comb cracks
  • PVD coating, enhances thermal cracking--resistance and performance in operations involving cutting temperature fluctuations
  • A multi-layered PVD coating optimized for increased productivity and durability
  • Thick TiN coated with low compressive stress for crater wear-resistance and hard AlTiN layer for flank wear-resistance