VNMG 160404E-SF:T8430

Turning Insert - Negative
Material ID: 7977414

Double-sided negative turning insert, 35° rhomboid with inscribed circle diameter of 9.525mm, 4.76mm thick, 0.4mm nose radius, indexing accuracy according to ISO-tolerance class-M, chip-breaker SF with rounded cutting edges, in grade T8430, a PVD coated fine grained WC-Co carbide within ISO ranges P20 -P40 and M20 -M35, for fine to medium machining of steels and stainless-steels

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Product Detail

Description	Value
EAN number	3603603820005
Product number (SAP)	80033222
Ordering code ANSI	VNMG 331-SF:T8430
Gross weight - grams	11.41
Inscribed circle diameter - millimeter (IC)	9.525 mm
Fixing hole diameter - millimeter (D1)	3.81 mm
Cutting edge length - millimeter (L)	16.6 mm
Insert thickness - millimeter (S)	4.76 mm
Grade	T8430
Corner radius - millimeter (RE)	0.4 mm
Insert Clearance Code and Angle	N 0°
Insert Design	VNMG
Insert size	16
Insert Thickness	04
Insert Type	G
Chipbreaker manufacturer's designation (CBMD)	SF
Insert shape code (SC)	V - rhombic 35° included angle
Tool Design	VN
Insert Geometry	Negative
ISO	VNMG160404E-SF:T8430

Features & benefits

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 coating with low compressive stress for crater wear resistance and hard AlTiN layer for flank wear resistance.
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 unfavourable conditions.
Rounded edges without T-land enables smooth machining with light feed and shallow depths of cut delivering sufficient edge strength while limiting the risk of work-hardening
3-D chip-breaker ensures chip-breaking control at wide range of feeds and depths of cut
Wide chip-groove enhances the chip-control when machining tough materials improving chip evacuation
Deep chip-groove reduces cutting forces and vibration
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
Positive geometry reduces the cutting forces, temperature and power requirement, exerting less stress on the workpiece, tool and machine spindle which helps to control chatter

Cutting Conditions

P - Steel and cast steel (steels with alloy content ≤ 10% and a hardness of < 45HRC)

	Suitability	a_p	v_c	f
	help_outline Primary use	0.4 - 2 mm	85 - 190 m/min	0.1 - 0.2 mm/rev

M - Stainless steel (corrosion resistant steels with ≥ 11% chromium content)

	Suitability	a_p	v_c	f
	help_outline Primary use	0.4 - 2 mm	45 - 105 m/min	0.09 - 0.18 mm/rev

K - Cast Iron (castings of iron and carbon alloys with > 2% carbon content)

	Suitability	a_p	v_c	f
	help_outline Possible use	0.4 - 2 mm	70 - 155 m/min	0.1 - 0.2 mm/rev

N - Non-ferrous metals (metals including alloys without an appreciable amount of iron)

	Suitability	a_p	v_c	f
	help_outline Possible use	0.4 - 2 mm	120 - 610 m/min	0.1 - 0.24 mm/rev

S - High-temperature alloys (superalloys with high temperature stength and corrosion resistant surpassing that of stainless steel)

	Suitability	a_p	v_c	f
	help_outline Possible use	0.4 - 1.6 mm	15 - 45 m/min	0.09 - 0.18 mm/rev

H - Hardened materials (any engineering metal with a hardness > 45HRC)

	Suitability	a_p	v_c	f
	help_outline Possible use	0.2 - 0.5 mm	15 - 30 m/min	0.1 - 0.2 mm/rev

Related Parts

Tool
Used as replacement