S76810.0 | S768

S76810.0

End Mill
Material ID: 8030347

Long series End mill with 4 flutes, diameter 10mm with 40mm length of cut, 100mm overall length, 50mm reach with neck relief and 0.2mm corner radii, according to DORMER standard with a 10mm plain shank, solid carbide with TiSiN coating, unequal helix and 10° rake angle for shoulder milling and plunging in steel and cast steel, stainless steel, cast-iron or high-temperature alloys

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Product Feature

Titanium Silicon Nitride Coating

Hard Material (Solid Carbide)

General Purpose Cutter Type for Low to High Resistance Materials

Cut Length, Long

Unequal (Variable) Helix

DIN 6535 HA Cylindrical Shank

h9 – Industry Standard Tool Tolerance Zone (based on diameter range)

Radial, Diagonal, Axial

Dormer Standards

Number of Flutes = 4 (teeth) differential pitch

Product Operation

Shallow Shoulder Milling - Primary use

Deep Shoulder Milling - Primary use

Plunge Milling - Primary use

Shallow Slot Milling - Possible use

Deep Slot Milling - Possible use

Ramping - Possible use

Progressive Plunging - Possible use

Helical Interpolation - Possible use

Trochoidal Milling - Primary use

Product Detail

Description	Value
EAN number	7320760950678
Product number (SAP)	86038172
Ordering code ANSI	S76810.0
Gross weight - grams	96.4
Cutting diameter - millimeter (DC)	10 mm
Corner radius - millimeter (RE)	0.2 mm
Connection diameter - millimeter (DCON MS)	10 mm
Depth of cut maximum - millimeter (APMX)	40 mm
Overall length - millimeter (OAL)	100 mm
Flute count (NOF)	4
Usable Length - millimeter (LU)	50 mm
Neck diameter - millimeter (DN)	9.2 mm
Radial rake angle (GAMF)	10
Flute helix unequal	Yes
With Neck	Yes
ISO	S76810.0

Features & benefits

Titanium Silicon Nitride coating for longer tool life, enabling higher cutting speeds and increased heat resistance, making them ideal for dry machining.
Micrograin Carbide providing extreme hardness and wear resistance providing increased tool life when machining difficult materials
The four-flute cutters have a specific tooth design for improved chip evacuation.
An unequal helix option for chatter free machining and excellent surface finishing.
Positive rake angle for smooth cutting action in stainless steel and supper-alloys, reducing the risk of work-hardening.
A long version for higher depth of cut.
Differential pitch to reduce vibration and maximize productivity and tool life.

Cutting Conditions

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

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P1 - Free machining steel (carbon steels with increased machinability)

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	Suitability	v_c
P1.1 - Free machining sulfurized carbon steel with a hardness of < 240HB	help_outline Primary use	148 m/min
P1.2 - Free machining sulfurized and phosphorized carbon steel with a hardness of < 180HB	help_outline Primary use	165 m/min
P1.3 - Free machining sulfurized/phosphorized and leaded carbon steel with a hardness of < 180HB	help_outline Primary use	170 m/min

P2 - Plain carbon steel (steels comprised of mainly iron and carbon)

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	Suitability	v_c
P2.1 - Plain low carbon steel containing < 0.25%C with a hardness of < 180HB	help_outline Primary use	126 m/min
P2.2 - Plain medium carbon steel containing < 0.55%C with a hardness of < 240HB	help_outline Primary use	111 m/min
P2.3 - Plain high carbon steel containing > 0.55%C, with a hardness of < 300HB	help_outline Primary use	98 m/min

P3 - Alloy steel (carbon steels with an alloying content ≤ 10%)

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	Suitability	v_c
P3.1 - Alloy steel with a hardness of < 180HB	help_outline Primary use	102 m/min
P3.2 - Alloy steel with a hardness of 180 - 260HB	help_outline Primary use	82 m/min
P3.3 - Alloy steel with a hardness of 260 - 360HB	help_outline Primary use	69 m/min

P4 - Tool steel (special alloy steel for tools, dies and molds)

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	Suitability	v_c	f
P4.1 - Tool steel with a hardness of < 26HRC	help_outline Primary use	60 m/min
P4.2 - Tool steel with a hardness of 26 - 39RC	help_outline Primary use	52 m/min

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

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M1 - Ferritic stainless steel (straight chromium non-hardenable alloys)

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	Suitability	v_c	f
M1.1 - Stainless steel, ferritic with a hardness of < 160HB	help_outline Primary use	85 m/min
M1.2 - Stainless steel, ferritic with a hardness of 160 - 220HB	help_outline Primary use	72 m/min

M2 - Martensitic stainless steel (straight chromium hardenable alloys)

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	Suitability	v_c	f
M2.1 - Stainless steel, martensitic with a hardness of < 200HB	help_outline Primary use	76 m/min
M2.2 - Stainless steel, martensitic with a hardness of 200 - 280HB	help_outline Primary use	62 m/min

M3 - Austenitic stainless steel (chromium-nickel and chromium-nickel-manganese alloys)

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	Suitability	v_c	f
M3.1 - Stainless steel, austenitic with a hardness of < 200HB	help_outline Primary use	70 m/min
M3.2 - Stainless steel, austenitic with a hardness of 200 - 260HB	help_outline Primary use	60 m/min

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

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K1 - Gray iron (GG) (iron-carbon castings with a lamellar graphite microstructure)

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	Suitability	v_c
K1.1 - Gray iron, ferritic or ferritic-pearlitic with a hardness of < 180HB	help_outline Primary use	146 m/min
K1.2 - Gray iron, ferritic-pearlitic or pearlitic with a hardness of 180 - 240HB	help_outline Primary use	108 m/min
K1.3 - Gray iron, pearlitic with a hardness of 240 - 280HB	help_outline Primary use	81 m/min

K2 - Malleable iron (GTS/GTW) (heat-treated iron-carbon castings with a graphite-free microstructure)

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	Suitability	v_c
K2.1 - Malleable iron, ferritic with a hardness of < 160HB	help_outline Primary use	150 m/min
K2.2 - Malleable iron, ferritic or pearlitic with a hardness of 160 - 200HB	help_outline Primary use	122 m/min
K2.3 - Malleable iron, pearlitic with a hardness of 200 - 240HB	help_outline Primary use	97 m/min

K3 - Ductile iron (GGG) (iron-carbon castings with a nodular graphite microsturcture)

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	Suitability	v_c
K3.1 - Ductile (nodular/spheriodal) iron, ferritic with a hardness of < 180HB	help_outline Primary use	132 m/min
K3.2 - Ductile (nodular/spheriodal) iron, ferritic or pearlitic with a hardness of 180 - 220HB	help_outline Primary use	102 m/min
K3.3 - Ductile (nodular/spheriodal) iron, pearlitic with a hardness of 220 - 260HB	help_outline Primary use	82 m/min

K4 - Austenitic or austempered ductile iron (Ni-Resist/ADI) (iron-carbon alloy castings with an austenitic or ausferrite microstructure)

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	Suitability	v_c
K4.1 - Austenitic cast iron with a hardness of < 180HB	help_outline Primary use	123 m/min
K4.2 - Austenitic cast iron with a hardness of 180 - 240HB	help_outline Primary use	92 m/min
K4.3 - Austempered ductile iron with a hardness of 240 - 280HB	help_outline Primary use	68 m/min
K4.4 - Austempered ductile iron with a hardness of 280 - 320HB	help_outline Primary use	58 m/min
K4.5 - Austempered ductile iron with a hardness of 320 - 360HB	help_outline Primary use	48 m/min

K5 - Compacted graphite iron (CGI) (iron-carbon castings with a vermicular graphite structure)

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	Suitability	v_c
K5.1 - Vermicular, compacted graphite iron with a hardness of < 180HB	help_outline Primary use	139 m/min
K5.2 - Vermicular, compacted graphite iron with a hardness of 180 - 220HB	help_outline Primary use	104 m/min
K5.3 - Vermicular, compacted graphite iron with a hardness of 220 - 260HB	help_outline Primary use	81 m/min

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

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S1 - Titanium or titanium alloys

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	Suitability	v_c	f
S1.2 - Titanium alloys, with a hardness of 200 - 280HB	help_outline Primary use	50 m/min

S2 - Fe-based high-temperature alloys

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	Suitability	v_c	f
S2.1 - High-temperature Fe-based alloys with a hardness of <200HB	help_outline Primary use	39 m/min

S3 - Ni-based high-temperature alloys

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	Suitability	v_c	f
S3.1 - High-temperature Ni-based alloys with a hardness of <280HB	help_outline Primary use	29 m/min

S4 - Co-based high-temperature alloys

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	Suitability	v_c	f
S4.1 - High-temperature Co-based alloys with a hardness of <240HB	help_outline Primary use	23 m/min

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