Solid carbide end mill With Speedcut Universal corner radius, extra-long XXL, optional, four cutting edges, uneven angle of twist gradient - ENDMIL-SP-WN-UV-EL-SC-TNS-HA-D8X2

Solid carbide end mill With Speedcut Universal corner radius, extra-long XXL, optional, four cutting edges, uneven angle of twist gradient

Name: Solid carbide end mill With Speedcut Universal corner radius, extra-long XXL, optional, four cutting edges, uneven angle of twist gradient
Brand: Würth
SKU: 5443301745

End mill SC WN Z3-4 4.5xD/1.5xD TiAlN-S ER HA
ENDMIL-SP-WN-UV-EL-SC-TNS-HA-D8X2

Art.-no. 5443301745

EAN 4055375917602

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Solid carbide end mill With Speedcut Universal corner radius, extra-long XXL, optional, four cutting edges, uneven angle of twist gradient

Art.-no. 5443301745

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Solid carbide high-performance cutter for universal application: Smoothing, rough finishing and roughening with one tool. Different spiral angles produce smooth, vibration-free running and an excellent surface quality. High cutting performance.

Product information

Würth Catalogue

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Product code	6947
Material to be processed	Steel, Cast metal, Stainless steel, Titanium, Hard and tough material, Copper, Brass, Aluminium
Diameter (d1)	8 mm
Shank diameter (d2)	8 mm
Clearance diameter (d3)	7.8 mm
Standards	CS
Construction length	Extra long
Shank style	Cylindrical DIN 6535-HA
Cutting material	SC
Surface	TiAlN-S
Coolant supply	External
Twist angle	35-38°
Corner radius (R)	2 mm
Length (l1)	79 mm
Cutting edge length (l2)	12 mm
Clearance length (l3)	36 mm
Number of cutting edges (Z)	4 PCS
Tolerance of cutting edge diameter	h10
Tolerance of shank diameter	h6
Material of sub-group	General structural steels, Non-alloyed tempering steels < 1000 N/mm², Alloyed tempering steels < 1000 N/mm², Nitriding steels < 1300 N/mm², Grey cast iron, Malleable cast iron, Stainless steels < 850 N/mm², Stainless steels > 850 N/mm², Titanium, Titanium alloys, Steels > 45 HRC, Copper, Brass, Aluminium

Cutting values for finishing copy
For dia. 8-16
Material designation	Tensile strength	Cooling	v_c	f_z
				Dia. 8	Dia. 10	Dia. 12	Dia. 16
General structural steels	< 500 N/mm²	L + E	210	0,045	0,059	0,072	0,086
General structural steels	500-850 N/mm²	L + E	170	0,045	0,054	0,068	0,081
Carbon steels	< 850 N/mm²	L + E	170	0,045	0,054	0,063	0,081
Carbon steels	850-1000 N/mm²	L + E	160	0,036	0,050	0,059	0,072
Unalloyed heat-treated steels	< 700 N/mm²	L + E	165	0,045	0,059	0,072	0,086
	700-850 N/mm²	L + E	165	0,045	0,054	0,068	0,081
	850-1000 N/mm²	L + E	165	0,036	0,050	0,059	0,072
Alloyed heat-treated steels	850-1000 N/mm²	L + E	160	0,036	0,050	0,054	0,072
Alloyed heat-treated steels	1000-1200 N/mm²	L + E	140	0,036	0,045	0,050	0,054
Unalloyed case-hardening steels	< 750 N/mm²	L + E	210	0,045	0,059	0,072	0,855
Alloyed case-hardening steels	< 1000 N/mm²	L + E	160	0,036	0,050	0,059	0,072
Alloyed case-hardening steels	1000-1200 N/mm²	L + E	140	0,036	0,045	0,054	0,063
Nitriding steels	< 1000 N/mm²	L + E	160	0,036	0,050	0,059	0,072
Nitriding steels	1000-1200 N/mm²	L + E	140	0,032	0,041	0,045	0,054
Tool steels	< 850 N/mm²	L + E	170	0,036	0,050	0,059	0,072
Tool steels	850-1100 N/mm²	L + E	160	0,032	0,045	0,054	0,063
High-speed steels	850-1200 N/mm²	L + E	95	0,036	0,045	0,054	0,063
Spring steels	< 1200 N/mm²	L + E	95	0,027	0,036	0,041	0,045
Stainless steels	< 700 N/mm²	E	115	0,036	0,050	0,059	0,072
Stainless steels	< 700 N/mm²	E	110	0,036	0,045	0,054	0,063
Stainless steels	< 850 N/mm²	E	95	0,036	0,045	0,054	0,063
Stainless steels	< 1100 N/mm²	E	80	0,036	0,045	0,054	0,063
Special alloys	< 1200 N/mm²	E	65	0,032	0,041	0,045	0,059
Titanium, titanium alloys	< 850 N/mm²	E	65	0,036	0,045	0,054	0,063
Cast iron	< 180 HB	-	145	0,045	0,068	0,081	0,099
Cast iron	< 180 HB	-	115	0,036	0,054	0,059	0,072
Nodular graphite, malleable iron	< 180 HB	-	115	0,036	0,054	0,059	0,072
Nodular graphite, malleable iron	> 260 HB	E	95	0,036	0,054	0,059	0,072

Cutting values for finishing copy
For dia. 2-6
Material designation	Tensile strength	Cooling	v_c	f_z
				Dia. 2	Dia. 3	Dia. 4	Dia. 5	Dia. 6
General structural steels	< 500 N/mm²	L + E	210	0,012	0,018	0,023	0,032	0,036
General structural steels	500-850 N/mm²	L + E	170	0,011	0,016	0,023	0,027	0,032
Carbon steels	< 850 N/mm²	L + E	170	0,011	0,016	0,023	0,027	0,032
Carbon steels	850-1000 N/mm²	L + E	160	0,010	0,014	0,018	0,023	0,027
Unalloyed heat-treated steels	< 700 N/mm²	L + E	165	0,012	0,018	0,023	0,032	0,036
	700-850 N/mm²	L + E	165	0,011	0,016	0,023	0,027	0,032
	850-1000 N/mm²	L + E	165	0,010	0,014	0,018	0,023	0,027
Alloyed heat-treated steels	850-1000 N/mm²	L + E	160	0,010	0,014	0,018	0,023	0,027
Alloyed heat-treated steels	1000-1200 N/mm²	L + E	140	0,010	0,014	0,018	0,023	0,027
Unalloyed case-hardening steels	< 750 N/mm²	L + E	210	0,012	0,018	0,023	0,032	0,036
Alloyed case-hardening steels	< 1000 N/mm²	L + E	160	0,010	0,014	0,018	0,023	0,027
Alloyed case-hardening steels	1000-1200 N/mm²	L + E	140	0,010	0,014	0,018	0,023	0,027
Nitriding steels	< 1000 N/mm²	L + E	160	0,010	0,014	0,018	0,023	0,027
Nitriding steels	1000-1200 N/mm²	L + E	140	0,010	0,014	0,018	0,023	0,027
Tool steels	< 850 N/mm²	L + E	170	0,012	0,018	0,018	0,023	0,027
Tool steels	850-1100 N/mm²	L + E	160	0,010	0,014	0,016	0,020	0,023
High-speed steels	850-1200 N/mm²	L + E	95	0,010	0,014	0,018	0,023	0,027
Spring steels	< 1200 N/mm²	L + E	95	0,008	0,011	0,014	0,018	0,023
Stainless steels	< 700 N/mm²	E	115	0,010	0,014	0,018	0,023	0,027
Stainless steels	< 700 N/mm²	E	110	0,010	0,014	0,018	0,023	0,027
Stainless steels	< 850 N/mm²	E	95	0,010	0,014	0,018	0,023	0,027
Stainless steels	< 1100 N/mm²	E	80	0,010	0,014	0,018	0,023	0,027
Special alloys	< 1200 N/mm²	E	65	0,008	0,011	0,014	0,018	0,023
Titanium, titanium alloys	< 850 N/mm²	E	65	0,010	0,014	0,018	0,023	0,027
Cast iron	< 180 HB	-	145	0,011	0,016	0,021	0,027	0,036
Cast iron	< 180 HB	-	115	0,011	0,016	0,023	0,027	0,032
Nodular graphite, malleable iron	< 180 HB	-	115	0,011	0,016	0,023	0,027	0,032
Nodular graphite, malleable iron	> 260 HB	E	95	0,011	0,016	0,023	0,027	0,032

Key
L = air		a_e = 1xd1
E = emulsion
v_c = cutting speed [m/min]
f_z = feed per tooth [mm/t]		a_p = 1xd1
a_e = cutting thickness (radial)
a_p = cutting thickness (axial)
The suggested cutting values are reference values and must be adapted to the respective conditions.