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-D12X1

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: 5443301751

End mill SC WN Z3-4 4.5xD/1.5xD TiAlN-S ER HA
ENDMIL-SP-WN-UV-EL-SC-TNS-HA-D12X1

Art.-no. 5443301751

EAN 4055375917664

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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. 5443301751

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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)	12 mm
Shank diameter (d2)	12 mm
Clearance diameter (d3)	11.8 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)	1 mm
Length (l1)	99 mm
Cutting edge length (l2)	18 mm
Clearance length (l3)	48 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.