End mill, long, Morse taper shank DIN 845B - ENDMIL-DIN845B-L-HSCO-D22,0MM

End mill, long, Morse taper shank DIN 845B

Name: End mill, long, Morse taper shank DIN 845B
Brand: Würth
SKU: 5443601013

End mill HSCo DIN 845B-L T=4-6 4xD typeN Morse tap
ENDMIL-DIN845B-L-HSCO-D22,0MM

Art.-no. 5443601013

EAN 4055375880050

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End mill, long, Morse taper shank DIN 845B

Art.-no. 5443601013

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For finishing with high machining output and excellent surface quality on medium to high-strength steels up to 1,300 N/mm² (e.g. construction, case-hardened, heat-treated steels), non-ferrous metals and rust-resistant and acid-resistant steels. Synchronous cutting recommended.

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Product code	2684
Material to be processed	Steel, Cast metal, Stainless steel, Titanium, Copper, Brass, Plastic
Diameter (d1)	22 mm
Morse taper size	MK 2
Tightening thread (d2)	M12
Length (l1)	160 mm
Cutting edge length (l2)	75 mm
Number of cutting edges (Z)	5 PCS
Standards	DIN 845
Construction length	Long
Shank style	Cylindrical DIN 228 A
Cutting material	HSCo
Surface	Plain
Coolant supply	External
Twist angle	40°
Tolerance of cutting edge diameter	k10
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, Copper, Brass, Plastics

Key
E = emulsion		a_e = 0.1xd1
v_c = cutting speed [m/min]
f_z = feed per tooth [mm/t]		a_p = 1.5xd1
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.

Cutting values for contour finishing
For dia. 16 to dia. 40
Material designation	Tensile strength	Cooling	v_c	f_z
				Dia. 16-19.9	Dia. 20-23.9	Dia. 24-31.9	Dia. 32-40
General structural steels	< 500 N/mm²	E	45	0,030	0,037	0,048	0,068
General structural steels	500-850 N/mm²	E	38	0,026	0,033	0,043	0,059
Carbon steels	< 850 N/mm²	E	38	0,021	0,026	0,030	0,041
Carbon steels	850-1,000 N/mm²	E	30	0,021	0,026	0,030	0,041
Unalloyed hardened steels	< 700 N/mm²	E	38	0,021	0,026	0,030	0,041
	700-850 N/mm²	E	38	0,021	0,026	0,030	0,041
	850-1,000 N/mm²	E	30	0,021	0,026	0,030	0,041
Alloyed hardened steels	850-1,000 N/mm²	E	30	0,021	0,026	0,030	0,041
Alloyed hardened steels	1,000-1,200 N/mm²	E	25	0,024	0,030	0,034	0,046
Unalloyed case-hardening steels	< 750 N/mm²	E	38	0,021	0,026	0,030	0,041
Alloyed case-hardening steels	< 1,000 N/mm²	E	30	0,021	0,026	0,030	0,041
Alloyed case-hardening steels	1,000-1,200 N/mm²	E	25	0,024	0,030	0,034	0,046
Nitriding steels	< 1,000 N/mm²	E	30	0,021	0,026	0,030	0,041
Nitriding steels	1,000-1,200 N/mm²	E	25	0,024	0,030	0,034	0,046
Tool steels	< 850 N/mm²	E	38	0,021	0,026	0,030	0,041
	850-1,100 N/mm²	E	25	0,024	0,030	0,034	0,046
	1,100-1,400 N/mm²	E	20	0,024	0,030	0,034	0,046
High-speed steels	850-1,200 N/mm²	E	20	0,024	0,036	0,041	0,054
Wear-resistant constructional steel	1,350 N/mm²	E	15	0,024	0,030	0,034	0,046
Spring steels	< 1,200 N/mm²	E	15	0,024	0,030	0,034	0,046
Sulphurated stainless steels	< 700 N/mm²	E	38	0,021	0,026	0,030	0,041
Austenitic stainless steels	< 700 N/mm²	E	38	0,021	0,026	0,030	0,041
Austenitic stainless steels	< 850 N/mm²	E	30	0,021	0,026	0,030	0,041
Martensitic stainless steels	< 1,100 N/mm²	E	25	0,024	0,030	0,034	0,046
Cast iron	< 180 HB	-	38	0,021	0,026	0,030	0,041
Cast iron	> 180 HB	-	30	0,021	0,026	0,030	0,041
Spheroidal graphite, malleable iron	> 180 HB	-	30	0,021	0,026	0,030	0,041
Spheroidal graphite, malleable iron	> 260 HB	E	25	0,021	0,026	0,030	0,041
Titanium, titanium alloys	< 850 N/mm²	E	20	0,024	0,030	0,034	0,046
Low-alloy copper	< 350 N/mm²	E	120	0,039	0,047	0,053	0,071
Short-chipping brass	< 600 N/mm²	-	100	0,039	0,047	0,053	0,071
Long-chipping brass	< 600 N/mm²	-	100	0,039	0,047	0,053	0,071
Short-chipping bronze	< 600 N/mm²	-	100	0,039	0,047	0,053	0,071
Short-chipping bronze	650-850 N/mm²	-	80	0,039	0,047	0,053	0,071
Long-chipping bronze	< 850 N/mm²	E	80	0,039	0,047	0,053	0,071
Long-chipping bronze	850-1,200 N/mm²	E	65	0,043	0,051	0,058	0,078

Key
E = emulsion		a_e = 0.5xd1
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.

Cutting values for contour roughing
For dia. 16 to dia. 40
Material designation	Tensile strength	Cooling	v_c	f_z
				Dia. 16-19.9	Dia. 20-23.9	Dia. 24-31.9	Dia. 32-40
General structural steels	< 500 N/mm²	E	37	0,042	0,054	0,066	0,085
General structural steels	500-850 N/mm²	E	30	0,037	0,047	0,059	0,075
Carbon steels	< 850 N/mm²	E	34	0,037	0,047	0,059	0,075
Carbon steels	850-1,000 N/mm²	E	26	0,037	0,047	0,059	0,075
Unalloyed hardened steels	< 700 N/mm²	E	33	0,037	0,047	0,059	0,075
	700-850 N/mm²	E	30	0,037	0,047	0,059	0,075
	850-1,000 N/mm²	E	24	0,037	0,047	0,059	0,075
Alloyed hardened steels	850-1,000 N/mm²	E	22	0,037	0,047	0,059	0,075
Alloyed hardened steels	1,000-1,200 N/mm²	E	18	0,042	0,054	0,066	0,085
Unalloyed case-hardening steels	< 750 N/mm²	E	30	0,037	0,047	0,059	0,075
Alloyed case-hardening steels	< 1,000 N/mm²	E	22	0,037	0,047	0,059	0,075
Alloyed case-hardening steels	1,000-1,200 N/mm²	E	18	0,042	0,054	0,066	0,085
Nitriding steels	< 1,000 N/mm²	E	22	0,037	0,047	0,059	0,075
Nitriding steels	1,000-1,200 N/mm²	E	18	0,042	0,054	0,066	0,085
Tool steels	< 850 N/mm²	E	26	0,037	0,047	0,059	0,075
	850-1,100 N/mm²	E	16	0,042	0,054	0,066	0,085
	1,100-1,400 N/mm²	E	9	0,042	0,054	0,066	0,085
High-speed steels	850-1,200 N/mm²	E	8	0,042	0,054	0,066	0,085
Wear-resistant constructional steel	1,350 N/mm²	E	9	0,042	0,054	0,066	0,085
Spring steels	< 1,200 N/mm²	E	8	0,042	0,054	0,066	0,085
Sulphurated stainless steels	< 700 N/mm²	E	24	0,037	0,047	0,059	0,075
Austenitic stainless steels	< 700 N/mm²	E	18	0,037	0,047	0,059	0,075
Austenitic stainless steels	< 850 N/mm²	E	12	0,037	0,047	0,059	0,075
Martensitic stainless steels	< 1,100 N/mm²	E	9	0,042	0,054	0,066	0,085
Cast iron	< 180 HB	-	34	0,037	0,047	0,059	0,075
Cast iron	> 180 HB	-	30	0,037	0,047	0,059	0,075
Spheroidal graphite, malleable iron	> 180 HB	-	26	0,037	0,047	0,059	0,075
Spheroidal graphite, malleable iron	> 260 HB	E	18	0,037	0,047	0,059	0,075
Titanium, titanium alloys	< 850 N/mm²	E	9	0,042	0,054	0,066	0,085
Low-alloy copper	< 350 N/mm²	E	73	0,066	0,084	0,104	0,133
Short-chipping brass	< 600 N/mm²	-	73	0,066	0,084	0,104	0,133
Long-chipping brass	< 600 N/mm²	-	49	0,066	0,084	0,104	0,133
Short-chipping bronze	< 600 N/mm²	-	49	0,066	0,084	0,104	0,133
Short-chipping bronze	650-850 N/mm²	-	37	0,066	0,084	0,104	0,133
Long-chipping bronze	< 850 N/mm²	E	30	0,066	0,084	0,104	0,133
Long-chipping bronze	850-1,200 N/mm²	E	18	0,072	0,091	0,113	0,144

Key
E = emulsion		a_e = 1xd1
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. Full grooves are not possible for diameters greater than 20 mm, as the power consumed is too high.

Cutting values for slot roughing
For dia. 16-20
Material designation	Tensile strength	Cooling	v_c	f_z
				Dia. 16-19.9	Dia. 20
General structural steels	< 500 N/mm²	E	28	0,021	0,026
General structural steels	500-850 N/mm²	E	23	0,019	0,023
Carbon steels	< 850 N/mm²	E	26	0,019	0,023
Carbon steels	850-1,000 N/mm²	E	20	0,019	0,023
Unalloyed hardened steels	< 700 N/mm²	E	25	0,019	0,023
	700-850 N/mm²	E	23	0,019	0,023
	850-1,000 N/mm²	E	18	0,019	0,023
Alloyed hardened steels	850-1,000 N/mm²	E	17	0,019	0,023
Alloyed hardened steels	1,000-1,200 N/mm²	E	14	0,021	0,026
Unalloyed case-hardening steels	< 750 N/mm²	E	23	0,019	0,023
Alloyed case-hardening steels	< 1,000 N/mm²	E	17	0,019	0,023
Alloyed case-hardening steels	1,000-1,200 N/mm²	E	14	0,021	0,026
Nitriding steels	< 1,000 N/mm²	E	17	0,019	0,023
Nitriding steels	1,000-1,200 N/mm²	E	14	0,021	0,026
Tool steels	< 850 N/mm²	E	20	0,019	0,023
	850-1,100 N/mm²	E	12	0,021	0,026
	1,100-1,400 N/mm²	E	7	0,021	0,026
High-speed steels	850-1,200 N/mm²	E	6	0,021	0,026
Wear-resistant constructional steel	1,350 N/mm²	E	7	0,021	0,026
Spring steels	< 1,200 N/mm²	E	6	0,021	0,026
Sulphurated stainless steels	< 700 N/mm²	E	18	0,019	0,023
Austenitic stainless steels	< 700 N/mm²	E	14	0,019	0,023
Austenitic stainless steels	< 850 N/mm²	E	9	0,019	0,023
Martensitic stainless steels	< 1,100 N/mm²	E	7	0,021	0,026
Cast iron	< 180 HB	-	26	0,019	0,023
Cast iron	> 180 HB	-	23	0,019	0,023
Spheroidal graphite, malleable iron	> 180 HB	-	20	0,019	0,023
Spheroidal graphite, malleable iron	> 260 HB	E	14	0,019	0,023
Titanium, titanium alloys	< 850 N/mm²	E	7	0,021	0,026
Low-alloy copper	< 350 N/mm²	E	55	0,035	0,041
Short-chipping brass	< 600 N/mm²	-	55	0,035	0,041
Long-chipping brass	< 600 N/mm²	-	37	0,035	0,041
Short-chipping bronze	< 600 N/mm²	-	37	0,035	0,041
Short-chipping bronze	650-850 N/mm²	-	28	0,035	0,041
Long-chipping bronze	< 850 N/mm²	E	23	0,035	0,041
Long-chipping bronze	850-1,200 N/mm²	E	14	0,038	0,045