STC end mill Speedtwister-Universal, extra long XL, five cutting edges, uneven angle of twist gradient, 5xD - ENDMIL-SHA-STW-WN-XL-STC-UV-TD-HB-D10

STC end mill Speedtwister-Universal, extra long XL, five cutting edges, uneven angle of twist gradient, 5xD

Name: STC end mill Speedtwister-Universal, extra long XL, five cutting edges, uneven angle of twist gradient, 5xD
Brand: Würth
SKU: 5443310203

End mill Speedtwister Uni WN 5xD type N
ENDMIL-SHA-STW-WN-XL-STC-UV-TD-HB-D10

Art.-no. 5443310203

EAN 4062856187331

All versions

Similar products

Prices for customers after login

STC end mill Speedtwister-Universal, extra long XL, five cutting edges, uneven angle of twist gradient, 5xD

Art.-no. 5443310203

Prices for customers after login

Quantity

x 1 pcs

Exclusively for trade customers

Login/Register
Call customer service:

Trochodial high-performance cutter for universal application: For static and dynamic processes. Extremely smooth running and perfect chip control thanks to state-of-the-art tool geometries, setting new standards in machining performance.

Product information

Würth Catalogue

Datasheets(X)

Certificates/ Documents


Product code	6137
Material to be processed	Steel, Stainless steel, Hard and tough material, Non-ferrous metal
Diameter (d1)	10 mm
Shank diameter (d2)	10 mm
Standards	CS
Construction length	Extra long
Shank style	Cylindrical DIN 6535-HB
Cutting material	SC
Surface	TWINDUR
Coolant supply	External
Twist angle	45° Vario
Length (l1)	99 mm
Cutting edge length (l2)	52 mm
Number of cutting edges (Z)	5 PCS
Corner chamfer	0.05 mm
Tolerance of cutting edge diameter	f8
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, Stainless steels < 850 N/mm², Stainless steels > 850 N/mm², Steels > 45 HRC, Copper, Brass

For dia. 12-16
Material designation	Tensile strength	Cooling	v_c		f_z
					Dia. 12		Dia. 16
			min.	max.	min.	max.	min.	max.
Steels
General structural steels	< 500 N/mm²	L + E	231	525	0,101	0,209	0,120	0,249
General structural steels	500-850 N/mm²	L + E	187	425	0,095	0,197	0,113	0,235
Carbon steels	< 850 N/mm²	L + E	187	425	0,088	0,183	0,113	0,235
Carbon steels	850-1000 N/mm²	L + E	176	400	0,083	0,171	0,101	0,209
Unalloyed heat-treated steels	< 700 N/mm²	L + E	181	412	0,101	0,209	0,120	0,249
	700-850 N/mm²	L + E	181	412	0,095	0,197	0,113	0,235
	850-1000 N/mm²	L + E	181	412	0,083	0,171	0,101	0,209
Alloyed heat-treated steels	850-1000 N/mm²	L + E	176	400	0,076	0,157	0,101	0,209
Alloyed heat-treated steels	1000-1200 N/mm²	L + E	154	350	0,070	0,145	0,076	0,157
Unalloyed case-hardening steels	< 750 N/mm²	L + E	231	525	0,101	0,209	0,120	0,248
Alloyed case-hardening steels	< 1000 N/mm²	L + E	176	400	0,083	0,171	0,101	0,209
Alloyed case-hardening steels	1000-1200 N/mm²	L + E	154	350	0,076	0,157	0,088	0,183
Nitriding steels	< 1000 N/mm²	L + E	176	400	0,083	0,171	0,101	0,209
Nitriding steels	1000-1200 N/mm²	L + E	154	350	0,063	0,131	0,076	0,157
Tool steels	< 850 N/mm²	L + E	187	425	0,083	0,171	0,101	0,209
Tool steels	850-1100 N/mm²	L + E	176	400	0,076	0,157	0,088	0,183
High-speed steels	850-1200 N/mm²	L + E	104	237	0,076	0,157	0,088	0,183
Spring steels	< 1200 N/mm²	L + E	104	237	0,057	0,119	0,063	0,131
High grade steels
Stainless steels, sulphurated	< 700 N/mm²	E	126	287	0,083	0,171	0,101	0,209
Stainless steels, austenitic	< 700 N/mm²	E	121	275	0,076	0,157	0,088	0,183
Stainless steels, austenitic	< 850 N/mm²	E	104	237	0,076	0,157	0,088	0,183
Stainless steels, martensitic	< 1100 N/mm²	E	88	200	0,078	0,162	0,088	0,183
Special alloys	< 1200 N/mm²	E	71	162	0,063	0,131	0,083	0,171
Titanium, titanium alloys	< 850 N/mm²	E	66	150	0,076	0,157	0,088	0,183

For dia. 6-10
Material designation	Tensile strength	Cooling	v_c		f_z
					Dia. 6		Dia. 8		Dia. 10
			min.	max.	min.	max.	min.	max.	min.	max.
Steels
General structural steels	< 500 N/mm²	L + E	231	525	0,050	0,104	0,063	0,131	0,083	0,171
General structural steels	500-850 N/mm²	L + E	187	425	0,045	0,093	0,063	0,131	0,076	0,157
Carbon steels	< 850 N/mm²	L + E	187	425	0,045	0,093	0,063	0,131	0,076	0,157
Carbon steels	850-1000 N/mm²	L + E	176	400	0,038	0,078	0,050	0,104	0,070	0,145
Unalloyed heat-treated steels	< 700 N/mm²	L + E	181	412	0,050	0,104	0,063	0,131	0,083	0,171
	700-850 N/mm²	L + E	181	412	0,045	0,093	0,063	0,131	0,078	0,162
	850-1000 N/mm²	L + E	181	412	0,038	0,078	0,050	0,104	0,070	0,145
Alloyed heat-treated steels	850-1000 N/mm²	L + E	176	400	0,038	0,078	0,050	0,104	0,070	0,145
Alloyed heat-treated steels	1000-1200 N/mm²	L + E	154	350	0,038	0,078	0,050	0,104	0,063	0,131
Unalloyed case-hardening steels	< 750 N/mm²	L + E	231	525	0,050	0,104	0,063	0,131	0,083	0,171
Alloyed case-hardening steels	< 1000 N/mm²	L + E	176	400	0,038	0,078	0,050	0,104	0,070	0,145
Alloyed case-hardening steels	1000-1200 N/mm²	L + E	154	350	0,038	0,078	0,050	0,104	0,063	0,131
Nitriding steels	< 1000 N/mm²	L + E	176	400	0,038	0,078	0,050	0,104	0,070	0,145
Nitriding steels	1000-1200 N/mm²	L + E	154	350	0,038	0,078	0,045	0,093	0,057	0,119
Tool steels	< 850 N/mm²	L + E	187	425	0,038	0,078	0,050	0,104	0,070	0,145
Tool steels	850-1100 N/mm²	L + E	176	400	0,032	0,067	0,045	0,093	0,063	0,131
High-speed steels	850-1200 N/mm²	L + E	104	237	0,038	0,078	0,050	0,104	0,063	0,131
Spring steels	< 1200 N/mm²	L + E	104	237	0,032	0,067	0,038	0,078	0,050	0,104
High grade steels
Stainless steels, sulphurated	< 700 N/mm²	E	126	287	0,038	0,078	0,050	0,104	0,070	0,145
Stainless steels, austenitic	< 700 N/mm²	E	121	275	0,038	0,078	0,050	0,104	0,063	0,131
Stainless steels, austenitic	< 850 N/mm²	E	104	237	0,038	0,078	0,050	0,104	0,063	0,131
Stainless steels, martensitic	< 1100 N/mm²	E	88	200	0,038	0,078	0,050	0,104	0,063	0,131
Special alloys	< 1200 N/mm²	E	71	162	0,032	0,067	0,045	0,093	0,057	0,119
Titanium, titanium alloys	< 850 N/mm²	E	66	150	0,038	0,078	0,050	0,104	0,063	0,131

Key
L = air
E = emulsion
v_c = cutting speed [m/min]
f_z = feed per tooth [mm/t]
a_e(radial cutting thickness) = 0.03xd1-0.14xd1
a_p (axial cutting thickness) = 5xd1
The suggested cutting values are reference values and must be adapted to the respective conditions. Choosing the right mount is a critical factor in trochoidal machining. The best results were achieved with an IC Weldon tool holder (balancing quality G2.5/18,000 rpm).

For dia. 6-10
Material designation	Tensile strength	Cooling	v_c		f_z
					Dia. 6		Dia. 8		Dia. 10
			min.	max.	min.	max.	min.	max.	min.	max.
Steels
General structural steels	< 500 N/mm²	L + E	231	504	0,050	0,101	0,063	0,126	0,083	0,165
General structural steels	500-850 N/mm²	L + E	187	408	0,045	0,090	0,063	0,126	0,076	0,151
Carbon steels	< 850 N/mm²	L + E	187	408	0,045	0,090	0,063	0,126	0,076	0,151
Carbon steels	850-1000 N/mm²	L + E	176	384	0,038	0,076	0,050	0,101	0,070	0,140
Unalloyed heat-treated steels	< 700 N/mm²	L + E	181	396	0,050	0,101	0,063	0,126	0,083	0,165
	700-850 N/mm²	L + E	181	396	0,045	0,090	0,063	0,126	0,078	0,157
	850-1000 N/mm²	L + E	181	396	0,038	0,076	0,050	0,101	0,070	0,140
Alloyed heat-treated steels	850-1000 N/mm²	L + E	176	384	0,038	0,076	0,050	0,101	0,070	0,140
Alloyed heat-treated steels	1000-1200 N/mm²	L + E	154	336	0,038	0,076	0,050	0,101	0,063	0,126
Unalloyed case-hardening steels	< 750 N/mm²	L + E	231	504	0,050	0,101	0,063	0,126	0,083	0,165
Alloyed case-hardening steels	< 1000 N/mm²	L + E	176	384	0,038	0,076	0,050	0,101	0,070	0,140
Alloyed case-hardening steels	1000-1200 N/mm²	L + E	154	336	0,038	0,076	0,050	0,101	0,063	0,126
Nitriding steels	< 1000 N/mm²	L + E	176	384	0,038	0,076	0,050	0,101	0,070	0,140
Nitriding steels	1000-1200 N/mm²	L + E	154	336	0,038	0,076	0,045	0,090	0,057	0,115
Tool steels	< 850 N/mm²	L + E	187	408	0,038	0,076	0,050	0,101	0,070	0,140
Tool steels	850-1100 N/mm²	L + E	176	384	0,032	0,064	0,045	0,090	0,063	0,126
High-speed steels	850-1200 N/mm²	L + E	104	228	0,038	0,076	0,050	0,101	0,063	0,126
Spring steels	< 1200 N/mm²	L + E	104	228	0,032	0,064	0,038	0,076	0,050	0,101
High grade steels
Stainless steels, sulphurated	< 700 N/mm²	E	126	276	0,038	0,076	0,050	0,101	0,070	0,140
Stainless steels, austenitic	< 700 N/mm²	E	121	264	0,038	0,076	0,050	0,101	0,063	0,126
Stainless steels, austenitic	< 850 N/mm²	E	104	228	0,038	0,076	0,050	0,101	0,063	0,126
Stainless steels, martensitic	< 1100 N/mm²	E	88	192	0,038	0,076	0,050	0,101	0,063	0,126
Special alloys	< 1200 N/mm²	E	71	156	0,032	0,064	0,045	0,090	0,057	0,115
Titanium, titanium alloys	< 850 N/mm²	E	66	144	0,038	0,076	0,050	0,101	0,063	0,126

Key
L = air
E = emulsion
v_c = cutting speed [m/min]
f_z = feed per tooth [mm/t]
a_e(radial cutting thickness) = 0.03xd1-0.14xd1
a_p (axial cutting thickness) = 5xd1
The suggested cutting values are reference values and must be adapted to the respective conditions. Choosing the right mount is a critical factor in trochoidal machining. The best results were achieved with an IC Weldon tool holder (balancing quality G2.5/18,000 rpm).

For dia. 12-16
Material designation	Tensile strength	Cooling	v_c		f_z
					Dia. 12		Dia. 16
			min.	max.	min.	max.	min.	max.
Steels
General structural steels	< 500 N/mm²	L + E	231	504	0,101	0,202	0,120	0,241
General structural steels	500-850 N/mm²	L + E	187	408	0,095	0,190	0,113	0,227
Carbon steels	< 850 N/mm²	L + E	187	408	0,088	0,176	0,113	0,227
Carbon steels	850-1000 N/mm²	L + E	176	384	0,083	0,165	0,101	0,202
Unalloyed heat-treated steels	< 700 N/mm²	L + E	181	396	0,101	0,202	0,120	0,241
	700-850 N/mm²	L + E	181	396	0,095	0,190	0,113	0,227
	850-1000 N/mm²	L + E	181	396	0,083	0,165	0,101	0,202
Alloyed heat-treated steels	850-1000 N/mm²	L + E	176	384	0,076	0,151	0,101	0,202
Alloyed heat-treated steels	1000-1200 N/mm²	L + E	154	336	0,070	0,140	0,076	0,151
Unalloyed case-hardening steels	< 750 N/mm²	L + E	231	504	0,101	0,202	0,120	0,239
Alloyed case-hardening steels	< 1000 N/mm²	L + E	176	384	0,083	0,165	0,101	0,202
Alloyed case-hardening steels	1000-1200 N/mm²	L + E	154	336	0,076	0,151	0,088	0,176
Nitriding steels	< 1000 N/mm²	L + E	176	384	0,083	0,165	0,101	0,202
Nitriding steels	1000-1200 N/mm²	L + E	154	336	0,063	0,126	0,076	0,151
Tool steels	< 850 N/mm²	L + E	187	408	0,083	0,165	0,101	0,202
Tool steels	850-1100 N/mm²	L + E	176	384	0,076	0,151	0,088	0,176
High-speed steels	850-1200 N/mm²	L + E	104	228	0,076	0,151	0,088	0,176
Spring steels	< 1200 N/mm²	L + E	104	228	0,057	0,115	0,063	0,126
High grade steels
Stainless steels, sulphurated	< 700 N/mm²	E	126	276	0,083	0,165	0,101	0,202
Stainless steels, austenitic	< 700 N/mm²	E	121	264	0,076	0,151	0,088	0,176
Stainless steels, austenitic	< 850 N/mm²	E	104	228	0,076	0,151	0,088	0,176
Stainless steels, martensitic	< 1100 N/mm²	E	88	192	0,078	0,157	0,088	0,176
Special alloys	< 1200 N/mm²	E	71	156	0,063	0,126	0,083	0,165
Titanium, titanium alloys	< 850 N/mm²	E	66	144	0,076	0,151	0,088	0,176