STC+ end mill Turbo-Twister-Uni, five-cutter, unequal twist gradient, 5xD - ENDMIL-SHA-TTW-WN-XXL-STC-UV-SD-HB-D16

STC+ end mill Turbo-Twister-Uni, five-cutter, unequal twist gradient, 5xD

Name: STC+ end mill Turbo-Twister-Uni, five-cutter, unequal twist gradient, 5xD
Brand: Würth
SKU: 5443320506

End mill STC+Turbo-Twister-Allround 5xD type N
ENDMIL-SHA-TTW-WN-XXL-STC-UV-SD-HB-D16

Art.-no. 5443320506

EAN 4065233065611

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STC+ end mill Turbo-Twister-Uni, five-cutter, unequal twist gradient, 5xD

Art.-no. 5443320506

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High-performance tool for static and dynamic trochoidal milling and for edging. For finishing and rough cutting in almost all materials.

One tool for virtually all materials

Solid machining process for all application needs

Short chips due to several chip breakers and an extremely precise twist angle to the geometry / a helix angle that is precisely adjusted to the tool geometry

The extremely robust core ensures significantly reduced vibrations and reduces the risk of tool breakage considerably

Easy to use in almost all modern CNC production processes

Wide cutting value range

Long service life thanks to newly developed SUPRADUR coating

Extremely resistant special coating for a wide range of applications

Optimum resistance to temperature changes increases process reliability even under the toughest conditions

Ideal for wet and dry processing in almost all materials

Product information

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Product code	8005
Material to be processed	Steel, Cast metal, Stainless steel, Titanium, Hard and tough material, Non-ferrous metal
Diameter (d1)	16 mm
Shank diameter (d2)	16 mm
Standards	CS
Construction length	Extra long
Shank style	Cylindrical DIN 6535-HB
Cutting material	SC
Surface	SUPRADUR
Coolant supply	External
Twist angle	40° Vario
Length (l1)	140 mm
Cutting edge length (l2)	82 mm
Number of cutting edges (Z)	5 PCS
Corner chamfer	0.05 mm
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

Legend
L = air		_ae = 0.03xd1 - 0.20xd1
E = emulsion
v_c = cutting speed [m/min]
f_z = feed per tooth [mm/tooth]		a_p = 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. Choosing the correct mount is a crucial factor in trochoidal processing. The best results were achieved with an IK Weldon tool holder (G2.5/18000rpm weighing grade).

Cutting values for Dynamic 5xd1
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.
General structural steels	< 500 N/mm²	L + E	231	525	0,050	0,100	0,060	0,130	0,080	0,170
General structural steels	500-850 N/mm²	L + E	187	425	0,040	0,090	0,060	0,130	0,080	0,160
Carbon steels	< 850 N/mm²	L + E	187	425	0,040	0,090	0,060	0,130	0,080	0,160
Carbon steels	850-1000 N/mm²	L + E	176	400	0,040	0,080	0,050	0,100	0,070	0,150
Unalloyed heat-treated steels	< 700 N/mm²	L + E	182	413	0,050	0,100	0,060	0,130	0,080	0,170
	700-850 N/mm²	L + E	182	413	0,040	0,090	0,060	0,130	0,080	0,160
	850-1000 N/mm²	L + E	182	413	0,040	0,080	0,050	0,100	0,070	0,150
Alloyed heat-treated steels	850-1000 N/mm²	L + E	176	400	0,040	0,080	0,050	0,100	0,070	0,150
Alloyed heat-treated steels	1000-1200 N/mm²	L + E	154	350	0,040	0,080	0,050	0,100	0,060	0,130
Unalloyed case-hardening steels	< 750 N/mm²	L + E	231	525	0,050	0,100	0,060	0,130	0,080	0,170
Alloyed case-hardening steels	< 1000 N/mm²	L + E	176	400	0,040	0,080	0,050	0,100	0,070	0,150
Alloyed case-hardening steels	850-1200 N/mm²	L + E	154	350	0,040	0,080	0,050	0,100	0,060	0,130
Nitriding steels	< 1000 N/mm²	L + E	176	400	0,040	0,080	0,050	0,100	0,070	0,150
Nitriding steels	1000-1200 N/mm²	L + E	154	350	0,040	0,080	0,040	0,090	0,060	0,120
Tool steels	< 850 N/mm²	L + E	187	425	0,040	0,080	0,050	0,100	0,070	0,150
	850-1100 N/mm²	L + E	176	400	0,030	0,070	0,040	0,090	0,060	0,130
	1100-1400 N/mm²	L + E	176	400	0,030	0,070	0,040	0,090	0,060	0,130
	1080 (33HRC)	L + E	176	400	0,030	0,070	0,040	0,090	0,060	0,130
High-speed steels	850-1200 N/mm²	L + E	105	238	0,040	0,080	0,050	0,100	0,060	0,130
Spring steels	< 1200 N/mm²	L + E	105	238	0,030	0,070	0,040	0,080	0,050	0,100
Stainless steels, sulphurated	< 700 N/mm²	E	127	288	0,040	0,080	0,050	0,100	0,070	0,150
Stainless steels, austenitic	< 700 N/mm²	E	121	275	0,040	0,080	0,050	0,100	0,060	0,130
Stainless steels, austenitic	< 850 N/mm²	E	105	238	0,040	0,080	0,050	0,100	0,060	0,130
Stainless steels, martensitic	< 1100 N/mm²	E	88	200	0,040	0,080	0,050	0,100	0,060	0,130
Special alloys	< 1200 N/mm²	E	72	163	0,030	0,070	0,040	0,090	0,060	0,120
Titanium, titanium alloys	< 850 N/mm²	E	66	150	0,040	0,080	0,050	0,100	0,060	0,130
Aluminium, aluminium alloys	< 400 N/mm²	E	400	550	0,050	0,100	0,060	0,130	0,080	0,170
Aluminium, aluminium cast alloys < 10%	< 600 N/mm²	E	300	450	0,040	0,090	0,060	0,130	0,080	0,150
Aluminium, aluminium cast alloys > 10% Si	< 600 N/mm²	E	150	250	0,040	0,090	0,060	0,130	0,080	0,150
Copper, low-alloyed	< 450 N/mm²	E	120	180	0,040	0,080	0,050	0,100	0,070	0,140
Brass, short-chipping	< 600 N/mm²	E	150	250	0,040	0,080	0,050	0,100	0,070	0,140
Brass, long-chipping	< 600 N/mm²	E	150	200	0,040	0,080	0,050	0,100	0,070	0,140
Bronze, short-chipping	< 600 N/mm²	E	150	200	0,040	0,080	0,050	0,100	0,070	0,140
Bronze, short-chipping	650-850 N/mm²	E	120	200	0,040	0,080	0,050	0,100	0,070	0,140
Bronze, long-chipping	< 850 N/mm²	E	120	200	0,040	0,080	0,050	0,100	0,070	0,140

Legend
L = air		_ae = 0.03xd1 - 0.20xd1
E = emulsion
v_c = cutting speed [m/min]
f_z = feed per tooth [mm/tooth]		a_p = 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. Choosing the correct mount is a crucial factor in trochoidal processing. The best results were achieved with an IK Weldon tool holder (G2.5/18000rpm weighing grade).

Cutting values for Dynamic 5xd1
For dia. 20
Material designation	Tensile strength	Cooling	v_c		f_z
					Dia. 20
			Min.	Max.	Min.	Max.
General structural steels	< 500 N/mm²	L + E	231	525	0,140	0,290
General structural steels	500-850 N/mm²	L + E	187	425	0,130	0,270
Carbon steels	< 850 N/mm²	L + E	187	425	0,130	0,270
Carbon steels	850-1000 N/mm²	L + E	176	400	0,120	0,240
Unalloyed heat-treated steels	< 700 N/mm²	L + E	182	413	0,140	0,290
	700-850 N/mm²	L + E	182	413	0,130	0,270
	850-1000 N/mm²	L + E	182	413	0,120	0,240
Alloyed heat-treated steels	850-1000 N/mm²	L + E	176	400	0,120	0,240
Alloyed heat-treated steels	1000-1200 N/mm²	L + E	154	350	0,090	0,180
Unalloyed case-hardening steels	< 750 N/mm²	L + E	231	525	0,140	0,290
Alloyed case-hardening steels	< 1000 N/mm²	L + E	176	400	0,120	0,240
Alloyed case-hardening steels	850-1200 N/mm²	L + E	154	350	0,100	0,210
Nitriding steels	< 1000 N/mm²	L + E	176	400	0,120	0,240
Nitriding steels	1000-1200 N/mm²	L + E	154	350	0,090	0,180
Tool steels	< 850 N/mm²	L + E	187	425	0,120	0,240
	850-1100 N/mm²	L + E	176	400	0,100	0,210
	1100-1400 N/mm²	L + E	176	400	0,100	0,210
	1080 (33HRC)	L + E	176	400	0,100	0,210
High-speed steels	850-1200 N/mm²	L + E	105	238	0,100	0,210
Spring steels	< 1200 N/mm²	L + E	105	238	0,070	0,150
Stainless steels, sulphurated	< 700 N/mm²	E	127	288	0,120	0,240
Stainless steels, austenitic	< 700 N/mm²	E	121	275	0,100	0,210
Stainless steels, austenitic	< 850 N/mm²	E	105	238	0,100	0,210
Stainless steels, martensitic	< 1100 N/mm²	E	88	200	0,100	0,210
Special alloys	< 1200 N/mm²	E	72	163	0,090	0,200
Titanium, titanium alloys	< 850 N/mm²	E	66	150	0,100	0,210
Aluminium, aluminium alloys	< 400 N/mm²	E	400	550	0,140	0,280
Aluminium, aluminium cast alloys < 10%	< 600 N/mm²	E	300	450	0,130	0,260
Aluminium, aluminium cast alloys > 10% Si	< 600 N/mm²	E	150	250	0,130	0,260
Copper, low-alloyed	< 450 N/mm²	E	120	180	0,120	0,230
Brass, short-chipping	< 600 N/mm²	E	150	250	0,120	0,230
Brass, long-chipping	< 600 N/mm²	E	150	200	0,120	0,230
Bronze, short-chipping	< 600 N/mm²	E	150	200	0,120	0,230
Bronze, short-chipping	650-850 N/mm²	E	120	200	0,120	0,230
Bronze, long-chipping	< 850 N/mm²	E	120	200	0,120	0,230

Cutting values for Dynamic 5xd1
For dia. 12–16
Material designation	Tensile strength	Cooling	v_c		f_z
					Dia. 12		Dia. 14		Dia. 16
			Min.	Max.	Min.	Max.	Min.	Max.	Min.	Max.
General structural steels	< 500 N/mm²	L + E	231	525	0,100	0,210	0,110	0,220	0,120	0,250
General structural steels	500-850 N/mm²	L + E	187	425	0,100	0,200	0,100	0,200	0,110	0,230
Carbon steels	< 850 N/mm²	L + E	187	425	0,090	0,180	0,100	0,190	0,110	0,230
Carbon steels	850-1000 N/mm²	L + E	176	400	0,080	0,170	0,900	0,180	0,100	0,210
Unalloyed heat-treated steels	< 700 N/mm²	L + E	182	413	0,100	0,210	0,110	0,220	0,120	0,250
	700-850 N/mm²	L + E	182	413	0,100	0,200	0,110	0,210	0,110	0,230
	850-1000 N/mm²	L + E	182	413	0,080	0,170	0,090	0,180	0,100	0,210
Alloyed heat-treated steels	850-1000 N/mm²	L + E	176	400	0,080	0,160	0,090	0,180	0,100	0,210
Alloyed heat-treated steels	1000-1200 N/mm²	L + E	154	350	0,070	0,150	0,070	0,150	0,080	0,160
Unalloyed case-hardening steels	< 750 N/mm²	L + E	231	525	0,100	0,210	0,110	0,220	0,120	0,250
Alloyed case-hardening steels	< 1000 N/mm²	L + E	176	400	0,080	0,170	0,090	0,180	0,100	0,210
Alloyed case-hardening steels	850-1200 N/mm²	L + E	154	350	0,080	0,160	0,090	0,180	0,090	0,180
Nitriding steels	< 1000 N/mm²	L + E	176	400	0,080	0,170	0,090	0,180	0,100	0,210
Nitriding steels	1000-1200 N/mm²	L + E	154	350	0,060	0,130	0,070	0,140	0,080	0,160
Tool steels	< 850 N/mm²	L + E	187	425	0,080	0,170	0,090	0,180	0,100	0,210
	850-1100 N/mm²	L + E	176	400	0,080	0,160	0,090	0,180	0,090	0,180
	1100-1400 N/mm²	L + E	176	400	0,080	0,160	0,090	0,180	0,090	0,180
	1080 (33HRC)	L + E	176	400	0,080	0,160	0,090	0,180	0,090	0,180
High-speed steels	850-1200 N/mm²	L + E	105	238	0,080	0,160	0,090	0,180	0,090	0,180
Spring steels	< 1200 N/mm²	L + E	105	238	0,060	0,120	0,060	0,120	0,060	0,130
Stainless steels, sulphurated	< 700 N/mm²	E	127	288	0,080	0,170	0,090	0,180	0,100	0,210
Stainless steels, austenitic	< 700 N/mm²	E	121	275	0,080	0,160	0,090	0,180	0,090	0,180
Stainless steels, austenitic	< 850 N/mm²	E	105	238	0,080	0,160	0,090	0,180	0,090	0,180
Stainless steels, martensitic	< 1100 N/mm²	E	88	200	0,080	0,160	0,080	0,170	0,090	0,180
Special alloys	< 1200 N/mm²	E	72	163	0,060	0,130	0,070	0,140	0,080	0,170
Titanium, titanium alloys	< 850 N/mm²	E	66	150	0,080	0,160	0,090	0,180	0,090	0,180
Aluminium, aluminium alloys	< 400 N/mm²	E	400	550	0,100	0,200	0,110	0,220	0,120	0,240
Aluminium, aluminium cast alloys < 10%	< 600 N/mm²	E	300	450	0,100	0,190	0,100	0,200	0,110	0,230
Aluminium, aluminium cast alloys > 10% Si	< 600 N/mm²	E	150	250	0,100	0,190	0,100	0,200	0,110	0,230
Copper, low-alloyed	< 450 N/mm²	E	120	180	0,080	0,170	0,900	0,180	0,100	0,200
Brass, short-chipping	< 600 N/mm²	E	150	250	0,080	0,170	0,900	0,180	0,100	0,200
Brass, long-chipping	< 600 N/mm²	E	150	200	0,080	0,170	0,900	0,180	0,100	0,200
Bronze, short-chipping	< 600 N/mm²	E	150	200	0,080	0,170	0,900	0,180	0,100	0,200
Bronze, short-chipping	650-850 N/mm²	E	120	200	0,080	0,170	0,900	0,180	0,100	0,200
Bronze, long-chipping	< 850 N/mm²	E	120	200	0,080	0,170	0,900	0,180	0,100	0,200

Cutting values for static 5xd1
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.
General structural steels	< 500 N/mm²	L + E	231	504	0,050	0,100	0,060	0,130	0,080	0,170
General structural steels	500-850 N/mm²	L + E	187	408	0,040	0,090	0,060	0,130	0,080	0,150
Carbon steels	< 850 N/mm²	L + E	187	408	0,040	0,090	0,060	0,130	0,080	0,150
Carbon steels	850-1000 N/mm²	L + E	176	384	0,040	0,080	0,050	0,100	0,070	0,140
Unalloyed heat-treated steels	< 700 N/mm²	L + E	182	396	0,050	0,100	0,060	0,130	0,080	0,170
	700-850 N/mm²	L + E	182	396	0,040	0,090	0,060	0,130	0,080	0,160
	850-1000 N/mm²	L + E	182	396	0,040	0,080	0,050	0,100	0,070	0,140
Alloyed heat-treated steels	850-1000 N/mm²	L + E	176	384	0,040	0,080	0,050	0,100	0,070	0,140
Alloyed heat-treated steels	1000-1200 N/mm²	L + E	154	336	0,040	0,080	0,050	0,100	0,060	0,130
Unalloyed case-hardening steels	< 750 N/mm²	L + E	231	504	0,050	0,100	0,060	0,130	0,080	0,170
Alloyed case-hardening steels	< 1000 N/mm²	L + E	176	384	0,040	0,080	0,050	0,100	0,070	0,140
Alloyed case-hardening steels	850-1200 N/mm²	L + E	154	336	0,040	0,080	0,050	0,100	0,060	0,130
Nitriding steels	< 1000 N/mm²	L + E	176	384	0,040	0,080	0,050	0,100	0,070	0,140
Nitriding steels	1000-1200 N/mm²	L + E	154	336	0,040	0,080	0,040	0,090	0,060	0,110
Tool steels	< 850 N/mm²	L + E	187	408	0,040	0,080	0,050	0,100	0,070	0,140
	850-1100 N/mm²	L + E	176	384	0,030	0,060	0,040	0,090	0,060	0,130
	1100-1400 N/mm²	L + E	176	384	0,030	0,060	0,040	0,090	0,060	0,130
	1080 (33HRC)	L + E	176	384	0,030	0,060	0,040	0,090	0,060	0,130
High-speed steels	850-1200 N/mm²	L + E	105	228	0,040	0,080	0,050	0,100	0,060	0,130
Spring steels	< 1200 N/mm²	L + E	105	228	0,030	0,060	0,040	0,080	0,050	0,100
Stainless steels, sulphurated	< 700 N/mm²	E	127	276	0,040	0,080	0,050	0,100	0,070	0,140
Stainless steels, austenitic	< 700 N/mm²	E	121	264	0,040	0,080	0,050	0,100	0,060	0,130
Stainless steels, austenitic	< 850 N/mm²	E	105	228	0,040	0,080	0,050	0,100	0,060	0,130
Stainless steels, martensitic	< 1100 N/mm²	E	88	192	0,040	0,080	0,050	0,100	0,060	0,130
Special alloys	< 1200 N/mm²	E	72	156	0,030	0,060	0,040	0,090	0,060	0,110
Titanium, titanium alloys	< 850 N/mm²	E	66	144	0,040	0,080	0,050	0,100	0,060	0,130
Aluminium, aluminium alloys	< 400 N/mm²	E	400	509	0,050	0,100	0,060	0,130	0,080	0,170
Aluminium, aluminium cast alloys < 10%	< 600 N/mm²	E	300	416	0,040	0,090	0,060	0,130	0,080	0,150
Aluminium, aluminium cast alloys > 10% Si	< 600 N/mm²	E	150	231	0,040	0,090	0,060	0,130	0,080	0,150
Copper, low-alloyed	< 450 N/mm²	E	120	166	0,040	0,080	0,050	0,100	0,070	0,140
Brass, short-chipping	< 600 N/mm²	E	150	231	0,040	0,080	0,050	0,100	0,070	0,140
Brass, long-chipping	< 600 N/mm²	E	150	166	0,040	0,080	0,050	0,100	0,070	0,140
Bronze, short-chipping	< 600 N/mm²	E	150	166	0,040	0,080	0,050	0,100	0,070	0,140
Bronze, short-chipping	650-850 N/mm²	E	120	166	0,040	0,080	0,050	0,100	0,070	0,140
Bronze, long-chipping	< 850 N/mm²	E	120	166	0,040	0,080	0,050	0,100	0,070	0,140

Cutting values for static 5xd1
For 20
Material designation	Tensile strength	Cooling	v_c		f_z
					Dia. 20
			Min.	Max.	Min.	Max.
General structural steels	< 500 N/mm²	L + E	231	504	0,140	0,280
General structural steels	500-850 N/mm²	L + E	187	408	0,130	0,260
Carbon steels	< 850 N/mm²	L + E	187	408	0,130	0,260
Carbon steels	850-1000 N/mm²	L + E	176	384	0,120	0,230
Unalloyed heat-treated steels	< 700 N/mm²	L + E	182	396	0,140	0,280
	700-850 N/mm²	L + E	182	396	0,130	0,260
	850-1000 N/mm²	L + E	182	396	0,120	0,230
Alloyed heat-treated steels	850-1000 N/mm²	L + E	176	384	0,120	0,230
Alloyed heat-treated steels	1000-1200 N/mm²	L + E	154	336	0,090	0,170
Unalloyed case-hardening steels	< 750 N/mm²	L + E	231	504	0,140	0,280
Alloyed case-hardening steels	< 1000 N/mm²	L + E	176	384	0,120	0,230
Alloyed case-hardening steels	850-1200 N/mm²	L + E	154	336	0,100	0,200
Nitriding steels	< 1000 N/mm²	L + E	176	384	0,120	0,230
Nitriding steels	1000-1200 N/mm²	L + E	154	336	0,090	0,170
Tool steels	< 850 N/mm²	L + E	187	408	0,120	0,230
	850-1100 N/mm²	L + E	176	384	0,100	0,200
	1100-1400 N/mm²	L + E	176	384	0,100	0,200
	1080 (33HRC)	L + E	176	384	0,100	0,200
High-speed steels	850-1200 N/mm²	L + E	105	228	0,100	0,200
Spring steels	< 1200 N/mm²	L + E	105	228	0,070	0,140
Stainless steels, sulphurated	< 700 N/mm²	E	127	276	0,120	0,230
Stainless steels, austenitic	< 700 N/mm²	E	121	264	0,100	0,200
Stainless steels, austenitic	< 850 N/mm²	E	105	228	0,100	0,200
Stainless steels, martensitic	< 1100 N/mm²	E	88	192	0,100	0,200
Special alloys	< 1200 N/mm²	E	72	156	0,090	0,190
Titanium, titanium alloys	< 850 N/mm²	E	66	144	0,100	0,200
Aluminium, aluminium alloys	< 400 N/mm²	E	400	509	0,140	0,280
Aluminium, aluminium cast alloys < 10%	< 600 N/mm²	E	300	416	0,130	0,260
Aluminium, aluminium cast alloys > 10% Si	< 600 N/mm²	E	150	231	0,130	0,260
Copper, low-alloyed	< 450 N/mm²	E	120	166	0,120	0,230
Brass, short-chipping	< 600 N/mm²	E	150	231	0,120	0,230
Brass, long-chipping	< 600 N/mm²	E	150	166	0,120	0,230
Bronze, short-chipping	< 600 N/mm²	E	150	166	0,120	0,230
Bronze, short-chipping	650-850 N/mm²	E	120	166	0,120	0,230
Bronze, long-chipping	< 850 N/mm²	E	120	166	0,120	0,230

Cutting values for static 5xd1
For dia. 12–16
Material designation	Tensile strength	Cooling	v_c		f_z
					Dia. 12		Dia. 14		Dia. 16
			Min.	Max.	Min.	Max.	Min.	Max.	Min.	Max.
General structural steels	< 500 N/mm²	L + E	231	504	0,100	0,200	0,110	0,220	0,120	0,240
General structural steels	500-850 N/mm²	L + E	187	408	0,100	0,190	0,100	0,200	0,110	0,230
Carbon steels	< 850 N/mm²	L + E	187	408	0,090	0,180	0,100	0,190	0,110	0,230
Carbon steels	850-1000 N/mm²	L + E	176	384	0,080	0,170	0,900	0,180	0,100	0,200
Unalloyed heat-treated steels	< 700 N/mm²	L + E	182	396	0,100	0,200	0,110	0,220	0,120	0,240
	700-850 N/mm²	L + E	182	396	0,100	0,190	0,110	0,210	0,110	0,230
	850-1000 N/mm²	L + E	182	396	0,080	0,170	0,090	0,180	0,100	0,200
Alloyed heat-treated steels	850-1000 N/mm²	L + E	176	384	0,080	0,150	0,090	0,180	0,100	0,200
Alloyed heat-treated steels	1000-1200 N/mm²	L + E	154	336	0,070	0,140	0,070	0,150	0,080	0,150
Unalloyed case-hardening steels	< 750 N/mm²	L + E	231	504	0,100	0,200	0,110	0,220	0,120	0,240
Alloyed case-hardening steels	< 1000 N/mm²	L + E	176	384	0,080	0,170	0,090	0,180	0,100	0,200
Alloyed case-hardening steels	850-1200 N/mm²	L + E	154	336	0,080	0,150	0,090	0,180	0,090	0,180
Nitriding steels	< 1000 N/mm²	L + E	176	384	0,080	0,170	0,090	0,180	0,100	0,200
Nitriding steels	1000-1200 N/mm²	L + E	154	336	0,060	0,130	0,070	0,140	0,080	0,150
Tool steels	< 850 N/mm²	L + E	187	408	0,080	0,170	0,090	0,180	0,100	0,200
	850-1100 N/mm²	L + E	176	384	0,080	0,150	0,090	0,180	0,090	0,180
	1100-1400 N/mm²	L + E	176	384	0,080	0,150	0,090	0,180	0,090	0,180
	1080 (33HRC)	L + E	176	384	0,080	0,150	0,090	0,180	0,090	0,180
High-speed steels	850-1200 N/mm²	L + E	105	228	0,080	0,150	0,090	0,180	0,090	0,180
Spring steels	< 1200 N/mm²	L + E	105	228	0,060	0,110	0,060	0,120	0,060	0,130
Stainless steels, sulphurated	< 700 N/mm²	E	127	276	0,080	0,170	0,090	0,180	0,100	0,200
Stainless steels, austenitic	< 700 N/mm²	E	121	264	0,080	0,150	0,090	0,180	0,090	0,180
Stainless steels, austenitic	< 850 N/mm²	E	105	228	0,080	0,150	0,090	0,180	0,090	0,180
Stainless steels, martensitic	< 1100 N/mm²	E	88	192	0,080	0,160	0,080	0,170	0,090	0,180
Special alloys	< 1200 N/mm²	E	72	156	0,060	0,130	0,070	0,140	0,080	0,170
Titanium, titanium alloys	< 850 N/mm²	E	66	144	0,080	0,150	0,090	0,180	0,090	0,180
Aluminium, aluminium alloys	< 400 N/mm²	E	400	509	0,100	0,200	0,110	0,220	0,120	0,240
Aluminium, aluminium cast alloys < 10%	< 600 N/mm²	E	300	416	0,100	0,190	0,100	0,200	0,110	0,230
Aluminium, aluminium cast alloys > 10% Si	< 600 N/mm²	E	150	231	0,100	0,190	0,100	0,200	0,110	0,230
Copper, low-alloyed	< 450 N/mm²	E	120	166	0,080	0,170	0,900	0,180	0,100	0,200
Brass, short-chipping	< 600 N/mm²	E	150	231	0,080	0,170	0,900	0,180	0,100	0,200
Brass, long-chipping	< 600 N/mm²	E	150	166	0,080	0,170	0,900	0,180	0,100	0,200
Bronze, short-chipping	< 600 N/mm²	E	150	166	0,080	0,170	0,900	0,180	0,100	0,200
Bronze, short-chipping	650-850 N/mm²	E	120	166	0,080	0,170	0,900	0,180	0,100	0,200
Bronze, long-chipping	< 850 N/mm²	E	120	166	0,080	0,170	0,900	0,180	0,100	0,200