Size  Flange Torque
DIN
Ø mm
SAE
Ø mm
KV
Ø mm
Maximum torque
Mt max
Limit torque
Mt grenz
Alternating torque
Mt dw
004 58
65
- - 200 Nm 270 Nm 110 Nm
009 58
65
75
- - 450 Nm 650 Nm 260 Nm
019 75
90
- - 650 Nm 1200 Nm 350 Nm
050 90
100
120
87
97
115
120 1100 Nm 2400 Nm 700 Nm
077 90
100
120
87
97
115
100
120
1350 Nm 3000 Nm 820 Nm
105 100
120
150
115
150
120 3000 Nm 4350 Nm 1700 Nm
101 120
150
150
175
120
150
5000 Nm 6500 Nm 1900 Nm
122 150
165
180
150
175
120
150
6000 Nm 10000 Nm 2900 Nm
137 150
165
180
175
203
150
180
10000 Nm 13000 Nm 4400 Nm
151 180
225
203 150
180
11000 Nm 17000 Nm 5100 Nm
156 180
225
250
203 150
180
15200 Nm 21900 Nm 8000 Nm
160 180
225
250
203
245
180 24700 Nm 35000 Nm 11000 Nm
162 225
250
285
245
250
276
200 33000 Nm 37000 Nm 15000 Nm
163 250
285
- - 37000 Nm 40000 Nm 18000 Nm
164 250
285
315
- - 40000 Nm 55000 Nm 23000 Nm
234 285
315
350
- - 89000 Nm 120000 Nm 45000 Nm
232 315
350
390
- - 142000 Nm 175000 Nm 58000 Nm
233 350
390
435
- - 200000 Nm 260000 Nm 100000 Nm

 

Mt max  

Maximum torque of the cardan shaft. This ist the base of all calculation regarding the cardan shaft. Mt max is the torque, where the cardan shaft can be heavily loaded for a short period with an angle of 1-3° degree, without functional Deformation

Mt grenz

The limit torque of the cardan shaft. Mt grenz is the torque, where the cardan shaft can be heavily loaded for a short period with an angle of 1-3° degree, without functional damage

Mt dw

The alternating torque of the cardan shaft. Mt dw is the torque, where the cardan shaft can be heavily loaded with an angle of 1-3° degree and no functional issues appears