No reason to worry, torque to yield bolts are designed such that the stress-strain curve is flat in the operating region which means that once they have yielded the pre-tension is highly insensitive to variations in torque, angle and other factors including temperature.nokivasara wrote: ↑19 Dec 2020, 19:16Will the torque applied to TTY head bolts change much if the job is done in cold temperature?
They should be torqued to 60NM, +90, +90 degrees on a cold engine. This is probably at ISA?
Lets say I use the above torque on a engine that is 10C or 0C instead, would the difference due to thermal expansion of the head and bolts be enough to cause trouble?
Skoda PD TDI
+/-15% is quite a lot. Is there a short answer to why the torque+angle is a better way to reach the desired clamping force? I mean if I use the torque+angle method and watch what the final torque is, why shouldn't I be able to just set the torque wrench to that number for the last sequence when tightening?Mudflap wrote: ↑23 Dec 2020, 13:32No reason to worry, torque to yield bolts are designed such that the stress-strain curve is flat in the operating region which means that once they have yielded the pre-tension is highly insensitive to variations in torque, angle and other factors including temperature.nokivasara wrote: ↑19 Dec 2020, 19:16Will the torque applied to TTY head bolts change much if the job is done in cold temperature?
They should be torqued to 60NM, +90, +90 degrees on a cold engine. This is probably at ISA?
Lets say I use the above torque on a engine that is 10C or 0C instead, would the difference due to thermal expansion of the head and bolts be enough to cause trouble?
With a standard bolt the pre-tension variaton is in the range of +/-15% with a torque+angle tightening method. The effect of ambient temperature is nothing in comparison to that.
Torque is a really unreliable way of prestressing a bolt. So generally, critical bolts are tightened until they are just starting to take on a load and then a known quantity of load is applied using angle.nokivasara wrote: ↑25 Dec 2020, 11:41Skoda PD TDI
My username is finnish for diesel. Or soothammer to be precise but it means diesel.
+/-15% is quite a lot. Is there a short answer to why the torque+angle is a better way to reach the desired clamping force? I mean if I use the torque+angle method and watch what the final torque is, why shouldn't I be able to just set the torque wrench to that number for the last sequence when tightening?Mudflap wrote: ↑23 Dec 2020, 13:32No reason to worry, torque to yield bolts are designed such that the stress-strain curve is flat in the operating region which means that once they have yielded the pre-tension is highly insensitive to variations in torque, angle and other factors including temperature.nokivasara wrote: ↑19 Dec 2020, 19:16Will the torque applied to TTY head bolts change much if the job is done in cold temperature?
They should be torqued to 60NM, +90, +90 degrees on a cold engine. This is probably at ISA?
Lets say I use the above torque on a engine that is 10C or 0C instead, would the difference due to thermal expansion of the head and bolts be enough to cause trouble?
With a standard bolt the pre-tension variaton is in the range of +/-15% with a torque+angle tightening method. The effect of ambient temperature is nothing in comparison to that.
Tightening torque corresponds to, but does not equal bolt tension. There are several factors that can affect torque corresponding to bolt tension(stretching the bolt is one of those reasons). The bolt tension on head bolts come from them stretching a certain amount. Some head bolts can be reused if not stretched beyond a certain point.nokivasara wrote: ↑25 Dec 2020, 11:41Skoda PD TDI
My username is finnish for diesel. Or soothammer to be precise but it means diesel.
+/-15% is quite a lot. Is there a short answer to why the torque+angle is a better way to reach the desired clamping force? I mean if I use the torque+angle method and watch what the final torque is, why shouldn't I be able to just set the torque wrench to that number for the last sequence when tightening?Mudflap wrote: ↑23 Dec 2020, 13:32No reason to worry, torque to yield bolts are designed such that the stress-strain curve is flat in the operating region which means that once they have yielded the pre-tension is highly insensitive to variations in torque, angle and other factors including temperature.nokivasara wrote: ↑19 Dec 2020, 19:16Will the torque applied to TTY head bolts change much if the job is done in cold temperature?
They should be torqued to 60NM, +90, +90 degrees on a cold engine. This is probably at ISA?
Lets say I use the above torque on a engine that is 10C or 0C instead, would the difference due to thermal expansion of the head and bolts be enough to cause trouble?
With a standard bolt the pre-tension variaton is in the range of +/-15% with a torque+angle tightening method. The effect of ambient temperature is nothing in comparison to that.
Shortest answer I can come up with:nokivasara wrote: ↑25 Dec 2020, 11:41Skoda PD TDI
My username is finnish for diesel. Or soothammer to be precise but it means diesel.
+/-15% is quite a lot. Is there a short answer to why the torque+angle is a better way to reach the desired clamping force? I mean if I use the torque+angle method and watch what the final torque is, why shouldn't I be able to just set the torque wrench to that number for the last sequence when tightening?Mudflap wrote: ↑23 Dec 2020, 13:32No reason to worry, torque to yield bolts are designed such that the stress-strain curve is flat in the operating region which means that once they have yielded the pre-tension is highly insensitive to variations in torque, angle and other factors including temperature.nokivasara wrote: ↑19 Dec 2020, 19:16Will the torque applied to TTY head bolts change much if the job is done in cold temperature?
They should be torqued to 60NM, +90, +90 degrees on a cold engine. This is probably at ISA?
Lets say I use the above torque on a engine that is 10C or 0C instead, would the difference due to thermal expansion of the head and bolts be enough to cause trouble?
With a standard bolt the pre-tension variaton is in the range of +/-15% with a torque+angle tightening method. The effect of ambient temperature is nothing in comparison to that.
