nickjk
Mechanical
- May 10, 2007
- 74
Hi All,
I am currently trying to determine if the main and connection journal bearings used on a stamping press could be designed to use hydrodynamic lubrication.
The press is rated at 150tons so for approximation I am using 75 tons of load force at each of the 2 main bearings.
The bearing I am currently studying has the following features:
14" I.D.
4 1/2" width
Supporting Load (75tons) 150,000 lbs
Bearing Pressure 2,380 psi
Length/Diameter Ratio .32
Journal Speed 180 RPM or 3 rev. per second
Viscosity 20 Centipoises at 40c
I used the McKee chart to find my k value which I used to solve my friction value.
k was estimated at .008 and friction coefficient was calculated at .0081
When I calculate the S value to be used with Raimondi and Boyd charts I get a very small number like .0037 which seems like a problem.
Also when I calculated the change in heat the value was extremely high - change of 803 F degrees.
I do not know if the normal hydrodynamic calculations apply because the very high load of the stamping press is only present during 1/8 of its rotation and is not constant. Do you know of any information available on a similar application.
Any suggestions or advice on how to continue with these calculations would greatly be appreciated.
This is my first go at trying to solve this type of a problem.
Thanks in Advance
Nick JK
I am currently trying to determine if the main and connection journal bearings used on a stamping press could be designed to use hydrodynamic lubrication.
The press is rated at 150tons so for approximation I am using 75 tons of load force at each of the 2 main bearings.
The bearing I am currently studying has the following features:
14" I.D.
4 1/2" width
Supporting Load (75tons) 150,000 lbs
Bearing Pressure 2,380 psi
Length/Diameter Ratio .32
Journal Speed 180 RPM or 3 rev. per second
Viscosity 20 Centipoises at 40c
I used the McKee chart to find my k value which I used to solve my friction value.
k was estimated at .008 and friction coefficient was calculated at .0081
When I calculate the S value to be used with Raimondi and Boyd charts I get a very small number like .0037 which seems like a problem.
Also when I calculated the change in heat the value was extremely high - change of 803 F degrees.
I do not know if the normal hydrodynamic calculations apply because the very high load of the stamping press is only present during 1/8 of its rotation and is not constant. Do you know of any information available on a similar application.
Any suggestions or advice on how to continue with these calculations would greatly be appreciated.
This is my first go at trying to solve this type of a problem.
Thanks in Advance
Nick JK
