Hello -
I’m in the process of trying to determine a spec on some Timken tapered roller bearings.
Here’s the catalog –
The bearing P/Ns are as follows –
Timken 16284-B Outer Cup
Timken 16150 Inner Cone
They are shown on page 434 of the above catalog
What I am trying to find out, is the maximum static axial load that the cone can be pressed into the race without damaging (brinneling?) the race. It’s actually listed in the abbreviations on page 15 as “Coa” but in the spec for the bearing p/n on page 434 it’s not shown. Only “Co” – which is the static radial load rating. This is for a specialized pushing clamp that I am fabricating to extract a spindle from a machine lathe. There is a shouldered bronze sleeve on the spindle through the ID of one of the headstock bearings, and it's used to develop the necessary preload in operation. Trouble is, the spindle will not release from the sleeve and as the clamp is developing force on the spindle, that's being transferred directly through the cone into the cup. I want to prevent damage as I attempt to extract the spindle. This is being done after all the usual attempts with heat, dry ice packed into the bore etc. (i.e. I tried all the low hanging fruit first - ha)
I sent a query to Timken but with the July 4 holiday and all I am not sure I'll hear from them any time soon.
Thanks !
Lewis
I’m in the process of trying to determine a spec on some Timken tapered roller bearings.
Here’s the catalog –
The bearing P/Ns are as follows –
Timken 16284-B Outer Cup
Timken 16150 Inner Cone
They are shown on page 434 of the above catalog
What I am trying to find out, is the maximum static axial load that the cone can be pressed into the race without damaging (brinneling?) the race. It’s actually listed in the abbreviations on page 15 as “Coa” but in the spec for the bearing p/n on page 434 it’s not shown. Only “Co” – which is the static radial load rating. This is for a specialized pushing clamp that I am fabricating to extract a spindle from a machine lathe. There is a shouldered bronze sleeve on the spindle through the ID of one of the headstock bearings, and it's used to develop the necessary preload in operation. Trouble is, the spindle will not release from the sleeve and as the clamp is developing force on the spindle, that's being transferred directly through the cone into the cup. I want to prevent damage as I attempt to extract the spindle. This is being done after all the usual attempts with heat, dry ice packed into the bore etc. (i.e. I tried all the low hanging fruit first - ha)
I sent a query to Timken but with the July 4 holiday and all I am not sure I'll hear from them any time soon.
Thanks !
Lewis