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Like the TS bearing design, the TSF design consists of two main separable parts: the cone (inner ring) assembly and the cup (outer ring). It is typically mounted in opposing pairs on a shaft. TSF bearings have flanged cups to facilitate axial location and accurately align seals in through-bored housings.
Unit of Measure

Specifications

Series

 N/A JP13000

Cone Part Number

 N/A JP13049

Cup Part Number

 N/A JP13010-B

Design Unit

 N/A Metric

Cage Material

 N/A Stamped Steel

Dimensions

d - Bore

 N/A 130 mm5.1181 in

D - Cup Outer Diameter

 N/A 185.000 mm7.2835 in

D1 - Flange Outer Diameter

 N/A 192.000 mm7.5591 in

B - Cone Width

 N/A 27.000 mm1.0630 in

C - Cup Width

 N/A 21.000 mm0.8268 in

C1 - Cup Flange Width

 N/A 5.000 mm0.1969 in

T1 - Bearing Width to Flange

 N/A 13.000 mm5.118 in

Abutment and Fillet Dimensions

R - Cone Backface "To Clear" Radius1 N/A 3.050 mm0.12 in
r - Cup Backface "To Clear" Radius2 N/A 3 mm0.12 in

da - Cone Frontface Backing Diameter

 N/A 137 mm5.39 in

db - Cone Backface Backing Diameter

 N/A 143 mm5.63 in

Da - Cup Frontface Backing Diameter

 N/A 188.21 mm7.41 in

Ab - Cage-Cone Frontface Clearance

 N/A 4.8 mm0.19 in

Aa - Cage-Cone Backface Clearance

 N/A 1.5 mm0.06 in
a - Effective Center Location3 N/A 8.9 mm0.35 in

Basic Load Ratings

C90 - Dynamic Radial Rating (90 million revolutions)4 N/A 50800 N11400 lbf
C1 - Dynamic Radial Rating (1 million revolutions)5 N/A 196000 N44000 lbf

C0 - Static Radial Rating

 N/A 283000 N63600 lbf
Ca90 - Dynamic Thrust Rating (90 million revolutions)6 N/A 41100 N9250 lbf

Factors

K - Factor7 N/A 1.24
e - ISO Factor8 N/A 0.47
Y - ISO Factor9 N/A 1.27

G1 - Heat Generation Factor (Roller-Raceway)

 N/A 192

G2 - Heat Generation Factor (Rib-Roller End)

 N/A 60.3
Cg - Geometry Factor10 N/A 0.106
  • 1 These maximum fillet radii will be cleared by the bearing corners.
  • 2 These maximum fillet radii will be cleared by the bearing corners.
  • 3 Negative value indicates effective center inside cone backface.
  • 4 Based on 90 x 106 revolutions L10 life, for The Timken Company life calculation method. C90 and Ca90 are radial and thrust values.
  • 5 Based on 1 x 106 revolutions L10 life, for the ISO life calculation method.
  • 6 Based on 90 x 106 revolutions L10 life, for The Timken Company life calculation method. C90 and Ca90 are radial and thrust values for a single-row, C90(2) is the two-row radial value.
  • 7 These factors apply for both inch and metric calculations. Consult your Timken representative for instruction on use.
  • 8 These factors apply for both inch and metric calculations. Consult your Timken representative for instruction on use.
  • 9 These factors apply for both inch and metric calculations. Consult your Timken representative for instruction on use.
  • 10 Geometry constant for Lubrication Life Adjustment Factor a3l.
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