Self Lubricating Bearings

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Self-Lubricating Bearings - FIBERGLIDE®

Table of Contents

RBC Bearings is the leader in self-lubricating technology with our patented FIBERGLIDE® liners. We produce a broad line of standard inch and metric self-lubricating bearings in journal and thrust configurations. This unique bearing product offers the user design freedom as well as cost benefits from its “maintenance free” characteristics. The self-lubricating thrust and journal bearings are suited for applications where normal lubrication is difficult or costly. FIBERGLIDE® lined thrust and journal bearings are designed to be used under oscillating motion, interrupted start-stop, or axial motion. They are recommended where high loads are combined with low surface speeds. FIBERGLIDE® products can also be used where non-lubricating fluids might be present.

The self-lubricating thrust and journal bearings are suited for applications where normal lubrication is difficult or costly. FIBERGLIDE® lined thrust and journal bearings are designed to be used under oscillating motion, interrupted start-stop, or axial motion. They are recommended where high loads are combined with low surface speeds. FIBERGLIDE® products can also be used where non-lubricating fluids might be present.

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Self Lubricating Bearings Selection Guide

Type Description Dimensions Applications
CJS
Journal bearings, coiled steel backing, zinc plated.
Nom. shaft diameter-
.375 to 10.000
Bearing length- .
250 to 6.50
Wall thickness-
.045 to .093
The CJS bearing works excellent in any pivot or linkage application. For construction and farm equipment, this product is typically used in kingpins, rock shafts, differentials, hinges, pedals and many other pivot points.
CJT
Journal bearings,thin walled, coiled steel backing, zinc plated
Nom. shaft diameter-
.500 to 10.000
Bearing length-
.375 to 6.50
Wall thickness -
.060
This bearing is designed as a direct replacement with conventional 1/16" wall bushings. These bearings are used in self-lubricated chain, variable speed sheaves, boom pivot points on fork lifts and many similar applications.
CJH
Journal bearings, heavy walled, coiled steel backing, zinc plated
Nom. shaft diameter-
.750 to 10.000
Bearing length -
.375 to 11.00
Wall thickness -
.125
This bearing is designed as a direct replacement with the conventional 1/8" wall bronze bushings. Typical applications include suspension points on large trucks and railroad cars. These products are also used in the boom foot pivot of large cranes.
CJM
Metric Journal bearings, coiled steel backing, zinc plated
Nom. shaft diameter-
8MM to 120MM
Bearing length-
8MM to 165MM
Wall thickness-
1.0 to 2.5MM
This product is the metric equivalent to the CJS product and used in similar applications.
LJS
Journal bearings, liner type, non-metallic
Nom. shaft diameter-
1.000 to 12.000
Bearing length-
.375 to 6.50
Wall thickness-
.022 to .062
These bearings are used in many harsh applications and in food handling machinery. Typical applications include butterfly valves and trunnion support pivots. This product is also used in sheaves and hoists for marine applications.
FTS
Thrust bearings, metal-backed, single sided
Nom. shaft diameter-
.250 to 3.250
I.D. - .280 to 3.312
O.D. - .500 to 4.875
Thickness-
.030 to .060
These bearings accommodate thrust in clutches, hospital beds, screw jacks, valve actuators, vehicle suspensions, and many other applications.
LTD
Thrust bearings, laminated phenolic-backed, double-sided
Nom. shaft diameter-
.250 to 3.250
I.D. - .280 to 3.312
O.D. - .500 to 4.875
Thickness-
.030 to .094
These bearings are used in cam actuator arms, turntable support bearings, exercise equipment, truck differentials and many other applications.
FTP
Thrust packs, Two piece assembly
I.D. - 1.000 to 3.000
O.D. -1.750 to 4.625
Thickness- .130
These bearings are used in articulated frame joints, pivot arm supports, kingpins and many other applications.
SJR
Sealed Journal Brgs. solid cold rolled steel sleeve with two polyurethane seals.
Nom. shaft diameter-
1.000 to 5.000
Bearing length-
1.000 - 4.000
Wall thickness-
.250 - .375
These bearings are used in crane boom foot positions, wheels and pallet jacks, frame supports for large trucks and other construction equipment and many other applications.

Coiled Steel Backing

FIBERGLIDE® coiled steel journal bearings are designed to meet industry standards for self-lubricating bushings. They provide all of the advantages of FIBERGLIDE® at minimum cost. Carbon steel is normally used as a backing material, with the external surfaces plated to resist corrosion. Other metals can be supplied upon special order. Typical applications include automotive vehicles, farm equipment, construction and material handling equipment.

FABROID® can also be supplied for special applications - consult Transport Dynamics Engineering Department.

Part Number Maximum
Shaft
Diameter
Recommended
Housing Bore
Min/Max
Bearing Length
CJS0606 0.375 .4680/.4690 0.375
CJS0608 0.375 .4680/.4690 0.500
CJS0610 0.375 .4680/.4690 0.625
CJS0612 0.375 .4680/.4690 0.750
CJS0808 0.500 .5930/.5940 0.500
CJS0810 0.500 .5930/.5940 0.625
CJS0812 0.500 .5930/.5940 0.750
CJS0816 0.500 .5930/.5940 1.000
CJS1008 0.625 .7180/.7190 0.500
CJS1010 0.625 .7180/.7190 0.625
CJS1012 0.625 .7180/.7190 0.750
CJS1016 0.625 .7180/.7190 1.000
CJS1208 0.750 .8745/.8755 0.500
CJS1212 0.750 .8745/.8755 0.750
CJS1216 0.750 .8745/.8755 1.000
CJS1220 0.750 .8745/.8755 1.250
CJS1408 0.875 .9995/1.0005 0.500
CJS1414 0.875 .9995/1.0005 0.875
CJS1416 0.875 .9995/1.0005 1.000
CJS1420 0.875 .9995/1.0005 1.25
CJS1608 1.000 1.1245/1.1255 0.500
CJS1612 1.000 1.1245/1.1255 0.750
CJS1616 1.000 1.1245/1.1255 1.000
CJS1620 1.000 1.1245/1.1255 1.250
CJS1624 1.000 1.1245/1.1255 1.500
CJS1812 1.125 1.2805/1.2815 0.750
CJS1816 1.125 1.2805/1.2815 1.000
CJS1818 1.125 1.2805/1.2815 1.125
CJS1824 1.125 1.2805/1.2815 1.500
CJS2012 1.250 1.4055/1.4065 0.750
CJS2016 1.250 1.4055/1.4065 1.000
CJS2020 1.250 1.4055/1.4065 1.250
CJS2024 1.250 1.4055/1.4065 1.500
CJS2212 1.375 1.5305/1.5315 0.750
CJS2216 1.375 1.5305/1.5315 1.000
CJS2222 1.375 1.5305/1.5315 1.375
CJS2224 1.375 1.5305/1.5315 1.500
CJS2416 1.500 1.6555/1.6565 1.000
CJS2424 1.500 1.6555/1.6565 1.500
CJS2428 1.500 1.6555/1.6565 1.750
CJS2816 1.750 1.9375/1.9385 1.000
CJS2824 1.750 1.9375/1.9385 1.500
CJS2828 1.750 1.9375/1.9385 1.750
CJS2832 1.750 1.9375/1.9385 2.000
CJS3216 2.000 2.1875/2.1885 1.000
CJS3224 2.000 2.1875/2.1885 1.500
CJS3232 2.000 2.1875/2.1885 2.000
CJS3618 2.250 2.4375/2.4385 1.125
CJS3636 2.250 2.4375/2.4385 2.250
CJS4020 2.500 2.6875/2.6885 1.250
CJS4040 2.500 2.6875/2.6885 2.500
CJS4422 2.750 2.9375/2.9385 1.375
CJS4444 2.750 2.9375/2.9385 2.750
CJS4824 3.000 3.1875/3.1885 1.500
CJS4848 3.000 3.1875/3.1885 3.000
CJS5628 3.500 3.6875/3.6885 1.750
CJS5656 3.500 3.6875/3.6885 3.500
CJS6432 4.000 4.1875/4.1885 2.000
CJS6464 4.000 4.1875/4.1885 4.000
Part Number Shaft
Diameter
Min/Max
Recommended
Housing Bore
Min/Max
Bearing Length
CJM0808 7.972/7.987 10.000/10.015 8.00
CJM0810 7.972/7.987 10.000/10.015 10.00
CJM0812 7.972/7.987 10.000/10.015 12.00
CJM1008 9.972/9.987 12.000/12.018 8.00
CJM1010 9.972/9.987 12.000/12.018 10.00
CJM1012 9.972/9.987 12.000/12.018 12.00
CJM1015 9.972/9.987 12.000/12.018 15.00
CJM1020 9.972/9.987 12.000/12.018 20.00
CJM1208 11.966/11.984 14.000/14.018 8.00
CJM1210 11.966/11.984 14.000/14.018 10.00
CJM1212 11.966/11.984 14.000/14.018 12.00
CJM1215 11.966/11.984 14.000/14.018 15.00
CJM1220 11.966/11.984 14.000/14.018 20.00
CJM1225 11.966/11.984 14.000/14.018 25.00
CJM1310 12.966/12.984 15.000/15.018 10.00
CJM1415 13.966/13.984 16.000/16.018 15.00
CJM1420 13.966/13.984 16.000/16.018 20.00
CJM1512 14.966/14.984 17.000/17.018 12.00
CJM1515 14.966/14.984 17.000/17.018 15.00
CJM1525 14.966/14.984 17.000/17.018 25.00
CJM1612 15.966/15.984 18.000/18.018 12.00
CJM1615 15.966/15.984 18.000/18.018 15.00
CJM1620 15.966/15.984 18.000/18.018 20.00
CJM1625 15.966/15.984 18.000/18.018 25.00
CJM1815 17.966/17.984 20.000/20.021 15.00
CJM1820 17.966/17.984 20.000/20.021 20.00
CJM1825 17.966/17.984 20.000/20.021 25.00
CJM2015 19.959/19.980 23.000/23.021 15.00
CJM2020 19.959/19.980 23.000/23.021 20.00
CJM2025 19.959/19.980 23.000/23.021 25.00
CJM2030 19.959/19.980 23.000/23.021 30.00
CJM2215 21.959/21.980 25.000/25.021 15.00
CJM2220 21.959/21.980 25.000/25.021 20.00
CJM2225 21.959/21.980 25.000/25.021 25.00
CJM2230 21.959/21.980 25.000/25.021 30.00
CJM2415 23.959/23.980 27.000/27.021 15.00
CJM2420 23.959/23.980 27.000/27.021 20.00
CJM2425 23.959/23.980 27.000/27.021 25.00
CJM2430 23.959/23.980 27.000/27.021 30.00
CJM2515 24.959/24.980 28.000/28.021 15.00
CJM2520 24.959/24.980 28.000/28.021 20.00
CJM2525 24.959/24.980 28.000/28.021 25.00
CJM2530 24.959/24.980 28.000/28.021 30.00
CJM2550 24.959/24.980 28.000/28.021 50.00

Thin-Walled Coiled Steel Backing

The constant wall thickness of .062 of the CJT SERIES makes them dimensionally interchangeable with other types of coiled bearings commonly used. They provide all the advantages of FIBERGLIDE® at minimum cost. Carbon steel is normally used as a backing material, with the external surfaces plated to resist corrosion. Other metals can be supplied upon special order. Typical applications include automotive vehicles, farm equipment, construction and material handling equipment.

A FABROID® Liner can also be supplied for special applications-consult Transport Dynamics Engineering Department.

* Recommended housing bores are for steel housings. Contact Engineering for recommended housing dimensions for alternate materials.

Part Number Maximum
Shaft
Diameter
Recommended
Housing Bore
Min/Max
Bearing Length
CJT0808 0.500 .6240/.6250 0.500
CJT0810 0.500 .6240/.6250 0.625
CJT0812 0.500 .6240/.6250 0.750
CJT0816 0.500 .6240/.6250 1.000
CJT1008 0.625 .7490/.7500 0.500
CJT1010 0.625 .7490/.7500 0.625
CJT1012 0.625 .7490/.7500 0.750
CJT1016 0.625 .7490/.7500 1.000
CJT1812 1.125 1.2495/1.2505 0.750
CJT1816 1.125 1.2495/1.2505 1.000
CJT1818 1.125 1.2495/1.2505 1.125
CJT1824 1.125 1.2495/1.2505 1.500
CJT2012 1.250 1.3745/1.3755 0.750
CJT2016 1.250 1.3745/1.3755 1.000
CJT2020 1.250 1.3745/1.3755 1.250
CJT2024 1.250 1.3745/1.3755 1.500
CJT2212 1.375 1.4995/1.5005 0.750
CJT2216 1.375 1.4995/1.5005 1.000
CJT2222 1.375 1.4995/1.5005 1.375
CJT2224 1.375 1.4995/1.5005 1.500
CJT2416 1.500 1.6245/1.6255 1.000
CJT2424 1.500 1.6245/1.6255 1.500
CJT2428 1.500 1.6245/1.6255 1.750
CJT2816 1.750 1.8745/1.8755 1.000
CJT2824 1.750 1.8745/1.8755 1.500
CJT2828 1.750 1.8745/1.8755 1.750
CJT2832 1.750 1.8745/1.8755 2.000
CJT3216 2.000 2.1245/2.1255 1.000
CJT3224 2.000 2.1245/2.1255 1.500
CJT3232 2.000 2.1245/2.1255 2.000
CJT3618 2.250 2.3745/2.3755 1.125
CJT3636 2.250 2.3745/2.3755 2.250
CJT4020 2.500 2.6245/2.6255 1.250
CJT4040 2.500 2.6245/2.6255 2.500
CJT4422 2.750 2.8745/2.8755 1.375
CJT4444 2.750 2.8745/2.8755 2.750
CJT4824 3.000 3.1245/3.1255 1.500
CJT4848 3.000 3.1245/3.1255 3.000
CJT5226 3.250 3.3745/3.3755 1.625
CJT5252 3.250 3.3745/3.3755 3.250
CJT5628 3.500 3.6245/3.6255 1.750
CJT5656 3.500 3.6245/3.6255 3.500
CJT6030 3.750 3.8745/3.8755 1.875
CJT6060 3.750 3.8745/3.8755 3.750
CJT6432 4.000 4.1245/4.1255 2.000
CJT6464 4.000 4.1245/4.1255 4.000

Heavy Wall Coiled Steel Backing

The constant wall thickness of 1/8 in. (.125) for the CJH Series makes them dimensionally interchangeable with many bronze bushings. Carbon steel is normally used as a backing material, with the external surface plated to resist corrosion. Other materials can be supplied upon special order. Typical applications include farm equipment, construction and material handling equipment.

FABROID® can also be supplied for special applications. Consult Transport Dynamics Engineering Department.

* Recommended housing bores are for steel housings. Contact Engineering for recommended housing dimensions for alternate materials.

Part Number Maximum
Shaft
Diameter
Recommended
Housing Bore
Min/Max
Bearing Length
CJH1204 0.750 .9995/1.0005 0.250
CJH1208 0.750 .9995/1.0005 0.500
CJH1212 0.750 .9995/1.0005 0.750
CJH1608 1.000 1.2495/1.2505 0.500
CJH1612 1.000 1.2495/1.2505 0.750
CJH1616 1.000 1.2495/1.2505 1.000
CJH1812 1.125 1.3745/1.3755 0.750
CJH1816 1.125 1.3745/1.3755 1.000
CJH2016 1.250 1.4995/1.5005 1.000
CJH2020 1.250 1.4995/1.5005 1.250
CJH2024 1.250 1.4995/1.5005 1.500
CJH2216 1.375 1.6245/1.6255 1.00
CJH2220 1.375 1.6245/1.6255 1.25
CJH2224 1.375 1.6245/1.6255 1.50
CJH2420 1.500 1.7495/1.7505 1.250
CJH2424 1.500 1.7495/1.7505 1.500
CJH2432 1.500 1.7495/1.7505 2.000
CJH2820 1.750 1.9995/2.0005 1.250
CJH2824 1.750 1.9995/2.0005 1.500
CJH2832 1.750 1.9995/2.0005 2.000
CJH3224 2.000 2.2495/2.2505 1.500
CJH3232 2.000 2.2495/2.2505 2.000
CJH3248 2.000 2.2495/2.2505 3.000
CJH3624 2.250 2.4995/2.5005 1.500
CJH3632 2.250 2.4995/2.5005 2.000
CJH3648 2.250 2.4995/2.5005 3.000
CJH4032 2.500 2.7495/2.7505 2.000
CJH4040 2.500 2.7495/2.7505 2.500
CJH4048 2.500 2.7495/2.7505 3.000
CJH4432 2.750 2.9995/3.0005 2.000
CJH4440 2.750 2.9995/3.0005 2.500
CJH4448 2.750 2.9995/3.0005 3.000
CJH4832 3.000 3.2495/3.2505 2.000
CJH4840 3.000 3.2495/3.2505 2.500
CJH4848 3.000 3.2495/3.2505 3.000
CJH5232 3.250 3.4995/3.5005 2.000
CJH5240 3.250 3.4995/3.5005 2.500
CJH5248 3.250 3.4995/3.5005 3.000
CJH5632 3.500 3.7495/3.7505 2.000
CJH5664 3.500 3.7495/3.7505 4.000
CJH6032 3.750 3.9995/4.0005 2.000
CJH6064 3.750 3.9995/4.0005 4.000
CJH6432 4.000 4.2495/4.2505 2.000
CJH6464 4.000 4.2495/4.2505 4.000

Liner Type Non-Metallic

The FIBERGLIDE® Liner Type bearing provides high load capacity and low friction in the form of a thin-walled sleeve for use in butterfly valves, trunnion bearings, ball and plug valve stem bushings, hydraulic and pneumatic cylinder guide bushings, food handling machinery, and door hinge bushings, among others.

Because these bearings are completely non-metallic-fabricated of woven PTFE fibers on the bore supported by a laminated backing-there is no possibility of corrosion. Maximum compressive strength is 10,000 psi, with operating temperature range of -250°F to 200°F. Maximum speeds are typically 20 surface FPM.

* Recommended housing bores are for steel housings. Contact Engineering for recommended housing dimensions for alternate materials.

Part Number Maximum
Shaft
Diameter
Recommended
Housing Bore
Min/Max
Wall
Thickness
Bearing Length
LJS1616 1.000 1.061/1.062 .027/.030 1.000
LJS1624 1.000 1.061/1.062 .027/.030 1.500
LJS1632 1.000 1.061/1.062 .027/.030 2.000
LJS1818 1.125 1.186/1.187 .027/.030 1.125
LJS1828 1.125 1.186/1.187 .027/.030 1.500
LJS1836 1.125 1.186/1.187 .027/.030 2.250
LJS2020 1.250 1.311/1.312 .027/.030 1.250
LJS2030 1.250 1.311/1.312 .027/.030 1.875
LJS2040 1.250 1.311/1.312 .027/.030 2.500
LJS2222 1.375 1.436/1.437 .027/.030 1.375
LJS2232 1.375 1.436/1.437 .027/.030 2.000
LJS2244 1.375 1.436/1.437 .027/.030 2.750
LJS2424 1.500 1.561/1.562 .027/.030 1.500
LJS2436 1.500 1.561/1.562 .027/.030 2.250
LJS2448 1.500 1.561/1.562 .027/.030 3.000
LJS2828 1.750 1.811/1.812 .027/.030 1.750
LJS2842 1.750 1.811/1.812 .027/.030 2.625
LJS2856 1.750 1.811/1.812 .027/.030 3.500
LJS3232 2.000 2.126/2.127 .059/.062 2.000
LJS3248 2.000 2.126/2.127 .059/.062 3.000
LJS3636 2.250 2.376/2.377 .059/.062 2.250
LJS3654 2.250 2.376/2.377 .059/.062 3.375
LJS4040 2.500 2.626/2.627 .059/.062 2.500
LJS4060 2.500 2.626/2.627 .059/.062 3.750
LJS4444 2.750 2.876/2.877 .059/.062 2.750
LJS4466 2.750 2.876/2.877 .059/.062 4.125
LJS4848 3.000 3.126/3.127 .059/.062 3.000
LJS4872 3.000 3.126/3.127 .059/.062 4.500
LJS5656 3.500 3.626/3.627 .059/.062 3.500
LJS5684 3.500 3.626/3.627 .059/.062 5.250
LJS6464 4.000 4.126/4.127 .059/.062 4.000
LJS6496 4.000 4.126/4.127 .059/.062 6.000
LJS7272 4.5 4.626/4.627 .059/.062 4.500
LJS8080 5 5.126/5.127 .059/.062 5.000
LJS8888 5.5 5.626/5.627 .059/.062 5.500
LJS9696 6 6.126/6.127 .059/.062 6.000

Metal-Backed

FIBERGLIDE® FTS series thrust bearings offer an economical approach to obtaining self-lubrication where high loads are encountered. They are comprised of zinc-plated mild steel with woven PFTE laminated to one face. These bearings are recommended for use as an alternate to LTD washers in applications where metal backing is preferred.

Maximum compressive strength is 30,000 psi, with operating temperature range of -320°F to 300°F. Friction coefficients as low as 0.03 with no added lubricants are obtainable.

FABROID® Liners can also be supplied. For special applications, consult Transport Dynamics Engineering Department. These thrust bearings can also be supplied with special metals and with liners on both sides (FTD) series.

Part Number Maximum
Shaft
Diameter
ID OD Thickness
FTS0408 0.25 0.28 0.5 0.058
FTS0510 0.312 0.344 0.625 0.058
FTS0612 0.375 0.406 0.75 0.058
FTS0714 0.437 0.468 0.875 0.058
FTS0816 0.5 0.531 1 0.058
FTS0918 0.562 0.593 1.125 0.058
FTS1020 0.625 0.656 1.25 0.058
FTS1122 0.687 0.718 1.375 0.058
FTS1224 0.75 0.781 1.5 0.058
FTS1326 0.812 0.843 1.625 0.058
FTS1428 0.875 0.906 1.75 0.058
FTS1530 0.937 0.968 1.875 0.058
FTS1632 1 1.031 2 0.058
FTS1834 1.125 1.156 2.125 0.058
FTS2036 1.25 1.281 2.25 0.058
FTS2240 1.375 1.406 2.5 0.058
FTS2442 1.5 1.531 2.625 0.058
FTS2644 1.625 1.656 2.75 0.058
FTS2846 1.75 1.781 2.875 0.058
FTS3048 1.875 1.906 3 0.058
FTS3252 2 2.062 3.25 0.058
FTS3654 2.25 2.312 3.375 0.058
FTS4060 2.5 2.562 3.75 0.058
FTS4466 2.75 2.812 4.125 0.058
FTS4872 3 3.062 4.5 0.058
FTS5278 3.25 3.312 4.875 0.058

Laminated Phenolic-Backed

Phenolic-backed FIBERGLIDE® thrust bearings provide high load capacity and low friction for use where the elimination of lubrication is desirable. Typical applications include industrial valves and valve actuators, vehicle kingpin assemblies and marine drives.

Non-metallic and hence non-corrosive, these FIBERGLIDE® thrust bearings are lightweight and are fabricated of woven PFTE fibers backed by a laminated phenolic resin system. Double sided construction extends bearing life. It is important that mating surfaces be smooth and free from sharp edges.

Maximum compressive is 10,000 psi, with operating temperature range of -250 F to 200 F. Friction coefficients as low as 0.03 with added lubricants are obtainable.

Part Number Maximum
Shaft
Diameter
A B T
LTD0408 0.250 0.280 0.500 0.031
LTD0510 0.312 0.344 0.625 0.031
LTD0612 0.375 0.406 0.750 0.031
LTD0714 0.437 0.468 0.875 0.031
LTD0816 0.500 0.531 1.000 0.031
LTD0918 0.562 0.593 1.125 0.063
LTD1020 0.625 0.656 1.250 0.063
LTD1122 0.687 0.718 1.375 0.063
LTD1224 0.75 0.781 1.500 0.063
LTD1326 0.812 0.843 1.625 0.063
LTD1428 0.875 0.906 1.750 0.063
LTD1530 0.937 0.968 1.875 0.063
LTD1632 1.000 1.031 2.000 0.063
LTD1834 1.125 1.156 2.125 0.063
LTD2036 1.250 1.281 2.250 0.063
LTD2240 1.375 1.406 2.500 0.063
LTD2442 1.500 1.531 2.625 0.094
LTD2644 1.625 1.656 2.750 0.094
LTD2846 1.750 1.781 2.875 0.094
LTD3048 1.875 1.906 3.000 0.094
LTD3252 2.000 2.062 3.250 0.094
LTD3654 2.250 2.312 3.375 0.094
LTD4060 2.500 2.562 3.750 0.094
LTD4466 2.750 2.812 4.125 0.094
LTD4872 3.000 3.062 4.500 0.094
LTD5278 3.250 3.312 4.875 0.094

Slim Pack Thrust Packs

FIBERGLIDE® Slim Pack thrust bearings are unique in the industry. They need no lubrication, can tolerate extremely high loads and require very little space. (Nominal thickness is only 1/8 in.) The advanced, patented design includes a self-contained dust seal and utilizes materials which resist corrosion. It provides its own smooth internal wear surface which is ideal where cast iron or other rough mating surfaces are present. Slim Pack thrust bearings are particularly suited for such applications as vehicle kingpin assemblies, and frame hinges.

Series FTP

Thrust Bearing Replacement Pack - Series FTT
A special thrust bearing is also available as a direct replacement for conventional ball or tapered bearings in certain applications such as kingpin assemblies. Contact Transport Dynamics Marketing Department directly for information.

Series FTT

Cutaway view of Fiberglide® Series FTP Thrust Pack Diagram shows: A. Outer metal shell
B. Fiberglide® self-lubricating liner
C. Inner metal ring hard plate wear surface. Ring rotates against Fiberglide® liner which is bonded to outer shell.

Part Number A B T Area
FTP1628 1.000 1.750 0.130 1.25
FTP2032 1.250 2.000 0.130 1.48
FTP2436 1.500 2.250 0.130 1.72
FTP2638 1.625 2.375 0.130 1.84
FTP2840 1.750 2.500 0.130 1.96
FTP3244 2.000 2.750 0.130 2.19
FTP3648 2.250 3.000 0.130 2.43
FTP4052 2.500 3.250 0.130 2.66
FTP4072 2.500 4.500 0.130 10.03
FTP4874 3.000 4.625 0.130 8.72

Sealed Journal Bearings

FIBERGLIDE® SJR Series sealed journal bearings were developed for demanding applications in contaminated environments. Polyurethane seals are integral to the bearing and are highly resistant to abrasion and fluid contamination.

The standard product is supplied with FIBERGLIDE® self-lubricated bearing liners, polyurethane seals and a steel body. Other materials and sizes can be supplied. Consult Transport Dynamics Engineering Department. These components can also be supplied with single seals or without seals on special order.

* Recommended housing bores are for steel housings. Contact Engineering for recommended housing dimensions for alternate materials.

Part Number Maximum
Shaft
Diameter
Recommended
Housing Bore
Min/Max
Bearing Length
SJR1616 1.000 1.4984/1.5000 1.000
SJR1620 1.000 1.4984/1.5000 1.250
SJR1624 1.000 1.4984/1.5000 1.500
SJR1632 1.000 1.4984/1.5000 2.000
SJR2016 1.250 1.7484/1.7500 1.000
SJR2020 1.250 1.7484/1.7500 1.250
SJR2024 1.250 1.7484/1.7500 1.500
SJR2032 1.250 1.7484/1.7500 2.000
SJR2416 1.500 1.9982/2.0000 1.000
SJR2420 1.500 1.9982/2.0000 1.250
SJR2424 1.500 1.9982/2.0000 1.500
SJR2432 1.500 1.9982/2.0000 2.000
SJR2816 1.750 2.2482/2.2500 1.000
SJR2824 1.750 2.2482/2.2500 1.500
SJR2832 1.750 2.2482/2.2500 2.000
SJR2840 1.750 2.2482/2.2500 2.500
SJR3216 2.000 2.4982/2.5000 1.000
SJR3220 2.000 2.4982/2.5000 1.250
SJR3224 2.000 2.4982/2.5000 1.500
SJR3232 2.000 2.4982/2.5000 2.000
SJR3616 2.250 2.7482/2.7500 1.000
SJR3624 2.250 2.7482/2.7500 1.500
SJR3632 2.250 2.7482/2.7500 2.000
SJR3648 2.250 2.7482/2.7500 3.000
SJR4024 2.500 2.9982/3.0000 1.500
SJR4032 2.500 2.9982/3.0000 2.000
SJR4040 2.500 2.9982/3.0000 2.500
SJR4048 2.500 2.9982/3.0000 3.000
SJR4424 2.750 3.4978/3.5000 1.500
SJR4432 2.750 3.4978/3.5000 2.000
SJR4448 2.750 3.4978/3.5000 3.000
SJR4824 3.000 3.7478/3.7500 1.500
SJR4832 3.000 3.7478/3.7500 2.000
SJR4848 3.000 3.7478/3.7500 3.000
SJR5632 3.500 4.2478/4.2500 2.000
SJR5648 3.500 4.2478/4.2500 3.000
SJR5656 3.500 4.2478/4.2500 3.500
SJR6432 4.000 4.7475/4.7500 2.000
SJR6448 4.000 4.7475/4.7500 3.000
SJR6464 4.000 4.7475/4.7500 4.000
SJR7232 4.500 5.2475/5.2500 2.000
SJR7248 4.500 5.2475/5.2500 3.000
SJR7264 4.500 5.2475/5.2500 4.000
SJR8040 5.000 5.7475/5.7500 2.500
SJR8048 5.000 5.7475/5.7500 3.000
SJR8064 5.000 5.7475/5.7500 4.000

Engineering Data

Many factors affect the overall performance of FIBERGLIDE® bearings. Those of primary concern include applied load, surface velocity, operating mode, surface temperature, mating surface finish and running clearance. All performance values referred to in this section are based on dry operation. When running in a fluid atmosphere, FIBERGLIDE® bearings may have limitations. Where application requirements exceed those shown, consult Transport Dynamics engineering department for specific recommendations. FIBERGLIDE® lined bearings are designed to be used under oscillating motion, interrupted start-stop, or axial motion. They are recommended where high loads are combined with low surface speeds.

Design Calculations

Proj. Area (sq.in.) = Shaft Dia. Max (or Nom. I.D.) x length
P Pressure (psi) = Load (Lbf) ÷ by Proj. Area
V. Velocity (FPM) = Shaft Dia. Max x /12 X 4 x osc. Angle° x CPM/360

CPM=cycles per minute (journals-oscillating motion)

Bearing Wear

Bearing wear is affected by many factors. For the most part, tests conducted by Transport Dynamics subject journal bearings to 20,000 psi loads with the bearing fixed and the shaft oscillating. The values shown in the charts on page 6 are representative of the normal wear rate range that can be expected when amplitude is ±45°, frequency is 10 CPM, and shaft finish is 16 RMS under room temperature conditions. It will be noted that a wear-in period takes place during the first few thousand cycles. During this period some PTFE is transferred to the mating surface. In addition, the fibers are generally reoriented, the high points of the weave are flattened and adjacent fibers tend to blend together. After the break-in period, the bearing surface will become smooth and shiny. Because of the many variables which influence wear, it is extremely difficult to project bearing life for all types of applications. For this reason, the Transport Dynamics Engineering Department should be consulted when questions of this nature arise. Wear life calculations are based on rubbing distance of travel.

Bearing Load Limits

Static Pressure Limit (Constant pressure*)
10,000 psi with phenolic backing
30,000 psi with steel backing
Dynamic pressure limits while oscillating
20,000 psi suggested maximum.

Velocity Limit

Under dry running conditions, the maximum allowable surface velocity will depend on the applied load and other operating parameters. In general, surface speed should be kept below 35 FPM (Feet Per Minute) at 10,000 psi load or 600 FPM at 100 psi load.

PV Factor

For plain, dry-running bearings, it is often helpful to reference a pressure-velocity (PV) factor as a guide in determining bearing capability. It should be understood that this factor is actually a variable which reflects the point where surface temperatures are at a maximum, but are still stable. The maximum PV established for FIBERGLIDE® is:

PV continuous-60,000
PV intermittent-150,000

Temperature Limit

Normal operating temperatures should be kept below 300°F for standard FIBERGLIDE® bearings. An increase in wear rates may be experienced at temperatures above 350°F. Note that at elevated operating temperatures, the PV limit will be decreased in order to prevent the surface temperature from exceeding 300°F, (environmental temperature plus friction heat generated). When temperatures exceed 300°F or fall below -200°F, consult Transport Dynamics Engineering Department for specific recommendations.

Coefficient of Thermal Expansion

When bonded to a metal backing, FIBERGLIDE®'s coefficient of expansion can normally be regarded as identical to that of the backing, with steel backing 8.4 x 106 in/in/°F.

Mating Surfaces

FIBERGLIDE®, being non-metallic, will operate against most metals, but better performance is obtained with the hardest available mating surfaces. Hardened steel, hard anodized aluminum, hard chrome or nickel plate are recommended. A surface hardness of 45-50 Rc is desirable, but satisfactory performance can also be obtained with softer materials. Generally, a surface finish on the mating components of 16-32µ inch should be provided. Shaft materials or surface treatments should be selected that will effectively resist corrosion. Transport Dynamics recommends a max surface finish of 32 Rms and minimum hardness of 40Rc.

To determine the approximate reduction in life for different values of shaft finish and hardness, see below.

Surface Finish
µ in.
Life
Factor
Hardness
Rockwell Reading
Life
Factor
8-16 1.00 Rc50 1.00
32 0.55 Rc40 0.60
63 0.20 Rc30 0.40

Coefficient of Friction

Coefficient of friction depends upon type of movement, finish of mating surface, ambient temperature, bearing pressure, velocity and other variables. Figs. 1,2, and 3 were obtained from flat specimens and may be used as a guide. Note in Fig. 1 that the coefficient drops off as bearing load increases. This offers the advantage of using the smallest bearing sizes to obtain the least amount of friction. Fig. 3 shows the coefficient of friction increasing as surface velocity increases from 2-20 FPM. This feature is particularly valuable for vehicle steering systems.

Contamination

FIBERGLIDE® can tolerate small amounts of dirt, but reduced bearing life will result. Optimum life is achieved if dirt or abrasive particles are excluded. If a dirty environment is likely, we recommend installation of a simple seal.

Running Clearance

As a general rule, close running fits, and often slight interference fits (.0005 in.) are selected for oscillating motion when minimum starting torque is less important than the elimination of free play. For constant rotation, a free-running fit is normally recommended, the exact amount depending on bearing bore size. A rule of thumb would be 0.0015 inches per inch of bore ( bearing installed).

Bearing Housing and Shaft Sizing

Standard FIBERGLIDE® journal bearings (CJS/CJT/CJM/CJH/SJR Type) are installed into the housing bore using a press fit. Recommended housing bores should be held to the tolerance shown to insure the proper fit and size.

The LJS Type bearing is hand slip fit into its recommended housing bore to provide optimum fit-up. CJS/CJT/CJM/CJH types can also be provided for slip fits on special order.

RBC Transport Dynamics offers a special service to properly size housing and shaft for each new application. Contact RBC Transport Dynamics Engineering Department for details.

Fluid Compatibility

FIBERGLIDE® can tolerate most fluids or contaminants found in bearing applications, although some reduction of dry bearing life will result. Fluids tend to flush PTFE solid particle lubricants out of the bearing. Grease tends to act as a magnet to attract and retain dirt. Following are some of the environments in which these bearings have operated successfully:

  • Hydraulic Oils
  • Mild acids
  • Greases
  • Gasoline
  • Lubricating oils
  • Detergent solutions
  • Ammonium hydroxide
  • Liquid Nitrogen
  • Seawater
  • Toluene
  • Kerosene

Metric Technical Data Conversions

FIBERGLIDE® Bearing Load Limits:
Static Pressure Limits (Constant)
 
Phenolic Backed:
10,000 psi = 69 N/mm²  
Steel Backed:
30,000 psi = 207 N/mm²  
Dynamic Pressure Limits (Oscillating)
 
Phenolic Backed:
10,000 psi = 69 N/mm²  
Steel Backed:
20,000 psi = 138 N/mm²  
Velocity Limit:
Surface Speed Should be Kept Below 35 ft/min at 10,000 psi  = 0.175 m/s at 69 N/mm²
or 600 ft/min at 100 psi = 3 m/s at 0.69 N/mm²
PV Factor:
Max Continuous PV 60,000 psi-ft/min = 2.07 N/mm²-m/s  
Max Intermittent PV 150,000 psi-ft/min = 5.175 N/mm²-m/s  
Temperature Limit:  
Normal Operating Temperature Should Be Kept Below 300°F = 149°C
Increased Wear Rates May Be Experienced Above 350°F = 177°C
Consult TD Engineering Dept. When Temperature is Below -200°F = -129°C
Mating Surfaces:
Surface Finishes 8 µ in = 0.2 µ m  
16 µ in = 0.4 µ m  
32 µ in = 0.8 µ m  
63 µ in =1.6 µ m  
Running Clearance:
Slight Interferrence Fit Recommended for Oscillating Motion .0005 in = .0127 mm  
Free-Running Fit Recommended for Constant Rotation .0015 in/in of bearing ID = .0015 mm/mm of bearing ID
Test Conditions:
Bearing ID 1.00 in = 25.4 mm  
Bearing Length 0.50 in = 12.7 mm  
Bearing Loads 2,500 lb = 562.5 N  
5,000 lb = 1125 N  
Bearing Pressures 5,000 psi = 34.5 N/mm²  
10,000 psi = 69 N/mm²  
FIBERGLIDE®-Fabroid:
A Comparison of FIBERGLIDE® and FABROID Bearings with Other Self-Lubricating Types
  Metal-Backed FIBERGLIDE® Metal-Backed Fabroid Filled PTFE PTFE Impreg-nated Bronze Oil Impreg-nated Bronze
Typ. Dynamic Load (psi) 2,000 to 10,000 5,000 to 20,000 0 to 500 500 to 3,000 100 to 2,000
Typ. Dynamic Load (N/mm²) 13.8 to 69 34.5 to 138 0 to 3.45 3.45 to 20.7 0.69 to 13.8
Max. Static Load (psi) 30,000 60,000 1) 2,500 20,000 11,000
Max. Static Load (N/mm²) 207 414 17.25 138 75.9
Maximum PV Value (psi-ft/min) 50,000 60,000 10,000 50,000 50,000
Maximum PV Value (N/mm²-m/s) 1.725 2.07 0.345 1.725 1.725
Temperature Range (°F) -320 to +300 -320 to +400 -400 to +500 -320 to +500 -65 to +250
Temperature Range (°C) -196 to +149 -196 to +204 -240 to +260 -196 to +260 -54 to +121
 1) For Low Speed Oscillating Conditions-static loads over 30,000 psi (N/mm²) or dynamic loads over 20,000 psi (N/mm²) require metal backing of high strength stainless steel or equivalent materials.
Bearings-Installation:
Journal Bearings  
Min. Housing Lead-in Chamfer    .050 in = 1.27 mm  
Min. Shaft Lead-in Chamfer    .125 in = 3.175 mm  
or  
Min. Shaft Corner Radius    .060 in = 1.524 mm  
Thrust Bearings  
  Allowable Corner Radius of Stepped
Shafts Through ID of    
 
FTS    .015 in = .381 mm  
LTD    .030 in  = .762 mm  

Tests

Tests were conducted to compare the load carrying capability and wear life of four standard self-lubricating bearing products. Transport Dynamics performed all testing on the same test machine and fixturing. Standard FIBERGLIDE® and FABROID® products are presented herein. Transport Dynamics offers other self-lubricating bearing products capable of dynamic loading to 40,000 psi and ultimate static loading to 120,000 psi.

Test Conditions
The bearings were placed under a fixed load with an oscillating shaft. The test bearing size was 1.00 inch I.D. by .500 inches long. The test conditions were 10,000 psi (5,000 lbs.) and 5,000 psi (2,500 lbs.) loads with an oscillation of +/- 45 degrees and 30 cycles peer minute at room temperature. Approximately every 10,000 cycles, the bearings were removed and inspected for wear. Industrial Bearing Life Testing Cycles to Failure vs. Bearing Type

DU® is a registered trademark of Garlock Bearings, Inc.

FIBERGLIDE® - Fabroid®

The graphs below are typical wear curves for two types of self-lubricating liner materials; Standard FIBERGLIDE® A, and FABROID® G. The standard FIBERGLIDE® A material is suitable for most applications and significantly outperforms other bearing types. But, should your application include extraordinarily high static and/or dynamic loads, extremes of temperature, or chemical resistance requirements, Transport Dynamics manufactures a variety of liner materials and backing for critical service applications. There are two types of FIBERGLIDE® liners depending on the product configuration and three types of FABROID®.

Transport Dynamics is the originator, innovator and leader in self-lubricating bearing technology with over thirty years of material development and application experience. The original Fabroid® Liner System was patented in 1958. Evolution in the development of materials has created three generations of self-lubrication liner technology.

Today's materials represent a significant advance in technology and their increased capabilities offer solutions in applications previously judged to be borderline or beyond material capability. Contact Transport Dynamics Engineering Department for a detail publication of all our liner systems. Request Engineering Bulletin #106, Bearing Design Guide.

FOR LOW SPEED OSCILLATING CONDITIONS - static loads over 30,000 psi or dynamic loads over 20,000 psi require metal backing of high strength stainless steel or equivalent materials.