Plain Linear Bearing - Square Flange SFP12C 3/4" Compensated

Compensated Plain Linear Bearing with a square flange 3/4" ID (inner diameter). The compensated running clearance provides more clearance between the inner diameter and shaft allowing the flange mounted bearing to perform like a linear ball bearing.

  • Housing With Bearing Included
  • Precision running clearance on the inner diameter, 0.0005” per side
  • Spherical 'Self-aligning' I.D. in the housing. Self-aligning housing
  • Compensated running clearance on the ID
  • Standard Width
  • Square Flange End Mount 
  • Inch Series
  • Closed
  • Self-Lubricating Bearing Liner: FrelonGOLD® is standard
  • Optional liners include Frelon® J & Frelon® W 
  • Temperature Rating: -400°F/+400°F or -240°C/204°C
  • Inch, metric and JIS sizing options 
  • Designed for use with linear rail supported shafting 
  • Can operate in any orientation 
  • Static Load Capacities up to 166,000 lb (740 kN) 
  • ID sizes: 4.76 mm (0.19 in) to 101.6 mm (4 in) 
  • Specific sizes are 3/16” to 4” Inch Series, 5mm to 80mm Metric Series
  • Choose between standard ID running clearance (0.0005" per side) and compensated ID running clearance (0.0015" per side) 
  • Options for standard/straight OD or self-aligning/spherical OD to prevent binding.
  • Maximum Speed: Up to 8 m/s (315 in/s) 
  • Shaft Lengths: Up to 12 feet 
  • Shell Material: Standard is aluminum; stainless steel shells are available
  • Self-Lubricating: Provides oil-free operation
  • Seal Options: Nitrile rubber, urethane, and viton seals available from ½” ID and up or 20mm and up
  • Mounting Options: O-ring and retaining ring grooves for multiple mounting options
  • External Lubrication: Optional feature for added lubrication
  • Vibration Damping: Ensures smooth and quiet operation
  • Designed for use with end-supported shafting 
  • Interchangeable with linear ball bearings and some bronze bushings  
  • Choose between standard ID running clearance (0.0005" per side) and compensated ID running clearance (0.0015" per side) 
  • Options for standard/straight OD or self-aligning/spherical OD to prevent binding 

3D Models

TypeFileFormatLink
3dSFP12C.htmlhtmlView
cadSFP12C.dxfDXFDownload
cadSFP12C.x_tSolidWorks >=2006Download
$78.59
Dimensions
Videos
Resources

Product Dimensions

weightwidthlengthheight
0.56 lbs1.25 in1.62 in1.25 in
Simplicity Plain Bearing Overview
Simplicity Plain Bearing Overview
Simplicity 60 Plus Shafting and Bearing Matched for Performance
Simplicity 60 Plus Shafting and Bearing Matched for Performance
How to Install the Right Simplicity Linear Bearing
How to Install the Right Simplicity Linear Bearing
How to Properly Lubricate a Plain Linear Bearing
How to Properly Lubricate a Plain Linear Bearing
Custom Bearings Project
Custom Bearings Project
Custom Hillman Case Study DOD
Custom Hillman Case Study DOD
Parallel Rail Alignment Video
Parallel Rail Alignment Video

3D Models

DXF
cadDownload
SolidWorks >=2006
cadDownload
html
3dView

Catalogs & Datasheets

SIMPLICITY Self-Lubricated Linear Bearings Datasheet
datasheetOpen Link
SIMPLICITY Self-Lubricated Linear Bearings Chemical Reaction Chart
datasheetOpen Link
Simplicity Linear Bearings Chemical Chart
datasheetOpen Link
Simplicity Linear Plain Bearings
datasheetOpen Link

News & Blogs

The Science of Simplicity Self-Lubricating Linear Plain Bearings
blogOpen Link
Simplicity Bearings - Designed to Last
blogOpen Link
Withstand the test of time with Simplicity® Bearings
newsOpen Link
The Simplicity® Bearing: Meeting All Packaging Needs without Fail
newsOpen Link
Combating Environmental Issues With PBC Linear Guidance Solutions
blogOpen Link
Ball-bearing vs. Plane Bearing Technology in Heavy Wash-down
newsOpen Link
White Paper: Demystifying the 2:1 Ratio and the Stick-Slip Phenomenon
blogOpen Link
Calculating a Plain Bearings Pressure Velocity
blogOpen Link
Plain vs Ball Bushings in Washdown Environments
blogOpen Link
PBC Linear’s Guide for Approved Bearing Inspection Methods
blogOpen Link
The Science Behind Self-Lubricating Plain Bearings
blogOpen Link
Overview of Linear Guides in Motion Design
blogOpen Link