Linear Guide - D Uni-Guide D100-048-000-1 Nominal Size: 100mm Length: 48.000" Carriage Count: 1

3D Models

TypeFileFormatLink
cadD100-048.x_tSolidWorks >=2006Download
$960.19
Details
Dimensions
Videos
Resources

Category Details


A unique plain bearing linear guide assembly that eliminates tolerance stack up, dampens vibrations and shock loads and can drop into existing applications making installation easy.  

  • Ceramic coated, aluminum rail and anodized carriage  
  • Self-lubricating, maintenance-free FrelonGOLD liner  
  • The two-piece assembly makes for a quick and easy integration while also eliminating the need for alignment in both new and existing applications  
  • Excels in demanding extremes including temperature, heavy particulates, washdown and extreme vibration  
  • No rolling elements, eliminating possibility of catastrophic failure  
  • Available in three carriage sizes: 75, 100, and 125 mm  
  • Rail lengths up to 3600 mm (141.7 in) 

Product Dimensions

weightwidthlengthheight
18.16 lbs0 in0 in0 in
Bearing Selection Criteria for Linear Guides
Bearing Selection Criteria for Linear Guides

3D Models

SolidWorks >=2006
cadDownload

News & Blogs

A Lift in a Robotics Competition
blogOpen Link
On Demand Book Printing
blogOpen Link
Raising Touch Screen Monitors
blogOpen Link
PBC Linear Uni-Guide Shines in Wafer Manufacturing
newsOpen Link
Silicon Wafer Manufacturing
blogOpen Link
Build it or Buy it: The Advantages of a Pre-engineered Sub-assembly Product Over a Component System
newsOpen Link
Raise Quality and Lower Costs with Uni-guide
newsOpen Link
Rail Systems for Very Long Travel Applications
blogOpen Link
Flexibility in Linear Motion helps Customers Choose the Perfect Profile
blogOpen Link
Flexibility in Linear Motion helps Customers Choose the Best Bearing Type
blogOpen Link
Overview of Linear Guides in Motion Design
blogOpen Link
Combating Environmental Issues With PBC Linear Guidance Solutions
blogOpen Link
White Paper: Demystifying the 2:1 Ratio and the Stick-Slip Phenomenon
blogOpen Link
Calculating a Plain Bearings Pressure Velocity
blogOpen Link

Infographics

Uni Guide Linear Slide vs Components Comparison
infographicOpen Link