Introduction
Linear bearings are essential components in a wide range of applications, from precision machinery to automated systems. They provide smooth, accurate, and low-friction linear motion, making them ideal for applications that require high precision and durability.
Story 1: Precision Motion for Robotics
Benefit:
How to Do:
Accuracy Grade | Tolerance (µm) |
---|---|
ABEC-1 | 10 |
ABEC-3 | 6 |
ISO P2 | 8 |
Preload | Benefits |
---|---|
Light | Reduced friction, higher accuracy |
Medium | Enhanced stability, increased load capacity |
Heavy | Maximum rigidity, improved vibration resistance |
Story 2: Reduced Friction for Medical Devices
Benefit:
How to Do:
Material | Coefficient of Friction (μ) |
---|---|
PEEK | 0.15 |
POM | 0.20 |
Steel | 0.50 |
Lubrication | Benefits |
---|---|
Oil | Reduces friction, protects against wear |
Grease | Provides corrosion protection, simplifies maintenance |
Dry Film | Minimizes friction without external lubrication |
Story 3: Enhanced Durability for Industrial Automation
Benefit:
How to Do:
Load Capacity | Types |
---|---|
Light | Ball bearings, needle bearings |
Medium | Roller bearings, slide bearings |
Heavy | Caged roller bearings, linear slides |
Corrosion Resistance | Materials |
---|---|
Good | Stainless steel, bronze |
Excellent | Ceramic, hardened steel |
Outstanding | Polymer coatings, anodized aluminum |
Additional Tips and Tricks
Getting Started with Linear Bearings: A Step-by-Step Approach
FAQs About Linear Bearings
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