Every rotating machine has at least one shaft and supporting bearings. Bearings are classified:
(1) Rolling Element Bearings (Shaft and bearing have contact surfaces) such as ball bearing,
roller bearings.
(2) Fluid Film Bearings (Shaft and bearing are separated with lubricants) such as oil bearings,
gas bearings, porous bearings, tilting-pad bearings and foil bearings.
(3) Magnetic Bearings
Basic Bearing Design:
Class (1 )rolling element bearings ----------Load capacity, Stiffness (Damping is insignificant)
Class (2) fluid film bearings -----------Load capacity, Stiffness, Damping and Stability.
Class (3) magnetic bearings ———--load capacity and Stability.
Basic Rotor-Bearing Dynamic Design:
Prediction/Calculation of Critical Speeds (Undamped and Damped), Synchronous and
Asynchronous Reponses, and Rotor Stability Analysis.
Probabilistic Rotor System Design:
Apply probability concepts to design rotor-bearing system to avoid vibration.
Mega Research has created a BEARING Library capable of performing Basic Bearing
Design (Class 1 and 2) for Fifteen (15) popular bearings.
Bearing Library
Tilting-Pad Bearing
Thrust Bearing
Rolling Element Bearing
Porous (Ceramic Coating) Bearing
Air/Gas Bearing
Liquid-Film Bearing
Foil Air Bearing
Calculations of Load Capacity
Attitude Angle
Torque
Flow Rate
Temperature
Stiffness & Damping depending on Rotor Speed and Load
probabilistic bearing design
Rotor-Bearing Dynamic System Analysis:
Rotor Critical Speed
Unbalanced Response
Asynchronous Response due to Forcing Function
Rotor Stability
Reliability for Bearing-Rotor dynamic system
Rotor interfacing with Probabilistic Software
Advanced Analysis of Foil Air bearings.
