Blog Posts Tagged Rotordynamics Module
Analyzing Critical Speeds with the Rotor Bearing System Simulator
The critical speed of a rotor is the speed at which the amplitude of the vibration in the system could potentially cause failure. Analyze critical speeds in rotor designs with an application.
Comparing Hydrodynamic Bearings with Rotordynamics Analyses
Compare the load capacities for different types of hydrodynamic bearings and determine which is best suited for your area of study by using the Rotordynamics Module.
Perform Rotordynamic Analyses of a Reciprocating Engine’s Crankshaft
You can use the Rotordynamics Module, an add-on to COMSOL Multiphysics®, to analyze the design of a crankshaft for a reciprocating engine.
Analyze a Variety of Rotating Machines with the Rotordynamics Module
Get an introduction to the specialized features and functionality available in the Rotordynamics Module for modeling rotating machinery.
Rotordynamics Fosters the Design of Reliable Rotating Machines
Rotating machinery is an important element in many structures. The analysis of rotating machinery, rotordynamics, can help engineers reduce noise and vibrations in many areas of technology.