Blog Posts Tagged Rotordynamics Module
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
When modeling a rotating machine, it’s important to study the vibrations influencing its behavior in order to avoid machine failure. One way to accomplish this is with the new Rotordynamics Module, an expansion to the add-on Structural Mechanics Module for the COMSOL Multiphysics® software. Today, we’ll introduce you to the Rotordynamics Module and walk you through its helpful features and functionality for improving your rotating machinery design process.
Rotordynamics Fosters the Design of Reliable Rotating Machines
Rotating machinery is an important element in many structures, from wind turbines to engines. The analysis of this rotating machinery — a field known as rotordynamics — is key in reducing noise and vibrations in many areas of technology. Here, we’ll take a closer look at rotordynamics and its relevance within various applications.
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