Comprehensive Study of Shaft/Coupling Misalignment Signature using Vibration Analysis

Mate Toth and Suri Ganeriwala
8227 Hermitage Road, Richmond, VA 23228, USA
Published: June, 9 2014

Abstract


To put it simply, two shafts are misaligned when their center lines do not coincide. We can distinguish parallel and angular misalignment, but most of the time, a combination of the two happens in real life. When two misalignmed shafts are joined together by a coupling, the machine structure, but mostly the coupling itself, is subjected to deformation or strain. But this strain is not constant, but changes with the angle of rotation. The varying strain causes varying stress which results in varying forces at the coupling. And this is the origin of vibrations.


Comprehensive Study of Shaft/Coupling Misalignment Signature using Vibration Analysis


To put it simply, two shafts are misaligned when their center lines do not coincide. We can distinguish parallel and angular misalignment, but most of the time, a combination of the two happens in real life. When two misalignmed shafts are joined together by a coupling, the machine structure, but mostly the coupling itself, is subjected to deformation or strain. But this strain is not constant, but changes with the angle of rotation. The varying strain causes varying stress which results in varying forces at the coupling. And this is the origin of vibrations.

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