Application of experimental modal analysis in practice

The mathematical foundations for experimental modal analysis of rotating structures are presented. They are characterised by non-symmetric and time-variant matrices. The equations of motion are solved by modal transformation to derive impulse and frequency response functions, which form the basis of

The relationship between the strain mode and displacement mode for vibrating elastic structures is derived. It is based on the idea that when a structure is subjected to dynamic loading, its strain response can be expressed by the superposition of contributions from the ''natural strain modes''. Bot

An experimental modal coupling method is investigated by applying it to a large structure tested by parts. The method is based on testing different parts of the structure with their interface coordinates loaded with rigid, heavy dummy masses. With these boundary masses, the low frequency modes conta

Two methods are presented for the determination of operational deflection shapes (ODSs). The first method allows one to determine the ODSs by measuring mechanical vibrations at test points of the operating machine (created by the forces occurring in the actual work cycle). The second method is based