INVESTIGADORES
CURADELLI raul oscar
artículos
Título:
Identification of changes in the stiffness and damping matrices of linear structures through ambient vibration
Autor/es:
AMANI, MARTA; RIERA, JORGE; CURADELLI, OSCAR
Revista:
JOURNAL OF STRUCTURAL CONTROL AND HEALTH MONITORING
Editorial:
John Wiley & Sons
Referencias:
Lugar: U.K.; Año: 2007 vol. 14 p. 1155 - 1169
ISSN:
1538-523X
Resumen:
The practical difficulties presented by forced vibration testing of large structures, such as tall buildings,
dams or bridges, led to a vast interest in structural monitoring through ambient vibrations, which usually
allows the proper identification of modal properties, natural frequencies, damping and modes of vibration.
Changes in these modal properties constitute an indication of structural damage, which may then be
assessed on the basis of experimental evidence. The authors describe an approach to determine the socalled
damage damping and stiffness matrices, which are essential to identify the location and intensity of
damage. No restrictions are introduced on the damping matrix of the system. The approach requires
ambient vibration data records of all relevant co-ordinates used in the structural model, which are
processed employing the SSI-Cov method in conjunction with a modal analysis procedure. The
identification method is illustrated with examples using experimental measurements on a reinforced
concrete beam and a reduced scale multi-storey plane frame structure, also laboratory tested, as well as the
theoretical simulated vibration response of a multi-storey concrete frame subjected to seismic excitation.
Additional difficulties presented by field monitoring of large structures are briefly examined at the end of
the paper.