6533b873fe1ef96bd12d4cf1
RESEARCH PRODUCT
Advances in microgeophysics for engineering and cultural heritage
Patrizia CapizziGianluca FiandacaRaffaele MartoranaPietro CosentinoP. Messinasubject
microgeophysics engineering cultural heritage tomography electrical sonic ultrasonic ground penetrating radar (GPR)Construction engineeringField (computer science)law.inventionCultural heritageSafeguardlawSettore GEO/11 - Geofisica ApplicataGeneral Earth and Planetary SciencesElectrical resistivity tomographyRadarCultural artifactBiogeosciencesEnergy sourceGeologydescription
A large number of unconventional investigations have been implemented, tested, and validated in the field of microgeophysics, with the aim being to solve specific diagnostic and/or monitoring problems regarding civil engineering and cultural heritage studies. The investigations were carried out using different tomographic 2D and 3D approaches as well as different energy sources, namely sonic, ultrasonic and electromagnetic (radar) waves, electric potential fields, and infrared thermography. Many efforts have been made to modify instruments and procedures in order to improve the resolution of the surveys as well as to greatly reduce the time of the measurements without any loss of information. The main new methodologies here discussed are the sonic imprint, the global tomographic traveltime, the electrical resistivity tomography, and the control of external films (patinas) grown on stone monuments. The results seem to be very promising and suggest that it is the moment to dedicate time and effort to this new branch of geophysics, so that these methodologies can be used even more to diagnose, monitor, and safeguard not only engineering buildings and large structures but also ancient monuments and cultural artifacts, like pottery, statues, etc..
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2009-06-01 | Journal of Earth Science |