An experimental investigation on the accuracy of dynamically determined tensile force in tie‐rods by applying the interferometric radar technique was performed. Tie‐rods were used in historical masonry constructions for absorbing thrusts of arches and vaults, and the radar interferometry may represent a fast and easy non‐destructive approach for the tensile force identification in the occasion of structural assessments. Laboratory dynamic tests on a cable under a known tensile force show that, provided that a suitable dynamic identification model is used, tensile force evaluations made stating from interferometric radar measurements were characterized by a very good accuracy (mean error in the tensile force estimation less than 2%), comparable with evaluations made starting from accelerometric measurements. In particular, the dynamic identification model considered is a modified version of a model proposed in the literature. The influence on the accuracy in the determination of the tensile force of some features of the experimental setup, like, e.g., the employ of corner reflectors, is discussed.
Dynamic Identification of Tensile Force in Tie-Rods by Interferometric Radar Measurements / Camassa, Domenico; Castellano, Anna; Fraddosio, Aguinaldo; Miglionico, Giuseppe; Piccioni, Mario Daniele. - In: APPLIED SCIENCES. - ISSN 2076-3417. - ELETTRONICO. - 11:8(2021). [10.3390/app11083687]
Dynamic Identification of Tensile Force in Tie-Rods by Interferometric Radar Measurements
Camassa, Domenico;Castellano, Anna;Fraddosio, Aguinaldo
;Piccioni, Mario Daniele
2021-01-01
Abstract
An experimental investigation on the accuracy of dynamically determined tensile force in tie‐rods by applying the interferometric radar technique was performed. Tie‐rods were used in historical masonry constructions for absorbing thrusts of arches and vaults, and the radar interferometry may represent a fast and easy non‐destructive approach for the tensile force identification in the occasion of structural assessments. Laboratory dynamic tests on a cable under a known tensile force show that, provided that a suitable dynamic identification model is used, tensile force evaluations made stating from interferometric radar measurements were characterized by a very good accuracy (mean error in the tensile force estimation less than 2%), comparable with evaluations made starting from accelerometric measurements. In particular, the dynamic identification model considered is a modified version of a model proposed in the literature. The influence on the accuracy in the determination of the tensile force of some features of the experimental setup, like, e.g., the employ of corner reflectors, is discussed.File | Dimensione | Formato | |
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