An acoustic emission approach to the structural health monitoring of historical metallic tie-rods

Abstract

The application of Non-Destructive testing and Structural Health Monitoring systems in historical buildings is of great interest and actuality due to the need to guarantee safety and conservation. The present memory focuses on the case study of the historical wrought iron tie-rods of Duomo di Milano, Italy. In recent years, two of these elements presented critical failures, making necessary the replacement. Consequently, a monitoring methodology, based on acoustic emission, was defined. First, the fracture toughness of historical wrought iron was experimentally characterized by employing standard small scale specimens taken from one of the failed tie-rods. At the same time, acoustic emission was acquired to define a methodology for detecting and localizing the events due to damage in the material, separating those due to background noise by applying suitable pattern recognition algorithms. Subsequently, a tensile test was performed on a full scale section of the same tie-rod. Before and after the test, phased-array ultrasonic testing and magnetic particles inspections were carried out to identify and map defects and their possible development due to load application. From the analysis, it was possible to conclude that magnetic inspections allow identifying the presence of surface defects effectively, phased-array ultrasonic testing allows to estimate the geometry of the defect accurately and acoustic emission has proved to be a promising technique for monitoring the structural integrity of in-service historical metallic tie-rods. EWGAE 35, Ljubljana, Slovenia, 13th – 16th Sep. www.ewg