Industrial Applications of Electro-Mechanical Impedance Technique　in Novel Non-Bonded Configurations

摘要

Ease of implementation of any sensor system must involve simple instrumentation techniques along with adequateadaptability to change in specimen configuration. The past decade has witnessed an exponential upsurge in applicationsof piezoelectric transducers in various fields of engineering and biotechnology, whereas sensor types has remained thesame, narrowing its suitability in certain fields. The present research deals with development of two novel piezo sensorconfigurations namely the single clamp non-bonded sensor (SCNS) and re-useable bolted sensor (RBS). The sensor wasdeveloped to accommodate change in dimension and is tested on different specimens based on its design.Fundamentally, SCNS is developed for circular structures such as pipelines and RBS is developed for 2-D plates.Effectiveness of both sensors is tested by mounting it on a specimen based on its design. Damage sensitivity of thesensors was studied by analysing the conductance signatures extracted from the piezo patches based on electromechanicalimpedance (EMI) technique. Repeatability of less than 2% was observed in both cases. At different levels ofdamage created shifts in signatures is observed. A statistical index used to quantify the amount of shift showed a gradualincrease in magnitude corresponding to increase in damage. Similar trends are observed in both sensor data making bothsensors suitable for application. Through the damage sensitivity tests, SCNS and RBS its proved viability for applicationin field studies. However, it might be noted that all tests were conducted in controlled environments of temperature andpressure and negating its effects by application of correction factors must be carried out for field application.