Abstract:
This article presents a proof-of-concept system for a wireless, capacitance-based, mechanical overload sensor which uses an agarose hydrogel as the sensing element. Simul...Show MoreMetadata
Abstract:
This article presents a proof-of-concept system for a wireless, capacitance-based, mechanical overload sensor which uses an agarose hydrogel as the sensing element. Simultaneous compression and electrical studies showed that by reliably overloading the hydrogel at large mechanical strains, it fractures, experiencing irreversible changes to its capacitance. This irreversibility can be readily exploited using the hydrogel as the capacitive element of a resonant circuit, as fracturing the hydrogel results in an irreversible shift in the resonant frequency of the circuit. Furthermore, the use of a suitable inductive element for the circuit permits for the wireless interrogation of the system.
Published in: IEEE Transactions on Instrumentation and Measurement ( Volume: 72)