Civil Engineering Departmental Seminar - Structural Self-Sensing Provided by Measuring the Resistance, Capacitance or Inductance of the Structural Material, Without Sensor Incorporation

Structural Self-Sensing Provided by Measuring the Resistance, Capacitance or Inductance of the Structural Material, Without Sensor Incorporation

Structural self-sensing refers to a structural material sensing its own condition without sensor incorporation. Compared to sensor incorporation, advantages include low cost, high durability, large sensing volume and the mechanical properties being not degraded. The self-sensing ability makes the structural material multifunctional. Structural selfsensing involving resistance measurement has been studied for decades, but recent work by the speaker has extended it from resistance measurement to capacitance or inductance measurement. Resistance or inductance measurement is applicable only to conductive materials. However, capacitance measurement is broadly applicable to both conductive and nonconductive materials. The dielectric behavior of nonconductive materials is well-known, but that of conductive materials involves new science, which hinges on the interaction of a small fraction of the charge carriers with the atoms, particularly those that are at heterogeneities. The effect of strain or damage on the resistivity is the basis of strong resistance-based sensing. The effect of strain or damage on the permittivity is the main basis of strong capacitance-based sensing. The effect of the electrical connectivity, surface roughening or shape change on the inductance is the main basis of inductance-based sensing.