Litcius/Paper detail

Large-Area Resistive Strain Sensing Sheet for Structural Health Monitoring

Levent E. Aygün, Vivek Kumar, C.V. Weaver, Matthew J. Gerber, S. Wagner, Naveen Verma, Branko Glišić, James C. Sturm

2020Sensors47 citationsDOIOpen Access PDF

Abstract

Damage significantly influences response of a strain sensor only if it occurs in the proximity of the sensor. Thus, two-dimensional (2D) sensing sheets covering large areas offer reliable early-stage damage detection for structural health monitoring (SHM) applications. This paper presents a scalable sensing sheet design consisting of a dense array of thin-film resistive strain sensors. The sensing sheet is fabricated using flexible printed circuit board (Flex-PCB) manufacturing process which enables low-cost and high-volume sensors that can cover large areas. The lab tests on an aluminum beam showed the sheet has a gauge factor of 2.1 and has a low drift of 1.5 μ ϵ / d a y . The field test on a pedestrian bridge showed the sheet is sensitive enough to track strain induced by the bridge's temperature variations. The strain measured by the sheet had a root-mean-square (RMS) error of 7 μ ϵ r m s compared to a reference strain on the surface, extrapolated from fiber-optic sensors embedded within the bridge structure. The field tests on an existing crack showed that the sensing sheet can track the early-stage damage growth, where it sensed 600 μ ϵ peak strain, whereas the nearby sensors on a damage-free surface did not observe significant strain change.

Topics & Concepts

Structural health monitoringStrain gaugeResistive touchscreenMaterials scienceDelamination (geology)Strain (injury)Structural engineeringComposite materialAcousticsElectrical engineeringEngineeringGeologyInternal medicineSubductionTectonicsMedicinePaleontologyPhysicsStructural Health Monitoring TechniquesAdvanced Fiber Optic SensorsSmart Materials for Construction