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Multi-axis Force Sensor for Sensor-integrating Bolts

Felix Herbst, Romol Chadda, Claas Hartmann, Julian Peters, David Riehl, Thomas Gwosch, Klaus Hofmann, Sven Matthiesen, Mario Kupnik

20222022 IEEE Sensors14 citationsDOI

Abstract

We present a multi-axis force sensor capable of measuring both axial forces and bending moments that is integrable into a cavity within a M20 bolt. This cavity, which reduces the resilience of the bolt by 23.5 %, and, thus, corresponds to a reduction by only one strength class, is designed by conducting a finite element analysis. The force sensor featuring a diameter of 13.9 mm and a length of 19.5 mm is based on a deformation body that consists of three beams. The manufactured deformation body is applied with one strain gauge on each of the inner and outer beam surface providing a half-bridge configuration for each beam. Measurements when loading the force sensor solely with a bending load of 75 Ncm and an axial load of 100 N show low linearity errors of ±0.4 % and ±1.1 % for those load cases. Furthermore, decoupling of various loads from different load cases is achieved with a maximum error of 3.1 %. These results confirm that the force sensor developed is suitable for integration in bolts to detect faults in bolt connections due to multi-axis loads at an early stage, and, thus, increase safety of machinery and plants.

Topics & Concepts

Strain gaugeStructural engineeringDecoupling (probability)Bending momentDeformation (meteorology)CantileverFinite element methodBeam (structure)BendingMaterials scienceLinearityAcousticsEngineeringPhysicsComposite materialElectrical engineeringControl engineeringAdvanced Sensor Technologies ResearchUltrasonics and Acoustic Wave PropagationNon-Destructive Testing Techniques
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