Analytical Modeling of Embedded Load Sensing Using Liquid-Filled Capillaries Integrated by Metal Additive Manufacturing

Abstract: Additive manufacturing (AM) offers new manufacturing solutions for the integration of smart functionalities in engineering structures. In this paper, an analytical model is presented for an embedded load sensing element based on a liquid-filled capillary. During the additive manufacturing process, the capillary is integrated in the region where the strain is to be determined. The embedded capillary deforms as the structure deforms under an applied load, as such altering the pressure inside the capillary. The m… Show more

“…The use of embedded channels for SHM purposes, also referred to as the eSHM system, has been presented in the literature before. Hinderdael et al utilized the capability to pressurize the channels inside the AM components to measure deformation and component's usage [8,9]. De Baere et al presented an SHM technology based on the same pressurization principle [10].…”

Structural health monitoring through surface acoustic wave inspection deployed on capillaries embedded in additively manufactured components

“…The use of embedded channels for SHM purposes, also referred to as the eSHM system, has been presented in the literature before. Hinderdael et al utilized the capability to pressurize the channels inside the AM components to measure deformation and component's usage [8,9]. De Baere et al presented an SHM technology based on the same pressurization principle [10].…”

Structural health monitoring through surface acoustic wave inspection deployed on capillaries embedded in additively manufactured components

Evaluation of Additively Manufactured Parts in Disruptive Manner as Deformation Elements for Structural Integrated Force Sensors

Multi-axis Force Sensor for Sensor-integrating Bolts