An Experimental Test Bed for Developing High-Rate Structural Health Monitoring Methods

Date
2018-06-03
Authors
Joyce, Bryan
Dodson, Jacob
Laflamme, Simon
Laflamme, Simon
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Abstract

Complex, high-rate dynamic structures, such as hypersonic air vehicles, space structures, and weapon systems, require structural health monitoring (SHM) methods that can detect and characterize damage or a change in the system’s configuration on the order of microseconds. While high-rate SHM methods are an area of current research, there are no benchmark experiments for validating these algorithms. This paper outlines the design of an experimental test bed with user-selectable parameters that can change rapidly during the system’s response to external forces. The test bed consists of a cantilever beam with electronically detachable added masses and roller constrains that move along the beam. Both controllable system changes can simulate system damage. Experimental results from the test bed are shown in both fixed and changing configurations. A sliding mode observer with a recursive least squares parameter estimator is demonstrated that can track the system’s states and changes in its first natural frequency.

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<p>This article is published as Joyce, Bryan, Jacob Dodson, Simon Laflamme, and Jonathan Hong. "An Experimental Test Bed for Developing High-Rate Structural Health Monitoring Methods." <em>Shock and Vibration </em>2018 (2018): 3827463. DOI: <a href="http://dx.doi.org/10.1155/2018/3827463" target="_blank">10.1155/2018/3827463</a>. Posted with permission.</p>
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