4.7 Article

Synchronous detection of bolts looseness position and degree based on fusing electro-mechanical impedance

Journal

MECHANICAL SYSTEMS AND SIGNAL PROCESSING
Volume 174, Issue -, Pages -

Publisher

ACADEMIC PRESS LTD- ELSEVIER SCIENCE LTD
DOI: 10.1016/j.ymssp.2022.109068

Keywords

Bolt looseness detection; Electro-mechanical impedance; Frequency shift; Multi-frequency ranges

Funding

  1. National Natural Science Foundation of China [51935003]
  2. National Defense Basic Sci-entific Research Program of China [JCKY2019203B031]

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This article introduces an EMI detection method based on fusing multi-frequency ranges to detect the position and degree of looseness of bolts synchronously. The method uses impedance shift as a damage index and has been verified to have high accuracy in detecting the loosening status of bolts.
Looseness is the most common form of failure in bolt connections, which can cause safety accidents by reducing the rigidity of the structural connection, and the detection of bolt looseness is vital to maintain the health of the structure. However, due to the limitations of existing methods, it is difficult to detect the position of loose bolt and degree of looseness synchronously. In this study, an Electro-mechanical impedance (EMI) detection method based on fusing multi-frequency ranges was proposed. Firstly, the feasibility of bolt looseness detection based on EMI technology was analyzed through theoretical deduction; secondly, the qualitative relationship between excitation frequency and detection range was explored through finite element simulation, which provides a basis for the proposed fusing multi-frequency ranges method, and the conclusion was verified in four-bolted flange structure; finally, a detection method for bolt looseness was proposed, which uses the impedance shift as the damage index, and detect the position of loose bolt and degree of looseness synchronously by fusing EMI in multiple frequency ranges. The verification results show that the proposed method can identify the loosening status of bolts in the flange structure with high accuracy.

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