Antenna sensor skin for fatigue crack detection and monitoring

This paper presents a flexible low-profile antenna sensor for fatigue crack detection and monitoring. The sensor was inspired by the sense of pain in bio-systems as a protection mechanism. Because the antenna sensor does not need wiring for power supply or data transmission, it is an ideal candidate as sensing elements for the implementation of engineering sensor skins with a dense sensor distribution. Based on the principle of microstrip patch antenna, the antenna sensor is essentially an electromagnetic cavity that radiates at certain resonant frequencies. By implementing a metallic structure as the ground plane of the antenna sensor, crack development in the metallic structure due to fatigue loading can be detected from the resonant frequency shift of the antenna sensor. A monostatic microwave radar system was developed to interrogate the antenna sensor remotely. Fabrication and characterization of the antenna sensor for crack monitoring as well as the implementation of the remote interrogation system are presented.

[1]  Ya-Peng Shen,et al.  The effect of inhomogeneous initial stress on Love wave propagation in layered magneto-electro-elastic structures , 2008 .

[2]  F. Chang,et al.  Detection and monitoring of hidden fatigue crack growth using a built-in piezoelectric sensor/actuator network: I. Diagnostics , 2004 .

[3]  Haiying Huang,et al.  Wireless interrogation of passive antenna sensors , 2010 .

[4]  Jerome P. Lynch,et al.  Carbon Nanotube Sensing Skins for Spatial Strain and Impact Damage Identification , 2009 .

[5]  Victor Giurgiutiu,et al.  Embedded-ultrasonics Structural Radar for In Situ Structural Health Monitoring of Thin-wall Structures , 2004 .

[6]  Jennifer M. English,et al.  A flexible, self-healing sensor skin , 2006 .

[7]  Lieven Lagae,et al.  Novel frameshift and splice site mutations in the neurotrophic tyrosine kinase receptor type 1 gene (NTRK1) associated with hereditary sensory neuropathy type IV , 2006, Neuromuscular Disorders.

[8]  Jerome P. Lynch Design of a wireless active sensing unit for localized structural health monitoring , 2005 .

[9]  Clifford J. Woolf,et al.  Nociceptors—Noxious Stimulus Detectors , 2007, Neuron.

[10]  Darrell E. Schlicker,et al.  MWM eddy current sensors for monitoring of crack initiation and growth during fatigue tests and in service , 2001 .

[11]  Guo Yan,et al.  Sensitive Skin and the Relative Sensing System for Real-time Surface Monitoring of Crack in Civil Infrastructure , 2006 .

[12]  M. Hilz,et al.  Inherited autonomic neuropathies. , 2003, Seminars in neurology.