Title :
Electromagnetic non-destructive evaluation of fiberglass/aluminum laminates using HTS SQUID magnetometers
Author :
Bonavolontà, C. ; Pepe, G.P. ; Peluso, G. ; Valentino, M. ; Caprino, G. ; Lopresto, V.
Author_Institution :
Dept. of Phys. Sci., Univ. of Naples "Federico II", Italy
fDate :
6/1/2005 12:00:00 AM
Abstract :
The aerospace and aeronautical industries pay much attention to improve flight safety of the airlines. In aircraft design it is important to couple low structural weight with high damage tolerance. For this reason, a new class of advanced composite materials, named Fiber/Metal Laminates (FML), which combine the best features of organic matrix composites and metals, are used. In this work, a nondestructive evaluation of FML specimens based on an eddy-current technique that uses an HTS SQUID (Superconductive QUantum Interference Device) magnetometer is proposed. The aim is to demonstrate that this technique is capable of detecting the presence of damage hidden by plastic deformation after impact events.
Keywords :
SQUID magnetometers; aerospace materials; aluminium; eddy current testing; glass fibre reinforced composites; laminates; materials testing; FML specimens; HTS SQUID magnetometers; advanced composite materials; aeronautical industry; aerospace industry; aluminum laminates; damage detection; eddy-current technique; electromagnetic nondestructive evaluation; fiber-metal laminates; fiberglass laminates; superconductive quantum interference device magnetometer; Aerospace industry; Aerospace materials; Aerospace safety; Air safety; Aircraft; Aluminum; Composite materials; High temperature superconductors; Laminates; SQUID magnetometers; Fiber/metal laminates; HTS SQUID; NDE;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2005.850021
