The near-field millimeter-wave imaging technique, as has been de- scribed in this paper, is capable of providing useful information about the presence and properties of a tight surface-breaking exposed and covered fatigue crack in metals.
Jul 1, 2009
May 19, 2009 · In this paper, the efficacy of near-field millimeter-wave nondestructive techniques, using open-ended flange-mounted rectangular waveguide ...
In this paper, the efficacy of near-field millimeter-wave nondestructive techniques, using open-ended flange-mounted rectangular waveguide probes, ...
In this paper, the efficacy of near-field millimeter-wave nondestructive techniques, using open-ended flange-mounted rectangular waveguide probes, ...
Zoughi, “Near-field Millimeter Wave imaging of Exposed and Covered Fatigue Cracks,” IEEE Transactions on Instrumentation and Measurement, vol. 58, no. 7, pp ...
Zoughi, 2009, “Near-field Millimeter Wave Imaging of Exposed and Covered Fatigue Cracks,” IEEE Transactions on Instrumentation and Measurement, Vol. 58, No ...
Conventional MFL imaging techniques suffer in crack characterization such as sizing in the situations where defects take place on the near and far surfaces of ...
Robust detection of surface-breaking (fatigue) cracks in metals with severe surface corrosion (rust) and pitting is of great practical interest.
A remote, non-contact, non-destructive inspection method that can inspect cracks as small as 0.1 mm on the surface of a structure and damage inside and on the ...
In this article, we introduce millimeter-wave imaging technology for detecting submillimeter-wide cracks under a bill-posting prevention sheet on a concrete ...