Aircraft are composed of numerous pieces of aluminum attached together using thousands of fasteners. Many of these fastener holes must be painstakingly inspected to ensure there are no cracks. Eddy current (EC) rotary scanner technology is commonly used by the aerospace industry for this type of crack detection.
With many of the eddy current flaw detectors used on the market today, a certain amount of filter adjustment is necessary to attain a clear signal. Operators may not fully understand the importance of filters to scanner operation and adjustment required during operations.
Filter adjustment is often overlooked during bolt inspections. It can take a lot of trial and error to obtain the proper high-pass and low-pass filter settings. Furthermore, if the scan speed changes, these filter settings may not result in the optimum signal and introduce unwanted noise. An operator’s skill level, as well as the differences between the instruments used during inspection, can greatly vary the results obtained.
NORTEC® 600 Flaw Detector: Easy and Consistent Rotary Bolthole Inspection
The NORTEC 600 eddy current flaw detector offers a solution to the time issues and consistency problems commonly experienced with fastener and bolt hole inspection. The advanced features of this EC flaw detector make it easy to use and help with filter adjustment.
The NORTEC 600 flaw detector has an application selection menu that includes a predefined factory setting for bolt hole inspection. All the parameters needed to obtain clear signals and the desired figure 6 or figure 8 signal shape can be selected without any filter adjustment. Using these preset filter settings provides consistent results between operators, so skill level is less of a factor. In addition, the instrument is equipped with a LINK function that automatically adjusts the filter settings if the scan speed changes.
These (l to r) screen captures illustrate how, when the RPM speed changes, the LINK function automatically adjusts the HI PASS and LO PASS filters without any significant signal change. |
Key Benefits
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