Özet:

The magnetic fluid flow method is one of the non-destructive testing methods used for the purpose of detection of defects such as fractures, hole, corrosion formed in materials with ferromanyetic characteristics. Signs taken from magnetic flow sensors identify the defects in the material structure tested, but also contain noise components. The amount and nature of noise differ according to the test system and the material structure. As a result of an inappropriate filtration process, the signals that represent the defects, disappear or lose meaning in the noise. This study examines the effectiveness of wave conversion and repeated gauss filtration methods on the signs received by the magnetic fluid flow method. In order to produce magnetic fluid signals, ANSYS Maxwell has designed magnetic test systems in the comparison environment. As a test material, a steel plate with 3 artificial defects of different sizes was used. On the signs taken from the magnetic system, separate wave conversion and repeated Gauss fitrages were applied. Signal disorders and symmetrical disorders on the filtered signs have been studied by addressing. According to the results of the experiment, on magnetic fluid flow signs, the repeated Gauss fitrage produces more successful results than the wave transformation methods.

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