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Defining the Optimal Beam Hardening Correction Parameters for CT Dimensional Metrology Applications

Boekbijdrage - Boekhoofdstuk Conferentiebijdrage

Recently, X-ray CT technology has entered the application field of dimensional metrology, as alternative to tactile and optical 3D coordinate measuring techniques. Nevertheless, the measurement quality of industrial CT machines is affected by many parameters and phenomenon, among which beam hardening plays a crucial role. It has been proven that the accuracy and uncertainty of CT dimensional measurements is largely influenced by the applied beam hardening correction method. As a routine procedure in industry, the beam hardening effect is corrected by applying hardware pre-filtration complemented with a software correction that implies linearization using predefined polynomial fitting curves. This correction method can largely eliminate beam hardening artifacts e.g. cupping effect and streaks. However, measurement results reveal that the effectiveness of such method is closely related to the selected X-ray power and hardware filter. Over-correction often occurs with inappropriate machine settings, which results in dimensional errors. This paper investigates the correlation between X-ray power, filter and beam hardening correction parameters, and aims at establishing a procedure for defining the optimal beam hardening correction parameters for CT dimensional metrology applications.
Boek: International Conference on Competitive Manufacturing
Pagina's: 137 - 143
Jaar van publicatie:2013
Toegankelijkheid:Open