Ultrasonic Array Imaging in Nondestructive Evaluation-Total Focusing Method with Using Circular Coherence Factor
Ultrasonic array imaging algorithms have been widely used and developed in non-destructive evaluation in the last 10 years.In this paper,a widely-used imaging algorithms,Total Focusing Method (TFM),was further developed with using the phase statistical information of the scattering field from a scatterer,i.e.,Circular Coherence Factor (CCF).TFM and TFM with using CCF are compared through both simulation and experimental measurements.In the simulation,array data sets were generated by using a hybrid forward model containing a single defect amongst a multitude of randomly distributed point scatterers to represent backscatter from material microstructure.The number of point scatterers per unit area and their scattering amplitude were optimized to reduce computation cost.The Signal to Noise Ratio (SNR) of the finial images and their resolution were used to indicate the quality of the different imaging algorithms.The images of different types of defect (point reflectors and planar cracks) were used to investigate the robustness of the imaging algorithms.It is shown that,with using CCF,higher image resolution can be achieved,but that the images of cracks are distorted.It is also shown that the detection limit of the imaging algorithms is almost equal for weakly scattering defects.
Ultrasonic Arrays Total Focusing Method Phase Coherent Imaging
Jie Zhang Bruce W. Drinkwater Paul D. Wilcox
Department of Mechanical Engineering, University Walk,University of Bristol, Bristol BS8 1TR, UK
国际会议
2012第八届精密工程测量和仪器仪表国际研讨会(ISPEMI2012)
成都
英文
1-8
2012-08-08(万方平台首次上网日期,不代表论文的发表时间)