[1] DRINKWATER B W, WILCOX P D. Ultrasonic arrays for non-destructive evaluation:A review[J].NDT & E International, 2006, 39(7):525-541. [2] WILCOX P D, HOLMES C, DRINKWATER B W. Advanced reflector characterization with ultrasonic phased arrays in NDE applications[J].IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 2007, 54(8):1541-1550. [3] SONG S J, SHIN H J, JANG Y H. Development of an ultrasonic phased array system for non-destructive tests of nuclear power plant components[J].Nuclear Engineering Design, 2002, 214(1-2):151-161. [4] 杨平, 郭景涛, 施克仁, 等. 超声相控阵二维面阵实现三维成像研究进展[J].无损检测, 2007, 29(4):177-180, 184. YANG P, GUO J T, SHI K R, et al. Progress in 3D imaging by 2D phased array[J].Nondestructive Testing, 2007, 29(4):177-180, 184(in Chinese). [5] 赖溥祥, 张碧星, 汪承灏. 环形相控阵换能器辐射和反射声场[J].声学学报, 2007, 32(3):212-220. LAI P X, ZHANG B X, WANG C H. Radiation and reflection acoustical fields of an annular phased array[J].Acta Acustica, 2007, 32(3):212-220(in Chinese). [6] HAZARD C R, FISHER R A, MILLS D M, et al. Annular array beamforming for 2D arrays with reduced system channels[C]//Proceedings of the IEEE Ultrasonics Symposium, 2003:1859-1862. [7] 沙正骁, 梁菁, 李彦. 基于超声环阵相控阵的变孔径聚焦检测技术[J].失效分析与预防, 2019, 14(2):84-89, 95. SHA Z X, LIANG J, LI Y. Vari-aperture focusing inspection technique based on ultrasonic annular phased array[J].Failure Analysis and Prevention, 2019, 14(2):84-89, 95(in Chinese). [8] LANE C J L, DUNHILL A K, DRINKWATER B W, et al. The inspection of anisotropic single-crystal components using a 2-D ultrasonic array[J].IEEE Transaction on Ultrasonics, Ferroelectrics, and Frequency Control, 2010, 57(12):2742-2752. [9] KOLKOORI S R, RAHMAN M U, CHINTA P K, et al. Ultrasonic field profile evaluation in acoustically inhomogeneous anisotropic materials using 2D ray tracing model:Numerical and experimental comparison[J].Ultrasonics, 2013, 53(2):396-411. [10] PORTZGEN N, GISOLF D, BLACQUIERE G. Inverse wave field extrapolation:A different NDI approach to imaging defects[J].IEEE Transaction on Ultrasonics, Ferroelectrics, and Frequency Control, 2007, 54(1):118-127. [11] SCHMERR L W. Fundamentals of ultrasonic phased arrays[M]. New York:Springer International Press, 2015:31-40. [12] HOLMES C, DRINKWATER B W, WILCOX P D. Post-processing of the full matrix of ultrasonic transmit-receive array data for non-destructive evaluation[J].NDT & E International, 2005, 38(8):701-711. [13] YAN D, SUTCLIFFE M, WRIGHT B, et al. Ultrasonic imaging of full matrix capture acquired data for carbon fibre-reinforced polymer[J].Insight, 2013, 55(9):477-481. [14] HUNTER A J, DRINKWATER B W, WILCOX P D. The wavenumber algorithm for full-matrix imaging using an ultrasonic array[J].IEEE Transaction on Ultrasonics, Ferroelectrics, and Frequency Control, 2008, 55(11):2450-2462. [15] VELICHKO A, WILCOX P D. Reversible back-propagation imaging algorithm for post processing of ultrasonic array data[J].IEEE Transaction on Ultrasoics, and Frequency Control, Ferroelectrics, and Frequency Control, 2009, 56(11):2492-2503. [16] LI C, PAIN D, WILCOX P D, et al. Imaging composite material using ultrasonic arrays[J].NDT & E International, 2013, 53:8-17. [17] 王华明. 高性能大型金属构件激光增材制造:若干材料基础问题[J].航空学报, 2014, 35(10):2690-2698. WANG H M. Materials' fundamental issues of laser additive manufacturing for high-performance large metallic components[J].Acta Aeronautica et Astronautica Sinica, 2014, 35(10):2690-2698(in Chinese). [18] ZELTMANN S E, GUPTA N, TSOUTSOS N G, et al. Manufacturing and security challenges in 3D printing[J].JOM, 2016, 68(7):1872-1881. [19] 周正干, 李文涛, 李洋, 等. 相控阵超声水浸C扫描自动检测系统的研制[J].机械工程学报, 2017, 53(12):28-34. ZHOU Z G, LI W T, LI Y, et al. Development of ultrasonic phased array immersion C-scan automatic detection system[J].Journal of Mechanical Engineering, 2017, 53(12):28-34(in Chinese). [20] SUTCLIFFE M, WESTON M, DUTTON B, et al. Real-time full matrix capture for ultrasonic non-destructive testing with acceleration of post-processing through graphic hardware[J].NDT & E International, 2012, 51:16-23. |