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[7] 罗宏建, 周重回, 王炯耿, 等. 铝制焊接容器超声导波成像检
6 结论测 [J]. 应用声学, 2014, 33(6): 520–527.
Luo Hongjian, Zhou Chonghui, Wang Jionggeng, et al.
具有更长声束路径的高阶半跨模式波能够有 Ultrasonic guided waves imaging testing on aluminum
效避免薄板焊缝余高对探头和楔块布置的限制，缺 welded shell[J]. Journal of Applied Acoustics, 2014, 33(6):
520–527.
陷表征质量优于常规半跨模式波。仿真和实验结
[8] 张碧星, 张萍, 阎守国, 等. 超声成像检测研究进展 [J]. 陕西
果表明，采用高阶半跨模式波能够重建厚度 6 mm、师范大学学报 (自然科学版), 2022, 50(6): 1–16.
有无余高铝合金板的根部缺陷轮廓，且缺陷高度定 Zhang Bixing, Zhang Ping, Yan Shouguo, et al. Re-
search progress of ultrasonic imaging detection[J]. Journal
量误差不超过 5.0%。同时，根部缺陷成像表征所用
of Shaanxi Normal University (Natural Science Edition),
的高阶半跨模式波种类与待测板材厚度直接相关， 2022, 50(6): 1–16.
板材越厚，适用的半跨模式波阶数越低。对于厚度 [9] 付磊, 韩军, 龙晋桓. 金属增材制件的超声无损检测与评价研
8 mm与10 mm的铝合金板，高度3.0 mm缺陷的高究进展 [J]. 应用声学, 2023, 42(2): 434–442.
Fu Lei, Han Jun, Long Jinhuan. Applicationof ultrasonic
阶半跨模式波测量误差分别不超过 5.0% 和 4.0%。
nondestructive testing and evaluation on metal additive
最后，对于复杂或不规则的缺陷，未来考虑到常规模 manufacture parts[J]. Journal of Applied Acoustics, 2023,
式与高阶模式的传播特征，可以发展将两种模式进 42(2): 434–442.
[10] Yacef N, Bouden T, Grimes M. Accurate ultrasonic mea-
行融合的成像方法，充分利用各自的优势实现缺陷
surement technique for crack sizing using envelope detec-
轮廓表征与定量检测。 tion and diﬀerential evolution[J]. NDT & E International,
2019, 102: 161–168.
参考文献 [11] Mirmahdi E, Afshari D, Karimi I M. A review of ultrasonic
testing applications in spot welding: Defect evaluation
[1] 韩梦, 尹嘉雯, 黄军科, 等. 铝合金板疲劳微裂纹超声红外成像
in experimental and simulation results[J]. Transactions of
检测的数值及实验研究 [J]. 应用声学, 2022, 41(5): 727–734.
the Indian Institute of Metals, 2023, 76(6): 1381–1392.
Han Meng, Yi Jiawen, Huang Junke, et al. A com-
[12] Zhang B X, Wang C H, Lai P X. Theoretical and ex-
plrehensive numerical and experimental study on detect-
perimental investigation of ultrasonic focusing with annu-
ing fatigue microcrack in aluminum alloy plate by vibro-
lar phased array[J]. Chinese Physics Letters, 2006, 23(4):
thermography[J]. Journal of Applied Acoustics, 2022,
875–878.
41(5): 727–734.
[13] Fan C G, Caleap M, Pan M C, et al. A comparison be-
[2] Ponomarev K E, Stroganov A M, Strelnikov I V. Develop-
tween ultrasonic array beamforming and super resolution
ment of technology for soldering small-diameter pipelines
imaging algorithms for non-destructive evaluation[J]. Ul-
from aluminum alloys and dissimilar materials[J]. Solar
trasonics, 2014, 54(7): 1842–1850.
System Research, 2020, 54(7): 730–734.
[3] 唐军, 陈小静, 赵波. 微织构超声振动铣削系统的研究 [J]. 应 [14] 孙宝申. 合成孔径成像的应用及发展 [J]. 应用声学, 2018,
37(5): 787–793.
用声学, 2020, 39(6): 885–893.
Tang Jun, Chen Xiaojing, Zhao Bo. A research on the mi- Sun Baoshen. Applications and development of synthetic
cro texture ultrasonic vibration milling system[J]. Journal aperture imaging[J]. Journal of Applied Acoustics, 2018,
of Applied Acoustics, 2020, 39(6): 885–893. 37(5): 787–793.
[4] 金士杰, 王志诚, 田鑫, 等. 基于半跨模式波的铝合金板底面 [15] 李文涛, 周正干, 李洋. 环形阵列超声换能器的全聚焦成像方
缺陷 TOFD 检测 [J]. 航空学报, 2023, 44(4): 231–239. 法及其应用 [J]. 航空学报, 2020, 41(10): 385–393.
Jin Shijie, Wang Zhicheng, Tian Xin, et al. TOFD detec- Li Wentao, Zhou Zhenggan, Li Yang. Total focusing
tion of bottom defects in aluminum alloy plate by half-skip method of ultrasonic annular array and its application[J].
mode wave[J]. Acta Aeronautica et Astronautica Sinica, Acta Aeronautica et Astronautica Sinica, 2020, 41(10):
2023, 44(4): 231–239. 385–393.
[5] Santos L H, Sousa W P T, de Dafé S S F, et al. Mi- [16] 周进节, 郑阳, 张宗健, 等. 缺陷散射对相控阵超声全聚焦成
crostructural characterization and mechanical behavior 像的影响研究 [J]. 仪器仪表学报, 2017, 38(2): 454–461.
analysis of 7075-T6 aluminum subjected to simulated Zhou Jinjie, Zhen Yang, Zhang Zongjian, et al. Research
lightning strikes[J]. Chinese Journal of Aeronautics, 2021, on the eﬀect of defect scattering on phased array ultra-
34(12): 39–50. sonic TFM imaging[J]. Chinese Journal of Science Instru-
[6] 金士杰, 田鑫, 林莉. 铝合金薄板搅拌摩擦焊超声检测研究进 ment, 2017, 38(2): 454–461.
展 [J]. 材料工程, 2022, 50(8): 45–59. [17] Zhang J, Drinkwater B W, Wilcox P D, et al. Defect
Jin Shijie, Tian Xin, Lin Li. Research progress in ultra- detection using ultrasonic arrays: The multi-mode total
sonic testing for friction stir welding of aluminum alloy[J]. focusing method[J]. NDT & E international, 2010, 43(2):
Journal of Materials Engineering, 2022, 50(8): 45–59. 123–133.

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