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[21] .Bao Yue, Liu Xiandong(*), Shan Yingchun, et al. Convergence performance of flexural wave in the unconventional acoustic black hole. Mathematics and Mechanics of Solids, 2023, 28（6): 1382-1400.
[22] .Liang Haoming, Liu Xiandong(*), Yuan Jiakai, et al. Influence of Acoustic Black Hole Array Embedded in a Plate on Its Energy Propagation and Sound Radiation. Applied Sciences, 2022, 12(3): 1325.
[23] .Liu Xiandong(*), Zhao Wei, Hu Xiaojun,Shan Yingchun, Tian He. Research on the Resonance Frequency Splitting Mechanism and Novel Modal Characteristics of a Rotating Tire Acoustic Cavity. Journal of Vibration and Control, 2023, 29(9-10):2172-2183.
[24] .Wang Xiaoran, Liu Xiandong, He Tian(*), Xiao Denghong, Shan Yingchun. Structural damage acoustic emission information enhancement through acoustic black hole mechanism. Meaurement, 2022, 190:110673
[25] .Hu Xiaojun,Liu Xiandong(*), Shan Yingchun, He Tian. Research on Split and Evolution of Acoustic Cavity Resonance Frequency of Rotating Loaded Tire. Journal of Vibration and Control, 2023, 29(1-2):466-478.
[26] .Zhao Wei, Liu Yuting Liu, Liu Xiandong(*), Shan Yingchun, Hu Xiaojun. Analysis of Tire Acoustic Cavity Resonance Energy Transmission Characteristics in Wheels Based on Power Flow Method. Appl. Sci. 2021, 11, 3979.
[27] .Zhang Yue, Shan, Yingchun, Liu Xiandong(*), He Tian. An integrated multi-objective topology optimization method for automobile wheels made of lightweight materials. Structural and Multidisciplinary Optimization, 2021,64(3):1585-1605.
[28] .Hu Xiaojun, Liu Xiandong(*), Shan, Yingchun, He Tian. Simulation and Experimental Validation of Sound Field in a Rotating Tire Cavity Arising from Acoustic Cavity Resonance. Applied Sciences, 2021, 11(3): 1121.
[29] .Tai Junfei, Liu Xiandong, Wang Xiaoran, Shan Yingchun, He Tian(*). An adaptive localization method of simultaneous two acoustic emission sources based on energy filtering algorithm for coupled array signal. Mechanical Systems and Signal Processiong, 2021, 154: 107557.
[30] .Liu Yuting, Liu Xiandong(*), Shan Yingchun, Hu Xiaojun, Yi Jiajing. Research on mechanism and evolution features of frequency split phenomenon of tire acoustic cavity resonance. Journal of Vibration and Control, 2021, 27(3-4): 343-355.

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