[1]Xiang-hong Wang, Huibing Yang,Sheng Yang, Hongwei Hu, Xiaoqiang Xu,Duo Lyung. Non-Linear Ultrasonic Testing of the Long-Period Stacking Ordered Phase Volume Fraction in Magnesium Alloys. Insight,2023,65(5):254-261. [2]Xiang-hong Wang, Zezhong He,Jun Liu, Xiaoqiang Xu,Hongwei Hu. Binocular vision vibration measurement based on pixel coordinate matching of inner corner points in a chequerboard. Insight, 2023,65(8). [3]Xianghong Wang, Hong Xie, Yonggang Tong, Bin Wang, Hongwei Hu. Three-point bending properties of 3D_C/C_TiC_Cu composites based on acoustic emission technology, Mechanical Systems and Signal Processing,2023, 184:109693. [4]Xianghong Wang, Huanhuan He, Wei Xie, Hongwei Hu. Effect of Pore Morphology of Composites on Ultrasonic Attenuation Coefficient Based on Fractal Theory. Russian Journal of Nondestructive Testing,2022,58(9): 289–300.https://doi.org/10.1134/S1061830922040106 [5]Xianghong Wang, Chenglong He, Huanhuan He, Wei Xie. Simulation and experimental research on nonlinear ultrasonic testing of composite material porosity, Applied Acoustics, 2022,188(1):108528. [6]Xianghong Wang,Jun Liu,Zhimi Luo,Hongwei Hu. Influence of different crack factors on acoustic wave signals using orthogonal analysis, Materials Evaluation, 2021, 79(2):136-148 [7]Xianghong Wang,Sheng Yang,Xiaojie Zhou, Hongwei Hu. Volume fraction detection of long period stacking ordered phases in Mg alloys based on dual-tree complex wavelet packet transform, Russian Journal of Nondestructive Testing,2021,57(4):281-290 [8]Xianghong Wang* , Chenglong He, Hongwei Hu, Wei Xie. Preliminary research on nonlinear ultrasonic detection of porosity of porous materials based on dynamic wavelet fingerprint technology, Sensors 2019, 19(15), 3328; https://doi.org/10.3390/s19153328 [9]Xiaoli Tang,Xianghong Wang*, R Cattley, Fengshou Gu, Andrew D. Ball. Energy Harvesting Technologies for Achieving Self-Powered Wireless Sensor Networks in Machine Condition Monitoring: A Review. Sensors 2018, 18(12), 4113 [10]Xianghong Wang* , Zhimin Luo, Hongwei Hu, Hanling Mao. Extraction of weak crack signals based on sparse code shrinkage combined with wavelet packet filtering. Applied Acoustics, 2016, 112(11): 53-58.(SCI) [11]王向红*,尹东,胡宏伟,毛汉领.基于小波包和独立分量分析的微弱多源故障声发射信号分离上海交通大学学报, 2016, 50(5): 757-763.(EI) [12]王向红,向建军,胡宏伟,谢炜,毛汉领.基于声发射信号衰减特性的材料成分分数检测.仪器仪表学报, 2015,36(2):453-458(EI) [13]Xianghong Wang, Jianjun Xiang, Hongwei Hu, Wei Xie, Xiongbing Li. Acoustic emission detection for mass fractions of materials based on wavelet packet technology. Ultrasonics, 2015, 60(7):27-32.(SCI) [14]王向红*,罗志敏,胡宏伟,尹艳山,毛汉领.裂纹长度和位置影响下声发射信号传播特性,仪器仪表学报,2015,36(12):72-78. [15]Xianghong Wang*, Hanling Mao,Hongwei Hu,Zhiyong Zhang. Crack localization in hydraulic turbine blades based on kernel independent component analysis and wavelet neural network, International Journal of Computational Intelligence Systems, 2013,6(6):1116-1124..(SCI) [16]王向红,胡宏伟,张志勇,毛汉领.微弱裂纹信号的稀疏编码提取,振动工程学报,2013,26(3):311-317. [17]X.H. Wang, C.M. Zhu, H.L. Mao, Z.F. Huang. Wavelet packet analysis for the propagation of acoustic emission signals across turbine runners, NDT & E International 2009, 42(1), 42-46. (SCI: 000261991200008, EI: 20084911764287) [18]WANG Xiang-hong,ZHU Chang-ming, MAO Han-ling, HUANG Zhen-feng. Feasibility analysis for monitoring fatigue crack in hydraulic turbine blades using acoustic emission, Journal of Central South University of Technology, 2009, 16(3):444-450.(SCI: 000266781000019,EI: 20092912191334) [19]X H Wang,H L Mao, C M Zhu and Z F Huang.Damage Localization in Hydraulic Turbine Blades using Kernel Independent Component Analysis and Support Vector Machines, Proceedings of the Institution of Mechanical Engineers, Part C, Journal of Mechanical Engineering Science 2009, 223(2), 525-529. (SCI: 000263926100022,EI: 20091211966908) [20]Xianghong Wang,Changming Zhu, Hanling Mao and Zhenfeng Huang. Sounding out fatigue cracks,International Water Power and Dam Construction, 2009,61(1):40-41. (EI: 20101112772007) [21]Xiang-hong Wang, Hong-wei Hu, Yi-min Shao, Jun-qin Fu.The distance attenuation of acoustic emission signals in turbine runners. Applied Mechanics and Materials, Vol103:262-267.(EI) [22]Xiang Hong Wang, Hong Wei Hu, Zhi Yong Zhang. Attenuation of acoustic emission signals in structural interfaces. Advanced Materials Research, Vol.569:343-346.(EI) [23]Xiang-hong Wang, Yi-min Shao, Hong-wei Hu, Jun-qin Fu. Denoising method for cracks of Hydraulic turbine blades based on independent component analysis. The 2010 Sixth International Conference on Natural Computation. 2010,Vol3: 1419-1422.(EI:20104613375518) [24]王向红,朱昌明,毛汉领,黄振峰.基于核主成分分析及支持向量机的水轮机叶片裂纹源定位,振动与冲击,2010,29(11):226-229,264.(EI:20110113551707) [25]王向红,朱昌明,毛汉领,黄振峰.基于小波神经网络的水轮机叶片裂纹源的定位技术,上海交通大学学报.2008,42(8):1301-1304+1309.(EI: 20084011613597) [26]王向红,朱昌明,毛汉领,黄振峰.基于声发射技术的水轮机转轮叶片疲劳裂纹扩展速率实验研究,中国机械工程. 2009,20(7):847-851. [27]王向红,朱昌明,杨广全,张鹏.电梯系统机电耦合模型仿真研究,系统仿真学报,2007,19(10):2328-2332+2361.(EI: 20072510663694) [28]王向红,毛汉领,黄振峰.超声清洗槽内空化强度的测量,应用声学,2005,24(3): 188-191. [29]Han-lin Mao,Xiang-hong Wang, Zhen-feng Huang.Damage localization in Turbine runner blades using support vector machines. the 8th International Conference on Frontiers of Design and Manufacturing (ICFDM2008), 2008. [30]毛汉领,王向红,黄振峰.基于小波包分析的声发射信号界面的衰减研究,振动与冲击,2008,27(9):139-141+189. (EI:20084411671685) [31]Guangquan Yang, Changming Zhu,Xianghong Wang. An Alternative Method for EGCS Traffic Pattern Recognition, Elevator World, 2006, 54(8): 82-88. (EI: 20063510086335) [32]杨广全,朱昌明,王向红,涂治国,基于粒子群K均值聚类算法的电梯交通模式识别,控制与决策,2007,22(10):1139-1142. (EI:20074710936671) [33]胡宏伟,李雄兵,王向红.复杂型面构件超声自动检测轨迹跟踪控制,无损探伤,2010,34(6):27-29. [34]Hongwei Hu, Xiongbing Li,Xianghong Wang, Yimin Shao. Reliability assessment of automatic ultrasonic inspection for complex surface components. Applied Mechanics and Materials, 2011, Vols. 48-49:881-885. [35]胡宏伟,李雄兵,倪培君,王向红.复杂型面构件超声自动检测中的匹配定位方法,中国机械工程,2012,23(2):195-199 [36]Hongwei Hu, Xiongbing Li,Xianghong Wang, Yimin Shao. Reliability assessment of automatic ultrasonic inspection for complex surface components. Applied Mechanics and Materials, 2011, Vols. 48-49:881-885. |