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Bai X, Zhao Y*, Ma J, et al. Grain size characterization by laser-based ultrasonics based on the centroid frequency shift method. Materials Characterization.2019, doi.org/10.1016/j.matchar.2019.109800, in publication. (JRC2区,IF:3.22)
Bai X, Zhao Y*, Ma J, et al. Grain-Size Distribution Effects on the Attenuation of Laser-Generated Ultrasound in α-Titanium Alloy[J]. Materials, 2019, 12(1): 102-108. (JRC 2区,IF: 2.467)
Y. Zhao*, Y. N. Zhu, M. D. Yuan, J. F. Wang, S. Y. Zhu. A Laser-Based Fiber Bragg Grating Ultrasonic Sensing System for Structural Health Monitoring. IEEE Photonics Technology Letters,2016,28(22),2573-2576. (JRC 2区,IF:2.533,他引次数:1)
Zhao Y*, Chen J, Zhang Z; Nondestructive characterization of thermal barrier coating by noncontact laser ultrasonic technique. Optical Engineering, 2015, 54(9):094104. (JRC4区,IF:1.209)
Y. Zhao*, J. Ma, J. W. Chen, H. Ouyang, M. H. Wang, P. Zhao, B. Zhang. A noncontact method applied to determine thickness of thin layer based on laser ultrasonic technique [J]. Materials Research Innovations, 2014,18(s2):1081-1085. (JRC4区,IF:0.830,他引次数:1)
Y. Zhao*, J. H. Sun, S. Liu, J. Ma, Q. Z. Qing. Application of the hybrid laser ultrasonic method on rail inspection [J].Insight, 2014, 56 (7): 1005-1009. (JCR 3区,IF:0.792,他引次数:2)
Y. Zhao*, L. Cui, J. H. Sun, J. Ma, Q. Z. Qing. Hybrid laser ultrasonic inspection based on optical fiber technique [J]. Chinese optics letter, 2014, 12(s1): S11102. (3区,IF:1.899)
Y. Zhao*, Liu S, Guo R, Ma J, Song J F, Sun J H, Jia Z Q. Hybrid laser-EMAT system for non-destructive testing continuous casting billet [J]. Chinese optics letter, 2013;11(s2): 11031-11033. (3区,IF:1.899)
Y. Zhao, Li X M, Lin L, Lei M K. Measurements of coating density using ultrasonic reflection coefficient phase spectrum[J]. Ultrasonics, 2011, 51(5):596-601.(JRC2区,IF: 2.598,他引次数:16)
Y. Zhao, L. Lin, X. M. Li, M. K. Lei. Simultaneous determination of the coating thickness and its longitudinal velocity by ultrasonic nondestructive method. NDT & E International, 43 (2010): 579-585. (JCR 1区,影响因子:2.934,他引次数:21)
Chen J, Zhao Y*, Zhu Y, et al. Narrow Line-Width Ytterbium-Doped Fiber Ring Laser Based on Saturated Absorber[J]. IEEE Photonics Technology Letters, 2017, 29(5):493-441. (JRC 2区,IF:2.533)
Z.Y. Ma, Y. Zhao, Z.B. Luo, L. Lin. Ultrasonic characterization of thermally grown oxide in thermal barrier coating by reflection coefficient amplitude spectrum [J].Ultrasonics, 2014, 54 (4): 1005–1009. (JRC2区,IF: 2.598)
R. Gao , Y .Jiang, Y. Zhao. Magnetic field sensor based on anti-resonant reflecting guidance in the magnetic gel-coated hollow core fiber[J]. Optics Letters, 2014, 39(21):6293-6296. (2区,IF:3.292,他引次数:1)
J. W. Chen, Y. Zhao*, P. Zhao, J. Ma. Finite element simulation of residual stress of EB-PVD thermal barrier coatings during thermal cycling [J]. Journal of the Chinese Advanced Materials Society, 2013, 1(4): 317–324.
Z.Z. Zhang, A.L.Yang, Y. Zhao. G.Y. Nan. Laser ultrasonic three-dimensional imaging of aluminum block with artificial defects. Infrared and Laser Engineering, 2015, 44(s):57-62. (EI检索)
李鹏,赵扬等. 多晶金属材料超声无损表征方法研究综述[J]. 应用物理, 2019, 9(11):429-441.
李鹏,赵扬*,周志权,张鹏辉,白雪,马健. 一种跨介质的空中-水下激光致声探测技术研究[J]. 红外与激光工程,2021,50(05):63-71. (EI收录)
张鹏辉,赵扬*,李鹏,周志权,白雪,马健. 超声成像检测技术研究进展综述[J].激光与光电子学进展,2022,59(02):020002.(中文核心)
赵扬,林莉,李继承,李喜孟,雷明凯. 基于超声波声压反射系数相位谱测定热障涂层密度的方法研究. 稀有金属材料与工程,2010,39(s1),255-258. (SCI检索号:000283344300062,他引次数:1,影响因子:0.194,4区)
赵扬*(通讯作者), 刘帅, 马健, 孙继华, 宋江峰, 郭锐, 贾中青.混合式激光超声技术的钢轨轨头疲劳损伤无损检测研究与应用[J],中国激光,2014, 41(s1): s108008(EI检索)
赵扬*(通讯作者),陈建伟,孙继华,马健,孙继昌,贾中青. 在役钢轨无损检测技术与系统的应用与研究, 无损检测,2014, 36 (2):1-7。
赵扬*(通讯作者),郭锐,宋江峰,马健,刘帅,孙继华,贾中青.基于自适应滤波技术的激光-电磁超声检测噪声抑制方法[J].无损检测,2013,35(6):29-31.
赵扬*(通讯作者),郭锐,宋江峰,马健,刘帅,孙继华,贾中青.激光-EMAT法非接触式无损检测金属内部缺陷研究[J].激光技术,2013,37(3):277-280.
赵扬*(通讯作者), 马志远,陈建伟,林莉,马健,赵鹏. 热障涂层失效的无损检测与评价研究进展[J].河北科技大学学报, 2013, 34(6):487-492.
赵扬*(通讯作者),刘伟,郭锐,宋江峰,贾中青. 激光-电磁超声技术的检测原理与应用[J].无损检测,2012, 34(3):59-63.
赵扬,林莉,马志远,李喜孟,雷明凯. 基于随机介质理论的热障涂层随机孔隙模型构建. 中国表面工程,2010,23(2): 78-81.(引用次数:3)
赵扬,林莉,顾晓春,李喜孟,雷明凯. 基于超声声压反射系数相位谱法的热障涂层非均匀性表征. 无损检测,2010,32(7): 485-489.
孙继华, 赵扬*(通讯作者), 南钢洋. 基于有限元数值方法的金属材料内壁缺陷超声频谱特性研究[J]. 山东科学, 2016, 29(5):70-75.
孙继华,赵扬*(通讯作者),马健,刘帅,张振振,南钢洋,巨阳. 小口径管材超声水膜法检测探头跟踪系统[J]. 冶金自动化,2016,1:1-4.
孙继华,赵扬*(通讯作者),马健,刘帅,张振振,南钢洋,巨阳. 超声波脉冲在固-固界面传播的数值模拟分析[J]. 压电与声光, 2017 , 39 (1) :140-143.
孙继华,赵扬*(通讯作者),马健,刘帅,张振振,南钢洋,巨阳. 基于光纤传导的钢轨踏面缺陷激光声磁检测. 光电子?激光, 2016 , 27(11) :1176-1180. (EI检索)
孙继华,赵扬*(通讯作者),宋江峰,马健,郭锐,刘帅,南钢洋,贾中青. 激光声磁与压电超声检测钢轨踏面缺陷的对比研究[J]. 光电子?激光,2014,25(1):141-146 (EI检索号: 20141317523261)
孙继华,赵扬*(通讯作者),宋江峰,马健,郭锐,刘帅,南钢洋,贾中青. 钢轨螺孔裂纹的激光电磁超声检测系统研究[J]. 光电子?激光,2014,25(6):141-146 (EI检索)
崔雷,赵扬*(通讯作者),赵鹏,孙继昌,贾中青. 基于小波阈值技术的激光-电磁超声检测噪声抑制方法研究.光学学报,2014, 34(s1): s112006(EI检索)。
马健,赵扬*(通讯作者),郭锐,宋江峰,刘帅,孙继华,贾中青.激光辐照材料表层温升规律的数值模拟.激光技术,2013, 34(4): 455-457.
马健,赵扬*(通讯作者),周凤艳,孙继华. 离焦量对激光超声测厚的影响. 激光技术,2015, 39(3): 349-352.
马健,赵扬*(通讯作者),孙继华,张振振. 斜入射激光超声体波声场的实验研究. 强激光与粒子束 2015 ,27 (09): 27099003(EI检索)
马健, 赵扬*(通讯作者),周凤艳,等. 基于有限元的脉冲激光辐照材料温度场研究[J]. 激光与红外, 2015(1):27-31. (EI检索)
马健,赵扬*(通讯作者),张振振,高岩,孙继华,巨阳. 斜入射激光支持燃烧波时纵波声场的指向性[J]. 强激光与粒子束, 2016, 28(02): 28021004.
马健,周英丽,赵扬*(通讯作者),陈建伟,巨阳. 微扰法测量管道壁减薄的分析及实验研究[J].微波学报, 2017(6):11-17。
陈建伟,赵扬*(通讯作者). EB-PVD热障涂层的结构演变与表面拉曼光谱特性[J].中国表面工程,2015,28(3): 77~78.
陈建伟,赵扬*(通讯作者),巨 阳,刘 帅,马 健. 无损检测在增材制造技术中应用的研究进展[J].应用物理,2018,8(2):91-99.
陈建伟, 赵扬*(通讯作者), 巨阳, 宋江峰, 郭锐, 马健. 一种用于管道检测的电磁超声SH波传感器研制[J]. 声学与振动, 2018, 6(4): 99-107.
黄贤滨, 赵扬*,巨阳, 宋江峰, 陈建伟, 郭锐 ,南钢洋,王启武等.高提离距离的横波电磁超声检测技术研究[J]. 山东科学,第31卷第2期:50-54
顾晓春,赵扬,林莉,李喜孟. 基于声压反射系数法的层状介质弹性模量超声无损测量. 无损探伤,2010,34(4):1-4.
林莉, 李喜孟, 赵扬. 基于超声声速法的陶瓷涂层特性表征. 理化检验(物理分册), 2008, 44(4): 180-183.
李继承, 林莉, 赵扬, 李喜孟, 雷明凯. HIPIB辐照前后Cr2O3陶瓷涂层超声衰减特性研究. 无损检测, 2007, 27(10): 580-583.
张鹏辉,赵扬*,李鹏,周志权,白雪,马健.基于有限元法的激光声磁检测系统优化研究[J].红外与激光工程,2022,51(07):185-193. (EI检索)
赵扬*,李鹏,张鹏辉,周志权,白雪,马健. 基于PSM算法的激光致声SAFT水下小目标探测方法[J]. 中国激光,2022,49(9):135-146. (EI检索)
黄金鑫, 周志权, 曹逸飞, 赵扬*(通讯作者). 基于n-MFSK调制的激光致声空-水跨介质通信方法[J].激光技术,2023: 1-12.
会议论文
Yang Zhao, Xingkang Zhao, Jinxin Huang, and Zhiquan Zhou* “Simulation of direct water-air communication by using an acousto-optic method”, Proc. SPIE 12455, International Conference on Signal Processing and Communication Security (ICSPCS 2022), 124550A(EI检索)
Yang Zhao, Jinxin Huang, Yifei Cao,and Zhiquan Zhou*. Simulation of the n-MFSK method used for laser induced acoustic communication[C]. Journal of Physics: Conference Series. 2nd International Conference on Communication Technology and Information Technology,2022, 2517, 25124(EI检索)
Yang Zhao*, Peng Li, Penghui Zhang, Zhiquan Zhou and Jianqing Li. Application of Laser-induced Acoustic Method on Air-underwater Communication, 2021 IEEE International Conference on Space-Air-Ground Computing, SAGC 2021, p 77-82, 2021(EI检索:20222612295063,大会优秀论文奖励)
Yang Zhao*, Penghui Zhang, Peng Li, Zhiquan Zhou,"Numerical simulation of LIU-InSAFT imaging detection",Proc. SPIE,2021 International Conference on Intelligent Equipment and Special Robots (23 October 2021)【EI检索】
Penghui Zhang, Yang Zhao*, Peng Li, Zhiquan Zhou, Xue Bai, and Jian Ma "Numerical simulation of laser-EMAT testing depth of surface crack technology", Proc. SPIE 11933, 2021 International Conference on Neural Networks, Information and Communication Engineering, 119330Z(15 October 2021)【EI检索】
Yang Zhao*, Penghui Zhang, Peng Li, Zhiquan Zhou, and Qinghua Luo "Nonlinear regime of laser-induced acoustic in the liquid", Proc. SPIE 11933, 2021 International Conference on Neural Networks, Information and Communication Engineering, 119331B (15 October 2021)【EI检索】
Y. Zhao*(通讯作者), Song J F, Bai X, Guo R, Ma J, Chen J W. Pipeline thickness monitoring using a shear wave EMAT system under high lift-off condition. 2019 International Congress on Ultrasonics, Bruges, 2019.
Y. Zhao*(通讯作者), Guo R, Ma J, Song J F, Sun J H, Liu S.Applications of laser ultrasonic technique on nondestructive testing and evaluation of materials, Matec web of conference, 2018,173:02033 (EI检索)
Y. Zhao*(通讯作者),Y. Zhu., J. F. Wang, S.Y. Zhu, J. Ma. Fiber Bragg Grating Sensing System for Detection of Laser-Induced Ultrasonics in Application to Railway. The 11th International workshop of Structural Health Monitoring, Stanford University, USA, 2017.(EI检索)
Y. Zhao*(通讯作者),J. Ma,Z. Zhang,Y. Zhu. An acoustic emission system based on all-fiber adaptive fiber Bragg grating sensors[C]. The 8th International Conference on Information Optics and Photonics, Shanghai, 2016.
Y. Zhao*(通讯作者),J. Ma,Z. Zhang,Y. Zhu. Applications of laser-based ultrasonic testing technique on nondestructive testing and structure health monitoring[C]. 1st International Workshop on Structure Health Monitoring for Railway System, Qingdao,2016.
Y. Zhao*(通讯作者),Z. Z. Zhang,Q. W. Wang, J. F. Song, R. Guo, S. Liu, Y. Zhu. Laser based ultrasonic detection using by all-fiber adaptive fiber Bragg grating sensors[C]. IEEE: 2016 Far East Forum on Nondestrutive Evaluation/ Testing: New Technology & Application, Nanchang. (EI检索)
Y. Zhao*(通讯作者),J. Ma,Z. Zhang,Y. Zhu,S. Krishnaswamy. Application of two mixing wave interferometer on laser ultrasonic detection of thermal barrier coating[C]. SPIE-AOPS2016. (EI检索)
Y. Zhao*(通讯作者),J. Ma,Z. Zhang,Y. Zhu,S. Krishnaswamy,An adaptive TWM interferometer for ultrasonic detection[C]. International Conference on Fibre-optic and Photonic Sensors for Industrial and Safety Application,2015.1.21-2015.1.23.
Y. Zhao*(通讯作者),J. W. Chen,Z.Z. Zhang,Laser ultrasonic evaluation of bonding layer in thermal barrier coating[C]. SPIE Smart Structures/NDE 2015,2015.3.8-2015.3.12. (EI检索)
Y. Zhao*(通讯作者),J. W.Chen,Z.Z. Zhang, S. Krishnaswamy [C]. Laser ultrasonic characterization of thermally growth oxide in thermal barrier coating by transfer function of multi-layer media, 4th International Symposium on Laser Ultrasonics, 2015, 6.28-7.2, Evanston, USA.
Y. Zhao*(通讯作者),J. W.Chen,Z.Z. Zhang. Nondestructive evaluation of residual stress and TGO by using laser ultrasonic method[C]. IEEE-The 2015 symposium on piezoelectricity,acoustic waves, and device applications, 2015,10.30-11.2,Jinan, China. (EI检索)
Y. Zhao*(通讯作者), Jia Z Q, Guo R, Ma J, Song J F, Sun J H, Liu S. The application of Laser-EMAT technique used to test defect in rail [J]. Advanced Materials Research, 2014, 875-877: 574-577. (EI检索号:20141217497530)
Y. Zhao*(通讯作者), J. Ma, S. Liu, R. Guo, F. J. Song, Z.Q. Jia. Laser ultrasonic technique applied to inspect fatigue crack[C]. IEEE: 2013 Far East Forum on Nondestrutive Evaluation/ Testing: New Technology & Application, June 17-20, 2013, Jinan, China. (EI检索号:20135017083082,引用次数:1)
Y. Zhao*(通讯作者), Jia Z Q, Guo R, Ma J, Song J F, Sun J H, Liu S. A novel laser-EMAT system for noncontact testing metal materials [J]. Applied Mechanics and Materials, 2013, 281: 422-425. (EI检索号:20130515979796,ISTP号000320199900085,引用次数:4)
Y. Zhao, Lin L, Ma Z Y, Li X M, Lei M K. Correlating ultrasonic velocity and porosity using FDTD method based on random pores model[J]. Materials science forum, 2011, 675-677: 1221-1224. (IF:0.399)
Y. Zhao, Lin L, Ma Z Y, Li X M, Lei M K. A method for ultrasonic nondestructive characterization of density, thickness and velocity of homogeneous coating[J]. Materials science forum, 2011, 675-677 :1217-1220. (IF:0.399)
Y. Zhao, L. Lin, X. M. Li, M. K. Lei. The application of ultrasonic phase spectrum of the reflection coefficient on nondestructive characterizing the plasma sprayed coatings irradiated by HIPIB. Key Engineering Materials, 2008, 373-374: 386-391. (IF:0.228)
L. Lin, Y. Zhao, X. M. Li, M. K. Lei. Ultrasonic characterization of EB-PVD thermal barrier coatings irradiated by HIPIB. Key Engineering Materials, 2008, 373-374: 358-362. (EI检索号:20081711224479,ISTP检索号:000255930200092,引用次数:3)
J. W. Chen,Y. Zhao*(通讯作者), J. Ma. Crack prediction in EB-PVD thermal barrier coatings based on the simulation of residual. 2016 Global Conference on Polymer and Composite Materials, 2016.
J. W.Chen,Y. Zhao*(通讯作者),Effects of interface morphology and TGO thickness on residual stress of EB- PVD thermal barrier coatings,SPIE Smart Structures/NDE 2015,San Diego, 2015.3.8-2015.3.12 (EI检索)
J. Ma, Y. Zhao*(通讯作者), Sun J H, Liu S. Numerical Simulation of Ultrasonic Shear Wave Propagation Based on the Finite Element Method [J]. Applied Mechanics and Materials, 2014, 488-489: 926-929. (EI检索号:20140517248951,ISTP检索号:000336698300209)
R. Guo, Y. Zhao*(通讯作者), S. Liu, J. Ma, J. F. Song, J. H. Sun, Z.Q. Jia. Communication between LabVIEW and PLC based on Native Implementation of HostLink Protocol. Applied Mechanics and Materials, Vols. 519-520, pp. 1252-1257, 2014(EI检索:20141017436560)
L. Cui, Y. Zhao*(通讯作者), P. Zhao, J. C. Sun, Z.Q. Jia. Review of noncontact ultrasonic nondestructive testing for the solid materials. Applied Mechanics and Materials, Vol. 528, pp. 346-352, 2014(EI检索号: 20141217479966)
Yang Zhao*, Guo R, Ma J, Song J F, Sun J H, Liu S.Applications of EMAT technology on nondestructive testing pipeline, 油气管道安全,2018,05:303-308.
赵扬*(通讯作者),黄贤滨, 巨阳, 宋江峰, 陈建伟, 郭锐 ,南钢洋,王启武. 高提离距离的横波电磁超声检测技术研究,远东无损检测论坛,西安,2017.
赵扬*(通讯作者),郭锐,宋江峰,马健,贾中青. 基于激光超声技术的钢坯表面裂纹非接触式无损检测研究. 全球华人无损检测高峰论坛会议,厦门,2011.
赵扬*(通讯作者),郭锐,宋江峰,马健,贾中青. 激光-声磁技术在钢轨检测中的原理与应用研究. 全球华人无损检测高峰论坛会议,厦门,2011.
赵扬,林莉,马志远,李喜孟,雷明凯. 表面防护涂层的无损检测与评价研究现状. 第八届全国表面工程学术会议暨第三届青年表面工程学术论坛论文集, 北京, 2010,227-232.
赵扬,林莉,李喜孟,雷明凯. 超声衰减系数在HIPIB辐照陶瓷涂层特性表征中的应用. 南昌航空大学学报(无损检测技术国际研讨会暨无损检测高等教育发展论坛、电磁检测学术交流会议,2007年,中国南昌)2007,21(增刊):276-279.
赵扬, 林莉, 李喜孟. 基于声压反射系数谱确定陶瓷涂层声速及对涂层特性表征的研究, 第十届全国无2017损检测新技术学术会议,成都,2007.
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