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李雄兵
个人简介
【教育背景】

1996年-2000年,中南大学机电工程学院,学士;

2000年-2003年,中南大学交通运输工程学院,硕士;

2004年-2008年,浙江大学机械与能源工程学院,博士

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【工作经历】

2003年-2004年,深圳现代计算机有限公司,软件工程师;

2008年-2011年,中南大学,讲师;

2011年-2016年 中南大学,副教授;

2012年-2013年,美国爱荷华州立大学,访问学者;

2016年-至今,中南大学,教授。

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【科研项目】

[1] 3D打印钛合金构件孔隙率的超声多次散射无损评价方法,国家自然科学基金,主持,在研,项目编号:51575541

[2] 基于超声相控阵的3D打印件孔隙率无损评价方法,国家自然科学基金国际合作交流项目,主持,已结题,项目编号:51711530231

[3] 基于相速度的粉末合金构件晶粒度超声评价方法,国家自然科学基金,主持,已结题,项目编号:61271356

[4] 基于2D-SAFT的复杂型面构件超声检测方法研究,国家自然科学基金,主持,已结题,项目编号:51005252

[5] ****复杂型面镁合金构件无损检测与缺陷评价技术,国防基础科研计划项目,主持,已结题

[6] 增材制造钛合金材料中孔隙超声无损评价,国家高端外国专家项目,主持,在研,项目编号:GDW20184300289

[7] 复杂环境下轨道车辆全生命周期能力保持与优化,国家重点研发计划,参研,在研,项目编号:2017YFB1201201

[8] 镍基粉末合金晶粒尺寸的超声无损评价,湖南省自然科学基金,主持,在研,项目编号:2018JJ2512

[9] 航空高温合金密实度的超声无损评价基础研究,湖南省自然科学基金,主持,已结题,项目编号:14JJ2002

[10] 复杂型面构件的超声自动评估方法研究,湖南省自然科学基金,主持,已结题,项目编号:10JJ5061

[11] 寄生式超声自动检测系统的设计与实现,湖南省科技计划,主持,已结题,项目编号:2011GK3209

[12] 基于缺陷信号聚焦重构的机车车轴超声检测方法研究,教育部博士点基金,主持,已结题,项目编号:20100162120042

[13] 粉末高温合金致密度的超声无损评价方法,中国博士后科学基金,主持,已结题,项目编号:2014M562126

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【审稿期刊】

NDT & E international;Ultrasonics;Journal of the Acoustical Society of America;IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control;Measurement;Applied Acoustics;Nondestructive Testing and Evaluation.

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【研究团队】

1. 在读研究生

宋永锋(2016级博士生);吕铎(2017级博士生);张晨昕,孙明珠,曾胜洋,谭若涵(2018级博士生);李珊,郭紫鑫(2019级博士生)。

黄远添,付英东,刘一尘,王伟鑫(2017级硕士);蔡永行,王猛,戴昭杰(2018级硕士);李先钧,张凤,谢恩(2019级硕士)。

2. 已毕业研究生

张书增(2014级博士生,中南大学,特聘副教授);

刘芝平(2015级博士生,长沙理工大学);

吕 铎(2012级硕士生,青岛四方车辆研究所,现回校攻读博士学位);

梁佳佳(2012级硕士生,武汉铁路局);

张晨昕(2013级硕士生,中科院福建物质结构研究所,现回校攻读博士学位);

宋永锋(2013级硕士生,留校攻读博士学位);

张荣繁(2014级硕士生,中国兵器科学研究院);

王艺霖(2015级硕士生,北京铁路局);

韩晓芹(2015级硕士生,武汉地铁);

王炫润(2015级硕士生,深圳华为技术有限公司)

刘 雨(2016级硕士生,中国工程物理研究院攻读博士);

李 珊(2016级硕士生,留校攻读博士学位);

孙 楠(2016级硕士生,华为技术有限公司)。


3. 国际合作交流







4. 团队的休闲娱乐






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【联系方式】

Email : lixb213@csu.edu.cn

办公室:交通楼209

电 话:0731-82655135

Q Q :33016994


欢迎交设、机械、应用数学、材料、物理、工程力学等专业报考硕士、博士研究生;支持中外联合培养

科研方向
数控加工的刀具轨迹规划方法

材料微结构的超声无损评价方法

内部缺陷的超声无损检测方法

学术成果
【授权/申请国家发明专利】

1. 授权国家发明专利:

1.1 一种基于二维邻域合成孔径聚焦的超声C扫描成像方法,中国发明专利,授权专利号:ZL201110458080.1,授权日期:2013-6-26

1.2 一种基于超声相速度的高温合金晶粒度评价方法,中国发明专利,授权专利号:ZL201310697572.5,授权日期:2015-9-30

1.3 一种基于哈尔小波的晶粒尺寸无损评价方法,中国发明专利,授权专利号:ZL201410373084.3,授权日期:2016-08-17

1.4 一种无需测厚的晶粒尺寸超声无损评价方法,中国发明专利,授权专利号:ZL201410478957.7,授权日期:2017-5-10

1.5 一种剔除水声距影响的晶粒尺寸超声评价方法,中国发明专利,授权专利号:ZL201510165438.X,授权日期:2017-9-5

1.6 一种基于起旋辅助线的型腔高速螺旋铣削方法,中国发明专利,授权专利号:ZL 201610817053.1,授权日期:2018-5-4

2. 申请国家发明专利:
2.1 一种剔除曲面扩散影响的金属晶粒尺寸超声衰减评价方法,中国发明专利,申请专利号:201510680907.1,申请日期:2015-10-21

2.2 一种考虑工件偏心装夹误差的超声C扫描路径校正方法,中国发明专利,申请专利号:201610631155.4,申请日期:2016-8-3

2.3 一种考虑工件装夹误差校正的超声波自动检测方法.申请号:CN201710358742.5, 申请日期:2017-05-19

2.4 一种基于极值分布理论的微小缺陷超声检测方法, 中国发明专利, 申请专利号: CN201710306311.4, 申请日期:2017-05-19

2.5 一种超声检测中机械手防碰撞方法, 中国发明专利, 申请专利号: CN201711176411.6, 申请日期:2017-11-22

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【SCI期刊论文】

[55]Xiongbing Li, Duo Lyu, Yongfeng Song, Shuzeng Zhang, Ping Hu, and Hyunjo Jeong. Simultaneously Determining Sensitivity and Effective Geometrical Parameters of Ultrasonic Piezoelectric Transducers using a Self-reciprocity Method[J]. IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control,2019,available online. DOI:10.1109/TUFFC.2019.2925834

[54] Yuantian Huang, Joseph A.Turner, Yongfeng Song, Peijun Ni, Xiongbing Li*. Enhanced ultrasonic detection of near-surface flaws using transverse-wave backscatter[J]. Ultrasonics, 2019,98:20-27.

[53] Shan Li, Joseph A.Turner, Lester W.Schmerr, Xiongbing Li*. Non-paraxial multi-Gaussian beam model of Leaky Rayleigh waves generated by a focused immersion transducer[J]. Ultrasonics, 2019,97:57-62.

[52] Yu Liu, Xiongbing Li*,Chao Chen,Yongfeng Song. High Throughput Rapid Detection for SLM Manufactured Elements Using Ultrasonic Measurement[J]. Measurement, 2019,144:234-242.

[51] Yingdong Fu, Ping Hu, Joseph Turner, Yongfeng Song, Xiongbing Li*. Ultrasonic flaw detection for two-phase Ti-6Al-4V based on secondary scattering[J]. NDT & E International, 2019, 102: 199-206.

[50] Weixin Wang, Xiling Liu, Xiongbing Li, Gang Xu, Shuzeng Zhang*.Modeling Flaw Pulse-Echo Signals in Cylindrical Components Using an Ultrasonic Line-Focused Transducer with Consideration of Wave Mode Conversion[J]. Sensors, 2019,19:12-2744.

[49] Guangdong Zhang, Xiling Liu, Xiongbing Li, Yongfeng Song, Shuzeng Zhang.Measurement of shear wave attenuation coefficient using a contact pulse-echo method with consideration of partial reflection effects[J]. Measurement Science and Technology, 2019, available online. DOI: 10.1088/1361-6501/ab2a5e

[48] Yongfeng Song, Christopher M. Kube, Zuoxiang Peng, Joseph A. Turner, Xiongbing Li. Flaw detection with ultrasonic backscatter signal envelopes[J]. Journal of the Acoustical Society of America, 2019, 145(2): 142-148.

[47]Shufeng Zhang, Chao Ma, Haifeng Hu, Yu Jiang, Xun Chen*, Xiongbing Li. Far-sided defect recognition of FRP sandwich structures based on local defect resonance[J]. Journal of Sandwich Structures & Materials, 2019,available online.DOI:https://doi.org/10.1177/1099636219840250

[46]Hyunjo Jeong, Hyojeong Shin, Shuzeng Zhang, Xiongbing Li, Sungjong Cho. Application of Fresnel Zone Plate Focused Beam to Optimized Sensor Design for Pulse-Echo Harmonic Generation Measurements[J]. Sensors, 2019, 19(6): 1373.

[45] Zhiping Liu, Xiongbing Li, Bing Yi. Generating spiral tool path to machine free-form surface with complex topology based on fusing constraint mapping and enriched voronoi diagram[J]. International Journal of Advanced Manufacturing Technology, 2019,102(1-4) : 647-658.

[44] Xiongbing Li, Zhiping Liu, Fulin Wang, Bing Yi, Yongfeng Song. Combining physical shell mapping and reverse-compensation optimization for spiral machining of free-form surfaces. International Journal of Production Research. 2018,57(13):4118-4131.

[43] Xiongbing Li, Xuanrun Wang, Peijun Ni, Feng Chen*, Yongfeng Song(2018). Automatic Ultrasonic Testing Method for AZ80 Magnesium Alloy Cartridge[J]. Materials Evaluation, 2018,10: 1414-1420.

[42] Shuzeng Zhang, Xiongbing Li*, Hyunjo Jeong, Hongwei Hu. Experimental investigation of material nonlinearity using the Rayleigh surface waves excited and detected by angle beam wedge transducers[J]. Ultrasonics, 2018, 89: 118-125.

[41] Shuzeng Zhang, Xiongbing Li*, Hyunjo Jeong, Sungjong Cho. Investigation of material nonlinearity measurements using the harmonic generation[J]. IEEE Transactions on Instrumentation & Measurement, 2018. (accepted)

[40] Yongfeng Song, Joseph Turner, Zuoxiang Peng, Chao Chen, Xiongbing Li*(2018). Enhanced Ultrasonic Flaw Detection using an Ultra-high Gain and Time-dependent Threshold[J]. IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 2018, 65(7): 1214-1225.

[39]. Yongfeng Song, Xuhui Zi, Yingdong Fu, Xiongbing Li*, Chao Chen*, Kechao Zhou(2018). Nondestructive testing of additively manufactured material based on ultrasonic scattering measurement[J]. Measurement, 2018, 118: 105–112.

[38] Xiongbing Li*, Shuzeng Zhang, Hyunjo Jeong, Hongwei Hu. Modelling nonlinear focused beams of a linear phased array using Multi-Gaussian beam model[J]. International Journal of Acoustics and Vibration, 2018, 23(4): 529-533.

[37].Xiujuan Miao, Xiongbing Li*, Hongwei Hu, Guangjun Gao, Shuzeng Zhang(2018). Effects of the Oxide Coating Thickness on the Small Flaw Sizing Using an Ultrasonic Test Technique[J]. Coatings, 2018,8(2): 69.

[36]. Shuzeng Zhang, Ping Hu, Xiongbing Li*, Hyunjo Jeong(2018). Calibration of focused circular transducers using a multi-Gaussian beam model[J]. Applied Acoustics, 2018, 133: 182-185.

[35].Hyunjo Jeong*, Sungjong Cho, Shuzeng Zhang, Xiongbing Li(2018). Acoustic nonlinearity parameter measurements in a pulse-echo setup with the stress-free reflection boundary. Journal of the Acoustical Society of America, 2018, 143 (4): 237-242.

[34]. Hyunjo Jeong*, Shuzeng Zhang, Xiongbing Li(2018). Improvement of pulse-echo harmonic generation from a traction-free boundary through phase shift of a dual element transducer[J]. Ultrasonics, 2018, 87: 145-151.
[33] Shan Li, Xiongbing Li, Yongfeng Song, Chao Chen. Ultrasonic scattering unified theory for polycrystal material with grain sizes distribution[J]. Acta Physica Sinica, 2018, 67(23): 234301.
[32] Bing Yi, Yue Yang, Ran Zheng, Xiongbing Li, Minhan Yi*. Triangulated surface flattening based on the physical shell model[J]. Journal of Mechanical Science and Technology, 2018, 32(5): 2163-2171.

[31] 王炫润, 倪培君, 易兵, 李雄兵. 回转组合体超声自动检测中防碰撞研究[J].兵工学报, 2018, 39(04): 780-786.

[30] Xiongbing Li, Yongfeng Song, Andrea P. Arguelles, Joseph A Turner*(2017). Diffuse ultrasonic backscatter using a multi-Gaussian beam model. Journal of The Acoustical Society of America. 2017, 141(6): 195-205.

[29] Xiongbing Li, Shuzeng Zhang, Hyunjo Jeong*, Sungjong Cho(2017). Calibration of focused ultrasonic transducers and absolute measurements of fluid nonlinearity with diffraction and attenuation corrections[J]. Journal of the Acoustical Society of America, 2017, 142(2): 984-990.
[28] Xiongbing Li, Xiaoqin Han, Andrea P. Arguelles, Yongfeng Song, Hongwei Hu*(2017). Evaluating grain size in polycrystals with rough surfaces by corrected ultrasonic attenuation[J]. Ultrasonics, 2017, 78: 23-29.

[27] Xiongbing Li, Yilin Wang, Peijun Ni, Hongwei Hu, Songyong Feng(2017). Flaw sizing using Ultrasonic C-scan imaging with Dynamic Thresholds. INSIGHT, 2017, 59(11): 603-608.

[26]. Yu Liu, Yongfeng Song, Xiongbing Li*, Chao Chen*, Kechao Zhou(2017). Evaluating the Reinforcement Content and Elastic Properties of Mg-based Composites Using Dual-Mode Ultrasonic Velocities[J]. Ultrasonics, 2017, 81:167-173.

[25]. Yongfeng Song, Christopher M. Kube, Joseph A. Turner, Xiongbing Li*(2017). Statistics associated with the scattering of ultrasound from microstructure, Ultrasonics, 2017. 80: 58-61.

[24].Shuzeng Zhang, Xiongbing Li*, Hyunjo Jeong, Sungjong Cho, Hoingwei Hu(2017). Theoretical and experimental investigation of the pulse-echo nonlinearity acoustic sound fields of focused transducers[J]. Applied Acoustics, 2017, 117: 145-149.

[23]. Shuzeng Zhang, Xiongbing Li*, Hyunjo Jeong(2017). Analytical diffraction corrections for circular focused transducers expressed using the multi-Gaussian beam model[J]. Acta Acustica united with Acustica, 2017, 103(5):717-720.

[22]. Zhiping Liu, Xiongbing Li*, Yongfeng Song, Bing Yi(2017). Generating spiral tool paths based on spiral enter assistant line[J]. The International Journal of Advanced Manufacturing Technology, 2017, 92(1): 869-879.

[21].ShuZeng Zhang, XiongBing Li*, Hyunjo Jeong, Hongwei Hu(2017). Modeling linear Rayleigh wave sound fields generated by angle beam wedge transducers[J]. AIP Advances, 2017, 7(1): 015005.

[20].Shuzeng Zhang, Xiongbing Li* ,Hyunjo Jeong(2017) .Measurement of Rayleigh Wave Beams Using Angle Beam Wedge Transducers as the Transmitter and Receiver with Consideration of Beam Spreading[J]. Sensors, 2017, 17(6):1449.

[19]. Hyunjo Jeong*, Dan Barnard, Sungjong Cho, Shuzeng Zhang, Xiongbing Li(2017). Receiver calibration and the nonlinearity parameter measurement of thick solid samples with diffraction and attenuation corrections[J]. Ultrasonics, 2017, 81: 147-157.

[18].Bing Yi, Xiongbing Li, Yue Yang. Heterogeneous model integration of complex mechanical parts based on semantic feature fusion[J]. Engineering with Computers, 2017, 33(4): 797-805.

[17]. Chenxin Zhang, Xiongbing Li*, Yongfeng Song, Xiaoqin Han(2016). Evaluating the grain size in curved components using the ultrasonic attenuation method with diffraction correction[J]. NDT&E international.2016, 84: 20-26.

[16]. Xiaoqin Han, Xiongbing Li*, Yongfeng Song, Peijun Ni,Yiwei Shi(2016). Correcting the Ultrasonic Scattering Attenuation coefficient of a Metal Using an Equivalent Medium Layer[J]. Materials Transactions. 2016, 57(10):1729-1734.

[15]. Shuzeng Zhang, Xiongbing Li*, Hyunjo Jeong, Hongwei Hu(2016). Modeling nonlinear Rayleigh wave fields generated by angle beam wedge transducers-A theoretical study[J]. Wave Motion, 2016, 67: 141-159.

[14]. Zhiping Liu, Xiongbing Li*, Yongfeng Song, et al(2016). Lofting-based spiral tool path generation algorithm for milling a pocket with an island[J]. The International Journal of Advanced Manufacturing Technology, 2016,88(5): 2169-2178.

[13]. Shuzeng Zhang, Christopher M. Kube, Yongfeng Song, Xiongbing Li*(2016). A self-reciprocity calibration method for broadband focused transducers[J]. Journal of the Acoustical Society of America, 2016,140(3):236-241.

[12]. Shuzeng Zhang, Xiongbing Li*, Hyunjo Jeong(2016). A more general model equation of nonlinear Rayleigh waves and their quasilinear solutions[J]. Modern Physics Letters B, 2016,30(8):1650096.

[11]. 宋永锋, 李雄兵*, 史亦韦, 倪培君(2016).表面粗糙度对固体内部超声背散射的影响(J). 物理学报, 2016, 65 (16): 214301.

[10]. 宋永锋, 李雄兵*, 吴海平, 司家勇, 韩晓芹(2016). In718晶粒尺寸对超声背散射信号的影响及其无损评价方法[J].金属学报.2016,52(3):378-384.

[9].Shu-Zeng Zhang, XiongBing Li, Hyunjo Jeong*(2016). Phased Array Beam Fields of Nonlinear Rayleigh Surface Waves[J]. Chinese Physics Letters, 2016, 33(7): 074302.

[8]. Hyunjo Jeong*, Shuzeng Zhang, Sungiong Cho, Xiongbing Li(2016). Development of explicit diffraction corrections for absolute measurements of acoustic nonlinearity parameters in the quasilinear regime[J].Ultrasonics, 2016, 70: 199-293.

[7].Hyunjo Jeong*, Shuzeng Zhang, Xiongbing Li(2016). A novel method for extracting acoustic nonlinearity parameters with diffraction corrections[J]. Journal of Mechanical Science and Technology, 2016, 30(2):643-652.

[6]. Jeong H*, Zhang SZ, Cho S, Li XB(2016). Development of attenuation and diffraction corrections for linear and nonlinear Rayleigh surface waves radiating from a uniform line source[J]. AIP Advances, 2016, 6(4): 045313.

[5]Xiongbing Li*, Yongfeng Song, Feng Liu, Hongwei Hu, Peijun Ni(2015). Evaluation of mean grain size using the multi-scale ultrasonic attenuation coefficient[J]. NDT&E International, 2015, 72: 25-32.

[4]. Li Xiongbing*, Song Yongfeng, Liu Feng, Wang Zi, Hu Hongwei(2015). Grain size evaluation of structural materials in nuclear power plant using a thickness independent ultrasonic method [J]. Nuclear Inst. and Methods in Physics Research, B, 2015, 351:16-22.

[3]. 李雄兵*, 宋永锋, 倪培君, 刘 锋(2015). 面向晶粒尺寸的超声多尺度衰减评价方法[J].金属学报.2015,51(1): 121-128.

[2]. Xiongbing Li*, Jiajia Liang, Peijun Ni, Yuguo Wang, Yongfeng Song, Linjun Tong(2014). Novel path generation algorithm for high-speed pocket milling. International Journal of Production Research, 2014,52(02):397- 404.

[1]. XiongBing Li*, Hong-Wei Hu, Yue Yang, Pei-Jun Ni(2010). Cheng Yang. Automatic ultrasonic inspection of flaws in a propeller-blade[J]. Nondestructive Testing and Evaluation, 2010, 25(4): 341-351.

【EI期刊论文】

[17]. 张书增, 李雄兵*, 郑慧峰(2016). 反射法测量固体材料的非线性系数研究[J]. 机械工程学报, 52(16): 8-14, 2016.

[16]. 李雄兵*, 张书增, 陈峰(2016). 多元高斯声束衍射修正下液体非线性系数检测方法[J].声学学报. 2016, 41(4):515-520.

[15]. 张晨昕, 李雄兵*, 宋永锋, 刘锋, 刘希玲(2016). 考虑水声距的晶粒尺寸超声衰减评价模型[J]. 中南大学学报(自然科学版), 2016, 04:1151-1157.

[14]. 王家斌, 王炫润, 李劭晨, 宋永锋, 李雄兵*(2016). 含孤岛型腔铣削加工的螺旋刀轨生成算法[J].航空学报, 2016, 36(5): 1689-1695.

[13]. 李雄兵*, 宋永锋, 胡宏伟, 倪培君(2015). 基于衰减速率的晶粒尺寸超声评价方法[J].机械工程学报. 2015, 51(14):1-7.

[12]. 刘希玲, 吕铎, 李雄兵*, 倪培君(2015). 基于超声测量模型的镁合金弹壳自动检测方法[J]. 湖南大学学报(自然科学版),2015, 10(42):54-58.

[11]. 杨岳, 戴万林, 李雄兵*, 倪培君, 乔日东(2015). 镁合金壳体内部缺陷的精确超声定量方法[J]. 中国有色金属学

报,2015, 25(10): 2666-2671.

[10]. 张书增, 李雄兵*, 杨岳, 胡宏伟, 宋永锋(2014).钢轨轨头内多元高斯声场模拟及其缺陷响应.铁道学报, 2014, 36(1):76-80.

[9]. 张杨, 周晓军, 杨辰龙, 李雄兵, 郑慧峰(2013). 变厚度曲面构件超声检测灵敏度补偿. 浙江大学学报(工学版), 2013, 47( 1) : 116-121.

[8]. 胡宏伟, 李雄兵*, 杨岳, 倪培君, 童林军(2012). CFRP复杂型面构件的孔隙率超声检测方法. 中南大学学报(自然科学版),2012, 43(4): 1315-1319.

[7]. 张杨, 周晓军, 郑慧峰, 李雄兵, 杨辰龙(2012). 基于模板的大型复杂曲面超声C扫方法. 仪器仪表学报, 2012, 33(7): 1626-1633.

[6]. 张杨, 周晓军, 杨辰龙, 李雄兵, 陈汝蒋, 牛彦牧(2012). 基于声束追踪的变厚度曲面工件超声探头位姿规划. 农业机械学报, 2012, 43(9) : 230-234.

[5]. 李雄兵, 杨岳, 胡宏伟, 倪培君, 阳程(2010). 面向超声检测的曲面自动测量, 中南大学学报, 2010, 41(1): 194-200.

[4]. 刘希玲, 杨述明, 李雄兵(2010). Hoffmann液压机构压力波动的动态特性仿真. 湖南大学学报(自然科学版),2011,38(2): 41-44.

[3]. 杨先勇, 周晓军, 胡宏伟, 李雄兵, 庞茂(2009). 螺旋锥齿轮非线性振动特性及参数影响. 浙江大学学报(工学版), 2009,43(3):505-510. [2]. 李雄兵, 周晓军, 郑慧峰(2008). 面向超声检测的数据压缩方法. 浙江大学学报, 2008, 42(7): 1251-1254. [1]. 郑慧峰, 周晓军, 李雄兵(2008). 基于本体多关节的超声检测机器人误差补偿. 农业机械学报, 2008, 39(4) :164-167.

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计算机软件著作权

[1] 软件著作权. 复杂型面构件缺陷的超声检测及分析系统[简称:MyUltraScan]V1.0,证书号: 软著登字第0347361号,登记号:2011SR083687.

[2] 软件著作权. 六轴超声自动检测与成像系统[简称:UltraInspect]V1.0,证书号: 软著登字第0426608号, 登记号: 2012SR058572.

[3] 软件著作权. 复杂型面构件超声自动检测与成像软件系统V1.0,证书号:软著登字第1780516号,登记号:2017SR195232.

学术奖励
“复杂型面构件超声无损检测技术与应用”,2015年湖南省科技进步奖二等奖(完成人排名第一);

“复杂结构内部缺陷的声学检测技术及应用”,2018年湖南省科技进步奖二等奖(完成人排名第四)


【教学奖励】

中南大学高等教育校级教学成果奖;

比亚迪奖学金优秀教师奖励;

湖南省普通高校青年骨干教师、学科带头人培养对象验收结果“优秀”