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张书增
个人简介

张书增


联系方式:

联系电话:13548720040

联系地址:湖南长沙 中南大学铁道校区 交通楼 113

Email: sz_zhang@csu.edu.cn;zhangshuzeng123@163.com


教育经历:

2014/09-2017/11,中南大学,交通运输工程学院,博士,导师:李雄兵

2011/09-2014/06,中南大学,交通运输工程学院,硕士,导师:杨岳

2007/09-2011/06,中南大学,交通运输工程学院,本科


工作经历:

2018/03-至今,中南大学,特聘副教授

2018/09-至今,中南大学,硕士生导师


讲授课程

1. 机车车辆工程

2. 列车牵引与制动

3. 机车车辆与列车牵引计算


科研方向:

1. 超声无损检测与评价

2. 非线性超声检测技术

3. 虚拟现实与仿真技术


主持与参研项目:

1. 国家自然科学基金青年基金项目“曲面构件早期损伤的空耦非线性表面波检测理论及评价方法”,项目编号为51805554,2019/1-2021/12,24万元,在研,主持

2. 湖南省自然科学基金青年基金项目“增材制造钛合金复杂形貌缺陷的超声定量检测方法”,项目编号为2019JJ50771,2019/1-2021/12,5万元,在研,主持

3. 中南大学科学研究启动基金项目“曲面构件早期损伤的非线性表面波评价方法”,2018/3 – 2022/12,80万,在研,主持

4. 国家重大基础预研项目“复杂环境下轨道车辆全生命周期能力保持与优化”,项目编号为2017YFB1201201,2017/7-2020/12,176万元,在研,参与

5. 国家自然科学基金项目“3D打印钛合金构件孔隙率的超声多次散射无损评价方法”,项目编号为51575541,2016/1-2019/12,64万元,在研,参与

6. 国家自然科学基金国际合作项目“Nondestructive Evaluation for the Porosity of 3D Printing Components using Ultrasonic Phased Array”,项目编号为51711530231,2016/1-2018/12,在研,参与

7. 湖南省研究生科研创新项目“基于非线性表面波检测的机车车轴疲劳损伤评价方法”,项目编号为CX2016B046,2016/01-2017/06,3万元,已结题,主持


学术成果:

[1] Xiongbing Li, Duo Lyu, Yongfeng Song, Shuzeng Zhang*, Ping Hu, Hyunjo Jeong. Simultaneously determining sensitivity and effective geometrical parameters of ultrasonic piezoelectric transducers using a self-reciprocity method. IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control. DOI: 10.1109/TUFFC.2019.2925834.

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

[3] 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. Measurement Science and Technology, DOI: 10.1088/1361-6501/ab2a5e.

[4] 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. Sensors, 2019, 19(6): 1373.

[5] Shuzeng Zhang, Xiongbing Li, Hyunjo Jeong*, Sungjong Cho. Investigation of material nonlinearity measurements using the third-harmonic generation. IEEE Transactions on Instrumentation and Measurement, DOI:10.1109/TIM.2018.2882048.

[6] Xiongbing Li, Shuzeng Zhang*, Hyunjo Jeong, Hongwei Hu. Modelling Nonlinear Focused Beams of a Linear Phased Array Using a Multi-Gaussian Beam Model. International Journal of Acoustics and Vibration, 2018, 23, 529-533.

[7] 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. Ultrasonics, 2018, 89, 118-125.

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

[9] Shuzeng Zhang, Xiongbing Li*, Hyunjo Jeong, Hongwei Hu. Theoretical and experimental investigation of the pulse-echo nonlinearity acoustic sound fields of focused transducers. Applied Acoustics, 2017, 45, 145-149.

[10] Shuzeng Zhang, Xiongbing Li*, Hyunjo Jeong. Analytical diffraction corrections for circular focused transducers expressed using the multi-Gaussian beam model. Acta Acustica United with Acustica, 2017, 103, 717-720.

[11] Shuzeng Zhang, Xiongbing Li*, Hyunjo Jeong, Hongwei Hu. Modeling linear Rayleigh wave fields generated by angle beam wedge transducers. AIP advances, 2017, 5, 1110045.

[12] Shuzeng Zhang, Xiongbing Li*, Hyunjo Jeong. Measurement of Rayleigh wave beams using angle beam wedge transducers as the transmitter and receiver with consideration of beam spreading. Sensors, 2017, 17, 1449.

[13] Shuzeng Zhang, C. M. Kube, Yongfeng Song, Xiongbing Li*. A self-reciprocity calibration method for broadband focused transducers. The Journal of Acoustic Society of America Express Letter, 2016, 140, EL236-EL241.

[14] Shuzeng Zhang, Xiongbing Li*, Hyunjo Jeong. A more general model equation of nonlinear Rayleigh waves and quasilinear solutions. Modern Physics Letters B, 2016, 30, 1650096.

[15] Shuzeng Zhang, Xiongbing Li, Hyunjo Jeong*. Phased array beam fields of nonlinear Rayleigh surface waves. Chinese Physics Letters, 2016, 33, 074302.

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

[17] Shuzeng Zhang, Hyunjo Jeong*, Sungjong Cho, Xiongbing Li. Simultaneous evaluation of acoustic nonlinearity parameter and attenuation coefficients using the finite amplitude method. AIP Advances, 2015, 5(7): 077133.

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

[19] Hyunjo Jeong*, Sungjong Cho, Shuzeng Zhang, Xiongbing Li. 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.

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

[21] Xiongbing Li, Shuzeng Zhang, Hyunjo Jeong*, Sungjong Cho. Calibration of focused ultrasonic transducers and absolute measurements of fluid nonlinearity with diffraction and attenuation corrections. The Journal of Acoustic Society of America, 2017, 142, 984-990.

[22] Hyunjo Jeong*, Shuzeng Zhang, Sungjong Cho, Xiongbing Li. Assessment of acoustic nonlinearity parameters using an optimized data fitting method with multi-Gaussian beam model-based diffraction corrections. Research in Nondestructive Evaluation, 2016, 27(4):230-250.

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

[24] Hyunjo Jeong*, Shuzeng Zhang, Sungjong Cho, Xiongbing Li. Development of explicit diffraction corrections for absolute measurements of acoustic nonlinearity parameters in the quasilinear regime. Ultrasonics, 2016, 70: 199-203.

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

[26] 李雄兵*, 张书增, 胡宏伟, Hyunjo Jeong, Sungjong Cho. 衍射和衰减修正下材料非线性系数的检测方法. 振动与冲击, 2016, 35 (16): 12-16.

[27] 李雄兵*, 张书增, 陈峰. 多元高斯声束衍射修正下液体非线性系数检测方法. 声学学报. 2016, 41, (6): 515-520.


申请专利

1. 张书增, 李雄兵, 吕铎, 宋永锋. 校验超声压电探头的方法和装置, 018.11.06, 中国, 201811068765.3