姓名:方舟
性别:男
系别:自动化系
职称:副教授
学位:博士
电子邮件:fz@fzu.edu.cn
教育工作经历
2023.02至今,bat365app官网入口登录,副教授
2021.07入选bat365app官网入口登录旗山学者(海外项目)
2021.06入职bat365app官网入口登录
2020.11~2021.01,香港理工大学,航空与航空工程系,博士后
2020.02~2020.10,香港城市大学,先进制造与系统管理系,博士后
2015.09~2020.02,香港城市大学,先进制造与系统管理系,博士
2011.09~2014.07,北京工业大学,材料与制造学部,仪器科学与技术专业,硕士
2007.09~2011.07,中国石油大学(北京),机械与储运工程学院,机械设计制造及其自动化专业,学士
科研简介
1.国家自然科学基金—青年科学基金项目(52205557),基于非对称导波的圆管结构早期疲劳裂纹的非线性超声检测与定位方法,在研,主持;
2.福建省自然科学基金青创项目(2023J01230170),基于非对称导波能量周向分布变化的聚乙烯管焊接接头缺陷检测方法研究,在研,主持;
3.bat365app官网入口登录科研启动项目(GXRC21057),基于电磁传感器设计的非线性超声导波奥氏体不锈钢探伤的研究,在研,主持;
学术兼职
NDT&E international, Measurement, Smart Materials and Structures, Thin-Walled Structures, Nondestructive testing and evaluation, Measurement Science and Technology等期刊的审稿人。
研究方向
1、超声导波无损检测与评估
2、结构健康监测
3、智能传感器技术
专利
1 Peter W. Tse, Zhou Fang, Apparatus for magnetostrictive sensor for guided-wave-based inspection, and its associated system and method, Patent No . : US 10 , 181 , 371 B1. Jau. 15, 2019(美国专利).
2 吴斌, 方舟, 刘增华, 钢花管导波检测用的双环一体式压电片夹持装置。专利号:ZL 2014 2 0244266.6(实用新型).
3 吴斌, 方舟, 刘增华, 超声导波锚索长度测量软件, 2013。登记号:2013SRBJ0235(软件著作权).
学术论文
1 Zhou Fang*, A review of non-axisymmetric guided waves and their corresponding transducers for defect detection in circular tube structures, Smart Materials and Structures, vol. 32, April 2023.
2 Zhou Fang*, Peter W. Tse, Characteristics of Spiral Lamb Wave Triggered by CL-MPT and Its Application to the Detection of Limited Circumferential Extent Defects and Axial Extent Evaluation within Pipes, IEEE Transactions on Instrumentation and Measurement, vol. 70, June 2021.
3 Zhou Fang*, Peter W. Tse, Fan Xu, Characterization of a Partially Covered AM-MPT and its Application to Damage Scans of Small Diameter Pipes Based on Analysis of the Beam Directivity of the MHz Lamb wave, IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, vol. 67:2717-2730, Dec 2020.
4 Zhou Fang, Peter W. Tse*, Demagnetization-based axial magnetized magnetostrictive patch transducers for locating defect in small-diameter pipes using the non-axisymmetric guided wave. Structural Health Monitoring-an international journal, vol. 18:1738-60, Oct 2019.
5 Zhou Fang, Peter W. Tse*, Axial magnetized patch for efficient transduction of longitudinal guided wave and defect identification in concrete-covered pipe risers, Structural Control and Health Monitoring, vol. 25, Oct 2018.
6 Zhou Fang, Peter W. Tse*, Methodology for circumferential localisation of defects within small-diameter concrete-covered pipes based on changing of energy distribution of non-axisymmetric guided waves, Applied Acoustics, vol. 168, May 2020.
7 Zhou Fang, Peter W. Tse, Fan Xu*, The application of a reflected non-axisymmetric torsional guided wave model for imaging crack-like defects in small-diameter pipes, Measurement Science and Technology, vol. 32:1-20, Dec 2020.
8 Peter W. Tse*, Zhou Fang, NG Kim Ming, Novel Design of a Smart and Harmonized Flexible Printed Coil Sensor to Enhance the Ability to Detect Defects in Pipes, NDT&E International, vol. 103, pp. 48-61, April 2019.
9 Fan Xu, Zhou Fang*, Ruoli Tang, Xin Li, Kwok Leung Tsui, An unsupervised and enhanced deep belief network for bearing performance degradation assessment, Measurement, vol. 162, pp. 107902-107911, Oct 2020.
10 Javad Rostami, Peter W. Tse*, Zhou Fang, Sparse and Dispersion -Based Matching Pursuit for Minimizing the Dispersion Effect Occurring When Using Guided Wave for Pipe Inspection, Materials, vol. 10, pp. 622, Oct 2017.
11 Peter W. Tse *, Zhou Fang, Defect identification in concrete-covered pipe by using smart magnetostrictive patch transducer and demagnetizing factors, Far East NDT 2018, Xiamen, China.
12 Peter W. Tse*, Zhou Fang, Investigation on empowering one direction emission of guided waves to avoid undesired reflections from other pipe attachments, 42nd Annual Review of Progress in Quantitative Nondestructive Evaluation 1706, 030015 (2016).
13 吴斌*, 方舟, 刘增华, “锚固条件下矿用锚索中纵向导波的传播特性的实验研究”——《振动与冲击》vol. 33(15), pp.189, 2014.
14 吴斌*, 方舟, 刘增华, “低频扭转模态在钢花管中传播特性的数值模拟”——《北京工业大学学报》 vol. 41(6), pp.801, 2015.