教师姓名:周进节
教师资料:男,博士,教授,博士生导师
研究方向:检测技术与自动化装置
学科领域:机械工程
个人简介:2012年7月北京工业大学博士研究生毕业,获工学博士学位,现为welcome海洋之神教授、博士生导师、山西省高等学校中青年拔尖创新人才。目前,主要从事恶劣环境下智能检测机器人、自动化测控设备研制,无损检测新方法及仪器关键技术研究。
联系方式:zhoujinjiechina@126.com。
主要论著教学科研:
(1) 简述
主持国家自然科学基金面上项目和青年项目各1项、装发研制项目1项、科技部国家重点研发计划课题2项、国家质检公益行业科研专项任务1项,横向项目多项。发表学术论文60余篇, SCI/EI收录论文40余篇;获得省部级一等奖1项、协会科学技术奖一等奖2项;起草国家标准5项、均已颁布实施;授权国家发明专利20项;出版专著1部。
(2)代表性的成果
部分SCI、EI论文:
[1]Xian FK,Zhou JJ*,Lian XF,Shen JC,Chen YP.Molecular dynamics simulation of crack propagation in very small grain size nanocopper with different grain size gradients, RSC Advances,2024,14(1):616-625
[2]Jinjie Zhou, Jinchuan Shen, Wenying Yue, Yao Liu, Zemei Chen.Molecular dynamics simulation of reinforcement mechanism of graphene_aluminum composites and microstructure evolution,Journal of Materials Research and Technology,2023,23:2147-2159
[3]J.J. Zhou,Y Hu,X Li,Y Zheng,S Yang,Y Liu. Micro-Sized Pinhole Inspection with Segmented Time Reversal and High-Order Modes Cluster Lamb Waves Based on EMATs, Chinese Journal of Mechanical Engineering,2023,36:1-13
[4]Yang Hu,Jinjie Zhou*,Wenying Yue.Research on Crossing-Pipe Support Structure Defect Detection of EMAT-Excited CSH Wave,Sensors, 2023,23,5535:1-14
[5]Jinjie Zhou,Fankai Xian,Jinchuan Shen. Mechanisms during Strain Rate-Dependent Crack Propagation of Copper Nanowires Containing Edge Cracks,Nanomaterials,2023,13:1231-1-14
[6]J Zhou,D Yu,X Li,Y Zheng,Y Liu.Reconstructing echoes completely submerged in background noise by a stacked denoising autoencoder method for low-power EMAT testing, Measurement Science and Technology,2023,34:125910-1-13
[7]J.J. Zhou,S.J. Zhao,Y Zheng,X.Q. Shen,J.T. Zhang. Variational Wavelet Ensemble Empirical (VWEE) Denoising Method for Electromagnetic Ultrasonic Signal in High-Temperature Environment with Low-Voltage Excitation, Chinese Journal of Mechanical Engineering,2022,35:1-14
[8]Shuaijie Zhao,Jinjie Zhou*,Yao Liu,Jitang Zhang,Jie Cui.Application of Adaptive Filtering Based on Variational Mode Decomposition for High-Temperature Electromagnetic Acoustic Transducer Denoising, Sensors,2022,22,7042:1-16
[9]J.J. Zhou,J.C Shen,F.A. Essa,J.G. Yu.Twins and grain boundaries - dominated the reverse Bauschinger effect and tension-compression asymmetry,Journal of Materials Research and Technology,2022,18:15-28
[10]Jinjie Zhou,Jiaqi Bai,Yao Liu.Fabrication and Modeling of Matching System for Air-Coupled Transducer,Micromachines,2022,13:1-15
[11]J Shen,J Zhou*,G Zhao, C Gong,J Yu,Z Xia*,F Xian.Attenuation of the Bauschinger effect and enhancement of tension–compression asymmetry, RSC Advances,2022,12:21235-21246
[12] Zheng Yang,Li Zheng,Zhou Jinjie*, et al.Study on the Change Law of Transverse Ultrasonic Velocity in a High Temperature Material,Research in Nondestructive Evaluation,2021,32(1):38-57
[13] Zheng Yang, Mu Ruijie,Zhou Jinjie*, et al.High-spatial-resolution magnetic Barkhausen noise sensor with shielded receiver,Sensors and Actuators A-Physical,2020,316,112334:1-10
[14]Zhou Jinjie and Zheng Yang.Broadband Linear High Power Amplifier Based on Parallel Amplification Architecture for Electromagnetic Ultrasonic Guided Wave, Sensors,2019,19,2924:1-18
[15]Zhou Jinjie,Cui Shijie.Effect of mismatch degree on mechanical properties of Ni-based single crystal alloy under force-temperature coupling, Materials Research Express,2019,7(6),2924:1-18
[16] 郑阳,张鑫,周进节*,谭继东.周向磁巴克豪森噪声分布及平面应力测量,仪器仪表学报,2021,42(6):75-87
[17] 周进节,贾浩东,郑阳,张宗健.跑道形线圈EMAT有限元建模与声场特性研究,机械工程学报,2020,56(2):9-19
[18] 郑阳,周进节*,张宗健,谭继东.电磁超声检测频率自适应优化方法研究,机械工程学报,2019,55(14):11-18
部分国家发明专利、国家标准、专著及奖励:
[1] 用于管道轴向检测缺陷的窄声束电磁超声传感器及装置, ZL202311514521.4,发明专利、已授权,排名第1
[2] 一种高性能空气耦合超声点聚焦换能器及其制备方法,ZL202311287209.6,发明专利、已授权,排名第1
[3] 一种压电复合材料阵列结构的制备方法,ZL202311234606.7,发明专利、已授权,排名第1
[4] 具有钳位功能的增益可调非接触式超声接收信号处理电路, ZL202311062747.5,发明专利、已授权,排名第1
[5] 基于电磁超声测量铁磁性材料居里温度点的装置及方法, ZL202110575054.0,发明专利、已授权,排名第1
[6] 无损检测 电磁超声脉冲回波式测厚方法,中华人民共和国国家标准GB/T 40730-2021,2022-5-1实施,排名3/16
[7] 管道超声导波时间反转检测技术研究,中国原子能出版社,专著、2018年出版,排名第1
[8] 高温承压设备损伤电磁超声在线检测关键技术研究,省部级科技进步奖一等奖,2020年,排名3/15
[9] 管道腐蚀阵列超声导波无损检测关键技术及仪器研发,协会科学技术奖一等奖,2019年,排名2/15
[10] 电磁超声高温测厚关键技术与应用,协会科学技术奖一等奖,2017年,排名2/15
(3)目前主要在研项目
[1]在役管道支撑处腐蚀电磁超声高阶模态导波时间反转检测方法研究(62071433),国家自然科学基金面上项目,主持
[2]高温支撑遮挡部位电磁超声导波成像检测技术装备研发(2022YFC3005002),国家重点研发计划课题,主持
[3]XXXXXX检测仪器(XXXXXXXX),装发研制项目,主持
[4]金属制设备在线电磁超声无损检测关键技术研究及仪器研制(2016YFF0203003),国家重点研发计划课题,主持
[5]基于相控阵列电磁超声换能器的金属板中导波模态控制方法研究(61601413),国家自然科学基金青年基金项目,主持