吕炎

职称职务:教授/博士生导师

E-mail:lvyan@bjut.edu.cn

通讯地址:北京市朝阳区平乐园100号北京工业大学西区基础楼

个人简介

吕炎,1985年生,工学博士,教授,博士研究生导师。2008年7月毕业于北京航空航天大学机械工程及自动化专业,获工学学士学位;2014年7月毕业于北京工业大学机械工程专业,获工学博士学位,并留校任教。其中2010年3月至2011年1月、2012年9月至2012年12月赴台湾成功大学机械系从事合作研究。2018年7月任副教授,2021年1月遴选为博士研究生导师,2021年7月任教授。

在超声无损检测新技术、力学性能超声无损表征方法、先进传感器和无损检测设备研制等方面取得了重要研究进展。在Composite Structures、NDT & E International,Smart Materials & Structures等高水平期刊上,发表论文60余篇,以第一作者或唯一通讯作者发表SCI检索论文40余篇,其中JCR一区10篇(包含Top期刊论文3篇)。申请国家发明专利10余项。担任NDT&E、SNA、Applied Acoustics、JASA、JONE、仪器仪表学报、机械工程学报等期刊审稿人,并荣获仪器仪表学报2021年度杰出审稿专家。2020年入选校内“优秀人才”支持计划。担任中国力学学会实验力学分会实验力学新方法研究组副组长,北京市精密测控技术与仪器工程技术研究中心副主任。

作为项目负责人承担国家重点研发计划“基础科研条件与重大科学仪器设备研发”重点专项1项,主持国家自然科学基金青年基金项目1项、面上项目2项,主持北京市自然科学基金面上项目1项,作为核心骨干,参与重点研发计划“重大科学仪器设备开发”重点专项项目1项、国家自然科学基金国家重大科研仪器研制项目1项、国家自然科学基金面上项目1项。主持企事业委托横向项目10余项。

研究方向

超声无损检测技术及系统研发

智能反演表征方法

锂离子动力电池声学检测技术

教育简历

2008-09至2014-07,北京工业大学,机械工程,博士

2004-09至2008-07,北京航空航天大学,机械工程及自动化,学士

工作履历

博士后工作经历:

2014-09至2016-09,北京工业大学

科研与学术工作经历:

2023-01至今,北京工业大学,信息学部,教授

2021-07至2022-12,北京工业大学,材料与制造学部,教授

2018-07至2021-06,北京工业大学,机械工程与应用电子技术学院,副教授

2015-07至2018-06,北京工业大学,机械工程与应用电子技术学院,讲师

2014-07至2015-06,北京工业大学,机械工程与应用电子技术学院,无

2012-09至2013-01,台湾成功大学,机械系,无

2010-03至2011-01,台湾成功大学,机械系,无

学术兼职

中国力学学会实验力学分会实验力学新方法研究组副组长

北京市精密测控技术与仪器工程技术研究中心副主任

《声学学报》青年编委

《测试技术学报》青年编委

课程教学

本科生教学:

《仪器智能化技术》

《新生研讨课》

《测控技术与仪器前沿》

《测控电路高级实践》

研究生教学:

《应力波动分析与应用》

《Waves & Vibrations》

科研项目

1.阵列超声导波检测仪,国家重点研发计划“基础科研条件与重大科学仪器设备研发”专项

2.锂离子电池内部全场状态参数的声学无损表征方法研究,国家自然科学基金面上项目,(No.12072004)

3.功能梯度材料弹性性能的声学表征方法研究,国家自然科学基金面上项目,(No.11872082)

4.基于超声显微镜的功能梯度材料力学性能评价方法研究,国家自然科学基金青年项目,(No.51505013)

5.器件冗余物颗粒碰撞噪声智能检测技术研究,北京市自然科学基金面上项目,(No.3192006)

6.用于微粒碰撞噪声检测(PIND)的压电传感器研制,北京市科委项目,(No.Z161100005016075)

7.基于谐振腔法的材料电磁参数测量技术研究,企业委托项目,(No.5820180013)

8.双通道水浸超声C扫描系统,企业委托项目,(No.5820170026)

9.金属玻璃及合金材料弹性模量超声法测试,企业委托项目,(No.40001013201709)

10.接触网零部件无损探伤技术研究,企业委托项目,(No.46001013201602)

11.风机主轴表面缺陷无损检测系统开发,企业委托项目,(No.46001013201704)

荣誉和获奖

1、中国职业安全健康协会科学技术奖,管道腐蚀阵列超声波导无损检测关键技术及仪器研发,2019-1-03-04

2、中国铁路上海局集团有限公司科学技术进步奖,接触网零部件超声波无损探伤技术,ST18-2-051-D11

3、中国石油和化工自动化应用协会科技进步奖、青年突出科技贡献奖,2022KXJSJ-JB111-2-R01、2022KXJSJ-QNTCGX016。

4、IEEE 11th International Conference on Information Communication and Networks (ICICN 2023), Best Young Scientist Award

研究论文

[1]Gao J,Lyu Y*, Chen H, et al. Guided waves propagation in lithium-ion batteries: Theoretical modeling and experimental analysis[J].NDT & E International, 2024, 145: 103102.

[2]Jie G, Liangheng Z,Yan L*, et al. Ultrasonic guided wave measurement and modeling analysis of the state of charge for lithium-ion battery[J].Journal of Energy Storage, 2023, 72: 108384.

[3]Lin X,Lyu Y, Gao J*, et al. A Polynomial Approach for Thermoelastic Wave Propagation in Functionally Gradient Material Plates[J].Journal of Nondestructive Evaluation, 2024, 43(3): 78.

[4]Gong R,Lyu Y*, Song G, et al. Finite element simulation of bonding defects in cementing casing based on circumferential SH guided waves[J].Frontiers in Materials, 2023, 10: 1195152.

[5]Bian Z, Wu B, Liu B,Lyu Y*, et al. Characterization of Bonding Defects in Fiber-Reinforced Polymer-Bonded Structures Based on Ultrasonic Transmission Coefficient[J].Materials, 2024, 17(5): 1080.

[6]Li Y,Lyu Y*, Wu B, et al. Experimental Investigation of Bonding Quality for CFRP Bonded Structures with Thick Adhesive Layers Based on Ultrasonic Transmission Coefficient Spectrums[J].Journal of Nondestructive Evaluation, 2024, 43(1): 17.

[7]Binpeng Z,Yan L*, Jie G, et al. Ultrasonic reflection/transmission characteristics for state of charge of li-ion battery[J].Applied Acoustics, 2023, 214: 109687.

[8]Bian Z, Wu B, Gao J*, Song G, Zheng Y,Lyu Y, He C. Weak bond evaluation of lap bonding structures by SH guided waves using EMATs[J].Nondestructive Testing and Evaluation, 2024: 1-21.

[9]Zhang B,Lyu Y*, Gao J, et al. Ultrasonic characterization of multi-layered porous lithium-ion battery structure for state of charge[J].Ultrasonics, 2023, 134: 107060.

[10]Guorong S, Ce B,Yan L* et al. Guided wave focusing imaging detection of pipelines by piezoelectric sensor array[J].Journal of Sensors, 2022;2022(1):4731341.

[11]Gao J, Zhang J,Lyu Y* et al. Lamb waves propagation characteristics in functionally graded sandwich plates[J].Sensors, 2022, 22(11):4052.

[12]Song G, Li Y,Lyu Y* et al. Ultrasonic reflection characteristics of Lithium-ion battery based on Legendre orthogonal polynomial method[J].Ultrasonics, 2022, 124:106736.

[13]Jie G,Yan L*, Fang Mz, et al. Modeling guided wave propagation in multi-layered anisotropic composite laminates by state-vector formalism and the Legendre polynomials[J].Composite Structures, 2019, 228:111319.

[14]Gao J ,Yan L* , Zheng M , et al. Modeling guided wave propagation in functionally graded plates by state-vector formalism and the Legendre polynomial method[J].Ultrasonics, 2019, 99:105953.

[15]Li Y, He C,Lyu Y*, et al. Crack detection in monocrystalline silicon solar cells using air-coupled ultrasonic lamb waves[J].NDT & E international, 2019, 102(MAR.):129-136.

[16]Cheng J, He C,Yan L*, et al. Method for evaluation of surface crack size of wind turbine main shaft by using ultrasonic diffracted waves[J].SMART MATERIALS & STRUCTURES, 2020, 29(7):075009.

[17]He C , Li Y ,Yan L* , et al. Ultrasonic reflection characteristics of FRP-to-FRP bonded joints with thick adhesive layers for bonding evaluation: Theoretical analysis[J].Composite Structures, 2020, 246:112402.

[18]Cheng J, He C ,Yan L* , et al. Ultrasonic inspection of the surface crack for the main shaft of a wind turbine from the end face [J].NDT & E international, 2020, 114(9):102283.

[19]Cheng J,Lyu Y, Chen H, et al. Electromagnetic acoustic transducer for receiving longitudinal wave in the central hole of the wind turbine main shaft.SMART MATERIALS & STRUCTURES, 2021.

[20]Song G , Zhang B ,Yan L* , et al. Strain omnidirectional detection based on circular patch antenna[J].Sensors and Actuators A Physical, 2020, 315:112275.

[21]Song G , Zhang B ,Yan L*, et al. Application of frequency doubling in micro-strip patch antenna for wireless strain detection[J].Sensors and Actuators A Physical, 2020:112403.

[22]Jie G ,Yan L*, et al. Application of state vector formalism and Legendre polynomial hybrid method in the longitudinal guided wave propagation analysis of composite multi-layered pipes[J].Wave Motion, 2020, 100.

[23]Gao J,Yan L*, Zheng M , et al. Analysis of Longitudinal Guided Wave Propagation in the Functionally Graded Hollow Cylinder Using State-Vector Formalism and Legendre Polynomial Hybrid Approach[J].Journal of Nondestructive Evaluation, 2021, 40(1):1-13.

[24]Jie G,Yan L, Guorong Song, et al. Legendre orthogonal polynomial method in calculating reflection and transmission coefficients of fluid-loaded functionally gradient plates[J].Wave Motion, 2021.

[25]Mingfang Zheng, Cunfu He*,Yan Lu, Bin Wu.Guided waves propagation in anisotropic hollow cylinders by Legendre polynomial solution based on state-vector formalism [J].Composite Structures. 2019,207:645-657.

[26]Huamin Zhao,Cunfu He,Lyu Yan*, et al. Development of a Flexible Broadband Rayleigh Waves Comb Transducer with Nonequidistant Comb Interval for Defect Detection of Thick-Walled Pipelines[J].Sensors, 2018, 18(3).

[27]Yan L*, Jie G, Guorong S, et al. Measurements of LiNbO3Properties by Multi-parameter Inversion Based on Acoustic Microcopy[J].Journal of Nondestructive Evaluation, 2018, 37(3):56.

[28]Guorong Song, Mingkun L ,Yan L*, et al. Application of Legendre orthogonal polynomial method in calculating reflection and transmission coefficients of multilayer plates[J].Wave Motion, 2019,84:32-45.

[29]G.R. Song, M.K. Liu,Y. Lyu*, B. Wu, C.F. He. Application of improved orthogonal polynomial method in calculating dispersioncurves on layered semi-infinite structure,ASA32, 022001 (2017).

[30]Song Guorong ; Sun Tingting;Lv Yan*; Yan Tianting; Wang Xuedong; He Cunfu; Wu Bin, Wireless Strain Measurement Based on a Microstrip Patch Antenna,Transactions of Najing University of Aeronautics and Astronautics, 2017, 34(5): 477-486.

[31]Y. Lyu*, J. Gao, G.R. Song, B. Wu, C.F. He. Modelling Guided Waves in Layered Media Materials using the State-vector Formalism and Legendre Polynomial Method,ASA32, 022003 (2017).

[32]Zhang Xuecong, He Cunfu,Lu Yan*, Wu bin. Generating guided waves in isotropic plates for defect detection with a bulk shear wave transducer [J].Journal of the Chinese Society of Mechanical Engineers. 2017, 38(6): 683-694.

[33]He C, Deng P,Lu Y, et al. Estimation of surface crack depth using Rayleigh waves by electromagnetic acoustic transducers[J].International Journal of Acoustics and Vibration, 2017, 22(4): 541-548.

[34]He C, Wang Y,Lu Y, et al. Design and fabrication of air-based 1-3 piezoelectric composite transducer for air-coupled ultrasonic applications[J].Journal of Sensors, 2016.

[35]Song G, Qin D,Lyu Y, et al. Finite Element Modeling and Wave Propagation Analysis for Lens-Less Line Focus Acoustic Microscopy[J].International Journal of Acoustics and Vibration, 2017, 22(4): 511-518.

[36]Mingfang Zheng,Cunfu He*,Yan Lu, and Bin Wu. State-vector Formalism and the Legendre Polynomial Solution for Modelling Guided Waves in Anisotropic Plates[J].Journal of Sound and Vibration. 2018, 412: 372-388.

[37]HE C*, ZHANG X,LU Y,et al. Sound fields radiated from a linear phased array based on analytical solutions of transient elastic waves [J].Wave Motion, 2017, 73:86-95.

[38]Zhang X, He C,Lu Y*, et al. Calculation of displacements in a half-space from a linear array based on analytical solutions of transient wave[C]//MATEC Web of Conferences. EDP Sciences, 2017, 104: 02014.

[39]Mingfang Zheng, Cunfu He,Yan Lu*and Bin Wu. Modelling guided waves in anisotropic plates using the Legendre polynomial method.MATEC Web Conf., 104 (2017) 02015

[40]S. Guorong*, Lu Dong,Lu Yan*,Hongshi Liu, G. Zhongyang,W. Bin, H. Cunfu,Velocity measurements of cylindrical surface waves with a large aperture line-focus acoustic transducer[J].Measurement, 90(2016), 103-109.

[41]S. Guorong*, Y. Tianting, H. Cunfu, Yang Shen,Lu Yan. Detection of Surface Crack on the Substrate under Thermal Barrier Coatings Using Microwave Non-Destructive Evaluation[J].Journal of Microwave Power and Electromagnetic Energy, 49(2015), 69-75.

[42]Chun-I Lin*,Yan Lu, Cunfu He, Guorong Song, Yung-Chun Lee. Measurement of circumferential Lamb waves using a line-focus poly(vinylidene fluoride) transducer and cross correlation waveform analysis.Journal of the Acoustical Society of America, 138, 2738-2743 (2015)

学校地址:北京市朝阳区平乐园100号
邮政编码:100124

  • 北京工业大学
    研究生招生

  • 北京工业大学
    研究生教育

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