
姓 名:王东强
性 别:男
职 称:副教授
职务:系副主任
学 位:博士
个人简介:
王东强,2002年9月至2009年1月就读于必威阿森纳机电公司机械设计制造及其自动化专业,2006年9月获工学学士学位,2009年1月获工学硕士学位。2012年9月至2016年9月就读于西安交通大学机械工程公司机械工程专业,获工学博士学位。2016年6月至今任必威阿森纳机电公司讲师,校级青年骨干教师,硕士生导师。目前主持河南省高等公司重点科研项目2项,中国纺织工业联合会科技指导性项目2项,主持企业合作项目5项,可支配科研经费85万元。
研究方向:
1.机械动力学、NHV
2. 数据采集系统和故障诊断系统的开发
3. 图像识别与算法研究
4.多关节机器人与绳索机器人
5.CFD、多物理场耦合仿真与计算
学术科研项目:
1.基于气固两相流理论的颗粒阻尼复合结构振动与声辐射响应预估(项目批准号:51075316)
2.气-磁场耦合作用下高速气体静压电主轴的关键技术研究(项目批准号:51875586)
3.河南省高等公司重点科研项目:基于颗粒阻尼技术的高速卷绕头的振动控制(项目批准号:20A460030)
4.中国纺织工业联合会科技指导性项目:基于颗粒阻尼技术的高频针刺机的振动控制(项目批准号:2017095)
5.中国纺织工业联合会科技指导性项目:高速卷绕头的振动分析与控制(项目批准号:2019066)
6.河南省高等公司重点科研项目:高频针刺机的振动分析与控制(项目批准号:18B460022)
7.横向项目:熔炼工序坩埚加热装置改进工艺的研发(合同金额:20万元)
8.横向项目:双组分导热硅脂涂胶机的设计(合同金额: 20万元)
9.横向项目:新型高效智能砂型3D打印机铺砂工艺的研发及整机动态特性分析(合同金额: 40万元)
10.横向项目:工业循环水高效智能除垢防腐设备的研发(合同金额:40万元)
获奖情况:
1.西安交通大学第五届NSK机械工程学优秀论文成果奖
2.2016届西安交通大学优秀毕业生(博士)
3.2019年河南省教学技能竞赛工科一等奖
4.河南省省级教学标兵
标志性成果:
[1]Wang Dongqiang, Wu Chengjun, A novel prediction method of vibration and acoustic radiation for rectangular plate with particle dampers [J]. Journal of Mechanical Science and Technology, 2018, 32(7): 3483‑3485 (SCI: GN5CW).
[2]Wang Dongqiang, Wu Chengjun, Yang Ruichao. Prediction of vibration response and acoustic radiation of a thin-walled box with particle dampers using multiphase flow theory of gas-particle[J]. Noise Control Engineering Journal, 2016, 64(1): 85‑98 (SCI: DG3XV).
[3]Wang Dongqiang, Wu Chengjun. A novel prediction method of vibration and acoustic radiation for rectangular plate with particle dampers [J]. Journal of Mechanical Science and Technology, 2016, 30(3): 1021‑1035 (SCI: DG7AX).
[4]Wang Dongqiang, Wu Chengjun. Vibration Response Prediction of Plate with Particle Dampers Using Cosimulation Method[J]. Shock and Vibration, 2015, 2015(Article ID 270398): 14 pages (SCI: CX2RK).
[5]Wang Dongqiang, Wu Chengjun. Parameter estimation and arrangement optimization of particle dampers on the cantilever rectangular plate[J]. Journal of Vibroengineering, 2015, 17 (5): 2503-2520 (SCI: CP6QT).
[6]Wang Dongqiang, Wu Chengjun, Yang Ruichao. Free Vibration of the Damping Beam Using Co-simulation Method Based on the MFT [J]. International Journal of Acoustics and Vibration, 2015. 20(4): 251-257 (SCI: CZ5CJ).
[7]Wu Chengjun, Wang Dongqiang; Yang Ruichao, et al. Acoustic radiation response prediction of thin-walled box with particle dampers using multiphase flow theory of gas-particle[C]. Proceedings of the 43rd International Congress on Noise Control Engineering, Melbourne, Australia, November 16-19, 2014: 617-624 (EI: 20150900584863).
[8]Wang Dongqiang, Wu Chengjun, Yang Ruichao, et al. Forced vibration of the particle-damping beam based on multiphase flow theory of gas-particle[C]. Proceedings of the 21st International Congress on Sound & Vibration, Beijing, China, 13-17 July, 2014: 114-121 (EI: 20150700526219).
[9]Wang Dongqiang, Wu Chengjun, Yang Ruichao. An insight into the analytical models of granular particle damping [J]. Advanced Materials Research, 2013, 819: 13-19 (EI: 20134316904802).
[10]Yuhang Wei, Dongqiang Wang,Gangsheng Li, Hechun Yua, Xuewu Donga and Haiqin Jiang. Research on the descaling characteristics of a new electrochemical water treatment device[J].Water Science & Technology Vol 88 No 10, 2566 doi: 10.2166/wst.2023.365
[11]吴成军,杨瑞超,王东强.基于气体-颗粒两相流理论的颗粒阻尼悬臂梁振动响应预估[J].机械工程学报,2013,49(10):53-61 (EI:20132516433070).
[12]王东强,于贺春,王广洲,李智浩,赵则祥.动静压气体轴承的结构参数设计[J].液压与气动,2019(06)):29-34.
[13]王东强,陈文广,董学武,李明明.非织造针刺机关键技术及减振研究[J].上海纺织科技,2019,47(11):85-89.DOI:10.16549/j.cnki.issn.1001-2044.2019.11.024.
[14]李明明,王东强,陈坤旭,董学武,于贺春,姜海芹.鼠笼弹性支承结构优化设计方法[J].科学技术与工程,2021,21(09):3834-3839.
[15]王东强,陈坤旭,李明明,于贺春.航空发动机双转子试验台临界转速匹配优化[J].机械设计与制造,2021(10):45-52.DOI:10.19356/j.cnki.1001-3997.2021.10.011.
[16]陈坤旭,王东强,董学武,姜海芹.滑动轴承半径间隙对转子系统振动特性影响研究[J].机床与液压,2022,50(14):131-135.
[17]Wei, Fangjie, Dongqiang Wang, and Xi Zhang. "Development and Design of an Online Quality Inspection System for Electric Car Seats." Sensors 24.21 (2024): 7085.
[18]Zhang, Saiwei, Dongqiang Wang, Gangsheng Li, Hechun Yu, Xuewu Dong, and Haiqin Jiang. "Analysis of Influencing Factors on the Efficiency of Electrochemical Scaling Equipment." Water 16, no. 15 (2024): 2171.
[19]Zhang, Saiwei, Dongqiang Wang, Gangsheng Li, Xuewu Dong, and Haiqin Jiang. "Experimental study on the combined effect of electromagnetic and electrochemical processes on descaling and anticorrosion." Water 16, no. 12 (2024): 1644.
[20]Wei, Yuhang, Dongqiang Wang, Gangsheng Li, Xuewu Dong, and Haiqin Jiang. "Research and application progress of electrochemical water softening technology in China." Desalination and Water Treatment 319 (2024): 100425.
[21]Liu, Shoubing, Dongqiang Wang, Renzhou Xing, Jiale Ren, and Wenke Lu. "Research on error correction model of surface acoustic wave yarn tension transducer based on DOA–SVR model." Measurement 226 (2024): 114126
[22]Wei, Yuhang, Dongqiang Wang, Gangsheng Li, Hechun Yu, Xuewu Dong, and Haiqin Jiang. "Research on the descaling characteristics of a new electrochemical water treatment device." Water Science & Technology 88, no. 10 (2023): 2566-2580.
主讲课程:
本科生课程:《工程热力学与传热学》《机械控制工程基础》
研究生课程:《机械系统动力学》
联系方式:
Email: 6541@zut.edu.cn