杨朝晖
时间:2024-04-06 01:37 来源: 作者: 点击:次
个人经历 personal experience 工作经历 教育经历 2014年——至今,西北工业大学,航空学院,副教授 2006年——2014年,西安交通大学,机械工程,工学博士2010年——2011年,University of Alberta,Mechanical Engineering,联合培养 教育教学教育教学 Education and teaching 教育教学 招生信息 《安全检测原理与技术》,2学分,本科生课程《现代航空检测技术》,2学分,研究生课程 每年计划招收硕士研究生3名,欢迎对仿生飞行器设计、空天核心部件可靠性以及人工智能等方向有兴趣的同学加入;邮箱:zhaohui@nwpu.edu.cn 荣誉获奖科学研究 Scientific Research 1.国家自然科学基金面上项目,昆虫翅翼变形传递机制的微型扑翼飞行器柔性翅翼设计方法研究,2023~2026,主持;2.XX项目,XX三维动态重构技术研究,2021~2022,主持;3.XX项目,XX失效机理与模型研究,2020~2024,主持;4.XX工程,XX低温试验装置研制,2020~2023,主持;5.XX项目,XX成像挂飞试验,2022~2023,主持;6.XX项目,XX轴承验证试验,2021~2022,主持;2.深圳市科创委基础研究(面向项目),卫星姿控飞轮寿命预测方法研究,2020~2023,主持;3.陕西省自然科学基础研究计划,重型运载火箭发动机涡轮泵轴承转移膜润滑机理与热失稳分析,2019~2021,主持;4.中国博士后科学基金(特别资助),液氧/氢环境下高速球轴承保持架动力学行为与失效预测,2017~ 2019,主持;5.国家重点实验室开放课题研究基金,液体火箭发动机涡轮泵主轴承保持架动力学行为与失效预测,2017~2019,主持;6.国家自然科学基金青年项目,混合润滑状态下超高速球轴承微剥落机理及精度早期失效预测,2016~2018,主持;7.国防XX项目(子课题),XX机构功能演化模型与方法研究,2015~2018,主持;8.中国博士后科学基金(一等),混合润滑状态下航空发动机主轴承早期失效预测方法研究,2015~2017,主持;9.航天科技创新基金,液体火箭发动机涡轮泵轴承早期失效预测方法,2016~2017,主持;10.陕西省自然科学基础研究计划,涡轮风扇发动机主轴承微剥落机理及精度早期失效预测,2016.1~2017.12,主持;11.中央高校基础研究计划,考虑混合润滑状态与粗糙度的滚滑接触表面微剥落机理研究,2015.1~2016.12,主持。 科学研究学术成果 Academic Achievements [1]Zhaohui Yang, Xiaoliang Niu, Chonghe Li, Ningning Zhou. Experimental investigation of the influence of the pocket shape on the cage stability of high-precision ball bearings[J], Precision Engineering, 2023, 82(3), 62-67. SCI 二区, https://doi.org/10.1016/j.precisioneng.2023.02.010)[2]Xiaoliang Niu, Zhaohui Yang, Ningning Zhou, Chonghe Li. A novel method for cage whirl motion capture of high-precision bearing inspired by U-Net [J]. Engineering Applications of Artificial Intelligence. 2023, 117(1), 105552. (SCI一区, DOI10.1016/j.engappai.2022.105552).[3]Zhaohui Yang, Xiaoliang Niu, Chonghe Li. Experimental Study on Cage Dynamic Behavior of Long-Life High-Precision Ball Bearing With Trajectory Deviation [J]. IEEE Transactions on Instrumentation and Measurement. 2022, 71. 5011511. (SCI二区, DOI10.1109/TIM. 2022.3171605).[4]Zhaohui Yang, Chonghe Li, Ningning Zhou, Xiaojun Yang. Study on influence of micro-pitting on non-repetitive run-out of high-precision ball bearings[J]. Engineering Failure Analysis. 2022, 138(8), 106372. (SCI二区,DOI10.1016/j.engfailanal.2022. 106372)[5]Zhaohui Yang, Chonghe Li, Ningning Zhou, Jiyang Zhang. Research on the cage stability of high-precision ball bearing with image acquirement and error separation[J], Measurement. 2021, 186(12), 110149. (SCI二区, DOI10.1016/j.measurement. 2021.110149).[6]Zhaohui Yang, Wenrong Yang, Tianshi Gao, Yu Zhang. Tolerance analysis method considering multifactor coupling based on the Jacobian–torsor model[J]. Advance in Mechanical Engineering. 2022, 14(12). (SCI四区, DOI10.1177/16878132221140215).[7]Zhaohui Yang, Fan Guo, Jiexin Weng, Fei Du. Cage structural topology optimization considering thermo-mechanical coupling[J]. Advance in Mechanical Engineering. 2022,14(12). (SCI四区, DOI10.1177/16878132 221139969).[8]Zhaohui Yang, Tianhua Xiong, Fei Du, Baotong Li. Topology Optimization of Stiffener Layout Design for Box Type Load-Bearing Component under Thermo-Mechanical Coupling[J]. CMES-Computer Modeling in Engineering & Sciences, 135(2), 1701–1718. (SCI四区, DOI10.32604/cmes.2023.022758)[9]Zhaohui Yang, Hui Chen, Tianxiang Yu. Effects of rolling bearing configuration on stiffness of machine tool spindle [J]. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science. 2018, 232(5): 775-785 (SCI四区, DOI10.1177/ 0954406217693659).[10]Zhaohui Yang, Tianxiang Yu, Yugang Zhang, Zhongchao Sun. Influence of cage clearance on the heating characteristics of high-speed ball bearings [J]. Tribology International, 2017, 105(1): 125-134. (SCI)[11]Zhaohui Yang, Hui Chen, Baotong Li. A high-precision instrument for analyzing nonlinear dynamic behavior of bearing cage [J]. Review of Scientific Instruments, 2016, 87(8): 085105. (SCI)[12]Zhaohui Yang, Baotong Li, Tianxiang Yu. Influence of structural parameters and tolerance on stiffness of high-speed ball bearings [J]. International Journal of Precision Engineering and Manufacturing, 2016, 17(11): 1493-1501. (SCI)[13]Zhaohui Yang, Baotong Li, Tianxiang Yu. Distortion optimization of engine cylinder liner using spectrum characterization and parametric analysis [J]. Mathematical Problems in Engineering, 2016, 2016(7): 1-11. (SCI)[14]Jianlin Xuan, Zhaohui Yang, Peng Nian, Dongfu Ma. Calculation Methods of Flight Performance of Flapping Wing Aircrafts Based on Energy Theory and Slipstream Theory [J]. IEEE Access, 2018(6):68176-68183 (SCI二区,通讯).[15]杨朝晖,高天石,李崇赫等.基于新一代几何技术规范的装配误差建模[J].计算机集成制造系统:1-14[2023-02-19]. (EI)[16]Zhaohui Yang, Xiaoliang Niu, Tianhua Xiong, Ningning Zhou. Cage Mass Center Capture for Whirl Analysis Using an Improved MultiResUNet from the Multimodal Biomedical Image Segmentation [C]. Neural Computing for Advanced Applications. 2022, 1638(EI: 20224813178720)[17]Zhaohui Yang, Jianlin Xuan. Research on kinematic reliability of flapping mechanism for flapping wing flight[C]. 2018 European Safety and Reliability Conference (ESREL 2018), June 17-21, 2018, Trondheim, Norway (EI). [18]Zhaohui Yang, Jianlin Xuan. Study on Variation of Pocket Clearance of Cryogenic Ball Bearing Under Extremely Working Condition [C]. 2017 Asia-Pacific International Symposium on Aerospace Technology (APISAT 2017), Oct 16-18, 2017, Seoul, Korean.[19]Zhaohui Yang, Jun Hong, Jinhua Zhang, Michael Yu Wang, Yongsheng Zhu. Nano-level instrumentation for analyzing the dynamic accuracy of a rolling element bearing [J]. Review of Scientific Instruments, 2013, 84(12): 125103. (SCI)[20]Zhaohui Yang, Jun Hong, Jinhua Zhang, Michael Yu Wang. Research on the rotational accuracy measurement of an aerostatic spindle in a rolling bearing performance analysis instrument [J]. International Journal of Precision Engineering and Manufacturing, 2014, 15(7): 1293-1302 (SCI)[21]Zhaohui Yang, Jun Hong, Jian Liu, Yongsheng Zhu. Theoretical model to analyze the non-repetitive run-out (NRRO) of Ball Bearings [J]. Advanced Science Letters, 2011, 4(6-7): 2522-2527. (SCI)[22]Zhaohui Yang, Jun Hong, Jian Liu, Yucheng Ding, Michael Yu Wang. Theoretical method to reduce the non-repetitive run-out (NRRO) of angular contact ball bearings [C]. 2011 IEEE International Symposium on Assembly and Manufacturing (ISAM 2011), May 25-27, 2011, Tampere, Finland (EI).[23]Zhaohui Yang, Jun Hong, Jinhua Zhang, Michael Yu Wang, Baotong Li. A new method to analyze three-dimensional non-repetitive run-out (3D-NRRO) of angular contact ball bearings [C]. ASME 2011 International Mechanical Engineering congress & Exposition (IMECE2011), Nov 11-17, 2011, Denver, United states (EI).[24]Zhaohui Yang, Jun Hong, Jinhua Zhang, Michael Yu Wang, Jian Liu. A new high-precision bearing measuring system for non-repetitive run-out (NRRO) [C]. ASME 2012 International Mechanical Engineering congress & Exposition (IMECE2012), Nov 9-15, 2012, Houston, Texas, United states (EI).[25]杨朝晖, 张进华, 洪军, 姚建国, 王煜. 超高精度滚动轴承旋转精度测试系统误差分析[J]. 浙江大学学报. 2014, 48(6): 1095-1101 (EI). 学术成果综合介绍 |