个人简介
周元生,教授,博士/硕士研究生导师,湖南省高层次人才、湖湘青年英才、湖南省优青项目获得者,博士毕业于Concordia University (Montreal, Canada),目前在机电工程学院车辆工程系担任系主任,在唐进元教授团队从事科学研究,主要研究方向为齿轮传动,对象包括车辆、直升机、飞行汽车、人形机器人等,主持包括国自科项目3项、两机专项课题、国防重点项目课题、重点研发子课题等多项纵向项目,并承担包括与中国航发608所、300厂及长沙哈量凯帅等企业合作的多项横向项目,担任多个SCI期刊编委/青年编委。
我们强调科学技术与工业界的结合,与工业界有十分紧密的合作,在解决实际工业问题的基础上产出高质量的科学研究学术成果,在Transactions of ASME, Mechanism and Machine Theory,Computer-Aided Design, International Journal of Machine Tools and Manufacture等期刊发表多篇学术论文。
当前课题组承担一系列重要项目,亟需有识之士加入我们团队,攻克我国当前工业界中的一些‘卡脖子’问题,掌握核心技术,为提升我国工业竞争力而奋斗,十分欢迎对科研感兴趣的同学加入本团队进行硕士、博士及博士后研究,在这里你将获得最优质的资源,成为最优秀的科技工作者。
联系邮箱zyszby@163.com或者zyszby@csu.edu.cn
主要研究方向
智能制造 & 数字化制造, Intelligent Manufacturing & Digital Manufacturing
齿轮设计及制造 Gear Design and Manufacturing
数控加工、测量及装备 CNC Machining,Measurement and Equipments
计算机辅助设计、制造、分析、优化 CAD/CAM/CAE/CAO
工业用设计制造软件开发 Development of Industry Softwares about the Design and Manufacturing
部分主持项目
1 一种融合锥齿轮齿形的新型大接触区面齿轮设计制造关键技术研究 国家自然科学基金委-面上项目 2025
2 锥形斜齿面齿轮高效精密蜗杆磨削原理与技术研究 国家自然科学基金委-面上项目 2021
3 啮合性能驱动的螺旋锥齿轮五轴侧铣关键技术研究 国家自然科学基金委-青年项目 2018
4 LJZX2021ZYS01 国防科研-国防科工局项目 2021
5 ZGHF2025ZYS01 国防工业类 2025
6 LJYY2024ZYS01 国防科研-装备预研项目 2024
7 JCJQ2021CSY01 国防科研-军委科技委项目 2021
8 人形机器人关节减速器关键技术研究与应用 湖南省重点研发 2025
9 湖南省高层次人才项目 省级人才项目 2025
10 七轴五联动磨齿机关键技术 -湖南省重点研发计划项目课题 2023
11 湖湘青年英才 湖南省湖湘青年创新创业培养平台入选对象 2021
12 内齿轮硬齿面车珩复合加工创成机制及高性能工具设计制造 科技部-十三五重点研发计划 2025
13 齿轮传动系统数字化设计分析软件开发 国家部委-国家重点研发计划 2018
14 齿轮传动系统数字化设计理论与方法研究 科技部-十三五重点研发计划 2018
15 五轴激光机床误差分析与稳定性研究 技术开发(科技) 2025
16 分扭环境系统面齿轮建模与接触印痕设计技术研究 技术开发(科技) 2023
17 齿轮相交轴变厚齿轮技术开发设计 服务(科技) 2024
18 直斜齿面齿轮高效车齿与磨齿技术提升及应用技术 技术开发(科技) 2023
19 非对称高重合度圆柱齿轮行星轮系设计理论研究 技术开发(科技) 2024
20 行星传动机构多节点润滑流量测试 技术开发(科技) 2024
部分代表性论文
[1] Xinxin Lu, Yuansheng Zhou*, Dong He, Fangyan Zheng, Kai Tang, Jinyuan Tang. A novel two-variable optimization algorithm of TCA for the design of face gear drives, Mechanism and Machine Theory, 175 (2022), 104960. https://doi.org/10.1016/j.mechmachtheory.2022.104960.
[2] Shenghui Wang, Yuansheng Zhou*, Jinyuan Tang, Kai Tang. Zhengminqing Li, Digital tooth contact analysis of face gear drives with an accurate measurement model of face gear tooth surface inspected by CMMs, Mechanism and Machine Theory, 167 (2022) 104498. https://doi.org/10.1016/j.mechmachtheory.2021.104498.
[3] Zhongwei Tang, Yuansheng Zhou*, Shenghui Wang, Jiang Zhu, Jinyuan Tang. An innovative geometric error compensation of the multi-axis CNC machine tools with non-rotary cutters to the accurate worm grinding of spur face gears, Mechanism and Machine Theory, 169 (2022), 104664. https://doi.org/10.1016/j.mechmachtheory.2021.104664.
[4] Yuansheng Zhou*, Zhongwei Tang, Xianlin Shi, Jinyuan Tang, Zhengminqing Li*. Efficient and accurate worm grinding of spur face gears according to an advanced geometrical analysis and a closed-loop manufacturing process. Journal of Central South University, 29 (2022), 1–13. https://doi.org/10.1007/s11771-021-4830-7.
[5] Xu, Hao, Yuansheng Zhou, Yuhui He, and Jinyuan Tang. An Efficient Approach to the Five-Axis Flank Milling of Non-Ferrous Spiral Bevel Gears, Materials, 14 (17), 2021, 4848. https://doi.org/10.3390/ma14174848.
[6] Shenghui Wang, Yuansheng Zhou, Xinru Liu*, Shengjun Liu, Jinyuan Tang. An advanced comprehensive approach to accurately modeling the face-milled generated spiral bevel gears, Journal of Computing and Information Science in Engineering,Transactions of ASME, 21 (4), 2021, 041008.
[7] Xianhuan Liu, Yuansheng Zhou*, Jinyuan Tang A comprehensive adaptive approach to calculating the envelope surface of the digital models in CNC machining, Journal of Manufacturing Systems, 57, 2020, 119-132.
[8] Xianlin Shi, Yuansheng Zhou*, Jinyuan Tang, Zhengminqing Li. An innovative generated approach to dressing the worm for grinding spur face gears, Manufacturing Letters, 25, 2020, 26-29.
[9] Yuansheng Zhou*, Yuanhan. Wu, Liming Wang*, Jinyuan. Tang, Hongwu Ouyang. A new closed-form calculation of envelope surface for modeling face gears, Mechanism and Machine Theory, 137 (2019) 211-226.
[10] Yuansheng Zhou*, Shenghui Wang, Liming Wang, Jinyuan Tang, Zezhong.C. Chen. CNC milling of face gears with a novel geometric analysis, Mechanism and Machine Theory, 139 (2019) 46-65.
[11] Yuansheng Zhou, Shandong Peng, Xinru Liu*, Shengjun Liu, Jinyuan Tang. A novel method to generate the tooth surface model of face-milled generated spiral bevel gears, The International Journal of Advanced Manufacturing Technology, 102 (2019): 1205.
[12] HuichengYi,Yuansheng Zhou*, Shenghui Wang, Liming Wang, Jinyuan Tang, Zezhong C. Chen. Simulations and error analysis of the CNC milling of a face gear tooth with given tool paths, Data in Brief, 25 (2019): 104145.
[13] Shenghui Wang, Yuansheng Zhou*, Jinyuan Tang, Zhao Xiao. An adaptive geometric meshing theory for the face-milled generated spiral bevel gears, Forschung im Ingenieurwesen, 83, (2019):775–780.
[14] Xianlin Shi, Yuansheng Zhou*, Wuji Zhang, Jinyuan Tang. A new worm grinding method of face gears based on the optimization of dressing wheel profile, Forschung im Ingenieurwesen, 83, (2019):751–757.
[15] Yuanhan Wu, Yuansheng Zhou*, Zhenyu. Zhou, Jinyuan Tang, Hongwu Ouyang. An advanced CAD/CAE integration method for the generative design of face gears, Advances in Engineering Software, 126 (2018) 90-99.
[16] Han Ding, Zhigang Wan, Yuansheng Zhou*, Jinyuan Tang. A data-driven programming of the human-computer interactions for modeling a collaborative manufacturing system of hypoid gears by considering both geometric and physical performances. Robotics and Computer Integrated Manufacturing. 2018, 51, 121-138.
[17] Yuansheng Zhou, Zezhong C. Chen, Jinyuan Tang*, Shengjun Liu*. An innovative approach to NC programming for accurate five-axis flank milling of spiral bevel or hypoid gears, Computer-Aided Design, 2017, 84: 15-24.
[18] Yuansheng Zhou, Zezhong C. Chen*, Jinyuan Tang*. A new method of designing the tooth surfaces of spiral bevel gears with ruled surface for their accurate five-axis flank milling, Journal of Manufacturing Science and Engineering, Transactions of ASME, 2017. 139 (6): 061004.
[19] Yuansheng Zhou, Qingshan Wang*, Dongyan Shi, Qian Liang, Zhongyu Zhang. Exact solutions for the free in-plane vibrations of rectangular plates with arbitrary boundary conditions, International Journal of Mechanical Sciences, 2017, 130, 1-10.
[20] Han Ding, Yuansheng Zhou*, Jinyuan Tang*, Jue Zhong, Zhenyu Zhou. A novel operation approach to determine initial contact point for tooth contact analysis with errors of spiral bevel and hypoid gears, Mechanism and Machine Theory, 2017, 109: 155-170.
[21] Han Ding, Guoxin Wang, Yuansheng Zhou*, Jinyuan Tang, Zhenyu Zhou. Nonlinearity analysis based algorithm for identifying machine settings in the tooth flank topography correction for hypoid gears, Mechanism and Machine Theory, 2017, 113: 1-21.
[22] Han Ding, Jinyuan Tang, Yuansheng Zhou*, Jue Zhong, Guoxin Wang. A multi-objective correction of machine settings considering loaded tooth contact performance in spiral bevel gears by nonlinear interval number optimization, Mechanism and Machine Theory, 2017, 113: 85-108.
[23] Han Ding, Jinyuan Tang, Wen Shao*, Yuansheng Zhou, Guoxin Wang. Optimal modification of tooth flank form error considering measurement and compensation of cutter geometric errors for spiral bevel and hypoid gears. Mechanism and Machine Theory, 2017, 118, 14-31.
[24] Yuansheng Zhou, Jinyuan Tang*, Heng Zhou, Feng Yin. Multistep Method for Grinding Face-Gear by Worm, Journal of Manufacturing Science and Engineering, Transactions of ASME, 2016, 138 (7): 071013.
[25] Yuansheng Zhou, Zezhong C. Chen*. A new geometric meshing theory for a closed-form vector representation of the face-milled generated gear tooth surface and its curvature analysis, Mechanism and Machine Theory, 2015, 83(1): 91-108.
[26] Yuansheng Zhou, Zezhong C. Chen*, Xujing Yang. An accurate, efficient envelope approach to modeling the geometric deviation of the machined surface for a specific five-axis CNC machine tool, International Journal of Machine Tools and Manufacture, 2015, 95: 67-77.
[27] 杨旭静*,周元生,陈泽忠,王伏林.五轴数控加工中旋转轴运动引起的非线性误差分析及控制,机械工程学报,2012,48(3):140-146.
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