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唐进元
做学生的良师益友

个人简介

唐进元:中南大学二级教授,教学名师,博士生导师;现任中南大学高性能复杂制造国家重点实验室副主任,历任机电工程学院副院长(2002-2010)。兼职:中国机械工程学会机械传动分会副干事长,中国机械工程学会机床专业委员会常务理事,全国齿轮标准化委员会委员,全国高等学校《机械原理》教研会理事 ,湖南省高等学校《机械原理》教研会理事长,湖南省大学生机械创新设计大赛组委会副主任,长沙数控装备产业技术联盟秘书长,中南大学工程建模与科学计算研究所学术委会主任.

职业信念:尽最大的努力,关心学生、帮助学生、指导学生

1、科学研究

长期从事“以齿轮传动为主要载体的复杂曲面宏/微观形貌设计制造”研究,承担与完成了相关科研课题60余项,获得与申请机械设计制造方面的专利18项,获机械设计制造软件著作权6项,1997年获国家教学成果二等奖:《创新素质教育模式研究与改革实践》获(排名第三)《YK2045数控螺旋锥齿轮磨齿机》成果获2004年度中国机械工业科学技术奖二等奖。在国内外刊物发表科研论文300多篇,其中170多篇被SCI、EI数据库收录(sci 70多篇),内容涉及及其齿轮传动设计制造、机械动力学、数控机床与数字化制造与检测、专用机械产品设计制造等方面。

所领导的团队在“以齿轮传动为主要载体的复杂曲面宏/微观形貌设计制造”领域的研究工作处于国内领先地位,建设目标是:国际一流的研究团队与平台。

研究方向从学科发展的角度属于前沿、朝阳方向,从工业应用角度是2025高端制造急需的技术。

2、在研科研项目:

1)国家自然科学基金重点项目:高性能齿轮表面微观形貌及表面完整性设计制造基础研究,360万元,项目负责人,2016.1-2020.12

2) 国家自然科学基金-河南省联合基金重点项目:高性能齿轮的抗疲劳制造基础理论与关键技术研究 , 2017.1月-2020. 12,260万元,项目负责人

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3)湖南省科技厅,高档数控机床智能制造核心技术基础与应用研究,180万元,项目负责人,2016-2019

4) 各类其它项目(含军工、企业委托项目等)多项,年经费200万元左右。

3、2015年发表的论文: [1] Chen H F , Tang J Y. A model for prediction of surface roughness in ultrasonic-assisted grinding[J]. International Journal of Advanced Manufacturing Technology,2015,77:643-651.(SCI,IF:1.779)

[2] Chen S Y, Tang J Y, Hu Z H. Comparisons of gear dynamic responses with rectangular mesh stiffness and its approximate form[J]. Journal of Mechanical Science and Technology, 2015,29 (7) :1-7. (SCI,IF: 0.703)

[3] Hu Z H, Tang J Y, Chen S Y, Sheng Z H. Coupled translation-rotation vibration and dynamic analysis of face geared rotor system[J]. Journal of Sound and Vibration,2015,351:282-298.

(SCI, IF:1.857)

[4] Zhou W, Tang J Y and He Y F.
Formulae of roughness peak distribution parameters with standard deviation and correlation length[J]. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology,2015. DOI:10.1177/1350650115579212 (SCI,IF: 0.660) [5] He Y F, Tang J Y, Zhou W, Liao D R. Research on the Obtainment of Topography Parameters by Rough Surface Simulation With Fast Fourier Transform[J]. ASME Journal of Tribology,2015, 137(3), 031401. ( SCI,IF:1.142)

[6] Chen S Y, Tang J Y, Li Y P, Hu Z H.
Rotordynamics analysis of a double-helical gear transmission system[J].Meccanica,2015,50(6). (SCI, IF:1.949)

[7] Sheng Z H, Tang J Y, Chen S Y, Hu Z H. Modal Analysis of Double-Helical Planetary Gears With Numerical and Analytical Approach[J]. ASME Journal of Dynamic Systems, Measurement, and Control,2015,137(4), 041012. (SCI,IF: 1.175)

[8] Ding H, Tang J Y, Zhou Z Y and Cui W. Tooth flank reconstruction and optimizations after simulation process modeling for the spiral bevel gear[J].
Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science,2015.

DOI: 10.1177/0954406215592922 (SCI,IF: 0.589)

[9] L. Yuanping, C. Siyu*, Periodic solution and bifurcation of a suspension vibration system by incremental harmonic balance and continuation method, Nonlinear Dynam, (2015) 1-10. IF:2.849

[10] C. Siyu, T. Jinyuan, Effects of staggering and pitch error on the dynamic response of a double-helical gear set, J Vib Control, (2015). IF:4.366

[11] Wei Zhou, Jinyuan Tang, Zhihui Huang. A new method for rough surface profile simulation based on peak-valley mapping, tribology transactions. 2015, 58(6): 971-979. (SCI)

[12] Wei Zhou, Jinyuan Tang, Yanfei He. Associated rules between microstructure characterization parameters and contact characteristic parameters of two cylinders. Journal of Central South University. (2015) 22: 4228−4234 (SCI)

[13] 张星,唐进元. 17CrNiMo6 钢内齿圈渗碳仿真关键技术研究[J].金属热处理,2015,40(3):185-189.(CSCD)

[14] 唐进元,李武俊,张燕,王艺欣雨. 基于齿距偏差曲面的面齿轮齿距偏差测量[J]中南大学学报(自然科学版,EI), 2015,46(2) :459-464.

[15] 唐进元 赵国伟. 一种盘式制动器钳体轻量化设计研究[J]. 中国机械工程,2015,17:1-6.

[16] 董建雄,唐进元. 基于轮齿接触分析的修形面齿轮传动重合度计算研究[J]. 机械传动,2015,04: 8-10+14.

[17] 王艺欣雨,唐进元. 基于滚动角的变位齿轮传动效率计算研究[J]. 机械传动,2015,04: 44-48+60.

[18] 曹茂鹏,唐进元,雷敦财. 直齿-面齿轮动态啮合力有限元仿真分析[J]. 机械传动,2015,04: 96-101.

[19] 唐进元,杨晓宇. 面齿轮数控插铣加工方法研究[J]. 机械传动,2015,06: 5-8.

[20]
刘新儒,刘圣军,唐进元,周炜.三阶段遗传LM算法的粗糙度参数计算公式构造[J].计算机辅助设计与图形学学报. 2015(12):2192-2200

[21] Tang Jinyuan,Yang Xiaoyu. Research on Manufacturing Method of Planing for Spur Face-gear with 4-axis CNC Planer [J]. The International Journal of Advanced Manufacturing Technology, 2016, 82:847–858. (SCI)

2016 论文

1) Chen S Y, Tang J Y, Li Y P, et al. Rotordynamics analysis of a double-helical gear transmission system[J]. Meccanica, 2016, 51(1):251-268. ( SCI,IF:1.828)

2) Yan H Y, Chen S Y, Tang J Y. Rocking vibration and dynamic characteristics of a two-stage spur and bevel gear transmitting system[J]. Proceedings of the Institution of Mechanical Engineers Part C Journal of Mechanical Engineering Science, 2016. DOI: 10.1177/0954406216671839   (SCI, IF:0.730)

3) Hu Z H, Tang J Y, Zhong J, et al. Frequency spectrum and vibration analysis of high speed gear-rotor system with tooth root crack considering transmission error excitation[J]. Engineering Failure Analysis, 2015, 60: 405-441 (SCI,IF: 1.358)

4) Hu Z H, Tang J Y, Zhong J, et al. Effects of tooth profile modification on dynamic responses of a high speed gear-rotor-bearing system[J]. Mechanical Systems & Signal Processing, 2016, s 76–77:294-318.(SCI,IF: 2.771)

5) Chen H F, Tang J Y, Zhou W, et al. The equal theoretical surface roughness grinding method for gear generating grinding[J]. International Journal of Advanced Manufacturing Technology, 2016:1-10. (SCI,IF: 1.568)

6) Chen H F, Tang J T. Influence of ultrasonic assisted grinding on Abbott-Firestone curve[J]. International Journal of Advanced Manufacturing Technology, 2016, 86(9):2753-2757 (SCI,IF: 1.568)

7) Ding H, Tang J Y, Zhong J. Accurate nonlinear modeling and computing of grinding machine settings modification considering spatial geometric errors for hypoid gears[J]. Mechanism & Machine Theory, 2016, 99:155-175. (SCI,IF:1.689)

8) Ding H, Tang J Y, Zhong J, et al. A hybrid modification approach of machine-tool setting considering high tooth contact performance in spiral bevel and hypoid gears[J]. Journal of Manufacturing Systems, 2016, 41:228-238. (SCI,IF:2.24)

9) Ding H, Tang J Y, Zhong J. An accurate model of high-performance manufacturing spiral bevel and hypoid gears based on machine setting modification[J]. Journal of Manufacturing Systems, 2016, 41:111-119. (SCI,IF:2.24)

10) Ding H, Tang J Y, Zhou Z Y, et al. Tooth flank reconstruction and optimizations after simulation process modeling for the spiral bevel gear[J]. Journal of Mechanical Engineering Science, 2016,230(13):2260-2272. (SCI,IF:0.730)

11) Ding H, Tang J Y, Zhong J, et al.
Simulation and optimization of computer numerical control-milling model for machining a spiral bevel gear with new tooth flank[J]. Proceedings of the Institution of Mechanical Engineers Part B Journal of Engineering Manufacture, 2016, 230(10): 1897–1909. (SCI,IF:0.978)

12) Zhou Z Y, Tang J Y, Ding H. Accurate modification methodology of universal machine tool settings for spiral bevel and hypoid gears[J]. Proceedings of the Institution of Mechanical Engineers Part B Journal of Engineering Manufacture, 2016. DOI: 10.1177/0954405416640173 (SCI,IF:0.978)

13) Zhou Y S, Tang J Y, Zhou H, et al. The Multi-Step method for grinding face-gear by worm[J]. Journal of Manufacturing Science & Engineering, 2016, 138(7). (SCI,IF:1.022)

14) Tang J, Yang X Y. Research on manufacturing method of planing for spur face-gear with 4-axis CNC planer[J]. The International Journal of Advanced Manufacturing Technology, 2016, 82(5):847-858. (SCI,IF:1.568)

15) Tang J Y, Cui W, Zhou H, et al. Integrity of grinding face-gear with worm wheel[J]. Journal of Central South University, 2016, 23(1):77-85. (SCI,IF:0.562)

16) Tang J Y, Liu Y, Cai W X. The principles of selecting floating members of 2K-H planetary gears for load balancing design[J]. Proceedings of the Institution of Mechanical Engineers Part C Journal of Mechanical Engineering Science, 2015. DOI: 10.1177/0954406215616420 (SCI,IF:0.730)

17) 张质子, 唐进元. 多条平面曲线数值合成新方法[J]. 机械传动,
2016,40(9):167-169. (CSCD)

18) 崔伟, 唐进元, 周镇宇. 含蜗杆砂轮安装误差的面齿轮副齿面接触分析[J]. 机械传动,
2016(7):6-11. (CSCD)

19) 钱露露, 杨晓宇, 唐进元. 直齿面齿轮数控刨削工艺路径优化研究[J]. 机械传动, 2016,(6):18-22. (CSCD)

20) 钱露露, 唐进元, 陈思雨,等. 单级齿轮传动系统有限元节点动力学模型及高速动态性能分析[J]. 机械工程学报,
2016, 52(17):155-161. (EI)

21) 周镇宇, 唐进元, 丁撼. 变位非正交面齿轮副小轮齿向修形轮齿接触分析[J]. 中国机械工程,
2016, 27(15):2003-2009. (CSCD)

22) 周镇宇, 唐进元, 董建雄. 同功重比修形斜齿和直齿面齿轮性能对比研究[J]. 工程设计学报, 2016, 23(4):338-344. (CSCD)

23) 盛兆华, 唐进元, 陈思雨,等. 直齿-面齿轮传动啮合效率的计算与分析[J]. 中南大学学报(自然科学版), 2016,47(2):459-466. (EI)

24) 赵国伟, 唐进元, 张质子. ISIGHT集成CATIA和ABAQUS的制动蹄轻量化设计[J]. 中南大学学报(自然科学版),
2016, 47(7):2260-2265. (EI)

25) 许德涛, 唐进元, 周炜. 基于扩展有限元法的齿根裂纹扩展规律[J]. 中南大学学报自然科学版, 2016,47(8):2668-2675. (EI)

26) 蔡卫星, 唐进元. 2K-H行星轮系均载设计浮动件选取原则
[J]. 机械传动, 2016(1):6-11.

27) 唐进元, 周伟华, 黄于林. 轴向超声振动辅助磨削的磨削力建模[J]. 机械工程学报, 2016, 52(15):184-191. (EI)

28) 陈海锋, 唐进元, 周群.超声干磨削对金属材料残余应力影响实验研究[J].
电加工与模具, 2016(4):41-44. (CSCD)

29) 陈青兰,江平,胡泽华,唐进元.高速直齿锥齿轮传动误差测试及动态性能分析[J]. 机械传动, 2016,40(12):101-105.

30) 许德涛,唐进元,周炜,许永利.基于XFEM 的齿轮腹板结构与齿根裂纹扩展关联规律研究[J]. 机械传动, 2016,40(12):153-158.

31) Yuqin Wen, Jinyuan Tang. A rough surfaces contact pressure analysis between meshing gears based on a GW model
[C].Proceedings of The International Conference on Power Transmissions 2016 :197-202

32) WeiHua Zhou, Jinyuan Tang. Modeling on the microscopic geometric morphology of ultrasonic grinding gear surface based on grinding wheel micro-morphology
[C].Proceedings of The International Conference on Power Transmissions 2016 : 463-468

33) Lulu Qian, Jinyuan Tang, Siyu Chen. The effect of shaft angles on dynamic load and load sharing characteristics of the split torque transmission system[C].Proceedings of The International Conference on Power Transmissions 2016 : 591-598

34)Yuansheng Zhou, Jinyuan Tang. An automatic approach to modeling the CAD model of face-milled spiral bevel gears[C].Proceedings of The International Conference on Power Transmissions 2016 :801-806 Normal 0 7.8 磅 0 2 false false false EN-US ZH-CN X-NONE /* Style Definitions */ table.MsoNormalTable {mso-style-name:普通表格; mso-tstyle-rowband-size:0; mso-tstyle-colband-size:0; mso-style-noshow:yes; mso-style-priority:99; mso-style-parent:""; mso-padding-alt:0cm 5.4pt 0cm 5.4pt; mso-para-margin:0cm; mso-para-margin-bottom:.0001pt; mso-pagination:widow-orphan; font-size:10.5pt; mso-bidi-font-size:11.0pt; font-family:"Calibri","sans-serif"; mso-ascii-font-family:Calibri; mso-ascii-theme-font:minor-latin; mso-hansi-font-family:Calibri; mso-hansi-theme-font:minor-latin; mso-bidi-font-family:"Times New Roman"; mso-bidi-theme-font:minor-bidi; mso-font-kerning:1.0pt;}

4、教育教学:培养国家栋梁、行业精英

已指导毕业博士、硕士100多名,关心学生/爱护学生,“传道、授业、解惑”,指导有方,育人有道,因材施教、效果良好。

5、学生毕业/就业情况:

学生在校学习、研究的专业方向,从学科发展的角度属于前沿、朝阳方向,从工业应用角度是2025高端制造急需的技术。在毕业找工作阶段,导师给予全程指导与关心,因此毕业的100多位学生就业都非常好。

毕业100多名研究生:1)就业,主要分布在中航集团、中国航发各单位,中国电子科技集团长沙、桂林、南京等地的研究所,中车集团(青岛、株洲等地),车企(大众汽车、吉利汽车、北汽等),国内各高校等单位;2)继续深造读博士、做博士后,形式多样,因材施教,如:2+2出国,或直接申请去与我们有合作的美国、加拿大、澳大利亚、荷兰、香港、台湾等国家或地区的高校。

6、名额与待遇

硕士生:3-6人,课题组发放的研究津贴600-1000/月(国家与学校津贴为667元/月),绩效0-2万元/年
博士生:3人,课题组发放的研究津贴2000-4000/月(国家与学校津贴为2000元/月),绩效0-3万元/年

7、招收力学、计算或应用数学、材料科学、系统动力学、CAD/CAE/CAO设计、表面完整性设计制造、智能装备与制造等方向博士后研究人员、博士、硕士研究生,欢迎报考与联系!

联系邮件:
jytangcsu@163.com,办公室:中铝科技大楼A407



研究齿轮数控铣齿机、数控磨齿机、数控涡轮盘榫槽拉床、数控插拉机床、数控锯床的设计、数控刨床等的设计制造相关问题。

毕业去向:1)高端装备设计制造企业;2)国内外高校读博