中文
  • 陈明松
  • Doctoral degree
  • Professor
  • Light Alloy Institute
 

Educational Background

  • 2006.92011.11

     中南大学   机械工程   工学博士   PhD Graduate 

  • 2002.12006.6

     湘潭大学   机械设计制造及其自动化   Bachelor's degree   本科 

Work Experience

  • 2019.9Now

    中南大学      教授

  • 2014.92019.9

    中南大学      机电工程学院    副教授(破格)

  • 2011.122014.9

    中南大学      机电工程学院    讲师

Social Affiliations

  • 机械工程学期刊编委

  • 宁乡市产业链专家联盟——装备制造产业专家指导委员会委员

  • 中国兵工学会精密成形工程专业委员会第五届委员会委员

 

Personal Information

陈明松 男 1982.10 湖南邵阳人

职 称:教授、硕导、博导
办 公室:机电楼A-521
E-mail:chenms18@csu.edu.cn

2019年09月~今                 中南大学轻合金研究院/机电工程学院  教授 硕导、博导

2014年09月~2019年09月  中南大学机电工程学院  副教授 硕导

2011年12月201409月  中南大学机电工程学院 讲师
2008年09月~2011年11月  中南大学 博士 蔺永诚/钟掘(导师)
2006年09月~2008年09月  中南大学 硕士 蔺永诚(导师)
2002年09月~2006年06月  湘潭大学 学士 谭援强(导师)
主持/参与项目
      主持项目(在研):国家重点研发项目子课题1项,横向课题5项。

主持项目(已结题):国家自然科学基金项目面上项目1项,青年基金1项; 长株潭标志性工程项目 1项;湖南省优秀博士学位论文奖励项目1项;湖南省自然科学基金项目 2项;中国博士后科学基金特别资助项目1项;国家重点实验室自        主课题1项,横向课题数十项。
      参与项目:973计划项目1项(学术骨干)。

代表性学术成果
    在《International Journal of Plasticity》、《Journal of Materials Science & Technology》、《Materials Science and Engineering A》、《IEEE Transactions on Instrumentation and Measurement》等国际学术期刊发表学术科技论文90余篇,被SCI收录80余篇,EI收录90余篇,他引5000余次,获发明专利30多项,获软件著作权5项,出版学术专著2部。

 
近年来,主要从事如下研究:

    1)特种机器人技术及应用。具体方向:自主跟随移动机器人(助老)、基于视觉的人体生命体征检测、视觉/激光雷达SLAM导航技术、爬璧机器人设计与控制技术、面向复杂曲面的移动机器人智能打磨装备及工艺、缺陷视觉检测技术。

    2)金属塑性成形工艺及智能化。具体方向:锻造设备及工艺智能化、高温合金锻造混晶组织的均匀细化工艺及机理(可以将混晶组织细化至12级)

奖励:
    1)成果获湖南省自然科学奖二等奖1项,湖南省优秀博士学位论文奖1项,湖南省第十五届自然科学优秀论文奖一等奖1项,中国电力科学技术进步二等奖 1项,浙江电力科学技术进步一等奖1项。

    2)指导硕士研究生获湖南省优秀硕士学位论文4篇(2020年、2021年、2022年、2023年度)。
    3)指导硕士研究生获中国有色金属学会优博优硕奖。


专著:
   1) 蔺永诚,陈明松,高性能大锻件控形控性理论及应用,科学出版社,33.2万字,2013.
   2) 蔺永诚,陈明松,夏雨驰,李雷霆,典型航空铝合金塑性成形与蠕变时效成形的工艺基础,科学出版社,28.7万字,2014.

发明专利 

2024年授权

1)      王冠强,陈明松,蔺永诚,谭先华等:一种基于YOLO的轻量高效的检测网络,ZL 202211074565.5,授权公告日:2024.01.04

2)      王冠强,陈明松,蔺永诚,谭先华等:一种面向工业图像质量反馈控制方法与系统,ZL 2023106435913,授权公告日:2024.01.24

3)      王冠强,陈明松,蔺永诚,谭先华等:一种提高缺陷检测能力的多轮多模型融合检测方法,ZL 2023106435913,授权公告日:2024.01.05

2023年授权

4)      王冠强,陈明松,蔺永诚,谭先华等:基于机器视觉的实时工件表面缺陷检测评价系统及方法,ZL 202210754869.X,授权公告日:2023.11.03

5)      王秋,陈明松,蔺永诚等:一种高空管道检测用涵道动力机器人,ZL 202210477273.X,授权公告日:2023.11.27

2022年授权

6)       陈明松,蔡金亮,蔺永诚,王冠强,曾维栋,张驰洲,彭诚旭,邹奋扬,李凯. 一种基于实时点云的大型复杂构件表面打磨路径规划方法, 申请专利号:ZL202111384297.2. 授权公告日:20221115

7)      王秋,陈明松,蔺永诚,曾维栋,王冠强,吴敏杰,一种无物理刹车爬壁机器人用驱动系统及方法. ZL202110804060.9. 授权时间:2022-05-27

8)      曾维栋,吴敏杰,陈明松,蔺永诚,王秋,彭诚旭,爬壁机器人自主充电系统及自主充电方法. 授权号:ZL202011530742.7,授权公告日:2022.08.23

9)      曾维栋,王秋,陈明松,蔺永诚,吴敏杰,一种基于脑机控制的爬壁打磨装置及其控制方法.授权号:ZL 202011279972.0,授权公告日:2022.2.18

10)      曾维栋,吴敏杰,陈明松,蔺永诚,王秋,复合型爬壁机器人及其控制方法. 授权号: ZL202110362003.X,授权公告日:2022.08.23

2021年授权

11)      陈明松,马艳永, 蔺永诚,曾维栋,王冠强,蔡金亮,邹奋杨,彭诚旭,一种获得GH4169合金超细金锻件的方法,授权号:ZL 202010620994.2,授权公告日:2021.11.26

12)      陈明松;  王冠强; 蔺永诚; 马艳永,一种均匀细化固溶态GH4169合金锻件混晶组织的方法,授权号:ZL 202010622921.7,授权公告日:2021.7.20

13)   曾维栋、王秋、陈明松、蔺永诚、吴敏杰,面向复杂环境的自适应爬壁机器人,授权号:ZL202010925358.0,授权公告日:2021.6.22

14)   曾维栋、吴敏杰、陈明松、蔺永诚、吴敏杰,王秋,一种局部真空吸盘,授权号:ZL202020912670.8,授权公告日:2021.4.13

2020年授权

15)   陈明松;  王冠强; 蔺永诚; 邹宗怀,一种均匀细化GH4169合金锻件组织的方法,ZL2018111262186,授权公告日:2020.12.18

2019年授权

16)   陈明松,邹宗怀, 李阔阔. 一种通过热处理提升镍基合金锻件组织均匀性的方法,2019.06ZL201711231943.5

17)   蔺永诚, 李佳,刘延星,陈明松. 一种涡轮盘等温模锻预成形坯料的多目标设计方法,2019.06ZL201610522957.1

18)   蔺永诚, 谌东东,陈明松,基于BP神经网络的镍基高温合金微观组织预测控制方法,2019.2,中国,ZL2016105522135.3

2018年授权

19)   陈明松,蔺永诚, 李阔阔,一种采用两段阶梯应变速率工艺细化GH4169合金锻件晶粒组织的方法, 2018.2.23,中国,ZL2016 1 0523629.3

20)   蔺永诚,陈小敏,陈明松,一种面向锻件目标晶粒组织的等温模锻工艺轨迹规划方法,2018.9.07,中国,ZL2016 1 1149155.7

2017年授权

21)   陈明松,蔺永诚, 李阔阔,一种预测时变工况下高合金化材料动态再结晶分数的方法,2017.11.14,中国,ZL201610522942.5

22)   陈明松,蔺永诚, 李阔阔,一种循环加载与卸载变形细化GH4169合金锻件组织的方法,2017.1,中国,ZL201510100965.4

23)    蔺永诚, 陈明松,吴先洋,一种等温模锻模具温度场的在线重构方法,2017.12.01,中国,ZL201510400997.4



代表性论文(第一作者/通讯作者)


  2024年

1.  Qiu Wang, Ming-song Chen*,  Guan-qiang Wang , Kai Li , Yong-cheng Lin , Ze-hao Li ,Chi-zhou ZhangA Novel NLOS Identification and Error MitigationMethod for UWB Ranging and PositioningIEEE Communications Letters,2024,28(1): 48 - 52https://DOI 10.1109/LCOMM.2023.3340248IF:4.1Q2

2.   Guan-Qiang Wang, Ming-Song Chen*, Yong-Cheng Lin*, Xian-Hua Tan*, Chi-Zhou Zhang*, Wen-Xin Yao, Bai-Hui Gao, Wei-Dong Zeng, An efficient parallel fusion structure of distilled and transformer-enhanced modules for lightweight image super-resolution, The Vision Computer, 2024, DOI: 10.1007/s00371-023-03243-9, IF: 3.5, Q2

3.  Guan-Qiang Wang, Ming-Song Chen*, Yong-Chen Lin*, Xian-Hua Tan, Chi-Zhou Zhang, Wen-Xin Yao, Bai-Hui Gao, Kai Li, Ze-Hao Li, Wei-Dong Zeng, Efficient multi-branch dynamic fusion network for super-resolution of industrial component image, Displays, 2023, 82, 102633, DOI: 10.1016/j.displa.2023.102633, IF: 4.3, Q1


2023

4.  Guan-Qiang WangChi-Zhou ZhangMing-Song Chen⁎Yong-Cheng LinXian-Hua TanPei LiangYu-Xin KangWei-Dong ZengQiu WangYolo-MSAPF: Multiscale Alignment Fusion With Parallel Feature Filtering Model for High Accuracy Weld Defect DetectionIEEE Transactions on Instrumentation and Measurement2023725022914DOI: 10.1109/TIM.2023.3302372 , IF: 5.6Q1

5.   Guan-Qiang WangChi-Zhou Zhang Ming-Song Chen*, Y.C Lin* , Xian-Hua Tan*, Yu-Xin Kang  Qiu WangWei-Dong Zeng, Wei-Wei ZhaoA high-accuracy and lightweight detector based on a graph convolution network for strip surface defect detectionAdvanced Engineering Informatics 592024102280. DOI10.1016/j.aei.2023.102280, IF: 8.8 Q1

6.  Hong-Wei Cai , Quan Chen , Ming-Song Chen⁎, Y.C. Lin , Guan-Qiang Wang, Hong-Bin LiA novel recrystallization annealing method to cooperatively control the grain size and δ phase content for initial aged GH4169 superalloy forgingMaterials Characterization, 2023,  205:113246https://doi.org/10.1016/j.matchar.2023.113246, IF: 4.7 Q1

7.  王冠强,张驰洲,陈明松*,蔺永诚,邹奋扬,王秋,吴敏杰,曾维栋,融合RRT-ConnectDWA算法的室内移动机器人单目标点导航任务研究[J]. 中南大学学报(自然科学版), 2023,54(11): 4326-4337. https://kns.cnki.net/kcms2/detail/43.1426.n.20230602.1659.002.htm A类期刊

8.  Qiu-Mei Yang, Y.C. Lin, Wei-Wei Zhao, Guan Liu, Zi-Jian Chen, Jun-Cheng Zhu, Ming-Song Chen, Yu-Liang QiuFormation and elimination mechanisms of prior particle boundaries in a new powder metallurgy superalloyJournal of Materials Research and Technology2023278037-8049.

9.  Guan-Qiang Wang, Yong-Chen Lin, Ming-Song Chen*, Chi-Zhou Zhang, A Weld Surface Defect Detection System With Multi-Detection Function Integration, 2023 3rd IEEE International Conference on Electrical Engineering and Mechatronics Technology (ICEEMT), Nanjing, China, 2023, pp. 416-419, doi: 10.1109/ICEEMT59522.2023.10263158.

 

2022年

10. Wei-Dong Zeng, Li-Jiu Zheng, Ming-Song Chen*(陈明松),   Y.C. Lin, Guan-Qiang Wang, Bai-Hui Gao, Shi-Quan Huang, A Generalized Multivariable Adaptive Super-Twisting Control and Observation for Amphibious Robot, IEEE Access, 2022.3228284. Q2,

11.  Ming-Song Chen(陈明松)*, Quan Chen, Yu-Min Lou, Y.C. Lin*, Hong-Bin Li, Yan-Yong Ma, Guan-Qiang Wang, Effect of cooling recrystallization annealing treatment on properties of an initial aged deformed GH4169 superalloy, Materials Science & Engineering A 831 (2022) 142232  Q1IF: 6.044 https://doi.org/10.1016/j.jallcom.2022.164325

12.  Ming-Song Chen⁎ , Yan-Yong Ma , Y.C. Lin⁎ , Yu-Min Lou , Hong-Bin Li , Guan-Qiang Wang , Quan ChenAn innovative annealing treatment method and its mechanism to refine deformed mixed grains of initial aged GH4169 superalloyJournal of Alloys and Compounds2022907164325  Q1 https://doi.org/10.1016/j.jallcom.2022.164325他引:3IF: 6.371

13.  Guan-Qiang WangChen Ming-Song (陈明松)*; Lin Y.C.;Li Hong-Bin;Jiang Yu-Qiang;Ma Yan-Yong; Peng Cheng-Xu;Cai Jin-Liang;Chen QuanRecrystallization nucleation under close-set 8 phase in a nickel-based superalloy during annealingJournal of Materials Science & Technology, 2022115(0): 166-176. IF: 10.319

14.  Ming-Song Chen*, Quan Chen, Yu-Min Lou, Y.C. Lin*, Hong-Bin Li, Guan-Qiang Wang, Hong-Wei Cai. Effect of Deformation Parameters of an Initial Aged GH4169 Superalloy on Its Microstructural Evolution during a New Two-Stage Annealing, Materials, 2022, 15(16), 5508; https://doi.org/10.3390/ma15165508  Q1 IF: 3.748

15. Qiu-Mei Yang , Yong-Cheng Lin* , Ming-Song ChenZi-Jian ChenModeling Dynamic Recrystallization Behavior in a Novel HIPed P/M Superalloy during High-Temperature DeformationMaterials, 2022, 15, 4030

 

2021

16. G.Q. Wang, M.S. Chen*, Y.C. Lin, Y.M. Lou, H.B. Li, Y.Y. Ma, Z.H. Zou, Q. Chen, Y.C Xia, Effects of Double-Stage Annealing Parameters on Tensile Mechanical Properties of Initial Aging Deformed GH4169 Superalloy, Materials 2021, 14, 4339.  https:// doi.org/10.3390/ma14154339 Q1

17. G.Q. Wang, M.S. Chen*, H.B. Li, Y.C. Lin, W.D. Zeng, Y.Y. Ma, Methods and mechanisms for uniformly refining deformed mixed and coarse grains inside a solution-treated Ni-based superalloy by two-stage heat treatment[J]. Journal of Materials Science & Technology, 2021, 77: 47-57.(中科院一区, TOP期刊) Q1

18.  G.Q. Wang, M.S. Chen*, Y.C. Lin, H.B. Li, W.D. Zeng, Y.Y. Ma, J.L. Cai, C.X. Peng, F.Y. Zou, A novel annealing method to uniformly refine deformed mixed grain microstructure of a solution-treated Ni-based superalloy. SCIENCE CHINA Technological Sciences, 2021, 64, (8)1741-1751.  https://doi.org/10.1007/s11431-020-1784-x Q2(中科研2区)  (IF3.903)

19.  G.Q. Wang, H.B. Li, M .S. Chen*, Y.C. Lin, W.D. Zeng, Y.Y. Ma, Q. Chen, Y.Q. Jiang, Effect of initial mixed grain microstructure state of deformed Ni-based superalloy on its refinement behavior during two-stage annealing treatmentMaterials Characterization2021,176, 111130. Q1  IF: 4.537

20.  G.Q. Wang, M.S. Chen*, Y.C. Lin, H.B. Li, Y.Y. Ma, Z.H. Zou, Q. Chen, Effects of Deformation Processing Parameters on the Microstructure Evolution and Microhardness of GH4169 Superalloy during Annealing Treatment, Advanced Engineering Materials, 2021, 23(8):2100104.  Q2   IF:  4.122


2020

21. Li H-BChen M S*; Tian Y Q; Chen L S, Chen L Q, Ultra-fine-Grained ferrite prepared from dynamic reversal austenite during warm deformation [J]. Acta Metallurgica Sinica (English Letters), 2020, 33(2): 290-298. Q1

 

2019

22. Ming-Song Chen*Guan-Qiang Wang, Hong-Bin Li, Y.C. Lin, Zong-Huai Zou, Yan-Yong Ma, Annealing Treatment Methods and Mechanisms for Refining Mixed and Coarse Grains in a Solution Treatment Nickel-Based Superalloy, Advanced Engineering Materials,2019, 21(9): (JCR 2区,他引:3) Q2

23.  Ming-Song Chen*, Guan-Qiang Wang, Hong-Bin Li, Y. C. Lin,  Zong-Huai Zou, YanYong Ma, DaoGuang He, WeiDong Zeng, Precipitation and dissolution behaviors of δ phase inside a deformed nickelbased superalloy during annealing treatment, Applied Physics A, 2019, 125: 447. (JCR  2区,

24.  Ming-Song Chen*, Zong-Huai Zou, Y. C. Lin, Hong-Bin Li, Guan-Qiang WangFormation mechanism of large grains inside annealed microstructure of GH4169 superalloy by cellular automation methodJournal of Materials Science & Technology, Volume 35, Issue 7, July 2019, Pages 1403-1411 (JCR 1) Q1

25.  Ming-Song Chen*, Wu-Quan Yuan, Hong-Bin Li, Y. C. Lin, Zong-Huai ZouNew insights on the relationship between flow stress softening and dynamic recrystallization behavior of magnesium alloy AZ31BMaterials Characterization, Volume 147, January 2019, Pages 173-183  (JCR 1) Q1

26.  Ming-Song Chen*, Zong-Huai Zou, Y. C. Lin, Hong-Bin Li, Yan-Yong MaMicrostructural evolution and grain refinement mechanisms of a Ni-based superalloy during a two-stage annealing treatmentMaterials Characterization, Volume 151, May 2019, Pages 445-456 (JCR 1区) Q1


2018

27.  Ming-Song Chen*, Zong-Huai Zou, Y.C.Lin, Kuo-KuoLi, Hot deformation behaviors of a solution-treated Ni-based superalloy under constant and changed strain rates[J]. Vacuum, 2018,155:531-538. (JCR 2)  IF: 3.627

28.  Ming-Song Chen*, Zong-Huai Zou, Y.C. Lin, Hong-Bin Li, Wu-Quan Yuan. Effects of annealing parameters on microstructural evolution of a typical nickel-based superalloy during annealing treatment[J]. Materials Characterization, 2018,141:212-222. (JCR 1区,他引5)


2017

29.  Ming-Song Chen*, Wu-Quan Yuan, Hong-Bin Li, Zong-Huai Zou, Modeling and simulation of dynamic recrystallization behaviors of magnesium alloy AZ31B using cellular automaton method, Computational Materials Science, 2017, 136, 163-172. 38

30. Ming-Song Chen*, Wu-Quan Yuan, Y.C. Lin, Hong-Bin Li, Zong-Huai Zou, Modeling and simulation of dynamic recrystallization behavior for 42CrMo steel by an extended cellular automaton method,Vacuum,2017,146,142—151IF2.51524  Q2

31. Ming-Song Chen*, Y.C. Lin, Kuo-Kuo LiDynamic recrystallization behaviors  of typical solution-treated and aged Ni-based superalloy under stepped strain ratesProcedia Engineering, 20172072125-2130 (EI)

 

2016

32.  Chen Ming-Song*, Lin Y. C.*, Li Kuo-Kuo, Zhou Ying, A new method to establish dynamic recrystallization kinetics model of a typical solution-treated Ni-based superalloy, Computational Materials Science, 2016, 122, 150-158. 28 Q3

33.  Ming-Song Chen*, Kuo-Kuo Li, Yong-Cheng Lin*, Wu-Quan Yuan, An improved kinetics model to describe dynamic recrystallization behavior under inconstant deformation conditions, Journal of Materials Research, 2016, 31:  2994-3003 . 10 Q3

34.  Chen Ming-Song, Lin Y. C.*, Li Kuo-Kuo, Chen Jian, The nonlinear unloading behavior of a typical Ni-based superalloy during hot deformation: A new elasto-viscoplastic constitutive model, Applied Physics A, 2016, 122: 869  Q

35.  Chen Ming-Song, Lin Y. C.*, Li Kuo-Kuo, Chen Jian, The nonlinear unloading behavior of a typical Ni-based superalloy during hot deformation: A unified elasto-viscoplastic constitutive model, Applied Physics A, 2016, 122: 854. Q2

36.  Li Kuo-Kuo, Chen Ming-Song, Lin Y. C., Yuan Wu-Quan, Microstructural evolution of an aged Ni-based superalloy under two-stage hot compression with different strain rates. Materials & Design. 2016, 111: 344-352  Q1 

 

2016年之前

 

37.  Chen Ming-Song, Lin Y. C.*, Chen Kang-Hua, Evolution of elliptic-cylindrical and circular-cylindrical voids inside power-law viscous solids, International Journal of Plasticity, 2014, 53, 206-227. Q1

38.  Chen Ming-Song, Lin Y. C.*, Numerical simulation and experimental verification of void evolution inside large forgings during hot working, International Journal of Plasticity, 2013, 49, 53-70.  Q1

39.  Chen, Ming-Song, Lin, Y. C., Ma, Xue-SongThe kinetics of dynamic recrystallization of 42CrMo steelMaterials Science and Engineering A, 2012,556, 260-266 Q1


欢迎有志青年报考研究生,共同为祖国的社会主义科研事业奉献自己的力量!欢迎有需求企业合作研发。

  • Professor
    Supervisor of Doctorate Candidates
    Supervisor of Master's Candidates
  • Date of Employment:2011-12-31
  • School/Department:Light Alloy Institute
  • Education Level:PhD Graduate
  • Business Address:机电楼A521
  • Sex:Male
  • Contact Information:邮箱:chenms18@csu.edu.cn
  • Degree:Doctoral degree
  • Status:Employed
  • Discipline:Mechanical Engineering
  • Honors and Titles:
  • 2017-2019年度中南大学优秀共产党员 湖南省优秀博士学位论文 湖南省自然科学二等奖;
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