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叶贵根

 

    名: 叶贵根                         性别:                       职称: 讲师

    历: 研究生(Ph.D            电话: 13969698102       籍贯: 四川成都

电子邮件: yegg@upc.edu.cn;  yegg@lnm.imech.ac.cn

通讯地址:  山东省青岛市黄岛区长江西路66号,中国石油大学(华东),

储运与建筑工程学院,工程力学系,266580

                                                                                                   

简历:

2015.03-至今      讲师(2017.01,硕导),中国石油大学(华东)/储运与建筑工程学院

2013.01-2015.01   博士后,中国科学院力学研究所/非线性力学国家重点实验室(合作导师:戴兰宏)

2008.09-2013.12   中科院力学所与中国石油大学联合培养,工程力学,工学博士(导师:戴兰宏/仝兴华)

2006.09-2008.07   中国石油大学(华东),工程力学,工学硕士(导师:薛世峰)

2002.09-2006.07   中国石油大学(华东),工程力学,工学学士

                                                                                                    

研究领域:

固体力学;冲击动力学;高速切削力学机理

                                                                                                    

代表论著

1.     G.G. Ye, M.Q. Jiang, S.F. Xue, W. Ma, L.H. Dai, On the instability of chip flow in high-speed machining,Mechanics of Materials.In Press.

2.     G.G. Ye, S.F. Xue, W. Ma, L.H. Dai, Onset and evolution of discontinuously segmented chip flow in ultra-high-speed cutting Ti-6Al-4V, International Journal of Advanced Manufacturing Technology, vol. 88, pp 1161-1174, 2017.

3.     G.G. Ye, S.F. Xue, L.H. Dai, Development and Application of the High Speed Cutting Experimental System, Journal of Experimental Mechanics, vol. 31, pp: 715-722, 2016. (In Chinese)

4.     S.L. Cai, Y. Chen, G.G. Ye, M.Q. Jiang, H.Y. Wang, L.H. Dai, Characterization of the deformation field in large-strain extrusion machining. Journal of Materials Processing Technology, vol. 216, pp 48-58, 2015.

5.     Q. Wang, C.S. Lu, G.G. Ye, L.H. Dai, Modelling the tuned criticality in stick-slip friction during metal cutting, Modelling and Simulation in Materials Science and Engineering, vol. 23, pp 055013, 2015.

6.     G.G.Ye, Y. Chen, S.F. Xue, L.H. Dai, Critical cutting speed for onset of serrated chip flow in high speed machining. International Journal of Machine Tools and Manufacture, vol. 86, pp 18-33, 2014.

7.     G.G. Ye, S.F. Xue, M.Q. Jiang, X.H. Tong, L.H. Dai, Modeling periodic adiabatic shear band evolution during high speed machining Ti-6Al-4V alloy, International Journal of Plasticity, vol. 40, pp 39-55, 2013.

8.     G.G. Ye, S.F. Xue, W. Ma, M.Q. Jiang, Z. Lin, X.H. Tong, L.H. Dai, Cutting AISI 1045 steel at very high speeds, International Journal of Machine Tools and Manufacture, vol. 56, pp 1-9, 2012.

9.     G.G. Ye, S.F. Xue, X.H. Tong, L.H. Dai, Slip-line field modeling of orthogonal machining pressure sensitive materials, International Journal of Advanced Manufacturing Technology, vol. 58, pp 907-914, 2012.

10.  G.G. Ye, S.F. Xue, X.H. Tong, L.H. Dai, Advances in orthogonal cutting models. Journal of Mechanical Strength. vol. 34, pp 531-544, 2012. (In Chinese)

11.  G.G. Ye, S.F. Xue, X.H. Tong, L.H. Dai,Contribution of material strengthening to size effect in metal cutting process. China Mechanical Engineering. vol. 23, pp 603-608, 2012. (In Chinese)

12.  G.G. Ye, S.F. Xue, X.H. Tong, L.H. Dai,Dynamic changing regularity of temperature and cutting force during high speed machining of TiAl6V4. Tool Engineering. vol. 45, pp 21-25, 2011. (In Chinese)

13.  G.G. Ye, S.F. Xue, X.H. Tong, L.H. Dai, Influence of cutting conditions on the cutting performance of TiAl6V4, Advanced Materials Research, vol. 337, pp 387-391, 2011.

14.  G.G. Ye, S.F. Xue, Method of treating slope along Sichuan to the east gas pipeline. Nature Gas and Oil. vol. 29, pp 63-67, 2011. (In Chinese)

15.  Y.K. Li, G.G. Ye, X.H. Tong, X.G. Huang, Dynamic simulation of oil and gas well casing perforation by finite element method. Journal of China University of Petroleum. vol. 32, pp 114-117, 2008. (In Chinese)

                                                                                                   

授权发明专利:

1.      叶贵根, 朱秀星, 薛世峰, 基于数字化摆锤实验机的高速切削实验装置, ZL201610162046.2

2.      叶贵根, 朱秀星, 薛世峰, 基于落锤冲击实验机的高速切削实验装置, ZL201610159870.2

3.      叶贵根, 戴兰宏, 张虎生, 薛世峰, 一种高速切削变形场瞬态测量装置及使用方法, ZL201510411894.8

4.      戴兰宏, 叶贵根, 马维, 凌中, 蒋敏强, 关永军, 一种基于霍普金森压杆加载技术的高速切削实验装置, ZL201110049005.6

                                                                                                  

承担科研项目情况:

1.  国家自然科学基金青年基金,高速切削切屑流动失稳机制和临界判据研究,2015/01-2017/12,项目主持;

2.  中国博士后科学基金面上项目(一等支助),高速切削切屑形态转变机理及判据研究,2013/09-2015/01,项目主持;

3.  中国石油大学科研启动基金,高速切削中的流动失稳现象及其机理研究2017/01-2018/12项目主持;

4.  中央高校基本科研业务费专项资金,金属高速切削切屑流动失稳机理研究2015/09-2017/09项目主持