陈俊云，燕山大学机械工程学院，教授，博士生导师，担任Tribology International、Journal of Manufacturing Processes、 Journal of Materials Research and Technology、Optics and Laser Technology、Materials Today Communications、Diamond & Related Materials、The International Journal of Advanced Manufacturing Technology等多个国际学术期刊的审稿人，担任中国光学工程学会先进光学制造青年专家委员会委员，担任国家自然科学基金、河北省自然科学基金、教育部学位中心等通讯涵评专家。目前主持了国家重点研发计划课题、国家自然科学基金面上项目、国家自然科学基金青年基金、中央军委装备发展部装备预先研究课题、中国博士后科学基金等科研项目。长期从事纳米孪晶金刚石等超硬材料刀具制造及超精密加工技术研究，发表学术论文52篇，其中以第一作者或通讯作者在Tribology International、Carbon、Applied Surface Science、Journal of Manufacturing Processes、International Journal of Mechanical Sciences、Journal of Materials Processing Technology、Precision Engineering、Diamond & Related Materials等期刊发表SCI收录论文近30篇、机械工程学报论文5篇，SCI他引312次。多次受邀在刀具和先进制造领域的重要学术会议中作邀请报告。获得中国发明专利授权7项，其中1项已实现成果转化。

发表论文列表：

[1]     Junyun Chen, Yunze Qi, Dehui Liu, Zihao Lin, Ke Tong. Alternate activation-annihilation of dislocations realizes the plasticity of sapphire during indentation. Materials & Design, 2024, 239: 112772. 

[2]    Junyun Chen, Zihao Lin, Tianye Jin, Bing Liu, Anmin Nie. Study on incompatible mechanism in chemical mechanical polishing of the novel graphite/diamond composite. Applied Surface Science, 2023, 641:158500. 

[3]     Shuo Zhang, Yunze Qi, Junyun Chen(通讯作者). Brittle‒ductile transition behavior of 6H-SiC in oblique diamond cutting. International Journal of Mechanical Sciences, 2023, 246: 108155. 

[4]     Tianye Jin, Zihao Lin, Bing Liu, Jin Zheng, Junyun Chen(通讯作者), Anmin Nie. Unusual material removal characteristics of the novel graphite/diamond composite in mechanical polishing. Tribology International, 2023, 187:108672. 

[5]     Tianye Jin, Xin Han, Junyun Chen(通讯作者), Kejin Li, Jinpeng Zhao. Polishing of ultrahard nanotwinned diamond tool for producing nearly damage-free tool surface and highly sharp cutting edge. Diamond & Related Materials, 2023, 136: 109924. 

[6]     Junyun Chen, Wanxue Zhang, Ke Tong. Effect of twins on scratching behavior of nanotwinned diamond: A molecular dynamics simulation. Applied Surface Science, 2023, 616: 156545. 

[7]     Junyun Chen, Dehui Liu, Tianye Jin, Yunze Qi. A novel bionic micro-textured tool with the function of directional cutting-fluid transport for cutting titanium alloy. Journal of Materials Processing Technology, 2023, 311: 117816. 

[8]     Bing Liu, Zewen Zhuge, Song Zhao, Yitong Zou, Ke Tong, Lei Sun, Xiaoyu Wang, Zitai Liang, Baozhong Li, Tianye Jin, Junyun Chen(通讯作者), Zhisheng Zhao. Effects of diamond on microstructure, fracture toughness, and tribological properties of TiO2-diamond composites. Nanomaterials, 2022, 12: 3733.

[9]     Shuo Zhang, Xiao Cheng, Junyun Chen. Surface deformation, phase transition and dislocation mechanisms of single crystalline 6H-SiC in oblique nano-cutting. Applied Surface Science, 2022, 588: 152944. 

[10]  Tianye Jin, Dehui Liu, Junyun Chen(通讯作者), Teng Zhao, Chunyu Zhang. Precise and efficient surface flattening of polycrystalline diamond by normal-irradiated trochoidal femtosecond laser machining. Journal of Manufacturing Processes, 2022, 74: 456-464.

[11]  Chen Junyun, Sun Lei, Jin Tianye, Luo Kun, Zhao Zhisheng, Tian Yongjun. Binderless layered BN toughened cBN for ultra-precision cutting. Journal of Inorganic Materials, 2022, 37(6): 623-628.

[12]  Junyun Chen, Pan Ying, Yufei Gao, Xudong Wei, Baozhong Li, Quan Huan, and Kun Luo. Orthorhombic C36: a sp2–sp3 carbon with pressureinduced metallization and superconductivity. Journal of Material Science, 2021, 56: 17665–17673.

[13]  Tianye Jin, Junyun Chen(通讯作者), Teng Zhao, Qingliang Zhao, Yongjun Tian. Nanotwinned diamond cutting tool processed by femtosecond pulsed laser milling with trochoidal trajectory. Journal of Materials Processing Technology, 2021, 294: 117115. 

[14]  Penghui Li, Mengdong Ma, ……Junyun Chen(通讯作者), Julong He, Yongjun Tian. Preparation of dense B₄C ceramics by spark plasma sintering of high-purity nanoparticles. Journal of the European Ceramic Society, 2021, 41: 3929-3936. 

[15]  Fenghe Wu, Zijian Liu, Baosu Guo, Yingbing Sun, Junyun Chen(通讯作者). Research on the burr-free interrupted cutting model of metals. Journal of Materials Processing Technology, 2021, 295: 117190. 

[16]  Bing Liu, Lei Sun, Yingju Wu, Yang Zhang, Zihe Li, Junyun Chen……Zhisheng Zhao. Columbite-rich multiphase TiO₂ nanoceramic with superior mechanical and dielectric properties. Journal of the European Ceramic Society, 2021, 41: 4951–4957.

[17]  Baozhong Li, Kun Luo, Junyun Chen, Chenlong Xie, Yufei Gao, Li Zhu, Quan Huang, Mengdong Ma, Yang Zhang, Zhisheng Zhao. Design of a Series of Metallic B_xN_x+1 with Tunable Mechanical Properties. The Journal of Physical Chemistry Letters, 2021, 12(7): 1979-1984.

[18]  Junyun Chen, Fei Ding, Xichun Luo, Xiaoshuang Rao, Jining Sun. Fundamental study of ductile-regime diamond turning of single crystal gallium arsenide. Precision Engineering, 2020, 62: 71-82. 

[19]  陈俊云, 张洁, 靳田野. 单晶锗微结构的超声振动辅助微切削加工. 哈尔滨工业大学学报, 2020, 52(1): 69-75.

[20]  Jinhu Wang, Junyun Chen(通讯作者), Tianye Jin, Bing Guo, Julong Yuan, Qingliang Zhao. Preparation of nanotwinned cBN cutting edge by combining mechanical lapping and ion beam polishing. Diamond & Related Materials, 2020, 105: 107801. 

[21]  Tianye Jin, Mengdong Ma, Baozhong Li, Yufei Gao, Qingliang Zhao, Zhisheng Zhao, Junyun Chen(通讯作者), Yongjun Tian. Mechanical polishing of ultrahard nanotwinned diamond via transition into hard sp2-sp3 amorphous carbon. Carbon, 2020, 161:1-6. 中科院1区TOP

[22]  Li PH, Hao LJ, Li BZ, ……Chen JY, Ma MD, He JL. Superhard and superconductive nondiamond-like BC structure. Diamond & Related Materials, 2020, 110:108142.

[23]  Junyun Chen, Tianye Jin, Xichun Luo. Key machining characteristics in ultrasonic vibration cutting of single crystal silicon for micro grooves. Advances in Manufacturing, 2019, 7(3): 303-314.

[24]  Tianye Jin, Junyun Chen(通讯作者), Shengkang Zhang, Teng Zhao, Qingliang Zhao. Fabrication of micro-pillar with high aspect ratio on monocrystalline diamond by galvanometer-assisted femtosecond laser milling. Journal of Manufacturing Processes, 2020, 60: 247–256. 

[25]  陈俊云, 刘德辉, 张圣康, 靳田野*, 赵智胜. 单晶金刚石微铣刀的飞秒激光制造研究. 燕山大学学报, 2022, 46(3): 200-207.

[26]  陈俊云, 赵灼铮, 赵智胜, SOLDATOV Alexander V.. 新型无粘结剂聚晶氮化硼材料的飞秒激光加工研究. 燕山大学学报, 2020, 44(6): 519-525.

[27]  Zhuoqi Shi, Qingliang Zhao, Hao Wang, Junyun Chen, Tianye Jin, Tianyu Ji. On the effect of grain structure in micro-cutting of polycrystalline aluminate magnesium spinel (PAMS) crystals. International Journal of Mechanical Sciences, 2019, 160: 372-385

[28]  靳田野, 陈俊云(通讯作者), 王金虎, 赵清亮. 纳米孪晶立方氮化硼的飞秒激光材料去除机理. 机械工程学报, 2019, 55(9), 198-205.

[29]  陈俊云, 李召阳, 王海东. 飞秒激光烧蚀纳米孪晶金刚石的研究. 制造技术与机床, 2019, 3: 78-82.

[30]  陈俊云, 杨政武, 娄泽, 靳田野. 硅铝合金减摩微结构表面切削加工的研究. 制造技术与机床, 2018, 5: 56-62.

[31]  Chen Junyun, Jin Tianye, Tian Yongjun. Development of ultrahard nanotwinned cBN micro tool for cutting hardened steel. SCIENCE CHINA Technological Sciences, 2016，59(6): 876-881.

[32]  Lipeng Zhang, Xiaohong Zhang, Zongqi Han, Junyun Chen (通讯), Jingchao Liu. A novel multi-parameter coordinated shift control strategy for an automated manual transmission based on fuzzy inference. Proceedings of the Institution of Mechanical Engineerings Part D- Journal of Automobile Engineering, 2016, 1-16.

[33]  靳田野, 陈俊云(通讯作者), 赵明慧, 王金虎, 赵清亮. 纳米孪晶立方氮化硼机械研磨机理研究.机械工程学报, 2016, 52(5): 95-99.

[34]  Junyun Chen, Qingliang Zhao. A Model for Predicting Surface Roughness in Single-Point Diamond Turning. Measurement, 2015, 69: 20-30.

[35]  陈俊云, 靳田野, 鹿玲. CBN刀具材料发展及其切削性能研究进展. 制造技术与机床, 2015, 3: 33-39.

[36]  Junyun Chen, Tianye Jin, Jinhu Wang, et al. Fabrication of nt-CBN micro cutting tool. 15th International Conference of the European Society for Precision Engineering and Nanotechnology, EUSPEN 2015, 2015/6/1-2015/6/5, pp 43-44, Leuven, Belgium.

[37]  Junyun Chen, Tianye Jin. Study on machining mechanism of nanotwinned CBN cutting tool. 15th International Conference of the European Society for Precision Engineering and Nanotechnology, EUSPEN 2015, 2015/6/1-2015/6/5, pp 45-46, Leuven, Belgium.

[38]  Jinhu Wang, Junyun Chen, Qingliang Zhao, et al. Sharpening nanotwinned cubic boron nitride (nt-cBN) cutting tool using femtosecond laser ablation. 15th International Conference of the European Society for Precision Engineering and Nanotechnology, EUSPEN 2015, 2015/6/1-2015/6/5, pp 81-82, Leuven, Belgium.

[39]  Junyun Chen, Tianye Jin, Jinhu Wang, Qingliang Zhao, Ling Lu. Study on machining mechanism of nanotwinned CBN cutting tool. Proc. of SPIE, 2014, Vol. 9281 92811D-1.

[40]  陈俊云, 赵近川. 全内反射透镜注射压缩成型过程仿真及工艺优化.塑料工业, 2013, 41(8): 49-53.

[41]  陈俊云, 赵清亮. 单点金刚石车削表面粗糙度的研究. 北京工业大学学报, 2012, 38(7): 1013-1019.

[42]  Qingliang Zhao, Junyun Chen(通讯作者), Haitao Huang, Xiaoyan Fang. Grinding Damage of BK7 using Copper-Resin Bond Coarse-Grained Diamond Wheel. International Journal of Precision Engineering and Manufacturing, 2011, 12(1): 5-13.

[43]  陈俊云, 赵清亮, 罗健. 单点金刚石车削中刀具-工件相对振动的研究. 机械工程学报, 2011, 47(17): 135-140.

[44]  赵清亮, 陈俊云(通讯作者), 吴晓光, 胡宜宁. 1000倍聚光的光伏聚光器的非成像设计. 哈尔滨工业大学学报，2011，43(5)：61-64.

[45]  Qingliang Zhao, Junyun Chen(通讯作者), Jian Luo. Investigation of Surface Roughness Prediction in Single-Point Diamond Turning. Advanced Materials Research, 2011, 154-155: 856-861.

[46]  Qingliang Zhao, Junyun Chen(通讯作者), Jian Luo. Analysis of the Swelling Effect in Single-Point Diamond Turning. Advanced Materials Research. 2011, 314-316: 984-987.

[47]  Qingliang Zhao, Junyun Chen(通讯作者), Ekkard Brinksmeier. Precision Grinding of Reaction Bonded Silicon Carbide using Coarse Grain size Diamond Wheels. Chinese Journal of Mechanical Engineering, 2010, 23(3): 269-275.

[48]  陈俊云, 罗健, 赵清亮. 超精密车削加工有限元仿真研究. 机床与液压, 2010, 38(15): 70-72.

[49]  Qingliang Zhao, Junyun Chen(通讯作者), Jun Yao, Shangli Zhou. Investigation of surface and subsurface damage in diamond grinding of optical glass using hybrid copper-resin-bonded diamond wheel[J]. Journal of Vacuum Science and Technology B, 2009, 27(3): 1489-1495.

[50]  Q.L.Zhao, J.Y.Chen(通讯作者). Investigation of Material Removal and Grain Wear Mechanism in Single Point Diamond Scratching Tests on SiC. Advanced Materials Research, 2009, 69-70: 209-213.

[51]  Qingliang Zhao, Junyun Chen(通讯作者), Jun Yao. ELID Assisted Grinding of Optical Glass with Fine and Coarse Grained Copper-Resin Bonded Diamond Wheels. Advanced Materials Research, 2009, 76-78: 76-81.

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