陈志君

陈志君讲师

学位：工学博士

职称：讲师

毕业院校：北京科技大学

办公地点：西四楼108

联系方式：czj5332@163.com

个人简介

主要从事航天弱刚性结构件制造技术研究，主要涉及加工残余应力、加工变形、多尺度建模等方面研究。近年来，参与国家自然科学基金、省部级项目、中国航天科工集团工艺创新项目等5项，在《Journal of Manufacturing Processes》、《Measurement》、《Part B: Journal of Engineering Manufacture》等期刊发表论文10余篇。

研究方向

航天弱刚性构件制造技术

加工残余应力与加工变形

金属变形机制与形性协同调控

多尺度建模技术

教育背景

2020.09-2024.06，北京科技大学，机械工程专业，工学博士

2017.09-2020.06，郑州轻工业大学，机械工程专业，硕士研究生

2013.09-2017.06，郑州轻工业学院，机械设计制造及其自动化专业，工学学士

论文专著与专利

代表性论文：

[1] Chen Zhijun, Qian L Y, Ji B P, Liang Y, Zhen H Q, Zhang Q D. Investigation into thermodynamic behavior of LA103Z Mg–Li alloy during turning based on modified Johnson–Cook model. J Manuf Process, 2023, 87: 260–272. IF= 6.20 (1区, Top)

[2] Chen Zhijun, Qian L Y, Du J G, Cui R K, Zhang Q D. A novel method to predict surface residual stress by coupling the phase transition effect for LA103Z Mg-Li alloy milling. J Manuf Process, 2024, 124: 936-953. IF=6.20 (1区, Top)

[3] Chen Zhijun, Qian L Y, Cui R K, Liu J S, Zhang Q D. Machining-induced residual stress analysis and multi-objective optimization for milling process of Mg–Li alloy. Measurement, 2022, 204: 112127. IF=5.60 (2区, Top)

[4] Chen Zhijun, Qian L Y, Ji X Y, Zhang Q D, Wei T B W, Chen J J, Hao S F. Machining-induced residual stress and deformation during Mg-Li alloy thin-walled rib-web parts milling. Part B: Journal of Engineering Manufacture, 2024, 1-13. IF= 2.6 (3区)

[5] Chen Zhijun, Qian L Y, Zhang Q D, Ji B P, Cui R K, Cao J J. Surface integrity enhancement of LA103Z Mg-Li alloy by regulating microstructure and texture evolution in cutting metamorphic layer. Int J Adv Manuf Tech, 2024. IF=3.40 (3区)

[6] Chen Zhijun, Hu S C, Zhang S F, Zhang Q D, Zhang G J, Ming W Y. Simulation and experimental study on precision molding of irregular vehicle glass component. Micromachines, 2023, 14, 1974. IF=3.40 (3区)

[7] He Wenbin, Chen Zhijun, Ming W Y, Du J G, Cao Y, Ma J, Wei A Y. Multi-objective optimization of glass multi-station bending machining for smartphone curved screen. J Braz Soc Mech Sci, 2019, 41: 476. IF= 2.20 (4区)

[8] Ming Wuyi, Chen Zhijun, Du J G, Zhang Z, Zhang G J, He W B, Jun Ma, Fan Shen. A comprehensive review of theory and technology of glass molding process. The International Journal of Advanced Manufacturing Technology, 2020,107(5-6): 2671–2706. IF= 3.40 (3区)

[9] Ming Wuyi, Jiang Z W, Chen Zhijun*, He W B, Li X K. Modelling and analysis of energy consumption in glass molding process for smartphone covers using different heating strategies. The International Journal of Advanced Manufacturing Technology, 2023, 124 (5):1491-1512. IF=3.40 (3区)

[10] 何文斌, 陈志君, 明五一, 等. 面向能耗的3C门铃注塑成型多目标工艺优化[J]. 塑料, 2019, 48(5):6.

[11] 何文斌，陈志君，明五一, 等. 3D玻璃热压热弯成形理论与方法研究进展综述[J]. 机械设计与制造, 2020(7):7.