学历：博士研究生   学位：工学博士

职称／导师类别：副教授/硕导

毕业学校：东北大学

学科专业：材料学

主要研究

方向

激光增材制造及再制造

激光焊接

多孔材料及数值模拟分析

科研工作简历

1. 2011-08至 今,苏州大学,机电工程学院,教授

2. 2013-09至2014-09,哥伦比亚大学,机械工程,教授

3. 2007-10至2011-07,武汉科技大学,材料与冶金学院,讲师，副教授

学术成果（论文、著作、获奖、专利等情况）

北美机械制造学会年度最佳论文奖获得者（2016）

2020-2021年度，SCI二区期刊《Steel Research International》Top cited论文

2023年获得国际期刊《Journal of Materials Research》封面论文一次

发表论文150多篇，期中SCi收录近百篇，授权发明专利近45项。

1. Min Zhang，Changjun Chen，Liangxin Hong.Effect of composite adding Ta and Mo on microstructure and properties of W-Mo-Cr high-speed steel prepared by laser metal deposition[J]. Applied Physics A,2025,131:272

2. Changjun Chen  * , Bei Bao , Jiaqi Shao ,Min Zhang 1* and Haodong Liu.Comparative Study of the Effects of Different Surface States During the Laser Sealing of 304 Steel/High-Alumina Glass，Coatings 2025, 15, 101

3. Lei Li,Changjun Chen*, Chunlei Li, Mengxuan Xu,Min Zhang, Chen Tian, Wei Zhang .The influence of anodization on laser transmission welding between high borosilicate glass and TC4 titanium alloy[J].Optics and Laser Technology, 2025, 181.DOI:10.1016/j.optlastec.2024.111590.

4. Sui L , Chen C ,Zhang M .Wetting and Sealing of the Interface Between High-Alumina Glass and 304 Stainless Steel[J].Journal of Materials Engineering and Performance, 2024, 33(17):9047-9058.DOI:10.1007/s11665-023-08643-5.33, 9047–9058 (2024). https://doi.org/10.1007/s11665-023-08643-5

5. Chen, C.; Li, L.; Zhang, M.; Xu,M.; Zhang*, W. Study on Laser Transmission Welding Technology of TC4 Titanium Alloy and High-Borosilicate Glass. Materials 2024, 17, 4371. https://doi.org/ 10.3390/ma17174371

6. Changjun Chen , Jian Tang  , Min Zhang * and Wei Zhang.The Impact of Welding Parameters on the Welding Strength of High Borosilicate Glass and Aluminum Alloy,Metals 2024, 14, 1001.https://doi.org/10.3390/met14091001

7. Changjun Chen,Lei Li,Min Zhang*, and Wei Zhang. Effect of different surface treatment methods on laser welding of aluminum alloy and glass[J]. Coatings 2024, 14(10), 1318;https://doi.org/10.3390/coatings14101318

8. Changjun Chen, Liwei SuiandMinZhang*. Effects of Different Oxidation Methods on the Wetting and Diffusion Characteristics of a High-Alumina Glass Sealant on 304 Stainless Steel,*Materials 2024, 17, 2251.https://doi.org/10.3390/ma1710225.

9. Jiajia Shen, Changjun Chen *andMinZhang. Microscopic Analysis of the Wetting MorphologyandInterfacialBonding Mechanism of Preoxidised KovarAlloyswithBorosilicate Glass[J]. Materials 2023, 16, 4628

10. Linjun Jiang,Changjun Chen,Min Zhang. Effect of Heat Treatment on the Properties of a High Alloying Maraging Steel Fabricated by Laser Metal Deposition[J]. Metals and Materials International,2023，29：141-156

11. Qiu J , Chen C ,Zhang M .Effects of graphene on the mechanical properties of AlSi10Mg melted by SLM[J].Materials Science and Technology: MST: A publication of the Institute ofMetals, 2022(11/12):38.DOI:10.1080/02670836.2022.2064628.

12. H. Xiao, J. Wang , M. Zhang , C. Chen. Improved the microstructures and propertiesofW-Mo-V high-speed steel by laser additive manufacturing and niobium alloyingMaterialwiss[J].Werkstofftech. 2022, 53, 220–234.

13. FengXiong,Changjun Chen*,andMinZhang. Effect of Heat Treatment on the Microstructure and Properties of Ni-Si-B Alloy by Laser Additive Manufacturing，Journal of Materials Engineering and Performance，2022, 31 (2):1432-1443

14. Changkai Ke, Changjun Chen,andMinZhang*.Effect of Vanadium on Microstructure and Mechanical Properties of M2 High-Speed Steel Prepared by Laser[J].steelresearchint. 2022,93(2): 2100389

15. Zhang Min, Chan Yufei, Chen Changjun, QiuZhaoling. A new sealing technology for ultra-thin glass to aluminum alloy by laser transmission welding method[J]. The International Journal of Advanced Manufacturing Technology,2021,115 (7-8) :2017-2035

16. Jintao An , Changjun Chen ,Min Zhang * Effect of CaCO3 content change on the production of closed-cell aluminum foam by selective lasermelting[J]. Optics and Laser Technology, 2021,141: 107097(二区)

17. ChenguangHu, Changjun Chen*,Min Zhang.Efectsof Ag content and heat treatment on the microstructure and properties of SLMed AZ61 Mg–Al–Zn alloy[J].Applied Physics A,2021,127:186

18. Xingcheng Wang, Changjun Chen* , and Min Zhang.Effect of Heat Treatment on Microstructure and Micro-Wear Resistance of Selective Laser Melted Mg-Al-Zn Alloy with La2O3 Addition[J]. Journal of Materials Engineering and Performance,2021,30 (3):2316-2328

19. Wang, X. ,  Chen, C. ,  Qin, L. , & Zhang, M. .  Microstructure evolution and mechanical behavior ofinconel625 produced using direct laser metal deposition. The Physics of Metals and Metallography, 2021:122(9), 896-907.

20. Jiale Wang, Changjun Chen,andMinZhang*. Effect of a Tempering Treatment on the Microstructural Evolution and Mechanical Properties of an M2 HSS/Ta Alloy Fabricated by Laser Metal Direct Forming[J].steelresearchinternational, 2021, 2100027 (1 of 16)(二区)

21. JialeWang,ChangjunChen,andMinZhang*,EffectofMoandTemperingTreatmentontheMicrostructuralEvolutionandMechanicalPropertiesofM2High-SpeedSteelPreparedbyLaser-DirectedEnergyDeposition.steelresearchint.2021,21002252100225

22. Jiale Wang, Changjun Chen,andMinZhang.Effect of Tantalum on the Microstructure and Mechanical Properties of M2 High-Speed Steel Prepared by Laser Additive Manufacturing[J]. steel research int, 2020:2000217（二区）

23. HaonanXiao,ChangjunChen* andMinZhang. Microstructures and Mechanical properties of H13 Steel/High-speed steel Composites prepared by laser metal deposition[J].Journal ofmaterialsengineeringandperformance,2020,29(1):66-77

24. Qianfeng Liu, Changjun Chen,Min Zhang.Effffectof heat treatments on the microstructural evolution and tribological behaviors of a NiCrSiB/Y2O3 alloy fabricated by laser additive manufacturing[J], Materials Characterization,2020,165: 110401

25. Xingcheng Wang，Changjun Chen*，Min Zhang. Effect of laser power on formability, microstructure and mechanical properties of selective laser melted Mg-Al-Zn alloy[J].2020,26(5):841-854

26. Xingcheng Wang, Changjun Chen*, Min Zhang.Efectof Cu addition and heat treatment on the microstructure and microwear of selective laser melted Mg–Al–Zn alloy[J].Applied Physics A, 2020,126:714

27. 陈长军;陆奕楷;张敏;徐梦璇;邵嘉琪.添加泡沫铜作为过渡层实现玻璃与钛合金的激光封接方法,苏州大学，专 利 号：ZL 2023 1 1074425.2授权公告号：CN 117209169 B专 利 申 请 日：2023年08月24日 授权公告日：2024年11月29日（2024未申报）

28. 陈长军，张敏.一种金属与玻璃一次性焊接的辅助夹具.苏州大学，发明时间2024.6.14，ZL专利号2024 1 0325956.2

29. 陈长军,徐梦璇,张敏;陆奕楷;邵嘉琪.一种镍基合金与碳化硅玻璃的激光焊接方法,苏州大学，发明时间2024.6.28，专利号ZL 2023 1 1090368.7

30. 陈长军，张敏.一种金属与玻璃焊接的定位装置.苏州大学，专 利 号：ZL 2024 1 0605713.4授权公告号：CN 118162754 B

31. 陈长军，张敏.一种双波长激光焊接机.苏州大学，专利号：ZL202410592428.3授权公告号：CN118162753B，授权日期：2024.10.11

32. 陈长军，张敏.一种金属玻璃复合管焊接设备.苏州大学，专 利 号：ZL 2024 1 0320534.6授权公告号：CN 117902838 B，专 利 申 请 日：2024年03月20日 授权公告日：2024年07月23日

33. 陈长军，张敏.一种激光增材制造技术制备闭孔泡沫钢的方法，ZL 2021 1 1662923.X，2023年03月10日 授权公告号：CN 114406285 B

34. 陈长军;张敏;蔡诚;王雪峰;卢杭;梅林;张莹一种闭孔泡沫钢及其激光增材制造技术制备方法,江苏亚威创科源激光装备有限公司;苏州大学,ZL 2022 1 0937820.8授权公告号：CN 115156553 B

35. 陈长军，张敏，王星程.一种生物体用多孔镁合金的激光制备方法，发明专利，2022.5.17.CN109513940 B

36. 陈长军，张敏.一种激光增材制造的缺陷在线监测方法，发明专利，2022.8.30，CN111024736 3

37. 张敏，陈长军.一种激光增材制造在线监测方法，发明专利，2021.6.17.CN.108838397 B

38. 张敏，陈长军，隋利卫，沈贾佳，添加钛作为过渡层实现玻璃与不锈钢的激光封接方法，ZL 2022 1 0906939.9，2023年11月24日 ，授权公告号：CN202210906939.9

39. 陈长军，张敏.一种激光增材制造技术制备闭孔泡沫钢方法，发明专利，2023.3.10。ZL202111662923.X

40. 陈长军，张敏，王星程.一种生物体用多孔镁合金的激光制备方法，发明专利，2022.5.17.CN109513940 B

41. 陈长军，张敏.一种激光增材制造的缺陷在线监测方法，发明专利，2022.8.30，CN111024736 B

在研项目

省重点研发项目，国家重点实验室基金

需 求

招收机械、材料背景相关的学生

联系方式

18915517664