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于静

灰色背景-1

副教授、博士

邮箱地址jingyu@stu.edu.cn; yj.0730.kb@163.com

研究方向:功能结构、仿生结构优化设计与制造,增材制造、表面工程


教育背景

Ø 2016.09-2017.11 硕士 世界海事大学(瑞典马尔默) 海事能效管理 导师:Olcer Aykut

Ø 2016.06-2016.09 世界海事大学(瑞典马尔默) 英语技能培训项目(ESSP)

Ø 2010.09-2014.12 博士 大连理工大学 机械制造及其自动化 导师:张洪潮

博士毕业论文题目:基于强脉冲电流金属材料裂纹止裂及愈合技术研究

Ø 2007.09-2009.12 硕士 兰州理工大学 机械制造及其自动化 导师:胡赤兵

硕士毕业论文题目:车削中心用电主轴热态特性的分析

Ø 2003.09-2007.07 本科 吉林大学 机械工程及自动化 毕业设计导师:张学成

毕业设计题目:5kN力标准机的设计 优秀毕业设计


工作经历

Ø 2024.07至今 汕头大学 工学院机械系 副教授

Ø 2019.07-2024.06 大连海事大学 轮机工程学院 副教授

Ø 2019.08-2023.08 大连海事大学 船舶与海洋工程博士后流动站 合作导师:徐久军教授

Ø 2018.06-2019.07 交通运输部 国际合作司(借调) 国际海事组织(IMO)理事会主席助理

Ø 2015.04-2019.07 大连海事大学 轮机工程学院 讲师


科研项目

Ø 激光熔覆裂纹萌生机理与调控方法研究(汕头大学科研启动经费项目,NTF24014T)主持 2024.07-2027.06

Ø 面向海洋工程的虚实结合电化学测试教学资源开发(教育部产学合作协同育人项目,231104429070811)

主持 2024.04-2024.12

Ø 面向高强化柴油机发展的运动副增韧新型非晶涂层与复合表面改性研究(国防科技项目,2020-JCJQ-JJ-080),主持 2020.08-2022.08

Ø 气缸套减摩耐磨铁基非晶增韧涂层制备方法研究(辽宁省自然科学基金,2020-HYLH-22),

主持 2020.05-2022.04

Ø 基于感应-脉冲电流复合熔覆的气缸套再制造机理及性能研究(国家自然科学基金,51605066),

主持 2017.01-2019.12

Ø 海水液压马达关键运动副耐蚀抗磨涂层一体化制备(大连海事大学海底工程技术与装备国际联合研究中心开放基金,3132022351) 主持 2022.01-2022.12

Ø 超音频电磁场下铸铁基体感应熔覆层微观结构调控及其摩擦磨损性能研究(中央高校基本科研业务费,3132018260), 主持 2018.01-2018.12

Ø 超音频感应熔覆铁基涂层微结构调控与高温腐蚀行为研究(中央高校基本科研业务费,3132017014),

主持 2017.01-2017.12

Ø 基于强脉冲电流的再制造涂层均匀化技术研究 (辽宁省博士启动项目,201601064),主持 2016.09-2018.12

Ø 基于感应熔覆的气缸套再制造机理及性能研究 (大连海事大学船机修造工程交通运输行业重点实验室开放课题,KF-2016-05), 主持 2016.01-2016.12

Ø 感应熔覆再制造机理及性能研究(中央高校基本科研业务费,3132016012), 主持 2016.01-2016.12

Ø 柴油机低摩擦镀层制备(十四五国防科工局车船动力专项DEDP), 参与  2021.01-2023.12

Ø 柴油机关键摩擦副磨损与耐磨设计方法(国防科工局重大专项), 参与 2020.01-2022.12

· Co-PI, “Air Quality Control Research in Asia-Pacific Ports”. Funded by Asia-Pacific Port Service Network, ¥180,000, Oct. 2015 – Jun.2016.

· Co-PI, “Research on monitoring international shipping GHG emissions and Energy efficiency operation standard”. Funded by GEF-UNDP-IMO, ¥200,000, May. 2015 – Sep.2017.

· Co-PI, “The impact of EU unilateral mechanism on IMO data collection”. Funded by Ministry of Transport of the People’s Republic of China, ¥400,000, Jun. 2015 – Oct.2016.

· Co-PI, “Follow-up research on related issues under IMO Framework”. Funded by Ministry of Transport of the People’s Republic of China, ¥70,000, Sep. 2015 – Apr.2017.

· Co-PI, “The implementation of Global Maritime Energy Efficiency Partnerships project”. Funded by GEF-UNDP-IMO, ¥160,000, Oct. 2015 – Jun.2017.

Ø 机械装备再制造的基础科学问题(国家“973”基础研究发展计划,2011CB013400), 参与 2011.09-2016.10

Ø 面向节能的数控机床能量模型的基础研究国家自然科学基金51275074, 参与 2013.01-2016.12

Ø 基于光机械多探针原理的广域薄膜表面形貌测量方法研究国家自然科学基金51205043),

参与 2013.01-2015.12


科研成果

Ø

1. Jing Yu, Zhinan Wang, Yanchuan Liu, Zhengda Liu. Machine learning prediction of microhardness and corrosion current density of Ni-Co alloys produced by scanning jet electrodeposition. Transactions of the IMF, 2024. DOI: 10.1080/00202967.2024.2414565

2. Shuai Zhang, Jing Yu, Zhengda Liu, Yuetong Li. Modelling and optimization of electrodeposited amorphous Fe-P alloys using central composite design and response surface method. International Journal of Electrochemical Science, 2024, 19(7): 100644. DOI: 10.1016/j.ijoes.2024.100644 (WOS:001275470300001)

3. Shuai Zhang, Jing Yu, Yuetong Li, Zhengda Liu. Effects of NaH2PO2 concentration and deposition potential on microstructural characteristics and corrosion properties of electrodeposited amorphous Fe–P coatings. Transactions of the IMF, 2024. DOI:10.1080/00202967.2024.2327162

4. Shuai ZHANG, Jing YU, Yuetong Li, Shenchong WANG. Effect of bath temperature on electrodeposition behaviour and corrosion properties of amorphous Fe-P alloys obtained from additive-free chloride baths. Bulletin of Materials Science, 2024, 47: 92. DOI : 10.1007/s12034-024-03193-5

5. Shuai Zhang, Jing Yu, Shenchong Wang, Zhengda Liu, Piotr Wróblewski. Electrodeposition behavior and characterization of Fe-P alloys at different pH values. International Journal of Electrochemical Science, 2023, 18: 100323.

6. Jing Yu, Chenfeng Qiao, Shuai Zhang, Zhengda Liu, Piotr Wróblewski. Tribological properties of laser-cladded Fe-based amorphous composite coatings under dry and lubricated sliding. Optics & Laser Technology, 2023, 166:109583.

7. Shuai Zhang, Jing Yu, Zhaoyi Wang, Zhengda Liu. Numerical Insights Into the Influences of Chloride Baths Conditions on FeCoNi Ternary Alloy Electrodeposition. International Journal of Electrochemical Science, 2022, 17: 221252.

8. Shuai Zhang, Jing Yu, Zhengda Liu, Yanjun Yin, Chenfeng Qiao. Numerical and experimental investigation of the effect of current density on the anomalous codeposition of ternary Fe-Co-Ni alloy coatings. Materials, 2022, 15(17): 6141.

9. Chenfeng QIAO, Jing YU, Shuai ZHANG, Zhengda LIU, Jinlong WANG. Combined effect of a laser cladded coating and surface texture on tribological performance under dry sliding and starved lubrication. Metals and Materials Internation, 2022, 28(3):666-678.

10. Jing Yu, Shuai Zhang, Yanchuan Liu, Jinlong Wang. Simulation and experiment investigaton of electromagnetic and thermal field during induction cladding, Materials Science and Technology, 2021, 37(12): 1060-1072. DOI: 10.1080/02670836.2021.1979308

11. Jing Yu, Shuai Zhang, Yanchuan Liu, Jinlong Wang. Numerical and experimental study of stepwise induction cladding, Materials Research Express, 2021, 8(4): 046501.

12. Jing Yu, Yanchuan Liu, Bo Song, Jinlong Wang. Microstructure and properties of Fe-based alloy coating on gray cast iron fabricated using induction cladding. Coatings, 2020, 10: 801(1-15). (SCI检索号: 000580674300001)

13. Yu Jing and Yu Hongfei. Coating properties, energy consumption, and cost analysis of the induction cladding process. Results in Physics, 2020,17:103043 (1-7). (SCI检索号: WOS:000548699500006)(中科2区)(Q1)

14. Wang Jinlong, Peng wenjie, Yu Jing, Yang Yuxing, Wang Jingsi, Du Fengming. Fatigue evaluation of TC17 titanium alloy shaft with surface scratch based on FEA and fracture. Engineering Failure Analysis, 2020, 117:104961 . (SCI检索号:WOS:000582981800056)

15. WangJinlong , Yan Yangyang, Jing Yu, Jingsi Wang, Fengming Du, Yuxing Yang. Yuanliang Zhang. Fatigue evaluation of FV520B-I shrouded impeller blade with fatigue crack based on FEA and fracture mechanics. Engineering Failure Analysis, 2020, 115:104663 (1-12). (SCI检索号:WOS:000554871700008)

16. Wang Jinlong, Yu Jing, Yang Yuxing, Du Fengming, Wang Jingsi. Study of the remanufacturing critical threshold and remanufacturability evaluation for FV520B-I blade based on fatigue life and FEA. Engineering Failure Analysis, 2020, 112:104509 (1-12). (SCI检索号:WOS:000539307200001)

17. Jinlong Wang, Yuxing Yang, Jing Yu, Jingsi Wang, Fengming Du, Yuanliang Zhang. Fatigue life evaluation considering fatigue reliability and fatigue crack for FV 520B-I in VHCF regime based on Fracture mechanics. Metals, 2020, 10 (3), 371 (1-16). (SCI检索号:WOS:000530137000075).

18. Jing YU, Bo Song, Yanchuan Liu. Microstructure and wear behavior of Ni-based alloy coated onto grey cast iron using a multi-step induction cladding process. Results in Physics,2018, 10: 339-345. ( SCI检索号:WOS:000443868900056)(中科2区)

19. Jing YU, Bo Song. Friction and wear behavior of a Ni-based alloy coating fabricated using a multistep induction cladding technique. Results in Physics, 2018, 11: 105-111.(SCI检索号:WOS:000454026000016 )(中科2区

20. Jing YU, Bo Song. Effects of heating time on the microstructure and properties of an induction cladding coating. Results in Physics, 2018, 11: 212-218. (SCI检索号:WOS:000454026000032)(中科2区)

21. Chunsheng Ma, Dong Cheng, Xinhe Zhu, Zhijun Yan, Jingguo Fu, Jing Yu, Zeze Liu, Guangyu Yu, Shibin Zheng. Investigation of a self-lubricating coating for diesel engine pistons, as produced by combined microarc oxidation and electrophoresis. Wear, 2018, 394-395: 109-112. (SCI检索号:WOS:000425372500012)

22. Hu Yawei, Li Xuanlin, Jin Huaiwang, Huang Zhifu, Yu Jing, Liu Yongbin. Remaining Useful Life Prediction of Multi-sensor Data Based on Spatial-Temporal Attention Network. Conference Proceedings of 2022 2nd International Joint Conference on Energy, Electrical and Power Engineering, November 19, 2022- November 21, 2022, Beihai, China.

23. J. Yu, Y. Liu, B. Song, Experimental Research on the Factors Affecting Fusion Zone Size and Mechanical Properties in Crack Arrest by Current Detour and Joule Heating, in: 2017 International Conference on Materials Sciences and Nanomaterials, ICMSN 2017, July 14, 2017 - August 16, 2017, vol 230, Institute of Physics Publishing, Barcelona, Spain, 2017.(EI检索号:20174604407957)

24. Jing YU, Bo SONG. Microstructure and properties of Ni-based alloy coating with ultrasonic frequency inductive cladding on substrate of cast irons. 5th Asia Conference on Mechanical and Materials Engineering(ACMME 2017), June 9-11, 2017, Tokyo, Japan. Materials Science Forum, 909: 33-38. (EI检索号:20174904497036)

25. Jing YU, Yanchuan LIU. Experimental study on the relationship of discharge parameters with crack arrest effects in Inconel 625 alloy by electropuling treatment. 5th Asia Conference on Mechanical and Materials Engineering(ACMME 2017), June 9-11, 2017, Tokyo, Japan. Materials Science Forum, 909: 33-38. (EI检索号:20174904497029)

26. Jing Yu, Hongchao Zhang, Dewei Deng, Asif Iqbal, Shengzhi Hao. Simulation and experiment for crack arrest in remanufacturing. International Journal of Advanced Manufacturing Technology, 2016,87(5):1547-1556. (SCI检索号:WOS:000387307600029)

27. Jing Yu, Hongchao Zhang, Dewei Deng, Qianqian Liu, Shengzhi Hao. Analysis of the relationship of crack arrest effects with fusion zone size by current detour and Joule heating. International Journal of Advanced Manufacturing Technology,2016,87(5):1465-1474. (SCI检索号:WOS:000387307600023)

28. YU Jing, ZHANG Hongchao, DENG Dewei, HAO Shengzhi. Numerical Calculation and Experimental Research on Crack Arrest by the Detour Effect and Joule Heating of High Pulsed Current in Remanufacturing. Chinese Journal of Mechanical Engineering, 2014,27(4):745-753.(SCI检索号:000338483000011; EI检索号:20143118006242)

29. Hong-Chao Zhang, Jing YU, Asif Iqbal. Application of Electro-Magnetic Heat Effect on crack arrest in remanufacturing blank. Proceedings of the 20th CIRP International Conference on Life Cycle Engineering, Singapore 2013: 627-632. ( EI检索号:20151400713972)

30. 胡丰泽,郭俊宝,于静. 合金灰口铸铁气缸套组织形貌与耐磨性研究. 车用发动机, 2024(01):1-7+15.

31. 于静,刘延川,于洪飞. 超音频感应熔覆钴基涂层的组织与摩擦磨损性能. 材料保护,2021,54(9):1-6.(材料失效与保护领域高质量期刊T3区)

32. 于静,宋博,于洪飞,朱新河. 铸铁表面感应熔覆铁基涂层组织及耐磨性能. 材料热处理学报,2019, 40 (12): 137-143. (中文核心期刊)(材料科学综合类高质量期刊T2区)

33. 于静,宋博.灰铸铁表面Ni60A镍基合金感应熔覆层在H2SO4溶液中的腐蚀行为.机械工程材料,2019, 43(5): 6-11. (中文核心期刊)(材料科学综合类高质量期刊T2区)

34. 于静,刘延川. 船用柴油机气缸套再制造新方法—感应熔覆技术研究现状.热加工工艺,2019, 48(6): 26-29. (中文核心期刊)

35. 于静,宋博. 多步感应熔覆镍基合金涂层的组织及腐蚀行为.材料热处理学报,2018,39(10):80-86. (中文核心期刊)(材料科学综合类高质量期刊T2区)

36. 于静,胡赤兵,刘延川.车削中心用电主轴的研制. 机床与液压,2010, 38(15):56-57+67.(中文核心期刊)

37. 刘征达,于静,张帅. 基于响应曲面法的镍-钴合金镀层多性能优化. 电镀与涂饰,2023,42(17):8-15.

38. 王金龙,高斯博,杨宇星,杜凤鸣,于静,王静思.航空发动机用钛合金TC17疲劳失效研究.哈尔滨工程大学学报,2021,42(08):1203-1208.

39. 宋博,于静,朱新河. 超音频感应熔覆铁基熔覆层组织及耐腐蚀性能. 热加工工艺,2019, 48 (18): 81-84+89. (中文核心期刊)

40. 邓德伟, 于静, 刘倩倩, 于涛, 张洪潮 . 裂纹止裂愈合技术发展现状及展望[J]. 机械工程学报,2016,52(7):122-132. ( EI检索号:20161902366339)

41. 于涛,邓德伟,于静,等. 脉冲电流对SUS304不锈钢的裂纹愈合作用[C]. 2014全国博士生学术论坛论文集-先进材料与可持续制造,北京,2014:37-41.

42. 张洪潮,于静,郝胜智,彭艳芳.电磁场的热效应在再制造毛坯裂纹止裂中的应用.机械工程学报,2013,49(7):21-28.( EI检索号:20132116362560)

43. 胡赤兵,于静,刘延川.车削中心用电主轴热态特性的有限元分析.机械设计与制造,2010,12:30-32.(中文核心期刊)


Ø

于静,宋博,于洪飞. 一种提高灰铸铁耐磨性能的感应熔覆涂层制备方法. 2020.05.08,ZL2018.11090057.X

于静,张帅,刘征达. 一种高硬度和耐腐蚀 Fe-P 非晶镀层的制备方法. 2023.02.04, 202310059278.5

于静,乔晨峰,张帅,刘征达. 织构化铁基非晶/纳米晶复合熔覆层制备装置及制备方法.2023.01.04,202310003909.1


Ø

《船机制造工艺学教程》严志军,于静,王静思主编.大连海事大学出版社(ISBN 978-7-5632-3774-6), 2019年3月


获奖情况

佳作奖,第25届国际热处理及表面工程联合会大会,2018年9月11-14日,西安

辽宁省造船工程学会2020年度优秀青年科技工作者

大连市高层次人才“青年才俊”层次

大连海事大学“星海工程”人才计划第三层次


学术兼职

国际海事大学联合会(IAMU),研究项目评审人;

Journal of ETA Maritime Science (ESCI收录期刊),编委;

Asia Conference on Mechanical and Materials Engineering (ACMME), 学术委员会成员;

Arab Academy for Science, Technology, and Maritime Transport (AASTMT),职称评审委员会成员。

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