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教工名录


王柯


系所:材料加工系

职称:教授

职务:党支部书记

学位:博士

邮箱:study_ke@cqu.edu.cn

学习工作经历

2004.09 - 2008.06    西北工业大学 伟德体育 工学学士

2008.09 - 2014.06     西北工业大学 伟德体育 工学博士(硕博连读)

2014.07 - 2017.08     重庆大学 伟德体育 材料加工系 讲师

2017.09 - 2023.08     重庆大学 伟德体育 材料加工系 副教授

2023.09-至今 重庆大学 伟德体育 材料加工系 教授

社会兼职

长期为Materials Characterization、Advanced Engineering Materials、Journal of Materials Science、Metallurgical and Materials Transactions A、Vacuum等多个国内外期刊审稿,2019年获评《材料导报》优秀审稿专家

主讲课程

本科课程:《材料力学性能》;《材料加工基础》;《计算机在材料科学与工程中的应用》;《轧制测试技术》

研究生课程:《材料动力学》

主要研究方向

1、高性能镁合金设计及加工技术;

2、钛合金/镁合金变形机制及强韧化机制研究;

3、钛合金/镁合金组织-性能关系定性和定量研究;

4、钛合金/镁合金微观组织演变多尺度模拟;

5、金属材料增材制造组织性能调控

科研项目


1. 国家自然科学基金面上项目:钛合金双相组织中滑移启动和传递机制的原位SEM-EBSD研究;2020.1~2023.12;主持

2. 十四五国家重点研发项目子课题:阻燃镁合金组织性能调控及宽幅型材制备;2021.12~2025.11;主持

3. 国家自然科学基金青年基金:预变形对钛合金两相区冷却过程中次生α相形核的影响; 2016.1~2018.12;主持

4. 中央高校-青年教师与学生科研能力提升子项:轨交车辆关键构件用镁合金型材挤压加工技术; 2022.3~2023.2;主持

5. 宝钢金属有限公司横向项目:轨交用新型镁合金及其挤压型材加工与应用技术研发; 2021.4~2023.3;主研

6. 山西省关键核心技术和共性技术研发攻关专项:高性能铝/镁合金结构件铸锻复合成形开发与应用-铝/镁合金铸锻成形关键技术;2021.2~2023.3;主研

7. 横向项目:高性能大尺寸XXX装置设计; 2021.12~2022.12;主持

8. 项目:多尺度微结构钛合金变形机制与组织性能调控; 2020.1~2021.12;主持

9. 重点实验室开放基金:双相钛合金滑移传递及裂纹形核机制的原位EBSD研究; 2019.1~2020.12;主持

10.横向项目:片层组织钛合金微观组织演变分析;      2019.1~2020.12;主持

11.中央高校基本科研业务费专项资金项目:钛合金两相区冷却速度对次生α相形核的影响; 2015.1~2016.12;主持

论文专著

1. Y. Zhou, K. Wang*, et al., Achieving synergy enhancement of strength and ductility in Ti-6Al-2Sn-4Zr-2Mo-0.1Si alloy by fabricating a new multiscale microstructure, SCRIPTA MATER, 226(2023) 115233.

2. Y. Zhou, K. Wang*, H. Li, X. Wen, R. Xin, Effect of content and configuration of equiaxed α and lamellar α on deformation mechanism and tensile properties of a near-α titanium alloy, Materials Science and Engineering: A, 877(2023) 145192.

3. Z.B. Yan, K. Wang*, et al., Crystallographic orientation dependent crack nucleation during the compression of a widmannstatten-structure α/β titanium alloy, Scripta Materialia, 156 (2018) 110-114.

4. K. Wang*, H. Li, et al., Dislocation Slip and Crack Nucleation Mechanism in Dual-Phase Microstructure of Titanium Alloys: A Review, Acta Metallurgica Sinica (English Letters), 36(2023) 353-365.

5. X. ZHENG, K. Wang*, et al., Evolution mechanism of lamellar α and interlayered β during hot compression of TC21 titanium alloy with a widmanstätten structure, CHINESE J AERONAUT, 35(2022) 475-483.

6. H. Li, K. Wang*, L. Xin, R. Xin, Q. Liu, Effect of Hot Rolling and Annealing on Phase Component, Recrystallization, and Mechanical Properties of TC21 Titanium Alloy, J MATER ENG PERFORM, 31(2022) 2496-2508.

7. J. Zhang, Y. Shen, Y. Sun, J. Yang, Y. Gong, K. Wang, Z. Zhang, X. Chen, L. Bai, Design and mechanical testing of porous lattice structure with independent adjustment of pore size and porosity for bone implant, Journal of Materials Research and Technology, 18(2022) 3240-3255.

8. J. Yang, X. Chen, Y. Sun, J. Zhang, C. Feng, Y. Wang, K. Wang, L. Bai, Compressive properties of bidirectionally graded lattice structures, MATER DESIGN, 218(2022) 110683.

9. Y. Zhang, R. Xin, K. Wang, Q. Liu, Variant selection of α precipitates formed at β triple junctions in titanium alloy, MATER CHARACT, 189(2022) 111975.

10. X. Chen, W. Ren, Y. Sun, J. Zhang, J. Yang, K. Wang, Y. Gong, Z. Zhang, L. Bai, Adjusting unit cell three-dimensional posture and mirror array: A novel lattice structure design approach, MATER DESIGN, 221(2022) 110852.

11. 陈飞, 周瑜, 王柯, TA12A钛合金热处理过程中等轴和片层α相演变行为研究, 钛工业进展, 38(2021) 1-5.

12. Y. Zhou, K. Wang*, et al., Simultaneous improvement of strength and elongation of laser melting deposited Ti-6Al-4V titanium alloy through three-stage heat treatment, J MATER PROCESS TECH, 306(2022) 117607.

13. 王柯, 黎东荣, 辛仁龙, 郭艳华, 常辉, 刘庆, 一种新型β钛合金Ti-34521高温变形过程中微观组织演变机制, 材料热处理学报, 42(2021) 49-56.

14. Y. Zhou, K. Wang*, et al., Ex-situ study on mechanical properties and deformation mechanism of three typical microstructures in TA19 titanium alloy, MATER CHARACT, 167(2020) 110521.

15. Z. Ren, K. Wang*, et al., β Grain Evolution and Static Recrystallization Mechanism during Hot Rolling and Annealing of Ti-35421 Titanium Alloy, J MATER ENG PERFORM, 31(2022) 9481-9491.

16. K. Wang*, M.Y. Wu, et al., Microtructure evolution and static recrystallization during hot rolling and annealing of an equiaxed-structure TC21 titanium alloy, Journal of Alloys and Compounds, 752 (2018) 14-22

17. K. Wang*, M.Y. Wu, et al., Dynamic restoration and deformation heterogeneity during hot deformation of a duplex-structure TC21 titanium alloy, Materials Science and Engineering: A, 712 (2018) 440-452

18. D.R. Li, K. Wang*, et al., Evolution of microstructure and tensile properties during the three-stage heat treatment of TA19 titanium alloy, Materials Science and Engineering: A 716 (2018) 157-164

19. M. Wu, R. Xin, Y. Wang, Y. Zhou, K. Wang*, Q. Liu, Microstructure, texture and mechanical properties of commercial high-purity thick titanium plates jointed by electron beam welding, Materials Science and Engineering: A, 677(2016) 50-57.

20. K. Wang*, M. Li, Q. Liu, Evolution mechanisms of the primary α and β phases during α/β deformation of an α/β titanium alloy TC8, Materials Characterization, 120 (2016) 115-123

21. K. Wang*, D.L. Sun, Y.L. Wu, R.L. Xin, M.Y. Wu, Q. Liu,Correlation between flow behavior and microstructure evolution during α/β deformation of TA19 titanium alloy, Advanced Engineering Materials,

22. K. Wang*, M.Q. Li, Characterization of discontinuous yielding phenomenon in isothermal compression of TC8 titanium alloy, Trans. Nonferrous Met. Soc. China, 26(2016) 1583-1588.

23. K. Wang, M.Q. Li. Morphology and crystallographic orientation of the secondary α phase in a compressed α/β titanium alloy.Scripta Materialia, 68 (2013) 964-967

24. K. Wang, M.Q. Li. Effect of hot deformation and heat treatment on secondary α phase evolution of TC8 titanium alloy. Materials Science and Engineering A, 613 (2014) 209-216

25. K. Wang, M.Q. Li. Flow behavior and deformation mechanism in the isothermal compression of the TC8 titanium alloy. Materials Science and Engineering A, 600 (2014) 122-128.

26. K. Wang, M.Q. Li, J. Luo, C. Li. Effect of the δ phase on the deformation behavior in isothermal compression of superalloy GH4169. Materials Science and Engineering A, 528 (2011) 4723-4731.

27. K. Wang, M.Q. Li, C. Li. The δ and austenite phase evolution and model in the solution treatment of superalloy GH4169. Materials Science and Technology, 29 (2013) 346-350

28. 李晨, 李淼泉, 王柯. 固溶处理GH4169合金的高温变形行为. 航空学报, 31 (2010) 368-376

29. H.M. Li, M.Q. Li, J. Luo, K. Wang, Microstructure and mechanical properties of heat-treated Ti–5Al–2Sn–2Zr–4Mo–4Cr, Trans. Nonferrous Met. Soc. China, 25(2015) 2893-2900.

30. W.J. He, C. Li, B.F. Luan, R.S. Qiu, K. Wang, Z.Q. Li, Q. Liu, Deformation behaviors and processing maps of CNTs/Al alloy composite fabricated by flake powder metallurgy, Trans. Nonferrous Met. Soc. China, 25(2015) 3578-3584.

专利

1. 王柯,周瑜,辛仁龙, 一种同时提高激光熔覆沉积TC4钛合金强度和塑性的热处理方法, 2022, CN 113088848 B

2. 王柯, 李世成, 唐伟能, 胡勇, 祁卫东, 王敬丰, 潘复生, 一种低成本高强阻燃镁合金及其制备方法, 2022, CN 114438387 B

3. 王柯, 周瑜, 辛仁龙, 李宏辉, 任朝, 刘庆, 一种协同优化TA19钛合金强塑性的多尺度组织及其制备方法, 2023, CN 114752874 B

科研团队

每年招收硕士(学硕/专硕)研究生2-3名,招收博士研究生1-2名,欢迎联系报考。