首页> 学院概况> 教师风采> 正文
韦贺
发布日期:2025年03月28日 浏览次数:

个 人 简 历

—————————————————————————————————

姓名:韦贺

性别:男

民族:汉

职称:副教授

籍贯:安徽省宿州市

政治面貌:中共党员

毕业学校:北京科技大学

最高学历:博士

电话: +86-18288744779

E-mail: Weihe@kust.edu.cn

研究方向:1. 新型高强高韧耐腐蚀铝合金、高强高导铜合金、锡合金及贵金属、特钢等

2. 金属材料的力学性能、控形、防腐及服役性能研究

3. 金属材料中织构与残余应力及力学性能间关联机制;

4. 铝型材或铜型材的力学性能、控形、防腐、耐磨及服役性能研究;

5. 金属3D打印增材制造;

6. 耐腐耐磨高压反应设备用非晶材料研究;

主持或参与的科研项目:

1. 国家自然科学基金:织构与孪晶微结构对轧制铜合金高强高导性能的耦合作用机制研究(经费32万);

2. 人才项目:昆明理工大学高层次人才引进(经费80万);

3. 人才项目:云南省“兴滇英才支持计划”青年人才(经费90万);

4. 低成本抗氧化高温用无铅锡基焊料合金制备关键技术和开发(经费50万);

5. 高品质铝材制备与成形关键技术及应用(经费80万);

6. 新能源汽车用高端铝合金电池壳体关键技术研究 (经费80万),等。

招生要求:

希望我们是由于对科研上的共同爱好和目标,才结成了师生关系。

发表的文献及专利:

1. He Wei, Yinli Chen, Wei Yu, et al. Study on corrosion resistance of high-strength medium-carbon spring steel and its hydrogen-induced delayed fracture [J]. Construction and Building Materials, 2019, 239: 117815.

2. He Wei, Yinli Chen, Zulai Li, et al. Microstructure evolution and dislocation strengthening mechanism of Cu–Ni–Co–Si alloy [J]. Materials Science and Engineering: A. 2021,09:231-247. 142023

3. He Wei, Yinli Chen, Wei Yu, et al. Correlation mechanism of grain orientation/microstructure and mechanical properties of Cu-Ni-Si-Co alloy [J]. Materials Science and Engineering: A. 2021,04:231-247.

4. He Wei, Yinli Chen, Wei Yu, et al. Determination of the macroscopic residual stress: Modeling and experimental evaluation of texture and local grain-interaction [J]. Materials Characterization, 2020, 169: 58-71.

5. He Wei, Yinli Chen, Lan Su, et al. Effect of simulated thermomechanical processing on transformation behavior and microstructure of 82B steel [J]. J Iron Steel Res Int, 2019, 26(1): 69-77.

6. He Wei, Yinli Chen, Lan Su, et al. Effect of cooling rate and isothermal temperature on the phase transformation and microstructure evolution in SWRH82B high-carbon steel[J]. Materials Research Express, 2018, 5 (8): 117-126.

7. He Wei, Yinli Chen, Lan Su. Stability, Mechanical Properties and Electronic Properties of X3Si (X=V, Nb, Cr, Mo and W) from First Principles Calculations[C]// Materials Science Forum. 2018,913

8. He Wei, Yinli Chen, Lan Su, et al. Study on Texture Evolution and Deformation Mechanism of the Cu-Ni-Si Alloy during Cold-rolling Treatment[J]. Procedia Engineering, 2017, 207: 1111-1116.

9. M. Peng, He Wei*, Z. Li, W. Zhang, C. Li, Q. Lv, F. Zhang, Study of electronic properties, mechanical properties and corrosion properties of trace Ce added to Al–Si–Mg–Cu alloys, Vacuum 228 (2024) 113521.

10. Z. Li, M. Peng, He Wei*, W. Zhang, Q. Lv, F. Zhang, Q. Shan, First-principles study on surface corrosion of 6082 aluminum alloy in H+ and Cl− medium, Journal of Molecular Structure 1294 (2023) 136570.

11. M. Peng, C. Li, He Wei*, Q. Lv, Z. Li, F. Zhang, Study on the mechanism of improvement of mechanical properties of Al-Mg-Si aluminum alloys by Cu and Ce, Journal of Materials Research and Technology (2024).

12. S. Chen, Y. Jin, He Wei*, Z. Li, Study on the effect of rare earth elements La, Ce, Y and Sc doping on the mechanical properties of aluminum–lithium alloys, Applied Surface Science 680 (2025) 161334.

13. Q Li, He Wei*, X Shi, Z Li, and S Chen, Precipitation Behavior of Al2CuLi, Al3Li and Al3Zr in A2060 Aluminum-Lithium Alloys and Mechanical Behavior of Their Microinterfaces, Vacuum 231 (January 2025): 113744.

14. W. Zhang, He Wei*, Z. Li, Q. Shan, F. Zhang, Interfacial bonding, corrosion, and wear behavior of Zr-based amorphous (Zr41.2Ti13.8Cu12.5Ni10Be22.5) alloy coatings prepared by plasma spraying technique, Surface and Coatings Technology 470 (2023) 129818.

15. Li Z, Zhang W, Peng M, He Wei*. Corrosion and wear mechanisms of rare earth (Gd, Sc, Y)-doped Zr-based amorphous alloys[J]. Journal of Materials Research and Technology, 2024, 33: 4699-4712.

16. Zhang W, He Wei*, Su R, et al. Study on corrosion and wear behavior mechanism of Zr-based bulk amorphous[J]. Materials Today Communications, 2023, 35: 105787.

17. Zhang W, Li Z, He Wei*, et al. Interfacial structure of WC-Fe metal-matrix composite (WC/Fe3W3C and Fe/Fe3W3C) stability, electronic and mechanical properties from first-principles calculations[J]. Materials Today Communications, 2022, 33: 104470.

18. Zhang W, He Wei*, Su R, et al. Study on corrosion and wear behavior mechanism of reactor material in metastannic acid synthesis[J]. Metals, 2022, 12(12): 2045.

19. Q. Lv, F. Zhang, He Wei*, Z. Li, J. Zhang, Effect of rare earth (La, Ce, Nd, Sc) on strength and toughness of 6082 aluminum alloy, Vacuum 215 (2023) 112333。

20. Yan Maiping, He Wei*, Shi Xiaoli, et al. The influence of rare earth elements (Y, Sc) on the interfacial binding properties between the precipitation phases Fe2B, FeB and the matrix Fe in boron steel [J]. Vacuum, 2023, 215: 112287.

21. Yan Maiping, Shi Xiaoli, He Wei*, et al. The influence of Mn content on Fe2B properties and its impact at the αZ‐Fe16C2 /Fe2B interface [J]. Vacuum, 2024, 222: 113056.

22. Li Z, Wang H, He Wei*, et al. Study of the effect of rare earth elements X (Pm, Ce, Pr, La) on the modification of NbN/Fe interface using first-principles calculations[J]. Physica B: Condensed Matter, 2024, 680: 415830.

23. J. He, He Wei*, X. Shi, S. Chen, Z. Li, M. Zha, Effect of Sc or Zr doping on the microstructure and mechanical properties of A2060 aluminum-lithium alloy, Vacuum 233 (2025) 113957.

24. 韦贺, 李祖来, 山泉, 等. WC体积分数对WC/Fe复合材料组织及压缩性能的影响[J]. 复合材料学报, 2016, 33(11):2560-2568.

25. 韦贺, 陈银莉,等. Ti含量对Si-Mn系中碳弹簧钢组织及性能的影响[J]. 金属热处理, 2018(6). (CSSCI)

26. 韦贺, 严海峰, 等. 等温温度对82B高碳钢组织演变规律的影响[J]. 金属热处理, 2018(7). (CSSCI)

27. 韦贺,李程,彭慕兰,等. 一种同时提高 Cu-Ni-Si-Co 铜合金力学性能和导电性能的方法.申请号:2023114841105

28. 韦贺,王慧文,李祖来,陈所坤,张文高. 稀土梯度掺杂WC颗粒增强铁基表层复合材料及制备方法. 申请号:2023115120414

29. 韦贺,王慧文,李祖来,陈所坤,张文高.一种稀土掺杂WC颗粒增强铁基复合材料的制备方法.申请号:2023115387938

30. 韦贺,李庆泓,陈所坤等. 一种高强细晶组织铝锂合金板材的加工工艺.申请号:2023116418755.

31. 韦贺,李庆泓,陈所坤等.一种高强高韧铝镁硅系合金材料的制备方法.申请号:2023116433929.

32. 韦贺,李庆泓,陈所坤等. 一种高强多层级异质结构铝锂合金材料的制备工艺.申请号:2023116544527.

33. 韦贺,李庆泓,陈所坤等.一种高强耐腐蚀团簇结构铝锂合金材料的制备工艺.申请号:2023116547879.

34. 韦贺,李程,彭慕兰,等. 一种通过制备梯度孪晶获得高强高导铜合金的方法.申请号:2023117220309.

35. 韦贺,吕啟涛,李祖来,陈所坤,等. 一种高强高韧铝镁硅系合金的制备方法.申请号:2023117356120.

36. 韦贺,贺惊宝,陈所坤,等. 一种提高7xxx系铝合金强度性能的制备方法.申请号:2023117362028.

37. 韦贺,贺惊宝,陈所坤,等. 一种高强高导铝镁硅铜合金的制备工艺.申请号:202311741856X.

38. 韦贺,王凌岳,陈所坤,等. 一种通过调控晶粒取向提高锡基钎料合金润湿性的热处理工艺.申请号:2023117911608.

39. 韦贺,贺惊宝,陈所坤,等. 一种高强高韧6xxx系铝镁硅合金及其制备方法.申请号:2024100181570.

40. 韦贺,贺惊宝,陈所坤,等. 一种高强高韧织构稀土铝锂铜合金的制备方法.申请号:2024100522772.

41. 韦贺,曾新宇,陈所坤,等. 一种纳米WC颗粒增强铝锂合金复合材料的加工工艺.申请号:2024100252843.

42. 韦贺,贺惊宝,陈所坤,等. 一种高强高韧织构稀土铝锂铜合金的制备方法.申请号:2024100522772.

43. 韦贺,王凌岳,陈所坤,等. 一种通过调控铝合金溶质原子团簇实现铝合金强韧化的工艺.申请号:2024100614952.

44. 韦贺,王凌岳,陈所坤,等. 一种通过逐级变速冷却得到高强高韧纳米颗粒锡基复合钎料的工艺.申请号:2024100892286.

45. 韦贺,李程,彭慕兰,等. 一种制备高强高导铜合金的热处理方法.申请号:2024100956409.

46. 韦贺,王凌岳,李祖来,陈所坤,等. 一种通过等离子体电弧放电法制备纳米颗粒锡基钎料合金的方法.申请号:202410094155X.

47. 韦贺,吕啟涛,李祖来,陈所坤,等. 一种高强高韧A1-Mg-Si系合金.申请号:2024101038809.

48. 韦贺,张文高,李祖来,张飞,山泉. 一种锆基非晶合金-钛合金复合材料涂层及其制备方法.申请号:202410377904X.

49. 韦贺,张文高,李祖来,张飞,山泉. 一种颗粒增强锆基非晶梯度复合涂层的制备方法.申请号:2024103781548.

50. 韦贺,李程,彭慕兰,等. 一种通过异质织构获得高强高弹铜合金的方法.申请号:2024107924023.

Copyright © 2024 All Rights Reserve  
昆明理工大学材料科学与工程学院 版权所有  
电话:0871-65109952  邮箱:clxyxsb@163.com  邮编:650093  
地址:云南省昆明市学府路昆明理工大学莲华校区材料楼6楼

关注公众号