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李龙飞

电话:010-62334862 办公室:主楼295 传真:010-62333447 职称:副研究员 Email:lilf@skl.ustb.edu.cn

研究方向

1、高强镍基单晶高温合金

2、新型γ'相强化钴基高温合金

3、先进汽车用复相钢

4、先进结构材料高通量分析方法


教育经历

2001/09-2005/06  北京科技大学   材料学                    博士

1998/09-2001/03  北京科技大学   材料学                    硕士

1994/09-1998/07  北京科技大学   金属材料及热处理          学士


工作经历

2009/07 至今     北京科技大学   新金属材料国家重点实验室  副研究员

2007/07-2009/06  北京科技大学   新金属材料国家重点实验室  讲师

2005/07-2007/06  北京科技大学   新金属材料国家重点实验室  博士后


论文著作

1、Li W D, Li L L, Antonov S, Feng Q, Effective design of a Co-Ni-Al-W-Ta-Ti alloy with high γ′ solvus temperature and microstructural stability using combined CALPHAD and experimental approaches. Materials and Design, 2019: 107912.

2、Guo X T, Zheng W, Xiao C B, Li L L, Antonov S, Zheng Y R, Feng Q, Evaluation of microstructural degradation in a failed gas turbine blade due to overheating. Engineering Failure Analysis, 2019, 103: 308-318.

3、Huo J J, Shi Q Y, Tin S, Li .L F, Feng Q, Improvement of creep resistance at 950 °C and 400 MPa in Ru-containing single-crystal superalloys with a high level of Co addition. Metallurgical and Materials Transactions A, 2018, 49(11): 5298-5308.

4、Lu S, Antonov S, Li L L, Feng Q, Two steady-state creep stages in Co-Al-W-base single-crystal superalloys at 1273 K/137 MPa. Metallurgical and Materials Transactions A, 2018, 49(9): 4079-4089.

5、Zheng C S, Li L F. Mechanical behavior of ultrafine-grained eutectoid steel containing Nanocementite particles. Materials Science and Engineering: A, 2018, 713: 35-42.

6、Zhang M H, Li L F, Ding J, Wu Q B, Wang Y D, Almer J, Guo F M, Ren Y.Temperature-dependent micromechanical behavior of medium-Mn transformation-induced-plasticity steel studied by in situ synchrotron X-ray diffraction. Acta Materialia, 2017, 294-303.

7、Zheng C S, Li L F. Effect of microstructure on mechanical behavior for eutectoid steel with ultrafine-or fine-grained ferrite+ cementite structure. Materials Science and Engineering A, 2017, 688: 83-91.

8、Guo Z K, Li L F. Influences of alloying elements on warm deformation behavior of high-Mn TRIP steel with martensitic structure. Materials & Design, 2016, 89: 665-675.

9、Zheng C S, Li L F, Wang Y D, Yang W Y, Sun Z Q. Micromechanical behavior of eutectoid steel quantified by an analytical model calibrated by in situ synchrotron-based X-ray diffraction. Materials Science and Engineering: A, 2015, 631: 181-188.

10、Guo Z K, Li L F, Yang W Y, Sun Z Q. Microstructures and mechanical properties of high-Mn TRIP steel based on warm deformation of martensite. Metallurgical and Materials Transactions A, 2015, 46(4): 1704-1714.

11、Zheng C S, Li L F, Yang W Y, Sun Z Q. Relationship between microstructure and yield strength for plain carbon steel with ultrafine or fine (ferrite+ cementite) structure. Materials Science and Engineering: A, 2014, 617: 31-38.

12、Fu B, Yang W Y, Wang Y D, Li L F, Sun Z Q, Ren Y. Micromechanical behavior of TRIP-assisted multiphase steels studied with in situ high-energy X-ray diffraction. Acta Materialia, 2014, 76: 342-354.

13、Feng Q X, Li L F, Yang W Y, Sun Z Q. Microstructures and mechanical properties of hot-rolled Nb-microalloyed TRIP steels by different thermo-mechanical processes. Materials Science and Engineering: A, 2014, 605: 14-21.

14、Fu B, Yang W Y, Li L F, Sun Z Q. Effect of bainitic transformation temperature on the mechanical behavior of cold-rolled TRIP steels studied with in-situ high-energy X-ray diffraction. Materials Science and Engineering: A, 2014, 603: 134-140.

15、Feng Q X, Li L F, Yang W Y, Sun Z Q. Effect of Nb on the stability of retained austenite in hot-rolled TRIP steels based on dynamic transformation. Materials Science and Engineering: A, 2014, 603: 169-175.

16、Zheng C S, Li L F, Yang W Y, Sun Z Q. Zuqing Sun. Microstructure evolution and mechanical properties of eutectoid steel with ultrafine or fine (ferrite+ cementite) structure. Materials Science and Engineering: A, 2014, 599: 16-24.


专    利

1、冯强,李文道,李龙飞,一种γ′相强化钴基高温合金及其制备方法, CN 201810327918.5, 2018.04.12.

2、李龙飞,冯强,庄晓黎, 一种钴基高温合金及其制备方法, CN201811531863.6,2018.12.24

3、李龙飞,孙祖庆,杨王玥,郭志凯, 一种制备亚微米复相钢的热机械处理方法,CN201310688257.6,2014.4.2

4、孙祖庆,李龙飞,杨王玥,陈伟,李伟, 一种用于高碳钢的热机械处理工艺, CN200910080666.1,2009.8.26

5、孙祖庆,李龙飞,杨王玥,谭洪锋, 一种制备超细化复相组织碳素钢的方法, CN200710098826.6,2007.10.3

6、孙祖庆,杨王玥,李龙飞,黄青松,陈伟, 一种制备超细化复相结构高碳钢的方法, CN200710063576.2,2007.8.8

7、孙祖庆,杨王玥,徐海卫,李龙飞, 一种制备高强细晶双相钢的方法, CN200710064150.9,2007.10.

8、孙祖庆,杨王玥,尹云洋,李龙飞,王西涛, 一种热轧低硅多相钢及其制备方法, CN200710100399.0,2007.10.24


科研项目

1、高组织稳定性第四代单晶高温合金研究,两机专项项目,课题负责人,2018年-2022年

2、新型镍基高温合金组合设计与全流程集成制备,国家重点研发计划项目,参与,2017年-2020年

3、单晶高温合金再结晶及其损伤机理,国家自然科学基金重点基金,参与,2019年-2022年

4、镍基单晶叶片可靠性提高研究,国家重大专项项目课题,参与,2017-2021

5、基于显微组织的涡轮增压壳用奥氏体耐热铸钢,美国福特汽车公司国际合作项目,参与,2017年-2020年