导师队伍

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李阁平

  • 电话: 024-83978619
  • 邮箱: gpli@imr.ac.cn
  • 所属部门: 轻质高强材料研究部

研究方向

钛的小众应用;铼效应本体论;锆、铪的分位错、调制结构、费米面与布里渊区;7N高纯金属;铅冷快堆冷却剂接触材料;聚变堆第一壁材料。

代表论著

Selected Publications in English:
1.Intermediate state of hexagonal close-packed structure to face-centered cubic structure transformation: Direct evidence for basal-type face-centered cubic phase via partial dislocation in zirconium. Fusen Yuan, F.Z. Han, Yingdong Zhang, Muhammad Ali, Wenbin Guo, Jie Ren, Chengze Liu, Hengfei Gu, Geping Li*, Gaihuan Yuan, Journal of Materials Science & Technology 98 (2022) 44-50.
2.Atypical U-shape micro-stacking faults within body-centered tetragonal Zr2Si nanoparticle in silicon modified Zircaloy-4 alloy, Fuzhou Han, Fusen Yuan, Geping Li*, Yingdong Zhang, Muhammad Ali, Wenbin Guo, Jie Ren, Chengze Liu, Hengfei Gu, Scripta Materialia 203(2021) 114051.
3.Atomic scale observation of FCC twin, FCC→9R and 9R→12R’ transformations in cold-rolled hafnium, Yingdong Zhang,Geping Li*, Fuzhou Han, Fusen Yuan,  Muhammad Ali, Wenbin Guo, Jie Ren, Scripta Materialia, 207(2021) 114284.
4.Rotation twin in body-centered tetragonal SiZr2 nanoparticle in silicon modified Zircaloy-4 alloy, Fusen Yuan, Geping Li*, Fuzhou Han, Yingdong Zhang, Muhammad Ali, Wenbin Guo, Jie Ren, Chengze Liu, Hengfei Gu, Journal of Alloys and Compounds 862 (2021) 158386.
5.Direct evidence for stress-induced face-centered cubic zirconium,Yingdong Zhang, Fusen Yuan, Fuzhou Han, Muhammad Ali, Wenbin Guo, Jie Ren, Chengze Liu, Hengfei Gu, Geping Li*, Materials Science and Engineering: A 807 (2021):140814
6.Incommensurate modulated structure in zirconium under three-point bending deformation Fusen Yuan, Yingdong Zhang, Fuzhou Han, Muhammad Ali, Wenbin Guo, Jie Ren, Chengze Liu, Hengfei Gu,Geping Li*, Materials Letters (2021) 129830.
7. High-resolution transmission electron microscopy study of body-centered tetragonal Zr2Fe nanoparticle phase in Zircaloy-4 alloy and its typical crystalline defect structures, Fuzhou Han, Fusen Yuan, Geping Li*, Yingdong Zhang, Muhammad Ali, Wenbin Guo, Jie Ren, Chengze Liu, Hengfei Gu, Gaihuan Yuan, Journal of Materials and Science,56 (2021):1-9.
8.A novel ultra-low current and temperature controlled electrochemical method for exposing various kinds of secondary phase precipitates: Application to the sample preparation of zirconium alloys and some other common alloys, Fuzhou Han, Geping Li*, Fusen Yuan, Yingdong Zhang, Muhammad Ali, Wenbin Guo, Jie Ren, Chengze Liu, Hengfei Gu, Materials Chemistry and Physics, 265 (2021) 124506.
9.A new type face-centered cubic zirconium phase in pure zirconium, F Yuan, Geping Li*, Fuzhou Han,  Journal of Materials Science & Technology 81 (2021)236-239.
10.Texture development and mechanical behavior of Zircaloy-4 alloy plates fabricated by cold rolling and annealing, Wenbin Guo, Geping Li*, Fusen Yuan, Fuzhou Han, Yingdong Zhang, Muhammad Ali, Jie Ren, Gaihuan Yuan, Materials Science and Engineering A, 2021, 807(3):140846
11.New insight into prismatic-type face-centered cubic zirconium phase in pure zirconium, F. Yuan, Geping Li*, Fuzhou Han, et al., Journal of Materials Science. 56, 2631-2637 (2021).
12.Core-shell structured nanoprecipitates in zirconium based alloy,Chengze Liu, Geping Li, Fusen Yuan, Fuzhou Han, Muhammad Ali, Yingdong Zhang, Wenbin Guo, Hengfei Gu, Scripta Materialia 185 (2020) 170-174.
13.Effect of cyclic β annealing on phase evolution and lamellar boundary characteristics at surface and subsurface layers of Ti–6Al–4V alloy M Ali, Geping Li*, F Yuan, Fuzhou Han, Muhammad Ali, Yingdong Zhang, Wenbin Guo, Jie Ren, Hengfei Gu, Journal of Alloys and Compounds 823 (2020) 153732
14.Stress-induced C14-->C15 phase transformation in a Zr(Fe,Cr)2 Laves structured nanophase, Fensen Yuan, Chengze Liu, Fuzhou Han, Yingdong Zhang, Ali Muhammad, Wenbin Guo Hengfei Gu, Geping Li*, Journal of Applied Crystallography 53(1) (2020) 222-225.
15.Cross stacking faults in Zr(Fe,Cr)2 face-centered cubic Laves phase nanoparticle, Fusen Yuan, Geping Li*, Chengze Liu, Fuzhou Han, Yingdong Zhang, Muhammad Ali, Wenbin Guo, Jie Ren, Chengze Liu, Hengfei Gu, Applied Surface Science 513 (2020) 145716.
16.The influence of microtexture on the formation mechanism of nodules in Zircaloy-4 alloy tube,Yingdong Zhang, Fusen Yuan, Fuzhou Han, Muhammad Ali, Wenbin Guo, Geping Li*, Chengze Liu, Hengfei Gu, Journal of Materials Science & Technology 47 (2020) 68-75.
17.Shear deformation behavior of Zircaloy-4 alloy plate,Fusen Yuan, Geping Li*, Fuzhou Han, Yingdong Zhang, Ali Muhammad, Wenbin Guo, Hengfei Gu, Materials Science and Engineering: A 774 (2020) 138914.
18.Effects of mechanical polishing treatments on high cycle fatigue behavior of Ti-6Al-2Sn-4Zr-2Mo alloy, Fusen Yuan, Chengze Liu, Hengfei Gu, Fuzhou Han, Yingdong Zhang, Muhammad Ali, Geping Li*,  International Journal of Fatigue 121 (2019) 55-62.
19.Microscopic characterization on low cycle fatigue behavior at room temperature of Zircaloy-4 alloy with recrystallized microstructure, Fuzhou Han, Chengze Liu, Fusen Yuan, Yingdong Zhang, Muhammad Ali, Hengfei Gu,Geping Li*, Journal of Alloys and Compounds. 778 (2019) 318-326.
20.Cheng Liu, Geping Li*, Fusen Yuan, Fuzhou Han, Yingdong Zhang, Hengfei Gu Stacking faults in Zr(Fe, Cr)2 Laves structured secondary phase particle in Zircaloy-4 alloy [J], Nanoscale 10(5) (2018) 2249-2254.
21.Considerable knock-on displacement of metal atoms under a low energy electron beam, Hengfei Gu, Geping Li*, Chengze Liu, Fusen Yuan, Fuzhou Han, Lifeng Zhang, Songquan Wu, Scientific Reports 7(1) (2017) 184.
22.{112}<111> Twinning during ω to body-centered cubic transition, S. Q. Wu, D. H. Ping, Y.Yamabe-Mitarai , W. L. Xiao, Y. Yang, Q. M. Hu, G. P. Li, R. Yang, Acta Materialia, 2014, 62:122.
23.Microstructure and texture evolution of a near-α titanium alloy during hot deformation,Peng Lin, Aihan Feng, Shijian Yuan, Geping Li, Jun Shen, Materials Science & Engineering A, 2013, 563:16
24.Formation of zigzag-shaped β mechanical twins in Ti-24.5Nb-0.7Ta-2Zr-1.4O alloy,Y. Yang, G.P. Li, H. Wang, S.Q. Wu, L.C. Zhang, Y.L. Li, K. Yang, Scripta Materialia, 2012, 66: 211.
25.Microstructure characterization on Martensitic α″ phase in Ti-Nb-Pd alloys. S. Q. Wu, D. H. Ping, Y. Yamabe-Mitarai, T. Kitashima, G. P. Li, R. Yang, Journal of Alloys and Compounds, 2012, doi:10.1016/j.jallcom.2011.12.152.
26.α" Martensitic twinning in alpha+beta Ti-3.5Al-4.5Mo titanium alloy. Changfu Li, Geping Li, Yi Yang, Mesut Varlioglu, Ke Yang, Journal of Metallurgy, 2011, doi: 10.1155/2011/924032.
27.Evolution of deformation mechanisms of Ti–22.4Nb–0.73Ta–2Zr–1.34O alloy during straining, Y. Yang, S.Q. Wu, G.P. Li, Y.L. Li, Y.F. Lu, K. Yang, P. Ge, Acta Materialia, 58, (2010) 2778
28.Multiple deformation mechanisms of Ti–22.4Nb–0.73Ta–2.0Zr–1.34O alloy, Y. Yang, G. P. Li, G. M. Cheng,Y. L. Li,and K. Yang, Applied Physics Letters, 94, (2009) 061901
29.Stress-introduced α〃martensite and twinning in a multifunctional titanium alloy, Y. Yang, G.P. Li, G.M. Cheng, H.Wang, M. Zhang, F. Xu, K. Yang, Scripta Metallurgica et Materialia, 58 (2008) 9.
30.Research of surface micro cracks and relief caused by lamella sliding during high temperature tensile in titanium alloy with lamella structure, Feng Xu, Geping Li, Mesut Varlioglu, Philip Nash,Rui Yang, Journal of Materials Science and Technology, 2(2006)470.
31.The effect of increased Zr content on the microstructure and mechanical properties of Ti-1100 alloy, Mesut Varlioglu, Philip Nash, Feng Xu, Geping Li, Light Metal Age, 62(2004) 32.
32.Acicular α2 precipitation induced by capillarity at α/β phase boundaries in Ti-14Al-2Zr-3Sn-3Mo-0.5Si titanium alloy, A. J. Huang, G. P. Li, Y. L. Hao, R. Yang, Acta Materialia, 51(2003) 4939.
33.Distributions of elements in Nd-rich phase particles in as-cast high temperature Ti-5Al-4Sn-2Zr-1Mo-0.25Si-1Nd alloy, G. P. Li, D. Li, Y. Y. Liu and Z. Q. Hu, Journal of Materials Science and Technology, 14(1998)41.
34.On the burn resistance of Ti-35V-15Cr-0.05C titanium alloy, G.P. Li, D. Li, Y. Y. Liu, S. X. Guan, Q. J. Wang, and Q.C.Li, Acta Metallurgica Sinica, 11(1998)202.
35.The microstructure and mechanical property of Ti-35V-15Cr-0.05C nonburning titanium alloy, G.P. Li, D. Li, Y. Y. Liu, S. X. Guan, Q. J. Wang, and Q.C.Li, Journal of Materials Science and Technology, 14(1998)411.
36.Thermal stability of RE-rich phase in high temperature titanium alloy, Y. Y. Liu, G.P. Li, D. Li, S. X. Guan, and Q. J. Wang, Journal of Rare Earths, 16(1998)285.
37.Structure of second phase particles in as-cast Ti-5Al-4Sn-2Zr-1Mo-0.25Si-1Nd alloy, G. P. Li*,D. Li, Y. Y. Liu, S. X. Guan, Q. J. Wang, D. H. Ping, Z. Q. Hu and Q. C. Li, Journal of Materials Science and Technology, 14(1998)41.
38.Nd-rich phase particles in as-forged Ti-5Al-4Sn-2Zr-1Mo-0.25Si-1Nd alloy, G.P. Li*, D. Li, Y. Y. Liu, S. X. Guan, and Q. J. Wang, Acta Metallurgica Sinica,. 11(1998)261.
39.Microstructure of second phase particles in Ti-5Al-4Sn-2Zr-1Mo-0.25Si-1Nd alloy, G. P. Li*, D. Li, Y. Y. Liu, S. X. Guan, Q. J. Wang, D. H. Ping and Z. Q. Hu, Metallurgical and Materials Transaction, 28A(1997)1595.
40.Microstructural analysis of the crystallised Ti80-Ndx-Si20 alloys using FEM-TEM, D.X.Li, D.H.Ping, Y.D.Yu, G.P.Li and H.Q.Ye, Proc. 6th Asia-Pacific Conf. On Electron Micro., Editors, Barber, P.Y.Chan, E.C.Chen, J.S.Dixon, and J.K.L.Lai, Hong Kong, July 1-5, 1996.259
41.HREM study of the nucleation of rare earth-rich phase particles in melt-quenched Ti-5Al-4Sn-2Zr-1Mo-0.25Si-1Nd alloy, G. P. Li, Y. Y. Liu, D. Li and Z. Q. Hu, Journal of Materials Science Letters, 15(1996)1003.
42.Microstructure of second phase particles in high temperature Ti-55 alloy after creep, G. P. Li, D. Li, Y. Y. Liu, S. X. Guan, Q. J. Wang, D. H. Ping and Z. Q. Hu, Materials Characterization, 37(1996)183.
43.Eutectic precipitation of melt quenched titanium-silicon-neodymium alloy, G. P. Li*,Y. Y. Liu,D. Li and Z. Q. Hu, Scripta Metallurgica et Materialia, 32(1995)301
44.A study of the microstructure of melt-quenched high temperature, Ti-5Al-4Sn-2Zr-1Mo-0.25Si-1Nd alloy, G. P. Li,D. Li, Y. Y. Liu and Z. Q. Hu, Materials Letters, 22(1995)237
45.Interaction between Nd-rich phase particles and liquid-solid interface in as-cast Ti-5Al-4Sn-2Zr-1Mo-0.25Si-1Nd titanium alloy, G. P. Li, D. Li, Y. Y. Liu and Z. Q. Hu, Scripta Metallurgica et Materialia, 33(1995)547.
46.Interaction between dislocations and Nd-rich phase particles in melt-quenched Ti-5Al-4Sn-2Zr-1Mo-0.25Si-1Nd alloy, G. P. Li, D. Li,Y. Y. Liu and Z. Q. Hu, Journal of Materials Science Letters, 14(1995)1386
47.A microstructure evolution of the crystallized production of a Ti-Si-Nd amorphous alloy, D. H. Ping, G. P. Li, Y. G. Wang, Y. D. Yu, D. X. li and H. Q. Ye, Materials Letters, S22(1995)121
48.Rare earth-enriched phase precipitation in Ti-5.3Al-4.2Sn-2Zr-1Mo-0.25Si-1Nd high temperature alloy, G. P. Li, D. Li and Z. Q. Hu, Chinese Science Bulletin, 40(1995)680
49.Effect of high temperature deformation on morphologies of Nd-rich phase particles in Ti-5Al-4Sn-2Zr-1Mo-0.25Si-1Nd alloy, G. P. Li, S. X. Guan, Q. J. Wang, Y. Y. Liu, D. Li and Z. Q. Hu, Acta Metallurgica Sinica, 8(1995)59.
50.Microstructure of as-melt quenched Ti-Si-Nd alloy, G. P. Li, D. Li, Y. Y. Liu and Z. Q. Hu, Acta Metallurgica Sinica, 8(1995)101.
51.Intragranular phases in as-cast high temperature Ti-5Al-4Sn-2Zr-1Mo-0.25Si-1Nd alloy, G. P. Li, D. Li, Y. Y. Liu and Z. Q. Hu, Journal of Rare Earths,13(1995)308.
52.Morphology characteristics of Nd-rich phase particles in melt-quenched Ti-5Al-4Sn-2Zr-1Mo-0.25Si-1Nd alloy, G. P. Li, D. Li, Y. Y. Liu and Z. Q. Hu, Journal of Materials Science and Technology, 11(1995)451.
53.Distribution of Nd-rich phase particles in as-cast Ti-5Al-4Sn-2Zr-1Mo-0.25Si-1Nd alloy, G. P. Li, D. Li, Y. Y. Liu and Z. Q. Hu, Acta Metallurgica Sinica, 7(1994)215.
Selected Patents :
1.一种鉴别锆合金中δ相氢化物和FCC-Zr析出相的方法[P].李阁平,韩福洲,袁福森等. 国家发明专利,专利号:201911035819.0.
2.一种超低温弱电流控制金属材料EBSD样品制备方法[P].李阁平,韩福洲,刘承泽,袁福森等. 国家发明专利. 专利号:20191-202346.2.
3.一种确定TEM观察锆合金中FCC-Zr相最佳方向的复合衍射法[P]. 李阁平,韩福洲,刘承泽,袁福森等. 国家发明专利. 专利号:20191078144.5.
4.一种快速呈现多晶材料特定晶面分布特征的方法[P]. 李阁平,韩福洲,刘承泽,袁福森等. 国家发明专利. 辽宁省:CN110095486A.
5.一种快速呈现多晶材料特定晶面取向分布特征的方法[P].李阁平,韩福洲,刘承泽,袁福森等.国际发明专利. PCT/ CN2019/000250.在申
6.一种观察锆合金纳米第二相的电化学腐蚀方法,李阁平, 韩福洲, 刘承泽, 袁福森, 张英东, 郭文斌 , 穆罕默德.阿里, 顾恒飞,  国际发明专利.PCT/CN2019/000249.
7.一种超低温弱电流控制金属材料EBSD样品制备方法[P].李阁平,韩福洲,刘承泽,袁福森等.  国际发明专利. PCT/CN2020/000050.在申
8.一种用于透射电镜原位观察位错滑移迹线的样品制备方法[P]. 李阁平,韩福洲,袁福森等. 国家发明专利. 辽宁省: 202011236377.9.
9.一种用于薄壁管材疲劳测试的试样方法[P].李阁平, 韩福洲, 郭文斌等.实用新型发明专利. 辽宁省:202120594187.8
10.一种材料剪切疲劳性能测试装置[P], 李阁平,袁福森,刘承泽,韩福洲等,实用新型专利.辽宁省:ZL 2028 2 0115435.4.
11.一种多晶材料中单个晶粒应力状态的TKD确定方法[P].李阁平,袁福森,刘承泽,韩福洲等, 国家发明专利. 辽宁省:ZL 2018 1 1138448.4
12.一种用于研究结构材料在铅铋合金熔体中腐蚀行为的装置[P]. 李阁平,袁福森,张英东,韩福洲等.实用新型专利. 辽宁省:2020225437507.
13.一种锆及锆合金粗晶的制备方法[P]. 李阁平,袁福森,刘承泽,韩福洲等. 国家发明专利.辽宁省:CN111218632A.
14. 一种材料剪切疲劳性能测试方法[P]. 李阁平,袁福森,刘承泽,韩福洲等.国家发明专利.辽宁省:CN110031344A.
15.一种通过Gleeble压缩测量轧制过程温升的方法[P].李阁平,郭文斌,袁福森,韩福洲等. 国家发明专利. 辽宁省:CN111097802A.
16.一种锆合金第二相的腐蚀剂及腐蚀方法. 李阁平,袁福森,袁改焕,储林华,李晓珊,高博,罗倩倩,彭胜,刘承泽,韩福洲等. 国家发明专利. 辽宁省:ZL 2018 1 0500804.6.
17.一种用于制备薄壁观察亚平测织构试样的装置[P]. 李阁平, 郭文斌, 张英东,袁福森,韩福洲等.实用新型专利. 辽宁省:202020255808.5.
18.一种实现高低温界面换热系数测定的装置[P]. 李阁平, 刘承泽, 张英东, 袁福森,韩福洲等.实用新型专利.辽宁省:ZL2019 2 2091565.6.
19.一种制备不同取向的大等轴晶粒方法,李阁平,张英东,刘承泽,袁福森等,国家发明专利。辽宁省:20201138754.
20.一种用于机械加电解抛光制备微型EBSD试样的装置[P].李阁平, 张英东, 刘承泽,  袁福森等. 实用新型专利. 辽宁省:CN209741302U.