| 简历: |
1980.9-1984.7 兰州大学物理系金属物理专业,理学学士 1984.8-1987.8 辽宁科技大学机械工程系金属材料专业,助教 1987.9-1990.8 中国科学院金属研究所材料物理专业,工学硕士 1990.9-1993.6 中国科学院金属研究所材料物理专业,工学博士 1993.7-1997.4 国科学院金属研究所固体原子像实验室,助研 1994, 9-1997, 6 日本国立无机材料研究所,特别主任研究官 1997, 5-1998, 4 中国科学院金属研究所,副研究员 1998, 5- 中国科学院金属研究所,研究员 1999, 7 韩国KAIST,访问研究 2000, 2- 中国科学院金属研究所,博士生导师,学科方向:材料物理化学 2000, 4 日本东北大学,多元物质科学研究所,访问研究 2001, 9 意大利米兰国家材料和能源技术研究所(IENI,CNR),合作研究 2010, 2 香港科技大学,研究访问与合作交流 2011, 8 加拿大 Univ. of Saskatchewan,合作研究和学术交流 |
| 研究领域: |
(1)炭材料的显微结构与缺陷、界面结构和使役过程中的结构演变的纳米原子尺度表征,主要包括:炭炭复合材料,炭纤维,炭碳化硅复合材料 (2)金属间化合物有序合金高温结构材料的显微结构、界面结构和相变研究 (3)薄膜材料、纳米材料的显微结构和界面结构 |
[1] Liu YQ, He LL, Lu XF, Xiao P, “Transmission electron microscopy study of the microstructure of unidirectional C/C composites fabricated by catalytic chemical vapor infiltration”, Carbon 2013; 51, 381-389.
[2] Liu YQ, He LL, Lu XF, Xiao P, “Transmission electron microscopy study of the microstructure of carbon/carbon composites reinforced with in situ grown carbon nanofibers”, Carbon 2012; 50, 2424-2430.
[3] Lin QY, Li TQ., Liu ZJ, Song Y., He LL, He ZJ, Guo QG, Ye HQ, “High-resolution TEM observations of isolated rhombohedral crystallites in graphite blocks”, Carbon 2012; 50, 2369-2371.
[4] Zhou GH, Chen TF, He LL, Ye HQ, “In situ observation of fracture interface between an individual fiber and the pyrocarbon matrix in C/C composites”, Carbon 2012; 50, 2353-2355.
[5] Zhou GH, Liu YQ, He LL, Guo QG, Ye HQ, “Microstructure difference between core and skin of T700 carbon fibers in heat-treated carbon/carbon composites”, Carbon 2011; 49, 2883-2892.
[6] Lei BL, He LL, Yi MZ, Ran LP, Xu HJ, Ge YC, Peng K., “New insights into the microstructure of the friction surface layer of C/C composites”, Carbon 2011; 49, 4554-4562.
[7] Yin CL, Huang QZ, Xie YG, Wang XF, Xie ZY, He LL, Su Z, Liu BR, “Fluffy carbon submicrospheres produced by a catalyzed solvent-thermal reaction”, Carbon 2007; 45, 1589.
[8] Zhou GH, Yu S, He LL, Guo QG, Ye HQ, “The interpretation of X-ray diffraction from the pyrocarbon in carbon/carbon composites with comparison of TEM observations”, Phil. Mag. 2012; 92(10), 1198-1211.
[9] 林青云,李鹏,宋燕,贺连龙,郭全贵,叶恒强, “透射电镜三维重构确定中孔炭六角孔道结构”, 新型碳材料 2012; 27(1), 252-257.
[10] Lei BL, Yi MZ, He LL, Xu HJ, Ran LP, Ge YC, Peng K, “Structural and chemical study of C/C composites before and after braking tests”, Wear 2011; 27(2), 1-6.
[11] Yang ZQ, Chen J, He LL, Cong HT, Ye HQ, “Microstructure and grain boundary relaxation in ultrafine-grained Al/Al oxide composites”, Acta Meter 2009; 57: 3633-44.
[12] Cheng GM, Tian YX, He LL, “Orientation relationship and interfacial structure between Nb solid solution precipitates and a-Nb5Si3 intermetallics”, J Mater. Res. 2009; 24(1): 192-7.
[13] Chen CL, Lu W, He LL, Ye HQ, “First-principles study of deformation-induced phase transformations in Ti–Al intermetallics”, J Mater. Res. 2009; 24(5): 1662-66.
[14] Chen CL, Lu W, He LL, Ye HQ, “Orientation relationships between TiB (B27), B2, and Ti3Al phases”, J Mater. Res. 2009; 24(5): 1688-92.
[15] Chen CL, Lu W, Cui YY, He LL, Ye HQ, “High-resolution image simulation of overlap structures in TiAl alloy”, J Alloys & Compounds 2009; 468(1-2): 179-186.
[16] Tian XY, Guo JT, Cheng GM, Sheng LY, Zhou LZ, He LL, Ye HQ, “Effect of growth rate on microstructure and mechanical properties in a directionally solidified Nb-silicide base alloy”, Materials and Design 2009; 30: 2274-77.
[17] Guo JT, Tian XY, Cheng GM, Zhou LZ, He LL, Ye HQ, “Microstructural characteristics and high temperature compressiveproperties at 1623K of a directionally solidified Nb-silisides based in-situ composite” J Alloys & Compounds 2009; 470, 606-9.
[18] 梁佳淼, 周更衡, 贺连龙, “Micro- and nano-structural investigations of C/C composites”, New Carbon Mater 2008; 23(1), 69-74 (中文).
[19] Wei L, Deng XH, Wang H, Huang HT, He LL, “Electronic structure and chemical bonding of a- and b-Ta4AlC3 phases: Full-potential calculation”, J Mater. Res. 2008; 23(9): 2350-56.
[20] Tian, YX, Guo, JT, Sheng, LY, Cheng, GM, Zhou, LZ, He, LL, Ye, HQ, “Microstructures and mechanical properties of cast Nb-Ti-Si-Zr alloys”, Intermetallics 2008; 16(6): 807-812.
[21]Lu, W, Chen, CL, He, LL, Wang, FH, Lin, JP, Chen, GL, “(S)TEM study of different stages of Ti- 45Al-8Nb-0.2W-0.2B-0.02Y alloy oxidation at 900 degrees C”, Corrosion Science 2008; 50(4): 978-988.
[22] Chen, CL, Lu, W, Cui, YY, He, LL, Ye, HQ , “TEM observations of twin intersections in a Ti-47Al-2Cr-2Nb-0.1Y alloy compressed at room temperature”, J Alloys & Compounds 454(1-2), 201-205 (2008).
[23] Tian, YX, Cheng, GM, Guo, JT, Zhou, LZ, He, LL, Ye, HQ, “Microstructure and mechanical properties of directionally solidified Nb-22Ti-16Si-7Cr-3Al-3Ta-2Hf-0.1Ho alloy” Adv. Eng. Matter. 2008; 9(11): 963-966.
[24] Tian, YX, Guo, JT, Cheng, GA, Sheng, LY, Zhou, LZ, He, LL, Ye, HQ, “Elevated temperature compressive behavior of Nb-22Ti-16Si-7Cr-3Al-3Ta-2Hf alloy with minor Ho addition” Inter. J Matter. Res. 2008; 99(2): 228-232.
