- 梁立红
- 副研究员
- 北京市海淀区北四环西路15号中国科学院力学所
简历:
2003.3 吉林大学 材料学 博士 2003.4-2005.3 中国科学院物理所 博士后 2005.3-2007.7 新加坡国立大学物理系 研究人员
2007.7至今 中国科学院力学所 非线性力学国家重点实验室 先后任助理研究员、副研究员(一级)、先进材料跨尺度力学课题组长
研究领域:
主要研究表界面相关的先进微/纳米材料力学及相关物理性能,旨在揭示先进材料跨尺度力热失效行为及物理机制,结合理论、实验和计算机模拟方法,理解微结构尺度、表界面能等因素对固体宏观力学行为的影响规律及机制,以指导先进纳米薄膜、涂层及复合材料的应用。多次参加国际计算会、国际断裂会等力学大会作邀请报告或主持研讨;并鼓励研究生参加中国力学大会等,已先后毕业多名研究生。具体研究方向包括:
1、界面性能、断裂行为宏微观尺度研究、薄膜弹性温度尺度效应;
2、先进涂层损伤断裂跨尺度研究;
3、跨尺度热传导、纳米材料相变热力学等。
社会任职:
北京力学会固体力学委员(2010-)
获奖及荣誉:
2004 获中国科学院王宽诚工作奖励基金 2006 获吉林省科技进步一等奖等“纳米材料的相变热力学”
代表论著:
先后发表40多篇SCI论文,平均影响因子大于2,近五年SCI他引300多次. 代表论文如下:
1. H. Long, L.H. Liang*, Y. Wei, 'Failure characterization of solids structures based on an equivalance of cohesive zone model', International Journal of Solids and Structures, 163 (2019)194.
2. L.H. Liang, et al., 'Size-dependent damage and fracture of two-layer systems', Engineering Fracture Mechanics,199 (2018) 635.
3. X. Fu, L.H. Liang*, Y. Wei, 'Atomistic simulation study on the shear behavior of Ag/MgO interface', Computational Materials Science, 155 (2018) 116.
4. X. You, L.H. Liang*, Y. Wei, 'The atomistic simulation study of Ag/MgO interface tension fracture', Computational Materials Science, 142 (2018) 277.
5. J. Li, L.H. Liang#, et al., 'Experimental studies on strengthening and failure mechanism for the metal/silicone rubber/metal bonding system', International Journal of Applied Mechanics, 85 (2018) 091004.
6. H. Liu, Y. Wei, L.H. Liang*, et al., 'Damage characterization model of ceramic coating systems based on energy analysis and bending tests', Ceramics International 44 (2018) 4807.
7. H. Yin, S. Chen, L.H. Liang*, et al., 'Quantitative predictions of the whole peeling process of an elastic films on a rigid substrate', Journal of Applied Mechanics-Transactions of the ASME, 85 (2018) 091004.
8. L.H. Liang, et al., 'Power-law Characteristics of damage and failure of ceramic coating systems under three-point bending', Surface and Coatings Technology, 285 (2016) 113.
9. H. Liu, L.H. Liang*, et al., 'Fracture characteritics and damage evolution of coating systems under four-point bending', International Journal of Applied Ceramic Technology, 13 (2016) 1043.
10. L.H. Liang, et al., 'The mechanism of high thermal shock resistance of nanostructured ceramic coatings', International Journal of Applied Ceramic Technology, 12 (2015) 1096.
11. X. Li, L.H. Liang*, et al., 'Thickness-dependent fracture characteristics ceramic coatigns bonded on the alloy substrates', Surface and Coatings Technology, 258 (2014) 1039.
12. S. Yang, W. Xu, L.H. Liang#, et al., 'An experiment study on the dependence of the strength of adhesively bonded joints with thickness and mechanical properties of the adhesives', Journal of Adhesion Science and Technology, 28 (2014) 1055.
13. L.H. Liang, et al., 'Enhanced insulation temperature and the reduced thermal conductivity of nanostructured ceramic coating systems', International Journal of Heat and Mass Transfer, 65 (2013) 219.
14. L.H. Liang, et al., 'Temperature effect on elastic modulus of thin films and nanocrystals', Philosophical Magazine, 9 (2013) 574.
15. L.H. Liang, et al., 'Size-dependent interface adhesive energy and enhanced interface strength of nanostructured ceramic systems', Surface and Coating Technology, 236 (2013) 525.
16. B. Wu, L.H. Liang#, et al., 'A trans-scale model for size effects and intergranular fracture in nanocrystalline and ultra-fine polycrystalline metals', Computational Material Science, 57 (2012) 2.
17. L.H. Liang, et al., 'Size-dependent elastic modulus and vibration of nanocrystals', Journal of Nanomaterials, 2011 (2011) 670857.
18. L.H. Liang, et al., 'Interface energy and its influence on interface fracture between metal and ceramic films in nanoscale', Journal of Applied Physics, 108 (2010) 084317.
19. X. Chen, H. Ma, L.H. Liang, Y. Wei, 'A surface energy model and application to mechanical properties analysis of single crystals at sub-micron scale', Computational Materials Science, 46 (2009) 723.
20. H. Ma, G. Hu, Y. Wei, L.H. Liang, 'Inclusion problem in second gradient elasticity', International Journal of Engineering Science, 132 (2018) 60.
21. H. Ma, Y. Wei, J. Song, L.H. Liang, 'Mechanical behavior and size effect of the staggered bio-structure materials', Mechanics of Materials, 126 (2018) 47.
......
以下较早SCI论文,至今引用仍较多:
1. L. H. Liang, Yueguang Wei, B. W. Li, “Thermal conductivity of composites with nanoscale inclusions and size-dependent percolation”, J. Phys.: Condens. Mat. 20 (2008) 365201. 2. L. H. Liang, Yueguang Wei, B. W. Li, “Size-dependent interface phonon transmission and thermal conductivity of nanolaminates”, J. Appl. Phys. 103 (2008) 084314. 3. L. H. Liang and B. W. Li, “Size-dependent melting temperature and thermal conductivity of nanoscale semiconductors”, Int. J. Mod. Phys. B 21 (2007) 4026-4029.4. L. H. Liang and B. W. Li, “Size-dependent thermal conductivity of nanoscale semiconducting systems”, Phys. Rev. B 73 (2006) 153303. 5. G. Ouyang, L. H. Liang, C. X. Wang, and G. W. Yang, “Size-dependent interface energy”, Appl. Phys. Lett. 88 (2006) 091914. 6. L. H. Liang, F. Liu, D. X. Shi, W. M. Liu, X. C. Xie, and H. J. Gao, “Nucleation and reshaping thermodynamics of Ni as catalyst of carbon nanotubes”, Phys. Rev. B 72 (2005) 035453.7. L. H. Liang, G. W. Yang, B. W. Li, “Size-dependent formation enthalpy of nanocompounds”, J. Phys. Chem. B 109 (2005) 16081-16083. 8. L. H. Liang, C. M. Shen, X. P. Chen, W. M. Liu, Hongjun Gao, “The size-dependent phonon frequency of semiconductors nanocrystals”, J. Phys.: Condens. Mat. 16 (2004) 267-272. 9. L. H. Liang, C. M. Shen, S. X. Du, W. M. Liu, X. C. Xie, H. J. Gao, “Increase in thermal stability induced by organic coatings on nanoparticles”, Phys. Rev. B 70 (2004) 205419. 10. Q. Jiang, L. H. Liang, J. C. Li, “Thermodynamic superheating of low-dimensional metals embedded in a matrix”, Vacuum 72 (2004) 249-255.11. L. H. Liang, D. Liu, Q. Jiang, “Size-dependent continuous solution phase diagram of binary system”, Nanotechnology 14 (2003) 438-442. 12. L. H. Liang, J. C. Li, Q. Jiang, “Size-dependent melting depression and lattice contraction of Bi nanocrystals”, Physica B 334 (2003) 49-53. 13. L. H. Liang, J. C. Li, Q. Jiang, “Modeling of melting enthalpy of organic nanowires”, Phys. Status Solidi B 236 (2003) 583-588. 14. L. H. Liang, J. C. Li, Q. Jiang, “Size-dependent elastic modulus of Cu and Au thin films”, Solid State Commun. 121 (2002) 453-455. 15. L. H. Liang, J. C. Li, Q. Jiang, “Superheating thermodynamics of nanocrystals based on the interface effect”, Physica B 322 (2002) 188-192. 16. L. H. Liang, M. Zhao, Q. Jiang, “Melting enthalpy depression of nanoparticles based on surface effect”, J. Mater. Sci. Lett. 21 (2002) 1843-1845. 17. Q. Jiang, L. H. Liang, D. S. Zhao, “Lattice contraction and surface stress of fcc nanocrystals”, J. Phys. Chem. B 105 (2001) 6275-6277. 18. Q. Jiang, L. H. Liang, M. Zhao, “Modeling of the melting temperature of nano-ice in MCM-41 pores”, J. Phys.: Condens. Mat. 13 (2001) L397-L401. 19. Q. Jiang, L. H. Liang, J. C. Li, “Thermodynamic superheating and relevant interface stability of low-dimensional metallic crystals”, J. Phys.: Condens. Mat. 13 (2001) 565-571.
承担科研项目情况:
先后主持多项国家自然科学基金项目并作为骨干成员参加科技部重大研究计划等,如
1、国家自然科学基金(重大计划):氧化铝薄膜与镍基底的高温界面强度跨尺度表征(2019-2021),主持;
2、国家自然科学基金(面上): 纳米结构热障涂层的损伤灾变实验及机理研究(2017-2020),主持;
3、国家自然科学基金(青年):纳米薄膜弹性模量的尺度效应及其物理机制(2009-2011),主持;
4、国家自然科学基金(专项):纳米晶体的声子频率、热稳定性及生长 (2004) ,主持;
5、国家自然科学基金(重点):多尺度力学的核心问题研究(2011-2014),参加;
6、国家自然科学基金(重点):高效热电材料及其应用中的关键力学问题(2009-2012) ,参加;
7、科技部重大研究计划:纳米材料及结构的力学新理论及精细表征技术(2012-2016),参加;
8、横向课题(北理):聚合物基复合材料性能表征(2018-2019),主持;
9、合作课题(北大):离散与连续关联的跨尺度方法及先进材料变形机理(2018-2019),主持;
10、教育部留学归国基金:微纳米结构材料的介观尺度力学(2009),主持......
