个人简历
叶宏飞,男,辽宁省力学学会副秘书长。2017/01 至今,大连理工大学,运载学部工程力学系,副教授2013/01 – 2016/12,大连理工大学,运载学部工程力学系,讲师2013/01 – 2015/01,大连理工大学,运载学部船舶工程学院,师资博士后2006/09 – 2012/12,大连理工大学,运载学部工程力学系,博士(免试推荐、硕博连读)2008/04 – 2008/09,香港城市大学,建筑系,研究助理2002/09 – 2006/07,大连理工大学,工程力学系,学士主要从事计算微纳米力学研究,研究内容包括纳米尺度控制性元器件设计、流体在纳米尺度下的性质和行为、纳米复合材料力学性能多尺度表征、微纳尺度力学方法和模型研究等。目前,主持与参与科研项目10余项(包括主持国家自然科学基金面上项目2项、青年基金及参与国家重点研发计划课题2项),已发表论文50余篇,其中SCI检索论文45篇,部分研究成果发表在《Sci. Rep.》、《Phys. Chem. Chem. Phys.》、《Nanotechnology》、《Soft Matter》、《Appl. Phys. Lett.》、《Microfluid. Nanofluid.》、《J. Phys. D: Appl. Phys.》、《Nanoscale Res. Lett.》、《J. Appl. Phys.》等较有影响力的国内外学术期刊中。曾获ICACM青年学者奖、辽宁省“百千万人才工程”万人层次、大连市青年科技之星、钱令希力学奖青年教师一等奖、大连理工大学“星海学者”人才培育计划—星海优青层次、大连理工大学“星海学者”人才培育计划—星海骨干层次、卓越联盟高校青年教师教学创新大赛二等奖、运载工程与力学学部青年教师讲课竞赛一等奖等荣誉和奖励。获得奖励情况:ICACM青年学者奖,2018辽宁省“百千万人才工程”万人层次,2018卓越联盟高校青年教师教学创新大赛二等奖,2018校教学质量优良奖,2018钱令希力学奖青年教师一等奖,2017校教学质量优良奖,2017大连理工大学“星海学者”人才培育计划—星海优青层次,2016校教学质量优良奖,2016大连市青年科技之星,2015校教学质量优良奖,2015大连理工大学“星海学者”人才培育计划—星海骨干层次,2014运载工程与力学学部青年教师讲课竞赛一等奖,2014校教学质量优良奖,2014辽宁省优秀博士学位论文提名奖,2014大连理工大学优秀博士学位论文,2014攻博期间:教育部博士研究生学术新人奖辽宁省三好学生大连理工大学优秀博士特别奖学金大连理工大学优秀研究生标兵大连理工大学优秀博士单项奖学金钱令希奖学金一等奖学生培养情况:已毕业硕士研究生3人,目前指导在读硕士研究生6人。著作成果 材料力学(数字化课程) 理论力学 科研项目 纳米增强复合材料性能表征与多尺度仿真技术研究, 2017/11/02-2018/08/31, 完成 2016年大连科技之星项目(2015年称号)-纳米复合材料力学性能的多尺度计算分析技术研究, 大连市青年科技之星项目, 2016/10/11, 进行 力-电-热耦合作用下纳米孔隙多相流可控流动特性研究, 国家自然科学基金, 2016/08/17, 进行 含离子溶液的碳纳米管在力电耦合场中的可控变形行为, 中国博士后科学基金, 2013/05/01-2014/12/23, 完成 力电耦合作用下含液碳纳米管的可控力学行为研究, 国家自然科学基金, 2013/09/25-2016/12/31, 完成 智能水凝胶溶胀大变形等几何分析及功能器件结构优化设计, 国家自然科学基金, 2017/08/17, 进行 结构有限元高性能分析算法研究及软件开发, 国家重点研发计划, 2016/07/28, 进行 骨架非线性含液多孔介质力学行为分析的近场动力学方法, 国家自然科学基金, 2016/08/17, 进行 低维纳米材料与细胞耦合力学行为的多尺度建模与分析, 辽宁省教育厅重点实验室基础研究项目, 2015/09/29, 进行 2013年度教育部新世纪优秀人才支持计划, 教育部新世纪优秀人才支持计划项目, 2013/10/08-2017/04/12, 完成 纳米孪晶材料塑性及断裂力学行为数值模拟与理论研究, 国家自然科学基金, 2012/09/25-2016/12/31, 完成 飞行器复合材料结构强度分析及可信度验证, 2017/02/27-2018/08/31, 完成 其他奖励 教学质量优秀奖 (2019年) 中国力学学会全国徐芝纶力学优秀教师奖 (2019年) ICACM青年学者奖 (2018年)
研究领域
微纳米材料力学特性分析微纳米尺度器件设计有限元方法与应用飞行器复合材料的设计与仿真"1. 微纳米材料力学特性分析2. 微纳米尺度器件设计3. 有限元方法与应用4. 飞行器复合材料的设计与仿真"
近期论文
[1]Zhang, Hongwu,Li, Hui,Ye, Hongfei,Zheng, Yonggang,Zhang, Yixiong.A coupling extended multiscale finite element and peridynamic method for modeling of crack propagation in solids[J],ACTA MECHANICA,2019,230(10):3667-3692 [2]Li, Hui,Zhang, Hongwu,Zheng, Yonggang,Ye, Hongfei,Lu, Mengkai.An Implicit Coupling Finite Element and Peridynamic Method for Dynamic Problems of Solid Mechanics with Crack Propagation[J],INTERNATIONAL JOURNAL OF APPLIED MECHANICS,2018,10(4) [3]Zheng, Yonggang,Sun, Jia,Ye, Hongfei,Zhang, Jiayong,Zhang, Hongwu.Crystallization behaviors and mechanical properties of carbon nanotube encapsulated copper nanowires[J],COMPUTATIONAL MATERIALS SCIENCE,2018,143:350-359 [4]Ye, Hongfei,Zheng, Yonggang,Zhou, Lili,Zhao, Junfei,Zhang, Hongwu,Chen, Zhen.Divergent effect of electric fields on the mechanical property of water-filled carbon nanotubes with an application as a nanoscale trigger[J],NANOTECHNOLOGY,2018,29(2):025707 [5]Zheng, Yonggang,Li, Qian,Zhang, Jiayong,Ye, Hongfei,Zhang, Hongwu,Shen, Luming.Hetero interface and twin boundary mediated strengthening in nano-twinned Cu//Ag multilayered materials[J],NANOTECHNOLOGY,2017,28(41):415705 [6]Zheng, Yonggang,Ding, Liquan,Ye, Hongfei,Chen, Zhen.Vibration-Induced Property Change in the Melting and Solidifying Process of Metallic Nanoparticles[J],NANOSCALE RESEARCH LETTERS,2017,12(1):308 [7]Zhang, Zhongqiang,Zheng, Yonggang,Ye, Hongfei,Cheng, Guanggui,Ding, Jianning.Molten and solidification properties of copper nanoparticles[J],SURFACE AND INTERFACE ANALYSIS,2016,48(13):1423-1428 [8]Tang, Huayuan,Zhang, Hongwu,Ye, Hongfei,Zheng, Yonggang.Wrapping of a deformable nanoparticle by the cell membrane: Insights into the flexibility-regulated nanoparticle-membrane interaction[J],JOURNAL OF APPLIED PHYSICS,2016,120(11) [9]Zhang, Jiayong,Zhang, Hongwu,Ye, Hongfei,Zheng, Yonggang.Free-end adaptive nudged elastic band method for locating transition states in minimum energy path calculation[J],JOURNAL OF CHEMICAL PHYSICS,2016,145(9):094104 [10]Ye, Hongfei,Zheng, Yonggang,Zhang, Zhongqiang,Zhang, Hongwu,Chen, Zhen.Controllable deformation of salt water-filled carbon nanotubes using an electric field with application to molecular sieving[J],NANOTECHNOLOGY,2016,27(31):315702 [11]Zheng, Yonggang,Chen, Cen,Ye, Hongfei,Zhang, Hongwu.Lattice Boltzmann models for the grain growth in polycrystalline systems[J],AIP ADVANCES,2016,6(8) [12]Zhang, Jiayong,Zhang, Hongwu,Ye, Hongfei,Zheng, Yonggang.Twin Boundaries merely as Intrinsically Kinematic Barriers for Screw Dislocation Motion in FCC Metals[J],SCIENTIFIC REPORTS,2016,6:22893 [13]周震寰,叶宏飞,孙家斌,徐成辉.“慕课”理念在高校理论力学教学中的作用及探讨[J],新课程·下旬,2016,3:25 [14]Zheng, Yonggang,Ye, Hongfei,Zhang, Hongwu,Chen, Z..Twin-induced template effect on the inelastic deformation of hierarchically nanotwinned copper under indentation and scratch[J],INTERNATIONAL JOURNAL OF DAMAGE MECHANICS,2016,25(1,SI):56-68 [15]Ye, Hongfei,Li, Rui,Zheng, Yonggang,Zhang, Zhongqiang,Zong, Zhi,Zhang, Hongwu.Torsional failure of water-filled carbon nanotubes[J],INTERNATIONAL JOURNAL OF DAMAGE MECHANICS,2016,25(1,SI):87-97 [16]Ye, H. F.,Zheng, Y. G.,Zhang, Z. Q.,Chen, Z.,Zhang, H. W..Water filling and electric field-induced enhancement in the mechanical property of carbon nanotubes[J],SCIENTIFIC REPORTS,2015,5:17537 [17]Tang, Huayuan,Ye, Hongfei,Zhang, Hongwu,Zheng, Yonggang.Wrapping of nanoparticles by the cell membrane: the role of interactions between the nanoparticles[J],SOFT MATTER,2015,11(44):8674-8683 [18]Li, Rui,Ye, Hongfei,Zhang, Weisheng,Ma, Guojun,Su, Yewang.An analytic model for accurate spring constant calibration of rectangular atomic force microscope cantilevers[J],SCIENTIFIC REPORTS,2015,5:15828 [19]张忠强,董鑫,叶宏飞,程广贵,丁建宁,王磊.热-力-电耦合作用下低维碳材料表面流体运动特性[A],2015中国力学大会,2015,164-164 [20]叶宏飞,郑勇刚,张洪武,陈震.含液碳纳米管在电场中的力学特性研究[A],2015中国力学大会,2015,165-165 [21]Zheng, Yonggang,He, Haitang,Ye, Hongfei.Radial stability and configuration transition of carbon nanotubes regulated by enclosed cores[J],AIP ADVANCES,2015,5(5) [22]Ye, H. F.,Zhang, H. W.,Chen, Z.,Zheng, Y. G.,Zong, Z.,Zhang, Z. Q..Reversible stretching of pre-strained water-filled carbon nanotubes under electric fields[J],MICROFLUIDICS AND NANOFLUIDICS,2015,18(5-6):1201-1207 [23]Zhang, Zhong-Qiang,Dong, Xin,Ye, Hong-Fei,Cheng, Guang-Gui,Ding, Jian-Ning,Ling, Zhi-Yong.Wetting and motion behaviors of water droplet on graphene under thermal-electric coupling field[J],JOURNAL OF APPLIED PHYSICS,2015,117(7) [24]郑勇刚,叶宏飞,张洪武.Twin-induced template effect on the inelastic deformation of hierarchically nanotwinned copper under indentation and scratch[J],INTERNATIONAL JOURNAL OF DAMAGE MECHANICS,2015,25(1) [25]叶宏飞,李锐,郑勇刚,宗智,张洪武.Torsional failure of water-filled carbon nanotubes[J],INTERNATIONAL JOURNAL OF DAMAGE MECHANICS,2015,25(1):87-97 [26]Zheng, Yonggang,Tang, Huayuan,Ye, Hongfei,Zhang, Hongwu.Adhesion and bending rigidity-mediated wrapping of carbon nanotubes by a substrate-supported cell membrane[J],RSC ADVANCES,2015,5(54):43772-43779 [27]Zheng, Y. G.,Zhao, Y. T.,Ye, H. F.,Zhang, H. W.,Fu, Y. F..ATOMISTIC SIMULATION OF TORSIONAL VIBRATION AND PLASTIC DEFORMATION OF FIVE-FOLD TWINNED COPPER NANOWIRES[J],INTERNATIONAL JOURNAL OF COMPUTATIONAL METHODS,2014,11 [28]Zhang, Zhong-Qiang,Dong, Xin,Ye, Hong-Fei,Cheng, Guang-Gui,Ding, Jian-Ning,Ling, Zhi-Yong.Rapid motion of liquid mercury column in carbon nanotubes driven by temperature gradient[J],JOURNAL OF APPLIED PHYSICS,2014,116(7) [29]Zheng, Y. G.,Zhao, Y. T.,Ye, H. F.,Zhang, H. W..Size-dependent elastic moduli and vibrational properties of fivefold twinned copper nanowires[J],NANOTECHNOLOGY,2014,25(31):315701 [30]Ye, Hongfei,Zhang, Zhongqiang,Zhang, Hongwu,Chen, Zhen,Zong, Zhi,Zheng, Yonggang.The tunable mechanical property of water-filled carbon nanotubes under an electric field[J],JOURNAL OF PHYSICS D-APPLIED PHYSICS,2014,47(12) [31]Zhang, Hongwu,Fu, Yifei,Zheng, Yonggang,Ye, Hongfei.Molecular dynamics investigation of plastic deformation mechanism in bulk nanotwinned copper with embedded cracks[J],PHYSICS LETTERS A,2014,378(9):736-740 [32]叶宏飞,张洪武,陈震.Electric Field-Controlled Performance of Fluid-Filled Carbon Nanotubes[A],5th International Conference on Computational Methods,2014 [33]叶宏飞,张洪武,陈震.Controllable Mechanical Property and Deformation Response of Water-Filled Carbon Nanotubes under Electric Field[A],11th World Congress on Computational Mechanics,2014 [34]郑勇刚,张洪武,叶宏飞.Atomistic investigations of tensile and shear mechanical properties of nanotwinned copper with embedded defects[J],International Journal of Computational Materials Science and Engineering,2014,3(2):1450012-1450012 [35]叶宏飞,郑勇刚,张洪武,陈震,宗智.Static and dynamic properties of argon inside carbon nanotubes[J],International Journal of Computational Materials Science and Engineering,2014,3(1450018):1-15 [36]郑勇刚,傅一飞,张洪武,叶宏飞.含缺陷纳米孪晶金属材料塑性变形行为的模拟研究[A],2014年全国固体力学学术大会论文集中国力学学会固体力学专业委员会,2014,1-1 [37]张忠强,叶宏飞,程广贵,郑勇刚,丁建宁,凌智勇.电润湿作用下水在石墨烯表面流动的边界滑移及界面摩擦[J],新型炭材料,2013,28(6):475-479 [38]叶宏飞,郑勇刚.Loading, charging and thermal effects on the mechanism of water–carbon nanotube transmission[J],International Journal of Computational Materials Science and Engineering,2013,2(3&4):1350017-1350028 [39]郑勇刚,张洪武,叶宏飞.Atomistic Studies of the Vibrational Properties of Fivefold Twinned Nanowires[A],2013 [40]叶宏飞,张洪武,郑勇刚.The Electric-Field Controlled Mechanical Response of the Water-Filled Carbon Nanotubes[A],The 5th Asia Pacific Congress on Computational Mechanics & 4th International Symposium on Computational Mechanics,2013 [41]Zhang, Zhong-Qiang,Ye, Hong-Fei,Liu, Zhen,Ding, Jian-Ning,Cheng, Guang-Gui,Ling, Zhi-Yong,Zheng, Yong-Gang,Wang, Lei,Wang, Jin-Bao.Carbon nanotube-based charge-controlled speed-regulating nanoclutch[J],JOURNAL OF APPLIED PHYSICS,2012,111(11) [42]Zheng, Yonggang,Zhang, Hongwu,Chen, Zhen,Ye, Hongfei.Size and surface effects on the mechanical behavior of nanotubes in first gradient elasticity[J],COMPOSITES PART B-ENGINEERING,2012,43(1,SI):27-32 [43]Lin, Jia-Qi,Zhang, Hong-Wu,Chen, Zhen,Zheng, Yong-Gang,Zhang, Zhong-Qiang,Ye, Hong-Fei.Simulation Study of Aggregations of Monolayer-Protected Gold Nanoparticles in Solvents[J],JOURNAL OF PHYSICAL CHEMISTRY C,2011,115(39):18991-18998
