陈少华
男,1972年5月出生,毕业于北京交通大学,中国科学院力学研究所研究员,专业固体力学。在微尺度塑性力学、表/界面黏附接触及仿生力学、表/界面黏附自组装等方面取得系统的创新成果,系列成果发表在、、、、、等重要杂志,受到国内外同行的积极评价。多次在国内外会议及大学作学术邀请报告,已出版著作2部,发表SCI 论文70余篇,SCI引用近600次;已培养3名博士生,9名硕士生。2008年获国家自然科学二等奖(3/3),2009年获中国力学学会青年科技奖,2011年获国家杰出青年科学基金,2012年获茅以升北京青年科技奖,2013年入选中国科学院科技创新“交叉与合作团队”。
基本信息
姓 名: 陈少华
性 别: 男
职 务: 无
职 称: 研究员/博士生导师
学 历: 博士
通讯地址: 海淀区北四环西路15号
简历
1996.9-1999.5: 北京交通大学,获固体力学博士学位
1999.7-2001.7: 中国科学院力学研究所,博士后研究
2001.7- 现 在: 中科院力学所 非线性力学国家重点实验室,先后被评为副研究员、博士生导师、研究员
2002.1-2:瑞典Blekinge Institute of Technology,访问学者
2003.10-2005.10:德国 MPI for metals research,访问学者
2007.3, 10-12:香港大学机械工程系,访问学者
2008.11-12:香港大学机械工程系,访问学者
研究领域
1、生物材料及仿生材料力学
2、表面/界面力学
3、微纳米尺度力学
4、先进纳米复合材料力学
社会任职
中国科学院力学研究所学位委员会委员;
中国力学学会理性力学和力学中的数值方法专业委员会成员;
中国力学学会固体力学专业委员会生物材料及仿生专业组组员;
中国力学学会固体力学专业委员会塑性力学专业组组员;
《The Open Mechanical Engineering Journal》编委;
《应用物理》编委
获奖及荣誉
2013年:入选中国科学院科技创新“交叉与合作团队”
2013年:中国科学院研究生优秀指导教师
2012年: 茅以升北京青年科技奖
2011年: 国家杰出青年科学基金获得者
2009年: 第十届中国力学学会青年科技奖
2007年: 香港大学Sino-British Fellowship Trust Visitorship
2002年: 力学所中青年优秀科技工作者一等奖
2001年: 中科院优秀博士后称号
2000年: 中科院王宽诚博士后工作奖励基金
代表论著
(一)专著
* Chen Shaohua and Wang Tzuchiang, 《Micro-scale Plasticity Mechanics》,2009年,中国科技大学出版社
* 王自强,陈少华,《高等断裂力学》,2009年,科学出版社
* 王自强,陈少华,不含高阶应力的应变梯度理论,黄克智、王自强主编“材料的宏微观力学与强韧化设计”之专著的一章,清华大学出版社
(二)代表性论文
* Size-dependent surface 能量 density of typically 四大洲花样滑冰锦标赛 metallic nanomaterials
C. Zhang, Y. Yao, S. Chen
Computational Materials Science
* The fracture behaviors of carbon nanotube and nanoscroll reinforced silicon matrix composites
H. Chen, S. Chen
Carbon
* Adhesion between two radially collapsed single-walled carbon nanotubes
C. Zhang, L. Chen, S. Chen
Acta Mech
* The peeling behavior of a graphene sheet on a nano-scale corrugated surface
H. Chen, S. Chen
J. Physics D: Applied Physics
* Adhesive contact between a graphene sheet and a nano-scale corrugated surface
H. Chen, Y. Yao, S. H. Chen
J. Physics D: Applied Physics
* Thermo-mechanical contact behavior of a finite graded layer under a sliding punch with heat generation
P.J. Chen, S. H. Chen
Int. J Solids Struct.
* Partial slip contact between a rigid punch with an arbitrary tip-shape and an elastic graded solid with finite thickness
P.J. Chen, S. H. Chen
Mech. Mater.
* The effect of a graded interphase on the mechanism of stress transfer in a fiber-reinforced composite
Y. Yao, S. Chen, P. Chen
Mec. Mater.
* Application of the complex network method in solid-state sintering
C. Wang, S. Chen
Computational Materials Science
* Effects of the Longitudinal surface Roughness on Fiber Pullout Behavior in Carbon Fiber-Reinforced Epoxy Resin Composites
Y. Yao, sh Chen
ASME: J. APPL Mech
* Flaw tolerance in a viscoelastic strip
L. Chen, S.H. Chen, H.J. Gao
ASME: J. Appl. Mech
* The effects of fiber’s surface roughness on the mechanical properties of fiber-reinforced polymer composites
Y. Yao, S.H. Chen
J. Composite Mater.
* The effect of geometry on the adhesive behavior of bio-inspired fibrils
Soft Matter
* Effect of pre-tension on the peeling behavior of a bio-inspired nano-film and a hierarchical adhesive structure
Z.L. Peng, S.H. Chen
Applied Physics Letter
* Thermo-contact mechanics of a rigid cylindrical punch sliding on a finite graded layer
Acta Mech.,
* The influence of agglomerates on the densification and microstructural evolution in sintering of a multi-particle system
C. Wang, S. Chen
Sci. China - Physics, Mechanics \u0026 Astronomy
* Factors Influencing Particle Agglomeration during Solid-State Sintering
C. Wang, S. Chen
Acta Mech. Sinica
* The effect of agglomerate on microstructural evolution in solid-state sintering
C. Wang, S. Chen
Acta Mech. Sinica
* Contact behaviors of a rigid punch and a homogeneous half-space coated with a graded layer
P. Chen, S. Chen
Acta Mech
* Effects of the relative humidity and 液态水 droplet on adhesion of a bio-inspired nano-film
Z. peng, S. Chen
Colloids and surfaces B: Biointerfaces
* Prediction of the initial thickness of shear band localization based on a reduced strain gradient theory
S. Chen, B. Feng, Y. Wei, T. Wang
Int. J. Solids Struct
* The effects of surface roughness and film thickness on the adhesion of a bio-inspired nanofilm
Z. peng, S. Chen
Phys. Rev. from DVL E
* Size effect in mocro-scale cantilever beam bending
S. Chen, B. Feng
Acta Mech
* Size-dependent adhesion strength of a single viscoelastic fiber
S. Chen, G. Xu, A. Soh
摩擦学 Letters
* Peeling behavior of a bio-inspired nano-film on a substrate
Z. peng, S. Chen, A. Soh
Int. J. Solids Struct.
* Dynamic behaviors of mode III interfacial crack under a constant loading rate
S. Chen, H. Gao
Continuum Mechanics and Thermodynamics
* The main factor influencing the tensile properties of surface nano-crystallized graded materials
J. Li, S. Chen, X. Wu, A. Soh, J. Lu
Mater. Sci. Eng. A
* Grain refinement of pure Ti during plastic deformation
西南大学, K. Fan, P. Jiang, S. Chen
Mater. Sci. Eng. A
* Nanoadhesion of a 功率law graded elastic material
S. Chen, P. Chen
Chinese Physics Letters
* Mechanics of adhesive contact on a power-law graded elastic half-space
S. Chen, C. Yan, P. Zhang, H. Gao
J. Mech. Phys. Solids
* Adhesive behavior of two-dimensional 功率law graded materials
S. Chen, C. Yan, A. Soh
Int. J. Solids Structure
* Discussion on the contact width in generalized plain strain JKR model for isotropic solids
C. Yan, S. Chen
Acta Mechanica Sinica
* Friction properties of bio-mimetic nano-fibrillar arrays
S. Chen, C. Mi
齐纳吾·英塔拉库辛 Phys. Lett
* An extension of the two dimensional JKR theory to the case with a large contact width
S. Chen, Z. peng
Chin. Phys. Lett
* New strain gradient theory and analysis
D. Yi, T.C. Wang, S. Chen
Acta Mechanica Solida Sinica
* Orientation-dependent adhesion strength of a rigid cylinder in non-slipping contact with a transversely isotropic half-space
H. Yao, S. Chen, P.R. Guduru, H. Gao
Int. J. Solids Structure,
* Tuning the geometrical parameters of biomimetic fibrillar structures to enhance adhesion.
S. Chen, A. Soh
Journal of the Royal Society Interfac
* Non-slipping JKR model for transversely isotropic materials.
S. Chen, C. Yan, A. Soh
Int. J. Solids Structure
* The capillary force in micro and nano-indentation with different indenter shapes
S. Chen,A. Soh
International Journal of Solids and Structures
* Robust nano-adhesion under torque
S. Chen, G. Xu, A. Soh
摩擦学 Lette
* Subsonic interface crack with crack face contact
S. Chen, G. Xu, C. Yan
Advanced Materials Research
* Adhesive models to understand the sensitivity of bio-molecules to environmental signals
S. Chen
Molecular \u0026 Cellular Biomechanics
* Non-slipping adhesive contact between mismatched elastic cylinders
S. Chen, H. Gao
Int. J. Solids Struct.
* Bio-inspired mechanics of reversible adhesion: orientation-dependent adhesion strength for non-slipping adhesive contact with transversely isotropic elastic materials
S. Chen, H. Gao
J. Mech. Phys. Solids
* Small scale, grain size and substrate effects in nano-indentation experiment of film-substrate systems
S. Chen, L. Liu, T. C. Wang
Int. J. Solids Structur
*Adhesive contact of an elastic cylinder on stretched substrates
S. H. Chen, H. J. Gao,
Proceedings of Royal Society of 伦敦, Series
* Generalized Maugis-Dugdale model of an elastic cylinder in non-slipping adhesive contact with a stretched substrate
S. H. Chen, H. J. Gao
International Journal of Materials Research
* A finite element analysis of a crack penetrating or deflecting into an interface in a thin laminate
S. Kao-Walter, P. Stahle, S. H. Chen
Key Engineering Materials
* Non-slipping adhesive contact between mismatched elastic spheres: a model of adhesion mediated deformation sensor
S. H. Chen, H. J. Gao
J. Mech. Phys. Solids
* General solution to two-dimensional non-slipping JKR model with a pulling force in an arbitrary direction
S. H. Chen, T. C. Wang
J. Coll. Interface Sc
* Investigation of the mechanical properties of thin films by nano-indentation considering the effect of thickness and different coating-substrate combination
S. H. Chen, L. Liu, T. C. Wang
Surface and coatings technology
* A crack perpendicular to and terminated at a bimaterial interface in a finite solid
S. H. Chen, T. C. Wang, S. Kao-Walter
Acta Mech. Sinica
* Nanoscale flaw tolerance of a thin strip under tension
H. J. Gao, S. H. Chen
ASME: Journal of Applied Mechanics
* A study of size-dependent microindentation
S. H. Chen, C. J. Tao, T. C. Wang
Acta Mech
* Size dependent nanoindentation of a soft film on a hard substrate
S. H. Chen, L. Liu, T. C. Wang
Acta Mater
* Nanoindentation of thin-film substrate system: determination of film hardness and young's modulus
S. H. Chen, L.Liu, T. C. Wang
Acta Mechanica Sinica
* Crack tip field and J-integral with strain gradient effect.
S. Xia, T. C. Wang, S. H. Chen
Acta Mech. Sinica
* A crack perpendicular to the bimaterial interface in finite solid
S. H. Chen, T. C. Wang, S. Kao-Walter
Int. J. Solids and Structure
* Crack tip fields with strain gradient effects
S. H. Chen, T. C. Wang
Int. J. Nonlinear Sci. and Numer. Simulation
* Akind of deformation theory for strain gradient effects
S. H. Chen, T. C. Wang
Int. J. Plasticity
* Interface crack problems with strain gradient effects
S. H. Chen, T. C. Wang
Int. J. Fract
* Strain gradient effects in the particle-reinforced metal-matrix composites
S. H. Chen, T. C. Wang
Acta Mech
* Finite element solutions for plane strain mode I crack with strain gradient effects
S. H. Chen, T. C. Wang
Int. J. Solids and Structure,
* Analysis of a rubber cone tensioned by a concentrated force
Y. C. Gao, S. H. Chen
Mech. Res. Communication
* Large strain field near a crack tip in a rubber sheet
Y. C. Gao, S. H. Chen
Mech. Res. Communication
* AGB星 analysis based K-S constitutive law for a rubber wedge compressed by a line load at its tip
S. H. Chen, Y. C. Gao
Mecanics of Materials
* Strain gradient theory with couple stress for crystalline solids
S. H. Chen, T. C. Wang
European Journal of Mechanics- A/Solids
* AGB星 analysis and finite element calculation of a rubber notch contacting with a rigid wedge
S. H. Chen, Y. C. Gao
Acta Mechanica
* Asymptotic analysis and finite element calculation of a rubber wedge under tension
S. H. Chen, Y. C. Gao
Acta Mechanica
* Mode I and Mode II crack tip fields with strain gradient effects.
S. H. Chen, T. C. Wang
Acta Mech. Sinica
* Mode I crack tip with strain gradient effect
S. H. Chen, T. C. Wang
Acta Mech. Solida Sin.
* AGB星 analysis and finite element calculation of a rubber cone under tension.
Y. C. Gao, S. H. Chen
Acta Mech.
* A new hardening law for strain gradient effect.
S. H. Chen, T. C. Wang
Acta Mater
* 橡胶楔体与刚性缺口接触大变形
陈少华, 李咏芳
力学学报
* 集中力拉伸下楔体大变形理论分析及数值计算
陈少华, 周, 高玉臣
力学学报
* 应变梯度理论进展
陈少华, 王自强
力学进展,
* 考虑压头尖端曲率半径和应变梯度效应的微压痕有限元分析
陶彩军, 王自强, 陈少华
力学学报
* 考虑压头曲率半径的J 形变理论压痕有限元分析
陶彩军, 王自强, 陈少华
固体力学学报,
* 生物黏附与仿生黏附力学的进展
陈少华, 苏爱嘉
力学与实践
* 一类蚂蚁黏附系统的实验研究
李新然, 孙冬雅, 谢季佳, 陈少华, 王海钧
力学与实践,
* 钢板轧后控冷模拟与残余应力反演研究
李建军, 陈少华
机械强度
*壁虎黏附微观力学机制的仿生研究进展
陈少华, 彭志龙
力学进展
* 壁虎超强的黏附能力-隐藏在脚下的奥秘
学生主要获奖
彭志龙,博士生,获2013年中科院优秀博士论文
陈培见,博士生,获2013年中科院院长优秀奖
陈培见,博士生,获2013年国家奖学金
彭志龙,博士生,获2012年中科院院长优秀奖
彭志龙,博士生,获2012年郭永怀奖学金一等奖
闫聪,硕士生,获2009年郭永怀奖学金二等奖
刘磊,硕士生,获2006年郭永怀奖学金二等奖
承担科研项目情况
国家杰出青年科学基金: 表面/界面力学
国家自然科学面上基金:一种表征纳米结构材料表/界面效应的新理论及其应用
国家自然科学面上基金:生物黏附中的几个力学相关的问题
国家自然科学面上基金:微观可逆黏附机制的仿生研究
国家自然科学青年基金:纳微米薄膜的压痕与断裂性能
国家自然科学基金重点项目:天然生物材料的多尺度力学与仿生研究(与清华大学合作)
宝山区钢铁股份有限公司合作开发项目“BS600、BS700钢板应力分析及分切翘曲变形研究”
参考资料
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