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Binglei WANG
UPDATE: 2019-07-21 16:29:42     CLICK: []


Binglei Wang, Associate Professor

Department of Engineering Mechanics, School of Civil Engineering,

Shandong University, Jinan, 250061, China,

Tel: 0531-88392812, Email: bwang@sdu.edu.cn

Research Interests

Ø Mechanical behavior of micro/nano-structures

The electromechanical coupling of dielectric materials and their flexural electrical properties; the multi-scale theoretical methods of micro/nano-structures; the modeling of micro/nano-electromechanical systems, the mechanical behavior of smart materials and structures.

Ø Engineering mechanics simulation and optimization

Finite element analysis, evaluation and optimization design of large machinery or engineering structure. He used to be a technical consultant of ANSYS Shandong Branch, proficient in finite element (ANSYS, ABAQUS) software, and he has many years of practical experience in engineering simulation analysis and evaluation.

Ø Recycling of solid waste

Recycling of urban and rural solid waste, such as construction waste and domestic waste. The research involves solid waste intelligent sorting, solid waste recycling products, solid waste recycling equipment, and so on.

Academic Experience

2008–2011

Ph.D.,Engineering Mechanics, Shandong   University, China /Columbia University, USA

Advisor: Professor ShenjieZhou /Xi Chen

2002-2005

M.S., Solid Mechanics, Xi'an Jiaotong   University, China

Advisor: Professor ChangqingChen

1998–2002

B.S.,Engineering Mechanics, Xi'an Jiaotong   University,China

Business Experience

2016-Present

Associate Professor, Department of Engineering   Mechanics, School of Civil Engineering, Shandong University, China

2017-2018

Visit   to Department of mechanics, University of Houston, USA

Co-professor: Pradeep Sharma

2011-2016

Lecture,Department of Engineering Mechanics,   School of Civil Engineering, Shandong University, China

2009-2011

Joint   Ph.D., Department of Engineering Mechanics,Columbia   University, USA

Advisor: Professor Xi Chen

2005-2008

Engineer,Simulation   Center of the 53th Research Institute of China North Industries Group   Corporation Limited.

Professional Affiliations & Service

Member of the Chinese Society of Mechanics;

Experts in Evaluation and Evaluation of Degree and Postgraduate Education of Ministry of Education;

International Review Expert of Polish Natural Science Foundation.

Reviewer: International Journal of Solids and Structures, International Journal of Embedded Systems, International Journal of Mechanical Sciences,Chinese Journal of Solid Mechanics,Chinese Journal of Theoretical and Applied Mechanics.

Publications

ESI paper

[J1]

Binglei Wang, Junfeng Zhao, Shenjie   Zhou. A micro scale Timoshenko beam model based on strain gradient elasticity   theory. European Journal of Mechanics - A/Solids, 29: 591-599 (2010).

Journal papers published

[J31]

Binglei Wang, Shengyou Yang, Pradeep   Sharma. Flexoelectricity as a universal mechanism for energy harvesting from   crumpling of thin sheets. Physical Review B 100, 035438 (2019).

[J30]

Xu Yang, Yarong Zhou, Binglei Wang*,   Bo Zhang*. A Finite-Element Method of Flexoelectriceffects on Nanoscale Beam.   International Journal for Multiscale Computational Engineering 17(1):   29-43(2019).

[J29]

Xu Yang,Yarong Zhou,Lingling Chen,Binglei   Wang*.The flexoelectric Response of nanobeam based on the general strain gradient   elasticity.Chinese Journal of Solid Mechanics1: 52-60 (2019).

[J28]

Yarong Zhou, Xu Yang, Dongmei Pan,   Binglei Wang*,Improved incorporation of strain gradient elasticity in the flexoelectricity   based energy harvesting from nanobeams.Physica E: Low-dimensional Systems and   Nanostructures 98:148-158. (2018)

[J27]

Long Zhang, Binbin Liang, Shenjie   Zhou, Binglei Wang*, YiguoXue. “An application of a size-dependent model on   microplate with elastic medium based on strain gradient elasticity theory.Meccanica   52(1): 251-262 (2017).

[J26]

Long   Zhang, Binglei Wang*, Shenjie Zhou, YiguoXue. Modeling the size-dependent nanostructures:   Incorporating the bulk and surface effects.Journal of Nanomechanics and   Micromechanics 7(2): 04016012 (2017).

[J25]

Tenghao Yin, Binglei Wang*, Shenjie   Zhou, Moli Zhao. A size-dependent model for beam-like MEMS driven by   electrostatic and piezoelectric forces: A variational approach. Physica E: Low-dimensional Systems   and Nanostructures 84:46-54.(2016).

[J24]

Binglei Wang*, Shenghua Huang,   Junfeng Zhao, Shenjie Zhou. Reconsiderations on boundary conditions of   Kirchhoff micro-plate model based on a strain gradient elasticity theory.   Applied Mathematical Modelling 40: 7303-7317 (2016).

[J23]

Shenjie Zhou, Anqing Li, and Binglei   Wang. A reformulation of constitutive relations in the strain gradient   elasticity theory for isotropic materials. International Journal of Solids   and Structures 80:28-37 (2016).

[J22]

Binbin Liang, Long Zhang,Binglei   Wang*, Shenjie Zhou. Study on the Size Dependence and Pull-in Instability of   Electrostatically Actuated NEMS with Casimir Force. Chinese Journal of Solid   Mechanics37(3): 247-253 (2016).

[J21]

Binbin Liang, Long Zhang,Binglei   Wang*, Shenjie Zhou.Application of the Pseudo-Arclength Continuation   Algorithm to Investigate the Size-Dependent Pull-in Instability of the   Electrostatically Actuated MEMS.Applied Mathematics and Mechanics 36(4):   386-392 (2015).

[J20]

Long Zhang,Binglei Wang*Binbin   Liang, Shenjie ZhouYiguoXue.   A Size-Dependent Finite element Model for a Micro/Nanoscale Timoshenko Beam.   International Journal for Multiscale Computational Engineering 13 (6):   491–506 (2015).

[J19]

Binbin Liang, Long Zhang, Binglei   Wang*, Shenjie Zhou. A variational size-dependent model for electrostatically   actuated NEMS incorporating nonlinearities and Casimir force. Physica E:   Low-dimensional Systems and Nanostructures 71: 21-30 (2015).

[J18]

Yue Xiao,   Binglei Wang*, Shenjie Zhou. Pull-in voltage analysis of electrostatically   actuated MEMS with piezoelectric layers: A size-dependent model. Mechanics   Research Communications 66: 7-14 (2015).

[J17]

Binglei Wang*, Mingchao Liu, Junfeng   Zhao, Shenjie Zhou. A size-dependent Reddy–Levinson beam model based on a   strain gradient elasticity theory. Meccanica 49(6): 1427-1441(2014).

[J16]

Anqing Li, Shenjie Zhou, Shasha   Zhou, Binglei Wang. A size-dependent bilayered microbeam model based on   strain gradient elasticity theory. Composite Structures 108: 259-266 (2014).

[J15]

Anqing Li, Shenjie Zhou, Shasha   Zhou, Binglei Wang A size-dependent model for bi-layered Kirchhoff   micro-plate based on strain gradient elasticity theory Composite Structures   113: 272–280 (2014).

[J14]

Binglei Wang, Shenjie Zhou, Junfeng   Zhao, Xi Chen. Pull-in Instability of Circular Plate MEMS: A New Model Based   on Strain Gradient Elasticity Theory. International Journal of Applied   Mechanics 4(1). 1250003 (12pages) (2012).

[J13]

Binglei Wang, Shenjie Zhou, Junfeng   Zhao, Xi Chen. Analysis of wave propagation in micro/nanobeam-like   structures: A size-dependent model. Acta MechanicaSinica 28(6): 1659-1667,   (2012).

[J12]

Yuan Yan, Binglei Wang, Jie Yin, Xi   Chen. Spontaneous Buckling Pattern of a Constrained Membrane Thin Film. Applied Physics A: Materials Science &   Processing 107(4): 761-767 (2012).

[J11]

Baoxing Xu, Binglei Wang, Xi Chen.   Temperature dependence of fluid transport in nanopores. The Journal of   chemical physics 136(18): 184701. (2012)

[J10]

Junfeng Zhao, Shenjie Zhou, Binglei   Wang, Xiping Wang. Nonlinear MicroBeam Model based on Strain Gradient Theory.   Applied Mathematical Modelling 36(6): 2674-2686 (2012).

[J9]

Binglei Wang, Shenjie Zhou, Junfeng   Zhao, Xi Chen. A Size-Dependent Kirchhoff Micro-Plate Model based on Strain   Gradient Elasticity Theory. European Journal of Mechanics - A/Solids 30:   517-524 (2011).

[J8]

Binglei Wang, Shenjie Zhou, Junfeng   Zhao, Xi Chen. Size-dependent pull-in instability of electrostatically   actuated microbeam-based MEMS. Journal of Micromechanics and Microengineering   21: 027001 (6pp) (2011).

[J7]

Binglei Wang, Shenjie Zhou, Junfeng   Zhao, Xi Chen. Pull-in instability analysis of electrostatically actuated   microplate with rectangular shape. International Journal of Precision   Engineering and Manufacturing 12(6): 1085-1094 (2011).

[J6]

Binglei Wang, Junfeng Zhao, Shenjie   Zhou. A micro scale Timoshenko beam model based on strain gradient elasticity   theory. European Journal of Mechanics - A/Solids 29: 591-599 (2010).

[J5]

Binglei Wang, Shenjie Zhou, Junfeng   Zhao, Xi Chen.Size dependent and pull-in voltage of electrostatically   actuated MEMS. Chinese Journal of Solid Mechanics 32(6) 541-548 (2011).

[J4]

Binglei Wang,Gengxiao Tian, Pengya   Shen.Effect of magetic field on the dynamic behavior of ferromagnetic   structures. Journal of Experimental Mechanics20(3): 257-264 (2005).

[J3]

Junfeng Zhao, Shenjie Zhou, Binglei   Wang,Xiping Wang. Effect of strain gradient on the pull-in voltage of   micro-beam actuated by electrostatic force. Journal of Mechanical Strength 34:510-515.   (2012).

[J2]

Wei Wang, Binglei Wang.Experimental   investigation on the effect of tension and compression stress on magnetic   hystresis loops for Q235 steel rod.Industrial Construction S1 (2005).

[J1]

Binglei Wang, Shuhu Li, Weiyi Chen.Application   of FRP in blade for large wind turbine.EngineeringPlasticsApplication 36(4):   76-79 (2008).

Selected Talks

[T5]

Binglei Wang. “Size-dependent   nonlinear behavior for electrostatic actuated NEMS with casimir force”, The 24th   International Congress of Theoretical and Applied Mechanics (ICATAM),   Montreal, Canada, 2016.

[T4]

Binglei Wang. “Nanobeam-based   elastomer with Flexoelectricity: Nonlinearity and Size-dependency”, The 54th   Annual Meeting of the Society of Engineering Science and ASME-AMD Joint   Conference (SES),Boston, USA, 2017.

[T3]

Binglei Wang, Shenjie Zhou, Junfeng   Zhao. Size-dependent models for Electrostatically Actuated MEMS. The 23rd   International Congress of Theoretical and Applied Mechanics (ICTAM), Beijing,   China, 2012.

[T2]

Binglei Wang, Junfeng Zhao,Shenjie   Zhou.A size-dependent Kirchhoff micro-plate model based on strain gradient   elasticity. Journal of Mechanics and Engineering Applications,Conference of   mechanics and engineering application in seven northern provinces of China   mechanics Society, Shandong, China, 2012

[T1]

Binglei Wang,Shenjie Zhou,JunfengZhao,Xi   Chen. Size dependent and pull-in voltage of electrostatically actuated MEMS.China   mechanical Assembly, Heilongjiang, China, 2011.

Teaching Experience

Ø Undergraduate students: Theoretical mechanics, Material mechanics, Engineering mechanics, Department of Engineering Mechanics, School of Civil Engineering, Shandong University.

Ø Postgraduate: Continuum mechanics, Department of Engineering Mechanics, School of Civil Engineering, Shandong University.


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