个人信息Personal Information
副教授 博士生导师
性别:男
毕业院校:山东大学/Columbia University
学历:研究生(博士)毕业
学位:工学博士学位
在职信息:在职
所在单位:土建与水利学院
入职时间:2011-07-18
学科:固体力学
办公地点:山东大学千佛山校区图东楼102D
学术论文(*为通讯作者):
(1) ESI 高被引论文
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). (PDF)
(2) 期刊论文
[44] Jinrui Xu, Weihan He, Zhuo Wang, Tingting Ding, Yang Liu, Binglei Wang*, An improved photoelastic method for determining stress intensity factors of rock-like material. Theoretical and Applied Fracture Mechanics. 133: 104608(2024). (URL)
[43]Jianhua Ma, Jinrui Xu, Jun Li, Binglei Wang*, Enhanced Flexoelectric Response from Functionally Gradient Electrets Undergoing Crumpling Deformation. Acta Mech. Solida Sin., 37(4): 541-554 (2024). (URL)
[42]Jianhua Ma, Lingling Chen, Jinrui Xu, Shengyou Yang, Binglei Wang*, Crumpling electret films for a stronger macroscopic flexoelectric response. Journal of Applied Physics, 133, 204101 (2023). (URL)
[41]Shirong Yan , Binglei Wang*, Jianhua Ma, Boning Lyu. The Effect of Waste Clay Brick Content on Performance of Cement-Stabilized Recycled Concrete Aggregate in Pavement Base and Subbase Applications. Journal of Materials in Civil Engineering 35(6): 04023135, 2023. (URL)
[40]. 王炳雷*,吕泊宁,姚坤宇,颜士荣。建筑垃圾再生微粉对水泥净浆性能的影响。科学技术与工程,2022,22(33): 14861-14869。(PDF)
[39]. 王炳雷*,颜士荣,黄天雨,褚凤明。再生混凝土声发射特性及Kaiser效应。无损检测,44(4):40-44(2022)。 (PDF)
[38].Shirong Yan, Binglei Wang*, Yu Sun, Boning Lyu. Micromechanics-Based Prediction Models and Experimental Validation on Elastic Modulus of Recycled Aggregate Concrete. Sustainability, 13(20): 11172 (2021). (PDF)
[37].Yang Liu, Lingling Chen, Binglei Wang*. Shengyou Yang, and Pradeep Sharma, Tuning crumpled sheets for an enhanced flexoelectric response. Journal of Applied Mechanics, 89(1): 011011 (2022).(PDF)
[36]. Yang Liu, Shengyuan Zhao, and Binglei Wang* , Stronger flexoelectricity from the laminated film subjected to crumpling deformation, Journal of Applied Physics 130, 024101 (2021). (PDF)
[35]. Lingling Chen, Yang Liu, Shenjie Zhou, Binglei Wang*.The reformulated micro-beam models by incorporating the general strain gradient elasticity theory (GSGET).Applied Mathematical Modelling 90:448-465.(2021). (PDF)
[34].陈玲玲,杨旭,刘洋,王炳雷*。全应变梯度挠曲电纳米梁有限单元法研究。计算力学学报 37(5): 545-552 (2020)。(PDF)
[33].Lingling Chen, Xu Yang, Binglei Wang* and Shengyou Yang*. Nonlinear electromechanical coupling in graded soft materials: Large deformation, instability, and electroactuation. Physical Review E 102(2):023007.(2020). (PDF)
[32].Binglei Wang, ShengyouYang, Pradeep Sharma. Flexoelectricity as a universal mechanism for energy harvesting from crumpling of thin sheets. Physical Review B 100(3): 035438. (2019). (PDF)
[31]. 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). (PDF)
[30]. 杨旭,周亚荣,陈玲玲,王炳雷*。基于广义应变梯度理论的纳米梁挠曲电效应研究。固体力学学报1: 52-60 (2019)。(PDF)
[29]. 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). (PDF)
[28]. Zhou Shasha , Zhou Shenjie , Wang Binglei , Li anqing, Analysis of surface mechanical properties effects on the dynamic characteristics of a circular micro-diaphragm with a distributed mass. Applied Mathematical Modelling, 41: 462-473(2017).(PDF)
[27]. Long Zhang, Binglei Wang*, Shenjie Zhou, Yiguo Xue. Modeling the Size-Dependent Nanostructures: Incorporating the Bulk and Surface Effects. Journal of Nanomechanics and Micromechanics, 7(2): 04016012 (2017). (PDF)
[26]. Long Zhang, Binbin Liang, Shenjie Zhou, Binglei Wang*, Yiguo Xue. An application of a size-dependent model on microplate with elastic medium based on strain gradient elasticity theory. Meccanica. 52(1): 251-262 (2017). (PDF)
[25]. 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).(PDF)
[24]. 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).(PDF)
[23]. 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).(PDF)
[22]. 梁斌斌,张龙,王炳雷*,周慎杰。考虑卡西米尔力的静电激励NEMS吸合特性及其尺寸效应研究。固体力学学报37(3): 247-253 (2016)。(PDF)
[21]. 梁斌斌,张龙,王炳雷*,周慎杰。拟弧长延拓法在静电激励MEMS吸合特性研究中的应用。应用数学和力学36(4): 386-392 (2015)。(PDF)
[20]. Long Zhang,Binglei Wang*,Binbin Liang, Shenjie Zhou,Yiguo Xue. A Size-Dependent Finite element Model for a Micro/Nanoscale Timoshenko Beam. International Journal for Multiscale Computational Engineering, 13 (6): 491–506 (2015).(PDF)
[19]. 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).(PDF)
[18]. 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).(PDF)
[17]. 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).(PDF)
[16]. 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).(PDF)
[15]. Anqing Li, Shenjie Zhou, Shasha Zhou, Binglei Wang A size-dependent model for bi-layered Kirchhoff micro-plate basedon strain gradient elasticity theoryComposite Structures 113: 272–280 (2014).(PDF)
[14]. 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).(PDF)
[13]. Binglei Wang, Shenjie Zhou, Junfeng Zhao, Xi Chen. Analysis of wave propagation in micro/nanobeam-like structures: A size-dependent model. Acta Mechanica Sinica. 28(6): 1659-1667, (2012).(PDF)
[12]. 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).(PDF)
[11]. Baoxing Xu, Binglei Wang,Xi Chen. Temperature dependence of fluid transport in nanopores. The Journal of chemical physics,136(18): 184701. (2012).(PDF)
[10]. Junfeng Zhao, Shenjie Zhou, Binglei Wang, Xiping Wang. Nonlinear MicroBeam Model based on Strain Gradient Theory. Applied Mathematical Modelling,36(6): 2674-2686 (2012).(PDF)
[9]. 赵俊峰,周慎杰,王炳雷,王锡平.应变梯度对静电力驱动微梁吸合电压的影响. 机械强度,34:510-515. (2012)。(PDF)
[8]. 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).(PDF)
[7]. 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).(PDF)
[6]. 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).(PDF)
[5]. 王炳雷,周慎杰,赵俊峰,陈曦.静电激励MEMS微结构吸合电压尺寸效应研究.固体力学学报, 32(6) 541-548. (2011)。(PDF)
[4]. 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).(PDF)
[3]. 王炳雷,李树虎,陈以蔚. FRP在大型风力发电机叶片中的应用.《工程塑料应用》36(4): 76-79(2008)。(PDF)
[2]. 王炳雷,田晓耕,沈亚鹏.磁场对铁磁结构动态特性的影响.实验力学,20(3): 257-264 (2005)。(PDF)
[1]. Binglei Wang, Changqing Chen, Yapeng Shen. A micromechanics-based finite element model for the constitutive behavior of polycrystalline ferromagnets. Acta Mechanica Sinica 22(3): 257-264 (2006). (PDF)
(3) 学术会议论文
[6]. Xu Yang, Yarong Zhou, Kunyu Yao, Binglei Wang*. The Flexoelectric Effect of Nanobeam Based on a Reformulated Strain Gradient Elasticity. 2019 Symposium on Piezoelectrcity, Acoustic Waves and Device Applications (SPAWDA). Proceedings, 2019: 4 pp.
[5]. 2017年7月24日-28日,美国波士顿,会议:54th Annual Meeting of the Society of Engineering Science and ASME-AMD Joint Conference (SES 2017)。邀请主题报告题目:Nanobeam-based elastomer with Flexoelectricity: Nonlinearity and Size-dependency。
[4]. 2016年8月21日-26日,加拿大,蒙特利尔,会议:24th International Congress of Theoretical and Applied Mechanics(ICATAM2016)。邀请报告题目:Size-dependent nonlinear behavior for electrostatic actuated NEMS with casimir force。
[3]. Binglei Wang, Shenjie Zhou, Junfeng Zhao. Size-dependent models for Electrostatically Actuated MEMS. The 23rd International Congress of Theoretical and Applied Mechanics (ICTAM), Beijing, P.R. China, 2012.08.19-08.24.
[2]. 王炳雷,赵俊峰,周慎杰.考虑应变梯度影响的Kirchhoff微板的尺寸效应研究. 力学与工程应用(第十四卷);中国力学学会北方七省市区力学与工程应用学术大会(山东威海),2012。
[1]. 王炳雷,周慎杰,赵俊峰,陈曦.考虑应变梯度影响的静电驱动MEMS微结构尺寸效应研究.2011 中国力学大会。
38-2021-Sustainability-Shirong Yan et al.pdf
37-2021-Journal of Applied Mechanics-Yang Liu et al.pdf
附件:
14-2012-IJAM-circular plate with SG.pdf20-ZHANG LONG FEM.pdf
38-2021-Sustainability-Shirong Yan et al.pdf
34-AMM-WANG2020.pdf
ZHOU shasha-AMM-2017.pdf
23-Zhou-IJSS-2016.pdf
4-2010-wang timoshenko beam.pdf
15-li anqing plate.pdf
13-Analysis of wave propagation in micro beam-like structures.pdf
JAP LIU yang.pdf
1-Wang2006_Article_AMicromechanics-basedFiniteEle.pdf
33-Chen LL-PhysRevE-2020.pdf
31-Yang xu FEM.pdf
16-A size-dependent bilayered microbeam model based on strain gradient elasticity theory.pdf
6-WANGBL-IJPEM.pdf
17-R-L beam.pdf
26-zhang long 2nd.pdf
37-2021-Journal of Applied Mechanics-Yang Liu et al.pdf
19-PHYSICS E liang.pdf
21-拟弧长延拓法在静电激励MEMS吸合特性研究中的应用.pdf
24-Huang SH -PLATE-AMM.pdf
2010-wang timoshenko beam.pdf
18-xiao yue-MRC-2015-1.pdf
全应变梯度挠曲电纳米梁有限单元法研究(1).pdf
7-2nd_Wang_JMM_size-dependent pull-in beam.pdf
25-Yin tenghao.pdf
2-磁场对铁磁结构动态特性的影响_王炳雷.pdf
5-2010-190.pdf
32-PhysRevB.Wang_.pdf
8-3th-A size-dependent Kirchhoff micro-plate model based on strain gradient elasticity theory .pdf
12-2012-Spontaneous Buckling Pattern of a Constrained Membrane Thin Film.pdf
3-FRP在大型风力发电机叶片中的应用_王炳雷.pdf
9-应变梯度对静电力驱动微梁吸合电压的影响_赵俊峰.pdf
基于广义应变梯度理论的纳米梁挠曲电效应研究_杨旭.pdf
22-考虑卡西米尔力的静电激励NEMS吸合特性及其尺寸效应研究.pdf
11-2012-Temperature dependence of fluid transport in nanopores.pdf
29-Zhou Yarong-Physica E2018.pdf
10-Nonlinear microbeam model based on strain gradient theory.pdf
27-Zhang long 3rd.pdf