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
- 基于多因素协同优化的再生骨料性能强化技术研究, 2024/09/10-2025/08/31
- 基于AI赋能的再生骨料水稳性能提升技术研究, 2024/09/01-2025/08/31
- 内悬浮无拉线抱杆组塔技术研究, 2024/09/25-2025/06/30
- GFJG-基于抗弹复合材料的基因工程应用技术研究--复合材料宏观渐进损伤演化模型开发KM20240036, 2024/05/13-2025/12/31
- 深挖高填山区高速公路环境低影响和灾变韧性提升协同建造关键技术 , 2024/01/01-2026/07/31
- 黄河流域煤矿固体充填开采岩层控制理论和地表沉降检测研究, 2023/10/01-2025/10/31
-
土木、岩石等工程结构的力学问题;
建筑固废再生循环利用;再生土木工程材料;
微纳米结构的力学行为;
高阶弹性理论的数学方法;
智能材料与结构的力学行为研究;
大型机械或工程结构的有限元分析、评估与优化设计。
- 暂无内容
- 杨旭. A Finite-Element Method of Flexoelectric effects on Nanoscale Beam. INTERNATIONAL JOURNAL FOR MULTISCALE COMPUTATIONAL ENGINEERING, 17, 29, 2024.
- 徐金瑞. An improved photoelastic method for determining stress intensity factors of rock-like material. THEORETICAL AND APPLIED FRACTURE MECHANICS Journal, 133, 2024.
- 马建华. Revisiting the Flexoelectricity in a Functionally Graded Dielectric Nanobeam. 2024.
- 马建华. Enhanced Flexoelectric Response from Functionally Gradient Electrets Undergoing Crumpling Deformation. 固体力学学报英文版, 2024.
- Zheng, Xu. Fabrication and Analysis of Microcapsule Electrets with a Tunable Flexoelectric-like Response. ACS Applied Materials & Interfaces, 15, 17301-17308, 2024.
- 颜士荣. 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 ENGENEERING, 35, 2023.