发表论文
JOURNAL PAPERS:
[1]Wang, Weiyuan, et al, Comparisons of bioinspired piezoelectric wind energy harvesters with different layout of stiffeners based on leaf venation prototypes. Sensors and Actuators A 298 (2019) 111570
[2]Wang, Weiyuan, et al, A Bioinspired Structure Modification of Piezoelectric Wind Energy Harvester Based on The Prototype of Leaf Veins. Sensors and Actuators A 279 (2018) 467–473
[3]Wang Weiyuan, Li Yuanyuan, Shu Haisheng. Sound Insulation Property of Bionic Thin-Walled Stiffened Plate Based on Plants Venations Growth Mechanism. Journal of Biomimetics, Biomaterials and Biomedical Engineering, Vol.20, pp. 35-44, 2014.
[4]Xue Kai, Lei HuanXing, Wang Weiyuan. An Application of a New Perimeter Constraint Method in Topological Optimization for Damped Frequency. Engineering Mechanics, Vol.30, pp. 275- 280, 2013.
[5]Xue Kai, WangJiuFa, Wang Weiyuan. et al. Free Vibration Analysis of Tapered Plates with Arbitrary Elastic Boundary Condition. Journal of Vibration and Shock, Vol.32, pp.131-135, 2013.
[6]Xue Kai, Li YongXin, Wang Weiyuan. Venation-Like Rib Layout Design in Plate under Bending Loads. Journal of Biomimetics, Biomaterials, and Tissue Engineering, Vol.13, pp.31-40, 2012.
[7]Xue Kai, Li YongXin, Wang Weiyuan. Rib Design for Kirchhoff's Plate Inspired by Venation Configuration. Journal of Biomimetics, Biomaterials, and Tissue Engineering, Vol. 16, pp.43-53, 2012.
[8]Liu Xiang-Qiu, Wang Cong, Wang Weiyuan, Zou Zhen-Zhu. Study On Vibration Control of Cyclic Periodic Structures Considering Modes Localization. Engineering Mechanics, Vol.26, pp. 189-193, 2009.
[9]Wang Weiyuan, Wei YingJie, et al. Investigation for Active Vibration Control of Piezoelectric Conical Shell. Engineering Mechanics, Vol. 25, pp. 235-240, 2008.
[10] Wang Weiyuan, Wei Yingjie, Wang Cong, Zou Zhenzhu. Modeling and Vibration Control of Conical Shell with Piezoelectric Actuators. High Technology Letters, Vol.14, pp.418-422, 2008.
[11]Wang Weiyuan, Wei YingJie, et al. Optimal Investigation of Sensor/Actuator Placement for Piezoelectric Smart Structure. Journal of Astronautics, Vol.28, pp.1025-1029, 2007.
[12]Wang Weiyuan, Wang Cong, Zou ZhenZhu. Experimental Investigation on Dynamic Characteristic of a Conical Shell with Honeycomb Construction. Journal of Vibration and Shock, Vol. 26, pp. 164-168, 2007.
[13]Wang Weiyuan, Wang Cong, et al. Experimental Investigation on Vibration Transmissibility of the Conical Shell with Composite Material Honeycomb Structure. Engineering Mechanics, Vol.24, pp. 1-5+10, 2007.
CONFERENCE PAPERS:
[1]Wang weiyuan, Sui Anwei,etc. Topology optimization analysis of leaf vein bionic piezoelectric energy collection device based on vortex-induced vibration. 48th International Congress and Exhibition on Noise Control Engineering. June 9-11 2019,Madrid,Spanish.
[2]Wang Weiyuan, Li YuanYuan, Wang Ping. Mechanical Analysis for Thin-Walled Stiffened Plates on the Base of Plants Venations Growth Algorithm. 5th International Conference on Mechanical, Industrial, and Manufacturing Technologies, March 10-11 2014, Penang, Malaysia.
[3]Shu Haisheng, Liu Shaogang, Wang Weiyuan, et al. Research on transfer characteristics of vibration of shaft and beam sonic crystals under concentrated mass boundary condition. 2011 IEEE International Conference on Mechatronics and Automation, August 7-10, 2011, Beijing, China.
[4]Wang Weiyuan, Xue Kai. Numerical Analysis of Shock Responses for a Marine Gearbox System. 3rd International Conference on Advanced Design and Manufacture, September 8-10, 2010, Nottingham, United Kingdom.
[5]Wang Weiyuan, Xue Kai, Shi DongYan. Optimal Research of Actuator Placement for Piezoelectric Smart Structure. 2nd International Conference on Advanced Design and Manufacture, September 24-26, 2009, Harbin, China.
[6]Liu Xiang-Qiu, Wang Cong, Wang Weiyuan, Zou Zhen-Zhu. Research On Vibration Mode Localization of Large Antennas in Satellites with Small Disorder. 15th International Congress on Sound and Vibration, July 6-10, 2008, Daejeon, Korea.
