联系方式

办公室:教一楼东415

Email:xliang226@xjtu.edu.cn

教育和工作经历

2005.09-2009.07,西安交通大学,飞行器设计与工程,学士;

2009.09-2010.12,西安交通大学,航空宇航科学与技术;

2011.03-2014.12,西安交通大学,固体力学,博士;

 

2015.04-2018.05,西安交通大学航天航空学院,讲师;

2016.11-2017.11,美国西北大学访问学者;

 

2018.05-至今,     西安交通大学航天航空学院 空天工程系 副教授。

科学研究

研究领域:(1)纳米电介质挠曲电效应;(2)表面效应,表面力电耦合行为;(3)挠曲电器件设计;(4)声表面波理论及应用;(5)智能飞行器结构设计与仿真。

 

期刊论文:在Smart Materials and Structures, International Journal of Solids and Structures, Journal of Applied Physics, Applied Physics Letters, Science China Mechanics, Phyisics and Astronomy等国际学术期刊上发表SCI论文20余篇。

 

期刊论文目录

[25] Guo Q L., Koo J., Xie Z Q.,...Liang X.,...Huang Y G., Rogers J.,  2019. A Bioresorbable Magnetically Coupled System for Low-Frequency Wireless Power Transfer. Advanced Functional Materials, 1905451.(online)

[24] Lu J F., Liang X(*)., Yu W S., Hu S L., Shen S P(*)., 2019. Temperature dependence of flexoelectric coefficient for bulk polymer polyvinylidene fluoride. Journal of Physics D-Applied Physics, 52: 075302.

[23] Yang W J., Deng Q., Liang X(*)., Shen S P(*)., 2018. Lamb wave propagation with flexoelectricity and strain gradient elasticity considered. Smart Materials and Structures, 27: 085003.

[22] Yang W J., Hu T T., Liang X(*)., Shen S P(*)., 2018. On band structures of layered phononic crystals with flexoelectricity. Archive of Applied Mechanics, 88: 629-644.

[21] Yu P F., Chen J Y., Wang H L.,  Liang X(*)., Shen S P(*)., 2018. Path-independent integrals in electromechanical systems with flexoelectricity. International Journal of Solids and Structures, 147: 20-28.

[20] Hu T T., Yang W J., Liang X(*)., Shen S P(*)., 2017. Wave propagation in Flexoelectric Microstructure Solids. Journal of Elasticity, 130: 197-210.

[19] Liang X., Zhang R Z., Hu S L., Shen S P(*)., 2017. Flexoelectric energy harvesters based on Timoshenko laminated beam theory. Journal of Intelligent Material Systems and Structures, 28: 2064-2073.

[18] Yang W J., Liang X(*)., Shen S P(*)., 2017. Love waves in layered flexoelectric structures. Philosophical Magazine, 97: 3186-3209.

[17] Hu T T., Deng Q., Liang X(*)., Shen S P(*)., 2017. Measuring the flexoelectric coefficient of bulk barium titanate from a shock wave experiment. Journal of Applied Physics, 122: 055106.

[16] Liang X., Hu S L., Shen S P(*)., 2017. Nanoscale mechanical energy harvesting using piezoelectricity and flexoelectricity. Smart Materials and Structures, 26: 035020.

[15] Zhang R Z., Liang X., Shen S P(*)., 2016. A Timoshenko dielectric beam model with flexoelectric effect. Meccanica, 51: 1181-1188.

[14] Liang X., Yang W J., Hu S L., Shen S P(*)., 2016. Buckling and vibration of flexoelectric nanofilms subjected to mechanical loads. Journal of Physics D-Applied Physics, 49: 115307. (China Top Cited Author Award)

[13] Zhang S W., Xu M L(*).,  Ma G L., Liang X., Shen S P(*)., 2016. Experimental method research on transverse flexoelectric response of poly(vinylidene fluoride). Japanese Journal of Applied Physics, 55: 071601.

 [12] Lu J F., Lv J Y.,  Liang X(*)., Xu M L., Shen S P(*)., 2015. Improved approach to measure the direct flexoelectric coefficient of bulk polyvinylidene fluoride. Journal of Applied Physics, 119: 094104.

 [11] Yang W J., Liang X(*)., Shen S P(*)., 2015. Electromechanical response of piezoelectric nanoplates with flexoelectricity. Acta Mechanica, 226: 3097-3110.

  1. [10] Lu J F., Liang X(*)., Hu S L(*)., 2015. Flexoelectricity in Solid Dielectrics: From Theory to Applications. CMC-Computer, Mechanics and Continua, 45(3): 145-162. 
  1. [9] Zhang S W., Xu M L(*)., Liang X., Shen S P., 2015. Shear flexoelectric response mu(1211) in polyvinylidene fluoride. Journal of Applied Physics, 117: 204102. 
  1. [8] Zhang S W., Liang X., Xu M L(*)., Feng B., Shen S P., 2015. Shear flexoelectric response along 3121 direction in polyvinylidene fluoride. Applied Physics Letters, 107: 142902. 
  1. [7] Liang X., Hu S L., Shen S P(*)., 2015. Size-dependent buckling and vibration of piezoelectric nanostructures due to flexoelectricity. Smart Materials and Structures, 24: 105012. 
  1. [6] Liang X., Hu S L., Shen S P(*)., 2015. Surface effects on the post-buckling of piezoelectric nanowires. Physica E-Low-Dimensional Systems & Nanostructures, 69: 61-64. 
  1. [5] Liang X., Hu S L., Shen S P(*)., 2014. Effects of surface and flexoelectricity on a piezoelectric nanobeam. Smart Materials and Structures, 23: 035020. 
  2. [4] Liang X., Shen S P(*)., 2013. Size-dependent piezoelectricity and elasticity due to the electric field-strain gradient coupling and strain gradient elasticity. International Journalof Applied Mechanics, 5(2): 1350015.
  1. [3] Liang X., Hu S L., Shen S P(*)., 2013. A new Bernoulli-Euler beam model based on a simplified strain gradient elasticity theory and its applications. Composite Structures, 111: 317-323. 
  1. [2] Liang X., Hu S L., Shen S P(*)., 2013. Bernoulli-Euler Dielectric Beam Model Based on Strain-Gradient Effect. Journal of Applied Mechanics-Transactions of the ASME, 80(4): 044502. 
  2. [1] Liang X., Shen S P(*)., 2012. Effect of electrostatic force on a piezoelectric nanobeam. Smart Materials and Structures, 21: 015001. 

 

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基本信息

 

梁旭 副教授 硕导

航天航空学院 空天工程系

机械结构强度与振动国家重点实验室

陕西省航天结构振动控制工程实验室

西安交通大学

陕西省西安市咸宁西路28号 

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