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个人信息

姓名:杨影

国籍:中国

性别:

毕业院校:中南大学

职称:讲师

学位:博士

电子邮件:yingyang@ncu.edu.cn

所在单位:工程建设学院

办公地址:基础实验大楼

个人信息

杨影,2022 年博士毕业于中南大学;2021年3月至2022年8月在加拿大阿尔伯塔大学机械工程系联合培养;目前就职于南昌大学航空航天研究院。主要从事智能纳米材料与材料力学、智能材料与结构、多场耦合力学、微纳米力学及断裂力学等方面的研究工作。

教育经历

[1] 201809-202207 中南大学 博士研究生

[2] 201509-201807 中南大学 硕士研究生

[3] 201109-201507 河南科技大学 大学本科

工作履历

[1] 202304-至今 南昌大学

[2] 202103-202208 阿尔伯塔大学

科研项目

探索表面效应对多功能纳米材料断裂行为的影响及其对智能材料应用设计的启发

科研成果

[1] Yang Y, Huang W, Sladek J, Sladek V, Li X-F, Schiavone P, et al. Geometrically nonlinear behavior of a piezomagnetic nanobeam with flexomagnetic and surface effects by meshless finite block method. Appl Math Model. 2026;152:116580.

[2] Zhang J, Yang Y*. Vibration of piezoelectric nanobeams with flexoelectric effect carrying an attached mass. Acta Mech. 2025.

[3] Yang Y, Li X-F, Sladek J, Sladek V, Wen PH, Schiavone P. Surface effects in Mode III fracture of flexoelectric bodies. Eng Fract Mech. 2025;313:110665.

[4] Yang Y, Schiavone P, Li X-F. Torsional deformation of an infinite elastic solid weakened by a penny-shaped crack in the presence of surface elasticity and Dugdale plastic zone. Int J Solids Struct. 2022;254-255:111858.

[5] Yang Y, Schiavone P, Li X-F. Effect of surface elasticity on transient elastic field around a mode-III crack-tip under impact loads. Eng Fract Mech. 2021;258:108062.

[6] Yang Y, Ma WL, Hu ZL, Li XF. Antiplane shear crack in a functionally graded material strip with surface elasticity. Arch Appl Mech. 2021;91(7):3035-52.

[7] Yang Y, Hu ZL, Li XF. Axisymmetric bending and vibration of circular nanoplates with surface stresses. Thin-Walled Struct. 2021;166:108086.

[8] Yang Y, Hu ZL, Gharahi A, Schiavone P, Li XF. Torsion of an elastic medium containing a nanosized penny-shaped crack with surface effects. Int J Fract. 2021;231(2):189-99.

[9] Yang Y, Hu ZL, Li XF. Cracked elastic layer with surface elasticity under antiplane shear loading. Acta Mech. 2020;231(7):3085-98.

[10] Yang Y, Hu ZL, Li XF. Nanoscale mode-III interface crack in a bimaterial with surface elasticity. Mechanics of Materials. 2020;140:103246.

[11] Yang Y, Li XF. Bending and free vibration of a circular magnetoelectroelastic plate with surface effects. Int J Mech Sci. 2019;157:858-71.

[12] Yang Y, Zou JQ, Lee KY, Li XF. Bending of circular nanoplates with consideration of surface effects. Meccanica. 2018;53(4-5):985-99.

[13] Yang Y, Lee KY, Li XF. Surface effects on delamination of a thin film bonded to an elastic substrate. Int J Fract. 2018;210(1-2):81-94.

[14] Fu CY, Yang Y, Wen PH, Sladek J, Sladek V. Bi-material V-notch fracture analysis in functionally graded materials. Eng Anal Bound Elem. 2025;172:106127.

[15] Fu CY, Yang Y, Zhou YR, Shi CZ, Wen PH. Three-Dimensional Fracture Analysis in Functionally Graded Materials Using the Finite Block Method in Strong Form. Materials. 2023;16(23):7301.

[16] Hu Z-L, Yang Y, Zhang X-Y, Li X-F. Bending of a nanoplate with strain-dependent surface stress containing two collinear through cracks. Meccanica. 2022;57(8):1937-54.

[17] Hu Z-L, Yang Y, Li X-F. Singular elastic field induced by a rigid line adhering to a micro/nanoscale plate during bending. Appl Math Model. 2022;108:567-84.

[18] Hu ZL, Yang Y, Li XF. Singular elastic field induced by a rigid line inclusion in a thin nanoplate with surface elasticity. Int J Mech Sci. 2021;198:106386.

[19] Hu ZL, Yang Y, Li XF. Bending fracture of ultra-thin plates with surface elasticity containing a thickness-through crack. Int J Solids Struct. 2021;226-227:111093.