一、基本信息

姓名：何津

性别：男

导师类别：硕士生导师

职称：副教授

电子邮箱：jinhe@njtech.edu.cn

二、主要研究方向

振动、固体声学、固体表面张力

三、开设主要课程

《机械振动基础》、《汽车振动基础》、《机械动力学》

四、代表性论文、专著

1. J. Zhao, J. He, Z. Sun, “Bending-dominated to compression-dominated transition mechanism in additively-manufactured lattice structures”, Materials Today Communications, Vol. 48, p. 113561, 2025.

2. J.X. Zhao, J. He, F.F. Wu, Y.Y. Zhang, “Deformation mode transition induced by notch sensitivity in metallic glass”, Intermetallics, Vol. 168, p. 108262, 2024.

3. D. Mao, J. Zhao, J. He, “Effects of surface elasticity and surface viscoelasticity on liquid inclusions in solid materials”, Modelling and Simulation in Materials Science and Engineering, Vol. 32, p. 035029, 2024.

4. J. X. Zhao, R. Liu, D. Mao, J. He, “Effect of stress triaxiality on plastic deformation of metallic glasses,” Journal of Alloys and Compounds, Vol. 919, p. 165867, 2022.

5. J. He, J. Zhao, C. Yin, “Constitutive equations and stiffness related properties for elastic and hyperelastic solid surfaces: Theories and finite element implementations,” International Journal of Solids and Structures, Vol. 202, pp. 660-671, 2020.

6. Y. Liu, X. Ji, D. Wang, and J. He, “Modeling thin structures incorporated with surface effects by using layered shell elements,” European Journal of Mechanics / A Solids, Vol. 74, pp. 139-144, 2019.

7. J. He and H. S. Park, “A methodology for modeling surface effects on stiff and soft solids,” Computational Mechanics, Vol. 61(6), pp. 687-697, 2018.

8. J. He and J. Zhao, “Finite element simulations of surface effect on Rayleigh waves,” AIP Advances, Vol. 8, p. 035006, 2018.

9. J. He and C. M. Lilley, “Surface stress effect on bending resonance of nanowires with different boundary conditions,” Applied Physics Letters, Vol. 93(26), p. 263108, 2008.

10. J. He and C. M. Lilley, “Surface effect on the elastic behavior of static bending nanowires,” Nano Letters, Vol. 8, pp. 1798-1802, 2008.

五、专利情况

1. 何津，赵嘉喜，梅嘉辉. 发明专利，“一种带温度补偿的油气管道应变监测系统,” 专利号：ZL202510575794.2, 2026.

2. 卢传民, 刘悦，何津. 发明专利，“一种基于可控润湿梯度表面的微流体控制阀,” 专利号：ZL202010526786.6, 2022.

3. 何津，卢传民, 刘悦. 发明专利，“一种基于表面张力机理控制微通道中流体速度的方法,” 专利号：ZL201910823824.1, 2021.

4. J. Pabon, N. Wicks, J. He, and D. Pipchuk, “Method and apparatus for increasing the reach of coiled tubing,” U.S. patent No. 20130056225, 2013.

5. J. He, J. Pabon, and N. Wicks, “Apparatus and method for reducing the residual bending and fatigue in coiled tubing,” U. S. patent No. 20120111581, 2012.

六、代表性科研项目

  1. 国家自然科学青年基金 (2016.1-2018.12 项目号：11504170)，负责人，项目名称：固体表面张力以及非局部效应对太赫兹频域超声波传播影响的研究