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尹 航
个人简介尹航,男,1987年10月生,山东潍坊人,博士,副教授,硕士生导师,澳门新莆京游戏大厅引进人才(2016),澳门新莆京游戏大厅工程力学系教师。西北农林科技大学工学学士(水利水电工程,2010)、工学博士(水利水电工程,2016)。 教学工作承担本科生《理论力学》《材料力学》《结构力学》和研究生《现代工程计算程序进阶》《有限元法》等课程的教学工作。 研究方向工程材料多尺度力学、工程材料微结构与性能、智慧水利及信息化 科研项目山东省自然科学基金,考虑层间摩擦耦合影响的碳纳米管端部传动机制研究(ZR2017BA011),主持 山东省自然科学基金,无定型C-S-H凝胶干缩和徐变的原子尺度力学机理研究(ZR2021MA067),主持 澳门新莆京游戏大厅引进人才科研启动经费,主持 青年教师及大学生创新创业训练项目,低维黑磷纳米结构摩擦特性研究,主持
发表论文Shi, K., Wang, P., Yin, H., Lang, Q., Wang, H., & Chen, G. (2023). Dissolved Oxygen Inversion Based on Himawari-8 Imagery and Machine Learning: A Case Study of Lake Chaohu. Water, 15(17), 3081. Yang, J., Zhao, G., Yin, H.*, Feng, Y., & Zhang, P. (2023). Effects of CSH gel surface structure on sodium chloride evaporation crystallization in CSH gel nanopores with molecular dynamics analysis. Applied Surface Science, 639, 158159. Si, K., Liu, C., Fang, J., Yin, H.*, & Zhang, C. (2023). Mechanism of activator and pore surface adsorption in aluminum-based flameless ration heaters: A molecular dynamics study. Applied Surface Science, 609, 155343. Si, K., Liu, C., Zhang, D., Fang, J., Yin, H.*, & Zhang, C. (2023). Study of the Structural Changes and Internal Activator Transport Behavior after Activation of Aluminum-Based Flameless Ration Heaters: Experimental and Molecular Dynamics Simulations. ACS omega. Yin, H., Zhao, R., Liu, K., Yang, Y., Jiang, J. W., & Wan, J. (2022). Thermal transport in porous graphene with coupling effect of nanopore shape and defect concentration. Nanotechnology, 33(42), 425706. 杨进波, 赵钲洋, & 尹航*. (2021). 基于分子动力学的 CSH 凝胶性能研究进展. 材料导报, 35(5), 5095-5101. Zhao, R., Yin, H.*, Wang, L., & Yue, Q. (2021). Multiple stable dynamic responses based on interlayer and edge coupling effect in carbon nanotube transmission system. Computational Materials Science, 190, 110305. Zhu, F., Yin, H.*, Wei, N., & Wan, J. (2020). Numerical study of thermal conductivity based on phosphorene anisotropy: Including [110] direction and related phosphorus nanotubes. Materials Today Communications, 22, 100814. Zhao, Z. Q., Yin, H.*, Cai, K., & Zhou, W. Q. (2018). Mechanical stability of a nanotube from monolayer black phosphorus with the [110] direction as the tube's circumference or generatrix. Phys. Chem. Chem. Phys., 20, 3465-3473. IF=4.321 Yin, H., Cai, K., Wan, J., Gao, Z. L., & Chen, Z. (2016). Dynamic response of a carbon nanotube-based rotary nano device with different carbon-hydrogen bonding layout. Applied Surface Science, 365, 352-356. IF=2.711 Cai, K., Yin, H., Zhang, X. N., & Shi, J. (2016). A nano converter from carbon nanotubes with multiple output signals. Computational Materials Science, 111, 263-268. IF=2.131 Shi, J., Yin, H., Yu, J., Liu, L., & Cai, K. (2016). Configuration transition between graphene and nanoscroll using kinetic energy injecting method. Computational Materials Science, 125, 146-153. IF=2.131 Cai, K., Yu, J., Wan, J., Yin, H., Shi, J., & Qin, Q. H. (2016). Configuration jumps of rotor in a nanomotor from carbon nanostructures. Carbon, 101, 168-176. IF=6.196 Yin, H., Cai, K., Wei, N., Qin, Q. H., & Shi, J. (2015). Study on the dynamics responses of a transmission system made from carbon nanotubes. Journal of Applied Physics, 117(23), 234305. IF=2.183 Yin, H., Cai, K. (2015). Unwinding of a carbon nanoscroll due to high speed rotation. AIP Advances, 5(10), 107202. IF=1.524 Cai, K., Yin, H., Wei, N., Chen, Z., & Shi, J. (2015). A stable high-speed rotational transmission system based on nanotubes. Applied Physics Letters, 106(2), 021909. IF=3.302 Cai, K., Li, Y., Yin, H., & Qin, Q. H. (2015). Length difference effect on dynamic behaviors of double-walled carbon nanotubes. Mechanics & Industry. 16, 110. IF=0.206 Cai, K., Yu, J. Z., Yin, H., & Qin, Q. H. (2015). Sudden stoppage of rotor in a thermally driven rotary motor made from double-walled carbon nanotubes. Nanotechnology, 26(9), 095702. IF=3.821 Cai, K., Cai, H., Yin, H., & Qin, Q. H. (2015). Dynamic behavior of curved double-wall carbon nanotubes with rotating inner tube. RSC Advances, 5(38), 29908-29913. IF=3.708 Cai, K., Yin, H., Qin, Q. H., & Li, Y. (2014). Self-excited oscillation of rotating double-walled carbon nanotubes. Nano letters, 14(5), 2558-2562. IF=13.592 Cai, K., Li, Y., Qin, Q. H., & Yin, H. (2014). Gradientless temperature-driven rotating motor from a double-walled carbon nanotube. Nanotechnology, 25(50), 505701. IF=3.821
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