主要SCI期刊论文
[16] Li Guojun, Rajeev Kumar Jaiman, Liu Hongzhong. XXX. Journal of Fluids and Structures, In preparation.
[15] Peng Niming, Wang Lanlan, Wei Rong, A Hubao, Li Guojun#, Jiang Wei, Jiang Weitao, Liu Hongzhong. The morphological evolution of impact nanodroplets induced by dynamics and intermolecular interactions. Journal of Molecular Liquids, Under review.
[14] Li Guojun, Zhang Haichun, Lei Biao, Jiang Weitao, Liu Hongzhong, Rajeev Kumar Jaiman. Aeroelastic characteristics of multi-segment thin flexible structures with deflected flaps. Ocean engineering, Under review.
[13] Li Tian, Zhao Feinan, Jiang Weitao, Li Guojun, Yin Lei, Chen Bangdao, Shi Yongsheng, Liu Hongzhong. Rectifiable Conductive Thermal Diodes Enabling Thermal Circuits with Selectable Operations for Thermal Logic Applications. Advanced Functional Materials, 2024, 2418202.
[12] Li Guojun, Zhang Haichun, Lei Biao, Wang Lanlan, Jiang Weitao, Liu Hongzhong. Enhancing stability and performance of flexible membrane structures in wake flows through jet flow control. Ocean engineering, 2024, 33.
[11] Li Guojun, Rajeev Kumar Jaiman, Lei Biao , Liu Hongzhong. Wake interference effects on flow-induced vibration of flexible membrane wings. Physics of Fluids, 2024, 36(7): 075119.
[10] Peng Niming, Wang Lanlan, Wei Rong, Li Guojun#, Jiang Wei, Jiang Weitao and Liu Hongzhong. An equivalent surface model bridging intermolecular interactions and the normalization of substrate wettability. Physics of Fluids, 2024, 36(6): 062019.
[9] Li Guojun, Rajeev Kumar Jaiman, Lei Biao, Liu Hongzhong. Aeroelastic characteristics of flexible membrane wings with ceiling effect. Physics of Fluids, 2024, 36(3): 035148.
[8] Li Guojun, Rajeev Kumar Jaiman, Liu Hongzhong. Coupled dynamics of steady jet flow control for flexible membrane wings. AIAA Journal, 2024:1-18.
[7] Peng Niming, Wang lanlan, Jiang Wei, Li Guojun, Chen Bangdao, Jiang Weitao, Liu Hongzhong. The Flexible Platform Composed of T-shaped Micropyramid Patterns Towards for Waterproof Sensing Interface. Applied Materials & Interfaces, 2023.
[6] Zheng Weidong, Shao Cheng, Wang Qi, Li Guojun, Li Hongkun. Understanding and Engineering Interfacial Thermal Conductance of Two-Dimensional Materials. Surfaces and Interfaces, 2023.
[5] Li Guojun#, Rajeev Kumar Jaiman. Unsteady aeroelastic characterization and scaling relations of flexible membrane wings. AIAA Journal, 2023:1-19.
[4] Li Guojun#, Rajeev Kumar Jaiman, Khoo Boo Cheong. Aeroelastic mode decomposition and mode selection mechanism in fluid-membrane interaction. Journal of Fluids and Structures, 2022, 108: 103428.
[3] Li Guojun#, Rajeev Kumar Jaiman, Khoo Boo Cheong. Flow-excited membrane instability at moderate Reynolds numbers. Journal of Fluid Mechanics, 2021, 929.
[2] Li Guojun#, Gael Kemp, Rajeev Kumar Jaiman, Khoo Boo Cheong. A high-fidelity numerical study on the propulsive performance of pitching flexible plates. Physics of Fluids, 2021, 33(5): 051901. 选为Editor's pick.
[1] Li Guojun, Law Yunzhi, Rajeev Kumar Jaiman. A novel 3D variational aeroelastic framework for flexible multibody dynamics: Application to bat-like flapping dynamics. Computers & Fluids, 2019, 180: 96-116.
EI及重要期刊论文
[9] 刘红忠,史永胜,尹磊,陈邦道,雷彪,蒋维涛,牛东,王兰兰,姜维,李国俊. 平面反射式二维光栅测量系统研究. Laser & Optoelectronics Progress, 2023, 60(3): 0312018.
[8] 李宇飞, 白俊强, 刘南, 李国俊, 何小龙. 间隙非线性对二元翼段颤振特性影响. 哈尔滨工程大学学报 (EI索引), 2019, 40(4): 730-737.
[7] 李国俊, 白俊强, 唐长红, 李宇飞, 刘南. 分离流动诱发的失速颤振和锁频现象研究. 振动与冲击 (EI索引), 2018: 97-103,111.
[6] 梁佳骅, 白俊强, 李国俊. 基于Peters-ONERA模型的失速颤振特性研究. 西北工业大学学报 (EI索引), 2018, 36(05):76-84.
[5] 高国柱, 白俊强, 李国俊, 刘南, 李宇飞. 考虑初始迎角影响的二维翼型跨声速颤振边界预测. 西北工业大学学报 (EI索引), 2018, 036(002):229-237.
[4] 李国俊, 白俊强, 唐长红, 刘南, 乔磊. 低雷诺数下二维翼型层流分离颤振特性. 航空学报 (EI索引), 2017, 38(11): 70-88.
[3] 李国俊, 白俊强, 刘南, 徐家宽, 乔磊. 基于
转捩模型的二维翼型跨音速颤振边界预测. 振动与冲击 (EI索引), 2017, 36(22): 205-211.
[2] 白俊强, 辛亮, 刘艳, 华俊, 李国俊. 复合材料后掠机翼的气动弹性剪裁方法研究. 西北工业大学学报 (EI索引), 2014, 32(6): 843-848.
[1] 沈广琛, 张怡哲, 王云, 李国俊. 涵道风扇无人机增稳控制律设计与仿真. 航空计算技术, 2013, 43(5): 70-73.
主要国际/国内学术会议论文
[6] Li Guojun, Khoo Boo Cheong, Rajeev Kumar Jaiman. Coupled dynamics and self-induced vibration of flexible membrane wings at moderate Reynolds number. 25th International Congress of Theoretical and Applied Mechanics(ICTAM), 2021.
[5] Li Guojun, Khoo Boo Cheong, Rajeev Kumar Jaiman. Aeroelastic mode transition in self-induced vibration of flexible membrane wings. Bulletin of the American Physical Society (APS), 2020.
[4] Li Guojun, Khoo Boo Cheong, Rajeev Kumar Jaiman. Computational aeroelasticity of flexible membrane wings at moderate Reynolds numbers. AIAA Scitech 2020 Forum. 2020: 2036.
[3] Vaibhav Joshi, Rajeev Kumar Jaiman, Li Guojun et al. Full-scale aeroelastic simulations of hovering bat flight. AIAA Scitech 2020 Forum. 2020: 0335.
[2] Li Guojun, Law Yunzhi, Rajeev Kumar Jaiman. A 3D variational multibody aeroelastic formulation for bio-inspired flight dynamics in turbulent flow. AIAA Scitech 2019 Forum. 2019: 1894.
[1] 李国俊, 白俊强, 刘南, 刘艳. 二维翼型跨音速颤振边界和极限环振荡问题研究. 第十四届全国气动弹性学术交流会,2015.
学术报告
[1] Li Guojun. A numerical study on the aeroelastic performance and scaling relations of flexible membrane wings. Remote Colloquium on Vortex Dominated Flows Seminar. 2024 October.
出版专著
[1] Rajeev Kumar Jaiman, Li Guojun, Amir Chizfahm. Mechanics of flow-induced vibration: Physical modeling and control strategies. Springer. 2023年4月Springer出版.
专利
[6] 一种结构化电场调控的光栅栅线边缘低维材料修饰方法及装置. 排名3,2024,2024111222589.
[5]一种用于纳米位移测量的高级次衍射三角光栅及其制造方法.排名4, 2024, 2024109835626.
[4] 一种基于周期光场特征提取的纳米精度位移解析方法. 排名5,2024,202410951227.8
[3] 基于离子活性剂的光学相控液体透镜阵列装置及制作方法. 排名5, 2023, CN116931251A.
[2] 一种基于软光刻的疏水变色透明基底制造方法. 排名4,2023,CN116339071A.
[1] 一种远程光驱动微型软体机器人及其制造和操控方法. 排名4,2023,CN116277158A.
软件著作
[4] 纳米位移测量光栅的光学结构优化设计. 排名6,2024,CR202400251.
[3] 衍射光栅光场修正与纳米精度位移解析. 排名6,2024,CR202400252.
[2] 超精密光栅读数误差分离与均化分析软件. 排名10,2023,CR20230358.
[1] 纳米精度光栅位移传感器干涉光场扰动分析软件. 排名4,2023,CR20230359.
