二、代表性论著:近期代表作,限10篇(部) [1]通讯作者.Simulation study on the force-electric effect ofpiezoelectric bone and osteocytes under static and dynamic compression[J].Computer Methods in Biomechanics and Biomedical Engineering. 2025, 2484562. [2]一作.Simulation study on parameter dependence of dynamic osteocyte responseunder low-magnitude high-frequency vibration[J].Medical Engineering and Physics. 2025, 104307. [3]通讯作者. A Numerical Study on Mechanical Effects of Low-Intensity Pulsed Ultrasound on Trabecular Bone and Osteoblasts[J]. Journal of Biomechanical Engineering,2023,145:1-9. [4]通讯作者. Multi-scale numerical simulation on mechano-transduction of osteocytes in different gravity fields[J]. Computer Methods in Biomechanics and Biomedical Engineering, 2022. [5]一作. Simulation study on the effect of resistance exercise on the hydrodynamic microenvironment of osteocytes in microgravity[J]. Computer Methods in Biomechanics and Biomedical Engineering, 2022,25(15):1757-1766. [6]通讯作者. Multi-scale mechanical behavior analysis on fluid-solid coupling for osteons in various gravitational fields[J]. Journal of Mechanics in Medicine and Biology, 2022, 22(1):2150071. [7]通讯作者.Simulation of the mechanical behavior of osteons usingartificial gravity devices in microgravity, Computer Methods in Biomechanics and Biomedical Engineering,2021,1901086. [8]一作. Research on solute transport behaviors in the lacunar-canalicular system using numerical simulation in microgravity,Computers in Biology and Medicine,2020.103700. [9]通讯作者. Numerical analysis of the flow field in the lacunar-canalicular system under different magnitudes of gravity, Medical & Biological Engineering & Computing, 2020, 58:509-518. [10]通讯作者. Ratcheting behavior of intervertebral discs under cyclic compression: experiment and prediction, Orthopaedic Surgery,2019,11(5):895-902. 三、授权专利: [1]第一发明人.一种自行下体负压训练装置.ZL202021335344.5, 2021.5.4 [2]第四发明人.均匀施加载荷的培养方法及生物反应器ZL200710058576.3,2011.5.4 [3]第四发明人.有不同曲面的人工软骨或骨软骨体外培养的方法及生物反应器,ZL200710057514.0, 2010.12.15 |