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基本信息 The basic information
姓名: 黄晨光

学院: 力学与土木建筑学院


学历: 博士研究生毕业

学位: 工学博士


职称: 副教授

职务:


学科: 力学-固体力学,力学-工程力学


邮箱: huangcg@nwpu.edu.cn




教育经历 Education Experience
2010.09-2015.06，兰州大学，土木工程与力学学院，固体力学专业，工学博士 （导师：周又和教授）
2006.08-2010.06，兰州大学，土木工程与力学学院，理论与应用力学专业，理学学士



科学研究 Scientific Research
研究方向：

电磁固体力学与智能结构，多物理场耦合理论与计算

科研项目：
主持国家自然科学基金青年科学基金项目，**，含铁磁基底的高温超导带材中磁通跳跃行为及其力学效应研究，2017/01-2019/12
主持陕西省自然科学基础研究计划项目，2018JQ1063，高温超导结构电磁热多场稳定性与断裂力学行为研究，2018/01-2019/12
主持中央高校基本科研业务费项目，**zy042，基于高温超导技术的电磁发射装置设计与力学稳定性分析，2017/01-2018/12
主持中央高校基本科研业务费项目，zy007，强激扰下超导磁悬浮推进系统的动力失稳机制与振动抑制研究，2019/01-2020/12



学术成果 Academic Achievements
[1] C. G. Huang, B. Xu, Y. H. Zhou, Dynamic simulations of actual superconducting maglev systems considering thermal and rotational effects, Superconductor science and technology, 32, 045002 (2019)
[2] C. G. Huang, B. Xu, Y. H. Zhou, Strategies to improve the dynamic levitation performance of superconducting maglevs against force decay and disturbance, Journal of applied physics, 127, 193907 (2020)
[3] C. G. Huang, C. Xue, H. D. Yong, Y. H. Zhou, Modeling dynamic behavior of superconducting maglev systems under external disturbances, Journal of applied physics, 122, 083904 (2017)
[4] C. G. Huang, Y. H. Zhou, Mechanical improvement of metal reinforcement rings for a finite ring-shaped superconducting bulk, AIP Advances, 8, 035025 (2018)
[5] C. G. Huang, H. D. Yong, Y. H. Zhou, Influence of movement direction on levitation performance and energy dissipation in a superconducting maglev system, AIP Advances, 7, 115305 (2017)
[6] C. G. Huang, B. Xu, Numerical analysis of the influence of superconductor and magnet material parameters on the dynamic stability of maglev systems, IOP Conf. Series: Materials Science and Engineering, 649, 012026 (2019)
[7]C. G. Huang, H. D. Yong, Y. H. Zhou, Magnetostrictive behaviors of type-II superconducting cylinders and rings with finite thickness, Superconductor science and technology, 26, 105007 (2013)
[8]C. G. Huang, Y. H. Zhou, Levitation properties of maglev systems using soft ferromagnets, Superconductor science and technology, 28, 035005 (2015)
[9]C. G. Huang, J. Liu,Magnetic and mechanical properties of a finite-thickness superconducting strip with acavity in oblique magnetic fields, Journal of applied physics, 121, 023905 (2017)
[10]C. G. Huang, Y. H. Zhou, Magnetic and magnetostrictive properties of finite superconducting cylinders containing a cavity, Journal of applied physics, 115, 033904 (2014)
[11]C. G. Huang, H. D. Yong, Y. H. Zhou, Critical state model for magneto-elastic problem of thin superconducting disks, Journal of applied physics, 114, 033913 (2013)
[12]C. G. Huang, Y. H. Zhou, Numerical analysis of transport AC loss in HTS slab with thermoelectric interaction, Physica C, 490, 5 (2013)
[13]C. G. Huang, H. D. Yong, Y. H. Zhou, Influence of critical current density distribution on transport ac losses for round superconducting wire, Journal of low temperature physics, 172, 59 (2013)
[14]C. G. Huang, H. D. Yong, Y. H. Zhou, Effect of magnetic nanoparticles on the mechanical properties of type-II superconductors, Acta Mechanica Solida Sinica, 27, 65 (2014)
[15]C. G. Huang, Y. H. Zhou, Study of the influence of soft ferromagnet location and dimensions on the levitation performance for maglev systems, AIP Conference Proceedings, 1648, 490015 (2015)
[16] X. X. Wan,C. G. Huang, H. D. Yong, Y. H. Zhou,Effect of the magnetic material on AC losses in HTS conductors in AC magnetic fieldcarrying AC transport current,AIP Advances, 5,117139(2015)
[17] J. Liu,C. G. Huang,H. D. Yong,Y. H. Zhou,Simulation of magnetization and levitation properties of arrays ofring-shaped type-II superconductors, Physica C, 534, 55 (2017)
[18]黄晨光, 周又和, 超导线圈在强磁场作用下的弹塑性变形分析, 应用力学学报, 29, 481 (2012)



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