姓名:高培鑫
职称:教授(校聘)
职务:科研秘书
电话:
邮箱:peigaox@ytu.edu.cn
办公地点:院馆202
l 教育背景
2012/09–2017/07,大连理工大学,机械设计及理论,工学博士
2010/09–2012/07,东北大学,机械设计及理论,工学硕士
2006/09–2010/07,辽宁科技大学,机械设计制造及其自动化,工学学士
l 工作履历
2021/01–至今,烟台大学,机电汽车工程学院,副教授
2018/03–2020/12,烟台大学,机电汽车工程学院,讲师
l 学术兼职
国际学术期刊“International Journal of Pressure Vessels and Piping”、“International Journal of Engine Research”、“Journal of Mechanics”、“Advances in Mechanical Engineering”、“IMechE Part I: Journal of Systems and Control Engineering”、“Journal of Low Frequency Noise, Vibration & Active Control”、“Journal of Vibration Engineering & Technologies”、“航空学报”等期刊审稿人。
l 研究领域
机械结构动力学
振动与噪声控制
振动测试与诊断
l 科研项目及获奖情况
主持和参加项目情况
[1] 国家自然科学基金青年项目,航空复杂液压管路系统流致振动机理研究,51805462,主持,2019.01-2021.12;
[2] 军委总装“十三五”装备预研领域基金项目,XXXX振动噪声控制新机理新技术研究,XXXX,参加,2019.01-2020.12;
[3] 国家自然科学基金面上项目,基于模型与数据驱动的航空液压管路系统振动故障诊断方法研究,51775257,参加,2018.01-2021.12;
[4] GF 973项目,XXXX管路动力学基础研究,XXXX,参加,2014.01-2018.06;
[5] 国家自然科学基金面上项目,薄壁构件硬涂层阻尼减振的多尺度模拟方法与主动设计,11472068,参加,2015.01-2018.12。
l 代表性学术成果
论文
[1] Gao Peixin, Yu Tao, Zhang Yuanlin, Wang Jiao, Zhai Jingyu. Vibration analysis and control technologies of hydraulic pipeline system in aircraft: A review, Chinese Journal of Aeronautics, 34(4): 83-114, 2021. [SCI, WOS:000641055000004].
[2] Zhang Yuanlin, Liu Xuefeng, Rong Weichong, Gao Peixin, Yu Tao, Han Huawei, Xu Langjun. Vibration and damping analysis of pipeline system based on partially piezoelectric active constrained layer damping treatment. Materials, 14(5): 1209, 2021. [SCI, WOS: 000628370800001].
[3] Gao Peixin, Zhang Yuanlin, Liu Xuefeng, Wang Jiao, Yu Tao. Vibration analysis of aero parallel-pipeline systems based on a novel reduced order modeling method. Journal of Mechanical Science and Technology, 34(8): 3137-3146, 2020. [SCI, WOS:000556666200008].
[4] Gao Peixin, Li Jiwu, Zhai Jingyu, Tao Yang, Han Qingkai. A novel optimization layout method for clamps in a pipeline system. Applied Sciences. 10(1): 390, 2020. [SCI, WOS: 000509398900390].
[5] Gao Peixin, Qu Hongquan, Zhang Yuanlin, Yu Tao, Zhai Jingyu. Experimental and numerical vibration analysis of hydraulic pipeline system under multiexcitations. Shock and Vibration, 2020: 1-13, 2020. [SCI, WOS: 000522252100002].
[6] Xue Yingying, Gao Peixin, Zhou Li, Han Fusheng. An enhanced three-dimensional auxetic lattice structure with improved property. Materials, 13(4): 1008, 2020. [SCI, WOS: 000520419300199].
[7] Song Xuyuan, Cao Tienan, Gao Peixin, Han Qingkai. Vibration and damping analysis of cylindrical shell treated with viscoelastic damping materials under elastic boundary conditions via a unified Rayleigh-Ritz method. International Journal of Mechanical Sciences, 165: 105158, 2020. [SCI, WOS: 000509629200010].
[8] Gao Peixin, Zhai Jingyu, Han Qingkai, Dynamic response analysis of aero hydraulic pipeline system under pump fluid pressure fluctuation, Proc. IMechE Part G: Journal of Aerospace Engineering. 233 (5): 1585-1595, 2019. [SCI, WOS: 000462094000003].
[9] Zhai Jingyu, Li Jiwu, Wei Daitong, Gao Peixin, Yan Yangyang, Han Qingkai. Vibration control of an aero pipeline system with active constraint layer damping treatment. Applied Sciences. 9(10): 2094, 2019. [SCI, WOS: 000473748100129].
[10] Gao Peixin, Zhai Jingyu, Qu Fuzheng, Han Qingkai, Vibration and damping analysis of aerospace pipeline conveying fluid with constrained layer damping treatment, Proc. IMechE Part G: Journal of Aerospace Engineering. 232(8): 1529-1541, 2018. [SCI, WOS: 000433436100010].
[11] Yan Yangyang, Zhai Jingyu, Gao Peixin, Han Qingkai, A multi-scale finite element contact model for seal and assembly of twin ferrule pipeline fittings, Tribology International. 125: 100-109, 2018. [SCI, WOS: 000435747800012].
[12] Li Zhezhu, Gao Peixin, Zhao Dazhe, Liu Jiren, Fault diagnosis and location of the aero-engine hydraulic pipeline based on Kalman filter, Advances in Mechanical Engineering. 9(12): 1-9, 2017. [SCI, WOS: 000417651400001].
[13] Gao Peixin, Zhai Jingyu, Yan Yangyang, Han Qingkai, Qu Fuzheng, Chen Xihong. A model reduction approach for the vibration analysis of hydraulic pipeline system in aircraft, Aerospace Science and Technology. 49: 144-153, 2016. [SCI, WOS: 000369198300015].
[14] 汪博, 高培鑫, 马辉, 孙伟, 林君哲, 李晖, 韩清凯, 刘中华.航空发动机管路系统动力学特性研究综述. 航空学报. 2021, doi: 10.7527/S1000-6893.2021.25332. [EI].
[15] 闫洋洋, 庄保顺, 高培鑫, 翟敬宇, 韩清凯. 航空管路接头密封特性及流体温度影响. 航空动力学报. 34(11): 2414-2422, 2019. [EI].
专利
[1] 一种卡箍刚度标定装置,发明专利,已授权,ZL 201710723394.7
[2] 一种套齿联轴器刚度测试装置和方法,发明专利,已授权,ZL 201410151369.2
[3] 一种支承刚度可调节的液压管路振动试验装置,发明专利,已授权,ZL201410467803.8
[4] 一种管路与减振组件的连接结构及控制系统,实用新型,已授权,ZL201922100259.4
[5] 双测距航空带垫卡箍力学刚度参数检测装置,实用新型,已授权,ZL202020150118.3
[6] 一种管路主被动控振装置,发明专利,已公开,申请号:202110258170.X
[7] 一种管路与减振组件的连接结构、连接方法及控制系统,发明专利,已公开,申请号:201911198106.6
