学校主页
刘盼学
发布时间:2025-10-01 浏览次数:0次
讲师
办公地址:职技楼A410
联系方式:[email protected],[email protected]
【研究方向】
汽车NVH(振动噪声与平顺性)
汽车智能底盘控制
声学超材料
机械动力学与可靠性
【教育背景】
2017年1月获东北大学机械工程硕士学位,2023年6月获同济大学车辆工程博士学位
【教学情况】
智能网联汽车概论
【科研成果】
(一)科研项目
1.基于局域共振声子晶体带隙调控的车用燃料电池空辅系统管道低频降噪方法研究,河北省自然科学基金面上项目,2025.01~2027.12,负责人
2.基于声学超材料的管道低频噪声控制方法研究,河北师范大学科研基金项目,2025.01~2017.12,负责人
3.车辆分布驱动智能力矩矢量控制的关键技术研究及应用,福建省科技厅高校产学合作项目,2024.10~2027.09,参与人
4.开关磁阻电机直驱式燃料电池车用离心压缩机系统的声振机理研究及控制,国家自然科学基金面上项目,已结题,参与人
5.面向车内结构噪声自适应控制的双基体声子晶体带隙调控研究,国家自然科学基金面上项目,已结题,参与人
6.千台国产数控车床可靠性提升工程,“高档数控机床与基础制造装备”科技重大专项,已结题,参与人
(二)学术论文
[1] Liu Panxue, Chen Lihui, Zuo Shuguang, Wu Xudong, Shen Shuiwen. Compact phononic crystal ducts with periodic helmholtz mufflers and integrated thin plates for low-frequency broadband noise control[J]. Applied Acoustics, 2026, 241: 111015. (SCI)
[2] Qin Zhenyu, Wang Jiaqi, Liu Panxue, Han Yong, Guo Jinghua, Hong Hanchi, Chang Yuxuan & Shen Shuiwen. Real time tire stiffness estimation using enhanced GDM and RLS for autonomous vehicles[J]. Scientific Reports, 2025, 15(1): 31863. (SCI)
[3] Li Huan, Zuo Shuguang, Wu Xudong, Chen Siyue, Liu Panxue. A finite element-analytical method for optimization of micro-perforated mufflers in electric two-stage centrifugal compressors considering inhomogeneous temperature[J]. Applied Acoustics, 2025, 231: 110520. (SCI)
[4] Liu Panxue, Zuo Shuguang, Wu Xudong, Mingxin Jin. Research on tunable bandgap characteristics of the phononic crystal duct with piezoelectric thin plates for the broad noise reduction[J]. Applied Acoustics, 2024, 216: 109809. (SCI)
[5] Liu Panxue, Zuo Shuguang, Wu Xudong, Yin Bin, Li Shanran. Acoustic and aerodynamic performances of one phononic crystal duct with periodic mufflers[C]. SAE Technical Paper, 2023[C]. SAE 2023 World Congress Experience. (顶级会议EI)
[6] Zuo, Shuguang, Zhou Dawei, Fu Luyao, Liu, Panxue. Thermal failure analysis and control algorithm improvement for the active controlled mount with consideration of thermal–magnetic coupling[J]. ISA transactions, 2023, 140: 250-265. (SCI)
[7] Li Shanran; Zuo Shuguang; Liu Panxue; Li Huan. Reverse design of involute helical gear pairs considering machining errors based on IMAGEWARE and HYPERMESH[C]. INTER-NOISE and NOISE-CON Congress and Conference Proceedings. Institute of Noise Control Engineering, 2023, 268(2): 6613-6624. (国际会议EI)
[8] Zuo Shuguang, Yin Bin, Hu Xiaorui, Liu Panxue. Motor stator modeling and equivalent material parameters identification for electromagnetic noise calculation[R]. SAE Technical Paper, 2023. (顶级会议EI)
[9] Zuo Shuguang, Yin Bin, Li Fan, Liu Panxue. Reduction Method of Induction Motor Based on Periodic Signal-Based Modulation Considering Frequency Band Characteristics of Electromagnetic Force[C]. SAE Technical Paper, 2023. (顶级会议EI)
[10]Zuo Shuguang, Liu Panxue*, Wu Xudong, Zhang Qi, Kong Yi, Zhou Dawei. Study on broad flexural wave bandgaps of piezoelectric phononic crystal plates for the vibration and noise attenuation[J]. Thin-Walled Structures, 2022, 178: 109481. (SCI)
[11]Liu Panxue, Zuo Shuguang, Wu Xudong, Chen Siyue, Kong Yi. Acoustic attenuation characteristics of the muffler phononic crystal with hybrid resonators[J]. International Journal of Mechanical Sciences, 2022, 234: 107677. (SCI)
[12]Wu Xudong, Kong Yi, Zuo Shuguang, Liu Panxue. Research on multi-band structural noise reduction of vehicle body based on two-degree-of-freedom locally resonant phononic crystal[J]. Applied Acoustics, 2021, 179: 108073. (SCI)
[13]Liu Panxue, Zuo Shuguang, Wu Xudong, Sun Lingzhou, Zhang Qi. Study on the vibration attenuation property of one finite and hybrid piezoelectric phononic crystal beam[J]. European Journal of Mechanics-A/Solids, 2020, 84: 104017. (SCI)
[14]Zuo Shuguang, Liu Panxue, Wu Xudong, Sun Lingzhou, Zhang Qi. Optimization of the Finite Hybrid Piezoelectric Phononic Crystal Beam for the Low-Frequency Vibration Attenuation. [C]. SAE 2020 World Congress Experience. (顶级会议EI)
[15]Liu Panxue, Zuo Shuguang, Wu Xudong, Zhang Minghai. A method for determining the minimum period number in finite locally resonant phononic crystal beams[J]. Journal of Vibration and Control, 2020, 26(9-10): 801-813. (SCI)
[16]Wu Xudong, Sun Lingzhou, Zuo Shuguang, Liu Panxue, Huang Haidong. Vibration reduction of car body based on 2D dual-base locally resonant phononic crystal[J]. Applied Acoustics, 2019, 151: 1-9. (SCI)
[17]Wu Xudong, Sun Lingzhou, Zuo Shuguang, Liu Panxue, Zhang Minghai. Transfer Path Analysis and Low-Frequency Vibration Reduction by Locally Resonant Phononic Crystal[C]. SAE Technical Paper, 2019. (顶级会议EI)
[18]吴旭东, 张茗海, 左曙光, 刘盼学, 孙铃洲. 振子质量非均布的有限结构梁减振频带优化[J]. 振动工程学报, 2019, 32(6): 935-942. (EI)
[19]Yang Zhou, Liu Panxue, Zhu Yunpeng, Zhang Yimin A comprehensive reliability allocation method for series systems based on failure mode and effects analysis transformed functions[J]. Proceedings of the Institution of mechanical Engineers, Part B: Journal of Engineering Manufacture, 2016, 230(12): 2239-2248. (SCI)
[20] 王昊,张义民,杨周,刘盼学.考虑相关性的数控车床多因素可靠性分配法[J].哈尔滨工业大学学报,2017,49(07):93-99. (EI)
[21] 杨周,刘盼学,王昊,张义民.应用BP神经网络分析电主轴频率可靠性灵敏度[J].哈尔滨工业大学学报,2017,49(01):30-36. (EI)
专利
[1] 刘盼学, 左曙光, 吴旭东, 申水文, 陈立辉. 一种用于管道内中低频降噪的声子晶体消声器及其声学特性计算方法. 公开, 申请公布号:CN120654282A.
[2] 吴旭东, 曾伟, 刘盼学, 张旗, 孔艺. 一种变电容压电悬臂梁声子晶体板的设计方法.已经授权,授权号:CN113113092B.
[3] 吴旭东, 曾伟, 刘盼学, 张旗, 孔艺. 一种压电悬臂梁声子晶体板的设计方法. 已经授权,授权号:CN113113091B.
【荣誉及获奖】
[1] 2022年同济大学优秀学生干部
[2] 2023年上海市高校优秀毕业生
