代表论著: |
[1] Shen Yujie, Chen Long, Yang Xiaofeng, Shi Dehua, Yang Jun. Improved design of dynamic vibration absorber by using the inerter and its application in vehicle suspension. Journal of Sound and Vibration, 2016, 361: 148-158.(SCI) [2] Shen Yujie, Liu Yanling, Chen Long, Yang Xiaofeng. Optimal design and experimental research of vehicle suspension based on a hydraulic electric inerter. Mechatronics, 2019,61:12-19.(SCI) [3] Shen Yujie, Chen Long, Liu Yanling, Yang Xiaofeng. Improvement of the Lateral Stability of Vehicle Suspension incorporating Inerter. Science China-Technological Sciences, 2018, 61(8): 1244-1252.(SCI) [4] Shen Yujie, Shi Dehua, Chen Long, Liu Yanling, Yang Xiaofeng. Modeling and experimental tests of hydraulic electric inerter. Science China-Technological Sciences, 2019, 62(12): 2161-2169.(SCI) [5] Shen Yujie, Jiang Jason Zheng, Neild Simon A, Chen Long. Vehicle vibration suppression using an inerter-based mechatronic device. Proceedings of the Institution of Mechanical Engineers Part D Journal of Automobile Engineering, 2020, 234(10-11): 2592-2601.(SCI) [6] Shen Yujie, Hua Jie, Wu Bin, Chen Zhong, Xiong Xiaoxia, Chen Long. Optimal Design of the Vehicle Mechatronic ISD Suspension System using the Structure-Immittance Approach. Proceedings of the Institution of Mechanical Engineers Part D-Journal of Automobile Engineering, 2021.(SCI) [7] Shen Yujie, Chen Long, Liu Yanling, Zhang Xiaoliang. Modeling and optimization of vehicle suspension employing a nonlinear fluid inerter. Shock and Vibration, 2016: 1-9.(SCI) [8] Shen Yujie, Chen Long, Liu Yanling, Zhang Xiaoliang. Analysis on vibration transfer characteristics of vehicle suspension system employing inerter. Journal of Theoretical and Applied Mechanics, 2017, 55(4): 1245-1256. (SCI) [9] Shen Yujie, Chen Long, Liu Yanling, Zhang Xiaoliang. Influence of fluid inerter nonlinearities on vehicle suspension performance. Advances in Mechanical Engineering, 2017, 9(11): 1-10.(SCI) [10] 沈钰杰,陈龙,刘雁玲,杨晓峰,张孝良,汪若尘.基于非线性流体惯容的车辆悬架隔振性能分析.汽车工程, 2017, 39(7): 789-795. (EI) [11] 沈钰杰,陈龙,刘雁玲,杨晓峰,张孝良,汪若尘.基于量子遗传支持向量机的流体惯容预测模型.振动,测试与诊断, 2018, 38(5): 897-902.(EI) [12] 沈钰杰,陈龙,杨晓峰,刘雁玲,刘昌宁.应用惯容器提升车辆侧向稳定性的研究.汽车工程, 2018, 40(6): 693-698.(EI) [13] 沈钰杰,刘雁玲,陈龙,杨晓峰,仇成群.基于高阶阻抗传递函数的车辆ISD悬架优化设计及性能分析.振动与冲击, 2019, 38(22): 95-100. (EI) |
知识产权: |
[1] 沈钰杰,陈龙,杨晓峰,汪若尘,施德华,杨军.一种多工况车辆悬架.国家发明专利,授权,授权号: ZL201410560364.5 [2] 沈钰杰,陈龙,杨晓峰,张孝良,杨军.一种车辆惯质悬架结构及其参数确定方法.国家发明专利,授权,授权号: ZL201410637469.6 [3] 沈钰杰,陈龙,刘雁玲,杨晓峰,汪若尘.一种基于虚拟惯容的车辆悬架控制系统及控制方法.国家发明专利,授权,授权号: ZL201510642476.X [4] 沈钰杰,陈龙,刘雁玲,蔡英凤,杨晓峰.一种流体惯容器的非线性模型及其参数确定方法.国家发明专利,授权,授权号: ZL201510923772.7 [5] 沈钰杰,陈龙,张孝良,杨晓峰.一种车辆ISD悬架参数匹配方法.国家发明专利,授权,授权号: ZL201610096580.8 [6] 沈钰杰,陈龙,刘雁玲,杨晓峰,张孝良,汪若尘.一种惯容器力学输出预测方法.国家发明专利,授权, 授权号: ZL201610438761.4 [7] 沈钰杰,陈龙,张孝良,刘雁玲,杨晓峰,刘昌宁.一种车辆ISD悬架机电网络系统正实综合与被动实现方法.国家发明专利,授权, 授权号: ZL201710645867.6 [8] 沈钰杰,陈龙,杨晓峰,刘雁玲,汪若尘,张孝良.一种机电惯容器力学性能测试工况设计方法,国家发明专利,授权, 授权号: ZL201810620439.2 [9] 沈钰杰,陈龙,杨晓峰,刘雁玲,汪若尘,张孝良.一种车辆ISD悬架参数选型与测试工况设计方法.国家发明专利,授权, 授权号: ZL201810619630.5 [10] 沈钰杰,陈龙,杨晓峰,刘雁玲,汪若尘,张孝良.一种基于高阶阻抗传递函数的车辆ISD悬架网络综合被动实现方法.国家发明专利,申请号: 201810619602.3 [11] 沈钰杰, 韩嘉伟, 张颖, 何涛, 杨晓峰, 刘雁玲, 陈龙. 一种电磁式惯容装置,一种电磁式惯容装置. 国家发明专利, 授权, 授权号: ZL201911221415.0 [12] 沈钰杰, 杨凯, 贾孟其, 张红党, 陈龙, 杨晓峰.一种新能源车用仿星形发动机轮辋馈能装置.国家发明专利, 授权, 授权号: ZL202010090907.7 [13] 沈钰杰, 韩嘉伟, 赵舒天, 陈龙, 杨晓峰, 刘雁玲.一种新能源车用惯性馈能装置及工作方法.国家发明专利, 授权, 授权号: ZL202010115974.X [14] 沈钰杰, 贾孟其, 杨凯, 郭炎, 杨晓峰, 赵舒天, 尹澳, 吴皆润.一种新能源车用磁悬浮弹簧和电涡流阻尼器耦合的车辆半主动悬架,国家发明专利, 申请号: 202010729357.9 [15] 沈钰杰, 洪婉祯, 任洁雨, 刘洲延, 李晗琦, 潘奕辰, 陆双倩, 刘宸宇. 一种混合动力汽车能量回收及辅助制动装置, 国家发明专利, 申请号: 202011048806.X |
