(1)W. J. Qian, Z. Q. Huang, H. Ouyang et al, Numerical investigation of the effects of rail vibration absorbers on wear behaviour of rail surface, Journal of Engineering Tribology, 2019, 233(3): 424-438. (SCI) (2)W. J. Qian, Y. F. Wu, G. X. Chen, H. Ouyang, Experimental and numerical studies of the effects of a rail vibration absorber on suppressing short pitch rail corrugation, Journal of Vibroengineering, 2016, 18(2): 1133-1144. (SCI) (3)W. J. Qian, G. X. Chen, H. Ouyang, M. H. Zhu, W. H. Zhang, Z. R. Zhou, A transient dynamic study of the self-excited vibration of a railway wheel set–track system induced by saturated creep forces, Vehicle System Dynamics, 2014, 52(9): 1115-1138. (SCI) (4)W. J. Qian, G. X. Chen, W. H. Zhang, H. Ouyang, Z. R. Zhou, Friction-induced self-excited vibration of a pantograph- catenary system, Journal of Vibration and Acoustics, 2013, 135(5): 051021. (SCI) (5)W. J. Qian, G. X. Chen, Z. R. Zhou, Dynamic transient analysis of squealing vibration of a reciprocating sliding system, Wear, 2013, 301(1-2): 47-56. (SCI) (6) G.X. Chen,W.J. Qian, J.L. Mo, M.H. Zhu, Influence of the Rail Pad Stiffness on the Occurrence Propensity of Rail Corrugation, Journal of vibration engineering & technologies, 2016, 4(5): 455-458. (SCI) (7) G.X. Chen,W.J. Qian, J.L. Mo, M.H. Zhu, Effect of the rail Support stiffness on the occurrence propensity of rail corrugation based on the self-excited vibration of a wheel-rail system, Mechanisms and Machine Science, 2015, 23: 1083-1090. (SCI) (8)钱韦吉,黄志强,蠕滑力饱和条件下钢轨吸振器抑制短波波磨的理论研究,振动与冲击,2019,第38卷14期:68-73页(EI) (9)钱韦吉,黄志强,摩擦因数对摩擦自激振动影响规律的数值分析,振动与冲击,2018,第37卷18期:225-230页(EI) (10)崔晓璐,钱韦吉,张青,直线线路科隆蛋扣件地段钢轨波磨成因的理论研究,振动与冲击,2016,第35卷13期:115-1180页(EI) (11)陈光雄,钱韦吉,莫继良,朱旻昊,摩擦自激振动引起的小半径曲线钢轨波磨的瞬态动力学研究,机械工程学报,2014年09期,第50卷, 71-76页(EI) |
