王曦

博士、教授、无

基本信息

办公电话:010-51683195 电子邮件: wangxi@bjtu.edu.cn
通讯地址:北京市海淀区上园村3号北京交通大学机电学院 邮编:100044

教育背景

1994/09-1998/06, 中国科学技术大学力学与机械工程系, 理论与应用力学,学士

1998/09-2001/06, 中国科学技术大学力学与机械工程系, 工程力学,硕士

2001/09-2007/06, 美国哈佛大学工程与应用科学学院, 工程科学,博士 

工作经历

2007/07-2008/02, 美国哈佛大学工程与应用科学学院, 博士后 

2008/02-2009/02, 美国约翰霍普金斯大学机械工程系, 博士后 

2009/03-2009/10, 美国哈佛大学工程与应用科学学院, 博士后 

2009/11-2013/11, 中国科学院力学研究所, 副研究员

2013/12至今, 北京交通大学机电学院轨道车辆系,教授

研究方向

  • 车辆工程
  • 车辆结构可靠性与动力学
  • 车辆结构可靠性与优化
  • 不区分方向

招生专业

  • 车辆工程硕士
  • 机械工程博士
  • 机械工程硕士

科研项目

重点围绕轨道车辆结构可靠性评估、车辆载荷谱、轴承可靠性、车辆结构轻量化等研究任务开展工作。近年来,主持国家自然科学基金委高铁联合基金重点支持项目1项、国家重点研发计划项目任务2项、 “973”项目子课题1项, “863”项目子课题1项,国铁集团重点科技开发项目1项、企业委托横向攻关项目30余项,总经费2000余万元。目前承担的纵向项目如下:

1. 国家重点研发计划高性能制造技术与重大装备专项,2021YFB3400701,高速列车传动系统轴承综合试验平台关键技术-实车线路运行传动系统轴承服役状态关键特征参数研究,2021/12-2024/11,316万元,在研,参加


教学工作

本科课程

固体力学(机械电子工程)、轨道车辆强度基础(车辆工程)

研究生课程

连续介质力学


论文/期刊

英文期刊论文 (*-corresponding author) 

82. Yu Hou, Yi Yin, Xi Wang*, A discrete calculation method for radial load distribution integral of radial bearings, Advances in Mechanical Engineering, 16(9), 1-14, (2024) https://doi.org/10.1177/1687814020903590 (SCI)

81. Guohua Cai, Yu Hou*, Xi Wang* et al, A measurement method for friction torque between rollers and raceways of tapered roller bearings under radial heavy load conditions, Tribology International, 200, 110071, (2024) https://doi.org/10.1016/j.triboint.2024.110071 (SCI)

80. Yu Hou, Xi Wang*, Jiaqi Wei et al, Measured dynamic load distribution within the in situ axlebox bearing of high‑speed trains under polygonal wheel–rail excitation, Railway Engineering Science, (2024) https://doi.org/10.1007/s40534-024-00344-6 (SCI) (on line)

79. Peng Lu, Xi Wang*, Yu Hou, The bifurcation of the forced hunting motion and its interaction with the self-excited hunting motion, Nonlinear Dynamics, (2024) https://doi.org/10.1007/s11071-024-09565-0 (SCI) (on line)

78. Yue Zhao, Xi Wang*, Rubing Guo, Shouguang Sun, A rolling contact fatigue life prediction model for bearing steel considering its gradient structure due to cyclic hardening, International Journal of Damage Mechanics, 33(4), 293-309, (2024) https://doi.org/10.1177/10567895241234383 (SCI)

77. Xiaolong Liu, Kelian Luo, Pengcheng Gao, Tao Cong, Xi Wang, Wenjing Wang;Formation mechanism of zig-zag crack region on the shattered rim of railway wheel, Engineering Fracture Mechanics, 295, 109739, (2024) (SCI)

76. Zhixiang Zhao, Xi Wang*, Yu Hou, Measurement of the roller tilt angle in a double-row tapered roller bearing with strain gauges, Measurement, 226, 114106, (2024) https://doi.org/10.1016/j.measurement.2023.114106 (SCI)

75. Di Yang, Xi Wang*, Yu Hou, A fast calculation approach for elastohydrodynamic finite line contacts applicable to online calculations of rolling bearing models, ASME Journal of Tribology, 146, 074101, (2024) (SCI) 

74. Yue Zhao, Yu Hou, Xi Wang* et al, A multiaxial fatigue method for rolling contact fatigue life prediction of axle box bearing under wheel-rail excitation conditions, Engineering Failure Analysis, 159, 108086, (2024) https://doi.org/10.1016/j.engfailanal.2024.108086 (SCI)

73. Zhixiang Zhao, Xi Wang*, Yu Hou, Measuring the roller skew angle in the loading zone of a cylindrical roller bearing with strain gauges for long-term monitoring, ASME Journal of Tribology, 146, 024301 (2024) (SCI) 

72. Xiaolong Liu, Siyuan Zhang, Tao Cong, Fan Zeng, Xi Wang, Wenjing Wang, Very high-cycle fatigue life prediction of high-strength steel based on machine learning, Fatigue & Fracture of Engineering Materials & Structures, (2023) (SCI)

71. Yue Zhao, Xi Wang*, Shouguang Sun, A life prediction model for rolling contact fatigue based on the improved moment of load path method, Fatigue & Fracture of Engineering Materials & Structures, 46, 4286-4298, (2023) (SCI)

70. Yue Zhou, Xi Wang*, Hongbo Que et al. Torque effect on vibration behavior of high-speed train gearbox under internal and external excitations, Railway Engineering Science, (2023) (SCI) (on line)

69. Lei Tan, Yuan Cao, Feng Wang, Tao Tang, Xi Wang, Qiang Li, A three-stage prediction method for track displacement during shield tunneling, Urban Rail Transit, (2023) https://doi.org/10.1007/s40864-023-00195-0  (ESCI)

68. Zhonghua Jiang, Jingyu Sun, F. Berto, Xi Wang*, Guian Qian, Fatigue and fracture behavior of AlSi10Mg manufactured by selective laser melting: A review, Physical Mesomechanics, 26(4), 367-390, (2023) (SCI)

67. Yi Yin, Xi Wang, Wenjing Wang, Qiang Li, Pengjian Shang, Multiscale cross-sample entropy based on visibility graph for quantifying time series irreversibility, Communications in Nonlinear Science and Numerical Simulation, 124, 107308, (2023) (SCI)

66. Yu Hou, Xi Wang*, Bihe Xu, Yangliao Geng et al. Prediction of frictional moment of cylindrical roller bearing using experimental data driven artificial neural networks, ASME Journal of Tribology, 145(9), 091103, (2023) https://doi.org/10.1115/1.4062367 (SCI)

65. Di Yang, Xi Wang*, Yu Hou. An improved slicing technique for finite line contacts in the modelling of rolling element bearings, ASME Journal of Tribology, 145(8), 084302, (2023) https://doi.org/10.1115/1.4062364 (SCI)

64. Yu Hou, Xi Wang*, Xingyu Li, Rubing Guo et al. Experimental study on the effect of off-sized rollers on the dynamic load distribution in a cylindrical roller bearing, ASME Journal of Tribology, 145(7), 074302 (2023) https://doi.org/10.1115/1.4062251 (SCI)

63. Guhui Gao, Miaoliu , Xiaolun Gui, Jie Hu, Junhua Luan, Zengbao Jiao, Xi Wang, Bingzhe Bai, Zhigang Yang, Heterogenous structure and formation mechanism of white and brown etching layers in bainitic rail steel, Acta Materialia, 250, 118887, (2023) (SCI)

62. Xiaolong Liu, Pengcheng Gao, Tao Cong, Shuguo Wang, Xi Wang, Wenjing Wang, Effects of thermal cracks on friction and wear properties of forged steel used in railway brake discs, Wear, 520-521, 204650, (2023) (SCI)

61. Yu Hou, Xi Wang*, Di Yang, Zeliang Xiao. A combined experimental and analytical method to determine the EHL friction force distribution between rollers and outer raceway in a cylindrical roller bearing, Friction, 11, 1455-1469, (2023) https://doi.org/10.1007/s40544-022-0678-6 (SCI)

60. Yu Hou, Xi Wang*, Shouguang Sun, Hongbo Que et al. Measured load spectra of the bearing in high-speed train gearbox under different gear meshing conditions, Railway Engineering Science, 31(1), 37-51, (2023) https://doi.org/10.1007/s40534-022-00282-1 (SCI)

59. Zhonghua Jiang, Xi Wang*, Guian Qian, Jingyu Sun, The effect of constraint on the fracture property of AlSi10Mg manufactured by selective laser melting, Engineering Fracture Mechanics, 275, 108826, (2022) https://doi.org/10.1016/j.engfracmech.2022.108826 (SCI)

58.Yusong Fan, Xiaolu Gui, Miao Liu, Xi Wang, Bingzhe Bai, Guhui Gao, Effect of microstructure on wear and rolling contact fatigue behaviors of bainitic/martensitic rail steels, Wear, 508-509, 204474, (2022) https://doi.org/10.1016/j.wear.2022.204474 (SCI)

57. Di Yang, Xi Wang*, Time-varying stiffness analysis of double-row tapered roller bearing based on the mapping structure of bearing stiffness matrix, Acta Mechanica Sinica, 38, 522030, (2022) https://doi.org/10.1007/s10409-022-22030-x (SCI)

56. Xiaolong Liu, Wei Zhao, Tao Cong, Shuguo Wang, Xi Wang, Wenjing Wang, The effects of hardness on the spalling property of railway wheel steel, Wear, 504-505, 204429, (2022) https://doi.org/10.1016/j.wear.2022.204429 (SCI)

55. Yusong Fan, Xiaolu Gui, Miao Liu, Xi Wang, Chun Feng, Guhui Gao, High-cycle fatigue life and strength prediction for medium-carbon bainitic steels, Metals, 12(5), 856, (2022) https://doi.org/10.3390/met12050856 (open access SCI) 

54. Miao Liu, Yusong Fan, Xiaolu Gui, Jie Hu, Xi Wang, Guhui Gao, Relationship between microstructure and properties of 1380MPa grade bainitic rail steel treated by online bainite-based quenching and partitioning concept, Metals, 12, 330, (2022) https://doi:10.3390/met12020330 (open access SCI) 

53. Qinglin Lian, Hongtao Zhu, Guanyu Deng, Xiumei Wang, Huijun Li, Xi Wang, Zhiming Liu, Evolution of thermally induced white etching layer at rail surface during multiple wheel-train passages, International Journal of Fatigue, 159, 106799, (2022) https://doi.org/10.1016/j.ijfatigue.2022.106799 (SCI) 

52. Chen Fu, Xi Wang*Simulating delamination in composite laminates involving large scale fiber bridging based on the mixed-mode three-linear cohesive zone model, Theoretical and Applied Fracture Mechanics, 117, 103164, (2022)  https://doi.org/10.1016/j.tafmec.2021.103164 (SCI)

51. Yu Hou, Xi Wang*, Hongbo Que et al. Variation in contact load at the most loaded position of the outer raceway of a bearing in high-speed train gearbox. Acta Mechanica Sinica, 37(11),1685-1697, (2021) https://doi.org/10.1007/s10409-021-01141-8 (SCI)

50. Zeliang Xiao, Xi Shi, Xi Wang, Xiaolong Ma, Yunting Han, Lubrication analysis and wear mechanism of heavily loaded herringbone gears with profile modifications in full film and mixed lubrication point contacts, Wear, 477, 203790, (2021) https://doi.org/10.1016/j.wear.2021.203790 (SCI)

49. Chen Fu, Xi Wang*, Prediction of the cohesive strength for simulating composite delamination by a micro-mechanical model based on random RVE, Composite Structures 262, 113343,  (2021) https://doi.org/10.1016/j.compstruct.2020.113343 (SCI) 

48. Yu Hou, Xi Wang*, Measurement of load distribution in a cylindrical roller bearing with an instrumented housing: finite element validation and experimental study, Tribology International, 155, 106785, (2021) https://doi.org/10.1016/j.triboint.2020.106785 (SCI)

47. Yi Yin, Xi Wang, Qiang Li, Pengjian Shang, He Gao, Yan Ma, Multiscale permutation mutual information quantify the information interaction for traffic time series, Nonlinear Dynamics, 102, 1901-1923 (2020) https://doi.org/10.1007/s11071-020-05981-0 (SCI)

46. Binjie Wang, Shuliang Xie, Chaoyong Jiang, Qingwei Song, Shouguang Sun, Xi Wang, An investigation into the fatigue failure of metro vehicle bogie frame, Engineering Failure Analysis, 118, 104922, (2020) (SCI)

45. Chao Yang, Xi Wang, Qiang Li, Shoune Xiao, An improved explicit integration algorithm with controllable numerical dissipation for structural dynamics, Archive of Applied Mechanics, 90, 2413-2431, (2020) https://doi.org/10.1007/s00419-020-01729-9 (SCI)

44. Qi Zheng, Yacong Guo, Yanpeng Wei, Yicheng Wang, Xi Wang*, Loosening of steel threaded connection subjected to axial compressive impact loading, International Journal of Impact Engineering, 144, 103662, (2020) https://doi.org/10.1016/j.ijimpeng.2020.103662 (SCI)

43. Qinglin Lian, Guanyu Deng, Hongtao Zhu, Huijun Li, Xi Wang, Zhiming Liu, Influence of white etching layer on rolling contact behavior at wheel-rail interface, Friction, 8(6), 1178-1196 (2020) https://doi.org/10.1007/s40544-020-0388-x (open access SCI)

42. Chen Fu, Xi Wang*, Micro-mechanical analysis of matrix crack-induced delamination in cross-ply laminates in tension, Composite Structures, 243, 112202, (2020) https://doi.org/10.1016/j.compstruct.2020.112202 (SCI)

41. Yu Hou, Xi Wang*, Development of an experimental system to measure the cage slip of cylindrical roller bearing, Structural Health Monitoring-An international journal, 19(2), 510-519, (2020) https://doi.org/10.1177/1475921719856826 (SCI)

40. Binjie Wang, Shouguang Sun, Shuang Ma, Xi Wang*, Fatigue damage and reliability assessment of subway train bogie frames under operating conditions, Advances in Mechanical Engineering, 12(1), 1-9, (2020) https://doi.org/10.1177/1687814020903590 (open access SCI)

39. Shichao Song, Yu Wang, Yang Wang, Xi Wang, Zhen Zhang, The effect of tension twin on the dynamic recrystallization behavior in polycrystal magnesium by atomistic simulation, Applied Physics A: Materials Science and Processing, 126, 65, (2020) https://doi:10.1007/s00339-019-3255-8 (SCI)

38. Qinglin Lian, Guanyu Deng, A. Kiet Tieu, Huijun Li, Zhiming Liu, Xi Wang*, Hongtao Zhu, Thermo-mechanical coupled finite element analysis of rolling contact fatigue and wear properties of a rail steel under different slip ratios, Tribology International, 141, 105943, (2020) https://doi.org/10.1016/j.triboint.2019.105943 (SCI) 

37. Yi Yin*, Xi Wang*, Qiang Li, Pengjian Shang, Generalized multivariate multiscale sample entropy for detecting the complexity in complex systems, Physica A: Statistical Mechanics and its Applications, 545, 123814, (2020) https://doi.org/10.1016/j.physa.2019.123814 (SCI)

36. Xi Wang, Yuanshuai Yang, Wenjing Wang, Weiqian Chi, Simulating coupling behavior of spur gear meshing and crack propagation in tooth root, International Journal of Fatigue, 134, 105381, (2020) https://doi.org/10.1016/j.ijfatigue.2019.105381 (SCI)

35. Shichao Song, Yu Wang, Yang Wang, Xi Wang, Atomistic simulation on the twin boundary migration in Mg under shear deformation, Materials, 12(19), 3129, (2019) https://doi:10.3390/ma12193129 (open access SCI)

34. Yi Yin*, Xi Wang*, Qiang Li, Pengjian Shang, Fengzhen Hou, Quantifying interdependence using the missing joint ordinal patterns, Chaos, 29, 073114, (2019) https://doi.org/10.1063/1.5084034 (SCI)

33. Qinglin Lian, Guanyu Deng, Ali Al-Juboon, Huijun Li, Zhiming Liu, Xi Wang*, Hongtao Zhu, Crack propagation behavior in white etching layer on rail steel surface, Engineering Failure Analysis, 104, 816-829, (2019) (SCI) 

32. Yang Zhang, Qinglin Lian, Xi Wang*, Enhancement of rolling contact fatigue performance of ferrite-pearlite steel with laser shock peening, Advances in Mechanical Engineering, 11(5), 1-9, (2019) https://doi.org/10.1177/1687814019850945 (open access SCI) 

31. Xi Wang*, Weiguang Xia, Xianqian Wu, Chenguang Huang, Scaling law in laser-induced shock effects of NiTi shape memory alloy, Metals, 8(3), 174, (2018) https://doi:10.3390/met8030174 (open access SCI) 

30. Rubing Guo, Xianqi Lei, Dongdong Zhang, Zhiming Liu, Xi Wang, Yujie Wei, Case study: The effect of running distance on the microstructure and properties of railroad axle bearings, Wear, 394-395, 159-165, (2018) (SCI) 

29. Chao Yang, Qiang Li, Shoune Xiao, Xi Wang, On the overriding issue of train front end collision in rail vehicle dynamics, Vehicle System Dynamics, 56(4), 506-528, (2018) (SCI) 

28. Yao Wang, Guangxue Yang, Wenjing Wang, Xi Wang, Qiang Li, Yujie Wei, Optimal stress and deformation partition in gradient materials for better strength and tensile ductility: A numerical investigation, Scientific Reports, 7(1) :10954, (2017) (SCI) 

27. Xi Wang*, Weiguang Xia, Xianqian Wu, Yanpeng Wei, Chenguang Huang, In-situ investigation of dynamic deformation in NiTi shape memory alloys under laser induced shock, Mechanics of Materials, 114, 69-75, (2017) (SCI)

26. Jiabin Liu, Yongbin Jin, Xiaoyang Fang, Chenxu Chen, Qiong Feng, Xiaowei Liu, Yuzeng Chen, Tao Suo, Feng Zhao, Tianlin Huang, Hongtao Wang, Xi Wang, Youtong Fang, Yujie Wei, Liang Men, Jian Lu, Wei Yang, Dislocation strengthening without ductility trade-off in metastable austenitic steels, Scientific Reports, 6:35345, (2016) (SCI)

25. Qiuyun Yin, Xianqian Wu, Chenguang Huang, Xi Wang, Yanpeng Wei, Atomistic study of temperature and strain rate dependent phase transformation behaviour of NiTi shape memory alloy under uniaxial compression, Philosophical Magazine, 95(23), 2491-2512, (2015) (SCI)

24. Xi Wang*, Joost Vlassak, Thickness and film stress effects on the martensitic transformation temperature in equi-atomic NiTi thin films, Mechanics of Materials, 88, 50-60, (2015) (SCI)

23. Lingling Lu, Xi Wang, Lijuan Liao, Yanpeng Wei, Chenguang Huang, Yanchi Liu, Application of model reduction technique and structural subsection technique on optimal sensor placement of truss structures, Smart Structures and Systems, 15(2), 355-373, (2015) (SCI)

22. Yuanxun Liu, Xi Wang, Xianqian Wu, Chenguang Huang, Surface morphology and deformation mechanism of single crystal copper treated by laser shock peening, Advanced Materials Research, 1016, 111-114, (2014) (EI)

21. Yuan W, Song HW, Wang X, et al. Experimental Investigation on Thermal Buckling Behavior of Truss-Core Sandwich Panels. AIAA JOURNAL, 53(4), 948-957, (2015) (SCI)

20. Wu Yuan, Xi Wang, Hongwei Song, Chenguang Huang, A theoretical analysis on the thermal buckling behavior of fully clamped sandwich panels with truss cores, Journal of Thermal Stresses, 37(12), 1433-1448, (2014) (SCI)

19. X.Q. Wu, W.G. Xia, X. Wang, H.W. Song, C.G. Huang, Effect of surface reflectivity on photonic Doppler velocimetry measurement, Measurement Science and Technology, 25(5), 055207, (2014) (SCI)

18. X.Q. Wu, X. Wang, Y.P. Wei, H.W. Song, C.G. Huang, An experimental method to measure dynamic stress-strain relationship of materials at high strain rates, International Journal of Impact Engineering, 69, 149-156, (2014) (SCI)

17. X. Wang*, W.G. Xia, X.Q. Wu, Y.P. Wei, C.G. Huang. Microstructure and mechanical properties of an austenite NiTi shape memory alloy treated with laser induced shock, Materials Science & Engineering A, 578, 1-5, (2013) (SCI)

16. Y.P. Wei, B.C. Wei, X. Wang, G.Y. Xu, L. Li, X.Q. Wu, H.W. Song, C.G. Huang, A novel micro-scale plastic deformation feature on bulk metallic glass surface under laser shock peening, Chinese Physics Letter, 30. 030621, (2013) (SCI)

15. H.W. Song, X.Q. Wu, C.G. Huang, Y.P. Wei, X. Wang, Measurement of fast changing low velocities by photonic Doppler velocimetry, Review of Scientific Instruments, 83, 073301, (2012) (SCI)

14. X.Q. Wu, X. Wang, Y.P. Wei, H.W. Song, C.G. Huang, Parametric study on single shot peening by dimensional analysis method incorporated with finite element method, Acta Mechanica Sinica, 28, 825-837, (2012) (SCI)

13. X.Q. Wu, Z.P. Duan, H.W. Song, Y.P. Wei, X. Wang, C.G. Huang, Shock pressure induced by glass-confined laser shock peening: Experiments, modeling and simulation, Journal of Applied Physics, 110, 053112, (2011) (SCI)

12. X.Q. Wu, C.G. Huang, X. Wang, H.W. Song, A new effective method to estimate the effect of laser shock peening, International Journal of Impact Engineering, 38, 322-329, (2011) (SCI)

11. C. Eberl, X. Wang, D.S. Gianola, T.D. Nguyen, M.Y. He, A.G. Evans, K.J. Hemker, In-situ measurement of the toughness of the interface between a thermal barrier coating and a Ni alloy, Journal of the American Ceramic Society, 94, S120-127, (2011) (SCI)

10. C. Eberl, D.S. Gianola, X. Wang, M.Y. He, A.G. Evans, K.J. Hemker, A method for in-situ measurement of the elastic behavior of a columnar thermal barrier coating, Acta Materialia, 59, 3612-3620, (2011) (SCI)

9. Kniknie T, Bellouard Y, Homburg E, Nijmerjer H, Wang X, Vlassak JJ, On the use of shape memory alloy thin films to tune the dynamic response of micro-cantilevers, Journal of Micromechanics and Microengineering, 20(1), 015939, (2010) (SCI)

8. N.S. Lu, X. Wang, Z.G. Suo, J.J. Vlassak, Failure by simultaneous grain growth, strain localization, and interface debonding in metal films on polymer substrate, Journal of Material Research, 24, 379-385, (2009) (SCI)

7. X. Wang, Y. Bellouard, Z.Y. Xue, J.J. Vlassak, Thermal modeling of laser annealing induced crystallization of amorphous NiTi thin films, Applied Physics A, 90, 689-694, (2008) (SCI)

6. X. Wang, M. Rein, J.J. Vlassak, Crystallization kinetics of amorphous equiatomic NiTi thin films: Effect of film thickness, Journal of Applied Physics, 103, 023501, (2008) (SCI)

5. N.S. Lu, X. Wang, Z.G. Suo, J.J. Vlassak, Metal films on polymer substrate stretched beyond 50%, Applied Physics Letter, 91, 221909, (2007) (SCI)

4. X. Wang, J.J. Vlassak, Crystallization kinetics of amorphous NiTi shape memory alloy thin films, Scripta Materialia, 54, 925-930 (2005) (SCI)

3. X. Wang, Y. Bellouard, J.J. Vlassak, Laser annealing of amorphous NiTi shape memory alloy thin films to locally induce shape memory properties, Acta Materialia, 53, 4955-4961 (2005) (SCI)

2. J.J. Vlassak, M. Ciavarella, J.R. Barber, X. Wang, The indentation modulus of elastically anisotropic materials for indenters of arbitrary shape, Journal of the Mechanics and Physics of Solids, 51, 1701-1721 (2003) (SCI) 

1. J.L. Yu, X. Wang, Z.G. Wei, E.H. Wang, Deformation and failure mechanism of dynamically loaded sandwich beams with aluminum-foam core, International Journal of Impact Engineering, 28, 331-347 (2003) (SCI)


中文期刊论文

32. 周越,王曦,侯宇,阙红波,呙如兵,林新海,金思勤,吴成攀. 内部激励下高速列车齿轮箱振动行为及轴承载荷特性实验研究. 振动与冲击, 42(13), 242-250(2023)(EI)

31. 侯宇,郑勇辉,孙鹏田,王曦. 高速列车轴箱轴承低频波动载荷加载装置研制. 轴承,网络首发,https://kns.cnki.net/kcms/detail//41.1148.TH.20230116.1727.001.html(2023)(核心)

30. 周高伟,李桂莲,陈鹏,侯宇,王曦. 高速列车轴箱轴承载荷分布测试研究II:实验装置及实验研究. 实验力学,37(1),27-32,(2022)(核心)

29. 周高伟,李桂莲,陈鹏,侯宇,王曦. 高速列车轴箱轴承载荷分布测试研究I:轴承座开槽方案仿真分析. 实验力学,37(1),18-26,(2022)(核心)

28. 吕雪梅,王曦,罗明生. 考虑接触热阻的高速列车制动盘热机耦合行为分析,机械工程学报,57(22),296-304,(2021)(EI)

27. 孙晶晶,孙守光,李强,王曦.转向架构架试验载荷谱编制方法.铁道学报,43(6),29-36,(2021)(EI)

26. 王曦,侯宇,孙守光,李强,任尊松.高速列车轴承可靠性评估关键力学参量研究进展.力学学报. 53(1),19-34,(2021)(EI)

25. 杨超,李强,王曦. 面向非线性轨道车辆动力学的广义多步显式积分算法应用,动力学与控制学报,18(3),51-55,(2020)(核心)

24. 杨超,李强,王曦,王明猛. 基于车辆-移动轨道耦合模型的列车碰撞爬车行为,西南交通大学学报,54(6),1298-1304,(2019)(EI)

23. 王斌杰,孙守光,王曦,张立,董磊,姜朝勇. 地铁转向架构架运用载荷与疲劳损伤特征研究,铁道学报,41(6),53-60,(2019)(EI) 

22. 范童柏,任尊松,王文静,王曦,邹骅. 动车组制动盘螺栓载荷测试及疲劳损伤研究,机械工程学报,55(14),80-87,(2019)(EI)

21. 王曦,付晨. 复合材料转向架构架及其疲劳损伤分析方法研究综述,北京交通大学学报,43(1),1-12,(2019)(核心) 

20. 韦青山,王曦,邹骅,李强. 高速动车组铝合金横梁疲劳裂纹扩展研究,铁道车辆,57(4),1-4,(2019)(核心)

19. 高云霄,王曦,邹骅,王斌杰. 基于动应力的转向架构架载荷识别,机械工程学报,54(12),58-63,(2018)(EI)

18. 张涛,李强,王曦,王斌杰. 高速列车齿轮箱箱体在位模态识别,机械工程学报,54(12),31-41,(2018)(EI)

17. 王曦,王文静,王宇. 持续制动工况下轴装制动盘螺栓载荷演化规律,机械工程学报,54(12),71-77,(2018)(EI)

16. 胡伟钢,刘志明,王曦,林浩博. 基于实测应变得时域模态参与因子识别研究,铁道学报,40(2),45-51,(2018)(EI)

15. 张福田,辛民,陈萌,王曦,李强,邵文东,姚海. 基于实测载荷谱的C80车体疲劳寿命评估,铁道机车车辆,37(1),34-39,(2017)

14. 张福田,王曦,邵文东. 铁路货车车钩的纵向载荷谱特性,北京交通大学学报,41(1),68-73,(2017)(核心)

13. 张涛,李强,王曦,马利军,基于连续小波变换的转向架构架工作模态分析,铁道车辆,55(10),1-6,(2017)(核心)

12. 刘德昆,李强,王曦,丁然. 动车组轴箱轴承基于实测载荷的寿命预测方法,机械工程学报,52(22),45-54,(2016)(EI)

11. 路梓照,王曦,李广全. 铁路货车纵向载荷的试验测量和统计推断研究,实验力学,31(4),458-466,(2016)(核心)

10. 许倩倩,王曦,李强,秦晓峰,王皓. 表面热处理对钩舌疲劳性能影响试验研究,机车车辆工艺,6,31-34,(2016)

9. 赵方伟,王曦,李强,王萌. C70E型通用敞车车体载荷谱测试与研究,铁道车辆,53(12),28-31,41,(2015)

8. 袁武,王曦,宋宏伟,黄晨光. 轻质金属点阵夹层板热屈曲临界温度分析,固体力学学报,35(1),1-7,(2014)(EI)

7. 夏伟光,吴先前,魏延鹏,黄晨光,王曦. 激光冲击强化对NiTi形状记忆合金力学性质影响,中国激光,40(11),1103002-1~1103002-6 (2013)(EI)

6. 路玲玲,黄晨光,王曦. 基于归一化应变梯度变化的损伤识别方法研究,中国科学E辑,43,574-584,(2013)(EI)

5. 柳沅汛,王曦,吴先前,黄晨光. 激光冲击处理304不锈钢表面的形貌特征及其机理分析,中国激光,40,1-8,(2013)(EI)

4. 路玲玲,王曦,黄晨光. 结构健康监测系统中传感器优化布置组合算法, 力学与实践,34,80-84,(2012)(核心)

3. 宋宏伟,吴先前,王健,黄晨光,魏延鹏,王曦. 光纤激光干涉测量激光冲击强化自由表面速度,中国科学E辑,42(8),861-868,(2012)(EI)

2. 李剑荣,王曦,虞吉林. 粗晶粒Al多晶试件拉伸变形局部化的数值模拟,金属学报,37(7),717-722 (2001)(EI)

1. 王曦,虞吉林. 泡沫铝的单向力学行为,实验力学,16(4),438-443 (2001)(核心)

专著/译著

王春山,王曦,杨广雪. 《铁路货车载荷谱及其应用》,北京:中国铁道出版社,2018(ISBN 978-7-113-24372-2)

专利

发明专利:

一种滚动轴承滚子与滚道间摩擦力矩确定方法与测试装置 ZL202110460855.2

轴承内部载荷分布标定结构及检测方法 ZL201910900610.X

轴承内部径向工作游隙检测方法 ZL201910901514.7

滚动轴承保持架打滑研究试验系统 ZL201811475849.9

实用新型专利:

一种测试轴承载荷的装置 ZL201922309883.5

轴承滚滑行为检测用的保持架转速检测结构 ZL201822024250.5

高精度盘形制动式测力构架的制动力系测试结构 ZL201820937043.6

高精度踏面制动式测力构架的制动力系测试结构 ZL201820930350.1

高精度转臂式测力构架的垂向载荷力系测试结构 ZL201820939121.6

 

软件著作权

获奖与荣誉

2020年度中国铁道学会科学技术奖一等奖(排名16/40)

2019年度黑龙江省科学技术奖进步奖二等奖(排名6/11)

2019年度高等学校科学研究优秀成果奖(科学技术)科学技术进步奖一等奖(排名3/21)

2018年度詹天佑铁道科学技术奖詹天佑专项奖(科技奖)

2018年度中国中车科学技术奖特等奖(排名12/18)

2017年度中国中车科学技术奖一等奖(排名6/12)  

2013年度中国铁道学会科学技术奖一等奖(排名16/20)

社会兼职

中国力学学会青年工作委员会委员

中国力学学会实验力学专业委员会委员

中国铁道学会车辆委员会特种货车学组组员

《Urban Rail Transit》编委会委员