在Journal of Sound and Vibration, Nonlinear Dynamics, Mechanical Systems and Signal Processing等本领域权威学术期刊上发表论文80余篇,其中SCI检索论文70篇(1作/通讯39篇),ESI高被引论文2篇,SCI他引734次(截止2020年3月)。研究工作获国家自然科学基金、装发预研项目、天军项目等资助。负责承办《旋转机械动力学中青年学者论坛》(2014)和《全国振动理论及应用学术会议》(2015)。
2020 (4)
[1] Han Q, Ding Z, Qin Z, Wang T, Xu X, Chu F. A triboelectric rolling ball bearing with self-powering and self-sensing capabilities. Nano Energy, 2020, 67: 104277.
[2] Sun W, Ding Z, Qin Z, Chu F, Han Q. Wind energy harvesting based on fluttering double-flag type triboelectric nanogenerators. Nano Energy, 2020, 70: 104526.
[3] Qinkai HAN, Tianyang WANG, Zhuang DING, Xueping XU, Fulei CHU, "Magnetic equivalent modeling of stator currents for localized fault detection of planetary gearboxes coupled to electric motors", IEEE Transactions on Industrial Electronics, 2020, doi: 10.1109/TIE.2020.2973894.
[4] Wu D, Han Q, Wang H, Zhou Y, Wei W, Wang H, Xie T. Nonlinear Dynamic Analysis of Rotor-Bearing-Pedestal Systems With Multiple Fit Clearances. IEEE Access, 2020, vol. 8, pp. 26715-26725.
2019 (8)
[1] Xu XP; Han, QK; Chu, FL. Vibration suppression of a rotating cantilever beam under magnetic excitations by applying the magnetostrictive material. Journal of Intelligent Material Systems and Structures, 2019, 30: 576-592.
[2] Wang H, Han Q, Zhou D. Output torque modeling of control moment gyros considering rolling element bearing induced disturbances. Mechanical Systems and Signal Processing, 2019, 115: 188-212.
[3] Ma S, Chu F, Han Q. Deep residual learning with demodulated time-frequency features for fault diagnosis of planetary gearbox under nonstationary running conditions. Mechanical Systems and Signal Processing, 2019, 127: 190-201.
[4] Wang T, Han Q, Chu F, Feng Z. Vibration based condition monitoring and fault diagnosis of wind turbine planetary gearbox: A review. Mechanical Systems and Signal Processing, 2019, 126: 662-685.
[5] Han Q, Ding Z, Xu X, Wang T, Chu F. Stator current model for detecting rolling bearing faults in induction motors using magnetic equivalent circuits. Mechanical Systems and Signal Processing, 2019, 131: 554-575.
[6] Q. Han, S. Ma, T. Wang, F. Chu. Kernel density estimation model for wind speed probability distribution with applicability to wind energy assessment in China. Renewable and Sustainable Energy Reviews 115 (2019) 109387.
[7] Xu Z, Yin Z, Han Q, Li T. Quantum information processing with closely-spaced diamond color centers in strain and magnetic fields. Optical Materials Express, 2019, 9: 4654-4668.
[8] Zhang L, Xu X, Han Q, Qin Z, Chu F. Energy harvesting of beam vibration based on piezoelectric stacks. Smart Materials and Structures, 2019, 28: 125020.
2018 (9)
[1] Han, Qinkai; Hao, Zhuolin; Hu, Tao; Chu, Fulei. Non-parametric models for joint probabilistic distributions of wind speed and direction data. RENEWABLE ENERGY, 年2018,卷126,页1032-1042.
[2] Han, QK; Li, XL; Chu, FL. Skidding behavior of cylindrical roller bearings under time-variable load conditions. INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES,年2018,卷135,页203-214.
[3] Han, QK; Wu, H; Hu, T; Chu, FL. Short-Term Wind Speed Forecasting Based on Signal Decomposing Algorithm and Hybrid Linear/Nonlinear Models. ENERGIES,年2018.
[4] Ahn, J; Xu, ZJ; Bang, J; Deng, YH; Hoang, TM; Han, QK; Ma, RM; Li, TC. Optically Levitated Nanodumbbell Torsion Balance and GHz Nanomechanical Rotor. PHYSICS REVIEW LETTERS,年2018,卷121,页033633.
[5] Xu XP; Han, QK; Chu, FL. Review of Electromagnetic Vibration in Electrical Machines. ENERGIES,年2018,卷: 10 期: 3.
[6] Qiu, Xinghui; Han, Qinkai; Chu, Fulei. Dynamic modeling and analysis of the planetary gear under pitching base motion. INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES,年2018,卷141,页31-45.
[7] Xu, Xueping; Zhang, Chunlong; Han, Qinkai; Chu, Fulei. Hybrid energy harvesting from mechanical vibrations and magnetic field. APPLIED PHYSICS LETTERS,年2018,卷113,期1.
[8] Xu, Xueping; Han, Qinkai; Chu, Fulei. A general electromagnetic excitation model for electrical machines considering the magnetic saturation and rub impact. JOURNAL OF SOUND AND VIBRATION, 年2018,卷416,页154-171.
[9] Yi YW; Qiu ZY, Han QK. The effect of time-periodic base angular motions upon dynamic response of asymmetric rotor systems. ADVANCES IN MECHANICAL ENGINEERING, 年2018,卷10,页154-171.
2017 (10)
[1] Han, Qinkai; Meng, Fanman; Hu, Tao; Chu, Fulei. Non-parametric hybrid models for wind speed forecasting,,ENERGY CONVERSION AND MANAGEMENT,年2017,卷148,页554-568.
[2] Wang, Hong; Han, Qinkai; Zhou, Daning. Nonlinear dynamic modeling of rotor system supported by angular contact ball bearings. MECHANICAL SYSTEMS AND SIGNAL PROCESSING,年2017,卷85,页16-40.
[3] Wang, Hong; Han, Qinkai; Luo, Ruizhi; Qing, Tao. Dynamic modeling of moment wheel assemblies with nonlinear rolling bearing supports. JOURNAL OF SOUND AND VIBRATION,年2017,卷406,页124-145.
[4] Wei S, Han Q, Peng Z, Chu F. Dynamic analysis of wind turbine gearboxes with unknown-but-bounded parameters under random wind excitation. IET Renewable Power Generation, 2017, 11(4): 433-442.
[5] Wei S, Han Q, Dong X, Peng Z, Chu F. Dynamic response of a single-mesh gear system with periodic mesh stiffness and backlash nonlinearity under uncertainty. Nonlinear Dynamics, 2017, 89(1): 49-60.
[6] Wang, Tianyang; Chu, Fulei; Han, Qinkai; Kong, Yun. Compound faults detection in gearbox via meshing resonance and spectral kurtosis methods. JOURNAL OF SOUND AND VIBRATION,年2017,卷392,页367-381.
[7] Chen, Liqiang; Wang, Jianjun; Han, Qinkai; Chu, Fulei. Nonlinear dynamic modeling of a simple flexible rotor system subjected to time-variable base motions. JOURNAL OF SOUND AND VIBRATION,年2017,卷404,页58-83.
[8] Xu, Xueping; Han, Qinkai; Chu, Fulei. Nonlinear vibration of a rotating cantilever beam in a surrounding magnetic field. INTERNATIONAL JOURNAL OF NON-LINEAR MECHANICS,年2017,卷95,页59-72.
[9] Qiu, Xinghui; Han, Qinkai; Chu, Fulei. Investigation of Parametric Instability of the Planetary Gear under Speed Fluctuations. SHOCK AND VIBRATION,年2017.
[10] Wang T, Chu F, Han Q. Fault diagnosis for wind turbine planetary ring gear via a meshing resonance based filtering algorithm. ISA Transactions, 2017, 67: 173-182.
2016 (6)
[1] Gui Y, Han Q K, Chu F. A vibration model for fault diagnosis of planetary gearboxes with localized planet bearing defects. Journal of Mechanical Science and Technology, 2016, 30(9): 4109-4119.
[2] Xu X, Han Q, Chu F.* Nonlinear vibration of a generator rotor with unbalanced magnetic pull considering both dynamic and static eccentricities. Archive of Applied Mechanics, 2016: 1-16.
[3] Wei S, Han Q, Peng Z, Chu F.* Dynamic analysis of parametrically excited system under uncertainties and multi-frequency excitations. Mechanical Systems and Signal Processing, 2016, 72: 762-784.
[4] Zhang X, Han Q, Peng Z, Chu F.* A comprehensive dynamic model to investigate the stability problems of the rotor–bearing system due to multiple excitations. Mechanical Systems and Signal Processing, 2016, 70: 1171-1192.
[5] Qin Z, Han Q, Chu F.* Bolt loosening at rotating joint interface and its influence on rotor dynamics. Engineering Failure Analysis, 2016, 59: 456-466.
[6] Wang T, Han Q, Chu F. A new SKRgram based demodulation technique for planet bearing fault detection. Journal of Sound and Vibration, 2016, 385: 330-349.
2015 (7)
[1] Xu X, Han Q, Chu F.* A four degrees-of-freedom model for a misaligned electrical rotor. Journal of Sound and Vibration, 2015, 358: 356-374.
[2] Han Q*, Chu F. Nonlinear dynamic model for skidding behavior of angular contact ball bearings. Journal of Sound and Vibration, 2015, 354: 219-235.
[3] Qiu X, Han Q, Chu F.* Load-sharing characteristics of planetary gear transmission in horizontal axis wind turbines. Mechanism and Machine Theory, 2015, 92: 391-406.
[4] Han Q, Qin Z, Lu W, Chu F.* Dynamic stability analysis of periodic axial loaded cylindrical shell with time-dependent rotating speeds. Nonlinear Dynamics, 2015, 81(4): 1649-1664.
[5] Han Q*, Chu F. Parametric instability of flexible rotor-bearing system under time-periodic base angular motions. Applied Mathematical Modelling, 2015, 39(15): 4511-4522.
[6] Wei S, Zhao J, Han Q, Chu F.* Dynamic response analysis on torsional vibrations of wind turbine geared transmission system with uncertainty. Renewable Energy, 2015, 78: 60-67.
[7] Zhang X, Han Q, Peng Z, Chu F.* A new nonlinear dynamic model of the rotor-bearing system considering preload and varying contact angle of the bearing. Communications in Nonlinear Science and Numerical Simulation, 2015, 22(1): 821-841.
2014 (6)
[1] Han Q, Chu F., Dynamic behaviors of a geared rotor system under time-periodic base angular motions. Mechanism and Machine Theory, 2014, 78:1-14.
[2] Han Q, Chu F., Parametric resonance of truncated conical shells rotating at periodically varying angular speed. Journal of Sound and Vibration, 2014, 333(13): 2866-2884.
[3] Han Q., Zhao J., Lu W., Peng Z., Chu F., Steady-state response of a geared rotor system with slant cracked shaft and time-varying mesh stiffness. Communications in Nonlinear Science and Numerical Simulation, 2014, 19(4), 1156-1174. (SCI, EI)
[4] Qin Z, Han Q, Chu F. Analytical model of bolted disk- drum joints and its application to dynamic analysis of jointed rotor. Proceedings of the institution of mechanical engineers Part C, Journal of Mechanical Engineering Science, 2014, 228: 646-663.
[5] Gui Y, Han Q, Chu F. Detection and Localization of Tooth Breakage Fault on Wind Turbine Planetary Gear System considering Gear Manufacturing Errors. Shock and Vibration, 2014, no. 692347.
[6] Qiu X, Han Q, Chu F. Analytical investigation on unstable vibrations of single-mesh gear systems with velocity-modulated time-varying stiffness. Journal of Sound and Vibration, 2014, 333(20): 5130-5140.
2013 (7)
[1] Han Q, Chu F., Effect of rotation on frequency characteristics of a truncated circular conical shell, Archive of Applied Mechanics, December 2013, Volume 83, Issue 12, pp 1789-1800. (SCI, EI)
[2] Han Q, Chu F., Parametric instability of a rotating truncated conical shell subjected to periodic axial loads. Mechanics Research Communications, 2013, 53: 63–74.
[3] Han Q, Chu F., Dynamic response of cracked rotor-bearing system under time-dependent base movements. Journal of Sound and Vibration, 2013, 332(25): 6847-6870. (SCI, EI)
[4] Zhang, X.N, Han, Q.K., Peng, Z.K. and Chu, F.L., Stability analysis of a rotor-bearing system with time-varying bearing stiffness due to finite number of balls and unbalanced force. Journal of Sound and Vibration, 2013, 332(25): 6768-6784. (SCI, EI)
[5] Han Q.K., Qin, Z., Zhao, J. and Chu F., Parametric instability of cylindrical thin shell with periodic rotating speeds. International Journal of Non-Linear Mechanics, 2013, 57: 201-207. (SCI, EI)
[6] Han Q, Chu F. Parametric instability of a Jeffcott rotor with rotationally asymmetric inertia and transverse crack. Nonlinear Dynamics, 2013: 1-16.
[7] Han Q, Chu F. Effects of rotation upon parametric instability of a cylindrical shell subjected to periodic axial loads. Journal of Sound and Vibration, 2013, 332(22): 5653-5661.
2012 (8)
[1] Han, Q.K. and Chu, F.L. Parametric instability of a two-disk rotor with two inertia asymmetries. International Journal of Structural Stability and Dynamics, 2012, 12(2): 251-284. (SCI)
[2] Han, Q.K. and Chu, F.L. Dynamic instability and steady-state response of an elliptical cracked shaft. Archive of Applied Mechanics, 2012, 82(5): 709-722. (SCI)
[3] Han, Q.K. and Chu, F.L. Parametric instability of a two-crack rotor-bearing system with new transverse crack breathing mechanism. European Journal of Mechanics - A/Solids, 2012, 36: 180-190. (SCI)
[4] Han, Q.K., Wang, J.J. and Li, Q.H. Finite element analysis of stiffness characteristics of an electromagnetic device. Journal of Vibration and Control, 2012, 18(1): 141-160.
[5] Han, Q.K. and Chu, F.L. The effect of transverse crack upon parametric instability of a rotor-bearing system with an asymmetric disk. Communications in Nonlinear Science and Numerical Simulation, 2012, 17(12): 5189-5200.
[6] Han, Q.K. Zhao, J.S. and Chu, F.L. Dynamic analysis of a geared rotor system considering a slant crack on the shaft. Journal of Sound and Vibration, 2012, 331(26): 5803-5823.
[7] Wu Y, Wang J, Han Q. Contact finite element method for dynamic meshing characteristics analysis of continuous engaged gear drives. Journal of Mechanical Science and Technology, 2012, 26: 1671-1685.
[8] Wu Y, Wang J, Han Q. Static/dynamic contact FEA and experimental study for tooth profile modification of helical gears. Journal of Mechanical Science and Technology, 2012, 26: 1409-1417.
2011 (4)
[1] Han, Q.K. and Chu, F.L. Local flexibility of an elliptical cracked shaft under bending and tension. Mechanical Systems and Signal Processing, 2011, 25(8): 3198-3203. (SCI)
[2] Han, Q.K., Wang, J.J. and Li, Q.H. Parametric instability of a cantilever beam subjected to two electromagnetic excitations: experiments and analytical validation. Journal of Sound and Vibration, 2011, 330(14): 3473-3487. (SCI)
[3] Han, Q.K., Wang, J.J. and Li, Q.H. Experimental study on dynamic characteristics of linear parametrically excited system. Mechanical Systems and Signal Processing, 2011, 25: 1585–1597. (SCI)
[4] Xin, J.Q., Wang, J.J., Yao, J.Y. and Han, Q.K. Vibration, buckling and dynamic stability of a cracked cylindrical shell with time-varying rotating speed. Mechanics Based Design of Structures and Machines, 2011, 39: 461–490. (SCI)
2010 (2)
[1] Han, Q.K., Wang, J.J., and Li, Q.H. Spectral properties for the vibrational response of parametrically excited system. Archive of Applied Mechanics, 2010, 80: 671-685. (SCI)
[2] Han, Q.K., Wang, J.J., and Li, Q.H. Frequency response characteristics of parametrically excited systems. Trans. ASME, Journal of Vibration and Acoustics, 2010, 132: 041004-1-11. (SCI)
2009 (2)
[1] Han, Q.K., Wang, J.J., and Li, Q.H. Theoretical analysis of the natural frequency of a geared system under the influence of a variable mesh stiffness. Proc. IMechE, Part D: J. Automobile Engineering, 2009, 223(D2): 221-231. (SCI)
[2] Han, Q.K., Wang, J.J., and Li, Q.H. Analysis of parametric stability for spur gear pair system considering the effect of extended tooth contact. Proc. IMechE, Part C: J. Mechanical Engineering Science, 2009, 223(C8): 1787-1797. (SCI)
Conference Presentations:
韩勤锴,秦朝烨,褚福磊.变载偏斜圆柱滚子轴承打滑动力学分析.第12届全国转子动力学学术讨论会ROTDYN2016,湖南长沙.
陈立强,韩勤锴,王建军,褚福磊. 周期基础运动激励的转子动力学建模与分析. 第12届全国转子动力学学术讨论会ROTDYN2016,湖南长沙.
QK Han, FL Chu, “A theoretical model for fault diagnosis of localized bearing defects under non-weight-dominant conditions”, 11th International Conference on Damage Assessment of Structures (DAMAS 2015), Journal of Physics: Conference Series 628 (2015) 012083.
Qiu, X., Han, Q.K. and Chu, F.L. Parametric Instability In Planetary Gears With Frequency-modulated Time-varying Mesh Stiffness. ASME 2014 International Design and Engineering Technical Conferences & Computers and Information in Engineering Conference, DETC2014-34143.
Han, Q.K. and Chu, F.L. Unbalanced Response of Cracked Rotor-bearing System under Time-dependent Base Movements. 2013 ASME International Mechanical Engineering Congress & Exposition (IMECE 2013), San Diego, CA.
Han, Q.K. and Chu, F.L. Instability control of periodically axial loaded beams using a time-variant stiffness spring. 15th Asia Pacific Vibration Conference, 2-6 June, 2013, ICC Jeju, Korea.
Han, Q.K. and Chu, F.L. Dynamic instability of a rotor-bearing system with two asymmetric disks. “10th International Conference on Vibrations in Rotating Machinery”, IMechE, London, 2012.
Han, Q.K. and Chu, F.L. Dynamic analysis of a geared rotor system considering a slant crack on the shaft. “ISMA-International Conference on Noise and Vibration Engineering”, Leuven, Belgium, 2012.
Han, Q.K. and Chu, F.L. Parametric instability of a rotating shaft containing an elliptical front crack. The 9th International Conference on Damage Assessment of Structures (DAMAS-2011), Journal of Physics: Conference Series,vols. 305. (EI)
Wang, J.J., Han, Q.K., and Li, Q.H. Analysis of natural frequency of parametric vibration for spur gear pair system using Floquet theory. Proceedings of MPT2009-Sendai, JSME International Conference on Motion and Power Transmissions, 2009, Matsushima Isles Resort, Japan.
EI期刊 (17)
[1] 韩勤锴,褚福磊. 角接触滚动轴承打滑预测模型. 振动工程学报,2017.6.15,(03):357-366.
[2] 韩勤锴,李兴林,闫国斌,褚福磊. 变载偏斜圆柱滚子轴承打滑动力学分析. 机械工程学报,2017.5.5,(09):58-65.
[3] 桂勇, 韩勤锴, 李峥, 等. 风机行星齿轮系统齿轮裂纹故障诊断[J]. 振动. 测试与诊断, 2016, 36(1): 169-175.
[4] 桂勇, 韩勤锴, 李峥, 等. 变速行星齿轮系统故障诊断方法[J]. 振动. 测试与诊断, 2016, 36(2): 220-226.
[5] 魏莎, 韩勤锴, 褚福磊. 考虑不确定参数的齿轮副非线性动态特性分析[J]. 振动与冲击, 2016, 35(10): 44-48..
[6] 徐学平, 韩勤锴, 褚福磊. 静载荷作用下偏心转子电磁振动特性[J]. 清华大学学报: 自然科学版, 2016, 56(2): 176-184.
[7] 魏莎,韩勤锴,褚福磊,“考虑不确定性因素的齿轮系统动力学研究综述”,《机械工程学报》, 2015年月,已录用.
[8] 魏莎,韩勤锴,褚福磊,“含区间参数的齿轮系统扭振固有特性研究”,《振动与冲击》, 第34卷第10期,2015年5月31日,pp56-62.
[9] 张学宁,韩勤锴,褚福磊,含双频时变滚动轴承刚度的转子-轴承系统响应特征研究,2017, 36(13): 116-121.
[10] 邱星辉,韩勤锴,褚福磊,基础俯仰运动对风力机行星齿轮动力学特性的影响分析. 振动工程学报, 2016, 29(06): 945-953.
[11] 邱星辉,韩勤锴,褚福磊,风力机行星齿轮传动系统动力学研究综述. 机械工程学报,2014, 50(11): 23-36.
[12] 张学宁,韩勤锴,褚福磊,基于简化Jones-Harris方法的球轴承接触角研究. 振动与冲击, 2013, 32(13): 170-175. (EI)
[13] Gui, Y., Han, Q.K, Li, Z. and Chu, F.L., The Fault Characteristics of Planetary Gear System with Tooth Breakage. Key Engineering Materials, 2013, Vols.569-570, pp. 489-496. (EI)
[14] 吴勇军,王建军,韩勤锴,李其汉. 基于接触有限元分析的斜齿轮齿廓修形与实验航空动力学报,航空动力学报, 2011, 26:409-415.
[15] 王建军,韩勤锴,李其汉. 参数振动系统响应的频谱成分及分布规律. 力学学报,2010,42(3):534-540. (EI)
[16] 王建军,韩勤锴,李其汉. 参数振动系统频响特性研究. 振动与冲击,2010,29(3):110-115. (EI)
[17] 王建军,韩勤锴,李其汉. 考虑延长啮合时齿轮参数振动稳定性研究. 振动工程学报,2009,22(4):400-405. (EI)