博士生导师
硕士生导师
个人信息Personal Information
学历:博士研究生毕业
学位:工学博士学位
办公地点:摩擦学研究所401(九里)
毕业院校:西南交通大学
所在单位:机械工程学院
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§ 第一/通讯作者英文论文
1. H.P. Wang, M.Q. Zhang, R.X. Sun, S.J. Cui, J.L. Mo*. Performance improvement strategy of the TBM disc cutter ring material and evaluation of impact-sliding friction and wear performance, Wear, 2023, 526: 204943. (IF: 4.804, JCR Q1) (WOS:001031386100001)
2. Q.X. Zhang, J.L. Mo*, Z.Y. Xiang, Q. Wang, Z. Yu, C.Z. Zhai, S. Zhu, Effect of surface micro-grooved textures in suppressing stick-slip vibration in high-speed train brake systems, Tribology International, 2023. (IF: 6.105, JCR Q1)
3. Q.X. Zhang, J.L. Mo*, Z.Y. Xiang, Q.A. Liu, B. Tang, W.W. Jin, S. Zhu, The influence of interfacial wear characteristics on stick-slip vibration, Tribology International, 2023, 185: 108535. (IF: 6.105, JCR Q1)
4. Q. Wang, Q.X. Zhang , Z.W. Wang, J.L. Mo*, W.W. Jin , S. Zhu. Identification of Stribeck model parameters to accurately reveal stick–slip characteristics of a disc–block friction system [J]. Tribology Transactions, 2023.(IF: 2.089, JCR Q3)
5. Q. Wang, Z.W. Wang, J.L. Mo*, Z.R. Zhou, Modelling and stability analysis of a high-speed train braking system, International Journal of Mechanical Sciences, 2023, 250: 108315. (IF: 7.266, JCR Q1) (WOS:000952074100001)
6. Q. Wang, Z.W. Wang, J.L. Mo*, A hybrid friction-induced vibration form: Experimental measurement and mechanism discussion, Tribology International, 2023,183: 108397. (IF: 6.105, JCR Q1) (WOS:000957400200001)
7. Z.W. Wang, J.L. Mo*, K.Y. Wang, Z.R. Zhou, A novel vehicle-track coupled dynamics model with disc brake systems: modelling and validation, Vehicle System Dynamics, 2023. (IF: 3.543, JCR Q2) (WOS:000970833100001)
8. Z.W. Wang, L. Zhang, Z.Y. Ren, J.L. Mo*, L.C. Yang, K.Y. Wang, Friction and vibration behaviours of high-speed train brake system excited by wheel flats, International Journal of Rail Transportation, 2023. (IF: 3.877 JCR Q2) (WOS:000939484800001)
9. Z.W. Wang, L.C. Yang, J.L. Mo*, S. Zhu, W.W. Jin, A trailer car dynamics model considering brake rigging of a high-speed train and its application. Railway Engineering Science, 2023, 31, 269-280. (IF: 6.3) (WOS:000960996600002)
10. Q.A. Liu, Z.Y. Xiang, J.L. Mo*, A study on the differences in tribological behavior of friction pairs under decoupling and coupling of frictional interface and system structure, Tribology International, 2023, 188: 10886. (IF: 6.105, JCR Q1)
11. C. Lu, J.C. Shen, J.L. Mo*, J.M. Martinez-Esnaola, Influence of braking sequence on railway brake disc's radial crack propagation behavior, Fatigue & Fracture of Engineering Materials & Structures, 2023, 46(6): 2029-2373. (IF: 3.7, JCR Q2) (WOS:000949219500001)
12. C. Lu, J.C. Shen, Q. Fu, J.L. Mo*, Research on radial crack propagation of railway brake disc under emergency braking conditions, Engineering Failure Analysis, 2023, 143: 106877. (IF: 3.935, JCR Q1) (WOS:000896983500003)
13. C.L. Lu, Q. Wang, Z.W. Wang, J.L. Mo*, S. Zhu, W.W. Jin, Stick-Slip Characteristic Analysis of High-Speed Train Brake Systems: A Disc-Block Friction System with Different Friction Radii. Vehicles. 2023; 5(1):41-54. (WOS:000958016500001)
14. M. Zhang*, X.J. Lin, X.J. Zhang, J.L. Mo*, Z.Y. Xiang, S.H. Xu,Diagnosis of brake friction faults in high-speed trains based on 1DCNN and GraphSAGE under data imbalance, Measurement, 2023, 207: 112378. (IF: 5.6, JCR Q1) (WOS: 000916569200001)
15. K.M. Gong, X. Zhou, J.L. Mo*. Continuously tuneable acoustic metasurface for high order transmitted acoustic vortices. Smart Materials and Structures, 2022, 31(11): 115001 (IF: 4.131, JCR Q2) (WOS:000857793700001)
16. C. Lu, X.C. Jiang, X.T. Chen, J.L. Mo*. Experimental study on the evolution of friction and wear behaviours of railway friction block during temperature rise under extreme braking conditions. Engineering Failure Analysis, 2022, 141: 106621. (IF: 3.634, JCR Q2) (WOS:000853688400001)
17. Q.A. Liu, Z.Y. Xiang, J.L. Mo*, Q.X. Zhang, Y.G. Zhu. The effects of the structural stiffness of vibration transfer path on friction-induced vibration and noise. Tribology International, 2022, 173: 107687. (IF: 5.62, JCR Q1) (WOS:000811971500003)
18. H.P. Wang, R.X. Sun, M.Q. Zhang, B. Gou, J.L. Mo*. Impact-sliding behavior of Ni-based coating prepared on tunnel boring machine disc cutter material produced using a plasma transferred arc welding process. Surface & Coatings Technology, 2022, 442: 128186. (IF: 4.865, JCR Q2) (WOS: 000822944100004)
19. M. Zhang*, X.J. Zhang, J.L. Mo*, Z.Y. Xiang, P.W Zheng. Brake uneven wear of high-speed train intelligent monitoring using an ensemble model based on multi-sensor feature fusion and deep learning. Engineering Failure Analysis, 2022, 137: 106219. (IF: 3.634, JCR Q2)
20. R.X. Sun, J.L. Mo*, M.Q. Zhang*, W.J. Duan, L.G. Zhang, Z.R. Zhou. Effect of Impact-Sliding Angle on the Wear Performance of the H13 Steel of a Tunnel Boring Machine Cutter. Tribology Transactions, 2022, 65(4): 762-776. (IF: 2.056, JCR Q3) (WOS:000823641400001)
21. Y.G. Zhu, R.L. Wang, Z.Y. Xiang, J.L. Mo*, H.J. Ouyang. The effect of dynamic normal force on the stick-slip vibration characteristics. Nonlinear Dynamics, 2022, DOI: 10.1007/s11071-022-07614-0. (IF: 5.741, JCR Q1) (WOS:000817047000003) (Published online)
22. C. Lu, J.B. Yin, J.L. Mo*, J.Y. Wang. Accumulated wear degradation prediction of railway friction block considering the evolution of contact status, Wear, 2022, 494-495: 204251. (IF: 4.695, JCR Q1) (WOS:000754374800002)
23. X.D. Lu, R.L. Wang, J.L. Mo*, H.J. Ouyang, Z.Y. Fan, Y.F. Zhang, J. Zhao. Effect of Damping Components with Slotted Structures on the Instability Induced by Sliding Friction. Tribology Transactions, 2022, 65(1): 164-179. (IF: 2.056, JCR Q3) (WOS:000732601300001)
24. X.C. Wang, R.L. Wang, B. Huang, J.L. Mo*, H.J. Ouyang*. A Study of Effect of Various Normal Force Loading Forms on Frictional Stick-Slip Vibration. Journal of Dynamics, Monitoring and Diagnostics, 2022, 1(1), 46–55. https://doi.org/10.37965/jdmd.v2i2.48. (ISTP)
25. Q. Wang, Z.W. Wang*, J.L. Mo*, L. Zhang. Nonlinear behaviors of the disc brake system under the effect of wheel-rail adhesion. Tribology International, 2022, 165: 107263. (IF: 5.62, JCR Q1) (WOS: 000703566500003)
26. Z.W. Wang, J.L. Mo*, M.Y. Gebreyohanes, K.Y. Wang, J.Y. Wang, Z.R. Zhou. Dynamic response analysis of the brake disc of a high-speed train with wheel flats. Proceedings of the Institution of Mechanical Engineers, Part F: Journal of Rail and Rapid Transit, 2021, DOI: 10.1177/09544097211031723. (IF: 1.87, JCR Q3) (WOS: 000677315500001)
27. W. Chen, J.L. Mo*, Z.Y. Xiang, A.Y. Wang, Q.A. Liu, H.H. Qian. A new concept of frequency-excitation-up conversion to improve the yield of linear piezoelectric generators. Sensors and Actuators A: Physical, 2021, 325: 112712. (IF: 4.291, JCR Q1) (WOS: 000641357200002)
28. J.B. Yin, Y.K. Wu, C. Lu*, W. Chen, J.L. Mo*, Z.R. Zhou. The Influence of Friction Blocks Connection Configuration on High‑Speed Railway Brake Systems Performance. Tribology Letters, 2021, 69: 122. (IF: 3.327, JCR Q2) (WOS: 000687689100004)
29. D.Q. Tan*, R. Li, Q. He, X.Q. Yang, C.C. Zhou, J.L. Mo*. Failure analysis of the joint bearing of the main rotor of the Robinson R44 helicopter: A case study. Wear, 2021, 477: 203862. (IF: 4.695, JCR Q1) (WOS: 000675488200003)
30. Z.Y. Xiang, J.L. Mo*, H.H. Qian, S. Zhu, W. Chen, L.Q. Du. The effect of the friction block installation direction on the tribological behavior and vibrational response of the high-speed train brake interface. Wear, 2021, 484–485: 204049. (IF: 4.695, JCR Q1) (WOS: 000683575200001)
31. Z.Y. Xiang, J.L. Mo*, H.H. Qian, W. Chen, D.B. Luo*, Z.R. Zhou. Friction-induced vibration energy harvesting of a high-speed train brake system via a piezoelectric cantilever beam. Tribology International, 2021, 162: 107126. (IF: 5.62, JCR Q1) (WOS: 000672572700005)
32. A.Y. Wang, J.L. Mo*. H.H. Qian, Y.K. Wu, Z.Y. Xiang, W. Chen, Z.R. Zhou. The effect of a time-varying contact surface on interfacial tribological behaviour via a surface groove and filler. Wear, 2021, 478–479: 203905. (IF: 4.695, JCR Q1) (WOS: 000663415900003)
33. H.P. Wang, J.L. Mo*, S. Mu, M.Q. Zhang, W.J. Duan, J.B. Li*, Z.R. Zhou. Effects of interfacial trapezoidal grooves on the mechanical properties of coatings by laser cladding. Surface & Coatings Technology, 2021, 421: 127425. (IF: 4.865, JCR Q2) (WOS: 000666583900056)
34. K.M Gong, X. Zhou, H.J. Ouyang, J.L. Mo*. Continuous manipulation of acoustic wavefront using a programmable acoustic metasurface. Journal of Physics D: Applied Physics, 2021, 54: 305302. (IF: 3.409, JCR Q2) (WOS: 000655402900001)
35. C. Lu, J.L. Mo*, R.X. Sun, Y.K. Wu, Z.Y. Fan. Investigation into multiaxial character of thermomechanical fatigue damage on high‐speed railway brake disc. Vehicles, 2021, 3: 287–299. (WOS: 000668543100001)
36. Z.Y. Fan, Z.Y. Xiang, W. Chen, H.H. Qian, J.L. Mo*, Z.R. Zhou. Effect of surface modification on the tribological properties of friction blocks in high-speed train brake systems. Tribology Letters, 2021, 69(1): 27. (IF: 3.327, JCR Q2) (WOS: 000617974700004)
37. Z.Y. Xiang, H.H. Qian, J.L. Mo*, W. Chen, D.Q. Tan, Z.R. Zhou. Improving the tribological behavior of the brake interface of high-speed trains via a cantilever beam structure. Tribology International, 2021, 155: 106783. (IF: 5.62, JCR Q1) (WOS: 000612134700004)
38. Z.Y. Xiang, W. Chen, J.L. Mo*, Q.A. Liu, Z.Y. Fan, Z.R. Zhou. The effects of the friction block shape on the tribological and dynamical behaviours of high-speed train brakes. International Journal of Mechanical Sciences, 2021, 194: 106184. (IF: 6.772, JCR Q1) (WOS: 000636790100004)
39. H.H. Qian, J.L. Mo*, Z.Y. Xiang, Z.Y. Fan, Z.R. Zhou. The effect of the macroscopic surface morphology caused by the uneven wear on friction induced vibration. Tribology International, 2021, 154: 106672. (IF: 5.62, JCR Q1) (WOS: 000598668000001)
40. Y.K. Wu, J.W. Xu, X.C. Wang, W. Chen, C. Lu, J.L. Mo*. The effect of damping components on the interfacial dynamics and tribological behavior of high-speed train brakes. Applied Acoustics, 2021, 178: 107962. (IF: 3.614, JCR Q1) (WOS: 000640183600007)
41. Y.K. Wu, B. Tang, Z.Y. Xiang, H.H. Qian, J.L. Mo*, Z.R. Zhou. Brake squeal of a high-speed train for different friction block configurations. Applied Acoustics, 2021, 171: 107540. (IF: 3.614, JCR Q1) (WOS: 000580649900006)
42. X.F. Wang, J.L. Mo*, H.J. Ouyang, Z.Y. Xiang, W. Chen, Z.R. Zhou. Simultaneous energy harvesting and tribological property improvement. Friction, 2021, 9: 1275-1291. (IF: 4.924, JCR Q1) (WOS: 000622227700002)
43. D.Q. Tan*, X.Q. Yang, Q. He, J.L. Mo*, W.H. Zhuang, J.F. He. Impact-sliding wear properties of PVD CrN and WC/C coatings. Surface Engineering, 2021, 37(1): 12-23. (IF: 2.451, JCR Q3) (WOS: 000492807000001)
44. D. Chen*, S. Wang, M.L. Shen, Q.T. Qian, Q. Su, J.L. Mo*, Z.R. Zhou*, T. Girmay. Aggregate micro tribological properties of sponge city permeable pavement base layer under vehicle loading. Construction and Building Materials, 2020, 261: 120424. (IF: 7.693, JCR Q1) (WOS: 000582529400087)
45. Z.Y. Xiang, J.L. Mo*, H.J. Ouyang, F. Massi, B. Tang, Z.R. Zhou. Contact behaviour and vibrational response of a high-speed train brake friction block. Tribology International, 2020, 152: 106540. (IF: 5.62, JCR Q1) (WOS: 000613509600016)
46. W. Chen, Z.Y. Xiang, J.L. Mo*, Z.Y. Fan, H.H. Qian, J.Y. Wang. Energy harvesting and vibration reduction by sandwiching piezoelectric elements into elastic damping components with parallel-grooved structures. Composite Structures, 2020, 241: 112105. (IF: 6.603, JCR Q1) (WOS: 000522793200024)
47. X.C. Wang, B. Huang, R.L. Wang, J.L. Mo*, H.J, Ouyang*. Friction-induced stick-slip vibration and its experimental validation. Mechanical Systems and Signal Processing, 2020, 142: 106705. (IF: 8.934, JCR Q1) (WOS: 000529085600008)
48. X.D. Lu, J. Zhao, J.L. Mo*, Y.K. Wu, J.W. Xu, Y.F. Zhang, Z.R. Zhou. Suppression of friction-induced stick–slip behavior and improvement of tribological characteristics of sliding systems by introducing damping materials. Tribology Transactions, 2020, 63: 222-234. (IF: 2.056, JCR Q3) (WOS: 000494420000001)
49. X.C. Wang, J.L. Mo*, H.J. Ouyang, B. Huang, X.D. Lu, Z.R. Zhou. An investigation of stick-slip oscillation of Mn–Cu damping alloy as a friction material. Tribology International, 2020, 146: 106024. (IF: 5.62, JCR Q1) (WOS: 000526117600002)
50. X. Quan, J.L. Mo*, B. Huang, B. Tang, H.J. Ouyang, Z.R. Zhou. Influence of the friction block shape and installation angle of high-speed train brakes on brake noise. Journal of Tribology-transactions Of The Asme, 2020, 142(3): 1-18. (IF: 1.891, JCR Q3) (WOS: 000525370300004)
51. Y.K. Wu, J.L. Mo*, B. Tang, J.W. Xu, B. Huang, Z.Y. Xiang, Z.R. Zhou. Tribological and dynamical analysis of a brake pad with multiple blocks for a high-speed train. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology, 2020, 234: 1771-1788. (IF: 1.818, JCR Q3) (WOS: 000507207500001)
52. K.M. Gong, X.F. Wang, H.J. Ouyang, J.L. Mo*. Tuneable gradient Helmholtz-resonator-based acoustic metasurface for acoustic focusing. Journal of Physics D: Applied Physics, 2019, 52: 385303. (IF: 3.409, JCR Q2) (WOS: 000475636400003)
53. D.Q. Tan, J.L. Mo*, J.F. He, J. Luo, Q. Zhang, M.H. Zhu, Z.R. Zhou. Effect of structural stiffness on impact-sliding wear behavior of aluminium alloy. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology, 2019, 233: 1844-1856. (IF: 1.818, JCR Q3) (WOS: 000486006700006)
54. B. Tang, J.L. Mo*, J.W. Xu, Y.K. Wu, M.H. Zhu, Z.R. Zhou. Effect of perforated structure of friction block on the wear, thermal distribution and noise characteristics of railway brake systems. Wear, 2019, 426-427: 1176-1186. (IF: 4.695, JCR Q1) (WOS: 000464585200028)
55. D.Q. Tan, J.L. Mo*, W.F. He, J. Luo, Q. Zhang, M.H. Zhu, Z.R. Zhou. Suitability of laser shock peening to impact-sliding wear in different system stiffnesses. Surface & Coatings Technology, 2019, 358: 22-35. (IF: 4.865, JCR Q2) (WOS: 000456762300003)
56. B. Tang, J.L. Mo*, Y.K. Wu, X. Quan, M.H. Zhu, Z.R. Zhou. Effect of the friction block shape of railway brakes on the vibration and noise under dry and wet conditions. Tribology Transactions, 2019, 62: 262-273. (IF: 2.056, JCR Q3) (WOS: 000467845700012)
57. X.C. Wang, J.L. Mo*, H.J. Ouyang, X.D. Lu, B. Huang, Z.R. Zhou. The effects of grooved rubber blocks on stick-slip and wear behaviours. Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering, 2019, 233: 2939-2954. (IF: 1.828, JCR Q3) (WOS: 000484945100019)
58. Z.L. Li, X.C. Wang, Q. Zhang, Z.Q. Guan, J.L. Mo*, H.J. Ouyang*. Model reduction for friction-induced vibration of multi-degree-of-freedom systems and experimental validation. International Journal of Mechanical Sciences, 2018, 145: 106-119. (IF: 6.772, JCR Q1) (WOS: 000444664600009)
59. D.W. Wang, J.L. Mo*, X.F. Wang, H. Ouyang, Z.R. Zhou*. Experimental and numerical investigations of the piezoelectric energy harvesting via friction-induced vibration. Energy Conversion and Management, 2018, 171: 1134-1149. (IF: 11.533, JCR Q1) (WOS: 000449247500005)
60. J.Y. Xu, J.L. Mo*, B. Huang, X.C. Wang, X. Zhang, Z.R. Zhou. Reducing friction-induced vibration and noise by clearing wear debris from contact surface by blowing air and adding magnetic field. Wear, 2018, 408-409: 238-247. (IF: 4.695, JCR Q1) (WOS: 000436482000025)
61. Q. Zhang, J.L. Mo*, X.D. Lu, J. Zhao, D.W. Wang, Z.R. Zhou. Grooved-structure design for improved component damping ability. Tribology International, 2018, 123: 50-60. (IF: 5.62, JCR Q1) (WOS: 000431161600007)
62. D.W. Wang, J.L. Mo*, H. Ouyang, Z.R. Zhou. Improving dynamic and tribological behaviours by means of a Mn-Cu damping alloy with grooved surface features. Tribology Letters, 2018, 66: 67. (IF: 3.327, JCR Q2) (WOS: 000433167000003)
63. Z.Y. Zhu, J.L. Mo*, D.W. Wang, J. Zhao, M.H. Zhu, Z.R. Zhou. Study on the correlation between dynamical behavior and friction/wear mechanism under the effect of grooves. Journal of Materials Engineering and Performance, 2018, 27(6): 2875-2884. (IF: 2.036, JCR Q4) (WOS: 000435416000037)
64. X. Zhou, J.L. Mo*, Y.Y. Li, J.Y. Xu, X. Zhang, S. Cai, Z.M. Jin*. Correlation between tactile perception and tribological and dynamical properties for human finger under different sliding speeds. Tribology International, 2018, 123: 286-295. (IF: 5.62, JCR Q1) (WOS: 000431161600028)
65. X.D. Lu, J. Zhao, J.L. Mo*, Q. Zhang, X. Zhang, Z.R. Zhou. Improvement of dynamical and tribological properties of friction systems by introducing parallel-grooved structures in elastic damping components. Composite Structures, 2018, 192: 8-19. (IF: 6.603, JCR Q1) (WOS: 000428688700002)
66. A.Y. Wang, J.L. Mo*, X.C. Wang, M.H. Zhu, Z.R. Zhou. Effect of surface roughness on friction-induced noise: Exploring the generation of squeal at sliding friction interface. Wear, 2018, 402-403: 80-90. (IF: 4.695, JCR Q1) (WOS: 000429077100010)
67. X. Zhang, J.L. Mo*, Y.F. Si, Z.G. Guo. How does substrate roughness affect the service life of a superhydrophobic coating? Applied Surface Science, 2018, 441: 491-499. (IF: 7.392, JCR Q1) (WOS: 000427816400060)
68. D.W. Wang, J.L. Mo*, Z.Y. Zhu, H. Ouyang, M.H. Zhu, Z.R. Zhou. Debris trapping and space-varying contact via surface texturing for enhanced noise performance. Wear, 2018, 396-397: 86-97. (IF: 4.695, JCR Q1) (WOS: 000422803000009)
69. J.Y. Xu, J.L. Mo*, X.C. Wang, X. Zhang, D.W. Wang, Z.R. Zhou. Effects of a horizontal magnetic field on unstable vibration and noise of a friction interface with different magnetic properties. Tribology International, 2018, 120: 47-57. (IF: 5.62, JCR Q1) (WOS: 000428102900006)
70. M.Q. Liu, J.L. Mo*, D.W. Wang, J.X. Li, M.H. Zhu, Z.R. Zhou. The influence of the angular distribution of a grooved surface texturing on the generation of friction-induced vibration and noise. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology, 2018, 232: 1036-1045. (IF: 1.818, JCR Q3) (WOS: 000439112400010)
71. B. Tang, J.L. Mo*, X. Zhang, Q. Zhang, M.H. Zhu, Z.R. Zhou. Experimental investigation of the squeal characteristics in railway disc brakes. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology, 2018, 232: 1437-1449. (IF: 1.818, JCR Q3) (WOS: 000448087700009)
72. D.W. Wang, J.L. Mo*, Q. Zhang, J. Zhao, H. Ouyang, Z.R. Zhou. The effect of the grooved elastic damping component in reducing friction-induced vibration. Tribology International, 2017, 110: 264-277. (IF: 5.62, JCR Q1) (WOS: 000398871700028)
73. D.W. Wang, J.L. Mo*, M.Q. Liu, J.X. Li, H. Ouyang, M.H. Zhu, Z.R. Zhou. Improving tribological behaviours and noise performance of railway disc brake by grooved surface texturing. Wear, 2017, 376: 1586-1600. (IF: 4.695, JCR Q1) (WOS: 000403902000073)
74. X. Zhang, Y.F. Si, J.L. Mo*, Z.G. Guo*. Robust micro-nanoscale flowerlike ZnO/epoxy resin superhydrophobic coating with rapid healing ability. Chemical Engineering Journal, 2017, 313: 1152-1159. (IF: 16.744, JCR Q1) (WOS: 000394723200116) (ESI热点论文)
75. M. Zhang, J.L. Mo*, J.Y. Xu, X. Zhang, D.W. Wang, Z.R. Zhou. The effect of changing fingerprinting directions on finger friction. Tribology Letters, 2017, 65(2): 60. (IF: 3.327, JCR Q2) (WOS: 000401437000030)
76. D.W. Wang, J.L. Mo*, Z.Y. Zhu, H. Ouyang, M.H. Zhu, Z.R. Zhou. How do grooves on friction interface affect tribological and vibration and squeal noise performance. Tribology International, 2017, 109: 192-205. (IF: 5.62, JCR Q1) (WOS: 000395611500021)
77. D.W. Wang, J.L. Mo*, X.H. Ge, H. Ouyang, Z.R. Zhou. Disc surface modifications for enhanced performance against friction noise. Applied Surface Science, 2016, 382: 101-110. (IF: 7.392, JCR Q1) (WOS: 000376819600014)
78. D.W. Wang, J.L. Mo*, M.Q. Liu, H. Ouyang, Z.R. Zhou. Noise performance improvements and tribological consequences of a pad-on-disc system through groove-textured disc surface. Tribology International, 2016, 102: 222-236. (IF: 5.62, JCR Q1) (WOS: 000383931100024)
79. X.C. Wang, J.L. Mo*, H.J. Ouyang, D.W. Wang, G.X. Chen, M.H. Zhu, Z.R. Zhou. Squeal noise of friction material with groove-textured surface: an experimental and numerical analysis. Journal of Tribology-transactions of the Asme, 2016, 138(2): 021401. (IF: 1.891, JCR Q3) (WOS: 000371388800008)
80. D.W. Wang, J.L. Mo*, H. Ouyang, G.X. Chen, M.H. Zhu, Z.R. Zhou. Experimental and numerical studies of friction-induced vibration and noise and the effects of groove-textured surfaces. Mechanical Systems and Signal Processing. 2014, 46: 191-208. (IF: 8.934, JCR Q1) (WOS: 000335637700001)
81. J.L. Mo*, Z.G. Wang, G.X. Chen, T.M. Shao, M.H. Zhu, Z.R. Zhou. The effect of groove-textured surface on friction and wear and friction-induced vibration and noise. Wear, 2013, 301: 671-681. (IF: 4.695, JCR Q1) (WOS: 000322555500087)
82. J.L. Mo, M.H. Zhu, A. Leyland, A. Matthews*. Impact wear and abrasion resistance of CrN, AlCrN and AlTiN PVD coatings. Surface & Coatings Technology, 2013, 215: 170-177. (IF: 4.865, JCR Q2) (WOS: 000315659600025)
83. D.W. Wang, J.L. Mo*, Z.G. Wang, G.X. Chen, H. Ouyang, Z.R. Zhou. Numerical study of friction-induced vibration and noise on groove-textured surface. Tribology International, 2013, 64: 1-7. (IF: 5.62, JCR Q1) (WOS: 000320418300001)
84. J.L. Mo, M.H. Zhu*. Tribological investigation of WC/C coating under dry sliding conditions. Wear, 2011, 271: 1998-2005. (IF: 4.695, JCR Q1) (WOS: 000294590200101)
85. J.L. Mo, M.H. Zhu*, J.F. Zheng, J. Luo, Z.R. Zhou. Study on rotational fretting wear of 7075 aluminum alloy. Tribology International, 2010, 43: 912-917. (IF: 5.62, JCR Q1) (WOS: 000276290000009)
86. J.L. Mo, M.H. Zhu*. Tribological characterization of chromium nitride coating deposited by filtered cathodic vacuum arc. Applied Surface Science, 2009, 255: 7627-7634. (IF: 7.392, JCR Q1) (WOS: 000266567400027)
87. J.L. Mo, M.H. Zhu*. Sliding tribological behaviors of PVD CrN and AlCrN coatings against Si3N4 ceramic and pure titanium. Wear, 2009, 267: 874-881. (IF: 4.695, JCR Q1) (WOS: 000267580700028)
88. J.L. Mo, M.H. Zhu*. Tribological oxidation behaviour of PVD hard coatings. Tribology International, 2009, 42: 1758-1764. (IF: 5.62, JCR Q1) (WOS: 000271542600027)
89. J.L. Mo, M.H. Zhu*. Sliding tribological behavior of AlCrN coating. Tribology International, 2008, 41(12): 1161-1168. (IF: 5.62, JCR Q1) (WOS: 000263852800004)
90. J.L. Mo, M.H. Zhu*, B. Lei, Y.X. Leng, N. Huang. Comparison of tribological behaviours of AlCrN and TiAlN coatings-deposited by physical vapor deposition. Wear, 2007, 263: 1423-1429. (IF: 4.695, JCR Q1) (WOS: 000249754500071)
§ 非第一/通讯作者的英文论文
1. R.Y Sun, J. Zhao*, J.L. Mo, N.K Yu, Z.R. Zhou, Study of the drag reduction performance on steel spheres with superhydrophobic ER/ZnO coating, Materials Science and Engineering: B, 2023, 288: 116144. (IF: 3.563, JRC Q2) (WOS:000892271900001)
2. R.X. Sun, J.L. Mo, M.Q. Zhang*, Z.R. Zhou, Interaction between partial-worn TBM cutters and rocks: experimental and numerical investigation. Bulletin of Engineering Geology and the Environment, 2023, 82(4): 111. (IF: 4.212, JRC Q1) (WOS:000945812500001)
3. X.Zhou, M.A.A. Masen*, J.L. Mo, X.Y. Shi, Y.S. He, Z.M. Jin*, Investigation of Experimental Devices for Finger Active and Passive Tactile Friction Analysis, Chinese Journal of Mechanical Engineering, 2023, 36: 38 1-11.(IF: 4.2, JRC Q1) (WOS:000949404500001)
4. C.H. Zhou, Z.Y. Ren*, Y.X. Lin*, Z.H. Huang, L.W. Shi, Y. Yang, J.L. Mo, Hysteresis dynamic model of metal rubber based on higher-order nonlinear friction (HNF), Mechanical Systems and Signal Processing, 2023, 189: 110117. (IF: 8.284, JCR Q1) (WOS:000920425300001)
5. Q. Wang, Z.W. Wang*, J.L. Mo, R.C Wang, K.Y Wang, Effect and mechanism of wheel–rail adhesion on torsional vibration and stability of the braking system, Tribology International, 2023, 179: 108182. (IF: 6.105, JCR Q1) (WOS:000920540000001)
6. Q. Wang, Z.W. Wang*, J.L. Mo, S. Zhu, Q.B. Gou, Evaluation of the dynamic behaviors of a train braking system considering disc–block interface characteristics, Mechanical Systems and Signal Processing, 2023, 192: 110234. (IF: 8.284, JCR Q1) (WOS:000948490600001)
7. J.B. Yin, C. Lu*, J.L. Mo, Comprehensive modeling strategy for thermomechanical tribological behavior analysis of railway vehicle disc brake system. Friction, 2023. (IF: 6.813, JCR Q1) (WOS:000977091000002)
8. Z.Y. Xiang*, J.K. Zhang, S.L. Xie, J.L. Mo, S. Zhu, C.Z. Zhai, Friction-induced vibration and noise characteristics, and interface tribological behavior during high-speed train braking: The effect of the residual height of the brake pad friction block, Wear, 2023, 516–517: 204619. (IF: 4.804, JCR Q1) (WOS:000989326900001)
9. L. Zhang, Z.W. Wang*, Q. Wang, J.L. Mo, J. Feng, K.Y. Wang. The effect of wheel polygonal wear on temperature and vibration characteristics of a high-speed train braking system. Mechanical Systems and Signal Processing, 2023, 186: 109864. (IF: 8.934, JCR Q1) (WOS:000880460500006)
10. Z.Y. Xiang*, P.W. Zheng, D.Q. He, J.L. Mo, S Zhu, Q.B. Gou, L.Q. Du. Tribological improvement of a high-speed train brake system and friction-induced vibration energy harvesting via a sandwich damping piezoelectric structure. Tribology International, 2022, 176: 107878. (IF: 5.62, JCR Q1) (WOS:000854966700001)
11. R.X. Sun, J.L. Mo, M.Q. Zhang*, Y.M. Su, Z.R. Zhou. Cutting performance and contact behavior of partial-wear TBM disc cutters: A laboratory scale investigation. Engineering Failure Analysis, 2022, 137: 106253. (IF: 3.634, JCR Q2) (WOS:000800065900002)
12. Q. Wang, Z.W. Wang*, J.L. Mo, M.Y. Gebreyohanes, R.C. Wang, P. Allen. A novel dynamics model of a trailer bogie brake system and its application in stability analysis. Mechanical Systems and Signal Processing, 2022, 172: 108966. (IF: 8.934, JCR Q1) (WOS:000806372600004)
13. J. Zhao*, R.Y. Sun, C. Liu, J.L. Mo. Application of ZnO/epoxy resin superhydrophobic coating for buoyancy enhancement and drag reduction. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2022, 651: 129714. (IF: 5.518, JCR Q2)
14. X.W. Wu*, C.X. Xie, K.C. Liu, S.C. Wu, Z.F. Wen, J.L. Mo. Study on high frequency vibration-induced fatigue failure of antenna beam in a metro bogie. Engineering Failure Analysis, 2022, 133: 105976. (IF: 3.634, JCR Q2) (WOS:000790167700002)
15. R.H. Hu, M. Zhang*, Z.Y. Xiang, J.L. Mo. Guided deep subdomain adaptation network for fault diagnosis of different types of rolling bearings. Journal of Intelligent Manufacturing, 2022, DOI 10.1007/s10845-022-01910-7. (IF: 7.136, JCR Q1) (WOS:000754165900002) (Published online)
16. Q. Wang, Z.W. Wang*, J.L. Mo, L. Zhang, L.Q. Du, Q.B. Gou. Coupled dynamic behaviours of the brake system considering wheel-rail interactions. International Journal of Rail Transportation, 2021, DOI 10.1080/23248378.2021.2014996. (IF: 2.759, JCR Q3) (WOS:000730974000001) (Published online)
17. R.Y. Sun, J. Zhao*, C. Liu, N.K. Yu, J.L. Mo, Y.J. Pan, D.B. Luo. Design and optimization of hybrid superhydrophobic–hydrophilic pattern surfaces for improving fog harvesting efficiency. Progress in Organic Coatings, 2022, 171: 107016. (IF: 6.206, JCR Q1)
18. X.J. Zhang, M. Zhang*, Z.Y. Xiang, J.L. Mo. Research on diagnosis algorithm of mechanical equipment brake friction fault based on MCNN-SVM. Measurement, 2021, 186: 110065. (IF: 3.927, JCR Q1) (WOS: 000704917600007)
19. R.Y. Sun, N.K. Yu, J. Zhao*, J.L. Mo, Y.J. Pan, D.B. Luo. Chemically stable superhydrophobic polyurethane sponge coated with ZnO/epoxy resin coating for effective oil/water separation. Colloids and Surfaces A-Physicochemical and Engineering Aspects, 2021, 611(23): 125850. (IF: 4.539, JCR Q2) (WOS:000606527800004)
20. W.J. Duan, L.G. Zhang, M.Q. Zhang*, Y.M. Su, J.L. Mo, Z.R. Zhou. Numerical and Experimental Studies on the Effects of the TBM Cutter Profile on Rock Cutting. KSCE Journal of Civil Engineering, 2022, 26(1): 416-432. (IF: 2.115, JCR Q3) (WOS:000705743000001)
21. Y. Zhou, Z.Z. Gui*, J.L. Mo, J.F. Peng, Z.B. Xu, M.H. Zhu*. Slippage effects on the crack behavior of pearlitic steel induced via rolling-sliding friction. Wear, 2021, 482–483: 203959. (IF: 4.695, JCR Q1) (WOS: 000683458500002)
22. X.T Liu, X. Mi, J.H. Liu*, L.H. Long, Z.B. Cai, J.L. Mo, J.F. Peng, M.H. Zhu. Axial load distribution and self-loosening behavior of bolted joints subjected to torsional excitation. Engineering Failure Analysis, 2021, 119: 104985. (IF: 3.634, JCR Q2) (WOS: 000598587900004) (WOS:000598587900004)
23. R.Y. Sun, J. Zhao*, Z. Li, N. Qin*, J.L. Mo, Y.J. Pan, D.B. Luo. Robust superhydrophobic aluminum alloy surfaces with anti-icing ability, thermostability, and mechanical durability. Progress in Organic Coatings, 2020, 147: 105745. (IF: 6.206, JCR Q1) (WOS: 000568708300012)
24. X. Zhou, J.L. Mo, Y.Y. Li, Z.Y. Xiang, D. Yang, M.A. Masen, Z.M. Jin*. Effect of Finger Sliding Direction on Tactile Perception, Friction and Dynamics. Tribology Letters, 2020, 68: 85. (IF: 3.327, JCR Q2) (WOS: 000557908700001)
25. Y. Zhou, J.L. Mo, Z.B. Cai, C.G. Deng, J.F. Peng*, M.H. Zhu*. Third-body and crack behavior in white etching layer induced by sliding–rolling friction. Tribology International, 2019, 140: 105882. (IF: 5.62, JCR Q1) (WOS:000487565100048)
26. J.L. Liu*, H.J. Ouyang, Z.Q. Feng, Z.B. Cai, J.L. Mo, J.F. Peng, M.H. Zhu. Dynamic behaviour of a bolted joint subjected to torsional excitation. Tribology International, 2019, 140: 105877. (IF: 5.62, JCR Q1) (WOS:000487565100034)
27. C.L. Dong, J.L. Mo, C.Q. Yuan, X.Q. Bai, Y. Tian*. Vibration and noise behaviors during stick–slip friction. Tribology Letters, 2019, 67: 103. (IF: 3.327, JCR Q2) (WOS:000484448100001)
28. R.Y. Sun, J. Zhao*, Z. Li, J.L. Mo, Y.J Pan, D.B. Luo. Preparation of mechanically durable superhydrophobic aluminum surface by sandblasting and chemical modification. Progress in Organic Coatings, 2019, 133: 77-84. (IF: 6.206, JCR Q1) (WOS:000475998000009)
29. X. Zhang, J. Zhao*, J.L. Mo, R.Y. Sun, Z. Li, Z.G. Guo. Fabrication of superhydrophobic aluminum surface by droplet etching and chemical modification. Colloids and Surfaces A-Physicochemical and Engineering Aspects, 2019, 567: 205-212. (IF: 5.518, JCR Q2) (WOS:000459826400023)
30. Y. Zhou, J.F. Peng*, M.J. Wang, J.L. Mo, C.G. Deng, M.H. Zhu*. Tribochemical behavior of pure magnesium during sliding friction. Metals, 2019, 9: 311. (IF: 2.695, JCR Q3) (WOS:000464289600001)
31. X.Y. Liu, J.F. Peng*, D.Q. Tan, Z.B. Xu, J.H. Lia, J.L. Mo, M.H. Zhu. Failure analysis and optimization of integral droppers used in high-speed railway catenary system. Engineering Failure Analysis, 2018, 91: 496-506. (IF: 3.634, JCR Q2) (WOS:000434390500037)
32. W.H. Zhuang, X.Q. Fan*, W. Li, H. Li, L, Zhang, J.F. Peng, Z.B. Cai, J.L. Mo, G.G. Zhang, M.H. Zhu. Comparing space adaptability of diamond-like carbon and molybdenum disulfide films toward synergistic lubrication. Carbon, 2018, 134: 163-173. (IF: 11.307, JCR Q1) (WOS:000433244900019)
33. J. Luo, Z.B. Cai, J.L. Mo, J.F. Peng, M.H. Zhu*. Friction and wear properties of high-velocity oxygen fuel sprayed WC-17Co coating under rotational fretting conditions. Chinese Journal of Mechanical Engineering, 2016, 29(3): 515-521. (IF: 2.964, JCR Q2) (WOS:000375513300008)
34. 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. (IF: 2.333, JCR Q3) (WOS:000387246900008)
35. M.X. Shen, Z.B. Cai, J.L. Mo, X.D. Peng, M.H. Zhu. Local fatigue and wear behaviours of 7075 aluminium alloy induced by rotational fretting wear. International Journal of Surface Science and Engineering, 2015, 9(6): 520-537. (IF: 0.944, JCR Q4) (WOS:000366053600004)
36. J. Luo*, Z.B. Cai, J.L. Mo, J.F. Peng, M.H. Zhu. Torsional fretting wear behavior of bonded MoS2 solid lubricant coatings. Tribology Transactions, 2015, 58(6): 1124-1130. (IF: 2.056, JCR Q3) (WOS:000360666600016)
37. M.X. Shen, Z.B. Cai, J.F. Peng, C. Song, J.L. Mo, H.M. Shen, M.H. Zhu*. Dual-rotary fretting wear of 7075 alloy in media of oil and water. Wear, 2013, 301(1-2): 540-550. (IF: 4.695, JCR Q1) (WOS:000322555500071)
38. J. Yang, J.L. Mo, Z.B. Cai, X.B. Xiao, M.H. Zhu*. Identification between rotational fretting and rotational wear of PMMA/steel by means of tribo-noise and tribo-vibration signals. Tribology International, 2013, 59: 1-9. (IF: 5.62, JCR Q1) (WOS:000315243000001)
39. X.Z. Lin, M.H. Zhu*, J.L. Mo, G.X. Chen, X.S. Jin, Z.R. Zhou. Tribological and electric-arc behaviors of carbon/copper pair during sliding friction process with electric current applied. Transactions of Nonferrous Metals Society of China, 2011, 21(2): 292-299. (IF: 3.752, JCR Q1) (WOS:000288451200011)
40. J.F. Zheng, S. Yang, M.X. Shen, J.L. Mo, M.H. Zhu*. Study on rotational fretting wear under a ball-on-concave contact configuration. Wear, 2011, 271(9-10): 1552-1562. (IF: 4.695, JCR Q1) (WOS:000294590200045)
41. J. Luo, M.H. Zhu*, Y.D. Wang, J.F. Zheng, J.L. Mo. Study on rotational fretting wear of bonded MoS2 solid lubricant coating prepared on medium carbon steel. Tribology International, 2011, 44(11): 1565-1570. (IF: 5.62, JCR Q1) (WOS:000297485400040)
42. X.Z. Lin, M.H. Zhu, J.F. Zheng, J. Luo, J.L. Mo. Fretting wear of micro-arc oxidation coating prepared on Ti6Al4V alloy. Transactions of Nonferrous Metals Society of China, 2010, 20(4): 537-546. (IF: 3.752, JCR Q1) (WOS:000278013200001)
43. V. Clement, J.L. Mo, M.H. Zhu*, M.X. Shen, Z.R. Zhou. Research on the rotational fretting wear of Ti6Al4V alloy against Silicon Nitride. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology, 2010, 224: 1181-1187. (IF: 1.818, JCR Q3) (WOS:000283711600003)
44. J.F. Zheng, J. Luo, J.L. Mo, J.F. Peng, X.S. Jin, M.H. Zhu*. Fretting wear behaviors of a railway axle steel. Tribology International, 2010, 43(5-6): 906-911. (IF: 5.62, JCR Q1) (WOS:000276290000008)
§ 第一/通讯作者的中文论文
1. 樊翔翔, 项载毓, 孙瑞雪, 张敏, 莫继良*. 基于小波时频分析和Inception-BiGRU模型的盾构滚刀偏磨故障诊断[J]. 振动与冲击, 2023, (15): 232-240.
2. 江志伟, 王志伟, 楚明, 莫继良*, 赵婧. 考虑温度的高速列车轴箱轴承内部接触特性分析[J]. 重庆理工大学学报(自然科学), 2023, (08): 109-118.
3. 唐斌, 项载毓, 范志勇, 陈伟, 张棋翔, 吴道刚, 莫继良*. 沙粒介入高速列车制动界面对摩擦块摩擦磨损行为的影响[J/OL]. 摩擦学学报: 1-15 [2023-10-21]. DOI:10.16078/j.tribology.2023082.
4. 张蒙祺, 勾斌, 邓雨, 段文军, 莫继良*, 周仲荣. 新型TBM螺旋槽滚刀破岩性能及接触行为研究[J]. 机械工程学报, 2023, 59(05): 259-270.
5. 崔少杰, 王好平, 莫继良*, 蒙树立, 段文军, 冯鉴. 基于残余应力分布优化的TBM滚刀刀圈激光熔覆涂层制备工艺研究[J]. 表面技术, 2023, (08): 413-423.
6. 邓雨, 张蒙祺, 莫继良*, 周仲荣. 复合地层中不同刃形滚刀与岩石接触行为研究[J]. 表面技术,2023,(08):329-339.
7. 项载毓, 莫继良*, 朱松, 陈伟, 杜利清. 高速列车制动界面摩擦自激振动抑制及其能量收集. 机械工程学报, 2022. (已录用)
8. 王志伟, 张亮, 莫继良*, 王开云. 车轮多边形激励下高速列车制动界面摩擦学行为分析. 摩擦学学报: 1-19 [2022-08-03]. DOI: 10.16078/j.tribology.2022092.(在线发表)
9. 王好平, 张蒙祺, 莫继良*. 盾构/TBM滚刀刀圈性能强化研究现状. 材料导报, 2022, 36(07): 49-57.
10. MICHEALE YIHDEGO GEBREYOHANES, 莫继良*, 楚明, 张亮, 王志伟. 制动条件下高速列车轮轨动态响应特性分析. 重庆理工大学学报(自然科学): 1-8 [2022-08-03]. http://kns.cnki.net/kcms/detail/50.1205.T.20220524.1138.004.html. (在线发表)
11. 江泽鹏, 王志伟, 段文军, 江志伟, 莫继良*. 回转支承局部故障动力学建模及仿真分析. 重庆理工大学学报(自然科学): 1-10 [2022-08-03]. http://kns.cnki.net/kcms/detail/ 50.1205.T.20220303.2339.008.html. (在线发表)
12. 钱泓桦, 王东伟, 莫继良*. 阻尼参数对摩擦系统稳定性及粘滑运动特征的影响. 振动、测试与诊断, 2021, 41(05):1021-1027+1040.
13. 王安宇, 吴元科, 项载毓, 孙瑞雪, 莫继良*. 时变接触特性表面对界面摩擦学行为的影响. 摩擦学学报, 2022, 42(01): 104-112.
14. 陈伟, 项载毓, 钱泓桦, 莫继良*. 基于摩擦自激振动升频效应的超低频振动能量收集. 机械工程学报,2021, 57(15): 160-167.
15. 张蒙祺, 王一博, 章龙管, 段文军, 苏叶茂, 莫继良*, 周仲荣. 刃形对滚刀破岩性能影响的数值和实验研究. 西南交通大学学报: 1-8 [2022-08-03]. http://kns.cnki.net/kcms/detail/51.1277.u.20220629.1814.002.html. (在线发表)
16. 段文军,李贞,王好平, 莫继良*, 章龙管, 李建斌, 周仲荣. 盾构滚刀材料表面镍基碳化钨涂层摩擦学性能研究. 表面技术, 2021, 50(01): 313-321+365.
17. 项载毓, 范志勇, 刘启昂, 吴元科, 莫继良*,周仲荣. 高速列车制动闸片摩擦块形状对制动界面摩擦学行为的影响. 摩擦学学报, 2021, 41(01): 95-104.
18. 唐斌, 范志勇, 项载毓, 吴元科, 黄博, 莫继良*. 高速列车制动摩擦块切入端特征对制动界面特性的影响. 中国机械工程, 2021, 32(04): 412-419.
19. 黄博, 吴元科, 项载毓, 范志勇, 欧阳华江, 莫继良*, 制动界面初始温度对制动系统不稳定振动的影响. 重庆理工大学学报(自然科学), 2020, 已录用待发表.
20. 吴元科, 唐斌, 范志勇, 项载毓, 莫继良*. 摩擦块孔结构对高速列车制动振动噪声及热分布的影响. 振动、测试与诊断, 2020, 已录用待发表.
21. 黄博, 吴元科, 王润兰, 王晓翠, 欧阳华江, 莫继良*. 基于Stick-slip振动试验的Stribeck摩擦模型参数研究. 安徽工程大学学报, 2020, 35(2): 1-8.
22. 范志勇, 项载毓, 谭德强, 唐斌, 李贞, 莫继良*, 周仲荣. CRH380A型高速动车组制动闸片摩擦损伤分析. 摩擦学学报, 2020, 40(02): 185-194.
23. 全鑫, 莫继良*, 王安宇, 唐斌, 吴元科, 欧阳华江. 高速列车制动片摩擦块尺寸对制动噪声特性的影响. 润滑与密封, 2019, 44(09): 50-55.
24. 王安宇, 王东伟, 范志勇, 吴元科, 项载毓, 莫继良*. 表面沟槽与润滑剂协同作用对摩擦振动和噪声特性的影响. 表面技术, 2019, 48(8): 16-22.
25. 莫继良, 王东伟, 李建熹, 李贞, 朱旻昊, 周仲荣. 摩擦热对界面磨损及制动系统稳定性的影响. 上海交通大学学报, 2018, 52(05): 624-630.
26. 谭德强, 莫继良*,罗健,张琦,朱旻昊,周仲荣. 高速铁路接触网定位钩和定位支座失效分析. 中国铁道科学, 2018, 39(05): 111-118.
27. 刘铭倩, 王东伟, 李建熹, 朱章杨, 莫继良*. 带沟槽表面的制动盘界面摩擦磨损及振动噪声特性. 振动与冲击, 2018, 37(1): 236-239.
28. 王东伟, 莫继良*, 张琦, 朱章扬, 周仲荣. 沟槽表面填充材料对界面摩擦振动噪声的影响. 摩擦学学报,2017, 37(05): 647-655.
29. 李建熹, 莫继良*, 王东伟, 朱章杨, 盖小红, 陈光雄. 制动力对制动尖叫噪声及磨损特性的影响. 润滑与密封, 2017, 03: 49-53.
30. 顾华锋, 王阳, 张琦, 李建熹, 王东伟, 莫继良*. 重型汽车盘式制动器制动噪声试验及有限元分析. 重庆理工大学学报,2017,31(4): 27-33.
31. 朱章杨, 莫继良*, 王东伟, 李建熹, 陈光雄, 朱旻昊. 沟槽对界面振动及摩擦磨损特性的影响. 摩擦学学报,2017, 37: 551-557.
32. 朱章杨, 王东伟, 刘铭倩, 唐斌, 李建熹, 莫继良*. 沟槽型织构表面对界面摩擦学行为的作用机制. 润滑与密封, 2017, 42: 38-42.
33. 李科, 莫继良*, 罗健, 赵婧, 朱旻昊. 预应力下接触网腕臂结构动态特性研究. 铁道科学与工程学报, 2017, 06: 1294-1300.
34. 张猛, 莫继良*, 徐敬业, 周仲荣. 一种分析手指接触摩擦的新型试验装置. 摩擦学学报, 2016, 36(06): 776-780.
29. 胡利鸿, 莫继良*, 王东伟, 阳江舟, 陈光雄, 朱旻昊. 沟槽和圆坑织构抑制摩擦尖叫噪声研究. 中国机械工程, 2016, 27(09): 1158-1164.
30. 阳江舟, 莫继良*, 盖小红, 陈光雄, 朱旻昊. 制动盘材料表面织构化处理对摩擦噪声影响的试验分析. 摩擦学学报, 2015, 35(03): 322-327.
31. 盖小红, 莫继良*, 刘铭倩, 阳江舟, 陈光雄, 朱旻昊. 织构化表面处理抑制界面摩擦尖叫噪声. 中国表面工程, 2015, 28(03): 102-107.
32. 王晓翠, 莫继良*, 阳江舟, 胡利鸿, 陈光雄, 朱旻昊. 织构表面影响制动盘材料尖叫噪声的试验及有限元分析. 振动与冲击, 2015, 34(24): 182-187.
33. 莫继良. 织构化表面处理降低高速列车制动尖叫噪声的研究. 学术动态, 2014(03): 27-31.
34. 王东伟, 莫继良*, 陈光雄, 朱旻昊. 滑动摩擦振动噪声的非线性显式动力学分析. 中国机械工程, 2014, 10: 1395-1399.
35. 王安宇, 莫继良*, 盖小红, 陈光雄, 朱旻昊. 表面粗糙度对摩擦尖叫噪声特性的影响. 摩擦学学报,2014,04: 400-407.
36. 王正国,莫继良*,王安宇,陈光雄,朱旻昊. 沟槽型表面织构对界面摩擦振动噪声特性的影响. 振动与冲击, 2013, 32(23): 175-179.
37. 王东伟, 莫继良*,王 正国, 王晓翠, 陈光雄, 朱旻昊. 沟槽织构化表面影响摩擦振动噪声机理. 机械工程学报, 2013, 49(23): 112-116.
38. 王安宇, 莫继良*, 王正国, 阳江舟, 陈光雄, 朱旻昊. 喷砂表面处理控制滑动摩擦尖叫噪声. 中国表面工程, 2013, 26(04): 44-49.
39. 王正国, 莫继良*, 陈光雄, 朱旻昊. 沟槽型织构化表面摩擦噪声特性试验研究. 摩擦学学报, 2013, 33(03): 304-310.
40. 单欢乐, 莫继良*, 陈光雄, 邵天敏, 周仲荣. 沟槽形表面织构对摩擦噪声的影响. 中国机械工程, 2012, 23(18): 2233-2237.
41. 任元, 莫继良*, 朱旻昊, 周仲荣. AlCrN涂层转动微动摩擦学行为. 中国表面工程, 2011, 24(03): 33-37.
42. 莫继良, 任元, 朱旻昊. TiAlN涂层高速钢刀具的制备及钻削性能研究. 中国表面工程, 2010, 23(02): 26-29.
43. 莫继良, 朱旻昊, 廖正君, 姚崇跃, 周仲荣. 转动微动的模拟与试验研究. 中国机械工程, 2009, 20(06): 631-635.
44. 莫继良, 陈龙, 朱旻昊. WC/C固体润滑涂层的滑动摩擦磨损性能研究. 材料工程, 2008, 08: 13-16.
45. 莫继良, 朱旻昊. AlCrN涂层的滑动摩擦学特性研究. 中国表面工程, 2008, 03: 12-16.
46. 莫继良, 朱旻昊. 物理气相沉积法制备的CrN涂层的摩擦学性能. 西南交通大学学报, 2008, 02: 280-284.
§ 非第一/通讯作者的中文论文
1. 江志伟,王志伟*,莫继良,赵婧,江泽鹏,盾构主轴承径向滚子局部故障的接触与振动特性,机械设计与研究,2023. (已录用)
2. 楚明, 杨林川, 王志伟,* 江志伟, 王权, 莫继良. 曲线几何参数及制动工况对列车轴箱轴承动态特性影响研究[J/OL].机械工程学报: 1-12 [2023-10-21]. http://kns.cnki.net/kcms/detail/11.2187.TH.20231018.1105.018.html
3. 张亮, 王志伟*, 王权, 莫继良, 冯鉴, 王俊勇. 考虑车辆振动的高速列车制动系统动态响应[J]. 振动. 测试与诊断, 2023, (04): 800-808+835-836.
4. 鲁昌霖, 王志伟*, 王权, 莫继良. 考虑轮轨蠕滑的高速列车制动非线性振动行为研究[J]. 重庆理工大学学报(自然科学), 2023, (06): 10-19.
5. 胡怡先, 孙若愚, 赵婧*, 刘创, 莫继良. 用于水滴能量收集的叉指电极摩擦纳米发电机. 电子元件与材料, 2023, 42(06): 659-665.
6. 项载毓*, 莫继良, 贺德强, 朱松, 翟财周, 杜利清. 基于三明治阻尼结构的高速列车制动摩擦振动噪声抑制[J/OL]. 机械工程学报: 1-13[2023-04-21]. http://kns.cnki.net/kcms/detail/ 11.2187.TH.20230224.0920.002.html (在线发表)
7. 陈孝婷, 卢纯*, 莫继良, 张庆贺, 赵婧. 考虑摩擦升温的铁路列车制动摩擦块高温磨损机制演变[J]. 中国表面工程, 2023, (03): 142-151.
8. 张庆贺, 卢纯*, 吴元科, 赵婧, 莫继良. 基于接触压力分布和非均匀热流密度的列车制动盘热机耦合分析[J]. 机械工程学报, 2023, 59(03): 165-175.
9. 蒋鑫池, 卢纯*, 莫继良, 陈孝婷, 张庆贺, 赵婧. 考虑磨损率随温度变化的列车制动摩擦块高温磨损仿真分析[J/OL]. 机械工程学报: 1-8 [2023-04-21]. http://kns.cnki.net/kcms/detail/ 11.2187.TH.20230201.0951.019.html (在线发表)
10. 段文军, 张蒙祺*, 勾斌, 莫继良, 周仲荣. 刃形对硬岩地层中TBM滚刀磨损行为的影响研究. 摩擦学学报, 2023, 43(07): 738-749.
11. 王权, 王安宇*, 吴元科, 尹家宝, 项载毓, 莫继良. 基于界面调控的摩擦系统减振降噪方法. 振动与冲击, 2022, 41(15): 146-152.
11. 许文鑫, 张敏*, 莫继良, 胡若晖. 基于CBAM-CNN的高速列车制动闸片摩擦块偏磨状态监控. 摩擦学学报: 1-16 [2022-08-03]. DOI:10.16078/j.tribology.2021264. (在线发表)
12. 张亮, 王志伟*, 王权, 莫继良, 冯鉴, 王俊勇. 考虑车辆振动的高速列车制动系统动态响应. 振动、测试与诊断, 2021, (已录用).
13. 付强, 卢纯*, 莫继良. 考虑残余应力和制动工况的制动盘热机耦合仿真分析. 重庆理工大学学报(自然科学), 2022, 36(04): 120-130.
14. 勾斌, 段文军, 莫继良, 张蒙祺*. TBM滚刀刃形对刀-岩接触损伤行为影响机理研究. 重庆理工大学学报(自然科学): 1-12 [2022-08-03]. http://kns.cnki.net/kcms/detail/ 50.1205.t.20220303.2034.004.html. (在线发表)
15. 孙瑞雪, 段文军, 牟松, 王好平, 张蒙祺*, 莫继良. 盾构滚刀刀圈材料的冲滑复合磨损性能研究. 摩擦学学报, 2022, 42(02): 314-325.
16. 尹家宝, 卢纯*, 全鑫, 莫继良. 列车制动块磨损行为动态演变数值分析. 机械工程学报, 2021, 57(18): 204-213.
17. 范志勇, 项载毓, 莫继良, 钱泓桦, 陈伟, 周仲荣*. 摩擦粒子填充材料对高速列车闸片制动性能的影响. 摩擦学学报: 1-10 [2021-09-03]. http: //kns.cnki.net/kcms/detail/ 62.1095.o4.20210819.1207.005.html. (在线发表)
18. 王东伟*, 吴霄, 项载毓, 莫继良. 高速列车盘形制动系统热机耦合特性分析. 西南交通大学学报, 2021, 56(02): 428-436.
19. 胡华民, 李涛, 张挺, 刘建华*, 蔡振兵, 莫继良, 彭金方, 朱旻昊. 横向交变载荷下TiCN/MoS2涂层螺栓的防松性能研究. 摩擦学学报, 2020, 40: 569-578.
20. 蒋先国*, 古晓东, 邓洪, 张琦, 莫继良. 基于微动理论的整体吊弦损伤机理及优化研究. 铁道学报, 2019, 41(06): 40-45.
21. 罗健*, 莫继良, 韩凌青, 闫军芳, 张琦. 新型高速铁路接触网腕臂与定位装置研究. 铁道学报, 2018, 40(10): 36-42.
22. 谭德强, 莫继良, 彭金方, 罗健, 陈维荣, 朱旻昊*. 高速接触网零部件失效问题研究现状及展望. 西南交通大学学报, 2018, 53(03): 610-619.
23. 罗军*, 蔡振兵, 莫继良, 彭金方, 朱旻昊. 离子渗硫层在油润滑条件下的转动微动摩擦磨损性能. 润滑与密封, 2017, 42(07): 72-77.
24. 华彩虹*, 莫继良, 彭金方, 朱旻昊. 铁路货车车钩缓冲装置的磨损分析. 失效分析与预防, 2015, 10(04): 231-237.
25. 罗军*, 蔡振兵, 莫继良, 彭金方, 岳文, 朱旻昊. 离子渗氮/渗硫层转动微动摩擦学行为研究. 润滑与密封, 2015, 40(06): 19-24.
26. 罗军*, 蔡振兵, 莫继良, 彭金方, 朱旻昊. 超音速火焰喷涂WC-27CrNi涂层转动微动摩擦学行为. 材料热处理学报, 2015, 36(04): 210-214.
27. 黄盼盼*, 陈光雄, 莫继良. 基于瞬态分析法的轮盘制动系统摩擦自激振动研究. 润滑与密封, 2014, 39(08): 63-67.
28. 左孔成, 蔡振兵, 宋川, 彭金方, 莫继良, 沈火明, 朱旻昊*. 纤维取向对炭纤维织物复合材料扭动微动摩擦学性能的影响. 材料工程, 2014, 04: 79-84.
29. 陈光雄*, 钱韦吉, 莫继良, 朱旻昊. 轮轨摩擦自激振动引起小半径曲线钢轨波磨的瞬态动力学. 机械工程学报, 2014, 50(09): 71-76.
30. 杨莎, 蔡振兵, 沈明学, 肖新标, 莫继良, 朱旻昊*. 有机玻璃扭动微动磨损的实时观测与摩擦振动分析. 机械工程学报, 2013, 49(09): 69-74.
31. 肖祥龙, 陈光雄*, 莫继良, 朱旻昊. 摩擦调节剂抑制钢轨波磨的机理研究. 振动与冲击, 2013, 32(08): 166-170.
32. 沈明学*, 周琰, 宋川, 莫继良, 蔡振兵, 朱旻昊. 转动微动磨损条件下7075铝合金的局部疲劳行为研究. 航空材料学报, 2013, 33(02): 46-50.
33. 罗军, 王运动, 蔡振兵, 莫继良, 彭金方, 朱旻昊*. 粘结MoS2固体润滑涂层的转动微动磨损特性. 机械工程学报, 2012, 48(17): 100-105.
34. 罗军, 蔡振兵, 莫继良, 彭金方, 朱旻昊*. LZ50钢离子渗氮层的转动微动磨损行为. 材料热处理学报, 2012, 33(S1): 81-85.
35. 沈明学, 谢兴源, 蔡振兵, 莫继良, 朱旻昊*. 扭转复合微动模拟及其试验研究. 机械工程学报, 2011, 47(15): 89-94.
36. 沈明学, 彭金方, 郑健峰, 宋川, 莫继良, 朱旻昊*. 微动疲劳研究进展. 材料工程, 2010(12): 86-91.
37. 雷斌*, 莫继良, 朱旻昊. TiAlN涂层硬质合金刀具铣削35CrMoSiV钢的切削性能研究. 工具技术, 2010, 44(11): 15-18.
38. 王运动*, 罗军, 莫继良, 刘家浚, 朱旻昊. LZ50钢低温离子渗硫转动微动摩擦学性能研究. 中国表面工程, 2010, 23(04): 44-47.
39. 廖正君, 莫继良, 郑健峰, 杨皎, 周仲荣, 朱旻昊*. LZ50车轴钢转动微动摩擦学特性研究. 机械强度, 2010, 32(04): 566-569.
40. 杨皎, 莫继良, C. VERRIER, 郑健峰, 廖正君, 朱旻昊*. PMMA转动微动摩擦学行为的研究. 材料工程, 2010, 07: 1-5.
41. 罗军, 郑健峰, 莫继良, 何莉萍, 朱旻昊*. 钢表面多元共渗改性层的微动磨损行为研究. 中国表面工程, 2009, 22(02): 15-19.
42. 张爽, 钱林茂*, 莫继良. 氮化铬薄膜的径向纳动损伤机制研究. 摩擦学学报, 2008, (04): 316-321.
43. 雷斌*, 朱旻昊, 莫继良, 徐轶, 周仲荣. TiAlN涂层往复滑动的摩擦学性能研究. 润滑与密封, 2006, (06): 64-66+73.
44. 徐轶, 朱旻昊*, 莫继良, 雷斌, 周仲荣. 两种TiAlN涂层的往复滑动摩擦学性能研究. 中国表面工程, 2006, (02): 13-16+20.