代表性论文

  1.  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, DOI: 10.1016/j.triboint.2017.02.031. 
  2.  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, 2017,10.1016/j.wear.2017.01.022.
  3.  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.
  4.  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.
  5.  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, 2017: DOI: 10.1177/1350650117705568.
  6.  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.
  7.  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.
  8.  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.
  9.  X.C. Wang, J.L. Mo*, H. 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, 2015, 138(2): 1-11.
  10.  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: 191-207.
  11.  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.
  12.  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.
  13.  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.
  14.  J.L. Mo, M.H. Zhu*. Tribological investigation of WC/C coating under dry sliding conditions. Wear, 2011, 271: 1998-2005.
  15.  J.L. Mo, M.H. Zhu*, J.F. Zheng, J. Luo, Z.R. Zhou. Study on Rotational Fretting Wear of 7075 Alumium Alloy. Tribology International, 2010, 43: 912-917.
  16.  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.
  17.  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.
  18.  J.L. Mo, M.H. Zhu*. Tribological Oxidation Behaviour of PVD Hard Coatings. Tribology International, 2009, 42: 1758-1764.
  19.  J.L. Mo, M.H. Zhu*. Sliding Tribological Behavior of AlCrN Coating. Tribology International, 2008, 41: 1161-1168.
  20.  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.
  21.  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. Proc. IMechE, Part J: J. Engineering Tribology, 2010, 224: 1181-1187.
  22.  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.

  23.  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.

  24.  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, 04: 551-557.

  25.  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影响机理. 润滑与密封,  2017.

  26.  李科,赵婧,莫继良(*),罗健,朱旻昊. 基于MATLAB和ABAQUS的接触网钢腕臂结构形状及尺寸优化. 铁道学报, 2017. 

  27.  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.

  28.  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.  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.

  34.  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.

 

 代表性专利

  1.  莫继良,王正国,王安宇,陈光雄,朱旻昊,周仲荣,一种可降低摩擦噪声的织构化表面的铸铁制动盘,2016.2.4-2035.11.1,中国,201210506284.2.
  2.  罗健,崔校玉,古晓东,莫继良,石心余,一种接触网吊弦预配平台, 2016.03.23,中国,CN201410239617.9.
  3.  莫继良,盖小红,罗大兵,黄清健,陈光雄,朱旻昊,周仲荣,一种高速列车制动盘的制动噪声试验装置,2015.5.6-2024.12.18,中国,CN201420814239.8.
  4.  陈光雄,钱韦吉,莫继良,周仲荣,朱旻昊,可抑制波磨的铁路小半径曲线轨道系统,2015.05.20,中国,CN201210571888.5.
  5.  莫继良,石心余,王正国,陈光雄,朱旻昊,周仲荣,一种摩擦噪声的试验分析方法及其试验装置,2013.10.16,中国,CN201210189588.0.
  6.  朱旻昊,蔡振兵,莫继良,彭金方,任平弟,周琰,周仲荣,石心余,一种试验环境可控的多向微动疲劳试验机及其试验方法,2013.3.12,中国,CN201210062350.1.
  7.  朱旻昊,沈明学,蔡振兵,彭金方,宋川,莫继良,周仲荣,一种火车轮轴旋转弯曲疲劳的比例试验装置,2012.7.11,中国CN201110065980.X.
  8.  朱旻昊,沈明学,莫继良,蔡振兵,彭金方,周仲荣,一种实施扭转复合微动摩擦磨损的试验方法及其试验装置,2012.06.13,中国CN201010279582.3.
  9.  朱旻昊,林修洲,蔡振兵,莫继良,任平弟,陈光雄,周仲荣,一种恒温扭动腐蚀磨损试验装置及其试验方法,2011.11.16,中国,CN200910059910.6.
  10.  朱旻昊,蔡振兵,周仲荣,莫继良,刘启跃,石心余,一种双向微动试验夹具及其双向微动试验方法,2010.12.29,中国,CN200910059909.3.
  11.  朱旻昊,莫继良,蔡振兵,周仲荣,石心余,一种转动微动摩擦磨损试验方法及其装置,2010.3.10,中国,CN200810045288.9.
  12.  朱旻昊,蔡振兵,莫继良,周仲荣,石心余,一种扭动微动摩擦磨损试验方法及其装置,2010.11.03,中国,CN200710050696.9.
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