代表性论文

 

  (1) 第一/通讯作者英文论文

  1. 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, Accepted, 2018.(IF:3.858)
  2. 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, Accepted, 2018.(IF: 2.903)
  3. 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.(IF: 2.531)
  4. 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, DOI: 10.1016/j.apsusc.2018.01.232.(IF: 3.387)
  5.  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, 2017, DOI: http://dx.doi.org/10.1016/j.wear.2017.11.013.(IF: 2.531)
  6.  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, 2017, DOI: 10.1016/j.triboint.2017.12.019.(IF: 2.903)
  7.  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, 2017, DOI: 10.1177/1350650117754002.(IF: 1.320)
  8.  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.(IF: 2.903)
  9.  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.(IF: 2.531)
  10.  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: 6.216)
  11.  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: 1.891)
  12.  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.(IF: 1.320)
  13.  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: 2.903)
  14.  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: 3.387)
  15.  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: 2.903)
  16.  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.(IF: 1.521)
  17.  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.(IF: 4.116)
  18.  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: 2.531)
  19.  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: 2.589)
  20.  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: 2.903)
  21.  J.L. Mo, M.H. Zhu*. Tribological investigation of WC/C coating under dry sliding conditions. Wear, 2011, 271: 1998-2005.(IF: 2.531)
  22.  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.(IF: 2.903)
  23.  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: 3.387)
  24.  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: 2.531)
  25.  J.L. Mo, M.H. Zhu*. Tribological Oxidation Behaviour of PVD Hard Coatings. Tribology International, 2009, 42: 1758-1764.(IF: 2.903)
  26.  J.L. Mo, M.H. Zhu*. Sliding Tribological Behavior of AlCrN Coating. Tribology International, 2008, 41: 1161-1168.(IF: 2.903)
  27.  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: 2.531)

 

  (2) 非第一/通讯作者的英文论文

  1.  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: 0.814)
  2.  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: 0.259)
  3.  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: 0.507)
  4.  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: 1.685)
  5.  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: 2.531)
  6.  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: 2.903)
  7.  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: 1.342)
  8.  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: 2.531)
  9.  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: 2.903)
  10.  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: 1.342)
  11.  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.(IF: 1.320)
  12.  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: 2.903)

 

  (3) 第一/通讯作者的中文论文

  1.  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.
  2.  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,2017.
  3.  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.
  4.  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.
  5.  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.
  6.  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.
  7.  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.
  8.  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.
  9.  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.
  10.  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.
  11.  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.
  12.  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.
  13.  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.
  14.  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.
  15.  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.
  16.  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.
  17.  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.
  18.  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.
  19.  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.
  20.  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.
  21.  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.
  22.  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.
  23.  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.
  24.  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.
  25.  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.
  26.  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.
  27.  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.

 

  (4) 非第一/通讯作者的中文论文

  1.  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.
  2.  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.
  3.  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.
  4.  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.
  5.  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.
  6.  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.
  7.  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.
  8.  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.
  9.  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.
  10.  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.
  11.  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.
  12.  罗军,王运动,蔡振兵,莫继良,彭金方,朱旻昊. 粘结MoS_2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.
  13.  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.
  14.  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.
  15.  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.
  16.  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.
  17.  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.
  18.  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.
  19.  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.
  20.  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.
  21.  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.
  22.  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.
  23.  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.

 

 代表性专利

 

  已授权专利:

  1. 莫继良,盖小红,罗大兵,黄清健,陈光雄,朱旻昊,周仲荣,高速列车制动盘的制动噪声试验台,2017.06.06,中国发明专利,CN201410798010.4.
  2. 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,2016.11.23,中国发明专利,201210506284.2.
  3. 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,中国发明专利,CN201410239617.9.
  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,中国发明专利,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,中国发明专利,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,中国发明专利,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,中国发明专利,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,中国发明专利,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,中国发明专利,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,中国发明专利,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,中国发明专利,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,中国发明专利,CN200710050696.9.

 

  申请中专利:

  1. 莫继良,王晓翠,赵婧,张琦,朱旻昊,周仲荣,一种摩擦定律研究试验装置,2017.04.20,中国发明专利,申请号:201710259978.3.
  2. 莫继良,王晓翠,张琦,唐斌,朱旻昊,周仲荣,一种粘滑运动试验装置,2017.04.20,中国发明专利,申请号:201710259977.9.
  3. 莫继良,徐敬业,张琦,王晓翠,朱旻昊,周仲荣,一种可调控水平方向磁场的磁环境摩擦学试验装置,2017.04.11,中国发明专利,申请号:201710230946.0.
  4. 赵婧,张琦,莫继良,王东伟,顾华峰,周仲荣,一种风力发电机偏航制动系统振动噪声试验台,2017.03.06,中国发明专利,申请号:201710127383.2.
  5. 朱旻昊,刘曦洋,彭金方,莫继良,蔡振兵,徐志彪,章武林,吕泽楷,金潇,一种精确控制铁路弓网系统吊弦压入量的压接装置,2016.11.30,中国发明专利,申请号:CN201611077161.6.
  6. 莫继良,张猛,徐敬业,王晓翠,朱旻昊,周仲荣,手指摩擦试验装置,2016.10.17,中国发明专利,申请号:CN201610903211.5.
  7. 朱旻昊,谭德强,莫继良,贺继樊,彭金方,蔡振兵,刘曦洋,罗健,一种冲滑复合摩擦磨损试验装置及其方法,2016.05.23,中国发明专利,申请号:CN201610347481.2.
  8. 朱旻昊,彭金方,万幸芝,蔡振兵,刘新龙,林映武,张晓宇,莫继良,章武林,刘曦洋,可原位进行X射线光电子能谱分析的微动磨损试验装置,2016.03.14,中国发明专利,申请号:CN201610141119.X.
  9. 朱旻昊,彭金方,徐志彪,刘建华,蔡振兵,莫继良,周琰,周俊波,一种扭转微动疲劳试验设备及试验方法,2016.01.14,中国发明专利,申请号:CN201610022388.4.
  10. 莫继良,王东伟,张琦,盖小红,陈光雄,朱旻昊,周仲荣,一种用于汽车盘式制动器的集屑装置,2015.12.22,中国发明专利,申请号:CN201510969976.4.
  11. 莫继良,张琦,卢小东,赵婧,王东伟,周仲荣,一种沟槽结构的橡胶减振阻尼垫片,2017.11.13,实用新型专利,申请号:201721504306.6.
  12. 莫继良,徐敬业,张琦,王晓翠,黄博,朱旻昊,周仲荣,一种研究水平方向磁场对摩擦界面振动噪声影响的试验装置,2017.11.13,实用新型专利,申请号:201721504051.3.
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