代表性学术论文
[1]Zhang Leiyu, Yu Zhendong, Su Peng, Li Jianfeng and Ge Redong. Design of a Parallel Wrist Rehabilitation Robot and Analysis of Physiological Effect on Training[J]. IEEE/ASME Transactions on Mechatronics, 2023, 99(1): 1-14. (顶刊,SCI: Q1,IF=7.50)
[2]Zhang Leiyu, Ye Tuxian, Zhang Feiran, et al. Design and Dynamic Modelling of Chain Telescopic Robot[J]. Mechanism and Machine Theory, 2023, 181: 105204. (顶刊,SCI: Q1, IF=4.93)
[3]Zhang Leiyu, Chang Yawei, Zhang Feiran and Li Jianfeng. A Review on Combined Strategy of Non-invasive Brain Stimulation and Robotic Therapy[J]. Chinese Journal of Mechanical Engineering. 2024. (SCI: Q1, IF=3.9)
[4]Li Jianfeng, Li Shicai,Zhang Leiyu, et al. Position solution and kinematic interference analysis of a novel parallel hip-assistive mechanism[J]. Mechanism and Machine Theory, 2018, 120: 265-287.(顶刊,SCI: Q1, IF=4.93)
[5] Xiao Jingjing, Chen Jjialong, Li Mengqiong,Zhang Leiyu#. Design and Experiment of an Ultrasound-Assisted Corneal Trephination System[J]. Micromachines, 2023, 14(2): 438. (SCI: Q2, IF=3.52)
[6]Zhang Leiyu, Jiao Zhenxing, He Yandong, Su Peng#. Ergonomic design and performance evaluation of H-suit for human walking[J]. Micromachines, 2022, 13(6): 825. (SCI: Q2, IF=3.52)
[7] Su Peng, Wang Sikai,Zhang Leiyu#, et al. Screw Analysis, Modeling and Experiment on the Mechanics of Tibia Orthopedic with the Ilizarov External Fixator[J]. Micromachines, 2022, 13(6): 932. (SCI: Q2, IF=3.52)
[8]Zhang Leiyu, Gao Xiang, Li Jianfeng, et al. Ergonomics Design and Assistance Strategy of A-Suit[J]. Micromachines, 2022, 13(7): 1114. (SCI: Q2, IF=3.52)
[9] Su Peng, Zhang Yuelin,Zhang Leiyu#, et al. Design and Load Kinematics Analysis of Rollover Rehabilitation Mechanism Fitting Human Motion Curve[J]. Micromachines, 2022, 13(12): 2064. (SCI: Q2, IF=3.52)
[10] Huang Long, Liu Bei,Zhang Leiyu, Yin Lairong#. Equilibrium Conformation of a Novel Cable-Driven Snake-Arm Robot under External Loads[J]. Micromachines, 2022, 13(7): 1149. (SCI: Q2, IF=3.52)
[11] Su Peng, Lun Qinglong,Zhang Leiyu#, et al. Biomechanical changes on the typical sites of pressure ulcers in the process of turning over from supine position: Theoretical analysis, simulation, and experiment[J]. Annals of Biomedical Engineering, 2022, 50(6): 654-665. (SCI: Q2, IF=4.31)
[12]Li Jianfeng, Zuo Shiping,Zhang Leiyu#, et al. Mechanical design and performance analysis of a novel parallel robot for ankle rehabilitation[J]. Journal of Mechanisms and Robotics, 2020, 12(5): 051007.(SCI: Q2, IF=2.62)
[13]Li Jianfeng,Zhang Leiyu#, Dong Mingjie, et al. Velocity and force transfer performance analysis of a parallel hip assistive mechanism[J]. Robotica, 2020, 38(4): 747-759.(SCI: Q4, IF=2.41)
[14]Li Jianfeng, Zuo Shiping, Xu Chenghui,Zhang Leiyu#, et al. Influence of a compatible design on physical human-robot interaction force: a case study of a self-adapting lower-limb exoskeleton mechanism[J]. Journal of Intelligent & Robotic Systems, 2020, 98: 525-538.(SCI: Q3, IF=3.13)
[15]Zhang Leiyu, Li Jianfeng#, Cui Ying, et al. Design and performance analysis of a parallel wrist rehabilitation robot (PWRR)[J]. Robotics and Autonomous Systems, 2020, 125: 103390.(SCI: Q2, IF=4.13)
[16]Zhang Leiyu, Li Jianfeng#, Ji Shuting, et al. Design and human–machine compatibility analysis of Co-Exos II for upper-limb rehabilitation[J]. Assembly Automation, 2019, 39(4): 715-726.(SCI: Q3, IF=2.37)
[17]Zhang Leiyu, Li Jianfeng#, Su Peng, et al. Improvement of human–machine compatibility of upper-limb rehabilitation exoskeleton using passive joints[J]. Robotics and Autonomous Systems, 2019, 112: 22-31.(SCI: Q2, IF=4.13)
[18]Li Jianfeng#, Shen Bowen,Zhang Leiyu, et al. Kinematics and performance analysis of a serial hip assistive mechanism[J]. Advances in Mechanical Engineering, 2018, 10(4): 1687814018771762.(SCI: Q4, IF=1.57)
[19]Zhang Leiyu,Li Jianfeng#, Liu Junhui, et al. Design and kinematic analysis of Co-exoskeleton with passive translational joints for upper-limb rehabilitation[J]. International Journal of Humanoid Robotics, 2018, 15(05): 1850020.(SCI: Q4, IF=1.63)
[20]Zhang Leiyu,Yang Yang, Su Peng. Design and position precision analysis of helicoids pushing chain mechanism[J]. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 2016, 230(4): 583-591.(SCI: Q3, IF=1.76)
[21]Zhang Leiyu,Yang Yang. A numerical simulation on dynamic behavior of pushing chain mechanism[J]. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 2016, 230(11): 1902-1909.(SCI: Q3, IF=1.76)
[22]张雷雨,常雅威,俞振东,于洋,李剑锋,张斐然.并联腕康复机器人的设计与运动学性能评价[J].机械工程学报.2024.(EI)
[23]苏鹏,郭强,王思锴,王美淳,张雷雨#(通讯作者).基于分布计算的心电特征波检测算法研究[J].仪器仪表学报,2022,43(11):142-150.(EI)
[24]张雷雨,叶土仙,高翔等.踝助力外衣的研制与跖屈肌群肌电信号评价[J].机械工程学报,2023,59(17):67-78.(EI)
[25]张雷雨,贺彦东,李剑锋,等.下肢柔性助力外衣的工效学设计与步态预测[J].中南大学学报(自然科学版),2021,52(04):1171-1184.(EI)
[26]李剑锋,李国通,张雷雨#(通讯作者),等.穿戴式柔性下肢助力机器人发展现状及关键技术分析[J].自动化学报,2020,46(03):427-438. (EI)
[27]李剑锋,张凯,张雷雨#(通讯作者).并联踝康复机器人的设计与运动性能评价[J].机械工程学报. 2019, 55(9), 29-39. (EI)
[28]李剑锋,赵朋波,张雷雨#(通讯作者),等.一种新型自适应康复外骨骼机构及重力平衡优化[J].工程科学与技术,2018,50(05):263-270. (EI)
[29]李剑锋,刘钧辉,张雷雨#(通讯作者),等.PPRRRP和RRRPU肩关节康复外骨骼机构运动性能的分析比较[J].机器人,2018,40(04):500-509+517. (EI)
[30]张雷雨,李剑锋,刘钧辉,等.上肢康复外骨骼的设计与人机相容性分析[J].机械工程学报,2018,54(05):19-28. (EI)
[31]张雷雨,李剑锋,杨洋.装甲车辆用立式弹药舱的设计与动力学分析[J].兵工学报,2017,38(05):843-851.(EI)
[32]Zhang Leiyu, Yang Yang#, A Novel Linear Telescopic Mechanism: Configuration and Position Precision Analysis, Mechanisms and Machine Science, 2016, 36:1107~1117. (EI)
[33]张雷雨,杨洋#(通讯作者).弹药装填系统用蜗式推送链动力学分析[J].兵工学报,2015,36(11):2024-2031.(EI)
授权发明专利
[1]张雷雨,俞振东等.一种用于指尖陀螺装配的柔性腕关节[P].发明专利,专利号:ZL202110769977X,授权日期: 2022-07-19.
[2]张雷雨,贺彦东等.一种用于下肢助力的柔性功能外衣本体[P].发明专利,专利号:CN2020100910500,授权日期: 2021-08-13.
[3]张雷雨,贺彦东,李剑锋,等.一种真空静脉采血管的智能分类装置[P].发明专利,专利号:CN2019102469257,授权日期: 2021-5-28.
[4]张雷雨,李剑锋等.一种2-SPU/RR并联气动腕康复装置[P].发明专利,专利号:CN2018115013445,授权日期:2021-03-16.
[5]张雷雨,李剑锋,吴强,等.一种用于上肢康复外骨骼的重力平衡机构[p].发明专利,专利号:CN2017103325140,授权日期:2020-07-03.
[6]张雷雨,李剑锋,刘瑞,等.一种含摩擦轮驱动的伸缩式服务机器人[p].发明专利,专利号:CN2018107552699,授权日期:2020-07-03.
[7]张雷雨,李剑锋,等.一种用于康复外骨骼机构的旋内旋外关节[p].发明专利,专利号:CN201711444348X,授权日期:2020-02-07.
[8]张雷雨,李剑锋,吴强,等.一种用于上肢康复外骨骼机构的主被融合关节[p].发明专利,专利号:CN201710332562X,授权日期:2019-05-03.
[9]张雷雨,李剑锋,吴强,等.一种含被动滑动副的上肢康复外骨骼机构[p].发明专利,专利号:CN2017103325579,授权日期:2019-04-12.
[10]张雷雨,李剑锋等.一种可穿戴式下肢柔性助力外衣[P].发明专利,专利号:ZL2017105781434,授权日期: 2018-10-09.
[11]张雷雨,杨东升,等.一种用于井下探测的三点式提升装置[P].发明专利,专利号:ZL2016103329289,授权日期: 2018-06-01
[12]张雷雨,杨洋,张雅丽,等.一种循环链条输送装置[P].发明专利,专利号:ZL2015180014279,授权日期: 2018-02-02.
[13]张雷雨,杨洋,李大寨,等.一种立式弹药舱[P].发明专利,专利号:ZL2015180014283,授权日期: 2017-05-27.
[14]张雷雨,李剑锋,赵朋波,等.一种智能防盗花鼓[P].发明专利,专利号, ZL2016109668154,授权日期: 2017-03-22.
[15]张雷雨,李剑锋,刘钧辉,等.一种防盗花鼓[P].发明专利,专利号ZL2016109679407,授权日期: 2017-03-15.
[16]张雷雨,杨东升,周焕波,等.一种井下自动对中探测装置[P].发明专利,专利号:ZL2016204598803,授权日期: 2016-12-07.
[17]张雷雨,杨东升,周焕波,等.一种用于井下探测的提升装置[P].发明专利,专利号:ZL2016204580481,授权日期: 2016-12-07.
[18]张雷雨,杨洋,廖云峰,等.具有姿态矫正功能的抓手装置[P].发明专利,专利号:ZL2014100304825,授权日期: 2016-06-08.
[19]张雷雨,杨洋,苏鹏,等.一种直线伸缩装置[P].发明专利,专利号:ZL2014103340503,授权日期: 2016-05-18.
