英文期刊论文(近五年SCI收录) 1) Lin Jiahuan, Wang Yangwei, Duan Huawei, Zhang Jun*. Duan H, et al. A SWTM based aerodynamic testing apparatus for offshore floating wind turbines [J]. Journal of Marine Engineering and Technology, 2023. 2) Wang Jian, Zhang Jun*. Assessment of Residual Useful Life of Sun Gear in a Planetary Gearbox Based on Dynamic Wear Behaviors Analyses[J]. Machines, 2023, 11(2): 149. 3) Jiang, Shujia, Chi Changcheng, Fang Hanliang, Tang Tengfei, Zhang Jun*. A minimal-error-model based two-step kinematic calibration methodology for redundantly actuated parallel manipulators: An application to a 3-DOF spindle head[J]. Mechanism and Machine Theory, 2022. 167. 4) Tang Tengfei, Chi Changcheng, Fang Hanliang, Zhang Jun*. Geometric Error Propagation Model-Based Accuracy Synthesis and Its Application to a 1T2R Parallel Manipulator[J]. Journal of Mechanical Design, 2022, 144(7): 073304. 5) Tang Weimin, Huang Yinkun, Wu Yihuang, Yao Ligang, Pan Ling, Zhang Jun*. Geometry design, meshing analysis and error influences of face-hobbed cycloidal bevel gears with double circular-arc profile for a nutation drive[J]. Mechanism and Machine Theory, 2022, 176: 105001. 6) Wang Yangwei, Lin Jiahuan, Zhang Jun*. Investigation of a new analytical wake prediction method for offshore floating wind turbines considering an accurate incoming wind flow[J]. Renewable Energy, 2022, 185: 827-849. 7) Lin Jiahuan, Duan Huawei, Xu Baoming, Wang yangwei, Zhang Jun*. Equivalent Aerodynamic Design of Blade for Offshore Floating Wind Turbine Model[J]. Journal of Marine Science and Engineering, 2022, 10(2): 132. 8) Fang Hanliang, Tang Tengfei, He Zhen, Liu Yuanchang, Zhang Jun*. A novel hybrid machine tool integrating a symmetrical redundantly actuated parallel mechanism: Design, kinematics, prototype and experiment[J]. Mechanism and Machine Theory, 2022, 176: 105013. 9) He Zhen, Fang Hanliang, Bao Yufei, Yang fufu, Zhang Jun*. Smooth toolpath interpolation for a 5-axis hybrid machine tool[J]. Robotica, 2022: 1-24. 10) Fang Hanliang, Tang Tengfei, He Zhen, Zhang Jun*. Evaluation on redundancy-induced rigidity enhancement of a parallel manipulator[J]. Journal of Mechanisms and Robotics, 2022, 15(4): 041009. 11) Xu Baoming, Shi Jiancong, Zhong Min, Zhang Jun*. Incipient fault diagnosis of planetary gearboxes based on an adaptive parameter-induced stochastic resonance method[J]. Applied Acoustics, 2022, 188(5):108587. 12) Wang Xinglong, Zheng Jinde, Zhang Jun*. A novel optimal demodulation frequency band extraction method of fault bearing based on power spectrum screening combination-gram[J]. Mechanical Systems and Signal Processing, 2022, 174: 109104. 13) Wang Xinglong, Shi Jiancong, Zhang Jun*. A power information guided-variational mode decomposition (PIVMD) and its application to fault diagnosis of rolling bearing[J]. Digital Signal Processing, 2022: 103814. 14) Wang Xinglong, Zheng Jinde, Zhang Jun*. Median line-gram and its application in the fault diagnosis of rolling bearing[J]. Measurement Science and Technology, 2022, 33(6): 065011. 15) Tang Tengfei, Fang Hanliang, Song Yaqing, Zhang Jun*. Type synthesis, unified kinematic analysis and prototype validation of a family of Exechon inspired parallel mechanisms for 5-axis hybrid kinematic machine tools[J]. Robotics and Computer-Integrated Manufacturing, 2021. 72. 16) Tang Tengfei, Song Yaqing, Fang Hanliang, Zhang Jun*. Chebyshev inclusion function based interval kinetostatic modeling and parameter sensitivity analysis for Exechon-like parallel kinematic machines with parameter uncertainties[J]. Mechanism and Machine Theory, 2021. 157. 17) Zhang Jianqun. Xu Baoming, Wang Zhenya, Zhang Jun*. An FSK-MBCNN based method for compound fault diagnosis in wind turbine gearboxes[J]. Measurement, 2021. 172. 18) Wang Jian, Zhang Jun*. Effects of random interval parameters on spur gear vibration[J]. Journal of Vibration and Control, 2021. 27(19-20): 2332-2344. 19) Wang Yangwei, Lin Jiahuan, Duan Huawei, Zhang Jun*. Investigation on Thrust Characteristics of a Downstream Offshore Floating Wind Turbine under Yawed Inflow Conditions[J]. Journal of Marine Science and Engineering, 2021, 9(11): 1215. 20) Zhang Jianqun, Zhang Jun*, Zhong Min, et al. A GOA-MSVM based strategy to achieve high fault identification accuracy for rotating machinery under different load conditions[J]. Measurement, 2020. 163. 21) Tang Tengfei, Fang Hanliang, Zhang Jun*, et al. Hierarchical design, laboratory prototype fabrication and machining tests of a novel 5-axis hybrid serial-parallel kinematic machine tool[J]. Robotics and Computer-integrated Manufacturing, 2020, 64: 101944. 22) Zhang Jun*, Tang Weimin, Chen Qin, et al. Reliability sensitivity analysis of tooth modification on dynamic transmission error of helical planetary gears[J] Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 2020, 1-16. 23) Zhang Jianqun, Zhong Min, Zhang Jun*. Detection for Weak Fault in Planetary Gear Trains Based on an Improved Maximum Correlation Kurtosis Deconvolution[J] Measurement Science and Technology, 2020, 31 (2): 25101. 24) Fang Hanliang, Tang Tengfei, Zhang Jun*, et al. Kinematic analysis and comparison of a 2R1T redundantly actuated parallel manipulator and its non-redundantly actuated forms[J]. Mechanism and Machine Theory, 2019, 142: 103587. 25) Tang Tengfei, Zhang Jun*. Conceptual design and kinetostatic analysis of a modular parallel kinematic machine-based hybrid machine tool for large aeronautic components. Robotics and Computer-Integrated Manufacturing, 2019, 57: 1-16. 26) Zhang, Jun*, Zhang Jianqun, Zhong Min, et al. Detection for Incipient Damages of Wind Turbine Rolling Bearing Based on VMD-AMCKD Method[J]. IEEE Access, 2019, 7: 67944–59. 27) Wang Jian, Zhang Jun*. Dynamic Modeling and Analysis of a Star-wheel Reducer[J]. Forschung Im Ingenieurwesen-engineering Research, 2019, 83(3): 491-507. 28) Liu Xianzeng, Yang Yuhu, Zhang Jun*, et al. Resultant vibration signal model based fault diagnosis of a single stage planetary gear train with an incipient tooth crack on the sun gear[J]. Renewable Energy, 2018: 65-79. 中文期刊论文(近五年EI收录) 1) 张俊*,鲍雨菲,方汉良等.新型5轴混联加工单元的后置处理算法[J].机械工程学报,2023,59(01):298-308. 2) 施健聪,王兴龙,张俊*.基于双重注意力机制的异步电机故障诊断方法[J].振动与冲击, 2023 3) 张俊*,蒋舒佳,池长城.2UPR&2RPS型冗余驱动并联机器人的运动学标定[J].机械工程学报,2021,57(15):62-70. 4) 张俊*,池长城,蒋舒佳.2UPR-RPS型并联机构精度设计[J].农业机械学报,2021,52(07):411-420. 5) 张俊*,张建群, 钟敏等.基于pso-vmd-mckd方法的风机轴承微弱故障诊断[J].振动测试与诊断, 2020, 40(2): 287-297. 6) 张俊*,池长城,汤腾飞等.五自由度混联3D打印机设计与运动学分析[J].中南大学学报(自然科学版),2020,51(10):2822-2833. 7) 汤伟民,林嘉欢,张俊*.基于统计能量法的客滚船舱室降噪设计[J].中国造船,2020,61(04):209-222. 8) 张俊*,许涛,方汉良等.一类6自由度Delta型机器人运动学分析[J].农业机械学报, 2020, 51(03):419-426. 9) 张俊*,钟敏,张建群等.集成TEO解调和随机共振的行星齿轮箱早期故障诊断方法[J].振动工程学报, 2019, 32(06):1084-1093. 10) 张俊*,陈涛,汪建.基于最小动态传动误差波动量的斜齿行星轮系齿轮修形研究[J].振动与冲击, 2019, 38(19):77-88. 11) 张俊*,汤腾飞,方汉良.面向大型航空结构件的混联柔性制造系统概念设计与性能评估[J].西安交通大学学报, 2019, 53(01):7-16. 12) 张俊*,李习科,汪建等.含齿根早期裂纹损伤的行星齿轮箱故障机理研究[J].天津大学学报(自然科学与工程技术版), 2019,52(11):1117-1128. 13) 汤腾飞,方汉良,张俊*.类Exechon并联机构模块可重构概念设计与运动学分析[J].天津大学学报(自然科学与工程技术版), 2019, 52(07):69-80. 14) 姚立纲,廖志炜,卢宗兴,张俊*.踝关节章动式康复运动轨迹规划[J].机械工程学报, 2018, 54(21): 47-54. 15) 汪建,张俊*.轮齿修形对斜齿轮传递误差影响的比较性分析,振动与冲击[J]. 2018, 37(2): 254-260. 专利 1) 铝合金薄壁件铣削过程的有限元仿真方法, ZL202010598132.4, 2022. 2) 含过约束冗余驱动的三自由度并联式主轴头, ZL202120730224.3, 2022. 3) 一种用于工业机器人关节的单级章动减速器, ZL202123416661.7, 2022. 4) 一种基于章动传动的大扭矩电动扳手, ZL202123403226.0, 2022. 5) 一种基于LMS的自由模态测试实验装置, ZL202221658804.7, 2022. 6) 一种用于新能源汽车的轮边章动减速器, ZL202221739821.3, 2022. 7) 谱峭度结合卷积神经网络的风机齿轮箱复合故障诊断方法, ZL201910880463.4, 2021. 8) 满足刚度和质量相似的大比例浮式风机缩比塔架, ZL202022422339.4, 2021. 9) 基于GOA-ASR的行星齿轮箱早期故障诊断方法, ZL201910053760.1, 2021. 10) 五轴动梁龙门立式铣床多位姿有限元建模方法, ZL201910908032.4, 2020. 11) 立式混联雕刻机, ZL202020734339.5, 2020. 12) 含过约束少自由度并联模块的混联机床, ZL201922126257.2, 2020. 13) 一种空间六自由度并联机构, ZL201921629860.6, 2020. 14) 一种五自由度混联3D打印机, ZL201920865479.3, 2020. 15) 风力发电机叶轮不平衡补偿装置, ZL201920594098.6, 2020. 16) 一种可调风轮仰角机构, ZL201922073889.7, 2020. 17) 一种针对箱体类零件的模态分析有限元网格密度优选方法及系统, ZL201910888775.X, 2019. 18) 基于GS-SVM的不同工况下轴承损伤程度诊断方法, ZL201910053693.3, 2019. 19) 小型并联式精雕机, ZL201920459169.1, 2019. 20) 基于TEO解调和随机共振的行星齿轮箱早期故障诊断方法, ZL201810619712.X, 2019. 21) 一种基于VMD-AMCKD的行星齿轮箱早期故障诊断方法, ZL201810762387.2, 2019. 22) 含冗余约束的空间五自由度混联加工装备, ZL201820974253.2, 2019. 23) 简易停车装置, ZL201821013421.8, 2019. 24) 一种空间两转动一平动的冗余约束并联机构, ZL201821027965.X, 2019. 25) 一种空间三自由度冗余驱动并联机构, ZL201821758845.7, 2019. 26) 一种湿纸巾折叠机, ZL201821988601.8, 2019. 27) 模块化仿生机械臂, ZL201820441216.5, 2018. 28) 一种2R1T三自由度冗余驱动并联机构及其工作方法, ZL201721700818.X, 2018. 29) 2R1T三自由度过约束并联机构, ZL2017209416488, 2018. 30) 含双动平台的对称式冗余驱动并联操作头, CN113119072A, 2021. 31) 基于MPC的五轴动梁龙门立式铣床多位姿有限元建模方法, CN111581745A, 2020. 32) 一种海上漂浮式风机波浪环境模拟平台装置及其工作方法, CN110513253A, 2019. 33) 电磁式风力发电机叶轮不平衡补偿装置及方法, CN109989878A, 2019. 34) 一种低运动质量的空间三自由度并联机构及使用方法, CN109108950A, 2019. 35) 一种用于加工筒状零部件五轴混联机床, CN201811267281.1, 2019. 36) 2R1T三自由度过约束并联机构及其工作方法, CN107263451A, 2017. |
