Patents & Publications

 

  • 主要学术论文
 

[1]       Jun Yang*, Ben Q. Li, Rongheng Li, Xuesong Mei. Quantum 3D thermal imaging at the micro-nanoscale [J]. Nanoscale, 2019, 11(5): 2249 - 2263. (SCI源刊,IF=7.713JCR-1)

[2]       Jun Yang*, Zheng Ling, Ben Q. Li, Rongheng Li, Xuesong Mei. Nanoscale 3D temperature gradient measurement based on fluorescence spectral characteristics of the CdTe quantum dot probe [J]. Optics Express, 2019, 27(5): 6770-6791. (SCI源刊,IF=3.372JCR-1)

[3]       Jun Yang*, Zheng Ling, Rongheng Li, Xuesong Mei. Three-dimensional Localization at the Nanometer Scale and Thermal sensing of Living Cells [J]. Journal of Physics D: Applied Physics, 2019, DOI:10.1088/1361-6463/ab284f. (SCI源刊, IF=2.707JCR-2)

[4]       Jun Yang, Hu Shi, Bin Feng, et al. Thermal Error Modeling and Compensation for a High-Speed Motorized Spindle [J]. International Journal of Advanced Manufacturing Technology, 2015, 77(5-8): 1005-1017.  (SCI源刊,IF=2.748JCR-2)

[5]       Jun Yang, Dongsheng Zhang, Xuesong Mei, et al. Thermal Error Simulation and Compensation in a Jig-boring Machine Equipped with a Dual-Drive Servo Feed System [J]. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 2015, 229(1): 43-63.  (SCI检索号: 000352579400004IF=1.587JCR-3)

[6]       Jun Yang, Xuesong Mei, Liang Zhao, et al. Thermal Error Compensation on a Computer Numerical Control Machine Tool Considering Thermal Tilt Angles and Cutting Tool Length [J]. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 2015, 229(1): 78-97.  (SCI检索号: 000352579400006IF=1.587JCR-3)  

[7]       Jun Yang, Xuesong Mei, Bin Feng, et al. Experiments and Simulation of Thermal Behaviors of the Dual-Drive Servo Feed System [J]. Chinese Journal of Mechanical Engineering, 2015, 28(1): 76-87.   (SCI检索号: 000347667200009IF=0.814JCR-3) 

[8]       Jun Yang, Dongsheng Zhang, Bin Feng, et al. Thermal-Induced Errors Prediction and Compensation for a Coordinate Boring Machine Based on Time Series Analysis [J]. Mathematical Problems in Engineering, vol. 2014, Article ID 784218, 13 pages. (SCI检索号: 000342947600001, IF=1.38JCR-2) 

[9]       Jun Yang, Hu Shi, Bin Feng, et al. Applying Neural Network based on fuzzy cluster pre-processing to thermal error modeling for Coordinate Boring Machine [J]. Procedia CIRP, Proceedings of the 47th CIRP Conference on Manufacturing Systems. Windsor, Ontario, Canada, April, 2014, 17:698–703.  (EI检索号: 20143017985077)

[10]    杨军,梅雪松,冯斌等. 时序分析在电主轴热误差建模中的应用 [J]. 计算机集成制造系统,201521(5)1359-1367.  (EI源刊)   

[11]    杨军,梅雪松,赵亮等. 基于模糊聚类测点优化与向量机的坐标镗床热误差建模 [J]. 上海交通大学学报,201448(8)1175-1182.  (EI检索号: 20144100087443)

[12]    杨军,施虎,梅雪松等. 双驱伺服进给系统热误差的试验测量与预测模型构建 [J]. 西安交通大学学报,201347(11)53-59.  (EI检索号: 20140117166723)

[13]    朱星星,赵亮,雷默涵,王帅,凌正,杨军*,梅雪松. 精密进给系统热误差的协同训练支持向量机回归建模与补偿方法研究 [J]. 西安交通大学学报,2019.

[14]    Xiaoyong Huang, Xuesong Mei, Tao Tao, Lu Zheng, Dongsheng Zhang, Jun Yang, Xun Liu. Analysis of friction error in CNC machine tools based on electromechanical characteristics [J]. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 2019, DOI: 10.1177/0954406219840674.

[15]    Mohan Lei, Gedong Jiang, Jun Yang*, Xuesong Mei, Ping Xia, Hu Shi. Improvement of the regression model for spindle thermal elongation by a Boosting based outliers detection approach [J]. International Journal of Advanced Manufacturing Technology, 2018, 99(5-8): 1389-1403. (SCI源刊,IF=2.748JCR-2)

[16]    Chi Ma, Jun Yang, Xuesong Mei, Liang Zhao, Hu Shi, Dongsheng Zhang. Dynamic Thermal-Structure Coupling Analysis and Experimental Study on Ball Screw Feed Drive System of Precision Machine Tools[C]//Applied Mechanics and Materials. Trans Tech Publications, 2017, 868: 124-135.  (EI源刊)

[17]    Chi Ma, Liang Zhao, Xuesong Mei, Hu Shi, Jun Yang*. Thermal error compensation of high-speed spindle system based on a modified BP neural network [J]. International Journal of Advanced Manufacturing Technology, 2017, 89(9-12): 3071-3085. (SCI源刊,IF=2.748JCR-2)

[18]    Mohan Lei, Gedong Jiang, Jun Yang*, Xuesong Mei, Ping Xia, Liang Zhao. Thermal error modeling with dirty and small training sample for the motorized spindle of a precision boring machine [J]. International Journal of Advanced Manufacturing Technology, 2017, 93(1-4): 571–586.  (SCI源刊,IF=2.748JCR-2)

[19]    Chi MaLiang Zhao, Hu Shi, Xuesong Mei, Jun Yang. Experimental and simulation study on the thermal characteristics of the high-speed spindle system [J]. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 2017, 231(6): 1072-1093.   (SCI源刊)

[20]    Chi Ma, Liang Zhao, Xuesong Mei, Hu Shi, Jun Yang*. Thermal error compensation based on genetic algorithm and artificial neural network of the shaft in the high-speed spindle system [J]. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 2017, 231(5): 753-767.  (SCI源刊)

[21]    雷默涵,姜歌东,梅雪松,马驰,杨军. 高速球轴承微接触弹流摩擦及生热分析[J]. 西安交通大学学报,201650(4)81-88.  (EI源刊)

[22]    Hu Shi, Dongsheng Zhang, Jun Yang, Chi Ma, Xuesong Mei, Guofang Gong. Experiment-based thermal error modeling method for dual ball screw feed system of precision machine tool [J]. International Journal of Advanced Manufacturing Technology, 2016, 82(9-12):1693-1705.

[23]    Chi MaLiang Zhao, Hu Shi, Xuesong Mei, Jun Yang*. Thermal Error Modeling Based on Genetic Algorithm and BP Neural Network of High-Speed Spindle System [C]//ASME 2015 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2016: V02AT02A055.  (EI源刊)

[24]    Chi Ma, Liang Zhao, Hu Shi, Xuesong Mei, Jun Yang*. A geometrical–mechanical–thermal predictive model for thermal contact conductance in vacuum environment [J]. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 2016, 230(8): 1451-1464.   (SCI源刊)

[25]    马驰, 赵亮, 梅雪松, 施虎, 杨军*. 基于粒子群算法与 BP 网络的机床主轴热误差建模 [J]. 上海交通大学学报, 2016, 50(5): 686-695.EI源刊

[26]    孙志超, 侯瑞生, 陶涛, 杨军*. 数控车床综合热误差建模及工程应用[J]. 哈尔滨工业大学学报,201648(1)107-113.  (EI源刊)

[27]    Hu Shi, Jun Yang, Xuesong Mei, Guofang Gong. Coordination control for parallel actuation of hydraulic power assisted ball screw drive system [C]. Proceedings of 2015 IEEE Advanced Information Technology, Electronic and Automation Control Conference, 2015, 1010-1014.

[28]    Hu Shi, Chi Ma, Jun Yang, Liang Zhao, Xuesong Mei. Investigation into effect of thermal expansion on thermally induced error of ball screw feed drive system of precision machine tools [J]. International Journal of Machine Tools and Manufacture, 2015, 97: 60-71.  (SCI源刊,IF=5.002JCR-1)

[29]    Bin Feng, Dong Sheng Zhang, Jun Yang, Xuesong Mei. A Novel Time-Varying Friction Compensation Method for Servomechanism [J]. Mathematical Problems in Engineering, 2015.  (SCI源刊)

[30]    Chi Ma, Xuesong Mei, Jun Yang, et al. Thermal characteristics analysis and experimental study on the high-speed spindle system [J]. The International Journal of Advanced Manufacturing Technology, 2015, 79(1-4): 469-489.  (SCI源刊,IF=2.748JCR-2)

[31]    Chi Ma, Jun Yang, Liang Zhao, Xuesong Mei, et al. Simulation and experimental study on the thermally induced deformations of high-speed spindle system [J]. Applied Thermal Engineering, 2015, 86(7): 251-268.  (SCI源刊)

[32]    马驰,杨军*,赵亮,梅雪松,施虎,王新孟. 高速主轴系统热特性分析与实验 [J], 浙江大学学报,2015 49(11)2092-2102.  (EI源刊)

[33]    马驰,杨军*,梅雪松等. 基于分形理论及蒙特卡罗法的电主轴热特性分析 [J]. 上海交通大学学报,201549(9)1324-1331.  (EI源刊)

[34]    马驰,杨军,梅雪松,赵亮, 王新孟. 基于遗传算法及BP 网络的主轴热误差建模 [J]. 计算机集成制造系统201521(10) 2627-2636.  (EI源刊)

[35]    孙志超,陶涛,杨军*. 车床主轴与进给轴耦合热误差建模及补偿研究[J]. 西安交通大学学报,201549(7)105-112.  (EI源刊)

[36]    王新孟,杨军*,梅雪松等. 精密坐标镗床进给系统热误差分析与预测 [J]. 西安交通大学学报,201549(10)22-28.  (EI源刊)

[37]    Bin Feng, Jun Yang, Dongsheng Zhang, Jiangong Ren. Control parameters optimization for servo feed system using an improved genetic algorithm [C]. The 11th World Congress on Intelligent Control and Automation, 2014, 4865 - 4870.   (EI源刊)

[38]    Bin Feng, Dongsheng Zhang, Jun Yang, Jiangong RenXuesong Mei. Control parameters auto-tuning for bi-axial servo feed system [C]. Variety Management in Manufacturing. Proceedings of the 47th CIRP Conference on Manufacturing, 2014, 17: 841-846.  (EI源刊)

[39]    冯斌,梅雪松,杨军,牟恩旭. 摩擦补偿脉冲特征参数的自适应配置方法研究[J].上海交通大学学报,201448(5)713-718.  (EI源刊)

[40]    冯斌,梅雪松,杨军,牟恩旭. 数控机床摩擦误差自适应补偿方法研究[J].西安交通大学学报,201347(11)65-69.  (EI源刊)

[41]    施虎,梅雪松,杨军. 数控机床电主轴热敏感特性分析及试验研究 [J]. 华中科技大学学报,2012S(2)26-30. (EI源刊)

 

  • 发明专利

 [1]       一种数控切纸机远程监控与故障诊断系统及其实现方法.西安交通大学,授权号:ZL200910022998.4.

 

[2]       一种基于华中八型数控机床热误差补偿仪器及其补偿方法.西安交通大学,受理号:CN201510256976

 

[3]       一种用于人体行走能量回收的液压能量转化机构.西安交通大学,申请号:201610116331.0

 

[4]       一种采用多联泵驱动的闭式节能型盾构推进液压系统.西安交通大学,受理号:CN201410350773

 

                                                                                                                      

 

 

  • 软件著作权

[1]       数控机床主轴热误差温度热偏移采集及优化系统软件[P].计算机软件著作权,西安交通大学,授权号:2010SR069780.

 

[2]       数控切纸机远程监控与故障诊断系统软件[P].计算机软件著作权,西安交通大学,授权号:2009SR039644.

 

[3]       进给系统热边界条件计算软件[P].计算机软件著作权,西安交通大学,授权号:2016SR204726.

 

[4]       Creo参数化建模软件平台[P].计算机软件著作权,西安交通大学,授权号:2016SR205920.

 

[5]       主轴热边界条件计算软件[P].计算机软件著作权,西安交通大学,授权号:2016SR205916.

 

[6]       精密坐标镗床热平衡设计软件[P].计算机软件著作权,西安交通大学,授权号:2016SR204602.