[1] Cheng Y,Wang S C,Li S,et al. Static analysis of loader working device based on ANSYS Workbench[J]. Ship Electronic Engineering,2020,40(8):137−140 (程媛,王守城,李帅,等. 基于ANSYS Workbench的装载机工作装置静力学分析[J]. 舰船电子工程,2020,40(8):137−140(in chinese) Cheng Y, Wang S C, Li S, et al. Static analysis of loader working device based on ANSYS Workbench[J]. Ship Electronic Engineering, 2020, 40(8): 137-140
[2] He G,Wang Z Q,Zhu H B,et al. Static analysis of main and slave screws of three-screw pump based on ANSYS Workbench[J]. Coal Mine Machinery,2019,40(2):166−168 (何干,王兆强,朱华炳,等. 基于ANSYS Workbench的三螺杆泵主、从动螺杆静力学分析[J]. 煤矿机械,2019,40(2):166−168(in chinese) He G, Wang Z Q, Zhu H B, et al. Static analysis of main and slave screws of three-screw pump based on ANSYS Workbench[J]. Coal Mine Machinery, 2019, 40(2): 166-168
[3] Liu Y,Yang Q M,Shao C X,et al. Static analysis and optimization of cotton barrel replacement robot based on ANSYS Workbench[J]. Machine Tool & Hydraulics,2018,46(11):62−65+126 (刘燕,杨前明,邵长新,等. 基于ANSYS Workbench的棉桶更换机器人整机静力学分析与优化[J]. 机床与液压,2018,46(11):62−65+126(in chinese) Liu Y, Yang Q M, Shao C X, et al. Static analysis and optimization of cotton barrel replacement robot based on ANSYS Workbench[J]. Machine Tool&Hydraulics, 2018, 46(11): 62-65+126
[4] 孟伟娜. 往复泵泵盖成形工艺与数值模拟研究[D]. 贵州大学, 2017. Meng W N. Forming process and numerical simulation of reciprocating pump pump pover[D]. GuiZhou University, 2017
[5] Sun J T,Wang Q S,Wang G D,et al. Finite element analysis of temperature field and thermal deformation of rotor of variable pitch screw vacuum pump[J]. Chinese Journal of Vacuum Science and Technology,2017,37(8):791−795 (孙瑾亭,王庆生,王国栋,等. 变螺距螺杆真空泵转子温度场和热变形的有限元分析[J]. 真空科学与技术学报,2017,37(8):791−795(in chinese) Sun J T, Wang Q S, Wang G D, et al. Finite element analysis of temperature field and thermal deformation of rotor of variable pitch screw vacuum pump[J].Chinese Journal of Vacuum Science and Technology, 2017, 37(8): 791-795
[6] Wang H J,Huang S,Guan J,et al. Numerical analysis of mechanical properties of rotor in liquid-ring vacuum pump[J]. Vacuum,2010,47(1):15−18 (王宏君,黄思,管俊,等. 液环真空泵转子力学性能的数值分析[J]. 真空,2010,47(1):15−18(in chinese) [6] Wang H J, Huang S, Guan J, et al. Numerical analysis of mechanical properties of rotor in liquid-ring vacuum pump[J]. Vacuum, 2010, 47(1): 15-18
[7] He J R,Sun J M,Zhou S G. Optimization design and experimental research of pump body[J]. Coal Mine Machinery,2009,30(11):39−40 (何景润,孙晋明,周生刚. 泵体的优化设计与实验研究[J]. 煤矿机械,2009,30(11):39−40(in chinese) He J R, Sun J M, Zhou S G. Optimization design and experimental research of pump body[J]. Coal Mine Machinery, 2009, 30(11): 39-40
[8] Zhou J,Hou Z F. FEA analysis and optimization of pump body in ANSYS[J]. Coal Mine Machinery,2006,27(5):736−737 (周俊,侯支夫. 基于ANSYS泵体壁厚的优化设计[J]. 煤矿机械,2006,27(5):736−737(in chinese) Zhou J, Hou Z F. FEA analysis and optimization of pump body in ANSYS[J]. Coal Mine Machinery, 2006, 27(5): 736-737
[9] Cui B W,Wang H G. Bearing mechanism and strength analysis of vane-stator pair in single acting vane pump[J]. Machine Tool & Hydraulics,2018,46(20):113−115+83 (崔保卫,王会刚. 单作用叶片泵叶片-定子运动副承载机制及强度分析[J]. 机床与液压,2018,46(20):113−115+83(in chinese) Cui B W, Wang H G. Bearing mechanism and strength analysis of vane-stator pair in single acting vane pump[J]. Machine Tool&Hydraulics, 2018, 46(20): 113-115+83
[10] Rundo M,Nervegna N. Geometry assessment of variable displacement vane pumps[J]. Journal of Dynamic Systems Measurement & Control,2007,129(4):446−455