摘要
针对某螺纹插装阀,利用ANSYS Workbench的网格划分工具对某螺纹插装阀阀体进行网格划分,然后利用有限元求解器ANSYS Mechanical对该插装阀进行抗压强度计算,并对其隔磁环位置进行重点分析。分析结果表明,在螺纹插装阀的阀体壁厚为1.8 mm,压力载荷为35 MPa时,该螺纹插装阀阀体、导磁套及隔磁环的最大等效应力均未超过材料屈服强度,满足产品设计要求。该方法为螺纹插装阀的设计提供了理论依据。
For a screw-in cartridge valve,the mesh delineation tool within ANSYS Workbench is employed to discretize the cartridge valve body.Subsequently,ANSYS Mechanical,a finite element solver,is utilized to compute the compressive strength of the cartridge valve and analyze the positioning of its spacer ring.The results indicate that the maximum equivalent stress on the screw-in cartridge valve body,magnetic guide sleeve,and spacer ring does not exceed the material’s yield strength under a wall thickness of 1.8 mm and a pressure load of 35 MPa.This outcome satisfies the product design requirements and provides a theoretical foundation for the design of screw-in cartridge valves.
作者
曲春秋
丁超
张成刚
张克鹏
山松俊杰
刘传运
QU Chunqiu;DING Chao;ZHANG Chenggang;ZHANG Kepeng;SHANSONG Junjie;LIUChuanyun(Zhejiang Senstren Technology Co.,Ltd.,Zhuji 311814,China;Zhejiang DA Control Technology Co.,Ltd.,Zhuji 311835,China;College of Energy Engineering,Zhejiang University,Hangzhou 310027,China)
出处
《机械工程与自动化》
2025年第5期81-82,共2页
Mechanical Engineering & Automation
关键词
螺纹插装阀
ANSYS
抗压强度
screw-in cartridge valves
ANSYS
compressive strength
