Analysis of Piston Rod Jumping Fault based on ANSYS Workbench
WEN Hao1**, WANG Haibo 1*, LI Zhifeng 2***, LI Pengtao 2**, LIU Chunjie1** ,WANG Ronglin 1**
1 School of Mechanical and Electrical Engineering, Jilin Institute of Chemical Technology, Jilin City 132022,China
2 School of Information and Control Engineering, Jilin Institute of Chemical Technology, Jilin City, 132022,China;
Abstract: By establishing a crank-connecting rod mechanism fault model and a cylinder pressure model, the friction between the piston and the inner wall of the cylinder was studied. The finite element analysis software ANSYS was utilized to conduct coupled transient dynamic analysis on the piston rod. The results showed that when the piston rod is subjected to bouncing or vibrating forces, stress is generated. The magnitude of the stress is proportional to the amount of bouncing, meaning that the greater the amount of bouncing, the larger the vibration amplitude of the piston rod, and the stress also increases accordingly. The piston rod performs well within the temperature range of 0°C to 50°C. However, there are significant fluctuations in stress changes in the piston rod at low temperatures (-20°C to 0°C) and high temperatures (100°C to 150°C). In addition, it can be observed that there are significant stress concentrations at the joint between the piston rod and the piston, the rounded corners, and the interface between the piston rod and the crosshead, posing a risk of fracture. The research results provide valuable references for fault diagnosis and self-healing regulation of the piston rod, laying a foundation for further improving the reliability and stability of reciprocating compressors.
文皓, 王海波, 李志峰, 李鹏涛, 刘春杰, 王荣林. 基于ANSYS Workbench活塞杆跳动故障分析[J]. 吉林化工学院学报, 2024, 41(5): 66-71.
WEN Hao, WANG Haibo, LI Zhifeng, LI Pengtao, LIU Chunjie, WANG Ronglin. Analysis of Piston Rod Jumping Fault based on ANSYS Workbench. Journal of Jilin Institute of Chemical Technology, 2024, 41(5): 66-71.
