Vibration Extraction for Melting Plastic Hydraulic Injection System with Stick Slip Vibration Analysis

Introduction A hydraulic power injection machine is designed to use a driving screw to inject melted plastic into a specified mold. This machine can be found at an automotive spare parts factory. The cantilever-style heavy-duty screw injector is supported by one roller and secured at the end. An obvious need for vibration analysis on the roller support is essential. A mass spring damper model is proposed for deeply investigating the friction induced vibration mechanism for this injection system to well understand and analyze its vibration behavior. Purpose A mechanical mode of two degrees-of-freedom (DOF) is designed to improve research on the dynamic features of the Plastic Hydraulic Injection System (PHIS) mechanism. Materials and methods Experimental investigation and analysis of this mechanism are explored to obtain the instability speed and critical stick slip (SS) speed. The numerical imitation results of this work will help with the design and development of the PHIS mechanism. Conclusion The stability of the system and SS behavior are next examined by determining the critical variability speediness and critical SS speed. A simulation study is carried out to evaluate the effect of various parameters of the system on its stability and on the behavior of the SS motion.

Automated summary

This article investigates the vibration characteristics of a hydraulic power injection machine and designs a two-degree-of-freedom mechanical model to improve research on the mechanism of the Plastic Hydraulic Injection System (PHIS). Experimental investigation and analysis are conducted to explore the instability speed and critical stick slip (SS) speed of the system. The numerical simulation results of this study will aid in the design and development of the PHIS mechanism.