Performance Of Piston Rod And Collar In Hydraulic Cylinder With Different Shapes And Material Configuration

Abstract

There is an ever-increasing demand for increasingly powerful systems to implement theories as the
design industry grows more serious. It is possible to move things using hydraulic cylinders, which are
mechanical devices. It is imperative that the interior segments of the chamber be able to handle the
greater load placed on them in heavier applications where larger yield powers are required, and this is
where the design of pressure-driven chamber inward segments comes into its own. Depending on the
design, a screw or nut connects the cylinder rod and piston within the chamber. This research focuses
primarily on the joints that are subjected to greater tractable or compressive loads during daily
activities. During execution action, the chamber responds and reaches an outlandishly empty state. It's
possible that a cylinder's joint and chamber will stop working altogether when there isn't any more
available stroke, which will result in a large ductile load on the bar and cylinder pole joints. Four
compound chamber pole cylinder joints were subjected to a static structural analysis to examine the
various workloads these joints can bear and which joint is best suited for modern applications with high
malleable loads.