TORSIONAL DEFORMATION OF THE SAW CYLINDER SHAFT OF A 5-7 LITER MACHINE

Abstract

The study explores the torsional deformation characteristics of the saw cylinder shaft in 5-7 liter capacity machines. The research focuses on the structural design, material selection, and static strength analysis to enhance the shaft's durability and operational efficiency. Using Finite Element Method (FEM) simulations and experimental testing, the study evaluates the impact of torsional loads on the shaft's mechanical performance. The results demonstrate that the implementation of lightweight and high-strength materials, along with optimized shaft geometry, significantly reduces torsional stress and improves overall stability. This study provides valuable insights for designing more efficient and durable shafts in industrial machinery.