Vol.25, No.2, 2025, pp. 285–289
https://doi.org/10.69644/ivk-2025-02-0285

This study investigates the complex interplay of stress factors in thin rotating disks with inclusions and loading edges. Thin disks are ubiquitous in various engineering applications, and understanding their behaviour under rotational forces is crucial for design optimisation and structural integrity. In this research we systematically vary parameters such as inclusion size, material properties, and loading conditions to comprehensively analyse their effects on stress distribution within the disk. Through advanced mathematical modelling, we provide insights into the interaction between inclusions, loading edges, and rotational forces, shedding light on critical factors influencing disk performance and durability. This comprehensive investigation contributes to the advancement of design methodologies for thin rotating structures in engineering applications.

Keywords: • stress • density • disk • isotropic • shaft