OPTIMIZATION OF TECHNOLOGICAL PROCESSES FOR THE MECHANICAL MACHINING OF INTERNAL CYLINDRICAL SURFACES OF VARIOUS DIMENSIONS

Madaminov Baxrom Mirodilovich; Karimov Ravshan Xikmatullayevich; Yusupova Sevaraxon Farxodjon qizi

OPTIMIZATION OF TECHNOLOGICAL PROCESSES FOR THE MECHANICAL MACHINING OF INTERNAL CYLINDRICAL SURFACES OF VARIOUS DIMENSIONS

Authors

Madaminov Baxrom Mirodilovich Associate Professor, Department of Mechanical Engineering Technology, Fergana State Technical University, Fergana, Uzbekistan
Karimov Ravshan Xikmatullayevich Lecturer, Department of Architecture and Computer Graphics, Fergana State Technical University, Fergana, Uzbekistan
Yusupova Sevaraxon Farxodjon qizi Student, Fergana State Technical University, Fergana, Uzbekistan

Keywords:

Internal cylindrical surfaces, mechanical machining, process optimization, dimensional accuracy, tool wear, cutting parameters, precision engineering.

Abstract

Internal cylindrical surfaces are among the most critical geometries in mechanical components, especially in the automotive, aerospace, and hydraulic industries. Achieving high dimensional accuracy and surface quality in the machining of these surfaces is essential to ensure proper functionality and longevity of assemblies. However, machining bores of different diameters presents significant challenges, including chip removal difficulties, tool vibration, thermal deformation, and varying cutting force distribution.

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Published

2025-04-14

How to Cite

Madaminov Baxrom Mirodilovich, Karimov Ravshan Xikmatullayevich, & Yusupova Sevaraxon Farxodjon qizi. (2025). OPTIMIZATION OF TECHNOLOGICAL PROCESSES FOR THE MECHANICAL MACHINING OF INTERNAL CYLINDRICAL SURFACES OF VARIOUS DIMENSIONS. Web of Discoveries: Journal of Analysis and Inventions, 3(4), 38–46. Retrieved from https://webofjournals.com/index.php/3/article/view/3872