Abstract:
The formulation of the proposed methods and
algorithms facilitates a comprehensive examination of intricate
non-stationary thermo-mechanical processes in rods with varying
cross-sectional geometries. Furthermore, it advances the
theoretical framework for analyzing the thermo-mechanical
properties of rod structures utilized in the machinery industry of
the Republic of Kazakhstan. The creation of these intellectual
products aids in the progression of this sector and fortifies the
nation's sovereignty. This article delineates methods and
algorithms for investigating non-stationary thermo-mechanical
processes in rods with diverse cross-sectional shapes that influence
global manufacturing technologies. The scientific and practical
importance of this work lies in the application potential of the
developed approach for examining non-stationary thermomechanical characteristics of rod-like elements in various
installations. The findings also enhance the scientific research
direction in mechanical engineering. In conclusion, the article
outlines future technological advancements, summarizes the
research on non-stationary thermo-mechanical processes in rods
with different cross-sectional geometries, and highlights
significant economic benefits by facilitating the selection of
reliable rods for specified operating conditions. This ensures the
continuous and dependable operation of machinery used in
mechanical engineering.
