In the context of manufacturing transformation and upgrading, steel rolling processes serve as a critical component in material forming and control engineering. Their precision and efficiency directly determine the performance of high-end equipment. This study focuses on
fundamental research in steel rolling processes, specifically examining hot and cold rolling operations. By integrating numerical simulations
with experimental verification methods, we analyze the influence of rolling parameters on material microstructure properties. The findings
demonstrate that optimizing temperature gradients and deformation distribution significantly enhances overall mechanical properties of steel
materials. These results provide theoretical support for developing high-precision rolling processes.

Steel rolling; Material forming; Numerical simulation; Microstructure property; Process optimization

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