Introduction: Lathe machining is a vital production operation that requires accurate temperature management to ensure the quality and lifespan of both tools and workpieces.

Objectives: Effective cooling solutions are critical in improving machining performance, decreasing wear, and assuring the correctness of the finished product.

Methods: This study investigates the usefulness of various cooling solutions in improving the performance of lathe machining processes. Given the necessity of maintaining appropriate temperatures throughout machining processes to ensure precision and tool longevity, this study focuses on various cooling technologies used in lathe operations.

Results: This study presents a comprehensive analysis of existing literature, emphasizing the critical role of efficient cooling solutions in minimizing tool wear, improving surface quality, and optimizing overall machining performance.

Conclusions: By exploring the effects of various cooling strategies on key machining parameters, this research aims to offer valuable insights into best practices for achieving enhanced precision and productivity in lathe operations. The findings emphasize the necessity for industries to adopt suitable cooling techniques to optimize production processes, reduce operational costs, and extend the life of machining equipment.