Study on the Optimization of Machining Processes with Combined Tools

The integration of multiple operations into a singular tool constitutes a revolutionary breakthrough within the machining industry, a development that has been coined “combination chipping”. The utilization of these methodologies has been demonstrated to result in a substantial reduction in processing time, an enhancement in resource utilization, and an augmentation in the quality of the resulting surface. The study underscores the merits of cutting-edge materials, optimized geometrical configurations, and contemporary cooling mechanisms in assessing the efficacy of these instruments in terms of wear, accuracy, and technological cost. Empirical evidence indicates that the incorporation of tools within technological workflows can result in a reduction of up to 40% in manufacturing cycle times and up to 30% in operational costs. In industries such as aerospace, automotive, and energy, these innovations are necessary due to stringent requirements. The findings emphasize the significance of employing integrated tools to enhance productivity and to formulate sustainable methodologies that can satisfy the demands of contemporary industry.