Vol 9, No 3 (2024)

Vibration Analysis and Control in Modern Machining Systems: Towards Precision Engineering

Author: Arvind Mehta

Abstract: The precision of modern machining systems plays a critical role in manufacturing high-quality products. Vibrations during machining, arising from various sources such as tool-workpiece interaction, machine structure dynamics, and cutting forces, can significantly affect machining accuracy and surface finish. This paper explores vibration analysis and control techniques in contemporary machining systems, focusing on their importance in enhancing precision engineering. Key methods, including passive and active vibration control strategies, are discussed, along with their applications and effectiveness in reducing machining errors. The paper also highlights the role of modern sensors, real-time monitoring systems, and computational methods in vibration control. A review of existing research on vibration mitigation techniques and their integration into machining processes is provided, offering insights into current and future trends for improving machining precision.

Keywords: Vibration analysis, control techniques, machining systems, precision engineering, cutting forces, real-time monitoring, passive control, active control

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