Impact of Chatter Amplitude on Surface Roughness of Carbide Insert Tool Using Laminates Among Tool and Tool Holder

Abstract

Chatter seems throughout the metallic reducing method as a result of resonance resulting from the interaction of the prominent natural frequencies of the gadget with the frequency of chip serration. Chatter leaves a lousy floor finish on the part and negatively affects dimensional tolerances, decreased productiveness, immoderate device wear and damaged device-device components. This paper provides an progressive approach to chatter suppression throughout turning manner by way of offering extremely-thin steel rubber laminates between carbide insert device and tool holder via growing the stiffness of the device. The dynamic behavior of the workpiece and device with laminates are simulated the usage of ANSYS and investigated experimentally. it's miles obvious that with the introduction of rubber brass laminates among tool and device holder the amplitude of vibration of tool decreased and thereby floor finish of workpiece advanced.