Pankaj Gupta scite author profile

Improper selection of cutting parameters leads to regenerative chatter and loss in productivity. In the present work, a methodology has been proposed to select a proper combination of input cutting parameters for stable turning with improved metal removal rate. Chatter signals generated during the turning of Al6061-T6 have been acquired using a microphone. Stability lobes diagram has been plotted to access the stability regime. Further, to study the effect of feed rate on stability, the recorded signals have been processed using local mean decomposition signal processing technique, followed by the selection of dominating product functions using Fourier transform. The decomposed signals have been used to evaluate the new output parameter, that is, chatter index. Prediction models of chatter index and metal removal rate have been developed. Moreover, these prediction models have been optimized using multi-objective genetic algorithm for ascertaining the optimal range of cutting parameters for stable turning with higher metal removal rate. Finally, obtained stable range has been validated by performing more experiments.

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Exploration of tool chatter in CNC turning using a new ensemble approach

Gupta

Singh

2021

Materials Today: Proceedings

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Fault detection using vibration signal analysis of rolling element bearing in time domain using an innovative time scalar indicator

Pradhan

Gupta

2017

IJMR

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Pankaj Gupta

Fault detection analysis in rolling element bearing: A review

Local mean decomposition and artificial neural network approach to mitigate tool chatter and improve material removal rate in turning operation

Ensembled local mean decomposition and genetic algorithm approach to investigate tool chatter features at higher metal removal rate

Exploration of tool chatter in CNC turning using a new ensemble approach

Fault detection using vibration signal analysis of rolling element bearing in time domain using an innovative time scalar indicator

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