Prediction of tool chatter and metal removal rate in turning operation on lathe using a new merged technique

Abstract: Tool chatter is an unstable phenomenon resulting in inaccurate machining and detritions of cutting tool. In this study, a combination of statistical approach and signal pre-processing technique has been adopted to explore the mechanism of tool chatter in turning operation. The effects of cutting parameters: depth of cut (d), feed (f) and spindle speed (N) on chatter have been investigated based on response surface model (RSM). Experimentally acquired raw chatter signals are preprocessed using wavelet transform… Show more

“…The mathematical relation between input and output variables in RSM is generally expressed in the form of secondorder polynomial expression [20,21] as given by: where η is response (TS), β o , β i and β ii (i = 1, 2…z), β ij (i = 1, 2…z − 1, j = 2, 3…z) are unknown regressing coefficients, X 1 , X 2 …X z are independent variables, z is no. of input factors and ε is the random error.…”

Prediction of tensile strength of 3D printed part using response surface methodology

“…The mathematical relation between input and output variables in RSM is generally expressed in the form of secondorder polynomial expression [20,21] as given by: where η is response (TS), β o , β i and β ii (i = 1, 2…z), β ij (i = 1, 2…z − 1, j = 2, 3…z) are unknown regressing coefficients, X 1 , X 2 …X z are independent variables, z is no. of input factors and ε is the random error.…”

Prediction of tensile strength of 3D printed part using response surface methodology

Stability of turning process with a distributed cutting force model

An Integrated Learning Algorithm for Vibration Feature Selection and Remaining Useful life Estimation of Lathe Spindle Unit