Vibration signal responses classification in AA 6063 aluminium alloy friction stir welded joint using optimal neural network Online publication date: Tue, 03-Oct-2017
by Kalathi Madhivanan; M. SenthilKumar; Rajagopal Ramesh
International Journal of Business Intelligence and Data Mining (IJBIDM), Vol. 12, No. 4, 2017
Abstract: Friction-stir-welding (FSW) is a firm stipulation dual procedure and its possessions are reliant on the welding procedure confines. Investigational results are executed by an advance speed revolving apparatus negotiating AA 6063 aluminium alloy 4 mm width laminate substance by FSW apparatus which is formed by HSS M2 substance. The DWT is utilised to decay the vibration signal in different welded dual. Following the signal decay procedure, the signals are indicated to categorisation procedure. Arithmetical and chronological limits of decay vibration signals by wavelet transform have been employed as the input of the FFBN. For improving the classification performance optimises the network structure hidden the layer and hidden neuron optimisation techniques are used. The optimal hidden layer and neuron attained in OGA technique to organise the vibration signals. This experimental and simulation analysis proves that vibration signal analysis method could be used to concern in process condition monitoring in friction stir welding process.
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