Modeling and optimization of A-GTAW process using Box–Behnken design and hybrid BPNN-PSO approach

Abstract: Gas tungsten arc welding (GTAW) is the most extensively used process capable of fabricating a wide range of alloys based on its distinctive merits has been introduced. However, some demerits have been reported among which shallow penetration is the most crucial ones. In order to deal with the poor penetration of the process, different procedures have been proposed among which activated gas tungsten arc welding (A-GTAW) is the most extensively used one. In this study effect of percentage of activating fluxes (T… Show more

“…The optimal I, V, and S reported were 140 A, 18 V, and 300 mm/min, respectively. The BW and DP models of the welded AISI316L were proposed in terms of the I and S, in which the PSO was used to find the best ANN model [6]. The small deviations (less than 4 %) indicated that the developed correlations were efficiently used in the GTAW operation.…”

Multi-response Optimization of GTAW Process Parameters in Terms of Energy Efficiency and Quality

“…The optimal I, V, and S reported were 140 A, 18 V, and 300 mm/min, respectively. The BW and DP models of the welded AISI316L were proposed in terms of the I and S, in which the PSO was used to find the best ANN model [6]. The small deviations (less than 4 %) indicated that the developed correlations were efficiently used in the GTAW operation.…”

Multi-response Optimization of GTAW Process Parameters in Terms of Energy Efficiency and Quality

Box–Behnken based investigation of surface quality and tool wear rate and FEM analysis of tool wear in TiAlN/CrN coated carbide tool

Machining and optimization of the external diamond burnishing operation