Optimization of pulsed current GTAW process parameters for sintered hot forged AISI 4135 P/M steel welds by simulated annealing and genetic algorithm

Optimization of pulsed current GTAW process parameters for sintered hot forged AISI 4135 P/M steel welds by simulated annealing and genetic algorithm

Abundant improvements have occurred in materials handling, especially in metal joining. Pulsed current gas tungsten arc welding (PCGTAW) is one of the consequential fusion techniques. In this work, PCGTAW of AISI 4135 steel engendered through powder metallurgy (P/M) has been executed, and the proces...

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Veröffentlicht in:Journal of mechanical science and technology 2016, 30(1), , pp.145-155
Hauptverfasser: Joseph, Joby, Muthukumaran, S.
Format: Artikel
Sprache:eng
Schlagworte:
Chromium molybdenum steels
Computer simulation
Control
Deviation
Dynamical Systems
Elongation
Engineering
Flow velocity
Gas flow
Gas tungsten arc welding
Genetic algorithms
Industrial and Production Engineering
Materials handling
Mechanical Engineering
Metals
Powder metallurgy
Process parameters
Pulsed current
Simulated annealing
Sintering (powder metallurgy)
Steels
Vibration
Welded joints
Welding
Welding parameters
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Zusammenfassung:Abundant improvements have occurred in materials handling, especially in metal joining. Pulsed current gas tungsten arc welding (PCGTAW) is one of the consequential fusion techniques. In this work, PCGTAW of AISI 4135 steel engendered through powder metallurgy (P/M) has been executed, and the process parameters have been highlighted applying Taguchi’s L9 orthogonal array. The results show that the peak current (Ip), gas flow rate (GFR), welding speed (WS) and base current (Ib) are the critical constraints in strong determinant of the Tensile strength (TS) as well as percentage of elongation (% Elong) of the joint. The practical impact of applying Genetic algorithm (GA) and Simulated annealing (SA) to PCGTAW process has been authenticated by means of calculating the deviation between predicted and experimental welding process parameters.
ISSN:1738-494X
1976-3824
DOI:10.1007/s12206-015-1218-3