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The effect of pulsed gas metal arc welding(GMAW)variables on the dilution and weld bead geometry in cladding X65 pipeline steel with 316L stainless steel was studied.Using a full factorial method,a series of experiments were carried out to know the effect of wire feed rate,welding speed,distance between gas nozzle and plate,and the vertical angle of welding on dilution and weld bead geometry.The findings indicate that the dilution of weld metal and its dimension i.e.width,height and depth increase with the feed rate,but the contact angle of the bead decreases first and then increases.Meantime,welding speed has an opposite effect except for dilution.There is an interaction effect between welding parameters at the contact angle.The results also show forehand welding or decreasing electrode extension decrease the angle of contact.Finally, a mathematical model is contrived to highlight the relationship between welding variables with dilution and weld bead geometry.
The effect of pulsed gas metal arc welding (GMAW) variables on the dilution and weld bead geometry in cladding X65 pipeline steel with 316L stainless steel was studied. Using a full factorial method, a series of experiments were carried out to know the effect of wire feed rate, welding speed, distance between gas nozzle and plate, and the vertical angle of welding on dilution and weld bead geometry. The findings indicate that the dilution of weld metal and its dimension iewidth, height and depth increase with the feed rate, but the contact angle of the bead decreases first and then increases. Meantime, welding speed has an opposite effect except for dilution. There is an interaction effect between welding parameters at the contact angle. The results also show forehand welding or decreasing electrode extension decrease the angle of contact. Finally, a mathematical model is contrived to highlight the relationship between welding variables with dilution and weld bead geometry.