Abstract
The profile of the welding bead changes with the welding process parameters during the gas metal arc welding (GMAW) process, the top reinforcement disappears, and the penetration becomes sunken when the excessive welding heat input is applied. However, little research work is specially planned to cope with the studying of welding bead under these circumstances. A systematic study of the relationships among the welding process variables and welding bead geometric features as well as optimization of the welding quality is presented. The influences of the welding technological parameters (voltage, welding speed, and wire feed speed) on the welding geometry were revealed, and the models correlating them were established. The features of the weld bead geometry were composed of top reinforcement width, top reinforcement height, penetration depth, bottom reinforcement width, and bottom reinforcement height. By the desirability function approach, the recommendation of suitable welding parameters to meet the contradicting demands of multiple bead geometric features is fulfilled. The microstructure in different welding regions and mechanical performances of the welding joints produced by the verification test were also studied.
Highlights
As a typical arc welding technology, gas metal arc welding (GMAW) has been broadly used in various industrial fields
Based on the developed model, the upper reinforcement width is affected by the factors of welding speed and voltage
The top reinforcement width decreases with the voltage when the value of welding speed is 25 cm/min
Summary
All of the experimental trials were conducted on bare weathering steel A606 sheets companying with the filler wire 09G2S. The base metal was joined as a butt welding joint whose gap between the two steel plates is 1.0 mm. The process parameters are welding speed, voltage, and wire feeding speed. Other welding parameters like the distance between nozzle and plate, gas flow rate, shielding gas ingredients, electrode angle are at constant values. The angle of the electrode is 90 degrees while the distance between the nozzle and the welding steel plates is 15 mm. The welding joints for each welding run were sliced into small sizes. They were mounted into a cylinder with transparent silicone-based material.
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