ANALYSIS OF THE INFLUENCE OF THE COMPOSITION OF THE SHIELDING GAS ON PRESSURE FORCE AND HEAT FLUXES IN ARC WELDING
Paper in proceeding, 2014
A main problem raised by arc welding manufacturing is the determination of
the optimal process parameters to ensure weld quality as well as resource efficient and
sustainable production. To address this problem a better process understanding is required.
In this study thermal magneto hydrodynamic modeling of a welding arc is used to reach
a deeper insight into the influence of the composition of the shielding gas on the pressure
force and the heat fluxes to a workpiece. The model was implemented in the open source
simulation software OpenFOAM. Four different shielding gas mixtures combining argon
and carbon dioxide were studied. When increasing the fraction of carbon dioxide the results
show a significant increase of the arc velocity and temperature with constriction of the
temperature field, a decrease of the pressure force and a significant increase of the heat
fluxes on the base metal.
arc pressure
thermal plasma
numerical simulation
shielding gas
OpenFOAM.
heat flux
arc welding
Author
Isabelle Choquet
Håkan Nilsson
Chalmers, Applied Mechanics, Fluid Dynamics
Proceedings of sixth Swedish Production Symposium
Driving Forces
Sustainable development
Areas of Advance
Production
Subject Categories
Manufacturing, Surface and Joining Technology
Fluid Mechanics and Acoustics
Roots
Basic sciences