Add to ORKGThe article of record as published may be found at http://dx.doi.org/10.1080/10407789508913715A numerical study of three-dimensional heat transfer and fluid flow in a moving gas tungsten arc welding (GTAW) process is performed by considering nonaxisymmetric boundary conditions. The current density distribution and the resulting Lorentz force field are evaluated by numerically solving Maxwell's equations in the domain of the workpiece. The numerical modeling of the melting/solidification process is done by appropriately applying the enthalpy-porosity approach to the GTAW process. Numerical computations of the heat transfer and flow characteristics are carried out by including the effects of buoyancy, surface tension, and electromagnetic forc...
As an initial step to three-dimensional thermo-elasto-plastic modeling of Gas Metal Arc Welding (GMA...
A unified comprehensive model was developed to simulate the transport phenomena occurring during the...
Arc welding is generally used to join thick metals in many engineering applications. However, poor p...
A numerical study of three-dimensional heat transfer and fluid flow in a moving gas tungsten arc wel...
In this study, fluid flow driven by a combination of electromagnetic force, buoyancy force, arc drag...
A numerical study of three-dimensional heat transfer and fluid flow in a moving gas metal are weldin...
International audienceA three-dimensional numerical model of Gas Tungsten Arc welding has been devel...
An accurate estimation of the temperature field in weld pool and its surrounding area is important f...
A 3D numerical simulation was conducted to study the transient development of temperature distributi...
The purpose of this project is to model the transport phenomena (heat transfer, fluid flow, and curr...
Most previous three-dimensional modeling on gas tungsten arc welding (GTAW) and gas metal arc weldin...
International audienceThe fluid flow in weld pool can play a prominent role in the weld quality as w...
Gas metal arc welding (GMAW) is the most commonly used arc welding method in industry for joining st...
In this paper, a three-dimensional finite element model has been developed to simulate dynamically t...
© 2005 IEEE. Reprinted, with permission.A comprehensive model has been developed to simulate the tra...
As an initial step to three-dimensional thermo-elasto-plastic modeling of Gas Metal Arc Welding (GMA...
A unified comprehensive model was developed to simulate the transport phenomena occurring during the...
Arc welding is generally used to join thick metals in many engineering applications. However, poor p...
A numerical study of three-dimensional heat transfer and fluid flow in a moving gas tungsten arc wel...
In this study, fluid flow driven by a combination of electromagnetic force, buoyancy force, arc drag...
A numerical study of three-dimensional heat transfer and fluid flow in a moving gas metal are weldin...
International audienceA three-dimensional numerical model of Gas Tungsten Arc welding has been devel...
An accurate estimation of the temperature field in weld pool and its surrounding area is important f...
A 3D numerical simulation was conducted to study the transient development of temperature distributi...
The purpose of this project is to model the transport phenomena (heat transfer, fluid flow, and curr...
Most previous three-dimensional modeling on gas tungsten arc welding (GTAW) and gas metal arc weldin...
International audienceThe fluid flow in weld pool can play a prominent role in the weld quality as w...
Gas metal arc welding (GMAW) is the most commonly used arc welding method in industry for joining st...
In this paper, a three-dimensional finite element model has been developed to simulate dynamically t...
© 2005 IEEE. Reprinted, with permission.A comprehensive model has been developed to simulate the tra...
As an initial step to three-dimensional thermo-elasto-plastic modeling of Gas Metal Arc Welding (GMA...
A unified comprehensive model was developed to simulate the transport phenomena occurring during the...
Arc welding is generally used to join thick metals in many engineering applications. However, poor p...