Your search keyword '"Tien-Ching Chen"' showing total 2 results

1. Dual beam laser control of flow in the weld pool

Author

Tien-Ching Chen, Fuu-Ren Tsai, and Elijah Kannatey-AsibuJr.

Subjects

Convection, Marangoni effect, Materials science, Flow (psychology), Laser beam welding, Welding, Mechanics, law.invention, Physics::Fluid Dynamics, law, Heat transfer, Weld pool, Fluid dynamics, Physics::Accelerator Physics

Abstract

Fluid flow and heat transfer during dual-beam laser welding have been investigated with a view to controlling flow in the weld pool and the resulting weld pool geometry and surface deformation. The investigation is based on a transient two-dimensional finite volume numerical simulation of flow in a moving plate for a dual heat source. Each of the two laser beams at the top surface of the weld pool is modeled as a Gaussian source. The heat transfer mechanisms considered includec onduction in the solid region, as well as natural and Marangoni convection in the liquid region. The convection patterns induced by the Marangoni convection in the liquid region are altered by imposing a second laser beam, thereby affecting the flow structure. This paper examines the validity of the numerical simulation by observing the wed pool geometry experimentally. Both the power levels and inter-beam spacings are varied and the material used is AISI 304 stainless steel. Representative results of the flow patterns in the weld pool for the dual-beam laser welding process are reported.Fluid flow and heat transfer during dual-beam laser welding have been investigated with a view to controlling flow in the weld pool and the resulting weld pool geometry and surface deformation. The investigation is based on a transient two-dimensional finite volume numerical simulation of flow in a moving plate for a dual heat source. Each of the two laser beams at the top surface of the weld pool is modeled as a Gaussian source. The heat transfer mechanisms considered includec onduction in the solid region, as well as natural and Marangoni convection in the liquid region. The convection patterns induced by the Marangoni convection in the liquid region are altered by imposing a second laser beam, thereby affecting the flow structure. This paper examines the validity of the numerical simulation by observing the wed pool geometry experimentally. Both the power levels and inter-beam spacings are varied and the material used is AISI 304 stainless steel. Representative results of the flow patterns in the weld ...

Published

1995

2. Impact of dual beams on flow characteristics in weld pool

Author

Tien-Ching Chen and Elijah Kannatey-Asibu

Subjects

Physics::Fluid Dynamics, Convection, Materials science, Marangoni effect, Flow (psychology), Heat transfer, Weld pool, Fluid dynamics, Physics::Accelerator Physics, Laser beam welding, Mechanics, Thermal conduction

Abstract

Fluid flow and heat transfer during dual-beam laser welding is analyzed. The objective of this investigation is control of flow in the weld pool and its impact on the resultant weld pool geometry and solidification. It is based on a transient two-dimensional finite volume numerical simulation of flow in a moving plate for a dual heat source. Each of the two laser beams at the top surface of the weld pool is modeled as a Gaussian source. The heat transfer mechanisms considered include conduction in the solid region, natural and Marangoni convection in the liquid region. The change in the fluid flow structure induced by imposing a second laser beam affects the weld pool shape. The pool geometry, temperature, and velocity fields that result during dual-beam laser welding are compared with those of a single beam laser welding process for different inter-beam spacings and surface tension temperature coefficients for stainless steel 304. Representative results of the flow and temperature distribution in the weld pool for the single and dual-beam laser welding processes are reported graphically in the form of liquid phase isotherm, stream functions and velocity vectors at specified times.Fluid flow and heat transfer during dual-beam laser welding is analyzed. The objective of this investigation is control of flow in the weld pool and its impact on the resultant weld pool geometry and solidification. It is based on a transient two-dimensional finite volume numerical simulation of flow in a moving plate for a dual heat source. Each of the two laser beams at the top surface of the weld pool is modeled as a Gaussian source. The heat transfer mechanisms considered include conduction in the solid region, natural and Marangoni convection in the liquid region. The change in the fluid flow structure induced by imposing a second laser beam affects the weld pool shape. The pool geometry, temperature, and velocity fields that result during dual-beam laser welding are compared with those of a single beam laser welding process for different inter-beam spacings and surface tension temperature coefficients for stainless steel 304. Representative results of the flow and temperature distribution in the wel...

Published

1994