Add to ORKGA mathematical fommlation has been developed to describe the transient growth and collapse of axisymmetric weldpools in spot welding operations. In the statement of the problem allowance is made for both conductive and convective heat transfer. In describing convection, the driving forces included buoyancy, electromagnetic forces, and surface tension forces. In most cases it was found that convection played a major role in affecting the weldpool shape, and that this convection was often dominated by surface tension forces. The model also allowed us to represent the transient collapse of weldpools upon the cessation of the heat and current supply. It was found that the melt velocity was reduced as the weldpool shrank. Most of the solidificat...
The evolution of temperature and velocity fields during laser spot welding of 304 stainless steel wa...
In this thesis a variety of problems are considered, the first of which is associated with the weldi...
Thesis (Sc. D.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 1986.MICROF...
In arc welding electromagnetic forces were traditionally thought to be the major cause of fluid moti...
In recent years, there have been several attempts to study the effect of critical variables on weldi...
This investigation is devoted to the study of welding and its effect on the workpiece, focusing on t...
Electromagnetic and surface tension forces are shown to dominate flow behavior / in some cases produ...
The material flow dynamic and velocity distribution on the melted domain surface play a crucial role...
In this paper, we present a modified k - epsilon model capable of addressing turbulent weld-pool con...
In this Part II, a thorough investigation of the melting of the electrode; the droplet formation, de...
The phase transition process which takes place during weldpool formation is examined. The phase tran...
Bibliography: leaves 260-302.viii, 302 leaves : ill. (some col.) ; 30 cm.An investigation into the d...
A numerical study of three-dimensional heat transfer and fluid flow in a moving gas metal are weldin...
A numerical study was undertaken in order to understand the complex heat transfer encountered during...
With several different fusion welding processes, the melted weld pool profile which ultimately solid...
The evolution of temperature and velocity fields during laser spot welding of 304 stainless steel wa...
In this thesis a variety of problems are considered, the first of which is associated with the weldi...
Thesis (Sc. D.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 1986.MICROF...
In arc welding electromagnetic forces were traditionally thought to be the major cause of fluid moti...
In recent years, there have been several attempts to study the effect of critical variables on weldi...
This investigation is devoted to the study of welding and its effect on the workpiece, focusing on t...
Electromagnetic and surface tension forces are shown to dominate flow behavior / in some cases produ...
The material flow dynamic and velocity distribution on the melted domain surface play a crucial role...
In this paper, we present a modified k - epsilon model capable of addressing turbulent weld-pool con...
In this Part II, a thorough investigation of the melting of the electrode; the droplet formation, de...
The phase transition process which takes place during weldpool formation is examined. The phase tran...
Bibliography: leaves 260-302.viii, 302 leaves : ill. (some col.) ; 30 cm.An investigation into the d...
A numerical study of three-dimensional heat transfer and fluid flow in a moving gas metal are weldin...
A numerical study was undertaken in order to understand the complex heat transfer encountered during...
With several different fusion welding processes, the melted weld pool profile which ultimately solid...
The evolution of temperature and velocity fields during laser spot welding of 304 stainless steel wa...
In this thesis a variety of problems are considered, the first of which is associated with the weldi...
Thesis (Sc. D.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 1986.MICROF...