Add to ORKGIncludes bibliographical references (pages [73]-74)An analytical model based on Green’s function method is developed to analyze the heating rates, temperature distribution, and heat effected zone in a material irradiated by a high energy laser. The Green’s function results are compared with that produced by a commercial finite element code. A parametric study shows a significant effect of parameters such as beam power diameter, length of defocusing and surface absorptivity value on the heating rate, temperature distribution and heat effected zone.M.S. (Master of Science
Laser surface heating requires a well defined temperature profile. In this paper the inverse problem...
A 3D finite element (FE) model is built to numerically analyze heating parameters on temperature dur...
The effect of laser radiation on a solid body leads to a change in the temperature field of the proc...
One of the unique properties of laser heating applications is its powerful ability for precise pouri...
Laser heating of surfaces is involved with heating and cooling cycles. Material response to a laser ...
Laser welding process reduces the heat input to the work-piece which is the main goal in aerospace a...
This paper is an attempt to understand and define the thermal effects of incident laser radiation on...
In this paper different aspects of laser-material interaction were considered. Semi-analytical metho...
A short overview of basic problems connected with high power laser radiation interaction with solids...
This book introduces laser pulse heating and thermal stress analysis in materials surface. Analytica...
The paper presents a thermophysical analysis of modifying the surface of a workpiece by laser radiat...
In this work an analytical approach for analyzing heating of material with a laser beam is presented...
The promising processing techniques of micro scale parts are very important in products miniaturizat...
The revised edition of this important reference volume presents an expanded overview of the analytic...
Laser beam surface treatment requires a well-defined temperature profile. In this paper an analytic ...
Laser surface heating requires a well defined temperature profile. In this paper the inverse problem...
A 3D finite element (FE) model is built to numerically analyze heating parameters on temperature dur...
The effect of laser radiation on a solid body leads to a change in the temperature field of the proc...
One of the unique properties of laser heating applications is its powerful ability for precise pouri...
Laser heating of surfaces is involved with heating and cooling cycles. Material response to a laser ...
Laser welding process reduces the heat input to the work-piece which is the main goal in aerospace a...
This paper is an attempt to understand and define the thermal effects of incident laser radiation on...
In this paper different aspects of laser-material interaction were considered. Semi-analytical metho...
A short overview of basic problems connected with high power laser radiation interaction with solids...
This book introduces laser pulse heating and thermal stress analysis in materials surface. Analytica...
The paper presents a thermophysical analysis of modifying the surface of a workpiece by laser radiat...
In this work an analytical approach for analyzing heating of material with a laser beam is presented...
The promising processing techniques of micro scale parts are very important in products miniaturizat...
The revised edition of this important reference volume presents an expanded overview of the analytic...
Laser beam surface treatment requires a well-defined temperature profile. In this paper an analytic ...
Laser surface heating requires a well defined temperature profile. In this paper the inverse problem...
A 3D finite element (FE) model is built to numerically analyze heating parameters on temperature dur...
The effect of laser radiation on a solid body leads to a change in the temperature field of the proc...