Add to ORKGAll laser materials processing involves two fundamental phenomena: the conversion of optical energy into thermal energy, and the generation of thermal stresses in the laserprocessed materials. The distributions of the thermal energy and stresses in the substrate depend on the laser mode used for materials processing. A proper understanding of the temperature and stress distributions is essential for producing high-quality products using the laser technology. The solution of the complete thermoelastic problem is very complex and requires numerical methods. This paper presents simple analytic expressions for the temperature and thermal stress distributions in the substrate processed with TEM00 and TEMinf01sup*mode laser beams. The temperature...
This research was aimed at the development of production methods and tools needed to achieve a high ...
International audienceThe heat and thermoelastic equations are analytically solved for a material wi...
This research was aimed at the development of production methods and tools needed to achieve a high ...
All laser materials processing involves two fundamental phenomena: the conversion of optical energy ...
All laser materials processing involves two fundamental phenomena: the conversion of optical energy ...
All laser materials processing involves two fundamental phenomena: the conversion of optical energy ...
In recent years, laser technology has been widely used in materials processing, non-destructive dete...
Laser pulse heating of surfaces results in high temperature gradients in the region irradiated by th...
The present investigation deals with the deformation of micropolar generalized thermoelastic solid s...
The laser-induced thermal stresses are important during heating of substrate surfaces, since stress ...
Localized laser heating is widely used in materials processing. In extending these techniques to mat...
Several methods for both two and three dimensional thermoelastic problems were studied. The report e...
Selective laser melting (SLM) is an attractive technology, enabling the manufacture of customised, c...
Selective laser melting (SLM) is an attractive technology, enabling the manufacture of customised, c...
This book introduces laser pulse heating and thermal stress analysis in materials surface. Analytica...
This research was aimed at the development of production methods and tools needed to achieve a high ...
International audienceThe heat and thermoelastic equations are analytically solved for a material wi...
This research was aimed at the development of production methods and tools needed to achieve a high ...
All laser materials processing involves two fundamental phenomena: the conversion of optical energy ...
All laser materials processing involves two fundamental phenomena: the conversion of optical energy ...
All laser materials processing involves two fundamental phenomena: the conversion of optical energy ...
In recent years, laser technology has been widely used in materials processing, non-destructive dete...
Laser pulse heating of surfaces results in high temperature gradients in the region irradiated by th...
The present investigation deals with the deformation of micropolar generalized thermoelastic solid s...
The laser-induced thermal stresses are important during heating of substrate surfaces, since stress ...
Localized laser heating is widely used in materials processing. In extending these techniques to mat...
Several methods for both two and three dimensional thermoelastic problems were studied. The report e...
Selective laser melting (SLM) is an attractive technology, enabling the manufacture of customised, c...
Selective laser melting (SLM) is an attractive technology, enabling the manufacture of customised, c...
This book introduces laser pulse heating and thermal stress analysis in materials surface. Analytica...
This research was aimed at the development of production methods and tools needed to achieve a high ...
International audienceThe heat and thermoelastic equations are analytically solved for a material wi...
This research was aimed at the development of production methods and tools needed to achieve a high ...