A Finite Difference Method for Studying Thermal Deformation in Three-Dimensional Thin Films Exposed to Ultrashort Pulsed Lasers - Suyang Zhang

We did not find results for. Finite Studying Lasers Films Difference Pulsed Deformation Exposed. Check spelling or type a new query. Maybe you would like to learn more about one of these. We did not find results for. A finite difference method for studying thermal. This article presents a finite difference method for studying thermal deformation in a thin film exposed to ultrashort- pulsed lasers. A Finite Difference Method for Studying Thermal Deformation in Three-Dimensional Thin Films Exposed to Ultrashort Pulsed Lasers - Suyang Zhang

The method is obtained based on the parabolic two- step model. It accounts for the coupling effect between lattice temperature and strain rate. As well as for the hot- electron- blast effect in momentum transfer. The method allows us to avoid non- physical oscillations in the solution as demonstrated by numerical examples. We have developed a finite difference method for studying thermal deformation in a 3D thin film exposed to ultrashort pulsed lasers. Based on the parabolic two- step heat transport equations. A Finite Difference Method for Studying Thermal Deformation in Three-Dimensional Thin Films Exposed to Ultrashort Pulsed Lasers - Suyang Zhang

Accounts for the coupling effect between lattice temperature and strain rate. As well as for the hot electron- blast effect in momentum transfer. By replacing the displacement components in the dynamic equations of motion using the velocity components. Developing a fourth- order. A finite difference method for studying. We apply a staggered finite difference method to study thermal deformation in a two- dimensional double- layered metal film exposed to ultrashort pulsed lasers. A Finite Difference Method for Studying Thermal Deformation in Three-Dimensional Thin Films Exposed to Ultrashort Pulsed Lasers - Suyang Zhang

The method is obtained based on the parabolic two- step heat transport equations. As well as for the hot- electron blast effect in momentum transfer. The developed methodology allows us to avoid non- physical oscillations in the. A finite difference method for studying cently. We have developed a staggered finite difference method for studying thermal deformation in a two- dimensional double- layered metal film exposed to ultrashort pulsed lasers. The method was obtained based on the parabolic two- step heat transport equations. The developed methodology allows us to avoid non- physical oscillations in. A Finite Difference Method for Studying Thermal Deformation in Three-Dimensional Thin Films Exposed to Ultrashort Pulsed Lasers - Suyang Zhang

This dissertation presents a new finite difference method for studying thermal deformation in 3D thin films exposed to ultrashort- pulsed lasers. The method is obtained based on the parabolic two- step model and implicit finite difference schemes on a staggered grid. A fourth- order compact scheme is developed for evaluating those. A hyperbolic two- step model based finite difference. We develop a finite difference scheme for studying thermal deformation in a 2D double- layered micro thin film exposed to ultrashort- pulsed lasers. This scheme is obtained based on the hyperbolic two- step model with temperature- dependent thermal properties coupled with the dynamic equations of motion. A Finite Difference Method for Studying Thermal Deformation in Three-Dimensional Thin Films Exposed to Ultrashort Pulsed Lasers - Suyang Zhang

The method is illustrated by investigating thermal deformation in a gold layer on a chromium padding layer. A hyperbolic two- step model based finite difference method. A hyperbolic two- step model based finite difference method for studying thermal deformation in three- dimensional micro spheres exposed to ultrashort- pulsed lasers Pan Wang Follow this and additional works at https. Dissertations Part of theMathematics Commons. A Finite- Difference Method for Studying Thermal. Studying the thermal deformation induced by ultrashort pulsed lasers is important for preventing thermal damage. A Finite Difference Method for Studying Thermal Deformation in Three-Dimensional Thin Films Exposed to Ultrashort Pulsed Lasers - Suyang Zhang

This article presents a numerical method for studying thermal deformation in a 3- D microsphere exposed to ultrashort pulsed lasers. The method is obtained based on the parabolic two- step model and implicit finite- difference scheme on a staggered grid. Finite Difference Simulation of Thermal Deformation in. Hewavitharana LG. A finite difference method for studying thermal deformation in a double- layered thin film with imperfect interfacial contact exposed to ultrashort- pulsed lasers. Int J Thermal Sci 47 7– 24 Google Scholar. Louisiana Tech University Louisiana Tech Digital Commons Doctoral Dissertations Graduate School Summer. A Finite Difference Method for Studying Thermal Deformation in Three-Dimensional Thin Films Exposed to Ultrashort Pulsed Lasers - Suyang Zhang

A finite difference method for studying thermal deformation in a three- A Finite Difference Method for Studying Thermal Deformation in Three-Dimensional Thin Films Exposed to Ultrashort Pulsed Lasers - Suyang Zhang

Method Lasers Studying Thermal Method Ultrashort Pulsed
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