We study a model for induction hardening of steel. The related differential system consists of a time domain vector potential formulation of the Maxwells equations coupled with an internal energy balance and an ODE for the volume fraction of austenite, the high temperature phase in steel. We first solve the initial boundary value problem associated by means of a Schauder fixed point argument coupled with suitable a-priori estimates and regularity results. Moreover, we prove a stability estimate entailing, in particular, uniqueness of solutions for our Cauchy problem. We conclude with some finite element simulations for the coupled system
Data-driven modeling provides an efficient approach to compute approximate solutions for complex mul...
The goal of steel heat treating is to create a hard enough part over certain critical surfaces or v...
In the first part of this work a comprehensive model of the continuous hardening of 3D-axisymmetric ...
We study a model for induction hardening of steel. The related differential system consists of a tim...
Induction hardening is a well known method for the heat treatment of steel components. With the conc...
Since many years, induction hardening has been successfully applied for the heat treatment of compon...
A multi-scale multiphysical finite element (FE) analysis is presented in this paper to predict the m...
In most structural components in mechanical engineering, there are surface parts, which are particul...
Heat treatments are widely used in industry to improve the surface behavior of components exposed to...
A modeling system for analyzing the integrated induction hardening processes was developed based on ...
Induction hardening has been widely applied for the heat treatment of components mainly in the aeron...
Induction heating has been widely applied in the field of heat treatment of components for the autom...
peer reviewedWe derive and analyze a mathematical model for induction hardening. We assume a nonline...
Induction hardening is a useful method for improving resistance to surface indentation, fatigue and ...
We study a mathematical model for the inductive heating of steel.It consists of a vector potential f...
Data-driven modeling provides an efficient approach to compute approximate solutions for complex mul...
The goal of steel heat treating is to create a hard enough part over certain critical surfaces or v...
In the first part of this work a comprehensive model of the continuous hardening of 3D-axisymmetric ...
We study a model for induction hardening of steel. The related differential system consists of a tim...
Induction hardening is a well known method for the heat treatment of steel components. With the conc...
Since many years, induction hardening has been successfully applied for the heat treatment of compon...
A multi-scale multiphysical finite element (FE) analysis is presented in this paper to predict the m...
In most structural components in mechanical engineering, there are surface parts, which are particul...
Heat treatments are widely used in industry to improve the surface behavior of components exposed to...
A modeling system for analyzing the integrated induction hardening processes was developed based on ...
Induction hardening has been widely applied for the heat treatment of components mainly in the aeron...
Induction heating has been widely applied in the field of heat treatment of components for the autom...
peer reviewedWe derive and analyze a mathematical model for induction hardening. We assume a nonline...
Induction hardening is a useful method for improving resistance to surface indentation, fatigue and ...
We study a mathematical model for the inductive heating of steel.It consists of a vector potential f...
Data-driven modeling provides an efficient approach to compute approximate solutions for complex mul...
The goal of steel heat treating is to create a hard enough part over certain critical surfaces or v...
In the first part of this work a comprehensive model of the continuous hardening of 3D-axisymmetric ...