Add to ORKGIn this paper we describe an algorithm for solving the one-dimensional Stefan problem by involving metal shrinkage. In this algorithm we use the finite element method supplemented by the procedures allowing to define the position of moving interface and the change material size associated with shrinkage. We present also some examples illustrating the precision of the presented method
We treat two related moving boundary problems. The first is the ill-posed Stefan problem for meltin...
Numerical modeling of pure metal solidification on the basis of the well-known Stefan model is rathe...
In this paper a one-phase supercooled Stefan problem, with a nonlinear relation between the phase ch...
In this paper we describe an algorithm for solving the pure metals solidification problem by involvi...
The paper presents an analytic method applied for finding the approximate solution of Stefan proble...
Contact melting is the process during which a phase change material is placed in contact with a subs...
AbstractIn this paper, we present a critical comparison of the suitability of several numerical meth...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76235/1/AIAA-2002-2874-847.pd
Stefan Problem exists in heat and mass transfer in objects under phase changes in many physical proc...
We consider the extended Stefan problem for the solidification of a binary alloy in a finite one-dim...
AbstractWe present a numerical treatment of a generalized two-dimensional Stefan problem which model...
The paper is focused on the study of the solidification process of pure metals, in which the solidif...
Solidification processes are crucial for many industrial applications, and understanding these proce...
The Stefan problems called as moving boundary problems are defined by the heat equation on the domai...
This paper describes and compares several effective methods for the numerical solution of one-dimens...
We treat two related moving boundary problems. The first is the ill-posed Stefan problem for meltin...
Numerical modeling of pure metal solidification on the basis of the well-known Stefan model is rathe...
In this paper a one-phase supercooled Stefan problem, with a nonlinear relation between the phase ch...
In this paper we describe an algorithm for solving the pure metals solidification problem by involvi...
The paper presents an analytic method applied for finding the approximate solution of Stefan proble...
Contact melting is the process during which a phase change material is placed in contact with a subs...
AbstractIn this paper, we present a critical comparison of the suitability of several numerical meth...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76235/1/AIAA-2002-2874-847.pd
Stefan Problem exists in heat and mass transfer in objects under phase changes in many physical proc...
We consider the extended Stefan problem for the solidification of a binary alloy in a finite one-dim...
AbstractWe present a numerical treatment of a generalized two-dimensional Stefan problem which model...
The paper is focused on the study of the solidification process of pure metals, in which the solidif...
Solidification processes are crucial for many industrial applications, and understanding these proce...
The Stefan problems called as moving boundary problems are defined by the heat equation on the domai...
This paper describes and compares several effective methods for the numerical solution of one-dimens...
We treat two related moving boundary problems. The first is the ill-posed Stefan problem for meltin...
Numerical modeling of pure metal solidification on the basis of the well-known Stefan model is rathe...
In this paper a one-phase supercooled Stefan problem, with a nonlinear relation between the phase ch...