Add to ORKGThe melting of triangular and rectangular solids is analyzed by means of new particle-type models. Heating is defined in terms of the increase of a particle's velocity, while temperature is defined in terms of a particle's kinetic energy. Computer examples are given of slow heating, fast heating, heating from above and heating from below. In each case the liquid and the solid portions are clearly delineated
This volume emphasises studies related toclassical Stefan problems. The term "Stefan problem" isgene...
Standard mathematical models for phase change at the nanoscale involve an implicit assumption that t...
In this paper we present a critical comparison of the suitability of several numerical methods, leve...
Stefan Problem exists in heat and mass transfer in objects under phase changes in many physical proc...
In this paper mathematical models for heat transfer with melting or solidification are considered . ...
The multiphase Stefan problem describing the melting (freezing) of a material with two distinct phas...
Under certain conditions, the mathematical models governing the melting of nano-sized particles pred...
In this paper we formulate a Stefan problem appropriate when the thermophysical properties are disti...
The melting of spherical nanoparticles is considered from the perspective of heat flow in a pure mat...
Now we will construct the simplest form of mathematical model describing phase transitions. The clas...
The macroscopic description of matter undergoing a phase change (the Stefan Problem) can be formulat...
The melting of a spherical or cylindrical nanoparticle is modelled as a Stefan problem by including ...
My thesis focuses on the evolution of the solid-liquid interface during melting and solidication in ...
The addition of surface tension to the classical Stefan problem for melting a sphere causes the solu...
We investigate the one-dimensional growth of a solid into a liquid bath, starting from a small cryst...
This volume emphasises studies related toclassical Stefan problems. The term "Stefan problem" isgene...
Standard mathematical models for phase change at the nanoscale involve an implicit assumption that t...
In this paper we present a critical comparison of the suitability of several numerical methods, leve...
Stefan Problem exists in heat and mass transfer in objects under phase changes in many physical proc...
In this paper mathematical models for heat transfer with melting or solidification are considered . ...
The multiphase Stefan problem describing the melting (freezing) of a material with two distinct phas...
Under certain conditions, the mathematical models governing the melting of nano-sized particles pred...
In this paper we formulate a Stefan problem appropriate when the thermophysical properties are disti...
The melting of spherical nanoparticles is considered from the perspective of heat flow in a pure mat...
Now we will construct the simplest form of mathematical model describing phase transitions. The clas...
The macroscopic description of matter undergoing a phase change (the Stefan Problem) can be formulat...
The melting of a spherical or cylindrical nanoparticle is modelled as a Stefan problem by including ...
My thesis focuses on the evolution of the solid-liquid interface during melting and solidication in ...
The addition of surface tension to the classical Stefan problem for melting a sphere causes the solu...
We investigate the one-dimensional growth of a solid into a liquid bath, starting from a small cryst...
This volume emphasises studies related toclassical Stefan problems. The term "Stefan problem" isgene...
Standard mathematical models for phase change at the nanoscale involve an implicit assumption that t...
In this paper we present a critical comparison of the suitability of several numerical methods, leve...