Stefan problems for melting nanoscaled particles
| Data(s) |
2015
|
|---|---|
| Resumo |
Under certain conditions, the mathematical models governing the melting of nano-sized particles predict unphysical results, which suggests these models are incomplete. This thesis studies the addition of different physical effects to these models, using analytic and numerical techniques to obtain realistic and meaningful results. In particular, the mathematical "blow-up" of solutions to ill-posed Stefan problems is examined, and the regularisation of this blow-up via kinetic undercooling. Other effects such as surface tension, density change and size-dependent latent heat of fusion are also analysed. |
| Formato |
application/pdf |
| Identificador | |
| Publicador |
Queensland University of Technology |
| Relação |
http://eprints.qut.edu.au/79905/1/Julian_Back_Thesis.pdf Back, Julian M. (2015) Stefan problems for melting nanoscaled particles. PhD thesis, Queensland University of Technology. |
| Fonte |
School of Mathematical Sciences; Science & Engineering Faculty |
| Palavras-Chave | #Stefan problems #Size-dependent melting #Surface tension #Finite-time blow-up #Kinetic undercooling #Superheating #Supercooling #Nanoparticle melting #Gibbs-Thomson |
| Tipo |
Thesis |
