Detail publikace

Numerical models of solidification and their application in metal and ceramic technology

KAVIČKA, F. DOBROVSKÁ, J. ŠTĚTINA, J. STRÁNSKÝ, K. KATOLICKÝ, J. SEKANINA, B. HEGER, J. FRANCOVÁ, H.

Originální název

Numerical models of solidification and their application in metal and ceramic technology

Typ

kniha odborná

Jazyk

angličtina

Originální abstrakt

Solidification (crystallization) phenomena play a major role in such diverse operations as casting, crystal growth, and welding. Solidification proceeds at various rates, which are sometimes far from equilibrium. Thus, the casting microstructure obtained is generally not homogeneous and gives rise to variations in composition with position at both small and large scales, which is known as segregation. Solute segregation is important because it leads to non-equilibrium phases, cracks, and other problems, which lower the mechanical properties of the final product. Segregation is classified, according to its scale, as macro-segregation or micro-segregation. Macro-segregation prediction is very complex. Among many other things, it depends on an accurate prediction of micro-segregation. Micro-segregation refers to a composition variation within the columnar or equiaxed dendritic solidification structure, which has a length scale of the order of only few micrometers. It is usual to characterize the extent of micro-segregation using a ranking scheme of randomly sampled electron micro-analysis data. Thermodynamic quantities are often calculated from measurements of the as-cast segregation profile, in particular, the partition coefficient. These thermodynamic quantities are used for alloy development programs and in casting process models both as input properties and for validation. A well-founded technique is thus imperative for evaluating compositional data from X-ray microanalysis. Commercially available softwares are not able to predict the chemical heterogeneity of continuously cast material components of multi-component alloys. This publication shows the application of the commercial and the two original models of the simulation of temperature field castings and continuously cast slabs in various applications metallurgical and ceramic technology. The third applied original model is the model of chemical heterogeneity of elements, allowing the description and measurement of the dendritic main elements and impurities in solidifying castings.

Klíčová slova

metal and ceramic materials, solidification, crystallization, temperature field, numerical models, the model of chemical heterogeneity of elements

Autoři

KAVIČKA, F.; DOBROVSKÁ, J.; ŠTĚTINA, J.; STRÁNSKÝ, K.; KATOLICKÝ, J.; SEKANINA, B.; HEGER, J.; FRANCOVÁ, H.

Vydáno

15. 11. 2016

Nakladatel

Brno University of Technology, VŠB Technical University of Ostrava

Místo

Litera Brno

ISBN

978-80-214-5377-7

Kniha

Numerical models of solidification and their application in metal and ceramic technology

Edice

Brno University of Technology, VŠB Technical University of Ostrava

Číslo edice

1

Strany od

1

Strany do

161

Strany počet

161

BibTex

@book{BUT130087,
  author="František {Kavička} and Jana {Dobrovská} and Josef {Štětina} and Karel {Stránský} and Jaroslav {Katolický} and Bohumil {Sekanina} and Jaromír {Heger} and Hana {Francová}",
  title="Numerical models of solidification and their application in metal and ceramic technology",
  year="2016",
  publisher="Brno University of Technology, VŠB Technical University of Ostrava",
  address="Litera Brno",
  series="Brno University of Technology, VŠB Technical University of Ostrava",
  edition="1",
  pages="1--161",
  isbn="978-80-214-5377-7"
}