Detail publikačního výsledku

3. Numerical Models of Crystallization and Its Direction for Metal and Ceramic Materials in Technical Application

KAVIČKA, F.; STRÁNSKÝ, K.; DOBROVSKÁ, J.; SEKANINA, B.; ŠTĚTINA, J.

Originální název

3. Numerical Models of Crystallization and Its Direction for Metal and Ceramic Materials in Technical Application

Anglický název

3. Numerical Models of Crystallization and Its Direction for Metal and Ceramic Materials in Technical Application

Druh

Kapitola, resp. kapitoly v odborné knize

Originální abstrakt

Structure of metallic and also majority of ceramic alloys is one of the factors, which significantly influence their physical and mechanical properties. Formation of structure is strongly affected by production technology, casting and solidification of these alloys. Solidification is a critical factor in the materials industry. Solute segregation either on the macro- or micro-scale is sometimes the cause of unacceptable products due to poor mechanical properties of the resulting non-equilibrium phases. Heterogeneity of distribution of components is a function of solubility in solid and liquid phases. Solidification models and simulations have been carried out for both macroscopic and microscopic scales. This chapter presents numerical models of crystallisation of steel, ductile cast iron and ceramics EUCOR aimed at optimisation of their production and properties after casting.

Anglický abstrakt

Structure of metallic and also majority of ceramic alloys is one of the factors, which significantly influence their physical and mechanical properties. Formation of structure is strongly affected by production technology, casting and solidification of these alloys. Solidification is a critical factor in the materials industry. Solute segregation either on the macro- or micro-scale is sometimes the cause of unacceptable products due to poor mechanical properties of the resulting non-equilibrium phases. Heterogeneity of distribution of components is a function of solubility in solid and liquid phases. Solidification models and simulations have been carried out for both macroscopic and microscopic scales. This chapter presents numerical models of crystallisation of steel, ductile cast iron and ceramics EUCOR aimed at optimisation of their production and properties after casting.

Klíčová slova

Metal and ceramic material, solidification, crystallization, macro and micro heterogeneity, numerical models

Klíčová slova v angličtině

Metal and ceramic material, solidification, crystallization, macro and micro heterogeneity, numerical models

Autoři

KAVIČKA, F.; STRÁNSKÝ, K.; DOBROVSKÁ, J.; SEKANINA, B.; ŠTĚTINA, J.

Rok RIV

2013

Vydáno

10.09.2012

Nakladatel

InTech Europe

Místo

Rijeka, Croatia

ISBN

978-953-51-0757-6

Kniha

Crystallization. Science and Technology

Edice

Marcello Andreeta

Strany od

65

Strany do

90

Strany počet

26

BibTex

@inbook{BUT94024,
  author="František {Kavička} and Karel {Stránský} and Jana {Dobrovská} and Bohumil {Sekanina} and Josef {Štětina}",
  title="3. Numerical Models of Crystallization and Its Direction for Metal and Ceramic Materials in Technical Application",
  booktitle="Crystallization. Science and Technology",
  year="2012",
  publisher="InTech Europe",
  address="Rijeka, Croatia",
  series="Marcello Andreeta",
  edition="1",
  pages="65--90",
  isbn="978-953-51-0757-6"
}