Detail publikačního výsledku

Influence of Temperature on Microhardness of Aluminium-based composites Produced by Controlled Hypereutectic Reaction in Al-Ni Binary System

KLAKURKOVÁ, L.; ČELKO, L.; SLÁMEČKA, K.; DOLEŽAL, P.; ŠVEJCAR, J.

Originální název

Influence of Temperature on Microhardness of Aluminium-based composites Produced by Controlled Hypereutectic Reaction in Al-Ni Binary System

Anglický název

Influence of Temperature on Microhardness of Aluminium-based composites Produced by Controlled Hypereutectic Reaction in Al-Ni Binary System

Druh

Článek recenzovaný mimo WoS a Scopus

Originální abstrakt

In the Ni _Al binary system, the majority of scientific attention is focused on the development of NiAl and Ni3Al phases. These phases have a great potential in high temperature applications. The Ni _Al binary system also contains other three, less known phases. The NiAl3, Ni2Al3 and Ni5Al3 phases are not considered for use in high-temperature applications mainly due to their lower melting points being 854 degree C, 1133 degree C and approx. 700 degree C, respectively. New information about their formation and degradation mechanisms, morphology, and distribution, physical and mechanical properties can be, however, successfully used for strengthening of Al composites, Ni/Al/Ni interconnections, and layered structures design. This contribution is focused on local mechanical properties of Al substrate and strengthening Al-rich intermetallic phases produced from deposited Ni sacrificial coatings after the annealing in a wide range of temperatures encompassing the solid and/or molten state of the aluminium substrate.

Anglický abstrakt

In the Ni _Al binary system, the majority of scientific attention is focused on the development of NiAl and Ni3Al phases. These phases have a great potential in high temperature applications. The Ni _Al binary system also contains other three, less known phases. The NiAl3, Ni2Al3 and Ni5Al3 phases are not considered for use in high-temperature applications mainly due to their lower melting points being 854 degree C, 1133 degree C and approx. 700 degree C, respectively. New information about their formation and degradation mechanisms, morphology, and distribution, physical and mechanical properties can be, however, successfully used for strengthening of Al composites, Ni/Al/Ni interconnections, and layered structures design. This contribution is focused on local mechanical properties of Al substrate and strengthening Al-rich intermetallic phases produced from deposited Ni sacrificial coatings after the annealing in a wide range of temperatures encompassing the solid and/or molten state of the aluminium substrate.

Klíčová slova

Al-rich intermetallics; aluminium-based composites; hypereutectic alloys; microhardness

Klíčová slova v angličtině

Al-rich intermetallics; aluminium-based composites; hypereutectic alloys; microhardness

Autoři

KLAKURKOVÁ, L.; ČELKO, L.; SLÁMEČKA, K.; DOLEŽAL, P.; ŠVEJCAR, J.

Rok RIV

2012

Vydáno

15.07.2011

Nakladatel

Brno University of Technology, Faculty of Chemistry

Místo

Brno

ISSN

0009-2770

Periodikum

CHEMICKE LISTY

Svazek

105

Číslo

S

Stát

Česká republika

Strany od

820

Strany do

821

Strany počet

2

Plný text v Digitální knihovně

http://hdl.handle.net/

BibTex

@article{BUT73404,
  author="Lenka {Klakurková} and Ladislav {Čelko} and Karel {Slámečka} and Pavel {Doležal} and Jiří {Švejcar}",
  title="Influence of Temperature on Microhardness of Aluminium-based composites Produced by Controlled Hypereutectic Reaction in Al-Ni Binary System",
  journal="CHEMICKE LISTY",
  year="2011",
  volume="105",
  number="S",
  pages="820--821",
  issn="0009-2770"
}