Publication detail

The Effect of Simultaneous Si and Ti/Mo Alloying on High-Temperature Strength of Fe3Al-Based Iron Aluminides

ZÁDĚRA, A. et al.

Original Title

The Effect of Simultaneous Si and Ti/Mo Alloying on High-Temperature Strength of Fe3Al-Based Iron Aluminides

Type

journal article in Web of Science

Language

English

Original Abstract

The effect of phase composition and morphology on high-temperature strength in the compression of Fe-Al-Si-based iron aluminides manufactured by casting was investigated. The structure and high-temperature strength in the compression of three alloys-Fe28Al5Si, Fe28Al5Si2Mo, and Fe28Al5Si2Ti-were studied. Long-term (at 800 degrees C for 100 h) annealing was performed for the achievement of structural stability. The phase composition and grain size of alloys were primarily described by means of scanning electron microscopy equipped with energy dispersive analysis and Electron Backscatter Diffraction (EBSD). The phase composition was verified by X-ray diffraction (XRD) analysis. The effect of Mo and Ti addition as well as the effect of long-term annealing on high-temperature yield stress in compression were investigated. Both additives-Mo and Ti-affected the yield stress values positively. Long-term annealing of Fe28Al5Si-X iron aluminide alloyed with Mo and Ti deteriorates yield stress values slightly due to grain coarsening.

Keywords

Fe-Al-Si cast alloys; Ti and Mo alloying; long-term annealing; microstructure; high-temperature strength in compression

Authors

ZÁDĚRA, A. et al.

Released

3. 8. 2020

Publisher

MDPI

Location

BASEL

ISBN

1420-3049

Periodical

MOLECULES

Year of study

25

Number

18

State

Swiss Confederation

Pages from

1

Pages to

11

Pages count

11

URL

Full text in the Digital Library

BibTex

@article{BUT168910,
  author="vera {vodickova} and Martin {Švec} and Pavel {Hanus} and Pavel {Novák} and Antonín {Záděra} and Vojtěch {Keller} and Petra {Prokopčáková}",
  title="The Effect of Simultaneous Si and Ti/Mo Alloying on High-Temperature Strength of Fe3Al-Based Iron Aluminides",
  journal="MOLECULES",
  year="2020",
  volume="25",
  number="18",
  pages="1--11",
  doi="10.3390/molecules25184268",
  issn="1420-3049",
  url="https://www.mdpi.com/1420-3049/25/18/4268"
}