Effects of metallic Y and Ti addition on the dispersion and solubility behaviour of added Y2O3 in an ODS FeCrMnNiCo HEA during mechanical alloying

Research output: ThesisMaster's Thesis

Standard

Effects of metallic Y and Ti addition on the dispersion and solubility behaviour of added Y2O3 in an ODS FeCrMnNiCo HEA during mechanical alloying. / Gruber, Paul.
2021.

Research output: ThesisMaster's Thesis

Harvard

Gruber, P 2021, 'Effects of metallic Y and Ti addition on the dispersion and solubility behaviour of added Y2O3 in an ODS FeCrMnNiCo HEA during mechanical alloying', Dipl.-Ing., Montanuniversitaet Leoben (000).

APA

Gruber, P. (2021). Effects of metallic Y and Ti addition on the dispersion and solubility behaviour of added Y2O3 in an ODS FeCrMnNiCo HEA during mechanical alloying. [Master's Thesis, Montanuniversitaet Leoben (000)].

Vancouver

Gruber P. Effects of metallic Y and Ti addition on the dispersion and solubility behaviour of added Y2O3 in an ODS FeCrMnNiCo HEA during mechanical alloying. 2021.

Author

Gruber, Paul. / Effects of metallic Y and Ti addition on the dispersion and solubility behaviour of added Y2O3 in an ODS FeCrMnNiCo HEA during mechanical alloying. 2021.

Bibtex - Download

@mastersthesis{e1f5bb2f5f304b36bf40b1086e301053,
title = "Effects of metallic Y and Ti addition on the dispersion and solubility behaviour of added Y2O3 in an ODS FeCrMnNiCo HEA during mechanical alloying",
abstract = "The effects of metallic Y and Ti addition on the dispersion and solubility behaviour of added Y2O3 in an oxide dispersion strengthened (ODS) equimolar FeCrMnNiCo high entropy alloy (HEA) during mechanical alloying (MA) at room temperature were investigated. Only minor differences in the milling behaviour were observed. Inhomogeneities regarding Y distribution in and between as-milled powder particles were observed. The remnant Y2O3 particles after milling were studied extensively in their size and abundance and the overall percentage of disintegrated oxide caused by MA was estimated to be 83 % ± 10 %. Positive effects due to the addition of metallic Ti were not observed. The substitution of Y2O3 with metallic Y did not have any negative effects and effectively decrease the overall O content of the material. Positive effects due to this substitution are possible.",
keywords = "HEA, High Entropy Alloy, ODS, particle hardening, Mechanical alloying, Hochentropielegierung, ODS, Partikelh{\"a}rtung, Mechanisches Legieren",
author = "Paul Gruber",
note = "embargoed until 17-05-2026",
year = "2021",
language = "English",
school = "Montanuniversitaet Leoben (000)",

}

RIS (suitable for import to EndNote) - Download

TY - THES

T1 - Effects of metallic Y and Ti addition on the dispersion and solubility behaviour of added Y2O3 in an ODS FeCrMnNiCo HEA during mechanical alloying

AU - Gruber, Paul

N1 - embargoed until 17-05-2026

PY - 2021

Y1 - 2021

N2 - The effects of metallic Y and Ti addition on the dispersion and solubility behaviour of added Y2O3 in an oxide dispersion strengthened (ODS) equimolar FeCrMnNiCo high entropy alloy (HEA) during mechanical alloying (MA) at room temperature were investigated. Only minor differences in the milling behaviour were observed. Inhomogeneities regarding Y distribution in and between as-milled powder particles were observed. The remnant Y2O3 particles after milling were studied extensively in their size and abundance and the overall percentage of disintegrated oxide caused by MA was estimated to be 83 % ± 10 %. Positive effects due to the addition of metallic Ti were not observed. The substitution of Y2O3 with metallic Y did not have any negative effects and effectively decrease the overall O content of the material. Positive effects due to this substitution are possible.

AB - The effects of metallic Y and Ti addition on the dispersion and solubility behaviour of added Y2O3 in an oxide dispersion strengthened (ODS) equimolar FeCrMnNiCo high entropy alloy (HEA) during mechanical alloying (MA) at room temperature were investigated. Only minor differences in the milling behaviour were observed. Inhomogeneities regarding Y distribution in and between as-milled powder particles were observed. The remnant Y2O3 particles after milling were studied extensively in their size and abundance and the overall percentage of disintegrated oxide caused by MA was estimated to be 83 % ± 10 %. Positive effects due to the addition of metallic Ti were not observed. The substitution of Y2O3 with metallic Y did not have any negative effects and effectively decrease the overall O content of the material. Positive effects due to this substitution are possible.

KW - HEA

KW - High Entropy Alloy

KW - ODS

KW - particle hardening

KW - Mechanical alloying

KW - Hochentropielegierung

KW - ODS

KW - Partikelhärtung

KW - Mechanisches Legieren

M3 - Master's Thesis

ER -

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