Solution combustion synthesis of MnFeCoNiCu and (MnFeCoNiCu)3O4 high entropy materials and sintering thereof
author
Aydinyan, Sofiya
Kirakosyan, Hasmik
Sargsyan, Armen
Volobujeva, Olga
Kharatyan, Suren
statement of authorship
Aydinyan, Sofiya; Kirakosyan, Hasmik; Volobujeva, Olga; Kharatyan, Suren
source
Ceramics International
publisher
Elsevier Ltd
journal volume number month
Vol. 48, 14
year of publication
2022
pages
p. 20294-20305 : ill
url
https://doi.org/10.1016/j.ceramint.2022.03.310
subject term
entroopia
sulamid
oksiidid
mehaanilised omadused
mikrostruktuur
põlemine
mehaanilised omadused
keyword
High entropy alloy
High entropy oxide
Mechanical properties
Microstructure
Solution combustion synthesis
Spark plasma sintering
ISSN
0272-8842
notes
Bibliogr.: 74 ref.
Open Access
Open Access
scientific publication
teaduspublikatsioon
classifier
1.1
Scopus
Journal metrics at Scopus
Article at Scopus
WOS
Journal metrics at WOS
Article at WOS
category (general)
Materials science
en
Chemical engineering
en
Materjaliteadus
et
Keemiatehnoloogia
et
category (sub)
Materials science. Materials chemistry
en
Materials science. Surfaces, coatings and films
en
Materials science. Electronic, optical and magnetic materials
en
Materials science. Ceramics and composites
en
Chemical engineering. Process chemistry and technology
en
Materjaliteadus. Materjalide keemia
et
Materjaliteadus. Pinnad, kattted ja kiled
et
Materjaliteadus. Elektroonilised, optilised ja magnetilised materjalid
et
Materjaliteadus. Keraamika ja komposiidid
et
Keemiatehnoloogia. Protsessi keemia ja tehnoloogia
et
kvartiil
Q1
TTÜ department
materjali- ja keskkonnatehnoloogia instituut
mehaanika ja tööstustehnika instituut
language
inglise
Uurimisrühm
Innovative systems for industrial applications
Laboratory of photovoltaic materials