Assessment of 3D printed steels and composites intended for wear applications in abrasive, dry or slurry erosive conditions
author
Kumar, Rahul, 1993-
Antonov, Maksim
Beste, U.
Goljandin, Dmitri
statement of authorship
Kumar, R., Antonov, M., Beste, U., Goljandin, D.
source
International journal of refractory metals and hard materials
publisher
Elsevier
journal volume number month
vol. 86
year of publication
2020
pages
art. 105126, 9 p. : ill
url
https://doi.org/10.1016/j.ijrmhm.2019.105126
subject term
3D-printimine
abrasioon (füüsika)
tootmine
komposiitmaterjalid
kulumiskindlus
keyword
3D printing
abrasion
additive manufacturing
dry and slurry erosion
metal matrix composites
vibenite
wear resistance
ISSN
0263-4368
notes
Bibliogr.: 30 ref
scientific publication
teaduspublikatsioon
classifier
1.1
Scopus
https://www.scopus.com/sourceid/12219
https://www.scopus.com/record/display.uri?eid=2-s2.0-85074173744&origin=inward&txGid=27a8d4971ddecf958bb3af626897df78
WOS
https://jcr.clarivate.com/jcr-jp/journal-profile?journal=INT%20J%20REFRACT%20MET%20H&year=2022
https://www.webofscience.com/wos/woscc/full-record/WOS:000500378200034
category (general)
Engineering
Tehnika
Materials science
Materjaliteadus
category (sub)
Engineering. Mechanical engineering
Tehnika. Masinaehitus
Engineering. Mechanics of materials
Tehnika. Materjalide mehaanika
Materials science. Metals and alloys
Materjaliteadus. Metallid ja sulamid
Materials science. Materials chemistry
Materjaliteadus. Materjalide keemia
Materials science. Ceramics and composites
Materjaliteadus. Keraamika ja komposiidid
quartile
Q1
TalTech department
mehaanika ja tööstustehnika instituut
language
inglise
Reserch Group
Innovative systems for industrial applications
Wear resistant composites and coatings