X
Search Filters
Format Format
Subjects Subjects
Subjects Subjects
X
Sort by Item Count (A-Z)
Filter by Count
materials science, multidisciplinary (3) 3
alumina-forming austenitic steel (2) 2
carbides (2) 2
copper (2) 2
creep (2) 2
l12-ordered precipitate (2) 2
materials science, characterization & testing (2) 2
metallurgy & metallurgical engineering (2) 2
nickel (2) 2
precipitation (2) 2
tensile properties (2) 2
316h stainless-steel (1) 1
al-li alloy (1) 1
alloys (1) 1
aluminium (1) 1
aluminum oxide (1) 1
aluminum single-crystals (1) 1
ausscheidungshärten (1) 1
ausscheidungsprodukt (1) 1
austenitic stainless steels (1) 1
austenitischer nicht rostender stahl (1) 1
behavior (1) 1
bruchlebensdauer (1) 1
chromium steels (1) 1
deformation (1) 1
design (1) 1
elements (1) 1
embrittlement (1) 1
engineering, industrial (1) 1
engineering, manufacturing (1) 1
environmental embrittlement (1) 1
evolution (1) 1
formations (1) 1
fracture-toughness (1) 1
grain boundary (1) 1
grain-boundary segregation (1) 1
high entropy alloy (1) 1
high-temperature properties (1) 1
hydrogen (1) 1
intergranular fracture (1) 1
intermetallics (1) 1
kupferzusatz (1) 1
l1-ordered precipitate (1) 1
l1-ordered precipitates (1) 1
l12-ordered precipitates (1) 1
l12-ordered3v alloys (1) 1
m23c6 carbides (1) 1
mc carbides (1) 1
mechanical-properties (1) 1
microstructure (1) 1
microstructures (1) 1
nickel base alloys (1) 1
niobium (1) 1
ordered precipitate (1) 1
ordered precipitates (1) 1
oxygen-strengthened titanium (1) 1
phasengleichgewicht (1) 1
pre-compression (1) 1
pre-strain (1) 1
precipitates (1) 1
precipitation strengthening (1) 1
resistance (1) 1
rostfreier stahl (1) 1
rupture (1) 1
steel (1) 1
strain-rate (1) 1
stress-corrosion cracking (1) 1
titanium (1) 1
vanadium (1) 1
zirconium (1) 1
more...
Language Language
Publication Date Publication Date
Click on a bar to filter by decade
Slide to change publication date range


Materials Characterization, ISSN 1044-5803, 09/2019, Volume 155, p. 109792
A cost-effective Al Cu FeCrNi high entropy alloy with carbon exhibits excellent balance of strength and ductility, i.e. high product of strength and elongation... 
M23C6 carbides | L12-ordered precipitate | High entropy alloy | Grain boundary | carbides | ordered precipitate | DESIGN | L1-ordered precipitate | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | TENSILE PROPERTIES | DEFORMATION | MICROSTRUCTURES | ELEMENTS | EVOLUTION | MATERIALS SCIENCE, CHARACTERIZATION & TESTING
Journal Article
Scripta Materialia, ISSN 1359-6462, 12/2015, Volume 109, pp. 64 - 67
Addition of 2.8 wt.% Cu to an alumina-forming austenitic (AFA) stainless steel promotes formation of a L1 -ordered phase with the dominating elements Ni, Cu... 
L12-ordered precipitate | Precipitation strengthening | Creep | Alumina-forming austenitic steel | Chromium steels | Nickel base alloys | Precipitation | Austenitic stainless steels | Rupture | Formations | Nickel | Creep (materials) | Copper | Precipitates
Journal Article
Journal of Materials Processing Tech, ISSN 0924-0136, 2001, Volume 109, Issue 1, pp. 206 - 214
Journal Article
No results were found for your search.

Cannot display more than 1000 results, please narrow the terms of your search.