FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1986914098> ?p ?o ?g. }

• W1986914098 endingPage "81" @default.
• W1986914098 startingPage "70" @default.
• W1986914098 abstract "Abstract Nanocrystalline and amorphous Mg–Ni–Cu–Mn alloys with nominal compositions of Mg–5 wt.% Ni–5 wt.% Cu–x wt.% Mn (x = 0, 1, 3) were synthesized by the melt spinning technique. The structure of the alloys was characterized by scanning electron microscopy and X-ray diffraction analysis. The phase transition during the solidification process was studied by differential scanning calorimetry under an Argon atmosphere. The wheel speed, which is closely associated with the cooling rate, was varied in the production of the melt-spun ribbons. The resultant melt-spun ribbons had various microstructures ranging from dendrite to equiaxed polygonal grains, and finally to an amorphous structure, depending on the wheel speed. The wheel side of the ribbons exhibited a finer microstructure than those on the free or air sides exposed to the atmosphere. Experimental results showed that the mechanical properties of the Mg–Ni–Cu–Mn alloys were enhanced, which can be attributed to significant changes in the microstructure. It was found that the microhardness values of the melt-spun ribbons were strongly dependent on the solidification rate and Mn content. The highest microhardness values were observed on the wheel side of the ribbons." @default.
• W1986914098 created "2016-06-24" @default.
• W1986914098 creator A5021240321 @default.
• W1986914098 creator A5023789532 @default.
• W1986914098 date "2013-05-01" @default.
• W1986914098 modified "2023-10-18" @default.
• W1986914098 title "Effect of Mn additions on the microstructure and microhardness of as-cast and rapidly solidified Mg–5Ni–5Cu alloy" @default.
• W1986914098 cites W1968552034 @default.
• W1986914098 cites W1973225415 @default.
• W1986914098 cites W1976607057 @default.
• W1986914098 cites W1976665750 @default.
• W1986914098 cites W1977396208 @default.
• W1986914098 cites W1979483775 @default.
• W1986914098 cites W1991014918 @default.
• W1986914098 cites W1997049958 @default.
• W1986914098 cites W2003601863 @default.
• W1986914098 cites W2012096333 @default.
• W1986914098 cites W2013119979 @default.
• W1986914098 cites W2013727955 @default.
• W1986914098 cites W2018242901 @default.
• W1986914098 cites W2018267190 @default.
• W1986914098 cites W2021374923 @default.
• W1986914098 cites W2025268119 @default.
• W1986914098 cites W2028357522 @default.
• W1986914098 cites W2029825481 @default.
• W1986914098 cites W2031855589 @default.
• W1986914098 cites W2031970034 @default.
• W1986914098 cites W2034286680 @default.
• W1986914098 cites W2040748705 @default.
• W1986914098 cites W2046120957 @default.
• W1986914098 cites W2046618773 @default.
• W1986914098 cites W2050384228 @default.
• W1986914098 cites W2050547452 @default.
• W1986914098 cites W2051355926 @default.
• W1986914098 cites W2052008453 @default.
• W1986914098 cites W2052054096 @default.
• W1986914098 cites W2052778648 @default.
• W1986914098 cites W2054726050 @default.
• W1986914098 cites W2054820945 @default.
• W1986914098 cites W2054971234 @default.
• W1986914098 cites W2056563550 @default.
• W1986914098 cites W2065669584 @default.
• W1986914098 cites W2073476103 @default.
• W1986914098 cites W2076629420 @default.
• W1986914098 cites W2082775888 @default.
• W1986914098 cites W2083545607 @default.
• W1986914098 cites W2085360858 @default.
• W1986914098 cites W2087306008 @default.
• W1986914098 cites W2088991154 @default.
• W1986914098 cites W2090110249 @default.
• W1986914098 cites W2090931944 @default.
• W1986914098 cites W2091973688 @default.
• W1986914098 cites W2093569371 @default.
• W1986914098 cites W2132327459 @default.
• W1986914098 doi "https://doi.org/10.1016/j.jnoncrysol.2013.02.021" @default.
• W1986914098 hasPublicationYear "2013" @default.
• W1986914098 type Work @default.
• W1986914098 sameAs 1986914098 @default.
• W1986914098 citedByCount "2" @default.
• W1986914098 countsByYear W19869140982014 @default.
• W1986914098 countsByYear W19869140982020 @default.
• W1986914098 crossrefType "journal-article" @default.
• W1986914098 hasAuthorship W1986914098A5021240321 @default.
• W1986914098 hasAuthorship W1986914098A5023789532 @default.
• W1986914098 hasConcept C165720898 @default.
• W1986914098 hasConcept C191897082 @default.
• W1986914098 hasConcept C192562407 @default.
• W1986914098 hasConcept C2780026712 @default.
• W1986914098 hasConcept C528890316 @default.
• W1986914098 hasConcept C87976508 @default.
• W1986914098 hasConceptScore W1986914098C165720898 @default.
• W1986914098 hasConceptScore W1986914098C191897082 @default.
• W1986914098 hasConceptScore W1986914098C192562407 @default.
• W1986914098 hasConceptScore W1986914098C2780026712 @default.
• W1986914098 hasConceptScore W1986914098C528890316 @default.
• W1986914098 hasConceptScore W1986914098C87976508 @default.
• W1986914098 hasLocation W19869140981 @default.
• W1986914098 hasOpenAccess W1986914098 @default.
• W1986914098 hasPrimaryLocation W19869140981 @default.
• W1986914098 hasRelatedWork W2010733322 @default.
• W1986914098 hasRelatedWork W2089251307 @default.
• W1986914098 hasRelatedWork W2123155170 @default.
• W1986914098 hasRelatedWork W2348021511 @default.
• W1986914098 hasRelatedWork W2379855728 @default.
• W1986914098 hasRelatedWork W3013867014 @default.
• W1986914098 hasRelatedWork W3200242440 @default.
• W1986914098 hasRelatedWork W4205648827 @default.
• W1986914098 hasRelatedWork W4294487794 @default.
• W1986914098 hasRelatedWork W4303926928 @default.
• W1986914098 hasVolume "367" @default.
• W1986914098 isParatext "false" @default.
• W1986914098 isRetracted "false" @default.
• W1986914098 magId "1986914098" @default.
• W1986914098 workType "article" @default.