FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2806648879> ?p ?o ?g. }

• W2806648879 endingPage "770" @default.
• W2806648879 startingPage "759" @default.
• W2806648879 abstract "Electric explosion (EEW) of iron and iron alloy wires (Fe, FeCrNi-ASI 304, and FeNiCo-Kovar) was performed in various liquid media (water, paraffin oil, ethylene glycol, siloxane) by injecting 1.2 × 10−18 J/atom energy. Products were collected separately in coarse and fine fractions and characterized by X-ray diffraction (XRD), scanning, transmission, and high-resolution transmission electron microscopies (SEM, TEM, HRTEM, respectively), Mössbauer spectroscopy, and prompt gamma activation analysis (PGAA). The dominant primary products in the coarse fractions are spherical metallic globuli modified either by direct interactions with the liquid media or by interactions with vaporized decomposition products of the liquid media. Fine fractions are formed in small quantities, and their compositions exhibit broad variety. Considering the morphology of this fraction, condensation is proposed as the dominant process of formation. The Kovar in siloxane case is an exception, and the mass of the fine fraction with decomposition products exceeds that of the metallic component in the coarse fraction. The main emphasis is placed on analysis of products in the fine fractions. In cases using water as the liquid medium, formation of oxide byproducts is dominant, i.e., wüstite is formed with iron, and mixed oxides FeCr2O4, (FeCr)2O3 and CrOOH are formed with FeCrNi steel. The fcc-to-bcc phase transition is also revealed in the latter case. In the case of the EEW process with iron in paraffin oil, the principal byproducts are carbon and carbonaceous residue. The carbonaceous coating layers are formed on the surface of particles, resulting in a core-shell structure, and carbon is also dissolved in the metal to form various carbide phases. For EEW of Kovar in ethylene glycol, the amount of carbonaceous byproducts is moderate, probably due to the formation and removal of gaseous byproducts (CO, CO2). In the Kovar-in-siloxane case, the main products result from decomposition of siloxane, and bcc and fcc metallic components are embedded into the siliceous oxide matrix in minor amounts. The formation of elemental silicon is also detected. A simplified summary scheme of processes is proposed to interpret the possible paths of reactions resulting in the formation of the products identified in EEW." @default.
• W2806648879 created "2018-06-13" @default.
• W2806648879 creator A5015442997 @default.
• W2806648879 creator A5021620929 @default.
• W2806648879 creator A5026805917 @default.
• W2806648879 creator A5027701804 @default.
• W2806648879 creator A5032383883 @default.
• W2806648879 creator A5052694753 @default.
• W2806648879 creator A5064706716 @default.
• W2806648879 creator A5067491206 @default.
• W2806648879 date "2018-09-01" @default.
• W2806648879 modified "2023-10-16" @default.
• W2806648879 title "Electric explosion of steel wires for production of nanoparticles: Reactions with the liquid media" @default.
• W2806648879 cites W1969038624 @default.
• W2806648879 cites W1978989967 @default.
• W2806648879 cites W1980466418 @default.
• W2806648879 cites W2002073106 @default.
• W2806648879 cites W2006012103 @default.
• W2806648879 cites W2023110924 @default.
• W2806648879 cites W2024072612 @default.
• W2806648879 cites W2054593561 @default.
• W2806648879 cites W2060120050 @default.
• W2806648879 cites W2060424983 @default.
• W2806648879 cites W2071216469 @default.
• W2806648879 cites W2073316704 @default.
• W2806648879 cites W2085378526 @default.
• W2806648879 cites W2086997728 @default.
• W2806648879 cites W2089181110 @default.
• W2806648879 cites W2089996132 @default.
• W2806648879 cites W2091743920 @default.
• W2806648879 cites W2166717347 @default.
• W2806648879 cites W2313038405 @default.
• W2806648879 cites W2342485605 @default.
• W2806648879 cites W2407656530 @default.
• W2806648879 cites W2460118927 @default.
• W2806648879 cites W2604284225 @default.
• W2806648879 doi "https://doi.org/10.1016/j.jallcom.2018.05.326" @default.
• W2806648879 hasPublicationYear "2018" @default.
• W2806648879 type Work @default.
• W2806648879 sameAs 2806648879 @default.
• W2806648879 citedByCount "11" @default.
• W2806648879 countsByYear W28066488792018 @default.
• W2806648879 countsByYear W28066488792019 @default.
• W2806648879 countsByYear W28066488792020 @default.
• W2806648879 countsByYear W28066488792021 @default.
• W2806648879 countsByYear W28066488792022 @default.
• W2806648879 crossrefType "journal-article" @default.
• W2806648879 hasAuthorship W2806648879A5015442997 @default.
• W2806648879 hasAuthorship W2806648879A5021620929 @default.
• W2806648879 hasAuthorship W2806648879A5026805917 @default.
• W2806648879 hasAuthorship W2806648879A5027701804 @default.
• W2806648879 hasAuthorship W2806648879A5032383883 @default.
• W2806648879 hasAuthorship W2806648879A5052694753 @default.
• W2806648879 hasAuthorship W2806648879A5064706716 @default.
• W2806648879 hasAuthorship W2806648879A5067491206 @default.
• W2806648879 hasConcept C127413603 @default.
• W2806648879 hasConcept C155672457 @default.
• W2806648879 hasConcept C159985019 @default.
• W2806648879 hasConcept C171250308 @default.
• W2806648879 hasConcept C191897082 @default.
• W2806648879 hasConcept C192562407 @default.
• W2806648879 hasConcept C2776139660 @default.
• W2806648879 hasConcept C2776735967 @default.
• W2806648879 hasConcept C2777516009 @default.
• W2806648879 hasConcept C42360764 @default.
• W2806648879 hasConcept C521977710 @default.
• W2806648879 hasConcept C544153396 @default.
• W2806648879 hasConceptScore W2806648879C127413603 @default.
• W2806648879 hasConceptScore W2806648879C155672457 @default.
• W2806648879 hasConceptScore W2806648879C159985019 @default.
• W2806648879 hasConceptScore W2806648879C171250308 @default.
• W2806648879 hasConceptScore W2806648879C191897082 @default.
• W2806648879 hasConceptScore W2806648879C192562407 @default.
• W2806648879 hasConceptScore W2806648879C2776139660 @default.
• W2806648879 hasConceptScore W2806648879C2776735967 @default.
• W2806648879 hasConceptScore W2806648879C2777516009 @default.
• W2806648879 hasConceptScore W2806648879C42360764 @default.
• W2806648879 hasConceptScore W2806648879C521977710 @default.
• W2806648879 hasConceptScore W2806648879C544153396 @default.
• W2806648879 hasLocation W28066488791 @default.
• W2806648879 hasOpenAccess W2806648879 @default.
• W2806648879 hasPrimaryLocation W28066488791 @default.
• W2806648879 hasRelatedWork W2022507789 @default.
• W2806648879 hasRelatedWork W2191745168 @default.
• W2806648879 hasRelatedWork W2348436598 @default.
• W2806648879 hasRelatedWork W2351163681 @default.
• W2806648879 hasRelatedWork W2352182596 @default.
• W2806648879 hasRelatedWork W2355099712 @default.
• W2806648879 hasRelatedWork W2391217160 @default.
• W2806648879 hasRelatedWork W3107870590 @default.
• W2806648879 hasRelatedWork W4233019185 @default.
• W2806648879 hasRelatedWork W4252751901 @default.
• W2806648879 hasVolume "763" @default.
• W2806648879 isParatext "false" @default.
• W2806648879 isRetracted "false" @default.
• W2806648879 magId "2806648879" @default.
• W2806648879 workType "article" @default.