FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2022371752> ?p ?o ?g. }

• W2022371752 endingPage "951" @default.
• W2022371752 startingPage "937" @default.
• W2022371752 abstract "A coal and two reference synthetic-cokes, a lamellar graphitizing anthracene-based coke (AC) and a microporous non- graphitizing saccharose-based coke (SC), were held at pressures up to 8 GPa and temperatures up to 1473 K under dry and hydrous conditions. Their subsequent structural and microtextural modifications were characterized by high-resolution transmission electron microscopy (HRTEM) and Raman spectroscopy (microspectroscopy and area-mode spectroscopy). No significant transformation was observed in products held up to 95 hours at temperatures below 1273 K. At 1273 K and above, for constant run duration, the higher the pressure, the better is the carbonaceous material organization. The effect of pressure on the graphitization mechanisms is most obvious in the case of the non-graphitizing SC for which the main role of pressure is to transform the microporous microtexture towards a lamellar one. Graphitization is initiated in pore walls as a result of pore growth and thus appears as a local phenomenon. Triperiodic graphite was detected by HRTEM in all SC samples synthesized at 2 GPa and above (1273 K, 95 hours). In the case of the AC material, microtexture remains lamellar and the graphitization results in the reorientation and the in-plane growth of the aromatic layers and rather appears as a bulk phenomenon. The evolution of the coal is intermediate between the two synthetic cokes, as this precursor was microtexturally heterogeneous, composed of an intermediate microtexture between lamellar and microporous ones. Graphitization under pressure appears to be a progressive and continuous process that proceeds heterogeneously through the carbonaceous matrix. The products recovered from high-pressure experiments are structurally and microtexturally heterogeneous, and this heterogeneity raises important problems with respect to the characterization scale and transformation rate in the experimental products. Indeed, in comparison to graphitization temperature in natural samples, it is expected that longer run duration would have led to triperiodic graphite under most experimental conditions achieved here. However, our experimental results show that pressure mainly speeds up the graphitization process, or even makes it possible in the case of the SC, by inducing microtextural and subsequent structural transformations. In all cases, whatever the pressure, temperature defines the highest structural state." @default.
• W2022371752 created "2016-06-24" @default.
• W2022371752 creator A5033708385 @default.
• W2022371752 creator A5041029530 @default.
• W2022371752 creator A5061152694 @default.
• W2022371752 creator A5066865326 @default.
• W2022371752 creator A5091378017 @default.
• W2022371752 date "2004-01-05" @default.
• W2022371752 modified "2023-10-17" @default.
• W2022371752 title "Experimental study of the microtextural and structural transformations of carbonaceous materials under pressure and temperature" @default.
• W2022371752 cites W1960465926 @default.
• W2022371752 cites W1972498476 @default.
• W2022371752 cites W1976705497 @default.
• W2022371752 cites W1990430461 @default.
• W2022371752 cites W2011916865 @default.
• W2022371752 cites W2014949330 @default.
• W2022371752 cites W2020208107 @default.
• W2022371752 cites W2033237730 @default.
• W2022371752 cites W2037623270 @default.
• W2022371752 cites W2047218803 @default.
• W2022371752 cites W2054528894 @default.
• W2022371752 cites W2057827885 @default.
• W2022371752 cites W2058272047 @default.
• W2022371752 cites W2070209787 @default.
• W2022371752 cites W2086817751 @default.
• W2022371752 cites W2107185527 @default.
• W2022371752 cites W2143867231 @default.
• W2022371752 cites W2149517079 @default.
• W2022371752 cites W2336627400 @default.
• W2022371752 cites W2379268220 @default.
• W2022371752 cites W2469722244 @default.
• W2022371752 cites W2507013234 @default.
• W2022371752 doi "https://doi.org/10.1127/0935-1221/2003/0015-0937" @default.
• W2022371752 hasPublicationYear "2004" @default.
• W2022371752 type Work @default.
• W2022371752 sameAs 2022371752 @default.
• W2022371752 citedByCount "114" @default.
• W2022371752 countsByYear W20223717522012 @default.
• W2022371752 countsByYear W20223717522013 @default.
• W2022371752 countsByYear W20223717522014 @default.
• W2022371752 countsByYear W20223717522015 @default.
• W2022371752 countsByYear W20223717522016 @default.
• W2022371752 countsByYear W20223717522017 @default.
• W2022371752 countsByYear W20223717522018 @default.
• W2022371752 countsByYear W20223717522019 @default.
• W2022371752 countsByYear W20223717522020 @default.
• W2022371752 countsByYear W20223717522021 @default.
• W2022371752 countsByYear W20223717522022 @default.
• W2022371752 countsByYear W20223717522023 @default.
• W2022371752 crossrefType "journal-article" @default.
• W2022371752 hasAuthorship W2022371752A5033708385 @default.
• W2022371752 hasAuthorship W2022371752A5041029530 @default.
• W2022371752 hasAuthorship W2022371752A5061152694 @default.
• W2022371752 hasAuthorship W2022371752A5066865326 @default.
• W2022371752 hasAuthorship W2022371752A5091378017 @default.
• W2022371752 hasConcept C127313418 @default.
• W2022371752 hasConcept C17409809 @default.
• W2022371752 hasConcept C185592680 @default.
• W2022371752 hasConcept C192562407 @default.
• W2022371752 hasConcept C199289684 @default.
• W2022371752 hasConceptScore W2022371752C127313418 @default.
• W2022371752 hasConceptScore W2022371752C17409809 @default.
• W2022371752 hasConceptScore W2022371752C185592680 @default.
• W2022371752 hasConceptScore W2022371752C192562407 @default.
• W2022371752 hasConceptScore W2022371752C199289684 @default.
• W2022371752 hasIssue "6" @default.
• W2022371752 hasLocation W20223717521 @default.
• W2022371752 hasOpenAccess W2022371752 @default.
• W2022371752 hasPrimaryLocation W20223717521 @default.
• W2022371752 hasRelatedWork W1531601525 @default.
• W2022371752 hasRelatedWork W2319480705 @default.
• W2022371752 hasRelatedWork W2384464875 @default.
• W2022371752 hasRelatedWork W2606230654 @default.
• W2022371752 hasRelatedWork W2607424097 @default.
• W2022371752 hasRelatedWork W2748952813 @default.
• W2022371752 hasRelatedWork W2899084033 @default.
• W2022371752 hasRelatedWork W2948807893 @default.
• W2022371752 hasRelatedWork W4387497383 @default.
• W2022371752 hasRelatedWork W2778153218 @default.
• W2022371752 hasVolume "15" @default.
• W2022371752 isParatext "false" @default.
• W2022371752 isRetracted "false" @default.
• W2022371752 magId "2022371752" @default.
• W2022371752 workType "article" @default.