SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2892391276> ?p ?o ?g. }

Showing items 1 to 100 of ±139 with 100 items per page.

W2892391276 endingPage "685" @default.
W2892391276 startingPage "671" @default.
W2892391276 abstract "Quantification of mesoscale microstructures of polycrystalline materials is important for a range of practical tasks of materials design and development. The current protocols of quantifying grain size and morphology often rely on microstructure metrics (e.g., mean grain diameter) that overlook important details of the mesostructure. In this work, we present a quantification framework based on directionally resolved chord length distribution and principal component analysis as a means of extracting additional information from 2-D microstructural maps. Towards this end, we first present in detail a method for calculating chord length distribution based on boundary segments available in modern digital datasets (e.g., from microscopy post-processing) and their low-rank representations by principal component analysis. The utility of the proposed framework for capturing grain size, morphology, and their anisotropy for efficient visualization, representation, and specification of polycrystalline microstructures is then demonstrated in case studies on datasets from synthetic generation, experiments (on Ni-base superalloys), and simulations (on steel during recrystallization)." @default.
W2892391276 created "2018-10-05" @default.
W2892391276 creator A5027276858 @default.
W2892391276 creator A5032474098 @default.
W2892391276 creator A5034851444 @default.
W2892391276 creator A5043536344 @default.
W2892391276 creator A5058181785 @default.
W2892391276 creator A5064902040 @default.
W2892391276 creator A5088816007 @default.
W2892391276 date "2018-11-01" @default.
W2892391276 modified "2023-10-09" @default.
W2892391276 title "Application of chord length distributions and principal component analysis for quantification and representation of diverse polycrystalline microstructures" @default.
W2892391276 cites W1976159861 @default.
W2892391276 cites W1982027749 @default.
W2892391276 cites W1982205717 @default.
W2892391276 cites W1982653967 @default.
W2892391276 cites W1984990239 @default.
W2892391276 cites W1989420932 @default.
W2892391276 cites W1992355986 @default.
W2892391276 cites W1993576272 @default.
W2892391276 cites W2003327154 @default.
W2892391276 cites W2008401274 @default.
W2892391276 cites W2008858839 @default.
W2892391276 cites W2021616111 @default.
W2892391276 cites W2024470839 @default.
W2892391276 cites W2031516205 @default.
W2892391276 cites W2036293114 @default.
W2892391276 cites W2042437458 @default.
W2892391276 cites W2045526024 @default.
W2892391276 cites W2047611652 @default.
W2892391276 cites W2049904622 @default.
W2892391276 cites W2054112558 @default.
W2892391276 cites W2076938542 @default.
W2892391276 cites W2086856888 @default.
W2892391276 cites W2099088040 @default.
W2892391276 cites W2100177574 @default.
W2892391276 cites W2118539261 @default.
W2892391276 cites W2126748043 @default.
W2892391276 cites W2134330369 @default.
W2892391276 cites W2139033417 @default.
W2892391276 cites W2149195991 @default.
W2892391276 cites W2150903702 @default.
W2892391276 cites W2152014464 @default.
W2892391276 cites W2171330332 @default.
W2892391276 cites W2294798173 @default.
W2892391276 cites W2305862484 @default.
W2892391276 cites W2516356017 @default.
W2892391276 cites W2538317713 @default.
W2892391276 cites W2595834889 @default.
W2892391276 cites W2599810842 @default.
W2892391276 cites W2624822497 @default.
W2892391276 cites W2761264366 @default.
W2892391276 cites W2763148304 @default.
W2892391276 cites W2765194641 @default.
W2892391276 cites W2789526630 @default.
W2892391276 cites W2796359647 @default.
W2892391276 cites W3100416079 @default.
W2892391276 cites W4292671739 @default.
W2892391276 doi "https://doi.org/10.1016/j.matchar.2018.09.020" @default.
W2892391276 hasPublicationYear "2018" @default.
W2892391276 type Work @default.
W2892391276 sameAs 2892391276 @default.
W2892391276 citedByCount "33" @default.
W2892391276 countsByYear W28923912762019 @default.
W2892391276 countsByYear W28923912762020 @default.
W2892391276 countsByYear W28923912762021 @default.
W2892391276 countsByYear W28923912762022 @default.
W2892391276 countsByYear W28923912762023 @default.
W2892391276 crossrefType "journal-article" @default.
W2892391276 hasAuthorship W2892391276A5027276858 @default.
W2892391276 hasAuthorship W2892391276A5032474098 @default.
W2892391276 hasAuthorship W2892391276A5034851444 @default.
W2892391276 hasAuthorship W2892391276A5043536344 @default.
W2892391276 hasAuthorship W2892391276A5058181785 @default.
W2892391276 hasAuthorship W2892391276A5064902040 @default.
W2892391276 hasAuthorship W2892391276A5088816007 @default.
W2892391276 hasBestOaLocation W28923912761 @default.
W2892391276 hasConcept C120314980 @default.
W2892391276 hasConcept C127313418 @default.
W2892391276 hasConcept C137637335 @default.
W2892391276 hasConcept C151730666 @default.
W2892391276 hasConcept C154945302 @default.
W2892391276 hasConcept C17744445 @default.
W2892391276 hasConcept C191897082 @default.
W2892391276 hasConcept C192191005 @default.
W2892391276 hasConcept C192562407 @default.
W2892391276 hasConcept C194147245 @default.
W2892391276 hasConcept C195702682 @default.
W2892391276 hasConcept C199539241 @default.
W2892391276 hasConcept C207055975 @default.
W2892391276 hasConcept C27438332 @default.
W2892391276 hasConcept C2776359362 @default.
W2892391276 hasConcept C41008148 @default.
W2892391276 hasConcept C87976508 @default.
W2892391276 hasConcept C94625758 @default.
W2892391276 hasConceptScore W2892391276C120314980 @default.
W2892391276 hasConceptScore W2892391276C127313418 @default.
W2892391276 hasConceptScore W2892391276C137637335 @default.