SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4310275938> ?p ?o ?g. }

Showing items 1 to 100 of ±149 with 100 items per page.

W4310275938 endingPage "118552" @default.
W4310275938 startingPage "118552" @default.
W4310275938 abstract "Destructive techniques to monitor nuclear reactor component health may not always be available during service, as they are time-consuming and often require pre-installed inspection coupons. Non-destructive evaluation (NDE) techniques can bridge this gap by rapidly identifying the state of mission-critical reactor components, via inference between NDE-measurable material properties and those of ultimate interest, such as ductility and toughness. Here, we demonstrate one such inference about the health of thermally aged cast austenitic stainless steels. Observations of surface acoustic wave peak (SAW) splitting correlate with spinodal decomposition-induced embrittlement as destructively measured by Charpy impact energy. Elastodynamic calculations and molecular dynamics simulations of the effects of spinodal decomposition on elastic moduli support that the new acoustic modes present are due to stiffening in the δ-ferrite domains. This discovery enables one to probe structure-property relationships in materials in a greatly accelerated manner, suggesting that similar inference methods can be used to determine material fitness-for-service, or to quickly uncover new structure-property relationships." @default.
W4310275938 created "2022-11-30" @default.
W4310275938 creator A5002568210 @default.
W4310275938 creator A5027571010 @default.
W4310275938 creator A5028635341 @default.
W4310275938 creator A5036491240 @default.
W4310275938 creator A5040533457 @default.
W4310275938 creator A5045376460 @default.
W4310275938 creator A5046422123 @default.
W4310275938 creator A5049914443 @default.
W4310275938 creator A5052914906 @default.
W4310275938 creator A5055346652 @default.
W4310275938 creator A5063780557 @default.
W4310275938 creator A5067889024 @default.
W4310275938 creator A5085676061 @default.
W4310275938 creator A5090203585 @default.
W4310275938 creator A5091091127 @default.
W4310275938 date "2023-03-01" @default.
W4310275938 modified "2023-09-26" @default.
W4310275938 title "Detecting Thermally-Induced Spinodal Decomposition with Picosecond Ultrasonics in Cast Austenitic Stainless Steels" @default.
W4310275938 cites W1128210126 @default.
W4310275938 cites W1159545611 @default.
W4310275938 cites W1646693469 @default.
W4310275938 cites W1965172091 @default.
W4310275938 cites W1970601136 @default.
W4310275938 cites W1978620680 @default.
W4310275938 cites W1986010680 @default.
W4310275938 cites W1991494207 @default.
W4310275938 cites W1996142118 @default.
W4310275938 cites W2002766166 @default.
W4310275938 cites W2003444210 @default.
W4310275938 cites W2004723626 @default.
W4310275938 cites W2013571833 @default.
W4310275938 cites W2014267759 @default.
W4310275938 cites W2016365224 @default.
W4310275938 cites W2018666602 @default.
W4310275938 cites W2019068501 @default.
W4310275938 cites W2019465613 @default.
W4310275938 cites W2019619708 @default.
W4310275938 cites W2020275057 @default.
W4310275938 cites W2030488263 @default.
W4310275938 cites W2031078843 @default.
W4310275938 cites W2038576438 @default.
W4310275938 cites W2043976852 @default.
W4310275938 cites W2049751910 @default.
W4310275938 cites W2050076770 @default.
W4310275938 cites W2059998760 @default.
W4310275938 cites W2070596332 @default.
W4310275938 cites W2074442423 @default.
W4310275938 cites W2076737061 @default.
W4310275938 cites W2083889688 @default.
W4310275938 cites W2086933933 @default.
W4310275938 cites W2091202444 @default.
W4310275938 cites W2142887289 @default.
W4310275938 cites W2155761322 @default.
W4310275938 cites W2168175751 @default.
W4310275938 cites W2173617846 @default.
W4310275938 cites W2289987458 @default.
W4310275938 cites W2326732809 @default.
W4310275938 cites W2565252705 @default.
W4310275938 cites W2606075282 @default.
W4310275938 cites W2617287240 @default.
W4310275938 cites W2777584258 @default.
W4310275938 cites W2806418718 @default.
W4310275938 cites W2892131568 @default.
W4310275938 cites W2931489581 @default.
W4310275938 cites W2950819616 @default.
W4310275938 cites W3087564388 @default.
W4310275938 cites W3098243865 @default.
W4310275938 cites W3104328267 @default.
W4310275938 cites W3128486001 @default.
W4310275938 cites W899229383 @default.
W4310275938 doi "https://doi.org/10.1016/j.actamat.2022.118552" @default.
W4310275938 hasPublicationYear "2023" @default.
W4310275938 type Work @default.
W4310275938 citedByCount "1" @default.
W4310275938 countsByYear W43102759382023 @default.
W4310275938 crossrefType "journal-article" @default.
W4310275938 hasAuthorship W4310275938A5002568210 @default.
W4310275938 hasAuthorship W4310275938A5027571010 @default.
W4310275938 hasAuthorship W4310275938A5028635341 @default.
W4310275938 hasAuthorship W4310275938A5036491240 @default.
W4310275938 hasAuthorship W4310275938A5040533457 @default.
W4310275938 hasAuthorship W4310275938A5045376460 @default.
W4310275938 hasAuthorship W4310275938A5046422123 @default.
W4310275938 hasAuthorship W4310275938A5049914443 @default.
W4310275938 hasAuthorship W4310275938A5052914906 @default.
W4310275938 hasAuthorship W4310275938A5055346652 @default.
W4310275938 hasAuthorship W4310275938A5063780557 @default.
W4310275938 hasAuthorship W4310275938A5067889024 @default.
W4310275938 hasAuthorship W4310275938A5085676061 @default.
W4310275938 hasAuthorship W4310275938A5090203585 @default.
W4310275938 hasAuthorship W4310275938A5091091127 @default.
W4310275938 hasBestOaLocation W43102759383 @default.
W4310275938 hasConcept C108729823 @default.
W4310275938 hasConcept C127205250 @default.
W4310275938 hasConcept C142282041 @default.
W4310275938 hasConcept C159985019 @default.