FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2896465556> ?p ?o ?g. }

• W2896465556 endingPage "182" @default.
• W2896465556 startingPage "171" @default.
• W2896465556 abstract "The phase transformation behaviors of ultrathin Cu film under uniaxial tensile stress are investigated using molecular dynamic simulation. With the stress increasing, Cu film undergoes a successive phase transformation, i.e. firstly fcc→bcc, then bcc→hcp. The phase transformation process is very fast and thorough, i.e., all parents phase can transit into the new phase almost instantaneously. The crystallography mechanisms of two martensitic transformations are exactly corresponding to Bain and Burgers mechanism, respectively. By examining the formation conditions of such phase transformation in Cu film, we reveal that this fcc→bcc→hcp successive phase transformation will be subject to the very strict simulation conditions, namely stretching along [100] （or [010], [001]）direction, definitive tensile speed (1 × 1010/s), appropriate film thickness (0.7230–18.08 nm), low temperature (T ≤ 10 K), and continuous stretching process without any relaxation procedure." @default.
• W2896465556 created "2018-10-26" @default.
• W2896465556 creator A5003516874 @default.
• W2896465556 creator A5007490228 @default.
• W2896465556 creator A5027194508 @default.
• W2896465556 creator A5071978385 @default.
• W2896465556 creator A5074710281 @default.
• W2896465556 date "2019-02-01" @default.
• W2896465556 modified "2023-10-16" @default.
• W2896465556 title "Fcc→bcc→hcp successive phase transformations in the strained ultrathin copper film: A molecular dynamic simulation study" @default.
• W2896465556 cites W1822722359 @default.
• W2896465556 cites W1967091917 @default.
• W2896465556 cites W1970632979 @default.
• W2896465556 cites W1970669298 @default.
• W2896465556 cites W1974224618 @default.
• W2896465556 cites W1977726728 @default.
• W2896465556 cites W1982508378 @default.
• W2896465556 cites W1985272737 @default.
• W2896465556 cites W1988079673 @default.
• W2896465556 cites W1988976710 @default.
• W2896465556 cites W1990999035 @default.
• W2896465556 cites W2004635538 @default.
• W2896465556 cites W2007316530 @default.
• W2896465556 cites W2010160706 @default.
• W2896465556 cites W2012325323 @default.
• W2896465556 cites W2016007037 @default.
• W2896465556 cites W2019465613 @default.
• W2896465556 cites W2020178477 @default.
• W2896465556 cites W2020832027 @default.
• W2896465556 cites W2034703301 @default.
• W2896465556 cites W2037530567 @default.
• W2896465556 cites W2041160506 @default.
• W2896465556 cites W2042227271 @default.
• W2896465556 cites W2044778888 @default.
• W2896465556 cites W2045721763 @default.
• W2896465556 cites W2046979025 @default.
• W2896465556 cites W2049980429 @default.
• W2896465556 cites W2052145278 @default.
• W2896465556 cites W2056040596 @default.
• W2896465556 cites W2059259073 @default.
• W2896465556 cites W2061617343 @default.
• W2896465556 cites W2064954205 @default.
• W2896465556 cites W2068029474 @default.
• W2896465556 cites W2068954018 @default.
• W2896465556 cites W2074347524 @default.
• W2896465556 cites W2079897232 @default.
• W2896465556 cites W2080976769 @default.
• W2896465556 cites W2084298522 @default.
• W2896465556 cites W2089052331 @default.
• W2896465556 cites W2089882327 @default.
• W2896465556 cites W2092437220 @default.
• W2896465556 cites W2105588569 @default.
• W2896465556 cites W2118785939 @default.
• W2896465556 cites W2120285241 @default.
• W2896465556 cites W2150437928 @default.
• W2896465556 cites W2158386952 @default.
• W2896465556 cites W2326773168 @default.
• W2896465556 cites W2518691405 @default.
• W2896465556 cites W2707411999 @default.
• W2896465556 cites W2742323416 @default.
• W2896465556 doi "https://doi.org/10.1016/j.matchemphys.2018.09.045" @default.
• W2896465556 hasPublicationYear "2019" @default.
• W2896465556 type Work @default.
• W2896465556 sameAs 2896465556 @default.
• W2896465556 citedByCount "20" @default.
• W2896465556 countsByYear W28964655562019 @default.
• W2896465556 countsByYear W28964655562020 @default.
• W2896465556 countsByYear W28964655562021 @default.
• W2896465556 countsByYear W28964655562022 @default.
• W2896465556 countsByYear W28964655562023 @default.
• W2896465556 crossrefType "journal-article" @default.
• W2896465556 hasAuthorship W2896465556A5003516874 @default.
• W2896465556 hasAuthorship W2896465556A5007490228 @default.
• W2896465556 hasAuthorship W2896465556A5027194508 @default.
• W2896465556 hasAuthorship W2896465556A5071978385 @default.
• W2896465556 hasAuthorship W2896465556A5074710281 @default.
• W2896465556 hasBestOaLocation W28964655562 @default.
• W2896465556 hasConcept C104317684 @default.
• W2896465556 hasConcept C112950240 @default.
• W2896465556 hasConcept C121332964 @default.
• W2896465556 hasConcept C138885662 @default.
• W2896465556 hasConcept C147597530 @default.
• W2896465556 hasConcept C149912024 @default.
• W2896465556 hasConcept C15744967 @default.
• W2896465556 hasConcept C159985019 @default.
• W2896465556 hasConcept C178790620 @default.
• W2896465556 hasConcept C185592680 @default.
• W2896465556 hasConcept C18747287 @default.
• W2896465556 hasConcept C191897082 @default.
• W2896465556 hasConcept C192562407 @default.
• W2896465556 hasConcept C202974441 @default.
• W2896465556 hasConcept C204241405 @default.
• W2896465556 hasConcept C21036866 @default.
• W2896465556 hasConcept C26873012 @default.
• W2896465556 hasConcept C2776029896 @default.
• W2896465556 hasConcept C41895202 @default.
• W2896465556 hasConcept C44280652 @default.
• W2896465556 hasConcept C544778455 @default.

• next