SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2149185524> ?p ?o ?g. }

Showing items 1 to 100 of ±148 with 100 items per page.

W2149185524 endingPage "15123" @default.
W2149185524 startingPage "15105" @default.
W2149185524 abstract "Premature failure in polycrystalline materials due to hydrogen absorption affects a wide range of applications, including clean energy systems, hydrogen storage systems and rocket engines. A good understanding of the diffusion and trapping processes within such materials can inform material choices and component design to reduce the likelihood of such failures. Grain boundary segregation of hydrogen can often lead to intergranular hydrogen embrittlement (IHE). In order to understand the effects of hydrogen on intergranular and transgranular fracture in polycrystalline material it is important to first understand hydrogen diffusion and trapping in the general context of grain boundary segregation engineering (GBSE). Hydrogen diffusion is affected by local microstructural features including intergranular second phase precipitates, grain boundary (GB) thicknesses and geometrically necessary dislocation (GND) density. A multi-scale multi-phase model is presented here that has been developed to study GBSE with respect to hydrogen diffusion and IHE. The results of various multi-scale GBSE models with and without traps (including the effects of microstructure, intergranular precipitate phases and GB thickness) are compared and discussed, and the effects of microstructural parameters such as hydrogen segregation factor and GND trapping density on hydrogen diffusion are investigated." @default.
W2149185524 created "2016-06-24" @default.
W2149185524 creator A5029153021 @default.
W2149185524 creator A5031298548 @default.
W2149185524 creator A5041327255 @default.
W2149185524 creator A5061613504 @default.
W2149185524 creator A5061814976 @default.
W2149185524 date "2015-11-01" @default.
W2149185524 modified "2023-10-11" @default.
W2149185524 title "Multi-phase modelling of intergranular hydrogen segregation/trapping for hydrogen embrittlement" @default.
W2149185524 cites W1963876001 @default.
W2149185524 cites W1969858322 @default.
W2149185524 cites W1974503208 @default.
W2149185524 cites W1974910191 @default.
W2149185524 cites W1975261029 @default.
W2149185524 cites W1984554822 @default.
W2149185524 cites W1985050428 @default.
W2149185524 cites W1985460749 @default.
W2149185524 cites W1988841058 @default.
W2149185524 cites W1989646665 @default.
W2149185524 cites W1991219129 @default.
W2149185524 cites W1998614365 @default.
W2149185524 cites W1998679105 @default.
W2149185524 cites W2000710528 @default.
W2149185524 cites W2003971102 @default.
W2149185524 cites W2013301447 @default.
W2149185524 cites W2016644917 @default.
W2149185524 cites W2016852661 @default.
W2149185524 cites W2021461489 @default.
W2149185524 cites W2023428966 @default.
W2149185524 cites W2024702330 @default.
W2149185524 cites W2027931888 @default.
W2149185524 cites W2031827870 @default.
W2149185524 cites W2032648385 @default.
W2149185524 cites W2035579138 @default.
W2149185524 cites W2039947122 @default.
W2149185524 cites W2045717515 @default.
W2149185524 cites W2046957782 @default.
W2149185524 cites W2051174160 @default.
W2149185524 cites W2052773937 @default.
W2149185524 cites W2055021376 @default.
W2149185524 cites W2059385141 @default.
W2149185524 cites W2064711178 @default.
W2149185524 cites W2065175907 @default.
W2149185524 cites W2067314341 @default.
W2149185524 cites W2068582055 @default.
W2149185524 cites W2069283378 @default.
W2149185524 cites W2076717360 @default.
W2149185524 cites W2079299139 @default.
W2149185524 cites W2079967968 @default.
W2149185524 cites W2080099522 @default.
W2149185524 cites W2083600722 @default.
W2149185524 cites W2084890343 @default.
W2149185524 cites W2086860403 @default.
W2149185524 cites W2087688323 @default.
W2149185524 cites W2087747118 @default.
W2149185524 cites W2087822857 @default.
W2149185524 cites W2089921235 @default.
W2149185524 cites W2093274691 @default.
W2149185524 cites W2093627504 @default.
W2149185524 cites W2095222751 @default.
W2149185524 cites W2097487529 @default.
W2149185524 cites W2109721025 @default.
W2149185524 cites W2134543293 @default.
W2149185524 cites W2199453004 @default.
W2149185524 cites W4211149818 @default.
W2149185524 cites W4254878902 @default.
W2149185524 doi "https://doi.org/10.1016/j.ijhydene.2015.08.093" @default.
W2149185524 hasPublicationYear "2015" @default.
W2149185524 type Work @default.
W2149185524 sameAs 2149185524 @default.
W2149185524 citedByCount "31" @default.
W2149185524 countsByYear W21491855242016 @default.
W2149185524 countsByYear W21491855242017 @default.
W2149185524 countsByYear W21491855242018 @default.
W2149185524 countsByYear W21491855242019 @default.
W2149185524 countsByYear W21491855242020 @default.
W2149185524 countsByYear W21491855242021 @default.
W2149185524 countsByYear W21491855242022 @default.
W2149185524 countsByYear W21491855242023 @default.
W2149185524 crossrefType "journal-article" @default.
W2149185524 hasAuthorship W2149185524A5029153021 @default.
W2149185524 hasAuthorship W2149185524A5031298548 @default.
W2149185524 hasAuthorship W2149185524A5041327255 @default.
W2149185524 hasAuthorship W2149185524A5061613504 @default.
W2149185524 hasAuthorship W2149185524A5061814976 @default.
W2149185524 hasBestOaLocation W21491855242 @default.
W2149185524 hasConcept C121332964 @default.
W2149185524 hasConcept C137637335 @default.
W2149185524 hasConcept C142282041 @default.
W2149185524 hasConcept C151730666 @default.
W2149185524 hasConcept C178790620 @default.
W2149185524 hasConcept C184102282 @default.
W2149185524 hasConcept C185592680 @default.
W2149185524 hasConcept C191897082 @default.
W2149185524 hasConcept C192562407 @default.
W2149185524 hasConcept C20625102 @default.
W2149185524 hasConcept C2779343474 @default.