FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4376138748> ?p ?o ?g. }

• W4376138748 endingPage "5906" @default.
• W4376138748 startingPage "5906" @default.
• W4376138748 abstract "The constant fluctuation of thermal loads on steel members, especially during construction, causes non-uniform distributions of temperatures, resulting in possible constructional and structural defects leading to unfavorable thermally induced responses and potential safety risks. The Canadian Highway Bridge Design Code (CHBDC) provides one thermal gradient variation profile without accounting for the differences in the geometrical parameters of the steel members and the variations in the climate regions of Canada. Therefore, in this study, three-dimensional finite element (FE) thermal simulations were conducted to investigate the maximum effective temperatures and positive vertical thermal gradients for different Canadian climate regions. Parametric studies were performed to conduct the FE thermal analysis using the thermal model validated in ANSYS. The comprehensive study results showed that Canada could be divided into two main zones for vertical thermal gradient calculations, meaning that one stationary thermal gradient profile cannot be applicable to all climate regions of Canada, as recommended by the CHBDC. Based on the FE thermal analysis results, empirical formulas as a function of the significant parameters were proposed to predict the maximum effective temperature and thermal gradient variations of the steel I-girder. The predicted maximum effective temperature and thermal gradient variation values were found to be highly correlated with the FE values with coefficients of determination R2 of approximately 0.97 and 0.98, respectively." @default.
• W4376138748 created "2023-05-12" @default.
• W4376138748 creator A5004410695 @default.
• W4376138748 creator A5088869364 @default.
• W4376138748 date "2023-05-10" @default.
• W4376138748 modified "2023-09-30" @default.
• W4376138748 title "Predicting Maximum Effective Temperatures and Thermal Gradients for Steel I-Girder in Canadian Climate Regions" @default.
• W4376138748 cites W2044880101 @default.
• W4376138748 cites W2075282309 @default.
• W4376138748 cites W2079101494 @default.
• W4376138748 cites W2127139651 @default.
• W4376138748 cites W2208835302 @default.
• W4376138748 cites W2215263235 @default.
• W4376138748 cites W2563214014 @default.
• W4376138748 cites W2586617789 @default.
• W4376138748 cites W2612659281 @default.
• W4376138748 cites W2617049194 @default.
• W4376138748 cites W2769189080 @default.
• W4376138748 cites W2912652740 @default.
• W4376138748 cites W2944787403 @default.
• W4376138748 cites W2945495420 @default.
• W4376138748 cites W2947060703 @default.
• W4376138748 cites W2975968629 @default.
• W4376138748 cites W297724993 @default.
• W4376138748 cites W3017849396 @default.
• W4376138748 cites W3035551840 @default.
• W4376138748 cites W3035557504 @default.
• W4376138748 cites W3036951823 @default.
• W4376138748 cites W3042254927 @default.
• W4376138748 cites W3046663423 @default.
• W4376138748 cites W3049311495 @default.
• W4376138748 cites W3081994240 @default.
• W4376138748 cites W3112466899 @default.
• W4376138748 cites W3115771267 @default.
• W4376138748 cites W3205744614 @default.
• W4376138748 cites W4229771931 @default.
• W4376138748 cites W4281262805 @default.
• W4376138748 cites W4283161976 @default.
• W4376138748 cites W4306407913 @default.
• W4376138748 cites W83015800 @default.
• W4376138748 doi "https://doi.org/10.3390/app13105906" @default.
• W4376138748 hasPublicationYear "2023" @default.
• W4376138748 type Work @default.
• W4376138748 citedByCount "1" @default.
• W4376138748 countsByYear W43761387482023 @default.
• W4376138748 crossrefType "journal-article" @default.
• W4376138748 hasAuthorship W4376138748A5004410695 @default.
• W4376138748 hasAuthorship W4376138748A5088869364 @default.
• W4376138748 hasBestOaLocation W43761387481 @default.
• W4376138748 hasConcept C105795698 @default.
• W4376138748 hasConcept C117251300 @default.
• W4376138748 hasConcept C127413603 @default.
• W4376138748 hasConcept C135628077 @default.
• W4376138748 hasConcept C137109543 @default.
• W4376138748 hasConcept C153294291 @default.
• W4376138748 hasConcept C192562407 @default.
• W4376138748 hasConcept C204530211 @default.
• W4376138748 hasConcept C205649164 @default.
• W4376138748 hasConcept C33923547 @default.
• W4376138748 hasConcept C66938386 @default.
• W4376138748 hasConceptScore W4376138748C105795698 @default.
• W4376138748 hasConceptScore W4376138748C117251300 @default.
• W4376138748 hasConceptScore W4376138748C127413603 @default.
• W4376138748 hasConceptScore W4376138748C135628077 @default.
• W4376138748 hasConceptScore W4376138748C137109543 @default.
• W4376138748 hasConceptScore W4376138748C153294291 @default.
• W4376138748 hasConceptScore W4376138748C192562407 @default.
• W4376138748 hasConceptScore W4376138748C204530211 @default.
• W4376138748 hasConceptScore W4376138748C205649164 @default.
• W4376138748 hasConceptScore W4376138748C33923547 @default.
• W4376138748 hasConceptScore W4376138748C66938386 @default.
• W4376138748 hasIssue "10" @default.
• W4376138748 hasLocation W43761387481 @default.
• W4376138748 hasOpenAccess W4376138748 @default.
• W4376138748 hasPrimaryLocation W43761387481 @default.
• W4376138748 hasRelatedWork W1528740851 @default.
• W4376138748 hasRelatedWork W1976313775 @default.
• W4376138748 hasRelatedWork W2056104686 @default.
• W4376138748 hasRelatedWork W2080669347 @default.
• W4376138748 hasRelatedWork W2090683264 @default.
• W4376138748 hasRelatedWork W2313931884 @default.
• W4376138748 hasRelatedWork W2359118882 @default.
• W4376138748 hasRelatedWork W2387884648 @default.
• W4376138748 hasRelatedWork W2394336434 @default.
• W4376138748 hasRelatedWork W4210517524 @default.
• W4376138748 hasVolume "13" @default.
• W4376138748 isParatext "false" @default.
• W4376138748 isRetracted "false" @default.
• W4376138748 workType "article" @default.