FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3081282884> ?p ?o ?g. }

• W3081282884 endingPage "156824" @default.
• W3081282884 startingPage "156824" @default.
• W3081282884 abstract "In the present work, microstructure and texture evolution during multi-step cross rolling of a β-Ti alloy was investigated. The as-received samples were cross rolled in a laboratory rolling mill to 20%, 40%, 60% and 80% thickness reduction. Optical microscopy (OM) and scanning electron microscopy (SEM) were used to observe the changes in microstructure, while the changes in bulk texture were evaluated using X-ray diffraction. The as-received sample consisted of equiaxed as well as elongated grains. Equivalent circle average grain size (AGS) and the average band thickness (ABT) along normal direction (ND) for as-received β-Ti sample was 50 ± 3 μm and 27 ± 1.8 μm respectively. The AGS and ABT decreased with increase in cold rolling reduction (for 80% cold rolled sample ABT was 7.5 ± 2.3 μm). Another important feature was the presence of strain localizations in the cold rolled samples, the frequency of which increased with increase in strain. The as-received sample showed the presence of α (rolling direction RD//<110>) and γ (ND//<111>) fibers. At highest strain (80% cold rolling), rotated cube ({100}<110>) component was found to be significantly stronger than the γ-fiber texture. Visco-Plastic Self Consistent (VPSC) model was used for the simulation of texture during cold cross rolling. Qualitatively, full constraint VPSC model was found to match reasonably well with the experimental data. α-Fiber, γ-fiber and rotated cube were over estimated in the VPSC texture predictions." @default.
• W3081282884 created "2020-09-01" @default.
• W3081282884 creator A5005549073 @default.
• W3081282884 creator A5008171907 @default.
• W3081282884 creator A5056228577 @default.
• W3081282884 creator A5080279525 @default.
• W3081282884 date "2021-01-01" @default.
• W3081282884 modified "2023-10-18" @default.
• W3081282884 title "Texture development during multi-step cross rolling of a β titanium alloy: Experiments and simulations" @default.
• W3081282884 cites W1865997253 @default.
• W3081282884 cites W1931529948 @default.
• W3081282884 cites W1964621570 @default.
• W3081282884 cites W1970060047 @default.
• W3081282884 cites W1978281224 @default.
• W3081282884 cites W1978323586 @default.
• W3081282884 cites W1978558451 @default.
• W3081282884 cites W1985042694 @default.
• W3081282884 cites W1985534176 @default.
• W3081282884 cites W1991824779 @default.
• W3081282884 cites W1991865048 @default.
• W3081282884 cites W1993137635 @default.
• W3081282884 cites W2009691576 @default.
• W3081282884 cites W2017914910 @default.
• W3081282884 cites W2026576633 @default.
• W3081282884 cites W2036952975 @default.
• W3081282884 cites W2040957151 @default.
• W3081282884 cites W2040987046 @default.
• W3081282884 cites W2052632525 @default.
• W3081282884 cites W2053094271 @default.
• W3081282884 cites W2057405401 @default.
• W3081282884 cites W2057809451 @default.
• W3081282884 cites W2057862952 @default.
• W3081282884 cites W2058191478 @default.
• W3081282884 cites W2059158063 @default.
• W3081282884 cites W2059286614 @default.
• W3081282884 cites W2062527495 @default.
• W3081282884 cites W2064549119 @default.
• W3081282884 cites W2065322377 @default.
• W3081282884 cites W2065824798 @default.
• W3081282884 cites W2072498174 @default.
• W3081282884 cites W2075807513 @default.
• W3081282884 cites W2077023645 @default.
• W3081282884 cites W2077776027 @default.
• W3081282884 cites W2081007772 @default.
• W3081282884 cites W2081010155 @default.
• W3081282884 cites W2082897048 @default.
• W3081282884 cites W2088602779 @default.
• W3081282884 cites W2091646331 @default.
• W3081282884 cites W2092762471 @default.
• W3081282884 cites W2092883315 @default.
• W3081282884 cites W2105128588 @default.
• W3081282884 cites W2106470084 @default.
• W3081282884 cites W2123548694 @default.
• W3081282884 cites W2125269356 @default.
• W3081282884 cites W2146396383 @default.
• W3081282884 cites W2166626087 @default.
• W3081282884 cites W2169110703 @default.
• W3081282884 cites W2315588870 @default.
• W3081282884 cites W2516185234 @default.
• W3081282884 cites W2521668489 @default.
• W3081282884 cites W2602668459 @default.
• W3081282884 cites W2602842761 @default.
• W3081282884 cites W2610777877 @default.
• W3081282884 cites W2773005771 @default.
• W3081282884 cites W2778631260 @default.
• W3081282884 cites W2792977969 @default.
• W3081282884 cites W2796464847 @default.
• W3081282884 cites W2804179064 @default.
• W3081282884 cites W2805440421 @default.
• W3081282884 cites W2918972373 @default.
• W3081282884 cites W2948068622 @default.
• W3081282884 cites W2969746466 @default.
• W3081282884 doi "https://doi.org/10.1016/j.jallcom.2020.156824" @default.
• W3081282884 hasPublicationYear "2021" @default.
• W3081282884 type Work @default.
• W3081282884 sameAs 3081282884 @default.
• W3081282884 citedByCount "15" @default.
• W3081282884 countsByYear W30812828842021 @default.
• W3081282884 countsByYear W30812828842022 @default.
• W3081282884 countsByYear W30812828842023 @default.
• W3081282884 crossrefType "journal-article" @default.
• W3081282884 hasAuthorship W3081282884A5005549073 @default.
• W3081282884 hasAuthorship W3081282884A5008171907 @default.
• W3081282884 hasAuthorship W3081282884A5056228577 @default.
• W3081282884 hasAuthorship W3081282884A5080279525 @default.
• W3081282884 hasConcept C115961682 @default.
• W3081282884 hasConcept C154945302 @default.
• W3081282884 hasConcept C159985019 @default.
• W3081282884 hasConcept C191897082 @default.
• W3081282884 hasConcept C192191005 @default.
• W3081282884 hasConcept C192562407 @default.
• W3081282884 hasConcept C26771246 @default.
• W3081282884 hasConcept C2780026712 @default.
• W3081282884 hasConcept C2781195486 @default.
• W3081282884 hasConcept C41008148 @default.
• W3081282884 hasConcept C519885992 @default.
• W3081282884 hasConcept C77017923 @default.
• W3081282884 hasConcept C81710450 @default.

• next