FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4200263194> ?p ?o ?g. }

• W4200263194 abstract "It is known that starved sulfate-reducing bacterial biofilms corrode carbon steel more aggressively because they use electrons from elemental iron oxidation as an alternative source of energy. This work used carbon source starvation to vary MIC (microbiologically influenced corrosion) severity for studying subsequent MIC impacts on the degradation of X80 carbon steel mechanical properties. X80 square coupons and dogbone coupons were immersed in ATCC 1249 culture medium (200 ml in 450-ml anaerobic bottles) inoculated with Desulfovibrio vulgaris for 3-day pre-growth and then for an additional 14 days in fresh media with adjusted carbon source levels for starvation testing. After the starvation test, the sessile cell counts (cells/cm 2 ) on the dogbone coupons in the bottles with carbon source levels of 0, 10, 50, and 100% (vs that in the full-strength medium) were 8.1 × 10 6 , 3.2 × 10 7 , 8.3 × 10 7 , and 1.3 × 10 8 , respectively. The pit depths from the X80 dogbone coupons were 1.9 μm (0%), 4.9 μm (10%), 9.1 μm (50%), and 6.4 μm (100%). The corresponding weight losses (mg/cm 2 ) from the square coupons were 1.9 (0%), 3.3 (10%), 4.4 (50%), and 3.7 (100%). The 50% carbon source level had the combination of carbon starvation without suffering too much sessile cell loss. Thus, both its pit depth and weight loss were the highest. The electrochemical tests corroborated the pit depth and weight loss trends. The tensile tests of the dogbone coupons after the starvation incubation indicated that sulfate-reducing bacteria (SRB) made X80 more brittle and weaker. Compared with the fresh (no-SRB-exposure) X80 dogbone coupon’s ultimate tensile strain of 13.6% and ultimate tensile stress of 860 MPa, the 50% carbon source level led to the lowest ultimate tensile strain of 10.3% (24% loss when compared with the fresh dogbone) and ultimate tensile stress of 672 MPa (22% loss). The 100% carbon source level had a smaller loss in ultimate tensile strain than the 50% carbon source level, followed by 10% and then 0%. Moreover, the 100% carbon source level had a smaller loss in ultimate tensile strength than the 50%, followed by 10% and 0% in a tie. This outcome shows that even in the 17-day short-term test, significant degradation of the mechanical properties occurred and more severe MIC pitting caused more severe degradation." @default.
• W4200263194 created "2021-12-31" @default.
• W4200263194 creator A5022411520 @default.
• W4200263194 creator A5038201908 @default.
• W4200263194 creator A5041046087 @default.
• W4200263194 creator A5048244360 @default.
• W4200263194 creator A5062120914 @default.
• W4200263194 creator A5075613260 @default.
• W4200263194 creator A5077381834 @default.
• W4200263194 date "2021-12-13" @default.
• W4200263194 modified "2023-10-12" @default.
• W4200263194 title "Carbon Source Starvation of a Sulfate-Reducing Bacterium–Elevated MIC Deterioration of Tensile Strength and Strain of X80 Pipeline Steel" @default.
• W4200263194 cites W1111096302 @default.
• W4200263194 cites W1777077673 @default.
• W4200263194 cites W1907544955 @default.
• W4200263194 cites W1976317980 @default.
• W4200263194 cites W2000555303 @default.
• W4200263194 cites W2021448577 @default.
• W4200263194 cites W2053090328 @default.
• W4200263194 cites W2055705420 @default.
• W4200263194 cites W2057923808 @default.
• W4200263194 cites W205827178 @default.
• W4200263194 cites W2071921371 @default.
• W4200263194 cites W2172276487 @default.
• W4200263194 cites W2319482246 @default.
• W4200263194 cites W2480010979 @default.
• W4200263194 cites W2624857589 @default.
• W4200263194 cites W2724203634 @default.
• W4200263194 cites W2789443544 @default.
• W4200263194 cites W2792861854 @default.
• W4200263194 cites W2802442412 @default.
• W4200263194 cites W2887801779 @default.
• W4200263194 cites W2896705245 @default.
• W4200263194 cites W2898139571 @default.
• W4200263194 cites W2911700901 @default.
• W4200263194 cites W2922750801 @default.
• W4200263194 cites W3037345741 @default.
• W4200263194 cites W3083170692 @default.
• W4200263194 cites W4297938541 @default.
• W4200263194 doi "https://doi.org/10.3389/fmats.2021.794051" @default.
• W4200263194 hasPublicationYear "2021" @default.
• W4200263194 type Work @default.
• W4200263194 citedByCount "3" @default.
• W4200263194 countsByYear W42002631942022 @default.
• W4200263194 countsByYear W42002631942023 @default.
• W4200263194 crossrefType "journal-article" @default.
• W4200263194 hasAuthorship W4200263194A5022411520 @default.
• W4200263194 hasAuthorship W4200263194A5038201908 @default.
• W4200263194 hasAuthorship W4200263194A5041046087 @default.
• W4200263194 hasAuthorship W4200263194A5048244360 @default.
• W4200263194 hasAuthorship W4200263194A5062120914 @default.
• W4200263194 hasAuthorship W4200263194A5075613260 @default.
• W4200263194 hasAuthorship W4200263194A5077381834 @default.
• W4200263194 hasBestOaLocation W42002631941 @default.
• W4200263194 hasConcept C104779481 @default.
• W4200263194 hasConcept C107872376 @default.
• W4200263194 hasConcept C13965031 @default.
• W4200263194 hasConcept C140205800 @default.
• W4200263194 hasConcept C159985019 @default.
• W4200263194 hasConcept C178790620 @default.
• W4200263194 hasConcept C185592680 @default.
• W4200263194 hasConcept C191897082 @default.
• W4200263194 hasConcept C192562407 @default.
• W4200263194 hasConcept C194356953 @default.
• W4200263194 hasConcept C2778343803 @default.
• W4200263194 hasConcept C2781243026 @default.
• W4200263194 hasConcept C2982719155 @default.
• W4200263194 hasConcept C31903555 @default.
• W4200263194 hasConcept C518851703 @default.
• W4200263194 hasConcept C523546767 @default.
• W4200263194 hasConcept C54355233 @default.
• W4200263194 hasConcept C86803240 @default.
• W4200263194 hasConceptScore W4200263194C104779481 @default.
• W4200263194 hasConceptScore W4200263194C107872376 @default.
• W4200263194 hasConceptScore W4200263194C13965031 @default.
• W4200263194 hasConceptScore W4200263194C140205800 @default.
• W4200263194 hasConceptScore W4200263194C159985019 @default.
• W4200263194 hasConceptScore W4200263194C178790620 @default.
• W4200263194 hasConceptScore W4200263194C185592680 @default.
• W4200263194 hasConceptScore W4200263194C191897082 @default.
• W4200263194 hasConceptScore W4200263194C192562407 @default.
• W4200263194 hasConceptScore W4200263194C194356953 @default.
• W4200263194 hasConceptScore W4200263194C2778343803 @default.
• W4200263194 hasConceptScore W4200263194C2781243026 @default.
• W4200263194 hasConceptScore W4200263194C2982719155 @default.
• W4200263194 hasConceptScore W4200263194C31903555 @default.
• W4200263194 hasConceptScore W4200263194C518851703 @default.
• W4200263194 hasConceptScore W4200263194C523546767 @default.
• W4200263194 hasConceptScore W4200263194C54355233 @default.
• W4200263194 hasConceptScore W4200263194C86803240 @default.
• W4200263194 hasLocation W42002631941 @default.
• W4200263194 hasLocation W42002631942 @default.
• W4200263194 hasOpenAccess W4200263194 @default.
• W4200263194 hasPrimaryLocation W42002631941 @default.
• W4200263194 hasRelatedWork W1632612719 @default.
• W4200263194 hasRelatedWork W1907544955 @default.
• W4200263194 hasRelatedWork W1993054638 @default.
• W4200263194 hasRelatedWork W2071640694 @default.
• W4200263194 hasRelatedWork W2469709746 @default.
• W4200263194 hasRelatedWork W2792602872 @default.

• next