SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2885191500> ?p ?o ?g. }

Showing items 1 to 88 of 88 with 100 items per page.

W2885191500 endingPage "25" @default.
W2885191500 startingPage "15" @default.
W2885191500 abstract "Coatings were prepared on 5005 Al alloy surfaces at various negative voltages by plasma electrolytic oxidation, with addition of red mud (RM, 2 g L−1). The effects of the negative voltage on the coating composition, structure, and corrosion resistance were investigated. Various effects were observed with increasing negative voltage. The current density on the sample surface increased, the breakdown function was enhanced, and the RM concentration in the coating increased. The color of the ceramic layer changed from white to reddish brown and continuously deepened, consistent with the RM color. The coating grew faster and the thickness increased, and the overall compactness first increased and then decreased. The coating surface roughness gradually decreased and the surface porosity fluctuated greatly. A negative voltage of 100 V gave the best surface porosity and overall compactness. The XRD patterns showed that the coating consisted mainly of γ-Al2O3 when the negative voltage was small, an increase in the negative voltage led to formation of α-Al2O3 and CaCO3. Fe2O3, CaTiO3, and SiO2 were identified in the coatings by a combination of XRD and EDS analyses, and their contents increased. The coating corrosion resistance first increased and then decreased; a negative voltage of 100 V gave the best corrosion resistance. The presence of RM constituents in the coating with a dense composite structure effectively reduced the corrosion depth of the coating." @default.
W2885191500 created "2018-08-22" @default.
W2885191500 creator A5030146831 @default.
W2885191500 creator A5070063847 @default.
W2885191500 date "2018-10-01" @default.
W2885191500 modified "2023-09-23" @default.
W2885191500 title "Effects of negative voltage on microstructure and corrosion resistance of red mud plasma electrolytic oxidation coatings" @default.
W2885191500 cites W1607100056 @default.
W2885191500 cites W1972717604 @default.
W2885191500 cites W1978837222 @default.
W2885191500 cites W1982294174 @default.
W2885191500 cites W2004091419 @default.
W2885191500 cites W2018415549 @default.
W2885191500 cites W2025087488 @default.
W2885191500 cites W2026945006 @default.
W2885191500 cites W2026961535 @default.
W2885191500 cites W2038445529 @default.
W2885191500 cites W2041322593 @default.
W2885191500 cites W2041402089 @default.
W2885191500 cites W2068871346 @default.
W2885191500 cites W2078138511 @default.
W2885191500 cites W2089209643 @default.
W2885191500 cites W2125540410 @default.
W2885191500 cites W2277746637 @default.
W2885191500 cites W2736027710 @default.
W2885191500 cites W2792252698 @default.
W2885191500 doi "https://doi.org/10.1016/j.surfcoat.2018.07.080" @default.
W2885191500 hasPublicationYear "2018" @default.
W2885191500 type Work @default.
W2885191500 sameAs 2885191500 @default.
W2885191500 citedByCount "19" @default.
W2885191500 countsByYear W28851915002018 @default.
W2885191500 countsByYear W28851915002019 @default.
W2885191500 countsByYear W28851915002020 @default.
W2885191500 countsByYear W28851915002021 @default.
W2885191500 countsByYear W28851915002022 @default.
W2885191500 countsByYear W28851915002023 @default.
W2885191500 crossrefType "journal-article" @default.
W2885191500 hasAuthorship W2885191500A5030146831 @default.
W2885191500 hasAuthorship W2885191500A5070063847 @default.
W2885191500 hasConcept C107365816 @default.
W2885191500 hasConcept C147789679 @default.
W2885191500 hasConcept C159985019 @default.
W2885191500 hasConcept C17525397 @default.
W2885191500 hasConcept C185592680 @default.
W2885191500 hasConcept C191897082 @default.
W2885191500 hasConcept C192562407 @default.
W2885191500 hasConcept C20625102 @default.
W2885191500 hasConcept C2777578362 @default.
W2885191500 hasConcept C2779227376 @default.
W2885191500 hasConcept C2781448156 @default.
W2885191500 hasConcept C6648577 @default.
W2885191500 hasConcept C68801617 @default.
W2885191500 hasConcept C87976508 @default.
W2885191500 hasConceptScore W2885191500C107365816 @default.
W2885191500 hasConceptScore W2885191500C147789679 @default.
W2885191500 hasConceptScore W2885191500C159985019 @default.
W2885191500 hasConceptScore W2885191500C17525397 @default.
W2885191500 hasConceptScore W2885191500C185592680 @default.
W2885191500 hasConceptScore W2885191500C191897082 @default.
W2885191500 hasConceptScore W2885191500C192562407 @default.
W2885191500 hasConceptScore W2885191500C20625102 @default.
W2885191500 hasConceptScore W2885191500C2777578362 @default.
W2885191500 hasConceptScore W2885191500C2779227376 @default.
W2885191500 hasConceptScore W2885191500C2781448156 @default.
W2885191500 hasConceptScore W2885191500C6648577 @default.
W2885191500 hasConceptScore W2885191500C68801617 @default.
W2885191500 hasConceptScore W2885191500C87976508 @default.
W2885191500 hasLocation W28851915001 @default.
W2885191500 hasOpenAccess W2885191500 @default.
W2885191500 hasPrimaryLocation W28851915001 @default.
W2885191500 hasRelatedWork W2034517149 @default.
W2885191500 hasRelatedWork W2348021511 @default.
W2885191500 hasRelatedWork W2380617656 @default.
W2885191500 hasRelatedWork W2883324369 @default.
W2885191500 hasRelatedWork W3089681302 @default.
W2885191500 hasRelatedWork W3097783663 @default.
W2885191500 hasRelatedWork W3199974391 @default.
W2885191500 hasRelatedWork W4221060116 @default.
W2885191500 hasRelatedWork W4366773648 @default.
W2885191500 hasRelatedWork W71457746 @default.
W2885191500 hasVolume "352" @default.
W2885191500 isParatext "false" @default.
W2885191500 isRetracted "false" @default.
W2885191500 magId "2885191500" @default.
W2885191500 workType "article" @default.