FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4387501388> ?p ?o ?g. }

• W4387501388 endingPage "128554" @default.
• W4387501388 startingPage "128554" @default.
• W4387501388 abstract "This study investigates the cost-effective synthesis and thermomechanical processing of AlxCoCrFeNiCuy (x&y = 0.5,1) high-entropy alloys through cold (CR) and hot rolling (HR). The alloys were synthesized using a thermochemical modelling-assisted aluminothermic non-centrifugal, self-propagating high-temperature synthesis (SHS) method, which is reported for the first time in the literature. Remelting and suction casting were conducted via vacuum arc melting upon the compositional verification through x-ray fluorescence (XRF) and energy dispersive spectroscopy (EDS) analyses. The deformabilities and hardness values of the alloys were correlated with microstructural changes that were analysed through scanning and transmission electron microscopy (SEM, TEM). Among the master alloys, FCC-A1 based Al0.5CoCrFeNiCu0.5 (Al0.5Cu0.5) and Al0.5CoCrFeNiCu (Al0.5Cu1.0) alloys exhibited highest cold deformability (145% and 170%, respectively), accompanied by significant work hardening (114% and 108% increase in hardness, respectively), primarily attributed to dislocation-dislocation interactions. It has been demonstrated for the first time that equiaxed single phase (FCC-A1) Al0.5CoCrFeNiCu0.5 high-entropy alloy can be obtained through the CR + annealing. The alloys exhibited reduced hot formability (62% and 85%, respectively) partly due to the formation of Cr-rich sigma phase instead of the Al-Ni rich B2 phase, most notable in the Al0.5Cu0.5 alloy, contrary to the CALPHAD simulations. This led to increased hardness in the alloys through precipitation hardening, achieving similar hardness values as those obtained through cold rolling (CR) with less deformation. The findings support the conclusion that the presented integrated processing strategy offers a cost-efficient means of producing Al0.5CoCrFeNiCuy alloys with enhanced mechanical and chemical properties for various engineering applications by the selection of cold and hot rolling routes." @default.
• W4387501388 created "2023-10-11" @default.
• W4387501388 creator A5054515840 @default.
• W4387501388 creator A5057085231 @default.
• W4387501388 creator A5069033170 @default.
• W4387501388 creator A5072000279 @default.
• W4387501388 creator A5093036908 @default.
• W4387501388 creator A5093036909 @default.
• W4387501388 creator A5093036910 @default.
• W4387501388 date "2023-10-01" @default.
• W4387501388 modified "2023-10-12" @default.
• W4387501388 title "Cost-effective synthesis and thermomechanical processing of AlxCoCrFeNiCuy (x&y=0.5,1) high-entropy alloys" @default.
• W4387501388 cites W1489498851 @default.
• W4387501388 cites W1989966943 @default.
• W4387501388 cites W2009514523 @default.
• W4387501388 cites W2027960862 @default.
• W4387501388 cites W2029022131 @default.
• W4387501388 cites W2029165650 @default.
• W4387501388 cites W2039061417 @default.
• W4387501388 cites W2044984027 @default.
• W4387501388 cites W2046200824 @default.
• W4387501388 cites W2071212235 @default.
• W4387501388 cites W2085783194 @default.
• W4387501388 cites W2086608266 @default.
• W4387501388 cites W2115100096 @default.
• W4387501388 cites W2169281412 @default.
• W4387501388 cites W2217629786 @default.
• W4387501388 cites W2222866092 @default.
• W4387501388 cites W2547736450 @default.
• W4387501388 cites W2559364073 @default.
• W4387501388 cites W2568576780 @default.
• W4387501388 cites W2729668316 @default.
• W4387501388 cites W2743090621 @default.
• W4387501388 cites W2756727216 @default.
• W4387501388 cites W2789000301 @default.
• W4387501388 cites W2803594571 @default.
• W4387501388 cites W2954321971 @default.
• W4387501388 cites W2992394995 @default.
• W4387501388 cites W3005013019 @default.
• W4387501388 cites W3007888344 @default.
• W4387501388 cites W3028286677 @default.
• W4387501388 cites W3034737057 @default.
• W4387501388 cites W3043429407 @default.
• W4387501388 cites W3049030137 @default.
• W4387501388 cites W3094168506 @default.
• W4387501388 cites W3097144636 @default.
• W4387501388 cites W3164863899 @default.
• W4387501388 cites W3197708676 @default.
• W4387501388 cites W4200396872 @default.
• W4387501388 cites W4206978667 @default.
• W4387501388 cites W4308926957 @default.
• W4387501388 cites W4320480778 @default.
• W4387501388 doi "https://doi.org/10.1016/j.matchemphys.2023.128554" @default.
• W4387501388 hasPublicationYear "2023" @default.
• W4387501388 type Work @default.
• W4387501388 citedByCount "0" @default.
• W4387501388 crossrefType "journal-article" @default.
• W4387501388 hasAuthorship W4387501388A5054515840 @default.
• W4387501388 hasAuthorship W4387501388A5057085231 @default.
• W4387501388 hasAuthorship W4387501388A5069033170 @default.
• W4387501388 hasAuthorship W4387501388A5072000279 @default.
• W4387501388 hasAuthorship W4387501388A5093036908 @default.
• W4387501388 hasAuthorship W4387501388A5093036909 @default.
• W4387501388 hasAuthorship W4387501388A5093036910 @default.
• W4387501388 hasConcept C154634170 @default.
• W4387501388 hasConcept C178790620 @default.
• W4387501388 hasConcept C185592680 @default.
• W4387501388 hasConcept C191897082 @default.
• W4387501388 hasConcept C192562407 @default.
• W4387501388 hasConcept C2777855556 @default.
• W4387501388 hasConcept C2778145928 @default.
• W4387501388 hasConcept C2780026712 @default.
• W4387501388 hasConcept C2780299837 @default.
• W4387501388 hasConcept C44280652 @default.
• W4387501388 hasConcept C79127381 @default.
• W4387501388 hasConcept C81710450 @default.
• W4387501388 hasConcept C85906118 @default.
• W4387501388 hasConcept C93501709 @default.
• W4387501388 hasConceptScore W4387501388C154634170 @default.
• W4387501388 hasConceptScore W4387501388C178790620 @default.
• W4387501388 hasConceptScore W4387501388C185592680 @default.
• W4387501388 hasConceptScore W4387501388C191897082 @default.
• W4387501388 hasConceptScore W4387501388C192562407 @default.
• W4387501388 hasConceptScore W4387501388C2777855556 @default.
• W4387501388 hasConceptScore W4387501388C2778145928 @default.
• W4387501388 hasConceptScore W4387501388C2780026712 @default.
• W4387501388 hasConceptScore W4387501388C2780299837 @default.
• W4387501388 hasConceptScore W4387501388C44280652 @default.
• W4387501388 hasConceptScore W4387501388C79127381 @default.
• W4387501388 hasConceptScore W4387501388C81710450 @default.
• W4387501388 hasConceptScore W4387501388C85906118 @default.
• W4387501388 hasConceptScore W4387501388C93501709 @default.
• W4387501388 hasLocation W43875013881 @default.
• W4387501388 hasOpenAccess W4387501388 @default.
• W4387501388 hasPrimaryLocation W43875013881 @default.
• W4387501388 hasRelatedWork W2094902708 @default.
• W4387501388 hasRelatedWork W2385149110 @default.
• W4387501388 hasRelatedWork W2786001271 @default.

• next