SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4366997959> ?p ?o ?g. }

Showing items 1 to 100 of ±152 with 100 items per page.

W4366997959 endingPage "1855" @default.
W4366997959 startingPage "1840" @default.
W4366997959 abstract "Abstract Due to the wide range of compositional possibilities in the high-entropy alloy (HEA) field, empirical models and the CALPHAD method have been implemented to efficiently design HEAs. Although most design strategies have been tested on as-cast alloys, their validation for thermal sprayed HEA coatings is lacking. In this work, empirical models and the CALPHAD method under equilibrium and non-equilibrium conditions are assessed for phase prediction in five HEAs in the as-cast, laser clad and thermal sprayed conditions. High-velocity oxygen fuel coatings were prepared for these five HEAs, and their phases were identified by the x-ray diffraction analysis. These processes, even though their cooling rates vary significantly, show similar phase formation as indicated by a literature review and the current experimental study. The CALPHAD equilibrium calculation predicted most of the phases at specified temperatures. Furthermore, the CALPHAD-based non-equilibrium simulations correctly predicted the major phases present in the HEA coatings. The empirical models also show good prediction capability, but the intermetallic sigma phase is problematic for the parameter-based models. Therefore, the CALPHAD method can be used to efficiently design and develop HEAs prepared under conditions that encompass rapid cooling, such as occurring during thermal spray processes." @default.
W4366997959 created "2023-04-27" @default.
W4366997959 creator A5001546124 @default.
W4366997959 creator A5008170942 @default.
W4366997959 creator A5026716909 @default.
W4366997959 creator A5048306434 @default.
W4366997959 creator A5070499439 @default.
W4366997959 creator A5074758025 @default.
W4366997959 date "2023-04-25" @default.
W4366997959 modified "2023-09-26" @default.
W4366997959 title "Empirical and Computational-Based Phase Predictions of Thermal Sprayed High-Entropy Alloys" @default.
W4366997959 cites W153921977 @default.
W4366997959 cites W1590487639 @default.
W4366997959 cites W1930274659 @default.
W4366997959 cites W1931689917 @default.
W4366997959 cites W1964522838 @default.
W4366997959 cites W1965783559 @default.
W4366997959 cites W1968374149 @default.
W4366997959 cites W1970065157 @default.
W4366997959 cites W1990855332 @default.
W4366997959 cites W1990945363 @default.
W4366997959 cites W1991258650 @default.
W4366997959 cites W1999683654 @default.
W4366997959 cites W2002828800 @default.
W4366997959 cites W2004433354 @default.
W4366997959 cites W2010448861 @default.
W4366997959 cites W2020462182 @default.
W4366997959 cites W2020800282 @default.
W4366997959 cites W2031024494 @default.
W4366997959 cites W2039061417 @default.
W4366997959 cites W2040408410 @default.
W4366997959 cites W2043694077 @default.
W4366997959 cites W2048312527 @default.
W4366997959 cites W2058085399 @default.
W4366997959 cites W2059564366 @default.
W4366997959 cites W2065981209 @default.
W4366997959 cites W2067543317 @default.
W4366997959 cites W2068415766 @default.
W4366997959 cites W2074566534 @default.
W4366997959 cites W2078319694 @default.
W4366997959 cites W2080340954 @default.
W4366997959 cites W2081192506 @default.
W4366997959 cites W2093334718 @default.
W4366997959 cites W2104196136 @default.
W4366997959 cites W2132867906 @default.
W4366997959 cites W2193109498 @default.
W4366997959 cites W2201563651 @default.
W4366997959 cites W2240114750 @default.
W4366997959 cites W2333442782 @default.
W4366997959 cites W2372331200 @default.
W4366997959 cites W2471047198 @default.
W4366997959 cites W2485840353 @default.
W4366997959 cites W2515593868 @default.
W4366997959 cites W2534641029 @default.
W4366997959 cites W2534691303 @default.
W4366997959 cites W2589994992 @default.
W4366997959 cites W2625622090 @default.
W4366997959 cites W2755741724 @default.
W4366997959 cites W2782488992 @default.
W4366997959 cites W2805081833 @default.
W4366997959 cites W2807029607 @default.
W4366997959 cites W2809945686 @default.
W4366997959 cites W2896259554 @default.
W4366997959 cites W2903448849 @default.
W4366997959 cites W2907527207 @default.
W4366997959 cites W2909771820 @default.
W4366997959 cites W2910265038 @default.
W4366997959 cites W2915845624 @default.
W4366997959 cites W2941506429 @default.
W4366997959 cites W2945733835 @default.
W4366997959 cites W2951539866 @default.
W4366997959 cites W2951568067 @default.
W4366997959 cites W2955030316 @default.
W4366997959 cites W2971714026 @default.
W4366997959 cites W2980466846 @default.
W4366997959 cites W2992060800 @default.
W4366997959 cites W2999579301 @default.
W4366997959 cites W3005295119 @default.
W4366997959 cites W3014148901 @default.
W4366997959 cites W3031007700 @default.
W4366997959 cites W3033577778 @default.
W4366997959 cites W3045144005 @default.
W4366997959 cites W3085827815 @default.
W4366997959 cites W3115106890 @default.
W4366997959 cites W3125640550 @default.
W4366997959 cites W3137076857 @default.
W4366997959 cites W3137958940 @default.
W4366997959 cites W3183451739 @default.
W4366997959 cites W3206215508 @default.
W4366997959 cites W4200062173 @default.
W4366997959 cites W4221112725 @default.
W4366997959 cites W4223583137 @default.
W4366997959 cites W4223649430 @default.
W4366997959 cites W4228998502 @default.
W4366997959 cites W4232048063 @default.
W4366997959 cites W4256645490 @default.
W4366997959 doi "https://doi.org/10.1007/s11666-023-01586-2" @default.
W4366997959 hasPublicationYear "2023" @default.