Achieving ultrahigh strength in oxide-dispersion-strengthened CoCrNi alloy via in situ formation of coherent Y-Ti-O nanoprecipitates

Mao, Wenhao1; Yang, Lu1; Jiang, Feilong1; He, Jiangping1; Luan, Junhua2; Jiao, Zengbao3; Ren, Fuzeng1

2023-08-01

10.1016/j.matdes.2023.112141

MATERIALS & DESIGN   影响因子和分区

0264-1275

1873-4197

Oxide-dispersion-strengthened CoCrNi alloys were fabricated via in situ oxidation by adding Ti and Y, and non-in-situ oxidation by direct addition of Ti and Y2O3, referring to as Y-ODS and Y2O3-ODS alloys, respectively. Transmission electron microscopy (TEM) and atom probe tomography (APT) characterizations reveal that both alloys consist of an ultrafine-grained face-centered-cubic (fcc) matrix, a high number density of nanoscale Y-Ti-O precipitates and a small number of (Cr0.75Ti0.25)2O3 oxides. However, the nanoscale Y-Ti-O precipitates in the two alloys show distinct phase and microstructure. The Y2O3-ODS alloy contains only incoherent orthorhombic Y2TiO5 nanoprecipitates, but the Y-ODS alloy also contains a high density of fully coherent pyrochlore Y2Ti2O7 nanoprecipitates. The Y-ODS alloy achieves an ultrahigh yield strength of 1660 MPa, which is 320 MPa higher than that of the Y2O3-ODS one, but maintains the same ductility. Quantitative analysis of the strengthening mechanism indicates that such large difference in strength is mainly attributed to the presence of coherent Y2Ti2O7 nanoprecipitates in Y-ODS alloy. This study should provide significant insight into the design of ODS high/medium-entropy alloys via in situ oxidation during mechanical alloying and consolidation.

CoCrNi Medium-entropy alloy Oxide dispersion strengthening Coherent nanoprecipitates

SCI ; EI

英语

第一 ; 通讯

National Natural Science Foundation of China[52122102] ; Guangdong Innovative & Entrepreneurial Research Team Program[2016ZT06C279] ; CityU[9360161]

Materials Science

Materials Science, Multidisciplinary

WOS:001060747800001

ELSEVIER SCI LTD

20233114458905

Cobalt alloys ; Dispersions ; High resolution transmission electron microscopy ; High strength alloys ; Mechanical alloying ; Nanotechnology ; Oxidation ; Precipitation (chemical) ; Ternary alloys ; Titanium alloys ; Titanium oxides

Metallurgy and Metallography:531 ; Metallurgy:531.1 ; Titanium and Alloys:542.3 ; Chromium and Alloys:543.1 ; Nonferrous Metals and Alloys excluding Alkali and Alkaline Earth Metals:549.3 ; Optical Devices and Systems:741.3 ; Nanotechnology:761 ; Chemical Reactions:802.2 ; Chemical Operations:802.3 ; Inorganic Compounds:804.2 ; Materials Science:951

MATERIALS SCIENCE

Web of Science

1.Southern Univ Sci & Technol, Dept Mat Sci & Engn, Shenzhen 518055, Guangdong, Peoples R China
2.City Univ Hong Kong, Dept Mat Sci & Engn, Hong Kong, Peoples R China
3.Hong Kong Polytech Univ, Dept Mech Engn, Hong Kong, Peoples R China

Mao, Wenhao,Yang, Lu,Jiang, Feilong,et al. Achieving ultrahigh strength in oxide-dispersion-strengthened CoCrNi alloy via in situ formation of coherent Y-Ti-O nanoprecipitates[J]. MATERIALS & DESIGN,2023,232.

Mao, Wenhao.,Yang, Lu.,Jiang, Feilong.,He, Jiangping.,Luan, Junhua.,...&Ren, Fuzeng.(2023).Achieving ultrahigh strength in oxide-dispersion-strengthened CoCrNi alloy via in situ formation of coherent Y-Ti-O nanoprecipitates.MATERIALS & DESIGN,232.

Mao, Wenhao,et al."Achieving ultrahigh strength in oxide-dispersion-strengthened CoCrNi alloy via in situ formation of coherent Y-Ti-O nanoprecipitates".MATERIALS & DESIGN 232(2023).