Effect of High Configuration Entropy and Rare Earth Addition on Boride Precipitation and Mechanical Properties of Multi-principal-Element Alloys
Journal article, 2017

A series of multi-principal-element (MPE) alloys have been prepared by adding Ni, Mn, Al, Cu and Y into the reference CoCrFe-B alloy. The microstructure and mechanical properties of these MPE alloys have been investigated thoroughly. It is found that the addition of the elements can inhibit boride precipitation in the designed alloys and the solid solution strengthening effect induced by interstitial boron atoms is more significant than that by boride precipitation. The MPE alloys with the fcc phase as the main solid solution phase have a higher boron solubility and hence less boride precipitation, than those with the bcc phase as the main solid solution phase. The addition of yttrium can improve the boron solubility, decrease boride precipitation, control the boride morphology and, importantly, simultaneously improve the compressive strength and ductility of boron-containing MPE alloys.

Boron

Resistance

high-entropy alloy

Microstructure

boride precipitation

solid solution strengthening

yttrium addition

Author

H. Zhang

Anhui University of Technology

X. C. Zhong

Anhui University of Technology

Y. Z. He

Anhui University of Technology

W. H. Li

Anhui University of Technology

W. F. Wu

Anhui University of Technology

G. Chen

Hunan University

Sheng Guo

Chalmers, Materials and Manufacturing Technology, Surface and Microstructure Engineering

Journal of Materials Engineering and Performance

1059-9495 (ISSN) 1544-1024 (eISSN)

Vol. 26 8 3750-3755

Subject Categories

Materials Engineering

DOI

10.1007/s11665-017-2831-3

More information

Created

10/8/2017