必威(betway·官方网站)西汉姆联-EURO CUP

Online System

Reviewer Login

Editor Login

Author Login

Download

Statement of Competing Interests

Authors Contribution Form

Online Journal

Advanced search

Special subject

Current Issue

Previous Issue

Introduction

Bimonthly, started in 1957
Administrator
Shanxi Provincial Education Department
Sponsor
Taiyuan University of Technology
Publisher
Ed. Office of Journal of TYUT
Editor-in-Chief
SUN Hongbin
ISSN: 1007-9432
CN: 14-1220/N

Links

Shanxi Provincial Education Department

Taiyuan University of Technology

location: home > paper >

References:

LUO Shunhui, CHANG Hui, WANG Qiang, ZHANG Jiaxin, ZHANG Tuanwei , WANG Zhihua.A Study on the Mechanical Behavior and Deformation Mechanism of the Aged Ni2CoCr0.5Si0.3Al0.1Ti0.1 Medium Entropy Alloy[J].Taiyuan University of technology,2024,55(03):465-473

PDFdownloadsize：12.37MBviewed：download：

A Study on the Mechanical Behavior and Deformation Mechanism of the Aged Ni2CoCr0.5Si0.3Al0.1Ti0.1 Medium Entropy Alloy

DOI:

10.16355/j.tyut.1007-9432.20230273

Received:

Accepted:

Corresponding author		Institute
WANG Zhihua		Institute of Applied Mechanics, College of Mechanical and Vehicle Engineering, Taiyuan University of Technology Shanxi Key Laboratory of Material Strength and Structural Impact, Taiyuan University of Technology

abstract:

【Purposes】A novel type of Ni₂CoCr_0.5Si_0.3Al_0.1Ti_0.1medium entropy alloy is designed in this work.【Methods】Trace amounts of Si, Al, and Ti elements are added to the non-equiatomic ratio NiCoCr-based medium entropy alloy, and dispersed coherent L1₂phase precipitation is introduced through aging heat treatment at different temperatures.【Findings】The results show that the Ni₂CoCr_0.5Si_0.3Al_0.1Ti_0.1medium entropy alloy aged at 700℃has the best mechanical properties, with a yield strength of 783 MPa, an ultimate tensile of 1 252 MPa, and an elongation of 41.6%. Compared with the annealed samples, the alloy after aging treatment is increased in yield strength by 310 MPa. Further analysis of the initial microstructure of the alloy aged at 700℃reveals the presence of coherent L1₂phase structure and trace amount of intermetallic compound Ni₁₆Ti₆Si₇phase. Meanwhile, because of the severe deformation through cold rolling and the short time of annealing treatment, trace stacking faults, nano stacking fault networks, Lomer-Cottrell locks, and dislocation pinning phenomena are found in the initial structure. The geometrically necessary dislocation exhibits a uniform distribution during the stretching process, and the main deformation mode is dominated by dislocation slip with a stacking fault structure.

Keywords:

medium entropy alloy; composition design; aging treatment; mechanical properties; precipitation strengthening; deformation mechanism;