Synthesis and thermal stability of novel high-entropy metal boron carbonitride ceramic powders

Jingyi Guan; Daxin Li; Zhihua Yang; Bingzhu Wang; Delong Cai; Xiaoming Duan; Peigang He; Dechang Jia; Yu Zhou

doi:10.1016/j.ceramint.2020.07.126

Synthesis and thermal stability of novel high-entropy metal boron carbonitride ceramic powders

Jingyi Guan
, Daxin Li^*
, Zhihua Yang
, Bingzhu Wang
, Delong Cai
, Xiaoming Duan
, Peigang He
, Dechang Jia^*
, Yu Zhou

^*Corresponding author for this work

Harbin Institute of Technology
Harbin Institute of Technology

Research output: Contribution to journal › Article › peer-review

34 Scopus citations

Abstract

High-entropy metal boron carbonitride ceramic powders including (Ta_0.2Nb_0.2Zr_0.2Hf_0.2W_0.2)BCN, (Ta_0.2Nb_0.2Zr_0.2Hf_0.2Ti_0.2)BCN, and (Ta_0.2Nb_0.2Zr_0.2Ti_0.2W_0.2)BCN, were successfully synthesized via mechanical alloying at room temperature. Results show that for the first step of 10 h milling, the amorphous BCN phases are observed. After 24 h of second step milling, the as-synthesized high-entropy ceramics exhibit a single face-centered cubic solid solution structure with high compositional uniformity from nano-scale to micron-scale. When heated to 1500 °C for 30min in flowing Ar, the as-prepared high-entropy ceramic powders still show relatively high thermal stability; however, some metals oxides like HfO₂ and ZrO₂ are detected due to the pre-existing oxides on sample surfaces. After heat treatment, some amorphous phases are still retained. This work suggests a new processing route on the synthesis of high-entropy metal boron carbonitride ceramics.

Original language	English
Pages (from-to)	26581-26589
Number of pages	9
Journal	Ceramics International
Volume	46
Issue number	17
DOIs	https://doi.org/10.1016/j.ceramint.2020.07.126
State	Published - 1 Dec 2020

Keywords

High-entropy ceramics
Mechanical alloying
Solid solutions
Thermal stability

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10.1016/j.ceramint.2020.07.126

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@article{541e5f2db86a4c438b423fd13a20eb84,

title = "Synthesis and thermal stability of novel high-entropy metal boron carbonitride ceramic powders",

abstract = "High-entropy metal boron carbonitride ceramic powders including (Ta0.2Nb0.2Zr0.2Hf0.2W0.2)BCN, (Ta0.2Nb0.2Zr0.2Hf0.2Ti0.2)BCN, and (Ta0.2Nb0.2Zr0.2Ti0.2W0.2)BCN, were successfully synthesized via mechanical alloying at room temperature. Results show that for the first step of 10 h milling, the amorphous BCN phases are observed. After 24 h of second step milling, the as-synthesized high-entropy ceramics exhibit a single face-centered cubic solid solution structure with high compositional uniformity from nano-scale to micron-scale. When heated to 1500 °C for 30min in flowing Ar, the as-prepared high-entropy ceramic powders still show relatively high thermal stability; however, some metals oxides like HfO2 and ZrO2 are detected due to the pre-existing oxides on sample surfaces. After heat treatment, some amorphous phases are still retained. This work suggests a new processing route on the synthesis of high-entropy metal boron carbonitride ceramics.",

keywords = "High-entropy ceramics, Mechanical alloying, Solid solutions, Thermal stability",

author = "Jingyi Guan and Daxin Li and Zhihua Yang and Bingzhu Wang and Delong Cai and Xiaoming Duan and Peigang He and Dechang Jia and Yu Zhou",

note = "Publisher Copyright: {\textcopyright} 2020",

year = "2020",

month = dec,

day = "1",

doi = "10.1016/j.ceramint.2020.07.126",

language = "英语",

volume = "46",

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TY - JOUR

T1 - Synthesis and thermal stability of novel high-entropy metal boron carbonitride ceramic powders

AU - Guan, Jingyi

AU - Li, Daxin

AU - Yang, Zhihua

AU - Wang, Bingzhu

AU - Cai, Delong

AU - Duan, Xiaoming

AU - He, Peigang

AU - Jia, Dechang

AU - Zhou, Yu

PY - 2020/12/1

Y1 - 2020/12/1

N2 - High-entropy metal boron carbonitride ceramic powders including (Ta0.2Nb0.2Zr0.2Hf0.2W0.2)BCN, (Ta0.2Nb0.2Zr0.2Hf0.2Ti0.2)BCN, and (Ta0.2Nb0.2Zr0.2Ti0.2W0.2)BCN, were successfully synthesized via mechanical alloying at room temperature. Results show that for the first step of 10 h milling, the amorphous BCN phases are observed. After 24 h of second step milling, the as-synthesized high-entropy ceramics exhibit a single face-centered cubic solid solution structure with high compositional uniformity from nano-scale to micron-scale. When heated to 1500 °C for 30min in flowing Ar, the as-prepared high-entropy ceramic powders still show relatively high thermal stability; however, some metals oxides like HfO2 and ZrO2 are detected due to the pre-existing oxides on sample surfaces. After heat treatment, some amorphous phases are still retained. This work suggests a new processing route on the synthesis of high-entropy metal boron carbonitride ceramics.

AB - High-entropy metal boron carbonitride ceramic powders including (Ta0.2Nb0.2Zr0.2Hf0.2W0.2)BCN, (Ta0.2Nb0.2Zr0.2Hf0.2Ti0.2)BCN, and (Ta0.2Nb0.2Zr0.2Ti0.2W0.2)BCN, were successfully synthesized via mechanical alloying at room temperature. Results show that for the first step of 10 h milling, the amorphous BCN phases are observed. After 24 h of second step milling, the as-synthesized high-entropy ceramics exhibit a single face-centered cubic solid solution structure with high compositional uniformity from nano-scale to micron-scale. When heated to 1500 °C for 30min in flowing Ar, the as-prepared high-entropy ceramic powders still show relatively high thermal stability; however, some metals oxides like HfO2 and ZrO2 are detected due to the pre-existing oxides on sample surfaces. After heat treatment, some amorphous phases are still retained. This work suggests a new processing route on the synthesis of high-entropy metal boron carbonitride ceramics.

KW - High-entropy ceramics

KW - Mechanical alloying

KW - Solid solutions

KW - Thermal stability

UR - https://www.scopus.com/pages/publications/85089543730

U2 - 10.1016/j.ceramint.2020.07.126

DO - 10.1016/j.ceramint.2020.07.126

M3 - 文章

AN - SCOPUS:85089543730

SN - 0272-8842

VL - 46

SP - 26581

EP - 26589

JO - Ceramics International

JF - Ceramics International

IS - 17

ER -

Synthesis and thermal stability of novel high-entropy metal boron carbonitride ceramic powders

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