In situ reactive synthesis and phase stability investigation in the AlN-SiC system

Wenbo Bu; Tai Qiu; Jianlin Shi; Jie Xu

In situ reactive synthesis and phase stability investigation in the AlN-SiC system

Wenbo Bu, Tai Qiu, Jianlin Shi, Jie Xu

College of Materials Science and Engineering

Research output: Contribution to journal › Conference article › peer-review

Abstract

Solid solutions in the AlN-SiC system were synthesized via the in-situ reactive synthesis using Si₃N₄, Al and C as the starting materials. The reactant mixtures with ratios of Si₃N₄:Al: C =1:4:3 were fired for 1 to 3h at temperatures ranging from 1600°C to 1900°C in a nitrogen atmosphere. The effects of different firing temperature and soaking time on phase and microstructural characteristics of the final product were studied by XRD and HRTEM/EDS. The results showed that the product synthesized at 1900°C was a single-phase AlN-SiC solid solution with the wurtzite (2H) crystal structure. As soaking time increased, the AlN-SiC solid solution decomposed into modulated structures, which indicated that a miscibility region exists in the system of AlN-SiC.

Original language	English
Pages (from-to)	113-116
Number of pages	4
Journal	Key Engineering Materials
Volume	247
State	Published - 2003
Event	Advanced Ceramics and Composites - Shanghai, China Duration: 19 Nov 2002 → 22 Nov 2002

Keywords

Aluminum Nitride
Silicon Carbide
Solid Solution

Cite this

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title = "In situ reactive synthesis and phase stability investigation in the AlN-SiC system",

abstract = "Solid solutions in the AlN-SiC system were synthesized via the in-situ reactive synthesis using Si3N4, Al and C as the starting materials. The reactant mixtures with ratios of Si3N4:Al: C =1:4:3 were fired for 1 to 3h at temperatures ranging from 1600°C to 1900°C in a nitrogen atmosphere. The effects of different firing temperature and soaking time on phase and microstructural characteristics of the final product were studied by XRD and HRTEM/EDS. The results showed that the product synthesized at 1900°C was a single-phase AlN-SiC solid solution with the wurtzite (2H) crystal structure. As soaking time increased, the AlN-SiC solid solution decomposed into modulated structures, which indicated that a miscibility region exists in the system of AlN-SiC.",

keywords = "Aluminum Nitride, Silicon Carbide, Solid Solution",

author = "Wenbo Bu and Tai Qiu and Jianlin Shi and Jie Xu",

year = "2003",

language = "英语",

volume = "247",

pages = "113--116",

journal = "Key Engineering Materials",

issn = "1013-9826",

publisher = "Trans Tech Publications Ltd",

note = "Advanced Ceramics and Composites ; Conference date: 19-11-2002 Through 22-11-2002",

}

TY - JOUR

T1 - In situ reactive synthesis and phase stability investigation in the AlN-SiC system

AU - Bu, Wenbo

AU - Qiu, Tai

AU - Shi, Jianlin

AU - Xu, Jie

PY - 2003

Y1 - 2003

N2 - Solid solutions in the AlN-SiC system were synthesized via the in-situ reactive synthesis using Si3N4, Al and C as the starting materials. The reactant mixtures with ratios of Si3N4:Al: C =1:4:3 were fired for 1 to 3h at temperatures ranging from 1600°C to 1900°C in a nitrogen atmosphere. The effects of different firing temperature and soaking time on phase and microstructural characteristics of the final product were studied by XRD and HRTEM/EDS. The results showed that the product synthesized at 1900°C was a single-phase AlN-SiC solid solution with the wurtzite (2H) crystal structure. As soaking time increased, the AlN-SiC solid solution decomposed into modulated structures, which indicated that a miscibility region exists in the system of AlN-SiC.

AB - Solid solutions in the AlN-SiC system were synthesized via the in-situ reactive synthesis using Si3N4, Al and C as the starting materials. The reactant mixtures with ratios of Si3N4:Al: C =1:4:3 were fired for 1 to 3h at temperatures ranging from 1600°C to 1900°C in a nitrogen atmosphere. The effects of different firing temperature and soaking time on phase and microstructural characteristics of the final product were studied by XRD and HRTEM/EDS. The results showed that the product synthesized at 1900°C was a single-phase AlN-SiC solid solution with the wurtzite (2H) crystal structure. As soaking time increased, the AlN-SiC solid solution decomposed into modulated structures, which indicated that a miscibility region exists in the system of AlN-SiC.

KW - Aluminum Nitride

KW - Silicon Carbide

KW - Solid Solution

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M3 - 会议文章

AN - SCOPUS:0042515040

SN - 1013-9826

VL - 247

SP - 113

EP - 116

JO - Key Engineering Materials

JF - Key Engineering Materials

T2 - Advanced Ceramics and Composites

Y2 - 19 November 2002 through 22 November 2002

ER -

In situ reactive synthesis and phase stability investigation in the AlN-SiC system

Abstract

Keywords

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