Combustion synthesis of TiNxC1-x powders with ultra fine particle size by using titanium oxide as dilution

K. G. Ren; K. X. Chen; G. H. Liu; H. B. Jin; X. S. Ning; H. P. Zhou

Combustion synthesis of TiN_xC_1-x powders with ultra fine particle size by using titanium oxide as dilution

K. G. Ren, K. X. Chen^*, G. H. Liu, H. B. Jin, X. S. Ning, H. P. Zhou

^*Corresponding author for this work

Tsinghua University

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

Abstract

In present works, the low cost TiO₂ powders were partially introduced to raw mixture as playing roles of both reactant and dilution. The experimental results showed that increasing the ratio of TiO₂ to titanium powders up to 70wt%, the combustion synthesis reaction could still proceed by self-sustained mode. Single phase of TiN_xC_1-x with ultra fine particle size could be prepared by using TiO₂ as dilution. Influences of TiO₂ addition on phase formation and microstructure of product were also investigated. It was found that the combustion temperature and as-synthesized TiN_xC_1-x particle size decreased as increasing the amount of TiO₂ addition.

Original language	English
Pages (from-to)	1429-1432
Number of pages	4
Journal	Key Engineering Materials
Volume	280-283
Issue number	II
Publication status	Published - 2005
Externally published	Yes

Keywords

Combustion synthesis
Particle size
Titanium carbonitride
Titanium oxide

Cite this

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title = "Combustion synthesis of TiNxC1-x powders with ultra fine particle size by using titanium oxide as dilution",

abstract = "In present works, the low cost TiO2 powders were partially introduced to raw mixture as playing roles of both reactant and dilution. The experimental results showed that increasing the ratio of TiO2 to titanium powders up to 70wt%, the combustion synthesis reaction could still proceed by self-sustained mode. Single phase of TiNxC1-x with ultra fine particle size could be prepared by using TiO2 as dilution. Influences of TiO2 addition on phase formation and microstructure of product were also investigated. It was found that the combustion temperature and as-synthesized TiNxC1-x particle size decreased as increasing the amount of TiO2 addition.",

keywords = "Combustion synthesis, Particle size, Titanium carbonitride, Titanium oxide",

author = "Ren, {K. G.} and Chen, {K. X.} and Liu, {G. H.} and Jin, {H. B.} and Ning, {X. S.} and Zhou, {H. P.}",

year = "2005",

language = "English",

volume = "280-283",

pages = "1429--1432",

journal = "Key Engineering Materials",

issn = "1013-9826",

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TY - JOUR

T1 - Combustion synthesis of TiNxC1-x powders with ultra fine particle size by using titanium oxide as dilution

AU - Ren, K. G.

AU - Chen, K. X.

AU - Liu, G. H.

AU - Jin, H. B.

AU - Ning, X. S.

AU - Zhou, H. P.

PY - 2005

Y1 - 2005

N2 - In present works, the low cost TiO2 powders were partially introduced to raw mixture as playing roles of both reactant and dilution. The experimental results showed that increasing the ratio of TiO2 to titanium powders up to 70wt%, the combustion synthesis reaction could still proceed by self-sustained mode. Single phase of TiNxC1-x with ultra fine particle size could be prepared by using TiO2 as dilution. Influences of TiO2 addition on phase formation and microstructure of product were also investigated. It was found that the combustion temperature and as-synthesized TiNxC1-x particle size decreased as increasing the amount of TiO2 addition.

AB - In present works, the low cost TiO2 powders were partially introduced to raw mixture as playing roles of both reactant and dilution. The experimental results showed that increasing the ratio of TiO2 to titanium powders up to 70wt%, the combustion synthesis reaction could still proceed by self-sustained mode. Single phase of TiNxC1-x with ultra fine particle size could be prepared by using TiO2 as dilution. Influences of TiO2 addition on phase formation and microstructure of product were also investigated. It was found that the combustion temperature and as-synthesized TiNxC1-x particle size decreased as increasing the amount of TiO2 addition.

KW - Combustion synthesis

KW - Particle size

KW - Titanium carbonitride

KW - Titanium oxide

UR - http://www.scopus.com/inward/record.url?scp=34249679693&partnerID=8YFLogxK

M3 - Article

AN - SCOPUS:34249679693

SN - 1013-9826

VL - 280-283

SP - 1429

EP - 1432

JO - Key Engineering Materials

JF - Key Engineering Materials

IS - II

ER -

Combustion synthesis of TiN_xC_1-x powders with ultra fine particle size by using titanium oxide as dilution

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Keywords

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