Low-temperature synthesis of (TiC + Al2O3)/Al alloy composites based on dopant-assisted combustion

Seong Guk Son; Byeong Hyeon Lee; Jung Moo Lee; Jae Chul Lee

doi:10.1016/j.jallcom.2015.05.153

Low-temperature synthesis of (TiC + Al₂O₃)/Al alloy composites based on dopant-assisted combustion

Seong Guk Son, Byeong Hyeon Lee, Jung Moo Lee, Jae Chul Lee

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

14 Citations (Scopus)

Abstract

A feasible approach to fabricate an Al alloy composite reinforced with TiC and Al₂O₃ (hereinafter, (TiC + Al₂O₃)/Al alloy composite) based on in-situ processing at low temperatures was proposed. With appropriate amounts of excess Al added to the (4Al + 3TiO₂ + 3C) powder system, the spontaneous combustion reactions for forming TiC and Al₂O₃ were promoted, whereas a small amount of CuO added to the reagent powders caused triggering of the combustion reaction at lower temperatures (860°C), which was thereafter self-maintaining. The TiC and Al₂O₃ particles thus formed could be dispersed uniformly in the Al matrix and contributed to a considerable increase in the strength and stiffness of the resultant composite material, demonstrating the feasibility of the proposed technique for producing metal matrix composites for load-bearing applications. In this study, we report the method used to fabricate the (TiC + Al₂O₃)/Al alloy composite at low temperatures, its synthesis, and the resultant properties.

Original language	English
Pages (from-to)	409-416
Number of pages	8
Journal	Journal of Alloys and Compounds
Volume	649
DOIs	https://doi.org/10.1016/j.jallcom.2015.05.153
Publication status	Published - 2015 Jul 30

Bibliographical note

Funding Information:
This research was supported by Grant No. 10037308 from the Fundamental R&D Program for Core Technology of Materials, funded by the Ministry of Knowledge Economy, Republic of Korea .

Publisher Copyright:
© 2015 Elsevier B.V. All rights reserved.

Keywords

Al alloy
Combustion reaction
In-situ processing
Metal matrix composite

ASJC Scopus subject areas

Mechanics of Materials
Mechanical Engineering
Metals and Alloys
Materials Chemistry

Access to Document

10.1016/j.jallcom.2015.05.153

Cite this

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title = "Low-temperature synthesis of (TiC + Al2O3)/Al alloy composites based on dopant-assisted combustion",

abstract = "A feasible approach to fabricate an Al alloy composite reinforced with TiC and Al2O3 (hereinafter, (TiC + Al2O3)/Al alloy composite) based on in-situ processing at low temperatures was proposed. With appropriate amounts of excess Al added to the (4Al + 3TiO2 + 3C) powder system, the spontaneous combustion reactions for forming TiC and Al2O3 were promoted, whereas a small amount of CuO added to the reagent powders caused triggering of the combustion reaction at lower temperatures (860°C), which was thereafter self-maintaining. The TiC and Al2O3 particles thus formed could be dispersed uniformly in the Al matrix and contributed to a considerable increase in the strength and stiffness of the resultant composite material, demonstrating the feasibility of the proposed technique for producing metal matrix composites for load-bearing applications. In this study, we report the method used to fabricate the (TiC + Al2O3)/Al alloy composite at low temperatures, its synthesis, and the resultant properties.",

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author = "Son, {Seong Guk} and Lee, {Byeong Hyeon} and Lee, {Jung Moo} and Lee, {Jae Chul}",

note = "Funding Information: This research was supported by Grant No. 10037308 from the Fundamental R&D Program for Core Technology of Materials, funded by the Ministry of Knowledge Economy, Republic of Korea . Publisher Copyright: {\textcopyright} 2015 Elsevier B.V. All rights reserved.",

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AU - Son, Seong Guk

AU - Lee, Byeong Hyeon

AU - Lee, Jung Moo

AU - Lee, Jae Chul

N1 - Funding Information: This research was supported by Grant No. 10037308 from the Fundamental R&D Program for Core Technology of Materials, funded by the Ministry of Knowledge Economy, Republic of Korea . Publisher Copyright: © 2015 Elsevier B.V. All rights reserved.

PY - 2015/7/30

Y1 - 2015/7/30

N2 - A feasible approach to fabricate an Al alloy composite reinforced with TiC and Al2O3 (hereinafter, (TiC + Al2O3)/Al alloy composite) based on in-situ processing at low temperatures was proposed. With appropriate amounts of excess Al added to the (4Al + 3TiO2 + 3C) powder system, the spontaneous combustion reactions for forming TiC and Al2O3 were promoted, whereas a small amount of CuO added to the reagent powders caused triggering of the combustion reaction at lower temperatures (860°C), which was thereafter self-maintaining. The TiC and Al2O3 particles thus formed could be dispersed uniformly in the Al matrix and contributed to a considerable increase in the strength and stiffness of the resultant composite material, demonstrating the feasibility of the proposed technique for producing metal matrix composites for load-bearing applications. In this study, we report the method used to fabricate the (TiC + Al2O3)/Al alloy composite at low temperatures, its synthesis, and the resultant properties.

AB - A feasible approach to fabricate an Al alloy composite reinforced with TiC and Al2O3 (hereinafter, (TiC + Al2O3)/Al alloy composite) based on in-situ processing at low temperatures was proposed. With appropriate amounts of excess Al added to the (4Al + 3TiO2 + 3C) powder system, the spontaneous combustion reactions for forming TiC and Al2O3 were promoted, whereas a small amount of CuO added to the reagent powders caused triggering of the combustion reaction at lower temperatures (860°C), which was thereafter self-maintaining. The TiC and Al2O3 particles thus formed could be dispersed uniformly in the Al matrix and contributed to a considerable increase in the strength and stiffness of the resultant composite material, demonstrating the feasibility of the proposed technique for producing metal matrix composites for load-bearing applications. In this study, we report the method used to fabricate the (TiC + Al2O3)/Al alloy composite at low temperatures, its synthesis, and the resultant properties.

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