Ablation-resistance of combustion synthesized TiB2-Cu cermet

Xing Hong Zhang; Jie Cai Han; Xiao Dong He; Xing Hong Zhang; Cheng Yan; Bao Lin Wang; Qiang Xu

doi:10.1111/j.1551-2916.2004.00005.x

Ablation-resistance of combustion synthesized TiB₂-Cu cermet

Xing Hong Zhang, Jie Cai Han, Xiao Dong He, Xing Hong Zhang, Cheng Yan, Bao Lin Wang, Qiang Xu

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

23 Citations (Scopus)

Abstract

TiB₂-Cu ceramic-metal composites were prepared by combustion synthesis of elemental titanium, boron, and copper powders. The synthesized product consisted of two phases: TiB₂ and copper. The addition of copper improved the strength and fracture toughness, thermal expansion coefficient, and thermal conductivity of TiB₂. Thermal shock and ablation resistances of TiB₂-Cu composites were studied using a plasma torch arc heater. Monolithic TiB₂ failed catastrophically when the plasma arc flow reached the specimen surface. However, no cracks were found on the ablation surface of the TiB₂-Cu ceramic-metal composites. The fractional mass loss was 4.09% for a TiB₂-40Cu composite, which was close to the traditional W/Cu alloys. Volatilization of metal binder and mechanical erosion of TiB₂ were observed to be the major ablation mechanisms. An ablation process model is proposed for the TiB₂-Cu composites.

Original language	English
Pages (from-to)	89-94
Number of pages	6
Journal	Journal of the American Ceramic Society
Volume	88
Issue number	1
DOIs	https://doi.org/10.1111/j.1551-2916.2004.00005.x
Publication status	Published - Jan 2005
Externally published	Yes

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10.1111/j.1551-2916.2004.00005.x

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title = "Ablation-resistance of combustion synthesized TiB2-Cu cermet",

abstract = "TiB2-Cu ceramic-metal composites were prepared by combustion synthesis of elemental titanium, boron, and copper powders. The synthesized product consisted of two phases: TiB2 and copper. The addition of copper improved the strength and fracture toughness, thermal expansion coefficient, and thermal conductivity of TiB2. Thermal shock and ablation resistances of TiB2-Cu composites were studied using a plasma torch arc heater. Monolithic TiB2 failed catastrophically when the plasma arc flow reached the specimen surface. However, no cracks were found on the ablation surface of the TiB2-Cu ceramic-metal composites. The fractional mass loss was 4.09% for a TiB2-40Cu composite, which was close to the traditional W/Cu alloys. Volatilization of metal binder and mechanical erosion of TiB2 were observed to be the major ablation mechanisms. An ablation process model is proposed for the TiB2-Cu composites.",

author = "Zhang, {Xing Hong} and Han, {Jie Cai} and He, {Xiao Dong} and Zhang, {Xing Hong} and Cheng Yan and Wang, {Bao Lin} and Qiang Xu",

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T1 - Ablation-resistance of combustion synthesized TiB2-Cu cermet

AU - Zhang, Xing Hong

AU - Han, Jie Cai

AU - He, Xiao Dong

AU - Zhang, Xing Hong

AU - Yan, Cheng

AU - Wang, Bao Lin

AU - Xu, Qiang

PY - 2005/1

Y1 - 2005/1

N2 - TiB2-Cu ceramic-metal composites were prepared by combustion synthesis of elemental titanium, boron, and copper powders. The synthesized product consisted of two phases: TiB2 and copper. The addition of copper improved the strength and fracture toughness, thermal expansion coefficient, and thermal conductivity of TiB2. Thermal shock and ablation resistances of TiB2-Cu composites were studied using a plasma torch arc heater. Monolithic TiB2 failed catastrophically when the plasma arc flow reached the specimen surface. However, no cracks were found on the ablation surface of the TiB2-Cu ceramic-metal composites. The fractional mass loss was 4.09% for a TiB2-40Cu composite, which was close to the traditional W/Cu alloys. Volatilization of metal binder and mechanical erosion of TiB2 were observed to be the major ablation mechanisms. An ablation process model is proposed for the TiB2-Cu composites.

AB - TiB2-Cu ceramic-metal composites were prepared by combustion synthesis of elemental titanium, boron, and copper powders. The synthesized product consisted of two phases: TiB2 and copper. The addition of copper improved the strength and fracture toughness, thermal expansion coefficient, and thermal conductivity of TiB2. Thermal shock and ablation resistances of TiB2-Cu composites were studied using a plasma torch arc heater. Monolithic TiB2 failed catastrophically when the plasma arc flow reached the specimen surface. However, no cracks were found on the ablation surface of the TiB2-Cu ceramic-metal composites. The fractional mass loss was 4.09% for a TiB2-40Cu composite, which was close to the traditional W/Cu alloys. Volatilization of metal binder and mechanical erosion of TiB2 were observed to be the major ablation mechanisms. An ablation process model is proposed for the TiB2-Cu composites.

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Ablation-resistance of combustion synthesized TiB₂-Cu cermet

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