Spark plasma sintering of B4C-TiB2-SiC composite ceramics using B4C, Ti3SiC2 and Si as starting materials

Shi Pan Yin; Zhao Hui Zhang; Xing Wang Cheng; Tie Jian Su; Zheng Yang Hu; Qi Song; Hao Wang

doi:10.1016/j.ceramint.2018.08.245

Spark plasma sintering of B₄C-TiB₂-SiC composite ceramics using B₄C, Ti₃SiC₂ and Si as starting materials

Shi Pan Yin, Zhao Hui Zhang^*, Xing Wang Cheng, Tie Jian Su, Zheng Yang Hu, Qi Song, Hao Wang

^*此作品的通讯作者

材料学院

Beijing Institute of Technology

科研成果: 期刊稿件 › 文章 › 同行评审

45 引用（Scopus）

摘要

Almost fully dense B₄C-TiB₂-SiC composite ceramics with high flexure strength and good fracture toughness were fabricated through in-situ reaction between B₄C, Ti₃SiC₂ and Si using spark plasma sintering method at a relatively low temperature of 1650 °C. The intergranular and intragranular structure containing nanoparticles with different phase were introduced into the composite ceramic. The nano and micro particles in the microstructure formed a multi-scale particles reinforced structure. The refined matrix grains and the multi-scale reinforcing particles had a synergetic effect on improving the mechanical properties of the composite ceramics. As a result, B₄C-TiB₂-SiC composite ceramic with 30 wt% (TiB₂ + SiC) exhibits low density and optimum mechanical properties with high flexural strength of 531.2 MPa, good fracture toughness of 5.77 MPa m^1/2 and moderate micro-hardness of 28.6 GPa.

源语言	英语
页（从-至）	21626-21632
页数	7
期刊	Ceramics International
卷	44
期	17
DOI	https://doi.org/10.1016/j.ceramint.2018.08.245
出版状态	已出版 - 1 12月 2018

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title = "Spark plasma sintering of B4C-TiB2-SiC composite ceramics using B4C, Ti3SiC2 and Si as starting materials",

abstract = "Almost fully dense B4C-TiB2-SiC composite ceramics with high flexure strength and good fracture toughness were fabricated through in-situ reaction between B4C, Ti3SiC2 and Si using spark plasma sintering method at a relatively low temperature of 1650 °C. The intergranular and intragranular structure containing nanoparticles with different phase were introduced into the composite ceramic. The nano and micro particles in the microstructure formed a multi-scale particles reinforced structure. The refined matrix grains and the multi-scale reinforcing particles had a synergetic effect on improving the mechanical properties of the composite ceramics. As a result, B4C-TiB2-SiC composite ceramic with 30 wt% (TiB2 + SiC) exhibits low density and optimum mechanical properties with high flexural strength of 531.2 MPa, good fracture toughness of 5.77 MPa m1/2 and moderate micro-hardness of 28.6 GPa.",

keywords = "Composite ceramic, Mechanical properties, Microstructure, Spark plasma sintering",

author = "Yin, {Shi Pan} and Zhang, {Zhao Hui} and Cheng, {Xing Wang} and Su, {Tie Jian} and Hu, {Zheng Yang} and Qi Song and Hao Wang",

note = "Publisher Copyright: {\textcopyright} 2018 Elsevier Ltd and Techna Group S.r.l.",

year = "2018",

month = dec,

day = "1",

doi = "10.1016/j.ceramint.2018.08.245",

language = "English",

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TY - JOUR

T1 - Spark plasma sintering of B4C-TiB2-SiC composite ceramics using B4C, Ti3SiC2 and Si as starting materials

AU - Yin, Shi Pan

AU - Zhang, Zhao Hui

AU - Cheng, Xing Wang

AU - Su, Tie Jian

AU - Hu, Zheng Yang

AU - Song, Qi

AU - Wang, Hao

PY - 2018/12/1

Y1 - 2018/12/1

N2 - Almost fully dense B4C-TiB2-SiC composite ceramics with high flexure strength and good fracture toughness were fabricated through in-situ reaction between B4C, Ti3SiC2 and Si using spark plasma sintering method at a relatively low temperature of 1650 °C. The intergranular and intragranular structure containing nanoparticles with different phase were introduced into the composite ceramic. The nano and micro particles in the microstructure formed a multi-scale particles reinforced structure. The refined matrix grains and the multi-scale reinforcing particles had a synergetic effect on improving the mechanical properties of the composite ceramics. As a result, B4C-TiB2-SiC composite ceramic with 30 wt% (TiB2 + SiC) exhibits low density and optimum mechanical properties with high flexural strength of 531.2 MPa, good fracture toughness of 5.77 MPa m1/2 and moderate micro-hardness of 28.6 GPa.

AB - Almost fully dense B4C-TiB2-SiC composite ceramics with high flexure strength and good fracture toughness were fabricated through in-situ reaction between B4C, Ti3SiC2 and Si using spark plasma sintering method at a relatively low temperature of 1650 °C. The intergranular and intragranular structure containing nanoparticles with different phase were introduced into the composite ceramic. The nano and micro particles in the microstructure formed a multi-scale particles reinforced structure. The refined matrix grains and the multi-scale reinforcing particles had a synergetic effect on improving the mechanical properties of the composite ceramics. As a result, B4C-TiB2-SiC composite ceramic with 30 wt% (TiB2 + SiC) exhibits low density and optimum mechanical properties with high flexural strength of 531.2 MPa, good fracture toughness of 5.77 MPa m1/2 and moderate micro-hardness of 28.6 GPa.

KW - Composite ceramic

KW - Mechanical properties

KW - Microstructure

KW - Spark plasma sintering

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DO - 10.1016/j.ceramint.2018.08.245

M3 - Article

AN - SCOPUS:85054357512

SN - 0272-8842

VL - 44

SP - 21626

EP - 21632

JO - Ceramics International

JF - Ceramics International

IS - 17

ER -

Spark plasma sintering of B4C-TiB2-SiC composite ceramics using B4C, Ti3SiC2 and Si as starting materials

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Spark plasma sintering of B₄C-TiB₂-SiC composite ceramics using B₄C, Ti₃SiC₂ and Si as starting materials