In situ toughened two-phase B12(C, Si, B)3–SiC ceramics fabricated via liquid silicon infiltration

Mengyong Sun; Yuhang Bai; Mingxing Li; Shangwu Fan; Laifei Cheng

doi:10.1111/jace.16023

In situ toughened two-phase B₁₂(C, Si, B)₃–SiC ceramics fabricated via liquid silicon infiltration

Mengyong Sun, Yuhang Bai, Mingxing Li, Shangwu Fan, Laifei Cheng

材料学院

Northwestern Polytechnical University Xian

科研成果: 期刊稿件 › 文章 › 同行评审

15 引用（Scopus）

摘要

In situ toughened B₁₂(C, Si, B)₃–SiC ceramics were successfully fabricated via the liquid silicon infiltration process. Two types of B₁₂(C, Si, B)₃ phases, with high and low Si contents, respectively, and plate-like SiC particles were formed by the reaction between B₄C and Si. The in situ toughening mechanism involved two effects: the multiple crack deflections caused by the increased grain boundaries, and the pullout and rupture of a significant amount of plate-like SiC particles. Block ceramics with a high fracture toughness of 6.5 ± 0.5 MPa·m^1/2 were fabricated via the in situ toughening mechanism. A strong interface bond was present between the high- and low-B₄C-content layers in the laminated ceramics, which led to residual compressive stress inside the materials. As a result, the laminated structural design enhanced the fracture toughness to 7.5 ± 0.5 MPa·m^1/2.

源语言	英语
页（从-至）	2094-2103
页数	10
期刊	Journal of the American Ceramic Society
卷	102
期	4
DOI	https://doi.org/10.1111/jace.16023
出版状态	已出版 - 4月 2019

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10.1111/jace.16023

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title = "In situ toughened two-phase B12(C, Si, B)3–SiC ceramics fabricated via liquid silicon infiltration",

abstract = "In situ toughened B12(C, Si, B)3–SiC ceramics were successfully fabricated via the liquid silicon infiltration process. Two types of B12(C, Si, B)3 phases, with high and low Si contents, respectively, and plate-like SiC particles were formed by the reaction between B4C and Si. The in situ toughening mechanism involved two effects: the multiple crack deflections caused by the increased grain boundaries, and the pullout and rupture of a significant amount of plate-like SiC particles. Block ceramics with a high fracture toughness of 6.5 ± 0.5 MPa·m1/2 were fabricated via the in situ toughening mechanism. A strong interface bond was present between the high- and low-B4C-content layers in the laminated ceramics, which led to residual compressive stress inside the materials. As a result, the laminated structural design enhanced the fracture toughness to 7.5 ± 0.5 MPa·m1/2.",

keywords = "boron carbide, in situ toughening, layered ceramics, Nanoparticles, silicon carbide",

author = "Mengyong Sun and Yuhang Bai and Mingxing Li and Shangwu Fan and Laifei Cheng",

note = "Publisher Copyright: {\textcopyright} 2018 The American Ceramic Society",

year = "2019",

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doi = "10.1111/jace.16023",

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TY - JOUR

T1 - In situ toughened two-phase B12(C, Si, B)3–SiC ceramics fabricated via liquid silicon infiltration

AU - Sun, Mengyong

AU - Bai, Yuhang

AU - Li, Mingxing

AU - Fan, Shangwu

AU - Cheng, Laifei

PY - 2019/4

Y1 - 2019/4

N2 - In situ toughened B12(C, Si, B)3–SiC ceramics were successfully fabricated via the liquid silicon infiltration process. Two types of B12(C, Si, B)3 phases, with high and low Si contents, respectively, and plate-like SiC particles were formed by the reaction between B4C and Si. The in situ toughening mechanism involved two effects: the multiple crack deflections caused by the increased grain boundaries, and the pullout and rupture of a significant amount of plate-like SiC particles. Block ceramics with a high fracture toughness of 6.5 ± 0.5 MPa·m1/2 were fabricated via the in situ toughening mechanism. A strong interface bond was present between the high- and low-B4C-content layers in the laminated ceramics, which led to residual compressive stress inside the materials. As a result, the laminated structural design enhanced the fracture toughness to 7.5 ± 0.5 MPa·m1/2.

AB - In situ toughened B12(C, Si, B)3–SiC ceramics were successfully fabricated via the liquid silicon infiltration process. Two types of B12(C, Si, B)3 phases, with high and low Si contents, respectively, and plate-like SiC particles were formed by the reaction between B4C and Si. The in situ toughening mechanism involved two effects: the multiple crack deflections caused by the increased grain boundaries, and the pullout and rupture of a significant amount of plate-like SiC particles. Block ceramics with a high fracture toughness of 6.5 ± 0.5 MPa·m1/2 were fabricated via the in situ toughening mechanism. A strong interface bond was present between the high- and low-B4C-content layers in the laminated ceramics, which led to residual compressive stress inside the materials. As a result, the laminated structural design enhanced the fracture toughness to 7.5 ± 0.5 MPa·m1/2.

KW - boron carbide

KW - in situ toughening

KW - layered ceramics

KW - Nanoparticles

KW - silicon carbide

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SN - 0002-7820

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JF - Journal of the American Ceramic Society

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ER -

In situ toughened two-phase B12(C, Si, B)3–SiC ceramics fabricated via liquid silicon infiltration

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In situ toughened two-phase B₁₂(C, Si, B)₃–SiC ceramics fabricated via liquid silicon infiltration