Stereolithography-based additive manufacturing of RB-SiC ceramics by a two-step sintering method

Haotian Chang; Jie Tang; Xiaotian Guo; Yunzhou Zhu; Meng Liu; Yuquan Wei; Xiulan Hu; Zhengren Huang; Zhongming Chen; Yong Yang

doi:10.1016/j.ceramint.2022.09.083

Stereolithography-based additive manufacturing of RB-SiC ceramics by a two-step sintering method

Haotian Chang, Jie Tang, Xiaotian Guo, Yunzhou Zhu, Meng Liu, Yuquan Wei, Xiulan Hu, Zhengren Huang, Zhongming Chen, Yong Yang

材料科学与工程学院

科研成果: 期刊稿件 › 文章 › 同行评审

19 引用（Scopus）

摘要

Digital light processing technology (DLP) is an effective method to manufacture ceramics with high precision. It is a big challenge to prepare SiC green body with high solid content by DLP method due to the limitation of high light-absorbance of SiC powder in stereolithograhy. Here, we present one novel route for DLP additive manufacturing of high-performance SiC ceramics by introducing low light-absorbance SiO₂ powders and a two-step sintering process including carbothermal reduction and reactive melt infiltration. As-prepared SiC ceramic exhibited higher flexural strength of 268.66 ± 10.19 MPa, compared with reported stereolithograhy-based SiC ceramics. This method demonstrates the potential of preparing SiC ceramic composites with high mechanical properties by stereolithography additive manufacturing.

源语言	英语
页（从-至）	1085-1091
页数	7
期刊	Ceramics International
卷	49
期	1
DOI	https://doi.org/10.1016/j.ceramint.2022.09.083
出版状态	已出版 - 1 1月 2023

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10.1016/j.ceramint.2022.09.083

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title = "Stereolithography-based additive manufacturing of RB-SiC ceramics by a two-step sintering method",

abstract = "Digital light processing technology (DLP) is an effective method to manufacture ceramics with high precision. It is a big challenge to prepare SiC green body with high solid content by DLP method due to the limitation of high light-absorbance of SiC powder in stereolithograhy. Here, we present one novel route for DLP additive manufacturing of high-performance SiC ceramics by introducing low light-absorbance SiO2 powders and a two-step sintering process including carbothermal reduction and reactive melt infiltration. As-prepared SiC ceramic exhibited higher flexural strength of 268.66 ± 10.19 MPa, compared with reported stereolithograhy-based SiC ceramics. This method demonstrates the potential of preparing SiC ceramic composites with high mechanical properties by stereolithography additive manufacturing.",

keywords = "3D printing, SiC ceramic Composites, Stereolithography, Two-step sintering",

author = "Haotian Chang and Jie Tang and Xiaotian Guo and Yunzhou Zhu and Meng Liu and Yuquan Wei and Xiulan Hu and Zhengren Huang and Zhongming Chen and Yong Yang",

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doi = "10.1016/j.ceramint.2022.09.083",

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T1 - Stereolithography-based additive manufacturing of RB-SiC ceramics by a two-step sintering method

AU - Chang, Haotian

AU - Tang, Jie

AU - Guo, Xiaotian

AU - Zhu, Yunzhou

AU - Liu, Meng

AU - Wei, Yuquan

AU - Hu, Xiulan

AU - Huang, Zhengren

AU - Chen, Zhongming

AU - Yang, Yong

PY - 2023/1/1

Y1 - 2023/1/1

N2 - Digital light processing technology (DLP) is an effective method to manufacture ceramics with high precision. It is a big challenge to prepare SiC green body with high solid content by DLP method due to the limitation of high light-absorbance of SiC powder in stereolithograhy. Here, we present one novel route for DLP additive manufacturing of high-performance SiC ceramics by introducing low light-absorbance SiO2 powders and a two-step sintering process including carbothermal reduction and reactive melt infiltration. As-prepared SiC ceramic exhibited higher flexural strength of 268.66 ± 10.19 MPa, compared with reported stereolithograhy-based SiC ceramics. This method demonstrates the potential of preparing SiC ceramic composites with high mechanical properties by stereolithography additive manufacturing.

AB - Digital light processing technology (DLP) is an effective method to manufacture ceramics with high precision. It is a big challenge to prepare SiC green body with high solid content by DLP method due to the limitation of high light-absorbance of SiC powder in stereolithograhy. Here, we present one novel route for DLP additive manufacturing of high-performance SiC ceramics by introducing low light-absorbance SiO2 powders and a two-step sintering process including carbothermal reduction and reactive melt infiltration. As-prepared SiC ceramic exhibited higher flexural strength of 268.66 ± 10.19 MPa, compared with reported stereolithograhy-based SiC ceramics. This method demonstrates the potential of preparing SiC ceramic composites with high mechanical properties by stereolithography additive manufacturing.

KW - 3D printing

KW - SiC ceramic Composites

KW - Stereolithography

KW - Two-step sintering

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DO - 10.1016/j.ceramint.2022.09.083

M3 - 文章

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SN - 0272-8842

VL - 49

SP - 1085

EP - 1091

JO - Ceramics International

JF - Ceramics International

IS - 1

ER -

Stereolithography-based additive manufacturing of RB-SiC ceramics by a two-step sintering method

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