Thermophysical and mechanical properties of a three-dimensional Hi-Nicalon/SiC composite

Shoujun Wu; Laifei Cheng; Qing Zhang; Litong Zhang; Yongdong Xu

doi:10.1111/j.1744-7402.2006.02056.x

Thermophysical and mechanical properties of a three-dimensional Hi-Nicalon/SiC composite

Shoujun Wu, Laifei Cheng, Qing Zhang, Litong Zhang, Yongdong Xu

School of Materials Sience and Engineering

Northwestern Polytechnical University Xian

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

14 Scopus citations

Abstract

Key thermophysical and mechanical properties of a three-dimensional Hi-Nicalon™/silicon carbide (SiC) composite were tested. The relationship between the thermal expansion coefficient and temperature of the composite from room temperature (RT) to 1400°C was similar to that of chemical vapor deposition SiC. The thermal diffusivity of the composite could be well fitted by a logarithmic function. The composite exhibited excellent mechanical properties at RT and high temperature in vacuum. At RT, the flexural strength and flexural modulus were 1193 MPa and 255.6 GPa, respectively. Above 1200°C, the value of the flexural strength and flexural modulus at high temperature in vacuum decreased as the temperature increased, while the fracture toughness increased as the temperature increased.

Original language	English
Pages (from-to)	75-79
Number of pages	5
Journal	International Journal of Applied Ceramic Technology
Volume	3
Issue number	1
DOIs	https://doi.org/10.1111/j.1744-7402.2006.02056.x
State	Published - Jan 2006

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abstract = "Key thermophysical and mechanical properties of a three-dimensional Hi-Nicalon{\texttrademark}/silicon carbide (SiC) composite were tested. The relationship between the thermal expansion coefficient and temperature of the composite from room temperature (RT) to 1400°C was similar to that of chemical vapor deposition SiC. The thermal diffusivity of the composite could be well fitted by a logarithmic function. The composite exhibited excellent mechanical properties at RT and high temperature in vacuum. At RT, the flexural strength and flexural modulus were 1193 MPa and 255.6 GPa, respectively. Above 1200°C, the value of the flexural strength and flexural modulus at high temperature in vacuum decreased as the temperature increased, while the fracture toughness increased as the temperature increased.",

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AU - Wu, Shoujun

AU - Cheng, Laifei

AU - Zhang, Qing

AU - Zhang, Litong

AU - Xu, Yongdong

PY - 2006/1

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N2 - Key thermophysical and mechanical properties of a three-dimensional Hi-Nicalon™/silicon carbide (SiC) composite were tested. The relationship between the thermal expansion coefficient and temperature of the composite from room temperature (RT) to 1400°C was similar to that of chemical vapor deposition SiC. The thermal diffusivity of the composite could be well fitted by a logarithmic function. The composite exhibited excellent mechanical properties at RT and high temperature in vacuum. At RT, the flexural strength and flexural modulus were 1193 MPa and 255.6 GPa, respectively. Above 1200°C, the value of the flexural strength and flexural modulus at high temperature in vacuum decreased as the temperature increased, while the fracture toughness increased as the temperature increased.

AB - Key thermophysical and mechanical properties of a three-dimensional Hi-Nicalon™/silicon carbide (SiC) composite were tested. The relationship between the thermal expansion coefficient and temperature of the composite from room temperature (RT) to 1400°C was similar to that of chemical vapor deposition SiC. The thermal diffusivity of the composite could be well fitted by a logarithmic function. The composite exhibited excellent mechanical properties at RT and high temperature in vacuum. At RT, the flexural strength and flexural modulus were 1193 MPa and 255.6 GPa, respectively. Above 1200°C, the value of the flexural strength and flexural modulus at high temperature in vacuum decreased as the temperature increased, while the fracture toughness increased as the temperature increased.

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Thermophysical and mechanical properties of a three-dimensional Hi-Nicalon/SiC composite

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