Effects of Thickness on Mechanical Properties of 2D C/SiC Torque Tube

Hui Zhao; Litong Zhang; Bo Chen; Jiaxin Zhang

doi:10.1007/s11595-019-2158-z

Effects of Thickness on Mechanical Properties of 2D C/SiC Torque Tube

Hui Zhao, Litong Zhang, Bo Chen, Jiaxin Zhang

School of Materials Sience and Engineering

Northwestern Polytechnical University Xian

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

1 Scopus citations

Abstract

Different failure modes and morphologies were found in the chemical vapor infiltration (CVI) 2D C/SiC torque tubes with different thickness. To characterize the density and porosity of the ceramic matrix composite (CMC) torque tube, a CT test was conducted. The archimedes drainage method was used to measure the density and porosity, and by adopting FEM software, the stress distribution and failure strength of the ceramic matrix composite torque tubes were calculated. A universal material test machine was used to implement torsional tests. Different torsional behaviors of CMC torque tubes with two different thicknesses were showed in the stress-strain curves. To analyze the predominant failure factors, SEM was used to observe the failure morphologies and cracks. 5 mm thickness CMC torque tube has reasonable fracture morphologies and a higher maximum shear strength and modulus.

Original language	English
Pages (from-to)	1049-1054
Number of pages	6
Journal	Journal Wuhan University of Technology, Materials Science Edition
Volume	34
Issue number	5
DOIs	https://doi.org/10.1007/s11595-019-2158-z
State	Published - 1 Oct 2019

Keywords

C/SiC torque tube
failure analysis
thickness
torque capacity

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10.1007/s11595-019-2158-z

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title = "Effects of Thickness on Mechanical Properties of 2D C/SiC Torque Tube",

abstract = "Different failure modes and morphologies were found in the chemical vapor infiltration (CVI) 2D C/SiC torque tubes with different thickness. To characterize the density and porosity of the ceramic matrix composite (CMC) torque tube, a CT test was conducted. The archimedes drainage method was used to measure the density and porosity, and by adopting FEM software, the stress distribution and failure strength of the ceramic matrix composite torque tubes were calculated. A universal material test machine was used to implement torsional tests. Different torsional behaviors of CMC torque tubes with two different thicknesses were showed in the stress-strain curves. To analyze the predominant failure factors, SEM was used to observe the failure morphologies and cracks. 5 mm thickness CMC torque tube has reasonable fracture morphologies and a higher maximum shear strength and modulus.",

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AU - Zhao, Hui

AU - Zhang, Litong

AU - Chen, Bo

AU - Zhang, Jiaxin

PY - 2019/10/1

Y1 - 2019/10/1

N2 - Different failure modes and morphologies were found in the chemical vapor infiltration (CVI) 2D C/SiC torque tubes with different thickness. To characterize the density and porosity of the ceramic matrix composite (CMC) torque tube, a CT test was conducted. The archimedes drainage method was used to measure the density and porosity, and by adopting FEM software, the stress distribution and failure strength of the ceramic matrix composite torque tubes were calculated. A universal material test machine was used to implement torsional tests. Different torsional behaviors of CMC torque tubes with two different thicknesses were showed in the stress-strain curves. To analyze the predominant failure factors, SEM was used to observe the failure morphologies and cracks. 5 mm thickness CMC torque tube has reasonable fracture morphologies and a higher maximum shear strength and modulus.

AB - Different failure modes and morphologies were found in the chemical vapor infiltration (CVI) 2D C/SiC torque tubes with different thickness. To characterize the density and porosity of the ceramic matrix composite (CMC) torque tube, a CT test was conducted. The archimedes drainage method was used to measure the density and porosity, and by adopting FEM software, the stress distribution and failure strength of the ceramic matrix composite torque tubes were calculated. A universal material test machine was used to implement torsional tests. Different torsional behaviors of CMC torque tubes with two different thicknesses were showed in the stress-strain curves. To analyze the predominant failure factors, SEM was used to observe the failure morphologies and cracks. 5 mm thickness CMC torque tube has reasonable fracture morphologies and a higher maximum shear strength and modulus.

KW - C/SiC torque tube

KW - failure analysis

KW - thickness

KW - torque capacity

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JO - Journal Wuhan University of Technology, Materials Science Edition

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Effects of Thickness on Mechanical Properties of 2D C/SiC Torque Tube

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