FEM Modeling of Interfacial Shear Strength in SiC-Fibre Reinforced Titanium Matrix Composites

Weidong Zeng; Yigang Zhou; P. W.M. Peters

FEM Modeling of Interfacial Shear Strength in SiC-Fibre Reinforced Titanium Matrix Composites

Weidong Zeng, Yigang Zhou, P. W.M. Peters

School of Materials Sience and Engineering

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

2 Scopus citations

Abstract

Push-out and push-back experiments of SCS-6/Timetal 834 composites have been performed in the temperature range of room temperature to 530°C to measure the maximum load values and slip shear stresses. On the basis of cylinder FEM model the interfacial shear stress distribution and the debonding process of composites for different temperature range are modeled by finite element method. It is found that the debonding process can be described by the shear strength criterion and the interfacial shear strength is τ_m = 500MPa at room temperature, τ_m = 300MPa at 300°C and τ_m = 140MPa at 530°C when the interfacial element length is 6. 25μm. Since the stress field at crack tip is singular, the interfacial shear strength is dependent on the size of element.

Original language	English
Pages (from-to)	448
Number of pages	1
Journal	Xiyou Jinshu Cailiao Yu Gongcheng/Rare Metal Materials and Engineering
Volume	31
Issue number	6
State	Published - Dec 2002

Keywords

FEM
Push-out tests
Shear strength
Ti-matrix composite

Cite this

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title = "FEM Modeling of Interfacial Shear Strength in SiC-Fibre Reinforced Titanium Matrix Composites",

abstract = "Push-out and push-back experiments of SCS-6/Timetal 834 composites have been performed in the temperature range of room temperature to 530°C to measure the maximum load values and slip shear stresses. On the basis of cylinder FEM model the interfacial shear stress distribution and the debonding process of composites for different temperature range are modeled by finite element method. It is found that the debonding process can be described by the shear strength criterion and the interfacial shear strength is τm = 500MPa at room temperature, τm = 300MPa at 300°C and τm = 140MPa at 530°C when the interfacial element length is 6. 25μm. Since the stress field at crack tip is singular, the interfacial shear strength is dependent on the size of element.",

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T1 - FEM Modeling of Interfacial Shear Strength in SiC-Fibre Reinforced Titanium Matrix Composites

AU - Zeng, Weidong

AU - Zhou, Yigang

AU - Peters, P. W.M.

PY - 2002/12

Y1 - 2002/12

N2 - Push-out and push-back experiments of SCS-6/Timetal 834 composites have been performed in the temperature range of room temperature to 530°C to measure the maximum load values and slip shear stresses. On the basis of cylinder FEM model the interfacial shear stress distribution and the debonding process of composites for different temperature range are modeled by finite element method. It is found that the debonding process can be described by the shear strength criterion and the interfacial shear strength is τm = 500MPa at room temperature, τm = 300MPa at 300°C and τm = 140MPa at 530°C when the interfacial element length is 6. 25μm. Since the stress field at crack tip is singular, the interfacial shear strength is dependent on the size of element.

AB - Push-out and push-back experiments of SCS-6/Timetal 834 composites have been performed in the temperature range of room temperature to 530°C to measure the maximum load values and slip shear stresses. On the basis of cylinder FEM model the interfacial shear stress distribution and the debonding process of composites for different temperature range are modeled by finite element method. It is found that the debonding process can be described by the shear strength criterion and the interfacial shear strength is τm = 500MPa at room temperature, τm = 300MPa at 300°C and τm = 140MPa at 530°C when the interfacial element length is 6. 25μm. Since the stress field at crack tip is singular, the interfacial shear strength is dependent on the size of element.

KW - FEM

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KW - Shear strength

KW - Ti-matrix composite

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JO - Xiyou Jinshu Cailiao Yu Gongcheng/Rare Metal Materials and Engineering

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ER -

FEM Modeling of Interfacial Shear Strength in SiC-Fibre Reinforced Titanium Matrix Composites

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