Fatigue crack growth and delamination propagation in glass-fiber reinforced aluminium alloy laminates

Zhongchun Xia; Yu'e Ma; Shuang Yun; Xiaofeng Xiong

Fatigue crack growth and delamination propagation in glass-fiber reinforced aluminium alloy laminates

Zhongchun Xia, Yu'e Ma, Shuang Yun, Xiaofeng Xiong

School of Aeronautics

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

Abstract

Constant amplitude tension-tension fatigue experiments were done on glass-fiber reinforced aluminium laminates. The fatigue crack growth and delamination growth were investigated on centre crack specimens. Crack growth rate almost kept constant with crack growing, and delamination length kept linear relation with crack length. Based on finite element method analysis method, the effective stress intensity factors were established at crack tip, and Paris-law was used to predict the crack growth rate. It is shown that the numerical results agree with experimental results; this agreement proves that this method can be used to predict fatigue crack growth rates in this hybrid laminate.

Original language	English
Pages (from-to)	891-895
Number of pages	5
Journal	Xibei Gongye Daxue Xuebao/Journal of Northwestern Polytechnical University
Volume	31
Issue number	6
State	Published - Dec 2013

Keywords

ABAQUS
Crack growth
Delamination growth
Factors
Fatigue crack propagation
Glass-fiber reinforced aluminium alloy laminates
Stress intensity

Cite this

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title = "Fatigue crack growth and delamination propagation in glass-fiber reinforced aluminium alloy laminates",

abstract = "Constant amplitude tension-tension fatigue experiments were done on glass-fiber reinforced aluminium laminates. The fatigue crack growth and delamination growth were investigated on centre crack specimens. Crack growth rate almost kept constant with crack growing, and delamination length kept linear relation with crack length. Based on finite element method analysis method, the effective stress intensity factors were established at crack tip, and Paris-law was used to predict the crack growth rate. It is shown that the numerical results agree with experimental results; this agreement proves that this method can be used to predict fatigue crack growth rates in this hybrid laminate.",

keywords = "ABAQUS, Crack growth, Delamination growth, Factors, Fatigue crack propagation, Glass-fiber reinforced aluminium alloy laminates, Stress intensity",

author = "Zhongchun Xia and Yu'e Ma and Shuang Yun and Xiaofeng Xiong",

year = "2013",

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T1 - Fatigue crack growth and delamination propagation in glass-fiber reinforced aluminium alloy laminates

AU - Xia, Zhongchun

AU - Ma, Yu'e

AU - Yun, Shuang

AU - Xiong, Xiaofeng

PY - 2013/12

Y1 - 2013/12

N2 - Constant amplitude tension-tension fatigue experiments were done on glass-fiber reinforced aluminium laminates. The fatigue crack growth and delamination growth were investigated on centre crack specimens. Crack growth rate almost kept constant with crack growing, and delamination length kept linear relation with crack length. Based on finite element method analysis method, the effective stress intensity factors were established at crack tip, and Paris-law was used to predict the crack growth rate. It is shown that the numerical results agree with experimental results; this agreement proves that this method can be used to predict fatigue crack growth rates in this hybrid laminate.

AB - Constant amplitude tension-tension fatigue experiments were done on glass-fiber reinforced aluminium laminates. The fatigue crack growth and delamination growth were investigated on centre crack specimens. Crack growth rate almost kept constant with crack growing, and delamination length kept linear relation with crack length. Based on finite element method analysis method, the effective stress intensity factors were established at crack tip, and Paris-law was used to predict the crack growth rate. It is shown that the numerical results agree with experimental results; this agreement proves that this method can be used to predict fatigue crack growth rates in this hybrid laminate.

KW - ABAQUS

KW - Crack growth

KW - Delamination growth

KW - Factors

KW - Fatigue crack propagation

KW - Glass-fiber reinforced aluminium alloy laminates

KW - Stress intensity

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SN - 1000-2758

VL - 31

SP - 891

EP - 895

JO - Xibei Gongye Daxue Xuebao/Journal of Northwestern Polytechnical University

JF - Xibei Gongye Daxue Xuebao/Journal of Northwestern Polytechnical University

IS - 6

ER -

Fatigue crack growth and delamination propagation in glass-fiber reinforced aluminium alloy laminates

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Keywords

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