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Fatigue crack propagation behaviour of pressurised elbow pipes under cyclic bending

Liu, Caiming / Li, Bingbing / Cai, Yebin / Chen, Xu

Abstract Fatigue crack propagation behaviours of Z2CND18.12N austenitic stainless steel pressurised elbow pipes were studied under cyclic bending. The results show that the evolutions of crack depth with the number of cycles at both intrados and crown present logarithmic growth, while the evolutions of crack length with the number of cycles present exponential growth. The aspect ratios of crack increment, $Δ (2 c) / Δ a$ versus the number of cycles at intrados and crown are linear. J-integrals of the corresponding crack size were solved by numerical method. The evolutions of crack depth growth rate, $\frac{d a}{d N}$ with J-integral range, $Δ J$ at intrados and crown conform to the unified Paris law.

Highlights • Fatigue crack propagation behaviors of Z2CND18.12 N pressurised elbow pipes were studied. • The aspect ratios of crack increment, $Δ (2 c) / Δ a$ versus the number of cycles at intrados and crown are linear. • The relation of crack depth growth rate and J-integral range conforms to Paris law both at intrados and crown.

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Fatigue crack propagation behaviour of pressurised elbow pipes under cyclic bending

Liu, Caiming / Li, Bingbing / Cai, Yebin / Chen, Xu

Abstract Fatigue crack propagation behaviours of Z2CND18.12N austenitic stainless steel pressurised elbow pipes were studied under cyclic bending. The results show that the evolutions of crack depth with the number of cycles at both intrados and crown present logarithmic growth, while the evolutions of crack length with the number of cycles present exponential growth. The aspect ratios of crack increment, $Δ (2 c) / Δ a$ versus the number of cycles at intrados and crown are linear. J-integrals of the corresponding crack size were solved by numerical method. The evolutions of crack depth growth rate, $\frac{d a}{d N}$ with J-integral range, $Δ J$ at intrados and crown conform to the unified Paris law.

Highlights • Fatigue crack propagation behaviors of Z2CND18.12 N pressurised elbow pipes were studied. • The aspect ratios of crack increment, $Δ (2 c) / Δ a$ versus the number of cycles at intrados and crown are linear. • The relation of crack depth growth rate and J-integral range conforms to Paris law both at intrados and crown.

Fatigue crack propagation behaviour of pressurised elbow pipes under cyclic bending

Liu, Caiming / Li, Bingbing / Cai, Yebin / Chen, Xu

Abstract Fatigue crack propagation behaviours of Z2CND18.12N austenitic stainless steel pressurised elbow pipes were studied under cyclic bending. The results show that the evolutions of crack depth with the number of cycles at both intrados and crown present logarithmic growth, while the evolutions of crack length with the number of cycles present exponential growth. The aspect ratios of crack increment, $Δ (2 c) / Δ a$ versus the number of cycles at intrados and crown are linear. J-integrals of the corresponding crack size were solved by numerical method. The evolutions of crack depth growth rate, $\frac{d a}{d N}$ with J-integral range, $Δ J$ at intrados and crown conform to the unified Paris law.

Highlights • Fatigue crack propagation behaviors of Z2CND18.12 N pressurised elbow pipes were studied. • The aspect ratios of crack increment, $Δ (2 c) / Δ a$ versus the number of cycles at intrados and crown are linear. • The relation of crack depth growth rate and J-integral range conforms to Paris law both at intrados and crown.

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Title:

Fatigue crack propagation behaviour of pressurised elbow pipes under cyclic bending

Contributors:

Liu, Caiming (author) / Li, Bingbing (author) / Cai, Yebin (author) / Chen, Xu (author)

Published in:

Thin-Walled Structures ; 154

Publication date:

2020-05-30

ISSN:

DOI:

https://doi.org/10.1016/j.tws.2020.106882

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

Fatigue crack propagation , Crack growth rate , Finite element method , J-integral , Pressurised elbow

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