Study of crack driving force in TiNi shape memory alloy coating subjected to cyclic loading

Jian Jun Chen; Shan Dong Tu; Jian Ming Gong; Zheng Dong Wang

Study of crack driving force in TiNi shape memory alloy coating subjected to cyclic loading

Jian Jun Chen, Shan Dong Tu, Jian Ming Gong, Zheng Dong Wang

School of Mechanical and Power Engineering

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

Abstract

The superelasticity effect of TiNi alloy occurred in a certain temperature range was the unique mechanical characteristics of shape memory alloy (SMA). Due to the existence of recovering force, this functional material can prevent or retard the crack growth at a high level. As an advanced coating material TiNi shape memory alloy will enhance the coating's toughness and prolong the service life of whole coating/substrate system. In the present paper the finite element method was employed to simulate the behavior of TiNi SMA coating. The strain fields and the crack driving force of TiNi coating containing surface crack were investigated and compared with the normal coating material. The advantage of TiNi coating was revealed which provides the fundamental mechanical knowledge for the application of TiNi SMA coating in engineering.

Original language	English
Pages (from-to)	679-683
Number of pages	5
Journal	Gongneng Cailiao/Journal of Functional Materials
Volume	36
Issue number	5
State	Published - May 2005

Keywords

Coating
Crack
Superelasticity
TiNi shape memory alloy
ΔJ

Cite this

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abstract = "The superelasticity effect of TiNi alloy occurred in a certain temperature range was the unique mechanical characteristics of shape memory alloy (SMA). Due to the existence of recovering force, this functional material can prevent or retard the crack growth at a high level. As an advanced coating material TiNi shape memory alloy will enhance the coating's toughness and prolong the service life of whole coating/substrate system. In the present paper the finite element method was employed to simulate the behavior of TiNi SMA coating. The strain fields and the crack driving force of TiNi coating containing surface crack were investigated and compared with the normal coating material. The advantage of TiNi coating was revealed which provides the fundamental mechanical knowledge for the application of TiNi SMA coating in engineering.",

keywords = "Coating, Crack, Superelasticity, TiNi shape memory alloy, ΔJ",

author = "Chen, {Jian Jun} and Tu, {Shan Dong} and Gong, {Jian Ming} and Wang, {Zheng Dong}",

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T1 - Study of crack driving force in TiNi shape memory alloy coating subjected to cyclic loading

AU - Chen, Jian Jun

AU - Tu, Shan Dong

AU - Gong, Jian Ming

AU - Wang, Zheng Dong

PY - 2005/5

Y1 - 2005/5

N2 - The superelasticity effect of TiNi alloy occurred in a certain temperature range was the unique mechanical characteristics of shape memory alloy (SMA). Due to the existence of recovering force, this functional material can prevent or retard the crack growth at a high level. As an advanced coating material TiNi shape memory alloy will enhance the coating's toughness and prolong the service life of whole coating/substrate system. In the present paper the finite element method was employed to simulate the behavior of TiNi SMA coating. The strain fields and the crack driving force of TiNi coating containing surface crack were investigated and compared with the normal coating material. The advantage of TiNi coating was revealed which provides the fundamental mechanical knowledge for the application of TiNi SMA coating in engineering.

AB - The superelasticity effect of TiNi alloy occurred in a certain temperature range was the unique mechanical characteristics of shape memory alloy (SMA). Due to the existence of recovering force, this functional material can prevent or retard the crack growth at a high level. As an advanced coating material TiNi shape memory alloy will enhance the coating's toughness and prolong the service life of whole coating/substrate system. In the present paper the finite element method was employed to simulate the behavior of TiNi SMA coating. The strain fields and the crack driving force of TiNi coating containing surface crack were investigated and compared with the normal coating material. The advantage of TiNi coating was revealed which provides the fundamental mechanical knowledge for the application of TiNi SMA coating in engineering.

KW - Coating

KW - Crack

KW - Superelasticity

KW - TiNi shape memory alloy

KW - ΔJ

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M3 - 文章

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SN - 1001-9731

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SP - 679

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JO - Gongneng Cailiao/Journal of Functional Materials

JF - Gongneng Cailiao/Journal of Functional Materials

IS - 5

ER -

Study of crack driving force in TiNi shape memory alloy coating subjected to cyclic loading

Abstract

Keywords

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