Enhanced model for axisymmetric stability analysis of propagating circular defect-driven coating delamination under combined compressive and diffusion-induced stresses

M. H. Nazir; Z. A. Khan; Syed Zohaib Javaid Zaidi; Muhammad Majid Hussain; O. O. Taiwo

doi:10.1016/j.ijoes.2024.100876

Enhanced model for axisymmetric stability analysis of propagating circular defect-driven coating delamination under combined compressive and diffusion-induced stresses

M. H. Nazir^*, Z. A. Khan, Syed Zohaib Javaid Zaidi, Muhammad Majid Hussain, O. O. Taiwo

^*Corresponding author for this work

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

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Abstract

This paper examines the delamination of palladium (Pd) coatings bonded to a steel substrate under equi-biaxial compression coupled with diffusion-induced stress. The study focuses on circular delaminations. Large delaminations cause the coating to debond, forming blisters, which generate a driving force on the edge crack tip. A two-part theoretical model is developed: axisymmetric blister propagation in a stable circular pattern and non-axisymmetric perturbation of the blister leading to branching. Detailed experimental studies validate the theoretical predictions. The experiments show that non-axisymmetric crack tip instabilities during propagation result in worm-like patterns.

Original language	English
Article number	100876
Number of pages	13
Journal	International Journal of Electrochemical Science
Volume	19
Issue number	12
Early online date	18 Nov 2024
DOIs	https://doi.org/10.1016/j.ijoes.2024.100876
Publication status	Published - Dec 2024

Keywords

Circular delaminations
Delamination
Diffusion-induced stress
Equi-biaxial compression
Non-axisymmetric instabilities
Palladium coatings

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Cite this

@article{f67518feb41048d0867632afb4310fe4,

title = "Enhanced model for axisymmetric stability analysis of propagating circular defect-driven coating delamination under combined compressive and diffusion-induced stresses",

abstract = "This paper examines the delamination of palladium (Pd) coatings bonded to a steel substrate under equi-biaxial compression coupled with diffusion-induced stress. The study focuses on circular delaminations. Large delaminations cause the coating to debond, forming blisters, which generate a driving force on the edge crack tip. A two-part theoretical model is developed: axisymmetric blister propagation in a stable circular pattern and non-axisymmetric perturbation of the blister leading to branching. Detailed experimental studies validate the theoretical predictions. The experiments show that non-axisymmetric crack tip instabilities during propagation result in worm-like patterns.",

keywords = "Circular delaminations, Delamination, Diffusion-induced stress, Equi-biaxial compression, Non-axisymmetric instabilities, Palladium coatings",

author = "Nazir, {M. H.} and Khan, {Z. A.} and Zaidi, {Syed Zohaib Javaid} and Hussain, {Muhammad Majid} and Taiwo, {O. O.}",

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year = "2024",

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doi = "10.1016/j.ijoes.2024.100876",

language = "English",

volume = "19",

journal = "International Journal of Electrochemical Science",

issn = "1452-3981",

publisher = "Elsevier",

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Enhanced model for axisymmetric stability analysis of propagating circular defect-driven coating delamination under combined compressive and diffusion-induced stresses. / Nazir, M. H.; Khan, Z. A.; Zaidi, Syed Zohaib Javaid et al.
In: International Journal of Electrochemical Science, Vol. 19, No. 12, 100876, 12.2024.

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

TY - JOUR

T1 - Enhanced model for axisymmetric stability analysis of propagating circular defect-driven coating delamination under combined compressive and diffusion-induced stresses

AU - Nazir, M. H.

AU - Khan, Z. A.

AU - Zaidi, Syed Zohaib Javaid

AU - Hussain, Muhammad Majid

AU - Taiwo, O. O.

PY - 2024/12

Y1 - 2024/12

N2 - This paper examines the delamination of palladium (Pd) coatings bonded to a steel substrate under equi-biaxial compression coupled with diffusion-induced stress. The study focuses on circular delaminations. Large delaminations cause the coating to debond, forming blisters, which generate a driving force on the edge crack tip. A two-part theoretical model is developed: axisymmetric blister propagation in a stable circular pattern and non-axisymmetric perturbation of the blister leading to branching. Detailed experimental studies validate the theoretical predictions. The experiments show that non-axisymmetric crack tip instabilities during propagation result in worm-like patterns.

AB - This paper examines the delamination of palladium (Pd) coatings bonded to a steel substrate under equi-biaxial compression coupled with diffusion-induced stress. The study focuses on circular delaminations. Large delaminations cause the coating to debond, forming blisters, which generate a driving force on the edge crack tip. A two-part theoretical model is developed: axisymmetric blister propagation in a stable circular pattern and non-axisymmetric perturbation of the blister leading to branching. Detailed experimental studies validate the theoretical predictions. The experiments show that non-axisymmetric crack tip instabilities during propagation result in worm-like patterns.

KW - Circular delaminations

KW - Delamination

KW - Diffusion-induced stress

KW - Equi-biaxial compression

KW - Non-axisymmetric instabilities

KW - Palladium coatings

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DO - 10.1016/j.ijoes.2024.100876

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VL - 19

JO - International Journal of Electrochemical Science

JF - International Journal of Electrochemical Science

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