Residual stresses in materials modified by plasma electrolytic
oxidation: Insights and implications for performance

J 2025

Residual stresses in materials modified by plasma electrolytic oxidation: Insights and implications for performance

WOJTAS, Daniel; Marianna MARCISZKO-WIACKOWSKA a Łukasz MAJ

Základní údaje

Originální název

Residual stresses in materials modified by plasma electrolytic oxidation: Insights and implications for performance

Autoři

WOJTAS, Daniel; Marianna MARCISZKO-WIACKOWSKA a Łukasz MAJ

Vydání

Progress in Surface Science, OXFORD, PERGAMON-ELSEVIER SCIENCE LTD, 2025, 0079-6816

Další údaje

Jazyk

angličtina

Typ výsledku

Článek v odborném periodiku

Obor

20501 Materials engineering

Stát vydavatele

Velká Británie a Severní Irsko

Utajení

není předmětem státního či obchodního tajemství

Odkazy

URL

Impakt faktor

Impact factor: 7.200 v roce 2024

Označené pro přenos do RIV

Ano

Organizační jednotka

Lékařská fakulta

Klíčová slova anglicky

Plasma electrolytic oxidation; Residual stress; The sin2ψ method; Non-destructive material characterization; Light metal

Štítky

14110518, rivok

Příznaky

Mezinárodní význam, Recenzováno

Změněno: 6. 10. 2025 11:13, Mgr. Tereza Miškechová

Anotace

V originále

This review explores the significance of residual stresses determination in the performance and durability of materials modified by plasma electrolytic oxidation (PEO). The study highlights how residual stresses can critically affect mechanical properties and the fatigue behavior of PEO-coated components, based on different aluminum alloys, where a direct correlation between residual stress levels and fatigue performance has been established. The review also discusses residual stresses and their implications in magnesium and titanium-based materials. In the former, residual stresses have been shown to influence not only mechanical properties but also corrosion resistance, making the materials attractive for lightweight structures and biomedical applications. Overall, the review highlights the potency of the sin2Ψ method using X-ray diffraction for non-destructive measurement of residual stresses in PEO coatings. While this technique has gained popularity due to its relative simplicity, its application can be limited by measurement errors, particularly in multilayered microstructures, typical of PEO-coated samples. Therefore, advancements such as the extended sin2Ψ method, which allows for more localized sampling and analysis, are necessary for a comprehensive understanding of stress distributions. Future research directions are proposed, focusing on enhancing coating functionality and understanding the relationship between residual stresses and material properties across various substrates.

Citovat

WOJTAS, Daniel; Marianna MARCISZKO-WIACKOWSKA a Łukasz MAJ. Residual stresses in materials modified by plasma electrolytic oxidation: Insights and implications for performance. Progress in Surface Science. OXFORD: PERGAMON-ELSEVIER SCIENCE LTD, 2025, roč. 100, September 2025, s. 1-26. ISSN 0079-6816. Dostupné z: https://doi.org/10.1016/j.progsurf.2025.100780.

@article{2521240,
   author = {Wojtas, Daniel and MarciszkoandWiackowska, Marianna and Maj, Łukasz},
   article_location = {OXFORD},
   article_number = {September 2025},
   doi = {https://doi.org/10.1016/j.progsurf.2025.100780},
   keywords = {Plasma electrolytic oxidation; Residual stress; The sin2ψ method; Non-destructive material characterization; Light metal},
   language = {eng},
   issn = {0079-6816},
   journal = {Progress in Surface Science},
   title = {Residual stresses in materials modified by plasma electrolytic oxidation: Insights and implications for performance},
   url = {https://www.sciencedirect.com/science/article/pii/S0079681625000140?via%3Dihub},
   volume = {100},
   year = {2025}
}

TY  - JOUR
ID  - 2521240
AU  - Wojtas, Daniel - Marciszko-Wiackowska, Marianna - Maj, Łukasz
PY  - 2025
TI  - Residual stresses in materials modified by plasma electrolytic oxidation: Insights and implications for performance
JF  - Progress in Surface Science
VL  - 100
IS  - September 2025
SP  - 1-26
EP  - 1-26
PB  - PERGAMON-ELSEVIER SCIENCE LTD
SN  - 00796816
KW  - Plasma electrolytic oxidation
KW  - Residual stress
KW  - The sin2ψ method
KW  - Non-destructive material characterization
KW  - Light metal
UR  - https://www.sciencedirect.com/science/article/pii/S0079681625000140?via%3Dihub
N2  - This review explores the significance of residual stresses determination in the performance and durability of materials modified by plasma electrolytic oxidation (PEO). The study highlights how residual stresses can critically affect mechanical properties and the fatigue behavior of PEO-coated components, based on different aluminum alloys, where a direct correlation between residual stress levels and fatigue performance has been established. The review also discusses residual stresses and their implications in magnesium and titanium-based materials. In the former, residual stresses have been shown to influence not only mechanical properties but also corrosion resistance, making the materials attractive for lightweight structures and biomedical applications. Overall, the review highlights the potency of the sin2Ψ method using X-ray diffraction for non-destructive measurement of residual stresses in PEO coatings. While this technique has gained popularity due to its relative simplicity, its application can be limited by measurement errors, particularly in multilayered microstructures, typical of PEO-coated samples. Therefore, advancements such as the extended sin2Ψ method, which allows for more localized sampling and analysis, are necessary for a comprehensive understanding of stress distributions. Future research directions are proposed, focusing on enhancing coating functionality and understanding the relationship between residual stresses and material properties across various substrates.
ER  -

WOJTAS, Daniel; Marianna MARCISZKO-WIACKOWSKA a Łukasz MAJ. Residual stresses in materials modified by plasma electrolytic oxidation: Insights and implications for performance. \textit{Progress in Surface Science}. OXFORD: PERGAMON-ELSEVIER SCIENCE LTD, 2025, roč.~100, September 2025, s.~1-26. ISSN~0079-6816. Dostupné z: https://doi.org/10.1016/j.progsurf.2025.100780.

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