Application of niobium enriched ormosils as thermally stable coatings for aerospace aluminium alloys

P. C.Rajath Varma; Pradeepan Periyat; Mohamed Oubaha; Colette McDonagh; Brendan Duffy

doi:10.1016/j.surfcoat.2011.02.023

Application of niobium enriched ormosils as thermally stable coatings for aerospace aluminium alloys

P. C.Rajath Varma, Pradeepan Periyat, Mohamed Oubaha, Colette McDonagh, Brendan Duffy

School of Chemical and BioPharmaceutical Science

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

Abstract

The aim of this experimental research is to study the ability of niobium rich sol-gel coatings to withstand thermal stress, while remaining impermeable to corrosive agents for the protection of aluminium aerospace alloys. The coating material is developed via polymeric sol-gel synthesis employing 3-(trimethoxysilyl)propylmethacrylate (MAPTMS) and niobium ethoxide precursors as silicon and niobium sources, respectively. The beneficial effect of niobium inclusion within the coating was characterised spectroscopically, calorimetrically and electrochemically. The thermal cycling effects of the coating were studied using microscopic and accelerated test methods. Electrochemical tests showed that corrosion current of the niobium enriched material was 2 orders lower in magnitude than the equivalent MAPTMS coating. The neutral salt spray test results of the thermally stressed samples prove that inclusion of niobium nanoparticles within the silane matrix considerably improves the corrosion resistance performance.

Original language	English
Pages (from-to)	3992-3998
Number of pages	7
Journal	Surface and Coatings Technology
Volume	205
Issue number	16
DOIs	https://doi.org/10.1016/j.surfcoat.2011.02.023
Publication status	Published - 15 May 2011

Keywords

Aluminium alloy
Corrosion
Sol-gel
Thermal cycling

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title = "Application of niobium enriched ormosils as thermally stable coatings for aerospace aluminium alloys",

abstract = "The aim of this experimental research is to study the ability of niobium rich sol-gel coatings to withstand thermal stress, while remaining impermeable to corrosive agents for the protection of aluminium aerospace alloys. The coating material is developed via polymeric sol-gel synthesis employing 3-(trimethoxysilyl)propylmethacrylate (MAPTMS) and niobium ethoxide precursors as silicon and niobium sources, respectively. The beneficial effect of niobium inclusion within the coating was characterised spectroscopically, calorimetrically and electrochemically. The thermal cycling effects of the coating were studied using microscopic and accelerated test methods. Electrochemical tests showed that corrosion current of the niobium enriched material was 2 orders lower in magnitude than the equivalent MAPTMS coating. The neutral salt spray test results of the thermally stressed samples prove that inclusion of niobium nanoparticles within the silane matrix considerably improves the corrosion resistance performance.",

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author = "Varma, {P. C.Rajath} and Pradeepan Periyat and Mohamed Oubaha and Colette McDonagh and Brendan Duffy",

note = "Funding Information: The authors would like to thank Enterprise Ireland for financial support through the Dualion project ( CFTD/05/306 ) and the Applied Research Enhancement Programme . The authors are indebted to Emer Ryan and Dr. Luke O'Neil for their excellent SEM and AFM assistance. The Asylum MFP-3D AFM Instrument was purchased under the framework of the INSPIRE programme, funded by the Irish Government's Programme for Research in Third Level Institutions, Cycle 4, National Development Plan 2007–2013, supported by the European Union Structural Fund .",

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AU - McDonagh, Colette

AU - Duffy, Brendan

N1 - Funding Information: The authors would like to thank Enterprise Ireland for financial support through the Dualion project ( CFTD/05/306 ) and the Applied Research Enhancement Programme . The authors are indebted to Emer Ryan and Dr. Luke O'Neil for their excellent SEM and AFM assistance. The Asylum MFP-3D AFM Instrument was purchased under the framework of the INSPIRE programme, funded by the Irish Government's Programme for Research in Third Level Institutions, Cycle 4, National Development Plan 2007–2013, supported by the European Union Structural Fund .

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N2 - The aim of this experimental research is to study the ability of niobium rich sol-gel coatings to withstand thermal stress, while remaining impermeable to corrosive agents for the protection of aluminium aerospace alloys. The coating material is developed via polymeric sol-gel synthesis employing 3-(trimethoxysilyl)propylmethacrylate (MAPTMS) and niobium ethoxide precursors as silicon and niobium sources, respectively. The beneficial effect of niobium inclusion within the coating was characterised spectroscopically, calorimetrically and electrochemically. The thermal cycling effects of the coating were studied using microscopic and accelerated test methods. Electrochemical tests showed that corrosion current of the niobium enriched material was 2 orders lower in magnitude than the equivalent MAPTMS coating. The neutral salt spray test results of the thermally stressed samples prove that inclusion of niobium nanoparticles within the silane matrix considerably improves the corrosion resistance performance.

AB - The aim of this experimental research is to study the ability of niobium rich sol-gel coatings to withstand thermal stress, while remaining impermeable to corrosive agents for the protection of aluminium aerospace alloys. The coating material is developed via polymeric sol-gel synthesis employing 3-(trimethoxysilyl)propylmethacrylate (MAPTMS) and niobium ethoxide precursors as silicon and niobium sources, respectively. The beneficial effect of niobium inclusion within the coating was characterised spectroscopically, calorimetrically and electrochemically. The thermal cycling effects of the coating were studied using microscopic and accelerated test methods. Electrochemical tests showed that corrosion current of the niobium enriched material was 2 orders lower in magnitude than the equivalent MAPTMS coating. The neutral salt spray test results of the thermally stressed samples prove that inclusion of niobium nanoparticles within the silane matrix considerably improves the corrosion resistance performance.

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Application of niobium enriched ormosils as thermally stable coatings for aerospace aluminium alloys

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Keywords

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