Your search keyword '"Mol, J.M.C."' showing total 3 results

1. Monitoring Atmospheric Corrosion of Carbon Steel Under Controlled Electrolyte Droplet Distributions.

Author

Zhang, Keer, Rahimi, Ehsan, Van Den Steen, Nils, Terryn, Herman, Mol, J.M.C., and Gonzalez-Garcia, Yaiza

Published

2023

2. The role of acid-base properties in the interactions across the oxide-primer interface in aerospace applications.

Author

Abrahami, S.T., Hauffman, T., Kok, J.M.M., Terryn, H., and Mol, J.M.C.

Subjects

CHROMIC acid, ACID-base chemistry, ANODIC oxidation of metals, PRIMERS (Coating), OXIDES, AEROSPACE industries

Abstract

In the transition to environmentally friendly production, chromic acid anodizing is being replaced by sulfuric acid, phosphoric acid or phosphoric-sulfuric acid anodizing. While it is known that using these acids leads to the incorporation of anions into the oxide, little is known on how they affect the nature of the oxide and how this, in turn, affects the interactions across the oxide-primer interface. In the current work, we investigate these changes in the interactions, especially the acid-base bonding, across the interface as a function of the pretreatment. To exclude contribution of surface roughness, oxides with no surface features were prepared in the aforementioned anodizing solutions by stopping the oxide growth during the formation of the barrier layer. Treatments in alkaline solution and boiling water were also included. XPS and Fourier transform infrared were first used to probe the acid-base properties of the oxide before its interactions with 4-ethylphenol (4-EP), and 4-hydroxybenzyl alcohol (4-HbA) was measured. These two molecules represent functional groups of phenolic-based thermoset resins with different acidities. Results show that both the pretreatments and the choice of molecule play a role in the interactions across the interface. While 4-HbA showed no preference, thin films of 4-EP were not detected on oxides that were prepared in phosphoric acid. [ABSTRACT FROM AUTHOR]

Published

2016

3. An infrared spectroscopic study of sodium silicate adsorption on porous anodic alumina.

Author

Gaggiano, R., De Graeve, I., Mol, J.M.C., Verbeken, K., Kestens, L.A.I., and Terryn, H.

Subjects

SOLUBLE glass, ALUMINUM oxide, SPECTRUM analysis, METALLIC oxides, ANODIC oxidation of metals

Abstract

Sodium silicate solutions, also known as 'water-glass', are used for a wide variety of applications. In particular, they are commonly used in pre-treatments of aluminum alloys as cleaners and corrosion inhibitors. Silicate films are known to be promising for corrosion protection and to confer high hydrophilicity. One of the main issues in the study of the formation of silicate films on metal oxides is the complexity of the anionic speciation in aqueous solution. In this work, the mechanism of sodium silicate interaction with porous anodic alumina and its dependence on the solution characteristics is studied by means of Fourier transformed infrared spectroscopy (FTIR). Grazing angle-FTIR and attenuated total reflection-FTIR are used in order to monitor the chemical changes occurring with time on the surface upon silicate adsorption. The effect of the SiO2/Na2O molar ratio and the temperature is studied. The role of rinsing is investigated when the alumina surface is washed in water after the silicate treatment. A chemical description of the phenomena occurring during silicate treatment is given. Copyright © 2013 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2013