Ingenieurwissenschaften und zugeordnete Tätigkeiten
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- Adhesion by mechanical interlocking (1)
- Corrosion (1)
- Interfacial stability (1)
- Morphology control (1)
- Poly(acrylic acid) (1)
- Scanning Kelvin probe (1)
- XPS (1)
- ZnMgAl-alloy coatings (1)
- ZnO films (1)
- ZnO nanorods Nanocrystalline (1)
Organisationseinheit der BAM
Zinc oxide - polymer interfaces are known to exhibit interesting properties regarding molecular adhesion. This work is aimed at the investigation of the effect of the morphology and surface chemistry on the macroscopic adhesion of a model epoxy-based adhesive to nanorod (ZnO NR) and nanocrystalline (ZnO NC) ZnO-modified surfaces. Both ZnO films have been prepared using hydrothermal synthesis on hot-dip galvanized steel (HDG) surfaces by varying the precursor chemistry in order to control the film morphology. Poly (acrylic acid) (PAA) was used to improve the interfacial adhesion by modifying the morphology and surface chemistry of ZnO nanostructured films. The strong interaction of PAA from a dilute and neutral aqueous solution with the ZnO nanocrystallites was shown to significantly improve the interfacial adhesion by means of a nanoetching process.
It was shown that the wet peel-forces correlate well with the considered morphology and surface chemistry.
Adhesion and corrosive delamination of epoxy films on chemically etched ZnMgAl-alloy coatings
(2016)
The effect of alkaline and acidic pretreatment steps on the surface chemical
composition and adhesion properties of ZnMgAl-alloy coated steel was
investigated by means of spectroscopic methods, scanning Kelvin probe (SKP)
and peel test measurements.The spectroscopic results indicate that the surface
film composition can be adjusted by the wet-chemical treatment. To study the
corresponding surface adhesive properties, the samples were coated with an
epoxy amine adhesive. Peel tests under humid conditions indicated an
increased interaction between the acidic pre-treated surface and the adhesive.
The results of the SKP analysis show that the acidic cleaned substrates have the
highest resistance to delamination, which can be explained by the shift of the
interfacial electrode potential.