Datei im Netzwerk der BAM verfügbar ("Closed Access")
Filtern
Erscheinungsjahr
- 2017 (2) (entfernen)
Dokumenttyp
- Vortrag (1)
- Posterpräsentation (1)
Sprache
- Englisch (2)
Referierte Publikation
- nein (2)
Schlagworte
Eingeladener Vortrag
- nein (1)
Surface water-induced broadening of crack initiation probability of zinc aluminosilicate glasses
(2017)
The crack generation probability by Vickers indentation of glass surfaces is known to be influenced by the atmospheric conditions under which the Vickers experiment is performed [1]. However, the effect of surface water due to preparation and storage of the glass surfaces prior to the indentation is less understood. Therefore, zinc aluminosilicate glasses of perzinc, peraluminous as well as nominally NBO-free meta-aluminous composition were prepared by melt quenching. Surfaces of cut and polished specimens of these glasses were either stored for seven days under constant atmosphere (50 °C; 55% RH) or etched (HF: 20vol%; 20 min) shortly before indentation. The obtained results show a strong variation of crack initiation behavior depending on chemical composition of the glasses as well as sample preparation. All experiments were performed in dry nitrogen gas to minimize the influence of atmospheric humidity during indentation. While the regular glass surfaces exposed to humid air prior to Vickers indentation show a broad distribution of crack initiation probability, this distribution narrows down if etched glass surfaces are tested. SNMS depth profiling shows a water enriched layer at the surface (150 μm) for the non-etched and stored specimens leading to the conclusion that surface water causes broadening of the crack initiation probability of glass surfaces.
An efficient energy provision using fuel cells is linked to effecitve hydrogen storage capabilities. Because of its low intrinsic hydrogen permeability, glass has a huge potential in modern concepts of hydrogen storage. Previous studies on oxidic glasses showed an empirical connection between glass composition and gas permeation, which was mainly derived from the behavior of silica glass. In this study we focus on the relationship between topologic (free volume; network polymerization) and thermodynamic (configurational entropy) parameters. The comparison of three glasses within the meta (earth-) alkaline alumino silicate system to silica glass shows that an increase of the atomic packing factor (APF) does not necessarily decrease the permeability. Furthermore, the results suggest a connection between ΔCp at Tg and hydrogen permeability of the glass. All experiments were performed assuming that chemical hydrogen solubiltity in glass is negligible at temperatures well below the glass transition temperature.