4 results
Search Results
Now showing 1 - 4 of 4
- ItemWater content of sulfate-fined industrial soda-lime glass and its influence on workability(Offenbach : Verlag der Deutschen Glastechnischen Gesellschaft, 1998) Geotti-Bianchini, Franco; De Riu, LucaThe aims of the paper are: a) to systematically determine by IR spectroscopy the water content of sulfate-fmed industrial soda-lime glass (mainly Container and float, besides that household and technical glass) produced in Italy; b) to highlight the influence of redox State , melting conditions, batch and cullet addition on the water content; c) to check the consistency with time and between different feeders of the water content in the glass produced by a given furnace; d) to assess possible correlations between water content and workability in Container glass. The water content ranges between 300 and 400 ppm in conventionally fired glass, with electrical melting it decreases to 150 to 200 ppm, with oxycombustion it increases to 500 to 600 ppm. In the case of conventional flame melting the main factor influencing the water content is the redox State , due to a water/sulfate exchange. When a glass with a given color and redox State is produced in a given furnace, the daily oscillations of the OH level are moderate, with negligible effects on viscosity. In all the workability problems analyzed the contribution of water content oscillations was negligible as compared to other factors. According to the results obtained, significant water-related viscosity variations are expected to take place only when the meldng atmosphere or the redox conditions are significantly altered.
- ItemStudy of the high-temperature spectral behavior of container glass(Offenbach : Verlag der Deutschen Glastechnischen Gesellschaft, 1997) Endrýs, Jiří; Geotti-Bianchini, Franco; De Riu, LucaThe spectral absorption coefficients of container glasses in the wavelength region from 0.4 to 4.5 µm and in the temperature range from room temperature to 1400 °C were measured by a single-beam spectrophotometer by means of the transmission method. From the measured absorption coefficients radiative thermal conductivities in the temperature ränge from 600 to 1400 °C were calculated by means of Rosseland's diffusion approximation. The intensity of the band at 2.8 µm due to dissolved hydroxyl groups in glass was also calculated. While most previous measurements were performed on model glasses with a very simple basic composition, molten in laboratory furnaces from pure raw materials, the glasses investigated in this paper are the most frequently used types of container glasses with a complex composition and different chromophores. The influence of different coloring agents and dissolved water on the spectral behavior and radiative thermal conductivity of glass were studied, checking how the spectra change from room temperature to high temperature.
- ItemInfluence of alumina content and modifiers on phase separation in soda-lime-silica glass(Offenbach : Verlag der Deutschen Glastechnischen Gesellschaft, 1998) Geotti-Bianchini, Franco; De Riu, Luca; Sglavo, Vinvenzo M.; Maschio, DalThe phase Separation behaviour of industrial soda-lime-silica glass is studied by visible light scattering. The main aspects which differentiate industrial glass from the ternary glass (composition in wt%): 76 SiO₂, 13 Na₂O, 11 CaO are considered. The obtained results show that the simple ternary glass easily develops phase Separation upon annealing at suitable temperature levels. Conversely, Container glass is stabilized against demixtion by the presence of a significant AI₂O₃ concentration, a significantly lower SiO₂ content and a more complex chemical formulation (partial Substitution of SiO₂, Na₂O and CaO with AI₂O₃, K₂O and MgO, respectively, as well as minor ingredients).
- ItemInfrared spectroscopic analysis of water incorporated in the structure of industrial soda-lime-silica glasses(Offenbach : Verlag der Deutschen Glastechnischen Gesellschaft, 1995) Geotti-Bianchini, Franco; De Riu, LucaThe paper illustrates a method for the determination of the water content of glasses by infrared transmittance spectroscopy from the exdnctions of the bands due to free and hydrogen-bonded hydroxyl groups dissolved in the glass. The procedure is discussed in detail, highlighting the sources of random and systematic errors and what can be done to improve the interlaboratory reproducibihty. The ratio of the intensities of the two bands at 2.8 and 3.6 µm is investigated accurately for a range of industrial soda-lime-silica glasses. In the case of containers and float glass it is nearly constant, but it varies widely for other products, such as household appliances, car headlamps and hand worked arücles, probably due to differences in the glass formulation. Accordingly, caution should be exerted in using the simplified method based on the measurement of the first band only, implying a constant rado. Finally, evidence of molecular water in the dealkalized surface layers of commercial articles is obtained using infrared reflectance spectroscopy.