Browsing by Author "Tenzler, Thomas"
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- ItemApplication of the Christiansen-Shelyubskii method to determine homogeneity and refractive index of industrial glasses(Offenbach : Verlag der Deutschen Glastechnischen Gesellschaft, 1995) Tenzler, Thomas; Frischat, Günther HeinzThe Christiansen-Shelyubskii method has been applied to determine the homogeneity of both colorless and colored technical glasses. It could be confirmed that this method is sufficiently sensitive to changes by the melting process of flat, container and special glasses. The homogeneity factor, which essentially is the standard deviation of the refractive index, can be obtained with a precision of about ±5 %. The measurement simultaneously delivers the mean refractive index with high accuracy. This property possibly could be used to substitute density measurements to control the constancy of glass composition. The Christiansen-Shelyubskii method can be standardized and highly automated. About 15 samples can be measured per day. Thus it shows all features of a method to be used for industrial quality control.
- ItemInfluence of antimony oxide on the properties of YBa2Cu3O7-x superconductors prepared by melt quenching(Offenbach : Verlag der Deutschen Glastechnischen Gesellschaft, 1992) Tenzler, Thomas; Altakh, Oleg; Zaitzev, OlegThe potential usefulness of glass-technological procedures to prepare oxidic high-temperature superconductors is well-known. Samples in the system Y-Ba-Cu-O have been produced by a melt process and subsequent annealing steps. Antimony oxides have been added to the base system and their influence on the properties of the products has been studied. The samples have been analyzed by X-ray diffraction and differential thermogravimetry as well as by electrical resistance measurements. With the addition of antimony oxides the type and quantities of the crystalline phases changed both in the quenched samples and in the samples annealed at temperatures above 900 °C and also the density increased. It was found that the samples containing antimony oxides as well as the samples of the base system become superconductors at a temperature higher than the liquid nitrogen temperature. Only the annealing time is much less than that for the pure superconductor.