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Capillary and Crystalization Strength of Glass Batch Components

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Abstract

The attraction of glass particles simulating quartz sand grains for capillary rings of aqueous solutions of sodium sulfate and carbonate of various concentrations is experimentally investigated. It is shown that the attraction of particles at the first moment of contact with the bridging liquid is determined by the capillary effect. As water evaporates and the solution becomes saturated, additional cohesion of solid particles is registered, which is caused by the formation of crystallization contacts.

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REFERENCES

  1. V. A. Deryabin,“Capillary resistance of particles in primary torcrete layer,” Ogneupory, Nos. 7–8, 3–8 (1992).

  2. S. I. Popel' and V. A. Deryabin,“Cohesion between spherical and flat particles via melt rings,” Izv. Vuzov, Chern. Met., No. 4, 21–24 (1974).

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Authors and Affiliations

  1. Ural State Technical University,, Ekaterinburg,, Russia.

    V. A. Deryabin, I. G. Voroshilova & O. A. Shvartz

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  1. V. A. Deryabin
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  2. I. G. Voroshilova
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  3. O. A. Shvartz
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Deryabin, V.A., Voroshilova, I.G. & Shvartz, O.A. Capillary and Crystalization Strength of Glass Batch Components. Glass and Ceramics 58, 299–302 (2001). https://doi.org/10.1023/A:1013974824171

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  • DOI: https://doi.org/10.1023/A:1013974824171

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