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Sinter adhesion of MgO produced by the thermal decomposition of magnesium compounds to periclase refractory

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Conclusions

The relation was determined between the sinter adhesion strength and the defectiveness of the structure of MgO powders produced by the thermal decomposition of magnesium compounds. The adhesion strength increases with the level of the microdistortions of the lattice and decreases with the degree of dispersion of the blocks of the substructure. The influence of the defects of the crystal structure on the sinter adhesion strength is at maximum in the first stage of firing.

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Authors and Affiliations

  1. Ukrainian Scientific-Research Institute of Refractories, Ukraine

    Yu. A. Pirogov, M. I. Prokopenko, L. A. Babkina, E. E. Badiyan & I. N. Semenenko

  2. Kharkov State University, USSR

    Yu. A. Pirogov, M. I. Prokopenko, L. A. Babkina, E. E. Badiyan & I. N. Semenenko

Authors
  1. Yu. A. Pirogov
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  2. M. I. Prokopenko
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  3. L. A. Babkina
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  4. E. E. Badiyan
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  5. I. N. Semenenko
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Additional information

Translated from Ogneupory, No. 3, pp. 33–37, March, 1978.

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Pirogov, Y.A., Prokopenko, M.I., Babkina, L.A. et al. Sinter adhesion of MgO produced by the thermal decomposition of magnesium compounds to periclase refractory. Refractories 19, 163–167 (1978). https://doi.org/10.1007/BF01280471

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  • DOI: https://doi.org/10.1007/BF01280471

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