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Reduction Extraction Method for Determining the Enthalpies of Decomposition Reactions of Different Boron Nitride Modifications

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Powder Metallurgy and Metal Ceramics Aims and scope

Pulsed (7–10 sec) reduction extraction in a helium gas carrier stream has been used for the first time to determine the standard enthalpies and the internal energies of thermal dissociation reactions for various modifications of boron nitride (BN) with and without carbon. The temperature dependences of the weight content of nitrogen extracted from nanosized (4–10 nm) and microsized (<1; 4–5 μm) BN powders in the range 2100–4000 K with a step of ~200 ± 25 K have been established. Nitrogen extraction from layered BN modifications (graphene and graphite structures) begins at 2400–2500 K and reaches 100% at 3500 K. The thermal decomposition curve for nanoand micropowders of dense BN modifications (wurtzite and sphalerite structures) is similar to that for the layered modifications and is shifted toward the high-temperature region by 900 K. The standard enthalpies of decomposition reactions for different BN modifications have been determined: 231 kJ/mole for graphene-like, 249 kJ/mole for graphite-like, 296 kJ/mole forwurtzite-like, and 391 kJ/mole for sphalerite-like modifications.

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Authors and Affiliations

  1. Frantsevich Institute for Problems of Materials Science, National Academy of Sciences of Ukraine, Kyiv, Ukraine

    V.V. Garbuz, V.A. Petrova, A.R. Kopan, S.K. Avramchuk, L.M. Kuzmenko, T.O. Selinska & T.M. Terentieva

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  1. V.V. Garbuz
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  2. V.A. Petrova
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  3. A.R. Kopan
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  4. S.K. Avramchuk
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  5. L.M. Kuzmenko
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  6. T.O. Selinska
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  7. T.M. Terentieva
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Correspondence to V.V. Garbuz.

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Translated from Poroshkova Metallurgiya, Vol. 58, Nos. 9–10 (529), pp. 119–128, 2019.

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Garbuz, V., Petrova, V., Kopan, A. et al. Reduction Extraction Method for Determining the Enthalpies of Decomposition Reactions of Different Boron Nitride Modifications. Powder Metall Met Ceram 58, 591–598 (2020). https://doi.org/10.1007/s11106-020-00116-x

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  • DOI: https://doi.org/10.1007/s11106-020-00116-x

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