Structure formation of ultradispersed diamond by detonation synthesis

In the present work, we report on structure formation of ultradispersed diamond through detonation synthesis. In particular, based on the present data, we can state that ultradispersed diamond of detonation (UDD) synthesis is characterized by a rail substructure formation, which is typical for diamo...

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Bibliographic Details
Published in:Diamond and related materials 2024-02, Vol.142, p.110809, Article 110809
Main Authors: Olеynik, G.S., Kotko, A.V., Solonin, Y.M., Khyzhun, О.Y.
Format: Article
Language:English
Subjects:
Detonation synthesis
Lonsdaleite
Martensitic transformation
TEM
Ultradispersed diamond
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Summary:In the present work, we report on structure formation of ultradispersed diamond through detonation synthesis. In particular, based on the present data, we can state that ultradispersed diamond of detonation (UDD) synthesis is characterized by a rail substructure formation, which is typical for diamonds of dynamic and static synthesis formed from graphite by the martensitic mechanism. The formation of UDD is characterized by a two-stage process: the first stage is the formation of graphite from detonation products, and the second stage is the transformation of graphite into diamond by the martensitic mechanism. A microlamellar substructure in the rails of diamonds formed from the original graphite is due to the presence of basic packing defects that is characteristic for covalent crystals with a wurtzite lattice deformed at high pressures and temperatures typical for lonsdaleite. The presence of lonsdaleite in UDD also indicates its formation in the process of synthesis of diamond from graphite through the martensitic transformation. [Display omitted] •Structure formation of ultradispersed diamond by detonation (UDD) synthesis is studied.•For UDD, a rail substructure is characteristic.•The formation of UDD is characterized by a two-stage process.•The first stage is the formation of graphite from detonation products.•The second stage is the transformation of graphite into diamond by the martensitic mechanism.
ISSN:0925-9635
1879-0062
DOI:10.1016/j.diamond.2024.110809