A. V. Bochko scite author profile

A. V. Bochko

5Publications

25Citation Statements Received

15Citation Statements Given

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Affiliations

Frantsevich Institute for Problems in Materials Science, National Academy of Sciences of Ukraine, Baikov Institute of Metallurgy and Materials Science

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Structure and properties of Dalan detonation diamonds

Tatsii

Bochko

Oleinik

2009

Combust Explos Shock Waves

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This paper presents the results of an investigation of the fine crystal structure of Dalan diamonds synthesized from graphite and carbon black by detonation. The phase composition of the diamond powders was found to vary widely; the structural and structural-morphological states of diamond particles were studied. The main types and subtypes of detonation diamonds are characterized according to transmission electron microscopy data. Assumptions are made concerning diamond formation during detonation synthesis. INTRODUCTIONAt present, the production of diamond powders by using detonation synthesis (DS) is of scientific and practical significance. The first is determined by the importance of knowing the physical nature of the formation of nanodispersed diamond particles, and the second is related to the solution of the problem of producing submicron-sized and nanosized diamond powders of uniform particle size. Such powders can be used both as the starting product and to produce nanodispersed ultrahard compact and composite materials.It is known that the detonation synthesis of diamond is based on the two main technological approaches which differ in the nature of the starting nondiamond carbon. The first approach uses the starting carbon in the form of graphite or carbon black [1][2][3][4][5] in a mixture with a high explosive (HE), and the second uses the socalled own carbon formed by the decomposition of a HE. In the second case, mixtures of TNT and RDX are more often used [6][7][8][9]. There is also a third approach to the detonation synthesis of diamond, in which, along with HE, graphite or carbon black, special carbon-containing additives are introduced into the charge to increase the detonation parameters of the charge. In this case, not only graphite or carbon black but also the carbon of the additives is transformed to diamond [10,11]. According to [11], using the third approach, an amorphous diamond-like form of carbon was produced in a significant amount. The diamonds synthesized in [1-5 and 10, 11] using the first approach are referred to by the abbreviations DAG and DAS, and those produced by the third approaches are referred to as DAP; the abbreviations contain information on the nature of the starting carbon and the diamond produced.The diamond synthesized using the second approach (from the carbon of HE molecules) is referred to as ultrafine diamond in the literature. Data on the processes and structural mechanisms of synthesis of this diamond and its properties and regions of application are generalized and discussed in detail in books [12][13][14] and overviews [15][16][17].The detonation synthesis of diamond from graphite and carbon black have been less studied than that of ultrafine diamond, but, nevertheless, the main data on the nature of this process and structural conversions of the starting nondiamond carbon to diamond have been obtained. In particular, the detonation parameters necessary for the synthesis of diamond and the dependence of these parameters on the type of HE, the concentration ...

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Elastic constants and elasticity moduli of cubic and wurtzitic boron nitride

Bochko¹,

Zaporozhets²

1996

Powder Metall Met Ceram

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Temperature dependence of the hardness of boron nitride

Bochko¹,

Grigor'ev²,

Dzhamarov³

et al. 1977

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Phase and structural transformations of wurtzite-type boron nitride at high temperatures

Kurdyumov¹,

Ostrovskaya²,

Pilyankevich³

et al. 1976

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Effect of structural factors on the ductility and strength properties of superhard materials based on boron nitride

Bochko¹,

Grigor'ev²,

Dzhamarov³

et al. 1980

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A. V. Bochko

Structure and properties of Dalan detonation diamonds

Elastic constants and elasticity moduli of cubic and wurtzitic boron nitride

Temperature dependence of the hardness of boron nitride

Phase and structural transformations of wurtzite-type boron nitride at high temperatures

Effect of structural factors on the ductility and strength properties of superhard materials based on boron nitride

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