Compound physical and mechanical effects stimulating metastable diamond formation

Соболев, В. В.; Kovrov, O.S; Nalisko, M.M; Bilan, N.V.; Терешкова, О. А.

doi:10.33271/nvngu/2021-4/047

Cited by 3 publications

(1 citation statement)

References 32 publications

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“…Currently, being independent scientific and technical areas, shock wave technologies are uncontested and cost-effective, having no competitors in many respects. The most well-known technologies are various methods for the production of detonation nanosize diamond crystals [1−3], synthetic diamond micropowders [4−6], monocrystals [7,8], superhard modifications of boron nitride [9,10], cubic silicon nitride [11], chaoite [12,13] and its transformations [14] into carbon phases as well as other superhard materials. The technologies of explosion stamping [15], hardening and explosion welding [16,17], powder compaction [18], etc.…”

Section: Introductionmentioning

confidence: 99%

Profiled Detonation Waves in the Technologies of Explosion Treatment of Metals

Sobolev,

Skobenko,

Kononenko

et al. 2024

Metallofiz. Noveishie Tekhnol.

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A short review is represented concerning physicotechnical features of current technologies, plane-wave, converging cylindrical and spherical detonation waves used in physics and chemistry of high energy densities, physics of metals, materials science, machine building, and mining and metallurgical industry. The main drawbacks of existing technologies are shown, and attention is focused on the technical nature of the reasons limiting their application. Attention is paid to solving the problem of simultaneous initiation of detonation of the entire surface layer of a light-sensitive explosive, regardless of the shape of the surface. A physical and mathematical methodology for estimating shock-wave parameters of an explosive during initiation of detonation in it by explosion of the initiation layer of the charge of a lightsensitive explosive composite is proposed. Prospects of practical application of detonation (shock) waves of the specified profile formed by laser ignition of the surface of a light-sensitive explosive composite are discussed. Physicochemical potential of the system of laser initiation of detonation makes it possible to form any wave profiles and get pulses of the intensity from 0.1 to 1.0 kPa⋅s on the surfaces being more than 1 m 2 . Precision and safe system of laser initiation can be used during any types of blasting operations including the ones that cannot be implemented principally, while applying standard systems for initiating explosives and means of explosion.

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Section: Introductionmentioning

confidence: 99%

Profiled Detonation Waves in the Technologies of Explosion Treatment of Metals

Sobolev,

Skobenko,

Kononenko

et al. 2024

Metallofiz. Noveishie Tekhnol.

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Physical and chemical conditions for the diamond formation

Sobolev,

Gubenko,

Khomenko

et al. 2025

Diamond and Related Materials

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Ефект Впливу Зовнішніх Фізико-Хімічних Факторів На Тверде Середовище У Метастабільному Стані

Соболєв,

Кулівар,

Курляк

2024

InterConf+

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Обговорюються результати експериментальних досліджень структурних і фазових перетворень під час впливу зовнішніх фізико-механічних параметрів на тверді середовища, мікроструктури яких характеризуються запасом додаткової внутрішньої енергії. Такі мікроструктури є термодинамічно метастабільними, містять високу густину точкових, лінійних та інших дефектів з високою концентрацією електричних зарядів. Ідея полягає у використанні запасеної енергії мікроструктурою як додаткового джерела в процесах фазових перетворень і розвитку активних хімічних реакцій на прикладах мінерало- та рудоутворення в земній корі.

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Compound physical and mechanical effects stimulating metastable diamond formation

Cited by 3 publications

References 32 publications

Profiled Detonation Waves in the Technologies of Explosion Treatment of Metals

Profiled Detonation Waves in the Technologies of Explosion Treatment of Metals

Physical and chemical conditions for the diamond formation

Ефект Впливу Зовнішніх Фізико-Хімічних Факторів На Тверде Середовище У Метастабільному Стані

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