Shock Wave Use for Diamond Synthesis

Соболев, Валерий Викторович; Taran, Yu. N.; Губенко, С. И.

doi:10.1051/jp4:1997315

Cited by 6 publications

(7 citation statements)

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“…Chagelishvili, N. S. Turmanidze et al, 1979Turmanidze et al, -1983; V. S. Kravtsov, L. G. Gan kevich, 1986; A. R. Patel, K. A. Cherian, 1984) [28] and the ex perimental results obtained in our works [29,30] originated the studies on the possibility of growing single crystals on polycrys talline diamonds generated by explosion. These studies cov ered the influence of the initial solid medium on diamond out put [31], various thermal cycling conditions of cast iron after shock wave (SW) treatment [32], plastic strains followed by SW treatment [33], SW treatment followed by plastic strains [34,35]. The physical properties of diamond crystals with the nu clei synthesized in a highpressure chamber by the HPHT method and then grown under atmospheric pressure with pass ing a weak electric current through a technological mixture of a catalyst metal with graphite were studied in [36].…”

Section: Udc 66901mentioning

confidence: 99%

“…The studies [31][32][33][34][35] gave some examples of the methods used for synthesis of metastable single crystals on polycrystal line explosion diamonds. The characteristic features of these methods are subsequent treatments; the primary treatment includes exposure to shock waves and plastic deformation whereas the secondary treatment does thermal cycling, plastic deformation, and passing a weak electric current.…”

Section: Udc 66901mentioning

confidence: 99%

“…SW treatment activates the cast iron matrix by introducing a large number of crystal structure de fects and contributes to increasing the carbon diffusion rate in the matrix when passing the SW front up to 10 -2 -10 -3 cm 2 /s, whereas subsequent forging and thermal cycling intensify dif fusion only to 10 -5 -10 -6 cm 2 /s. These results were obtained by penetration depth evaluation for carbon from cast iron into a steel holder taking into account treatment duration [29][30][31][32][33][34][35]. Metalphysical studies of the contact "cast iron -steel" have revealed the largest diffusion changes when using austenitic cast iron 2 with foliated graphite.…”

Section: Fig 2 Structure Of Cast Iron 1 (A-c G) Cast Iron 2 (F H-i) and Cast Iron 3 (D E) After Sw Treatment (A-g I) And Forging (H I) Mamentioning

confidence: 99%

“…The diamond crystals may grow both in kinetic and diffu sion modes. In the studies [29][30][31][32][33][34][35] the correlations governing the crystal growth rates for various modes were evaluated for the given conditions of steadystate growth and when diffusion fluxes to different growth centers do not cross each other. A comparison of the diamond and graphite crystal growth rates in the system "graphite -solid carbon solution in irondiamond" showed that the preferred diamond crystals growth (a) with respect to graphite growth (β) during the decomposi tion of a supersaturated solid carbon solution in a metal is pos sible only in the kinetic mode under the condition…”

Section: Fig 2 Structure Of Cast Iron 1 (A-c G) Cast Iron 2 (F H-i) and Cast Iron 3 (D E) After Sw Treatment (A-g I) And Forging (H I) Mamentioning

confidence: 99%

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Influence of mechanical and thermal treatments on microstructural transformations in cast irons and properties of synthesized diamond crystals

Соболев¹,

Губенко²,

Rudakov³

et al. 2020

Nauk. visn. nat. hirn. univ.

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Influence of MechAnIcAl AnD therMAl treAtMents on MIcrostructurAl trAnsforMAtIons In cAst IronsAnD propertIes of synthesIZeD DIAMonD crystAls purpose. To analyze how the structural transformations in the cast iron metal matrix near graphite inclusions influence the features of synthesis of metastable diamond crystal on diamond polycrystals (substrate) synthesized by shockwaves.Methodology. In experiments, we used the laserinduced detonation of explosive charges to create a flat shockwave front and employed chemical, microstructural, spectral and Xray phase analyzes. In particular, the features of chemical element distribu tion in cast iron phases, dislocation density in a solid solution, crystal lattice parameters, and others were studied.findings. It has been shown that solidphase autoepitaxy is a physically justified, experimentally proved and stably reproduc ible phenomenon. The accelerated transfer of carbon atoms to the surfaces of metastable diamond growing crystals in the kinetic mode is facilitated by a number of factors that cannot be quantified by numerically evaluated parameters. These include, first of all, the microstructure of the growing medium (cast iron matrix), carbon source, temperature and deformation fields that ensure transformation of polymorphic graphite to diamond with emerging gradient stress fields at the stages of forging, exposure to shock waves and thermal cycling. Defect redistribution in the crystal structure of the metal matrix and graphite inclusions plays a certain role at the mesoscale. It has been found that saturation with microstructural defects brings higher physicochemical activity to the system in the whole. originality. For the first time in world practice, diamond single crystals have been synthesized that contain the inclusions of polycrystalline diamond particles of shockwave origin inside the single crystal shell; this may indicate a general discreteness of natural diamond formation.practical value. The growth of single metastable crystal on polycrystalline diamond of shock wave synthesis is the most favor able in case of using austenitic gray cast iron with foliate graphite inclusions. The experimentally proved diamond growth in a solid medium under pressure and temperature within the range of graphite stability can be used to develop new lowenergy tech nologies for the synthesis of metastable diamond single crystals.

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Section: Udc 66901mentioning

confidence: 99%

Section: Udc 66901mentioning

confidence: 99%

Section: Fig 2 Structure Of Cast Iron 1 (A-c G) Cast Iron 2 (F H-i) and Cast Iron 3 (D E) After Sw Treatment (A-g I) And Forging (H I) Mamentioning

confidence: 99%

Section: Fig 2 Structure Of Cast Iron 1 (A-c G) Cast Iron 2 (F H-i) and Cast Iron 3 (D E) After Sw Treatment (A-g I) And Forging (H I) Mamentioning

confidence: 99%

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Influence of mechanical and thermal treatments on microstructural transformations in cast irons and properties of synthesized diamond crystals

Соболев¹,

Губенко²,

Rudakov³

et al. 2020

Nauk. visn. nat. hirn. univ.

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“…Актуальность исследований физико-химических эффектов, проявляющихся в процессах горного производства, обусловлена необходимостью получения и развития новых фундаментальных знаний о природе и физических взаимодействиях внешних силовых полей с наноразмерными минеральными системами [16][17][18]. В данном случае исследования можно разделить на следующие основные направления: первое -с использованием квантовой механики и физической химии [19], второе традиционное -с применением статистической термодинамики и классической физики, геомеханики и др.…”

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About stability of connection of diatomic molecule in the field of electric charge

Baskevich¹,

Kulivar²,

Chobotko³

et al. 2020

Coll. res. pap. nat. min. univ.

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Цель исследований заключается в использовании физико-математической модели и методики оценки состояния устойчивости химической связи в зависимости от величины напряженности электрического поля внешнего точечного заряда.Методики. Работа выполнена в соответствии с рекомендациями методологии проведения теоретических исследований. Использованы квантово-химические закономерности, описывающие кулоновские взаимодействия атомов.Результаты. Предлагается гипотеза о возможном физико-химическом механизме образования дополнительных вредных газов при разрушении горных пород взрывом.Научная новизна. Получил развитие метод численной оценки энергии химической связи в зависимости от расстояния связи до точечного заряда -третьего кулоновского центра. Квантово-механическая модель расчета электронных термов молекул позволяет решать задачи, связанные с определением параметров молекул в условиях воздействия различных физических полей на рассматриваемую систему. Модель апробирована на некоторых двухатомных молекулах. Расхождение экспериментальных данных с результатами расчетов не превышает 10%, что свидетельствует о вполне корректной интерпретации получаемых результатов.Практическая ценность. Модель может быть использована в области исследования причин, вызывающих газодинамические явления в подземных выработках угольных шахт, в моделировании самовозгорания терриконов, в исследованиях состояния устойчивости наноструктурных компонентов угля в условиях физических воздействий, при теоретическом конструировании новых соединений и структур в области наноматериаловедения и нанотехнологий. При соответствующей модернизации кроме качественной оценки модель дает количественную оценку устойчивости химических связей при тех или иных изменяющихся условиях.Ключевые слова: химический акт, кулоновский центр, разрыв связи, трехцентровая задача Введение. Сложные горно-геологические условия залегания угольных пластов и как следствие -проявление в процессе их разработки различных физикохимических эффектов, связанных с десорбцией газа и воспламенением метановоздушной смеси [1-3], внезапными выбросами угля, породы и газа [4-6], другими газодинамическими явлениями. Наиболее важными для любого угледобывающего предприятия является соблюдение правил безопасности и охраны Objective of the research is to apply a physico-mathematical model and methodology of evaluating the conditions of chemical bond stability depending on the value of the electric field intensity of the external point charge.Methodologies. The research is carried out according to the recommendations of the research practice methodology. The quantum-chemical regularities describing Coulomb interactions between atoms have been applied. Findings.A hypothesis on possible physicochemical mechanism of the formation of additional harmful gases, while rock breaking by blasting, is proposed. Originality.A method of numerical evaluation of the chemical bond energy depending on the distance to the point chargethird Coulomb centre has been worked out. A quantum-mechanical model of the calculation of the electr...

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Shock synthesis of nanocrystalline La2Ti2O7 powder

Ran

Zhou

Chen

et al. 2021

Journal of Applied Physics

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Perovskite La2Ti2O7 nanocrystalline powder was obtained through the shock synthesis method. In the study, La2O3 and TiO2 powders were mixed through ball milling and, subsequently, shocked by a flyer at a velocity of 3.2 km/s. After shock treatment, the sample was recovered and characterized via various techniques, such as x-ray diffraction, Raman, scanning electron microscope, transmission electron microscope, and ultraviolet-visible diffuse reflection spectrum analysis, to find the presence of La2Ti2O7 nanocrystalline powder with an average grain size of approximately 30 nm in the recovered samples with different yields. Moreover, the results further confirm that the high shock temperature and long ball milling treatment induce higher activation of precursors to improve the La2Ti2O7 content in the recovered samples. By adjusting the relative density of precursor and the ball milling period, pure La2Ti2O7 nanocrystalline powder was obtained. The formation mechanism of La2Ti2O7 was carefully illustrated. This study presents a new method to synthesize La2Ti2O7 nanocrystalline powder by detonation-driven flyer impact.

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Shock Wave Use for Diamond Synthesis

Cited by 6 publications

References 1 publication

Influence of mechanical and thermal treatments on microstructural transformations in cast irons and properties of synthesized diamond crystals

Influence of mechanical and thermal treatments on microstructural transformations in cast irons and properties of synthesized diamond crystals

About stability of connection of diatomic molecule in the field of electric charge

Shock synthesis of nanocrystalline La2Ti2O7 powder

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