sg:pub.10.1134/s1063780x13100024 - Springer Nature SciGraph

Article Info

DATE

2013-10-15

AUTHORS

G. M. Batanov, N. K. Berezhetskaya, V. D. Borzosekov, L. D. Iskhakova, L. V. Kolik, E. M. Konchekov, A. A. Letunov, D. V. Malakhov, F. O. Milovich, E. A. Obraztsova, E. D. Obraztsova, A. E. Petrov, K. A. Sarksyan, N. N. Skvortsova, V. D. Stepakhin, N. K. Kharchev

ABSTRACT

Synthesis of titanium diboride and boron nitride nano- and microcrystals by means of a pulsed microwave discharge in a mixture of Ti-B powders in a nitrogen atmosphere is considered. For this purpose, a new type of reactor with a free surface of the powder mixture was used. The reactor design permits free expansion of the reaction products into the reactor volume and their deposition on the reactor walls. Conditions for the synthesis of TiB2 and BN compounds were studied as functions of the energy input in the discharge, the powder component ratio, the rate of the nitrogen flow through the reactor, and the structure and phase composition of the compounds deposited on the reactor walls. The synthesis of boron nitride and titanium diboride in crystal structures is proven. An important role in the process of synthesis is played by the heating of the mixture due to the titanium diboride synthesis reaction, its behavior in the bulk of the reactor, and the titanium concentration in the powder mixture. It is also found that, as the number of discharges in the bulk of the reactor increases, a dust cloud forms. The luminescence of this cloud indicates that the initiated discharge proceeds not only on the powder surface and in the powder bulk, but also in the reactor volume. More... »

PAGES

843-848

References to SciGraph publications

2002-10. Microwave cellular discharge in fine powder mixtures in PLASMA PHYSICS REPORTS

2008-10-12. Initiation of self-propagating high-temperature synthesis by a pulsed microwave discharge in TECHNICAL PHYSICS

2006-04. Pulse ignition of heterogeneous condensed systems by a set of surface Sparks generated by a microwave beam in DOKLADY PHYSICS

2008-04. Parameters of microwave discharge plasmas in powder mixtures in PLASMA PHYSICS REPORTS

2008-02-20. Thermometry of microwave discharge in powder mixtures by the thermal radiation spectrum in HIGH TEMPERATURE

2001-07. Pulsed heating of thin powder layers by intense microwaves in TECHNICAL PHYSICS

2002-07. Synthesis of Spherical Oxide Particles in Microwave Hydrolysis of Zr(IV), Ce(IV), and Ni(II) Salt Solutions in DOKLADY CHEMISTRY

Journal

TITLE

Plasma Physics Reports

ISSUE

VOLUME

Subjects

FOR: Physical Sciences

FOR: Atomic, Molecular, Nuclear, Particle And Plasma Physics

Author Affiliations

Prokhorov General Physics Institute, Russian Academy of Sciences, ul. Vavilova 38, 119991, Moscow, Russia

Fiber Optics Research Center, Russian Academy of Sciences, ul. Vavilova 38, 119333, Moscow, Russia

Identifiers

URI

http://scigraph.springernature.com/pub.10.1134/s1063780x13100024

DOI

http://dx.doi.org/10.1134/s1063780x13100024

DIMENSIONS

https://app.dimensions.ai/details/publication/pub.1043261623

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24	″	″	boron nitride
25	″	″	boron nitride nano
26	″	″	bulk
27	″	″	cloud
28	″	″	clouds form
29	″	″	component ratio
30	″	″	composition
31	″	″	compounds
32	″	″	concentration
33	″	″	conditions
34	″	″	crystal structure
35	″	″	deposition
36	″	″	design
37	″	″	diboride
38	″	″	discharge
39	″	″	energy input
40	″	″	expansion
41	″	″	flow
42	″	″	form
43	″	″	free expansion
44	″	″	free surface
45	″	″	function
46	″	″	heating
47	″	″	important role
48	″	″	increase
49	″	″	input
50	″	″	luminescence
51	″	″	means
52	″	″	microcrystals
53	″	″	microwave discharge
54	″	″	mixture
55	″	″	nano
56	″	″	new type
57	″	″	nitride
58	″	″	nitrogen atmosphere
59	″	″	nitrogen flow
60	″	″	number
61	″	″	number of discharges
62	″	″	phase composition
63	″	″	powder
64	″	″	powder bulk
65	″	″	powder mixtures
66	″	″	powder surface
67	″	″	process
68	″	″	process of synthesis
69	″	″	products
70	″	″	purpose
71	″	″	rate
72	″	″	ratio
73	″	″	reaction
74	″	″	reaction products
75	″	″	reactor
76	″	″	reactor design
77	″	″	reactor increases
78	″	″	reactor volume
79	″	″	reactor wall
80	″	″	role
81	″	″	structure
82	″	″	surface
83	″	″	synthesis
84	″	″	synthesis of TiB2
85	″	″	synthesis reaction
86	″	″	titanium
87	″	″	titanium concentration
88	″	″	titanium diboride
89	″	″	types
90	″	″	volume
91	″	″	wall
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