SCIENTIFIC ABSTRACT BUBYREVA, N. S. - BUCHA, V.
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Collection:
Document Number (FOIA) /ESDN (CREST):
CIA-RDP86-00513R000307210017-0
Release Decision:
RIF
Original Classification:
S
Document Page Count:
100
Document Creation Date:
November 2, 2016
Document Release Date:
June 9, 2000
Sequence Number:
17
Case Number:
Publication Date:
December 31, 1967
Content Type:
SCIENCEAB
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CIA-RDP86-00513R000307210017-0.pdf | 1.58 MB |
Body:
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BUBYMA 'Ijz_N.S0; KARKIN, B.I.; CMWOT, I.T.
--i-
Attachment for the AVF-200 analytical balance for remote weighing.
Zav.lnb*21 uo.10;120 '55* MIA 9:1)
I.Institut obahchey I neorganicheakoy khlaii Akadeall nxuk SSSR.
(Baiance)
V
Category USSR/Atomic and Molecular Physics - Liquids D-8
Abs Jour Ref Zhur - Fizika, No 2, 1957 No 3570
Author %jj.')*eva, N.S., Chmutov, K.V., Markin, B.I.
Inst IAstitute of Physical'Chemistry, Academy of Sciences USSR
Title Combined Instrument.for Measurement of Viscosity and Melting Temperature.
Orig Pab Zavod. laboratoriya, 1956, 22, No 3, 355-357
Abstract Description of a viscosimeter, which "ink s it possible to determine the
viscosity 9 of eleictron-coiiducting liquids from the time.+_that a
given value of-liquid flovs frbm a pipette through a calibratecl capillary
tub6_into a test tube. A set*of pipettes with various capillaries makes
it P-0-ssible to_v_!L7_y_r)_?ver'& vid6 range (up -to hundreds of Wises). The
value 6fC is-'-detCirmined-vith-the did'of an elect3~ic !sigmalling scheme,
which- operates upon.cl6EWig of - a relay circuit (controlling a: Si 1
la6p). formed by th6 liquid and electrodes of various lengths, sodered
into the test-tube enclosing the pipette., and located in the lower part
of th6'tes't tube': _Th6_liikth of't beitvie-en.'s.igna-ls is measured with a
stop-i V~atch_. - l~6~n-e-a'sxiie..~iee'zii4"t4ii~eia~tiir'e6,' thei-1-unctions of'a dif~
fereh-bial th6iti6couge - die - intioduc- ed -into' two - tubds one with the in-
vestigated liquid and the other with a standard liquid, and the Kurnakov
Card 1/2
Category USSR/Atomic and Molecular Physics - IAquids D-8
Abs Jour Ref Zhur - Fizika, No 2, 1957 No 3570
recording pyrometer is used to record the temperature-time and the
temperature difference-time curves. The temperature of the system
is regulated with the aid of a liquid'flowing in the jacket of the
instrument. The instrument permits remote measurements.
Card 2/2
11rT.
AWMIRS: -~a Markin, B.I., Binfias, B.P., 76-11-31/35
Sn ~7-u!-!: Cbmutov, K.V.
TITIX% A Catined Devioe for the Joint Measuring of Viscosity, Density and
Solidification-*eltlag Tmpersture (Kombinirovannyy Pribor dlya
ismerenlya vyazkosti, plotnosti i taTeratury zatverdevaniya-plav-
lenlya)
PEUMICAL Zhurnal Pizicheakey Kh4-41. 1957, Vol. 31. Nr 11, pp. 2580-2583
(USSR)
ABSTRACT: A oakined measuring device for the remote determination of some
Physical-chemical liquid constants, viz. density, viscosity. and
solidifio~Ltion-melting tezTerature is described. The principal part
of this device is a vessel into which a certain quantity (about 5 ml)
of the liquid to be investigated is introduced by way of a siphon.
For the purpose of measuring viscosity the device was first thenw-
statized at a given temperature for 30-60 minutes. Hereupon under-
pressure was produced In the pipette, the liquid rose up to the level
of the electrodes, the systan was oonneoted with the outer air, and
the liquid ma able to emerge freely from the capillary. A oompari-
son with liquids of known viscosity resulted in a maximan error of
card 112 2%. Errors oo=4t*od when measuring density amounted to a m&xi==
Be/ Y ~eE V
76-11-31/35
A Coubined Device for the Joint Messuring of Viscosity, Density and Solidifi-
oation4elting Temperature
of - 0.3% and the error committed when aetemining solidification
melting temperatuxe did not exceed 0.50 C. The latter was aetexminea
by means of thermograme on Xurnakov's pyrometer. There are 2 figures,
4 tables and 2 Slavic references.
SUBMITTID: April 17, 1957
AVAUABLIk Library of Congress
Card 2/2
5(4), 18(6)
AUTHORS: Bubyreva, N. S., Obukhov, A. P. SOV/78-4-1-25/48
TITLE: Physico-Chemical Examination of the Te=nary System Thallium-
Salenium-Tellurium (Fiziko-khimicheakoys issledovaniye
troynoy sistemy talliy-selen-tellur)
PERIODICALz Zhurnal noorganicheBkoy khimii, 1959, Vol 4, Nr 1, pp 132-137
(Tj SsR)
ABSTRACT: The ternary system thallium-selenium-tellurium was izriraztigated
by measuring the specific conductivity, by investigating the
microstructure and,by the aid of the thermal analysis. The
microstructure was investigated by a metal microscope MlM-5-
The synthesis of the samples was carried out by melting the
chemically pure metals in evacuated vessels. For the surface
construction of the liquid 94 alloys were examined and the
phase diagram was plotted. The system has no ternary
eutectics nor ternary compounds. Five crystalline zones are
formed. In the first crystallization zone primary separation
of tellurium and selenium takes place. In the second zone
solid solutions between TlSq and TlTe are formed. Solid
Card 1/2 solutions between Tl 2Se and Tl5Te3 form in the -.hird zone.
Physico-Chemical Examination of the Ternary SOV,/78-11-1-25/48
t
System T-."alliun--Seleiium-Taluriiun
The fourth crystallization zone has no solid solutions, The
fifth zore probably has the compound T12 Se 3' The compounds
in the second crystallization zone, TISe and TlTej have
analogous chemical properties and similar crystalline strue-
ture3 as has been,proved by X-ray atnalysis. The composition
of the phases I, II,.,and III,oorresponds to solid solutions.
The-allzya of the semi ~!onduct or properties.
The specific electric conductivity of the alloys depeLds con-
siderably on the composition and it chwiges :from 1.102 to
-5 1 1. 2 4P
1.io ohm am The maximum conduotivity of 1.10 ' at
the limit of metallic conductivity because these alloys con-
tain admixtures of metallic thallium. -There are 6 figures~ 4
tables, and 13 references, 10 of which are Soviet.
ASSOCIATION: Leningradskiy fiziko-tekhnicheakiy institut Akademii nalik SSSR
(Leningrad Physico-Technical Ingtitute of the Academy of
Sciences, USSR)
SUBMITTEDs September 13, 1957
Card 2/2
,5(4) SOV/069-21-4-3/22
AUTHOR: and Bindas, B.P.
TITLEt Dispersion of Silicic Acid Gel in Acid Media 1;ith the Aid
of Ultrasonic Vibrations
PERIODICAL: Kolloidnyy zhurnal, 1959, Volume XXI, Nr 4, PP 388-391
(USSR)
ABSTRACT: The authors report on experiment's intended to homogenize
with the aid of ultrasound a highly acidic solutton, in
which silicic acid has sedimented in the form of a gel.
A first series of experiments was carried out for the pur-
POS6 ~f ascertaining the ability, of ultrasound to trans-
iorm polymerized forms of silicic acid into the monomeric
state. The solution subjected to ultrasound treatment con-
tained 4 gli Sio and 4 N M10 . The samples differed from
2 i
one another concerning the ag~ of the silic ac d gel. Table
2 shows that the ultrasound treatment results in an increase
Card 1/3 of the soluble form of SiO 2 in the solution. A change of the
SOV/69-21-4-3/22
Dispersion of Silicic Acid Gel in Acid Media With the Aid of Ultrasonic
Vibrations.
frequency from 6 to 3 megacycles, as well as of the duration
of the ultrasound treatment from 10 to 120 minutes has practi-
cally no effect on the final result. It was observedv howeverp
that the quantity of dispersed sediment was very small. Full
dispersion depends on a number of factors: ultrasound fre-
quency/age of gel and composition (particularly acidity) of the
solution. Table 3 shows the results of experiments in which
these factors were suitably considered. It became evident
that the dispersion effect increases with the diminution of
ultrasound frequency. Pull transformation of the gel into a
sol was obtained at a frequency of 1.1 megacycles. The data
show that the quantity of monomeric SiO obtained by the ul-
trasound treatment is inconsiderable. Tfie quantity of this
form of S102 characterizes that*portion of ultra-sound energy
which is spent in chemical action, i.e. for the break of the
Card 2/3 Si-O linkage in this case. The authors evaluate this portion of
SOV/69-21-4-3/22
Dispersion of Silicic Acid Gel in Acid Media With the Aid of Ultrasonic
Vibrations.
energy at ^-..,6 calories for 1 ml of solution with a silicic
acid concentration of 4g/l. The low yield of monomeric SiO',
is explained as being due to polymerization of sili3ic acid.
The high acidity of the solution and the heat produced dL-ril-Ig
ultrasound treatment favor this process. The authors menll-.ion
the Soviet scientist S.S.Rzhevkin, who developed a theory on
the dispersing effect of ultrasound, There are 3 tables and
6 references, 5 of which are Soviet and 1 English.
SUBLUTTED: 4 May, 1958-
Card 3/3
B/069/62/024/003/001/006
iB110/B138
AUTHOR: Bubyreva, N. S. (Moscow)
T1=-E- Nature of ultrasonic depolymerization of silicic acid gel
PERIODICAL: Kolloidnyy zhurnal, v. 24, no. 3, 1962, 259 - 262
T:.:XT: The concentration and temperature de.pandonces of the phase state
of sio2 and the nature of ultrasonic depolymerization of silicic acid gel
vere studied. G. Schmid's theory (PhYs. Z. 41, 325, 1940) on frictional
f-orces between macromolecules and liquid causing polymer rupture, was
studied by means of ihe splittipg of silicic acid polymers whose structure
changes with the concentration. The measuring device (Fig.) consisted of
(1) quartz plate (vibrator), (2') polished brass rings, (3) metal rods, (4)
auartz holder, (5) reflector. Ultrasonic waves of,1000 kc.p.s. and
-1-5 w/cm 2 were applied. Systems with 3 - 106 g/liter SiO 2 and .I
4 - 5 g-equiv/liter MHO 3were studied. The gel ripened for 50 days at 20
- 0
and 70 C. Sonic irradiation was continued until complete homogeneity was
'Card 1/3
s/o69/62/024/003/001/006
Nature of ultrasonic ... B110/B138
reached (- 2--hrs). Absence of a deposit after 10 min centrifuging at
2000 rDm indicated the end of depolymerization. Results: (1) The decree
of gel depolymerization depends on the SiO content of the solution. (2)
2
The ripening temperature has practically no affect on depolymerization.
(3) Malnlyj- and13-forms are formed. (4) Splitting is due to the frictio-
nal forces between polymer molecules and.liquid.. (5) Splitting to the
form (- 40~) occurs with filamqntous"structures ( ~5 g/liter SiO wit
't i k 2) 9 P 41
cellular structures (,