SCIENTIFIC ABSTRACT OZEROV, R.P. - OZEROV, V.N.
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S
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December 31, 1967
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SCIENTIFIC ABSTRACT
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OZERR", R. F.
USSR/Pbysice - An-bl,ferromagnetics Jul 52
"Neutronographic Study of the Magnetic Structure of.1
Attiferromagnetica," R. P. Ozerov
"Uspekh Fiz Nauk" Vol XLVII, No 3, pp 445-469
Discusses scattering of neutrons by para-, ferro-I
and antiferromagnetics; detn of form factor; mag-
netic structure of MnO. NiO, CoO and FeO, depend-
ence of distant o:.-dering 'Upon temp; deformation of
the structure of antiferromagnetics during their
transition to the paramagnetic state; magnetic
structure of hemantite (a-Fe203) and magnetite
(Fe 304); expts vith magnetized samples.
225T98
t>
eko
Chemistry - Reaction
Pub. 151 j6:
Authors Boresk ev
Ov,, ~G K'; Illarionw, V. V.; Ozerov R. P and-Killdish a, E. V.
-K2SO and V -K te
Chei-ical reactions in V295
~05 ~S~07 sys ms
~r~iodieal- -A. Zhurj ob,,khim 24/1, '23-29' Jan 1954
n
::-:.'.Thermograp, q X-ray irwii.Aigations7 o -K2S and V205-KZS~07 systems
f V205 -04
-were-carried out-to,-deterr"e their reaction characteristics. The formation,
n the first und close-in its composition to
of the two systems, of a compo
V~D5 e K2304 with a melting point of about 5000 was discovered. The eutectic
point between this compound.and K2SOL was established at below 4300 which
corresponds to an approximate V20~ ci3ntent of 0.4 mol/fractions. The fusions
with larper pyrosulfatecontents in-the second of-the inve3tigated systems
were found to have low melting points and easily convert Into glass when sub-
jected to.cooling. An exothermaleffect during the heating of this system
was observed at 2750 and this is explained by the formation of a V205
KA30" cpmpoiind. . E3.6ven references: 3-4JSSR; 4-German; 2-Italian and 1-
ScanclInIvIan'(1905-1950). Tables; graphs. Also 1-Enziish reference.
Instibition Sclerib~i f ic. Institizte of Fertilizers and Insecticides
Submitted' Ili, 26$ 199
_j
OZF-.ROVI R. P.
OZEROV, R. P. "Thle Crystal Chemistry of Vanadic Vanadates, their formation
and their Role in Vanadium Sulfuric-acid Catali,sts.11 Acad Sci
USSR. Inst of Crystallograph,.7. Moscow, 1956 (Dissertation for the
Degree of Candidate in Chemical Science.
So: Kriiz)inaya letopis' No. 24, 1956
- V. V "L-,i - - - - - Fa~
R4.- It=. j,
-zv ;9'f
,
. -L-- il ~~ ~ a 7~~! -- -,- - :
w pa
ka RI
9--t -0
Ta!P Mg
OZEROVJ% R.P.; KOGAN, V.S.; ZHDANOV, G.S.; KUKHTO., O.L.
Crystalline structure of solid hydrogen isotopes. Krista.Uografiia
6 no.4:631-632 J:L-,Ag 161. (MIRA 14: 8)
1. Fiziko-khimicheskiy inatitut imeni L.Ya.Karpova i Fiziko-
tekhnicheskiy institut Ali USSR.
(Hydrogen-I.sotopes) (Crystallography)
AUTHOR: QZ SOV/70-4-2-9/36
or
TITLE: On the Crystal Chemistry of Oxygen Vanadium Bronzes of
Elements in the First Group of the Periodic System
(K krktallokhimll kislorodnykh vanadlyevykli_br-onz elementov
pervoy gruppy periodicheskoy sistemy)
PERIODICAL: KrIstallograflya, 1959, Vol 4, Nr 2, pp 201-203 (USSR)
ABSTRACT: The vanadium bronzes of Li, Ag and Cu have been examined
from a crystal chemical point of view and those of Na and
K studied earlier have been reconsidered. According to
their abilities for forming vanadium bronzes the first
group elements (except Au) can be divided into three
groups: 1) Li and Cu which form vanadium bronzes with
almost'.-complete filling of the alkali metal positions in
the structure; 2) _Nr AP, and K forming bronzes with
half-occupied positions; 3) Rb and Cs not forming mono.-
clinic bronzes. In this connection the possible states of
the valency electrons of the alkali motal atoms and certain
physical properties of the bronzes are examined. In
particular, D.T.A. records of the thermal decomposition
Cardl/2 of the bronzes have been made. Anomalous peaks, due
SOV/70-4-2-9/36
On the Crystal Chemisty of Oxygen Vanadium Bronzes of Elements in
the First Group of the Periodic System
perhaps to the ordering of Na and L! atoms, were found
in a mixed bronze of composition about Na 2Li 1.5V120 30-
ElectrIcal-resistance measurements were made on compressed
powderg. There are I figure and 5 references. 4 of
which are Soviet and 1 international.
ASSOCIATION: Nauchnyy institut po udobreniyam i insektofungisidam
im. Ya.V. Samoyl,~-va (Ya.V. Samoylov Scientific Institute
for Fertilis.ers and Insec-tofungicides)
SUBMITTED: June 4, 1958
Card.2/2
Z.
USSR/Physical Ch6nistry Crystals. B-5
Abs Jour : Referat Zhur - Khimiya, No 1, 1958, 18o
Author : R.P. Ozerov.
Inst -Z ------,
Title Crystallochemistry of Oxygen-Vanadium, Bronzes.
Orig Pub Kristallografiya, 1957, 2, No 2, 226-232
Abstract A series of conclusions regarding the crystallochemistry
of oxygen-vanadium bronzes was made based on data of
x-ray-structural analysis, as well as of some thermal
and electrical measurements. It was postulated that
atoms of alkali metals in vanadium bronzes were in the
metallic state, while the state of vanadium atoms was
close to that in V20 F The electrical, thermal and ca-
talytic proDerties o vanadium bronzes were considered
from this point of view. It is shown that the names nf
these compounds that so far have been used in the litera-
ture have no crystallochemical ground.
Card 1/1
an", R.P.
Method for the quantitative radiographic determination of the
ooncentratiou of a solid solution of carbon in apatite. Zav, 3Abe
24 uoOO77-379 15B. (MM 32W
1, Whuchgy7 Institut po udobreniyam I, insektofungisidam im. Yaj,
Samoylovs. (Carbon-Amlysis) (A tit --Analysis)
I
(Hadiograp4r 19
AUTHORS: Illarionov, V.V., Ozerov, R.P. 32--24-4-2?,/67
TITLE: A Method for the Precise Determination of the Temperabares of
Thermal Effect3 in Thermograms (Metod utochnenlya temperatur
teplovykh effektoy na termogrammakh)
PERIODICAL. Zavoaskaya Laboratorlya, '.958, Vol. 2.1+: Nr 4, pp. 434--435 (USSR)
ABSTRACT: The thermograms obtained accor-3ing to the system developed by
N.S. Kurnakov represent two curves plotted simultaneously: the
ordinary~- and the differential carve. The former is obtained from
standard samples, in which a large number of secondary factors
influences measuring accuracy. For the precise determination of
the positions of thermal effects it is suggested to add an
flacti-7e" stanaa-_3 substance with known thermal effect positions
instead of the inert ballast substance to the second pyrometer
vessel (acoording to Kurnakov). The &Jdit-ion of an active stand-
ard substance waz already suggested by L.G. Berg and Ye.Ya.Rode
(Ref 1). In this way several aid-itional in7ersion effects become
noticeable on the differential curve, the majority of which is
Card 1/2 known for the standard samples, so that in this way a calibration
A Method for the Precise Determination of the 32-24-41-22/67
Temperatures of Thermal Effects in Thermogrwns
of recordings 51-S possible. Besides this no change of the normal
crur7e takes place, ar.3 in the (,Ase that a superposition of effect
should be unavoidable, two thermograms with inert-, and acti-Te
subsi-Oanee can be made. If possible such standard substances
should be used of vgAch -the -position of effects is known Yrith the
greatest accuracy; on tha other hana, it is possible, by the
method described, to detemine also relative temperatures with
the greatest accuracy, which are fraquently jast as important as
absolute temperature. Thermograms for investigations carried O-A
on KOO,, anid M 3 by ui.-!_r_%g an eutectic mixture of N-A2 + Nacl as
an actlye sulstahoq are gi~,en. When carrying out determination in
KP03-V20q,-aystemq it'- was fcL,--d tbat ~htl error 1~mit amoints to
+ I-'10, 'w-riereas 111, is four times this amount when woelcing, with an
1.ert substance. Tb~_-ra is I figur,'-.
ASSOCIATICK: Hauchayy institut- po udobrz-n:iyam i insektofungisidam. im.
Ya.V. Sampylovia (Soientif'X Instit ute for Ferti122er3 ar-a
Insecti.- e-na FungitAder, iubeai Ya.V. gamoylov)
1'. Temperature.--Recording devices 2. Thermographs---Errors
3. Thermographs--Calibration
Card 2/2
5(0 SOV/78-4--5-17/46
AUTEOR: Ozerov~
R - ~
TITLE; The Oxygen-containing Vanadium Bronzes of the Elements of
the First Group of the Periodic System
(Kislorodnyye vanadiyevyye bronzy eiementov pervoy gruppy
periodicheskoy sistemy)
PERIODICAL: Zhurnal neorganicheskoy khimil, 19599 Vol 4, Nr 5,
PP 1047_1054 (USSR)
ABSTRACT: The present investigation was carried out in cooperation
with Ye. V. Killdisheva. The process of the formation of
vanadium bronzea with olementa of the first group o:f the
periodic system, their composition, ad woll &a the poosibili-
ties of a formation of bronze with other elements was in-
vestigated. The synthesis of vanadium bronzea with sodium
and potassium was carried out in a vacuum by the crystalliza-
tion of the melt of a mixture of V 2 05 with the salts of
alkali metals. The vacuum apparail-as for the production of
vanadium bronze is schematically ahown by figure 1. Pigure 2
r
Ca
SOV/75-4-5-1 -j/46
The*Oxygen-containing Vanadium Bronzes of the Elements of the First
Group of the Periodic System
shows the variation of pressure at constant temperature
and during cooling. Radiographic investigations of the
bronzesobtained show that -they are nearly homogeneous. The
outer appearance of the potassium bronze crystals formed
is shown by figure 3. The purest form of potassium vanadate
and potassium carbonate was used for the production of
potassium bronze:, but potassium carbonate is less suited for
this purpose. In the systems V2 05"K2so4 and K2S207 no
potassium-vanadium bronzes are formed under the same work-
ing conditions. The vanadium bronzes with other elements
of the first group of the periodic system7 such as Li, Ag
and Co, are isomorphous with the monoclinic bronzes of sodium
and potassium. Bronzes with rubidium- and cesium salts
could not be produced. A chemical analysis of all synthetiz-
ad compounds was carried out and showed that in the bronzes
the lithium- and copper content is nearly double the content
C~r~ of silver, sodium, and potaEsium in the corresponding bronzes.
SOY/78-4-'5-17/46
The Oxygen-containing Vanadium Bronzes of the Elementsof the First
Group of the Periodic System
The results of the chemical analysis of bronzes are shown
by table 1. Among all alkali metals, sodium shows the
greatest tendency towards forming vanadium bronzes contain-
ing oxygen. Formation of bronze also with tungsten, vanadium
and niobium was investigated. The colors of the synthetized
oxygen-containing bronzes are shown in table 2. Alkali metals,
lithium and sodium form tungsten bronzes with perovskite-
structure. Potassium, rubidium and cesium form tungsten
bronzes with a comparatively complicated tetragonal and
hexagonal structure. The oxides of the alkaline earth metals
form, together with niobium, bronzes with perovskite struc-
ture. There are 3 figures, 3 tables, and 25 references,
9 of which are Soviet.
Card-*,
OZEROV, R.P.; NOGINOV N.V.
------- .9
X-ray examinaltion of objects of the Scientific Research Institute
of Fertilizers, Insecticides, and Fungicides. (Trudy] NIUIF
no.164:43 159. (NIPLA 15 :5)
(Phosphorites) (X rays-Industrial applications)
86736
S/l2o/6o/ooo/oo6/oll/o45
E032/E314
AUTHORS: Goman1kov, V.I., Kasatkin, S.N., KIselev, S.V.,
Loshmanov, A.A. and.Qze-ov, R.P.
TITLE: A Neutron-diffraction Apparatus Working in
Conjunction with the 14FT (IRT) Reactor
PERIODICAL: Pribory I tekhnika teksperimenta, 1960, No. 6,
PP. 45 - 48
TEXT: A description Is given of a neutron diffractometer
designed for investigating poly- ang monocrystals. A collimated
neutron beam of 8 x 10 neutrons/c- see with a horizontal
divergence of 7' was employed. The neutrons were monochromatised
by a reflection from the (220) plane of a NaCl monocrystal
having an area of 12 x 50 mm or from the (111) plane of a
2
lead mcnocrystal having an area of 80 x 200 mm , The reflection
curves for the two crystals are shown in Figs. 1 and 2. A
photograph of the apparatus as a whole is shown in Fig. 3.
The apparatus can be used to measure directly the angular
positions of the diffraction -maxima - 4200' ,~'400 and 4600
By reflecting the neutron beam from NaCl crystals, a
Card 1/3
86736
S/120/60/000/006/oli/o45
E032/E314
A Neutron-diffraction Apparatus Working in Conjunction with
the IRT Reactor
0
monochromatic neutron beam with X = 0.97 A was obtained.
The wavelength spread was about 0.01 1 and the half-width
of the monochromatic peak was 201. The flux of monochromatic
neutrons was ^.,e 105 neutrons/cm2sec. The crystal-monochromator
was set up on a table of a goniometer so that the position of
the crystal could be adjusted with respect to the incident beam.
The monochromatised beamvias then passed through a second
cadmium collimator and struck the specimen under investigation
which ms fixed on the table of the neutron diffractometer.
The diffractometer (Fig. 3) is in the form of an H section
beam, 180 cm long, which can be rotated about the vertical
0
axis through angles between 0 and 180 . The angular position
of the rotating beam can be estimated to within 3 min The beam
is rotated by a DC motor and the angular -elocity can be varied
between 3 and 216 deg/hr. The thermal neutron detector was
a high-efficiency end-window proportional counter,
,J25 mm dia
and having a working length of 130 mm. The count was
described by Bykov and Levdik in Ref. 8, and is filled with
Card 2/3
86736
S/120/60/000/006/oll/045
E032/E314
A Neutron-diffraction Apparatus Working in Conjunction with
the IRT Reactor
83% B10 enriched BF3 gas at atmospheric pressure. The counter
is screened with a 100 mm thick layer of paraffin with B4C.
Fig. 5 ighows the diffraction pattern obtained in NaCl
and Fig. 6 shows the diffraction pattern of a polycrystalline
oc-iron specimen. In the former case, the monochromatic
crystal was NaCl and in the latter case Pb. The instrument
was designed at the Institute of Physical ChemisW of the
AS USSR. There are 6 figures and 8 references: 4 Soviet
and 4 English.
ASSOCIATIONS: Institut fizitheskoy khimiiAN SSSR
(Institute'of Physical Chemistry of the
AS USSR)
Nauchno-issledovatellskiy fiziko-khimicheskiy
institut (Scientific Research Physico-chemical
Institute)
SUBMITTED: November 28, 1959
Card 3/3
OZIROV, R-P-'--KISELEV, S-V-; UMVICH, I.R.; GOMAIISKOV, V.I.; WSHMAllov,
A-A#
Neutron diffractometer based on un-it GUR-3 and equipped with remote
control. KriBtallOgrafiia 5 no.2:317-319 Mr-Ap 160. (MIRA 13:9)
1e Fiziko-khimicheakiy institut im. L.Ta. Karpova.
(Neutrone-Diffraction)
KOGAN, V.S.; LAZARN, B.G.; ZMANOV, G.S.j__P~ZQ ~F.-
Cryostat for neutron diffraction studies at hvdrogen and helium
temperatures. Kristallografiia 5 no.2:320-321 *-Ap 160.
(MM 13:9)
1. Fiziko-khimicheskiv institut im. L.Ta.Karpova.
(Cryostat) (Neutrons--Diffraction)
S/078/60/005/012/012/016
B017/BO64
AUTHORS:
TITLE:
Illarionov, V. V., Ozerov, R. P., Kilidisheva, Ye. V.
The Phase Diagram of the System 'Y 0 - 1CPO -kj
PERIODICAL: Zhurnal neorganicheskoy khimii, 1960, Vol- 5, No. 12,
pp. 2802-2803
TEXT: The section of the three-component phase diagram of the system
V205 - K20 - P 205 along the EPO 3 - V 205line was investigated. The system
was thermographically investigated as well as by X-ray analysis, and on
the basis of the results obtained the phase diagram was drawn. The forma-
tion of the two compounds KPO 3*V205(1) and 4KPO 3*V2050 (11) was0found in
the reaction of the solid phases KPO 3 and V 205at 300 and 380 C. The
first compound is brown, and melts at 350 0C. The malt of this compound be-
comes vitreous when cooling down. The second compound is light-green, and
melts at 8460C. In contrast to the former, this compound shows no tendency
to vitrification. The X-ray pictures of these compounds are compiled in
a table. There are 1 ft-ire, 1 table, and 5 Soviet references.
Card___V~
Concerning the Relationship Between the Composi- 78202
t;jr)n and Struc ture of PhrOphaf,(~s Lhe System -3 0 11/8 0 - 3) 3 - 3 - 33 /4 7
CaO--P20 5-' SiOP and Their Digestiblll~y by Plants
Consequently, new phases o.f silicophosphates with lower
P205 content result, Seven phases (Fig. 2) were
e.stab~isheo, of which five had varying composItions
with a-tricalcium phosphate or, tetracalciiun phosphate
as the principal constituentz. The authors scuuht to
establish the svructure of each phase and its relation,-.
to digestibility b., plants, The X-ray photographs were
taken with Cu.-radiation and _RKU-8 camera. The specimens
proved to contain no tho-masite. The same seven phases
could be produced by adding, limestone and silica to
apatite before hydrothermal treatment.. Solubility of
each phase was examined by shaking 2 g of it with 300 ml
distilled water at 20 + 30 C for 8 hr, letting it stand
overnight, shaking the filtered-out residue with
another 300 ml distilled water, and so on for 10 con-
secutive days. Another 2 g of each specimen was boiled
with distilled waLer for 8 hr, left sealed overnight,
Card 2/5 filtered, and the residue treated in a similar way for
do
02, sov
ze
-51
S! q
61
Y "S
Clio
d J for CaO-P2 0 Slo2
lCaO-P 0 2SiO2 5CaO,P205'
9cao-p'O 5 2 5
slo ' bl) lialuelseli'llititc,; (s) silicacarnotite; (CL)
2.1
CL -- p 0, -C~12S'04 ; heavy dots = hornogeneousi
2 /3
Card 3/5 X = herlerogeneoUs specimens.
Concerning. the Composi- '( 8 2'0 2
tion and SGruc ture of' in the S.,vstem SO V18, 0 - /4'r
CaO-P O_-Si0
2 2 and Their bj Plants
-10 d -~y p-1t-1J;11 CIAL"I'atf, and N11a, ro~lldlle was
as~,a.yed for C;3() awt il,,O,. ~,ontent, and p11 doturmillod.
C_ _-) 2+
The assays proved 10-'~,Q ti-mes more rapid leach of Ca
than of P03- ions (Diring th~! first 5 days, after which
a constant ratio of 2 ions was achieved, but pH con-
0 concentration in the residue leads
tinued to drop. P_
.
5
to strl_!ctlw~'? alter"AtionE; (except in SiO 2 'F CaO rich
to the formation of hydroxylapatite
whose presence re-dt oill-rat-e-solu,bility of P205"
Swic of tlie tested in thea Agrochemical
Laboratory of `k.he Sci-_~n,;Jfic Research In3titute oil'
Fertilizers a-id
es (NIIJIF) as to their
digestibility by vegetation on sandy, sandy-clay,
C.,
carbonaceous, alkallri,3, and acid soils. In 34 cases
out of 36, harvest- was improved 1.6 to 9.9-fold. S 41 11 -
card 4/5 cophosphates rich in CaO and SiO 2 proved to be most
floncerning the Reiatir,,nsnip Be-.,ve~er. tl'ria
tion and Structure of Phospriat-es Jn t"'E: s t e n,
CaGj--P 205sio2anct ThE:ir- Dl-gest,!Lbi] IL'y hy Piarit~;
SUBMITTED
78202
effective in neutral and alkaline soils, ,,.-hile acid
soils showed no preference to cn1e or another silico.phcs-
phate. A. B. Sokolov and T. D. Koritskaya are thanl-ed
for presenting the data of agrochemical experiments.
There are 2 figures; 3 tables; and 19 references, 6
Soviet, 4 German, 3 Poi-ish, 3 11.S,~o 2 French, 1 Belgian.
Tne U.S. references are: R. L. Barett, W. 1. McCaughey,
Am. Mineralogist, 2'7, 88-0 (.19412); W. I.. 1-11-Athey,
C. A. Hollingsworth, lnl. Eng. Ch., 41, 1235 (1949);
K. L. Elrrr)r,, E. 0. Huffman, W. W. Wolf, Ind. Eng. Ch.,
24, 4cj (j942).
October 24, 19F-9
Card 5/5
Nu
31 J-0. go.
S.;
Flo
0
A r
15
.1 V
0
A4~
:psi
lp - -, 11 6,1 , ~ .0
KOGAN, V.S., LAZAREV, B.G.; OZEROV, R.P.; ZHDANOV, G.S.
Neutron diffraction study of the orystalline structure of solid
hydrogen and deuterium. Zbur. eksp. i teor. fiz. 40 no.4:1022-1026
AP 61. (MIRA 14:7)
1. Fiziko-tekhnicheskiy institut AN Ukrainskoy SSR i
Fiziko-Whimicheskiy institut imeni L.Ya. Karpova.
(Neutrons--Diffraction) (Low temperature research)
(Hydrogen crystals) (Deuterium crystals)
ZHDANOV., G.S.; KISELEV, S.V.; OZEROV, R.P.
Magnetic structure of austenitic steel. Kristallograftia 7 no.4:
619-62o Jl-Ag 62. (NDU 15:11)
1. Fiziko-khimicheskiy institut imeni L.Ya.Karpova.
(Steel--Magnetic properties)
OZEROV R P ; RANNIEV, N.V.; PAKHOMOV, V.I.; REZ, I-S-; ZHDAVOV, G.S.
Structure of KI03 at room temperature. Kristallografila 7
no.4:620-622 Jl-Ag 162. (MA 15:11)
1. Fiziko-khimicheskiy institut imeni L.Ya.Karpova.
(Potassium iodide crystals)
OZEROV, R.P .-kand.khimnauk
Congress of magnetism and crystallography, Vest.ANSSSR 32
no-4:93-97 Ap 162. (NIRA 150)
(MAagnetism-Congresses) (Crysta3lograptq--Congresses)
S/053/62/076/002/002/004
B117/B104
AUTHORS: Zhdanov, G. S. , and
TITLE: Neutron diffraction study of magnetic materials
PERIODICAL: Uspekhi fiziches kikh nauk, v. 76, no. 2, 1962, 239 -.282
TEXT: This is a survey on progresses achieved in fhe field of neutron
diffraction study of magnetic materials. It was written on the basis of a
lecture on "magnetic'structures", read rn the occasion of the plenary
meeting of the VII Soveshchaniye po primeneniyu rentgenovskikh luchey
k issledovaniyu materialov (7th Conference on the Use of X-rays in the
Examination of Materials), held in Leningrad on June 19, 1961. The survey
summarizes studies of magnetic structures, dealing with the following
problem m: magnetic neutron scattering; determination of magnetic moments
of atoms; magnetic structure of transition metals and of some compounds;
magnetic critical and small-angle scattering of neutrons; neutron
scattering from spin waves; magnetic scattering of conduction electrons.
The authors point out that studies of magnetic structures are of
importance for getting a better insight into the elementary structure of
Card 1/2
S/02 62/145/006/007/015
B182YE102
AUTHORS: Kiselev, S. V., Ozerov, R. P., and Zhdanov, G. S.
TITLE: Determination of the magnetic order in the fiarroelectric
BiFeO 3 by neutron diffraction patterns
PERIODICAL: Akademiya nauk SSSR. Doklady, v. 145, no. 6, 1962, 1255-1255
TEXT: Perovskite of type BiFeO 3 has ferroelectric properties. On the
other hand, compounds of the perovskite type ABO 3 (with B = Fe, Mn) show
ferromaEnetic and antiferromagnetic -croperties. The existence.of a
ma&netic order in BiFeO 3 is now verified by comparing two neutron
diffradtion patterns, one of which taken at 6000C shows coherent diffraction
peaks as would be expected from a cubic lattice whilst the other taken at
room temperature shows the same peaks in addition to reflections in posi-
tions vhere one would not expect them on the basis of the chemical
structure of the unit cell. The magnetic nature of these peaks is
identified by the temperature dependence of their intensities; a Neel
Card 1/3
S/02 C-2/145/006/007/015
Determination of the m;.-gretic order... B182Y3102
ASSOC IATION: Fiziko-khimicheE;kiy'institut im. L. Ya. Karpova (Physico-
chemical Institute imeni Lf. Ya. Karpov)
?RESENITED: April 6, 1962, by R. V. Belovp Academician
SUBIALITTED: April,3, 1962
Card
- -MANOVJ~- G.- - S.- ; KLT=-,, S. V. ; OZEROV, R. P.
"Neut-ron-diffractiOn observation of iaagaetic, ordering and determination of
atomic displacements in ferroelectric BiFeO 3 and related compounds."
report submitted for 6th Gen Assembly, Intl Union Of Crystallography, Rome,
9 Sep 63.
KarPOV Inst Of Physical Chemistry, Moscow.
OZEROV, R.P.,; FYKIN, L.Ye.; RANNEV, N.V.; ZHDANOV, G.S.
Neutron diffraction study for the localization of hycb-ogen
atoms in the structure of 1Jthium sulfate monohydrate Li2-
SO4'H20. Dok1. AN SSSR 148 no.5tlO69-1072 F 163. (MIRA 160)
1. Fisiko-khimicheskiy institut im. L.Ya.Karpova. Predstavleno
akademikom N.V.Belovymo -
(Neutron diffraction crystallography) (Lithilim sulfate)
(Hydrogen)
KISELEV., S.V.; KSHNYAKINA, A.N.; OZEROV, R.P.; ZHDANOV, G.S.
Neutron diffraction examination of magnetic ordering and atomic
displacements in certain iron-containing Perovskite type substances
with special dielectric properties. Fiz. tver. tela 5 no.11:
1.'12-3316 N 163. (MIRA 16:12)
1. Nauchni5i6issledovatellskiy fiziko-khimicheskiy institut imeni
L.Ya.Karp6va, Moskva.
RANNEV, N.V.;_OZER , R-.P. -
Neutron diffraction determination of the position of hydrogen atoms
in the structure of dicyanodiaAide. Dokl. AN SSSR 155 no.6:
1415-1418 Ap 164. (MIRA 17W
1. Fiziko-khimicheskiy institut im. L.Ya.Karpova. Predstavleno
akademikom N.V.Belovym.
OMOV, S.
Z~1-1 ~- -; ~vi 7,: -~ -' Oir- th 4a- underground railroads. Mast.ugi. 4 no.11:8-9 N '55- WRA 9:2)
I.Sachallulk vnutrishakhtnogo transport&.
(Mine railroads)
OZIROV, S.
Monthly payment of wages on collective farms. Hauka i pered.op. v
sellkhos. 6 no.12:55-57 D 156. (MLRA 10:1)
(Wages) (Collective farms)
0 7- f a i'~ v V , - -IV.
MALYSHEV, K. A., OZEROV~ S. P.
The Effect of Perliminary Hot Mechanical Processing on the Growth
of the Austenite Grain. Trudy UFAN 10, 27, 1946.
-- - LtAUL=, K. A.; -
The Effect of Preliminary Hot Mechanical Process-rig on the Grc.,t-h of tne
Austenite Grain
Trudy im ur-AN 10, 27, igh6
-i 7: v
TIVOPME'SITO A. "OSKVA, IZD-Vrk) ZNA.-IYE, 1952. 38 P. 1:1US.,
PC-T T'
P OTI T,:, .(VSFSD('fUZ7,TOY-,, Ff~ FA,z'PT06TFA'T-TYU
VA111,1117,11YMT ZNAFTY. 1952, S:-TTYA 65)
YERHOLATBV, Timofey Antonovich; OZEROV, V.S., red.; ONOSEMO, N.G.,
tekhn.red.
(Factory history room] Kabinet ~storii zavoda. Leningrad,
Lanisdat, 1959. 28 p. (MIRA 13:10)
(Leningrad--Shipbuilding)
PiME I BOOK EXPIDITATION 1052
Ozerov, Vladimir-A.1-eksandrovich; Felldman., Solomon Samoylovich; and Shklennikp
Yan Ivanovich
Litlye po vyplavIyayenym. modelyam. (Investment Casting) Moscow., Masbgizi, 1958.
321 p. 6,000 copies printed.
Reviever: Kreshehanovskly,, N.S.., Candidate of Technical Sciences; Scientific
Ed.; K=cbmnap B.S.p Engineer; Tech. Ed.: Modell., B.I.; Managing Ed. for in-
formational literature (Masbgiz): Krylov., V.I.
PURPOSE: This book is intended for engineers, technicians and foremen in
founding production and may be useful to students specializing in this field.
COVERAGE: The book covers all aspects of investment casting: pattern-making
methods and materials, molding techniques and mold materials., methods of melt-
ing and pouring metal., equipment used, principles of casting design, mechan-
ical properties, and accuracy and surflLee quality of castings. The author
stresses that work has been and is bei ng done in the field of application of
vaterglass for coatings mbich may bring about a 90 percent reduction in the
Card 1/6
investment Casting 1052
Selection of a gating xyoqrm 32
Determinatica of dimensions Of gating system elements 38
Ch. M. Patterns 52
Pattern materials 52
Requirements for pattern materials 52
Pattern materials 53
Formalio for and properties of pattern wberiLU 61
Analysis of properties and quality inspection of pattern wterials 71
Preparation of pattern materials 75
Making patterns 83
Clustering patterns 109
Ch. IV. Molds 12B
Classification of investment casting molds 118
Requirements for the costing of the mold 121
Methods of testing coats 122
Molding materials 12T
Banding agents 1ZT
Card 3/6
lnvest4neut Canting 1052
melting 19T
Pouring Into molds 201
Ch. VI. Removal,, Cutoff., Clesn' and Heat Treatment of Castins 210
Removal of castings from flasks 210
Cutoff operations 212
Cb;emic&l cleaning of castings 214
Heat treatment of castings 217
Cleaning castings by send- and shot-blasting 218
Ch. VIL Qulity Control and Defects of Castings 220
quality inspection of castings 220
Defects of castings 223
Ch. VIII. Mechanical Properties of Castings 242
Test specimens 242
Fa--tors affecting meOmmleal properties of castings 244
Fxamples of meabanical properties of castings 251
Card 5/6
NHK It IIII, Th. I.; BXRMOV, A.V.; IVANOV, V.N.; KA23NNOV, S.A.; KURGHMAN,
13.S;; LYAMCMMO, N.N.; MARULIDI, R.A.; MILITSIN, 0.14;
SITHIGHMO, A.I.; TALIS, Kola' IN, M. L.
OZIRPY
kand.tekhn.nauk, retsenzent; KLAUZSN, AI., inzh,,
retsentent; MARKIZ, Yu.L., inzh., red.; TrMN07, A.Ya., takhn.red..
CHIRNOVA, Z.I., tekhn.red.; AIKI", V.D., tekhn.red.
[Precision canting] Idtle po vyplavliaemym modeliam. Ianingrad,
1961. 455 P. (MIRA 15:2)
(Precision casting)
KOROTKOV~ A.I., Inzh.; POLEVAYAf A.M., inzh.,- SHKLENNIX, Ta.I., kand.
takhn. nauk., reteenzent; OZERDV, V._A,., kand,,tekhn.nauk, red.;
OSIPOVAp L.A., red. izd-va; ELIKIND, V.D., t6khn. red.
[Casting in shell molds] Litle v obolochkovye formy. Moskva,
1963. 299 p. (MIRA 16:7)
(Shell molding (Founding))
I
I !
.,OZX4GV,_V.,A_p, kand. tekhn.-nauk
Standardization -of fatW s"tem for precision casting. TrL*
4
MATI no.56:98-157 63. (MIRA 16:6)
Precision casting)
4
oundries-3quipment and supplies)
KO#CTKOV, A.I., insh.; POLEVAYA, A.M., insh.;-SHKLENNIX, Ya.I.., kand.
tekhn. nauk, retsenzent; 7FRD-V. VAL, kand..,tekhn. nauk,
red.; OSIPOVA, L.A., red . z -vaj IND, VID., tekhn. red.
.[Castirg into shell molds] Litle v obolochkovve formy. W-
skva, Mashgis, 1963. 299 P. (MIRA 1619)
(Shell molding)
E-EDOGATOV, YU.Ye.; TAI-';jIROVSKIY, V.I.;-OZEROVy V.A., kand. tekhn.
" 1~
nauk, retsenzent; ZHESTKOVA, I. -red.
[Special casting processes] Spetsiallnye vidy litlia. 'Yo-
skva, Mashinostroenie, 1965. 158 P. (MMk 18:9)
KORDTKOV, A.I., inzh.; POLEVAYA, A.M.., insh.; SHKLENNIK, Ya.I.p
kand. tekhn. nnuk, retsenzenti. DZE V. &~ kand. takhn.
nauk, red.; OSIPOVA, L.A., rea.123-va; EL-KM, V.D.,
tekhn. red.
[gasting in shell molds].Litle v obDlochkovye formy. Mo-
skva, Mashgiz, 1963. 299 p. (MIRA 16:8)
(Shell molding (Founding))
PHASE I BOOK EXPLOITATION 989
Moskovskiy dom nauchno-tekhnicheskoy propagandy im. F. E. Dzerzhinskogo
Metody polucheniya otlivok povyshennoy tochnosti (Methods of Making
High-Precision Castings), Moscow, Mashgiz, 1958. 140 p. 4,500
copies printed.
Additional Sponsoring Agency! Obshchestvo po rasprostraneniye politi-
cheskikh i nauchnykh znaniy RSFSR
Ed.: Yevseyev, A.S., Engineer; Ed. of Publishing House: Stepanchenko,
N.S.; Tech. Ed.: Uvarova, A.F.; Managing Ed. for literature on
heavy machine building (Mashgiz): Golovin, S.Ya., Engineer.
PURPOSE: This book is intended for engineers and technicians at plants
and institutes,, as well as in research and planning organizations in
all branches of the machine-building industry.
Card 1/5
Methods of 'Making High-Precision Castings 989
for Casting by the Losc-Wax Process 5
Trostyanskaya, Ye.B., Doctor of Technical Sciences, Professor.
Some Notes on Methods of Producing Low-Melting Pattern Materi-
als [Plastics] 19
Baradan'yants, V.G., Engineer. Gypsum Compression Molds for In-
vestment Casting 22
Shklennik, Ya.I., Candidate of Technical Sciences. Preparation
of Molds for Investment Casting 30
An.dreyev, N.T.; Glaz, M.G.; Lepilov, N.Ya.; Chern-yak, G.N. On
the Use of Powdered Bakelite in Investment Casting 44
Alekseyevskaya, Ye.K., Engineer, Sorokin, P.V., Candidate of
Technical Sciences. The Use of Shell Molds and Fused Quartz
in the Production of Investment Castingp 47
Card 3/5
PHASE I DOOK ZVL401TATION SOV/5976
Shklennik, Ya. I., A. V. Baranov, V. N~ Ivanov, S. A. Kazennov B- 3 Kurchman,
N. N. Lyaohohanko, R. A. Marulidi, G. K. Militoin V. A. Ozerovk A. 1.
Sitnichonko, M. Ya. Tells, and M. L. Rhonkin
Lit,yo po vyp1avlvayevqm modol7am (Imvestront' Casting) (Leningrad] ligiz
119611 455 P. (,Serious Inzhjnornyya monogratil, po litcyno-mu prcizzv(x_1stvU)
Errata slip insoi-ted. 6" copies printed.
Eds. (Title page) i Ia. L aklemik and V. A. Ozorova; Reviewers t 11. D. TItov,
Candidate or Technical Sciarcos, and A. 1. Klauzan, Riginoori Ed.: Yu. L. Fxrkiz,
Engineer; Tech. Eds.t A. In. Tikhanov, Z. 1. Chorno-va and V. D. ElIkind; Yim-
aging Ed. for Literature on Hot-Working of Metalat S._ Ia. Go3o7in, Engineer.
PURPOSEi This book is Intended for engineering and technical porzoznol in tho
metalvorking industry and for scientific research workers. It my also be used
by students apeciaLizing IA foundry vork.
COVERAGEs The book reviove the mat important problema in investmant casting.
Among the topioBooneidared are the follovingi mechanical properties of castingal
Card IM
InvooLmont Casting WV/5976
the manufacture of castings; qr~cision mwfaoo quality; zaterialo cnd methods of
raking pattorns and molde; the molting of motels and alloys, pouring, cleaning,
heat treatment, and inspoetion of castings; economic aspoots, in the production
of castings; organization of production; and modarn concepts relating to pro-
cossee taking place in'the mnufacturo of invostm-3at cautinga. No personalities
are mentioned. There are 180 references, mostly Sovipt.
TABLE OF CONTENTSs
introduction 5
:Ch. I. Designing Cant Parts 12
Proportion of castings 13
Dinonsional precision 13
Surf ace qwuUty 16
Y4chanical properties of cast metal
U~rj of G&Stingn
Design eleme
Card 210
kand.tokhn.nauk, retsenzent;
IVANOV, Vladimir N4kolays
BIM, Tu.V., Inth., red.; GRPSMSKAYA, O.M., red.izd-va;
SKIMOVA, Me takhn.red.
1r
I.Waste and defects in casting using investment patt6knel
Brak i defekty Y lit's po vyplavliasmym nodeliam. Xoskya,
Go*.nauchno-tskhnAzd-vo mashinostroit.lit-ry, 1959. 70 P.
(MMA 12:7)
(Precision casting)
I
CM Vladbdr Aleksandrovich; MIDMAN, Solomon Samoylovich; .SHEMINIXg
~V,,, , i xu3HdaOOVSKIT, luf-, kand. takhn.'nauk, retsenzent;
XMIWAN, B.S.. inzh., na=hWy red.; MOM', B.I., tekhn. red.
[Losi-wax pro'cess'in precision ca'stiug].Litle po v7plavliaenym mode-
liam. Moskva, Goo. nuachno-tekhn. izd-vo mashinostroit. lit-ry,
1:958. 321 p. (Precision casting) (MM 11:9)
OZIROV, V.A,,.*nzhener.
lffect of some
mkU according
tech491jogigal factors on surface quality of castings
to cast patternj6- (Trudy] Mm no-45:85-109 155.
(Younding- Qpality controll - NLU 10:6)
OZEROV, V.A.; SOSKIN, D.S.; MARKOVA, M.V.
.........
Standardization of gating-pouring systemis for precision casting.
Lit.proizv. no.10:3-7 0 164. (MI'RA 18:4)
BRUSKIN, David 14oiseyevich; OZEROV, V.A... nauchn. red.; KONCHA,
F.F... red.
[Making melting-out patterns for precision casting]
Izgotovlenie vyplavliaem-ykh modelei dlia tochnogo litlia.
Moskva, Vysshaia shkola, 1965. 231 p. (MIRA 18:12)
SHVARTSSHTEYN, O.N., starshiy elektromekhanik: QIEROV, ~_B., monter
Improvement of the ICh-l instrument ki-t. Avtom., telem. i sviaz'
6 no-3:38 Mr '62. (MIRA 15:3)
1. Kontrollno-ispytatel'nyy punkt 1-y Kiyevskiy distants-ii
signalizatsii i svyazi Yugo-Zapadnoy dorogi.
(Electric relays--Testing) (Electric measurements)
GRINGAUZ, K.I.; BEZRUXIM.. V.V.; BAIANDINA, S.M.; OZEB2Y4--VP,;
RYBCHINSKIY,, A.*Ye.
Direct observation of solar plasma streams at a distance about
1,900,000 km.from the earth on Februaz7 17, 1961, and
simultaneous observations of the geomagnetic field. Isk~pput.
Zem, no.15s98-101 163o :4)
(Solar radiation) (Plasma (Ionized =ses:)'~
(Magnetism, Terrestrial-Observations)
a. 1~000
3. ;? /00 S /0280074/ 131/0 6/2 0/0 "? I
-BO14/bO()7
AUTHORS: Gringauz, K. I.o Bezrukikh, V. V., Ozerov, V. D_&,_2ybchinskiy, R. Ye.
TITLEs The Investigation of the\Kterplanetary Ionized Gas of High-eij~rqy
.F,1 Antrnng and the'~ Corpus ou'la-r-Y-miss ion of the Sun by Means -of Three-
\Pelectrode Catchers 7-o-r-Th-arged Particles in Z_eSecond Soviet Cosmic
Rocket
PERIODICA.Lt Doklady Akademii nauk SSSR, 196o, Vol. .131, No. 6,'pp. 1301 - 1304
TEXT: During the flight of the rocket the currents generated by the charged
particles in the catchers were measured and recorded. For this purpose four
three-electrode catchers were fitted, each of which consisted of a semispherical
nickel net (radius 30 mm)q under which a plane nickel collector was fitted.Between
these parts a tungsten net was fitted. The potentials on the electrodes are given
and the scheme of the catcher is shown in Fig. 1. The task to be performed by the
tungsten net was to prevent the photoelectric effect caused by irradiation by the
Sun. The eleotrons, which moved which sufficient energy to overcome the retarding
field between the nets, generated a negative collector current. For the purpose
of selecting the eharacteristio of the apparatus, the following was assumed with LAI/'
Card 1/3
80082
The Investigation of the Interplanetary Ionized Gas of S 020 60/131/06/20/071
High-energy Electrons and the Corpuscular Emission of B014 B007
the Sun by Means of Three-electrode Catchers for Charged Particles in the Second
Soviet Cosmic Rocket
that there exists a flux of positive ions with more than 15 ev and a density of
8 -2 -1
2,10 am sec . In conclusion, the authors draw attention to the proton fluxes
with energies higher than 25 ev, which were found to exist by the automatic inter-
planetary station in October 1959. There are 4 figures and 4 references, 2 of
which are Soviet.
ASSOCIATIOR: Radiotekhnicheskiy institut Akademii nauk SSSR (Radiotechnioal
Institute of the Academy of Sciences, USSR)
PRESENTED: February 11, 1960, by A. L. Uinta, Academician
SUBMITTED: February 5, 1960
Card 311~
2
.cl 9/00 25987
S/56o/61/ooo/oo6/oo3/oio
E032/Elik
AUTHORS; Gz-ingauz, K.I., Bezrukikh, V.V., and Ozerov, V,D.
TITLE: Results of measurements of the positive ion
concentration in the ionosphere using ion trans set
up on the third Soviet earth satellite
PERIODICALi Akademiya nauk SSSR. Iskusstvennyye sputniki Zemli.
No. 6. Moscow, .1961. pp. 63-loo
TEXT: The third Soviet satellite (launched on May 15, 1958)
carried apparatus designed to meaeure the positive ion concentration
with the aid of ion traps. A preliminary description of the
experiment (prior to the launching) was reported by K.I. Gringauz
and M*Kh. Zelikman (Ref.l: UFN, 63, 16, 239~ 1957). The
preliminary description of the experiment is said to have been
echoed in the U.S.A. where similar experiments were later described
(Ref-51 W.C. Hoffman, Planetary and space Science, V.1, 238, 19591
Ref.6t J.W. Townsend, J. Geophys. Res., V.64, 1779, 1959).
A general view of one of these ion traps is shown in Fig.2. Two
identical traps (JI 1 and J12) of this type were attached at the
ends of two rods a, and a2 (65 cm long each) which in turn were
Card 1/14
Results of measurements of the
25987
S/56o/61/ooo/oo6/oo5/010
E032/Eli4
fixed to the surface of the satellite as shown in Fig.l. The traps
had a central spherical collector kept at -/ -150 v relative to the
body of the satellite. The radius of the outer shell was 5 am and
the diameter of the collector 3 cm. The transparency of the outer
grIA was approximately o.63. Both the outer grids and the
collectors were made from chromium coated brass. The electrical
field between the outer grid and the central collector was capable
of retaining all atmospheric positive ions (with energies of a few
fractions of OV). All negative ions whose energy was less than
150 eV were repelled. These ion traps are said to be modifications
of the device described by R.L. Boyd (Ref.15: Proc. Roy. Soc.,
V.201, lo66, 329, 1950). Bipolar voltage pulses relative to the
body of the satellite were applied to the grid envelopes of the trap
every 2 sec. The positive pulse had an amplitude of 27 v and a
duration of 0.13 sec and the nagative pulse had an amplitude of 14 v
and a duration of 0.07 sec. These gave rise to a change in the
potential y of the grid envelope relative to the undisturbed
bxternal plasma and this in its turn resulted in a change in the
thickness of the space-charge surrounding the trap. When ~p
passed through zero there was a change in the sign of this space-
Card 2/14
25987
Results of measurem ents of the ... S/56o/6i/ooo/oo6/oo5/oio
E032/E114
charge. A block diagram of the apparatus is shown in Fig-3. The
instantaneous values of the voltage amplitudes applied to the trap
envelopes, and 'of the collector currents in the two traps, were
telemetered to the earth. In this way it was possible to plot for
-.6ach trap the'complete ion volt-ampere characteristic, correspon-
ding to each bipolar pulse. 'With y r-ro and an ion concentration
..:.-'of io7 m-3, the collector current due to positive ipns was of the
C
"Order of 3 x 10-5A, while with a concenty,ation of 10% cm-3 this
Cul%rent was of the order of 5 x 10-8 A. The amplification of such
currents presented no particular difficulty. The currents were in
.fact amplified with the aid of cathode followers with high input
resistors and 6Hl66..(6Nl6B) tubes whofie grid current is of the
order of a few 10-9 A. In order to cover the entire range .
(5 X 10-8 - 2.5 x1lo-5 A) with a single amplifying stage it was
necessary to introduce a nonlinear element, i.e. a diode, which was
put in paralle~l with the Input resistor of the amplifier and was
cut off by a special bias voltage. When the input current
exceeded 10-6 A the voltage drop across the input resistor
compensated the bias voltage and the diode began to conduct and
Card 3/14
25987
Results of measurements of the .... S/56o/6i/ooo/oo6
E032/E114
shunted the input resistor, thus reducing the amplification
coefficient. Special facilities were provided for spot checks of
all the supplies, fields and currents. The sawtooth positive and
negative voltage pulses were produced by special oscillators set up
on the satellite. In order to economise on energy consumption al.1
the filaments were supplied from 3 v sources. The present authorj~
state that Whipple (Ref-7: E.C. Whipple, Proc. IRE, V.47, 2023,
1959) has derived an expression for the volt-ampere characteristic
~'o_f the ion traps on the third Soviet satellite and applied it to
-the data reported by the present authors in Ref.3 (V.I. Krassovskiy,
Proc. IRE, V.47, 289, 1959). Whipple based his calculation on the
assumption-that the components of the Ion velocities in the
direction of motion of the satellite are distributed in accordance
with the Maxwellian law. Whipple concluded that the determination
of ni (the Ion density) reported by K.I. Gringauz and
M.Kh. Zelikman (Ref.1) and V.I. Krassovskiy (Ref.2: same journal,
No.21 !zd-vo AN SSSR, 1959, P-36: and Ref-3) is incorrect. It is
pointed out by the present authors that Whipple's theory cannot be
applied to spherical ion traps since he did not take into account
the spheri,-al form of the trap and the associated quasi-radiality
Card 4/14
25987
Results of measurements of the .... S/56o/6i/ooo/oo6/oo5/oio
E032/E114
of its electric field which distorts the ion trajectories, nor did
he take into account the thermal velocity components which lie in
the plane perpendicular to the velocity of the satellite. It is
stated that Whipple's results strictly apply only to a part of an
infinite plane probe. The present authors show that, assuming the
ion velocity distribution to be of the form
dn. = n M J 3/2 exp i Ix)2 + (v,,y _ V )2+
-- - ~- !I- E(vi,x - Vcn crt,y
i~-T) 2kT
+ (V i,z VCniz) 233 dvi,,Xdvi,y dv i,z (10)
where subscript i refers to the ions and subscript C11 refers to
the satellite, the correct expression for the collector current is
of the form: (,mi 3/2 Mi
(11 aSen exp v 2
k,i 'n kT) I- 2kT D i'X - V en , X) + (V i,y -
- V 2 + (v. - V )23~vi(l - 2")dvi,xdvi, dv. (11)
ell I y 1,Z Z M.V 2 y 1,Z
Card 5/14 1 1
25987-
Results of measurements of the ..... S/56o/61/000/006/005/010
E032/Ell4
Fig.8 shows the theoretical volt-ampere characteristics for
spherical probes (curves 1 and 2) and a part of an infinitely large
plane probe (curves 3 and 4). In computing these curves it was
assumed that T = 00 (curves 1 and 3), T = 20000 (curves 2 and
mi = 16 amu, Vc. = 8 x 105 cm/see. In fact, curves 1 and 2
represent the present theory and curves 3 and 4 represent Whipple's
theory. During the flight of the third satellite more than 10 000
ion volt-ampere characteristics corresponding to different
altitudes were obtained. It is stated that rotational effects were
clearly distinguishable and could easily be eliminated. Analysis of
the ion volt-ampere characteristics (25 such characteristics
corresponding to different altitudes are reproduced in this paper)
has led to altitude distributions of positive ion concentration
between 600 and 1000 km. Figs. 38-43 show some of these
distributions. The dashed parts of the curves indicate the absence
of reliable data. There are 43 figures, 2 tables and 18 references:
10 Soviet and 8 non-Soviet. The four most recent English language
references read as follows:
Ref.4: W.W. Berning. Proc. IRE, V.47, 28o, 1959.
Refs- 5, 6, and 7 an quoted above.
Card 6/14 SUBMITTED: March 22, 1960
25988
S/560/61/000/006/oo6/olo
E032/E114
AUTHORS: Gringauz, K.I., Bezrukikh, V.V., Ozerov, V.D., and
Rybehinskiy, R.Ye.
TITLE: A study of the interplanetary ionized gas, energetic
electrons and solar corpuscular emission using three-
electrode charged-particle traps on the second Soviet
cosmic rocket
PERIODICAL: Akademiya nauk SSSR. Iskusstvennyye sputniki Zeml-J.
No. 6. Moscow, 1961. pp,. 101-107
TEXT: This paper was first published In Doklady AN SSSR,
Vol-131, P.1301 (1960).
The first, second and third Soviet space rockets carried three-
electrode charged-particle traps. The most valuable data were
obtained with the second space rocket (12000 collector current
measurements). The present paper is therefore largely concerned
with the data obtained during the latter flight. The space rocket
which was fired in the direction of the moon on September 12 1959
carried equipment designed to measure interplanetary ionized gas,
electrons with energies in excess of 200 eV, and also the
corpuscular solar radiation. Four three-electrode traps were set
Card 1/7
25988
A study of the interplanetary ionized... S/56o/6l/ooo/oo6/oo6/oio
E032/Ell4
up on the su.rfac'e of the space probe and were located at the corners
of a tetrahedron inscribed into a sphere. Each trap consisted of a
hemispherical outer nickel grid (radius 30 MM) with a plane nickel
collector inside the grid. A plane tungsten grid was placed between
the collector and the outer grid. The arrangement 4S illustrated in
Fig.l. The potentials of the electrodes relative to the body of the
container were; collectors - (60-90) volts, inner grids (gl) -
200 volts, outer grids (g2) - 10, -5, 0 and + 13 volts respectively.
The main function of the inner grid was to suppress the photo-
electrons from the collectors which are ejected by ultraviolet solar
radiation, and to suppress the secondary electron emission due to
the bombardment of the collectors by electrons and protons. The
various potentials were applied to the outer grids in order to be
able to estimate the energy of positive particles and to differen-
tiate between current produced by protons of the interplanetary
stationary plasma (- I eV) and current due to protons in corpuscular
streams whose energies are higher by three orders of magnitude.
Electrons belonging to the stationary plasma, and solar corpuscular
streams with energies up to 25 eV do not give rise to a collector
Card 2/7
25988
A study of the interplanetary ionized... S/560/61/000/006/oo6/oio
E032/Ell4
current since they cannot overcome the retarding field due to the
potential difference between the inner and the outer grids. on the
other hand, electrons moving in the earth's magnetic trap (the
so-called outer radiation belt) do have sufficient energy to over-
come the field between the two grids and can give rise to a
negative collector current. The collector current amplifiers were
sufficient to transmit information about the magnitude of the
positive collector currents in the range 10-10- 50 x 10-10 amp and
negative collector currents in the range 10-10- 15 x 10-10 amp.
During its translational motion the container also performed
.complicated and rapid rotational motion. The angular position of
each trap was therefore subject to continuous variation giving rise
to oscillations in the collector current. This is illustrated in
Fig.2, which gives a plot of the collector currents as a function
of distance R (km) for the trap with Og2 = -10 volt. The maximim
and also the minimum values correspond to roughly the same
orientations. Thus, changes in the collector current which are
mainly due to the surrounding medium can be described by curves
passing through points corresponding to the successive maxima and
minima in the collector current. In this way, the rotation of the
Card 3/7
25
A studIy-of the interplanetary ionized..'e*3 5 o/6:L/ooo/oo6/oo6/oIO
E032,AE114
belong tolsolar corpuscular emission. These results therefore
constituted the first direct observation of corpuscular radiat.ilbn
outside the earth's magnetic field.
There are 4 figures and 5 reCerences: 3 Soviet and 2 non-Soviet.
.The English language reference reads as follows:
Ref.3., L. Bierman. The Observatory, V.77, 187, 1957.
r
.:Card 317~
GRINCUITZ. K. I.. BFOUMM, V. V., BAIXIMMA, S. IA.LOLMET~, V. D-, RITC-nom, R. Ye.
"Direct Obaervationa of Solar PlaBma Streams at a Distance of -l,q'Y9,oO3 12.'
from the Zarth on February 17, 1961, and Bimultancouc Obaervittlona oAI Ue
Geomagnetic Field"
Soviet Papcrrs Presented at Plenary Meetings of Committee on Space rcucarch
(COSPAP) and 7bird International Space Sumponium, Washington, D. C.,
23 Apr - 9 May 02
Is 22189-66 EpP(n)_2/EwA(h)/Kv?T(1)/=(f )/M*(z)/FCC IJP(0 N 'AT/GW
_'APC NP: AP6002857 SOURCE CODE: UR/0286/65/000/024/0006/0006
-AUTHOR: GriWsauz. K, I.; Bezr Akh, V. g~t,~rov Rybchinskiy, R. Ye.
ORG-., none
:TITLE: /plasma layer near the Earth7
-SOURCE: Byulleten' izobreteniy i tovarnykh znakov, no. 24, 1965, 6
TOPICTAGS; charged particle, plasma sheath, plasma density, plasma charged parti-I
cle, upper atmospheric radiation
ABSTRACT: This Author Certificate announces the establishment of the existence
(at heights of approximately.fro.m 2000-20,000 kilometers abovq-, __ surface of the
earth) of a previously unknown region of the earth's RAr92%sVe_aPtPh. This sheath
has an increased concentr ation of charged particlesF(in respect tothe interplane-
tar7 gas) which decreases with height. The magnitude of the negative gradients
~of the charged particle concentrations in the upper part oi this region consists of
some hundreds of particles in.1 (.-m3/joo0,km-.of height. The concentration near the
upper boundary of the.region doeis not-exceed 102 particles/cO. /Lnouncement of
Car
A 112
OZEROV, V.I. (Kiyev)
Thermoviscuelastic deformations of some polymers. Prild. mekh.
1 no.11:113-118 165. (IMM4 19 -. 1)
1. Institut mekhaniki AN UkrSSR. Submitted April 13, 1965.
T, 26C -a,& I-Vd -
52 -6 VI EM/M
10,05
ACUSSION, 14R:' AP5022217
UR/O-19B/65/qQ1/0P8/0100
.,.AUTHORS.* Van Fo Fy, G. A. (Kiev); Ozerov, V. 1. (Kiev)'
I TITIS~.- ~Viscoelastic deformationsy-of some -thermoreactive p2l_)LTaeraq,
-ISOU1 Frikladnaya melchanik 1, noo -105
RG
% 61 1965, 100
TOPIC TAGS: e?~astic deformation, viscous, f low) polymer, polymer rheology, epoxy
n Poisson coefficient
resi
ABSTRACT &cperimental and theoretical investigations were made to describe the
Viscoolastic deformation of soma thermoreactive polymers with maloic-opoxy bases.
wera done at 2 80K -temperature and undor~scvoral slowly varyine
I-The experiments
~j stresses. From a stresB-3train d~~i,,~am lie breaking point is f ound to bo 2191i.
to-2.5%, the yield strengbh cr 9 and E 9 -'1x3.lrX109
o
Newtox1r./m2. - A time-deformation curve for the polymer indicates t he (level opment
of inabantaneous-olautic oo and viscoulastic co dofor!wtionl). The vinoolAkatio
aE
Cr
dt.
;~c
arcl 1/2:
1!
DOTSMOt G.I. [Dotsenko, R.I.]; TOYT, S.K., kand.sellskokhoz.nauk;
0 ~.kand.sellskokhoz.nauk; TIKHOHOT, M.I., kBnd.
s51'ekokhoz.ua7uk; YAKZ, L.S., nauchnyy sotrudnik; TISEDWSKAMI,
T.G. (Tyahnevalks, T.H.1, na-achnn sotrudnik; KRATYUK, T.I.,
nauchn" sotrudnik; YAKOYMMO, M.S.. nauchnyy sotrudnik;
WIN, D.A., agronom; GALAT. B.F. (Halst, B.F.1, zootekhnik;
FMOTSKIY, O.M. Mtrovalkyi, O.H.I. red.; LIMABOYA. Hole,
takhn.red.
LKanagement system on a collective farm; the Dzerzhinskii
Artel, Sany Province] Systems vedeniis hospodarstva u'kolhospi;
artill imeni Dzer'zhyns'koho Sums'koi oblasti. Kharkiv, Kharkivs'ke
knyzhkove vyd-vo, 1960. 77 p. (MIRA 14:4)
1. Nachal'nik kolkhoza imeni Dzerzhinskogo, Sumskogo rayons.
Sanskoy oblesti (for Dotsenko).
(Sumy Province--Farm management)
VAN F-0 FY~ G.A.. (fivev.) S' 02/",ROV~ ".i- Ofli."rev)
L-
FlastovIsecus deformatIsrs of ES-InP- thermosez"ng p-,lym-rs.
Prikl. mekh. I no.8:100-105 165. (MIRP 1L"W))
1. Institut mpldianiki PN Uku-SSR.
BREM9 M.V.p 4otsentt red.; ITKINAp A.S.9 dotsent, red.; JWZLOVq L.A
dotsei~tp red.;.OZEROV9 V.K-.1 doteenty red.
[Problems in national economic planning] voprooy narodnokhoziaiotven-
nogo plani ovaniia; abornik Istatei. Redkollegiia; 14,kinal A.S.p Koz-
lovp L.A.9 Ozerovp V.K. Mom.va, Mosk. gos. ekon. in-tp 1958. .226 p.
(MIRA 14:8)
(Russia-Economic policy)
RILkOKHWOV# I.V*O kandaellskokhors.nauk; LOBANOV, G.A., kand.seliskokhoz.
nauk; HOVIKOV. A.A., )cand.sellskokhoz.nauk; MWANOV. S.N.,
kand.sellskokhoz.nsuk; CHISIM, V.N., kand.sellekokhoz.uenk;
,P~OV red*; IBYEVA, V.K., tekhn.red.
[Fruit calturel rlodovodstvo. Moskva, Gos.izd-vo sellkhoz.
lit-ry, 196o. 334 p. (MM 14:1)
1. ]iDuehno-issledovatellskiy Institut sadovodstva imen'i I.V.
Michurina (for Belokhonov, Lobanov, Novikov, Stepanov. Chigrin).
(Fruit cutilm)
OZEROV, V. 1. Cand Agri Sci - (disa) "To th3 Qiiezition on the Simul-
taneous Seeding-Fertilizing of Corn and Sugar Beets on Weakly
alkaline chernozem of Sumsk Oblast," Moscow, 1958p 19 pp., 150 copies
(All-Union Sci Res Institute of Fertili?.ers and Agricultural Soil Sci-
ence, All-Union Acaderq of Agricultural Sciences im V. I. Lenin)
(KL, 49/60, 128)
ZHUCHKOV N.G.t doktor sellkhoz. Tlaukv prof.; OZEROV V.N.., red.;
I somovA, N.H., tekhn. red.
(Specialized fruit culture] Chastnoe plodovodstvo. Moskva,
Sellkhozgiz, 1954- 438 P. (Fruit culture) (MIRk 16:8)
1.
~jr
MEDVRIZT, P.I.; BAIZZIN, S.A., professor, redaktor; OZEROV V.N.
redaktor: NOTSBYRNKO, D.G.. teklutcheskiy red;-ffo~r
[Pbysleal and colloid chomistry; brief oonrael Fizicheskala I
kolloiduaia khWia; kratkii kurs. Pod red. S.A.Balazina. Moskva.
Gone Izd-vo sellskokhoz. lit-ry, 1954. 271 P- * (MLRA 8:1)
(Colloids) (Chemistry, Physical and theoretic-al)
26 P
FIDOROV, Mikhail Vasillyevich, doktor biologicheakikh mm, , professor;
OZXWVV V~Nyl redaktor; BALLOD, A.I., tekhnichaskiy redaktor-,
7f.'6 takhaichaskly, redaktor.
(Microbiology] Mikrobiologiia. Izd.6-e, parer. Moskva, Gos.12d-vo
eel-,khoz. lit-rr. 1955. 437 P. (MLRA 8:12)
(Riorobiology)
ORIM, P.M., doktor takhnichaskikh naukt profeesor; OZKMDV, V.N., radakt=;
YgDOTOTA. A.?., takhnicheski7 redaktore ~#! -"rr
[Course in goodeor] Kura goodazii. 4-e. ispray. W. Y--,-4k-.a, Goes
izd-.vo aelkhos. lit-r7. 1955. 472 p; (Microfilm] (KM 815)
(Geodesy)
:*7i~8XYBMWV.11.1#;SHINYAYXYA, V.A., glavny7 metodist pavilion&; OZEROV, V.H..
. reaaktor; VISKOVA, Te.I.. tekhaichaskiy rediRktor
[The "Bee Culture" pavilion; a guidebook) Pavillon OPcholovodetyoffi;
puteyoditel's Hooky&, Go*. lzd-vo selkhos. lit-ry, 1956. 22 p.
I . (MA 9:12)
1. Moscow* Vessayuxnaya sel'skokhozysystvannoya vystavka. 1954.
2 Direirtar pavilions (for Yevoeyonkov)
(Hoscow-Bee culture7-lkhibitions)
BOGHKOV. Nikolay Vasillyevich, profeBsor, doktor okonovichaskikh naukj
P=HIN, P.H., doktor ekonomicheakikh nauk; SNEGIREV. M.A.,
kandidat sel'skokbozyaystvannykh nauk; SRUILPOY, Y.Y., doktor
istorichookikh nauk [deceased]; OZKROV, V.D., redaktor; RAT 0
A.I., tekhnicheakiy redaktor -du -w -S AmAer* --V F-. Fp6b&~Q
[The history of land relationships and the organization of land use]
Istoriia zemellnykh otnoshanit i zemloustroistva. Pod red. N.V.Boch--
kova. Moskva, Goo. izd-vo selkhoz. lit-ry, 1956. 247 P. (MLRA 9:8)
Uand tenure) (Agriculture)
SOKOIA)VSKIY. Aleksey Hikanorovich. akademik: OMOV, V.N.. redaktor;
'm' Y.I.111- . - I -
PV7 -it
FIRSHKOV, B.I., redaktor; . I t6khh-tche iy redaktor;
VISKOVA, YO.I., tekhaichaskiy redattor
[Agricultural soil science] Sallskokhoziaistvannos pochvovedenie.
Moskva, Goo. izd-vo sellkhoz. lit-ry. 1956. 335 P- (MLRA 10:3)
(Soils)
V"'- 'Z E R 6) -V~ V , Al
PUTOXHIN, Hikolay Ivanovich, prof essoro doktor khimichaskikh nauk;'2HROV.
V.N., redaktor; PZVZNBR, Y.I., takhnichookly redaktor
(Organic chemistr7l Organicheekaia khimiia. Moskva, Gos. izd-vo
sellkhoz. lit-ry. 1956. 384 p. (HIaA 10:2)
(Chemist.,tT. Organic)