SCIENTIFIC ABSTRACT YARIN, L.P. - YARKHO, A.
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CIA-RDP86-00513R001962120018-1
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RIF
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S
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100
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November 2, 2016
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18
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Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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AP606699
J
11
-FIX# L Siml4tion of IpLtion
:1 during flow along a haat*d surface
j Otte r
X.
DUSeem of wdels 1 - plate;
10
i2 slactrodest 3 - w&swriett else-
trades; 4 to-ad sources
b To coo-
-W* mpomura distrIbutiou and,
centrattwin the boundary layer
b during flow of reacting it" sloes
a heat'ad ~vdae*.
Fig. 2. Diagran ofolumUtim of flam stabilization
with a bluff body
.1 - zlectrod"; 2 - Mae "rim electrodes; 3 - bluff
.body;'4 -food sourcee
L 18058-66 w(i)4NEw!p~rm Z&nW1WA
ACC NR,7__XT6`666 T/EWA(l) VV1101OR
S01JRC8_ COOK;' ~65%A 0 0 00 3 9 710 3 9 8~
AUTHOR: ~ 1ershin, Sh. A.; P.
~OhG- Power Institute Aclj= -of Sciences SSSR (Inatitut.energetlki Akadeati nauk
TITLE: Transfer processes in turbulent jets in the presence of high-intensity
.,chemical reactions
SOURCE: Teplo- I massoperenos. t. II: Teplo- I maasoperenos pri vzatmodeystvii tel 8
potokami zhiCkostey I gazov (Heat and mass transfer. v. 2: Heat and mass transfer in
the interaction of bodies with liquid and gas flows). Minsk, Nauka I tekhnika, 1965,
392-398
TOPIC TAGS4 heat transfer, mass transfer, gas com buajLoj3,, turbulent jet
ABSTRACT: Results are pege ieoretical and experimental studies of the heat
ti
and mass transfer-in burnrin lent gas J&. A method is proposed for calculat-
Ing the turbulent Prandtl numb_er__oT_5-uFrn-T-ng-,--nTUff ---mixed gases In turbulent jets. It
~is based on the equivalent problem heat conduction theory (which describes the con-
tinuous deformation of the entire jet flow field) and on the linearization of bound-
sty layer equations and their reduction to nonsteady-state heat conduction (diffusion)
equations. The aerodynamicsnfa nonisothermal tUrbulent jet which develops In a con-
current flow and the aerodynamics of submerged and concurrent flames were studied
experimentally. The previously postulated aerodynamic theory of flames is based on
r-ard 1/2
L 16058-M
ACC M& AT6006925 -
the assumption that transfer processes in a turbulent jet and In a flame have a com-..
mon mechanism. This assumption Is nov confirmed by the experimental data obtained.
Analysis of the experimental data on diffusion flames showed that for the self-mod-
eling region of the flow, the turbulent Prandtl number to constant and is ecual to
0.751-0.8. This permits the calculation of the aerodynamics of a burning turbulent
jet using the dynamic problem data. Orig. art. has 4 figures, I table, and 4 formu-
Jose [PS)
SUB-CODE: 21/ SUBH DATE: .09Nov65/ ORIG REP: 0111. 0TH REP: 004/ ATD PRESS.,
-112
C
a
rd 2/2,5~
YER~OJHTN Sh.A.; YARIII, L.111
Diffusion flames, Pt-obl'. toplcenerg. i prikd. tAploflz, rx.1:102-2139
1646 ..
Thermal conditions of a turbulent gaa flame. lbld,1140-147
GqIRA 11818)
Vi
YERSHIN, Sh.A. 1Alma-At-a);_.YAJIIN,j.P, (Alma-Ata)
diffil-I've ccmb-iist'lon in the turl:%:1,~nt. of
a *.omprp3sibli~,. gas. Na-,::-;,n.-tv,.kh. probl. gor. i v-.:ryvFi rto..Is
52-58 1650 (MITU. l8gq)t
~F (c )/T/FC-
ACC NR, AP5D2657_2 SOURCE CODE: U-RTOT4_0_5T6~7/01)(i
Ae
'A/ t
AV,
'AUTHOR: YershIn Sh. .(Alma-Ata) ;_~L~in (Alma-Ata)
~k C~
ORG: none
OR(
F
TITM. . Difruoional combustion n the lamin r
SOURCE: Nauchno-tekhnicheskiye problen-V goreniya i vzryva, no. 2, 1965, 101-105
TOPIC TAGS: combuntion.-diffusion flame, dirfusional combustion-
-An an f the combustion process taklpg place In the laminar
--ABSTRACT.,.. _4y~is~ was made o
boundary layer fom::d by concurrent, plane~-parallel-,- oxldizerl4nd fuel jets floving-
at different velocities. Solution of the system of equations yielded tem-perature,
density, velocity, and momentum profiles in the flwe zone. 'Me momentum profile ha4
a pronounced minimum which is attributed to the presence of the flame front. In an
isobaric flow, the flame front causes a sharp change in the density field, while the
velocity field changes only slightly. A similar minimum may Alpo beJxpected to- ax-&-.-
ist., in a, turbulent boundary layer. Orig. art. has: 0 formulas 'andp figureu,'. [pill
SUB CODE: 1FP0 W/SUBM DATE: 2~ffovA/. ~ORIG REF: oo4/ OTH REF: 001/:' ATD FRESS:Z11Y
UDC-- 536.46
Card
YARIN, L.P.; UNIN, L.S.
Method for determining lightness nnd failing rate. Dokl.Akad.sellkhoz.
22 no..9:44-48 15?. (MIRA 10:9)
1. Kazakhakiy nauchao-ineledovntel'skiy iastitut mekhAnizatsii I
elektrifikateii sallskogo Ichocypystva. ProdatnvlenA akedemikom
V.A. Zhellgovskim. (Grain-Cloaning)
YARIN, S. I.
Momentum distribution of the quantity of motion in statistical
atomic models. Zhur. eksp I teor. fiz. 28 no.4:498-501 A 155.
8:6
1. flookovskiy goaudaretvannyy univerettet.
(Nuclear physics)
89763
-3- 1P 0 S11691611000100210161039
% 1,000 rAlro /a JU) A0051AOOI
Translation from: Referativnyy zhurnal, Geofizika, 1961, No. 2, P. 32JV' # 2G238
AUTHOR: Yarin, V. 1.
TITLE: Radar Reflections From Aurora and Their Connection With Magnetic
Disturbances
PERIODICAL: V sb.: "Spektr.. elektrofotometr. i radiolokats. issled. polyarn.
siyaniy i svecheniya nochnogo neba!'. No. 2-3. Moscow, AN SSSR, 1960,
PP. 37-41 (English summary)
TEXT:` Results of observations of reflections from aurora at the frequency of
73 Me are presented, which were conducted at Yakutsk from May to December 1958
according to the program of ICFY. The recording of the reflections was conducted
with intervals of 15 minutes, when reflections or visible forms of aurora did not
take place, and continuously when the latter existed. The observation data showed
that about 9S%* of the reflections observed have a diffuse form, and about 1% are
of discrete form. Reflections of the "running" type were observed not one. The
diurnal course of probability of reflections appearance has two maxima: one at
3-5 o'clock, the other at 17-19 o'clock of local time. The daily maximum is
Card 1/3
311691611000100210161039
A005/AO01
Radar Reflections From Aurora and Their Connection With Magnetic Disturbances
intensely developed in summer time,and almost entirely absent at equinox and in
winter. In contrast to the diurnal probability distribution of appearance of
weak and moderate signals, which has two maxima, the distribution of intense
reflections has one maximum in morning. The analysis of the spatial distribution
of reflections shows that the latter chiefly arrive from the northern quadrant
with the tendency of concentrating somewhat to North-East. Two maxima are
observed in the distribution by inclined distances: the main maximum at 800-900
km, and the second one at 450-550 km, the second maximum appears only during the
coronal form of the aurora. The study of the correlation between the appearance
of reflections from. aurora and the magnetic activity showed that, apparently, a
sufficiently clear mutual correlation exists between them, which manifests itself
in the similarity of both diurnal and seasonal regularities. The comparison of
the diurnal observations of radioreflections and magnetic activity shows that the
appearance of the evening maximum of reflections In Yakutsk was caused by the
development of the evening magnetic disturbance (at 16-17 o'clock'of local time),
The main number of events of appearance of reflections relates to the negative .
deviations of the horizontal component of the magnetic field (H) from the normal
Card 2/3
-J"i
89763
3116916-1101U;1W210161039
A005/AOOI
Radar Reflections From Aurora and Their Connection With Magnetic Disturbances
value (82% of the total number of events). The comparison of intensities of the
received signals (according to the signal-to-noise ratio) for the various disturb-
ances shows that the average intensity of the signals depends on the kind of
disturbance (positive or negative). During negative disturbances, the level of
the received signals changes strongly, and the reflections proceed usually by
"bursts".'
L, Yerasova
Translatorts note: This is the full translation of the ogirinal Russian abstract.
Card 3/3
AUTHOR:
TITLE:
34148
S/169/62/000/001/076/083
D228/1)302
Yarin, V. 1.
OH emission according to observations at Yakutsk
PERIODICAL: Referativnyy zhurnalt Geofizika, no. 1, 1962v 20, ab-
stract 1G147 (V ab. Spektr., elektrofotometr. i ra-
diolokats. issled. polyarn. siyaniy i svecheniya nochn,
neba, no, 5, M., AN SSSRI 1961, 10-17)
TEXT: Auroral and airglow observations, made near Yakutsk in accor-
dance with the IGY program, are described. Spectra of the airglow
in the spectral regions 4200 - 5600 and 5500 - 6700 R were obtained
by means of a CII-qg(SP-48) spectrograph. The OH bands (5.0), (6.0),
(6.1), (7.1), (8.2)~ (9.2), and (9.3) are clearly visible on these
spectra in addition to the main emissions( [0115577, LPIJ630O and
6364, Na 5890 R); the bands of the Hertzberg molecule 01 can also
be observed. Application of photocontazttubes for photography
Card 1/4
34148
S/169/62/000/001/076/083
OH emission according ... D228/D302
in the infrared region allowed the spectra of airglow in the 8500 -
10600 R region, where the OH bands (7,3), (B-4), 3-0) (9,,5), and
(4.1) were observed, to be obtained on a Cfl-SO (SP-50~ upectro-
graph. The spectrographs were pointed northwards at an angle of 300
to the horizontal. The survey was conducted with exposures of 1 - 4
hrs. Absolute OH-band intensities (in rayleighs) for an OH rotary
temperature of about 2500K were obtained after processing the spec-
trograms. The rotary temperature was determined from the OH bands
(8.2)9 (5.0)~ (9-3), (6.1), (8.4), and (4.1) by using the branches
Pq p, Q, and R. Analysis of the curve of the OH-band intensity
(9.3) dependence on the rotary temperature shows that the data cor-
responding to rotary temperatures of above 2500K testify to the re-
lationship of the emission intensity of the OH bands to the tempe-
rature. The data corresponding to rotary temperatures of below
2500K do not most probably conform to such a relationshi If the
hydroxyl emission, whose rotary temperature is above 2509k, arises
as a result of the ozone-hydrogen reaction, then the concentration
obtained through this reaction is determined by the expression:
Card 2/4
1:4:
34348
3/169/62/000/001/076/083
OH emisaion according D228/D302
n = k [H]; where n is the number of pairs of finite products
1031 3/sec,
formed in I cm E031 and EH] are 3the concentrations of ozone
molecules and hydrogen atoms in I cm , and k is the coefficient of
the reaction velocity. The OH-band intensity is proportional. to ri.
This reaction may, therefore, explain the -the dependence of the
intensity of the OH bands on their rotary temperature. The addi-
tional change of the OH bands is also caused by the variation in
the concentration of 0 3 and H. The absence of the temperature re-
lationship of the OH-emission intensity for rotary temperatures of
below 5000K indicates another mechanism for the formation of hy-
droxyl radiation. One possible mechanism may be the oxygen-hydro-
gen reaction, according to which the intensity of OH-band emission.
is weakly related to the rotary temperature. An attempt was made
to determine from the processed data seasonal variations in the
intensity and rotary temperature of OH. Comparison of the rotary
temperature of OH with the temperature of the near-surface atmo-
spheric layer at Yakutsk shows that the ocaeonal course of the
mean values of these quantities has an opposite variational ten-
Card 3/4
34146
8/16 62/000/001/076/083
OH emission according D228YD302
dency. The obtained data also allow small variations in the OH ro-
tary temperature to be traced in the course of one night. Z-Ab-
stractor's note: Complete translation._7
Card 4/4
AUTHORS:
TITLE:
S/169/62/000/0014/076/083
D228/D302
Shefov, N. N. and_xq_=__
The dependence of the rotary temperature of OH o,.,. the
latitude
PERIODICAL: Referativnyy zhurnal, Geofizika, no. 1, 19621 22, ab-
stract 1G157 (V sb. Spektr., elektrofotometr, i radio-
lokats. issled. polyarn. siyaniy i svecheniya nochr.
neba, no. 5, M., AN SSSR, 1961, 25-28)
TEXT: A table is given which contains data on the rotary tempe-,
rature of OH bands in the airglow spectrum obtained by different
investigations. The coordinates of the observation posts, the
sighting direction, the period of observations, the spectral re-
gion, the mean temperature value, the divergence from the average
value, and the absolute error are presented in the table. The epec-
tral region refers only to those bands which were used for deter-
mining the rotary temperature. Analysis of the tabulated data in-
dicates the obvious tendency for the temperature to grow with the
Card 112
S/169/62/000/001/078/083
The dependence of ... D228/D302
increase of latitude in the northern hemisphere. For the southern
hemisphere there is as yet only one determination of the rotary
temperature of OH bands. The processed data about OH emi-ssion In-
clude several simultaneous observations at Zvenigorod and YakutBk.
Intensities of the OH band (9.3) and rotary temperatures for pur-
poses of comparison are inserted in the table, The average valueg
of the intensity and rotary temperature according to several ex-
posurea at night are cited for Yakutsk. 19 references. Z'-Abstrac--
tor's note; Complete translation,_7
Card 2/2
7777777777777~~
343149
S/169/62/000/001/077/083
-3, D228/D302
AUTHOR:
TITLE: Diurnal and seasonal variations of radioreflections
from auroras
PERIODICAL; Referativnyy zhurnal, Geofizika, no. 1, 19629 20-21,
abstract 1G148 (V 6b. Spektr., elektrofotometr. i ra-
diolokats. issled. polyarn. siyaniy i svecheniya nochn.
neba, no. 5, M., AN SSSR, 1961, 56-59)
TEXT: Radiolocation observations of auroras near Yakutsk 51
A = 193.80) in accordance with the IGY program are describe A
frequency of 72 mc/s was used in the investigations. The results
of investigations on the 72-mc/a frequency, obtained for the period
from May 1958 to April 1960, are given. The diurnal variation of
the frequency of %"he appearance of reflections from auroras was ob_
tained summarily for the period of observations. The frequency of
the appearance of reflected signals was determined by calculating
the quantity for a time interval equal to 15 min. Then the data
Card 1/3
Diurnal and seasonal ...
34149
S/16 62/000/001/077/083
D228YD302
for each hour were summed up for all the days of each month of
observations. Two maxima one in the evening at 17 - 22 hrs, the
other in the morning at 1 4 hrs -- are observed in the diurnal
variation. The evening reflections are related to quiet aurora. 3-
forms and are accompanied by positive magnetic disturbances. They
appear at ranges of 900 - 1200 km with a small amplitude and then
according to the measure of the increase in the intensity of the
signals received, approximate to ranges of 500 - 700 km. A reverce
phenomenon is sometimes observed as the intensity of the reflected
signals decreases. This shift in the range of the signals received
testifies to the movement of the reflecting regions in a north-
aouth direction , The aouthwards movement is, thereby, accompanied
by the increage in the intenuity of the reflected aignula, but tli,~~
northwards movement is accompanied by their decrease, The morning
reflections are related to mobile auroral forms and are accompanied
by negative magnetic disturbances. At this time the movemenz of
the reflecting regions is indefinite. The omaller rangea of the re-
flecting regions, however, correspond to very intense reflectlon8.
Card 2/3
Diurnal and seasonal
34]J49
S/169/62/000/001/077/083
]j228/D302
The reflections in the morning hours often follow "flares", i.e.
t1ransitory increases are observed in the intensity of the signals
received. The intensity thereby increases ten-fold. The reduction
in the level of the signal takes place more slowly than its In-
crease. The reflections sometimes totally disappear during bright
radial forms of auroras after the signal's sudden amplification.
This abrupt disappearance of the signal may, evidently, be explai-,
ned by the strengthened absorption of radiowaves during radiant
auroral forms at the expense of roentgen radiation. The diurnal -~a-
riations of the evening and morning reflections differ for diffe-
rent seasons. The seasonal variations in the frequency of the ap-
pearance of reflections from auroras indicate that the activity
of the reflections has four clearly expressed maxima belonging to
the periods of the equinox and the solstice. Z-Abstract-or's note;
Complete transiation.-7
Card 3/3
771_1
41180
3/169/62/000/009/107/120
.57 7- 0 D228/D307
AUTHOR: Yarin, V. I.
TITLB: Dependence of the OH band intensity on the rotation
temperature
PERIODIGALt Referativnyy zhurnall Geofizika, no. 9, 1962p 14, abL
stract 9G121 (In. c'ollectiont Polyarn. aiyaniya i eve-
cheniye nochn. neba,* no. 8, M., AN SZ;SRp 1962, 9-10
(eummdu in Eng.
TEXT: The relation'between the total intensity OH (91 ~) and its
"rotational temperature, which was revealed -in spectral.observatio#
materials obtained in the'IGY period at Yakutaki,was checked'from
the data of 1960-1961. The relations of the intefisities of.bands'
with different 'initial oscillatory levels to their corresponding
rotational temperatures are presented. The relation, previously
'detected ~,RZhGeofiz, 1962, 1G147) for the OH-molecule band (9, 3),'
remains for the 1960-1961 data and becomes less distinct for bands
with low oscillatory levels. There is a tendency for the rotatio-
Card 1/2
-)e- S/ G 9 /-5 'a lo oo. loo t /v 7 6.14M
3/169/62/000/009/107/120
Dependence of the
D228/ 307
nal temperature of OH bands'to decrease as the initial ose
illatory
level falls This rotationaltemperature difference for bande'with
VI = 3 and ~ reaches several score degrees. Z-Abstracter's notes
Complete tranalation.-7
Card 2/2
7"
jif
D26.5/D307
1"arin
The Zligi-1,5200 cmission necording, to ob-scrvztions
at Y,-Icutsk
i-n
Gaofiziha, no. 3, 1963, 31,
-ferativyy -hi-, al ,
abstract 3~U79 (In collection: Polyzirn. siy--IiYa i
sveciieniyc nochn. noba. no. 9, -111 19052,
53-34 (,7-ag.
Yhe author roports results of obscrvatioas of noctur-
nal sky radiation and, of polar carried out zt Yahutsl~ in jan-
-T
m-e-mir, O'l tL Cil -43 (SII-48) s-.-jectrogr "'a po-L-ititlcL north-
.1 1960 by 1)
wards at 300 to the iulorizon. In 11 caocn 'out oil- 23 the 5200 - fz-,-~L7
c-mission was observed i-Ahen the 3914..-., 4-278., and 4709-:-L 11'3119"' CM3.s-
sio-tis cLiaracteri--tic o-ff -,)o'Lar -Um %..are c.L~scnt avid tic z;CoE-iaguetic
L. J- L L
field was uitdisCurbed The minimuri rz;cordcd i-Xcnsity o" "ic -520G.,
zT1 17 eraission was 3 rayleighs. curvo is givctL oil thc varia-
- t' -y of the 520041. $.- 'r -,
.tion of .,,.a i-n t e n s i /14!7emission thzoaug~~,.oul -'a
Card 1/2
.~;/169/63/000/003/00C/042
T lie f17.f ~, 5200A emis"-ion ... .)263/.d3D7
-' I - zr-, 211
n 1 I-atensity of the .52M~ emission is COT,-,?ared -'ith r,
amplitudes of the horizontal com -ponctit of' the tcrveotxia! mcc,m- 'Lic
L 0
field (data :Proum the -magnatic observatory at Yahutr-h), aud with t"Ie
electron d!2nsity of the layer n- (da-ta from the ionosphcric ntatioll
at Y.-I-cutsk) No clear connection was fou-nd bctween tho il-tenziLty
of the 5200,~ 6,,!7 emission --nd the intensities of Gcrtsbcr'o uh- a-,Id
0.2 barids.
bstracter's note: Complete translation-7
C ard 2/2
KUZIMIN, A.I.; SHAM, G.V.1 SPAJM, Yu.G.; KRASILINIKOV) D.D.;
KRYI4SK-IY, G.F.; IAAMKOV, A.P.; SMIRNOVp
July 1959 according to data of comprehensive geophysical
observations at Yakutsk. 'Trudy IAFAN SSSR. Ser. fiz. no./+:W-156
Iw (Magnetic storms) (MMA 15:12)
(Cosmic rays)
YARIN, V. N.
Yarin, V. N. "Tables for the designing of extracaritrally compressed re-
inforced. concrete members," Sloornik trudov (Kiyevsk. Jnzh.-strolt. In-t),
Issue 8, p. 245-63
SO: U-3850, 16 Junt 53, (Letopi.5 'Zhurnal Inylh Statey, No. 5, 1949).
YARIN. V.V. zacluzhennyy dayatell nauki i tekhniki, profeasor; ULITSKIY, I.I.,
Icandi t tekhnicheakikh nauk.
,Thin-walled construction of reinforced concrete aqueduct bridges. Mr.
etroi. 232 no-5:21-24 My 153. (W-RA 6:6)
(Canal aqueducts)
~W
4N, I "Q~
V.11., professor, saaluLhannyy dayatell nauki i takhniki USSR:
"~7VKIN' S.A., kAndidat takhnichookikh nauk.
Joints for prefabricated reinforced concrete columns. Strol.pron. 32
no.8:47 Ag 154. (KLRA 7:8)
(Columns, Concrete)
-,A
MIN. V., 4ofessor, zaali)zhenny7 deyatell nauki i tekhniki; ULITSKIY, I.,
""""*O'fthdidat takhnicheakikh nauk; RIVXU, So, kandidat tekhnicheskikh
nauk,
Precast reinforced conorotellarge janel roofs for agricultural buildings.
Sellostroi.10 no,2:15-17 F 155, (K= 8:4)
(Parm buildings) (Ro4e, Concrete)
a
YARIN~V' . zasluzhennyy dayatell nauki i takhniki USSR, professori
4MN,, S.A. , kandidat tekbnicheskikh nauk.
Design of precast reinforced concrete frame elements for
apirtment houses. Nov. v stroi. tekh. no-7:5-13 155. (MLRA 9:11)
1. Kiyovskly insbanerno-stroitellmyy institut.
,(Precast conerete.construction)
4-
P
professor. saslushannyy dayatell nauki I takhniki
Ukrainskoy SSR; ULITSKIT. I.L. kandidat takhnichaskikh nauk,
dotsent; LIBIRMN, A.D.. kandid&t tekhnichaskikb nauk;
RUSIIUV. I.A.. kandidat takhnichaskikh nank.
.Experimental investigation of reinforced-concrete sloped
double-camber panels. Nov. v stroi. tekh. no-7:37-69 '55.
(MLRA 9:11)
1. Kiyevskiy inzhanerno-stroitellnyy institut i UkrMII8 MG
i SS USSR.
(Precast concrete construction)
nn
ROXHLIN. Illya Aleksandrovichi kandidat takhnichookikh nauk; -TA- JIT 'f
professort zaaluzhemyy deyatell nauki. J tekhnikig red-aktor;
KIITA VSKIY, F., redaktor; ZILENKOVA. To., tekhnichaskiy redaktor
ECalculations for c"airamic construction elements] Raschat keramichan-
kikh konstruktati. Pod red. V.N.Tarina, Kiev, Goa. izd-vo lit-ry
po stroit. i arkbitekture USSR, 1956. 288 p. (MLRA 9:12)
(Ceramic materials)
61,
SOV/97-58-12-3/13
AUTHORS: Yarin, V.N., Member of ASIA Ukrainian 83R, Professor;
r--RT7k1n1;--S.A., Candidate of Technical Sciences; and
Korshunov, D.A., Pereyaslavttev, N.A. and Kisiliyor,
M.I., Engineers.
TITLE: Use of Precast Large-Block Reinforced Concrete
Foundations Under Columns of the Main Building of
Simferopol' GRES (Opyt primeneniya abornykh
krupnobloohnykh zhelezobetonnykh fundamentov od
kolonny glavnogo korpusa Simferopollskoy WES~-
PERIODICAL:
ABSTRACT:
Card V3
Beton i Zhelezobeton, 1958, Nr.12, pp.449-453 (USSR)
Engineers N.A. Pereyaslavtsev and M.I. Kisilier,
of theXi~ev Drqmch of Teploelektroproyekt, designed
a now type of precast larSe-blook reinforced concrete
foundation as illustrated in Fig.l. These new
foundation slabs were tested by the Ki3rev -atmaurail
Engineering Institute .(Kiyevskiy)inzhenerno-stroitellny-y
institut),Kiyaw Dranch of Tep.Loeloktroproyakt and by
Yuzhenergostroy (Engineers I.F. Piahohikp YupA. Vollters
and S.K. Przhiyalgovakiy). The foundation blocks were
`4'
SOV/97-58-12-3/13
~ae-of Precast Large-Block Reinforced Concrete Foundations Under
Columns of the Main Building of Simferopol': GRES.
Oard.2/3
designed to carry 500 t positioned centrallyt they
measure 5.2-, x 3.5 in and weigh 15.7 t. The weight of
the saddle is 10*6 t. Concrete of mark 300 was used, with
reinforcement from hot rolled steel of standard profile me k
25G23. Fig.2 illustrates the points which were taken into
account in testing, The foundations were tested b a load
gradually increasing by 0o5-1 kg/Om2) up to the bretking
limit. Table 1 gives values obtained during testihg: Fig.
3 illustrates the character of cracks which appeared, and
Fig.4 shows the deformation of the foundation slab. Fig.
5 Illustrates the method onwhich the calculation of-the
foundation is based: formula for the bending moment of the
loaded foundation is presented and explained, The calculation
of the foundation for shear stresses is carried out according
to NiTU 123-55. The following recommendations are given
for the construction of precast foundations: the concrete
should not be of lower mark than 200; to save steel the
size of the saddle should be bigger; account should be taken
of the shear stressesand the necessity for stirrups and
SOV/97-58-12-3/13'
Use.of Precast Large-Block Reinforced Concrete Foundations Under
Columns of the Main Building of Simferopol' URF.S.
Card 3/3
bonds obviated) the recess in the foundation housing
the beam should have walls not less than 300 mm thick;
the reinforcement of the slab should be carried through
the whole of its length, as should also the reinforcement
of the saddle. The results of the above tests wer.6 taken
Into account in designing the precast large-block reinforced
concrete construction under the columns of the Simferopol'
GRES (see Fig.6). Assembly was carried out by the-
Donbassenorgostroy of the Ministry of Building of the
Ukrainian SSR (Ministerstvo stroitellstva USSR). The
foundations were produced by the "Stroydetall" factory.
Assembly was carried out by cranes BK-403 and BK-406p of
40 t capacity. Assembly of 70 foundation slabs with a
total volume of 1066 m3 of reinforced concrete was carried
out in 15 days. Table 2 gives values indicating labour
requirements. There are 6 figures and 2 tables.
SHOLINA, I., Inzhanerl YARINA G
Voing Urge brick blocks. Stroitall 2 no*7tlD-12 JI 056.
lo.Instruktor Ukrainakogo filiala inatitut#L Orgetroy Minmstallurg~
khimatroya.SSSR, (for tarinm).
(Buil4ing blocks)
M7 suggestions. Stroitell no.7:10 Jl 158. (MIRA 11:9)
(Precant concrete construction)
YARIML, L,
Juice of the seabuckthorn beM. Hauka i zhlznl 22 no.1:28
Ja'55- (Buckthorn) MU 8: 2)
Y ~
gR -*'l
RO
ACC NRi AP6019395 SOURCE CODEs UR/bo25/65/ooo/bo4Jb078/0O78
AUTHOR; Yarinap L9
Oflar none
TITIE& Now drugs
Nauka i zhizn1,q no* ho 19651 78
SOURCES
TOPIC TAGSs drug treatmentp hurnan ailmntp r7ology
~:--ADSTRACTt This-brief article describes Vipraxins-derived from -viper -veno.6
It Is Injected subcutaneously for diseases of tho joints# muscles* poly- i
arthri.ist and myositia.'-It Is-indicated only for cases in which the
'disease is not accompanied by elevated temperature it is .- contIraindicatedf
~for liver disease and In persons with a tendency toward angtospasm.
Vipraxin is generally well tolerated by patients. Injection of the
t
,substance may be accompanied.by a transient burning sensation* I
',diminishes pain and joint stiffness# It has a:marked.analgesic effect in'
myos I ti a*
-Although vipraxin may exacerbate the diseases the inj actions, are con-
1he exacerbation Ides..VW
1-tinued but-.at, longer.'IRteryalse, quickly_ subs
SUB comt o6 SUBM DAMt nbne
AAI
Card C_
lit
YARINA. L.M.. vrach.
on vv-~4,e
Beeswax. Zdorovle 2 no.1:29 Ja 156.
(BMSWAX)
NISA 90)
A"
4 OM N pli ql_~M~2 P4'l,,.7gFzU
~j
YIWIMOVA, A.A., kand.med.nauk; KAKAROV, N.Y.; VASILIYXV, A.V., vrach; YA&RLA,--
L.yj, vrach; POLIXARPOVA, M.G., vrach-koometolog; FOMY, I.P.-,-Im-nd.
-661.mauk; SUBBOTINA, G.I., vrach
Advice from 'Zdorovlo*. Zdorovle 3 no.12:28-29 1) 157. (MIRA 11:1)
(HYGIVbW)
YARINA, O.A.
Method for fast biochemicLI identification of Escherichla coli.
Nauch. soob. IAFAIJ SSSR no-5:117-120 161. (MIRA 14:12)
(ESCHERICHIA COLI). (BACTERIOLOGY-TWINIQUE)
MEYZRDV, M.V.; SEMENOV. I.B.; YARINA,,V.Z. (Moskva).
Design of a contact frequency converter for automatic control of
Induction motors (with summary in English]. Avtom. I telem. 20
no.1:45-53 Ja '59. (MIRA 12:1)
(Frequency changers) (Electric motors, Induction)
S/o24/6o/ooo/oi/oi5/o28
AUTHORS: Petelin, D,P* and Yarina, f.2YE?nscow)
I
,.TITLE: A Synchronous Mot i..with Valve-contact Field Control
v%
PERIODICAL: Izvestiya Akademlli nauk SSSR, Otdeleniye tekhnicheskikh
nauk, Energetika i avtomatika, 1960, Nr 1, pp 126-130 (USSR)
ABSTRACT: Synchronous motor drives usually include two machines,
the synchronous motor proper and the exciter. The use of
a machine as exciter makes the set expensive, impairs
reliability and makes automatic control of the field more
difficult. Recently, considerable attention has been
paid to synchronous motors without machine exciters, LL-1
particularly the small motors where the exciter is com-
mensurate with the main machine in size and cost. An
article by Semenov and Yarina'published in Avtomatika i
telemekhanika, 1959, Nr 8. described a new system of
exciting a synchronous motor by a contact-breaker and
rectifier combination incorporating semiconductor diodes.
In the present state of rectifier development this type
of excitation may be used on synchronous motors of up to
100 kW; it adjusts the motor field according to the load
Cardl/5 on the shaft.
K
S/024/6o/oOO/01/015/028
A Synchronous Motor with Valve-contact FizelP~�Woi
The contact-breaker and rectifier combination work on
the following principle: a semiconductor diode is in
series with synchronously-operated contacts and behaves
as a controlled rectifier, the contacts fulfilling the
role of the control grid. The rectified voltage is
controlled by displacing the instant of closure of the
contacts. They are normally closed and are opened at an
instant when the rectifier is not carrying current so that
the contact system Is very reliable. It may comprise a
synchronously rotating ring, with conducting and
insulating segments and a stationary brush. This con-
struction was used forautomatic field control of
synchronous machines. The length of the respective
segments depends on the rectification circuit and the
synchronous speed of the machine. Thus, for a three-phase
full-wave bridge re,.;tification circuit and a motor speed
of 3 000 rpm, the circuit had two rings and a contact
arrangement as illustrated in Figure 1. With the same
Card2/5 circuit and a speed of 1 500 rpm, the multi-segment ring
s/o24/6o/ooo/oi/ol5/028
A Synchronous Motor with Valve-contact EMM3~9ntrol
shown in Figure 2 was used. In three-phase bridge
rectification the commutation angle may be determined
from the expression (1).
As will be seen from Figure 1, the field winding of the
Synchronous machine is supplied from two sources, an
.-Uncontrolled ar' a controlled rectifier. Whilst the motor
is being started and until it is synchronised the field
winding is supplied from the uncontrolled rectifier. When
the machine reaches synchronous speed the brushes of the
controlled rectifier are so positioned that an increase
in the load on the shaft and so in the load angle, increases
the voltage on the motor field winding. The controlled
field supply is then connected and the uncontrolled
rectifier disconnected. The voltage of the uncontrolled
rectifier is selected according to the no-load
characteristics of the motor. The conditions of stable
operAtion are given by Eq (2), the solution of which gives
the upper limit of synchronous motor field current.
In a mixed field synchronous motor whose field is controlled
Card3/5 according to the stator current, the control does not
s/o24/6o/ooo/oi/oi5/o28
Zj9k_Eja5C
A Synchronous Motor with Valve-contac e ontvol
Card4/5
directly correspond to changes in load on the shaft,
whereas in the present scheme the field is varied
directly as the load angle. This offers the possibility
of improved field control of synchronous motors driving
variable loads. Starting of the motor is then described.
The controlled and the uncontrolled rectifiers may both
be supplied from one tapped stepdown transformer.
An analysis is then made of the operating conditions of
a cylindrical-rotor synchronous motor with field control Of�
the kind described. The mean value of rectified current
depends on the control angle and is determined by
Formula (3). The law of field control as a function of
load angle may be expressed in relative units in the form
of expression (4) or expression (5). This law of field
control is then easily expressed as a function of the load
on a shaft and Eq (7) characterises the aw. of motor
field control as a function of load wheuial contact-
breaker and rectifier combination. Eq (9) may be used
tocalculate the reactive power of the motor for a given
shaft output and to determine the power factor at different
S/024/60/000/01/015/028
A Synchronous Motor with Valve-contact Fiel�18040M
loads. It will be seen that with this method of field
contvol the overload capacity of the motor increases with
increase in the load on the shaft, thus ensuring a reserve
of static stabililty.
A field controller of this type was built in the laboratory
and brief details are given. Experimental investigations
confirm the correctness of the above analyses. The
operating characteristics of a synchronous motor without
field control and with the new field control are plotted
in Figure 3- It will be seen that the new type of excitation
makes better use of the motor torque and ensdres stable
operation during sudden changes of load. The scheme is
simple and reliable. There are 3 figures and 3 Soviet
references.
SUBMITTED: November 25, 1959
Card 515
80=OVr kild; YIJLMAp Til*.
Pbuder pattorn of rbonlm hoiAaddoo nnxly ls7IUIY no.P-O(ItU2-
U5 F651 WIM 28:3-1)
YARINOVSKAYA. Aelita Leonidovna; SABASMIIKOVA) Ye.S., red*
.[Lenses for motion-picture cameras and the qualit7 of
the image] Kinofotoobllektivy i kachestvo izobrazheniia.
Moskva, Iskusstvo, 1965. 199 p. (MIRA 18:7)
YARINOVSKAYAt A.L.
qua.Uty of cinematographic lenves b7 the criterion shdrF-
none; 4utborla abstract. Usp.nauch.fct. 30142--43 64.
AMIRA 17310)
13ATYR., Dmitriy Grigorlyevich, kand. khIm. naukj ABLOV, A.V... akad.,
red.; YARINKOVSKly,-~4., red.; SUBTUI, D.A., tekhn,red.
bluesian-Moldavim chemical dictionary] Rluosko-moldavakii
khimicheskii slovarl. Kishinev, GosAzd-vo "Kartia moldo-
veniaske," 1963. 353 p. (MIRA 16:12)
(Cilemistry-Dictionaries)
(Russian languago-Diationaries-41oldavian)
TARINOVS]UTA, A., insh.
Photegraphig objective and Its chArac teris ties. Sov. fists 19 no*2:30-32
F '59. (XIDA 12:3)
(Photographic optics)
-
Y,ARINOVSKAYA, A.
.6. , -,, ,
z~ , '. - -,y
4
What is a teloobjective? Sov. f0to 19 no.6:39 Je 139.
(MIRA 12469)
. (Telophotographr)
i
4
ROMAMV, I.; TARINOVSKATA, A,
Optics of portrait photography. Sov.foto 19 n0-7:41-46 JI 159-
(MIRA 12: 11
(Photographic optics)
(Photography---Portraito)
KRUGLYAKOV, 1.0., kand. zmed. nauk: YARD~,
Y-ray examination of th~~, mz.-5.- fun.-Aon of t"Ine
j
.&n its flexions and constrictionii, Sov. mod, 28 m,,40'.80-83
0 165. k%WRA4 !8!11.)
1. Rafedra rentg6nologlf I raciAolog-A (,!av.-. prof.
I&Indrjnb-.-awr,) I Maskovskugo ord-!:na -'.en!ra mvdltsln.~krg;~
Ana~,Jtuta Imeni Seohanwia.
YAR
Calculating yarn warping for mmhines vith a Sh-608 bobbin holder.
Tekst. prom. 23 no.9:62-65 S 163. (MM 16 t 10)
1, Starshiy master Kamyshinakogo khlopchatobumazhnogo kombinata.
(Varping machines)
7-
ACC Ms' AT6028969 SO U I (CH,ICODL: UR/00 00 /65/000/000/0.08410090
AUTHOR:,. Boyko, A. I.; Yarishj,, M. S.
OR G Western Ukrainian Geophysical Prospecting Zxpeditio`n~~ of the
Urreo*L'4i,.,ra,,,.vcd1ca Trunt (Zapadno-Ukrainokaya geofizichcokaya' raz,vedoch-
naya a1(Gpcdits1ya trcsta Ukrgeofizrazvedka)
TITLE: Application of the central ray method on the sout~lwestern
border of the Russian platform
SOURCE: Vsesoyu--nyy seminar po novoy matodike seysmorazvedki.
Seysmorazved1ca a primeneniyem gruppirovaniya vzryvov na dlinnykh bazakhl
i sposoba tsentrallnykh luchey (SeJsmic prospecting uzing-the grouping I
of shots on long bases and the method of central rays); j~rudy.semina,ra.!
Moscow', Izd-vo Nedra, 1965, 84-90
TOPIC TAGS; seismic prospecting, seismic wave, seismogr,:iphy, seis-
mology-., underground explosion
of experimental
ABSTRA"T: A description is given of the results
investigations conducted by the central-ray method (STuL)*. It is shown,
that thin is a reliable and economical way of probing gently sloping
structural formations in the presence of reflecting refe,rence horizons,'--
such as the outer zone of the cis-Carpathian trough. In.the case of
Card 1/2
ACC NRt AT6028969
the southwe3torn border of the Russian platform; where reference
I horizons are absent and angles of inclination are Gtcep, a considerable!
divergence is observed between the data obtained by STjsL, the reflected;
waves method, and the method of controlled directional reception.
This discrepancy requires further compilation of data on,'the effective-
ness of STaL. Orig. art. has: 11 figuros.
SUB CODE: 08/ SUBM DATE: 30Apr65/
_2.4t
Catogory i USSR/Gonoral Probloms Mothod and Toohniq uo of Invas- A-4
tigation
.,,bs Jour iRof Zhur. - Fizika, go 3, 1957, No 6603
thor :Yarish
llu Yu. I .
Titlo tUnidiroctioftal Drift and Rotation of Pointors of iloasuring
Instrumonts., Occurring Upon Vibration,
Orig Pub tPribomstroyoniyo, 1956, No 4, 15-24
Abstraot lInvostigation mdo Yrith t,ioving-coil instrunonts itith horizon-
tal shafts nud 'with pivot boArings, unidiroctional diaAacomont
(drift) of tho poiutor durii-LL!. vibrationo is duo to a stnblo
asymmo~rr, causod b. Lho 'Joint action of -tho foroo of gravity,
tho oloctrio forco, and tho blastic forco of tho hair springs,
causing a riso In thi st,%bl,,) static position of the moving
systw, of tho instruraont by ,,. cortain-angla t (botitoon tho
vorticai and tho lino. joining tho axial linos of tho pivot and
of -thr; boaring in tho tr.,..nsvorso cross soction). lho dorivation
Card 21/2
TARITSIN, S.S. (Lenirgrad# D-187, LdLteyw pr*# d.15, kv.29)
Lkvernous hamazAggiom of the left lobe of the liver. Nov.khlr.arkh.
'6. -90 IT-D 159. (KIRA 13:4)
o. -89
n
1. I-ye khirurgichaskoye otdalaniye (savadurushchir - chlon-korres-
pondent AMN SSSR prof. S.A. Kholdin) Instituta oukologii AMU SSSR.
(LIVXR--TUMRS)
M11MOVp A.A.; IMTSYN.. S.So
Cancer of the skin of the perineum appearIng after X-ray
therapy for eczema* Vopoonk's 7 no,328749 161# (MIRA 14:5)
(BOMU) (PMINM-CANCER) (X RAYS-PHYSIOLOGICAL EMCT)
tur
e vonnittee
LellirI0,11-a-d' Sit.
tl,e pl-lotolleatilor, e V,jstj-W-~ent, of
zJld 1-&easUVlljf,- (DisScr-
,easlIrP-S, )CS Ills' of ~lctrclooi D. I.
L Science
Union B(;i oi G,3andidate Of Tc'cl
t,~~tiorj for i,l.c
10 October 1955).
N . 43,
i7
Zl(J) SOVII IZ-39-3-SZSL
Tratialation ftam: Itferati"YY ah.r-lAl. Elaki,ot,it~%ka. M9. lit 1, p 13S (USSAU
AUTHOR: Agluits". K. K- Delon. Z. P.. Dsh*lspav. 5. S.. ICAravayev. F. M.
Karannys.. A. S., V...-m.ti-ov. A. A., O.tto-Ah-a. G. P..
ustmova. S. A.. Sumb4y*v. 0. 1., Xhal'oooa. Yo. A_
Shstopalc~&. S. A. Yudk~. M. Jr.. &,.4 Yarstsya. 1. A.
TITLE, Metrology of Penetrating Radiations
(Mwtrologiya proribayushchakh taluchenly)
PERI.001CAL: V ab.: Atomot. an-rgiya v m1.nykh1tm*Iy&k~r- Coseserlotadat.
Pp 10-1111
AWTXACT: Projects are described of the Veasoyusnyy asuchno-Iseledavatal --T
Lastleut marrologil (All-Union Sciertdic -Research Metrology 1-titute) amsat
D. 1. Mendeleyev on stamdarilization of measures t" the 1"ising-r&4iattlai'
(told. imad on the constructiot of atardar4 4rd reference outfits for reproduc 11,
the f=dimmettel units in the h.l. verge at AM vt.rlsttles of
at all iypos. The $allowing outfit. are described; (t) a standard reproduckag
CLrd 113
the rom~_tg,n in the r-So of 40-300 K.,. 12) a reference *,Ull far ona-slit"s
1. roentgens of electromagnetic radiatt.ft d3.e. h-t%g the q",.tm so.11ty 04
300-1.500 X.v; (3) an clititt i.e measuring in roonlitons the electromagnetic-
radisticel dome& with quantum energy of 3.20 Kev with as error of 1%; 141 two
otaad&zd msu%fits tar meaourits radium gamme -equIvalsAt-. IS) differential
lead-ball far measuring the actioltv ad warious Prep"&,
tione an the beat* of their gamma radiation; (6) - isothermal calorimeter
operating ca tha pricciplt of liWA!d-mitrogto evaporation for rmarasurkas tk.
calort-t.r for
acti,ity .1 beta a Alpha -
measuring 0.v activity of radt,sm preF&rat1-, An &cttvk!y-nnw.-.m..c
mothad by colzritins tus t-,mber of particle* en%itt&4 by a preparatiami is bem,
de,.Iap.4 il Two dir*cVtn-* crl'.~gg ci particles ir. a datimite solid acitto &..
tho same t% the tat4! "'M a,gl. by mea" cf ",tp* -cw4ntets. ~ Th. btta-p4
comater a daLaite arg1w permits mrxvuri~g preparattcne with an ac
10'1' c~ri* with &a error of 4-6%. T%G altvr-~att designs of
of to
Card 213
bov i 111-51 - 3- SAS I
Metrology of P-.t?at!-g ftadiat!o-
co~rtt*rm'* are described 0-.* of them permit. mea-ting be& pr#p&r&"*a%s
:h an acti:41 of 10'10 -S4 10"i c-to ~.th an error 0 2-4%. %r.4 the eoce".
I0'1 -S 10*7 .,rt. -th - r-., -f 1.1%. Th. i- be.. b-1v I.,
an.a......ii -t-t streams (1.- 106 d- I t. To.. I p.. at,
-Opvctr~ irnpr-.4 I.c-_..~
A Smarstla -.to, -S has b... b-It far
.1-atiaWlan Of 9&mma spectra !~ the or or iv rapt* of *00 - 3. 000 , v Tb
1K
c-A-1 i%v.st&&att-o tr. the ranite r( 12'3-1. 300 Ktv. a -motet 1-1 crval.t-
diffractoo C.rvu,iA f ih. 1>~-,- ta. tssm,ml
%.i:1 Al-.
I., the :.1g. W 2CO-700 K- M.4A,r;-j it%. hall-10. It--- I.-
1. to -ad. ~v 1- methods 11, rn't"A .1 ..........
-d 1'. ..t~-4 T
r-". if nn'...-nn-1. I- . ".-be, .1
C. rd 311
34284
S15891611000105510041006
D051/D113
.921, 6 0 0 0
AUTHORS: Andreyev, Ye. P.; Rodionov, S.S.; Yaritsyna, I.A.
TITLE: Investigation of a flat slow neutron scintillator
SOURCE: USSR. Komitet standartov, mer i izmeriteltnykh priborov.
Trudy institutov Komiteta, no. 55(115), Moscow, 1961.
Issledovaniya v oblasti izmereniya ioniziruyushch1kh iziushe-
niy, 66-68
TEXT: This article deals with investlgati one on d luminescent deteotor of
slow neutrons of the T.V. Timofeyeva.type (Ref. 1: Timofeyeva.T.V.,
Detektor medlennykh neytronov (slow neutron detect,,r] , '-Atomnaya energiya",
No 8, 1957; Ref. 2: Timofeyeva...J.V., KhormushkoS.P., Ekrany dlya regi-
stratsii medlennykh neytronov [Screens for slow neutron recordind Izv. AN
SSSR, ser. fiz., t. XXII, 1958, str. 14). The study was conducted in 1959
at VNITM in order to determine the efficiency of this detector and also its
sensitivity to Y-rays. A block diagram of the experimental insta tion
is included. The experiments proved that at a dose rate of 5. 10~~r,ser.
the detector is practically insensitive to rays. The efficiency of tho
Card 1/3
34284
S/589/61/000/055/004//CO6
Investigation of a flat slow neutron ... D05l/Dll3
detector, as regards thermal neutrons, was determined by the ratio of
counted pulses to thermal neutrons per unit of time. The neutron fllux was
determined on the basis of the absolute activity of an indian foil plac~'_l
directly on the detector, the activity being measured with a 4ZI-Counter
(Ref- 4: KonstantinovA.A.,,Absolyutnyy schet 4-chastits [Absolute count-
ing of A -particles Trudy VNIIM, vYp - 30 C 901, 1957). The expression fo::,
the efficiency of the detector is_ No . 100 (No -number of counted pule~,O
F. -
- I ~T 3
per minute found to be equal to 5624' S-area of photocathode = 9 2.
-im )M-2
T_ thermal neutron flux established at 1.3 - lo4 neutrons. min c,
Hence, 5624 100 4.7%. The error was established at 0-3%~
1.3 104 . 9
There are 4 figures and 6 references: 4 Soviet and 2 non-Soviet-bloc. Th-
two English-language references are: R. Koontz, M. Greenfield and. A.Jarrgti,
NAA-SR, part 11, 1955, P- 1137; M. Greenfield, R. Koontz and A. Jarrett,
Nuclear Science and Engineering, v. 4, 1958P P. 563
Card 2/3
Investigation of a flat slow neutron ...
ASSOCIATION: VNITX
SUBMITTEDt April 20, 1960
34284
S15891611000105510041006
D051/D113
Card 313
34285
S/589/61/000/0519/005/006
1:2/1 6 00 0 D037/D1l3
AUTHORt Yaritsynal I. A.
TITLE: The sensitivity of the activation method in photoneutron
measurements
SOURCE: USSR. Xomitet standartov, mer i izmeritellnykh priborov.
Trudy institutov Komiteta, no. 55 (115), Mloacow, 1.961.
Issledovaniya v oblasti izmereniya ioniziruyushchikh izluche-
niy, 69-73
TEM To study low-intensity hard V -rays 'the author compares the activa-
tion of various elements and describes methods of (1) activating manganese
in a potassium permanganate solution and (2) activatinE.; ethyl-iodide. Ex-
periments conducted at VNIIM revealed that e -rays with an intensity of not
less than lo-4 quanta per decay can be studied using silver foils. It wr-;
also shown that manganese, rhodium, indiump gold, iodine$ dysprosium, iri-
dium and vanadium cannot be recommended for detecting Inrd gamma-rays of
the author used a 4
low intensity. (1) Por activating manganese) '/" K"InO4
solution,into which a Be Or D20 block with a ff-ray emitter -...as submerged.
The irradiated solution was filtered through paper filters which were burned
Card 1/3
34285
'16 1/000/05 5/0 0 1/00 6
S/589
The sensitivity of the activation method D037/D113
and the activity of the ashes measured by a P -counter under standard con-
ditions. Due to the relatively long half-life of M,56, the possibility of
measuring the activity over a long period, etc., this method ermits study-
ing sources with hard ~ -lines with an intensity of up to 10-9 quanta per
decay. By.increasing the quantity of Be and D20 and the solution surround-
ing the photoneutron source and by using a_jource with higher activity,
hard Y -rays with an intensity of up to 10 quanta decay can be studied.
The method of activating ethyl iodide is much the same as the firs61 method,.
except that much more neutrons are captured by the Iodine and the total ac-
tivation cross-section in the thin layer is 4 times larger. The necessity
of working with a large quantity of strongly volatile liquid and the need
for the chemical separation of the iodine and preparation of AgJ are amon.-
the method's disadvantages. However, in principle this method mgy be used
for detecting hard Y -rays with an intensity of up to lo-7 z 10- quanta
per decay. The experiments showed that the two dezcribed m;thods are among
Wie most sensitive for detecting neutrons. There are 1. table, 2 figure-c
and 9 references: 4 Soviet-bloc and 5 non-Soviet-bloc. The English-lai-
gzage _,eferences are: A. Wlattenberg, Phys. Rev.,v. 71, 1947, p 497; R.
Card 2/3
w--tt
34285
S15891611000105510051006
The sensitivity of the activation method ... D037/DI13
Fluharty, M. Deutch, Phys. Ref., v. 76, 1949, p 182; R. Wilson, Phys. Rev.,
v. 79, 1950, p 1004; E.Amaldi, E. Fermi, Phys. Rev. v. 50, 1936, p egg.
ASSOOIATION: VNIIM
SUBMITTED:, April 20, 1960
Card 313
L19374-63 EWT(M)/BDS kFFTC/ASD
NR: AR3006958 9/0058/63/000/008/AO39/AO39
SOURCE: Rzh. Fizika,,Abs. 8A294
!AUTHOR: Yaritsy*na, I. A.
:TITLE: Some types of fission chambers
CITED SOURCE: Tr. in-tov Kom-ta standartov, mer i izmerit. priborov
pri Sov. Min. SSSR. vy*p. 69(129), 1962, 81-85
TOPIC TAGS: fission chamber , U-235, multilayer,'helical
TRANSLATION: Multi-layer, helicall, and plane-parallel fission cham-
bersideveloped at the VNIIM (4,11-Union Scien Institute o MA-:
troLo3y) are described. The most efficient is a helical chamber 7
(0.2%) consisting of two concentric aluminum helices covered on both''
sides with'uranium oxide. When U135 is used, the efficiency of:this
chamber can be increased by two more orders of magnitude. The heli-
Card 1/2
_5~
L 19374-63
ACCESSION NR: AR3006958
cal chamber can be used to detect weak neutron fluxes in e
th
presence of strong gamma radiation. 'To measure absolutely the
number of neutrons accurate to 8-10%, the most'suitable is a
plane-parallel chamber, whose electrodes are coated with a layer of
U235 . Threshold curves for the described chambers are presented.
V. Fleyaher.
DATE ACQ: 06Sep63 SUB CODE: PH ENCL: 00
Card 2/2
I Z-- Vi-
"Absolute determination of the number of neutrons emitted by the source.
report submitted for the 3rd Intl Measurement Conf & 6th Intl Instrwoents
& Mzasurements Conf, Stockholm, 14-19 Sep 64.
"Absolute determination of the nu=ber of neutrons emitted by the so-arce."
report submitted for Intl Fed of Automatic Control & of Information Processing
Conf, 21-23 Sep 64.
ROM
KONSTANTINOr A.A. FOMIRM, V.I.; ZRI.TSYN1t,,_,I.A.
ibsolute neasurement of the yield of neutron sourcea by the
manganese,activation method. Atom energ. 16 no.3:253-255 Mr
164* (MIRA 170)
9.-
ANDREYEV, O.L.; KOCHIN, A.Ye.; STUKOV, G.M.;JARITSYNA. 1.A.
Absolute measurement of the y1eld of a neutron source by the gold
foil activation method. Atom energ. 16 no.3-.255-256 Mr 164o
(MIRA 17:3)
F
memo=
XARAMYANP A,,S* (dooeaned); KUZMW, B.I.; Xlft,.Sr 11.11,; SILIMP yu.s.;
STUXOVp G.M.; SHCPDOLbV, V.T.;
Use of the method of associated particles in determining the absolute
of neutrons emitted by the source. Atom anerg. 16 no.3:252-253 Mr
164. (M1RA 1?:3)
-41i
ACTSSION NR: AP4020335 8/0089/64/016/003/0253/0255
AW. OR: Konstantinov, A. A#; Yominy*kh,, Ve 1,; yart 10 At
isy*nav
TITLE: Absolute measurement of neutron source yield by the manganese activation
met ~od
SOURCE: Atomnaya energiya, v. 16, no. 3, 1964# 253-255
TOPIC TAGS: neutron source yield, measurement, manganese activation method,
Mn'sup 56, thermal neutron, dipping counter calibration, neutron yield
ABSTRACT: The method of manganese activation for measuring absolute neutrons is
used most widely in metrolo;ical LnotitutLonse This method is based on the 1
absolute measurement of MOD activity$ obtained under the influence of source"
neutrons placed in the center of a large tank filled with a solution of manganese
sulfate. Since the thermal neutrons are absorbed by manganese, hydrogen and iul-
fur nuclei, the number of source emitted neutrons can be dateraLned from the
equation
QAM
Card 1/2
ACCESSION NR: AP4020335
where e Mn, es, eH are the manganese, sulfur and hydrogen nuclei in I cc.:
solution; 6'Mns O'So, 6N are corresponding cross sections of capture of thermal
neutrons; QMn is the complete mangane3e activity. Dipping counter calibration
was established. Indeterminacy in the value of a given amount caused an error
in absolute P-count which was 1%. Neutron yield was computed. Corrections in:-
background,.decay during measuring and finite irradiation time of the solution
were introduced into the number of readings during measurements with the
dipping counter@ Orig, art* h": 2 formulas*
ASSOCIATION: None
SUIMITM: 18Apr63 DATE ACQs 3lMar64 ENCL: 00
STJB CODE: NP NO REF SOV: 004 OMERI 010
2/2
Card
10,
ACCESSION Mt AP4020336 5/0089/64/016/003/0255/0156
AUTHOR., Andreyev, 0. L.; Kochin, A. Yeo; Stukav, 0. H.;Y
_! ~Ltay*~".
TITLE: Absolute measurement of neutron source yield by the gold foil
activati6n method
SOURCE: Atomnaya energiya, v. 16, no. 3, 1964, 255-256
TOPIC TAGS: neutron source yield, thermal neutron, gold foil activation method$
resonance activity, Ra Be source
ABSTFACT: Thermal neutron distribution of a Ra-Be neutron source in a moderator
(mostly distilled water) is measured using gold foils activation analysis. Gold
foils are placed at several points and the absolute amount of Pactivity of these
foils is measured. Since thermal neutron distribution does not depend on the
type of detector, the relAtion of specific activity of gold foil to the number of
detector readings placed at the same distance from the neutron source, is con-
stant for any distance* A complete yield of neutron source may be obtained
from the ratio
;Card 1/3
ACCESSION NR: AP4020336
w4j
where C H and 6AU are the thermal neutron cross sections of capture by hydrogen
and gold; na and nAu are atom concentrations of hydrogen In water and of gold
in foil; and F is the relation of specific activity of gold foil to the number of
neutron detector readings at the same distance, The Integral value is found be
mean6 of measuring I (r) at various distances from tho source. In practice, the
integration is by the graphic method. The formula is only true fg,detectors
whose efficiency satisfied the 1/v law. The cross section for Au follows this'
law only up to an energy of 4.95 ev. (first resonance); therefore a portion of the
resonance activity determined with tbe'aid of a cadmium screen should be con-
aidered. In measuring neutron yield of Ra - Be-source one should consider correc-
tion in self-8hielding of neutron flux in gold foil and perturbation of true
distribution of neutro s in the moderator during calculation of coefficient Fe
This correction is (5 2 1)% for circular foil with a 20 mne diameter and a
0.02 thickness, In computing coafficient P, a correction should be
;.C..rd
ACCE SION NP.: AP4020336
introduced into reso?anco absorption of neutrons by gold. After computation the
correction was (0.5 DAM A correction in thermal neutron absorption in the
same source, computed by macroscopic cross section of source absorption is
(0.7 1 0.1)%. Based on the works of As de Troyer at al (Bull, clo scis Acado roya.
Belgique, 40, 2, 150 (1954)) and K. Geigor and Go Whyte (Canado jo IYso. 37, 256
(1959)) the correction in fast neutron absorption in oxygen is (2.2 0.3)%. In
ddition, the determination error of spatial distribution area of ne trons is
1.3% and the determination error of the cross section for ir Au is 2 0.3. For
TH it is . 0.6%. Error in ab olute measurement of actLvLty is l%o The root mean
square error of the method is ~ 2.1%. Having taken these correctfons into accounp,
it was determined that neutron yield of Ra - Be of source Q is (3*22 0,07) x 10
neutr./sec* Oriso arto has: 2 tables
ASSOCIATION: None
SUE4MED: 18Apr63
SUB CODE: N P
Card 3/3
DATE ACQ: 3lHar64 ENCL: 00
NO REP SOV: 000 UMER: 005
FOMINYKH,,. VI.; YARITSYNA, I.A.
Apparatus for comparison of neutron sources of identical
spectral composition. Trudy, inst. Kom. otand.0 mer i izm.
prib. no.69:75-85 162. (HIRA'l7z8)
1. Vessoyuznyy nauchno-iseledovatellskiy institut metrologii
im. Mendeleyeva.
nIMM
YARITSYNA., I.A.
Some types Zt fission chambers. Trud7 inato Kom# stand.j mer
i izm* prib. rio,69:81-85 162. (HIRA 17: 8)
lo Vaesoyuznyy nauchno-iosledovatellokiy institut metrologii
im. Mendeleyeva.
FOMINYM, V.I.,- YXIITSYNA,--t-A.
Actinlim-beryllitm emitters. I'lov. nauch.-iisl. rab. po metr.
VNIIM no.2:46-49 164. (MIRA 18:4)
i-
ANDREYEV, O.L.; YARITSYNA, I.A.
Producing a calibrated thermal neutron flux, Nov. nauch.-issl.
rab. po metr. VNIIM no.2:,63-66 164. (MIRA l8s4)
14681-66 EWT(m)/EPF(n)-i/EY1A(h) DM
-.-AP6008257 SOIRCE CCV3s UR/0089/65/019/OM/0181/0183
AUTHCR: Androyevp 0. L.; 4_*-qXL_& H.LFCSLnykhi Ve Is;
Shchobolevo V. T.; 7&-Mynas, 1, A.
ORG: none
TITTE: International comparison of neutron sourcQs
SOME: Atomnaya energiya,, v. 19, no. 21 1965p 181-183
TOPIC TAGS% neutron distributionp radioactive source, neutron, radiump bery'llimp
radiation counter
ABSTRACT; The relative reasurements of the Canadian Ra-f-Be neutron source were
carried out considering the neutron distribution in open geometry and using a long
counter which could turn the source at any required angle. With the source axis
of rotation coinciding with the cylinder axis# the asymmetry was 1% and with the
uourre axin turned to the aide of the surface it was Y.5%. The relative measure-
r,ants for the source indicated 3.25 neutrons/Sao. Orig, arto haa:2 figures and
I table
SUB CODE s 200 18 SUBM DATEs 130ot64 CRIG RErs 003 / OTH RZFs 005
Card
PD9,!-J3~.16.08-8- 539s125.5
ANDREYLY, O.L.; SILIN, Yu.S.; STUKOV, G.M.; FOHINYKH, V.I.; SHCHEDOLEV,
V.T.; YARITSYNA, I.A.
International comparisons of neutron sources, Atom. energ
19 no.2j181-182 Ag 165. (MMA 18sq)
ROILSOV, V.I.,. prof.; DEMIN, V.N., prof.; UVIN, A.O.; SHAL11"'EVA, T.S.;
BaTASH, N.Yu.j, VINCGRAMN, A.G.; LEOCKO, V.A.; S1DGR-E'!J7z1D, L.111.;
Regional perfuslon of chemotherapeutic substances in malignant
tumors of the extremities. Vest.khir. 93 no.8:58-64 Ag 164.
(141RA 18:7)
1. Iz fakulltetsko~ khivargicheskoy kliniki (zav. - prof. V.i.
Kolesov) 1-go Leningradskogo meditsinskogo instituta imen!
Pavlova.
t I
13AUSIN, A.F.; SOED107, A.A.; ANWHOY, Y.Ta.; KITEMTUHOV, S.Y.; BELIMICH,
P.I.; SAVI#M, A.T.; LULAXIN, Y.F.; SDWPOV. S.G.; TXMIDV, V.S.;
UUMURO.T.I.; WKIN, S.A.; BABARIN, A.Y.; MATVffW, L.H.;
MJN1]9)V,S.k."'-"-bHMUn=V. D.P.; BULAM.TIY, N.V.; kandidat tekbni-
I
cheskikh nauk; SHIMARINK, K.K.-, TSUPROV, S.A.; GIRUM, L.H.:
VASILITRV, Tu,K.
Scientific and technical conference on the work of the peat Industry
of the Ministz7 of Electric Power Stations. Torf.prom. 32 no.2:1-20
'55. (MLRA 8-5)
1. Zamestitall ministra elaktroatantpiy (for Bousin). 2. Zamostitell
direktors, VNIITP-(for Sokolov). 3. Zamestitell direktora MTI (for
Antonov. 4.Zameatitell direktor "Ikraiimesttopprom"(for Kurdyumov).
5. Direktor Instituta torfa AN BSSR(for Bellkevich). 6. Nacballitik
Glavenergompchasti MES(for Savizykh). 7. Glav"y in2henar Ivanovokp
go torfatrests, (for Karakin). 8. Zam::stitell direktora MTI (for Sol*
pov) 9. Upra*lyayushchiy Shaturskogo torfotresta (for.Yefimov). 10.
Glavary makhanik Inraziosvkogo torfatresta (for Tarovitalm). 11.
Glavmyy makhanik Laningradskogo torfotrmsta (for Rabkim). 12. G1jLvW
inzhonar Ozeretsko-Heplyuyevakogo torfopredpriy&tiym. (for Babarix).
13. GlavW inzhaner Gorlltovskogo torfotrasta (for Matvayev). 14 Bh-
kovoditell laboratorit VNIITP (for 1~inikov). 15. GlavWy inzhonor
treats, LentorfoRtroy (for Chernankov).
(Continued on next card)
m
ANDRIAITOV. Ya.l., inzh.,.YARIZOV, A.D., luzh,
Blectric mltimotor drive of the Yr-2005 eycavator. Mrot. i dor.
mashinostr. 4 no.lltl3-15 N 159 (14IRA 13:3)
(IMccavating machine ry-Blea trio driving)
BERM
-A.D., inzh.
Investigationand wa7s to improve the electric driveo on 2-2005
excavators. Izv. vys. acheb. zav.; gor. zhur. no.lOtl59-164 160.
(KMA 13: 11)
1. Roakovskiy gorny7 Inatitat imeni I.Y. Stalina. Hekomendovana
kafedroy gornoy elektrotekhniki Moskovskogo gornogo institata.
(Xxeavating machinery-Rectric driving)
ot 1~
""i~A,TA
YARIZOV, A.D., kand. teklm. naml:
Using an electronic modeling machine for Investigating transient
processes in an electromechanical drive system of a pwouesion
drill* Izv. v7s. ucbebe zavo; gore zhwo no~Ssll/+-118 .64
(MIRA 18&1)
1. Moskovskiy institut radioelektroniki I gornoy elektromekha-
nikie Rekomendovana sovetom laboratcrii elektrannogo modellrova-
niya.
YARKEVIGH, Lyubov' Grigorlyevna
(Practices in the organization of occupational therapy in
hospitals for the treatment of psychonewooes] Opyt organi-
zataii tradovoi terapii v paikhonevrologichaskoi bolinitse.
Moskva, Medgiz, 1958. 43 p. (MIRA 12:6)
(OCCUPATIOM TMAPY)
JVI.
YARKHIN, Ya.l., inzh.
- --l
Effect of the beating te=perature on the mechanical propearti-es of rod
9tructures from 35GS steel- Elek, sta, 35 no.802-33 A9 164-
(MIRA .171.12)
----------
YARKHIN,,Ya.l., inzh.; RIZAYFV, R.G., inzh.; KASATKIN, A.O., inzh.; G-APOYAN,
P-A', inzh.
Testing hIgh-strength steel-reinforced concrete plate 130 Prim.
stroi. 42 no.1;22-25 165. (MIRA 18:3)
YARK110, A,,
Soviet legislation on juvenile labor, Sots, trud 8 no,6;13~-145
~e WIM 16:9)
(Youth-Smployment)