SCIENTIFIC ABSTRACT BEGUNKOVA, A. F. - BEGZHANOV, R. B.
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CIA-RDP86-00513R000204210003-9
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RIF
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S
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Publication Date:
December 31, 1967
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SCIENCEAB
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Body:
SOV/137-57-11-22591
Ditermination of the Heat Capacity of Mitals (cont. )
surfaces which decrease the heat exchange due to
radiation. S is made in the
form of a cylinder with two cavities drilled in it (for
the introduction of the
thermocouple and for the insertion of a special device by
means of which S
is introduced into the heated F). After heating, S drops
from the F cavity
into the BC cavity which at that moment is placed under
the F; the fitting
together of the lids is done automatically. From this
moment on and until
the end of the experiment the recording of the temperature
of BC is done
at regular intervals, for which purpose the junctions of a
differential
copper -c onstantan thermo-rod, connected to an
Ulitovskiy-type galvanometer
are inserted into the BC. Three to five min later the pins
in the BC holding
the S are moved out a little and S is lowered into the
water, It is not feasible
to throw the heated S directly into water, because then
the water boils, a
part of it evaporates, and thus the heat balance is
destroyed. At a certain
moment the observations are terminated and the final value
for the tempera-
ture of BC is recorded. The description of an experiment
with LS59- grade
brass is adduced, and an example is given of the
calculation of the specific
heat for that case. On the basis of an error analysis of
this method the
conclusion is made that in to decrease the errors the
temperature
of the sphere at the moment of the termination of the
experiment should be
measured with special care. It is remarked that attempts
to apply the
Card 2/3
SOV/1 37-57-11-22591
Determination of the Heat Capacity of Metals (cont, )
- spherical BC method for testing heat insulators and
liquids have yielded
encouraging results.
L. 0.
Card 3/3
F- k 137-58-5-11027
Translation from: Referativnyy zhurnal, Metallurgiya, 1958,
Nr 5, p 305 (USSR)
AUTHOR: Begunkova, A. F.
TITLE: Experimental Determination of the Degree of Blackness
of
Austenite Steel (Eksperimentallnoye opredeleniye stepeni
cher-
noty listov austenitnoy stali)
PERIODICAL: V sb.: Issledovaniya v obl. teplovykh izmereniy
i priborov.
Leningrad, 1957, pp 146-160
ABSTRACT: The degree of blackness of the surface of sheets
made of
austenite steel was determined at temperatures ranging from
100 to 5000C. The apparatus employed consisted of two heavy
steel plates with heating elements and a heating core
installed
between them; the metal sheets being tested were pressed
against the core so that only a natural gap remained between
them. The temperature of the core was measured with the aid
of a Chromel-Alumel thermocouple and a sensitive
galvanometer.
Measurements and calculations of the coefficient of heat
emis-
sion and degree of blackness were made for the following
condi-
tions: 1) the core alone, covered with a coating of lamp
black-,
Ca rd 1/2 2) sheets of austenitic steel with a normal
external surface are
137-58-5-11027
Experimental Determination of (cont.
pressed against the core; 3) same as in 2, only the sheets are
covered with
a layer of lamp black. From the data obtained by measurement,
graphs are
plotted by formulas derived theoretically for the method; the
degree of black-
ness is determined as a function of temperature.
V.0.
1. Steel--Phase studies 2. Austenite--Properties
Ca rd Z/z
AUTHOR: Be Candidate or Teabnical Scie=es, XV/96-58-12-15/18
ITLE: feet of Contact Mermal Resistances of Pellet 1=ar;*.%"xta
(V3.tA*1i70
kontaktnykh teplovykh soprotivleniy d3,va sherike-v-,y
PERIODICAL: Teplomergetika., 3,958., Ur 12, pp 8546 (USSR)
ABSTRACT: It has reae=tly baen puaposed to use sphericz:-.
thex:~. inw.Oxtian,
that is. balls of alumi= foil.. steel., lead arA aLter mtex.?Als.
Recent wer. has shava that the heat-insulatimg of this
kind of iw4ztion are not Y=7 good.. so it shou:~d be used r*Cy
in ceses of necessity. Tests vare mad om hd1Jcw spheres 8 - 9 Mn
di ter,, of w-atenitia ateal. Values of thersaCt. cui&U.-ti-city
are given. 7hese steel spber-s am only used vhe-- it is re(jaired
to ina'alAte stractires of complicated sbape at tA-.zperaVx-,vB
of the
order of 500 - 6500C. For lover ttuperatures the sphoex-as my be
made of,allumimm foil; these are nich lighter wAt &ee.:t*r. Tests
made with spheres of lead rw.,A ICAss surrcunded ty vazlcua
fil3ters
clearly showed that the beat tremsfer mmi-aly deTaL&s ,a thts
na-bare
of the filler arA zcet on the material of vhil3h the nheres are
mude;
the test remats are re:ordei in Table 1. A defect of sj:~herilaal
Insulation made of alumi= foil is that the vj~-,exvs baxne
distoxted., inerwaimg the area of contact betw;--&n th*-,A. Thin
greatly incs.*eases the rate of homt tr-ensfer. ResL--l-tv of
tasts.ca
Card 1/2 such -tuff4A--im a--e gi-ven in Wale 2, and ha-m uaed t.)
Effect of Contact Therml Reolstemceo
of Pal-let Inmaation
construct graphs in Figs. 1. & 2. which show the relationship
between the thermal conductivity of spherical insulation, the
specific gravity of the material and the temperature. The marked
increase in thermal contactivity that results from deformation of
the spheres, renders this notbcd of insulation unacceptable when
deformation is likely to occur. Expressions are given for the
coefficient of thermal conductivity of spherical insulation as a
function of temperature for various specific gravities. The
relationship ipetween *he temperature coefficient of thermal
conductivity and ths, specific gravity of the material is plotted
in Fig.3. There are 2 tables# 3 figures and 3 Soviet raterenceB.
ASSOCIATION: Leningrad Institute for hvdsion Hoehanion and Optics
(Uxingradelkiy Institut Tochnoy Makhaniki i Optiki)
Card 2/2
SOV/96-59-5-14/19
AUTHOR: Begunkova, A.F., Candidate of Technical Sciences
TITLEt U;-e--;f the Generalised Theory of Regular Thermal
Conditions for Extrapolation of Temperature During
Thermal-Physical Experiments (Primeneniye obobahchennoy
teorii regulyarnogo toplovogo rezhima dlya
ekstrapolyatsii temperatur pri teplofizicheskikh
eksperimentakh)
PERIODICALtTeploenergetikat 1959t Nr 59 pp 75-79 (USSR).
ABSTRACTs When determining steady temperatures at particular
points of an object it in usually necessary to wait
until a steady temperature field has been established
in the body and this maytake a very long time. During
the whole.of the determination it in necessary to maintain
the experimental conditions constant. By using the
generalized theory of regular conditions, limiting
temperatures at different points in the body can be
calculated from observations of temperature change'vith','"
time without waiting for the final steady state to,be
entablished,, Dullnev and Nondratlyev (Izventiya-Ake'demli
Nauk,Otdolenlye Takhnicheakikh Naukq 1956s Nr 7) have
Card 1/4 shown that a certain time after starting to heat up a
SOV/96-59-5-14/19
Us* of the Generalised Theory of Regular Thermal Conditions for
Extrapolation of Temparatups During Thormal-Physical Experiments
body, "regular" conditions set in for which the
relations expressed by Eq (1) are valid. Consider 'a
system of bodies with arbitrary distribution of energies
and any values of heat transfer on the body surface:
when a steady state is reached every point in tha.-body*
will be at a definite temperature. The temperature will
depend on the configuration, dimensions and thermal
properties of the Individual components of the system,
on the distribution of heat sources in It and on the
cooling conditions. If the heating process of the system
is observed and rates of temperature change are mea3ured
at different points, the limiting steady temperatures at
these_points can be calculated by furmula (2). If the
surrounding medium is at constant temperature,-ther
formula simplifies to Eq (3). Tests have shown-4-hat this
method of determining steady temperatures can give an
accuracy of 5 to 8%: the accuracy can be improved by
Card 2/4 measuring temperature changes over a number of time
SOV/96-39-5-14/19
Use of the Goneralised Theory of Regular Thermal Conditions
for
Extrapolation of Temperature During Thermal-Physical
Experiments
intervals-and taking an average result. All the
information'required for the use of Eq (2) can be
determined from &.single test if, after a period of
i~' -heat*n& -the'Syntall is allowed to cool freely with
-the-,
same external conditions as during heating. The general
nature of the heating and cooling curve Is seen in Fi&2.
It is shown how a formula that is simpler though'Iess
accurate than expression (2) can be derived. The method
greatly reduces the time required to carry out a number,
of thermal measurements such an determinations of thermal
conductivity or temperatures in heaters, furnaces,
boilers and so on. In order to check the applicability
of the formulae when testing different materials in -
different equipment a number of tests were carried out.
Various examples are quoted together with test results
presented as tables and graphs. For all the cases
considered the agreement between the calculated and
measured final temperatures was good. For instance,
Card 3/4 Table 3 gives the results of tests on a number of
SOV/96-59-5-14/19
Use of the Generalized Theory of Regular Thermal Conditions for
Extrapolation of Temperature During Thermal-Physical Experimants
materials with various instrumentst thermal
conductivities determined by this method and by a
quasi-stationary method are compared and the agreement
in within 5 to 10%. There are 4 figures, 3 tables and
3 Soviet references.
ASSOCIATION:Leningradskiy institut toctatoy makhanikI i optiki
(Leningrad Institute of Precision Mechanics and Optics)
Card 4/4
69799
28(5) ;7-4,57-00 S/146/59/002/06/012/016
D002/D006
AUTHOR: Begunkova, A.F., Candidate of Technical Sciences
TITLE: On a New Type of Flat Bicalorimeter~~
PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy. Priborostroy-
eniye, 1-959, Nr 6, pp 78-88 (USSR)
ABSTRACT: Information is given on the G.M. Kondratlyev method
of determining mathematically the effective heat
conduction coefficient'Phecessary for testing plates
consisting of seFa-raterelements, or devices consisting
of separate components. This method can be used on-
ly for infinite plates, i.e. plates whose full thick-
ness is 10:12 times less than their outer dimensions.
In reality, such relationships are almost impossible*
An attempt was made to use the above method together
with the bicalorimeter method for limited systems.
At the Kafedra teplofisiki LITMO (Chair of Thermo-
Card 1/2
69799
S/146/59/002/06/0~2/016
DOO2/DOO6
On a New Type of Flat Bicalorimeter
ASSOCIATION:
-Physi-s of LITMO), the bicalorimeters IIBK-Pl"-
"Bb-w.l.t~4 "Bk-Tl~, and ."Bk-P3% were nroduced, 21
5-,-'Fa-v ng varit' ~s_;Aation`ships between
(Figure 7
the center and the thickness of the layer to be
checked Many materials were checked by means of
these d;vices, the results being given in table 3,
and the heat conduction coefficients were calculated.
The article was recommended by the Kafedra teplovykh
i kontrollnoizmeritellnykh priborov (Chair of Heat
and Checking-Measuring Devices). There are 5 graphs,
3 tables, 3 diagrams,. and 2 Soviet references.
Leni'ngradskiy institut tochnoT mekhaniki i optiki
PUMITTED:
Card 2/2
December 8. 1958
24,MDO
AUTHOR:
TITLE:
PERIODICAL:
84324
19110 1417
S/170/60/003/009/020/020
B019/BO60
Bgaunkova, A. Fo
M_ rondrat'veylp Latest Research Within the Theory of
Regular Heat Condi ions
Inzhenerno-fizicheskiy zhurnal, 1960, vol. 3, No. 9,
pp. 124-135
TEXT: In the first part of the present paper the author discusses a
new
variant of the two-point method, based on the regular heat conditions
of a symmetrical three-layered plate (Fig. 1). A survey is first made
of fundamental formulas, by starting from eigenfunction U - cos(ILX
+(j)(1),
which is characteristic of the thermal conditions of a tbree-layered
plate, between whoso individual layers there.is a heat-insulating
material.4
Formula (6) is obtained for the quantity b characterizing the nonuni-~
formity of the temperature field: b - coe(s) - Go-sin(a), where s -
p6,
P -fm7a, with a denoting the thermal diffueivity and m the regu3ar
cool-
ing rate. 0 - C'/C, where 01 is the thermal capacity of the medium
layer
and C the thermal capacity of the two outer layers* The concept
inherent
Card 1/2
84324 9
G. M. Kondratlyev's Latest Research Within S/170J60/003/009/020/020
the Theory of Regular Heat Conditions Boig/Bo6o
in the new two-point method of determining the beat-transfer
resistivity
is discussed next. Pertinent formulas are set up, and the
experimental
arrangement shown in Fig. 2 is discussed. The latter consists of a
metallic container made of equally thick plates, whose thermal
capacity
is moll known. The same holds for the core placed in the center. The
ma-
terial, whose heat-transfer resistivity is to be determined, is
placed
between core and containers As the system is cooled, the temperature
of core and container is measured with differential thermocouples,
and
the heat-tranafer resistivity can then be determined with the aid of
the
theory developed here. The second part of the present paper deals
with
the theory of regular cooling of a flat bicalorimeter. The theory of
the
heat conditions of a three-layered plate, developed in the first
part,
is used for the purpose, and formulas are derived for determining the
total thermal capacities of each of the three plates. Finally, the
appli-
cation of this theoryio the determination of the thermal capacity of
a
liquid with a flat bicalorimeter is discussed. There are 3 figures
and
2 Soviet references.
ASSOCIATION: Institut toohnoy mekhaniki i optiki, g. Leningrad
(Institute of Fine Mechanics and Optics, Leningrad)
Card 2/2
S/17 621005100410131016
B104YB102
AUTHORS: ~egunkova. A. F., Dullnev, G. N., platunov, ye. s.,.
S_e_mYashkin=1. M., Cherkasov, V. N., Yaryshey, N. A.
TITLE. Normal thprmal conditions of bodies of complex shape
PERIODICAL: Inzhenerno-fizicbeskiy zhurnal. v. 5, no. 4,
1962,
122 - 126
TEXT: In the "Inzhenerno-fizicheakiy zhurnal", no, 6t 1961,
a paper by
0. K. Trotlyach6nko and L. V. Kravchuk entitled "Normal
thermal conditions
of complex bodies" was published. In thia paper, some
"fundamental errors"
of the founder of the theory of normal thermal conditons, G.
11. Kondxatlyev
and his followers, are pointed out. In the present paper,
some aasumptions
of the theory set up by Kondratlyev are explaiped, and it is
shown that the
authors of the paper mentioned misunderstood the term
"normal thermal con-
ditions". This is discussed in detail 'by citing the
cor~responding passages
of the text and by using the symbole introduced there. There
are 8 Soviet
references.
Card 1/2
S/17 62/005/004/013/016
Normal thermal conditions of bodies... B104YB102
ASSOCIATION: Institut toohnoy mekhaniki i optiki, g. Leningrad
(Institute of Precision Mechanics and Optios,
Loningrad)
SUBMITTED: November 3, 1961
Card 2/2
S/862/62/001/000/001/012
E032/33i4
AUTHORS: Be F., Dullnev, G.N. and
Platunor,.Ye 050
'gunkova, A
TITLB: Instruments developed at LITMO for thermophysical
measurements
SOURCEI Teplo- L massoperenos. to 1: Toplofizichaskiya
Idliaraktaristiki materialov i metody ikh opredelbniya.
Ed. by A. V.
Lykov and B. 1'. Smol'skiy. Minskg
Izd-vo AN BSSR, 1962- 3 - 10
T EXT
Instruments and apparatus developed beiveen 1953 and
1960 at the
Leningrad Institute for Precision Mechanics and Optics
are reviewed.
The first group of instruments is designed for
thermophysical
measurements on thermally- -insulating and construction-
al materials
at room temperatures. They are based on the regular
temperature-variation methods developed by Professor G.M. Kondrat-.'
'yev (Teplovyye izmereniya (Thermal measurements), blaahgiz, 1957)-
Tho
second group includes apparatus also-based.on Kondratlyev's
theories
and used in rapid determinatiorn of the temperature-
dependence of
varlous thermophysIcal characteristles of materlals
between -100 and 1
100 OC. Only very general descriptions are
Card 1/2
s/662/62/001/000/001/012
Instruments developed E032/E314
given-, detailed accounts are available in previously published
papers& The present review is based on 13 Soviet papers,
published between 1954 and 1962. There are 5 figures.,
ASSOCIATION; Leningradskiy institut mochnoy mekban:Eki i optiki
(Leningrad Institute of Precision-,Mephanics and..
Optics)
Card 2/2
BEGUNNOTA, A. F.
Alpba-calorimeters vith open imrfacoo. IZV. vyv.
ucheb. sav.;
prib. 6 no.21137-146 163. (MIRA l6t4)
1. laningradakiy inatitut toohnoy mokhaniki 1.
optiki. Reko-
mandavam kafedroy tapl6vykh i
kontrollno-lu*ritellnykh '
priborov. -
(Calorimeters)
0
NIKISHINA, Mariya Filipp"ma; EVENTOV, Iosif
Markovich; ARIMpOVA,
Aleksandra Pavlovna; AMMtA,.)jinel, IvangyM;
BORODINA,
IyubovI Alskseyevna; IGONIKINA,, Galina
Sergeyevna;
NAZAROV, Vladimir Vladimirovich; AIEKSEYEV, A.P.,
red.
Emulsions used in road construction] Dorozhnye
emullaii.
By] M.F.Nikiehina i dr. Moskvaj Transport# 1964.
1711 1p.
[
(14IRA 17:1'0
NIXISHINA, N.Y.; KRDW, L.Ya.-, BORODINA. L.A.; AMIFOVA,
A.P.; BIGUMU,
N. 1.
Ditu~inous and tar emulelone used In road construction.
Avt.dor,
21 no-11:25-27 N 058. (MIM 11:12)
(Road mterIlas)
NIKISHIHAI M.F.j BEGUNKCFVAs N.le
-, -------------- lft-"~,
Peculia.ritlex of using bituminous emulsions.
Avt.dor. 26 no.102
21-22 0 163. (MIU 16sll)
BEGUNOV4 ASI.-I �Kommm I.K.
Loid -distributTbh'ih'cbfitsoV plnis'-Milnk'the bakink -f *
ilil~ffiiim~
6Udtroiytlc be3-ls*by ovprhead current application. TSvetmet. 38
no.303-60 Mr.,165. (MIRA 18:6)
BEr.uh-Ov. 4.T.
ilausas or electrolytic call bottom deterioration
during the
operation of aluminum betho. TSvet. met. 38 no.604-61
Ja 165.
(MIRA 18slO)
BEGMXV s B. N.
~L I&A.4A A,
25506. Vj~;;~iye Urkal Stereopriborov7a Tochnost' Potogrammetricheakikh
Izmareniy.
Sbornik Nauch.-Takhn. I Proizvod. Statey Po Geodezii, Wtografli,
Topografli,
keroellyemko I Gravimetrii, VYP. 23s 194% a. 16-21
SO: Letopial 2hurnallnykh Statey, Vol. 34, Moskva,. 1949
r
BEGUNOV, Boris Nikolayevicht VR=p L.F., red.; LAZAREVA,
L.V.., tekbn*
-i$-4 i -. ". .
[Geometrical option) Geometricbeekala optika. Moskya.,
Izd-vo
mosk. univ.,, ig6l. 260 p. (MIRA 15t2)
(Optico, Geometrical)
BEGUNOV, B.N., kand.tekhn.nauk
Tranisformation of optical imapr.,, [Trudy] NM no.102:77-
132 !61. (MIFA 34:8)
(option)
I
V.
~ )v
BEGUMOV.,J,N,,,, -,kand. tekhn.nauk
HDdorn pancratic, systems. (Trudy] WTU no.110:40-59 162.
(KIRA 16s6)
(Optical instruments)
BARDIN., Anatoliy Pikolayevieb; HOZES, Ye.F.,
retsenzent; DgVJND"
B N retsenzent; XMUSTALEVA, N.L.. red.;
GRIGORCHUX,
tekbn. red.
[Technology of optical glass manufacture-)
Tekhnologiia opti-
cheskogo atekla. Izd.3... perer. i dop. Moskva,
Vyushaia
shkola, 1963. 518 P. (MIRA 16:12)
(Glass? Optical)
BEGUNCIV, Borlis a v I cb; 3'.111a;HNI , Ye , -
[Transformation of optJeal images! TrwnsfOrr.!rrvaWe
opticheskikh izobrazhenti. M~ikvu, lokuostvo, ~1465.
2)0 p. Wntt,
-EEGUNOVP G.A.,; GORBACHEVP S.v'
Electrophemical. processes on an a1ternatingly polarized
electrode,
Part 1:2 Description of the =it and general instructigne.
Zhur.fis.kWm. 35 no.Ut2636-2638 N 261. (14IRA 140.2)
le Mookovskiy khimiko-tekhnologichaskiy institut imeni D.I.
Mendeleyeva. (Electrochemietry)
BEC,UNffy G.A.; CCRBACHEV, S.V.
Electrochemical Procaaaas on an alternating polarizing
electrode. Nrt 4. Zhur. fiz. khim. 38 rio.3z?85-788 Mr 164.
(MIRA 17:7)
1, Moskovskiy khWkf>-te)chnologIcheskiy institut imeni D.I.
Mendeleyeva.
BEGUNOV _qA&* GORBACIIEVY S.V*
Electrochemical proaaaaas on an
olternating-polarizing electrode.
Part 2. Zhur. fiz. khim. 36 no.90062-2066 5 162.
(MIRA 1?.-6)
1. Xhimiko,--tekhnologieheskiy Inatitut Imeni D.I.
Mendeleyeva.
BEDA, E. , inzh.; PETERSONp A., inzh.; -BEGUNOV,-I.;.
KALENT IYEV, V., irtzh. -
PRIKHODIKO, V., inzh.; CHERTKOV, V., inzh.;
KOIDMYYCHENKO, V.,
inzh.; BIKEYEV, V., inzh.; KOGUYENKO, B.
Exchange of experience. Avt. transp. 43 no-1:49-54 Ja
165.
(MIM 18; 3)
. BRGUIIOV. 00fill
Water supply of heat engines at peat works.
Sbor.nmuch.trud.
Bel.politmkhoinst. no*65;53r6l '59- (MTM 13:3)
(Peat industry) (Vater-Purification)
V. I.;
.10
none
:,n .,4c co;rlpensation refractcmet-.ar. Cla=- L,2, 1,,o. W,1479
ob.-az. zov zn, -.9.
optic maasuromaunt~ measuring, JA a automatic control
Th-S 'Ut'-Or Certificate presortz; an autom.%Uc compensation
rafractometer.
a op auor, and a cell (500 --e". 1).
all UCal
&.1Q Q00.1j;i'l 1:16C-Alu-'503 "V110 Procisiun of t."'a Mvasura-Mont.
The compo.--sator in the
mtor, conri:;-6in.f, of an objective Ions, two negativo
-efracto;7.cz.er " a lons co;;ipenr
and a posirivc lans which rwvos in a plane perpendicular to the
optical axis
/2 UDC: 535.322.4
LCOrcl 1
ACC NR. A~16029936
Fig. 1. 1 photoreceiver;
conponsator
2 coil; 3
?A
of t.;,.o ,,omponsator. Orig, art. hust 1 fiZuro.
SUBCODS: 14, 20/ SUBM DK,'LF,-. 26Apr65
BEGUROV, V. . I I
26429 I-Ioloclwyy kombinat stolitsy. Moloch. Prom-at', 194-9, No. 8
a. 28-33.
) "I
I Sog IETOPISf NO. 351 1949
BEGUMDV. V.
Better guidance for socialist competition among collectives.
Holoob. prom. 17 no.&-~~-l 156, (MLRA 9slO)
(Dol Industry)
ry
B TI-111 U 11 110 7 ) I. lot .
"Device for ncamu-ine th6 motion o' thc! travw~-sc of thr oil. cirmit
breakors !:Mol V.,-.-35, Ir,-~-25, anl. TMI-3511
Rab enerf!, 2, no. 1, 1-52.
i
SKOWDI.G.; ERMOT.T.L.* rodaktor; TARASWKO,Z.K., tekbnlohoeidy
rodaktor .
I
[Repair suA aseemblift of *quipm"t at most OmbinG61 I"Ont 11000-
tash oboradoyaniia n& miasokmbinstakh, Koskvat Plehohopromisdato
1931. 212 P. (Meat Industry) MM 9 . 3)
INMIOVO G.S.0 zaal. dayatell nauki i tekhnikis doktor khim. nauk,
f.,- SKORODUMOVA, A.M.,kand. biol. nauk; SIIAPIRO, L.R.
doceasedb MILYUTINA., L.A., inzh.; DEXURN, M.G., kand.
f
sellkhoz. nauk; LEW-DETA,.
K.S.,k&xnd.selsk:-.oz.nr~uk;KYURKCHAN;V.N.;
VASILEVSKIY.9 V.G., inah.; SAVINOVSKIY, N.G., kand. tokhn. nnukj
VEDRASFKO, V.P., kand.med. nauk; SOKOLOVSKIY, V.P., prof.;
inzh.; KAZENNOVA, A.R.; VIEDRASHKO, V.F., kand.
mod. nauk,- KOSTYGOV., V.V.., red.# SKUHURIN, M.A., HOLC'Z'AIIOVA.,-
O.F., doktor biol. nauk, prof.; SPERANSKIY., G.W.# zasl. do-
yatell nauld j dollctor nod. nauk, prof.i KI-3311A, Yo.I., toklm.
red.
[Dairy foodslMolochnaia, pishcha. Moskva., Pishchepromisdat
1962. 419 p. (MIRA 15:105
1. Glavnyy kulinar Ministerstva torgovli RSFSR (for Kazennova).
2. Chlen-korrespondent Akademii meditsinskikh nauk SSSR (for
Speranskiyq
Skurikhin). 3. Daystvitellnyy chlen Akademii moditsinskikh nauk
SSSR (for Molchanova),
(Cookery (Dairy products)) (Dairy products)
30
44), 30(6)
SOY/30-59-4-32/51
.
,U
NOR:
B egunov Yu. 1.
TITLE:
ions by th6 Pushkin House (Arkheografichev-
Aroheogr4p~io, Expedit
.
ki aekspeditpii. Pushkinakogo Doma)
y
PERIODICAL:
Vestnik Akademii nauk SSSR9 1959, Nr 49 P 115 (USSR)
ABSTRACT:
The Department of-Old Russian Literature of the Inetitut
russ-
koy literatury (Puihkinakiy Dom)'Akademii nauk SSSR (Institute
of
Russian Literature (Pushkin'Bouse) of the Academy of
zSoienoes of'the
USSR) carries out a systematic search for and
collection of'Old Russian
"nuscripts. Under the direction of
V, I.'Malyshey the'expeditions
investigated many regions of
the Komi- abd lAtel'skays. ASSR, of the
Arkhangeltakaya, Mookov-
akaya arid'Oorlkovskaya oblast' as well as of
the Baltia
Republics-* Betwien 1945 and 1950 they collected more than
1000
manuaoripti, among them-unique specimen of Old Russian
literature.
In-1958 4,expeditions 6f the Institute visited more
than 60
settlemente-along the rivers Pechora, Mezen' and, Que-
litsa
(Moskovskays, Olast') end on the western shore of the Lake
and acquired
more thar-10 manuscripts from the
Card,1/2
1 i0 ihe 16th century, The
man;isoripts contain valuable
BEGUNOVA L I red,; BRUSILOVSKIY, Yo.S., dote., red.;
DASHTYANTS,
G.A.., Prof.,, red.; FOLISHCHUX, I.A., prof., red.;
UEOVIST, H.U.)
dots., red.; FEEDOROV, I.I., P-~of., red.. DASHT
-I =R
[Allergy problems in clinical practice] Voprosy
allergii v
klinike. Kiev, osmedizdat USSR, 1963. 221 p.
(IIIII(A 18;9)
1. Kiyevskiy Gosudarstvannyv instItut
usovershenstvovaniya vra-
chey. 2. Glavnyy vrach Gorodskoy klinichesk3y
bollnitsy Shev-
chenskogo rayona goroda Kiyeva (for Begunoval. 3.
Kiyevskly
Gosudarstvannyy institut usovershenstvovaniya vrachey
(for
Poll.shchuk, Umovist).
y
va
r&-07-~P i
=I
.
Aroma. "
ICT.
"
740ga- Pufaes, Zk--
'
M
-
JIS'ar"k
4' 8219.~-Hcltl Ila and
1935
xhim
&
.
. PCs as the cult sipens, Both
euidic, to the skin Of 9-
03WOVAS lk~
Abst.
v
4q No.
if:b- 10,. 2954
BiolOgleal CherAstry
"emalso to th C" i1stanmo of grapes during
dpoing Ild V=j- IIP 17NU-,, alid"It. 1). ttmunqyjL
(Ing Inkulture, Alta). Biokkil"Y4
O)Uring the prewn roce" of M(Wvd tropes tile x it a
jilifful"Outolihoo n1mothefreedju and , t3 quan-
Ptadrelycwterted into the ghlomideenlit. Thespith
W enin from euldin and thicose k the mult d a I cntA
Ixac 1w4mght ebmt by the Action of ghicmidasc. This
pComm con be lnhiblW b the Wit. of IIFCIU X%.,
IN&P. etc.. in which ctm 9-.eaklin mnallis in its ginal
B, S. Levift
b.~:GUEO-At R. D.
"The Dynamics of the Figment Substances of the Grope During Its
Maturation
and Frocossine," 04nd Bid Scig Moscow Agricultural Acad; Noscow,
199V
(RZhblolj No 7j Doc 54)
Survey of Scientific and Technical Dissertations Defended at U66H
Ligher Educational Institutions (12)
~8: Sum. 140, 556, P4 Jun 55
USSR / Chemical Technology. Chemical Products and
Their 1-29
Application. Fermentation Industry.
Abs Jour Ref Zhur - Khimlya, No 3, 1957, No lo243
Author :,13e- ova, Zakharina, O.S., and Chalenko, D.K.
In3t : Not given
Title : The Removal of Iron from Wine with the Aid of
Ion-Exchange
Resins.
Orig Pub : Vinode]Aye i vinogradarstvo SSSR, 1956, No
4" 14-16
Abstract : Experiments have been carried out in which
fruit abd berry
vines (fortified cider, fortified white wine) and
grape vi-
ne3 were treated with KU-1 and SBS cation-exchange
resins
and ED-10 anion-exchange resins for the removal of
the dis-
solved iron. It has been established that the iron is
pre-
sent in the above-indicated vines (with the exception
of
Sillvaner vine) in the form of complex compounds, and
hence
is not removed by cation-exchange resins; however,
nearly
Card 1/2
USSR / Chemical Technology. Chemical Products and
Their 1-29
Application. Fermentation Industry.
Abe Jour : Ref Zhur - Xhimiya,, No 3, 1957, No 10243
Abstract : complete re val is achieved with a type
EDS-10 union-ex-
change resin which has been treated with citric acid
anion.
After ion exchange the treated vines compare well
with the
control specimens and in a number of cases are of
superior
quality. A certain reduction in acidity is observed
after
ion exchange. Better results were obtained when the
wines
were treated in batches with doses of 6.5-7 Ms per
liter
of EDE-10 anion-exchange resins; contact times of 3-4
hours
were used with constant shaking.
Card 2/2
BAGUNOTA,Aim Devidoyna kande biol. nauk, ZAKHARIVA, O.S.. kand. biol.
nauk.;
0 ".'Rii~prof-. doktor sell skokbosyaystvannykb neuk,
A*"
rateensent.; NIWV. V.I., prof*, doktor khIms, nauk, spateradaktor,;
NASLOTA. Ye.T., red.; DOBUZHINSKATA, L.T., tekhn. red.
(Ohemical control in the process of makinc wine from fruits and
berries) Takhookbialobeskii kontroll plodovo-iagodoogo vinodelits.
Moskva. Piabehopromisdat, 1958. 141 P. (MIRA 11ill) I I
(Yruit wines)
SJOROVA, Roza Davidpiawl FAIKKARINA, Ollga
Salomonayna; ZARUBIF, Taoiliy
Andreyevich; PAVLOV-(MISHIN. Sergey Ivanovich.,
CHALIVIO. Dmitriy
lalinevich; MOROVICH. A3.eksandr Georgiyevich; MMA
IMOV, M,A,v
retseasent; BUMIMOVA, U.N., spetered.; KOVALIVSKATA,
A.I., red,:
OOTLIB, A.M., tekhn.red.
[Technology and chemical control of grope, fruit, and
berry vines]
Takhuologiia i tekhnokhtnicheskii kentrall
vinogradnykh I ploaoyo-
iogodnykh Yin. Xoskva. Pishohopromisdat, 1959. 460 p
ZKMA 13:3)
(Wine and wine makinc)
ESGUROVA, ft.1).;.POPOVA, YO.Ya.; KULESHOVA, U.S.
. SttAying-th.e possibility,of wine clarification by
means of domestic
diatomites and tripoli. Trudy TSentr.nauch.-issl.
inst.piv.,
bezalk. i vin.prom.no.llt66-7o 63. (MIRA 17t9)
u IV el ~ a/
AUTHOR: Begunova, TA. (Engineer-economist). 136-7-4/22
TITLE: -Uni-t-h-e--e-c-o-nomic expediency of autoclave processes at
Ural
and Kola-Peninsula: Nickel Works. (Ob ekonomicheskoy
tselesoobraznosti avtoklavnykh protsessov na nikelevykh
zavodakh Urala i Kol'skogo Poluostrova).
PERIODICAL: "Tsvetnyp Met6ll
195V P0.7, Pp.144-- (USSR).
ABSTRACT: In this article some economic aspects of the economics
of autoclave processes relative to six forms of metal-
containing materials met with in the nickel-cobalt in-
dustry are discussed. %cause of limited cost information
on autoclave processes many of the cost calculations are
approximate or even debatable (especially as regards capi-
tal costs) but they provide an indication of useful lines
for research and industrial-scale experimentation. The
calculations are based mainly on estimates made by the
high-pressure laboratory of the Gipronikell Institute and
apply to the following materials: the nickel and cobalt
mattes and cobalt-containing mass at the Yuzhuralnikell
combine; the nickel concentrate obtained by flotation of
1/2 converter-matte and the copper-nickel ore concentrate of
the Severonikel, combine; the cobalt raw material of the
136-7-4/22
On the economic expedien of autcolave,processes at Ural
and Nola-Peninsular Nick~cl Works. (Gont.)
Ufaleysk works. The technical-economic parameters forthe
treatment of these materials by autoclave and by the mc;st
progressive non-autoclave methods are compared. Flow-
sheets for the various processes are given and cos-'~,s tabu-
lated. The parameters of the autoclave methods are super-
ior and these methods also have indirect advantages. The
greatest reduction of direct workirg costs from the intro-
duction of autoclave methods is obtains~d in the treatment
of cobalt-rich intermediate products. It is suggested
that autoclave methods appear no promising that further
research on ways of reducing materials consumption and on
nerit more efficient methods of selective precipitation
2/2 would be justified.
There are 3 figures and 6 tables.
AVAILABLr,: Ltbrary of Congress
SOV/137-58-7-14568
Translation from: ReferativnVy zhurnal, Metallurgiya, 1958, Nr
7, p 89 (USSR),
AUTHORS: Begunova, T.G., Pervushin, S.A.
TITLE: The Major Areas in Which Nickel Cost May be Reduced (Based
on theJFkxample of Establishments on the Kola Peninsula)
Vazhneyphiye rezervy snizheniya sebestoimosti nikelya (na
primere predpriyatiy Kollskogo poluostrova) J
PERIODICAL: Sb. nauchn. tr. Mosk. in-t tsvetn. met. i zolota,
1957, Nr
27, pp 248-257
ABSTRACT: In 5 years (1950-1955), the cost (C) of matte (M) has
been
cut by 9.3% at thie~Pechenganikell Kombinat, chiefly by increas-
ing the power of the electric furnaces from 12 to 21 megawatts
by rebuilding the furnace transformers and changing the furn-
ace design, thus increasing output rate to more than double and
cutting unit consumption of energy by 1976. The output of M
rose 35016. During that period, the C of Ni was cut 21.876 at the
Severonikell Kombinat by increasing recovery of Ni by 8.576,
Cu by 0.30/6, and Co by 18.3% by cutting unit consumption of
materials, fuel, and electrical energy, increasing labor pro-
Card 1/2 ductivity by 37.5016, and increajing the output of
electrolytic Ni
SOV/ 137-58-7-14568
The Major Areas in Which Nickel Cost May be Reduced (cont.)
by 43.8%. Measures for further C reduction are examined,
including- in-
crease in the proportion of concentrates in the melt charge,
reduction in
transportatiott costs, utilization of S from the waste gases of
metallurgical
plants, utilization of tailing slags for the production of
building materials,
replacement of shaft-furnace smelting by electrical smelting
(cutting con-
version costs as much as - 487o per t metal and increasing
recovery as fol-
lows: Ni from 87 to 96%, Cu from 88 to 9616, and Co from 63 to
807o), in-
crease in the power of the electric furnaces, improvement in
the prepara-
tion of the charge, separate electric reduction smelting of
converter slags
to extract Co 'frorn them, and introduction of M separation by
flotation in-
stead of melting (which should cut the C of conversion to
86.716 per t M).
The carbonyl process and autoclave treatment of the Ni
concentrate ob-
tained by flotation of the M offer good prospects.
Ye. Z.
1. Nickel inclustry--Costs 2. Nickel--Production 3. Industrial
equipment
--Performance
Card 2/2
BEGUNOVA v T. I.
Paratbyroprivic tetany and myxedema foIloving laryngectony vith
the removal of the thyroid and parathyroid glands. Zhur. ush.t
nos. i gqrl. bol. 20 no. 3%70-71 My4s 160. (KM 14W
1, Iz kl-LW-.ki bolezmy ukhat gorla :L uon (z av. - za3luzMnrqy
dayatell nauki prof. A.I. Kolomi:Mbenko) Ki7'9wkcga instituts,
usovershonstvovaniya vrachey,
(LAUU-SURGERY) (THPOrD GUM-Moff)
(PARATHYROID GLAMS-SUWM* TETM) (MYXEDMT
BZ!G~UWOVAj...
Rare localization of a specifically myeloid infiltration of the
laryngeal and tracheal vans in chronic myeloois. Zhur usb.
nosi'i gorl. bol. 20 no.6379-80 N-D t6O. 1'3.'2)
1. Iz otdela k3inichaskoy gematologii (sav. - prof. D.N.Yanovskiy)
Ukrainskogo I~stituta, Jelinie-beskoy maditsiny imeni akeidemikeL N.D.
Strazhesko.
(Lummu) (LARIML-DISIMM)
BEGUNOVA, T.I.
Changes in the aiterial pressure ard pulse of hypertensives
fenowing
tonsillectomy. Zhur. ush.., nos, i gorl.bol.22 no.1:2&33 Ja-F
462.
(MIRA 1515)
1. Is Otorinolaringologichookogo otdoleniya (zav. - atmrsIhly
nauchW
ootrudnik V.A.Gorchakov) i otdela funktsimiallnoy dagnostiki
(sav.
starshiy nauchnyy sotmdnik le.M.Liozina) Ukrainakogo nauchno-
isoledovateliskogo institute, klinichookoy meditsiny imeni
akademika
W.D,Strazhesko.
(BLOOD mmurmv) (PUIZE) (TONSILS-SUR03HY)
B8GUNOVA9 T.I..
Electrocardiographic data In hn)ertdnoion and chronic
tonsMitiz:
before and after tonsMectmyo Zhuro whop nos* i gorls
bDIo 23
no.5t26-28 S-0163 (HIM 1783)
lo Iz Ukrainskogo, instituta klinichaskoy meditsiny
imeni akads-
mika N.D.Strazbesko (naucbnyy rukovoditell -
saaluzhennyy do-
yatell nauki. prof. A.LoMikhnev i sulushennn deyntell
nauki
profo A.I.Kolomiyehenko)o
,_PW,qNOV~.,, T.I.
Tonsillectow in tawrtansion. Zhur. ush., nos. i gorl.
bol. 23 no.1:41-45 Ja-F,163. (MIFA 17:2)
L.Iz Ukrainskogo nauchno-lealedovatellskogo inatitata
klinichasko.r meditisirW imeni akademika N.D. Strazh&sko;
nauchnyy rukovoditelt: zasluzhannyy dayatell nauki prof.
A.L. )dkhnev (Inatitut klinichaskoy meditsigy) i zaslu-
zhannyy deyatell nauki prof. A.1. Kolomiychenko (Institut
otolaringologii, Ministerstva zdravookhraneniya UkrSSR).
BEGUNMAS TA.I.
Criss of agranulocytosis vith the developrent of
Ift-yAgeal
stenosle. Zhur. ush., nos. i gor. bol. 24 no.1:87-88
Ja-F 164.
(PIR-A 18 13)
1. 1z otAela klinicheakoy gematologil (zav.- prof.
D.H. lanovskiy)
i otarinolaringologicheskogo otdolaniya (zav.-
starShiy nauchnyy
sotrudnik V.A. Gorchakov) Ukrainskogo instituta
klinicheskcy
meditsiny Imeni akademika N.D. Strazbesko.
SOV/137-E-8- 11-23042
Transtat;z,n from: Referativnyy zhurnal. Metallurgiya, 1958, Nr 11,
p 173 (USSR)
AUTHORS: Avdeyeva, A. V. , Sokolovskiy, A. L. Tsyganova, P. A.
Be8unova,
T. N.
TITLE: Investigation of Corrosion Resistance of Metals in Aggressive
Media
of Caramel Production (Issledovaniye korroziynoy stoykosti
metallov v agressivnykh sredakh karamellnogo proizvodst%!a)
PERIODICAL: Khlebopek. i konditersk. prom-stl.', 1958, Nr 2, pp 14-15
ABSTRACT: A study was made of the corrosion of Zh-17-T and Ya-l-T
steels,
Al, Cu, and SO steel in a caramel mass, caramel filling (I part
apple puree + I part sugar) and in boiled aFPle, apricot, and
dainson-
plum purees. Zh-17-T and Ya-1-T steels are resistant in all, three
media, Al is resistant in the caramel medium, Cu in the caramel
filling and in the boiled purees. The addition of 1% citric and 10/0
lactic acids to the caramel mass and filling does not increase cor-
rosion. The addition into the boiled puree of 20/o a line must have
been skipped in the Russian original. Trans. Note ..... Cu. Upon
the addition of 20/6 trioxyglutaric acid to the apricot puree all
metals
Card 1/Z are corroded. Tests under shop conditions showed a good
resistance
SOV/137-58-11-23042
Investigation of Corrosion Resistance of Metals in Aggressive Media
(cont. )
of Zh-17-T and Ya-1-T steels in the filling vacuum apparatus. Only
Ya-l-T steel
is resistant in the storage tank for puree treated with SO2, and it
can also be
recommended for the manufacture of the condenser of the .water-jet
air pump
where SOz of various concentrations may always be present.
T. A.
Card 2/?
USSR/Chemical Technology. Ch-wical 'L)roducts and 1-22
Their Application--Crude rubbers, natural and
synthetic. Vulcanized rubber
Abs'.Jour: Ref Zhur-Khimlya, No 3, 1957, 9785
Author : BegunovskRy4,__jL,_jL, Zhakova, V. G., Karmin, B.
K.,
and Epshteyn, V, 0.
Inst : Not given
Title : Aging and Fatigue of Rubbers Vulcanized in the
Ilresence of Various Accelerators and Antioxidants
Ori,,,r 2ub: Sb.: Starenie i utomleniye kaiichulcov i rezin i
povysheniye i1ch stoykosti [Symposium on the Aging
and Fatisue of Rubbevs and the ITHDrovement of
their Aging Resistance], Ijeningraa, GosIchimizdat,
1955, 11-52
Abstract: Phenyl-
-naplithylamine !I) and 2,11-diaminodiph-
enylamine (II) retard the'oxidation of natural
rubber by molec IIlar 02. The adCition of I acceler-
ates the destrii(:tI,),'I of the rubber during low-tem-
perature mechaiical plastization, with resultant
Card 1/4
...................... ....... --
------------------------------------I-----------
USSR/Cheraical Tenhrology. Chemical 1'rodvcts and I - 12 2
Their Application--Crude rubbers, -natural anct
synthetic. Vulcanized rubber
Abs Jour: Ref Zhur-Khiwiya, 110 3~ 195Y, 9785
Abstract: !sates containin- U rhan in vulcanizates contain-
4
ing I). The effect of I and -I on the fatigue of
rubbei-s Ouriu~ deformation, tests in which equal
amounts of energ-, are stored in the rubbers was
foun6'to be eqoal, 11 is more active in the
fatigne of unfilled vulcanIzates from SKB rubber.
The resistance to agisr- of vulcanizates prepared
from natural rubber increases as the amount of
accelarator is Inercaied and the amount of S is
decreased. The :Vezistance to aGing depends on the
duration of vulcanization. Revulcanization of the
mixture with Capta;t lea(Is to a sharp c1ecrease In
agIng resistance; this effect Is riot observed in
rubb'e'Irs containinr.; thiorain and DPG. In the presence
of an accele;1ator the dearee of homogeneity of
the molecular atruotvxe of the vulcanizates ia in-
Card 3/11
------------------ 1- -- ------- ---------
--------------------------- ----------------- -------------------
BIDUNOT 01 IN, B.K,
Structure and properties of soft thernopUstia mteri&23
m%da from
I stiff 'butadlens-styrene rdbbors. Emoh. I res. 16
no.12:7-11 D 057.
(KIRA'110) .
1, F=obno-iseledovatellskly institut shfunoy
pronVablennosti.
(Plastics) (Rubber, Synthetic)
BEGUNOVSKAYA, L. M. Cand Tech Sci (diss) "Research'into the itrue-
ture and properties of soft and thermoplastics of rigid divinyl-styrole"
.,'rubbers." Moscow, 1960. 12 pp; (Ministry:of Higher and Secondary Sptsc~-
ialist 'Education RSFSR, Moscow Inst of Fine Chemical Technology im M.
V. Lomonosov); 150 copies; price not given; (KIL, 28-601 160)
T i
-i!El ~W
BORISEVICH) Ye.S., prof.; B~GIISIIIII G..:.
Seimmic elecLrograp)-i(; ose-aillograp of the
H-001 (SEO) Lype.
. h , . I -. -
Trudy Inst. fiz. Zem. no.35:65-69 164.
(MMA 17:12)
L 622,e4;,-65-. E~J(m) Peb 11) LU P
ACCBSSION NR: AP501167r- LR/0166 "6-5/0W/ 2/006'(/W71
0
Islamov,L A-
TITLE: Resonant scatteping of &~~~~Uan~a by Ce-140 nuclei
i __Z4
jSOURGE: All UzSSR. Izvestiya. Seriya fizikoltematicheskikh nauk.
:no. 2, 1965, 67-71
...'TOPIO.TAGS: -cerium, Gawa scaltering, resonant
,AWT-R-AOT: T~_-Cause of some cont hdictlons in the previously reported
values of the lifetime of the 1597 keV first excited state )I
(bf, ~--rq 14
l4o -)rF, as 'i so~)uroe Tp- 14(D _? ~- - - -
Ge the aii'hk .Y!
C) fsei r p -n 3 f r,, sonan ~ rad la t 'ITI-e er Irct- I
liquid and rm, were exposeC to a bearn of I neu -
In Boll'. fo 8 X 3, ~
trone/cm 2sec from the reactor of Inst1tut yadernoy flzlkl (Trstitut-
of NLclear F-~-.Ysicr) ~N ',~IzSSR. The so-ircp ac,lv!_1Y at F~,-Fr, Df
:Card
RL
d*e--crease in-
:the effezt oroduced by a resonant absorber placed between the scurce
and the scatterer. 7he value obtained was (2.15 + O.FiO) :,~ 1013 se-,
which 1.s in w.Dod agreeir_-nt with data obtalro_-d elsewhere b-i the
Coulomb
excita'c!Dn Metlhc-l, and also wIth the empIrIcaI tj, 1L.
vro~.Izlns (Phy. Le!-. .,. 2, B8, 1962). Original article htis: 31 f i
ures and I formula
ASSOCIATIONa Inbtitut yadernoy fiziki AIN UzSSR (Ip~sti_tute -of
Nuclear
p1hysics, Jui UZSSR)
SUBMTM,. 02Mar64 ENCL: 01 SUB CODE: NP
Fig. 1. Diagrem of experirental set-up.
1 - ScotTemrs cn -roving sli6es, 2 - smmce in
alu!zdn= contai_-ier, 3 - positim of absorber
SeIJ-abSorption experim.-It), 4 crys-t&l,
5 - photcum1tiplier, 6 - single-chaxiiel palse
atAlyzer, 7 - counter, V - AIIIDD pulse-height
ana-lyzer.
1, x'l ZV
'it
44
'It
tv A I_
z,f.
I N,
I.Xil
cT,CA5
51
'31
"Interaction of Protons Witlx- Lead Nuclei In the- Energy Raulpe.
6.89-15 Bev,," by.N. M. Kocbaryan*-Corresponding Mesiber, Acad-
emy of Sciences Armenian SSR, and R. B. Begzbanov, 'Physics
Institute, Academy of Sciences Armenian SSR, Dokledy Akade-
miXt Nauk Armyanskoy SSR, Vol 25, No 1, 1957, PP
The total cross section for the inelastic interaction of protons
vitb,
Aead nuclei was measured nt the Alagez cosmic ray station. Proton
energies
r1knged from 0.89 to 15.0 Bev. The cross section vas found to be
approxi-,
MaWly 4740 t 90 millibarns. The authors conclude from the data
that the
,cross section for +he inelastic.interaction ofA--mesons vith lead
nucl.
to 1,500 t 100 millibarns over the energy range 0.8-16 Bev.
Experimental technique and apparatus are described.
Z. A. Kinrakosyano Xh.1B. Pachadzbyan, and A. S. Aleksanyan
assistii,:~
in the measurements. (U)
21(l) PHASE I BOOK EXPLOITATION SOV13363
Begzhanov, R. B.
Secheniya vzaymodeystviy IT-mezonov i protonov bol'shikh energiy s
yadrami svintsa
i spektry generatsii etikh chastits; avtoreferat dissertataii,
predstaviennoy
na soiskaniye uchenoy stepeni kandidata fiziko-matematicheakikh
nauk (Interaction
Cross-sections of High-Energy Pions and ProWns With Lead Nuclei,
and Generation
Spectra of These Particles; Author's Abstract of a Dissertation
Offeredlor the
Degree of Candidate of Physical and Mathematica? 3ciences)
Yerevan, 1958. 13 p.
200 copies printed.
Sponsoring Agency: Yerevanskiy goaudarotvannyy universitet.
Scientific Advisor: N. M. Kocharyan,C-wresponding Member, Armenian
SSR Academy of
Sciences, Doctor, Professor.
PURPOSE: This book is intended for theoretical and nuclear
physicists.
COVERAGE: The book reviews the more important experimental data on
the nuclear inter
actions of nucleons and high-energy pions and on the spectra of
particles created
during nuclear interactions between fast neutrons and a substance.
The experi-
mental apparatus is described, and the following experimental
results are outlined
Card 113
Interaction Cross-Bections (Cont.) SOV/~363
1. The cross, section of nonelastic interaction of both protons and
pions with
lead nuclei did not change with energies in the average range from
0.9 to 24 Bev for
protons and from 0.9 to 34 Bev for pl.ons, although ~e)pion
cross-sections were
foynd to be somewhat larger than those of protons ( P,= (1740*90)mb,
and
aff)= (1820j614O)mb).
2. In comparing data on the interaction cross-sections of pions and
protons with
Pb nuclei with data of other authors on the corresponding
cross-sections of 0, Fe
and Cu nuclei, it was concluded that the nucleus of a substance
becomes less trans-
parent with increases in atomic number, at least for protons with
energies up to
7 Bev and for pions with energies up to 12 Bev.
3. It was shown that nuclear models with homogeneous donsity and
sharp boundaries
and those which show density decreasIng from the center of the
nucleus (exponential
and Gauss~an distributions) do not permit the choice of a value for r
in the equatia
R = r Al/3-lo-13 cm, while with a homogeneously smooth nuclear modelo
deviations in
nuclear dimensions obtained by nuclear and electromagnetic methods
were eliminated.
Card 2/3
Interaction Cross-sections (Cont.) SOV/3363
4. Interactions computed with optical models having a
homogeneously smooth dis-
tribution of nucleons in the nuclei, and with experimental
cross-sections of elasttc
interaction of high energy protons and pions with nuclei, were
(32t-3)mb and
2r = (33�-5)mb, respectively;
5. Nuclear interactions produced in a 94.8-g-cm-2 thick copper
plate by cosmic
ray neutrons yielded an approximAtely equal number of positive
and negative pions
(the ratio of their numbers f = 1.08/0.06) in the meson pulse
interval from 353 to
994 Mev. see-1. Reference 9 gives an analytical expression for
the light energy of
a magnetic spectrometer, derived by the author and others, for
obtaining the absolute
intensity of different components. The spectra of proton and
pion generation by
protons and neutrons at energy levels up to 32 Bev were
recorded. The spectra were
well approximated by a power function in energy ranges where
ionization losses in
the generator itself could be disregarded. The work was carried
runder direction
of Doctor-Professor N. M. Kocharyan, Corresponding Member,
Armenian SSR Academy of
Sciences. There are 9 Soviet references,
TABLE OF CONTENTS: None given
AVAILABLE: Library of Congress
Card 3/3 Tg/lsb
4-8-W
BEGUANOV, R.H Cand Phys Wat;~, Sci - (diss) "Cross
sections
ons and protons &444 with lead
of reactinns oA;mesa
nuclei and the generation spectra of these part5ales."
Yerevan,
1958, 1b pp (111n of ijigher education USSR. Yerevan
State Univ)
20D copies (KL, 27-58, 101)
-x
mzuwv, R.B.
*,--.-~~,--
Interaction of protons
In the 0.09 to 16 Day
nauk to,3:11-19 158.
and negative 7r-mesona with lood nuclei
region. Izv. AN Use SSR. Ser. f1s. -mt' *
()(IRA IWO)
(ftolear reactions)
EMGZWOV R.B,
Llgbt Intensity of maknetle spectrometers. Izv. AN Us. SSR.
Sere
fize-matenauk no,4:37-43 158. (MM 11:11)
1. listicheakiy Inatitut AN Arm* SSR i Fizito-telchnichaskly
institut
AN th. SSR.
(Speatromater)
BIGZHANOV, R.B.; XMITONOV, V.X.
I
UP experiments for detervilzing interaction paths and
statistical arrorn In meaeure~snts., Doi-,l.Ag Arm.SSR 26
no.3:
141-144 158. (MM 12:10)
1. Fislebookly institut AN ArWanskoy SSR I
Fisiko-takhnicheekly
institut AN UOakiker SSR. Pradstavlano A.I.Allk-baiwanon.
Filters and filtration)
SOV/56-34-3-51/55
AUTHORt
Begzhanovp R. B.
TITLE3
The Nualton-Nucloon
Cross SOOtiOrin the Range of'Great
s (Nuklon-nuklonnoye secheniye v
oblasti bol'shikh
Energi
energi
;
PERIODICAM
Zhurnal Eksperimentalincer i Teoreticheskoy Piziki, 1958P
Vol. 34, Nr 3, PP. 775 - 776 (USSR)
ABSTRACTs
of the non-elastio
interaction of
The cross section 0'
,
protons with mean energies of from Opq to 34 BeV with ?b-
and
C-nuelei was determined by means of the magnetic apec-
trom ter IV ,
2). The
,, Alikhanyan-Alikhm ov (References 1,
:
section of the nuoleon-nucleon interactions & with
cros
the engveries to be investigated can than be determined from
these data-on the. basis of the optical model (Reference 3),
and
bepides the most reasonable form of distribution of
the nucleons in
the nucleus can be found. R. Hofstadter
(Gofebtater) (Reference 4)
concluded fiom the scattering of
electrons with high energies on
nuclei that in the case of
medium and heavy nuclei the distribution
of the protons can
Card 1/4
be repreaented by a so-called'homogeneous
smoothed~ distri-
SMI 56-34-3-51/55
The Nucleon-Nucleon Cross Section in the Rkhge of Great
Eno as
1 .1 ___. - I . TO 1
bution of the type (r) - Jo exp r - c +
1/3.10-13 f I z -1
Here c w 1,08.A cm holds, z - 0,53-10_"cm, and fo
denotes the density at r - 0 and A denotes the atomic
weight, The radial distribution of the protons and neu-
trons are the same to a difference of 3 %. Therefore the
distribution of the nucleons in the nucleus is supposed
to agree with.the distribution of protons. The measurew
ments by Kocharyan et al. (References 1, 2) directly
furnish the inelastic cross section V for which reason
the whole apparatus of the optical modil need not be
used.
According to S. Fernbach, R. Serber amd T. B. Taylor (Re-
ference 3) the author computes the cross section Or' by
means of the semiclassical method of the target parheter.
The proton wave is exponentially damped on its passage
through the nucleus by means of the absorption
coefficient
K(r) - ? (r)& . The size and the shape of the nucleus is
determined by the distribution of density.y(r). The
author
finds the cross section
ew - 21r ex
a P[-2TK(ffb + s]d bdb
,ard 2/4 Tf, - sj
f 0 0
SM/56-34 3-51/55
The Nucleon-Nucleon Cross Section in the Range of Great Energies
2 2
using the relation r b ']- S., where b denotes the target
parameter. The author computed 0' for tte above-mentioned
detailed smoothed distribution. T&_ cross section of the
inelastic interaction cf the protons with the C- or Pb nuclei
dotermined this way have the values cr - (210+ 15) millibars or
.0' a ide with the
a .0740�90 ).millibars respectively; they coinc
value a computed f or the & a (32 ~ + 3) millibars. The be st -
coincidence betwe6n the computed and the expeTimn)sl cross
sections are obtained for o -0.1310,00-10- A cm. The
nuclear radius R obtainad by means of the smoothed nuclear
,,.model coincides with the electromagnetic measurements. The
results obtained here are in good agreement with the experi-
ments for the determination of the nucleon-nucleon - cross
sections with energies of up to 5.3 BeV,as well as of the
nucleon-nuclear cross sections. 4t least up to 34 BeV the
main characteristics of the interaction processes do not
differ from the interaction within the range of energies
accessible to modern acceelerators. There are 9 references,
3 of which are Soviet.
Card 3/4
WV/ 56-34 - 3-51/55
The Nucleon-Nucleon Cross Section 'in the Range of Great
Energies
ASSOCIATION: Fizicheskiy institut Akademii nauk Armyanskoy
SSR
(Institute for Physics AS Armenian SSR)
XMIMED: Ducenbor 2~), 1957
,I
Card j/.
AUTHOR: Begzhanov, R. B. 56-34-4-41/60
TITLE: On the 1ro 0A Of PiOA--XU0l8On.Interaation Within the
P'~~ ~_i
Range of High Energies (0 popereohnom sechonii
it-mezon.-nuklon-
no#o vzaimodoystviya v oblasti bol'shikh energiy)
PERIODICAL: Zhuz-aal akeperimentallnoy i tooreticheskoy
fiziki~ 1958,
Vol. 34, XT 4P Pp. 1013 - 1014 (USSR)
ABSTRACT: First the author reports in short on earlier papers
dpaling
with the same subjeot. On the basis of experimental data
concerning the arose sections of the inelastio interaotione
between pions and the nuclei of graphite and lead (at ener-
gies of from Or9 to 34 BOV) the cross sections of inelastic
intersotions and of the opacity of rAuclei are calculated in
the course of the present work* The author uses the homo-
gon6cus balanced nuclear model* When the cross aeotion for
the interaction between piona and nucleons is put equal to
i(n) - 33 millibaTA the oaloulated values of the interaction
cross sections agree with the corres ondip e ri ental
val-aaa if the value - (104 � OP045.10-15A,73eem mis assum.-
Card 1/2 ed fo.- the radial parameter of the balanced
distribution.
56-34-4--41160
On the Cross Section.of Pion-Nucleon Interaction Within the Range of
High
Energies
By taking into account the experimental errors 33� 4
millibarn are obtained. Similar results are also obtairted
in the analysis of the orces section for the interactioa
of negative pious with the energies 0.97 BeV9 with the nuclei
using an homogeneous balanced nuclear model. The obtained
value V(%) - 33.� 4 millibarn within the investigated range
of energies agrees well with ouch data as result from the
direct, measurement of the orosa section of pion-nucleon intor-
action within the energy range that can be attained by pre-
sent-day azoelerators. At energies above 1,9 BeV the oross
seoticou of plon-nuoleon interaction does not depend or, energy,
at leaet nQt up to theenergy Cf 34 BeV. There are 3 referencesp
3 of whioh axe Soviet.
SUBMITTED: Januuzy 8P 1958
1. Neutron cross sect'-~ons--,14.zas,.:ram-,,nt
Card 2/2
MZHAIIOV, R.B.
Statistical errors in the measuring, of nuclear
interaction cross
sections* Do)d. AN UzSSR no*2:13-18 159. (KIRA 12:4)
1. Institut yadernoy fisiki AN U%SSR. Predstavleno
akademikom AN
UzSSR U.A. Arifovym.
(NwIsar reaetions)
4-
68586
21(l),21(7)
,21(8) S1166160100010110061011
AUTHOA:
Begahar-aY.R.B. Nt\
TITM
Protons Arising During a Nuclear Interaction
of the-Nucleons W Matter
PERIODICAL:
Izvestiya Akademil nw4k Uzbekskoy
SSR, Seriya fiziko-
matematiobes'kikh naukt 1960t Nr 1, pp 47-57
(USSR)
ABSTRAM
This is a report on the experimental investigation of
the
properties and the spectrum of particles with high energies which
are generated during the coll1sion of the nucleons of the cosmic
radiation with the matter. The experiments were carried out at
the
station for cosmic radiation in Alagez. The-magnetic sTeatro-
meter
of Alikhaiyan-Alikhanov was used. The particles werq.
generated in a
3opper absorber by obarged and neutral components
of thi cosmio rZ-3#
The intensity of the magnetio field w4~s
7100 e. The mean quadratio
error in the measurement of t 9
4
eveeT,
impulses of the particles was 212 % for impulses of 1100
and then it
increased proportionally to the impulee. It was
stateds The ratio of
the numbers of generated IE- and. 1c+ -mesons
Card 1/2
68586 7
On 1C-Mesons and Protons Arising During a S1166160100010110061011
Ruelear Interaction of the Nucleons With the
Matter
f is 100. The spectra of the generated JC-mesons and
+
1C
protons are given. The obtained results are compared vith
numerous watern and Soviet investigations about the same theme
The author mentions F.M.Kocharyan, A.V.Khrimyan, S.N.Vernov, 0:3
Saakyan, G.M.Garibyan, and 1.1.Galldman.
There are 5 figurest 2 Tables, and 32 references, 19 of which ar
Soviet, 4 English, I Cerman, and 8 American.
ASSOCIATIONsInetitut yadernoy fiziki AN Uz SSR (Institute of Nuclear
Phys ion
As UZ SSR)
SUBMITTEDt March 19 1959
Card 2/2
ol
S/166/61/000/004/004/007
B112/B102
AUTHORsi Begzhanov, R. B., Ivanovskiy, V. V.
TITLE: Study of the parameters of a scintillation spectrometer
PERIODICALs Akademiya nauk Uzbekskoy $SR. Izvestiya. Seriya
fiziko-
,matematicheskikh nauk, no. 4, 1961, 45 - 51
TEXTs The authors study the energy resolution and the
efficiency of a
scintillation spectrometer. On the one hand, scintillation
spectrometers
have a relatively high sensitivity to gamma radiation, on the
other, they
have a low resolution of the energy distribution of gamma
radiation. For
this reason, little is known about the energy resolution of
scintillation
spectrometers, and its comparison with theoretical values is
difficult.
The spectrometer examined by the authors consisted of an
amplifier of the
type 40Y-C (FEU-S) and a 40 mm thick and 40 mm high NaI(Tl)
spectrometer
crystal, The measuring arrangement consisted of a
photomultiplier, a
cathode follower, an amplifier, and a one-channel
isoriminator. The
authors measured the spectral lines of Cr5l and zn95. It is
shown that
under certain conditions - mainly under the condition that
the gamma lines
Card 1/2
27145
S/I 6Y6/61/000/.004/004/007
B
Study of the parameters of a ... B112 B102
have.Gaussian shape - the following holds for the half width 7Lof
the
gamma lines% 2 - OC+(6/E, where o6 and (3 are spectrometer
constants.
TC
The authors arrived at the following conclusions: The resolution
of the
spectrometer is 0.5 Mev for soft radiation and somewhat less for
hard
radiation. The theoretical values of the photoelectric effect cross
section of the NaI(Tl) crystal can be used for determining the
efficiency
of the spectrometer for r-lines which satisfy thp condition
'q'100%-< 0.5-100%/(2E + 0-5)- In this case the error is
approximately
16%. There are 3 figures, 2 tables, and 4 referencess 2 Soviet and
2
non-Soviet.
ASSOCIATIONt Akadomiya nauk UzSSR (Academy of Sciences Uzbekskaya
SSR)
SUBMITTEDs September 30, 1960
Card 2/2
S11661621000100110041009
B125/B104
AUTHORi aQgzhanov, R. B.
TITLE: Interaction cross section of high-ener particles
PERIODICAL; Akademiya nauk Uzbekskoy SSR. Izvestiya. Seriya fiziko-
matematioheakikh naukq no. 1, 1962, 33 - 36
TEXT: The author determined the inelastic interaction cross sections
of
high-energy protor and pions at the kamn station (3,200 m) by
employing
a magnetic spectrometer according to Alikhanyan-Alikhanov. Fluxes of
V-.*,
charged particles produced by,neutrons in a copper absorber, which
was
located above the spectrometer have been investigated with a..Set"ot
Geiger-
lZueller counters. The root mean bquaro error for the momenta 1; 5 10
and 50 Bev/C amounts to 2.21 111 22; and 66%. The interaction.cross
sec-
tion of negative pions was found immediately due to the identity of
the
negative particle flux with that of the negative pion flux. The cross
section of the nuclear interaction of protons has been found by
using the
relation G'(X_) a(-X') from a~p) (M+cf+) NX a(x) )AN+ N,,) which is
Card*-1/4
Interaction cross section of ...
S11661621000100110041009
B125/BI04
valid at high energiesi N+'denotes the number of absorbed particles;
N7_'
the number of the positive pions was assumed to be equal to the
number of
the negative pionsi 6-+ and 0~ are the cross sections of the
inelastic
nuclear interaction if the flux of positive particles and negative
pions,
respectively. Table I shows the cross sections of inelastic
interaction
of masons, table 2 that of protons and positive particles with
leadnuclei.
Neither Coulomb scattering nor diffraction scattering played an
essential
role. The number of deuterons produced in the positive particle flux
was
insignificant. The results of these two tables agree with results
obtained
in America with 4 to 5 Bev accelerators. The inelastic interaction
cross
sections of protons and negative pions with lead nuclei are constant
%vithin
error limits from 2.0 to 24 Bev for protons and 1.5 to 35 Bev for
mesons.
There are 1 figure, 2 tables#and 9 references, 5 Soviet and 4
non-Soviet.
The four references to English-language publications read as followss
Abashian A. et al., Bull. Am. Phys. Soc., 7, 350, 1956; Chew F. et
al.,
Phys. Rev., 99, 857, 19551 Chew F. et al., Bull Am. Phys. Soo., 29,
47,
19541 Coor T., Hill D. et al., Phys. Rev., 98, 1369, 1955.
Card 2/4
s/166/62/ooo/ool/004/009
Interaction cross section of ... B125/B104
ASSOCIATIM Akademiya nauk UzSSR (academy of Sciences Uzbekskaya SSR)
SUBMITTM; August 16, 196o
Table 1. Cross sections o~ Anelastic interaction of mesons with lead
nuclei.
Legend: (1) Intervals of the momenta Bev/C; (2) mean kinetic energy,
Be,4
interaction cross sections, barn.
1,.',9
1 32
1.45
1,950�0, 87
::
1:59 1 )9
1 77
2.040*0.167
199 2 . 55
1;20
2 060 * 0. 175
2:65- 3,96
3,18,
1:835�0.197
3.19-5-30
3, 93
%S�O,IBD
3.98- T95
30
5,
1:840�0 139
5.30-15.9
795
1 815�0:197
795-oo
-W
84:40
1:810�0.215
&
Card'3/4
7777-7777-
S/166/62/000/001/004/009
Interaction. cross soctior of B125/B104
Table 2. Inelastic intexaction cross section of protons and
positive par-
t4cles with lead nuclei.
L;gend: (1) intervals of momenta, Bev/C; (2) mean kinetic enerey
of protow,-
Bev; (3) cross sections for the mixture of positive particles,
barn; (4)
proton cross sections, bt.::n.
1.99- 2.6s CA 1.930 1.720-+0.189 .870.+10.145
1) 65- 3,98 2,37 1 640:k0 150 1 702�0.185
5:19- 5.10 3.60 1:780;o:170 1:791 *0 ?20
3 98- 7"95 5.16 1.860�0 208 1. &50�0:260
5:30-15.90 7,46 1.780�0:230 1,711�0,300
7,95-00 24.60 ),&3D�0.290 1.770�0,360
Card 4/4
AUTHORS:
TITLE:
PERIODICAL:
S/056j62/043/003/011/063
B125/B102
Kaipov, D. K., Shubnyyy Yu. K., Begzhanov, R. B., Islamovy
A4 As
Resonance scattering of I-quanta from Sn 116 nuclei
Zhurnal eksperimentallnoy i teoreticheakol fiziki, Y. 43,
no. 3(9)1,1962, 808-812
TEXT: The method of resonance scattering ied to 1290-kev y
clei of a gaseous W&16&ppl
quanta from the Sn116.nu in mCl3 source (Fig. 1) +o
determine the lifetime of the first excited 1.29-Mev level. A
similar
value.is obtained by the method of Coulomb excitation. The InCl
3 produced
from enriched metallic indium was sublimated into a quartz
ampoulep which
was then evacuated and subjected for I hr to the thermal
neutrorl flux
(,, jo13 of a BB'P-C (VVR-S) reactor. Following this it was
heated to
500-550 C for 1 to 2 hre so that InCl sublimed ('v0-7 atm). The
I-quantum
scattering was measured by two symmetrically arranged
scintillation
Card 1/0
S/056 62/043/003/011/063
Resonance scattering of too B125YB10c.
epectrometers(Fig. 1). The time dependence of the counting rate was.
determined by using first & solid source and then a heated gaseous
source
in 28 series of measurements. lith cold sources-the increase in the
counting rate with time is approximately exponential and with gaseous
sources almost exactly so. Owing to the resonance effect
the.transition
of InCl3 into the gaseous state creates a peak at i.29 Mev In the
scattered radiation spectrum. A-llowing for the self-absorption of the
X:quanta in the scatterer and their angular distribution t~e mean
value
d of the resonance cross section is (5-31 + 0-50)'10- 20 OM2, No Py
and no 11 correlations are assumed in the casc-ade, and the free
116m
In atom is repelled. Taking account of all cascades N(E 0.0127 ev
p
follows for the microspootrum. From this value, and from the
experimentally determined'yalue of F, the Iffetime of the 1.29-1hov
lovel
is -Cy a (1 .8 + 0.27).10-12 sac (transition 2+ -* 6+). For the same
lifetime
the method of self-absorption given v, a (6-4 ;t 2-7)-10- 13 sec. This
value agrees with that obtained from the Coulomb excitations. The
considerable divergence-between the lifeiimes found by the two methods
Card 2
S/056/62/043/003/011/063
Resonance scattering of ... B125/B102
is due to the effect of the chemical bonds in the molecule on the
energy distribution of the -quanta. The E2-transition with
EI . 1290 kev (solid souroel is an accelerated transition with the
acceleration factor 10-5. There are 5 figures.
ASSOCI ATION: Institut yadernoy fiziki Akademii*nauk Kazakhakoy SSR
(Institute of Nuclear Physics of the Academy of Sciences
Katakhakaya SSR). Institut yadernoy fiziki Akademii'nauk
Uzbekskoy SSR (Institute of Nuclear Physics of the Academy
of Sciences Uzbekskaya SSR)
SUBMITTED: April 19, 1962
Fig. 1. Schematic drawing of the experimental arrangement.
Legend to Fig. 1: (1) sourcel (2) electric furna, e; (3), (4) Sn and
Cd
absorber (in experiments with aelf-absorption~j (;) lead cone; (6)*,
(9)
Sn and'Cd soatterer; (7) NaJ (Tl) crystal, (8 photomultiplier.
dard 31f