SCIENTIFIC ABSTRACT SHAMOV, V.P. - SHAMOVSKIY, E.KH.
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CIA-RDP86-00513R001548430001-5
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RIF
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S
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100
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Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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V' 499 -AEC-tr-2294
THE PROBLEM OF THE ANGULAR DISTRIBUTION OF
FUMON FRAGMENTS OF URANIUM AT HIGH ENERGY
EXCITATIONS. 0. V. Lozhkin, N. A. Perfilov, and V. P.
Translated by V. N. Elmsky-Korsakoff fr~'w
absumv.
Akad. Hauk S.S.S.R. 103. 407(1955). 39.
The a*olar distribution olVaslou fragments of uranium
was stW11bd by using thick-layered photographic plate&.
Nuclear fine-grained emulsions of the type x-9 were
saturated In it uranium salt solution &W bombarded with
$60-Mov, protons. In all the observed cases of fission of
anslum nuclei tbo direction of scattering of fragments with!
respect tothe direction of the failing proton and the angle
between IM (rwments were measured (!Ike jqkal excitation.
energy of fission nuclei wax measured by the angle bctiieea-w
the fragments). All the fissions were divided into three
groups according to the energy of excitati-3n, of :he fissioni
nuclei: 60. 150. aM 320 Mev. The angWar distribution of
The fragments of urardunt fission as a function of the Initial
energy of exr1tation Is given. In the case of all the ob-
served fissions the angular distribution can be approximate-
ly described by the function I (#) - a + b sfn4 0. where V to
the projected ante between the direction of the divergence
of the fragments and the direction of the falling proton.
(4uth)
Coll)
275 AEC-tr-230~
ON THE YIELD OF F15SION AND STAR FORMATION
AFTER CAPTURE OF v- MESONS BY THE NUCLEI U, 91,
AND W. K. A. Perfllo~, 0. V. Loxhkin, and V. P. Shamov.
Tranalated by Morton Hamermpah from Dok4t7y-ATJ--/
Nauk S.S.S.R. 103, 417-19(1055). 7p.
The ratio of fission and star formation probabilities
after r"~-megon capture by U. III, and W was studied by
placing these elements. In the form (if fine-grained oxidea.
In the central InyPr of a three-)ayer nuclear emulsion. T!:,i
results of the expurlment are tabulated and s)mw the number
of stars per fission for U;04, B120j, and WO, to be 0/2.4.
57, and 133, rrepectively. (D.J.H.)
with a proton -seaBitIvity. limit of about 80 MeV, Mill
Mere found with an average of I particle emitted. ?bus 4
:of the particles have energies greater than 80 MeV. The arigu-
'lar distribution of these particles was predominantly forwa;d.
3t Is concluded that the majority of the pirficles originate in
'a nuclear cascade process in the uranium nucleus. Upper and
bower limits to the mean excitation energy are roughly eatimat-
ed to be 198 and 128 MeV respectively. The fission cross-
isection was found to be 1.2 � 0.3 barn, so that about 70 t 18%
.of uranium nuclei undergo fission on Interacting with 460 Mev
!protons. The mean total path of the fission fragments Is found
~io be the same as for fission by jr -mesons and by slow neu-
The kinetic energy of the fragments is therefore
dpeTiLd only from their Coulomb repulsion. J.B.Sykes
------------
539.172.13
3. THE FISSION OF URANIUM NUCLEI BY PROTONS
OF ENERGY 460 Mev. . N.S.1vanova, NXTeMov and
i
V.P.Shamov.
uk SSSR, Vol. 103, No. 4, 573-5 (1955). in
Aussian.
Photographic emulsion piates loaded with uranium were
;Irradiated by protons of energy 480 MeV. In an electron-
sensitive emulsion, 46 fissions were found, of whIcb 83 we
%'
accompanied by the emission of light charged particles ip to
I
.2p
six in number, with an average of 1.65). In another e I
r
1-1,4 A4e, v/
SHAMOV, V. F., UIANOVA, N. S. and Ff--RFrLLOV, N. A.
"Exposition of Lhe Results of InvesUgation of Fission by the Method of
Photoemuls-ions in Perfilov's Laboratory in the Leningrad Radium Institute",, a
report presented at the Conference on the Physics of Nuclear Fission, 19-21
January 1956, Atom Energ., No. 1, 1956.
SHMOV, V.P.
Nuclear emulsion techninue for the threshold of emiasive
f iso ion. Atom. ent-rg. supol ement -r).-1:12c)-151 '57. (MIRA 10:10)
(Nu(,lenr fission) kPhntoprnphy, Particle track)
SHAMOV) V. P.
"The Use of Heavy Photographic Emulsions to Determine Emitting Fission
rEhersholds", Atomnaya Energilya, Vol 2, Vo !, Jan 57, P !00.
3U14. 1322
A-1 ------
-str: Wa
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p
'
4
0 2
3
)? I/
P
-
,
FMION OF IV AND PlIOTACTINHIM Mlaa EX-.
CITATION ENERGI adiunt Inst.
Academy of Selene R). Zhuir.Eks '.Reoret.Fli..
N
tU57) Russian)
,
g.
Fission of U and Pa for Initial excitation energies of 100
Alev is considered. The analysis is based on comparison,
of the yields of the uranium isotopes and prot-
actinium Isotopes Pa"' -Paz" (equal values of the parawL
eter ZZ/A) produced in the dtsinteffrailon ofuranfun3 Ulm
by 340 Mev protons. The results of the analysis poluwadjo
emission nature of U and Pa fission in We uvficat~d range
of Initial emcitation, ene4y. tr-auth)
AUTHOR PERFILOV SHA1,10V V. P, PA - 2651
TITLE The tr_iple fission of uraniura by fast particles.
(Troynoye deleniye urana na bystrykh chastitsakh. - Russian)
PERIODICAL Doklady Akademii Nauk SSSR 1957, Vol 1132 Nr 1, PP 75 - 77
(USSR).
Received: 5/1957 Reviewed: 6/1957
ABSTRACT Experimental Data:
Plates saturated with uranium were irradiated by 660 -protons.
On examination of the Aates several fissions of the uranium
were registered where multiple-charge particles were radiated
with Z > 4. Among these particles a plane threefold fork was
found. The traces of all three particles of this fork belong
to multiple-charge particles: two belong to fission fragments
of a heavy nucleus and the third possesses a much stronger
darkening density than the traces of a-particles. The authors
used a specially fine-grained emulsion with the limit of
sensitivity of , 35 MeV for protons. The blackening density
aloug these three traces was measured photometrically. The
results found for total blackening are shown in form of a
diagram and compared with the blackening of the traces of
nitrogen ions. The nuclear charge number can be determined
from the angle of inclination of the blackening curve. For
one of the particles the value of ZIII - 9,8 + 1. was
CARD 1/2
ar- 2,1r:
V - p
SOV '5' 35-
2 -2/60
1 T LE; T~l l'u i by Prot.:,,-,s of High Enec,,-y
Do I ei. ~---d; r je rev-~ral urc~-r onami b(Al - shoy enerciA4.)
PERICDICAL. ZhUfl":L, i tooreti,:1,eskoy f ziki
~5, 'Tr '2 ~;'6-121 (USSR)
ABSTRACT. Such fission tro~~,~sses have already been investi6ated
I.imes in t*,-l-- case of heavy and lif,ht nuclei but not
in case of nuclei- of medium wei-~t- It was t1his fact
that ~-aVz -r4S~E: ro the prese-lit -aork fo:t which the author
1~e nuoiear emul s- or, -11 sensitive" with a 1-,.roton
sens~f,'-v,'Y OC-45 ~Jev -,,;hich, had beer irradJated with an
intc.nsi-,re -roton beam, of different enerr-Y. (Irradiation
:arried out On tile synehro7yclotron of the Obl'yedinennyy
inst-itut. yud-1.-i,1,,M,, is-!1---?dcvaniy - (United Institute of
V.- -ear R~-skaar.,10) -esults-
r- [._~m2]
d LI E M- e 7,1] a (A6Br)
f I
0 6 0 5- i
7 '. 0 28
C C,
T m~ -;1. . ~ : : 11 - C)
si~, :i'a S cv,,'g 7 z2
th-,_-.i:ness :f ~he coDw,er -filter E! D-oton ener--y
D
b-,?h:.nd ~1-ie fi'lte-. c~, = liss:jn crcss e-_'.Lcn~
-.1a,.-ters deal the fina' nusie4 in dependence
r ac_~ t1. e t e ra o n T! ro - e s sspailaticn
a s a LIL .--, ~ ~ , ,, e -
ra-.L on ) Th- f Ission of silv r nuclei leads to
of fra~Tments of equal i.-.ass as well as to the
a larL:e !;--Mber of charged particles In
s i_ c. nh t2 a it ti c, r t, h src. Fe s s o rA Perfilov as
'Ir"li as C; V Lozlikin, " 1 Ostrcumov.. and V F, Dar~vsktkh
fcr Ilie _i r advic e and c oc ceration There are 2 fi.-Ures
ta"-d'ej , and gj of -ahis1h, are Soviet
ASSOCIATIC-11" Radly~_vy,-; i-,stitut nauk SSSR (Radium Institute,
'S T-,SSR)
Feb~ruary 18.,
C -a r d ~',; 2
SUMOV I V-1 P.
Mechanism of the fission of uranium at high excitation energies.
Trudy Radiev.~=t.AN SSSR 9:45-51 !59. (MM 14-.6)
(Uranium) (Nuclear fission)
SHAMIOV, V.P.
Fission of heavy nuclei (Z!S 73) at high excitation energies. Trudy
Radiev.inst.AN SSSR 9:52-54 159. (14IRA 14:6)
(Nuclear fission)
SILAMOV, V. 1'.
Preparation of a solution containing bismuth for filling nuclear
photoemulsions. Trudy Radiev.inBt.AH SSSR 9:279~-280 159.
(KERA 14 :6)
(Bismuth) (Photographic emulsions)
S/194/5 110,00100510 10/07a
2, .2, Q o (5 D201/0303
Gorin, A.V., Gros;1-,iz!.-a, V-A., Drepchdnrl-4y, L.V.,
AUTHORS
Rayevskiy, B.N., L.P., Storozheril-o, E.P.,
-7
Fedorov, Yu~p_ and ShLmov, V.P.-
T !'C- E - A mobile emcreency laborator-y usim,-
semiconductor devices
PE~tIODICAL: Rcrerati-vnyy zhu---nal. `wtomatika i
no. 5, 1961, 31-32, abstract 5 1-935 (DoLl. -n-uchn.
konferewcsii in-ta radiats. gig-Eyeny po itogzn rab-
oty za 1959, g., L., 1960, 18-19)
T--=: A deocriptio,-l is give-,I of -- conn-.Aete mobile laboratory,
mau7.ted oa the automobile YA3 -450 A (U,%2-450 A) and which is to be
u:,2d for detecting radioactive isotope contaninatioa of certair,
arear or of separate objects. The lc~boratory equipment concints
o~ the folLowing- 1.) aucc,.-.iat-*c recorder of the level of '(-back-
ground from 10 to 10-~' microcurie/hr ((VPr-rjrC-5)(1RG-PGS-5)); 2) 2
Card 1/2 41
0
2 ~ ---15
S/194/61/000/003/010/076
A mobile radiometric em,2ri;ency D201/0303
calculating machines 3) vaDplier, 200-
2000 V; 4) her.-d screening (thic',17Lc-cs 40 m,,) for counter--- C-,-C-5 (STS-
5) in c~Lssettes or for the end-countcr- 5) rate counter~'O
(1,'G-IP-1) with countin.,, rate up to 166 pulscs/.-i,; 6) bz,t,a-gcz-,-aa
nort,.,ble scintillating radiometer with (,Z;'1-25 (r--,-U-25) Vpi---?,-2
(!'~C-PP-2). Power for the whole installation is supplied by the
autcnobile battery. Power comsumption -, 15 watt. The laborattox-i
personnel consists of three operators and driver. f-Abstracter's
note: Complete tranalatio--7
Card 2/2
IL
All It-11ii 14 S
;jig i PH
At
al
a
A
11M,
t -ndr~iz -f V6. 0
~tl- .,C u.~
1 t t!
3 ly r 6
F 1 1
85345
q,,76'00 S/120/6o/000/005/013/051
E192/Z382
AUTHORSf Rayevskiy, B.N., Romanov, L.R. and Shamov, V.P,
QZZZZZZZ7~_~
TITLE,, A Counting DecadepBased on Transistors
PERIODICAL.-. Pribory i tekhnika eksperimenta, 1960, No. 5,
pp, 62 - 64
TEXT~ A detailed circuit diagram of the device is shown in
Fig, 1. The decade consist.of four bistable circuits and
a diode reset key. 1he b1stable circu-i-ts ard based on tran-
sistors type 'n'4 (PiU. The circuits are reset to zero by
momentarily applying the supply voltt$e to the collector of
the lefthand-side transistor via a (flode. Unlike in the
standard decade circuits, a direct feedback is provided from
the output of the bistable circuit T I to the input of the
circuit T4 and by providing a diode key between T, and
T2 The decade operates as follows, Normally, all the
bistable circuits are in their rest position. whlzh is
characterised by the lefthand-side iran5l5tov be�nG closed
and the righthand-side transistor conducting. A voltage of
Card 1/3
85345
S/120/6o/000/005/013/051
E192/E382
A Counting Decade Based on Transistors
-10 V is applied to the key diode from the collector of the
lefthand-side transistor of T 4 1 The divider R 10 and R 1.1,
keeps the anode potential of this diode at -8V,~ consequently
the diode is conducting, Thus, the key transmits positive
pulses to the input of T 2 ~ The pulses appearing at the
second input of T 4 cannot operate it since its righthand-
side transistor is open, The eighth pulse triggers T 4
so that its lefthand-side transistor be-comes conducting and
the righthand-side tnansistor is closed, The voltage at the
key diode will thus be increased to -1.5 V and the kev becomes
nonconduct~.ng to positive pulses, The ninth pulse changes
the state of T, , while the tenth pulse returns T I and T 4
to their rest position, The decade now produces a positive
output pulse and returns it to its original state, The
resolving time of the decade is 7 4s and the power consumed
by it is O~15 W. The decade was constru~_-ted as a plug-in unit
Card 2/3
85345
S/120/60/000/005/013/05'.
E192/E382
A Counting Decade Based on Transistors
and its photograph is shown in Fig. 2,
There are 2 figures and 5 references--, 3 Soviet and
2 English,
ASSOCIATION.; Institut radiatsionnoy gigiyeny
(Institute of Radiation Hygiene)
SUBMITTED2 September 17, 1959
Card 3/3
86740
S/12o/6o/ooo/oo6/O15/O45
E041/E335
AUTHORS: Bezmenov, O.M., Lebedev, O.V. and Shamov, V.P.
TITLE-, Wide-band Transistor Preamplifier
PERIODICAL4 Pribory i tekhnika eksperimenta, 1960, No. 6,
pp. 56 - 57
TEXT: The circuit of Fig. 1 is to match the high output
resistance of the photomultiplier of a scintillation gamma-
ray spectrometer with the low characteristic impedance of a
coaxial cable. The great pttraction of tke transistor circuit
is its freedom from microphony. The two transistors T13
and ri 4 form an emittev follower analogous to the White
circuit, well known for tubes. The base current of the lower
transistor, whose high AC resistance constitutes the emitter
load of the upper transistor, is stabilized by the silicon
stabilistor ri 5 * The transistox-s ave alloy-diffusion
types Fj-LV.0'L (P-402) or Vj-L,,03 (P-403). The load on the
amplifier is a 150 ohm resistor connected by 20 m of coaxial
Card 1/4
86740
S/12o/60/000/006/015./o45
Eo4l/E335
Wide-band Transistor Preamplifier
cable. The overall gain, including the cable, is 0.92. The
input resistance of the amplifier is 250 krL in parallel
with 16 pF. The output resistance of the amplifier is 8.6 a
The circuit will handle without distortion Rulses between
+0.4 and -3.5 V, at temperatures up to +70 C. The rise time
does riot exceed 2 x 10-8 sec with a very small overshoot.
Fig. 3 shows the effect on the rise time of the output signal
10-8 As) on the capacitance (C H' AAF) connected in parallel
wit the load resistor (150 ohm); the rise time of the input
signal is 3.8 x 10- 8 sec. To obtain the best results the
transistors are carefully selected. TI 1 and TT 2 should
have high p , -IT 3 can have an average p while n 4 is
not critical. The diode C~-81o (D-81o) can be changed
Card 2/4
86740
S/120/60/000/006/015/045
E041/E33515
Wideband Transistor Preamplifier
if R 6 and R 7 are modified to give a through-current of
1.5 - 2.0 MA. The operation is proof against supply
fluctuations of + 10%. A.N. Pisarevskiy is thanked for
70
valuable comments. There are 3 figures and 4 references:
1 Soviet and 3 Enzlish.
- j
10-Wwres
zo-
Al
2,50V javu wou Joao
C"NK"P
PUC. J. 3almasmoc_Tb Boemenn Hnpa-
CTaIIHH DEJXOAHoro carnaia OT Be-
"TIMIUM 01HOCTit, rjpricoe~inneuitoft
nalm.memmo ijarpywc M c.u.
i i pem f, lapse-mimst curnana un
Card 3/4 Bxo;(e 3,8-10-1 cex
z
Puc. 1. Cxesfa IIPC;IYCU.IUTe-'Tll
86740
S/12o/6o/ooo/oo6/O15/O45
E041/E335
Wide-band Transistor Preamplifiers
ASSOCIATION: Institut radiatsionnoy gigiypny
(Institute of Radiation Hygiene)
SUBMITTED: November 9, 1959
S/194/61/000/001/011/038
D216/1)304
AUTHORS: Lebedev, O.V. and Shamov, V.P.
TITLE: Portable counter using decatron tubes
PERIODICAL: Referativnyy zhurnal. Avtomatika i radioelektronika,
no. 1, 1961, 1, abstract I E3 (Gigiyena i sanitar-
iya~~o. 7, 1960, 63-64)
TEXT: A counter using decatrons has been designed for working
with nuclear radiation counters. The memory storage capacity is
106 - 1 pulses and tlie computing speed is 3 x 106 pulses per r-An.
There is an intensimeter and a regulated 0 - 1.6 kV ERT supply for
the counters . The total supply power is 35 W and the dimensions
are 320 x 195 x 135 mm3,
Card 1/1
PERFILOV, N.A-; IVANOVA, N.S., LOMKIN, O.V.; RAKAMV, M.M.; OSTROMMOV, V.I.;
SOLOV'-YEVA1 Z.1,; SffiIMOV, V.P.
Fragmentation of Ag and Br nuclei by 9 Bev. protons. Zhur.eksD.i
teor.fiz. 36 no.2:345-350 F 160. OMIRA 140)
1. Radiyevyy institut Akademii nauk SSSR.
(Protons) (Nuclear reactions)
83718
S/05~`,'160/075a,'C'04/31 1- j/C4-P
24-44oo B01 9,~B070
AUTHORS: Arifkhanov, U. R., Yakarov, Al. M., Perfilov, N. A.,
Shamov, V. P.
TITLE: -Production of FragmenteUnder the Action of 100-Tilev Protons
PEaIODICAL: Zhurnal eksperimentallnoy i teoreticheskoy fiziki, 1960,
Vol. 38, No. 4, pp. 1115-1122
TEXT: The authors have investigated the fragment production of the
nuclei of a photoemulsion. The emulsion used was of type 17-9 (-q)
(P-9 (ch)), which allowed the observation of the charged products of
nuclear fragmentations, and a visual study of the multiply charged
particles with Z >, 3, ofc~-particles, or protons. The experiments were
carried out at the synchrocyclotron of thL OIYaI (Joint Institute of
Nuclear Research). Fig 7. 1 shows the experimentally observed fragment
production cross section as function of the nhoton energies for heavy
and light nuclei. Fig. 2 shows the reduced probability for the departure
of fragments from a heavy nucleus as a function of the number of prongs
of a star. In the fragmentation of Ag and Br, the following fragments
Card 1/2
83718
!,!OZ. C
Production of Fragments Under the Action S/056 '60 r'D35,"CuM/.'_D1
of 100-Mev Protons B019/BO7-U
wero foiind: Li (30), Be (14), and B (5). In the fragmentation of 0, 11,
(20), Ba (112), and 9, "1).
and 0 the ronowing fi-atrinents wore roundt Li
Fig. 3 shows the energy distribution of the Li and Befra.C~irients for heavy
and light nuclei; Fig. 4 shows the distribution of the fragments accordinT
to their range, and Fig, 5 shows the angular distributions of the frag-
ments. The fragmentation cross section for the heavy nuclei of the
emulsion is -iven to be 1.93 1 0.64 millibarns and of the light nuclei
1.16 � 0.36 millibarns. The results of Q, V. Lozhkin nd N- A, -Rerfilny
(Ref. 6) and 11. G. Meshcheryakov ( ef. 14) among others are also mentioned.
- the results the authors conclude that for the
From the discussion ol
energy range of the incident protons ( -100 Mev) investigated here the
fragments of secondary nucleons are formed by quasi-elastic scatterine
on moving nucleon complexes. There are 8 figures, 1 table, and 18
references: 7 Soviet, 8 US, 1 Japanese, 1 French, and 1 German.
ASSOCIATION: Radiyevyy institut Akademii nauk SSSR (Radium. Institute of
the Academy of Sciences, USSR)
SUBIMITTED: November 26, 10/59
Card 2/2
21(7)
AUTHORS: Perfilov, N. A., S/053/60/070/01/001/007
Lozhkin, 0. V., Shamov, V. P. B006/BO17
TITLE: The Processes of Pragmentatio and Fission'91n the Interaction
Between High-energy ParticleAnd Nuclei
PERIODICAL: Uspekhi fizicheskikh nauk, 1960, Vol 70, Nr 1, PP 3-56 (USSR)
ABSTRACT: The present paper gives a detailed survey on the fundamental
problems of nuclear fragmentation and fission. Prom the large
number of publications available in this field individual
examples are chosen and discussed to illustrate the chapters.
In the introduction the cascade evaporation model used for de-
scribing nuclear reactions induced by particles with energips
ranging from 102 to jo4 Mev is discussed and the conclusions
drawn from this model are investigated individually. Part I
deals with fragmentation. Pragmentation is any form of nuclear
disintegration on which multiply-charged particles with Z > 3
are formed. The individual sections of this part deal with
1) fragmentation cross section; a three-page table and a num-
ber of well selected diagrams illustrate the effects influenc-
Card 1/3 ing the cross sections. 2) The multiplicity in the fragmenta-
The Processes of Fragmentation and Fission 5/055/60/010 / .'01/'001/007
in -the Interaction Between High-energy B006/BO17
Particles and Nuclei
tion process; 3) the nature of the fragments produced, 4)energy
distribution of the fragm;3nts Figs 11, 12, 13); 5) angular
distribution of the fragments Mg 14, Table 3); 6) the proper-
ties of the residual nuclei; 7) the mechanism of fragmentation
(nuclear cascade process, particle evaporation of the excited
nucleus, process of asymmetrical nuclear fission, hypotheses
on the fragmentation process). Part II deals with the charao-
teristics and the experimental results of nuclear fission at
high excitation energies. Section 1: fission cross sections;
section 2: angular distribution of the fission fragments,
section 3: mass spectra in fission (Figs19, 20, 21); section 4:
fission mechanis'M and the methods of its determination (inves-
tigation of the energy~'spectrum and of the number of charged
particles - photometh6d; analysis of the ranges of the frag-
ments in the case of different primary excitation energies;
investigation of the angular correlations of the emitted parti-
cles with the fragments; Monte Carlo method). For each of these
methods which are individually described the authors give
Card 2/3 examples (mainly taken from western publications). In the paper
The Processes of Fragmentation and Fission 3/053/60/070/01/001/007
in the Interaction Between High-energy B006/BO17
T
Particles and Nuclei
only N. S. Ivanova, V. Sedorov, Ye. Grigorlyev, V. N. Mekhedov,
0. V. Lozhkin, and V. I. Ostroumov as well as R. Filov are
mentioned among the large number of non-Soviet scientists.
There are 25 figures, 9 tables, and 214 references, 74 of which
are Soviet.
Card 3/3
PERFILOW, N.; LOZKIN, 0.; SZAMOW, W,
Fragmentation processes in interactions of high wiergy particles and
nuclei, Postepy fizyki 12 no.2:115-153 161.
1. insty-tut liadowy Akademii Nauk ZSRR.
S/186/61/OC3/002/018/020
A051/A129
A1JTHORSs StariK, I.Ye., Shamo Arslanov, Kh.A., Zharkov, A.P.,
Murashov, G.A.-
TITLE: Scintillation technique of counting natural radio-carbon and its
application to the determination of the absolute age 14
PERIODICALs Radiokhimiya, v 3, no 1, 1961, 101-113
TEM The present article deals with a method developed by the authors for
liquid-sointillation counting of natural radio-carbon, intended for deter-
mining the absolute age. The following scheme was used for the chemical
preparation of the samples
carbonate samples + RCl +NH4OR
organic samples * 02 1-0 C02 -0 (NE 4)2CO3
Card 1/18
Scintillation technique of counting S/186/61/003/ 18/020
A051/1129
(NE 4)2C05 + Sr(NO 3)2 P SrCO 3�A4. Src 2
SrC2 + H2 0 -0 C2 H2
3C2H2 Ni (CO)2 EP( 0 C6H6
25 atm., 65 C
C H + C H Al, AlClIf __ HC1 0. CH C
2 2 6 6 650 6 5 2H5
A coincidence scintillation counter was designed for counting C14, and be&-
zene and ethylbenzene were used as the liquid scintillator solvents, synWe_
sized according to the above-given scheme. Combined with a highly-effective
counter these can be used to determine the absolute age up to 37,000 years
in the case of ethylbenzene, and 46,000 years in the case of benzene. lj~,
selecting a scintillation counting method the authors base their attempts on
finding a substance which is easily prepared and does not require large
Card 2/8
S/166/61/003/001/018/020
Scintillation technique of counting A051/1129
amounts of carbon, so that the advantages of both the proportionate and
scintillation methods could be combined. Ethylbenzene and benzene chosen
by the authors as the carriers of the natural carbon activity are said to
render the scintillation method applicable to young samples and in the case
of old ones increase the sensitivity of the method. Ethylbenzene is reoc
mended from the following oonsiderationss 1)22.3% from the sample can br
introduced into the othylbenzene molecule; 2) the othylbonzen* molecule it-
self is an excellent solvent of liquid scintillators, being inferior only to
the very best solvents, such as toluene, xylenel 3) its preparatibn and yu-
rifioation are simple and do not require complex apparatus or reagents 0
difficult to obtain; 4) for its synthesis a relatiTely low &mount of oarbonp
SjI5 g, is required. The apparatus used by the authors to count natural
0 4 is d*soribeds the photomultipliere function at room temperature, the
complete amplification of the amplifier is 400. The counting rate of the
noise pulses at an effectiveness of the count of natural 04 equalling 60-
65% in 0-5 Pulses/min. An upper level discriminator is used to lower the
counting rate of the background determined by the cosmic and external radia-
tions in the givon apparatus. Fig I is a blook-diagram of the described
Card 3/8
8/18 61-/003/001/018/020
Scintillation technique of counting ... A051YA129
apparatus and Fig 2 shows the principal circuit of coincidences. The tubes
of the apparatus are fed by stabilized sources of anode and incandescent
voltage, and the photomultipliera by a K-9(V3-9)-type high-voltage source.
The positive pulses from the exits of two non-overloaded amplifiers are fed
to the inputs of the diode low-level discriminators 20 &Q9 in Fig 2).
The limiting ( A 7~- ) diodes are used for eliminating the 'negative pulse
outputs fed to tA9I 14-levol discriminator inputs. The selected photomulti-
plier should the following requirementst 1) a high son itivit Of
the photooath::!t'f~ a high total sensitivity, 3) a low noise 1:vOl, 4~ sta-
bility over long periods of service, 5),t good temporary resolving power.
The adjustment of the counter for the 0'-v spectrum is carried out according
to the 'f-line of C513T. The discriminators of the lower level are installed
13 o that the number of the noise pulses at the output of the circuit of ooin-
cidenoes would be equal to 0.5-1 pulose/min. The sample in counted in a
15-5 cm%voluae ouvette made of optic quartzite. The preparation of ethyl-
benzene and benzene from the carbon of the investigated material involves
the following chemical stepet 1) formation of CO' from the sample, 2) pro-
duotion of strontium carbonate from CO2 of the aWle, 3) reduction of the
Card 4/8
S/186/61/003/001/018/020
Scintillation technique of counting ... A051/A129
strontium carbonate to strontium carbide, 4) decomposition of strontium car-
bide, separation of acetylene from hydrogen and purification of acetylene,
5) synthesis of ethylbenzene from acetylene, 6) purification of ethylbenzene
and benzene. The samples to be measured are carbonates or organic substances
(coal, wood, peat, etc.). In both cases the carbon of the sample is separat-
ed out in the form of CO . The formation of C02 from the carbonate samples
is performed by the deco4osition of the sample with hydrochloric said. If
the investigated sample is an organic material, the formation of CO 2 is
carried out by heating the sample in an oxygen flow. The single synthesis
of large amounts of acetylene (up to 30 1) is carried out according to the
Suess method (Ref 4), the main advantage of which is said to be the almost
quantitative yield of acetylene (95%). The synthesis of ethylbenzene is
carried out according to the method of hydroalkylation of benzene with
acetylene in the presence of metallic Al, AlCl and hydrogen chloride (Ref
16). The authors conducted a complete synthesis of benzene from the in-
vestigated material according to Reppe's method (Ref 13). The catalyst for
the synthesis of benzene by the given method is a compound of a -mixed t e
having both an organic as well as an inorganic naturet N'(CO)2fp(C6H5)72-
Card 5/8
L 6860-65 EWT'(m)/EW (c)/Zq~,/EWP(J)/T/r!,WP(q)/W(b) Pc-4/P%7-4/Pa-4 f.JP(c)/.
-AFn/ESD(t)/RAEM(t) RM*YI/JD
ACCESSION NR: AR4044269 9/0272/64/000/006/0160/0161
SOURCE: Ref. zh. Metrologlya i izmeritellnaya tekhnika. Otdellny*y. vy*pusk,
Abs. 6. 32.1133
AUTHOR: Gutkevich, S. G.- Lebedev, 0. V.-L Pi Sel~aninovi,
N. S.; Shamov, V. P.
TITLE: New methods for the packing of scintillators
f
CITED SOURCE: Sb. Stsintillyatory* I stsintillyats. materialy*.- Khar1kov,
lQarlkovsk. un-t, 1963, 236-238
TOPIC TAGS: scintillator, single crystal, stilbene, tolane./OK-50 glue
TRANS LA'nON:.,-' There is described a method of packing of single-crystals with
the help of e'OK-50. I
The,~method ensures transparent, colorless, and very
durable gluing of sc* tillators;-Nal(Tl), CsI(T1), EJ(TI), stilbene, tolane, and
plastic crystals with glass, improves their resolving power, and makes it
Card 1/2
SILAMOV, V. P... MALYKH1N1 I. M.
"Method for Calculation of Absorbed Doses from Bioassai Data --*,- Cases o-,r' Ch-ron-ic
Ra-226 Intake."
report presented at the Symp on Assessment of Radioactive S-ody Burdens in Man,
Heidelberg, 11-16 Ma~ 64.
L 53697-65 ... ....
UR/0240/64/0oq/olq/b"6/b1o4
AGGESSION NR: AP5017369
AUTHOR: Shamov, V. P,_
----------
TITLE: Concerning the maximum a3.1ovable concentration of strontium-90 in food
products
SOURCE2 Gigiyena i sanitariya, no. 10, 1964j 96-104
TOPIC TAGS: radiobiology, radiostrontium, radioisotopes radiation biologic
food azanitation, air pollution
thor is a member of.the InternatIi
~Abstracts The au onal,Co'mmisaion on
Radiation Protection which, at its Stockholm meeting (date not given)
proposed revision of the values of the maximum allowable concentrations-,
in air and food products for such radioactive isotop9s as had sufficient'
data on their biological effects. The present article deals with Sr9O
and an editorial preface states that it Is published for discusslon-since-.'
its conclusions, Insofar as tho general population is concerneds must ba
considered still controversial.
go The available data concerning the maximum allowable zoncentratiov
.of Sr calculated according to various models representing its accumula-
tion in the human body is summarized and tabulatedg with a distinction made
i
I
-65 2WT(m)/E'WA(h)._,
L 63802
NR: AP5021769 uR/o?_4o/64/bo0/0il/0104/0111
ACCESSION
AUTHOR: Shamove
TITLE: Problem of the maximum permissible concentrations of uranium in water
and air
Gigiyena i sanitariya, no. 11, 1964,.lo4-iii
SOURCE:
TOPIC TAGS: air pollution, water pollution, uranium, radioactive contaminat]jon
isotope
ABSTRACT: In co"
nnection with a review of the established values of the
maximum permissible concentrations of uranium in -water and air, the authors
*presents the views of the International Conimission of Radiological Pro-
tectioa In regard to standards that are to be applied with respect't the
0
concentrations of the various isotopes of uranium. He points out that the--~
intention exists of increasing b a factor Of 6 the maximum permi ible -:1
y I'S
of U230 - U236 A.
concentration present in'the form of insoluble.c6apounds in
the air, and by a factor of 10 the ma3rimum permissible concentrations of
~U238 &nd of naturkl U present in the form of insoluble compounds in the airi
Card 1/4
L 10618-66
ACC NR- AP5027300 SOURCE CODE: UR/024!/65/010/010/0010/001k
ID 4V
AUTHOR: Yerabovo Eo B,; Koran, A. A,; Spirin, Ve Do0
ORG: Scientific Research Institute of Radiation Hygiene Leningrad
(Nauchnoisoledovateltakiy inatitut rediatsionnoy gigionyj
TITLE: Experimental determination of absorbed dose from alpba-amitters
in contact media
SOURCE: Meditainakays radiologlya, v. 10, no. 10, 1965, 10-1k
TOPIC TAGS: radiation dosimetry, alpha particle, Uce! .100t6811- apyl-I.-
VVL&-&"+4 -., AAI-9~~ 1140 1", 4-2A C-
ABSTRACT: Present calculation of absorboYtedistion doses and their
distribution in tissues upon internal irradiation by alpha particles
does not sufficiently consider the layer between the active and the
passive medium, that isp the secretion layer In intestinal irradistione
This work involves study of factors influencing the dose and experimen-
tal determination of the absorbed done according to the depth of the
Irradiated tissues either without filter between the contact media, or
for any filter tbicknesss by means of an alpha spectrometer and calcu-
lation. The model for the active medium was a thick layer of pressed
Card 1/3 UDC:
L 10618-66
ACC NRs AP5027300 239
tale with evenly distributed Pu and that for the passive layer was,
koloxylin lamellas simulating cellular layers of various thickness*
Even distribution of radioactive Isotope and irradiation throughout the
media was assumed. Based on tbe-spectra obtained and Insertion of
values Into the formula
wber: E is the energy of alpha particles corresponding to the I-obann I
Nith nSmber of alpha particles with E, anargys and further calculatione
In consideration ofAd layer,, the formula
NA d - -1.4 *' 10-&
DA -d.-.! A . 1. too
was arrived at for the done absorbed In layer Ads It is concluded that
this method of simulation permits determination of the distribution of
the quantity of dose absorbed according to the depth of the Irradiated
medium (muconal cover of the gastrointestinal tract) from the known
thickness of the filter layer (secretion layer In the tract)* The mean
energy of alpha partioles leaving the thick emitter Is equal to 0*56 of
Card
L 10618-66
ACC MR- AP5027300
the maximal value, Energy liberation beyond the bounderv of the sourcs
of a thickness equal to the path of alpha particles Is 14% of the maxl.
mal energy liberation within this layer. In the absence of an absorbing
filter the amount of absorbed dose on each cellular layer compared.to
the mean dose over the who 'Is path Is equal to:
DI - 2,64 - DR,; DII = 1,26. DRM; Dill 0,48D Re;
DIV - 0, 1
The Indices 1. 119 111 and IV deaIgnate the corresponding cellular
layers* OrIge arte has: 5;.formulas and 4 figures*
SUB CODE: 06. SUBK DATE: 12Aug64/ ORIG RZF: 000/ OTH REP-- 003
HcAJ
Card 3
ACC NR: AP5027306 SOURCE CODE: UR/0241/65/010/010/0067/0073
P'i-
AUTHOR: Bellep Yro S,; Kostikov, Yu. I*; Shanov. V.__._4,_,,'_Sh&pIro, E, L
-5-5
ORG: Lenigred Scientific Research Institute of Radiation Hygienep
Ministry of Healtb, RSFSR rieningroaskiy Na no-issledovate, ak1J
institut radiatsionnoy gigieny Ministerstva zdravookbranoniya RSFSR)
TITLE: Radiometic properties of the large liquid scintillatioi
BZbSS-l
SOURCE: Meditsinskaya radiologiye, v. 10, no. io, 1965, 67-73
TOPIC TAGS: scintillation counter, gamma. counter, scintillation spec-
trometer, radiation instrumentp radiobiologic instrumentation, experi-
ment animel/BzbSS-1 scintillation counter
ABSTRACT: The article describes the counter and illustrates it in a
figure. Its 41rdimension and large measuring volume permits consider-
&~le amplification of the criterion of radiometric quality,
n /nt1ckg1ound* It is particularly suitable for measuring low gammn
radi on n experimental animals up to a large rabbit and other objects
of similar size, A procedure for finding the optimal differential
registration channel Is given. The instrument has spectrometric semi-
I
UDC: 612.01k.02:621.
ACC NR: AP5027306
resolution equal to 39 and 21% for C8137 and K40 respectively and thus
does not allow anallsis of complex gamma radiation spectra* Activities
of .5-10-11 to 5.10--l curies can be measured. Isosensitivity of the
larger part of the measuring volume is shown to be high and is seen
particularly upon moving the source. The configuration of the object
hardly influences the measuring results* Increased specimen volume will
lead to self-absorption and attemuation of initial gamma irradiation
producing a slight drop in the count. This is shown on aqueous pban-
toms, For those up to 0-5 liter this does not depend on radiation
energy and amounts only to a few percent, This counter has been used
for radiobiologic and radiation protection studies and has been found
highly reliable, Reproducibility was Increased 10-20 times compared
to radioebemical methods, and the number of measured objects reached
6000 per year. Its use for prevital radioactivity determination in
experimental animals afforded studies of isotope metabolism in the
organism. Orig, art, has: 10 figures*
SUB CODE: 06,, 07/ SUBM DATE: 05.Tan 65/ ORIG REP: 001/ OTH REF: 002
L 27580-66 MW
ACC NR: AP6018375 SOURCE CODE: UR/0241/65/010/005/0082/00831,
3 0
AUTHOR t Malykhin, Ve me; Shanw, V 0 P0,
ORG: none
TITIZ: Method of calculating the irndistioLAma wd mxi-- pery"Bible concentra-
tion of fresh fission activity in different parts of the gastrointestinal tract
SOURCE I YAfttsinskaya radiologlya, v. 10, no * 3, 1963, 8M3
TOPIC TAGS: digestive system, radiation dosimetry, beta radiation
A13STRACT: kormulas are presented for calculating the dose loads for differek
periods of consumption of a ration charged with fragments.* The doses are cal-
culated for an Initial level of i microcurie of total beta-activity (A) for a
ration one hour old
q, I cA J1 + I ), where Aft is the moment of fission.
Tho results of the calculations combined with the data on the dose loads for other
critical organs can be used to standariize the contpmption of nutrients and water
according to various dose criteria (e.g., 20 bar for 10 days of consumption, 30 1
,bar for 30 days, etc.). The corresponding mazimm permissitrie concentrations in
.microcuries are obtained by dividing the dose criterion by the does from 1,4 cL.L
:in.the initial ration. -2-
Card 1/2 UDC: 616.33/34-M1.29-613.2
L 27580-66
ACC NR% AP6018375
The data were compared with the results obtained by Greits, vho used a somauhat
different methode They deviated by less.than 10% for the most critical regions,
the ascending and descending intestinesi Orig* art*- b4st 3, figure and 4 fornaas.
fJ'F R JS
suB com o6, 20 SUM DATE t 1qUr64
Card 2/2
n o b nrled 3 -..7 r; er s
:-,-i F. VZ~ r ad 10 0 ~5.
in
1\ IV" TRA 6 12
7, e ri li Ll US
PELLE, Yu.S... 1',O'-~TIKOV, Yu.I.; SHAMOV, V.P..; SHOIRO, E.L.
~~ajiometric properties of the large liquid scintillation
nounter PZh-'-S-1. Med. rad. 10 no.10:67-73 0 '65.
(KRA l-18cl4`1
1. Leningradskiy nauchno-issledavatellskiy institut,
radiatsionnoy gigiyeny Ministerstva zdravookhranen-4ya FSFSR.
Submitted JanuarY 5y 1c,65.
L 01065-66 bl.-IT W DIAAP D14
ACCESSION im: AP5o14543 UIR/0089/65/018/005/0519/0520
539-12 39.3z-i.64
AUTHOR: Yershovj E# B. J~a
_~j A~.A.; 011AMOV:.Y. Ps
TITLE: Concerning the energy distribution of ha pakt_cles pmitted from a thick
source
SOURCE: Atomnaya energiya, v. 18, no- 5, 1965, 519-520
TOPIC TAGS: Alpha emitter, thick source, energy distribution, moderating ability,
range energy ratio
ABSTRACT: In view of the difficulty of preparing thin screens to measure the
Moderating ability of a substance and the range/energy ratio of alpha particles in
the investigated substance, the authors consider the possibility of determining the
range-energy relation for a thick flat emitter on the basis of an analysis of the
form of its alpha-particle spectrum. The spectrum was measured with an alpha cham!-
ber and a 100-channel pulse-height ana3,vzer. The pressed working compound (area
2
3 cm I thickness - 2 mm) was placed in a holder and contained uniformly distri-
buted P239 atoms in a mass of talcum powder. The empirical form of the spectrum
was obtained by breaking up the measured spectrum into four energy ranges) with a
separate empirical formula obtained for each. By using the fact that talcum has
Card .1/2
MN
L 01065-66
!ACCESSION NR: AP5014543
-en
Imoderating properties close to those of aluminum it is found that the range ergy
curve obtained from the empirical relations of the present work is in good agree-
Iment with calculations by others for aluminum. It is thus concluded that the pro-- J*
posed method makes it possible to find,, with sufficient degree of accuracy, the
moderating characteristics of.any complicated substance which serves as'a bulky
base for a thick alpha source. Orig. art. has., 1 figure and 1 formula.
ASSOCIATION: none
smrrm: 18YAr64
ENCL: 00 MM CODE: EF
NR MW SOV: 002 OTHER: 002
2/2 bP
I tard
-7-7-
4;
L
ACC NR: AIP5026456 SOURCE CODE: UP,/0089/65/019/004/0401/0403
AU5111OR: Malyl-chin, V. M.; Moiseyev, A. A.j Shamov, V. P.
,ORG: None
I
ITITLE: Internal radiation doses in man induced by Sr-90
SOURCE: Atomnaya energiya, v. 19, no. 4, 1965, 401-403
TOPIC TAGS: radiation biologio.effaot, radiation injury, strontium
ABSTRACT: The retention of strontium-90 in man and the effect of radia-.
tion doses on the bone tissue is discussed and calculated. The Sr-90
retention q (in nanocurie) was calculated by using the following formula
100
Here, R Sr-90 content in man-ration based on 1 pcu/day at the beginn-
ing; B-con.stant; t-time; A and n-parameters of power function; decay
constantix)= 7 x 10-5 day 1; absorbed isotope fractions L 3
The results of calculations are plotted in Fig. 1 showing the power
function curve 1 (with A = 0.522, n = 0.175), the power function curve 2
Card' 1/2 UDC: 577.391.087
S 5
Yo. Ye.
Economy and ""ic-ency Jr, t'.., --,So or Derric'-,S of H~-,Li:;ht
of:'~~!-tivnoz-tl Pri-,encni~-a vyc-he': vysotoy
5
i AL 'C:
f t/ Z
121 - 125
.;r 2, pp -
A S' 1, C 1, Ir tl-.e Prese,'LL article the cluestion of t1-.0 eccnomical use
of derricks of 5J' m he-i.ght in drillin'tr -deet vel--s by a rr~,P-t
nu::i1).--r of ohdo,-~IinCs is diocu--sed. In order ~o .1-.c:1vC- s
or-oblem, tl-.e system is sug-estled:l
)Addit-iona-l
invest---ont made n-:?ccssary b~- tl-_-_ use 0--f of 517
hoi~:'-t, ilistead of 41 zi. 2) :Icducin.z- conL~ti-~ction cc,--'s in
') Pw-o~'r -
wells. / If -- ~ericd -f'o-.- a'diti-n-al inv-st=n,-~s.
SDeedin.- up drillin,: o7crationZ. After the --+.-,d of drilling
operations on V~e oilfield of Ozek-Saut (Stav::,~-oil Sovnar-
khoz) cor-,T~~ri-~-ons -.Tere -ade of tl'.,~, efficienc-: Of dorric"-S Of
, r
,Sz;.:3Ct
Jve1
41 and 5 r
-2he as
(7
atie 2)
of
-
-
-
-
.
e
y
-i 'on
de--ric'~s of' 55 m hoi[:ht resoultod in a con-i er-~nie ~,--duct-
C ard 1 /
IS
of ti (2 'i - rei-air-.-I 'r)r and 1-iftirc-. ""'ith tho s=e
- L--- -
E'conr=), anal j,
1- 10- 1 2
He. i t
ASS C I ~-'Jrozn- y I,
ti t'ute
SUB7,7I7-7E'D: October 19~6
Ca rd
L~ UC) I ljo-0 ILei~c k I )j K
ACC NRt AP6034524 SOURCE CODE: UR/0016/66/000/010/009410097
AUTHOR: Shamo-v,- Yu. A.
ORG: Department of Infectious Diseases, icalInst
t an Me ~d itute
Makhachkala (Kafedra infektsionnykh bolezney Dagestanskogo meditsin-
I I
skogo instituta)
TITLE: _T-yphoid fever~oamong vaccinated personA
SOURCE: Zhurnal mikrobiologii, epidemiologii i immunobiologii, no. 10,;
1966, '-~4-97
TOPIC TAGSt typhoid fever, vaccine, active immunity.,
ABSTRACT: The onset, course, and number of relapses of typhoid fever
in a group of vaccinated and in a group of nonvaccinated patients were
studied. The vaccinated group had received either dry alcoholic
divaccine or Vi antigen~p Acute onset of the disease occurred more fre-1
quently in the vaccinated group, but severe forms of the disease were
found less frequently than in the nonvaccinated group. Clinical courze~-
mortality rate, and duration of hospital stay were the same for both
groups. Relapses occurred more frequently in vaccinated than in non-
vaccinated patients. Orig. art. has: I table. ' [W.A. 501
SUB CODE: 061 SUBM DATE: 27Jan66/ ORIG REF: Oll/ OTH REFt 001
-Carci-.1--jjl_ bc UDC: 616.927-036.1-06z6l6.927-084.47
SIUMOVA, AJI.
Case of isolation of plague and pseudotuberculosis cultures from
rodents in an area with an enzootic plague focus. Izv. irk. gos.
nauch.-issl. protivoch-um.inst. 21:63-67 t,4010 (MIMA 14--l*)
(MIONGOLIA-PLAGUE) (1-11 Od, L"- -P.;" 1:,' UDOTTJBF.RCTj LOS IS)
1: - .. . . ,. 1~ - ~ . - - - - - - - - . . ~ . ~ . I .
I I I . -
A. - , :---: , ': , - I r., ,- i -
' I , a; , r- , , ' . I ~~ . , '. . .. - , . ~ -I." -~ - ~ - *~- -- - .
,)-1 .1 '.,. % ( %, f " 4 ; :2 .. " "
. . I - , - - .1 - ~. ;
r;~ S
7iSSI 17S f "--'P,
ARBUZOV, S.Ya.; BAZANOV.. V.A.; I.Ya. -- PATALOVA, V.124;
PETELIUA, V.V.; SWIM? E.K. - --
Distribution of sulfur mercamine in t.ha organs and tissues of
irradiated and non-irradiated animals. Med.3-ad. no.5-.62--66 161.
(MIRA
1. Iz otdela radiobiologii (zav. - prof. S.Ya. k-buzov) Instituta
eksperimentallnoy medit!3iny ARN SSSR.
(ETHYLtd-IINE) (RARIAT1014 PROTECTIGN)
I '~. V.
.jqAMOVA)
Shamova, G. V. - "Change in the color of the skin as a means of determining the
condition of blood circulation of the extremities in obliterating endarteritis,"
In the symposium: V. N. Shamov, Kiev, 1949, p. 117-36
SO: U-4355) 14 August 53, (Letopis 'Zhurnal Inykh Statey, No. 15p 1949)
SEAMOVA, G.V.
Determination of the state of peripheral circulation in endarteritis
obliterans with the method of reactive hyperemia. Vopr. neirokhir.
16 no.1:48-51 Jan-Feb 52. (CLML 21:4)
1. Of the First Department of Facult7 Surger7 imeni S.P. Fedorov, Milit,-Xy
Medical Academ7 imeni S.M. Kirov.
SHA~DVA, G.V.
Familial torsion dystonia. Och.klin.nevr. no.l:0'1-70 162.
(YJP-A 15:9)
(DYSTONIA)
DAVIDENKOV, S.N.; SHAMOVA, G.V.
Cpinal insults in discopathies.
(SPINAL CORD--DISEASES)
Och.klin.nevr. no.1:121-l"O 162.
-.1 _~
(MIRA 15:9)
(INTERVETEBRAL DISK--DISEASES)
SHP-11-10VA, G.V,
G W. - ~:-ease. 0,%-h. klin. ne-r. nr,.4--
aspect cf C~er- i"', ;
1
155-1-2 t64 0-im-k
SHAIMOVA', T.I. (Novosibirsk)
Quiz system of measuring students' knowledge in physics. Fiz. v
shkole 22 no.2:62-64 Mr-Ap 62. (KERA 15:11)
(Physics-Study and teaching)
SHAMOVSKAYA. E.Z.
Hemorrhagic encephalitis. Zhur. nevr. i psikh. 60 no!3:280-285
160. (MIRA 14:5)
1. Kafedra nervnykh bolezney (zav. - prof. D.T.Kuimov) Novosibir-
skogo meditsinskogo instituta.
(ENCEPHALITIS)
l-'OTAt"Fj:'lVjl:IY, A.G.; KU,1T3H'IY, V.~I.; .,~rinlriali uchas4li::e: 1:;C,'-V, V.S.;
K! ill'[, N.K.; S'l ~ ClljK~-VA
G.V.
~o
O'u-458m attachment for welding in C02 I-Is"19 1--300, K',0-300,
and PS-500 --vtori.sv--r. 15 no.1-:68-70-
C, 1 62. 1 15:11)
(Lloctric woiding-L;quipmont and supplios~
0v C-- ~:l =-I
w~ 71
c -J
oo v
c t.
ul
oo
Z a-
-32,;
9.
*
lo
ud
at
VASILEVSKAYA, L.S.; SYRKLJ, L.11.~ 6HAI4OVSKAYA, M.A.
I-Jethods and apparatuses for the measurement of dynamic
magnetostructi~)n parameters. Trudy inst,!Kom.stand.mer i
izm. prib no.64:311-320 162. (MUU 16-5)
(Magnetic measurements-Equipment and supplies)
SHLMOVSKAYA, S.L. (g. Gorlkiy)
. v ". ~... - , ". -
Excursion to an acet7len plant. Khim.v shkole 10 no-3:40-42
MY-Je '56. (mi-u q: 8)
(Acetylene) (Industrial tours)
l,'4-1957-1 - 354
Tr3n-~.Iation frorn: Referativnyy zhurnal, Nlekhanika, 1957, Nr 1, p 44 (USSR)
AUTHOR- Sharno%skiv. B- Ya
TITLE- Determination of the Drag Coefficient in the Presence of a Sudden
Expansion of Gas (0predeleniye koeffitsiyenta 5oprotivleniya pri
vnezapnom raSshirenii gaza)
PERIODICAL: Tr. Nove-ibir. E~, -kh. in- ta 11955, Nr 9. pp -'45-258
ABSTRACT- In ,n earlier work, the Author h---d clerived an expres.;ion for
the dr,,g coefficient of the flow of a compressible fluid through a
diaphragm, He ncw propoieS that a ---;rnilar expression be utilized
-is the starting point of the derivation of a formula to determine
the drag coefficient corresponding to a sudden expansion of a com-
pressible gas. In the expression for the diaphragm the overall
dr.ig coefficien t 10-1- of a diaphragm ~s given in terms of two com-
ponents, namely, the drag coefficient attributable to the flow of
the gas through an aperture in the diaphragm, and the
drao coefficient attributable to the --udden expansion of the gas.
The Author proposes that the coefficient
Card 112 be determined from a generalized form of the
1 ~'4- 19517- 1 - 154
Deturrmna,ion of the Drao Coefficient in the Pre-sence (coro
Bernoulli equation zi~ written for a compressible gas, Since the
value of is known from the A' ~ earlier work and
can be obtained frorn the Bernoulli equation. the
quantity can be determined. Formulas are
de rived For the determination of the velocity coefficient, the
through-flow, and the jet constriction. It is shown that the
velocity coefficient for a compressible gas can be assumed to be
eaual to the velocity coefficient of an incompressible liquid.
1. Ye. Idellchik
Card 2/2
I-)
KMTSYN, N.M., kand.tekhn.nauk; SRAM SXIY, E.Kh., kand.tekhn.nauk;
YAEDVM, I.M., inzh.; SOROK L.N., inzh.
Designing a broad cutter for the flame cleaning of metal. Izv. v7s.
ucheb. zav.; chern. met. no.3:154-160 Mr '58. (MIRA 11:5)
1.Sibirskiy metallurgicheskiy institut i Kuznetskiy metallurgicheskir
kombinat.
(Metal cleaning) (Metal-cutting tools)
SEA kand. telchn. nauk, clots.; YAKOVLEV, I.M., in--h.;
_A
KAFTANOVA, Z.K., inzh.
Splash removal during the flame cleaning of metal. Izv. vys. ucheb.
zav.; chern. met. no.4:117-125 Ap '589 (MIRA 11:6)
1. Sibirskiy metallurgicheskiy institut.
(Metal cleaning) (Gas welding and cutting)
25(l)
SOV/148-59-2-24/24
jAUTHOR: Shamovskiy E.Kh. Candidate of Technical Sciences, Docent
TITLE. Increase of the Endurance of Equipment Parts (Povysheniye iznogou-
stoychivosti detaley oborudovaniya)
PERIODICALt Izvestiya vyai)hikh uchobnykh zavedeniy, Chernaya metallurgiya,
1959, Nr 2, pp 177-160 (USSR)
ABSTRACT- A conference on welding engineering was convened in January 1959
by the Kemfrovo sovnarkhoz. The Conference was attended by
representatives from NTOChM and the Siberian Metallurgical
Institute. The Conference heard the following reports;
M.S.Aleksandrovich on the necessary development of welding
engineering; '~Ocent E.Kh. Shamovskiy on -.chievements in welding
engineering in the USSR: G.F. Rybwhkin on "Strengthening of
Parts by Welding-on Hard Alloys in Soviet Metallurgical Plants
sand Outlooks on the Further Development and Introduction of this
Method"; V.M. Shalamov on the introduction of automatic welding
in small-scale production; A.V. Bystrov on "Experiences of
Card 1/2 Introducing Automatic Welding-On For Worn.-Out Parts in USSR
-L!2
Mi., Caa~'ir r~t c_- Tecal 'ca", Sc-' cc-s
TITIE: Tjjr_- FirLzL Colif-erct,,co- on Jelddng
TC.~D IC-d.: Svaroch-no-lvc proiz-vcclstvo, 1959, Nr 9, p 45 Mj"'J'10
c was co.-vcned
T'he ifir:-,t Siberian Conference- on Jeldin
i-,n 3arnaill bv tile sovnarkhoz a~d ~'he institut
ele'--trosvar'-i L. e-d Ye. 0. "ato-, a An US Unsti tute
for Electric ing imeni Ye~ 0 , Paton -"is U',xS3,R)
from -mri--, 22-24
1959. At this conference the C'evelop-
,
C-1
me,nL of sciei-,ce mid cn.i-ieering in S'iberia was
-,.,orkers of the
I-lore Laxa 400 engineeri".,ig
,
lrl,-uts!:
,,Itay
,
,
a-.Al To~' -,sh sovilan:hozes pLar*,-icipated, as well Ls
scie-.~tifir of the I-.-_stit,_:t clai-.trosvarld i
Mnstitute for Electric WeL2:_ iug a-uld IT-.IIAV-
TOGEITO. The Co-LiEcrelIcc -.!as :,-:pened loy the Chaim-cm, of
Altay soviarl-hoZ, Y,,~, azarcv. Ye. 1`ato-z-, (11'scus-
sed r-eldia--- in ih,:i U_S.L:')R, 1--or the ~eriodL 1959-196.5.
did-,te of Techidcal Scie-ces Shas'.-LI-o-v D ii re c to r
C ard 1/2 0 f- %r 711. -,'OG'7" spol~e o- gas trcatin~~: of
,riie First: S i. b(1 H. I-Ln. Confcrence, oii 'dcldiiiltr, L30V/135-59-9-3.9/23
av,d Ca-.ldidate of Technical Sciences V. V. Shcvarnitl:~I-iv
0-11 -,7Cl,'.il-,g CleSigl--S. Can(fidate of Techilical Scieinces
D. A. Du-,'!--o clisc-ussed (-as-el-ccLric umlc~izqgr a:ncl D. 1-11.
P,abIH-Li. lookcd at the wcldi-a- of non-'ferrous nietals.
CanclidLte of Tech-Llicil Scie- -ces I. I. Frumain si.)o--e o-.-..
the d--l-rai.)ility of welcliiii- Machine coT--,-.,-)onei-its.
Card 2/2
SHANDVSEIY, H.Kh.; Yi4~DVLEV, I.M.
Wide-range coke-oxygen cutter for flame machining and scarfing
of cold carton mr-tal. Izv. vys. ucheb. zav.; chern. met. 4
no.10:165-169 '61. (MIF-,t 14:11)
1. Sibirskiy metallurgicheskiy institut.
(Metal cleaning) (Gas welding and cutting)
S11,*--?VIO','SKIY F-Yh.
Developing the design of a mechanical oxygen-coke torch for the
flame scarfing of cold carbon metal. Izv. vys. uchob. zav.;
ch6rn. met. 5 nc.8:193-199 t62. (MIRA 15:9)
1. Siltiirskliy metallw-gicheskiy institut.
L,
(Cr~-: welri'r.- and cutting)
SHAMMUL.-I~-4.; ZYKOV, A.D.; KAFTANGVA, Z.K.; KRAVCHENKO, L.Yp-.;
FROLOV, N.P.; ZHURAVKIN, Ye.A.; GORBATYUK, V.L.
Mechanizing the flame scarfing of blooms. Metallurg 7
no.8:24-27 Ag 162. (MIRA 15:9)
.-a. Sibirskiy metallurgicheskiy institut i Kuznet5kiy
.metallurgicheskiy kombinat.
(Steel ingots) (Metal cleaning)
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