SCIENTIFIC ABSTRACT MOSKALEV, N. M. - MOSKALEV, V. A.
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CIA-RDP86-00513R001135330001-4
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RIF
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S
Document Page Count:
99
Document Creation Date:
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Publication Date:
December 31, 1967
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SCIENTIFIC ABSTRACT
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ACC NRs AH(,030611@ Monograph UR/
Gevorkyan, Ashot *'ushegovich; Ivanov, Andrey Pavlovicb; Metel-kin, Aleksandy
Fedorovich; Mo*kalev,Mikhall Aleksandrovich
Technology of airqraft engine construction; a manual for thesin writerr (Tekhnologiya
aviadvigatelestroyeniya; uchebnoye posobiye po diplomnomu proycktirovaniyu)
Moscow, Izd-vo ItRashinostroyenlye", 1966. 174 p. illus., biblio., tables. 9200
copies printed] Textbook for students at aviation schools and faculties.
TOPIC TAGS: airc@aft enginel, production engineering, induatrial
management t
I
PLWOSE AND COVER@GE: The book is intended for students writing theses on aircraft
engine technology, for teaching staffs in aviation institutes, and for production 1
engineers. It can also be useful to other machine building specialities. A
systematic presentation is given on the planning of thesis writing on aircraft
engine production, production management, introduction of new methods, new
machinery, quality control, production automation, and equipment replacement and
repair. Included as appendices are several tables dealing with production control
and production-managemeat. There are 36 references, &11 Soviet.
Card 1/2 uDc-. 629.13.oo3.3 (075.8)
kCC-NR,-AM663O648
TABLE OF CO1UENPS (Abridged):
Introduction - 3 1
Ch. I. Content o-A diploma project - 5
Ch. 11. Methodical presentation of production study and fulfillment of basic
branches of thd technological part of the diploma project - 21
Ch. III. Design Vortion of the project - 52
Ch. V. A methoUtcal indication on technological plant planning - 65
Ch. V. Economic organizatioa part of the project - 104
Order of consultatlon and defense of the thesis - 143
Appendices - 147
References - 172
SUB CODE: 21, 1
Card 2/2
SUBH DATE: O7May66/ ORIG REF: 036/
SOKOLOV, A.; MOSKALEV, N.
Economic efficiency of new machinery at the "Russkii Dizel" Plant.
Sots.trud 6 no.3:112-1-15 Mr 161. (MIRA 14:3)
1. Glavnyy inzhener zavoda ORusskiy dizell 0 (for Sokolov).
2. Nachallnik otdela truda i zarabotnoy platy (for Moskalev).
(Leningrad-Diesel engines)
T 7-
r u r.9r r
lEint n.7 t@ e :,rr ,@r@ b s, t c fr r e, r@.b tn, Lq
ntl.ly List of Russ. Ac cc-, 9, Lit rur-., of Cr, -ress,
I!ncla sr I f I ed .
IN. A.
Arboricul ture
,rowing s(--edlingLi -ilthout, I't;- I @" :-. 2, 1
9. Monthly List Lf Russian Accessicns, Library of Congress,
, U:I(-
'953, 'Jncl.
4@ _
:I'. :I. Cani Tech -@i -- ( @iss) "*;inter-pressurp /Irc;,sporl of silt."
Mos, 1957. 16 pi with Crnihs (Lliri of A6ricult:urf- Al'-"-.io- )rier of
Le-ii,i Pcfj(' Acr Sci in 7. 1. A-11-TInion Sci Rer Inst of Hydrr-.,i@ic
and Improvement), 100 col-ies (FL, 117)
-7@-
KOSKALEV. N.H.
Improve the tm-chnology of handling potroleum tanker cargoes.
Rmch. transp. 18 no.4-10 Ap '59. (MIRA 13:1)
1.11achallnik Astrakhanskogo mkspluatatsionnogo uchastka parokhodetva
avolgotankmr".
(Tank v"esels) (Cargo handling)
KOVA LEV, S.A., in zh. , red.; CHERN IN, L. A., I nzh. , red.; K I IZNETS( VA,
Z.I., kand. tekhn.nauk; I/0101EYENKC, A.T., inzh., red.;
YGSKALEVI N.M., kand. tekhn. nauk; VCLKOV, A.V., kand.
teREE.'_n@iik, red.; STRASIRIM, V.P., red.izd-va; PETFd-VA,
V.V., red.izd-va; !CDIONOVA, tekhn. red.
[Construction norms and regulations] Stroitellnye normy i
pravila. Poskvn, Goastroilzdat. Pt.I. Sec.G. ch.I. [Water-
supply and sewer system. Hot-water supply. Interior instal-
lation. Equipment, fixture3, and materials] Vodoprovod I ka-
nRlizatsila. Goriachee vodosnabzhenle. Vnutrennie ustroistva.
Uborudovaniin, armatura i materialy (SNiP I-G. 1-62). 1963.
15 p. Pt.I. Sec.V. ch.17. (Aspha-It and tar binders] Bitumnye
i degtevye viazhushchie (SNiP I-V. 17-62). 963. 8 p.
(@URA L6:7)
1. Russia (1923- U.S.S.R.) Gosudarstvannyy komitet po delam
stroitel'stva. 2. Gosudarstvennyy komitet po delam stroitell-
stva Soveta Ministrov SSSR (for Kovalev, Moiseyenko). 3. yezh-
vedomstvennaya komissiya po peresmotru Stroiteilnykh norm i
pravil Akademii stroltellstva i arkhitektury SSSR (for Chernin,
Moskalev). 4. Nauchno-issledovatel'skiy Institut sanitarnoy
tekhniki Akademil stroitel'stva i arkhitektury SSSR @'for
Kuznetsova). 5. Gosudarstvennyy Vsesoyuznyy dorozhnyy nauchno-
issledovntellskiy institut Ministerstva transportnogo strotell-
stva SSSR (for Volkov).
(Water-supply engineering) (Sewerage) (Asphalt)
MC)ISEYENKC, A.T. , inzh. i MOSKALEV, , kand. takhn. nauk; KOSHKIN,
V.G., kand. takhn. nWt&,-- PKERVALI, G.P., inah., red.;
DIYACHKOV, G.D.., inzh., red.; YEVDOKI!CV, V.M., inzh., red.;
STRASHNYKH, V.P., red. iad-va; MOILHALINA, Z.S., tekhn. red.;
BOROVNEV, U.K., tekhn. red.
[Constmetion specifications and regulations) Stroitallnya
normy i pravila. Moskva, Goastrolizdat. Pt.l. Sec.B. ch.3,
(Fundations and supports of piles and cylindrical shels;
precast construction (SNIP I-B.3-62)] Fundamenty i opory 1z
ovai i tailindricheskikh obolochek; sbornye konstruktaii
SNiP I-B.3-62). 1963. 7 p. Pt.l. Sec-V. ch.15.[P:)lymer-
base materials and products (SNiP I-V.15-62)] M41orialy i iz-
dellia na oonove polimerov (SNiP I-V.15-62). 1963. 26 p.
(MIRA 16:6)
1. Russia (1923- U.S.S.R.) Gosudarstvennyy komitet po delam
stroitelletya. 2. Gosstroy SSSR (for Mkorvali, Moiseyenko).
3. Mezhduvedomstvennaya komissiya po peresmotru stroitellnykh
norm i pravil (for D'yachkov, Moskalev). 4. GosudarstyemW
institut po proyektirovaniyu osnovaniy i fundamentoV
"Fundamentproyekt" Ministeretva stroitel'stva RSFSR (for
Yevdokimov). 5. Vaesoyuznyy nauchno-isaledovatellskly Insti-
tut novykh stroitelInykh materialov Akademii strottellstva I
arkhitektury SSSR (for Kosbklh).
(Concrete piling) (Polymers)
KON'fululov I I.A. ; Ajd@
feat,@.--es of the :,e3@7,z-i-c
Lower Iideo,jna 'e'Amentj in U.,3 Fer-ana Depressiui ir,
wit@l Ulrj4l. L'It" J,U.
w)fti i
KOSKALRV, M.P. (Alma-Ata).
Mechanized rail smoothing. Put' I put.khot. no.9:26-27 S '57.
(MIR:! 10:10)
1. Glavnyy Inzhener aluthby nuti.
(Railroadi--Rails)
W, IP, lik4al.4,
'
ke d
'
fof
k
du, lZat T. Ho' 12,
"
_
7 Onaly"s of IYAP
IT8
NIFIT
m1nerml sumpi" froul tertiary dtrolits all 11(maltru Atosla.
by thernethodul 1f10fOVAAY#.(faIrodmc&x So Lumistesceid-:
BLuminvus Awlyj;s 1919) hove been uwJ wan -41 ;u
'
mapping oil- "d Ca.+ hearing Velds. The shallurityin chrin.
comp. (j( WWI= and pt(roicum frotn@tlsc@samc istruca
-4 Ille
ccinfilln, the genetic reln(ion IA:twecu these poilista us.
A. 11. Kctloby'
1AV11110tic: Url 7, 1 LU1-,LLf']t) It IV LC;&,L t, I I @4
1@ V
"LtLminescent-'L~ituminologicaI Sui-vey from 9asic !)eposits," N. 1'. Moskalev, -,hair f
leology of Oil and Gas
VI
Vest Mosk"wm&-, Ser F4*-Mat I Yest 'Jauk, ',Io 2, pp 157-160
Describes subject sur-tey method which is being widely used for soarching for eas and oil
W44"-hvas developed by V. 11. Florovskaya
M()SKALxv. N.P.
lAiminescent-bituminological survey baued on original dpno5lt5. ve 5 t. Mr) rk.
un. 8 no.3:157-160 Kr 153. (MLRA 6:6)
1. Kafedra geologii nefti i gaza. (Bit-amen) (Fluorescence) (Geolnel-
cal surveyi3 )
ETA, A . G. , AJM , I . F.
Geochemical Characteristics of the Tertiary and CretAceous Deposits of
the Kerch Peninsula
The authors give the mineralogical characteristics of the rocks of
the Datsk strata, Maikop stap.,e, Cl,okraksk. Yaragansk and Konksk horizons
of the Kerch Peninsula, and present some paleoclimatic considerations.
They also present several tables characterizing the granulometric and
mineralogical compositions of Investigated specimens, ind also thermo-
graphic curves. (RZhGeol, No. 5, 10SO Tr. N.-i- in-ta genfI7. i
gookhi.m. metodov razvedki, No. 2, 1954, 68-79.
SO: Sum. No. 744, 8 Dec 55 - Sur-plementary Survey of Soviet Scientific
"@,.slrocts (17)
-MOSKALEV, N.P.
Bitumen content of Cretaceous sediments in the Greater Balkhan
Range, Thar-Kyr, and Kargyshlak. Vest.Hosk.un.Ser 4: Geol. 15
no.1.26-36 160. (MIRA 14.4)
1. Kafedra geologii i ge-*hImil goryuchikh lskopayemykh Moskov-
skago universitetas
Nzbekistan-Bitumen-Geology)
MIUSHIINA, A.G - MOSKALEV N P
Stylolites in limestones as paths of oil migration. Geol.
nefti i gaza 6 no.12:51-53 b 162. (1411U 15:12)
1. Vsesoyuznyy nauchno-issledovatellskiy geologorazvedochnyy
neftyanoy institut i Moskovskiy gosudarstvennyy universitet.
(Daghestan--Oil sands-Permeability)
(Stylolites)
MOSKALEV, N.P.
Geochemical characterlatica of Jurriamic isediments In the
FergRna Valley. Vest. Mock. un. Ser. 41 Geol 18 no.5i
44-47 S-0163. (MIRA 17:2)
1. Kafedra geologil I geokhimii goryuchikh iskopayemykii.
LARINA, O.G.; MOSKALEV, N,P.; AZIMOV, P.K.
Lithology of Jurassic sediments in the Fergana depressicn.
Vest. Moak. un. Ser. 4: Geol. 20 no.4t63-69 Jl-Ag '65.
(MIRA IP,Q,
1. Kafedra geologii A penkhimil poryuchikh lskopayemykh.
loll
up 0 oc. r
1'7 -) @" ( I-( 111% 1 : )
7 V
MUTALN. 9-.S., aspirant
Investigating causes for the breaking of welded crane girders.
Sbor.trud.MISI no.22:59-89 1 58. (MIRA 11:12)
(Girders) (Cranes. derricks, etc.)
rocro ri T'
Slot, /62/-,'
B i C1212 i @4
',Ioskalev, 0. B.
1; ou tron o pec t rur. i n a mi xtu re o f tvio a t i F,
heated to di fferent ter:,peratures
1 )62
@-'I CAL Atomnaya ener6i@-a, v. 1,, no. 4,
T-'-'X',' An infinite space i s considered which is. f1l le@ wi U a :iiy. tu
tvi@ monatomic gases , which do not react wi th each othe r an,i do t aI,3:@rL
neutrons. The problem is to find the energy spectrum of neutrons sca-@f-r@
L
from the gas atoms (macroscopic scattering cross sections @1, C"; L:ao
temperatures T1, T 2 ). The neutron distribution function is asaumed'a.,:
W
G, (v' -> v) f- G, (v' A' (u) dv'
0
iv, (U) + V2 MIN (0.
Card 1/f
.ieutron spectrum in a mixture . . . @i C2,;@l 04
(M
v) fit :,,r @P,O,Z,
-- pj@,v') erf (Pioiv
jerf (o,rj,v' - 0,C,,v) T erf (p,o,v' P,@,V)J:
v i a the neutron densi tj in the veloci ty space i ( v I ---, v I S
for a neutron scattered from the i-th i-as to chan@o its
ty from v' to v; a const;
Card '2/5
erf (x)
r, r. s L, c ' ri; @@i i n a mi x t - re
12 fritautron m.ta@j
und v
"ix Nv an equa t i on o f th e typo T
-.ts silution rea,11.9 2, (2 x j/< L
is !.,laxwellian.. It i3 ,ihown that the U;@@t--r
t- -n in oo, can be replaced by a finite one, n. :h r, , e s F
i i.".' IUEI ti C'no
I + 1 2) ah] 'N o.
G (C"' V
'); V
;s 2 . . . . K ro n e c k e r
ik
one of t@p unknown N' k taken as equal one, this system -evuij
of a Strela-1 diCital computer. The results obtaint-d' fit
i2
a,-,ectrum in a mizture ...
-"(@r than a distribution curnre -)bta,'ned
tion ':he .3pectrL.,,. iz3 i an , n,
This result i s in c - r,r
":S- @@r 11uht cases (m = 1.,
i.ern. Nukleonik, 1 no .8 , 286 , 1959) - 'I" I i t
'.ara::,e'.er was found to be 1/4L, the reciprocal velocitj,
-D.1 spectrum ( cf . Table V. ',Iaslennikov, L.
r.,@Znetsov are thanked for interest and d.,scussions. "Ih e r ea re
ta!).'e, and 5 non-Soviet references. The three references ',D
publications read as follows: D. Kottwitz. Nuci. SC . . a!,
,Iig6c)); 11. 14urwitz et al. Nucl. Sci. and Er,&rq;, I
Suleni-ut. Nucl. Sci. and Engng, ), 94, 1961 .
JulY 14, 1961
lard 4/5
MOSKALEV, O.B. (Moskva)
Critical operating conditiona of a reactor in the case of
nonlinear coupling between the temperature and a neutron flux.
Zhur.vych.mat.i mat-fiz. 3 no.2:327-336 Hr-Ap 163.
OCRA 16s4)
(Nuclear reactors)
I
MWKAI,J,,'Vo O.D.; CHWANOV,
Existence and uniqueness of the solution to certain nonlirierr
problems in the theory of nuclear reactors. Dokl. Ali SSSR 15-1
no.5:1030-1036 D 163. (WRA 17:1)
1. Predstavleno akademikom S.L. Sobolevym.
Mlclise.,',@-@@V , I . i . , IIcisx-,ri
I
:- 1, @-' @ ft . @x) @,w/ " , , @ , ;! , , I .:
, . , ;I . , . ?, , 7, . : !@, @, ': :,- @ 1 - I :. * @ " ,
,, r.,l r.,, . . - .- * , .,, I 'I ,-. @ I
', nTc- r ri t , re - :- -. x 1:rfi * @ -, r -, , .. .
I W.- . r-
v
- I n- i !v t. r arl s f . r a i,i,i - . r . I !T , ., I 'm -i * , 1 m -! - ", , .. @ .. - . .
It , - 1-8 T,i -T,* I - - . .
Aca-&sioti IjRi AP4037268
3/0208/a/00h/003/0599/0604
AUMOR: Moskalevo 0. B. (Moscow)
TITLE: cri-Acal region in a reactor with nonlinear coupling between neutron flux and
teVorature in multieroup approximation
SOURCE: Zhurnal "thislitellnoy matematiki i matematicheakoy fiziki, v. 4, no, 3,
1964, 599-&)4
TOPIC TAGSt thermal neutron, nuclear reactor, continuous operator, dense function,
multigroup equation, neutron interaction, secondary neutron
ABMACT: A convex thermal reactor with an arbitrary number of section3 is
considered, with each section characterized by its own neutron-substance inter-
action croas section. It is assumed that the neutron distribution in the reactor
can be represented by a system of multigroup pquations and that the reactor
temperature is determined by the thermal neutron flux (pN only. The multigroup
equations havo the general nonhamogeneous,, linear integral form
YJ (P) -dP'Kj (P, P', a(piv) aj (pl.
. ir
Card 3/3
AccEssioti uRt AP4037268
This equation is shown to have a unique solution for a fixed f and thus can be
represented by soue continuous operator L acting on f so as to reduce the multi-
group equations to the form
dP' K P', 11-PW) Ia
(P) IV (P IV (P" "TIOTN (P') + 4,V (P') I
.The right side of this equation is further represented by the nonlinear operator
A(yj which is shown to be continuous and dense. It is explained that A(y) acting
on some thermal neutron flow (p (P) producoa a munber of secondary thermal neutrons
at point P after a single interaction. .-This-io represented by the inequality
A (q) (,p) lp (0;< I
Finally the function crop + L(P is found to possess the properties of concavity
"The author expresses his gratitude to V. A. Chuyanov and M. V. Maslennikov for
evaluating this work and to Ya. S. Kuznatzov for his interest in the work." Orig.
art. haso 9 formulas.
ICard W3
XG6531CU NRS AP4037269
ASSOCIATIONS nono
SUDUTEDj 157lov62
ATD PRESSs 3085
ENG L & 00
SUB CCDFt NP
NO RET SCVs 004
OrHERi 000
C.0d
ACCESSION NRi AP4029691 S/0089/64/016/004/0304/0309
AUTHOR: Moskalev. 0. B.
TITLE: Some nonlinear problems concerning nuclear reactor theory
SOURCEi Atomnaya energiya, v. 16, no. 4. 1964. 304-309
TOPIC TAGS: neutron flux, diffusion approximation, thermal expansion.
equation spectrum, reactor criticality, c-iganfunction
ABSTRACT: Steady-state nonlinear problems in which the nonlinearity
is determined by the dependence of cross sections on neutron flux
are discussed. and a method of calculating nonlinearity Is presented.
it is shown that to design a reactor in which the nonlinear connection
between the temperature and neutron flux is essential can be imple-
mented by the use of a preset initial temperature profile within the
cells. This step is followed by calculation of (1) the cross sections
of a group of neutrons and (2) the reactor's criticality, the latter
on the assumption that the cross sections are determined by the
Card 1/2
ACCESSION NRi AP4029691
cemperature distribution in the reactor. The neutron fluxes defined
by the calculation of criticality can be used to compute the heat
release within the reactor and, by making use of oquations describing
the heat transfer, to determine the temperature in the reactor. Cal-
culations for a homogeneous slab reactor in a single Rroup diffusioa
approximation are made by way of example to examine the effect of
nonlinearity on criticality. It is assumed that the heat transfer
in the reactor can be described by an equation of heat conductivity.
(The numerical method of solving the above system was developed by
R. P. Fedorenko, and the electronic computer was proarammed by
S. L. Ginsburg). "The author extends his profound gratitude to
Ye. S. Kuzneteov for his interest in the project, to R. P. Fedorenko
and S. L. Ginsburg for their programming,to L. V. Mayorov and M. V.
Maslennikov for their comments, and to 0. V. Sysoyeva for the cal-
culations." Orig. art. has: 2 figures and 7 formulas.
ASSOCIATIONt none
SUBMITTEDi 27Jun63
SUB CODE: Alp
Card 2/2
DATE ACQt OlMsy64 ENCL: 00
NO REF SOVt 006 OTHER: 000
;SSICTI IM: AP5014763 U.R/0200/65/005/W3/0561/0565
517-9:533.9
ATL'110R:; 4.1onkalov, 0. B. (Moscovr)
TITTI@-", An approximate method for solving the nonlineax equation of transport
SC-U.'@2: Zhurnal vychislitellnoy matomatilki i matematichockoy fizikil v- 51 no. 39
1@65, 561-565
reactort neutron transport, successive -approx-imat-i-on method-, -
approxivz%tt-ion. method, reactor control
I'A
tMTRACT: A method for solving neutron transpor in nuclear reactor
technolo& 'in proposed. It involve3 the u--e of succesnive approximations and
reproacnk. a variation of existing methods. The prvblom of the critical reactor
state is given as Xg'- A B'*T' i
where AL.O ia an operator dependent upon neutron dc-naity 01 and B is an operator such
th@.@-Av describes the neutron transport. The operator B is related to internal
reactor temperature by the equation T w B0. The computational goal is to une the
theary of excitation so as to reach a solution in the form
Card
57, 07
3
VACCIESSION NRI A.P50147-63
Ap- T*+ egg+ + ex, + 04
- - - - .. --i- . +
The Problem is reduced to success ve appro-cirulltion form as
.0414- tit
where C is- a funotion -such-that
X,Cq,. +@.J(C)T) F(C)
'The author introduces the neutron trarwport ohaxacteristic equation
x4p(r) dz'K(X, S.I.
@and derives@.a solution for the parameter Jn the form
Ir c) @.i. 5wK(s, e., ro (r r iipj,
P
S
1where T in a moan reaotor temperature given by
ay
r') r9i ix r%4414-
dgr V.+.S "(x,,e, rg,)T. dz TO'+TO
Lqad 213-
A7: J.
-65
L57073 V,
MON M AP50
14763
aotor lz@
tion based upon the Civen dimensions of a Particular re
A itioml solu
a@acunaion of tho aoouraoy of tho approximation in given, The author
offered.
thankn @k, U.-Tikhonov and Ye,-S. Kuznetsov for their interest in the oork. Addi-
tional thaWw are extended to Lo V. Mayoroy for his critique and to .2. _V -_-8L gy-awx
for comput@tional 'ac-eistances .-Orig,,art. has' 7 oquationa and Ifigure
ASSOCIATIONs nvne
-lW=64' Effailt, 00 SUB CODEt NP, MA'
suamm
OC4 OMMI 000.
NO BE? SOV
T
Card
-mow
L 45593-65, pr-4/pa-4/pu-4 bu
ACOSSSION MR: AP5009118 8/0089/65/018/003/0254/0255'
Su
AUTHOR: Moskaleyt 0. D.i ChuyanoTt V. A.
TITLE: Oertain nonlinear problems In the theory of nuclear reactors
SOUROZ:@ Atomnaya energlya, V, 18P no, 3P 19650 254-255
TOPIO TLGSt nuclear reactor design, neutron transport equation,
reactor critical conditiong reactor neutron flux
ABSTRAOT: The article considers an example of design of a nuclear
reactor with specified spatial distribution of the power per unit
,volume of coolant, In the simplest formulation of this problem the
oroffs sections for the Interaction between the neutrons and matter
are expressed In terms of nonlinear algebraic functions of the neutron
flux. Another problem leading to nonlinear transport equation In.
volveB the calculation of the stationary mode of a reactor In which
1the concentration of the poison has reached equilibrium. A specific
example Is operation of a reactor with Wflolently large per unit
energy, when account must be taken of the connection betwoeu the
C.,d
L 45593-6,95
AmssIox IR: An009116
--@distribution of,the temperature of the reactor and the neutron flux.
In this oats theAnteraotion cross aeotloaig,, and also the external
'and internal geometrical characteristics of the rsaotorso depend on
the temperaturej ma*ing the neutron transport equation nonlinear. It
is shown that some problens of the theory of nuclear reactors is due
to a stationary nonlinear equation of neutron transport# which In-
volves a certain operator (B) whose form depends on the concrete
physical problem. The eVeot of nonlinearity on the criticality of
the reactor Is considered and It is shown that, because of nonlinear-
Ity of the temperature dependenoe of the activity,, a reactor which in
su.percritioal in the cold state may.turn out to be critical at
sufficiently large power rating. The question of existence of the
unique pooltIve nontrivial solution of the Paierls e uation
,,D (p)=AM. were A In a nonlinear Integral operator lassumed to be
monotonic), is also oonaldered, and the solution of the equation Is
obtained by successive approximations under reasonable physical
assumptions
1ASSOOIATIONs Nano
suBNITTXDt, -2ljan64
!Card
-ANCLs 00 OUB OOJM: NP,
KIRILLOV, G.N., inzhener; MOSKALZV, P.D., mekhanik; PIMMOV, A.N.,
shofer; KOM , B.r., furhaner, retitenzent; KAPRALOV, B.A., re-
daktor; KOIZLI. B.I., takhnicheakiy redaktor.
[Servicing and regulating the feed system of carburetor motors]
Obaluchivanis i regultrovka sistemy pitaniia karbiuratornykh
dvigatelet. Kosirva. Goa. nauchno-tekhn. izd-vo nashinostrolt.
i sudostrolt. lit-ry. 1954. 144 p. (HLRA 7-8)
(kutemobiles-Sngines)
i . I.
new i,@ th.- organizatio
.)f t work of a uake-u,, yard
, cs,@v- , @os. transp. zl,; 1-dor. @ -4 . . ( @,)- J@p .@,)
TF@,,,!,,.,,-@6
MW&kLEV, P.I., inzhener (Novosibirsk)
Improving the or6anization of making up trains. Zhml.dor.trans*D.
37 no.2:52-54 7 '56. (KLRA Q:5)
(Railroads--Making uD trains)
MOSKA"i, F.I., tnzh.
3rAicializ.att mr. of !- fit.-hini, trtcks In hLndling 1-0@' n@. @re P(Tuinnpd
.-rith automt1c Zhol. dor. tr.-n9r. !A,) rjo.. :---1'7 F 15P.
Mii1roadii-Switching) (Car ,@oiipllrG) (14M, 11:3)
RDSKALEV. ?.I., Ineh.
larproving the organization of switching in classification
yards. Zhel.dor.transpo 41 no-7:69-73 JI '59.
(MIRA 12:12)
(Rallarnads-Raking up trains)
1,105KALEX, P.I.,, dotsent
Yards for the preparation @-,f ei.ipty -ars for loading are Ln
efficient means for socuring Lho rc;gularity of the work in
large areas. Trudy IIIIZJIT no.25:75-87 161. (MIRA 16:11)
MOSKALEVP P.I., inzh. (Novoeibirsk); POTAPOV, P.R., lnzh. (Novosibirsk)
Information and accounting center of a classification yard
Zhel. dor. tranBp. 46 no.1:68-70 Ja 164. (@ff EA 1": ;)
TRUBNIKOV I.Ye.; OGORODNIK, N.1e; FLEYSHMAN, B.A., dotsent;
MbSKALEV,_ P.J., dotsent
What are the advantages of concentrated classification opera-
tions? Zhel. dor. transp. 46 no.7:32-37 JI '64.
(MIRA 17:8)
(for
1. Zamestitell nachallnika Zapadno-Sibirskoy dorogi
Trubnikov). 2. Novosibirskly institut inzhenerov zhelezno-
dorozhnogo transporta (for Fleyshman, Moskalev).
MOSY,A I -1V @ F. 1. , Jol,--iont; SQ1,H IN, V.V.
f ! ;.I :p1es of tile scientl fic organization of work -@ @-, ' ' **: - -, ' ' ' :, 771:-J3-
Zw-1. dor. traywp. 4'1 no.9.26-32 S 165. Y.';@A
.. G:avriyy :nzn. :j-,rt.ir)v,)chnoy stants1i Inskayn 1, fur 3.uv iIr .
SAYENKO, L.F.; YEGOROV, A.!.; IGNATENKO, Ya.l.; MOSIKALEV, P.N.
Production of In 11jw preparations of high specific activity. Izv.
AN SSSR. Ser. fiz. 29 no,7112.36 JI 165. (MIRA 18-7)
L.62W-65 EWT(m)/EWP(J)/T/EWF(t)/9dP(b) IJP(cl JDIJG IRM
JiCCESSION KR# AP5020506-
UR/0078/65/010/008/1951/1953
661,865,678+661.865.7'78+
66'1.8660678+661.866.978
AUTHOR., KIrin. 1. S.; Moskalev, P. N.; Makashev, Yu. A.
TITLE* rormation of unusual --- ----
SOURCE- Zhurnal neorgunicheskoy khimi v 10, no. 8, 1965, 1951-1953
TOIPIC TAM phthalocyanine, neodymium'compound, praseodymimm compound, erbium
compoutd, lutatium compound, chromatographic analysis
ABSTRACT, The article-reports some-results-indicating the formation of two forms of.,
Qre ea@ih phthalocyanines during synthesis of phthalocyanines of neodymium, praseo-
idymium, er-bium, and lutetium from the corresponding rare earth acetates and o-phthal'-
onitrile. The-producta weve identified spectrophotometrically in dimethy1formamide
of the Enclosure) The ununual nature of the spectra obtaine'
-1solutions (see fig-,
1(two absorption peaks -of approximately equal intensit)( instead of one large and one
small peak) indicated the presence of more than one form of phthalocyanine in each
1case, Two forms were successfully separated by chromatography using columns with
IA1203: the green form of neodymium phthalocyanine is thought to have the usual cam-
Card 1/3
L 62,040-b:2
ACCESS ION RR: MUM%
@posltion with one molecule of the phthalocyanine ligand; the blue form is thought
:,to contain two molecules of the ligand. This composition agrees with the results
lof the chromatographic separation: the green form, having one ligand, is more pol-I
;ar, and hence adheres more strongly to A1203- In ar. electrochromatographic separa-1
t@tion on paper, the green phthalacyanine moved toward the cathode, and the blue 011L,
Itoward the.anode-, this corresponds to the nwriber of negatively charged ligands in
I
,each of the complexes. Orig. art. has: 2 figures.
IASSOCTATIom: riziko-teklinicheskiy Institut im; A. F, loffe Akademii nauk SSSR
'(Physicotechnical Institute, Academy of SciencespSSSR)
SUBMITTED- Mec6lll EITCL: 01 SUB CODE: GC,IG
Ito PXF -SOV: 003 OTHER: 006
card 2/3'
L 6P930-6!->
ACCESS103 flit: AP50,20506
ENCLOSURE- 01
3/3
ACC NR, AP7006252 (A) SOURCE CODES UR/0079/67/037/001/0280/0280
AUTHORS Kiring I. S.; Moskalevq P. N.; Mishin, V. Tas
ORGI Physicotochnical Institute Imeni A. F. Ioffop Aaadwq of Soleness# 353R
(Fiziko-tokhnicheskiy institut AkadmIL nauk S33R)
TITLES Synthesis of phthalocyanines of certain heavy metals
SOURCEt Zhurnal obahchey khimii, v. 37, no. 1, 1967, 280
TOPIC TAGS1 uranium compound, thorium compound, hafnium compoundq antimony compound,
bismuth compound, phthalocyanine
ABSTRACT: Phthalocyanines of uranium, thorlum, hafnium, antimony and blamuth were
synthesized from a-phthalonitrile and acetates of UO@2+, Th@+, Hfj++, SO+ and B13+
at 250-3000. The absorption spectra of the products of tho synthesis reaction
showed several bands at 640-799 map which Indicate tho formation of various forms of
phthalocyanines. For instancog three absorotion bands with peaks at 6144, 659 and
694 m@L wero found in a benzene solution of the product of the synthesis of uranium
phthalocyanino. Chromatography on A12(@ was used to separate a form of uranium
phthalocyanine characterized by a single strong absorption band In bentono at 644 ma.
From a benzene solution of the raw'reaction product resulting from the reaction of
synthesis of uranium. phthalocyaninep ethyl other "aaltod out" a compound having a
band with a peak at 693 mts. In the remaining solution, a single &bsorption band with
Card 1/2 -..--UDCI - 5-47-584
ACC NR.. AF?006252
a Deak at 643 mts was observed. The absorption peaks for the reaction products of
phthalocyanines are as followss 646 and 695 mtk for thoriwr.9 632, 665 and 698 mLi for
hafnium, 642, 659 and 706 mti for bismuth, and 670 and 690 mu for antimony. Tne
spectra of thorium and hafnium were taken in benzene, and those of antimony and
bismuth in dimothy1formam1do. The observed variety of thce forms of heavy metal
phthalocyanines Is apparently due to the formation of oovqkloxos with more or less
intricate structures, as woU as to the variable valence of the complax-forming
reactants.
SUB COM 07/ SUEM DATEI 22Ju166
Card
o!
31 'r; Fie netw(-@rk @o: i,
transceiver. Avtcm.,
1. Novoobirskaya distant-!i@ya 7E.,
I -
MOSKALICT. S.A.. inzh. (Mosk-va)
- Forms rol-precast reinforced concrete iteics. Strol.pred.neft.
prom. 2 no.7:22-24 JI '57. (KIRA 10:10)
(Concrete construction-Formwork)
(Precast concrete)
SOFINSKIT, I.D.; BLOKHIN, P.M.; GELIBERG, L.A.; ZHDA11OT. P.K.; IVASHCHMO,
I.P.; LETIMA. G.P.; YAUKOTA, M.A.; SHIENOT, U.S.: ARCHOTA. R.I.;
NIKMAYEV. N.A.; SHERE-H IS, A.A.; KOVALEVSKIT, I.I.; LOBACH", P.7.;
SLADKOV, S.P.; DZIGAN, A.T.; FORAFOYOV, N.K. Prin1mali uchastiye:
ARGANSKIT, A.S.; ASKUS, Te.H.; BICZHAWYA. Te.H.; BOGATTKH. Ta.D.;
BU M 19, V.A.; GOLIDING, M.P.; DOHSHLAK, I.P.; KOSKALZT, S.A.;
RABINOVICH. S.G.; ROGOVSKIT. L.V.; KHOKHWVA, riP;;
RTIBAMMO, B.R., glavnyy red.; GALKIN, Ta.G.. samest.glavnogo red.;
SAPRTKIM, V.A., red.; SHCHEMOV, T.K., red.; MOVITCHMO, K.H.,
nauchnyy red.; VILKOV, G.H..inzh.. red.izd-va; TTAPKIN. B.G., red.
Izd-va; ELIKINA, E.H., takhn.rad.
[Building your own home] Spravochnik individuallnogo zastroishchika.
Koskva. Gos.izd-vo lit-ry po stroit.materialam, 1958. 442 p.
(MIRA 12:2)
1. Akadamiya strottel'stva i arkhitaktury SSSR.
(Building)
KOSKALIT, S.. lnzh.
Danonstratton building of dair7 barn. Sell. stroi. 12 no.3:9-10
le 1 0. (KIRA 11:3
(Dairy barns)
MOSKALM. S.A.. inzh.: ALZSffKM. P.R.. Inzh.. nauchnyy red.; KRYUW3.
- __T_.
u I., red.ixd-ve; GOLIBXRO. T.M., takhn.red.
[Manual on work safety for a loader at construction sItemJ
Pamiatka po tekhnIks bazopannosti dlia gruzchika na Arol-
tol'stva. Moskva, Gos.izd-vo lit-ry po strolt., arkhIt. I
strolt.matarialam, 196o. 31 p. (KIRA 14:3)
(Building--Safety measures)
-HOSUIRL S.A., inzh.; RONZHINA, A.A., red. izd-va; BORCVVEV, V.K., takhn.
red.
[Pamphlet on safety engineering for gang-saw operators] Pamiatka po
tekhnike bazopasnosti dlia mashinistov piloramy. Moskva, Gos. izd-
vo lit-ry po stroit., arkhit. i stroit. materialam, 1961. 16 p.
(MIRA 14:6)
(Sawmil-19--Safety measures)
III co YUI i I r,a
1 .119 .1.
Grip for loading bundlos.
prodl. no. 37:1G-11 159.
(Loading
Sugrooted by 3.1.
and unloading)
x
I . - ,'.
Hookalev. fiats.
(MIRA 14-1)
PEDOROV. B.F.; MOSKAUV, S.M.; SHUMT. H.L.. professor, redaktor.
[Nechanizaticm of fitting and assembly work] Kekh&uiz&t@II&
sles&rne-sborochnykh rabot. Moskva. Gas. nauchno-tekhn. izd-vo
cashinastrott. lit-ry, 1950. 231 P. (KERA 7:5)
(Ke.chinery-Construction)
BIBIKOV, Yuriy Konstantinovich; MOSKALEV, Stanislav Nikolayevich
(Trade unions in Leningrad during the Soviet r ime, 1917-19591
Profsoiuzy Leningrada v gody sovetskoi vlasti,1917-1959. Moskva,
Profizdat, 1960. 189 p. (MIRA 14:10)
(Leningrad-Trade unions)
Abs J ur
Y'; Z' I Is I I E u t 1 1 Y
Dnr
no
-j o
jj
J
r I i5 Pub At C, -n o r :,-r, Z7 -
vnrl, i,s qun- ix val
F'@rrni w ft u r pt r'@ f
f i I t e r .--v ("'.d-lium fill ter) @lr t Ij s
@@i !@d (I i
s
pc, r,--
wn s to r m I, I i , it, '-f 'nc I j
ss Im -1:; r
c@ r s v s 'I Mi I i.,
wm@ s 'j, -le, 1 @7@ @1-1 :.fs
s m 3, r(@ -I; r-,
A w n r n nv
pf
24 (7) SOV/89-6-5-14/33
A;THORS: Adamchuk, Tu. V., Moakalev, S. S., Pevzner, X. I.
-- ------------
TITLE: Total Neutron Cross Section of Np 237 Within the Energy Range
of 2 - 10,000 ev (Polnoye neytronnoye secheniye Sp 237 v oblasti
energiy 2 - 10,000 ev)
PERIODICAL: Atomnaya energiya, 1959, Vol 6, Nr 5, PP 569 - 571 (USSR)
ABSTRACT: Measurement was carried out in 1956 with 2 NpO 2- samples con-
239
taining 11.6 ,4* Pu . The preparations had a thickness of
5.31 9/cm 2 and 0.702 g1cm 2 respectively. A mechanical selector
with a 80-channel time-analyst, which is in operation with the
RFT-reactor, was used. The mechanical selector consists of 2
cylinders (I - 40 cm, R - 5 cm) mounted on one aris. The
cylinders have 6 thin radial incisions which are uniformly
distributed along the circumference. The flight distance was
24-97 m. The rotor performed 25,000 rotations per minute.
Maximal resolution was 0.12 Psec/m. 7 boron proportional counters
which were combined in a bunch, served as neutron detector. Their
effective length was 49-5 cm. The BF was enriched with BIO. The
Card 112 total cross section measured is showA in form of a graph. From
237 SOV/89-6-5-14/33
Total Neutron Cross Section of Np Within the Energy Range of
2 - 10,000 ev
SUBMITTED:
3.86 + 0.02 ev to 16.9 + 0.2 ev 15 resonances are visible
259
of which 2 may, however, be ascribed to Pu For fo/D
a value of (0.66 + 0.13).10- 4 was calculated. The total
resonance integraf within the range of from 2-T to 12,000 ev
amounts to 360 b. There are 2 figures, 1 table, and 5 ref-
erences, 3 of which are Soviet.
January 6, 1959
Card 2/2
VORONKOVP R.M. ; I MIN", , M,. I @ ; i"Ui@GV , N. 11. . A,"'J,?'Y:,-I'VO A V, ; B;@SAL-'-YEV ,
14.1.; KOROUV, V.!-'.; '9T.P,
Linear 30 Mev. electron accelerator .-or neutron spectroscopy.
Atom. energ. 13 no.4:327-336 0 162. Ovia;- 15:r))
(Neutr,ns-spectra) (!article accelerators)
L 13176-63 MM(R)/Ms- AFFTC/&W
ACOFMIOK Nat AP300
2TM
6-0-5-8 /_0 - - -
060
1AUTHCR: Koaksler, S. S. Adamchuk, Ya. V.r Sotnikov, S. K.
ITITLEt Naltivire neutron detector th an overloadproof preamplifier
ISOURCEt Pribory* L tekhnika eksp@erimentav no- 3, 1563, 58-60
ITOPIC TA133t neutron detectorl overloadproof preamplifter, neutron study
10
IABSTR&CT: - A multiwire B F.-filled new neutron detector is described which is
intended for studying total neutron cross-sections an a neutron spectrometer; the
neutrons are supplied by an IAR linear electron accelerator (R. i. Voronkov, M. I.
Povzner, N. M. 1"Lerov, A. V. Areffyev,, et al.,, Atomnaya energlya, 1962, 13, 327)*
The detector includes 230 proportional counters that have only a 0.25 Microsec
@delay. A simple-circuit overloadproof preamplifier (overload capacity about 1,000
eliminates overloading the electronic devices due to high-po-wer ga=a-ray pulses
ithat are set up by the accelerator electron pulses. The preamplifier permitted
loutting the channel dead time (after a gamma. pulse) dzin to 5-10 microsec, I. e.,
;permitted studying the total neutron cross-sections from 100 kev on. "In conclusion,
rd
UL
L 13376-63
AGGESSION HRc -AP3002T2D
it in a pleasant datr of the authors to thank K. 1. Pavzner, N. N. Flerov,
L. P.,19itoyiCh. wA a. A. ratomin for their v a REFremes and dAscussions,
F, Shavicutenko for his part in- building the deteetor, and also K.
-.......-Arelinikov and T, 're, Gharnko for their help in alignift and, operating the
experimental hookup." Orig, sA. has: T figures.
ASSOCIATIONt rhatitut atomnoy energil. (Thstitute of Ltomic Ehe=
SMW=-* 04kug62 DLTM ACQ: 12Jm163 ENCL: 00
SUB COM: I(St 3D NO R3F.S0Vc 006 OTM: 000
Card ?12
r,105 0/044/004/013/044
B1
RIO 66,
2Y
UITHO RSc Pivzners, K. I*# kdamehak Yu., V.f Danelyant Lo S*#
rofimovq B. Y.# Uoskalev, S, S.r Muradyan, G. V.
TITLE& ;@Yeutron-speotroxcapic Investigations of Nuclear Levels. 1.
Neutron arose sections of molybdenum. is6topeg in the
:15"'000 ey energy range
PERIODICAL& Zhurnal, eksperimental"noy i teoreticheakoy fiziki, v. 44,
no'. 4t 1965, 11ST - 194
TEXT The-time of-flight method wax used for determining the total neutron!
Craigit. Seotiarid ipath length 109-4 m) and the radiative capture cross sea-
-tion (path, Length 15.1 a) for Ko Laotopea from L - 92 to 100. The meaaure4
a
ments were made.by means of a neutron sp6atrometer (of. Atoinnaya, energiya,
r, 1962), anct a-linear.electran accelerator was used as pulsed neutrori
-13, 52'1
i:: source (Olrii 14ort. P-9561p Dubn&r 1962),; the pulse duration was Oe6 pseas
It @the repetition trequency 100 apat the channel width of the time analyzer
O-5TT The neutrons'were detected by a stack of 230 proportional
counters arranged in- an aluminua, tank filled with BF so% BIO). The
!,@,Gard 1/2..:
/056j63/044/004/013/044
B102/B186
2
,detector area; 2500 mi tho thickness in the direction of the neutron
rajectorlas was ITA am.
t -The highest resolution in the total arose-seatiod
was 0.006jLsec/a. The energy distribution of the total neutron
see ion Is graphically shown for the whole range investigated and tha@
are tabulated for the 'great many resonance levels observed,
seven KO isotopes, investigatedj@E ',r tr F and ro are given. In
n n
Itionsf the interference between, potential and resonance scatter-@
into account*
-'Jnga is takiakli 11so the strength function for the a-wayep
0
1, is calculated for all isotopes. The weak levels detected
95
97 gs
110*$t '118.3t 220, 249, 26T.3 ev; 230 ey; No
KO 12 ev and
100 -
P.-M 99.5 ev* areAattributed to p-neutron capture. A series of double and'
0 1
-even. triple peak poinoidences were observed; thusp for examplep at 335,LlOei
'100
Ho :Mo
92@ 95 at',152C@+_10.evt U0949 U097 and Rogs. Theri
and 1(j have a peak;
2figures and 2 tables.
SUBMITTED e Nov ember 26, 1962
ACCESSION NR: AP4012266 S/0089/64/016/001/0056/0058
AUTHORS: Danelyan, L. S.; Adamchuk, Yu. V.; Moskalev, S. S.; Pevzner,
M. I.; Yastrebov, S. S.
TITLE: The radiative-capture cross-section of disprosium isotopes
in an energy range of 0.023-1 electron volts.
SOURCE: Atomnaya energiya, v. 16, no. 1, 1964, 56-58
TOPIC TAGS: absorber, burnable absorber, isotope mixture, natural
mixtute, capture cross-section, radiative capture, amplitude analyzer,
dysprosium, thermal neutrons, neutron spectrum, reactor oscillator
ANTRACT: The capture cross-sections of dysprosium isotopes have
been measured by the flight-time method. A pulsating linear elec-
tron accelerator was-used as a neutron source. A single-channel
amplitude analyzer transmitting gamma-ray pulses with an energy of
1.b-5 Mev was added to the background to improve the effect. The
total cross-section was measured by the neutron transmission in the
0.62-0.07 ev range with a view to determining the absolute cross
section. But the lack of adequate quantities of separated isotopes
Card 1/2
ACCESSION NR: AP4012266
complicated the determination of the total cross sections in the
entire energy range. The transmission of the dysprosium samples lo-
cated midway b een the accelerator target and the detector was re-
corded by a GdM sam placed in the detector. A mass-spectrometric
162
analys s of ardl) samples, designed to determine their content
of Dyl@4, 0B and Gd157 was mad th an Mc-2M mass-spectrometer.
It was found that the Gdl@5 and GdViisotopes accounted for less
than 0.01% which can produce a 10% error in defining the absclute
values on the basis of the total cross sections.
"We are deeply grateful to V. S. Zolotarev and his associates for
producing separated dysprosium isotopes; to G. M. Kukavadze for his
useful advice, and to A. S. Alpeyev, A. Ya. Lunin, S. M. Streltnikov
and M. V. Safronova for their participation in the measuring and data
processing."
Orig. art. has: 1 Figure, 1 Formula and 1 Table.
ASSOCIATION: None
SUBMITTED: 24Jun63 DATE ACQ: 14Feb64 ENCL: 00
SUB CODE: PH NR REF SOV: 002 OTHER: 003
Card
-I c) ui ic L-nn-:-m@/6f -@@/66/-6-6-6/@@/do-W3/ob 5c)'-
ACC NR: A? (C),)19
Xurak.yan, 0. V. ; A(@amchulc, Yu. V.; Moska-lev, S. S.
OR3: Instltu,;u of Atomic EnerGy,GKAE, Moscow (Inatitut atomnoy enerj,11
Gi@;,E)
T =,E Ne@atron spectrometer for Identifying nuclear levels from the
orbital moment of) incoming neutrons
SOUKE: Pribory I telchnika eksperimenta, no. ra, 1966, 43-50
TOPIC TAGS: radiation spectrometer )n,.,+A.
ADSTRACT: A neutron bpectrometer Intended for Identifying nuclear
levels from the orbital moment of Incoming neutrons Is descrlbe@.
i-,-,eT,hod of identifying s and p neutron levels Is based on interferunc,@
observations by means of a Doppler shift produced by thQ motion of tl-lt@
belnZ studied. 1',leutrons from a pulsed source are passeci
a moving filter T and are then recorded from captured T-rays generate(@,
I le D which consists of T and the Investigated nuclei.
by a sam.)L
P
lrom -r-quanta are passed on to a time delay analyzer by means of C
ne,,.itron ti-me distr1bution is obtained. It Is shown that thu rr-.c - "
rusults depend on the d1rectlon of inotion of the sample ',' for
the s levels only. A schematic drawing of the orbital moment selector
-Card LLV)C-,.
ACC NR, AP700193
iZ. 1. Layout of the spectrometer system In the path of a
neutron beam
I - Accelerator; 2 - target (uranium + H20 moderator);
accelerator protective wall; 4 - gate; 5, 8 - collimators;
6 - concrete shield; 7 - orbital moment selector; 9 - scin-
tillation detector.
Card
jj
ACC NR;
Is Ln I A pulsed linear electron accelerator is -,C,
prc
'd ie a ne',@tron pulse. The electron pulse has the followIng cnarLc-
vild'uh, 0.25 msec; current, -0.5 amp; and energy, -2"@ :'.ev.
+
Lc:ad
LN
-away dravv'r,@; of
Fl.j,. 2. Cut
the two-crystal sclntllla@lon
detector
Cord
ACC NRi AP7001937
1:-,.pin gin- on the uranium target, tne electrons are convertet _'n-.c
which in turn generate fast neutrons. Neutron moderation
ac,-,-evad by a 4-cm-thick water moderator surroundinrre, the uran@ U.
shaping of the neutron beam is made by an opening In the L; a t e
collimators located in a vacuum neutron gulde. The ne-
0
J.n a 3eparate section in which are contained the sample no!Cur
C) performing the Afinal neutron beam shaping, an6 an
-.oinUillation detector (9) for recording the process of -,_@utron
A cut-away drawin- and a block diagram of the scint.1-lat'Lor,
are shown in Fig. 2 and Fig. 3, '
L; respectively. The two Na:(T.1)
Lcre mounted on two I;IEU-49 photoraultipliers. To reduce the
noise, the sample is surrounded by a 3-cm-thick cylindrical
1--yur of pressed LIH. A 10-cm-thick lead shield is placed aroun6 the
C I., or. The external shield is of Li@,' and paraffin. The "atector
j.;-;,@Lally used In enertments to measure the radiation ca-)turc a:
`v_'i.iual Ag107 and Agl 9 isotopes using a 2.048-channel timo' analyzer,
width, 0.25 -Hsec). The width of the neutron pulse was
-3.2 -tsec. The operation of the entire spectrometer system was tested
In S and p Identifications of Nb93 levels In the region of 400-500 ev.
Card-1,
ACC NR: A270019-37
P113c:
FI-. Block-diaoram of c, Q c c
1 Catho--@e repeater-; 2
,u' -, e-enerator; 3 - cathode
1, - Integratting circuit;
fler; integral discrIminat.3r;
time analyzer
It '-, -az; found that at Eo 4060. ev t.,e level was of the s type , a,-,,: at
Ec, = 5-00.3 ev of the p type. Orig. art. has: 8 figures. 'L",-:A7Dj
'L'jRj
SU3 CODE; 20/ SUBMl DATE: 08Apr66/ ORIG REF; 001/
R22 005
Card 5/5
mas
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Wood prevents fires. Pozh. delo 8 no.9:27 S 162.
(tCRA 16:11)
1. Glavnyy mokhanik Nesvizhekogo Itnozavoda.
MR/glectronics - fthibitions Aug 52
Television
"Awards to Participants in the 10th All-Union
Radio &rbibition"
"Radio" No 8, pp 16,17
Lists a%mrda to participants in the various sec-
tions of the 10th All-Union Radio Exhibition.
First prize (2,000 rubles) in the television
section vas av&rded to B. N. Gorshkov and V. A.
Moskalev of Mcscow for a relay station. In the
6T21
special eqnIpment section, lat prize (2,500 rubles)
vas avarded to Yu. L. Mellnik, 0. A. Dergachev, ana
M. V. Katsnellson of Leningrad for an undisclosed
development. Other prizes in this section -jere
awarded for radio-controlled model ships and sIr-
PlAnes.
226T21
MOSKALEV, V. A.
"Investigation of the Membrane Strength of Membrane Compressors." Crind
Tech Sci, Moscow Order of labor Red Banner Technical School imeni &iumaa, KIn
Higher Education USSR, Moscow, 1954. (KL, No 1, Jan 55)
Survey of Scientific and Technical Dissertations Defended at USSR Righer
Educational Institutions (12)
SO: Stm. No. 556, 24 Jun 55
KOSKALN, V.A.
- -"@
Fatigue reststancelest of membranes. Prtborostroenle ac.S:
21-25 Ag 156. (KLRA 9.-10)
(Ketals-patigue)
(Zh.
19@6, VoL 26, No. 91
note -with a scctiw d4-
io
for
m
M
.
M
.7:,
Zb. Ukh, M, M4441
? " M20
Th* Ontce emsists of a brtatron wili two ateelosslibe tham-
bura, pW44 la Uia ke,=;r =jmt. The, tvi bo=s may be finuoW at
a prafti (aaLuce ftom %tic m4net, to xi; to 11.1cm v.
struettour d ffis Irr2dWed rtfecta.. 7M device a4u==
uluty &uUabla for 1c,411vag tke 4erm ot d4mta in U&A metal
ftp@cljwe; it May Also be useW lot raediW WrrVKfi, alme the
04 Oki bOd7 T-.21 bo 4,xJIA*d wUhcAd
2
VOROB'TEV, A.A., doktor fitiko-matematicheskikh nank; MOSKALEV, V.A..
kandidat tekhnicheskikh nailk. WWWWWAMMWI-1p
Uatne, part1cle accelerator# for defmctoscop7 and radloscop7 of
thick-walled objects. Vast. mash. 36 no.9:62-65 5 156.
(14LRA 9: 1 D )
(Particle accplerators) (Radialoff, Industrial)
(Metals--DnfRcta)
1-118 4
nical Int,
V..T.
SUBJECT USSR / PHYSICS
AUTHOR MOSKALEV,V.A.
TITLE pa @a stribution of
PERIODICAL 25urn. te chnfis, 26, fasc.11,
Issued: 12 / 19' 7
CARD I / 5 PA - 1692
the Radiation of a Betatron for 10 MeV.
2595-2598 (1956)
The theoretical investigations concerning the spatial distribution of the brems-
strahlung coming from a thin target carried out by L.J. SHIFF, J.LOWIS011, and
some other authors furnished nearly equal reSUlt3. At electron energies of some
MeV radiation propagates mainly in that direction in which the electron bundle
moves when impinging on the target. Symmetry of the distribution of radiation
with respect to the axis of the bundle, and inverse proportionality of the
"angle of half intensity" and of the primary energy of the electrons are claimed
to exi9t in theory.
The prveent work deals with the experimental determination of the upatial dis-
tribution of the radiation of a 1,otatron for 10 MeV. For purposes of measuring,
a dosiiqeter with a thimble-like graphite ionizdtion chamber with vialls of from
3 to 7@6 mm, thickness and with an operating volume of 1 =3, as well as a stan- 3
dard device of the type USDDb with an aluminiua ionization chaml)er of 1000 am
volur- were used. 1@je chamber of this devicq had a wall of 1 mr. thickneas and
was used for the permanent control of the radiation yield. The thimble-like
chamber was located at a distance of 1 mm from the radiation source and it was
possible to move it in a circle round the tareet.
Zurn.techn.fis, 26,fase.11, 2'95-2598 (1056) CARD 2 / 5 PA - 1692
A dia,Criam illustrates the measlared intensity listribution of the ionization
chanber with a wall that corresponds to the equilibrium. The curve has the
maximum which -.haracterizeg betatron radiation and corresponds to the Prin-
cij@ul bundle. The maximum of radiation lies in the 4irection of the tangent
apj,liel to the electron orbit at the position of the target. The angle of
half-intensity amounts to about 240 (100 to the left and lijo to the right).
Thi3 is illustrated by a necond diagram, in which, be3idec, the experimental
and theoretical curves are compared. Good agreement confirms the correctness
of J.LC.*ISONIS theory. The asymmetric distribution of radiation in the
horizontal plane is obviously due to the fact that the bremostra-h1une uf the
electrQn bundle originates only from the outer edge of the tarei!t, for the
electron3 approach the tareet along a !ipiral with very small spacing of the
ord,'@r (2 - 5).10-5 cm. Therefore that part of the electrons, which is de-
flected towards the edee of the target after the first COlliSiOI13, moves
alcrie a shorter way in the material of the target and furni@hes le3s radia-
tion than the beam which was deflected in the opposite dir(-Iction. This al-
ways causes an asymmetric angular distribution of the radiation of a betatron
and synchrotron. The distribution of radiation in the vortical plitno w(is
symmetrio, the angle of half intensity amounts to 170, which agrees vir)ll with
theoretical results.
V
Zurn.techn.fia,26,fasc.11, 2595-2598 (1956) CARD 3 / 5 PA - 1692
The existence of a second maximum in the spatial distribution of the betatron:
When investigating the spatial distribution of betatron radiation, the author
found a second radiation maximum. It is displaced with respect to the prin-
cipal bundle by from 15 to 200, and is due to a comparatively soft radiation.
It is noticeable only when measured with thin-walled Ionization chambers. The
energy of this radiation is less than I HeV and is fully absorbed by a material
2
with a density of 1p65 9 am .The radiation sproads round the betatron in form
of a fan with obtuse and blurred angles. The existence of a large amount of
weak radiation, the maximum of which has another direction than the maximum
of-the hard radiation coming from the target of the accelerator, was observed
in the case of 6 betatrons (for 15 and 25 MeV), and seems to be typical of all
betatrons of similar construction.
Some experiments permit the following explanation of the occurrence of an in-
tense soft radiation: The range of 10 HeV-electrons in tungsten Is 2 - 3 mm.
The targets which can be used in the betatrons discussed here have a thickness
of from 0,2 to 0,4 mm. Therefore the accelerated electrons are able, when
colliding with the target, to penetrate through it, on which occasion, however,
they lose part of their kinetic energy. Such electrons are turned by the
magnetio field towards the center of the system, and "fall" on to the inner
wall of the acceleration chamber. The most probable azimuth at which the
electrons, after passing through the target, collide with the wall of the
V
Zurn.techn.fis,26,fase.11, 2595-2596 (1956) CARD 4 / 5 PA - 1692
chamber, can be approximately determined from an equation which connects the
period of radial oscillations T vib w ith the period of revolution T curl of tho
- , I
electron on the equilibrium poriod: T vib ' Tcur, (@i - n)- . Here n denotes
the exponent in the theorem characterizing the decrease of magnetic induction
(in the concrete case it applies that n - 0.75). According to this equation
the electron performs a full oscillation per two revolutions round the center
of the system. Consequently, the electrons passing through the target can
collide with the wall of the acceleration chamber after having performed a
revolution on the orbit, i.e. on an azimuth which is similar to that of the
position of the target. 'Uhen being slowed down by the wall of the chamber and
in the silver layer covering the interior of the chambert the electrons then
emit an ample amount of soft radiation in the direction (or nearly so) of the
propagation of the hard principal bundle. The electrons must impinge on the
inner wall of the chamber all the more the more their velocity decreases.
The greater, therefore, the loss of energy of the electron when bqing slowed
down in the target, the sooner does the electron collide with the wall of the
chamber, which diminishes the distance between the maxima of "hard" and "aoft"
radiation. These assumptions are confirmed by the following experiment;
V
Zurn.techn.fis,.L6,fasc.11, 2595-2598 (1956) CARD 5 / 5 PA - 1692
A mechanism was constructed for the purpose of exchanging one tare:et for an-
other without destroying the vacuum. Thus, the spatial distribution of the
radiation originating from three tungsten targets was investigated. In the case
of all three targets an intensity distribution of the radiation with two dis-
tinctly marked maxima was found to exist. The left maximum has the 3ame direc-
tion as the tangent applied to the orbit at the position cf the tareet. This
maximum corresponds to the principal bundle of the radiation which is caused by
the slowing down of the electron in the target.
The second maximum caused by slowing down of the electrons in the wall of the
chamber is shifted by 250 towards the first maximum in the case of a target of
0,5 mm thickness (if the target has a thickness of 0,1 mm it Is shifted by 350).
The decrease of the angle between the maxima on the occasion of an increase of
thickness confirms the correotftess of the aforementioned conclusions drawn with
respect to the causes of the second naximum. The electrons ghich passed through
thick targets lose more of their kinetic energy than in thin targets. Electrons
with a lower kinetic energy of the chamber approach the interior wall of the
chamber on the steepest spiral and leave the wall 9ooner (i.e.at a lower azimuth)
than electrons that passed through thin targets. This causes the maximum of
"soft" radiation to shift with respect to the direction of the principal bundle.
INSTITUTION:
USSR/Nuclear Physics C-2
Abs Jour Referat Zhur FizLka, No 5P 1957) 10975
Author tfiogkalev, V.A.
Inst Polytechnic Institute, Tomsk.
Title The Stereobetatron.
Orig Pub Zh. tekhn. fiziki, 1956, 26, No 9, 2o60-2o6l
Abstract Description of a 10 Mev betatron with two accelerating
chambers, which betatron can be used for comnercial de-
fectoscopy of thick-wall articles and for deep therapy
of malignant tumors in medicine. Two-field radiation ma-
kes it possible to obtain stereo photographs of the de-
fect and reduces the time of exposure in defectoscopy, and
in the case of deep therapy it makes it possible to double
the dose on the tumor without changing the dose on the sur-
face of the skin of the Datient and to reduce the duration
of the medication session.
Card 1/1
A UT HORS: Voroblyev, A. A. 1,loskalev, V. A.
TITLE: The Investigation and the Development of -,y,@Iir Ac -ler,A' r-:!
at the Tomsk Pclytechnical 1nstitute(Is31edovaniy,i i rLzr;,-
botki elektronnykh t3iklichoskikh usiorite"ey v
tekhnicheskom institute)
PERIODICAL: Atomnaya Ener@-iya, 1998, Vol. 4, Nr 5, Pil. 'L)
ABSTRACT: In 1946 the degign and the con3truction of ,i bet-itror,
started at Tomsk.
In 1948 a 5 MeV betatron (the electromagnet:.c wiridins
supplied by a 500 cycles alternatint, current) a.] Viell 1,9 a
7 MeV bet&ron (the supply beinC carried out -le,ins @,f
mal alternatinj, -urrent) were finished and ,ut irt@
Within the period from 1)49 to 11@155 a number -)" bc,*L-ttr,@nq i;
to 15 MeV were finished and put into operation. Wit,iin
period also a 25 MeV betatron was constructed whi-r, has ar
increased radiation intensity and the qinr,',e agt@re::@itpq f
which operate considerably more stable. From 11)@'; I -- 101",
Card 112 a few of these apparatus were built. The mo.,3t, i-:jI r t an ;i I-L -
'@he Inv cot it, a tion and
Po ly to clinical Inotituto
me t e r ,i an we I i a 9 t @, o jo t @t
trons are cii ocuss"d. Difr,`,iron,
deflect n e le c t r,: n 'te am t
11) (- t at r(.)n i. spa rtIyJ@-, f3,7 r4dr
ly re p) r t , r, @.,)vr t o u!j e r 1 no - @j:.rL:,e
i n a e V jyr, r,-, r(, n i@
the e x t -@ r r. , i ue 3,- n anei r--
and 1 rtf f c- r,- ne @i
3 U 1311.1 ITT ZD: Se 1, t f,Lr
AVAILABLEs L i b r,,, ry n,, rii,i
1. Bf-ta
'lard 2'2
14(1) PHASE I BOOK EXPLOITATION ""')VI 2472
,5esoyuznyy nauchno-isoledovatellakiy i kcrnstruktorskiy iastitut khImicheskogo
mashinostroyenlya
Ymnstruirovaniye i issledovaniye kampressorov i vakuum-npnosov (Design and
r
Investi ation of Canpressors and Vacuum Pumps) Moscow, Hashgiz, 1958.
90 p. fSeries: Its: Sbormik statey, 22) 5,000 copies printed.
Ed.: V.A. Rupyantsev, Engineer; Ed. of Publishing House: A.M. Honastyrakaya;
Tech. Ed.: A.?. Uvarova; HAnA ine Ed. for Literature an Machine Building and
Instrument Construction (Kashgiz): V.V. Pokrovskiy, Engineer.
PURPOSE: This collection of articles i- intended for scientists and engineers work-
ing i! the field of ccmpresaor manufacture, and also for students of vuzes special-
izing in ccimpresoors and vacin- pumps.
COVERAOGE: The booklet consists of five articles. The first article presents in-
vestigation results and design data for determining resistances in strip-type
autom tic diaphragm values. The second articles presents for the first time
results of the investigation of large diemeter diaphragms used in diaphragm-
type compressors. The third article presents, m1so for the first time,(!Xperi-
mentaU results and methods for designing metallic packings for piston-campress,)r
Card 1/2
Design and Investigation of Compressors (Cont.) SOV/2472
rods. The fourth article presents test results and theoretical data for de-
signing Wo-stage piston vacuum pumps. The last article presents dAta on
designing diTusion-tym oil vacuum pumps. No personall ties are mentioned.
References follow each article.
TABLE OF COUrERM,
I
Kondratlyeva, T.F. Detern-aation of Energy Losses in the Automatic Valves of
Piston Compressors 3
Moskalev, V.A. Investigating the Strength of Compressor Diaphragms 21
Sekunova, O.N. Engineer. Performance of Piston Compressor Packings 33
Frolov, Ye.S., tagineer; and V.D. Lubenets, Candidate of Te2hnical Sciences,
Volumetric and Power Characteristics of a Two-stage Vacuum Pump With a Slide-
Valve Gear
Pomerantsev, A.A., Professor, DocVor of Physical and Mathematical Sciences
and K.P. Shunskiy, Candidate of Physical and Mathematical Sciences. The
Theory of High-vaculan Steam-W ector Pump Nozzles 81
AVAILABLE: Library of Congress
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