SCIENTIFIC ABSTRACT MASLOV, A. A. - MASLOVA, L. A.
Document Type:
Collection:
Document Number (FOIA) /ESDN (CREST):
CIA-RDP86-00513R002201930011-2
Release Decision:
RIF
Original Classification:
S
Document Page Count:
93
Document Creation Date:
November 2, 2016
Document Release Date:
September 1, 2001
Sequence Number:
11
Case Number:
Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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CIA-RDP86-00513R002201930011-2.pdf | 3.41 MB |
Body:
All A
etic u0ma o
UDC 62.5.681.3.007
MASLOV, A. A., PROFIMOVA, R.'P.
"Problem of Calculation of Linearly Approximated Functions with FVen Distribu-
tion of Error on Low-Power Computer"
Tr. Mosk. Aviats. In-ta [Works of Moscow Aviation Institute], No. 194, 1970,
pp 101-105 (Translated from Referativnyy Zhurnal Avtomatiku, Telemckhanik-a i
VychislitelInaya Tekhnika, No. 4, 1971, Abstract Nu. 4B67 by BG).
Translation: A method is presented for calculating linearly approximated funct-
ions (LAF) for exponential functions and functions described by exr;onential series
by iteration. The method allows LAF to be produced with evonly distributed error
throughout their entire intervals with the requirod degree of accuracy and cal-
culated on low-power computers. The essence of the method is as 1*(Mows: for
an analytically fixed function Y=f(x) with established limiting values with
respect to X and Y and number of intervals IN, the initial data accepted are the
equal division intervals along the X-axis. During iteratioii calculation, Ais-
placement of the boundaries of intervals occurs (with the exception of the
limiting values of the functions) to the right (or the left) along the X-axis;
the monotonic approximation to th3 desired values provides convergence of 04.
iteration process. The error in the approximation is equalited by displacing
the common boundary (Axm,i) of the mth and (m-I)th intervals on the iteration
USSR UDC 62.5.681.3.007
14ASLOV A. A., PROFIMOVA, R. P., Tr. Mask. Aviats. In-ta, No, 194, 1970, pp
101-10i.
step in accordance with the formula Axm,k-- Skm. I
where em i and e(m-l) i are the errors in approximation'in intervals m and (m-1),
Akm i is'the incremeni in the slope of the LAF ujon transition from interval
(m-1) to interval m. A flow chart is presented for a progr4urt for calculation
of LAF intervals and described for the IINAIRIII computer. 2 figs, I table, 2
biblio refs.
2/2
67
j
12~
-1, ~~029 UNCLA~sl~OfEa
PROCRSSING DATE--13NOV70
~JITLE-TECW~OLQGY At"ID DESIGN Or- SOL113 STATE DEVICES -U-
-;.AUTH0-m--MASLGVp A%A*
CF I NF0--USSR
UFCE--(TEKHN0L0GIYA I KONSTRUKTSTI POLUPROVODNIKOVYK~i PRIBOROY) MOSCOW.
NERGIYA:..-1970. 295 PP
------- 70
DATE PUBLISHED
.:'~SU.BJECT AREAS--PHYSICS, ELECTRONICS AND ELLCTkICAL ENGk.
-TOPIC TAGS-- S E4 ICONDUCTOR DEVICE, THIN FILM SEMICOW)uurok, s F;i I c tj f.4 ouc o it
.~L-.,.,'~JUNCTIQNv SFMICONDUCTOR RErTIFIER, ELECTRONIL EQUIP,'-lif:NT PRDOUCTIONt
~MOINOGRAPH
.CONTROL .4A;0KING--NG RESTRICTIONS
DOCUMENT CLASS--UNCLA5SfFfE0
PROXY kEEL/FRA.'lE--3003/1245 STEP
CIRC ACCESSION N13--AM0130246
24/ Z. 029 UNCLASSI FIFO PR0CFSSI,',lG .)ATE--13NJV70
.'t R CACCESSION NO-A.1-1,0130246
,ABSTRACT/EXTRACT-W) GP-0- AbITRACT. INTRGOUCTION (:-I A P T -;: RI
MAT*t:~.IALS IN THE PRODUCTION 0 - S 11. Ll il iMILLIARY
F SJUD STATE 0EViCE
TECHNOLOGICAL OPERATIW-4S 42 1 1 MECHANICAL TKEA*1111--'~J M:
SEMICONDUCTCRS 59. IV F I LM SIN THE PRUC-UClION 01:
77. V THE" TECHNOLOGY OF aiirAINl,'q'k2 RLcrjF,(U,,,,~ j0~4CIlaNs 117. V 1
:SUkF4rE STATES AND METHUD'S OF TIEAT ING THE SU~ FACF5 ~.]%: SEMICONJUcTURS
.1.95. VI I THE OESIG,"4 OF BODIES Cl: SOLID STATE OrVICE;-'- 2:37 -11 11
SULK s'rATE' IIEVK, 2 7
-ASSE%lBLY OPERAriar-is IN THE PWiDUCTION Of- E 3 5 Ix
:THE RELIABILITY OF SOLH) STATF T:iE BiGg~,
DEVICES 273, L I T E k 4 PJ It
I $C: L I L) -'i T A f fi
-CONTAINS INFOHOATIJI-4 ON HjE- TECHN)OLOGY OF oi-
'WE-VICES. . EXAIMINED ARE PIAIERIAL.'iv THEIR 11,4FLUMCE 0% THE
0 r
OF THE DEVICES AND ALSO METHODS OF IHEIR MECIIIiNICAL,AND CHE('111CAL
EATMENT. THE BOJK IS FOR ENGINEERS AND STUDENrs i:w Tfil!i SPECIALrY AT
R t:
J
HLGHER SCHOOLS.
mm-
'RM -7
9 r
USSR UD& 661.335.81-3
A., KALMYKOV, 1. V.
SAKHAROV, 0. N.
2~~L_OKIJ
"A Device for Generating 'Functions of 'No Variables"
Moscow, Otkrytiya, Izobreteniya, Promyshlennyye Obraztsy, Tov~ir-
nyye Znaki, No 12, 1970, Author's Certificate No 267 196, filed 3
Jan 69, p 121
Abstract; This Author's Certificate introduces a,device for gen-
erating functions of two variables. The unit contains linear ele-
ments, a summing amplifier, and diode functional converters with
reference voltages which vary according to predetmrmiRed laws. As
a distinguishing feature of the patent, precision is ;unproved and
the,device is simplified by connecting a source of voltage pro-
portional to the first variable to the main inputs of those func-
tional converters in which the source of voltage proportional. to
the second variable is connected to the reference voltage inputs
through linear elements. A source of voLtage proportional. to the
second variable is also connected to the main Laputs of the other
functional converters, whose reference voltage inputs are connected
through linear eLements to the signal source'whicLi is proportional
to the first variable. The outputs of all functionaL converters
--are-connected to the input of the summing amplifier. I/1
M SL.ICV,* A ~A.
"Produdtlon Proce3ce--- A.-id Constr,.ict--an C t' "'e--icondac"or Le v z e b
Teki-nolof-iyu i lr-rnstr-Z (Z1, abcv-,-",
ktsii
n r I V _q c"FC 2 C p ~ i , 11 r c I e I t r o n -i
etract ','~o
'N June ISM, --~b
0
Trane lu t ion. The boolF. cone 1i t; rs rl-'~ 9 ";~.4 ch ---i rt:w ee d in T~ rc.&;;c. t -~cr, of
he ru cte r! r: t 1-i-F a." ti~o Lee i, n- 1i-c
:,co-.ductor devicec, their efrf-ct on t;,e c,
-".ne tec','xali)-y .'i: de c r L't -d
.9 q4- f-9 I and chs:n4c-l me-t?,ad'a foT
rreparstion of rectif--rm- bnd ohm'-a Cont-acta. to
-1,2,` to t~e aonsfr,,ictlon of a v t: 5 ti r, 9 fc.
uer~ia diver,
A-a eezbly. In concllj2ion t)ie aueetion !a coreldered o-1 t~'V~ rr,,11a!)11L1.y c-'
-duator diodes un--' tri~m-Alzto-- t-bt -I~inned for Itz g.;reuE.~,
Inten0ad for am7ilnaern und et-i-!crte of u4 v6 ncad 6 ra ~a a
we*.itutes for corr~~s~andin litias.
USSR UDC 332.501.34:532.517.2
CAPONOV, S. A., MASLOV, A. A., Novosibirsk
"Numerical and Asymptotic Methods of Solving the Probl;em of Couplete Stabili,!--
tion of the Boundary Layer"
Moscow, Zhurnal Priklhdnoy mekhanil-i i tokhnicheskoy fiziki, No 3, 1972, pp
60-64
Abstract: The numerical methud propotied by S. A. Gapouiov, et; al. Ijmerical
Solution of the Problem of Complete StabiJAznticn r-I a Svpers,)nic Boundary
Zhurnal Prikladnoy mekhaniki i teklinici iziltio No 2., 197") is used to
leskoy f
culate the complete stabi.N.'.. ionic boundat
-,aLton tenperatumn or a stipor Layer
on a flat plate with the temperature boundarv conditions 6N) i- 0 wherc- ~,' is
the amplitude of the temperature disturbince. The resulti obtair-d indi-,:ate
the erroneousness of the conclusion of the paper by E. Peshotko ("Transition
Reversal and Tollmien-Schlichting Instability," PhvA. Fluids, No 11, Vol ~,. 19631
regarding the existence of two coMlete stabilization domairs. Thn asyr-to-tic
method used by Reshotko is analyzed, and it is 'deinoristra6ud that the Lwo "Otal
stabilization domains appear as a reault of, the fact Ohat: the t2quations used to
construct the viscous sclutions are inapplicable for I-vw- suriace teraperatures.
The analysis results are confirmed by direct numerical integrations.
0!
032 UNCLASStFIED~ PROCESSING.DATE--040EC70
OF THE CONTINUOUS:Acriopt PNEUMAfTZ GRAVIMET!~lc
DEVICE D3-20-3A -U-
UTHOR..(03)-PISKAREVv~YU,A*v PLIS#:G.*Ail'l
COUNTRY OF INFO--USSR
~SOUR'C E-KH I H VOLOKNA 19701 (3)t 7l-.r2
g PUBLISHED ------- 70
AT
~~.`:~SUBJECT AREA.$--CHEMISTRY
IC TAGS--GRAVIMETER, FLOW RATEI.ELECITROMAGNETIS4, ELECTRIC VIBRATOR,.
OLYVINYL CHLORIDE, ACRYLONITRILEi ACP.YLIC,,COPOLYiiEl~/(U)U,'420:IA
RAVIMETER
CONTROL MARKING--NO RESTRICTIONS
---UNCLASSIFIED
q.DOCUMENT CLASS
REEL/FRAME--3009/0111 STEP NO--UR/0143,/70/0001003-1007liOO72
13'i 976
USSR
UDC 533.916
BREDIKHIN, M. Yu., IL;CHENKO, A. H,, WWYOW&I, SKIBFNKO, A. I.,
SKIBENKO, Ye*. I., YUFEROV, V. B.
"Study of a Dense Plasma Formed by an Electron Beam in a Magnetic Trap"
Fiz. plazmy i probl. RRravl. termoyader. sinteza. Resp.,mezh-4ed. sb.
(Plp-sma Physics and Problems of the Controlled Thermonuclear Fusion.
Republic Interdepartmental Collection), 1972, No. 3, pp 147-161 (from
RZh-Pizika, No 11, Nov 72, Abstract No 11G237)
Translation: An experimental study of the possibility of the formation of
a dense plasma in the interaction of a high-energy electron beam with a
neutral gas in a magnetic field of helical configuration is described.
The introduction of a neutral gas into the interaction region in the form
of a supersonic jet made it possible to produce the necessary pressure drop
without applying special differential pumping systems. Conditions for the
exponential rise in plasma density as a function of the parameters of the
beam-plasma. discharge were determined. It was concluded on the basis of
the.ex r. -3 ts that it is possible to form a plasma wIith a density of
loye imen
5-7 4 cm with a supersonic jet of neutral gas.
1/1
!a w1al
USSR UDC 533-.9-03i621-039.616
BREDIKHIN, M, Yu., ILICHS111W, A. DI., AASLOV, A. 1. 3XIBT-,,KK0, A.
ZMBERK0, Ye. I. and YUFEROV,
for the Formation of a Dense Plasma in
"Investigating Conditions
'Electron Beam Injection Into a Magnetic Trap"
Moscow, Atomnaya, energiyA, Vol 29, No 4 , Oct 70, pp 276-282
Abstract; The continuation cf an earlier article by the same au-
thors (Ukrainian Physical Journal, :LL, 1969, p 1167), this paper
describes experimental work they performed to Ldi-
tiona of plasma formation with a density oP oiludyAhe cr
I ~10 cm- in a
corkscrew-shaped magnetic trap into which an iileo:tron beam inter-
acting with a neutral gas,,aa injected. The experiments were per-
fomed with the VGL-2 equipment, in which the ma4,metia field is
generated by two solenoids cooled with, liquid nitrogen. 14aximum
magnetic field intensity is 21 kilogauss. A dii~qram of the VGL-2
together with details of the eq!ilpmentls oppration and. the experi-
mental method is given. 0scillograms showing the devolopment of
the beam-plasma discharge are reproduced, and cw~ves of the growth
time of plasma density as a function of electron beam current and
the time rate of change of plasma density in the,lonivs.tion of a
neutral gas are plotted.
L1 A. ----- ------
Measuting-, esting, Caiibrating
USSR upc 621.391-832.4
ROSMVT-SEV, Yu. G., MASLOV, A. Ya., DOLGALEV, S. D., ZHIGORA, P. P.
"A Device for Measuring Edge Distortions of Pulses"
Moscow, Otkrytiyp-, Izobreteniya, Promyshlennyye Obraztsy, Tcvaxnyyc Znakl,
No 2. Jan 73, Author's Certificate No 362501, Division H, filed 5 Apr
published 13 Dec 72, p 142
Translation: 'Ibis Author's Certificate introduces: 1. A dev--ce for mea-
suring edge distortions of pulses in telegraph comnuniCations channels.
At the input of the inctallation is an advancing pulse generator with dc-
coder. One outpuft of the decoder iri connected throrgh a svitch to a
displV, and the output of the displfq ic connected to the gen-Orator And
to the decoder. As a distinguishing feature of the pateW., rio-af%ureinents
can be made without interrupting communicationq. For I;h;.s purpose the
input of the device i:; connected to a second input of thi! switch throurh
an additional switch with delay in series with a pulse dvration neacm-e-
ment device. The second output of the decoder is connectod to a second
input of the additional switch with delay. 2. A irodificaition. or this de-
rice distinguished by the fact that the outputa of all six digital places
112
INFIRM Irmo'
USSR
ROSTOVSKIY, Yu. G. et al., USSR Author's Certific-Ate f1c 31 2 5 0:1
of the shift register in the decoder are connected to a single t-11D circuit.
Connection of the second digital place ig through a NOT circuit, and the
first four outputs are additionaIly connected to a secoM. ARD circuit, the-
outputs of the AND circuits being theoutputs of the decoder.
212
--73
USS'R VDC 533.697.4:532.55
KAMZOLOV, V. N., SWY.---D PIRUMOV, U. G., Moscow
"Study of the Trajectories of Particles in Lavale Nozzles"
Mekhanika Zhidkosti i Gaza, No 5, 1971, pp 136-143.
Abstract: A method is presented for calculating the trajectories and para-
meters of liquid or solid particles during flow of two~phase streams through
Lavale nozzles, allowing the number of particles precipitating onto the wall
of the nozzle to be deterridned and the momentum loss phenomena related to
this to be evaluated. A method is suggested allowirg the known gas paramoters
to be used to ;roduce an approximate determination of the trajectories and
parameters of particles in the sub- and supersonic portions of the nozzles
and to determine the number of particles striking the nozzle wall, to deter-
mine approximately the density, velocity and temperature of particles, to
establish certain qualitative specifics of flow, in particular.the formation
near the nozzle walls of closed and open zones in which particles of a given
size are absent. One defect of the method is that wheh calculating the move-
ment of particles, changes in gas parameters caused by J-.-Iay of particles are
not considered.
USSR UDC 681.325.66(088.8)(47):621.3.072.8
LOBACREV, V. M., MASLGV---R"., MOTEUKO, N. I., and SHAGULIN, V. 1.
"A Shaper for Control of Pulse-Potential Cascades"
USSR Author's Certificate No 285970, Filed 7 Apr 69, Published 12 Jan 71
(from Referativnyy Zhurnal -- Avtomatika, Telemekhanika, i Vychislitel'naya
Tekhnika, No 8, 1971, Abstract No 8B182 P)
Translation: A shaper which controls pulse-potential cascades is being
patented. It contains an emitter-repeater, the transistor of which is
shunted by a diode. In order to decrease power consumption and to accel-
erate the process of discharging the capacitors of the control circuits,
the diode indicated above is switched on in a direction opposite the
shunted transition of the baGe-emitter of the transistor of the repeater.
The latter, made from electrodes galvanically decoupled from the common
lina of the power supply, is charged simultaneously at all control re-
sistors of the indicated pulse-potential cascades, each of which is con-
uected with.the corresponding output terminals via its own capacitor and
sa additional diode.
33
x
USSR mc &n-aT3.52
DAMIL CUMM, V. P. WBWV,. D. T.. SHAKHMU, YSTER,L Ye.,
"A Very-Lcr4-Frequency Squam Pulse Generator"
Moscow, Otkrytiya, izobreteniya, pronyshlennyye obraztsy..tavarnrye znalki,
1970~ No 362 Soviet Patent No.288035 class 21,-filed 26.act 68:.published
3 Dee 70, P 54
Translation: This Author's Certificate introduces a very-lov-fx--auency
square pulne generator based on Soviet Patent No 268485. I~z a &Ltstinguish-
-m of the patent, the range of frequencies jrenerated ia w-y-tended,
ing featu
and provision is made for using wsymmetric electrocherdcal. converters by
making the time-mark circuit on- the basis of -two electrochenica.1 converters
connected in series-opposition. The patent also covers a InodifIcation of
this device distinguished by the fact that prDvision is made for remote
control of the generation period vith. memorization of the exter=al aCt4 Or
The control device is made in some such. form as a control-Ung selector
switch connected to one or tuo electrochemical conve3ters !respectively.
USSR UDO: 0'21.3?3.52
GOLUBVA, V. A., LANIL'CHENKO, V. P., _D. V., SHXMiCEYSTER. L. Ye.
"A Very Low Frequency Square Pulse Generator'l.
Iloscow, Otkrytjoyra. Izobreteniya, FroWshl nar sy, '_`ovarav~~o ',~naki. No 14.,
ye Obrazt
1970, Author's Certificate No 208485, "Lled 25 Kar 68, p 3'1
Abstract: This author's certificate introduces a very low I~requency square pulse
generator which consists of a flip-flop with current-,ielkying circuits and an
ifiers
electrochomical cell' connected in the load diagonal, arA tvo thre-shold am!&
As a distinguishing feature of the patent, the operating rpliabili%y of t"O gen-
orator is improved and the range of controllable freqtiencius is ex-Lended by con-
necting thyristors in the collector circuits,of the flip-flop transistors t'hxough
theae thyristors is shun Od
J transformer windings.connected in oppositior_~. Ono ol t
by an element which makes the circuit
asymmetric.
AA0044787"4
49viet Inventions
7-
Wawa 510v UR 0482
Illustrated, Section II Electrical,
-243008 INFRA-LOW E!MENCY PULSEGIERMTOR for
shaping reYtangular pulses."containing, a
trigger, an electro-chamical element, tito current
stabillsers and two threshold maplifiers(tra*sistors),
To simplify the circuit;ry andireduCe the nualbor of
components required. the following method of ~.annection
is adopted:
'The -bate of eacb of thO two tranjiistor~
forming the trigger is connected to the cotloptor
of the other transistor in the trigger via the
collector-base junction of the 4wVllfier transistor.,
the collector-emitter junction of the current
stabiliser transistor and tbalrosistor.of the
current st4biliser, these last three baimg to
jpnctloll Of
series. Parallel to the emitter-base
Derwent,
Y70
&0044787
one threshold amplifier transistor are connected the
base emitter junction of the.other threshold amplifer
transistor and the.eLactro-lichamLcal element, Tbp
bases Of the turrent. stabiliser transistar;p are ~
inter-connected via a ballast r.esistor,whiIe their
collectors are inter-connec~ted by the electro-
chemical element.
18.3.68 as 1227250/18-24.VA.G0LUBgVA et alia.
(24.9.69.) Bul 16/5.5.69. Class 21c. 46/50, 21a
36/02. Int.ClJG 05f. R 03k;
AUTHORS:
243008
Golubevat V. A.; Danil'chenkd, V. P.; Maslov, D.V.;
Shakhmeyster,, L. Ye.
1:9771604
V sb. Cbmen opytom v radioprom-sti (Experience Pooling in the Radia Industry-
collection of works), Vyp. 2, Moscow, 1970, pp 57-58 (from RZ'.,i-Radiotekhnika,
No 7, Jul 70, Abstract No 7G311)
Translation: A description is given of a key frequency divid,-tr bazed on two
transistors connected in an LC-oscillator circuit with a key ut the input to
y1 L
which oscillations are sent through an RC phase shifting network fron out--,
tank. The distinguishing feature of the divider iis that it Wtes an active key in
addition to capacitive feedback. The use of capacitive feedback oLmpliff.es the
divider, while the active key in combination with an rf chake in the emitter
circuit, increases the division coefficient by an order of zagl4itude. Bibliorxuphy
of four I-Pitles. Resumd.
USSR uDc.- 615.hT3.9:6.15-832.9
SHALINIKOV, A. I., ZYUKIN, N. A. , GDOVSJaY, V. A.~, IW'YE,. Yu, YU-4
F M. FFEYDOVICH, A. I., Institute of Fhysical Problems imeni S. I. Vavilov
"A Device for Directional Freezing of Tissues"
Moscow, Otkrytiya, Izobreteniya, Promyshleanyye Obraztsy, Tovarnyye Znaki,
No 12, Apr 72, Author's Certificate No 333951, Division A, filed 11 NOV 70,
piflished 30 Mar '(2, p 19
Translati 'on: This Author's Certificate introduces a device fay.- directiona-I
freezing of tissues which contains a vacuum-insulated vessel holding two
parrill 1 tubes for delivery and removal of a cooling agent. The device
also contains a heat-insulation liner, a charcoal getter and a tip. As a
distinguishing feature of the patent, in order to freeze tissues arranged
eccentrically relative to the longitudinal axis of the device!, a wire
helix. with high heat conductivity i s placed in fixed coittact vith the tip.
43
Moscow, Svarochnoye Proizvodstvo, No 4, Apr 70), P 59
Abstract: The seminar was held in Zaporozh',yeo 26-18 Septezber 1969, vith about
150 participatno from various scientific institutions.
Some formal and generalized criticisms of the electrowelding, equipment
industry were made. Ther- were discussions of newly developed contact-welding
-pit-
machines, devices for automatic welding, various general rpose machines far the
welding of nonferrous metals., remote-control welding transft.)rwro, research on
mechanized arr. and clectroolag welding,, and semi.uutomtic. equipteat for caxbon-
dioxide welding.
UR 0482
Soviet Inventions Illustrated, Section II Electrical, Derwent'Ifto
239597 INDUgj4VE LZVa NZT~B where a float can move
freely'alont-the inductive coils 16dicaLing
its position correalponding,to the measured level,
The float has been.improved, it has.two flanges
which make it possible to obtain a paralloL reading
from two indepen4eat coils.
12.12.66 as 1119046/26-10. A.S. ABRAMV et
(28.7.69) Bul 11/18.3.69. C~aao 42s, Int.C G 01-f-
AUTHORS: Abramov, A. S. Zotoy
S. V.,* Mj2jL10y,,,.G.-5,; Varg:~n,~.A.;
3borin. N. 1,,.KQrnyushjn. 2. kJ.; Kirskoy,
QUstyakov- N
-MOBYakov, V. A.; Kozlovskiv, G3 V.; Chichiqjjaj,, B, %Lia~V.
C11ovachev V. T.;
Ly
G akhterov, M. N,; &obejey.Xjj. Zj-
1982027G
AA0051848
19820277
ri
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USSR
UDC: 539.385
TERENTIYEV, V.F., ROSHCHIN, V.V. and MA Institute
Aca
of Metallurgy imeni A. A. Baykov Qem yy ociences USSR
"Cyclic Strength of Dissimilar Weld Joints of Low-Carbon Steel
With 18-8-Type Stainless Steel"
Moscow, Sb. "Ustalost, metallov i splavov". "Nauka." Press,
1971, pp 73-80
Translation: This study concerns-the cyclic strength of
specimens from weld joints of dissimilar metals involving 20
and Khl8NIVT steels. The tests were conducted by alternating
pure bending at room temperature. The specimelis were prepared
by non-consumable electrode welding using two variants: 1)
surfacing sv-IOKhl6N25M6 filler wire on 20 steel; n) surfacin.-
Khl8lONT steel and filling in the basic groove with sv-08G2S
welding wire. The cyclic strength of. the weld joints of dis-
similar steels made with austenitic filler wirc, under 108
loading cycles was 18-19 kg/mm2 which is 20% lower than the
fatigue limit of the weakest component of the weld Joint --
the 20 steel. The cyclic strength of a joint made -aith
austenitic filler wire as vielded is determined by the streng(li
of the fusion area. inns bibli(:j,
74-
7 1
T. i
USSR UDC 621-785-53
t7
TERMTIYEV, V. F., STEPANOV, V. N. and MASLOV, L. I., Institute of Metallurgy
imeni A. A. Baykov
'Weld Joint Streng
,th of Steels 20 and Khl8NlOT at 20-500 V
Llvov, Fiziko-Khimichaskaya Mekhanilca Materialov, No 6, Nov-Dec 71, PP 11-15
Abstract: Purpose of this work was to study the statie.- and cyclic strength
of weld joints of steels 20 and Khl8NlOT from 20 to 5060C. Samples were,:,cut
from the ends of tubes and argon-arc welded according to three variants:
1) surfacing on steel 20 with welding wire EP-267--first three layers; re-
maining layers -_ welding wire Sv-04Khl931Lq); 2) surfacing an steel 20 with
welding wire Sv_1OKh.1O`Nz5M6 (EI-395)--first three layers, rena~ntng layers
same as variant 1; 3) su-,facing on steel Kh181410T and filling the sear. with
welding wire Sv-08-G2S. Tensile testslihowed, that., with,temporature change.
the location and type of failure of dissiklar-steel welded joints changes
and is associated with the phenomenon of stri.in aging of pearlitic luw-carbon
!i: steel. Fatigue tests of the welded joints between 200 tLnd 5000 C showed that
strain-hardening of the low-carbon steel also tends to shift the failure
USSR
TERENTIYEV, V. F., et al. Fiziko-Khimichaskaya Mekhanika Materialov, No 6,
Nov-Dee 71, PP 11-15
point to the austenitic steel at the*blue brittleness tomperature. The re-
inforcing structural heterogeneity of the austenitic and pearlitic, at the
malting interface at 5000C does not lower fat4ue strength of a welded joint
of steel-20 + KhlSilOT. 2 figures, 1 table,.6 bibliographical references.
19
f,12 '014 UNCLASSIFliED, 'PROCESSING DATE--30OCT?O
"JAITLE-A COMPUSITICN FOk PRUVIDING A FOUNUATION FUR ELECTRUVACUUM ARTICLES
",.-AUTHOR-00-MASLOV. N.I., PETROV# G*N*t RAPPOPORT# LoYA.0 KOGANP F.S.
UNTRY OF INFO-USSR
;:.__i~URCE--USSR 264#S60
PLIE FERENCE--CTKRYTIYAr IZUBRET.9 PRONo OBRAZTSYt TOVARNYE INAKI L9700
PUBLISHE0-03MAK70
m':~ ~SUBJECT AREAS-CHEMISTRY
~__e::TOPIC TAGS-ELECTROVACUUMv PATENTP ADHESION# BUTADIENEY ISUPRENEP ORGANIC
ISOCYANATE
CUNTROL MARKING-NO kESTRICTIONS
DOCUMENT CLASS-UNCLASSIFIED
..--PROXY REEL/FRAME--3002/1456 STEP NO--UR/0482/701000/000/0000/0000
CIRC ACCESSIGN NO-AA0128855
UNC LA S5 I F IE 0
2/2 014 UNCLASSIFIED PROCESSING DATE--30OCT70
CIRC ACCESSLCN N(I--AA0128855
ABSTRACT/EXTRACT--(U) GP-0- ABSTRACT. A COMPN. FOR INCREASING THE
ADHERENCE OF ELECTROVACUUM ARTICLES, E. G.r ELEC. LAMPS, TO THEIR
..FUUNDATION IN CCNDITIONS OF INCREASED MOISJUKE HAS TIIE FULLOWING
OF COMPGNENTS (IN WT. PARTS). DIVINYL POLYMER ISOPRENE
WITH
10-11t TOLYLENE DIISUCYANATE 1-1.1-p EPICHLORCHYDRIN 0.29-0.310
DIMETHYLBENZYLAMINE 0.21-0.231 AND POWD., MARBLE 28-36.
UNC L AS S I F I E 0
---- --- - -wimmmommimw
USSR UDC: 532-596+551.46.o6.8
MASLO11 N K
"Principle of Invariant Control of the Motion of a Hydrofoil Botit"
Mr. 3-ao Vses. soveshchaniya 1)o teorii invariantnosti i yeye trim:,nen-yu -.r s`s~e-makh
avto-mat. uDr. T. 2. Primeneniye invariantn. sistem a,.tomat. uur, (Works of the
Third All-Union Con ference on the Theory of :Invariance and its Application to Auto-
matic Control Systems. Vol. 2. Use of Invariant Automatic Control Systems), Moscow,
"Nauka!', 1970, pp 218-220 (from RZh-Mekhanika, No 9, Sep 7-0, Abstract No 9B568)
-i of 'he meth~)ds of the theory of in-
Translation: This paper considers applicatiot
variance to solution of the problem of automatic control of a hydrofoil boat in
the case of random perturbing effects. The statistical choltracteristics of wave
perturbations are utilizea, and use is made of the principle of statistica.1 invari-
ance based on V. S. Kulebakinle theory of K(D)-images. Bibliography of five titles.
Authorts abstract.
OR Ct$SING DATE--090CTIO
0
_'032' UNCLASSIF10
TLE-THERMOUYNAMICS OF IOUIDES OF GERMANIVM HYDRIOE -U-
.~-,_AUTfi0R-(Q3)-RUMASHK0, 8.V.9 ANTONOVt A.A.v MASLOV, P.G.
1,66LINTRY OF INFO--USSR
-9
FIZ. KH11%lo L;970, 44(3)0 828
,,SOURCE-ZH.
-DAT-E PUBLISHED---70
-SUBJECT ARE-AS-CHEMISTRY, PHYSICS
-7HERRODYNAMICSt IODIDEc GERMANIUM COMPUUNDa HYDRID1:1
PIG TAGS
PROPERTY
~~,:CONTROL MARKING-NO RESTRICTIONS
DOCUMENT CLASS-UNCLASSIFIED
.-PROXY REEL/FRAME--1993/GZ91 STEP NU-UR/0076/10/IJ-4t4/003/OB2ti/O829
CIRC ACCESSION NU-AP011.3221
A U-NCLASS IFIED
032 UNCL AS S I F I ED PROCESSING DATE--090CT70
CARC ACCESSION NU--AP0113221
"ABSTRACT/EXIkACT--(U) GP-0- ABSTRACT. THERll,0UY%AMI CPROPF-Kr ILS OF MANY
1WIDES OF ~-E HYDRIDE Of TYPE GEX S.U84, GEX 5Udi Y, "PL-X 5; a2 Y SU6211
GEX SUB2 Yt GEXYZ (X2 Y, L EQUAL Ht 0, T, 11 AS FONCrION OF Abi. TEMP.
E p -PCRIED
AND PRESSURE CAN BE CALCO. FROM FOR14ULAS DERIVED BY THE ~i Y WD RE
(CA 64: 16?15F; 66: 10467G). FORMULAS ARE GIVEN. THEY ARE
VALID AT 250-1500DEGREESK (250-1000DEGREESK FOR C SUbPDEGREES) AT ANY
PRESSUREt WITH AN ACCURACY OF 0.1-1.OPERCENT (0.2-Z.QPEkCENf FiR C
--SUBPDEGREES). IN ORDER TU USE THESE FOR'
MULASt IT IS NECESSARY TU KNOW
THE MOLD. WT.v LENGTH OF BONDS ANG ANGLES BETWEEN THEMp AND SYMMETRY
FOR E-ACH MUL. NUMERICAL DATA FUR,COEFFS. USED IN THESE FORMULAS
FACILITY: LENINGRAD PEOAGUG. INST* IM., GERTSENAo
GIVEN.
LENINGRAD, USSR.
UNCLASSIFIED
tali"
1) PROOESSING DATE--090CT70
112. 023 U.-4CLASS FIE
ATLE--THERMQUYNAMICS OF GASEOUS OAYG*EN CONTAINING COMPOW05 -U-
-(04)-60RISOV, M.I., KULAGIN, V.I., ANTUNOV, A.A., MASLOV, P.G.
-,AUTHOR
OF INFO--USSR
,.-SOUlKCE--ZH. FIZ. KHIM. 19709 4413)v 8.26-7
jD A T EPUBLISHED-70
~SWJECT AREAS--CHEHIsTRY, PHYSICS
,--TOPIC TAGS-THERMODYNAMICS, OXYGEN COMPUUNDSP THERMUOYNAMIC PROPERTY
~..ci]~NTROL MARKING--NO RESTRILT10145
I.l."DOCUMENT CLASS-UNCLASSIFIED
STEP NEJ--UR/0076/70/()lt4/003/0826/GB27
--,Pi(OXY REEL/I~RAML-1993/0295
--CIRC ACCESSION NO-AP0113225
UNC L.A ss I F I E 0
2f2 023 UNCLASSIFIED~ PROCESSING DATE--090CT70
tIRC ACCESSION NO-AP0113225
,AbSTRACT1EXTRACT--(U) GP-0- ABSTRACI. FOkMULAS ARE DEiRIVED FOR THE IST
i- T114E WHICH CAN BE USED FOR THE CALLN. UF fliERMODYNAMIC PROPERTIES OF LO
-~.,GASEUUS CUMPOS.: HUX (X EQUAL Do T, Ale F), UOX IX EQUAL To Alt F)v TOX
AX EQUAL AL, F), AND ALOF AS FUNCTION OF TEMP. AND 5PRESSURE. THEY ARE
VALID AT 250-6000DEGRELSK AND AT AINY PRESSURE AT i~HICH A GIVEN GAS CAN
UEAL. T~E ACCURACY IS 0.1-0.8PE11CENT, ANO
-BE CONSIDERED AS BEING I A
~0.1-1.5PERCENT FOR C SUSPOEGREES., ALL VALUES ARE EXPKESSED iN
~GAL-14OLE-DEGKEE. VALUES OF COEFFS. PRESENT IN I`HESE~FORMULAS ARE
'TABULATED'*- FACILITY: LENINGRAD. GUS* PEDAGOG. INST. IM.
GERrSENAV LENINGRAD, USSR*
UNCLASSIFIED
026 UNCLASSIFIED PROCESSING OATE--090CT70
---THERMODYNAMICS OF GASEOUS MIXEO.DEUTERIUM AND TRITIUM DERIVATiYES
LE
F-GERMANIUM HYURIDE -U-
,.AurH0R-(03)-ROMASHK0, B.V., ANTONGV, A*A.t MASLOVP P.G.
'~'COUNTRY OF INFO--USSR
,-'.SOURCE-ZH. FIL. KHIM. 1970, 44(3)t 827-8
`bATE. PUbL ISHED---70
.SUBJECT AREAS--CHEMISTRY, PHYSICS
40M TAGS--THERMODYNAMICSt DUETERIUMs TRITIUM# GERMANIUM CEIMPOU,
CONTRLL MARKING--NO RESTRICTIONS
DOCUMENT CLASS--UNCLASSIFIED
'PROXY REEL/FRAME--1993/0294 STEP NO--UR/007b/701044/003/0827/062d
CIRC ACCESSION NO-AP0113224
UNCLASSIFIED
-2/2 026 UNCLASSIFIED PROCESSING DATE--09UCfl0
ACCESSION NO--AP0113224
~;.-ABSTRACT/ EX TRACT- (U) GP-0- A3STRACT. THE CALCI4. M-ErAOL) R--i-POKIED EARLIER
ICA 04 IS TO 16715F; 66 IS TO 10467.X; 67 IS TU 57427%;) WAS EMPLOYED FOR
THE CALCN. AND WULATION OF THERMODYNAMIC PRUPERrIES OF ALL PUSSTOLE D
AND T DERIVS. OF GE HYDRIDES
AS FUNCTION OF TEMP. AND PRESSURE.
FORMULAS DERIVED ARE VALID AT 25 0-1500DEGRC-ESK AT ANY PRESiURESt AND
~'ARE ACCURATE WLTHLN 0.1-1.OPERCENTt AND Ovl-2PEaCENT FOR C SUdP. THESE
FORMULAS LAN BE USED WITHUUT KNUWlNG EITHER THE VIBIOTIONALP UR
-ELECTRON AND kOTATIONAL CHARACTERISTICS. FACI 4. 1 T Y-, LENINGRAD.
GOS. PEOAGOG. INST. IM. GERTSENA, LENINGRADs USSR.
UNCLASS IF: 1 E,I)
'C L.. DATE--02DCTTO-
21 022 U-N A pip
,T-ITLE--THERMODYNAMIC u HAL",~ILANFS -J-
FUNCTI 'NS 0V SIX SU3? YZ TYPE
~A UTI-411, R- 0 5) MA S L G V t Psrl"- U S V Y A 7 T S E VA , TV, 130Y KVK A R ri T1 K OV A
YENGALYCHEV, YU.S.
UNTRY -(.--F. INFO--USSR
AA
SOUktf---ZH. F-IZ. KHIM. 1-70, 4413),.825
-~d Al-E. PUPL ISHE0------70
SUBJECT AREAS--CHEMjSTP.Y# PHY.51CS
TOPIC TAGS-IHERMODYNAMIC FUNCTIGNP SILANIP :51LIMN S4S STATE
-C'ON T k 0 LMAkKING_-N0 RESTRICTIONS
AMICUMENT CLASS-UNCLASSIFIED
"-kb Y W_L/fRAME--t9')3/U270
ST~P
CIPC ACC~S5101,41 N-1--AP0113206
22 022 UN f L A S S I F I E 1) PROCI:SSIN'y OATF--O?,~IC17C
C.11 RIC ACLES,$10N NO-AP0113206
,A6STKACT/FXTkACT~--(U) GP-0- AbSTRACT. F'IRMULAS AaE I)f-",,,IVFf) Fl)~ THF
CALCN. .: OF tHERMOUYNAMIC P~~CPEPTICS OF t ? GASE-illS Hrxt-"SfLA'JFs STX SU12
-YZ ~UN ';ND PkFSSJr,'C. r I-IF y
(X9 Y9 Z EQUAL F, Cl, 9R, 11 AS F CTION OF FEMP.
WERE. CRTAINED BY THE METHOD REPORTED CA"LIER (CN 641 lb715F). F7jpqI,-jLAs
VALID FOR C SUBRHOOEGREES AND ENTHALPY (H TAU0FGt,,l:-ES H
'SUBODEGREESI AT 250-10000EGkEE'K (ACCURACY 0.2-3PERCX'NT)', AS WELL AS Fo,,~
J1
ENTROPY AT 250-L5o0-20000EGREESK (ACCURACY 0.2-1.5DFG-!EFSJ, VALUES 'IF
,-,,..:.~'-C0EFF5. IN THESE FORMULASP ARF*GIVEN.- F C L L IT Y LP41\I(,AADr 30S.
.lf-PEDAGOG.-INST. IM. GERTSENA, LENINGRADs USSR.
JIN!~-~c U F I E-0
USSR UDC 612.822.3.C8
RAYTEVA, S. 11., Yj-SLOV, P. 1. , and KOYAF01, A. A., Departr,,ant of Memory Study,
Institute of Bi pn~si. cs, Academy of Sciences USSR, Pushe'aino or, Cka, and the
Institute of Neurochemistry, USSR Academy of Medical. So.-'Onces imeni Acade-
mician N. N. Burdenko, Moscow
"A Device for Followina the Activity of Individual Neurons in the Deep
Structures of the Human Brain"
Leningrad, Fiziologicheskiy Zhurnal SSSR imeni-I. 14. Sechenova, Vol 59,
No 11, Nov 73, pp 1,761-1,763
Abstract: A micrometric micromanipulator has been constructed for use in
human stereotaxic sur,gery for recording the electrical activity of individual
subcortical neurons or their populations, depending on the electrode employed.
A tungsten electrode 0.3 mm in diameter, tapered to 1-2 microns, ard
insulated with laquer was made for individual neuron recordinr
In essen-e,
the instrument consisted of a cannula with a micrometer for introducing the
electrodes. In addition to recording potentials, the sane instmment may be
used for stimulation. The instriLment described has been used t"ith succe,-~z
43 operations.
- 35
USSR UDC 621.375.9:535
BYKOVSKIY, Yu. A., VELICHANSKIY, V. L., GONCHAROV, 1. G., HASLOV, V. A.,
NIKITIN, V. V.
"Pulsed Semiconductor Laser Used as a High-Resolution Spectroscope"
Leningrad, Optika i Spek-troskopiya, No. 3, Mar 71, pp 508-510
Abstract: A method is proposed for graduating a pulsi*d laser-spectroscope in
the optical range with the aid of a Fabry-Perot interferometer. It is pointed
out that a unique corrilAnat-lon of properties. of seirlicorlductor ~..-J--iors ryb~ik~! them
promising for high-re.,olution spect-roscopy. The radiaition of 5emiconductuar
lasers covers a wide spectral range due to a largre selection of materials,and
any semiconductor laser evenly retunes its frequency wi~-h a change in tempe-ra-
ture or pressure within the limits permissible for lasers cf other types. Also,
the line width of a semiconductor laser is sufficiently smal r
-1v fo exam-)Ie,the
ratio Axl/v = 10-9, where Av is the line width and v is the hasic frecuency, fror
injection lasers of GaAs and Fbo.88Sno.1.2Te. In this work a pulsed GaAS sca-n-
ning semiconductor lat;er was used to observe absorptiwi at tlie resonance
tion line in cesium-133. The nature in the change of the lemigth of the genera-
1/2
BYKOVSKIY, Yu. A., et al, ODtika i spektroskopiya, No. 3, Mar 71, pp 508-510
tion wave of the laser with time was investigated in order to graduate the
spectroscope and be able to measure the frequency interval between absorption
lines and the width of these lines. A block diagram of the calibration devicc.
is shown. The radiation of the laser diode forms into a panallel beam into
which the Fabry-Perat interferometer is placed with a resolution of 5-105.
The distance between absorption lines and their width are functions of the
position of the lines on an oscillogram relative to th(! heginning of the pulse,
and this is related to the nonlinear dependence of the wavelength of the lase-.L-
radiation on time. The reason for this is that generation modes of the laser
are determined by the optical length of its resorwtor. The I)ulsL!(l exci.tation
made leads to a nonlinear variation of the increase in temperature of i--ha
active region of the injection laser with time. This produces a change -*Ln the
refractive index of the active medium which kjasical2y ~oterrrd.nis the change in
the generation wavelangth. The distance between absor-ji'Vion lfirie.-; was 9.2~--O.l
Gflz, corresponding to a value obtained by radiospectroscopy methods.
2/2
U
FOR 535 (,,,o6.1)
. uDc: 62 a - 373
BYKOVSKIY, Yu. A., VELICILUSKIY, V. L., V.-A., and SHIMOV, V. L.
"A bi-ethod for lncreasin~j, the Coherence of: Pulsed, Semiconductor Iaser
Radiation"
Leningrad, Optika i Spektroskopiya, vol 32, No 3, 1972, P.-P 6?1-6PRI
Abstract: This brief communication investigates.the possibility of
compensating the increase in Favelength of a pu.Ised laser due to
heating of the active region through the pressure eveated by
barium zirconate piezoceramic element. For short pulses, the tem-
rature increase and the I-aser wavelength incro~.aoe nre propor-
rional to the square root of the time. But witl:i applic~Rtion of
preaourc to the injection hatier, t1ie radiation opectrLim chifto
toward the short itavelengths. Consequently, Lho applied pressure
can compensate the temperature chanee of the laser radiation wave-
length during a pulse of the injection current, thus rezoulting in
an Jmproved time coherence of the laser. The desien of a
diode containing the piezoceramic element is shown. Experiments
performed by the authors are described. They acJmoW.edge their
gratitude to Yu. P. Yakharov for the specimens and to V. V.
Ni)citin for his useful comments.
4/2 020 UNCLASSIFIED PROCESSING DATE--IBSEP70
;TTITLF--Q FACTOR M301JLATOR OF A LASER RESONATOR BASED ON A t:A-5KY PEkJT
WITH ALTERNATING ABSORPT ON (MODULIATOR DOBROTNOSTI
.~~_AUTHOR-(03)-GONCHAROV9 I.G., MASLOVP V.A..9 SYKOVSKIY, YU.N.
-7-
"COUNTRY OF INFO--USSR
SOURCE-ZHURNAL PRIKLADN01 SPEKTROSKDPII, VOL, 12t JAN 19701 PP 136-138
i
p~DA E PUBLISHED ------- 70
T
'!.SUBJECT ARFAS--PHYSICS
fTOPIC TA(-,S--HELIUM NEON LASEP, FABRY PEROT INTERFEROMETCk, FACM.,
PrST;,,ICTT0!jS
AF,'iT CLASS-ONCL~SSIFIFL)
~':PROXY PElc'L/FRA4F--1979/1610 STEP
4rCt,;Sp7,N N0--AP0047931
p r
fA, I ~rf
212' C20 UNCLASSI FIED PROCESS 114G DAT~---I~SEP7C
CIRC ACC':';SIONI %5--AP0047932
~-ASSTRACTI;---XT:~tACT--(Ul GP-0- ABSTRACT. DESCRIPTION OF EXpER['l;---\'TS 1.%,
-R-OF A HEILIUM NEOM LASFR WAS M00ULATED AT A 4AVELE."'GTH
WHICH THE i FACTC
-SULT OF PGWEK U
OP 3.39 -AU M AS THE RF ABSORPTION RY JvDNEuLJIL16`It -'.4 FREE
CU4REN7 CARRIERS IN ITS RESONATOR. A PLANE PARALLEL GERMANIUM ?LATE 011"S
.'USED AS ONE OF THE RESONATOR MIRRORS AND A FABRY PEkOT INTERFERO
METER
,POSITIONED AT THE FOCUS OF A QUARTZ LENS AS THE OTHER.
I
-ij Z-Y2 Z! 2 ZZ 1--L
cs~"Lolodv--UN Nf-,jSS3:)Dv 3613
d-:ilS 6Lil/66bl--3wV~J/199b AXC13ci
a3iAissvioNn--ssvi:) iN3Wn:)G0
3GEMLD-313
1; Iv -I f 1 3 1 o i q ii m t n13 3 1 S h 111 N V I I 113 1 S 13 'A) I N!j N 10 -1 a P, 13 3 1 S
CIOV 'MIS INVISIS3b INOISUdbO3 '30U81331i3 ONIC-13ti-SOVI Old0l~."%-'-~
SIvjb31Vw--sv3bv lomns-,:"
OL ------- 03"Sliend 31vc.~,7
L-SZ '(Z) "OL61 *OOA710bd *bVAS--3nnoS ",'z"
AD
Z77" -AO -IM4 '*N*V
-n- SNOlinios ci3v aibnA-ins
YVJM NI G-3Sfl .1011981H)1 1:131S b CA ':.INV I ItIVA t)NIC13M JO NOSIbVdWU)--31il
'--tql SS3:)Clkld 0 31 A 1.5 S V -IONn szo ?/I:.
PtqrFSSI.'jl" DATE-11SEP70
2/2 025 UNCLASSIFIED
CIqC ACCESSION NO-AP010781,52
TRODES L40M VIM WIRE
.-,-A8STRACT/EXTRACT--t,Ul GP-0- 46STRACT. ELEC
SV-05K"'L9F3S2 ARERECOMMENDED FOR WFLOING STEEL KH18,NII)T, USED IN 4EAK H
SUH2 SO SUB4 SOLNS.
7 Z 7 A e C
I D,
Z.-I 7 7 Z Z Z Z
Lasers and Masers
USSR UVC: 621-315.592
BYKOVSKIY, Yu.A., VELICIIANSKIY, V,L., GONCHAROV, I.C., and MASLOV, V.A.
"Using the Fabry-Pdrot Resonator for Stabilizing lnjecciv6 Laser Frequency"
Leningrad, Fizika i Tekhnika Poluprovodnikov, Vol 4, No 4, 1970, pp 685-689
Abstract: This paper is the continuation of an earlier one written by thu
same four authors (ZhLTF, 57, 1109, 1969) in which they gtive preliminary re-
sults in stabilizing semiconductor laser frequencies by an external resonator.
of ITive-stIRating the spectral
The pres6nt article gives the detailed. resrAta7
characteristics and the frequency stabiliz&tion of injector lasers throu-h
the Fabry-Pdrot interferometer. The lasers under test were operated in tLe
continuous regime, and their spectral characteristics werip studied as a func-
tion of the injection current, which determines the activit, region Cemperature
under steady-state conditions. The laser radiation spectiruza was first in-
vestigated on a DFS-12 spectrograph with a resolution of mbout 1 A to select
specimens were GaAs with a length and width of 50 to 200 microns, prepared
by the liquid epitaxy method. To guarantee continuous op*ration, the lasers
were placed in a cryostat in a nitrogen atmosphere, with the P and n parts
of the diode in contact with the cooling element. Tbreskild C'Urrents ranged
Inlram ffum-N-1 XIMMM111 M
USSR
7
BYKOVSKIY, Yu.A., et al., Fizika i Tekhnika iIoluprovodnik;.*)v, Val 4, "to 4, 1970,
pp 685-689
from 150 to 500 ma depending on the quality of the specivat an(I its dimensions.
The oscillation wavelength at the threshold covered a raN,,e of 8625 to 8715
for the various diodes. A block diagran of the frequency:stabilizing equip-
ment. is given. The authors thank MO Nikitin for his qonutents and Yu.P.
Zakharov for preparing the lasers.
USSR ur)c: 8.74
TURBOVICH, I. T., GITIS, V. G., 14ASLOV V. K.
"Pattern Recognition. A Deterministic-Statistical Approach"
azov. Detei,"inirovanro-statistichecli lish
Opoznaniye obr -,v podk~hcd (cf. 'Eng
above), Moscow, "Ifauka", 1971, 24 ill. 1 r. (f:.OM R7~j_KjbOj.jje+ikF_,
No I Jan 72, Abstract No IV1071)
Translation: The authors consider theoretical aspeets and algaritl= for
design of recogn-Mon automata, and also examples of solving practical
problems based on the deterministic-statistical approach developed in
this book.
HIM-
0.3
XII-13. STLTY OF PLRYLCTIVi OF TUE STRULURE, LqlrUMLTY AXV 1=V.rV3TTlOW UT
,, =L= I
;LV
[Article bv M. C. Shurakly. L.. N.. Zhukovs. Ye. M. Kistova.
5k, frf '~Sl It- P. FF.-t;WisiA R-ta I Si.t.m. pole
etan~ 12-1? J=e vT2-.-V--,nT
The mi-ray doubkwm-cryszal spectro"cormthods. the method ar electron
diffractIm iAtterns and the w-roy ~V*ctral alcrommelysis were wood to study
the perfectton or the structure. the mnLloruity and composition of the col.-
:t&Xi$L 1MOnCCTT2t&lliUV UICS Of 901'.d 201UtfC* Of t". GSAA-46r- *Y*t". T4.-
films wage Slowad by t6o mandwIds =014,1 uotng U 0 end 11CI saser an CaM sub-
*trot a oriobted with resoact 9 the (100) end (III) planes as %Ao carrier res-
So..* It is A-crated-that, -th: homote tity with respect to composition and
PIS t4floctle" Alf the film structure becons' war=e with an !mCressm,im, the GAP
content. beginning envocLolly shorpli at 50 percent G*PC btrl~ It lip sotab-
llsh44 -,*at, of the perL-Atcitr.cf, tha~,ttroct-re 1A the given
apitaxW-ftlas are basigally-tal-A t=
Met".
The noncorrespoodomem of the compooftion of the film obt*Ltkgd and the
Initial charge were detected. This noncorrempoodance docremome with use as the
KO.Ympm carrier.
The presence of a gwgatl*a deviation from; the WaSard ralm. was estab-
lished. which indicate@ com7tasolon of the lattice with the formation of the
solid solution.
INS
;pkUtL--SS0JlG DATE--20NOVYG
lU L L UNUASS f
I TL E--,RECUBINATICN OF CtIARGE GARRIE'RS ATi: 'A AECTIFYING CW~TACT 13ETWEEN
ICN MEMeRANES -U-
Excl_'ANGE
ALTHOR- 10 3) - L I Khr-DE D v lj.N.v !IASLQVl V
ZUTQV, YU.A.
CCUNTRY (:F INFIC-USSR
)o
S.GURCE-ZH. Fllr'_* K~-,IM. 1970, 4414)v 11~8_
-DA,TE FLOLISHEC-70
.".~,'SUiEr- r AREAS-CHEMISTRY
N
TAGS-ICN EXCHANU: MEMBRANE* ANION, -CATIONI 1014 REC014131NATIDI
,!__'-_,CCNT&CL MARKING-NO REST,~ICTIONS
CLASS-UNCLASSIFIED
-PROXY kEtL/FRAME--3%G05/0'4Cc3 STEP N07-Ulk/ QG.5 7170 1044J 004/ 1118 112 0
CIRC ACCESSICN N11-AP0132.308
212 ~011 UJAJCL4sSfFlW PROCES5ING DATE-201NOV70
CIRC ACCESSICN NO--AP013?-3C8
A8STRACT/EXTk~,',lCT--(U) Gil-0- A3STRACT. AECI)MOINATIC-11) PROC-ESSES OF CHARGE
~-CARIZIERS AT A (H PRIME PgSITIVE) MINUS 10HI PMMI: NEGATIVE PE(;T[I:Ytt',G
UETiEEN IGN EX.(~HANG('.' MEMBRANES ARE 1114VESM;ATE0, THE Lfft It-ME
OF ThE MINORITY CARRIEAS IR P1 EQUALS 1.6 tIMES 10; PRIME6 N~GATJVE- SEC.
~wHILE ThE EFFECTIVE DIFFUSION LENGTH OF THE CHARGE CARR[Ei~S 15 L EQUALS
2.4 TIMES 10 PRIME8 NEGATIVE CA. FACILITY; MOSKo INST. rONKOI
HIM. TEKHNOL. IM. LGPCNGSOVA, MOS.COW, USSR,
025 UNCLASSIFIED~ PROCESSING DATE--30OCT70
7l.CIRC ACCESSION NO--AP0121637
--(U) GP-0- ABSTRACT. THE REASONS FOR THE EMERGENCE AND
-,::ABSTR ACT/ EXTRACT
THE METHODS OF ELIMINATIO14 OF CHEM. HETEROGENEITY OLI: GAP, SUBX A:I ~SUBL
NEGATIVEX SINGLE CRYSTALS WERE INVESTIGATED. THE CRYSTA4LS WERE &AQW14 8Y
TH -ATION, BY USING
THE SANDWICH METHOD ON GAAS SUBSTRATES (111) ORIEN]
A POWD. SOURCE PLACED 0.5 MM FROM THE SUBSTRATE. THE TRANSFER WAS
ACCOMPLISHED IN A MOIST H ATM. AT AN AV. TEMP. OF 930-500EGREES. THE
GROWTH RATE WAS 10-20 MU,HR. THE DISTRIBUTION HETEROGENEITY OF THE
FUNDAMENTAL COMPONENTS OF THE GAP-GAAS 'SOLID SOLN. WAS DETER.4LNED BY
LOCAL X RAY SPECTROGRAPHIC'ANAL. FOR SOLID SOLNS. WITH GAAS
PREDOMINANT, THE HETEROGENEITY SHG*S UP PRIMARILY 161ECAUSE OF THE
~NONHOMOGENEITY 9F THE SOURCE# AND CAN BE ELIMINATEO BY H01MOGENIZATION.
~AT NHIGH GAP CONTENTt A MORE SIGNIFICANT EFFECT 15 EXERTED ON THE
-UNIFORMITY OF THE CRYSTALS BY LATERAL GAS ETCHING OF THE GAAS SU6STRATE9
-WHICH CAN BE REDUCED TO A MIN, BY 14ASKING THE SUBSTPATE, WITH T~*Z:
WI9G THE EPITAXIAL LAYF."
EXCLUSION OF THE SECTION INTENDED FOR GRO
PRIOR HOMOGENIZATION OF THE SOURCE AWTHE. MASKING10F THE SUBSTAATE ARE
TIONS FOR THE ELIMINATION OF CHEM. HETEROGENEITY OF
___.THE,NECESSARY CONP16A
SINGLE CRYST. LAYERS OF GAP-GAAS SOLID,'SOLNS. DURING EPITAXIAL GROWTH BY
THE, SANDWICH METHOD.
UNCLIASS I F IIED
025 UNCLASSIFIED. PROCESSING DATE--30OLT70
'.T!To_lE--CHEMICAL HETEROGENEITY OF EPITAXIAL LAYERS OF GALLIUM PHOSPHIDE
GALLIUM ARSENIDE SOLID SOLUTIONS -U-
F.A.t KISTOVA# YE-M-r
FISTUL, V.I.
.-COUNTRY OF INFO--USSR
SOURCE--IZV. AKAD. NAUK SSSRt NEORG, AATERo
OATE PUSL ISHED-----70
..,.SUBJECT AREAS--CHEMISTRYi PHYSICS
MASLOVp ~V.N.t SAKHAROVt B.A.r
1970t 61:~h, 46.1-7
EPITAXIAL
.i..TOPIC TAGS--GALLIUM# PHOSPHIOE9 ARSENIDEip SOLID SOLUTIONI
GROWTH, SPECTROSCOPY, SINGLE CRYSTAL
CCNTROL AARKING--NO RESTRICTIONS
DOCUMENT CLASS--UNCLASSIFIE0
PROXY REEL/FRAME--1998/1344 STEP ND--Uk/0363/70/CD~/003/0461/0467
CIRC ACCESSION NO--AP012183?
UWAASSIFIED
USSR uDc 621-315-592
GULYAYEVA, A. S., KR-kSYUk, V. A., MASLOV, V. N., and SAKHAI-ROV, B. A., Cor-
responding Member of the Academy 0 er. s USSRf Statib Scientific Research
and Planning Institute of the Rare Metals Industry, Roscow
"Change of CaAs Single Crystal Photoluminescence in Regions Damaged by a
lascr Beam"
Moscow, Doklady Akademii Nauk SSSR, Vol 205, No 4, 1972, PP 815-817
Abstractt The authors studied changes in the pbotoluminescence of GaAs
single crystals with p- and n-type conduction and a carrier concentration of
1.1017 -- 3.1017 cm-3 in the re6ions damaged V; a laser beam. The p-type
Zn-doped samples were obtained by the Czo 'chralski juethod; the n-type Te-doped
samples,by the Czochralski and Bridgman metho&. The smiiples wore exposed to
single light pulses of 500-miu%rosecond duration from a laser with the active
element of glass with neodymium, 1.06 L4 . The absorption coefficient
of the samples at this wavelergth was CA - 1-3 cm-1, At a mean luminous flux
density of 5-105 w/.sq cm: the damage appeared on the sample face opposite
113
To see if in all GaAs samples containing To there is an increase in
the intensity of the line with the 1-23-ev peak in laswr-damaged ezeas, n-
type samples underwent heat treatment at 6000 C for six hourn so as to intro-
duce copper into them. The line with the 1.23-ev peak nas found to disap-
pear for samples containing coppers
The authors thank T. G. YUGOVA for caMing out the heat treatment
of the samples.
3/3
f>p
X
11-4 POSSIBILITY OF THEWDYNAMIC RESTRICTION or Tnz muhtn or avemmus
t.,t1Tie1PAt1HQ IN J7UFAMAL EqUILIDNIUM
e RUGOtAin, 12-17 June. 11
The chemical equillUcLum us* Iavastlj~ated in ttml 9f thA at.tistical
41aMbatimn Uf the to, theml-st atatq4 ~!;" different
energy (Famt-Dirat ALstrlbution)~ TtW equilibrium condition to vq"ltty
the chemical potential of the component In all the chasical distributions :Lrs
the Street compenent participate-
Thu 'relation see derived for calculating the camber of deg-vue, of fraedeo
with the chemical equilibrium
where L 14 the =umber of componcats (chemical al its or start* azoatc zraups~ .
a is the numi?*r of types of molecule*, k to the number of external forces.
I
ral is the total number Of Chemical distributters of *11 ci~w 40.poassta.
It We demonstr red that .-:he rasher of degrees of Ettelon ton 4ecr*4"
to zero to% complicatlion at th* 0vaical System.
The number of deptress of freedom ~oaa defined for isobar it- too rbermul
equilibrium In the system 11-CI-Cs. If we assume the prtoesc* in the equiUbtlus
gas Phase of 11. Ct. Ga. 112. Ct 2- lict, "CL. rAct2. "CL3w1ccule2, than in the
pro ant In the system of liquid Itallium and for constancy of the Partial
hydologeen pressure, only nonv&rJAnt equilthr4um turns out to " possible. on
deviation from the conditions of nonvartant equilibrium, the molocutes Cact I
GaCA-3 met Aisappear from the composition of the equilibrium mixture.
This conclusion can serve as an explanation of the experimental, data
presented Ig! reference Ill. BIBLIOCRAPHY M
1. V. S. Son. J. Zlectrochomical Roc., no JIB9 14739 2971,
'S
V-4~ Ta":PaT OF THZ CAAp-W SOLID SOLUTION IN Tilt GkS TRMSPOKr REACTION
WITH WATEA VAPQX
(AmticLe by Tj. Pj~_Ustvv4,
Novosibirsk. III Sta~Valum p0 !, atsmemam Post& i !~Lllt~t. kh
griftalle. t rl.=k. Russian, 12-1.7 June, 197Z. P, 59
la thin P-p-ramt- n~ii-L..nto-x 6 CU4
yvan andst oUt1h. of ~!vm
40-PO ition of th3 G&U-wts-0 -volid -soluttoo during its transvort by we4er vapo
to the sandwich procame. Tha trans7a" to realixed tram a source with a
temperature of 930*C a* praphits substrata with * tomm"rsture of 920'C. it we&
astabilshid that vtrh a Ce ConcentrAtloo-to ~01 purcant-the.de"At to 4nrqchsa
in phosphorus, at Ligher coarentrations, it to enriched with 4rsomic. Im order
to explain %he experlauttal. date, the tfiecry of regular tolutiona was *smd. The,
value of the *oaff1py Ofr jjjar&Ctjon,0Z the SoluCUlee In the Investigated 061'Ation
was obtained. ' The. afflect of the noutdoat astum ef CU ooLution. on, the ViMist*7
sod Com"sittas of ZM dvi6sit by coaq4tlson With the altion of 0a
during the ses traumpert rosettes is AlLsenwied.
V
V'11-lb. PIMKTIES 01 ALLOT11D 171TAXtAL LAYS&S OF GALLIUM ASSENtot GROWN IN
TU Ga-A&CL3-1'2 SYSTZM
4
(Article by J_ 1. D172kanow. L. A. 1bukava. E. S-KovelLorith. V. H-MARlay.
V. Tu. Pspellaer. S. 1. Rude. Tv. V. SO1vY*7tvt& HoStON1, rVibintfs1%. III
glum a Protsessam goat& I 51~tot.' r!slu
2_,Lovod kh K~rl&~Allov I
St
Piano uvoian. fi-Tf-Jur.. J972, V 861
.4. =11tAm P~ k" Yet= ~Ar*
gitnor by Thermal ovapa-.attan of the invority, (ra. t;i) or by introducti=
of ii! in the form of a pa&&aus cua4vound (HIS*, (C iR612--r". The dopendence ef
the carrier corcentratiov in the layers on the admixture concentration In the
Son phase wa* fourej. With an Increase In the tellurium content. the growth
rate of Cho layer drops almost to sets where** the AInc practically has no
effect an the growth rate. The use of 414thyl ttat does not lead to worsening
of the alactrvphy-vical parva*tara of the laver-D by cc=parlson with the alloyiitg
by the method of thermal . evaporation of. vInc. The conceatt&tIon of the charge
carylers In the layers alloyed with lellucLum and selenium is reduced In the
diroctIon of the tan flow whereas in the layers allayed with zinc. the cancan-
trarloo of Cho carriers Increases a little.- This dtirterence to connected witta
the dEfforence in the coefficients of the "por-Crystal junction. AccordIwA
to the date of ""t"PhysiCal atudies. the 4*j%r*s of toopenooktion of the donors
In the layer* alloyed with selenium to Constant and close to 0.5. An Increase
In chi toll-irtus concentration in the layer I*"* to an tncreave in the dto-
IseetLas Jontlt)p end the mushime of growth #Tr*fttd*. tar tbe-Oprrift"t 4116701
with o*Aontun with a terrier concentration of the type of $-10 mr3o altbar
an Increase in :he dislocation density to 1-10 6 on -2 or the appearance of w"ettic
mIcrqdqfacts was observed. At I" alloying levels with S&IODLus it S.1018cid-3)
and in the entire range of stlaylog with zinc uei,,% diethyl %lue. the 4tsMc&%Iv*
density In the layer to close to the OisLacatioe density in Me substrateg the
morpboloxy of the layers do" met change.
SESSION vil
Vtt-Is.' %"LICATION OF THE KETHOD OF C04TIMkVS VtIGHLNC FOR Sr"YING THE q
ETCULNG AND GROWTH PROCESSKr IN TAN r-*-A*C 'r-H2 SYSTEM
1ATCUl* by L. J.-Wyakenar, E. S. KupelloTtch. T.-H-Maslov, V. Tm. raysl7a".
X- altda. Yr. Y. l=a=x. VzU4-%-1UxAk' Ili zzpoal'~
PcIuvrvvodmIkavykh Krut*l'.ov I 71mok
Posts I Hintc-:- Russian, 12-17 June,
1972. p 831
A simple method of c*ntjtm&wq w*Jehioe bas been davaloped tainw-tijicq
t#v 4441tIA4 V.:" of Itallium ind-the growtis of-Ttm ailtaxtal layer or GaAs.
go twipl~tioa of the period of saturation or the gailluft with arsenic, the
compositicm of tits gas phase In chanAtdt sharply, and thq ittillium centent In
the Roo flow under stationary conditions corresponds to the equilibrius, abo,,q
the solid xnlli= Axs--4A*, and the aroeau komot I* determined bT the
of Alct.3introduced Into the reactor. In contrast to the available published
data It has been found that the growth rate of the C&Am I&-var is established in
practtCe immediately with respect to complax-"U'of the IstuTfition rtriod. TbA
mature of thempgrimental dependencies of Lhe growth care on. the jwsc;*ao
parameters Indicates that the X-rwth of Ca" takes place to the dtffumtoo-k1sec'.1
t**1.o, The torparaturs profile to the re"tor was determined foir which the
radial Itraditmtw are allmInaced which cause. *aectiottalled nucleation of the
Go" an the reactor walls In the substrate zone. A study we* made of the
effect of the condition* of the growth,procause on the structure and the alsetzics.1
properties of the unalloyed vvitaxial layers of C&As. The ol.tron sobLlItT
In tko layers grown under aptiguil conmittiovis reached 6230 Cat IT-00c at 3CO'K
and 63.0m Callv-om at 7M with a earteenti tion of than of 3-101%vC-3~
gle CrOtals
USSR uDo 669.2-5-172
ABANIN, D. D., (DECWED), YEBSTYWINg A. I., IIQLQV, V. P. , 1UU TS KI Y A. N.0
"d TREFILOV, V. I., Moscow, Kiev
"Structu-ce and Rachanica.1 Properties of Chromium Iodide Single Crystals"
Moecow, Izvestiya Akademii Hauk SSSR, Metally, No 1, Jan/Feb 74P pp 143-149
Abst-;--aatt The structure and mechanical properties of chromiua iodide were
studied to determine why chromium is extremely brittle mt room and low tem-
peratures. Single crystals of chromium were produced from the thermal dissocia-
tion of chromium iodide which had a high dggree of perfoction (ratio of elec-
trical resistances measured at 300 and 4.?. K was equal to (1.5-).O)xIG2 ~1
Bend tests of the single crystals showc4 that tho nodulma of elasticity . or
chromium has a minimtui value in the airection which Is caused by the
accumulation of dislocations In the flill plane, taing higher than in planes
ji0q and -JLIOJ . It was also noted that with imareaaed purity of the
single crystals from interstitial impurities the specific surface enerey
minimum transfers from plane ~111j to plane ~'10DJ- Therefore,
brittle slip in chromiu:% single crystals occms in these two planes. Six
figures, two tables# 32 bibliographic references.
1A
USSR UDC 669.26.048
YEVSTYMIIN, A. I., ABANTN, D. D., KORNEYEV, V. A.,, 'LOV V P
"Obtaining Alloys Based on Chromium by the Iodide Metho~
V 9b. Mlvtallurgiya i mtalloved. chist. met. (Metallurgy and Physical Yetallurgy
of Pure Metals - collection of works), vyp. 9, MoscmV, Atomizdat Press, 1971,
pp 12-19 (from Uh-Metallurgiya, No 4, Apr *12, Abstract No 4-038)
Translation: In order to obtaiu iodide alloys of Cr with Y, V and Tj the
charge was pressed and melted in an argon; atmosphere in an are furnace. Shav-
ings which entered into the ioeide process, were, prepared from the ingot obtained.
Calculations were performed determining the possibility of deposition of Cr
dIlOYS with V, Ti,and V. "Aliermal dissociation was carried out by the 'Van Ar*kel
scheme. In all the experiments the fila&nt temperaturit! was 1,000-1,100', and
the flask tewperature was 750-800'. The precipitates obtained in the iodide
prccess were remelted in an arc furnace and*investigateO. The Cr-V and Cr-Ti
alloys in the analyzed concentration range are single.-p4nqe, but separations of
a second phase are obvi-jus in the microstructure of the ~Cr-Y alloy. On intro-
duction of Y into the rwd material, the effect of additEonal purification of
the Zr is observed in the process of' iodide refining. The ic~dlde alloys of
Cv w1th V and Ti were obtained, and the transfer c=fficient vas found as a
fipiction of the raw material composition.
UDC 534.2
V sb. Dinamika i aRustika mashin (Machine Dynamics and Acoust-*Xs -- Collection
of Works), Moscow, "Nauka", 1971, pp 28-34 (f~rom FII-Fizika, No 3, Mar 72,
Abstract No 3Zh477)
Translation. The transfer of a flexural wave from one plate to another through
a band rigidly fastened to both plates is discussed. The flexural wave propa-
gates in one of the plates and enters the band at an arbit-vary angle. Authors
abstract.
. . ................ ...... ...................... .......
USSR u.Dc 624-07t534.1
BOBROVNITSKIY, Yu. I., GENICIN, M. D~, MA.SLOV V. P.
Mmidtw;a X"
"Oscillations of an Infinite Lattice of Strings"
V sb. Vibroakust. aktivnost' mekhanizmov s zubehatr-ni peredachami (Vitro-
acoustic Activity of Mechanisms with Geareci Transmissions), Mloscow, "IT-auka",
1971~ Pp 197-204 (from RZh-Mekhanika, Ila 10, Oct 71,*Abstract No 10VIT4)
Translation: A study is made of the propagation of no'rmal waves in an
infinite string lattice, and its Green~s function. Alternating bands of
transmission and nontransmission take place.when the lattice waves propa-
gate in different directions. It is shown that the tourdaries between
these bands are the natural frequencies of a single repeated cell of the
lattice. Forced oscillations of the lattice under the effect of an r:.rbi-
trary external load are computed by means of the Green's functicn. The
Greens function is found in the form of a double intergral !hich is not
expressed in terms of the unknown functions. The asymptotic behavior o.f
this function is investigated. It.is found in particular that the wave
amplitude always falls off in inverBe proportion to the square root of
112
USSR
BOBROVINITSKIY, Yu. I. et al., Vibroakust. aktiv-nost' TLekhani=ov s zub-
chatypi pereclachami, Moscow, "Nauka", :%~Tl, PP 197-20k
the distance from the solarce. An equation is also found for the save
front of a point source. in addition, the input compliance of the lattice
is computed. This quantity is expressed in terms of t*--ntirely elliptical
integrals of the first kind. Authors' Astract.
2/2
Qv
UNCL AS S I F I E,01
1 2 005
'JITLE-ON THE STATIONARY PHASE METHOD r-OR FEYNMANIS CONTINUAL INTEGRAL -U-
~',,AUtHOR-MASLOV, V-P.
-USSR
:.~_COUNTRY OF INFO
';..SOURCE-TEORETICHESKAYA I MATEMATICHESKAYA FIZIKA# 1970, VOL 2, NR 1, PP
f~_...DATE PUBLISHED--70
SUBJ~ECT AREAS-MATHEMATICAL. SCIENCES
6PIC TAGS-INTEGRAL FUNCTION,, CONTINUOUS FUNCTIU,44
"Ca -NO RESTRICTIONS
NTROL MARKING
.DOCUMENT CLASS-UNCLASSIFIED
.'PROXY REEL/FRAME--1978/1231 STEP j\10--UR/0646/10/002/001/0030/0035
CIRC ACCESSIGN NU-AP00415154
"D lit
I mmulmild A 00"Nuff=
005 UNCLASSIFIED PROCESSING DATE--090CT70
~,CIRC ACCESSION NO-AP0046154
'-ABST,
RACTIEXTRACT-W) GP-0- ABSTRACT. THE FORMULA UBTAINED EAqLIER BY
~THE,AUTHGK UNDER CONDITION THAT CLA-SSICAL PATHS ARE' NOT I)EGENERATEo IS
ir
USSR UM 681.325.65
BLAZHKEVICH, B. I., VOROBKEVICH, V. Yu., MASLOV, V. S., SOLOKCHAK, V. P.,
and YATSUN, I. A.
"An Analog-Digital Measurement Converter"
Novosibirsk, Konf. po avtomatiz. nauch. issled. na osnova primeneniya EVM,
1972--sbornik (Conference on Automating Computer-Based Scientific Research,
1972-co"ection of works), 1972, pp 84-90 (from M-Avtomatika, Teleme-
khanika i Vychislitel'naya Tekhnika, No 11, Nov 72, abstract No 11B307)
Translation; The authors consider a servo-type analog-digital converter
designed for remote measurement.of a slowly varying component of the output
voltage of a static electric field strength pickup within 11"alits of +640 mV
with an error no greater than 0.025% for a transmission chanriel error of
up to 1%. The converter consists of a measurement amplifier, a device for
automatic selection of subranges, a control unit, and a power suppiy. rhe
given measurement range is broken down into 128 partially overlapping sub-
ranges; selection of subranges is accomplished by automatic comparison of
the input quantity with a discretely variable voltage formed bit a code-analog
converter from a reference voltage source. One illustration, bibliography of
nine titles. L. P.
1/1
USSR
UDC 681.335
BLAZHKEVICH, B. I., VOIROBKEVICII, V. Yu., MASLOV, V. S., SOLODICHAK, V. P., anti
YATSUN, I. A.
"Analogous-Code Measuring Transformer"
V Sb. "Konf'. po Avtomatiz. Nauch. Issled, na Osnove Px,imeneniya EVM, 1972"
(In the Collection "Conference on Automation of Scientific Irivestigations
on the Basis of the Application of Electronic Computers, 1972"), Novcsi-
birks, 1972, pp 84-90 (from Referativnyy Zhurnal, No 10, Oct 72. 32.
Metrologiya i Izmeritel'naya Tekhnika. Single Issue. Abstract No 10.32.119)
Translation: An analogous-code measuring transformer of tracking action with
an input impedance ~~ 109 ohm is discussed. The transformer is designated for
remote measuring the slowly changing component of the output voltage of the
statical transducer of the electric field intensity in the +640 mv range with
an error not exceeding 0.025%, at an transmission channel error up to LZ.
One illustration, niiie bibliographical references.
7171
USSR UDC: 621.'475.82
1=LOV V. V. and ITAUI-EIT-KO,
DZYUBE 0, Me I., KOROBOV, A. Me
I. G.
"Investigating the Characteristics of Lasers Using Organic
Compounds With Dispersion Resonators"
k
Kiev, V sb. YLvant. elel-tronika (Quantum Ellectronics-colloctio!i of
'works) "Nauk. dumka, " No 6, 1972, pp 109-119 (from RZh--F-izika,
No 4, 1973, Abstract No 01231)
Translation: The oscillation characteristics of 1-phenyl-4-(I)-
chlordiphenyl) butadiene-1-3 in a prism dispersion resonator and
bis-/I-p-tolyl-6-methyl-quinoline-4/trimethodionecyaninperchi-orate
in a resonator with a diffraction grating are investigatod. The
solutions of these substances were excited by the second harmonic
and fundamental frequency of a ruby laser in the ffirst and second
cases respectively. Smooth tuning of the average o-ocillatign x,---ve-
length of the first compound was realized in the 4045-421~ A 271P.&a,
-ie '1 20-7620 range.
for the second compound it was realized in t11 3
Here, the radiation Dpectrum for each narroved to 10-20 j! nnd 1-3 A
respectively. It was discovered that the s~~erlur.-,ineocence phcno-
menon arising in lasers using organic solutions with dispersion
'USSR
I)ZYUIENKOJ M. I., et al., V sb. Kvant. elektronika, No 6p 1972j pp 109-119
resonators 1-Imits the tuning frequency range and substantially affects the
spectral, energy, and spatial angular characteristics of the stimdated emis-
slon. Bibliography of 15. Authors' abstract
2/2
4 ;)4 4 *X
USSR-.
KAT'KOV' F.k., nkswv' V.V,
Nultifrequency Device For Transmission Of Discrete Inform-tion"
Mnopochastotny)_re uetroyetva pereduchi diekretnoy informatail (of English above),
Kiev, "Thkhnika," 1971, 85 PP, ill. 24 k. rom RZh-_:.iektrpeKyaz', ITIo 6, June
1971, Abstract Vo 6.64,239K)
Translation: Methods are considered for an increase of the ofriciency and reliabil-
ity of transmission of discrete information with the uaa of multifrequency codes. The
effect of phase distortion on the tr3namisaion rate is atudi~,d find a method is given
of increasing the spacd of response of time-and-frequency eyat,ommu. The principal
units are deEcribed of a multifroquency aystem and the dovict constructed. The bock,
intanded for tachnical engineers and scientific uorkers iiho eiro occupied with devel-
opment; planning, and application of eyote.ma for tronsmiusion of diecrate informat-
ion, can be useful to students of blgher~education inBtitutlQns for appropriate
professions. 37 ill. 14 tab. 15 ref. 4nnotation.
75
Aluminum and Its 'Alloys
USS`R-- UDC 621.3:669.71
VORONTSOVA, L. A., MIASLOV, V. V., and PESHKOV, 1. B.
"Altiminum-and Aluminum Alloys in Electrical Engineering Products"
Aly-umi-niy i Alyuminiyevvye Splavy v Elektrotekhnicheskikli Izdeliyakh, Moscow,
En:ergiya-Press, 1971, 224 pages
Ttanslation of Annotation: This book studies problems or the use of aluminum
and aluminum alloys in various electrical engizeering prpducts. The physical
ar4nechaaical properties of aluminum and aluminum alloyi; (electrical conduc-
ttvlty,~ mechanical strength, fatigue, creep, etc.) and specifics of technolog-
ic~al_processes related to the use of these materials (welding, soldering) are
presented.
Tlio.book,is designed for engii-teering and technical workers involved in the
designi-planning, manufacture, operation, and repair of electrical engineer-
idg.products in which aluminum and its alloys are used as conductors and
structural materials.
TABLE OF CONTENTS
USSR
IVORONTSOVA, L. A., et al., Alyuminiy i Alyuminlyevyye Splavy v Elektrote kh-
nicheskildi Izdeliyakh, Moscow, Energiya Press, 1971, 224 pages
CWapter.One. Presence of Aluminum in the Earth's Crust and Basic
Methods of Its Extraction 3
Mapte r Two. Conducting Aluminum 8
2-_V~ - Basic Characteristics of ConductingMaterials 8
242-.'.. Specific Electrical Resistance of Metals and Factors
Influencirg It 10
1.' . Influence of! Temperature 11
2.-. Influence of Deformation 12
3.' Influence of Foreign Atoms 13
2-,3.*. Physical and Mechanical Properties of Aluminum 16
1_ Influence of Impurities on Specific Rcsistivij:y of Aluminum 18
2.-. Influence of Deformation on Mechanical Proper-ties of Aluminum 20
3.- Change in Physical and Miichanic~al-Properties of Aluminum Under
the Influence of Texper2cure 21
4. Creep and Fatigue of Aluminum 24
Clfapter Three. Conducting Aluminum Alloys 27
2
USSR
VORONTS OVA, L. A., et al., Alyuminiy i Alyuminiyevyye Solavy v Elektrotekh-
nicheskikh Izdeliyakh, Moscow, Energiya Press, 1971, 224 pages
3-1. Influence of Various Alloying Elements on Physical and
Mechanical Properties of Conducting Aluminum 27
3-2. Conducting Aluminum Alloys Type AE 29
1. Mechanical Properties
Chemical Composition and Physical-,
29
2. Influence of the Addition of Iron 36
.3. Influence of the Addition of Boron 37
4. Optimal Heat Treatment Modes and Structure of Alloy--i.; 38
5. Commerical Technology of Production of Semifinished Goods of
Alloys AE--1 and AE-2 43
6. Change in Mechanical Properties and Resistivity of AE-1 and
AE-2 as Functions of Temperature 45
7. Fatigue and Creep of AE Alloys 47
3-3. Physical and Mechanical Properties of Aldrey ana Kondal Alloys 48
3-4. Physical and Mechanical Properties of the Alloys Vb -30E and
VUK-33E, ChSN-424405 50
3-5. Conducting Aluminum Alloys Containing Zirconium 53
3/5
USSR
VORONTSOVA, L. A., et al., Alyuminiy i Alyuminiyevvye Splavy v Elektrotekh-
nicheskikh Izdeliyakh, Moscow, Ene'rgiya Press, 1971, 224 pages
Chapter Four. Specifics of Technological Processes Involved in tile
Application of Aluminum and,Aluminum Alloys in FAectrical
Engineering 60
4-1. Welding 60
4-2. Soldering 65
4-3. Methods of Connecting Cables and Conductors With Aluminum
Cores 69
1. Methods of Connecting Aluminum Wire 69
2. Connection and Termination of Aluminum Cable Cores 71
Chapter Five. Cast Aluminum Alloys Used in Electrical 1,1'ngineering With
High Electrical Resistance 80
Chapter Six, The Manufacture of Aluminum. Cable and Wire 87
Chapter Seven. Winding Wires With Enamel, Fiber., and Oxide Insulation 95
Chapter Eight. Porder Cables 114
USSR
VORONTSOVA, L. A., et al., Alyuminiy I Alyuminiyevyye Splavy V Elektrotekh-
nicheskikh Izdeliyakh, Moscow, Energiya Press, 1971, 224 pages
Chapter Nine. Conductors for Overhead Electric Power Transmission Lines 135
Chapter Ten. Testing and Connecting Cables, Installation Wires and
Communications Cables
146
155
ChApter Eleven.- Electrical Machines
11~1-. Electrical Low-Power'Machine (up'to 600 w~ 155
r P o-
~11.2. Electrical Machines fo 4er Meters 162
11.3. Electrical Machines From 0:.6 to:1,000 kw ~165
11.4. Synchronous Machines and Hydraulic Generators 176
Chapter Twelve. Power Transformers 177
Chapter Thirteen, Low-Voltag~
e Apparatus 200
Chapter Fourteen. Power and Crane Electric Equipment 208
Chapter Fifteen. Lighting Equipment 210
Chapter Sixteen. The Use of Aluminum In Welding Generators and Trans-
formers, Magnetic Amplifiers, and Semiconductor Povier Valves 214
Bibliography 216
USSR UDC 621-373.626:53
XgLLOV~j V. Yu. and ITAZAROVA, 1. G.
"Propagation of Laser Radiation in "I'A'ater"
Moscow, V sb. X Vses. konf. no rasprosill-r. radiovoin. Tezisy dokl.
Sekts. 6 (Tentn All-Union Conference on the Propaga.ion of -waalo
W~~6s; Report Theses; Section 6--collection of works) "Nauka,"
--Radiotekhnika, No 10, it
1972, pp 20-21 (from RZh 1972, Abstract "o
1OD371)
Translation: The Young interference* method was u.-:ed for measurIng
the coherence function of light passing through a r-adiation-
dispersing water layer. It was established that the coherence
function of the bcam passing through the vatler differed onl.,
slightly from the initial situation (without the Uater). This
difference slightly exceeds the discrepancy determined by the
measurement error (about 71,0'). A. K.
USSR UDC 629.7.036.3:553.601.1
MASALOV, Ya. F.
"Combined Method of Calculation of Mean Velocity and Mass-mean Temperature
of a Gas Flow From the Diagram of the State of the Substancell
Teplofiz. Svoystva i Gazzodinamika Vysokotemperatur. Sred. [Heat-physical
Properties and Gas Dynamics of High Temperature Media -- Collection of Works:],
Moscow, Nauka Press, 1972, pp 109-111 (Translated from Referativnyy Zhurnal,
Aviatsionnye i Raketnye Dvigateli, No 12, 1972, Abstract No 12.34.13, from
the Resume).
Translation: A method is presented for determination of the Mean velocity
and mass-mean temperature of a gas stream at a high temperw:ure gas-heater
nozzle. The values of deceleration enthalpy and mass flow rate of the sub-
stance necessary for the calculation arc determined by experimental measure-
ments; the remaining desired quantities included in th6 main equations are
found from an i-s diagram of state of the substance. Ilie mass-mean tempera-
ture and deceleration enthalpy determined can then be used to find the ria:xi-
mum temperature along the a x45 of the stream and, using the Fay and Ridel
formula, the heat flux into the body from the Plasma stream Flowing around
it can be estimated. 3 Biblio. Refs.
- - - - - - - - - -
OSSR uDc: 621-382.2:621-317-799
MASLOV, 1e. A. PUSHKIN, E. I.
"A Device for Measuring the Static Current Gain of a Transistor"
Moscov, Otkrytiya. Izobreteniya, Proiwshlennyye ObK~ zt:~lr, oy rn n
No 2, Mar 72, Author's Certificate No 331342, Division 0, filed 17 Aug 70,
published 7 Feb 72, p 140
Translation: This Author's Certificate introduces a derice for measuring
the stat-ic current gain of a transistor. The device coiltains, -a source of
fettre of the
setting up conditions and a display. As a distinguishiag f :~ I
patent, the measurement process is automated by connecting an operational
amplifier to the source of setting up conditions through a resistor. The
feedback circuit of the amplifier is connected to the oatput of the circuit
for automatic selection of the measurement range. The range selection cir-
cuit is connected to the inputs of the digital display unit. The second
inputs of this display are connected through a decoder to a reversible
counter. The first input of the reversible counter is connected through
an electronic switch and a null indicator to a double integration circuit.
The second input of the reversible counter is connected to tbe output. of
1/2
USSR
MESLOV, Ye. A., PUSHKIN, E. I., USSR Author's Certificate No 3313112
a one-subtraction circuit. The first output of the reversible counter is
connf-cted through a measurement mode selection circuit to the operational
amplifier, and the second output of the reversible counter is connected
to the input of the one-subtraction. circuit.
126
KLBIEWTIM, A. A., MASLOV, Ye. P., PETROVSKIY, A. M., YASHIN, A. 1.
"Control of Stochastic Processes with Adjustable Duration of the Test
Interval"
Tr. IV Vses. Soveshch. po Avtomat. upr.i 1968. Teoriya Avtomat. upr.
~[Works of Fourth All-Union Conference or) Automatic Cont2:ol, 1968. The
Theory of Automatic Control], Moscow, Nauka-Press, 1972, pp 226-236,
Discussion 256-262 (Translated from Referativnyy Zhurn.al. Kibernetika,
No 3, Moscow, 1973, Abstract No 3 V282 b~y the authors.).
Translation: The problem is solved of syi1thesis of an optimal tcstin,-,-Y
and control algorithin for a discrete random process with -Ancoamplete in-
formation. Three types of losses are defined: to devi-ation of the con-
trolled process {nn) from the assigned mode CO 11 J; to coiitral of the pro-
cess {n 11 ); to testing of the process (nn). suppose the, r1111111"er of cycle's
of existence of process fnnI is finite a.nd equal to N. As a result of
the operations of testing and control, and also the atii;match in coordi.-
nate y and 0n, n = 1, 2, .. .. N, sumimary random losses C ari.!~(!. The
mathematical expectation of the value Of C is minlaiized by selecting the
1/2
USSR
KLEMTIYEV, A. A., MASLOV, Ye. P., et. al., Tr. W Vses. Soveshch. Do
Avtomat. upr., 1968. Teoriya Avtomat. upr., Moscow, Nauka Press, 19~2,
pp 226-236, Discussion 256-262.
number and placement of moments of testing and control, and also by
selecting control u k 1, 2, The problem is solved 1)), methods of
k
dynamic programming.
2/2
~L 161% 1 A' I I III ~A- III U.".1, 1 11"o
V iii Hill 11 !~.;; 1; l I W111 if Z11 i Inu It 1111'0 1;;mAlm lin 111.1111 '11l I Wir 1111 A IM 111111 HIMiA R 5 KM I I I I V IN FF IM1111~4-11 in 111 11'raN1113111
Logic & Oh~ie'Theory
USSR !MC: 62-501-7:518.9
ABIAJIYANTS, T. -G. , VOLIADVINSXH, 141. 1., IWLOV, Ye. P., and
!BTROVSlaY, A. L., Hloscow
"Tracking Game on a Plane With a Limited Number,of Tracking
Trajectory Corrections"
Moscow, Avtomatik-a-i --el.emekhanika, No 7, 1972, pp 31-39
Abstract: The purpose of this paper is to analyze a differential
trackinEv, game on a plane for a limited number of tracking tra-
jectory corrections. The game is played by having two partici-
pants, a pursuer and an evader, moving as points on a plane. The
pursuer uses Diece-vise programmed control, with shiffts from one
control law to another at a particular moment, the number of such
shifts being finite. The trajectory correctiona are defined as
the transitiors from one program to the other. It is asstuaed that
tkic ve`ocity of the
I.-he playe--,-s have simple types of motion, with
purnuer exceeding that of the evader. Solutions for, the game are
11 ca-laulua of
nought on the baois of a combination of clasnic,,:
variations and dynamic programming.
USSR uix: 621.396.6:621.318
SHUROV, M. I.
MeL.O-V---YU--II-
"On Calculating a Nonhomogeneous Section of a Magnetic Circuit"
Bb. nauchn. tr. Vladimir Dolitekhn. in-t (Collected Scientiffe Works cf
Vladimir Polytechnical institut~),'1976, vY-D. 10, Pp 511-59 (Trom RZh-
-Radiotekhnika, No 1, Jan 71, Abstract No 1V369)
Translation: The authors consider a section of =,gietZe cir~izit which
contains a gkD in the form.of a hole made for: a pin. Tt is Lshown that
such nonhamogeneities lead to errors in calculation, ax d a rv--fined formula
is.given for the reluctance in -.he case of cubic ap~roxtmation of the rnag-
netization characteristic. One illustration, bibliography or seven ticles.
Resl
&OC049394-" UR 0482
ion\1
Soviet Inventrons Illustrated, Section Electrical, Derwent,
.241543 TEST SET FOR MAGNUM' Cum Comprising t - 76
electeUbagnat (1) %hth two win4imgs~ linked
through an airgap, with tealt.Sample (2). The teliC
winding is bridged by a compensmUr4g capacttor
calcailated from equation of reoctive comp"Onts
intro4uced by the, air. gap and tho test. wiW".
17.1.6 8 as 1211863/18-10.M.A.:~ BUINDV et al (1-9-69),
Bul 14/18.4.69. Ctasg 21a. Tnt.C1.G Otr.
AUTHORS: BAbikov;-M.A.- SeleLyr!,ev. Yu.V.;
V44jov- Yu,N.; Rhyihkov. G.P._
7
19801225
AA0044228- UR 0482
Soviet Inventions Illustrated, Section II Electrical, Derwent,
170
KWNETIC ~p&Es in which the
241521 TEST4AZT
effect of'air gap betkeen the test sample
and the instrument is eliminated by means,of inductbe
sensors (2) In the g&p. The measurements are trans-
iLftted to an integrator (4) and through appliflers
to a compensatc- (7) which adjusts the value of
corrective capacitance (8).
17.1.68 as 1211366/18-10-YU.N.VASLOV YU-V-SZUZM-
(3.5.69) Sul
1:9770-723
9R!'!UL
It EFFECTIVE 14ETHOD FOWAD(Eftl~~ A S
F U-1 tIONS
AND PRESSURE DEPEND-CHU OF ~tHEKHODYNA M Nc
,~AUTHOR.-(02)-MASLOVs YU*P.9 ANTONOV, A.A.
-.COUNTRY OF INFO--USSR
,,~,SOURCE---ZH. FIZ. KHIM. 19T09 44(2)w 320-4
~:~:DATE PUBLISHED ------- 70
SUBJEECT AREAS--PHYSICS, CHEMISTRY
JOPIC 'rAGS--THERMODYNAMIC FUNCTION# PARAMETERl GE014ETRYt MIXED HALOGENATF0
ORGANIC COMPOUND, THEA4AL EFFECT, CHLOROFLUOROCARSON COMPOUND
CONTROL MARKING--NI) RESTRICTIONS
'i'VOCUMENT CLASS--UNCLASSIFIED
:~..PFOXY REEL/FRAME--1987/033L STEP NO--UR/0076/'10/044/002/0320/0324
'~CIRC ACCESSION NO--AP0103986
_U'll ASS[F[ED
Lic L,
PgOCESSPIG DATE-18SEPTO
2/2 L12 UNCLASWIED
CIRC-ACCESSION NO--AP0103986
..ABSTRACT/EXTRACT--(U) GP-0- ABSTRACT. THE COEFFS, IN THE E.4)U4TIONS
EXPRSSSING TEMP. DEPENDENCY OF C SUBP DEGREES, HDE6REESt SOEGREESt AND
GOEGREES AT 250-6000DEGREES K FOR.A GROUP OF THE COMPOS. OF RELATED
STRUCTURE CAPI BE ORTAINED wHEt4 THE- PARAMETERS, OESCR I BING THE GEDMET-ky OF
MOLS. (LENGTHS AND BOND ANGLES# SYMMETRY NOS. SIGMh) ArE KNOWN. EF fHE
VALUES SDEGREES SUB298 AND,HDEGREES SUB298 FOR A !COIIPD. OF THIS GROUP
ARE AVAILABLE THE CALCN. CAN BE PRFORMED WITHOUT USINCs ITS GEOMETRIC
PARAMETERS. VALUES OF SOEGREES AND GDEGREES FOR Cl. S()82 FBRj CH SU82
CL19 CH SUBZ# BRIP AND CH SUB2 FCL FOR 298-6000DEGIkEESK ARE TABULATED
:-AND-COMPARED WITH THE DATA OBTAINED BY USING THE METHODS OF STATISTICAL
THERMODYAMIGS0
UNCLASSIfIE0
UT-,c:
USSR
SALh.110V, A. n. , MA Yu. S. , 11-~.AITONW, I. N.
"Tie-in of the 'Fonsul-254, Electric Printer for Alphaa=eric Data Output"
V sb. Chisl. metody v te~hn,ekon. zadacha,kh (Numerical Piethods in Tech-
nical and Economic Froblems--collectior of works), KazuTil , 1rszan' Uni-
versity, 1971, pp 138-14! (from RM-Kibernetika, No 1, Jan 72, Absuract
No 1V966)
Translation: It is Dointed out that in resolving and translating prcFra!ns
vritten in XXOL-60 (or any other language) on the 31-20 computer, the need
arises for outp-at of alpbanumeric information. The construction of a de-
vice for matching the "Konsul-254" electric printer to the M-20 computer
and some modifications in the M-20.are described. V.,Alekperov.
USSR UDC 548.4
MASLOVA, L. A., TSIVINSKIY, S. V., Physicotechnical Institute of Lou, Tem-
peratures, Ukrainian SSR Academy of Sciences
"Investigation of the Principles Underlying Formation of the Dislocation
Structure in Alkali Halide Crystals of a Given Shape Grown in a Solid
Crucible by the Bridgman Method"
Moscow, Izvestiya Akademii Nauk SSSR: Ser. Fixicheskaya, Vol 37, No 11,
Nov 73, pp 2353-2356
Abstract: The principles underlying formation of the dislocation struc-
ture during crystal growth can be studied-both to discover the factors
which determine the average dislocation density and to establish the pro-
cesses responsible for the formation of small-angle bomadavies. This
paper takes both these directions, It has been found that uhan cryszals
are grown in a solid crucible, dislocations are formed as a result of plastic
deformation occurring as the crystal cools from the melting point to a tem-
perature Tj at which the crystal still remains plastic (e.g., room temperature).
Plastic deformation is close to uniaxial stretching aiid occurs as a conse-
quence of adhesion of the crystal to the walls of the crucible due to the
USSR
M&SLOVA, L. A., TSIVINSKIY, S. V., Izvestiya Akademii Nauk SSSR: Ser.
Fi-zicheskaya, Vol 37, No 11, Nov 73, pp 2353-2356
difference between the coefficients of linear expansion of the crystal a,
and the crucible a2 along the direction of growth. Dislocation density
can be evaluated from the equation
2(al - a2) (Tmelt Tl) (1)
N bD
where b is the inte~planar distance for crystallographic planes with law
indices perpendicular or nearly perpendicular to the direction of growth;
D is the transverse dimension of the crystal: the diameter for circular
crystals, and the width of the lateral face on which the dislocation den-
sity is determined for specimens with a square cross section. According
to (1), as each section of the crystal cools, the dislocation density in
this section gradually increases.. When the dislocation density posses a
critical value, block boundaries with minimum disorientation appear under
the influence.of thermal stresses.. If small-angle boundaries form close
to the crystallization front at a distance close to the size of a block,
2/4
15
OVA
'IL do