SCIENTIFIC ABSTRACT ROMANOV, L.G. - ROMANOV, M.I.
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CIA-RDP86-00513R001445220012-0
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S
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100
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December 31, 1967
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SCIENTIFIC ABSTRACT
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SOV/124-58-7-7500
Translation from: Referativnyy zhurnal, Mekhanika, 1958, Nr 7, p 26 (USSR)
AUTHORS: Vedrov, V.S., Rornanov, L.G., Surina, V.N.
TITLE: The Aircraft as anOb3'ecto TM~trol (Analog Circuits, for the
Equations of Perturbed Aircraft Motion) [Samolet kak ob"yekt.
reguhrovaniya (strukturnyye skhemy.uravneniy vozmushchen-
nogo dvizheniya samoleta)
PERIODICAL: Tr. M-va aviats. prom-sti SSSR, 1957, Nr 74, 44 pages ill.
ABSTRACT: The methods of the theory of automatic control are used to
investigate an instance of perturbed aircraft motion that is not
far removed from the aircraft's normal steady- state. motion
prior to perturbation. Linearized equations for the.perturbed
motion are examined which are in fact syst.ems,of linearized
fourth-order equations with constant coefficients. In addition,
an investigation is made of nonhomogeneous equations the
right-hand sides of which allow for possible. small deflections
of wing and tail control surfaces cause.d by the pilot. The flight
of an aircraft without an automatic pilot.is analyzed. The paper,
which consists of two sections, deals in the first section with
Card 1/3 the longitudinal perturbations of an aircraft's motion, in the
SOV/124-58-7-7500
The Aircraft as an Object of Control (cont.)
second section with the lateral perturbations. Each section is comprised of
three paragraphs. The first paragraph of each section shows how, analog cir-
cuits for the equations of a perturbed motion (longitudinal or lateral) can be
set up. It turns out that some of the links of the analog circuit form a closed
"stability contour" (i.e., a contour of stabilization), whereas the remaining
links constitute "branches" of the outputs of the various parameters of the
motion, or inputs containing the control- surface deflections ("control links").
The analog circuit for the longitudinal motion is so set up that its stability
contour includes the variations in speed and angle of attack.. The "branches"
include the variations in the pitch attitude, the flight altitude, the slope of
the flight path, and elevator deflection. In the analog circuit for the lateral
motion the stability contour includes the variations in the angle of bank and
yawing velocity. One of the "branches" represents the output of the sideslip
angle. The second paragraph, of either section contains a brief analysis of
the characteristics of the individual links. An account is given of the artipli-
tude-frequency and phase-frequency characteristics of the links makin'g up
the stabilization contour. They are set up to simulate aerodynamic coeffic-
ients that characterize modern subsonic jet aircraft. The relationship of the
characteristics of the links to the flying speed and flight altitude is then ana-
lyzed. In each of the third paragraphs transfer functions are evolved for the
Card 2/3
SOV/124-58-7-7500
The Aircraft as an Object of Control (cont.)
control of an aircraft with tail control surfaces and ailerons. To simplify
analysis of the transfer functions and to enhance clarity, the authors at the
end of each section give approximate simplified theories of the transfer
functions. These theories are based on the fact that in both the longitudinal~
and the lateral motion the frequencies of the individual links are widelysep-
arated from one another on the frequency scale. Inthe first section a theory
is offered for the short-period high-frequency perturbed motion, followed by
a theory of the long-period perturbed motion. In the second section, trans._
fer functions are obtained for three distinct types of perturbed motion, con-
sidered separately: a slow spiral motion, a rapid oscillatory motion (with
the use of the rudder control only), and a fast rolling motion (with control by
the ailerons only),
L.V. Klimenko
1. Aircraft--Control systems 2. Airplanes--Performance 3. Mathematics--Applications'
4. Control systems--Theory
Card 3/3
F
R
OMANOV, _L.-G.; PONONAREV, V.D.
Effect of protective additions on the stability of aluminate solu-
tions in the presence of solid phases. Izv-MX Kazakh. SSR. -Ser.
met., obog. i ogneup. no.3:59-65 '61. (1-URA 1--5:1)
(Aluminates) (Hydrometallurey)
Ila I ine, h.-,'d rcal-'rUiriosili na s I ormed -if~ 5 ill"Cat Or., L"tp
2hur. prJlrl. 'hi-m. 37
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-a
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of the interiiction of the wns~,'-Ib 1.e fc-,=. of sodiun,
al-ilmirio,3Jlicate hydrate wit'n alkali and abimirate solutions.
w. vys. ucheb. zav.; tsve'.. met. 8 no.3.,r2-57 165.
(MI RA 8
n t u t. rrd.allurgi.- i oba4!ashcIvenlya A"i Kavix-IiAcy SSR.
Perlkomendovanai kc-fedroy ]-,~;Ykikh rfAki?h -netftllov Kazakhskogo
~ -I
-,J_t-)V 7__
Compounds containing, a. threa-inerfibered iizide ring.
U SS
R IV. ReactionofoXdWensulfid gien of I-methyt-l-,
_ Pthylathylene ', Jena 1-methyl-I n Jena.. - ,V. P.
NUirtvita mid L Af. Rtsimumv(A. 4; zhilmolv$tate T1t1jv;,*
Lculngrad), MWIMT10WAR KNin, Z,~ 117T-7)
(1053), Cf. C"I. 49. U97b.-,Thc crade chlorohydrin from':
ClCIfsAc and PhlfgBr yieltlLd with powd, KOII 60% a.,
nictitylstyreac oxide (1). b. 74-5*. _ This (15 j.) was added
over 2 lirs. to, 10 g. Ba(011)3 W-75 int. 76% EtOH which:.
had bech mitil. *fill 11,S, Lbe mixt. tic2led 1.5 his. witli, j
If-A (tie Ba~rcmdrcd.%vith CO,. the ppt. iru9hcd_.,AIIW
L~t()11, the combisted filtrate freed of Etof t
1. aft
layer distil., giving .17% JfcPhC(OH)C11$Sff_ 0
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Id d th H
il~,' 1.11118; t12,4, L567, which with HgO pe a e. g.
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ROMANOV, L. 1"I
V.Rta'ctivity of frle lad, i ana the al 'f 'Ic
C r r 16-0
wy 1r
~
B. A. Do I -
In
a ry Kh I-xinfliks. jvatll~/ S
pro
'
Wel Khim.
os.b o hdif.- jWak S.S..~.R.
A
'
Ivauk 1955, 8 -The yields;of l(.11 and
ItIt Ii; radicul
reactions of RN:NNUPh in Iso-PrPh or cycloitexane indi.
Cate the order of descending radical reitetivity as INII., Pit- -
Cell,, Etj Pr. Bu. h1cCCN, iso~Pr, sce-Bu.'allyl, NleCH:-'
CHCHs, PhCH,. and AfftC.-. -A. similar series Is obtained
-of Ith radicals
in the yield of final liroducts in teuciWas ese
with beniene SoIns. of rubber, or hi therinid treatment of
rubber in4ulcanization. The liollowhij yields of tridunen-
sional vulca izate were obtained with: dibiplienyltriazene
76-AJO%; diazoaminobcnzene'65-840/0,~ inethyipbenyltri-
'azene J3-44%; isopropylbenzene hydroperaxide IS-2M.
1
i
~
i
a,~ene,
17.1,0211-60%. Benzylplienyttria
etie,allyllihe
yltr
G.- M. Kosulap
zuyl buqlp~enyltriazene gave Ov .ff
TTT
63. Formuon of Free PtsdicMg b:r the DecomDosition of TrIA34926 Znvw-
tignted
"The Reactions of Free Radicals in Solution; Thermai Decom-
position of Triazenes,in Different Media," by L. M. Romanov,
Ins itute of HiKb--
B. A. Dolgoplosk, and B. L. Yerusalimokiy, Ins
Molecular Compounds, Academy of Sciences USSR, Doklady Aka-
demii Nauk SSSR, Vol 112, No 4, 1 Feb 57, PP 703-705
Itis pointed out that a considerable amount of research is being
done at present- on the kinetics of the 'decomposition of various
Compounds wnien are capable.of scrving-as sources of free radicals., and
that in this work the formtion of radicals from organic peroxides and
hydroperoxides receives particular attention (several US references to
research of this type are given). Work by Kh. S. Bagdasarlym wd R. 1.
KilyutinstaA to the effect that benzoyl peroxide decomposes by a ebaln
mechanism at sufficiently bigb concentrations is mentioned.
On the exmple of ethylpbenyltrlazeDe and propy1pb*ny1tr1&mzw It
vas shown that as the concentration of the triazene Jr) a solution In-
creases, the velocity constant of the decomposition of the triazene
(i.e., of radical formation from the triazene) also increases. This
indicates that decomposition by a chain mechanism takes place. The ve-
locity of decompositionvas determined on the basis of gas evolution
from the solution. The chain character of the decomposition of triazones
at high concentrations was confirmed by the fact that this vel-nettv Is
abarply reduced when sulfur has been added: as established by M. P..
Tikhomolova and others, sulfur is an effective acceptor of radicals.
Experiments with methylphenyltriazene, benzylphenyltriazene, and
hexylphenyltriazene were also conducted. All triazenes were synthesized
by reacting phenyl azide with the appropriate magnesium bromide derive-
tives. The decomposition of1the triazenes was carried out in an atmos-
pbere of nitrogen by a method described earlier (cf. B. A. Dolgoplosk,
B.. L. Yerusalimskiy, V. A. Kroll, and L. M. Romanov, Zhurnal Obahchey
Mdnii Vol 24, P 1TT5, 1954). (U)
AUTHORS
TITLE
PERIODICAL
ABSTRACT
Dolgoplosk, B.A. Romanov L.M., Ln-4-27/6o
Yerusalimskiy, B.L. anT Bogomollnyy, V.Ya.
The Use of Catalysts based on Magnesium Ba-logen Alkyls
and Titanium Tetrachloride in the Production of Amorphous
and Crystalline, Polymers f rom a-Olef ins - Odd Dienes
(Katalizatory na osnove magniygaloo~enalkilov i ehetyrekh-
khloristogo titans, dlya sinteza amorfnykh i kristalliches-,
kikh polimerov iz a-olefinoy i dienov.)
Doklady Akademii NaukSSSR, 1957, Vol. 115, Nr 4,
pp. 731-733 (USSR)
The production of polymers from aliphatic compounds of the
,ethylene series on the basis of polymerization by free
radicals is only possible for the first representative
of this series, namely ethylene. The interaction of the
free radicals with the ethylene homologues leads to the
formation of low-molecular products due to the rupture
reactions in the first stages of the process. ZieEler
and his collaborators used the reaction between organo-
aluminum compounds and titanium tetrachloride for
initiating the ethylene polymerization. Further in-
vestigations in this field furnished the possibilities
of initiating the olefin polymerization under formation
2o-4-27/6o
The Use of Catalysts based on Matnesium Halogen Alkyls and Titanium
Tetrachloride in the Production of Amorphous and Crystalline Polymers
from a-Olefins. and Dlenes
of homogeneously built (isotactic) polymers. Later on
organo-alusinum compounds could be replaced by other
organometallic derivatives, especially by,sodium and
lithium compounds. The mechanism of these reactions can
for the time being not be considered as established. The
reaction between the components of the Zieglcr reaction
has an oxidizing-reducing character and leads to, the
formation of titanium derivatives of low valence degrees.
Ethane and ethylene develop as by-products in the case
of triethylaluminum. Kondyrev and Fomina proved that the
reaction between magnesium halogen alkyls and the salts
of various metals (Fe, Cu, Co, Ni, Or, Mo) leads to the
fo--mation of:
&) equivalent quantities of a saturated and an unsaturated
hydrocarbon which correspond to the alkyl of the oragno-
maz,nesium compound, and
b) of reduced forms of heavy metals. The effectiveness of
the system R - MgHal - TiCl 4in the initiation of the
polymerization was proved by the authors in the case of
ethylene, propylene, styrene and isoprene. The former
CARD 2/4 polymerizes at once without pressure or heating from out-
20-4-27/6o
The Use of Catalysts based on Magnesium Haloeen Alkyls and Titanium
Tetrachloride in the Production of Amorphous and Crystalline Polymers
from a-Olefins and Dlenes
seide. The thus obtained polyethylene possesses M/ 2,55.
melting point 130 - I'360C, ultimate strength 335 giCM2
and relative extension 7,70 ~. These indices are analogous
to those of polyethylene which is ohtained by means of
the ordinary Zie,.-ler catalyst. Of great interest are data
which were obtained by the authors from the polymerization,
of propylene. It -"as proved by the authors that on this
occasion in the presence of iagnesium chloroethyl and
tetraclilorotitanium about the same quantities of an
amorphous and a crystalline (isotactic) polymer-form
de-,relop. At the same time a fraction was isolated which
is insoluble in boiling hexane and whose crystallizability
was spectroscopically and X-ray structurally proved.,In
the case of the polymerization of isoprene various polymer
forms were also isolated. The simultaneous production of
cis-1,4-polyisoprene and trans-1,4-polyisoprene or of
the amorphous and the isotactic polyisoprene directly
'prove that in the system coexist various catalytic
20-4-27/6o
The Use of Catalysts based on Magnesium HaloCen Alkyls and Titanium
Tetrachloride in the Production of Amorphous and Crystalline Polymers
from a-Cle'lins and Dienes
complexes of different types "hich lead to the formation
of a polymer structure characteristic of a certain
complex. An experimental part with the usual data follows.,
There are 2 Slavic references.
ASSOCIATION: Institute for High-Molecular Compounds AN USSR.
(Institut vysokomolekulyarnykh soyedinenty Akademii nauk
SSSR)
PRESENTED, By I.N. Nazarov, Academiciar, April 25, 1957
SU311ITTED: March 22, 1957.
AVAILABLE: Library of Congress.
CARD 4/4
L.P.; KORSAKOV, V.S.; RaIANOV, L.I.I.; YENIKOLOPYAN, N.S.
BOBKOVA-1
Polymerization of formaldehyde. Fart 5: Effect of water,
methyl alcohol, acetic acid, and acetic anhydride on the
polymerization of formaldehyde in solutions. Vysokom. soed.
5 no.12:1780--1784 D 163. (MIRA 17:1)
1. Inatitut khimicheskuy fiziki AN SSSR.
B
IQ-
L 25028-6'5 EWT(1)/FCC GW
ACCESSION NR: AP5001953 S/0049/64/000/012/1849/1858
46
AUT11OR: Marchuk, G. I.;,Kurbatkin, G. P.; Kalenkovich, Ye. Ye.; Panchuk. V. I..
Rivin, G. S.; Romanov, L. N.
TITLE: Solving the system of equations for short-term weather forecastsvII)
;2
SOURCE: AN SSSR. Izveatiya. Seriya geofLzicheskaya, no. 12, 1964, 1549-1858
TOPIC TAGS: atmospheric process, wind velocity, adiabatic approximation,
quaststatic condition, geopotential, Eular equation, Isobaric surface, Inter-
polation, quasigeostrophy, linear factorization, weather forecasting
ABSTRACT: This study deals with the solution of a complete system of equations
for'-short-range weather forecasting in an adiabatic approximation, taking the
quasi-static conditions of notion into account. Under consideration is a 10-1*vel
model of a baroclinic atmosphere based on the utilization of the main differences
between all the geometrical variables. This problem to solved In 'two successive
stages. In the first stage, the geopotential in the period of time under con-,
sideration is determined by the vector of the wind velocity and the geopotentiol,
in the second stage the geopotential found In the first stage is used for do-
termining the vector component of the'vind velocity by meow of Igular squatiorA.
coid 1/2
L 25028-65
ACCESSION WR: AP5001953
An essential feature of the newly developed algorithm is that the solution to p
the equation for the geopotentLal is found by a method consisting of a combin-
ation of linear factorization and relaxation. . The construction of the mentioned
i baroclinic model of the atmosphere to based on the assumption that the atmospheric
processes in it are both adiabatic and quasi-static. Orig. art. has: 16 formulae
and 3 figures.
ASSOCIATION:' Vychislitel'My teentr, Sibirskoys Otdeleniye,Akedmiya Mauk SSSR
(Computer center- Siberian branch, Acad!M of sciences, SSJ
suaKiTrED: o4jui64 9MCLt 00 SUN Cost Us DIP
NO. R" SOVI 006 003,
.Card 2/2
28195
S/194/61/000/005/010/078
D201/0303,
AUTHORS., Gorin, A.V., Grosman, V.A., Drapchinskiyv L.V.1
Rayevskiy, B.N., Romanov, L.P., Storozhenko, E.P.,
Fedorov, Yu.P. , Sriav-Hn, G-.'n. and Shamov, V.P..
TITLE,-. A mobile radiometric emergency laboratory using
semiconductor devices
PERIODICAL- Referativnyy zhurnal. Avtomatika i radioelektronika,
no. 5, 1961, 31-32, abstract 5 A235 (Dokl. nauchn.
konferentsii in-ta radiats. gigiyeny po itogan rab-
oty za 1959, g., L., 1960, 18-19)
TEXT: A description is given of a complete mobile laboratory,
mounted. on the automobile Y1%3 -450 A (UAZ-450 A) and which is to be
used for detecting radioactive isotope contamination of certain
areas or of separate objects. The laboratory equipment consists
of the following: 1) automatic recorder of the level of T -back-
ground from 10 to 105 microcurie/hr (QPr-,'JI-C.-5)(IRG-PGS-5)); 2) 2.
Card l/2
28195
S/194/61/000/005/010/078
A mobile radiometric emergency... D201/D303
calculating machines ((wPr_V,_q-l00)(IRG-PP_l00)); 3) supplies 200-
2000 V; 4) head screening (thickness 40 mm) for counters CTC-5 (STS-
5) in cassettes or for the end,-counter, 5) rate counter mprlwn-i
(IRG-IP-1) with countingrate up to 106 pulses/min; 6) beta-ganma
portable scintillating radiometer with V-25 (FEU-25) lip[--f7p-2
(IRG-PR-2). Power for the whole installation is supplied by the
automobile battery.. Power comsumption - 15 watt. The laboratory
personnel consists of three operators and driver. Z7Abstracter's
note. Complete translation-7
Card 2/2
853h5
S/120/60/000/005/013/051
9192/2382
'AUTHORS: Rayevskly, B.N Roti-anov, L.R. and Shamov, V.P.
TITLE, A Counting DecadAZaZsei'~on Traniistors
.PERIODICAL- Pribory i tekhnika eksperimenta,,1966, No. 5,
pp. 62 - 64
TEXT, A detailed circuit diagram of the device is shown in
Fig~ I The decade. consiet-.~of four bistable circuits and,
a diode reset key. The b1stable circu1lts.ard based on tran-
sistors type T114 (P14). The circuits are reset to zero by
momentarily applying the supply volt4q~e to the collector of
the lefthand-mi:de transistor via a dTode. Unlike in the
standard decade circuits, a direct fe*edback is provided,from
the output of the bistable circuit TI to the input of the
and
,circuit T4 and by providing a diode key between T
T The decade operates as follows. Normally,.all the
2
bistable circuits are in their rest position. whichis
characterised by the lefihand-side transistor b.eing,closed
and the righthand-side transistor conducting. A voltage of
Card 1/3
853h5
S/12o/6o/000/005/013/051
E192/E382
~A Counting Decade Based on Transistors
-10 V is applied to the,key diode from th- collectorof the
lefthand-side transistor of T4 The divider R,O and RJL
keeps the anode potential of this diode at -8V-, consequently,
the diode is conducting. Thus, the key transmits positive
pulses to the input of T 2 The pulses appearing at the,
second input of T, cannot operate it sin-~,e its righthand-.
side transistor is open, The eighth pulse triggers T
4
so that its lefthand-side transistor becomes conducting and
the righthand-side tnansistor is closed. The voltage at the
key diode will thus be in~creased to -1.5 V and the key becomes
nonconduct~.ng to positive pulses. The ninth pulse changes
the s'tate of T while the tenth pulse returns T and T
to their rest position. The decade now produces a positive
output pulseand returns it to its original,state., , The
resolving time of the decade is 7 14s and the power,consumed
by it is 0.15 W. The decade was constructed as a plug-in unit,
Card 2/3
85345
01B
4 IIAO IIIII 19b it a a is is is V is a 9 is M
IL
s C A' 4 it A-A-4- L-L-M M-WARK
1.0,91rlow-
X A AL al. a Al ad 41
~ - I - - - ---
r
621.310.13 621.3.013.82 82 14U
Uothods of accelerating the rate of excitation of elect*&&Ie machinGOV
00 1oqwy#_L AA, Bull. Acad. Sol., M=" I ID02 * Tech. Sol., Yos. 4-5, pp.
00 239-256, 19". - For=ulao are developed for calculating the
0 Is
ragnotizing quantities governing the operation of electric mtors, for
the urpose of considering applications for opeading the reaction of Ole-
ctric power driven In industrial processes. The formulas are confirmed
by oacillograms o6tained experimentally. A nu;zbor of systans for
go achoivaing accelerated reaction are considered and analysed nathenstIcall
1:ethods emplcyire rt!s1storc and Increased voltares are favoured for
hoavy industrial Iower drives. A*
ASO.SLA .11ALLUVOIC.L. LITEIVAILME CLASUPICATICIO
.101~ I low 40"W*-
;I;- - - T_ All .4 t. alkill OR a.- All
U III AV -0 Is. _.i -r-
M k a 1 9 Al 0
w
0 'a 0 0 41 a 0 ; a o a Is a 0 a a 0 a a a 0 a a a el o q o q o 0 0 0-0 0 4
0~15 : . : : : "0" 0 0 00 0 0 go 0 see swi 0 0 G 16 00 " 00 as 0 0 0 *1* o 0 0 Is 0 4
0
see
4640
A 0
too
too
KOBUlaiSHVILI, Sh.: R014JLNOV, M.; RUTENBERG, it.; KHILCIIATITROV, A.
Hors attention to the quick freezing of food products [With
summar-y In Finglishl. Khol.-teldi. 315 no.6:4-9 11-D 158.1
(MIRA 22:1)
1. Vaesoyuzn-.rj nauchno-issledovatel'skiy institut kholodil'noy
promyshlannosti.
(Foocl, Frozen) (Refriperation and refrip
,erating machinery
Vatorin,rian
Zlo~tonal 'Iatnrln~y Zuboratorr (Lubor~tomll V,.erinar
?-bl -~ 7,otrhn!- 31 'to t~rinrrn $ ;o ~un I i~l
~p
-f to re Dc I
%bor- ion in Sow3 with ~6no
C
Ll:z K. -Dr.- Horlonal Uterinary, Laboraw.7 itor~.
~*OLOCHKOV, M., polkovnik-; KUZ'MRHKO, K.- general-mayor tankovykh voyak;
DVORTSOV, F.. oodpolkovnik; KOVALIV, F., podpolkovaik; KOLESNIKOV, I.,
gvardii genera 1-mayorLg~OV~., polkovnik; MINOVSKIT. V.,
polkovnik; BOZHKO, L. podpolkovnik: PATLOVICH. A., podpolkovnik
We discuss projects of new general Army regulations. Toen. vept.
38 no. 8:2-10 Ag '58. (MIRA 11:7)
(Russia-Army--Regulations)
Inzliezier.
METEVA, Ia.; VASILEVA, T.-, ROMANOV, M!; RALCHEVA, A.; MIWSHEVA, 3.
Spidemic of serous meningitis and similar disease. Suvrem.
med., Sofia 6 no.11:46-51 1955.
1. Iz I detska gradska bolnitsa, Sofiia. nauchen rukov6dital:
Prof. Br. Ts. Bratanov.
(MUNINGITIS, epidemiology,
serous, epidemic outbreak in Bulgaria. (Bul))
KOMISARP Mikhail Illich; KOMAROV, A.A., inzh., ROMANOV
J~~.
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