SCIENTIFIC ABSTRACT SUKHOMLINOV, A.K. - SUKHOPARA, F.N.
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Collection:
Document Number (FOIA) /ESDN (CREST):
CIA-RDP86-00513R001653820002-4
Release Decision:
RIF
Original Classification:
S
Document Page Count:
100
Document Creation Date:
November 2, 2016
Document Release Date:
July 13, 2001
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2
Case Number:
Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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severe. In tho3e cases in which the change in the velocity of mi-
;rration was less marked, the radiation sickness ptoved to be mill-
der and more free of complications. The intensity of the changes
varied in definite phases which coincided with the phases of ra-
diation sickness. The adsorption curves of the oxyhemoglobin so-
lution, on the other hand, were completely identical in both irra-
diated and control dogs. From these facts the authors conclude
that radiation affects mainly the synthesis of the protein compo-
nent of the hemoglobin r.-,olecule but does not affect the pigment
hem. This conclusion could be confirmed by chromatographic ana-
-lysis which showed significant changes in the amino acid struc-
--ture of the hemoglobiyi molecule after exposure to radiation. There
are 4 figures and 1 table.
Card 2/3
S/858/62/000/001/002/013
D296/D307
AUTHOR6: Sukhomlinov, B. F., Yedkina, V. D. and Yakovenko, A.N.
TITLE': The electrophoretic pattern of serum and liver pro-
teins after exposure to ionizing radiation
6OURCE: LIvov. Univeruytet. Problemna lyaboratoriya radiobio-
lohiyi. Biologicheskoye deystviye radiatsii, no. 1,
1962, 8-25
TEXT: Tile authors investigated by means of electrophoresis the
,:;erum protein fractions, and the soluble proteins of dogs exposed
to radiation. Dogs weighing 8 - 25 kg were exposed to a single dose
of x rays ranging from 600 to 10OOr from a distance of 1 m, at
14r/min. Blood samples were taken under standard conditions-'&.rom
the oaphenous vein. The soluble proteins of the liver were ob-
tained by in vitro perfusion, which yielded a solution containing
up to 4 soluble proteins. The electrophoresis was carried out on
agar ge , with a field of 4 v/cm and current of 18 20 mA, at pH
a.6, on 12 - 15 cm strips. The authors obtained 6 8 fractions
Card 1/3
S/858/62/000/001/002/013
The electrophoretic pattern D296/D307
from the ourum proteins and 10 - 15 fraations from the solulule li-
ver proteins within 3.5 - 4 hours. From the electrophoretic strips
of the serum of healtiiy dogs the authors found 6 - 8 well-sepa-
rated fractiona (albumins, r),- and e)(2-121-9 a2- and ~-globulins.).
1 2
In some cases the 3 1 fraction could be subdivided into 2 1 and 131,
Four days after exposure, marked changes could be observed in the
electrophoretic pattern of the serum protein fractions. The pro-
portion of albumin decreased and that of Ce 2-globulin increased..
These changes were even more marked at the peak of radiation sick-
ness, with an additional increase in the r~3_fraction. At this time
a completely new fraction, the so-called r -fraction appeared, which
X4
according to the authors is a sign of the impending death of the
animal. In those animals which recovered from radiation sickness,
the recovery wa.s preceded by the disappearance of this fraction.
The B,- and 22-fractions usually showed an initial decrease fol-
--lowed by an increase. In the authors' opinion, this increase is
Card 2/3
37907
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S/02 0'
Su'_.:hon-'-,ynov, F, , and V. 71.
.)j,,S4 coclcmj cal and
c--axn-es
n
I. TL E LK
in the rad-J-~1-Aor.
ica. pro-,er-
biochem
sick-qcss Of an ='-Is
ya --Ulz :)o-ovi dJ , no. 5, 1962, 624-626
LL Ul
C~~ec' of on,
-, "1'i be-Im-aer. 8 and 2C.
conclucte:-' wJ th
U v
0 avir -,7,,as caused b- sinr~ie -4--~,iLmdiation wita
J, j
1`0 kw, Carrent 10 mampt fil-
0-1 60~) - '000 Voltage
, istance-fr= body - 100 cr--, dose strenIgIth 10 r/man.
Cu-C'. 5 d n. a to U
e o-ho--e- C -; -,Iva sti m-a-'tions -3f ~'-e he,,,o-iobir. .-iere co-duc-ed
e 0 tr -) ui -L - Z.~ - 0 - -1 4
---.-.o--hod of J. -o,- 71 1 : He -11,
by U :,. niar an,,~,, -7is'her %-I-- . e
1~, 456, 1,958). Chromatw-:~---phic and S-)ectral invest;i.-lations of
_rr4 e~j out. Whereas the hemoglobin of healthy
a So CF
o b n
d,o,~ s a s 1a o. o encous, the irrad-I.,,--ted ',iomo,.-Iobin unde.-aent ~),Iqysico
obin 0
an es. 1-7, 1-. erate of migration of tle -.1he
C-I
C 0 as the --"unction of the des-ee of radiatio-n
'e-,
n e S S "':'e. so U n.- E* that th-e radli,-tion sic',*-Iness involves --.ea-',-,
2
SUKHOMLINOV, B.F.; STRAUTMAN, F.I.
Electrophoretic heterogeneity of hemoglobins of various bird
species. Dop. AN URSR no.9:1196-1199 164. (KIRA 17:11)
1. Llvovskiy gosudarstvennyy universitet. Predstavleno akademikom
AN UkrSSR V.G. Kaslyanenko LKaslianenkop V.H.].
SUKH01,PIIN0vy B.F.; FORHYAK, NJI,
Effect of experimental chronic alcohol intoxication on the electrophoretic
characteristics of wator-soluble prot6ins in the brain of a rabbit. Ukr,
biokhim. zhur. 37 no.3015-323 165. (MIRA 181?)
1. Kafedra biokhirdi T,Ivovskogo ordena Lenina gosudarstve-inogo uni-
7ersiteta.
KLIMOV, A.N.; ~UQMLINOV, F.K.; WdUMEKO, S.V.; SNWIPOV, Ye.A.; AG=', , A.K.
O~cybicillln, a new long-acting penicillin preparation. Ayitibiotiki
5 no.1:14-20 Ja-F 160. (MIRA 13:7)
1. Kafedry biokhimii, khimiiq fannakologii i patologichoskoy anatomii
Voyenno-moditsinskoy ordena Lenina akademii im.'S.I.I.Kirova.
(PENICILLIN)
i~FE, I.S.; LEPOMKIY, A.N.~ BUKHMAN, L.B.
Preparation of q?7propiolactone and its stability in aqueous
solutions and 14 storage. Zhur.priklekhim. 36 no,,3.-629.-632 My 163.
(AURA 16:5)
(Hydracrylic acid)
sulll'.,.~'.'U., ~'T-~Cl,V,, r'. j.-,
kl,alitichcubj~."Ie L., 13.-I-ull. kl;~,-La (:k",
S 0 *. 1:at-he:-2-Lics ir, t,-~e U36F, 17'11 -1~'W
edited by E'urosh, A. G.,
I
I-arkushevich, A. I.,
Paslievsl,iy, P. K.
~bscow-Lcningracl, 11)48
SUKHOKLINOV, G.A.
- - I I - 111011111&~~
Infinity in mathematics. Trudy Yiz-mat.fak-.Kir.un. no.2:3-12
153. (MLRA 10:5)
(Infinite)
FRANKLI, F.I.; SUKHOMLINOV, G.A.; BYKOV, Ya.V., rodaktor; SHREBRYAKOV. V.I.,
tekhnic-M-Wry-Fre-aii-k-tor
[introduction to deformation mechanics] Yvedenie v mekbaniku deformi-
ruemykh tel. Frunze. Kirgizekii gos. univ., 1954. 201 p. (MIRA 10:1)
(Deformations (Mechanics))
SINYUGIN, V.M., gornyy inzh.; USKALOV, K.A., gornyy inzh.; KORSHUNCV, V.D.,
gornyy inzh.; SUKHOW.INOV, go~ryy inzh.
Separate conduction of stoping and development operations. Ugoll
Ukr. 7 no.11:24-25 N 163. (KRA 17:4)
SUKHOMLIN07,.M.M..,inzhener.
1 -
q
Investigation o the stability of long distance telephone cables,
Sbor.LIIZECT no.1519-548156a (MLRA 10:1)
(Telephone cables)
sov/144-59-6-4/15
AUTIHORS: Kalyayev, A-V9 Panov, D.N. and,,~, ULMI~inov' M.M. Candidates
of -TechnicalS nces
TITLE: A Converter ofvontinuous Electrical Quantities Into a
Digital Form
PERIODICAL: Izvestiya vysshil-,h uchebnykh zavedeniy, Elektromekhanika,
1!
1959, Nr 6, Pp '5 - 33 (USSR)
ABSTRACT. The authors describe an anelogue-to-digital converter of
their woni design. The converter is based on the trans-
formation of coi.-itinuous function y(t) into a sequence
of pulses having a frequency f such that f is
proportional-to y(t). It is possible to design digital
integrators and differentiators by employing the same
principle. The basic converter, whose output is given in
the form of a discrete binary code, is illustrated by the
block schematic,of Figure 5. This consists of a detector
P~ i--rhich converts the input function y(t) into its
modulus ly(t)! , a converter of the modulus ly(t) into
a train oi pulses t-7 a reversible counter PC , a'
pulse generator an electronic switch .3P and
a delay circuit The functioning of the device is
Cardl/4 as follows. The converter of y(t) into a train of pulses
sov/i44-59-6-4/15
A Convert,~r of Continuous Electrical Quantities into a Digital Form
System. It is possible, however, to achieve the transformation
if the frequency of the output pulses is made functionally
de7)endent on y(t) , i.e. f = F(y) An integrating circuit
can easily be constructed. For this purpose, it is necessary
to interrupt the line of the delay circuit in Fi.gure 4. In
t-iis case, the reversible counter will contiimously add on
the pulses obtained from the output of the pu-.Lse converter.
This process is equivalent to an approximate integration.
The system of Figure 5 can also be employed as a differen-
tiator, For this purpose, it Is necessary to add a flip-
flop circuit and two switches K, 'which operate in accordance
with the logic sequence indicated in the table in Figure 6.
The most important element of the convex-ter of Figure 5 is
the y(t)-to-f transformer. This can take the form of the
circuit described by V.I. Ryzhov (Ref 1). It in possible,
however, to devise more satisfactory transformers by employj .Lng
an inductively coupled multivibraior (Refs 3-4).
A multivibrator of this type, based on two vacuum tubes, is
shown in Figure 8. Another satisfactory transformer circuit,
Card3/4
SUKHOM~JNUVJ, M.M.; VYKHOVAIIE'TS, V.I.
-'. -, - .1 ~ ~
Converting decimal integers into 'binary in-~egors and binary
fractions into decimAl fractiona. Mit. mod. i elek. tsepi no.l:
238-245 163. (MIRA 16:11)
al -0 0! or the
Aa
1 2
11 C
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~'Ufl Ukr.s,,~.P, (f:)t- lva,:hn!-,,nkr,';.
4197-66__ EWT(I)/EWA(h) ------
5- -TO03TO-035 0037
ACC NRt AP 023274 UR/0302/65TOOO
634.232.45
AUTPOR- Gorban', AJ
V.G.; Forenuts,_N.K.;
TITLE: Magnetostriction delay Ungs
SOURCE: Avtomatika I priborostroyealye, no. 3. 1965. 35-37
TOPIC TAGS: magnetostriction, circuit delay line. ferrowagnetic material, delay circuit
ABSTRACT: Magnetostriction delay lines are based on the fad that ferromagnetic
materials transmit ultrasound with a speed which is lower than the speed of electrical
signals through conventional circuits. lUlnoUtutavtomati]dGosudaretvennogokomitetapo
priborostroyeniyu, aredtavarn avtomatizatail I elateenam upraylemlys pri G*eplane SSSR
Automation. and Control Systems allached to Gosplan SSMQ developed three such delay
lines with delay times of go, 640, and 25W Issec, respeMwely. The block diagram of the
devices Is shown in Fig. I of the Mw4cours. The sound conductor is made of an "N-1. harC
nickel alloy wire 0.7 mm In diameter. DaYotmglsmo&ibolotbotd2l,000-23.000
kg/mm2, specific density in 8.9 g/cm3, ultrasound velocity Is 4,750 - 5.0501Asso, and
the temperature coefficient at delay In 2.4-10-4 per 1C. The article presents the pertinsat
circuit diagrams and a detailed dsscr#d= of Me delay-Has operstica. oriff. arL has:
I formula ind 4 f1gam.
L 4497-66
-ACC N16 AP5023M.
ASSOCIA77ON:
SM)ln7XD: 00 INC14 01 BUB COD74 z V., i rb
NO MY amt m OTHM ON
L 4497-66
ACC N16AP6023274
ut
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FJgure 1. Block diagram o( the mapetostriction delay line - I - Input signal shaper;
2 - muffler; 3 - transmitter magnetostriction converter; 4 - permanent mapets; I
5 - sound duct, 6 - receiver magnetostriction converter; 7 - output signal amplifier;
8 - pulse spreader.
~33
I Cam
ACC NRs AP5028509 SOURCE GODE: UR/0286/65/0W/02Q/0O95/0M
AUTHORS: Sukhomlinov,, M. M.; Felipenko, 11, 1.; Ferenets, N,_Ko; Oni;hchenko,E. L
Shikalov, T. S.; Gorban', A. H.; Sirotyan, V, G
~'V' T 5 - >-.~ --
ORG: none
A-1,
TITLE: A memory device with magnotostrictivo delay lines25~lass 42, No. 175740
Zainnounced, by,'Institute of Automation of the State Committee on Instrument Manufac-
Co tems of Gosplan, SS ZI n x t1fu
avtomatiki gosudarstvennogo komiteta po priborostroyeniyu I sred3tvam avtomatiki I
sistomam upravleniya pri gosplane SSSR)-7
SOURCE: Byulleten' izobreteniy I tovarnykh znakov, no. 20, 19659 95
TOPIC TAW: electromagnetic memory, circuit delay line, storage device
ABSTRAGT: This Author Certificate presents a memory device using magnetostrictive
delay lines. The device contains Input and output converters, regeneration circuits,
and a synchronizing generator. In order to increase reliability, one of the digital
columns of the device in used as the synchronizer. Its regeneration circuit has two
input converters spaced at a distance aqual to a prime Wavelength number (excluding
two) (see Fig. 1). The distance between the input and output converters is not a
multiple of the distance between the input converters.
1/2 UDC: 681.142:621.374.5
, 11 11 i~' ' f U0
U 111LIU,~1 i"'Al k V )i i~kwrt Kj~ryfr~n
ACC-NR, AT6029231 SOURCE CODE: UR/0000/66/000/0001014310152
AUTHOR: Sukhomlinov, K.,,M..; Ferenets, N. K.1 Onishchenko, E. L.; Pelipenko, N. I.;
Shikalov,_V. -S.; Xholmskaya, Ye. V.; Sii;~~an, V. G.; Dodonovap G. M.
ORG: none
TITLE: Digital-analog computer syste using magnetostrictive delay lines
SOURCE: VAMY"Ma
modelirovaniy~~_4th. Kiev, 1954. Vychislitellnaya tekhn
technology in control engineering); trudy konferentsii.
143-152
dam matema
ka v upravienii (Computer
Hosrow, Izd-vo Hauka, 1966,
TOPIC TAGS: digital differential analyzer, circuit delay line, magnetostriction, com-
puter control system Z
ABSTRACT: The authors describe the design and performance of a -digital differential
.g~ using magnetostrictive delay lines as memory elements. The authors claim
that such a memo ry has the advantages of a high speed ferrite core memory and the econ
omy of a magnetic drum. The digital differential analyzer has the following parameter
32 integrators, binary operational code, 20 bit words, 250 KHz cycle rate, 400 opera-
tions per second, and error not qxceedinj 0.01%. The operational program and the ini-
tial conditions are entered manually th~rougn switches on a control console. The data
entry can be manual, using decimal or binary codes, or autm-Latic. The digital
06405-67
ACC NR: AT6029231
differential analyzer consists of a memory, computational unit, control unit, Input aad
output equipment, control console and code converters. Of particular interest is the
design and performance of the memory. The memory uses eight magnetostrictive delay
lines, shown diagrammatically in fig. 1. The lines circulate the initial conditions
data, the program, the increments, the intermediate results, and other information.
The electrical pulses are converted into acoustical signals utilizing the magnetostric-
tive phenomenon. The acoustic material should be a nickel-iron-titanium alloy, which
reduces the temperature effects on the delay time; in the absence of'such material,
nickel wire of medium hardness can be used. The diameter of the wire is very important.
it determines the resolution of the delay line and the magnitude of the output signal.
The thinner the wire, the better the resolution and the lower the output signal. An
optimum diameter for a 250-1000 KHz signal rate is 0.5-0.8 mm. To reduce the reflec-
tion coefficient and physical dimensions, the delay line is formed into a flzt
Archimedes spiral housed in a flat cylindrical enclosure. The performance 6pecifica-
tions for the ultrasonic delay line are as follows: operating frequency 50-1000 KHz,
delay time 800-3000 microseconds, resolution 0.5-2 microseconds, signal-to-noise ratio
greater than 4, and power consumption 1.5 w. The other functionai units of the digit
differential analyzer are described in detail. Block diagmms and performance data a~
given. Orig. art. has: 1 table, 6 formulas,. 4 figures.
Card 9/1
L 06405-67
ACC' NR, AT61
7
4
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Fig. 1. A block diagram of the memory unit
1 - ultrasonic delay line; 2 - the electro-acoustic transducer;
3 - receiving coil; 4 - the input driver; 5 - output amplifier;
6 - dampers; 7 - permanent magnets; 8 pulse stretcher;
B, and D2 - signalgates.
SUB CODE: 09/ SUBM DATE: 12reb66/ ORIG IMF: 005/ OTH REF: 000
L
r
SUKHOMLINOV, O.K. (Sukhomlynov, O.K.); ZHBANOVA, N.M.
Qualitative analysis of ursal. Farmatsev. zhur. 15 no.1:42 160.
(14IRA 14: 5)
1. KharIkovskiy farmatsevticheskiy institut.
(RAMSON)
SUKROMLIHOV, Qaj~*-,[Sukhomlynov.. 0.K.)
Thematic plan for the scier4,ific research activities of
Kharkov Pharmaceutical Institute for 1961-1962. Farmatsev.
zhur. 17 no.1:66-68 162. (MIRA 15:6)
1. Kharikovskiy farmatsevticheakiy institut, rektor
G.P. Pivnenko [Pivnenkol H.P.]
(MU40V-PUM4ACEUTICAL RESURCH)
SUIC"lu"lli'V., 3 G. 1,. 0. :~. j
So---.9 work reoults of the ~;tudent Scientific Scciety of the 'aiarkav
Flmr.%acoutical Institute. Farmatsev. zhur. 18 no.2:86-1,10 163.
1
.qRA 17: 10)
(
1. diarlkovskiy farmatsevticheskiy institut.
KELLER, Aleksandr Aleksndrovich; SUKHOMLINIM, pavel Fedorovich
~ and chemistrYl Neft?, gaz J khirniia.
[petroleum, PE) Ovalk 18:7)
J~Ijoskva., Nedra, 1965. 140 P-
KELLER, A.A.; SqjKF%iL1IIOV, P.F.; VARKORNAIIII, Kh.A., red.;
YE17ISIEROVA, O*M,, ved.red.; BASa:AKOV, G.M., tekhn. red.
[Petroleum and chemistry) Neft' i khimiia. Moskva, Gos-
toptekhizdat, 1962. 78 p. (MIRA 15:4)
(Petroleum chemicals)
ZYAZIKOV, B.Kh., mayor zapasa; GREXHRIKO, V.Ye., polkovnik, red.;
BELYAYEV, poupolkovnik, red.; LUKHGf-:LJJiOV., F.M.,
mayor, red.; GOLUDEV, G.G., po1kovn1i--z`a'pas,,,
P.I., polxovnik 7 oistavke, red.; YABLOKOVA, G.I., red.
[Gold Stars of the Chechen-Inguish A.S.S.R.; sketches on
Heroes of tile Soviet Union] Zolotye zvezdy Checheno-
Ingushetii; ocherki o Geroiakh Sovetskogo Soiuza. GrozUi,
Checheno-Ingushskoe knizhnoe izd-vo, 1964. 310 P.
(MIRA 18:4)
j
SIKWN, A.B.; SMHKO,~H.P.; MALYAROV. F.M.; STRUNCIA,
GRINaRRG, F.G.; PIRIN. I.V:, ksnd.ti~khn.nsuk, retsenzent;
BASXHT3YAIf, A.A., inzh., red.; UVAROVA, A.F., takhn.red.;
GORDEUVA, L.P., takhn.red.
[Testing D 100-type locomotive and marine diesel engines) Ispy-
taniia teplovoznykh i sudovykh dizelei tips D100. Moskva, Goa.
nnuchno-tekhn.izd-vo mashinostroit.lit-ry, 1960. 263 p.
(MIELA 13:12)
(Marina diesel engines--Testing)
(Diesel locomotives--Testing)
S-JKHO.-LL":Uv' R. I.I., Carld. Teoll. Scl. (diss) "Da,iii--~enin..; of '-or-
sio:-.al Osci-lations if, Diesel -En--Jres 'Cas'~ Iror, Cranks'-."'.fts,"
,l u
Kh.arlkov, 19-'l, 16 pp. Miiarlkov Ipst. Railroad Tranep. EnZr.)
160 copies (KL Supp 1-'- ,-61, 27,11).
SUIKHOMLINOV, R.M.
Damping of torque vibrations in diesel engines for locomotives
with cast Iron crankshafts. Trudy KHIIT no.46-.30-42 161.
(MMA 15:12)
1. Zamestitell glavnogo konstruktora Kharlkovskogo zavoda imeni
Malynheva. -
(cranks and crankshafts) (Damping (Mechanics))
VLASENKO, I.P., inzh.; SUKHOMMOV, R.M.,_ inzh.
Study of the stresses in the pistona of the =00 diesel engine.
Teplavoz.i sud,dvige no.3tl38-163 162. (MIRA 16t2)
(Diesel locomotives) (Diesel engines)
I
A,'70i0725 SOUIM~ Ck)D~,":I',-.1/0133/661,'000/010/0002/0004
L' B.; lsaylin;olld, 11. L.;
U k'
~0 'i11nov, G. 7~'.; Titov, A. P.; Sukhorilinov, V.
11. 'N.; Sh 1!dha lova, Ir. ;'. -
All-lunion Scientific Research Institute of Synthetic
V. Lobodev (VororieMirkiy filial Vsosoyuznogo nauchno-issledovatollskogo
il'.~;":iLalt:a 5111teticheskogo Icauchuka); Scicntific Research Institute of Monomers for
~.yat:'-.etlc 2ubber (INauchno-issledovatel'sMy institut monomerov dlya sinLeticheskogo
1