SCIENTIFIC ABSTRACT KALUGIN, B.F. - KALUGIN, V.F.
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CIA-RDP86-00513R000620210014-5
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RIF
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S
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100
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August 31, 2001
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Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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REV--- III [I 1111MIP411111 HM 1111ilft iql IM,
L 34373.66
ACC NR- AP6008001
by employing the heating of a metal specimen directly by means of a commerclany pure
current flowing through it. The line diagram of the device used is shown (Fig. 1).
Special control experiments showed that Inside of a 10 min period of treatment, a practic-
ally stable temperature distribution is established along the length of the specimen. As
an example, the authors provide a table (Table 1) for the values of the modulus of normal
elasticity E, the shear modulus G,, and Poisson coefficient 6 for molybdenum at different
temperatures. The last column in the table gives the modulus of elasticity available in
the literature G. Jazinski
-Y. Struktura i svoystva. metallov I splavov pri vysokikh
temperaturakh, M. , Mashgiz, 1963). Orig. art. has: 1 figure and I table.
SUB CODE: 11, 20 SUBM'DATE: IOApr65 ORM REF; 002
Card 2/4
L 34373-66
ACC NR: AP6008001
13
Plitaolt
Card 3/4
tA
L 34373-66
ACC NR: AP6008001
TABLE 1. Coefficients for molybdenum.
Card 4/4
.7-S E,kaft/mm r7 ,KGR/MM E
XGR
MM
/
,
3w 33 20D 12700 0.31 33250.
500 32 ODO 12200 041 32080
70D 30800 11700% 0415.- 31650
900 30100 It 400 0.315 30500
'HOD 28550 0820 0418 29 DDO
'13M 27 700 IONO 0.32 28100
1500 28500 WOOD 0!32 27000
170D 25800 9750 0.325 - -
f900 25 ODO 9400 0.327,
MOD 22 9W 860D 0.33
230D 22 ODD 8M .0.33
25M 20000. 7500 .01335
2700-
f7 550
6550 .
Oj34
KALUGIN, B. F.
Kalugin, B. F.; T. S. KuMma; and A. A. Dmitriyev. Methods of
Titanium-base Alloy Sheet Rolling P-56
Pressure Treatment o:r 6UMAII Collection of Articles, Moscowt Oborongiz, 1958, 3.41pp.
KALUGIN, B.F. .
Ekperimental study of the process of transporting solid particles
ifi an air' flow, Inzh,-fiz. zhurs 4 no-4:120-122 Ap 161,
(MIRA 14:5)
I* Politekhnioheskiy inBtitut, go Tomsko
(Pipeline transportation of solids)
KALUGIN, D.F.
Loss.of head due to the impinge~e'nt of particles against the walls
in pnewatio transportation through horizontal pipes. Inzh.fiz.
zhur. 4 no.7:40-46 JI 161. (NM 14:8)
1. PoliteWmIcheskiy instituts Tomsk.
. I(Pnematic-tuba transportation)
YALUGINI B.F.
VI - -- - -.". , -. -
Wculation of relative velocities of particles during pn9umatic
transportation along horizontal pipes. Inzh.-fiz.zhur. no.5:82-88
MY 162. 1, (MRA 15:7)
1. Politekhnicheskiy institut imeni S.M. Kirova,, Tomsk,
(Pneumatic conveying)
80,5) 1 am
Nos"w. ATI&teie=77 inscitut
Zskotory" voprosy tooril rsbot7 aviatsiconjith eLektrichookikh
0Shia; abormir statey (Some Problems In the Theory of C"ratlc=
a
f Air.'raft Electric Vachinin; Collection of Articles)
Oz.. Siz. IVA. 125 p. (Serloss Itas Trudy, ryp. 110) 3
copies printed. I
Cf Publishing House:
Xd.: A. X. Rartln*v, Professor; Zd
,.
E. 1; mrigc=h; To=. =.I V. Roshl"; ftnazing -114.1
A. S. Zaymovskays, Znglz-r.
PURZMs This book Is Intended for *nglneorlig and 'technical work-
*.-a &=d students taking advanced courses In electrical =clxlra
construction-
COTMA03i The book contains several articles an the theory rnd 4*-
sign of special electrical machines, such ass thrqe-vInd1r:_
bllat*ral food trazzlorpqrs (Ph3se induct'.an
Soto lated farrozagnAtIc rotor, ohield'*S
--
motors
with coppor-plated f#rrozagnotic rotor and g*ne.*4
*I4Ctr1d&2 machine* for aircraft. In addition, systezz f~z
stabIllsation of the freq"ncy or aircrart in rtW2
"a
b
Converters and t
Mir protection are' studied. A VlrTortill-,r
wify Of speed regulation of Induction motors Is also
References are give" after each article.
Card*dato of Technical 3cionces. Speed
;
t-.D
motor, in a System of z1oct-Ic sbafts
Tho article is divided Into the following soctIonst
Introduction 64
3yetes of syn hronous shaft with wido-rangs of ap4"
i
regulation -5
66
A_JUxrjr4r~ Cand1ldated of Technical
3_
_.
or rrvquency or Inverted sy,2ch"nous
Converters T7
The article to divued Inco the following sectional
Introdu,,tion 77
Inverted synchronous couvorters of the fIrvt group with
f1412UMnc7-stabiILzst1oa acturacy Ilse thzn ;*r_-ent
Inverted synchronons convor-ars of the accord group WI-12
rroquency-O tabilizat Ion accuracy of :t 2 to 0.5 ;qrc~rt 85
lmvsrt*d BjnchroncV3 Converters of the tblrd gr1jup -th
rroQue4cy-stabIllZatlan accuracy of 1 0.5 to 0.05 Nrcon'
and higher 103
Conclusions 109
Moln, V 3 Zngineer Protection and Control CIrcults of
_XM~~orted S
n;bx-onous Converters
y
Protecting an Inverted eynchronous convenor against
'real ng
Prot acting A GlAgle-phase Inverted o7ncr~ronous convortev
from short-circuit Ing and breaks 125
P"tactIng a 3-Phans Inverted synchronous converter from
.short-circuiting and breaks 116
ATMLABLIts Library of Congress
Card 5/~i AC/os
3AM/60
I
1012
S111116 ( 00100210021002
Oy
~"~04jpL') 13&'62~ 14211 IIS9) B01 2/BO54
AUTHORS: Nemirovskiy, B. M., Senior Engineer, and.Kaluaj,n_jj",,
Senior Engineer
TITLEs Emergenoy Modulator of a Television Transmitter
PERIODICALt Vestnik avyazi, 1960, Wo. 2 (239), pp. 29-30
TEXT: The emergency modulator for the standard TV transmitter, installed
at the Minskiy teletsentr (Minsk Television Center) with a power of 5 kw
at peak operation, was constructed In the form of a support with de-
tachable blocks. This modulator, which is 2010 mm high, 760 mm, long, and
960 mm deep, is half the size of the standard modulator. The emergency
moAulator isp like the working modulatorp a three-stage broad-band
amplifier with a correction in the low and high-frequency range. The
blocks of the first, second, and third stage are, analogous to those of the
working modulator, and are therefore exchangeable with the latter. Es-
sential chaTacteristice of the emergency modulator are a well-planned
distribution of the blocks of the third stage and the selenium rectifier
of the modulator which made it possible to pass over from forced to natural
Card 1/3
Emergency Modulator of a Television S/1.1 1/680'7ip)(0202(0/002/002/902
Transmitter B012/BO54
cooling. In contrast.to the working modulator which receives the dis-
placement voltage fTom the TV transmitterv the emergency modulator has
its owil 150 vb1as rectifier with full-wave circuit which makes the feed-
ing of the emergency modulator independent of the TV transmitter. In con-
trast to the dtandard modulator with two large outside chokes, the
emergency modulator is equipped with small chokes which are located in the
BUPPOrt. In the course of an experiment, the separating transformer was
omitted, while the transformer core was earthed by the non-earthed bias
rectifier. It appeared that the frequency characteristic of the TV trans-
mitter with modulator remained unchanged. Omiseion of the separating
transformer, howeverv led to a further reduction of the support dimensions.
In tuning, it proved to be difficult to tune the output cable of the
emergency modulator to the fifth TV transmitte= stage to be modulated.
This disadvantage was eliminated by means of an RC circuit chosen by way
of experiment and shovn in Fig- 4*. The frequency characteristic of the
modulator was considerably improved in various places by shortening the
output cable as much as possible and by careful earthirg of the cable
shield, A fatigue test of the emergency modulator described proved its
absolute utility in operation.
Card 2/3
RUBMIKI,V.0,; '.KORNJ;YCHIKj Zh,N,;IMEL'NINy A.F.; SOLONINOVA, -131.;
TKACMMKO, V.S.; BESXHKN(YVp
2REWNRINA, T.A.;_LA
P.P.; PROTASOV; A.N.j FARAVYANI A.V,j doktor biols nauk, OtV6
red.
[List of trees and shrubs recommended for landscaping in
populated places of Kazakhstan) Spisok derevIev i kustarni-
kov rekomenduenykh dlIa ozelenetiia naselem3ykh punktov Ka-
zakLtana. Alma-Ata, izd-vo AN KazSSR, 1963. 85 P.
(MIRA 17:3)
1. Akademiya nauk Kazakhskoy SSR. Institut botaniki. 2. Glav-
noye upravleniya lesnogo khozyaystva i okhrarq less Soveta
Ministrov Kazakhskoy SSR (for Tkachenko). 3. Kazakhskiy
sellskokhozyaystvennyy institut (for Besschetno,~, Protasov).
KALIJGINP B.S.; KNOm, G.H.
Remats of the inVbduotion of trees and shrubs in the
Karaganda Botanioal Garden. Trudy Instbot,AN Kazakh,SSR
14s3-49 1620 (MIRA 16:4)
(KarIganda-Woody plants)
~AALUGINp 8-,S.
---.- ,-o - 1 -w
Conifers'4dtable-for thf.lA~scaping of cities in the Karaganda
.1 .
induAriAl region.. Tkud.V'~i~st.bot.AN Kaz'akh.SSR 17:3-17 163.
(MIRA 17:3)
1 lu; .,z. mlw
TIUSPOL!&j1r., losif Grigorlyevi6h;
F.H., red,'; D1ZWRg.LRs, red.jzdva; IJLVMOVA, N.B., tekhn. red.
[Wficiency experts and innovators at the No.1 Odessa Ship Repair-
Inc Plant] Phtsionalizatory I novatory Odeaskoio sudoremontnoge
moda no'l MAY&, Isd-vo "Norokot transport," 1958. 59 V~
jilpe-Maintennoe and repair) (NM 11,17)
K /) f1lu ~'- - /~j)11-111,
PATOR, Ye.O., proy sotsialisticheskop tr-Aa; BARMANICH. L., re&aktor;
XAIUGIIT, I., redaktor; XUAMMICH, 0#, teklmicheskly redaktor.
-...awww"WIM ow,
[Memoirs; as told to IUrii Bariakovskii] Vospominaniia;literaturnaia
supis' IUriia Buriakovskogo. Kyiv, Derzh. vyd-vo khudozh. lit-ry,
1955. 321 P. (MIRA 8:10)
(Paton, Evgenii Oskarovlch . 1870-1953)
Principal data on the Permian and Mesozoic stratigraphy of the
western part of the Okhotsk-Kolyma water parting area Lwith summarr
in English]. Sov. geol. 2 no.2:48-67 F '59. (MIRA 12:5)
l*-Verkhne-Xolymskxye geologorazvedochnoye upravleni7e.
(Kolyme. Valley--Geology, Stratigralihic)
GITLIN, N.H., kand.tokhn.nauk; KALUGIN, K.P.
Selecting an efficient design of the gasoline booster pump
for Wtor vehicles. Avt,prom. 28 no.1:21-23 Ja 162. (HIM 15:2)
1. Mantralinn nauchno-issledovatel'skiy i konstruktorskiy
institut toplivnoy apparatury avtotraktorrqkh i statsionarnykh
dvigatoley,
(Fuel pumps)
SOVI'112-59-3-5331
Translation from: Referativnyy zhurnal. Elektrotekhnika, 1959, Nr 3, p 148 (USSR)
AUTHOIBI,: Shtukkenberg, Yu..M.,,, Kalagin 'K. S., and Bobkov, A. I.
TITLE: Electric Precipitator for Deter'mi Tig-Cmtentration of Active Aerosols
(Ele~,,rofilltr dlya opredeleniya kontsentrataii aktivnykh aerozoley)
PERIODICAL: V sb.: Issled. v obl. dozimetri;. ioniziruyushchikh izlucheaiy. M. ,
AN SSSR, 1957, pp 132-153
ABSTRACT: Measurement of active-aerosol concentration in air is conventionally
performed by pumping air through a paper filter and by subsequently
deternaining its activity. The fundamental disadvantages of this method are.
(1) low speed of pumping resulting in a long measurement time (particularly
'with small concentrations when this time is as long as several hours); (2) self -
absorption of the radiation in paper; (3) low accuracy of measurement due to
the fact that the filter traps different-size particles differently. Design of an
electric precipitator is described which is based on the corona discharge and
Card 1/2
SOV/112-59-3-5331
Electric Precipitator for Determining Concentration of Active Aerosols
which is freo from the above disadvantages. Aerosols charged in the corona
region ate deposited on a detachable target wIL-ch has a reverse-sign potential;
then, the target activity is measured. A simplified theory of such a
precipitator is. examined. Experiments have shown that various sizes of
aerosols are effectively deposited on the precipitator target; the efficiency,
i. e. , the ratio of the number of deposited aerosols to the total number of
aerosols antering the precipitator, amounts to a few dozens per cent and little
depends on the aerosol size.
L. V. M.
Card 2/2
rR= I WAN zXrWITATXON SOV/129T
Tsesnuarmys asuahno-tokhnishookays konforentsiya po rr!=r-*nIrw
rodLoaktIvalth I stabWafth izatupow I isluchtniy, v narcdw=
kboxyayntve I Banks. ftedow, 1957
Foluabonlys lxotepm . Noshchayya gasma-motanoviii. Radlometriya
I do*U*trl"l trUdy kaftforentall ... (Isotope Production.
MIgh-onergy Ca~-Radistigm pacilitles. Rmdl*=*Vry sod Dool-
;:tryl TrOu"Otlons of the All-Union Conference an the Use Of
digestive *ad Stable isotopes and Radiation In the Rational
X$0111100W WW Science) Macaw, 134-70 AN 3=. 1958. en v.
5.OW copies printed.
8poax4wLng L61111107% nauk 3=1 02ATIWYO uprovIiialre PQ
iSPol'zo?--:;jyu- - atoway onersil 33--m.
IdIturtal Mardi Frotow, Yu.S. (Reap. 2d.). Zhavorankov, X.A.
(Deputy Reap. Xd. , ACILntsev, K.K., Alaksoyov, B.A., boctkarav,
T.T., Lvahohlnskly, X.I., Nalkow. T.P.. Slnztsyn, V.I., and
?"ov , 4.16. (3ocrut4ry); Totk. Xd.z NovIchkow, N.D.
?=Pc*Xs 2his OOL loatIon to published for scientists, t6eftnolatUtii.
pore=s Cod 13% medicine or medical research. and others a**-
carded Mathe Production and/or age or radioactive and stable
isotopes and radiation.
COV32=C 2h1rt7-GLfi*t reports are Included In this collection
under three main subject divialanst 1) production of Isotopes
2) high-gooMy Samist-redlation taollItIseand 3) radlometry and
dosimetrr.
TAKX OF COrA9=z
PAWr 1. PRCD=Zoff or ZSMOM3
Prolav, Tu.S., V.T. bachkarev, and Yo.T*
Sullsh. Development of
:
Ustape Production In the 3ovl*t MUco
This report Is a general survey of production methods,
apparatus. raw materials, applications, Invostigatlons
god fat prospects for radio Isotopes In the Soviet Union.
Card 2/12
L-V In, and YU.N- ShtukkonbOrg.
"~Iinl
A
6
dual 1>0808 Of 08="-rsya
U-
rbr
set-up for 99 228
within a Vida Range
Z'YapIdg,skLy. V.K. The D" or A Diffusion Chamber for 235
Measuring Low Activity
Sol-bek, a.R.and &a. T1429shin- pocket Radiometeril and 238
Dosimeters
Ueng,ral description And electric CL-Cult disgrace sr-O
pockot-*IS*d radiometer intended for 2P-
given for
proximate tor,,Lnation of ganna. and hard b4ts~r*y
:,
Intensities above I Now- Time X4P86 after onset or
radiation registration serves gig & parsmot*r ror the
determination of intensity up to 1000 pr/hr with an
accuracy of # 20 percant. Working PrIncIPl:' Components
and electric airoult dLjigrgs are gIvOn for pockilt-SIZ11
I approximate intensities
decimeter capable of d*t*ctu
of geese. bet&.redl^tL*n roe U.1 to 5000,ptrleec and
card XOA2
S. and V.V. VjW_jOv. On the Problem or
264
sk Currants
for
pr
rill
allA
if AIR,
ai
P 11
H Eric J;~ I
or? I
-4 it
Sf q - 9
g fo-jau A.
it % f a Y&! E.."
afal A .1 .1
Fa'A Iff
~4 if, g 91 'Ifil.ozil 1; 1
n
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A, A Eli
far
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UAMMM~
SOV/120-59-4-16/50
AUTHORS: Belov, I. P.,,4aluginjl~. S.., Keirim-Markus, I. B., Nikiforov,
V. I., Poros',,Affr7"7=.-.--
TITLE: The ILK-3 Individual Luminescence Dosimeter
PEMIODICAL; Pribory d tekhnika eksperimenta, 1959, Nr 4, pp ?4-80
(USSR)'
ABSTROT: The,apparatus is an improved form of one described in 1955
(Refl. - Session of the USSR Academy of Sciences on the Peace-
ful Uses of A!;omie Energy - available in English). The main
new features are that an improved phosphor is used, and that
a very much better recording circuit has been developed. The
phosphor is not described in detail, but is a CaS04_Mn one,
It is not sensitive to daylight, and so the bados can be
handled under ',aormal'lighting. Fig 5 shows how the readings
decay with time after a single dose at various temperatures
(given on the curves, top half of the figure; the abscissa
is in days). The second half of this figure shows the effects
of changing the temperature. Fig 6 shows the dose response
curves TI Is for X-rays; II is for 6OCo y-rays; the abscissa
scales are in kr). The two parts of Fig 7 show the hardness
response; curve 0 is for unfiltered radiation, while curves
1 to 3 indicate 4%.
-he thicknesses of the Cd filters (in mm);
Card 1/2
SOV/120-59-4-16/50
The ILK-3 Individual Luminescence Dosimeter
the meanings of the rest of the caption are clear. (The
abscissa is in MeV). Fig 4 shows the electrical circuit.
The apparatus di3charges the phosphor by means of a flash
of infrared light'; the resulting light flash is recorded by
the photomultipli.er and is integrated by the circuits to
give the dose received. Fig 2 shows the shutter system
used to insert the badges into the photometer head; Fig
shows that head. The paper --contains 7 figures and 6 ref-
erences, all of which are Soviet,,
SUBMITTED: June 3, 1958.
Card 2/2
SHTUKKKUBM) Yu. M.; IKALMa)_K. _S.) IROBOTI V. I.
"Facilities with Water Shielding for Measuring External Radiation from Human
Subjects. It
paper presentedat Symp on Assessment of Radioactive Body Burdens in Man,
Heidelberg, W. Germany,-11-16 may 64.
PROBOT, V.I.; KALUGINy K.S.; SHTUKKLINBERG, Yu.M.
Device for the measurement of external hwan radiation. Mod.
rad. 8 no.10M-82 0 163. (MIRA 17:6)
0
FORTUSBYY, Vladimir Anisin,ovich; 11OVIKOV, Yladimir ritrofanovich;
KALUGIN, Leonid Konstantinovich; GRECHKO, G.S.[Hrechko,1i.S.jp
.
(Prophylaxis of diseases in young farm animals; aid to veter-
inary specialists and stockbreederal Profilaktyka khvorob
itolodninka sil's'kobospodars1kykh tvaryn; na dopor,,ohu vete-
i7narnym spetzqial-'~stam i pratsivnykam tvarynnytstva. KharAiv,
Kharkivslke kwjzNLove vyd-vo, 1964. 74 p. (MIRA 18:2)
1v
PRUSOV, Veevolod Vaullye-rich; SIERSTOPALOV, Konstantin Sergeyevich;
KAWGIN,LV., rodakt-Dr; MALIKOVA,N.V., tokhnicheekly redaktor
[Maintenance and repair of road machinery under field cou-
Clitions] Tekhzicheskoe obslu%hivanie i remont dorozhnyM mashin
v polevykh uslovitakh. Mos1tva, Notuchno-tekhn.izd-vo avtotransport-
nol lit-ry, 1955. 76P. (MLRA 9:2)
(Road machinery)
UWGIN, L.V., inshwaar; FRUSOV, V.V., insfiener.
'Boadbuilding machinery.* Reviewed by L.V. Wugin, Y.Y. Prusov.
Melkh.stroi. 1) uo-5:32-33 My 156. (KLU, 918)
(Road machinery)
rWv C//J,, le,
WM/Cultivated Plobts Goneral Problems.. M-1
AbsIour Ref ZhUr - Biol.; No 20,, 1958.- 91578
Author
Inst Slavi3orodskaya Selection Station.
Title Crop Rotation in the Agricultural Steppe Zones of Altav-
skiy Kray.
Orig Pub S. kh. Sibiti) 1957~ No 3, 15-21
Abstract Data from the SlavgDrodskaay Selection Station in the
arid areas of Altavskiy Kray. Agrotechniques used in
sowing perennial grasses in crop rotation and the effecti-
ven;ass of -utilizing them are described. Also presented
are schemes of crop rotation in 6- 7- 8- 9-field with fal-
low plowing without perennial grass but with projecting
gross wedges, which occupy either one field or a part of
it, The utilization of a layar of perennial grass is
cal~d 1/2
KALUGIN, M.
'i"NA01 *
Consid-gr vital and urgent questions. Sov. profsoiuzy 4 no.7:
56-57,;l '56. (MLRA 9:10)
1. Predendatell Grozzenskago obkom& profsoyusa raboahikh
neftys-noy prompblennosti,
(GrosMy Province--Petroleum industry)
n(o), iiim
SOV/92-59-1-34/36
AUTHOM, Kalugim,.' M.I., President of the Chechen-Ingush Committee of the Trade
_"1!W""F%-Croleum and Chemical Industry Workers
TITLE: Oilmen of the Chechen-Ingush Republic Report (Neftyaniki Checheno-
Ingusbetii raportuyut)
PMIODICAT.: Neftyanik, 1959, Nr 1., P 35 (USSR)
ABSTRACT: The convocatiot of the Twenty First Extraordinary Congress of the
Commmist Party of the USSR, and public discussions of prin-.ipleB laid down
by X.S. Khrushchev in his report to the Congress stimulated political and
professional activities of the vorking class. Oilmen and chemists of the
Chechen-Ingush ASSR joined Soviet people in its effort to overfulfill the
production plan set by the Soviet Goverment. As a result, the 10 month
production plan of the Grcznyy Lubricating Oil Plant was implemented by
November 7th, In addition, a number of oiLfields also completed their pro-
duction plans ahead of time. Workmen of the chemical industry, recently
created in the Chechen-Ingush ASSR, are successfully discharging their
obligation to develop production of phenol and acetone from natural gas.
Card 1/2
Oilmen of the Mechen-Ingush Republic Report SOV/92-59-1-34/36
Refinery te,2hnical personnel was the first to join the accelerated production
campaiga initiated by the young workers of Moscow. This ekemple was followed
by chemists and machine builders, Intensive work is being done in the
Chechen-Ingtish Republic for the purpose of shortening the working day,and of
revising the pay scale of workmen. The necessity of boosting petroleum pro-
duction and modernizing the refinery processing units, which was emphasized
In V.S. Khrusbehev's report, is regarded by the Chechen-Irigush oilmen as their
own task. Within a few years they have to solve serious problems connected
with the imroduction of new techniquesY the development of chemical pro-
duction and of exploratory drilling, and the utilization of gas.
ASSOCIATION: Chechen-Ingush obkom profsoyuza rabochikh neftyanoy I khimicbeskoy
promyshlennost-i (The Chechen-Ingush Committee of the Trade Union of the
Petroleum and Chemical Industry Workers)
Card 2/2
LUUGIN. M.I,
0
Tilling s*ab with flat-cutting :Lmplemente, in the Kulunda
Steppe. Zemledelie 24 no,7%70-7) J1 163. (MM& 15:12)
1. Slavgorodskaya selektsionno-opytnaya stantsiya.
(Kulunda Steppe-Tillage)
"~~Tv M.I.
Spring till%gO of eroded so'Lls, Zemledelis 26 no.5-.82-93
My 164. (KRA 1726)
1. Slavgorodakaya selektoionnD-opytnaya st&ntalya.
KALUGINp M.I.g agronom
"Nltivation practices in growing large buckwheat cropen IV
I H.Elagin. Revieved by M.I.Nalugin. Zemledelie 24 no.11i
9;..96 N 162. (NIRA 101)
(Bwkwheat) (Elagin, I.N.)
KAUJGI_~,,H.,Rki.i~inzhener~iasledovatell; KASHTANOYER, L.N., inzhener-
~ iss.ledovatell; LAPAYEVA, Ye.V., inzhener-issledovatell
Practice 'Ln'unifying the technical, industrial and financial plan.
Trudy Ural. politekh. inst. no.120:50-57 161. (MIRA 16:6)
(Sverdlovsk Province--Industrial management)
KALUGIN, M.T.; CHISTYAKOV, A.T., inzh., nauchnyy red.; CHEMAKHOVSKIY,
Oft, red.izd-va; MWAKOVA, N,I., tekhn.red.
[Instructions on safety techniques for acetylene generator
operators-, using stationary equipment] Famiatka po takhnike
bezopasnosti dlia gazogeneratorshchika (na statsionarnykh
ateatiie'novykh U'stanovkakh). Moskva,' Goe.izd-vo lit-ry po
stroit., arkhit. i otroit.materialam, 1939. 11 p. (MIRA 12:8)
(Acetylene generators)
ULUGINS N.I.
Teaching refom in the Soviet school. Horyz techn 3.6 no.2:10-.u
163.
1e Inotytuk Podagogiczny., Krasnodar, (ZSRR),
j
v
CHUVATOVp V.V.; BEREZIN, N.N.j METSGERp E.Kh.; NAGIN) V.A.; KARTASHOVp
N.A., kand. tekhn. uauk, dots.; MILIKOV, N.V., kand. tekbn.
naukj BYCHKOV, M.I., kand. tekhn.nauk, dots.; SUKHANOV, V.P.,q
SHLYAPIN, V.A.; KORZIIENKOp L.I.; ABRAMYCHEV, Ya.P.; KAZANTSEV,
I.I.; YARESIKO, V.F.; LUKOYANOV, Yu.N.; DUDARDV, V.K.; BALINSKIYj
R.P,; KORDTKOVSKIY, A.E.; PONOMAREV, I.I.; NOVOSEL'SKIYj, S.A.0
kand. takhn.nauk-, dote.; ILOINYKH, N.Z.; TSITKIN, N.A.; ROGOZHIN,
G.I.; PHAVOTOROV, B.A.; ORIDV2 V.D.; RACHINSKIY, M.N.; KULTYSHEV,
V.N.; SMAGIN, G.N.; KUZNETSOV, V.D.; MACHERETp I.G.; SHEGALp A.V.;
GALASHOVp F.K.; ANTIPINt A.A.; SHALAKHIN, K.S.j RASCI&TAYEVp I.M.;
TISHCHENKO, Ye.I.; FOTIYEV, A.F.; IPPOLITOVI M.F.; DOROSINSKIYj
G.P.; ROZEKOV, YO.P.; RYUMIN, N.T.; AYZENEERG., S.L.; GOLUBTSOV,,
N.I.; VUS-VONSOVICH, I.K., inzh., retsenzent; GOLOVKIN, A,,M., inzh.,
reteenzent; GUSELETOV, A.I., inzh., retsenzent; KALUGIN 17 1
Inzh., retmenzent; KRAMINSKIY, I.S., inzh., retd:e~-n~aenj M~iiTY,
0.1a., inzho, reteenzent; OZERSKIY, S.M.,, inzh., retaenzent; SKODLO,
Ya.A., dots., retsenzent; SPERANSKIY, B.A., kand. tekhn. nauk,
reteenzentj SHALAMOV,, LYe., insh., retsenzent; VOYNICH, N.F., inzh.,
red.; GETLIVG, Yu., red.; CHERNIKHOV, Ya., tekhn. red,
[Construction handbook] Spravochnik stroitelia. Red.kollegiiat M.I.
Bychkov i dr. Sverdlovsk, Sverdlovskoe knizhnoe izd-vo. Vol.l. 1962.
532 p. Vol.2. 1963. 462 p. (MIRA 16:5)
(Construction industry)
. KALUGIN, NjM., polkovnikp voyennyy shturman pervogo klassa
From a short bombing run. Vast. Vozd. Fl. no.5:48-50 My 161,
(MIRA 14:8)
(Bombingp Aerial--Study and teaching)
KALIV (-,I W, N. N,
RaMMMVBYG, P.R., doteent; KaWGIII, N.N., direktor.
Teaching the course on the technology of medicinal compounds in phurma-
ceutical institutes. Apt.delo no.U:41-44 J1-Ag 153. (MLRA 6:8)
1. Opyt raboty kafedry tekhnologii lekarstvennykh form Molotov.skogo farma-
tsevtIcheskoga instituta. (Pharmacy--Study and teaching)
GHEBUKOVP M.P.; POYACHEVA, G.Ye.
MMMMAM,ml
Use of light &shoo from electric power plants to replace
clinker cementv In factory production of concrete and rein-
forced concrete products* Trudy Ural. politekb. inst.
no. ns: 7o-84 162 (MMA, 1616)
(Ash(Tachnology)) .(Precast concrete)
KAWGIN, N.V.; YORONWV, M.G.
Waterproof soaking of cotton fabrics with silicon organic compounds.
Z'hur. prik:L. khim. 31 n0.9.1390-1397 S '58. (MM 11: 10)
(Silicon organic compounds) (Cotton fabrics)
(Waterproofing of fabrics)
KAUJGIN, N.V.
Wear and tear of tout cloth under various climatic conditions,
rovo vom uohebo save; tekh, tekst. prom, no-3:19-Z5 '59.
(KMA 1201)
(Waterproofing of fabrics) (Duck (Textile)-Testing))
1~ KILTk'GlN. N.V.
: '- %-t ; - -,t-
Photocbenical destruction of fabrics and of protective impreg-
nation subatances. ISv.vyq.ucheb.zuv.; tekh.tekst.prom. no.4:
17-22 159. (MIRA 12:11)
(cotton fabrics--Preservation)
DLUGIN, N,V.
1, ;; , . wil!
fiztra heavy tent cleth. Taket. prom. 19 no,6:35-36 -to 159.
(MIRA 12:9)
(Duck (Textile))
V.
IALUGIN, N.V.
Combined Impregnation of tent cloth. Tekst.prom. 19 no.8:40-41
Ag 159. (MIRA 13:1) '
(Duck (Textile) (,Waterproofing of fabrics)
S/661/61/000/006/075/081
D287/D302
AUTHORS: Voronkov, M. G. and Kalugin, H. V.
Ty'ITLE imparting hydrophobic properties to cellulose materials
by using,organosilicon compounds
SOUROEI Khiraiya i praktiche8koye primeneniye kremneorganiches-
kikh soyedineniy- trudy konferezitsii, no..05: Doklady,
diskussii, resheniye. II Vses. konfer. po khimii i prakt.
prim..kremneorg. soyed., Len. 1958. Leningrad, Izd-vo
AN SSSR, 1961, 328-335
TEXT: This is a continuation of earlier investigations on treating
textile fibers with organosilicon compounds (polyalkyl hydroBiloxa-
nes, alkyl acyloxyeilanes and polyalkyl siloxanols of some metals).
The authors assumo that the high stability of water-repellant or-
ganosilicon impregnating agents'-is due to the chemical interaction
of -the reactive functional groups in the utilized monomers and poly-
mers of organosilicon compounds and the hydroxyl groups in cellu-
IIJ
Card 113
B/661/61/000/006/075/OB1
Imparting hydrophobic properties ... D287/D302
lose so that a C-O-Si bond is formed. This reaction can occur dur-
ing thermal treatment of the fibers but also at room temperature
(especially in the presence of a catalyst); in the latter case the
reaction is much slower. This hypothesis was confirmed by experi-
ments on model systems. A water-repellent, chemisorbed layer is
formed on the cellulose fibers. The effect of the orientation of
the hydrocaiizn radicals of the organosilicon compoundo, and of the
hydrophilic hydroxyl groups of cellulose on the hydrophobic proper-
ties of this layer are discussed. Hydrophobing of materiala, cont-
aining OH groups (including cellulose) by using polyalkyl hydro-
siloxanes is stated to proceed effectively in the absence of oxygen
or oxidising agents. Salts of Zn, Cd, Hg, Co and Ni (acetates or
chlorides) are satisfactory catalysts. Organosilicon polymers
which do not contain reactive functional groups and t)ierefore can-
not-combine chemically with cellulose do not give stable water-re-
pellant coatings on textile fibers. The reaction of organosilicon.
compounds with a reactive functional group X(X=H, OGOR, OR) with
H20 is discussed. Materials treated with trifunctional organosili-
Card 2/3
S/661 61/000/006/075/081
Imparting hydrophobic properties ... D287YD302
con monomers of the type RSix 3 (but not polymers) acquire a high de-
gree of stiffness, due to the formation of hard, non-elastic steric
polymers. Bifunctional monomers do not induce this stiffness but al-
so do not impart water-repellant properties. At present, mixtures
of tri- and bifunctional monomers are used as hydrophobing agents.
The ar 'thors have also found that organosilicon hydrophobing agents
combine well with Cu-and Cr-salts, forming stable compounds which
are retained for long periods on the textile ;%aterials. In the dis-
cussion the authors stated that CH-E (YeN-8) was the hydrolysis pro-
duct of ethyl dichlorosilane and dimethyl diohlorosilane. P. A. Si-
migin (TsNIKhBI, Moscow), G. D. Nessonova (Moskovskiy tekstil '~yy
institut (Moscow Textile Institute )) and I. A. Zubkov (Moscow dia-
cussed their observations on various hydrophobing agents. There are
2 figures, 1 table and 19 references: 13 Soviet-bloc and 6 non-So-
viet-bloo. The references to the English-langaage publications read
as follows: P. Fortess, Ind. Eng. Chem., v. 46, (1954)p 2325; H. A.
Schuyter, J'.- W. Weaver and J. D. Reid, J. Am. Chem. Soc v - 701
1948~j 1919; R. W. Kerr and K. 0. Hobbs, Ind. Eng. Chem,, V. 45,
R953 9 2542.
Card 3/3
KALUGIN N.V.
2.
Waterproofing of f4b~jco with organosilicon compoundo. Tket r=
20 no.3:58-61 Mr %b. ' (KRA, -14:j *
(Waterproofing of fabrics)
(Pilioon organic compounde)
I
KALUGINP.H.V.j kand.tekhn.nauk, dotsent
7 ---
Photoohemical degradation of weatherproofed textile fabrico.
Izvow.soucheboxavo; tekheleg,prom, no*203-78 161, (MIRA 14:5)
(Textile fabrios)
KALUGIN, N.V.
-.- 1- ---- .. -
- ' 'I ~ I";
Methodology for detennInJng +Ija cal,:se- H, ":
1101-ton rai)rics during heir u"UJIz','z-ttcn. t~--kh.
t
tekcat.prom. nc).3.-162-a6,l 165.
lo Voyennaya akademiya t-yj.U 3 tranaporta.
KA.J,IJGIII, N.V.j. YERMILOVAI I.A.
Method for, -the pi'otle,--tion of textiles against microbiological
destruction. Izv, vy's. uchebs zavo; tekh. tekst. pi-om. no.4:
30-36 165. (141RA IS:9)
1. Voyenraya akadeiniyu tyla I. transpoi-ta.
I 1.~ -1k, i. q[I ui Iml I Im III rql I I I I !kIIIIIII 11r,411.1,11 I TT ~ I
15-57 -5-6003
Translation from: Referativnyy zhurnal, Geologiya, 1957, Nr 5,
pp 43-44 (USSR)
AUTHOR: KQI~' ~P- I ~-
TITLE: The Tectonic Plan of Kopet-Dag (K skheme tektoniki
Kopet-Daga)
PERIODICAL: Izv. AN TarkmSSR, 1955, Nr 2, pp 17-20.
ABSTRACT: Kopet-Dag fbrms a part of the Turkmen-Khorasan arch,
.in which we differentiate three basic fold systems:
1) the southern--Dzhagatay; 2) the middle--Aladag-
Binalud; and 3) the northern--Kopet-Dag, to which
also belongs Malyy Balkhan. Only sedimentary layers
of the Mesozoic and Cenozoic a ar within the limits
M~pe
of Kopet-Dag (6000 m to 8000 . They are divided
into seven stratas. 1) the sandstone-argillacsous of
the Lower and Middle Jurassic; 2) the calcareous layer
of Malm and of the Neocomian; 3) the sandstone argil-
laceous of the Aptian, Albian and CenomAnian; 4) the
Card 1/4 carbonate-argillaceous of the Upper Cretaceous; 5) the
04 5 7
e_1
The Tectonic Plan of Kopet-Dag (Cont.)
15-57-5-6003
sandy-argillaceous of the Paloogene; 6) facially variegated Neogenic
series of brackish deposits (predominantly in the west and absent in
the east), and molasse; 7) a post-Tertiary series of porous,
fragmented rocks. Neritic facies predominate. The typical flysch is
not developed here, although some horizons of the Cretaceous and
Paleogene have a flysch-like appearance. Kopet-Dag is an alpine
folded forrmtion, but the main elements of its structure emerged
already durirg the Mesozoic. At the end of the Cretaceous the
central portions of Kopet-Dag finally rose above sea level and
divided the geosyncline into western and eastern basins. In the
Oligocene, there was formed in the western part of Kopet-Dag a
thick deposit of Maykop clays, but in the eastern and the central
parts considerable uplifts occurred at the time. Here the coarse
Karagaydsnd