SCIENTIFIC ABSTRACT MILOVANOV, A. F. - MILOVANOV, O. S.
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Collection:
Document Number (FOIA) /ESDN (CREST):
CIA-RDP86-00513R001134320009-8
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RIF
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S
Document Page Count:
100
Document Creation Date:
January 3, 2017
Document Release Date:
July 31, 2000
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9
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Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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Body:
MIIOVANOV. A.F.; ZHRMVOV, I.V.; NIKITIN, V.P.
Now jorboa species in Turkmenia (Allactaga bobrinskii Kolean.).
Izv. AN Turk. SSR no-5:97 158. (MMA 3-1:12)
l.TurkmenskRys protivochumays stantsiyu.
(Turkmenistan-Jorboas)
BYKOV, G.I.; MILOVANOVp A.F.
Geographical distribution of the Turkmen jerboa, (Jaculus turkmenicuB
Vinogradov et Bondar).- Izv. All Turk. SSR. Ser. biol. nauk no-4:72-
73 161. (MIM 14:10)
f
1. Turkmenskaya protivochumnaya stantsiya.
II (KkU KIZU-JERBOAS)
OJAILY11NOV, G. D., '11LIVANOV, A. F.
Reinforced concrete
Effect of high tenperature an the resilience and plasticity of ordina-r-f an~ fire-resistant
concrete and on its hinding quality with the metal reinforcement. Stroi prom. no. 1,1952.
Monthly List of Russian Accessions, Libr2ry of Congr3F--, March 1952. 'L;N'/,'IAES-'-FIED.
SOV/137-59-1-63
Translation from: Referativnyy zhurnal. Metallurogiya, 1959, 'Nr 1, p 8 (USSR)
AUTHOR: Milovanov. A. F.
-------------------------
TITLE: Some Investigations of Refractory Reinforced Concrete (Nekotoryye
issledovaniya po zharoupornomu zhelezobetonu)
PERIODICAL: V sb.: Materialy Soveshchaniya po vopr. raboty pechey tsvetn.
metallurgii i razvitiya pirometallurg. protsessov. Moscow, 1957,
pp 510-516
ABSTRACT: The author examines the joint work of refractory concrete and
reinforcement of various shapes and the bonding strength between
them at elevated temperatures. Calculations and results are given
of testing of refractory concrete bars with special temperature-
compensating scams on the heated side for the purpose of decreasing
the ry agnitude of the temperature stresses. Recommendations are
made on the designing of refractory-concrete furnaces.
YU-0.
Card 1/1
MILOVANOV,
A.F., kand.tokhn.nauk.
-
Performance of bent host-resistant reinforced concrete elementa
with joints in the compression area. Stroi.prom. 35 no.6:17-40
JS '57. (MIRA 10:10)
(Reinforced concrete)
MIT,OVAN)V, A.F., kand.takhh.nauk, starshly nauchnyy sotrudnik
Controlling and Inproving the quAlIt7 of concrete. Gor.khnx.mask.
32 U&12:33-36 D 158. (MIn 11:12)
1. Nsuchno-Issledovatellskiy institut betona i shelazobotona Akadenii
stroitel'stva I arkhitaktury SSSR.
.(Concrete)
kand.takhn.nauk; MILONOV, T.M., kand-tekbn.nauk; ALITSHULER,
B.A., icand.tokhn.nauk
Vasilii Ivanovich Nurashev. Isy.ASiA no.4:173-174 159. ()URA 13:6)
Obrashey. Vasilit Ivanovich, 1904-1959)
MILOVANOV, A.?., kand.tokhn.nauk
Checking methods for calculating heat resistant bent reinfo-rced
concrete construction nlenents subjected to nonuniforn heating.
Trudy NIIZI[B no.6:87-116 159. (MIRA 12:10)
(Girders-Tenting)
VARTANOV. V.M..inzh.; KARAKASHTAN, A.A.,Inzh.; MILOVANOT, A.F.,kand.tekhn.nauk
Chimney built of precast prestressed reinforced refractar7
concrete. Nov.takh.mont. i spets.rab. v stroi. 21 no.4:9-
11 AP '59- (MM 12:5)
1. Treat Teplomontazh Ninisterstva stroitelletva FWSR i
IdLboratoriya zharoupornykh konstruktai-y Inatituta betona
i zhelezobetona Akademit, stroitel'stva i arkhitaktury SSSR.
(Chimneys) (Precast concrete construction)
KUZNETSOV, G.F.. inzh.; IATASH, M.N.. insh.; MILOVANOV. A.F.. kand.tokha.
nauk
Operating tunnel kilns built of beat-resistant reinforced con-
crete panels. Nov.tekh.vont.i spets.rab.v strot. 21 no.11:
18-21 N '59. (MIRA 13:2)
1. Glavtoplomontash, Soyuxteplostroy Minstroya RSFU, Yauchno-
Issledovatel'skly Inatitut batons I zhalexobetona Akademit
strottelletva i arkhttektury SSSR.
(Kilns) (Precast concrete construction)
00 S/097/60/000/07/0 1/0"
AUMORS: Mili~vanov, A.F., Candidate f' 7. ~,Ianov, V.S.
-n~gYn~eer
TME: Effect of Compression and Tens'-on on Heat.-Resistart. Reinforced Con-
crete Elements Subject to Non-Uniform Feating
PERIODICAL: Beton i Zhelezo-Beton, 1960, Ns. 7, PP, 310 - 316
TEXT- The laboratory of hea-.-resistant and chemically stable constructicns
of NIIZhB ASiA has conducted experimental 'Inveatigations pertalning to compression
and tension of structural elements under non-uniform heating. The object of the
investigation was to test the method of calculation develcped by Prcfessor VI_,_
to determine rigidity and strength of heat-resistant reinforced con-
crete elements, as well as width of cracks, developing in the elements subject
to simultaneous actien of load and temperature. The article describes test beams
and methods by which the tests were perfcrmed at temperatures cf 150, 300, 500 an6i.
7000C. Compression and tensile forces were raised up to 50% of breaking point.
The article explains the method of meaeuring deflectlons and taking temperatures,*
and gives a number of formulae for determInIng deflection, relative height of com-
pressed zone, coefficient of tensile force, c-Deffi3ient of effect of tension on
Card 113
A.
82070 s/0q7/60/0W/r)7/J 11003
Effect of Compression and Tension on Heat-Resistant Reinforc-ed Concrete Elements
Subject to Non-Uniform Heating
I
\12
ext.ended concrete, and residual temperature rr.,:ment; the t".eoreticc value of car:
ing capasTry-Borbeams is determined by formula NiRl 123-55 for central tension.
The article mentions the names of V.M. Mllor.-)v ard B.A. Al'tshuler Candidates 0,1
Technical Sciences. The average t1heoretical deflectl.~_n of the reinforcement
corresponds to the experimental values at al! atages .,-f* temperat--are and Icads.
Experiments have established that the tensille fierce causes a lowering of -he
temperature moment brought about by non-unif_-Tm heatIng. The carrying capacity
cf the reinforced concrete elements wa? ch9raster'-zed by the attainmenz of the
yield point of the reinforcement, while 'i,-.he rdrcp -,f, terripErature did not !-zterfer-_
with the tensile strength. Experimental values of carrying capacity were determ::-
by the extent of deflection corresronding to attaln-Ing tte yield pcint of the re-
inforcement. The mean arithmetical value of deviation of experimental values fr.-):-
theoretical ones was +5%, while maxinrim va!-4e~ were 42q and -15%. From Graph 5
it can be seen that the theoretical width of crackE ccrresrcndS to experimental
values. Table I gives the carrying capacities --f beam under tensicn and Table 2
t~nose of beams under COMDression. In calcula,.Ing the :;arrying capacities it 1_3
Card 2/3
3/097/60/000/07/0 I/C
Effect of Compression and Tension cn Reinforced -.--
:'ettj Elements
Subject to Non-Uniform Heating
necessary to make allowance for a decrease in strength of concrete and reinforce-
ment at rising temperature. There are I diagram, 2 tables, 6 graphs, 1 Soviet
reference and 10 furmulae.
Card 313
MIUWANCV, A.F.1 MYANCVp V.S.
Abrasiorp-resistance of heat-resistant concrete al~-hi h t peratures.
Ogneupory 25 no.5s234-237 160. f;17.1'4 S 5)
1. Nauchno-isoledovatellskii institut betona i zhelezobetona
Akademii atroitellstva i arkhitektury SSSR.
(Concrote)- (Mechanical wear)
85387
S/032/60/026/010/022/035
B016/BO54
AUTHORS: Milovanov, A. F. and Zyryanov, V. S.
TITLE: Measurement of Deformations in Structures at High
Temperatures
PERIODICAL: Zavodskaya laboratoriya, 1960, Vol. 26, No. 10, p. 1151
TEXT: The authors developed a method of measuring radial and vertical
deformations of the hot interior of hollow cylinders. For this purpose,
they used rods (tyaga) of quartz glass with a low temperature coefficient
of elongation (0.4*10-6) as compared with concrete and steel. Rods, 15 mm
in diameter, were attached to the hot surface of the structure to be test-
ed. The quartz glass used was tube- or rod-like, 4-20 mm in diameter,
and of different lengths depending on the size of the structure. The
radial deformations were measured with the aid of four rods which lay
in two diameters perpendicular to each other. The inner ends of the
quartz rods were curved like hooks. These hooks were attached to nichrome-
band anchors. Pairs of differently long quartz tubes were used to measure
Card 1/2
85387
Measurement of Deformations in Structures S/032/60/026/010/022/035
at High Temperatures B016/BO54
longitudinal deformations. The difference In length of quartz rods was
used as a basis for deformation measurements. Deformations at temperatures
of up to 12000C were measured in this way. The method suggested can be used
both in experiments and at the beginning of operation of heat generators
working at high temperatures. .
ASSOCIATION: Institut betona I zhelezobetona Akademii stroitel'stva
I arkhitektury SSSR
to (Institute of Concrete and Reinforced Concrete o -f the
Academy of Building and Architecture, USSR)
Card 2/2
~ 'K
~ WVANOTj_A.F,,-)and,tskhu.a&uk; ZYRTAMOT, V.S., Lash.
Heatproof reinforced concrete chimneys. From. stroi. 38
no. 12:3.2-35 160. (XI" 13;12)
1. lbuchno-tooledowatollskiy tuatitut betona i shelesobstona
Abademil stroitelletya J arkbitektury SSR.
(Chimneys)
YAKOVIEVJI A.I.9 kand.tekhn.nauk;,IATLOVMIOY_, A.F., kand.tekhn.nauk;
BUSHEV, V.P., inzh.; FEDOREM-P'W~~-.-
Fire resistance of thin-walled panels made of mesh-reinZorced
sand concrete. Bet. i zhel.-bet. no.5:224-228 Mv 161,
(Reinforced concrete construction) (MITIA 14:6)
(Fire testing)
/9'
FRENKEV, I.M.., kand. tekhn. nauk; HIRONOV, S.A... doktor tekhn. nauk,
prof.; BARANOV, A.T., kand. tekbri. nauk; BIJZFZVICH, G.A.p
kand. tekbn. nauk; 14IIUMIDV, K.V.,, kand. tekhn. nauk;
MULIN, N.M., kand. tekbn. nauk; KMDIJKOV, G.K., kand. tekhn.
nauk; KORM, N.A., kand. tekhn.nauk; TESLER, P.A., kand.
tekhn. nauk; EERDICHCVSKIY, G.I., kand. tekhn. nauk;
VASIWYEV, A.P., kand. tekhn. nauk,- LYUDKOVSKIY, I.G., kand.
tekhn. nauk; SVETOV, A.A., kand. takhn. nauk; CHINEUKOV,
Yu.V.,, kand. tekbn. nauk; BEL0Bll0VYY,..K. . inzh.; YaEVTSOVp
V.A.,, inzh.; DOBROWSLOV., N.S.# arkh.; DESOV, A.Ye.j doktor
tekhn. nauk, prof.; LITVER, S.L., kand. teklm. nauk;
PISHCHIKO M.A., inzh.; MIZAR, B L., inzh.; POPOV, A.P.,
kand. tekhn. nauk; NEYRASOV, K.D., doktor takhn. muk, prof.;
-MIL0VAN0V,AJ,,,-ka~. tekbn.' nauk; TALI, K.E., kand. tekbn.
nauk;-MATUROV, B.A.., kand. tekhn. nauk; KARTASHOV, K.N.,
red.; 14AURICHEV, V.V., kand, tekhn. nauk, red.; YAKUSHEV,
A A insh., nauchrWy red.; BEGA, B.A., red. izd-va; NAUMOVA,
G:D:: tekbh. red.
(Reinforced concrete products; present state and prospects
for development]Zbelezobetonnye konstruktsii; sostoianie i
perspektivy razvitiia. Pod obshchei red. K.N.Kartashova i
V.V.Makaricheva. Moskvap Gosstroiizdat,, 1962. 279 p.
(MIRA 15:8)
(Continued on next card)
FRENKSLI,I.M.-(continued) Card 2.
1. kkademiya stroitellstva i arkhitektury SM. Institut betona
i zhelezobetona., Ferovo. 2. Chlen-korrespondent Akademii stroi-
telletva i arkhitektury SM (for Kartashov). 3. Ch2en-korroB-
pondent Akademii stroitelistva i arkhitektux7 SSM (for 141ronav).
4. Gosudarstvenuyy institut tipovogo proyektirovaniya i tekhni-
cheskikh issledovanty (for Bordichevskiy, Vasillyev, Lyudkovskiy.,
Svetovp Chinenkovl, Belobrovyy, Klevtsov, Dobromyslov). 4. Vseso-
yuznyy gosudarstvennyy proyektno-konstruktorskiy institut (for
Desov., Lifter, Pishchik).
(Precast concrete)
MURASHEV, Vasiliy Ivanovichs, doktor tekhn. nauk, prof.[deceased);
SIGALOV, Emanuil Yevoeyevichs kand. tekhn. rauk, dots*; BAYKOV,
Vitaliy Nikoloyevich, kand. tekhn.nauko dots.frialml =baA4"
&Mi, hand. teldm. mmk; PASTE 'all%Kg P.L.,, doktar tekhn.
na . prof., red.1 TREftMIKOV, R.I., kand. tekhn. nauk, dots.,
nauchnyy red.; BEGAK, B.A.9 red. izd-va; MOCH&LINA# Z.S., tekhn.red.
[Reinforced concrete elements]Zhelezobotonvie konstruktaii; obahchil.
kurs. Pod red. P.L.Pasternaka. Moskvat Gosstroiizdatp 1962. 658
(MIRA 15:140
(Precast concrete)
MIWVANOV, A.F., kand.tekhn.riauk; ZYRYANOV, V.S., inah.
punctioning of fire-resistant reinforced concrete elements
under wdAI compression and uneven heating. Bet. i shel.-bet.
8 no.7%333,333 J1 162. ' (MIRA 15:7)
(Precast concrete-Testing)
(Boom and girders)
KLOVANOVO A.F., kand.tekhh.nauk; PRYADKO, V.M., inzh.
Bond of reinforcement with heat resistant concretes at high
temperatures. BetJ zhel.-bet.9 no-5:215-219 My 163.
(KRA 16:6)
(Concrete reinforcement--Bond)
MIIDVANOVp ~A.F.t kand. tekhn cauk;.CHERKINSKAYA, R.L., red. isd-va;
- .. SHEVCHENKO, T.N., tekhn. red.
(Heat-resisting reinforced concrete] Zharostoikii shelezo-
baton. Mookwa, Goastroiisdato 1963. 234 p. (MIRA 16:8)
(Refractory concrete)
IMILOVANOV, A.F.0 kand. tekhn. nauk; PRYADKO, V.M., inzh.
Lightweight heat-resistant slag-wool concrete. Stroi. mat. 9
no.5,2P,29 My 163. (MIRA 16:7)
(Mineral wool) (Lightweight conarpte)
MILOVANOV,.._Aj.; kand. tekhn. naukp red.; TYUTYUNIK, M.S., red.izd-
va; NIKOLAYEVA, N.M.# red.izd-va; MIKHEYEVA, A.A., tekhn.
red.
[Reinforced concrete under high-temperature conditions] Zhe-
lezobeton v uslovilakh vysokikh temperatur. Pod red. A.F.
Milovanava. Mobkva, Gosstroiizdatj, 1963* 261 p.
kMIRA 17-1)
1. Akademiya stroitellstva I arkhitektury. Institut betona i
zhelezabetona. Perm.
a0
MILOVANOV) Anatolly Fedorovich, kands tekhn. nauk; PilYADKO,
'-
[Calculating flexible reinforced concrete elements for
a transverse force under high-temperature conditions]
Raschet izgibaemykh zhelezobetonnykh elementov na pope-
rechnuiu silu v usloviiakh vozdeistviia vysokikh tempe-
ratur. Moskva# Stroiizdat,, 1965. 134 P.
(MIRA 18:4)
If- 66" '
L4 , K.I.; bmair.NOV, M.F.; BAXHVALUV, G.T.; bj5zAujlfl=O, N.P.; BERHAN,B.i.;
BOGDANOV, Te.S.; BODTAKO, M.N.; BOYKO, B.B.; VINOGRADOV. S.V.;
GAGEN-TORN, K.V.; GLEK, T.P.; GOREV, K.T.; GRADUSOV. P.I.; GUSHCHINA,T.N.;
TOMLIYANOV, A.K.: YESIKOV, M.P.; ZDZTARSKIT, A.Y.; ZAXHARCV, N.Y.;
ZAKHMOVA, M.I.: KARCHZVSKIT. V.A.; KOKAROV, A.M.; KORZHENKO, O.T.;
LAYMM, V.I.; KALITSEV, M.V.; MIT-TAR, L.Te.;..X;J;py4Wjr,4
KIRONOV, S.S.; NIXONOROVA, N.A.; OLIKHOV, N.P.: OSIPOVA, T.V.;
OSOKIN, N.Te.; PERLIN, I.L.; PLAKSIN, I.N.*: ~ROKCIPIYEV, A.D.;
RUKTANT~lff, M.V.; SZVERMNKO, V.P.; SMMIN, P.I.; SKIRTAGIN, A.P.;
SPABSKIT, A.G.; TITOV, P.S.; TURKOVSKATA, A.V.; SHAKHNAZAROV, A.K.;
SHPICHIMSKrT, Ye.S.; TURKSHTOVICH, N.A.; YUSHKOV, A.V.;
TAMJSEnff ICH, L.V.
Sergei Ivanovich Gubkin. TSvet.met. 28 no.6:60-61 N-D '55. (MIRA 10:11)
(Gubkin, Sergei Ivanovich, 1898-1955)
S/081/61/000/020/016/089
B101/B147
AUTHORS: Shchennikova, M. K., Shushunov, V. A., Milovanov, A. 1.
TITLE: Catalytic decomposition of organic peroxide compounds. 9.
Influence of the length of the hydrocarbon chain of some
salts of fatty acids on their catalytic activity during
decomposition of cumene hydroperoxide
PERIODICAL: Referativnyy zhurnal. Khimiya, no. 20, 1961, 58 - 59
abstract 20B442 (Tr po khimii i khim. tekhnol. (Gor'kiy),
no. 2, 1960, 165 - ;70)
TEXT: A study has been made of the decomposition of cumene hydroperoxide
(1), catalyzed with cobalt salts of fatty acids in an equimolocular mixture
of chlorobenzene and acetic acid. In particular, the effect of catalyst$
temperature, and concentration of I on the reaction rate was investigated.
The increase in reaction rate and the decrease in activation energy with
increasing length of the carbon chains of cobalt-salt anions of monobasic
fatty acids were found to follow certain rules. No such rule could be
established for the cobalt salts of dibasic fatty &aide. For Report VIII,
Card 1/2
510811611000102010161089
Catalytic decomposition of organic ... B101/B147
see RZhKhim, 1961, abstract 14ZhI31- I Abstracter's notet Complete
translation.]
Card 2/2
MIWVANOV, A.P.
'I- ,
t e task of chemical industry in supplying agriculture with mineral
fertilizers, insecticides, and fungicides. Soob.o nauch.rab.chl.
VIM no.2:1-7 '55- (NI'RA 10:10)
(Fertilizer@ and manures) (Insecticides) (Fungicides)
RELIK, S.A., inzhener; MILOVANOV, A.S. inzhener.
- -9
Experience in laying pipes by tha
6 n0-1101 N 156.
(Pipelines)
push-through method. Tranap.stroi.
(KM 10:1)
II,
SUKHANOVSKIY, S.I.; M~LOVANOV, A.V.; SHMAROV, V.A.
Manufacturing ligno-fiberboards with the machine of the firm "Defibrator".
Dar. prom. 11 no.9tl2-13 S 162. (MIRA 17:2)
1. Gosudarstvennyy nauchno-issledovatellskiy institut gidroliznoy i
sullfitno-spiritovoy promyshlennosti (for Sukhanovskiy, Milovanov).
2. Segezhskiy domostroitellnyy kombinat (for Shmarov).
SUKHANOVSKIY, S.I.; AKHMINA, Ye.I.; MILOVANOV,, A.V.
Granulated coal from the hydrolysis lignin of cottonseed hulls.
Gidroliz. i leookhim. prom. 16 no.5t24-26 163. (MIRA 17:2)
1. Gosudarqtvennyy nauchno-isoledovatellakly institut gidroliznoy
i oullfitno-spirtovoy promyshlennosti.
UVR(Art V.N., inzh.; 14.L'I,OVA!:OV, A.Yo.
Accelerated unloading and delivery of mineral fertilii-:r-s.
Zhel. dor. transp. 46 no-5:77-78 My 164. (MIRA l8i2)
1. Zamestitell nachallnika stantsii kostroma-Novaya, F-----noy
dorogi (for Lavrov). 2. Nachallnik Kostromskogo otdeleniya
"Sellkhoztekhnikill (for MUlovanov).
P .
1LOVA'Ev~IV, PI A.
ZHWOT, B.Y.; KIIOOVANOT,_B.A., inshener, reteensont; 12DOTOV. B.M.,
Inshener,'TI'Mor; rUrUTA, S.K., takhnichemkiy redaktor
[Installation and operation of electric crams equipmnt]
Montazh i skepluatataila kranovogo elektrooborudov"ita. Moskva.
Goa. nauchno-takhn. Isd-vo mashinostroit. lit-ry, 1952. 250 p.
(Bloctrie crane@) (HLRA 7:8)
The
e (.f the i-n of rngin,-~enz and, Tcc'~:,.-'r-'-an-l ')l
Draft nt--"tutr n
11, No. 11, 10-56.
T~.C u!7Cr CC y
So: European V22. 6, 2, Fc~~rr-,,
L 32o85-66
ACC NR, AT016432 (N) SOURCE CODE: UR/2648/65/000/021/0003/0f)1.5
AUTHOR: Milovanov, D-.--,A.
ORG: Central Asian Scientific Research Hydrometeorological Institute:(Sr'edneaziatskiy
nauchno-issledovatellskiy gidrometeorologicheskiy institut)
TITLE: Ice phenomena in the Amu-Dsr~ya Fdver wccm-ding to aerial reconnaissance data
SOURCE: Tashkent. Sredneaziatskiy nauchno-issledovatellskiy gidrometeorologicheskiy;
"Oinstitut. Trudy, no. 2106), 1965. voprosy gidrologii (Problems in hydrology), 3-151
TOPIC TAGS: river ice, hydrology, aerial reconnaissance
ABSTRACT: Eleven years of observations of ice processes in the Amu-Darlya River,
carried out vith the aid of aerial reconnaissance, are correlated. Many qualitative
7 and quantitative characteristics of the river-ice process from Tyuyamuyun to the
river's mouth are presented. Orig. art. has: 6 figures and 5 tables. [Based on
authorls abstract] [NT
SUB CODE: 08/ SUBM DATE: none/ ORIG REP: 006
J
MILOVANOV, D.I,. Imnd.takhn.nauk
Use of shtt4ld casings in vertical shaft sinking is fully
adequate. Shakht.stroi. no.10:4-9 0 159. (MIRA 13:2)
1. Tsentralonyy nauchno-Issledovatel'skly Institut padson-
shkhtostroy.
(Shaft sinklog)
(Mining engineering-Safety measures)
52 pl"%~tar si=liries Detendmu=w of serm Aramin and
C[Lobullne
"Method of Determining Protein Fraction of Mood Serum With the
Soviet 'RLI Type Refractometer," by F. N. Milovanov, Nauchnyye
Zapisi Belotserkoyakogo Sel'skokhozaystv-en-no----Mtiiu-tap -1956,
Vol 4, PP 195-201 (frm*Referativn_vy Zhurnal--Khimiya,, Bio
logicheskaya. Khimiya, No 71 10 Apr 57., Abstract No W67)
Methods of determining albumin and globulin content of blood serum
by using the "IRL" refractometer are described in detail. The determina-
tion is based on reading results from two previously prepared tables for
albumin and globulin contents of blood serum. (U)
5 C/ -- / 1`51.5 ~,
Name: MILOVANOV, Fedor Nikiforovich
Dissertation: On regulation of the state of the
blood of growing and adult Peking ducks
under the influence of various con-
ditions of the external medium
Degree: Doc Biol Sci
Affiliation: BelotserkovI Agr Inst
Defense Date, Place: 16 Dec 55, Council of Moscow Vat Acad
Certification Date: 16 Nov 57
Source: BMVO 24/57
USSR/Farm Animals. Domestic Birds .9-5
Abs Jour Ref Zhur Biol.., No 11, 1958, rio 5oo83
Author
Inst Belaya Tserkovl Farm Institute
Tttle The Role of the Nervous System in Regulating Protein Levels
in the Blood Serum of Water Birds as Related to Their Pro-
ductivity.
Orig Pub Nauchn. zap. Belotserkovsk. s.-Idi. in-ta, 1957.. 6, 91-96
Abstract The highest anount of protein in the blood serum (BS) of adult
ducks was observed during sprint; (~brch-MaY, 5-46 percent
to 5-70 percent). During June and July, the average BS pro-
tein content decreased to 3-87-4.04 percent, and remincO on
this level throughout the following months until March of
noxt year. During the intensive egg laying period in spring,
an increase of the albumin (A) and a decrease of the glo-
bulin (G) contents took place* By studying the correlation of
BS protein fractions in ducks, it was possible to establish
pre3ence or absence of the birds' egg laying capacity.
Card 1/3
USSR/Fam Animals. Domestic Btrds Q-5
Abs Jour Ref Zhur - Biol., No ll~ 1958P 110~50063
Subsequent tests demonstrated the importance of visual
analyzers in regulating egg layinG capacity and the bloodts
protein content. Althouj-i their surgical removal broudit
about some increase of the overall BS protein content, it
did not induce egg laying, and resulted at the so= time in
a decrease of A and in an incrense of G contents. LenGthen-
ing of the dayliett period artifically by intensive illurnin-
ation (150 volt electric bulbs) at first produced a stiriula-
tinC effect upon the nervous system which resulted in an in-
crease of t1B blood's protein content and a rise in the ocz,
productivity* Prolonged an)lication of such stimulating
procedures, however, caused ii9dbition of sex centers, a
fact which is probably responsible for cessation of eGU-
laying during June and July. It is easy to produce a con-
ditioned reflex in ducks, such as a change of the A and G
correlations (conaiderable increases), by placing then into
premises at a temperature of 420 (C). After a complete or
partial removal of the cerebral cortex of both hemispheres,
Card 2/3
USSR/Farm AnJ-mals. Domestic Birds ')-5
Abs Jour Ref Zhur - Biol., No 11, 1958,, 110 5oo83
the acquired reflexes disappeared either completely or
partly. These test results prove that egG productivity
and hi(~h ES protein content are supported by lengtheninG of
dayli(~it at optimal iUxzAnation, by sun radiation) and by
certain environmental teraperatures. In regulating the BS
protein content the activity of the cerebral cortex of both
hemispheres plays a decisive role.-M.F. Kushner
Card 3/3
62
__jITI~QYAILO,YP
Ekperimental study and experience in the use of potentialized
anesthesi- in surgical otomatology. Stomatologiia 42 no.3s
42-46 14)~* 1 63 (MIRA 17:1)
1. Iz kafedry propedevtiki khirurgichesko7 stomatologii (zav.-
prof. G.A.Vasillyev) Maskovskogo meditinskogo stomatologichev-
kogo instituta.
MIID-VANOV, Georgiy Ivanovich; GADZHIYEV, A.S., red.; GELLER, E.S.J,
tekhn. red.
(Outline history of the formation and development of the
working class in Daghestan (from the 90's of the 19th
century to June 1941)] Ocherk formirovaniia i razvitiia ra-
bochego klassa v Dagestane (90-e gg, XIX v. - iiun' 1941 goda)
Makhachkalaj Dagestanskii filial AN SSSR, 1963. 210 p.
(MIRA 17:3)
00000000*00-40*00000 Olt A- A
I u to ad u 4 It 48 Al &V aoil unite mu saw,, stow are
OV is 11 .0 ILI a-il r.. a a 1. 1, - V_J_ I- M N 19% 0A-s.- A -.#--L a t a 1, 0 1 a
vfvf~l - - - --0 ..V
"S"ittos a" "t .pit
16"WWWO Md sklgqp .1 by*..
Me of its 411olys fif Ifir typq"4
00 .00
.04
1 800
00
SIR 00
41
a a 6. a L A tdV,%LtV"C4L totlaal&Ag CLASINFICATWO
Vj'VV
461.41 if am 4.V at.
-11-01-if--i - 'I- *4*'-j-1 .1
b u
M4 It a 4 0' 6, 0* 00 0 0 4 0 0 0 0 0 0 OT
4pim
isli 004 6 *00 0 0 0 0 0 0 0 0 0 0 OJA
Oft
coo
0*00*04
MI / ~_ () VA /Y 0 ~- 1 6 /~' 137-58-5-lio96
Translation from; Referativnyy zhurnal, Metallurgiya, 1958, Nr 5, p 313 (USSR)
A UTHORS: Milovanov, G.N., Vladimirova, V.M., Notkina, M.A.
TITLE: The Seventh Conference on Laboratory Methods for the Investi-
gation of the Ores- and Minerals of Rare and Dispersed Elements
(Leningrad, June 11-20, 1957) [ VII soveshchaniye po labora-
tornym metodam. issledovaniya rud i mineralov redkikh i ras-
seyannykh elementov (Leningrad, 11-20 iyunya 1957 g.
PERIODICAL: Byul. tsvetn. metallurgii, 1957, Nr 17. pp 26-27
ABSTRACT: Bibliographic entry. Ref. RzhMet, 1958, Nr 3, abstract
6224
1. Laboratories--USSR 2. Ores--Analysis 3. Minerals--Arulysis
Card 1/1
137-58-4-6756
Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 4, p 65 (USSR)
AUTHOR: ' Milovanov. G.
TITLE: The Hisfory of the Founding: and the Course of Developnient of
the Rare Metals Industry (Istoriya sozdaniya i pun razviiiya
promyshlennosti redkikh metallov)
PERIODICAL: Byul. tsvetn. metallurgii, 1957, Nr 19-20, pp 79-82
ABSTRACT- Bibliographic entry
I- Rare metals irdujt.t,y--Llevelopment--USS!i
Card 1/1
'F,/ /t/
136-8-16/21
AUTHOR: Milovanov, G.N.
TITLE: Seventh Conference on Laboratory Methods of Investigating
Ores and Minerals of Rare and Scattered Elements (VII
Soveshchaniye po laboratornym metodam issledovaniya rud i
mineralov redkikh i rasseyannykh elementov)
0
PERIODICAL: Tsvetnye Metally, 1957,/Nr 8, pp.78-79 (USSR)
ABSTRACT: The author outlines proceedings at a conference convened
by the Ministry of Geology and Preservation of Mineral
Resources of the USSR (Ministerstvo geologii i okhrany
nedr SSSR) in Leningrad in June 1957. Over 700 rare-metals
experts participated, including seven from China. Over 160
reports from 45 organisations were presented at the plenary
and section (chemical analysis, spectroscopic analysiso
technology and mineralogy) session. The author notes the
high standard of the conference. In the chemical analysis
section he names the following organisations as participants:
Giredmet, Ukrgiredmet, VIMS, IOWh AN Ukrainian SSR, GYeOKhI
AN USSR, AN Gruzinskaya SSR and the Ural polytechnic institute
(Urallskiy politekhnicheskiy institut). Arrangements for
practical demonstrations of the chemical and spectroscopic
Card 1/? methods described at the conference were made. In the
136-8-16/21
Seventh Conference on Laboratory Methods of Investigating Ores and
Minerals of Rare and Scattered Elements.
technological section the beneficiation of beryllium ores
was considered in a report by VINS, of pyrochloric ores in
one by Mintsvetmetzoloto and of steam coals in one by the
coal beneficiation Institute (Institut obogashcheniya ugley).
Developments in the extraction of niobium, tantalump zircon-
ium and hafnium were reported by Giredmet. The UFAN, Kirov-
grad copper-smelting works (Kirovgradskiy medeplavillnyy
zavod), VNII Tsvetmet and other organisations reported on
the production of rare and scattered metals as by-products
of non-ferrous metal-treatment. New methods of obtaining
ure rare-metal compounds were described in reports by
g
ipronikel, and Ukrgiredmet organisations and the Ural poly-
technic institute'. The conference noted the insufficient
liaison between workers in the rare metals field and re-
commended the re-starting of the journal "Redkiye Ketally"
which ceased publication in 1935.
AVAILABLE: Library of Congress.
Card ?/?
-40
S 077/13 5 8 -111 - 18/2.1
~.TUTI_1011:
TITLE: 'ReViS713 "lliblio6raphy
MPLIOD I C11L Tsvet!ly,,re hlet:Aly, 105", T'r 11, pp 05-58 (USSR)
d
A:3STl!:i.CT: Tl-~a following boolg is revie-ied:
'IhlL,tu3,).,irLy of Rare Met-doll, lie- "llur,;i, d,-t, 1957.
Card -1/1
MILOVANOV, G.N.
.!~ .....
"Rare earth metals; collection of articles.0 TSvet-met. 31
n0.1:89-90 J& 158. (MIRA 11:2)
. (Rare earth metals)
AMAKW6.6"CHIMHOSVITOV. Yu.L.; GINZBURG. A.L. neuchnyy red.;
YARWWV, A.D.. glavnyy red.; -2VIUM, L.V., red.; ZUBARRY, N.N., red.:
M-YTMI, T.N., red.; MOKROUSOV, V.A.. red.; WWVIUT. D.T., red.;
KHRUSHCHOT, N.A., red.; SHMAKWOV, I.V., red.; IZRAILSVA, G.A..
red.izd-va; IVANOVA, A.G., teklm.red.
(Industry's requirements as to the quality of mineral raw material;
handbook for geologists] Trebovanlia prorqshlennosti k kachestvu
minerallnorp syrtia; spravochnik d1la geologov. Moskva, Gos.nMichno-
takhn.izd-vo lit-ry po geol. I okhrane nedr. No.31. [Rare earth
elements] Radkosomellnye elementy. lzd,2*, perer* 1959, 58 pe
(MIRA 12:12)
1. Moscow. Veesoyuznyy neuchno-iseledovatellskiy institut mineral'-
nogo syr1ya.
(Rare earths)
AUTHOR! Milovanov G.N. SOV/136-59-2-22/24
TITLW: Reviews and Bibliography (Retsenzii i Bibliografiya)
PERIODICAL:Tsvetnyye Metally, 1959, Nr 2, pp 88-89 (USSR)
ABSTRACT: The following book is reviewed: "Skandif (Scandium),
IL9 1958, a collection of translations edited by
L.N.Komissaroval Candidate of Technical Sciences.
Card 1/1
KILDVANDV. G.H.
State Institute of Rare Metals; collected scientific works.
Vols. I and 2. Reviewed by G.N.Miloyanov. TSvet.ast. 33 no.1:
89-91 ja 06o. (MM 13:5)
*(Metals, Rare and minor)
MILCYVAROV, G.N,
w9conamic notes on rare earths" by B.I.Kogan. RGAipied b7 G. N.
9
Milovanov. TSyst. met. 35 no.5t92-93 Yq 162, (KM 160)
(Rare earths)
(Kogant V.I.)
DIITRITLIV, S.I., gornyy insh.4~.KIWVAROV, I.B., gornyy in-sh.; KHVOSHCHZVSKIY,
N.M., goraff insh.
Using h7dranlic mining methods and flexible roof support in the
experimental working of the Noshchnyi* seam in the *ZimiWm* Nine
noe3-4. Ugol, 33 no.9:6-9 S 160. (MIU 13:10)
1. Kuznetskiy nauchno-inaledovatellskiy ugollnv7 institut i Vseooyusnyy
nauchno-iseledovatellskiy I proyektuo-konstruktorskiy, iustitut dob7chi
uglya gidravlicheskim sposobom.
(Kuznetsk Basin-Wdraulic mining) (Mine timbering)
BATKOV, A.; BIILZOVj, I.; DIMOV, D.; MILOVANOV, K.
Possibilities and economic aspects in the construction
of small hydroelectric power plants at certain irrigation
canals and -maller dams. Izv Inst anerg BAN 5:263-290 163.
BATKOV, Anastas, inzh.; MILO-VANOV, Kiril, inzh.
Possibilities of using solar radiation energy for electric power
production. Priroda r'jiilg 13 no.6:46-51 ?[-,D 164.
MIIC,VANOV, L. V., Engineer
"Use of Ash and Cinder for Purifying Industrialt,4aste Waters." Sub 29 Doe 51,
All-Union Sci Res Inst Water Su 1.'I S. erage, ITydraulAc Structures and
Engineering llydroFeology (VCDrEO
Dissertations presented for science and enRInecring degrees in
Moscow during 1051.
SO: Sum. Fo. 4q0, 9 May 55
Vj
136-2-
AUTHOR: Milovanov, L.V. , Krasnov, B-11. and Korre3eva,, ;/Y
TITISs McparieAce in the Removal of Cyanide ConToundo from Wasto
Water from Lead-Zinc beneficiation Plant with Bleaching
Powder. (OpytoDchistki stochnykh vod svintsovo-tsinkovykh
obogatitelfnykh fabrik ot tsianistykh soedineniy kh1ornoy
izvestyu)
PEDTODIGAL: TsvetrWye Metally, 195?, No.2, pp. 1-5 (USSR)
ABSTRACT: Cyanides are used in flotation as depressors and this
article deals with their removal. As well as general-inform-
ation experiments at a beneficiation plant in which, in common
with conditions at some other plants (tabulated), the cyanides
are contained mainly in theeffluent from copper concentrate
thickeners and three examples show the corresponding valies 5f
0
waste water per ton of treated ore of 0.06, 0.35 and 0.42 m
The three existing methods of effecting the purification are
critically discussed: treatment with bleaching powder; treat-
ment with ferrous sulphate and lime; and3emoval as HCN on
acidification of these.The first is shown to be the best and
the operation of a plant using it is described. For the tests
a combined discharge from the copper and lead concentrate
1/2 thickeners was used. Active chlorine consumption was found
from the difference between the amount introduced and that
136-58-3~1/ 21
all Candidate of Technical Sciences and Krasnov. B.P-.
AUTHORS Milov av,-J.&-A
Engineer.
TITLE- Purification of Waste Water formed in tin production (Ocbistka
stocknylch vod obrazuyushchikhsya pri proizvodstve olova)
PERIODICALs Tavetnyye Uetally, 1958, Nr-3. pp. 19 - 24 (USSR)
ABSTRACT: In tin production from cassiterite-containing polymetallic ores
waste waters are produced at various stages contaminated with flotaticn-
reagents, heavy-metal ions, acids, arsenic etc. In view of the decree
of the Council of Ministers of the U.S.S.R. on the protection of water
resources and regulations almost all the waste water from tin
production is purified. The authors describe the chemical compositions
of various waters and methods of purifying used. Table 1 shows tile
composition of mine waters% these are relatively pure, but tile authors
mention ways of dealing with turbidity and state that a high salt
content (up to 330 mg/litre dry residue) depending on potassium
sulphate concentration does not need special purification, Water ill
gravitational-concentration tailings are said to be contaminated
only with solids (table 2)~ satisfactory results are obtained using
aluminium sulphate (table 3) or slated lime (table 4) for coagulation,
with storage in the latter case for enabling the pH to fall to a safe
level. Next the authors consider water found in the final concentration
of tin concentrates by flotation (table 6) and allow that 350 mg of
Card 1/2 active ",20 per litre of water and 3.3-fold dilution make it safe for
Purification of waste water formed in tin production. 136-58-3-4/21
disposal. For water from the hydrometallurgical treatment of tin
concentrate (with 27-% sulphuric acid)(compositiou of water in
table 8) neutralization with lime to give pH 8.5-9 (1800 mg CAO/
litre) and 4-fold dilution is satisfactory, the heavy-metals being
converted to insoluble compounds thereby. Cooliug water from
pyrometallurgical works (table 10) is sufficiently pure for
disposal without treatment. There are I figure, 10 tables and
6 Slavic references.
AVAILABLEP, Library of Congreso
1. Water-Purification 2. Water-Purification-Equipment,
Card 2/2
SOV/136-59-3-Y 21
-AUTHORS: Krasnov
, B.P., Mil0vanov,__Ltj[_- and Gutman, I.
TITLE: Purification of Waste Water Formed in Antimony Production
(Ochistka stochnykh vod, obrazuyushchikhsya pri
poluchenii surlmy)
PERIODICAL: Tsvetnvye Metally, 1959, Nr 3, pp 8 - 12 (USSR)
ABSTRACT: In antimony production waste water arises in the
following stages: ore flotation, leaching of antimony
sulphide from the concentrate with sodium sulphide and
electrolysis (spent electrolyte). The flotation tailings
water contains (Table 1) relatively coarse solids,
flotation reagents and is somewh-bLt toxic. The authors
point out that slaked lime cannot be used as a coagulant,
since it will dissolve antimony sulphide from the tailing
waste and make the water more toxic and recommend
aluminium sulphate. Ron-phenolic frothing agents should
be used because of the difficulties of phenol removal.
The water from the re-pulping of the cake (composition
shown in Table 2) is very toxic and difficult to purify
because of the simultaneous presence of large quantities
Cardl/3 of sulphides, sulphites, arsenic and coarse particles.
SOV/136-59-3-3/21
Purification of Waste Water Formed in Antimony Production
The authors recommend that mechanical methods should be
adopted for removing the cake, thus avoiding the formation
of this waste water. The spent electrolyte purification
is based on the dissociation of antimony-sulphide salts
to form sulphide-ion; by adding iron ions (As FeSO4)
the sulphide is combined as the hardly-soluble FeS and the
equilibrium is favourably d.-Isplaced. The authors found
that arsenic is removed simultaneously, the Na 3ABS3 being
converted to the insoluble As2s 3' Their experiments were
carried out on industrial waste waters and it was found
that for complete purification enough ferrous sulphate
must be added to precipitate both sulphides and hydroxyl
ions. The authors propose a flowsheet (figure) with
regeneration of antimony (by leaching the antimony
sulphide - iron sulphide precipitate with return elactrolyte
and electrolysis) and production of sulphur and iron
hydroxide by aerial oxidation of iron sulphide. This has
been tested in the laboratory. For hot climates
Card2/3 evaporation of spent electrolyte with dumping of the solid
SOV/136-59-3-
'E?l
Purification of Waste Water Formed in Antimony Produc ion
under special conditions is possible.
There are 1 figure, 3 tables and 9 references, 8 of
which are Soviet and 1 English.
Card 3/3
, MILOVANOVI L.V.
Conference on waste-water purification organized by the british
Institut of Sewage kbrification in 1958. Yod. i san. tekh. no.6:
40-41 Je '59. (MIRA 12:8)
(Southport, Angland--Sawage--Congresses)
ANTIPOVA, P.S.; R)MNIKOVA, A.I.; MILOVANOV, L.V.
Purification of industrial waste waters from nickel salts. TSvet.
met, 34 no.1:66-71 Ja 161, (14M 17: 3)
MLOVANOV 1, V.- EUNTSE'V, A.N., SHCRUKINA, G.A.
V__1_13
Purification of plating plants' waste water containing cynnide.
Ochis. stoch. vod. no.3:4-16 162. (MIRA 16:5)
(Cyan.ides) (Industrial was tos-Parif ica tion)
BEMTZV, A.N.; MILOVANOV, L.V.; SHCHUKINA, G.A.
Purification of plating plants' waste water containing chromium.
Ochis. stoch. vod. no 3% -38 162. (KM 16:5)
,(Chromium; NIndustrial vastes-Purification)
of*
MILOVANOV, L.V.; VERIGO, K.N., red.
[Waste waters from enterprises of nonferrous metallurgy
and methods of their purification) Stochnye vody pred-
priiatii tsvetnoi metallurgii i metody ikh ochistki. Mo-
skva,, 1963. 15 P. (MIRA 16:9)
1. Moscow. TSentrallnyy institut informatsii tsvetnoy me-
tallurgii.
(Industrial wastes--Purification)
(Nonferrous metal industries--Water supply)
f%"e 1111LOViINOVi N-S-
Thir fwmalofim ol 9-cklarrescridilm" traimiii Aplimmylankimif-2.
T=1k i= and I*ospbww sity4blvift. A. M.
(or It ~cL~& 16 it, multayg. Ordalman"fat Cbnn.
"Iwtn. Intl.. %Itvxo;WT. Nir i4kd. Kkim. 23.192-9
J. Ap#" Chexe. U.~.Sfi. IS, 197-3N (IM)
(Bull. translation). -The impurity present In itch. 2-
mc1boxy-G.9.fkhkaaamcii,lirw (1). lwcpd. from POC4 and
W boven itfornifical as
(H). The getvcral fiamittkin col 9-clalowturridis" how di-
phornyloomine -2-4wbnsylw Ariols anti IMMIeriannotexplWash6
br-protfuct it thechlorkles of The ackisme The internae4kies.
'rhc tww schetive for chc~c rewtions is turmaticiam of scid
.itifty4rides of the followed by fearrangenvent to N-
(.%'-pbetivianthr~iit)yl).,V.phenylAntlwanitic acidii. &oil a
111"ible cyck4lion) of the latter top flat mictiolylsocridome by-
Iff4olum.. The rojiti. ra,wratal product aplutently forms at
tim 44 dichloroplimpfule derm. I(IffloiCh. the rxwt con.
otilutio.81 of v.11wh 6 11.'t cIvAr. Ivachins 101 K. ut-11. I
with 21. Im W114CIN. 1-111"voril fly 11141till. 10%41c. Kull.
x4ve 4.11 X. Inual- omitri. Wreilifird an 11, In. VA)-2* (frook
it s1mwra toy symiliarsaim;
a oWn. of
arm/ (JUI. an. 213-11 ' (.1rom &IcPh). In IVIc avarm M%Cth,
freed of ticem alkali byaildn. of free aaricl aind evaps.. y*i&
the ova j-111; this (211 g.) in 1211 nal. lalcoco is treated with 19
oxi fkloride,rv. I Ita-1 I" (from petr.etbw)
iro"? the free a, H and 110.). and after I hr. the IsmA. plat.
f
a, %&,Iml with Nfi-Ofl. virlifing 19.6 c. dwid askydrMs (IV),
an. 140-t" (fr.saat Aft,0)). This (10 X.) refitaxed I be. in
AcOlf. then c-,W ;tn,f item"I with ff,0. gave 8 5 A,
polwasyl) .4-cklopoosslAtfit-Wic acid IV). are - 1.47-11'(fromMePhi.
Fusion ca( A K. (1). n. 162--l'. Ln-I ZY, 1. 2-inctlaoxv-6-
Chlor(mcriliate in 12-1g. poitioms fin I hr.;it 7,11". f-AW-rd
by builinit 401;'. NzOll-M,fill. then 40"';' N'4011-Ilutill.
and finjllv hoof pyrielinar. SAve 4 g. i"I'l 11, ImIrmiazi with
thAt afticrilm-I Alvive, Ifr-sting W 1c. III with 7#1 ir. I"Wh
3.5 firs. ait 95-14pul. t1wit ticAting %oh i~ watk-r And witta.
ingwithdil. N I (,Of I Unlit it jrtll A It ..Ilk-41W -it It PIW111 If -
phthAlvin' Mlowed by citt". of the in.ol. tia.6tter vi'th
(Cli#CIIS,lr4Vrl).IKX.CFUAIC,41-:19.pwell. ThelClItMe
rxt. on Cwhils 1plov 9'1 C. n,)rmjl forcoluct (1). its.
SimilAr IIUC16 treattrictit wji jocthmsiscol wit), 10-g, o-onalok-s
of the jU%pcv(rd intcrinocilsatts in the re4etston. with the
1,41owing reAults. The N4 sAll of H1 g-Avc ftmilt % ialcut i, A
with jjji~ from tbeffecAcil-, thechlawmk(ast larAtinjalame
jrivr X.7 it. .7-mdAwgy4j 4hkwo.!Jf 1011) -orrid-mr (VI), an.
. -41' 'I'la, johy.haole (IV) m Ow avid IV) I-Ifa gAv, W
'ps I
it. I ms, I It 2t; g. It. Ill"t VI fiv,ooly R I
IJA a. 9. G. St. K114WAA11-111
/a
Y'~I
esSR/Nuclear'Physibs'- Instruments and Installations C-2
'Methods of Measurement and Investiption.
Abs Jaur : Referat Zhur - Fizika, No 1, 1958, 235
Author : Zorin, D.M., Milovanov, 0,S., Shallnov, A.V.
Inst : -
Title : Linearly-Cyclical Accelerator
Orig Pub : Atomn. energiya, 1957, 2, No 6, 552-553
Abstract : In 1954, O.A. Waldner proposed a linearly-cyclical accele-
rator (elutron) operating, like the microtron, on the prin-
ciple of wiltiple resonance. The elutron consists of two
linear acceleraitors, a system of rotating magnetic mirrors,
and injecting limear accelerator, and a deflector that gui-
des the injected electrons to the orbit. The magnetic sys-
tem consists of four magnetic mirrors, each of vhich turns
the bean by 900. A uniform static nagaetic field is per-.
pendicular to the plane of the orbit, and the trajectories
of the particles are directed towards the edge of the
Card 1/3
USSR/Nuclear Physics - Instruments and Installations. C-2
Methods of Meaourement and Investigstion.
Abs Jour Ref Zhur - Fizika, No 1, 1958, 235
magnetic mirror at an angle of 450. Particles of diffe-
rent energies leave in a wide beam from the first mirror.
The second magnetic mirror, aimed at an angle of 450 to
the axis of this beam, deflects the beam by 900 and col-
lects particles of different energies into a narrow beam.
Using a second analogous system of magnetic mirrors, the
particles of various energies can be set into motion in
closed orbits with general portions of the trajectory,
located along the axes of the linear accelerators. For
successful acceleration of the electrons, it is necessa-
ry to satisfy the following relation: 6 E =-em/\ H/(-,
( -)/-- --2), where 4 E is the increment in energy per revolu-
tion, m. is an integer, and /\ is the wavelength of the
high frequency oscillations. Calculation of the motion
of the particles has shown that stable motion of the par-
ticles in this magnetic system can be obtained by using
Card 2/3
I
USSR/Nuclear Physics - Instruments and Installations. C-2
Methods of Measurpmont and Investigation.
Abs Jour : Ref Zhur - Fizika, No 1, 1958, 235
the focusing properties of the scattering fields of the
magnetic mirrors and four quadrupole magnetic lenses,
set at the input and output of linear accelerators.
Card 3/3
40/V/?A/,-
'AUTHOPS: Val, aner, O.A. , blilovanov, 0. S. , Tyagunov, G. A. 89-7-7/32,
S hall nov, A, V. --
TIM: A Linear Electron Accelerator for 4.5 Mev (LineynTy elcktrr)nnv-f
uskoritel' na 4.5 Mev)
PERIODICAL: Atomnaya Fnergiya, 1957, Vol- 3, Nr 7, pp. 41-44
MSTFACT: The accelerator discussed here has two divided sections for the
purpose of being used as elements of a cyclical accelerator. The
fiymt section serves as an injector and the second as an accel-
erating element. The main nodes of the linear accelemtor are
shown in a schematicni drawing. Furthermore, compensation of the
defocuaing forces is discus,,ea in short. The technical computation
of the wave conductor with diaphragm deals with tw3 main pr-)blems-
with the determination of the geometrical dimensions and with the
dynamic of the motion of the electrons in the accelemted system.
The initial data for the computation are given. The dynamic of the
particles in the accelerated system is computed here by means of
Slater's method. The geometric-il dimensions were precisely deter-
mined with the help of experimentally determined dispersion curves.
Experimental Results: Some preliminary operations took place be-
Card 1/2 fore starting the linear accelerator: The section was tuned to a
A Linear Flectron !-,ccelerator for 4.5 MeV 89-7-7/32
low level of efficiency by means of a measuring generator. After
tuning-in of the highfrequency section, injection and focusing
of the electron bcam was inves tigated. The coil was adjusted by
two methods: provisionally by means of the my of a centrifuge in
the case of a lacking accelerated field, and finally with the
hclp of a my of acccieratca electronn. Next, the parametcrs of
this accelerator were investigated. The energy of the accelernted
electrons and their spccttw was determined by means of a spec-
troscopic analyzer. The spectra reoor0ed by this analyzer are
shown in a diagram. The ratio amounts to G," and 8'.: for the
first and second sectors rvspectively. The investigation of the
dependence of the enerTj of the accelerated electrona in the
first section upon the length of the wave produced by the magne-
tron is also of great interest. Also this dependence is shown in
form of a diagram. The accelerator described here was constructed
for laborator-I use. The rvsults obtained will permit the construc-
tion of a more perfect accelerator model. There are 5 figures and
7 references, 0 of whirh are ",lavic.
SUBMITUD: November 9, 1956
AVAILPOLE: Library of Congress
Card V2 1. -Jectror, occelerntLr~-,-ue-stgn 2. '-;'I-,!ctror P(-,c-I,!rntcrs
Test results r_,,iecIrcn f-. c-Itratcrs-',-;'iuip;vient
21(9) SOV/1 12-59-2-3683
Translation from: Referativnyy zhurnal. Elektrotekhnika, 1959, Nr 2, p 207 (USSR)
AUTHOR: Val'dner, 0. A., Milovanov, 0. S., Tyagunov, G. A., and
Shal'nov, A. V~
TITLE: Linear Ele-:tron Accelerator 6 Mev
(Lineynyy elektronnyy uskoiitel' na 6 me'v)
PERIODICAL: Izv. vyssh. uchebn. zavedeniy. Radiotekhnika, 1958, Nr 2,
pp 222-230
ABSTRACT: The Chair of Electrophysical Outfits, Moscow Engineering -Physics
Institute.. designed a linear traveling-wave electron accelerator that comprises
two sections: the bunching section (accelerating the electrons f rom 0 - 4 to 0. 97
of the velocity of light), and the accelerating section (bringing the velocity
closely to that of light). The sections are connected by a sylphon passing the
electrons and by a waveguide matching unit. Ultrahigh-frequency oscillations
are derived from a magnetron which is fed by 2.5-microsec pulses with a
Card 1 /?
SOV 1112-59 -2-3683
Linear Electron Accelerator 6 Mev
repetion frequency Qf 4QO cps. Phase shifters are provided at the inputs of
both sections. The first section consists of a copper tube (also serving as a
vacuumtight envelope) of 90-mm. internal diameter; copper diaphragms are
secured 1--y the heat-fit method (by liquid-nitrogen cooling). The fosuing cou
is slipped over the copper tube. The second section consists of rings held
together by longitudinal pins; it has a separate vacuumtight enclosure. The
accelerator operates with continuous pumping (seven TsLV-100 pumps, liquid-
nitrogen traps). Its current is up to 30 ma; the energy at the first section out-
put is 3.5Mev, and at the second section output, 6.5 Mev. Methods of design,
experimental characteristics, and possible applications are indicated.
Bibliography: 9 items.
P. K. S.
Card 2/2
I Lov-19 /J0 v
89-3-9/30
AUTHORS: Valldner, 0. A. , Milovanov, 0. S. , Tyagunov, G. A.
Shallnov, A. V.
TITLE: A 6 MeV Linear Accelerator for Electrons (Lineynyy elektrorinyy
uskoritell na 6 itlev)
PERIODICALg Atomnaya Energiya, 1958, Vol- 4, Nr 3, pp. 285 - 285 (USSR)
ABSTRACTs The accelerators earlier described (reference 1) were improved
so that they can now supply 6 MeV electrons without having
made it necessary to increase the high-frequency input power.
The improvement was obtained by a redesign of the second sec-
tion of the accelerator where the velocity of wave propaga-
tion is equal to the velocity of light. In thissection the
radius a of the shutter was decreased so much that a/;L -0,13
(earlier it was 0,17). This made possible an increase of the
electric field strength along the axis of up to 30 kV/cm.
.04 A widening of the spectrum of energy of the accelerated
particles was observed as a consequence of the increase of
Card 1/2 energy (10 ~4 compared with earlier 8 clfo). There is I reference,
A 6 MeV Linear Accelerator for Electrons
1 of which is Slavic,
SUBMITTED- November 10, 1957
AVAILABLE's Library of ConjSress
1. Electron accelerators-Redesign
ar'- -z_ F:, I -Z ~~
.1 , -~/ ~ -
Card 2/2
-XMVANOV, S.A.. slesarl, chlen brigady kommunistichookogo truda (Tula)
I----------------
At the tom4s headquarters of the factory. Worewle 6 no.6:27
is l6o. (KM 13:7)
(OKA VALUff-TACATIM. WWYU)
S/759/62/000/004/003/016
D207/D308
AUTHOR6: Gavrilovaq R. K., ~ULova _,_D_._8..and Sobening N. P.
42y
TITLE: Experimental data on the frequency response character-
istic of a circular diaphragm-type waveguide with a
constant phase velocity
SOURCE: Inzhenerno-fizicheskiy institut. Uskoriteli, no. 4,
1962, 12-19, Moscow
TEXT: A method is given for the assembly of sections of a circu-
lar waveguide which ensures the best frequency characteristic in a
linear electron accelerator. The waveguide used in this work had
the following parameters: a/,t = 0.155, a/b = 0.383, 3 = 0.998;
here a is the radius of the apertures in the diaphragms (corruga-
tions), b is the inner radius of the waveguide itself, B is the
phase velocity and A is the wavelength. The sections consisted
each of one ring (internal diameters tolerances of -20 to +50/u,
thickness tolerances of -10 to -150/u) and one annular diaphragm
(aperture diameter tolerances of -10 to -40/u). It is shown that
Card 1/2
3/759/62/000/004/003/016
Experimental data on ... D207/D308
the best frequency characteristic is obtained by assembling these
sections according to increasing or decreasing frequency g of rtr12
modes in them. The frequency f need not be known: only the devia-
tions Af from the calculated value of f muct be measured. In this
way a good frequency characteristic can be obtained for 1 or 2 m
long waveguides working at A = 3 cm or less. For example, the
energies of electrons obtained from an accelerator Y-4)-(U-12) were
altered by less than 2% for Af = 2 Mc/s of the sections assembled
according to increasing or decreasing f. There are 7 figures.
Card 2/2
S/759/62/000/004/004/016
D207/D308
AUTHORS: Gavrilova, R. K., Milovanov 0 S , Sobenin, N. P. and
Shchedrin, I. S. =~
TITLE: Prequency response characteristic of a waveguide buncher
for a linear electron accelerator
SOURCE: Inzhenerno-fizicheskiy institut. Moscow. Uskoriteli,
no. 4, 1962, 20-28
TEXT: It is shown that a 120 cm long buncher for a 3 MeV accelera-
tor of \1-40 (U-10) type must have a microwave reflection coeffi-
cient not greater than 0.07 at + (6-8) Mc/s from the working fre-
quency. The buncher considered Is of the corrugated (diaphragm)
iype and suffers from (1) relatively high wave admittance in the
first sections producing considerable reflections, and (2) inaccu-
racies in the section dimensions giving rise to further reflections.
The effect (1) can be reduced by using thinner diaphragms. This
does not alter the electron-beam parameters since the accelerating
field intensity does not vary strongly with the diaphragm thick-
-Card 1/2
S/759/62/000/004/004/016
'Frequency response characteristic ... D207/D308
ness and the resultant phase velocity changes can be compensated
by varying the inner diameter of the waveguide itself in the first
sections. The effect (2) can be reduced by a-suitable selection
of rings and diaphragms forming the buncher sections: three iden-
tical rings, two half-rings and two pairs of diaphragms are used.
The success of this arrangement is demonstrated by almost comlilete
similarity of the transmission band of the input-waveguide trans-
former and the same transformer cOudled to the buncher, indicat-
ing a transformer/buncher reflection coefficient of 0.1 in the
+ 15 DIc/s range on both sides of the working frequency. There are'
7 figures.
Card 2/2
3/759/62/000/004/009/016
D208/D308
AUTHOR: Milovanov
TITLE: Frequency response characteristic of th'e high-frequency
channel of a linearelectron accelerator
I
SOURCE: Moscow. Inzhener no-fizicheskiy institut. Uskoriteli,
-no. 4, 1962, 7q785
TEXT: In matching a linear accelerator to its microwave source (a
magnetron) it is necessary to know the frequency response of the
accelerator as a whole. For this purpose the author derives an
equivalent circuit for an accelerator consisting of the following
components, connected in series: (1) a magmetron, (2) a phase shif-
ter, (3) an input waveguide transformer N-) a corrugated waveguide,
(5) an output waveguide transformer, (6~ a water load for absorption
of unused microwave power and a terminating section. In the equi-
valent circuit the components (1) and (2) are replaced by a uniform
transmission line, (3) and (5) by quadripoles, ~fl by a transmission
l.ine;with continuously varying parameters, and 6 by a lumped im-
Card 1/2
3/75 62/000/004/009/016
Frequency response characteristic ... D207YD308
pedance. Using this circuit, the frequency of the whole accelera-
tor is obtained: it shows that the waveguide transformers are the
main sources of reflections and therefore their matching governs
the response of the whole channel. Calculations of the frequency
response of some systems done in this way agreed satisfactorily
with experiment for bands of + 10 Mc/s width. The experimental res-
ponse spectra of linear electFon accelerators were provided by R.K.
Gavrilova and N. P. Sobenin. There are 5 figures.
Card 2/2
MIIffIA S.; SHALINOV, A.V.
Deterrining the stability of a magnetron with a fr quency-
dependent !,)ad of the type of a high-frequency Oannel in a
linear el(ctron acceleitor. Uskariteli no. 4:86-94 162.
Frequency drift of a magnetron loaded with a high-frequency
channel in a linear electron accelerator. Ibid.:95-100
(MIRA 17:5)
3/759/62/000/004/011/016
D207/D308
AUTHORS: P and Shallnov, A. V. .
TITLE: Prequency drift of a magnetron loaded with the high-
frequency channel of a linear electron accelerator
SOURCE: Moscow. Inzhenerno-fizicheskiy institut. Uskoriteli,
no. 4, 1962, 95-100
TEXT: The following causes of the fre uency drift of a magnetron
in linear accelerator are considered: M changesof the load tem-
perature which alter the load input impedance, (2) mains voltage
fluctuations which alter the injected electron beam parameters
(and thus the load impedance) as well as the operating conditions
of the magnetron'itself, (3) changes of temperature of the cool-
ing water circulating around the magnetron. It is shown that for
a 3 MeV accelerator fed from a A,= 10 cm magnetron the maximum
.frequency drift does not exceed ~-0.1 Mels for 1% change in the
mains voltage or 10C change in the load temperature. This drift
has to be allowed for only in accelerators with a strong depen-
Card 1/2
S/75 62/000/004/011/016
Prequency drift of a ... D207YD308
dence of the phase velocity in the load on the magnetron operating
frequency. There is 1 figure.
Card 2/2
0. 3-
4/069/62/013/004/019/027
AUTHOR S# 0. T. and U. R.
TITLZo Ituohnoys konforeatelya Mookovskogo Inshoserno-fistabookoge
Institul,(Soloatiflo Conference of the Moscow Suglawering
physics stitate) 1962
PERIODICAL. Atowneye energiya, T.- 13, moo 69 1962, 403 - 606
I TEXT s' The annual conference took place In May 19L with nor@ then 400
delwgatoo participating. A review to given of these leatures that are
assumed to be of Interest for the readers of Atoanaya onarglya. Th*y are
followings A. I. Loypunekly, future of fast reactoral A. A. VasilOyevt
design of accelerators for suporbigh onergise'l 1. is. Posereachuk,
unitaritIq and asymptotic behavior of strong Intoractione at
high onergisol A. A. k1gdol9phonosenologloal theory-for the NODY-body
problems Yu.*D. Fivarokly. 4*oeleration of sedium-evergy antiprotons Is
M. K064109 ft. A. Ioallevoklyq theory of the Mftsbauer effect&
matterl To
M. Ii Ryagasove theory of Ionization losses In Romboaageasous modiuml
To. i. ITGROV* A.. A RWLhadsep. b-f oeadvotivitj at -amberitleal plasm;
card I/i.,
8/O69j62/01)/006/019/027
Nouchnoya konforoatelya... B102/2186
design of 30-mov electron linear acooloratorl To. i. PYstnowt A. A. Gla3kove
V. 0. Lopsto, L. 1. Finogenov, 0. So Skepskiy, V. Do Belesnev, experimental
characteristics of low-energy electron linear soceleratoral 0. A. Zoytlomk"
V. No Levin, So 1. Plakunovo To L. Buirnov, V. K. Khokhlov, radlectrouit
stars of )1V31 (LUIS) -type accoleratoral 0. A. Tyagunovq 0. A. Vslfdnor
pores
B. No Gokhberg,,S. 1. Korshanovo-.-I
Y,-Ye. No Norco, accelerator
-E:Kgtp
classification and tormloologyj mAoia;"V V. So Vorakold, P. 1.
Zeakovich, theoretical analysis,:;- t=%l0=1V!VP1-rs%Iouj 4. 0. Tragovq
P. R. Zoakevich, calculation of attenuation in a diaphragitated isveguidel
Y%. P. Lassreako, A. V. Ryebtsev, optimam attenuation length for linear
accolaratorl A. A. Zhigarevs A. To. Yelineyev., review on trojeatogropho#
1. 0. Morosovaq 0. L. Tyagunov, review an nore, then 500 ton souragal
No A. Abroyant To L. Komarowl duoplasmatrqu-Cype, sourool To So Kusustoove
A. 1. Soloyahkov, calculation and produation of Intense Lou boamal
..V. X. Rybin (To. To Armenskly), IntUctive current transmitter@ of high
sonsitivityl To 1. Korcass 0. L. Tiaganovs kinetic deseription.of-linear.
acceleration of relativistic elootionel A. Do Tlemol:.phose.6swillationo,
ift.1tuser aGalloratoral 5.~L. Bufthteyaq 0. V.-Tookr easkilf bqraa fielt
-offoote is the w&vegulde of an olqstrom linear asselefttorl So Sobovikovi
bard 34