SCIENTIFIC ABSTRACT MILETA, M. - MAGAT, L.M.
Document Type:
Collection:
Document Number (FOIA) /ESDN (CREST):
CIA-RDP86-00513R001031320020-9
Release Decision:
RIF
Original Classification:
S
Document Page Count:
100
Document Creation Date:
November 2, 2016
Document Release Date:
August 31, 2001
Sequence Number:
20
Case Number:
Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
File:
Attachment | Size |
---|---|
CIA-RDP86-00513R001031320020-9.pdf | 8.59 MB |
Body:
-UGOSLAVIA
Y
Branko BOCINA and A0eta-96,G-ARA-5KnC Medicine
, Department of Intern
(Interno ode1je2je) Chief Prof Dr Frano BULIC, and Department of
REntgenology (R ndgenolosko ode1jenje) Chief Prof Dr Mileta MAGARASEVIC,
Hospital (Bolnica) "Dr Dragisa Misovic", Belgrade.
"Milkman's Syndrome Following Judin Esopha,-opl.-.E1-J-.11
Belgrade, Sr2ski Arhiv za Celokupno Lekarstvo, Vol 91, No 3, Mar 63;
pp 305-310.
Abstract [English summary modified]: Case report. Woman aged 44, 12
years after esophagojejunal anastomosis: cachectic edentulous invalid
with multiple skeletal fractures. Vitamin D, calcium and supportive
therapy was unavailing until prednisone was added, whereupon condition
slo,.,,ly started improving. Four rentgenograms, 2 graphs; 12 Western
references.
l./l
BOCINA, Branko; MAGARASEVICj Milota
Milkmanis syndrome after plastic surgery of the jejum- by
Judin's technic. Srpski arh- celok. lek. 91 n0.3:305-310
Mr 163.
1. Interno ode1jenje Bolnice "Dr Dragisa MisOvica u Beogradu
Sef: prof. dr Frano Bulic Rendgenolosko ode1jenje Bolnice
"Dr Dragisa MisOvic" Sef- Prof- dr Kil8ta Magarasev"
(jEJUNUM) (POSTGASTRECTC14Y SYNDRag-?S)
(ESOPHAGUS) (BONE DISEASES)
MAGARASEVIG, Milica,, dipl.cliem., ajj'st-,5nt, BaTOJ, Mirjaru, (JI-iijI.Ing.teb.,
a~lstent,
Preparation of white dextrine, and determination of its chfrac-
teristics; Kem irld 12 no.7:521-525 JV63.
1. Institut za preli-ramb-2ru irclustriju, Illovi Sad.
MkIMLMGER, A., professor-, KLGARITK, I., inzhoner.
Single etandard block building plan for meat combines. HiasAnd.
SSSR. 25 no.4:30-34 154. (MLRA 7:8)
1. Giprompsomolprom.
(Packing houses)
T
VOICHOK, L.Ya.; IVA1107, B.I., r.~taenzent; ~UGARIK. K.U., retsoniont;
ANDRLMNSKIY, N.A., redahftcc.
[Methcds of measurement in inter;Lal comb-,zstion eng-Ines] MallodF izme-
renii v dvigateliakh vnutranneg,. sgc:~cz-ila. M,,)sk-v,a, Gos. nauchnc-tekh--).
izd-vc, mashinostroit9linoi llf,-rZr, 1?55. 270 pe (MIRA 8:5)
(Gas and oil engines-Teatiing)
P/Z; pipo
,Solo) ~V)bk_rjoj L-30,j (1) :paf~-n a-xa-Ai ITO j0 saclkj 8aJq'j
2tllAOIIOJ aqL ._jalTTj qlaj u jo djaq gill tjjjx slanpo-H inaj& aql. moij paij
-i.ind slix ITO aqj 1Xup qpaj qDua jo pua aili IV '3 0 61 cl C MO_1j laquA aq-1
jo Iniql PUT? u-,iqo spiA ITO aql jo aitiqujadmal aqj 'poiiad
~) 006 oj C, wo-ij pa9
2u1'j.xvqF aq'i 19UI.Xnp s'Z030,1d aqj JO atil UO 9U12Ua aq'j
jo alulp Iiimxaqq aqj jo loajja aqj auTuualap oj, -,zitioq 09--ge, ioj uTu PTq
aut-9ua 1q'j _13qJq j11T3'jFUOo suiBme.1 Pur Duip-aa-13ap Sdoqs auam ~ui_i a1qj jo
paalg Oql 'jUqj P0IV0Aa_1 JUaMT.1adxa aiql ~pawiq Cq Iq ITO aqj
Ouians!pam jo foacipijja aqq asuajaui al auo paqqTm_iai a3TAap 2uiln:lmoo
uozq?jplui3F patdieap-Sjjlu-pad~ V -IToo p jo mjoj ~ql, ui '411nq FzvJA Q3TAap
0uTqn1M03 DID uo iaqmutp 9(uTqn.1moa atn 19uiplaF, tuoij PIDnpoid iloax aq-4
jua,&aad o1 -uoiliijTvjE;ui ji9juamijadxe aqq. uo polqMaps'a PUA majets uoTj-0jn3
-.113 ITO ap!9'4nO Uv 1a,,qd.xnJ siqq jog -aOlAap OuTInimo3 aql. qJnojql XTsno
-nulluoo alialn3ii3 o1 I!r) aqI 9UTAOII'G Xq pa-insaam Rum sqDnpoid xoax aqj jo
91 jA 113 1 aiql -pqjn,~-aa InTIuuqfzqnF Xuv pjaTX jou pTp skup t,-Z u-oql -3.xom jo
UOTIUIPUJJT uy -V/aT-znD/Lu 90-0 unql seal ~Wii aqj jo XjTATjau 3ijT3ad,~
0111 jo :3uitinioaq aqj aiojag Ggaj Sq 9ATj3u-~mm1A auruz)aq 'Ouii
a9l lpadolovt GATI31U-Xj?j'~iq -ala ' I ( u 11 JO U01113.100JUIPTp aqj .10J
0 c V9
0 f; rf / C) 9,-, a
J
"'InOm aqj j0 U01,113ulumaqaq
Papaau qluom Quo i0 porxaf
Tuuo""Pu u' laIJu PuB AOIJ uo-ilnau 3ag~ M3
lao-zi naa al 0 1 u ql Tm "'I aax i no j 1 oj I 1 9, u 1I T, I p -a, al j V ~Jua2T?qj
"T uOlly!TPT?Jj-l jo dTaq aq,; 3nu
clu T q'1" uOTI`,&"13'u Ol. Paq3aCqns E;luk 5uT
-31319d uolgli .1addn paDnpojd-,Cll,,,,,.
-I.Jadxo aqj jo tuujjtTp V a qj, -UAoqp sl uojjujj'0'jRUT TT?qU'
'POAOMOJ uoaq pmj p am
PUU OUIJ aqj 'Clalam 4 jajIjj UOTI100 TJT.Ind-Ifo q2noj
_U03 Oq OUT'dUa "I UO PaM'OJ-19'J 8-10A 902auq3 IUUOTI3r"'js
-MOD 'Ead' 009'I lia -d-q 0 1 j0 'CIT"1_00 U VUAnq PU13 UOTITU,9T
'103-3ag) /1/S. 8 ~Z_. c Vr L' qITA' 2uviuaado a* . passaid
'aja'n S"Re" aql -S-101'03TPUT UrPtla -1 ap u T Ito
_OAl U UO P&l3nPUO3
popad dri-2u, *Eq u aq-pulg_ou j0 a,~n aqj Xq
aqj uo Ino pa Tj uolsid auT2ua aig j0 .113aft
q3j'GasaJ lvluolurjadxa qj,., F1,90P JOq'jn*
10 aql
W-cz '0961 19 Ou , 'IsOuuaTt1R'kMO.1d nkPu, lTqOMO'IAVI Vivolaor"m
elol'DIPUT 9ATj117OTpj?j jo dra[I
aq1 tilPA luli U01sid n jo 1paji
atil jo U011pulauala(I
:Mljl
',CT4P!jOyfj.Nj pUU ',j
03JU0119143fUZ SH0111fiv
900/fAV900/000 /09/cII/S
1H
3/11 60/000/006/003/006
Determination of the wear... D269YI)302
1013-49 /A/) oil; (2) 75% NIS-20 "nd 25% transformer oil, as well as G03T
982-53 (B) oil; (3) 50% MS-20 and 50% traniformer (V) oil, The charac-
teriatics of the wear change of the piston ring during the starting-and-
heating-up period of the engine at n = 1, 500 rpm are shown. Experiments
showed that the magnitude and the sl-eed of wear during the starting-and-
heating-up period depend on the time interval between the startings, To
determine the effect of the engine load on the wear, the engine was always
started under the same conditions and merely the load time had been changed.
The results are presented in gral-hic form. Table 2 shows the relations
existing between the wears of piston rings during the starting period.
There are six figures, 2 tables and 3 :3oviet-bloc references.
Card 3/4
------------------ ---
TSMKOV, V.H.; KWARIK. S.Ya.
vu=oaptimster of high resolving power. Yest.len.un. 9 no.8:163-168
D.
Ag 154. (MMA 8:7)
(Diffusion) (Moleculew rotation)
54), 15(8) "M/76-33-4-13/32
AUTHORS: Magarik, S. Ya., Tsvetkov, V. N.
TITLE: The Optical Anisotropy of Poly-methylm:-,hacrylate, Poly-para-
tert-butylphenylmethacrylate and Their Copolymers (Opticheskaya
anizotropiya polimetilmetakrilata, pol-l-p-tret-tutilfenil-
metakrilata i ikh sopolimerov)
PERIODICAL: Zhurnal fizicheskoy khimii, 1959, Vol 33, Nr 4, Pp 83S-83~1
(USSR)
ABSTRACT: In the present paper the method of dynamic double refraction of
light in a flowing polymer solution is applied to the investiga-
tion of the optical anisotropy of the macromolecules. Poly-
methylmethacrylate W an.1 poly-para-tert-butylphenylmethac--ylate
(II) were subjected to comparative determinations since thay
differ from one another only by their dimension and the anisc-
tropy of the lateral eater groups. Benzene was used as solveiit
for (I) and according to measurements made by S. I. Kleni--i (by
means of a polarization interferometer) the difference uf the
refraction indices between the solvent, and the solution per
-n )/C = 6.1o-5. fII) and its copolymers
concentration unit (n
'
1
no. The double refrao-
with (I) was investigated in chlorobenze
tion of light was investigated in a universal 11dynamooptimeter"
(Ref 3). The anisotropy of (I) is independent of the molecular
Card 1/2 weight in 5 different fractions wit~i a 100-fold change of the
/76-`~-',-17/32
SOV/
The Optical Anisotropy of Polynethy1_,.-_,ethacrylate, I
methacrylate and Their Copolymers 25 3
molecular weight (Table) and is (a -.a +'5.5.10- CM which
hat ef poiyctyre~ e. '-he
is a low value as compared e.(-;. 7.
_Cal and -ihct~-
results of parallel investigations of dynamC_Dp.14
elastic properties of the polymers are compared and it is fuun]
that in (I) the transition from the vitreous into th--! '-J1'-,':lY
elastic state does not take place sharply (as is the e,~~Ela in
many polymers) but slowly within a larger temperature ran:re.
In the case of (I) it may be assumed that a coml.,lete f-reedom
of rotation exists around the bonds C-C and C-0 in the latexal
ester groups of the macromolecules. In the case of (II) a free
rotation for the benzene rinG and around the C-C bond was ob-
served; the rotation around the C-0 bond, !,ovever- is considerab-
ly inhibited. The latter is explained by the interaction c,f the
heavy substituents (pith aromatic cycle ano t1he buty' rLl,,)'l
at the end of the lateral groups. In conclusion 7.1. G. Zhenevskaya
is thanked for the preparation of the samples. There are 4 fig-
ures, I table, and 13 references, 10 of which are Soviet.
ASSOCIATION: Institut vysokor-Lolekulyarnykh soyGdineniyLenin.,-rad
(Institute of Iligh-nolecular Compounds JLeningrad)
SUBMITTED: September 18, 1957
Card 2/2
AUTHORS:
TITLE:
PERIODICAL:
ABSTRACT:
CARD 1/3
20-5-17/54
Tsvetkov, V. N.v, Magarik, S. Ya.
The Optical Anisotropy of Some Chain-Like Molecules
Which Contain Benzene Rings (Opticheskaya anizotropiya
nekotorykh tE3epnykh molekul, soderzhashchikh benzolInyye
kolltsa).
Doklady Akademii Nauk SSSR, 1957, Vol. 115, Nr 5,
pp. 91 1 -914 (USSR)
The difference of polarizability of a monomeric term
(in the direction of the chain of the main valences
and in the direction opposite to it) with respect to the
sign agrees with the anisotropy of the segment. The
present paper makes use of this fact for the comparative
study of the structure of the polymeric chains which
contain benzene rings. The following 4 polymers were
investigated: polystirol (Pl), poly-n-tetra-butyl-
pheny1metacrylate (P2), P01Y-1,4-diisopropenyl-benzene
(P3) and diisopropenyldiphenylethane (P 4 ). All these
polymers were not fractionated. For the purpose of
determining both main polarizabilities al and a2 of a
The Optical Anisotropy of Some Chain-Like moloculoo 20-5-17/54
Which Contain Benzene Rings
segment of the chain dynamo-optical and vi3cosimetrical
measurements were undertaken on the polymers in such
solvents as exclude the form effect. Chlorine benzene was
used as a solvent for P2 and "bromoform" for the three
other polymers. The dynamical double refraction of rays
was investigated in a dynamometer with an internal rotor.
The dependence of the double ray refraction upon the
velocity gradients determined in this way is here shown
in figuros for tho mentioned polymero. The difforonce
(al_a2) is a large positive quantity for P 3 and P 4and
for P, and P 2 a large negative quantity. On the basis
of a structural scheme given here the anisotropy of the
monomer term can be computed in the investigated polymers.
The corresponding results are given in a table. The
differences of the polarizabilities of the terms of the
chain P1 - P2 found here have the same sign in all case3
as that of the experimental values of a 1 - Q2 and they
CARD 2/5 also have reasonable absolute values. There are 4 figures,
7
5 (3), 5 (4)
AUTHORS: Tsvetkov, V. N., Mag
~arik, S. Ya. SCV/20--27-4-32/60
TITLE: Optical Anisotropy of Molecules of 1sotactic Polystyrene
PERIODICAL: Doklady Akademii nauk SSSR, 1959, Vol 127, Nr A., Pp 840 - 843
(USSR)
ABSTRACT: The isotactic and atactic polymeric molecules with different
structures could hitherto only be observed in the solid phase.
On the other hand, the investigation of the structure of the
polymers by the methods available is only possible in dilute
solutions. The present paper tries to investigate the stereo-
specific features of the above polymers by comparative investi-
gations of the optical anisotropy of the isotactic and atactic
forms. Investigations were carried out by means of polystyrene.
From X-ray pictures, the crystalline structure of isotactic
polystyrene was determined. The molecular weight was determined
by the light diffusion in toluene to be equal to 800,000. The
X-ray pictures were made by L. A. Volkova at the laboratory of
Professor M. V. Vollkenshteyn, and the molecular weight was de-
termined by V. Ye. Eskin at the laboratory mentioned below. The
Card 1/3 optical anisotropy was determined by measuring the radiation
Optical Anisotropy of Molecules of Isotactic Poly- S011/201-127-4-3,2/6o
styrene
double refraction in a bromoform solution (broinoform has the
same r4fractive index as polystyrene without a form effect).
For the ratio [nj/[7], which permits calculations of (a, -- a 2)
the difference of the two principal polarizabilities of a
statistic molecule segment. the Peterlin's relation An/g(~- ?0)
was used. In this case, the concentration of polystyrene in the
solution need not be determined. 2~0 are thp viscosities of
the solution and solvent. Table 1 shows the values for the
double refraction and the viscosity of the two types of sty-
rene. Enj/[~] amounted to for the isotaotic mole-
cule and to -13-1.10- 10 for the atactic molecule. The values
for W/[~] and 6n/g(~-~o) were in good agreement. The optical
anisotropy (a, - a 2) was calculated by the formula in reference
18. It amounted to --224-10- 25 and -146.10- 25 for the two forms.
The latter value agrees with data of other papers (Refs 20-24).
Card 2/3 The difference found for the optical anisotropy was ascribed
MAGARY, S, Yau, BOYTSOVA, N. N., OKUTIEVA, M.G. and TSVETKOV, V. 11. (USSR)
StereosDetsifictiriost i opticheskie svoistva polimQrCrv
Stereospecificity and optical properties of polymers
IUPAC 3 11:378-87
I mi i, Moiscow,
report presented at the Intl. Symposium on Macromolecular Che sti-
i4-i8 June 6o.
ELL
-YA,
3 c 33 - 0
t
i
7 d a
a u
JS
Nr
.4 Vd
A
All
NSKIN, V.Te.; HttGr~RIK, S.Ya.
Some pretransition pbeaomena in the vicinIty of the critical
temperature of mizing, in the Bystem polymer solvent. Tysolcom.
soed. 2 no-5:806-807 14Y '60- (14ML 13:8)
1. Institut vysokomolekulyarrqkh soyedinaniy SSSR.
(Polymers)
;L
IM
j-
"267
s/190/63/005/001/001/020
~5_ 9 100 B101/B186
AUTHORS: Tsvetkov, V. N., Magarik, S. Ya.t Klenint S. I., E5kin, V. Ye*
TITLE: Synthebis of graft copolymers. II. Dimensions, configuration,
and optical properties of the macromolecules of the graft
methyl metnacrylate - styrene copolymer
PERIODICAL: Vysokom6lekulyarnyye soyedineniya, v- 5, no. 1, 1965, 5 - 10
. 3
TEXT; eolystyrene of molecular weight,,;,2-10 was grafted on polymethyl
4
methacrylate, molecular weight 7-10 . Refractometric examination of the
copolymer composition showed the molar part of polystyrene to be 0.9. The
average-weight molecular weight of - (0.5.- 0.6)-10 6 was determined by
light scattering. Analysis of the diffusion curve proved the content of ihe
low-molecular components to be no more than 5-1W'6. The optical anisotropy
of the copolymer was determined by flow birefringence in bromoform.
According to W. Kuhn and H. Kuhr~.(Helv. chim. acta, 26, 1394, 1943; 28,
1553, 1945), 870-10- 25CM3 is found for the difference (a l- CL2in main
Card 1/2
I
Synthesis of graft copolymers. S/190/63/005/001/001/320
B101/B186
polarization capacities of one macromolecular segment of tne copolymer;
for POlymethyl methacrylate, this value is (2 - 20)-10- 25 CM3, and for
polyst~~enc-it- is db3_. 'Based on Kuhn's theory, the
theoretical calculation of the anisotropy Of one segment of the principal
methyl methacrylate chain with short graft polystyrene chains, proved that
(a 1-a2) is +220-10- 25 cm 3, when the Polystyrene Polymerization coefficient
is 40 and when the molar part of Polystyrene is 0.9. The experimental
value, which is four times as nigh, is explained by the fact that the
chain stiffness of the graft copolymer is higher than that of nomopolymers.
Conclusion: The optical anisotropy of a branched polymer may differ
considerably from the anisotropy of its components. There are 5 figures
and 1 table.
ASSOCIATION: institut vysokomolekulyarnykh soyedineniy AN 36SR
(Institute of High-molecular Compounds AS USSR)
SUBIAIVIED: July 1, 1961
Card 2/2
TSVETKOV, V.N.-, KLENIN, S.I.; MAGARIK S.Ya.
Gptical anisotropy of polymethyl methacrylate - polys*~7rene
graft copolymers. Vysokom. soed 6 no.3g400-405 Mr'64.
(MIRA 17:5)
1. Institut v-ysokomolekulyarnykil soyedinen'.y AN SSSR.
1--ff2a
MAGARIKI V.A.; _~AGOIIINYY, N.M. p otv, red.; YAKOVKI149 M.V., red.; POPOVA,
- --tekhn. red.
[Standard programs for the B=4-2 digital computer of the
Computer CenAer of the Aeadeny of Sciences of the U.S.S.R.)
Standartnye progra=y BESM-2 vychislitelil2ogo tsentra AN SSSR.
M,oskv,a, Vychislitellwji tsentr AN SSSR. 0"0*2. 1960. 33 P.
(MIRA 14:8)
(Electronic digital computers) (Programming (Electronic computers))
NAGARIK, V A
Sistema komand universallnoy tsifrovoy av-tomticheskoy
mashiny BESM-2 Vychislitellnogo Tsentra AN SSSR (by)
V.A. Magarlk (J) N,Mj, Na-gormy. Moskva, Vychislitel'nyy
Tsentr AN SSSR, 1960.
83 p. diagrs.
PHASE I BOOK EXPLOITATION
Magarik, V. A., and N. H. Nagornyy
SOV/5880
Sistema komand universal'noy tsifrovoy avtomaticheskoy mashiny
BEM-2 Vychislitel'nogo tsentra AN SSSR (Instruction System for
the BESM-2 Universal Digital Computer) 2d ed., rev. Moscow,
Vychislitel'nyy tsentr AN SSSR, 1961. 88 p. 3000 copies printecl.
Sponsoring Agency: Akademiya nauk SSSR. Vychislitel'nyy tsentr.
Resp. Ed.: V. M. Kurochikin, Candidate of Physics and Mathematics;
Ed.: 1. A. Orlova; Tech. Ed.: A. I. Korkina.
PURPOSE: This book is primarily intended for personnel of scientifl'io
and industrial organizations which use computers. It may also
prove useful for training programmers.
Card 1/ft
Instruction System (Cont.) SOV/5880
COVERAGE: The book describes the control and instruction system
for the BEST-1-2 universal digital Ikltomatic computer of the
Computation Center, Academy of Sciences USSR. The modificaL.'~oli-
of this system which were recommended by the BEST,1-2 conferences
held in Riga and Leningrad have been incorporated into the secof,-~"'.
edition. No personalities are mentioned. There are no reter-
encese
TABLE OF COWENTS:
Foreword
Ch. 1. Information Coding
1. Organization diagram of a computer
2. Memory
Card 2AO
7
I
9
9
10
BOGDANOV, K.T.; MAGARIK, V.A.
Use of the HES14-2 computer in determining the S2 tidal comDonent
for the Pacific water area. Dokl. AN SSSR 151 no.6:1315-1318
Ag 163. (MIRA 16:10)
1. Institut okeanologii AN SSSR. Predstavleno akademikom
D.I.Shcherbakovym.
BOGDANCV K. T. KIII, ~Ii~ K V A.
Numerical solution of hydrodynamic equaticr-q on
L,KSI.1-2 electroni, computer for the water area ,~:e Pac-ific
Ocea.n. Trud - okean ',"5:73-98 64
y TnSt.
Y
E PF
T,
'Y T JDIJG
'0411
RR
AP50095JI;
_J
A tT- r., on Pargianovich,-I.A,; Shuraleva, Ye.1 ;
-1,y, G,F. Magaril
Dobr ansk
Razintseva. M.D.
!,j ~,i, I TT.Z,: Some da'4'a on the luminescent roperties 09 europlum activated sodium
le ar
chlc~zid td potass
ium chloride phosphors /Report. 12th Conference on Luminescencto
'rLoid in Llvovf ZO Jan-S Feb 1%3
_47
,-7u Z Ali
S
-:Z: tSSSR. Izvestiya, Seriya fizicl,,askaya, v. 29, 11o. 3, 1965, 409-411
TA,,O: fluorescence, fluore3cent cryrital, sodium ch.laride. Dotassium
u --d , ouroplum, ray irradiation, F center
TRICI-Nu and KCI-Eu crystals weru gravn from meilts containing from 0*1 to
13 mola purcant emropiwi and their lumineso-onco p~ropzurivics~ were Investigated.
spectra, omission spactra, and glo-fi curvo-q wei~e recorded and the
---- -- fccts on these of variow; heat treatmentG and irxadiat"on with 50 VdV x-rays
'were i1we"Itigated. It tri lrOlicsited that intorc-sting pncullaaritiea
"b-,vc b,.-ea found, for the explaitatiou o;Z which bmther
2 a L' a 3. 1-actri Is roquircd. A.-morij tlhnoz; intoroatizg pocall'aritico 1"'Opo the
11!~-. Tks w=itatlon -bandg o:Z M.Cl:t--ta at 24.5 =d 335 qu lapp:~~Mxz~d to be dUD n
Cara 1/2
M
_7
---- -- ---- .... ..
-T
7
AF5M95M
ix1gle type of luminescence center, in agreement with the'~views of Ya.Ya. Kira
and A. I - Mylizk (Tr. - In-ta f iz. i as tron, AN Est SSR, 110- ~'8, 36 (1S62) but a
b:~.nel at 2.65 mp, distinVishad by its behavior uzder heat- "~roatment, appeared to
~,ra due to a second type of center. Cantem ol this secomr type did not occur in
KCI:Eu. irradiation with x.-rays Crently reduced the I "m vescance of both materials
this vias fully revoinible in ECI:Eu, the Itutin'escevico being restored,,by a
SCQcC ammeal, but only partly roveroible In HACI:Eu. Irr-161--tion with x-rays aloo
Led to t~_e tormation of F centers; the F barrd -in IMCI:Eu *.as mach wider than in
rstlre 1"!C Tho ligh-1. Uum Stored in NaCl:Eu waa; reduced b3i x-ray irradiation, a
ad
stru,:Ature ol! its glow c!irve was scm=mhat altert-d. orig. -art. hao: 3 figures.
a rd I talbleo
A S" S X IT A T I'M 1: IrkutsUy gmudamtvann7y tmiversit,3t (Irkw;sh atate Uaiversity)
TIMD: 00" 12E 00 BUD CME: G~%), SS
017-7,11:
Ccrd _'1/2 IV16
T 'z;
MAGARIL, K.Yu., kandidat maditsinskikh nauk
Advanced training for physicians In disabilit7 evaluation. Sov.
zdrav. 16 no.4.39-43 AD '57. (MIRA 10:8)
(WORKO
capacity determ.. post-graduate train. of med.
experts (Rus))
----------------
K&GARIL, K.Tn., kaud.med.uauk
impra7ing the quality of disability evaluation in hypertension
as shown by data from Leningrad from 1953 to 1955 '59.
(KIn 13:7)
(DISABILITY EVALUATION) (HTPKMNSIOR)
mmAm, M.Yu., kand.med.na
Initial entrance on disability on accound of hypertension*
Trudy LISTIN 2:332-339 159. (MIRA 13:7)
(HypMaMSION) (DISABILITY 97AWATION)
4
MAGARIL, H.Tu., kand.med.nauk
Dynamics of the working capacity and mortalit7 of those disabled
by hypertension; according to data of the Medical Commission for
Disability Waluation in Leningrad. Sov.med. 23 no.8:100-102 Ag
159. (MIRA 12:12)
1. Iz Leningradskogo nauchno-issladavatellskoqo instituta ekspertizy
tradosposobnosti i trudoustro7stva invalidov kdir. P.A. Makkaveyekiy).
(HYPERTENSION statistics)
(DISABILITY EVALUATION)
MILMTSKAyA, prof.; NIKITINA., K.I., vrach-ekspert; 4490UL,
M.yu,,, kand.zed.nauk
Work capacit7 in elderly and senile hypertension Patients- q-rWy
(MIRA l6S2)
.,IETIN no.4t92-99 160.
(GERIATRICS) (HYPERTENSIOV) (DISABILITY EVAUJATION)
T-F -1,3i,
K=IVITSKAYA, 14.1.19 prof.; NIKITITIA, K.I., vrach-ekspert;
MAGARIL,'~'V,ju. kand.med.nauk
Chareqteristulce of the clinical manifestations of hyperz-aznsion
inAaderly and senile persons. T:midy LIETIN noa4alOO-112 160.
(MIRA 1612)
(GERIATRIGS) (HYPERTENSION)
KHVILMTSKAYA, M.I., pr0f-;-KAqw--~1-m--TU-
Morbidity, mortality and disability in coronary ahteroselerosis.
Teray.arkho no68:53-58 162a (MIRA 15812)
1. T2v Leningradskogo nauchno-issledovatellskogo instituta ekspertisy
trudooposobnosti i organizataii truda invalidov i nauchno-metodiche-
skogo byuro sanitarnoy atatistiki laningradakogo sanitarnogo otdela
r,dravookhranoniya.
(CORONARY HEART DISEASES) (ARTERIOSCLEROSIS)
IJAG&RIL, R.Z.
Relation of the heat of vanorization to the density of a liquid and
of its saturated vapor, and to the surface tension of the liquid.
Zhur.fiz.khim. 29 no-7:1301-1303 Jl '55. (MLHA 9:3)
(Heat of vaporization)
AU-THOR Magaril, R. Z. (UmsLk Rt 1 L 540a
TITLE: The relationship between pressure and temperature for
hydrocarbons at their critical point, (Svyaz' davleniya
i temperatury v kritichesk-oy toch~-_e dlya uZlevodorodov).
PERIODICAL: "Khimi:la i_Tekh-,iologiya Topliva i Masel" (Chemistry and
Technology of Fuels and Lubricants),77-57, No.21
pp.1-2 (U.S.S.R.)
ABSTRACT: On the basis of literature data the following relation-
ship between pressure and temperature for hydrocarbons
at the critical point was obtained:
1n P Ts (T T ) (ap x 1
cr Tcr cr - S m) 760 i-033
where T s absolute normal boiling temperature;
T absolute critical temperature;
1P cr temperature coefficient of pressure
bT )760- at normal boiling point in atm/degree.
Using this equation the critical pressure for 38 hydro-
carbons was calculated. 1,11ith the exception of methane,
ethane, isobutylbenzene and naphthalene, satisfactory
results were obtained,, There are 7 Russian references.
Card 1/1
3/138/60/ooo/Cil2/006/009
A051/AO27
AUTHORS: Magaril, R.Z., Aksenova, E.I.
I -
TITLE: Raw Material for the Production of Carbon Blacks
PERIODICAL: Kauchuk i rezina, 1960, No. 12, pp 24-27
A
TEXT: The increase in carbon black production by the end of the cur-
rent Seven-Year Plan (1959-65) is expected to be 2.2 times, mostly as a re-
sult of the growth in furnace carbon black production from liquid raw
material. Petroleum raw material will be used 4.5 times more in this con-
nection. It is pointed out here that the quantities of kerosene-gas-oil
fractions produced from the pyrolysis of low-sulfur oils. (i.e., green oil)
are inadequate. The present article deals with the question of the effect
of the sulfur contained in carbon black on its properties. A sample of
carbon black with a specific surface of 50 m 21g containing 1.89% sulfur
was used as the object of study. The sulfur distribution in the carbon
black particle was investigated first. The carbon black was oxidized in a
muffle furnace at various temperatures for a period of 15, 30 and 60 min.
Table 1 shows the changes in the properties when oxidation took place in
Card 1113
S/138/60/000/012/000'//009
Raw Material for the Production of Carbon. Blacks A051/AO27
air. A second series of tests involved the processing of the carbon black
for 30 min at various temperatures in a hydrogen atmospherE (Table 2). An
assumption is made that the process has a diffusive nature. This was
checked by processing the carbon black at 7000C during 1, 2, 3, 4, 5 hours
in a hydrogen stream. Table 3 shows that with an increase in the processing
time the amount of sulfur removed grows linearly, which also points to the
diffusion nature of the process of sulfur removal. Conclusions are drawn
that the desulfuring of carbon black takes place as a result of the hydrogen
diffusion into the depth of the carbon black particle, the formation of hy-
drogen sulfide and its diffusion from the depth of the carbon black par-
ticle first to its surface and then into the gas stream. A false equili-
brium is set up here regardless of the temperature of the process in the
system C-H 2S-CS 2-H2 leading to the presence of about 5%o of carbon bisulfide
in the gas. When processing carbon black in nitrogen at various temperattu*Es
the amount of sulfur removed does not depend on the processing temperature
(Table 5). Sulfur is removed only from the surface. The estimated amount of
sulfur on the surface in this case is found to be about 0.12%6. It is further
estimated that if the carbon, with which the sulfur rpmoved is bound is
equal to 2 molecular surface layers of carbon in weight, then the sulfur
Card 2/8
S/138/60/000/012/006/009
A051/AO27
Raw Material for the Production of Carbon Blacks
content in it would be: 0.12 - 1.89 %
3.35 - 50 - 2 - 1.9 - 1C-+ ~ Q
where 3.35 is the thickness of the monomolecular layer of the carbon in A,
1 9 is the density of the carbon, 50 is the specific surface of carbon black,
m~lg. The results of the tests also led to the conclusion that the sulfur
is distributed equally in the carbon black particle. There are no signifi-
cant amounts of sulfur on the surface of the particle and a high quantity of
sulfur in the carbon black has no great effect on the properties of the
latter. An additional study was made of the sulfur distribution between
carbon black and gas in the production of lamp, jet carbon blacks and ex-
perimental samples. The experiments were conducted on industrial equipment
of the Omskiy sazhevyy zavod (Omsk Carbon Black Plant) and on experimental
apparatus of NIIShP. The rOCT 1437-56 (GOST 1437-56) and FOCT 1431-49
(GOST 1431-49) methods were used for determining the sulfur content in
carbon black and raw material; hydrogen sulfide in the gas was determined
by the absorption of iodine in the solution; cadmium acetate and carbon
bisulfide by the absorption of an alcohol KOH solution. The ratio of carbon
Card 3/8
S/138/60/000/012/006/009
Raw Material for the Production of Carbon Blacks A05l/AO27
bisulfide and hydrogen sulfide in the gas is found to be the same for the
given type of carbon black regardless of the sulfur content in the raw
material. The authors derive the following main conclusions from their
experiments: 1) sulfur is distributed uniformly along the depth of the car-
bon black particles in the studied sample; 2) the sulfur content depends
mostly on the specific suiface of the carbon black, the type of raw material
and to a lesser extent on the quantity of the sulfur in the raw material;
3) it is established that in the production of carbon black sulfur in the
gas is in the form of carbon bisulfide and hydrogen sulfide. With an in-
crease in the temperature the production of carbon black relative to hydro-
gen sulfide increases. There are 7 tables.
ASSOCIATION: Nauchno-issledovatel'skiy konstruktorsko-tekhnologicheskiy
institut shinnoy promyshlennosti, g. Omsk (Scientific Research
Institute of Technology and Design of the Tire Industry in Omsk)
Card 4/ 8
3/138/60/000/012/006/009
Raw Material for the Production of Carbon Blacks A05l/A027
e~mne~,iTyp
[POANTMIt-
IMUOM coge n3lum
P
cc; U a CaRM r100ePXII0CTb.
All.
otcPmallife
acilml
w(licileillin, 0XIICAC1.112. OT llaqm-
I.,. ca
% ar I Mill,
no CIICTO-~;j
1710 AACOPdtXKH zerymlix, PEI 41MA0.
Xj/Z
narroutevinto uoAa
100,0 1,89 0
100
49,1 7
so 4 6 4
0 1.00
400 Is 92,9 1,62 79
: - 46:5 5:7 3 4
: 1,00
400 30 98,3 1,55 80.6 48 ,5 5.6 3,2 0.95
500 30 72,0 1,44 54,9 77 2 8,4 2,4 0,98
500 60 135,2 1,38 47,6 1 101:5 10,7 2,4 1.10
Table 1: It change i n the carbon black properties in air oxidation. I oxi-
dation temp., OC; '12) oxidation duration, min.; Q) carbon black weight, %
of 'he initial weight; (4) sulfur content in the carbon black; ,-5., sp. sur-
face, m2/g; L
,16 "~ of the initial content'; 1,T,, by light absorption; by
iodine absorption; volatile components content', c,o- DH- Oil
number ml1g.
------ ------ - ------
S11381601000101210061009
Raw Material for the Produ ction of Car bon Blacks A051/A027
YAaAC110 CCPU. Table 2: Ef fect of temperature of carbon black
processing in a hydrogen flow on the degree of
"a cdld I's cepy III came desulfurizi
O ng of carbon black. -D temp. of pro-
cessing
C; (Z, sulfur removed, on carbon
300 U. 12 6,3 black; on sulfur in the carbon black.
400 0,12 6,3
500 0,21 11,1
500
) 0,23
7 12,2 Table 3: Effect
YAa;teno ceptui. e%
OR
700 0,1
0
33 9.()
17
5 T"LlIOCT6
e of the duration
800
0 ,
0 52
: ,
27.5 llitil
y:1.1.1
Y-11M. (T)
I'a "my Ila ccPY is ca of the removal
90 0
66 34,9
of volatile com-
901)
99t) 0 85
0,60 31,8
'
0 ponents from car-
0
72 38,1
2 0
: 0 73 38,6 bon black in a
:
3,0 0,83 43,8 hydrogen flow at
4,0
5,0 0,80 42,3
0,92 48,6 7000C on the de-*
gree of desul-
furizing o f carbon black. (1) Duration of volatile comp. removal, hrs.
(,?, sulfur removed, %; (5) on carbon: (4.,on the sulfur in carbon black.
Card 6/ 8
S/138/60/000/012/006/009
Raw Material for the Production of Carbon Blacks A05l/A027
'Table 4: Composition of the sulfur compounds of the gas removed in the Dro-
cessing of carbon black in a hydrogen flow. ~U processing temperature OC;
(2~ Rate of hydrogen flow, Ml'imin.; (3 sulfur removal; 1,4 on carbon g1g;
in the form of H2S,~o; ~C in the form Of CS2,%Q;
T
n
3
a CKOPO
-b YAWIeD. cepu ~;11
---
%pl
=
Z
~c 11ponycKaJ1119
BOAOP0113.
--y
g)
500 100 - 95.0 -10
600 100 - 95 0 5.0
750 100 97:6 2,4
goo 100 o,oogg 97 5 2,5
.900 300 0,0102 94:9 5,1
900 500 0.0108 94.6 5,4
Card 7/8
S/138/60/000/012/oo6/oog
Paw Material for the Production of Carbon Blacks A05l/A027
Table 5: Effect of temperature on carbon black
YWel") cepu " "I"ta
processing in a nitrogen flow on the degree r.remne C0AePW.WjjI0
~Cpu
of desulfurizing of carbon black. (1) pro- H!S. CS2.
,c C
cessing temp., OC; (2, sulfur content in
carbon black, %; (3), sulfur removed in the
form of; ~~,H g average. 300 76
2SA (5-) CS2'%; 350 79
400 68
500 1.79 70 2 29.8
500
550
600
700
Soo
900
950
980
980
1000
CpeAHee
64.0 36.0
- -
- -
- -
- -
- -
- -
6C,9 33,1
66,5 33.5
-
1,180
1,74
1.92
1,79
1,64
1,75
1,76
-
1,92
1,78
Card 8/8
_~~G~ARI -B-Z-
Distribution of sulfur in carbon black. Kauch. i rez. 20
no. 4:43-47 Ap 161. (MIRA 14:5)
la Nauchno-isoledovateliskiy konBtruktorsko-takhnologicheakly
institut promyshlennosti, Omsk.
(Sulfur) (Carbon black)
MAGAR4_0
Mchanism underlying carbon formation in the processes of thermal
conversions of hydrocarbons. KhimJ tekh.topl.i masel 8 no.8:
1-5 Ag 163. (MMA 16:9)
(Carbon) (Hydrocarbons)
!~AGARIL,R.Z.; AKSENOVA, E.I.
Effect of the sulfur present in active furnace black on the
rate of decomposition of hydrogen peroxide. Kauc~. i rez. 22
no.8:24-2'7 Ag 163. (MIRA 16:10)
1. Nauchno-iBnledovatellskly konstruktorsko-tekhnolop_,,icb(-.skiy
institut shinnoy promyshlennonti, g. Ornsk.
7
777777777=
ZUYEVV V.P.; GILYAZETDINOV, L.P.; GYUL'MISARYAN, T.G.; BERNSHTEYN, I.D.;
SAULINA, V.V.; MAGARIL, R.Z.; SEREBRYAKOV, K.F.; DOPSHCHEV, B.S.
Extracts of catalytic gas oils as raw stock for the production
of furnace black. Khim. i tekh. topl. i masel 9 no.12:6-11 D 164.
(MIRA 18:2)
1. Naucbno-i"sledovatellskiy institut shinnoy promyshlennosti,
Omskiy naucho-issledovatellskiy konstruktorskogo-tekhnologicheskiy
institut shiiinoy promyshlerinosti, Omskiy sazhevyy zavod i
Kudinovskiy sazhevyy zavod.
. . . . . . . . . . .
L
-7,
MAGAM,R.Z.; ANS3407A, E.I.; TERMHOVA, R. P.
Transformation of sulfurs compoundo with the formation of carbon
cn a carbon surface. Gaz. prom. 7 no-400-54162 (MIRA .17el)
L 38890-66--- E_;VT(j) IJP(c)
ACC NR: Ap6olB557 SOURCE CODE: LTR/0181/66/008/006/1899/1902
AUTHOR: Kravchenko, A. F.; Sardaryan V. S.- 14agarill, L. I.
ORG: institute of Physics of Semiconductors, SO Ali ~ISSR, Novosibirsk (Institut fiziki
poluprovodnikov SO AN SSSR) tl
TITME: On the phenomenological theory of the longitudinal Hall effect
SO-URCE: Pizika tverdogo tela, v. 8, no. 6, 1966, 1899-1902
TOPIC TAGS: Hall effect, cubic crystal, semiconductor conductivity
K-ESTRACT: A phenomenological theory is developed for the longitudinal Hall effect in
cubic crystals in the case of anisotropic relaxation time and two-band conductivity,
land anisotropic dispersion. Expressions are derived for the different components of
ithe conductivity corresponding to both spherical and anisotropic rainima, neglecting
intervalley transitions. Formulas are then presented for the coefficients of the
~generalized conductivity tensor in terms of experimentally measured quantities. In
!the latter case expressions are given for both the longitudinal and planar Hall effects.
'-The results show that the longitudinal Hall field does not act on the spherical mini-
!mum, whereas the planar and ordinary HaLl fields are expressed in terms of kinetic
1parameters of both bands, and that experimental investigation of the longitudinal Hall,
,effect yields important information on the anisotropy of the additional minima. The
l
~authors thank V. L. Pokrovskiy for valuable remarks. Orig. art. has: 23 formulas.
lSUB CODE: 20/ SUBM DATE; 02Aug65/ ORIG REF: 004/ oTH Ru: 004
ACC NRI AP7003225 SOURCE CODE: UP/0056/66/051/006/1852/1855
AUTHOR: Magarill, L. I.; Entin, M. V.
ORG: none
TITLE: On the shape of the electron energy spectrum in a one-dimensional random
lattice
SOURCE: Zh eksper i teor fiz, v. 51, no. 6, 1966,.1852-1855
i TOPIC TAGS: electron energy level, electron spectrum, statistic distribution, poten-
I tial well
I ABSTRACT: The article deals with the energy spectrum of an electron in a one-
dimensional system of random],y distributed potential centers, the distance between
which have a Poisson distribution. The product of the magnitude of the potential by
the average distance between centers is assumed to be small. It is pointed out that
none of the earlier investigations of such a system lead to an analytic expression
for the level density-in the entire energy region., No limitations are imposed on the
energy. The distribution of the potential wells i.r. established for both repulsive
and attractive potentials and the case of negative electron energy is discussed. The
calculation results are compared with earlier pub.Ushed data. The authors thank V.
L. Pokrovskiy for guiding the work. Orig. art. has: 10 formulas.
SUB CODE: 20/' SUBM DAM 23jun66/ ORIG REF: 0031 OTH REP: 001
t Cc d
KAV'YAROV, I.S.; 14AGARILW, B.-L.; ZLOTNIX, M.I.
Mounted hydraulic syBtem of the S-100 tractor. Biul.telch.-
okon.inform. no.8:60-61 159. (MIRA 13:1)
(Tractors) (Oil-hydraulic -"cninery)
LAZARBY. Anatoliy Abramovich, inzh.; HITSIN, P.T., inzh.; HIKIFOROV. A.A.,
iazh.; ROZET. I.Ta., insh.. Prinimali uchastiye: ZLOTHIK' R.I.,
insh.;-KAGARBLO, B.L., insh.. KAV'TAROT, I.S., inzh., red.;
TRASMIN, Ija., inzh., red.; KOBYLTAKOV, L.H., red.; PEVZNM,
V.I., takhn.red.
(Kanual for operating the 5-100 tractor) Rukovodetvo po eksplua-
tataii traktora 6-100. Pod red. I.S.Kav'iarova i I.IA. Trashutina.
Koskva, Gos.izd-vo sellkhoz.lit-ry, 1960. 263 p. (HIRA 13:5)
(Tractors)
MAGARILLO, B.L., inzh.; YAKOVLIIV, M.V., inzh.
Test data on the new T-130 crawler tractor. Tralkt. i sel"khoz.-msh.
32 no-50-7 W 162. (KRA 15:5)
1. Chelyabinskiy traktornyf zavod.
(Crawler tractors-Testing)
YEGOROV, Yu.D., inzh.; MAGARILLO, B.L., inzh.; POZITI, B.M., inzh.
Concerning the operation of tractors with mounted equipment.
Trakt. i sellkhozmash. 32 no.10:7-10 0 162. NIRA 15:9)
1. Chelyabinskiy traktornyy zavod.,
(Tractors)
USMANOV, A. G.; MAGARRA, R.,-I.-
Application of the similitude method in chemical kinetics.
Zhur. fiz. khim. 36 no.12.12680-2686 D '62.
(MM 160.1)
1. Kazansk-ly khimiko-tekhnicheskiy institut imeni Kirova.
(Chemical models) (Chemical reaction, Rate of)
K.I., otyststvannyy redaktOtj
ZHIRMSKATA, I.A., redaktor; DLUGOXANSKAYA, Te. D,, tekhnicheskly
redaktoro
[Electric measurements] Elektricheakie ismareniia. Leningrad, Gov.
soiusnoe izd-vo sudontrit.promyshl., 1956. 182 p. (MLRA 10:4)
lectric measurements)
BOITSOV, Alsksandr Yevgpn'ysvich;_KAGARSM_c Boris -kjgqx!yqvich;
POLYAKOV, Mikolay Aleksandrovichl.-CIMNIKOV. L.T., nauchnyy
red;; NNITINA, R.D., red,; FRUKKIN, P.S., takhn.red.
[Electric power generators and converters] Istoch~iki i
preobrazovateli elaktrichankoi anargii. Leningrad, Goa.
soiuznoa izd-vo sudoetroit.promyshle. 1960. 462 p imm 14:4)
(Electric machinery)
KOVNO, Petr Nikanorovich; JIAGAI'iS11AK,__B.G.,, retsenzent; POYAHKOVA,
T.M., retsenzent; KRASILISHCHIKOV, L.B., nauchnyy red.;
KVOCHKOA, G.P., red.; SHISHKOVA, L.M., tekhn. red.
(Book of problems in electric measurements]Sbornik zadach p0
elektricheskim izmereniiam. Leningrad, Sudpromgiz, 1962. 105 P.
(MIRA 16:1)
(Electric measurements)
-- --- ------
MAGARSHAKV -Boli,iD Grigulyevich; IWSILISIICIIIKOV, L.B., kand. tekim.
muk, rotsonzent; T'ItOZOAVOYM, N.A.p Arah., retv,,snz,;r)t; T:'AL,
K.I., nauchriyy red.; DOCHKINA, G.P., red.; S'117SMKOVA, L.M.,
tekhn. red.
(Electrical measurements]Elektricheskie izmereniia. Izd.2.,,
dop. i perer. Leningrad, Sudpromgizp 1962. 338 p.
WIRA 15: 12)
(Electric measurements)
GAE'DIN', Boris Davydovich, inzh.; MAGARSHAY, Boris Grigorlyevich,
inzh.; SOKOLOV, Andrey Gri~yorlyevich, inzh.; KITAYENKO,G.I.
kand. tekhn. nauk, nauchn. red.; SACEK, N.A., red.
on the repair of electric equipment on ships]
apravoclLnik po remontu sudovogo elektrooborudovaniia.
Leningrad, Sudostroenie. No.l. 1964. 240 p.
(MIRA 17:12)
L 264N!--'-~.',!~
E F_ E V ir PC/H w. 11c ~.T 'd P h
ACC NRt =02317-i Monograph UR/
Magarshale-, Boris Grigor yevich
~~Apborne electric masurlnuj~j a handbook- (Sudovy e elektroizmeritel nyye p
-bory; spravochaiQLeningra Izd-vo "Sudostroyeniye,' 1965. 411 P~-illus., biblido
6000 co ies printed.
p
TOPIGTAGS: marine equipment, marine engineering, electric measuring instrument,
.'elect ric equipment
PURPOSE-MiD COVERAG-3: This manual is intended for the technical personnel of plannin
organizatiorts and scientific research instItutes of the shipbuildin&industrv.0ftt
may alsobe useful to engineers, technicians and crew-members concerned with the
servicing of shipboard measuring instruimrits as.,well as to students in schools
of higher education takingcourses of electrical measurements. The technical
characteristics, principles of operation, measurement limits, switching-on methodst
weight, and the clearance and installation dimensions of shipboard electrical
measuring instrurrents are described. Regulations on the installation and operatiou
of the instruments onboard ships are also giveo. A special section is dedicated
to the selection of proper Instnmenta Detailed information and tables are given*
The author thanks L. B. Krasillshchikov, Candidate of Technical-Sciencea, M. B&
Kolesnikov~ Engineer, and G~ 1; KitM~eqM, Candidate of Technical Sciences,. for.
their :cooperation#.
TABLE OF CONTENTS [abridEp(4
Cord 1/8 UDC: 629.12-05 83
L s
L '26404-46
ACC NN AH5023173
Fo rewo rd 3
-.Ch. 1. Basic information on electrical measurements and electrical measuring
4
'instruments
Chj7-II. Special operating. conditions, principles of operation, and structural
design,of shipboard electrical measuring instruments - 18 uments 18
-,(.-A.Special operating conditions of boardship electrical instr
7. .. Special features of structural design of shipboard electrical instfuments 20
B. Principle of operation band the structure of a serial shipboard, panel-type,
impact-vibtation-shake-proof, dc electrical measuring instruments -- 29
91. ~Principle Pfoperation and the structure of a serial of shipboard panel-typer-
impact. vibration-shake-proof ac electrical measuring instruments 36
inch. III. Recommendations on the selection of shipboard electrical measuring
instruments 45
10. Selection of the instruments depending upon precision class 45
11. Selection of the instruments.depending upon the dimensions of their right.
face side -- 47
120 Selection of. the instruments for current and voltage measurements 49
13. ..Selection of the instruments for power meat3urement a. - 53
14i Selection of the.instruments for frequency and power, %Ctor.,measurements 53
156, Selection of the instruments for shipboard -network. wirifig-Angul-ution, re stance
measurement,---.54
Card 218
ACC M M502 3 1 7--y
16. Selection of shunts and additional reaistors_-158
17. Selection of current and voltage measuring tran3fftmera- 63
Ch. IV. Shipboard, panel-type, permanent-magnet moving-coil instruments 70
.18. Principle of operation and designation -- 70
19. General characteristic of ammeters and voltmeters 7V.:
20.
,4145 miniature ammetersPand voltmeters -- 8Z
d14150,ammeters and voltmeters and M150/1 amm-eters 87-1,
22. VE51 aramters aad voltmetera 92
23. ~~5 cross-pointer voltmeters 96
1 24 I-LI60 ammeters and voltmeters; M160/1 Amme te rs 97
25. ~Ml 70 ammeters and voltmeters 100
26. 11175 ammeters -- 103
.27 M180 ammeters and voltometers; 11180/1 ammeters -- 107
28: ZMOT811 miniature ammeters and voltometers 112-
29. _~6_7ammeters and voltometers -- 115
04:3
:30. ~ Z;neral characteristics of meggers -- 117
31. $M143/1 miniature T~~ ~erstO- 120
32. meggers 123
33. ~H153 meggers'-- 125
34. _i~5 meggers 129
35.. ~,~l meggers 134
3 6 5ff;_3 meggers 137
37: 01M.meggers 138
W-Er
I Card 3/8
L 26404-A6
ACC NR, M023173
386A,14L67 maggers 139
140
39. q~g~73 areggers
40.
~X604 meggers 141
4l,7',djn-eraI characteristics of voltometers 147
42:,qMl6l voltmetersit- 3-49
43 1voltmeters -- 152
(RI ~F
Ch. V. Shipboard pan el-type, moving-iron instruments 156
44. Principle of operation band designation - 156
-45. Generai characteristics of ammeters and voltmeters 160
46. ,.E30/2, awmeters and voltomeeters -- 163
47. qflWammeters and voltmeters, E140/1 voltmeters -'-.f&6
E-302ammeters and voltmeters -- 170
49 E421 miniature armneters and voltmeters 7
.50:_X=_era1 characteristics of.phasemeters 175
5l*,4EI44 miniature phase 178
52 E150 phasemeters -- 180
5 3 E 16-0 d E160/1 phasemeters 182
~_l d E170/1 ph emeters 183
54 70 as
..55 Gen aracteristics of synchroscopes 185
ral ~ch
56.- :hroscopes/1-- 1-88
'kK~211 sync
57. -',,,E145 miniature ;_yn chro scopes. 189
/~ ~Vs ~j
58. '5~5' synchroscopes 191
Cord 4/8
L 26404-66
L 26404-66
'AH5023173
ACC NRt
80.,,P D176 -and D176/1 frequeng meters 259
81.~4040H frequency meters - 260
34
82: ~~D_2H se meters - 261
p~
ature phase sequence indicators ~265
45
Ch. VM Shipboard portable instruments -- 272
84., Designation and characteristic features of portable instrumenEs 274,
274
85.. General technical characteristics of portable instruments
86. 'P120 ferrodynamic phase meters 276
4;
87.:~*D121 and D121/1 ferrodynamic voltmeters 281
88. PIT and D124/1 ferrodynamic wattmeters 284
890k, D126/1 ferrodynamic frequency meters -- 281.
'90 J~- D126 and
75128 and D128/1 ferrodynamic voltammeters -- 290
91: D129 ferrodynamic voltammeters - 294
926AW,41 magnetoelectric milliammeters, millivoltmeterai a____ ters voltmeters'.
w
~WVvoltammeters 300
eters 302
93 N127 magnetoelectric megohami,
%
94 Mn agaetoellectric. volta ters* 306
_'~IV50
5: magnetoelectric voltmeters 309
9
-:96 (