SCIENTIFIC ABSTRACT TAREYEV, B.M. - TAREYEV, V.M.
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100
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Publication Date:
December 31, 1967
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SCIENTIFIC ABSTRACT
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Blektrotekhnicheskiye materialy AID 75-7 - X
Pages
Ch. 9 Conducting Materials 214-233
Copper: basic datao treatments brass, data on wires.
Aluminum, basic data, Aldrey type.
Steels characteristics, wire manufacture "bimetal", data.
Others: Tungsten: treatments basic data; molybdenum,
platinum and mercury, basic data.
High resistance alloys: constantan, basic data;
manganin, nichrome, "Fechrale" and their basic data.
Carbon: brushes, carbon and graphite, "GOST" standards,
basic data table on p. 232.
Ch. 10 InsUated Cables 233-248
Wires for windings: basic data, types, tables on
pp. 235, 236, 239.
Power cables: diagrams, basic data, "GOST" standards,
research of S. M. Bragin mentioned; livinyflex" and
"metalvyn" developed by Andrianov and Ushakov; types of
cables and wires: SK, SO, SAI SBI OSB and OSK listed,
basic data given; a score of names of scientists
developing research on wires and cables in attached.
Ch. 11 Magnetic Materials 248-259
Oeneral information: brief review of achievements.
8/10
Elektrotekhnichookiye materialy
AID 757 - X
Pages
Laminated steel "GOST" standardso basic data, types$
table on P. 254.
Various magnetic materials: permalloy, "alsifer"
developed by A. S. Zaymovskly) basic data; magneto-di-
electricaj developed by A. S. Zaymovskiy, N. N. Shollts,
L. I. Rabkin, V. S. Yevseyev for super high frequencies,
basic data.
Materials for permanent magneto: alloy types, basic
data, table on p. 258.
Ch. 12 Various Materials 259-282
Lead: basic data, types.
Soldering materials: soft and hard tin, types and
table on p. 262, compounds with copper, silver, zinc,
cadmium, phosphorus, aluminum, fusing agents: colophony,
chlorine, fluorine, etc.; compounds with sodium, potassium,
zinc and lithium.
Cement, putty, paste, glue: Portland cement types,
according to "GOST" standards; 9
IRBUM, lead monoxide and
I
glycerine (gletoglyoerine); "ELSI' paste, composition;
carbinol glue, composition, also used with nitrous aoid,
9A0
Elektrotekhnicheakiye materialy AID 757 x
developed by I. P. Nazarov and based on synthetic rubber;
glues BF-2 and BF-4 made of synthetic resin and alcohol.
Bimetals: general information (I basic data, properties.
Materials for thermo-couples: 'copel", "alumel" and
chromel". basic data.
Thermo color films (temperature recorders), containing
mercury, silver, copper.
Storage battery electrolytes, basic data,, "GOST" stand-
ards; alkali electrolytes, basic data, "GOST" standards,
and process.
No. of References: 25 Russian, 1945-1952.
Facilities: Names of Russian scientists listed in Table of
Contents.
10/10
TARJKV, B. M., ed.
AKADEMID. nauk SSSR.
Scientific literature on dielectrics Moskva, Izd-vo Akademii nsuk 1952. 671 p.
(53-25640)
Z5834-D48A45
TIARLYL7, 13. 1(.
TMV/Zleetricity - Personalities
I'lay 52
"Professor It. P. Botoroditskiy, in Connection With His 50th Birthday," P. 1.
Skotnikov, A. F. Alabahev, S. Ia. Sokolov, A. A. Vavilov, V. V. Pasynkov,
3. 14. Tareyev
"Elektrichestvo" Do 5, p 88
Reviews main features of professional life of Mkolay Petrovich Blogoroditskiy,,
born 20 May 02 in Tashkent. His principal interest has been development of h-f
dielectrics. Between 1933 and 1942 he developed the now widely-used radio materials
tikond, micalex, h-f glass, radio porcelain, and ultra-porcelain. Affiliations include
Military Else Eng Acad imeni 13udennyy (1933 - 1942) and a large-plant laboratory
(where he produced a number of inventions) during World War N. he has published
a number of articles in journals, bioks, and textbooks. He received three Stalin
Prizes: for an invention in field of ceramics(1942); for textbook "Electrical
Engineering haterials"(1952); and for development and organization of mass production
of parts for radio equipment (1952).
PA 240T58
TAREYEV, B. 14.
UMR/Iftectricity - Educatiorto, 4un 53
"Correspondence-School Advanced Training Of Graduate
Engineers,7-Prof-B.M. Tareyev, Dr Tech Sci; Engi4.0.
Kagidson' -~-All-Union Corresp Power Eng Inst (VZEI)
Blektrichestvo, No 6, PP 57-59
Describes organization of correspondence-school ad-
;vanced training for graduate power engra on basis of
experience of VZEI in Moscow. Lists, discusses sub-
ject matter of projects recently completed for ad-
vanced training with VZEI by 8 pqrsons from 8 dif-
ferent places (including LeninakAn, Sochi, Taganrog).
Submitted 22 Jan 53.
268T54
TAIUYkV, B.Mv professor, doktor tekhnicheekikh nauk; GIKIS, A.F.,
~~Tol_`W;nt, kandidat tekhnicheskikh nauk; MEZHLUMOV, A.A., dotsent,
kandidat tekhnicheskikh nauk (Baku); STOWT, L.I., dotsent,
kandidat tekhnichesklkh nauk (Kazan); YUHATOV, A.A., Inzhener
(Kronshtadt)-, RMIMOV, G.R., doteent, kandidat takhnicheakikh
nauk; KONSTANTINOV, V.I., inzhener (Moscow); NRYMAN, L.R.;
ZAYTSEV. I.A., dotsent. kandidat tekhnicheakikh nauk-, LURIYE, A.G.,
doteent. kandidat tekhnicheakikh nauk.
Terminology of theoretical electrical engineering. Elektrichostvo
no.2:74-82 Y 154. (MIRA 7:2)
1. Vsesoyuznyy zaochnyy onergeticheskiy institut (for TArg"Y).
2. Rostovskiy Institut inzheneray zheleznodorozhnogo transporta
(for Gikis). 3. Sredneasiatakiy politekhnichookiy inatitut (for
Bakhimov). 4. Chlen-korrespondent Akademii nau SSSR (for Neyman).
5. Leningradokiy politekhnicheskiy institut im. Kalinina (for
Heyman, Zayteev, Lurlye). (Slectric engineering--Terminology)
VVITER -A.V., akademik; KUKUSHKD,, I.N., inzhener; TRAPEZNIKOV V A -
.9 .4 0 9 op
NIKOLAYEV,, A.T., inzhener (Muromtsevol Vladimirskoy obl.); KUDELIN,
Ya.M. (Muromtsevnp Vladimirskoy obl,)j PETROVO 1.1.9 dotsent,, kandidat
tekhnicheskikh nauk (Moscow); BADALYANTS, M.G., inzhener; BELICHENKO,
G.M., inzhener; KLAPCHUK, L.D... inzhener; FRANTSUZOVj Ye,M., inzhener;
TAREYEV B M. professor, doktor tekhnicheskikh nauk; MAGIDSON, A.O.p
Improving the knowledge of power engineers through correspondence
courses. Remarks on B.M.Tareev's and A.O.Magidson's article. Elek-
trichestvo no,3:76-80 Mr 154. (MLRA14)
1. Energetichaskiy institut im. Krzhizhanovskogo Akademii nauk SSSR
(for Vinter). 2. Clavnyy energetik Gor1kovskogo avtamobillnogo
zavoda im. Molotova (for Kukushkin). 3. Institut avtomatiki i tele-
mekhaaiki Akademii nauk SSSR (for Trapeznikov). 4. Chlen-korrespon-
dent Akadem:Li nauk SSSR (for Trapeznikov). 5. Leninakanges (for Bada-
lyants). 6. Dnepropetrovskiy institut inzhenerov transporta (for Be-
lichenko). 7. Xurakhovskaya gres (for napchuk). 8. Orekhovo-Zuyev-
skaya tets (for Frantsuzov). 9. Vsesoyuznyy zaochnyy energeticheskiy
institut (for Tareyev and Hagidson).
TARSYST, B,N..*,.professor, doktor tekhnicheskikh nauk.
1--
In the scientific-technical society of the All-Union Institute for
Correspondence Courses in Power higineering. SlaktriehagtTO no-3:90
Mr 154. (MLRA 7:4)
1. Predsedatell NTO Teesoyusnogo, taochnogo snergeticheskogo institute.
(Power engineering--Study and teaching)
DROZDOV, 1,G., professor, doktor takhnichaskikh nauk; FRIVIZENTSMY, Y.Ae,
professor, doktor tekbnicheekikh nauk; IOKMV, NeSe, doteant, kandi-
dat tokhnichaskikh nauk; NIKULIM, N*V., dotsent, kandidat takhnicheakikb
nauk; SEMNSKIT, I.I., doteent, kandidat tokhnichaskikh nank; XRACLW-
SKIY, P.A., kandidat takhniohaskikh nauk; QM, A.P., Inzhener& ALIM-
SANMV, N.V.. professor, doktor takhnichaskikh nauk; TAINYEV, B.M.,
professor, doktor takhnichaskikh nauk; ZYMNSONO Lq8.9 pr-RO-690-i'..
doktor tekhnicheskikh naukj STEPANOV, V.S., dotsent, kandidat tekh-
nicheskikh nauk; MAGIDSON. A.0., inzhener.
'Science of electrical materials." X.M.Mikhailov. Revieved by N.G.
Drosdov, and others. Alektrichastvo no.):93-94 Mr.'54. (MLRA 7:4)
1. Moskovskiy anargaticheakiy institut im. Wolotova. 2. Vessoyuznyy
zaochny7 energeticheskiy institut.
(Electric insulators and insulation) (Electric conductors)
AID P - 663
Subject USSR/Electricity
Card 1/1 Pub. 27 - 32/34
Author B
-Ta-reye_v, ..~W Dr. of Tech. Sci., Prof., Chairman of
e c in of the All-Union
Fand Technical Society
c
Power Engineering Correspondence Institute (VZEI)
Title Scientific and Technical Society of the VZEI (current
News)
Periodical Elektrichestvo, 9, 94, S 1954
Abstract The 5th scientific and technical conference of the In-
stitute was held in May 1954. 28 reports were discussed
in the sections of the Institute.
Institution VZEI (Scientific and Technical Society of the All-Union
Power Engineering Correspondence Institute)
Submitted No date
\"~E y /,V,
- / - - - - - - -
I N.A.; VIINIKOV, V.A.; IIROZDOT. B.G.; PRIVWJIMZV. V.A.; SOLOVITIV,
I.I.; TAPSM, B.M.; NIXULIN, N.Y.
oxwo
Profousor S.K.Brogin. ILaktrlCh~StTO no.12:82-83 D '54. (XLRA 7:11)
(Bragin, Sorgei MIkhailovich, 1894-
TARMN, B2r!s Mi"lovich, lex,reat Stalinskoy preaft, d-r tekhni-
cHeafTer-Oluka.T=EMDV, T.T., redaktor; SIMRTSOT, I.H.
F
takhniebaskly redaktor.
(3lectric engirmering materials] Ilektrotekhnicbeekle usterialye
Izd.5-oe perer. Moskva, Gos.energ.iz&-vo, 1955. 256 p.(MLVA 8:10)
(Blectric engineerint-,Materials)
BOGORODITSKIT, N.P., PASYNKOV, V.V.,- TARRV, B.M.; IMIMS, T.T., rodaktor
VOROIMSFkTA, L.V., takhnicbsskfy'lriffikktbe.~-
(Materials used in electric ongineerino Ilektrotokhnicheskie
materialy. Izd-vo 302, pare. Moskva, Goo. onerg. isd-vo, 1955.
372 p, (MLRA 8:8)
(Electric engineering-Materials)
ARAYNY, B.M., professor, redaktor; YBZHKOY, Y.Y., redaktor; BORONIN, X.P.,
OURVIRMeekly redaktor
[Yluortne or5antc compounds used an electric insulating materials.
Translationej Ptororgenichookle alektroisolystalonqrs materialy.
Perevody statat pod red. V.K.Tereave. Moskva, Gos.snarg. izd-vo,
1957. 62 P. (KLRA 10:9)
(Alectric insulators and insulation)
(fluorine organic compounds)
1-.-' Ll V I
GOLUBTSOVA Va leriya -Alekseyevna ~.TARSYSV B.M , red.; MOVEDNV, L. Ya.
te1rhn.red.
[Histor7 and prospects for the development of electric Insulation
materials] Istoriia I perepektivy razvltiia elektrotsoliatsionnykh
materialov, Moskva, Goosenergaftd-vo, 1957, 76 p, 9 graphs
(MIRA 11:2)
(Ilectric insulators and insulation)
TAREYEV, B. M. 0, prof, 'red.; BORUNOV, N.I., tekhn.red.
[Recomendation for the classification of materials for the
insulation of electrical machinery and apparatus in relation
to their thermal stability in service] Rekousn&atsii dlia
klassifiket~ii materialoy izolistaii elektricheskikh mashin
i apparatov po nagrevostoikosti. Publikateiia No.85. Izd.l,
1957 9. Moskva. Clas.enargAzd-vo, 1058. 12 P., - (MIRA 12:7)
1. World Power Conference. V.S.S.R. National Committee.
'(Electric insulBturs.and iusulation)
8(2) MW I BOOK EXPWITATION sov/1867
Tareyev, Boris Mhaylovich., and David Mikhaylovich KazaMovokly
Ispytaniya elaktroizolystsionnykh naterialov (Testing Blectric Insulating
Materials) Moscovp GoBanergoir-dato 1958. 208 p. 20j,950 copies printed.
Ed.-. V.I. Timokhina; Tech. Ed. G.I. Matveyev.
PURPOSE: This is a textbook for students in electrical engineering tekhnikams.
It MW be useful to students in power and electrical engineering vuzes and also
for technicians in 'Industrial plants and scientific-research institutes.
COVERAGE: The authors describe the mat important and widespread methods of test-
ing electric insulating materials. They explain the theoretical basis of the
various methods and describe a n=ber of testing instrunents and auxiliary
equipment. Special attention Is devoted to new methods of testing with auto-
matic measuring imtruments and apparatus and methods for contintious testing
without Interrurting production or operating conditions. There axe 70 refer-
ences, 53 oT'vhicb are Soviet., 10 English,, 4 German., 2 Czech and I Italian.
Cards
PHASE I BOX ECPWIMkTION 1079
Tareyev, Boris Mikhaylovich
Elektrotekhaicheskiye materialy (Electrical Materials) 6th ed., rev, Moscow,
Gosenergoizdat., 1958. 271 p. 51.,000 copies printed.
Ed.: Timokhina, V.I.; Tech. Ed.: Larlonov, G.Ye.
PURM , This book was approved as a textbook by the Scientific Council for Prc-
fessional and Technical Education of the Main Administration of Labor Rese a
under the USSR Council of Ministers, to be used in technical, trade, and r-41-
road schools specializing in electrical engineering subjects. The book is also
intended for technicians working in electric power systems., and pleats and repair
shops of the electrical and radio industries. It premms a basic knowledge of
physics, chemistry and electrical engineering.
COMME: The book describes the properties., methods of testing., and behavior of the
most important electrical tdaterials (Insulating materialsp conductors, magnetic
materials, cables, and vwious other materials,) No personalities are mentioned.
There are 50 references, all Soviet.
8(0) PHASE I BOOK EXPLOITATION SOV/2082
Elektroizolyatsionnyye materialy. ch 1! Svoystva materialov (Elec-
trical Insulating Materials. Pt. L: Properties of Materials)
Moscow, Gosenergoizdat, 1958. 460 p (Seriesi Spravochnik po
elektrotekhnicheskim materialam, t. i) 30,000 copies printed,
Eds (Title page): Yu.V. Koritskiy and B.M.--Tareyevj Ed. (Inside
Look): I.V. Antikj Tech. Ed.: A.M. FridicunT--Eas, of series:
K.A. Andrianov, N.P. Bogoroditskiy, Yu.V. Koritskiy and
B.M. Tareyev.
PURPOSE: This book is intended as a reference guide and textbook for
engineers and technicians of electrical-engineering and radio-
engineering industrIal organizations and plants, of electric power
stations and substations, electrical repair workshops, laboratories
and scientific research institutes.
COVERAGE: The publication "Reference Guide on Electrical Engineering
Materials" consists of 2 volumes. The Ist volume "Electrical
Insulating Materials" consists of 2 parts. This is the 1st part
Car~_~
Electrical Insulating Materials (Cont.) SOV/2082
and deals with the properties of insulating materials. The editors
state that the book may serve as a systematically arranged and
condensed source of technical data on most of the electrical in-
sulating materials, their characteristics, standard specifications,
production and machining processes, quality testing methods, and
their applications in electrical and radio engineering. It also
describes electrical insulating products: capacitor insulation,
cable insulation, insulators, insulating materials for electrical
machines, transformers, apparatus, radio equipment, and electro-
thermal apparatus. The book complies with recommendations of the
Vsesoyuznoye byuro elektricheskoy izolstsii All-Union Bureau of
Electrical Insulating Materials) of MONITOE ~VNITOE), issued in
1948. Each chapter is written by specialists and their names are
listed in the Table of Contents. References are alloted separately
to each chapter.
TABLE OF CONTENTS:
Foreword
5
Abridged Table of Contents of the 2nd Part - Testing Methods
and Applications of Electrical Insulating Materials 13
Card -2/-16-,::.
Electrical Insulating Materials (Cont.) Say/2082
PART I. PROPERTIES OF MATERIALS
Ch. 1. General Properties of Electrical Insulating Materials
(Professor B.M. Tareyev, Doctor of Technical Sciences 15
1. Definitions,apptnWti7ons and classification of
electrical insulating materials 15
2. Electric conductivity of dielectrics 16
3. Polarization of dielectrics 21
4. Dielectric losses 30
5. Insulation breakdown 34
6. Thermal characteristics of electrical insulating materials 38
T. Various physical and chemical characteristics of electri- "
cal insulating materials 41
Bibliography: 12 Soviet, 4 English, 3 Czech, and 2 German 44
Ch. 2. Gaseous Dielectrics(Docent N.F. Voloshchenko, Candidate
of Technical Sciences) 45
1. Specific inductive capacitance of gases 45
2. Electric conductivity and dielectric losses of gases 47
Card--3/A6
Electrical Insulating Materials (Cont.) SOV/2082
18. Integrated mica 385
19. Special methods of testing mica insulation 385
Bibliography: 8 Soviet references 389
Ch. 17. Various Mineral Dielectrics (Electrical insulating
rook materials) (Professor B.M. Tareyev, Doctor of
of Technical Sciences) 389
1. Marble. 389
2. Slate 392
3. Talc and talcochlorite 393
4. Jet 394
Bibliography: 17 Soviet references 394
Ch. 18. Electrical-Insulating Glass Materials (Professors
B.M. Tareyev and N.,P. Bbgoroditskiy, Doctors of
TectinIcai sciences) 394
1. General properties of glass materials 394
2. Processing of glass materials 399
3. Types of glass materials employed in electrical
engineering 400
4. Glass bushings 400
5. Glass enamels 408
Car&_t"
AUTHORS: Mikhaylov, M. M., Kostenko, M. P., soMo5-58-7-28/32
Heyman, L. R., Tareyev B. M., PriTezentseT, V. A., Zartsev, 1. A.
""*
Shramkov, Ye. 0 1 or~
~" Yu. V.
TITLE: Professor V.T*Renne (Professor V.T. Renne) To His 50 th Birthday
(K 5o-letiyu so dnya rozhdeniya)
PERIODICAL: Elektrichestyo, 1958, Nr 7, pp. 92 - 92 (USSR)
ABSTRACT: Vladimir Tikhonovich Renne was born on July 18t, 19o8, in Kaluga.
He graduated in 193o from the Leningrad Polytechnical Institute
and obtained the certificate of electrical engineer. Still a
student, in 1928 he entered the telephone works "Krasnaya Zarya;'
and specialized in the field of electric technology. He organized
a series of laboratories and directed them during several years.
He worked out 15 tYPes of paper-and mica condensers, thus in-
dustry being made independent of imports from abroad. He developed
a series of cuprous oxide rectifiers for telephoreequipment. He
holds 8 patents. Since 193o he teaches at the Leningrad Institute
of Electromechanics (Leningradskiy elektromekhanicheskiy in3ti-
tut) and then at the Leningrad Institute of Electrical Engineering
(Leningradskiy elektrotekhnicheskiy institut). From 1935 onwards
Card 1/2 he works at the Leningrad Polytechnical Institute (Leningradakiy
Professor V.T.Henne. To His 50th Birthday SOVI 105-58-7-28/32
politekhnicheskiy institut) department of electric insulation
and cable onginceringp where he has a full-time job since 1939.
He organized a laboratory for electric technology and electric
condensers and published several manuals. In 1938 - Docent, in
1939 - Candidate of Technical Sciences, in 1,051 - Doctor of Tech-
nical Sciences, in 1952 - Professor. He published more then 14o
papers on electric insulation, electric technology, and condenser
design. He maintains close relations with industry and scientific
research institutes. He advises them and carries out scientific
work together with them. For a number of years he was secretary
in the Section of Electric Inaulation at the VITITOE and is at
present Member of the Bureau of Electric Insulation at the Ts-
ENTOEP. He is the scientific head of the Scientific Society of
Students at the Faculty of Electromechanics of the Leningrad
Polytechnical Institute (LFI). Thore is 1 photograph.
1. Electrical engineering--USSR
Card 2/2
TARIM, B.H., prof., red.; OZERSKIY, V.I., red.; VORONIN, X.P., takhn.rea.
C-Iffect of radiation on electric Insulating materials] Tox-
deistvie radioaktivnykh isluchanii n& elaktrolsoliatsionnyo
materialy. Moskva. Gos.energ.izd-vo, 1959. 87 P- (MIRA 12:5)
'(Slectric insulators and insulation) (Radioactivity)
I V~t V It-- V
lb(6) PHASE I BOOF EXPLOTTATION SOV/2903
Elaktrolzolyatoionnyye materialy. Ch. 2t Matody lapytanlys I pr1man6n1ya
m4terj4jov (Electrical Insulating Materials. Pt. 21 Methods of Testing and
of Application of the Materials) Moaoowt Gosenergolzdat, 1959. 476 p.
(Series: SpravQchnik po alektrotekhnichaskim materialam, t. 2) Errata slip
inserted. 30vOOO copies printed.
FAs. (Title'page)s' Yu.V. Ko'ritakiy and B.M. Tareyev: Ed. (Ipaide book): I.V. Antik;
ial Boa of Siarlest K.A. Andrianov, N.P.
Tech. Ed.t A.M. Fridkin; Editor N~
Bogoroditakly, Yu.V. Koritakiy, and B.M. Tareyev.
PURMSEt The book is intended for technical personnel of the electrical and radio
industries, electric power stations and substations, electric maintenance and
repair shops, laboratories and scientific research institutes.
COVERAGEs This is the second pa:tt of Volume I of "Electrical Engineering Materials"
and containsj in concise and systematic formp data on various types of the most
commonly used electrical insulating materials and their properties, standards,
methods of processing, applicability in electrical and radio engineering, and
methods of testing. The following types of'insulation are also described:
capacitor insulation, cable insulation, Insulators and insulation.for electrical
machines, transformerso radio equipment and electrothermal devices. References
cal~-~
Electrical Insulating Materials (Cont.)
follow some chapters.
TARLE OF CONTENTSt
Change to Part I of Volume I of the "Handbook"
Errata to Part I of Volume I of the "Handbook"
PART II. METHODS OF TESTING MID APPLICATIONS OF MATERIALS
Ch. 21.. Basic Methods of Testing Electrical Insulating Materials (D.M.
8
9
Kazarnovskiy and B.M. Tareyev) 11
1. Conditioning-test Sam-ple's-oT-Rectrical insulating materials 11
2. Electrical testing of electrical insulating materials (general In-
formation) 16
3. Measuring with galvanometers specific resistances of electrical in-
sulating materials
4! Measuring 6xtramely high insulation resistances 22
S. Measuring specific inductive capapitance and dielectric loss angle 25
a). Measurements at low frequencies 26
SOV/2903
Electrical Insulating Materiols (Cont.) SOV/2903
b
. Measurements at audio frequencies 29
a . Measurements at high frequencies
l 35
d . Measurements at super-high frequencies 41
a . Measurements of the dielectric loss angle at high-frequency hirh
voltage 50
2. Measurement of the capaeltance-tomperature coefficient 51
g . Testing nonlinear dielectrics 53
6. Determining electric strength 56
7. Mechanical tasting of electrical insulating materials 63
8. Determining heat resistance 70
9. Various pbyalcoebemical tests 75
10. Ultrasonic testing 87
Bibliograpbyi 29 references, all Soviet (1 translation) 89
Ch. 22. Electrical Insulation In Capacitors (V.T. Ronne) 90
1. Terminology and classification 90
2. General properties of capacitors 90
3. Capacitors vith gaseous and liquid dielectric 98
4. Capacitors vith solid Inorganic dielectric 101
90)
AUTHORS:
TITLE:
PERIODICAL:
ABSTRACT:
Card 1/3
SOV/143-59-5-5/19
Tareyev, B.M., Doctor of Technical Sciences, Profes-
'sor, 3nd Lerner, M.Mot Engineer
An Investigation of the Forming Process of Aluminum
Foils for Electrolytic Capacitors by Three-Phase
Power Frequency Current
Izvestiya vysshikh uchebnykh zavedeniy - Energetika,
1959, Nr 5, pp 36-45 (USSR)
Studying the process of static forming of anode alu-
minum foils by three-phase alternating current will
result in a more complete evaluation of the advantages
of this method, which eventually will find industrial
application. In this paper, the authors consider the
connection between capacitance of the foil sample to
be formed and the linear forming voltage and also
the direct voltage component in the tanks. Pigure 1
shows the connection of 3 tanks for three-phase static
forming of foils. The authors discuss the time re-
quired for forming the foils, the final forming cur-
rents and the speed of" oxide layer formation. They
V
SOV/143-59-5-5/19
An Investigation of the Forming Process of Aluminum Foils for
Electrolytic Capacitors by Three-Phase Power Prequency Current
compare the quantity of power required for di'f'feren't-
forming methods'. The forming of aluminum foil's was
erformed in tanks with stainless steel electrodes
eel lKhl8N9T). The electrolyte consisted of boric
M
acid-(100 gr/jiter)oand borax (0,5 gr/liter), and had
a temperature of 80 C. As a rule, 60 min were re-
quired for the forming process. Samples of 0.08 mm
thick aluminum foils, 3X5 cm, having a purity of
99.95%, were subjected to forming. The data in Table
1 show that the final currents hardly depend on the
forming voltage with three-phase forming; on the
average they amount to 1.22 milliamp/cm . Experimen-
tal data confirmed that the final current density
does not depend on the voltage. With three-phase
forming the oxide layer is formed faster than with
two-phase forming. If the foil formation is perform-
ed on direct current with the voltage U_ and by three-
phase alternating current with the voltZige Uo , with
Card 2/3 the aforementioned electrolyte composition, then a~~
SOV/143-59-5-5/19
An Investigation of the Forming Process of Aluminum Foils for
Electrolytic Capacitors by Three-Phase Power Frequency Cutrent
identical capacitance of the foil may be obtained
under the condition Uq = U_. The direct voltage com-
ponent Uo 2 during forming-under these conaitions, is
equal to half the effective value of the linear volt-
age. In the ultimate case, when the*resistanoe of
the electrolyte is equal to zero, and if the valve
effect of the oxide layer is ideal, UO is equal to the
amplitude of the phase voltage. There are 2 diagrams,
9 graphs, 1 -eable and 3 Soviet references. Mi axticle vw
go i kabellnoy talftik' ZThe Mair of
Aftb
ASS A se o uznyy zaoc n y ene ;ticheskiy institut (All-
Union Corre,spondence Institute of Power Engineering)
SUBMITTED: December 28, 1958
Card 3/3
8 (3)
AUTHORS: Tare ov B. M., Doctor of Teobnical SOV/105-59-6-i6/28
"
m
ev
'
`
`
`
Z
Y
_
%
. -Foie
~r
nc
fessor, Lernerg %. M.,Engineer
cfe
4
e
e
g
TITLE: Continuous Alternating Current Oxidation of the Anode ftil of
Electrolytic Condensers (Nepreryvnoye oksidirovaniye peremennym
tokom anodnoy foligi dlya elektroliticheskikh kondensatorov)
PERIODICAL; Blektrichestvol 1959, Nr 6, PP 71 - 76 (USSR)
ABSTRACT: This is an investigation of the continuous-band-motion oxida-
tion of anode foil bands with single-, two-, and throe-phase
a.c. A counterconneotion of the baths appears to be most con-
venient. The utilization of troughs of conv2ntional construc-
tion for a.c. oxidation is possible only if the troughs are
made of oxidation-resistant material, (as, for example, stain-
less steel 1Kh18N5'j'). The highest operational stability during
oxidation is achieved if one foil is pulled through counter-
connected baths (as shown in figure 3b). With respect to an
equal load distribution on the transformers a three-phase ox-
idation is very interesting. It gives, similar as a two-phase
oxidation, an oxide layer of high quality. The oxidation of
anode foile by continuous band motion by means of a.c. and
Card 1/2 counterconnected baths avoids the rectification of the a.c.
Continuous Alternating Current Oxidation of the 507/105-59-6--16/28
Anode Foil of Electrolytic CondenBern
and hence the energy losses connected with such a traneforma-
tion. No short-circuits will occurt if the foil breake, the
coe-fof the installation increases an& the output also in-
creases owing to the elimination of polarization at.-;he elec-
trodes. There are 7 figures, I table, and 7 Soviet references.
ASSOCIATION: V8esoyuznyy zaochnyy energetichaskiy institut (All-Union
Correspondence Institute of Power Engineering)
SUBMITTED: December 25, 1958
Card 2/2
TARAYHY, B.M., prof., doictor tekhn.nauk, otv,red*vypuska
_V&
.,5,w
(Dialectricsj Dialektriki. Moskva, 1960. Z1 p. (Bborniki
rokomanduemykh terminov, no.53). (MIRA 130)
1. Akademiya nauk SOR. lomitet tekhnichaskoy torminologii.
(Dielectrics--Dictionaries)
(Russian language-Diationaries--Polyglot)
ANIORIAMOV, K.Aep red.; BOGMWITMaye IsPes red.,o, KORj1zfigjT~ Yu*V., red,;
PASIMMo VJ09 red.; B.M.0" red.; S03CMAP YO#Xoo
takhn.rade
[Handbook on electric engineering materials; in two volumBBI
Spravochnik po elektrotakhniche skim materialem v dyukh tomakh.
Moskva, Gos.anerg.isd-yo. Vol.2. [Magnetic. conducting, semi-
conductor and other materials] Nagnituyeg provodulkovyeg
poluproyodnikovys L drugie materialy, Pod red, N.P.Bogoro-
ditskogo I Y.V.Pboynkova. 1960. 511 p. (KERA 14:1)
(Ilectric engineerint-gNaterials)
Alsksandra., 1. T.. Larlonal, A. I., ft.41A. 3. V.. C"tre,
-1 --L - O"Id" I. .. I Be- ~ T. T:
Z-V-01's, I. a.: Trualtakly. I' -D" Uty.tiza: a. F.
T.. and Others
TIT"S ?rot .... r T. A. an 11. 60th birthday -4 the
)5tb-AaaI1#T-W7 or It- 3010.41fle-podenecal ad
goal ... ring Activity
MIDDICA.L. 92.ktrIshast". 1960 ,so. 7. F.
Tan. This 1. a brief bloCrophy of TI rr%-aw%A.-.
W." .1 the .11I.C. If lazodkino, I.. V-. -
1924 be rtalsb*4 his studies at the 514ktratakhniebaskly fakul-lot XTTT
(D.P.rt"at me 11"tri-I CcAlusering of the I=). later *a at the
I..ko"kis p0 I ta.titut (N.Saw. I.StAtelt. of
Ind"" and Z.::4%Y). and the Trembly* podapeabaski7o kursy ?rl Wr=
(][Labor ftd&40910-1 Course at the ITTU). In 19", be dissociated far It.
4ogrw. of C-dld.t.,b.4-4 . Docent to 1139. and . ftafe.a.r in 1946.
Prote.ver T. A. trl-s.ut.o- On Its 60th 31105160100010712-W02T
'Irtbd%y said the 351h AWLV.".rr at 11. WOUDW5
end U491 ... 'lot
AstiTity
3.12-ritaw 1 1951 oil"a of ~9:t.r aftTeststA,val
34 :J 1 23' ad r 2 t be sacs
- to 1952' Irva 1) bb 0 ya r. .
:. to
(.1604stal . a '41 me: b.t-
"Dw,-bmL;;, 1 45 It marked amour . hL:.r., "tb
'9., and 5. Pros 9 hl dl r at
-hostrellways k.ballsays Ubor,%toriy: W,.,C:,.Itr*l Cable laboratory REP)
awd r a d puty director for t .aI utlf at Los of the Banat-
1#84 derat:11.kly In.litut k.b.1-mor 1"-rc.V/
Imatitat. of the Cable XA4-tr?)- ?2-- 1949 on. be be. b r
department chief at the SIM. He cooperate& in the rall::5.110.111114109 mf
".or ""a for 1-10 k., .4.4.ct.9 the pradvatis
solowshill I caproca-, and wea,ml,
to. :.o.b as. mad cables with glass o.l..
tell lor 25 years he has to" workinC %% the Mgt. At %be SLUT.
be to sup."W:c tb rk or vc.t-Cwdualq students. a. wrote many
lbook.. handbook an :.b-le engineering, mad sure &ban 100 articles. For
15 You". he was the r-ponsilole editor of the
P2.41C.1 of cable w.Ci.o.ring (edition of the Warta motd the
v KL). conducted for 15 rearm, the kabel-mays, w.ktlym, Ira..bno-
Pref o war T. on IL. &Oth 3/1 05/60/000/aT/Wtv
Birtidar, abi the 35th Anniversary of ale SmixW5
if q-p,dadvdla.I and rzClv--rle
"0'. t I
kh,clah-k-go, :*"to Kl-1:txwt- Iqktr.t.%hm1*bmwkc7
ft
li . auction f the 3. 1. t,fi "Id Twebal..1 Ca.vicil .1 the Stat.try
of the glectratoebRital Industry), "A us. a member of the Prot%tt~
TO-60y"anor by.- p- i..17et.iL (Pro utus or th. At%-
late. as".. of 91-atr IQ for or. than 1; rear.; later
%a *"pentad in the work
(C:f I P.
t.selsololit pri AM SS31 *31 -1 rims and T.ralv.ledr am the
As 4331). There is I ricur.-
Card 3/3
L
TAREYG,V B.M., doktor tokhn.naukp prof.; 1XMI~2, M.H., kand.tekhn.nauk
14- 1
Concerning the replacement of copper with.alunimm in the
electric industry Elektrichestvo no.10:78-82 0 160. (MRA 14:9)
iElectric engineering-Materials)
CHILIKIN, M.G.; LARIONOV2 A.N.; ANDRIANOV, K.A.; MESFKOV, V.V.;
IONKINO P.A.; ARMUPOV, V.N.; PETROV, G.N.; BRAGIN, S.M.;
PRIVEZENTAV.. V.A.; TAREYE B.M,
Professor N.G. Drozdov. Elektrichestvo no.10:9Q 0 160.
(MIRA 14:9)
(Drozdov,, Nikdlai Gavrilovich, i~OO-)
tlw
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S/181/60/002/010/023/051
BO19/BO56
AUTHORS: Tareyev, B. M. and Lerner, M. M.
t 1 14
TITLE: The Theory of Unilateral Conductivity of an Oxide Film
on Aluminum t\ -
V1
PERIODICAL: Fizika tverdogo tela, 1960, Vol. 2, No. 10, pp. 2487-2492
TEXT: The present theory of unilateral conductivity of oxide films on
aluminum describes satisfactorily the behavior of an oxidized sample
immersed in an electrolyte. If, however, the sample is taken out of the
electrolyte, this theory fails in the description of a number of its
properties. This theory is especially not developed for electrolytic
capacitors with solid electrolytes. The authors suggest a hypothesis
that holds good for oxide films which are formed in weak electrolytes,
if the former has a positive potential. In this hypothesis it is assumed
that a p-n- junction exists, which is destroyed with the formation of an
n-type semiconductor: 1) by removing the voltage from the sample, 2)
by taking.the sample out of the electrolyte, 3) by applying a negative
Card 112
84600
The Theory of Unilateral Conductivity of an S/181/60/002/010/023/051
Oxide Film on Aluminum WON%
potential to the sample relative to the electrolyte (in this case the
defects are in the oxide film). On the basis of this hypotheois suggested
by the authors, it is possible to explain the behavior of oxidized Al-
samples in the following cases: 1) The vol-tage is removed from a sample
dipped into an electrolyte. 2) A negative potential is applied to the
sample relative to the electrolyte. 3) The sample taken out of the
electrolyte is subjected to the action of various media and temperatures.
4) Onto the sample taken out of the electrolyte, a layer of p-type
semiconductor or of metal is applied. There are 24 references; 3 Soviet,
11 US, 3 Dutch, 5 German, 1 Swiss, and 1 French.
SUBMITTED: August 29p 1959
Card 2/2
BO=ODITSKIY NikolV Petz~,6vicb; FASYNKOV, Vladimir Vesillyevich;
TAREYEVP Borio Mikbaylovichp"AgMt V.T,# doktor tekbnojmukv PrOf.f
oil I red.
[Electric engineering materials] ElgktrotekbuicheskiS mater"o
lzd,4,t perer, Moskva, Gos.energAzd-voy 3-961. 52.8 p. (MIRA 34t6)
1. Zaveduyusholo WedrOY elektroizoiyatsionnoy i kabel'UOY
tekbnj j Leningradskogo politekhnicheakogo instituta im. H91-Kalirlina
(for Renue)*
(Electric engineering-Materials)
-- - - - - -- --- --- --- - - --- - -- - - -- --- ---- - - - -- - - ---- ---
TAREYEV B.M., laureat Sta-linskoy premiip doktor tekhn. nauk-,, prof.;
WGUMN', O.A.2 red.
(Fundamentals of the pbysics of dielectrics; lectures) Osnovy fi-
ziki, dielektrikov; lektaii. ~Ioskvap Vaes.zaochzWi energ. in-t.
Wo.l.[Electrical conductivity of dielectrics] Elektroprovodnost,
dielektrikov. Izd 4,,, perer. 1961. 46 P. (14IRA 15:7)
N electrics)
TAREYEV, B.M., prof... red.; BUIZAKOV., V.A., red.; LILRIONOV) G.ye"
tekhn. red.
(Electric insulating materials with increased heat resistance]
Elektroizoliatsionnye materialy povyshennoi nagrevostoikosti;
sbornik perevodov statei. Moskva.. Gosenergoizdat, 1961. 103 P.
Translated from the Engligh. (MIRA 16:5)
(Electric insulatbrs and insulation)
MIKRULOV, A.I., prof.; TARMEV, B.M.., prof.
[Scientific information in the field of electric asA
power engineering] Naucbiiaia inforp-atsiia"v oblasti elek-
trotekhniki i anergetiki; lektsiia. MoBkva, Vses. zaochnyi
energ. ir-t, 1961. -17 p. - (MIRA~ 16:32) .
1, Direktor Vsesoyuznogo instituta nmehnoy Itekbnicheskoy
informatsii (for Kikhaylov). 2. Zaveduyushebiy kbLfedi*
elektroizo:Lyatsionnoy'i'kabeltiioy tekhhiki'Vseioyuznogo za-
ochno o energeticheskogo Instituta (for Texeyev).
&wer engineering-Information servicea)
BRAGIN, S.M.; BUTAKOV2 I.N.; KRASIN, A.K..*SOKOLCVI A.As ; STEKOLINIKOV,
I.S.; TAREYEVI B.M.; FIALKO, Ye.I.,- CHILIKIN, M.G.
----------
Fiftieth anniversary of the birth of Pr9fessor A.A.Voroblev.
Eleldrichestvo no.1393 Ja 161. (MIRk 14:4)
(Yoroblev, Aleko&ndr kkimovich)
TARSM) BaM... doktor tekhn,qauk, prof.; UMM, N.M., kand.tokhn.nauk
Trends in the deve2op'mcnt of alumimim electrolytic capacitors
abroad. Elektrichestvo no.5:81-,84 MY,1624 (MIM 14:9),
(Electric capacitors)
A
377h8
s/196/62/ooo/oo9/oo9/oi8
B114/EI84
AUTHORS: Lerner, N.M., and Tareyev, B.M.
TITLE: Single phase formation of anodic foil for capacitors
using alternating current
PERIODICAL: Referativnyy zhurnall Elektrotekhnika I energetika,
no.9, 1962, 6, abstract 9 B28. (Tr. vses. zaoch.
energ. in-ta, no.18, 1961, 77-91)
TEXT: Static formation of foil in a slngle bath-d:Lrectly
connected to an a.c. power supply was considered. Two cases were
exceeds that
analyzed: 1) when the impedance of the foil (21
of the bath IZBI; and 2) w1hen Z is of he same order of
magnitude as, or much less than, IZB i- Case 1 is possible if
the bath is made of a material which is not affected by a.c.
(for instance stainless steel). In this case, a large (reverse)
current flows in the conducting direction of the oxide skin which
is being formed, and,more enargy is required than when forming
with d.c., or by other a.c. methods, and this, to some extent,
impairs the quality of the oxide film because it Is intensively
Card 1/6 ,
Single phase formation of anodic S/196/62/000/009/009/018
EUVE184
heated during the conducting half cycles. At the same time, the
voltage utilization factor K, which is the ratio of the
voltage across the oxide film to the total voltage applied to
the bath, is high - the wbble voltage of the source of power is
applied across the oxide film with the exception of voltage drop
in the electrolyte. Case 2 is possible if the bath is made of
a material susceptible to a.c. (for instance aluminium), and the
s.trface area of the bath is 'about equal to the area of the foil
(or is a little less). In case 2, the reverse currents flowing
through the foil are much less than in case 1 because
jZB~ >,, ~i -91* This reduces the a.c. power consumption and the
oxide film is of better quality because heating is less. In
-case 2, K is much lower, particularly when 12BI> 1~111-
Curves are given of capacitance and current as function of the
time of a.c. or d.c. forming for case 1. The oxide film
formation time counted from the moment when the current-and'the
capacity cease to fall is about 15-20 mms for both a.c. and d.c.
With a.c. the time of passage of ionic currents forming the
oxide film is much less than the time of application of voltage,
Card 2/6
Single phase formation of anodic ... s/196/62/000/009/009/018
EUVE184
while with d.c. both intervals are the same. With a.c. and a
single bath, the oxide layer forms only during that part of the
half cycle during which the current passes through the foil in
the non-conducting direction for the oxide layer. The ionic
current begins to pass through the oxide layer at an instant when
the applied e.m.f. is greater than the back e.m.f. in the oxide
film, which is proportional to its thickness. The authors call
the time of passage of the ionic current Lt, 'the absolute time
of formation'. Inasmuch as &t is a function of time of the
a.c. forming period, full absolute time T during all the
periods can be calculated from the formula;
t . .F , where
T I/Y
Et = t Lt dt Is the tIme of formation of the oxido
~-M 0
layer, T - full period of the forming voltage@
Card 3/6
Single phase formation of anodic ... S/196/62/000/009/009/018
E114/E184
If, to a first approximation, it is considered that the time
function is linear
At = T (1 t
t
then T = 5 minutes for a.c. conditions compared with 20 minutes
for d.c. Therefore, vhilst a.c. is flowing the instantaneous
;onsity of ionic current should be somewhat greater than with
(..C. Comparative curves are given plotting reverse capacitance
aZainst voltage for d.c. and a.c. In the range up to 160 volts
the specimens are of the same 'capacitance if the effective
voltage with a.c. is three quarters of the d.c. voltage (the
forming takes place in aqueous solution 100 g/litre boric acid
and 0-5 &/litre,borax at a temperature of 80 *C.). In the
second case, film formation was studied with various ratios of
foil to bath surface area. It is shown that, as tho bath area
is reduced, the consumption of electric current decreases.
The problem of comparing a.p. and d.c. processes is discussed.
A.c. and d.c. can both be conducted in three ways: firstly, at
Card V 6
Single phase formation of anodic ... S/196/62/000/009/009/018
Ell4/El8h
a constant &urrent density; secondly, at constant voltage; and
thirdly, mixed. However, not all those ways are suitable for
comparing a.c. and d.co processes. In the first way comparison
is difficult because with a.c. not all of the current is used for
the formation of the oxide layer. It has a considerable
capacitative component, and the reverse current does not form the
oxide at all. It is impracticable to utilize the third (mixed)
way for comparison because it partially includes the first way.
The most convenient is the second way - comparison at constant
forming voltage. The choice of the equivalent voltages for a.c.
and d.c. can be made from the requirements of creating the same
capacitance of oxide layer - its most stable and simply measured
characteristic. In this case, other conditions being equal, the
a.c. voltage U is considered equivalent to a d.c. voltage U,
if the capacitance of the samples being compared after formation
is the same. 2 references.
Abstractor's remarks. The detailed analysis of the a.c. method
shows that an aluminium bath whose surface is much greater than
Card 5/6
Single phase formation of anodic ... S/196/62/000/009/009/018
E114/E184
that of the foil cannot be included in case 1 to the same extent
as the a.c. method with a stainless steel bath. Although with
ah aluminium bath of extensive surface liB1,C41 there is
no sharp increase in the reverse current with a.c. under these
conditions because both the bath and the foil have rectifying
properties. Thus, the bath and the foil being formed in it
comprise a system of two opposing electrolytic valves. The a.c.
c,%sc with one aluminium bath of extensive surface was further
investigated by the authors and practical confirmation was
obtained of the possibility of the dynamic forming of an oxide
layer using a.c. in industrial conditions in one bath, and in
such condItions the oxide layer is of relatively high quality.
[Abstractor's note: Complete translation.
Card 6/6
PMEZRITSEV, Vladimir Alekseyevich; MAGIDSON, Abram Onipovich;
-,,,TAREYZV,-D,Ij,, rof., doktor tekhn. nauk; YEMMIN, V.V.0
tekhn. red.
(Artificial and synthetic fibers and films for electrical
insulation]Iakusstvennye i sintoticheskie volokna i plenki
dlia elektricheskoi izoliatsli. Moskvap Gosenergoizdat,
1962. in P. (Polimery v elektroizoliatsionnoi telchnike,
no.3) (KUA 15:10)
(Electric insulators and insulation)
(Textile fibers# Synthetic)
RUINE, V.T.., doktor tekhno nauk., prof.; TkREYEV B M doktor
tekhn.naukp profop red*
(Study of the relationship between the properties of
condenser paper and the quality of paper condensers)
mrrual for the course in "Technology and electric
insulation"] Issledovanis sviazi mezhdu svAstvami kon-
densatornoi bumagi. i kachestvom bumazhnykh kondensatorov;
uchebnoe posoble po kursu "Takhnologlia elektricheskoi izo-
liatsii.11 Moskva$ 1962. 29 p. (MIRA 17:5)
1. Moscow. Vsesoyuznyy zaochnyy energeticheskly institut.
Kafedra elektroizolyatsionnoy i kabellnoy tekhniki.
GAYLIS11p Ye.A-.; DRCODOV, H.G.;.YEVSTROPIYSV,, K.S.; KAZARZIOVSKIY., D.M.;
NEMAH., L.R.; PASYNKOV, V.V.; PRIVEZEIITSEV, V.A.; REIREO V.T.;
TAREYEV B.M.
N.P, Bogoroditakii; on his sixtieth birthday and the thirty-fifth
anniversary of his theoretical and educational work. Elektrichestvo
no.7:87-88 i1 162.. (M1RA 15:7)
(Bogoroditakii., Nikblai Petrovicho 1902-)
---
TAREYEV B.M doktor tekhn.nauk, prof.; LERNER, M.M., kand.tekhn.nauk
Concerning L.L.0dynets' article "Efficiency of using a.c. for
shaping plate foil in the manufacture of electrolytic condensers.
Izv. vys. ucheb. zav.; energ. 5 no.2:112-113 F 162.
(MIRA 15:3)
(Condensers (Electricity))
d
r bai. nauka (Tareav B M.] (U.S.S.R.);
4 =.=4 1-10
IZRMR, M.)f.., kand. tehn,--tauka (U.S.S.R.); IWVAJSKI, Pavle,
inz. [Vanalator]
. i. Subotituting alumimm for copper in electrical engineering.
Elektroprivreda 15 no.4:170-176 Ap 162,
GRIJBNIK, doktor tokhn. nauko pror.p red.,
[Enamelled wires; a lecture) Ema-lirovarrqe provoda; lektsiia.
Moskvap Voesoiuzrqi zaocbnyi onerg. in-tp 1963. 53 p
NIRA 17:3)
SHVEDOVA, L.A*; TAREYEV, :3 rII
dukLor toklin. nawk, prof., red.
[Lectures on the course "Calculation and construction of
electrical insulation") Lektsli po kursu. "Raschat i kon-
struirovanie elektrichaskoi izoliatsii" Moskva., Vass. za-
ochnyi energeticheakii in-t. No.l. (Design of oil-filled
entrances] Raschet maslonapolnenrqkh -v-vodov. 1963. 38 p.
(RLU 17:4)
KAZARNOVSKIY, David Mikhaylovich; TAREYEV Boris Mikhavlovichp,
KUCHINSKIY, G.S., red.; S Ye.H.J. tekhn. red.
[Testing of electric insulating materials) Ispytaniia
elektroizollatsionnykh materialov. Mosk-vaj, Gosenergoiz-
dat, 1963. 314 P. (MIRA 171l)
BOGORODITSKIY, H.P.; VAVIDDV, V.S,; VALEYEV, M.S.; DROZDOV, N.G.;
KORITSKIY, Yu.V.; FRIVEZENTSEV, V.A.; RENNE, V.T.; _TAPYLIV, B.M.;
YAMILNOV, S.A.
B.M. Vul; on his 60th birthday and 35th anniversary of his
scientific work. Elektrichestvo no,8t95 Ag 163, (KM 16:10)
YAMANOVA, L.V.1 TARRYEV, B.H.., doktor tekhns nauk-, prof.p red.
(Electric condensers; lectures] Elektricheskie kondensa-
toryl lektsii. Moskrat Voes. zaocbmyi energ. in-t. So.1
1964. 84 P. (VIRA 1833)
TAREYr-V, B.M., prof*, laureat Stalinskoy premiis doktor tekhn, nauk
[Fundamentals of the physics of dielectrics; lectures] Osnavy
fiziki dielektrikov; lektsii. Moskva, Vses. zaochrWi energ.
in-t. No.l. - No.2. Izd.4., perer. 1962. 87 p.
(MIRA 17:9)
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M.M.p kand. tekhn. riaukv dot.s. MATSOI'-/,.SHVIL.1, B.N.;
karid. fiz. auki REINNE, v.L.2 Ator tekhn. muk,
--mat em. r if
Prof.; nauk, prof., re-d.
-TAP doktor tp-khn.
(Electric engineering materials: eluctric conde"werv) wtres
and cabl-1q] Elektrotekhmicheskie mat.erialy, elektricnesk.1c
1 -:1963. I'losk " 9 64.
kendenswory, pr-cvoda 1 kaba"i 2962 va,
158 P. (MIPA IS.,2)
1. Akademlya nmik. SSSH. Institut nauchnny in-formatsli.
GOROKHOV, PA., kand.tek7wn. rauk~ CrOR'KOVA, V.I,p kand. tekhn. nauk;
PAVLOVp L.L., kand. teklin. SERGEYEV, N.P.i TAREYL-V,
B.M., doktor tekhn. nauk, priff,% SYNOTKIN, LS.?. K~A~4TO*A, 11,S.
kand. tekhn. nauk, pr.'if., red.~ CHESKISY Z.B., red.
[Frencb~Russlan elactr41--al erigineering diationary] Frantsuzskc--
russkii elektrotekhninheskii. sl-warl. Pod red, V.S.Kurbatovoi
i B.M.Tareeva. Moskva. S'lv6tokq~ia entsiklopediia,, 1965. 720 p.
(MIRA 18:12)
~ h. VOjf)Y'OlMNiSKIY , IL'I'-~-,Y ,I ikh&y I c,,,,J-,2 b ~
BDGOIIODIITSKIY, Nikojay Petrolrlc 1,AREyEV, Boris Vilkha7lclicb;
Aieksandr AXI.M.
VOROBIYEV, A K'K.P
MWE, rets"'rlz6'tJ- t,'i!j*A, L.S., red.
Y,AZMOVSKV( I Dal,17~lm' red.; P V M 0 E-,,kv a s,
(141 RA 3 8 -
[Theory of dieler."Ird'al .3-2)
Energiiap 1965. 34& P-
BESSONOVj L.A.1 BABAKOV, N.A., prof.0 retsenzent; KnT-rIBKOV. D.s.,
profop retsenzent; TAREM, B.M., prof., doktor tekhn,
nauk reteenzent - -
[Principles of graph theory] 0snovy toorii grafov; ucheb-
nos posobie. Moskva, Voss. zaochr7i energ. in-t, 1964. 48 p.
(MIRA 19sl)
SHVEDOVA, L.A.; TAREYEV, B,M., doktor tekhn. nauk prof.,, red,
(Manual on a course in ffCalculation and design of elec-
trical Insulation") Uchebnoe posobie po kurs-.1 "Raschet
I konstruirovanie elektricheskoi izolintsii. Moskva,
Vse3. zaochnyi energ. in-t. No.2. 1964. 74 P.
(MIRA 19:1)
APROSINA, Z,G..~ kand, ml:~d. muk: AFANASYbVA, K.A., kand. med. nauk;
AKIREN,AKEFFMOVICH, R.M-, prof.., B11-UGER, ~.F., doktor med.
nauk., BONDARI, Z.A-,. VASiU-11KO, V.Kh., prof.; KIKOOrE,
I.A~) kard. nied. na-ak, LINORIBRAT21, L.D., prof.; LOGIE'Oli,
A,S., kard. med. nauk; MANS1JROV, Kh.Kh., prof.; NAZAR13TYAN,
Ye.L.~ kand. med. nauk; NIOGALIER, A.1-1., prof.-, PLO"L711KOV,
pri,,f,^, :3F2l,'FNDYPNEVA, kand. med. ;iauk; TAREYEV,
Ye.M., pruf., Y,~: kand. Ted. nauk,
TER-GRIGOROVA, Ye.1,,,. pri,';-tF2flYSHEVAl Ye.V.. kand. med,
nauk; SINOT"37 L1.0"I"'. HfA-SOIKOV, A.L., prof.,, zam. otv.
red.; BOGOSL."NSKU, V.A., red.; SEEIENDYAYEVA, 1-11.Ye.~ red,
[Multivolume inanual r.n internal diseases] Mnogatomnae ruko-
vodstvo pc~ -nwtremnim bolezniam. Moskvap lleditsina. Vol.~.
1965. 724 (MIRA 18:9)
1
.. Deystvitel1r,;y chlen Al-111 SSSR (for Tareyev, Ye.Yl.,
Vasilenko, l4yasuikov) .
XONIUCKOT,I.A.; BROD, 1.0e, profel red*; TARNM, I.N., ved.red.; KASOWT,
ThoKov takha.rods
[Stmaying masozoic deposits in eastern Ciscaucasia; oil and gag-
producing prospects] Opyt izueheniia mecozoinkikh otloshanii Vostoch-
nogo Prodkavkaxiia; v sviazI a perepaktivami neftegazonoonosti.
Noskya. Gosintis' 1958. 125 P. (MIRA 12:S)
(Caucasus, Worthern-41oology, Stratigraphio)
, 1. 1".
"Heat Engineering" 1951
Textbook. Contain 2 chapters on turbines and compressors. Jet engines mentioned
P. W6. -
I - - - -- --- - _:~ - - - -- - - -- - - - -- - - - - - - -- -, -- -- - - - -- - - -- - I I
KUZOVLLV. V.A., inzhoner-makhanik; TABEYJIV V M doktor takhnichookikh
I nauk, professor, redaktor.
ETechnical thermodynamical Tekhnicheakaia tormodinamika. Ixd.3.
Pod obahehei red. V.K.Tareava. Moskva, Gos.izd-vo vodnogo
transporta, 1953. 330 P. Wak 7:3)
(Thermodynanics)
MAMANIKO, M.G.i kandidat tekhnichemkikh nauk; TARIM, T.M profossor;
TBILISHCHN, P.A.; KRITROT, P.A.,t~khnICh*skIy-Y4..R'i.
Conversion of ImAernal combustiock engines to gaseous fuels, Tru4
TSNII MPS no.74:3-96 154. .MR& 80)
(Gas and oil engines)
p
-m
TARE71Y Y.M.. Professor.
,!sj~ ~-
Serial construction of velocity triangles In the hes-t calculation of
turbines. Trudy NUT no.82/83:231-236 135. (WHA 9:8)
1 (Reat engineering) (Turbines)
". ~-- ~~,~~Ofes-sww. ---
AK---
Problem of the mechanical efficiency of the vanes of steam and gas
turbines. TruAV RIIT no.$2/83:237-242 '33. (XLRA 9:8)
(Steam turbines--Bladee)
- ___ - __ - __ - - __ __ - -___ - - - - ___ - - - - - - ____ - - __ - - __ ____ - - __ __ - __ - __ - - - - - - - ___ - -----
.2-92-9,11A.,professor; DOGIN, N.Ye., dotsentj AGAPOV, V.K., inshener.
Automatization of the diesel installations in railroad electric power
stations. Trudy MIT no.82/83:432-449 '35. (KM 9:8)
(31lectric railroads--Substations)
(Automatic control)
~4-w
.KUZOVLZV, Vitaliy Alskmandrovich; TAUYNT TOM professor, doktor
takhnichaskikh nauk. redakt-OrMINOWNISA. 2-T., redaktor izdatell-
stva; EWIIAYA, A.K., takhni;;wekiy redaktor
(Technical thermodynamical Tekhnicheaknia termodinamika. Izd. 4-os.
Pod obahchei red. V.M.Tareava. Moskva, Izd-vo gReehnoi transport,m.
1956. 338 p. (NT.,RA 9;8)
(Thermodynamics)
VRASHEV, Sergey Pavlovich,inzh.; LSTNIK, Alakeandr L'Yovich, dote.;
SHIPRIN. Daniil Hoisayevich, inzh.; V X rof..doktor
takhn. nauk. red.;' TYUK. A.ff..kmnd.t9khn. nauk. retsenz*nt.;
KVITKOVSKIT, Tu.V., kWnd.takhn.nauk. red.; MOM'. B.I.,takhn. red.
[Kachineryl Knehinovedenia. Izd. 2.. dop. i parer. Moskva, Goo.
asuchao-takha. izd-vo mashinostroit. lit-ry, 1958. 483 P.
(KIRA 11:12)
(Machinery)
T I Y-,, a
*O!ich, prof., doktor tekhn.nauk; NIGKATULIN,
doktor retsenzent; SHL M IKOVA. Z.V., red.izd-va;
BOBROVA, V.A.. tekhn.red.
[Reference book on thermal calculation of operating processes in
internal combustion engines] Spravochnik po teplovomu raschatu
rabochego protsessa dvigatelai vnutrannego egoraniia. Moskva,
Izd-vo *Rechnoi transport," 1959. 399 P. (Kim 12:9)
(Gas and oil engines)
11(1); 260) PHASE I BOOK EXPLOITATION SOV/3043
tareyev, Vladimir Mikhaylovich, Doctor of Technical Sciences, Professor
Spravochnik po teplovomu raschetu rabochego protsessa dvigateley vnutrennego
agoraniya (Handbook an Thermal Calculations for Working Processes of In-
ternal Combustion Engines) Moscow., Izd-vo "Rechnoy Transport", 1959.
403 p. Errata slip inserted. 8,,500 copies printed.
Reviewer: 1. ff. Nigmatulin., Doctor of Tbchnical Sciences; Ed.-of Publishing
House: Z. V. Shlennikova; Tach. Ed.: V. A. Bodrova.
PURPOSE: The bbok is intended for students of schools of higher technical
education, aspirants, and technic4l personnel of zesearch inzUtutes and
design bureaus.
COVERAGE: The book deals with basic calculations related to the thermisl
efficiency of internal combustion engines. The first-part treats the
theoretical principles underlying such calculations. It includes the theory,
design, and operation of Inte 1 combustion engines. The principal
efficiency standards and the vaYues of respective coefficients are determined.
The second part discusses ten main types of engines and demonstrates how
Card 1/ 13
Handbook on Thermal Calculations (cont.) SOV/3043
efficiency coefficients are calculated. The engines discussed differ in
purpose, type of fuel, number of strokee.. degree of compression, type of
neavengLug and supercharging or its absence, and upeed. Particular
attention is paid to calculation methods developed by V. I. GriDevetskly.
The contributions of Professors N. R. Briling, K. M. Maslemikov, and
A. S. Orlin, to the study of internal combustion engines are mentioned.
There are V'ieferences, all Soviet.
TAME OF CONTSM:
Pbrevord 3
Symbols 5
PART r. TWORETICU PKNCIPLES OF 7WFML EFFICIENCY CAICUIATIONS
Ch. 1. Objectiwas, Methods, and Principal Stages in Thermal Efficiency
Calculations of Internal Combustion Engines. Determin tion. of
the Combustible Mixture and the Products of Combustion 13
1. Objectives of computations related to the thermal efficiency of
engines 13
2. Methods of thermal efficiency calculations of internal combustiom
engines 14
Card 2A3
Handbook an Thermal Calculations (Cont.) SOV/3043
3. Principal stageq of thermal efficiency calculAtlons of engines
4. Types of fuels 19
5. Air necessary for combustion, products of combustion, and lip-at
value of liquid fuels 21
6. Air necessary for combustion, products of combustion, and heat
value of combustible gnaes 27
7. Relative changes in the volume of combustible mixtures during
combustion 31
6. Mapraial capacities of gaseous mixtures 35
Ch. 2. Coefficients and Temperatures Typical of the Charge ?--ocess in
Four-stroke Engines 36
1 Formulas of V. I. GrinevetskV and Ye. K. Mazing 37
2. Computations based on the GrUievetskly and Mazing formulas 43
3- S. Ye. labedev's equation 46
4. Computations'baseii on the Lebedev equation 48
5. Further development of the above formulas 51
6. Examples of computations based on the formulwin, Paragraph 5 57
7. Selection of a method for calculating the charge coefficients
in four-stroke engines 59
Card 3/13
Handbook on The rual Calculations (Cont.) SOV/3043
Ch- 3- Coefficients and Temperatures Typical of Charge Process in
stroke Engines 63
1. Coefficients ~ (residual ~%sesj,T,, ta~avenga fact;orjn,jesc&pe
factorl,11, (scavenge efficiency), andYjj,p (useAa scavenge effect] 64
2. Coefficients related to the volume of charge in cylinders 67
3. Excess-air coefficients 69
4. Fhtio of the residual-gas coefficient to the excess-air coefficient 72
5. Determination of the initial temperatureT,,, in two-stroke engines Aq
6. Formulas for charge coefficients in two-stroke engines 5
7. Determination of the coeffiaientec (specific heat) ip two-stroke
engines 8-1
8.. Examples of determining the coefficienti;,: 88
Ch. 4. Kinematics of Gas-distributing Mechanisms in Two-stroke Engines 91
1. Dependence of piston position on crank angle 91
2. Determination of the integral of the crank angle-to-length of
travel relationship for piston travel jtime -integml diagram] 98
3. Ranges of exhaust-aild scavenge-port timing in degrees of crank
travel 104
Ch. 5. Calculations Related to Scavenging Forts 110
I. Calcuaatigg the range of port timing 110
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Handbook an Thermal Calculations (Cont.) SOV/3o43
2. SxaVle,af determining the port area 114
3. Sixplifidd formulas for determining port area 116
4. Port calculations in complex scavenging systems 121
5. Press= in the cylinder during scavenging 132
6. Port-shapes 135
Ch. 6. Exhaust Calculations 137
1. Necessary exhaust timing 137
2. Range of exhaust timing 140
3. Determination of back pressur6 from exhaust timing 142
4. SimplXfied formUlas for calettlating exhaust lead
' 143
5- Comput~mg poinis on the exhaust
curve from a systematic investi-
gation of thq elementary parts of the process 144
6- Accurate integration of the exhaust equation 146
Ch- 7. Beat Capacities of Combustion Products and Combustible Mixtures
for,Some Basic Types of kwl 150
1. Theoretical products
of complete combustion of typical petroleum
.
fuel 150
Cara 5A3
Handbook On Thermal Calculations (Cont.) SOV/3043
2. Heat capacity of exhaust gases of petroleum fuel during complete
combustion "th an arbitrary value of CI_S- 152
3. Reat capacity of air in mixtures with the produ(tt of combustion
of petroleum fuel (Heat capacity of a combustible~air-gms mixture) 156
4. Another method of computing the heat capacity of the combustible
mixture in an oil engine 159
5- Converting to isobaric and molal heat capacities 161
6. Peat calpaelty of combust-Ion products in a semidleBel. with water
injection 161
7- Heat capacity of a comb~tstlble mixture in a semidiesel, engine
with water injection 163
8. Pbrmulas for coefficients of molecular change in oil engines
with water injection 165
9. Chemical coefficient of molecular change in gasoline at CI < I
and at theoretical incomplete combustion 166
10. Empirical formula of the dependence of,~.onal at incomplete
combustion of gasoline,according to experimental data of
Mmelennikov 172
11. Yean isochoric volumetrie heat c&pacitySv*A,f products of the
incomplete combustion of gasoline (where C(< 1 173
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Ihndbook on Thermal Calculations (Cont. ) . SOV/3043
12. Composition of theoretical products of the complete combustion of
'
gasoline (wherec(-l
) 178
13. Heat capacity of theoretical products of the complete combustion
of gasoline 180
14. Heat capacity of the products of complete combustion of gasoline
(whers4,4 1) 160
15- Heat capacity of a gasoline-air mixture with residual gases at
incomplete combustion 181
16. Heat capacity of the combustible mixture at complete combustior
of gasoline 184
17. Composition of theoretical products of complete combustion of
producer gas (wbe re dj. i ) . 185
18. Heat capacity of theoretical products of produeer,&Ss combustion 186
19. Heat capacity of flue gases from producer gms(at an arbitrary value
of 18-3
20. Heat capacity of producer gas 191
21. Heat capacity of the combustible g%s-air mixture (pure) for
[typesof) producer Sao 1.93
22. Heat capacity of the combustible mixture for produmr-gas engines 190
Card 7 /15
Handbook ku Thermal Calculations (Cont.) SOV/3043
23. Approximate formula for calculating the heat ampacity of combustible
mixt,4res in prq4ucer-gas engines 1.77
24. Composition of theoretical products of the compkte combustion of
natural W (Where,4=1 ) 198
25. Heat. capacity of theoretical combustion products of natural
0%0 200
26. Beat capacity of flue gases from the combustion of natural gas
(at an arbItrary value ofr-\ ) 2oo
27. Heat capacity of a combustible mixtiAre of natural gas 2o3
Ch. 8. The Comprosuion Process 205
1. Basic formulas 205
2. Yethods of determining the mean coefficient kl of adlabatic
compression 206
3. Coefficient k for heqvy-fuel diesel and motor engines 2o7
4. Cneffiel=t ki for gasoline engines 2()o
5. Coefficient k, for semidiesel engines with water injection 209
6. Coeffiaeut k, for producer-gas engines 21-2
7. Coefficient ki for natural-g&s engines 213
8. Summary of thi results of determining mean coefficients of
adiabatic compression for different types of fuel 214
9. The pDlytropic exponent of compression
n,
215
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Handbook an Thermal Galcalations (Cont. SUV/3043
Ch. 9. Combustion Equations
1. Derivation of principal formulas for mixed combustion 2.16
2. Basic combustion equations for constant-volume heat GuP.PlY 22-3
3. Basic combustion equations for constant-pressure heat supplY P24
4. Principal special cases of combustion equations 225
Ch. 10. The Expansion Process ?29
1. Basic formOAs 229
2. Interdependence betveen the heat-generation coefficient and
n2 IP01YIWOPic exponent) 230
3. Coeffl:pient k2 [mcan coefficient of adiabatic expansion) for
heavy UquiA-fuel engines 234
,pt k2 for gasoline engines at incomplete combustion 236
4. Coefficie
5. Coefficient k2 for semidiesel engines 238
6. Coefficient k2 for producer-gas engines 240
7. Coeffipient k2 for natural-gas engines
8. Summary of results of determining mean coeffiaents of adiabatic
expansion ()c2) for various types of fuel and determination of
the value of n2 243
Card 9/13
Handbook an Thermal Calculations (Cont.) SPV/3043
Ch. 11. Pumping Lootes, Friction Losses., and Compression Work. 244
1. PmvplAg losmes in foiz%stroke engines 244
2. c'mMutation or puipping losses
3. Friction losses in fvo-stroke engines 250
4. Summary of losses from friction and pumping in four-stroke enginps 252
5. Compression vork 257
6. b1sebwAtAl srork produced by the gas turbine 260
7. Temperature Tq'of exhaust gas 264
8. Relation between g(compressed-air pivaouxe in tbe peceiver) and
p(V (gas pressure the discharger] 2~
07
Ch. 12. Deteraination of Mean Indicator and Effective Pressures.
Determination of Basic Parwmeters of the Cylinder. Computation
of Effiialency Indices for Engine Ferfoxy-nees. Plotting of the
Indicator Diagram 270
1. Foraula for the prellmin ry (theoretical) mean indicator pressure 2.70
2. Corracted [adjusted] mean indicator pressure for a two-stroke
engine 270
3- Corrected [adjusted) mean indicator pressure for a four-stroke
engine without conpideration, of pumping-losses 271
card 10113
Handbook On Miermal Calculations (Cont.) SOV/3o47,
4. Corrected (adjusted) mean indicator presouret, wit-11 en-iisiders,tion
of pumping losses
5- Wan effective pressure in two-stroke engines 2_~2
6. Mean effective pressure in four-stroke engines 273
7- Meebanical efficiency coefficient in two-st-roke engines 274
8. MeebanicAl efficiency coefficient in four-stroke engines 274
9. Determination of basic parameters of a cylinder 275
10. Specific fuel consumption and its relation to efficiency cc-
efMcieftts 2TT
11. Plotting of the indicator diagram. 283
PART II. THUMAL EFFICMNCT CAICUIATIONS FOR THE
PRINCUM,L TYMS OF IMRNAL COMBUMrON ENGMS
Ch. 13. 7hermal Efficiency Calculations for a Four-stroke Silent-running
Low-compression Engine Operating on Pr~oducer Gas Obtained from
~nthm;ite 285
Ch. 14. Calculations for 4L Low-compression Semidiesel. Engine With
Water Injection 297
Card n/13 -
Handbook on Thermal Calculations (Cont.) SOV/3043
Ch. 15. Calculations for a Four-stroke G"Oline Engine of a Motor
Vehicle 305
Ch. 16. Calculations for an Aircraft Gasoline Engine Witlout Sulier-
r.harger 311-7
Ch - 17. Simplined Cg,tlculations (According to M%slennihkav) for
Aircraft Gasoline Engines With and Without Sclapera'har-ging
[Boosting] 331
Ch. 18. Calculations for a Compressorless Two-zt?klke Diesel Engine
With Precombustion Chamber and Crankcase-c~mpression Scavenging 340
Ch. 19. Calculations for a Fbur-stroke Compressorless Marine Diesel
Engine Without Supercharging 352
Ch. 20. Calculations for a Four-stroke Locomotive Diesel Engine With
Gas-turbine Supercharging (Check Calculations)
Ch. 21. Oilculations for a Two-stroke Marine Diesel Engine With
Uniflaw Scavenging Controlled by a Sleeve-valve and Having a
Two-lobe Stipercharger 3715
Card 12/13
Handbook da Thermal Calculations (Cont.) SOV/3()4-5
Ch. 22. Calculations for a Four-stroke Engine Cperating on Compressed
Natural C~%s With Inflammble-liquid Injection
Bibliography 400
List of Computation Graphs W-1
AVAILABLE: Library of Congress
AC/mg
Card 13/13 3/l/60
Prof -
TARZM, V-M-,
-
Selec,ting indices of compression and expansion P017trOPOI
in the thermal analYsis of internal-combustion angines. rrudy
HJIT uo.112:27-55 '59. (14IRA 1.31.2)
(Gas ancl oil engines)
N TARMET, vomes, prof.
~ ~
Abridged calculation of the exhaust process in two-cycle, engines.
Trudy MIIT no.112:56-84 159. (IURA 13:2)
(Gas and oil engines)
KUZOVM, Vitaliy Alokeendrovich; TAREYEV, V.M., prof., doktor tekhn.
................
ta lr~
.M~
nauk, red.; VCLCHM, I.M. 0
[Principles of heat engineering] Oanovy toplotekhniki. Pod red.
V.M.Tereova. Izd.2, Leningrad, Izd-vo "Rechnoi transport."
Loningr.otd-nia. 1960. 199 p. (MIRA 13:11)
(Heat engineering)
~ AREYEV, Vladimir Mikbayloviobp prof. # doktor tekhn. nauk; GOIWACHHVI
TAga- ~A.VVI.~~rtir~;~pl-X~t tekbn. red.
[Manual on the thermal analysis of the workipg process of internal
combustion motors) Spravochzik po, teplovomu ra'schetu raboohego
protsessa dvigatelei vnutrennego sgoraniia. Izd,3.9 perer, Lenin-
grad, Izd-vo "Rechnoi Transport" laningr. otd-nie, 1961 415
OU I (HNU .14:95*
a and oil engines)
Blektrotekhnicheskiye materialy AID 75-7 - X
Pages
Ch. 9 Conducting Materials 214-233
Copper: basic datao treatments brass, data on wires.
Aluminum, basic data, Aldrey type.
Steels characteristics, wire manufacture "bimetal", data.
Others: Tungsten: treatments basic data; molybdenum,
platinum and mercury, basic data.
High resistance alloys: constantan, basic data;
manganin, nichrome, "Fechrale" and their basic data.
Carbon: brushes, carbon and graphite, "GOST" standards,
basic data table on p. 232.
Ch. 10 InsUated Cables 233-248
Wires for windings: basic data, types, tables on
pp. 235, 236, 239.
Power cables: diagrams, basic data, "GOST" standards,
research of S. M. Bragin mentioned; livinyflex" and
"metalvyn" developed by Andrianov and Ushakov; types of
cables and wires: SK, SO, SAI SBI OSB and OSK listed,
basic data given; a score of names of scientists
developing research on wires and cables in attached.
Ch. 11 Magnetic Materials 248-259
Oeneral information: brief review of achievements.
8/10
Elektrotekhnichookiye materialy
AID 757 - X
Pages
Laminated steel "GOST" standardso basic data, types$
table on P. 254.
Various magnetic materials: permalloy, "alsifer"
developed by A. S. Zaymovskly) basic data; magneto-di-
electricaj developed by A. S. Zaymovskiy, N. N. Shollts,
L. I. Rabkin, V. S. Yevseyev for super high frequencies,
basic data.
Materials for permanent magneto: alloy types, basic
data, table on p. 258.
Ch. 12 Various Materials 259-282
Lead: basic data, types.
Soldering materials: soft and hard tin, types and
table on p. 262, compounds with copper, silver, zinc,
cadmium, phosphorus, aluminum, fusing agents: colophony,
chlorine, fluorine, etc.; compounds with sodium, potassium,
zinc and lithium.
Cement, putty, paste, glue: Portland cement types,
according to "GOST" standards; 9
IRBUM, lead monoxide and
I
glycerine (gletoglyoerine); "ELSI' paste, composition;
carbinol glue, composition, also used with nitrous aoid,
9A0
Elektrotekhnicheakiye materialy AID 757 x
developed by I. P. Nazarov and based on synthetic rubber;
glues BF-2 and BF-4 made of synthetic resin and alcohol.
Bimetals: general information (I basic data, properties.
Materials for thermo-couples: 'copel", "alumel" and
chromel". basic data.
Thermo color films (temperature recorders), containing
mercury, silver, copper.
Storage battery electrolytes, basic data,, "GOST" stand-
ards; alkali electrolytes, basic data, "GOST" standards,
and process.
No. of References: 25 Russian, 1945-1952.
Facilities: Names of Russian scientists listed in Table of
Contents.
10/10
TARJKV, B. M., ed.
AKADEMID. nauk SSSR.
Scientific literature on dielectrics Moskva, Izd-vo Akademii nsuk 1952. 671 p.
(53-25640)
Z5834-D48A45
TIARLYL7, 13. 1(.
TMV/Zleetricity - Personalities
I'lay 52
"Professor It. P. Botoroditskiy, in Connection With His 50th Birthday," P. 1.
Skotnikov, A. F. Alabahev, S. Ia. Sokolov, A. A. Vavilov, V. V. Pasynkov,
3. 14. Tareyev
"Elektrichestvo" Do 5, p 88
Reviews main features of professional life of Mkolay Petrovich Blogoroditskiy,,
born 20 May 02 in Tashkent. His principal interest has been development of h-f
dielectrics. Between 1933 and 1942 he developed the now widely-used radio materials
tikond, micalex, h-f glass, radio porcelain, and ultra-porcelain. Affiliations include
Military Else Eng Acad imeni 13udennyy (1933 - 1942) and a large-plant laboratory
(where he produced a number of inventions) during World War N. he has published
a number of articles in journals, bioks, and textbooks. He received three Stalin
Prizes: for an invention in field of ceramics(1942); for textbook "Electrical
Engineering haterials"(1952); and for development and organization of mass production
of parts for radio equipment (1952).
PA 240T58
TAREYEV, B. 14.
UMR/Iftectricity - Educatiorto, 4un 53
"Correspondence-School Advanced Training Of Graduate
Engineers,7-Prof-B.M. Tareyev, Dr Tech Sci; Engi4.0.
Kagidson' -~-All-Union Corresp Power Eng Inst (VZEI)
Blektrichestvo, No 6, PP 57-59
Describes organization of correspondence-school ad-
;vanced training for graduate power engra on basis of
experience of VZEI in Moscow. Lists, discusses sub-
ject matter of projects recently completed for ad-
vanced training with VZEI by 8 pqrsons from 8 dif-
ferent places (including LeninakAn, Sochi, Taganrog).
Submitted 22 Jan 53.
268T54
TAIUYkV, B.Mv professor, doktor tekhnicheekikh nauk; GIKIS, A.F.,
~~Tol_`W;nt, kandidat tekhnicheskikh nauk; MEZHLUMOV, A.A., dotsent,
kandidat tekhnicheskikh nauk (Baku); STOWT, L.I., dotsent,
kandidat tekhnichesklkh nauk (Kazan); YUHATOV, A.A., Inzhener
(Kronshtadt)-, RMIMOV, G.R., doteent, kandidat takhnicheakikh
nauk; KONSTANTINOV, V.I., inzhener (Moscow); NRYMAN, L.R.;
ZAYTSEV. I.A., dotsent. kandidat tekhnicheakikh nauk-, LURIYE, A.G.,
doteent. kandidat tekhnicheakikh nauk.
Terminology of theoretical electrical engineering. Elektrichostvo
no.2:74-82 Y 154. (MIRA 7:2)
1. Vsesoyuznyy zaochnyy onergeticheskiy institut (for TArg"Y).
2. Rostovskiy Institut inzheneray zheleznodorozhnogo transporta
(for Gikis). 3. Sredneasiatakiy politekhnichookiy inatitut (for
Bakhimov). 4. Chlen-korrespondent Akademii nau SSSR (for Neyman).
5. Leningradokiy politekhnicheskiy institut im. Kalinina (for
Heyman, Zayteev, Lurlye). (Slectric engineering--Terminology)
VVITER -A.V., akademik; KUKUSHKD,, I.N., inzhener; TRAPEZNIKOV V A -
.9 .4 0 9 op
NIKOLAYEV,, A.T., inzhener (Muromtsevol Vladimirskoy obl.); KUDELIN,
Ya.M. (Muromtsevnp Vladimirskoy obl,)j PETROVO 1.1.9 dotsent,, kandidat
tekhnicheskikh nauk (Moscow); BADALYANTS, M.G., inzhener; BELICHENKO,
G.M., inzhener; KLAPCHUK, L.D... inzhener; FRANTSUZOVj Ye,M., inzhener;
TAREYEV B M. professor, doktor tekhnicheskikh nauk; MAGIDSON, A.O.p
Improving the knowledge of power engineers through correspondence
courses. Remarks on B.M.Tareev's and A.O.Magidson's article. Elek-
trichestvo no,3:76-80 Mr 154. (MLRA14)
1. Energetichaskiy institut im. Krzhizhanovskogo Akademii nauk SSSR
(for Vinter). 2. Clavnyy energetik Gor1kovskogo avtamobillnogo
zavoda im. Molotova (for Kukushkin). 3. Institut avtomatiki i tele-
mekhaaiki Akademii nauk SSSR (for Trapeznikov). 4. Chlen-korrespon-
dent Akadem:Li nauk SSSR (for Trapeznikov). 5. Leninakanges (for Bada-
lyants). 6. Dnepropetrovskiy institut inzhenerov transporta (for Be-
lichenko). 7. Xurakhovskaya gres (for napchuk). 8. Orekhovo-Zuyev-
skaya tets (for Frantsuzov). 9. Vsesoyuznyy zaochnyy energeticheskiy
institut (for Tareyev and Hagidson).
TARSYST, B,N..*,.professor, doktor tekhnicheskikh nauk.
1--
In the scientific-technical society of the All-Union Institute for
Correspondence Courses in Power higineering. SlaktriehagtTO no-3:90
Mr 154. (MLRA 7:4)
1. Predsedatell NTO Teesoyusnogo, taochnogo snergeticheskogo institute.
(Power engineering--Study and teaching)
DROZDOV, 1,G., professor, doktor takhnichaskikh nauk; FRIVIZENTSMY, Y.Ae,
professor, doktor tekbnicheekikh nauk; IOKMV, NeSe, doteant, kandi-
dat tokhnichaskikh nauk; NIKULIM, N*V., dotsent, kandidat takhnicheakikb
nauk; SEMNSKIT, I.I., doteent, kandidat tokhnichaskikh nank; XRACLW-
SKIY, P.A., kandidat takhniohaskikh nauk; QM, A.P., Inzhener& ALIM-
SANMV, N.V.. professor, doktor takhnichaskikh nauk; TAINYEV, B.M.,
professor, doktor takhnichaskikh nauk; ZYMNSONO Lq8.9 pr-RO-690-i'..
doktor tekhnicheskikh naukj STEPANOV, V.S., dotsent, kandidat tekh-
nicheskikh nauk; MAGIDSON. A.0., inzhener.
'Science of electrical materials." X.M.Mikhailov. Revieved by N.G.
Drosdov, and others. Alektrichastvo no.):93-94 Mr.'54. (MLRA 7:4)
1. Moskovskiy anargaticheakiy institut im. Wolotova. 2. Vessoyuznyy
zaochny7 energeticheskiy institut.
(Electric insulators and insulation) (Electric conductors)
AID P - 663
Subject USSR/Electricity
Card 1/1 Pub. 27 - 32/34
Author B
-Ta-reye_v, ..~W Dr. of Tech. Sci., Prof., Chairman of
e c in of the All-Union
Fand Technical Society
c
Power Engineering Correspondence Institute (VZEI)
Title Scientific and Technical Society of the VZEI (current
News)
Periodical Elektrichestvo, 9, 94, S 1954
Abstract The 5th scientific and technical conference of the In-
stitute was held in May 1954. 28 reports were discussed
in the sections of the Institute.
Institution VZEI (Scientific and Technical Society of the All-Union
Power Engineering Correspondence Institute)
Submitted No date
\"~E y /,V,
- / - - - - - - -
I N.A.; VIINIKOV, V.A.; IIROZDOT. B.G.; PRIVWJIMZV. V.A.; SOLOVITIV,
I.I.; TAPSM, B.M.; NIXULIN, N.Y.
oxwo
Profousor S.K.Brogin. ILaktrlCh~StTO no.12:82-83 D '54. (XLRA 7:11)
(Bragin, Sorgei MIkhailovich, 1894-
TARMN, B2r!s Mi"lovich, lex,reat Stalinskoy preaft, d-r tekhni-
cHeafTer-Oluka.T=EMDV, T.T., redaktor; SIMRTSOT, I.H.
F
takhniebaskly redaktor.
(3lectric engirmering materials] Ilektrotekhnicbeekle usterialye
Izd.5-oe perer. Moskva, Gos.energ.iz&-vo, 1955. 256 p.(MLVA 8:10)
(Blectric engineerint-,Materials)
BOGORODITSKIT, N.P., PASYNKOV, V.V.,- TARRV, B.M.; IMIMS, T.T., rodaktor
VOROIMSFkTA, L.V., takhnicbsskfy'lriffikktbe.~-
(Materials used in electric ongineerino Ilektrotokhnicheskie
materialy. Izd-vo 302, pare. Moskva, Goo. onerg. isd-vo, 1955.
372 p, (MLRA 8:8)
(Electric engineering-Materials)
ARAYNY, B.M., professor, redaktor; YBZHKOY, Y.Y., redaktor; BORONIN, X.P.,
OURVIRMeekly redaktor
[Yluortne or5antc compounds used an electric insulating materials.
Translationej Ptororgenichookle alektroisolystalonqrs materialy.
Perevody statat pod red. V.K.Tereave. Moskva, Gos.snarg. izd-vo,
1957. 62 P. (KLRA 10:9)
(Alectric insulators and insulation)
(fluorine organic compounds)
1-.-' Ll V I
GOLUBTSOVA Va leriya -Alekseyevna ~.TARSYSV B.M , red.; MOVEDNV, L. Ya.
te1rhn.red.
[Histor7 and prospects for the development of electric Insulation
materials] Istoriia I perepektivy razvltiia elektrotsoliatsionnykh
materialov, Moskva, Goosenergaftd-vo, 1957, 76 p, 9 graphs
(MIRA 11:2)
(Ilectric insulators and insulation)
TAREYEV, B. M. 0, prof, 'red.; BORUNOV, N.I., tekhn.red.
[Recomendation for the classification of materials for the
insulation of electrical machinery and apparatus in relation
to their thermal stability in service] Rekousn&atsii dlia
klassifiket~ii materialoy izolistaii elektricheskikh mashin
i apparatov po nagrevostoikosti. Publikateiia No.85. Izd.l,
1957 9. Moskva. Clas.enargAzd-vo, 1058. 12 P., - (MIRA 12:7)
1. World Power Conference. V.S.S.R. National Committee.
'(Electric insulBturs.and iusulation)
8(2) MW I BOOK EXPWITATION sov/1867
Tareyev, Boris Mhaylovich., and David Mikhaylovich KazaMovokly
Ispytaniya elaktroizolystsionnykh naterialov (Testing Blectric Insulating
Materials) Moscovp GoBanergoir-dato 1958. 208 p. 20j,950 copies printed.
Ed.-. V.I. Timokhina; Tech. Ed. G.I. Matveyev.
PURPOSE: This is a textbook for students in electrical engineering tekhnikams.
It MW be useful to students in power and electrical engineering vuzes and also
for technicians in 'Industrial plants and scientific-research institutes.
COVERAGE: The authors describe the mat important and widespread methods of test-
ing electric insulating materials. They explain the theoretical basis of the
various methods and describe a n=ber of testing instrunents and auxiliary
equipment. Special attention Is devoted to new methods of testing with auto-
matic measuring imtruments and apparatus and methods for contintious testing
without Interrurting production or operating conditions. There axe 70 refer-
ences, 53 oT'vhicb are Soviet., 10 English,, 4 German., 2 Czech and I Italian.
Cards
PHASE I BOX ECPWIMkTION 1079
Tareyev, Boris Mikhaylovich
Elektrotekhaicheskiye materialy (Electrical Materials) 6th ed., rev, Moscow,
Gosenergoizdat., 1958. 271 p. 51.,000 copies printed.
Ed.: Timokhina, V.I.; Tech. Ed.: Larlonov, G.Ye.
PURM , This book was approved as a textbook by the Scientific Council for Prc-
fessional and Technical Education of the Main Administration of Labor Rese a
under the USSR Council of Ministers, to be used in technical, trade, and r-41-
road schools specializing in electrical engineering subjects. The book is also
intended for technicians working in electric power systems., and pleats and repair
shops of the electrical and radio industries. It premms a basic knowledge of
physics, chemistry and electrical engineering.
COMME: The book describes the properties., methods of testing., and behavior of the
most important electrical tdaterials (Insulating materialsp conductors, magnetic
materials, cables, and vwious other materials,) No personalities are mentioned.
There are 50 references, all Soviet.
8(0) PHASE I BOOK EXPLOITATION SOV/2082
Elektroizolyatsionnyye materialy. ch 1! Svoystva materialov (Elec-
trical Insulating Materials. Pt. L: Properties of Materials)
Moscow, Gosenergoizdat, 1958. 460 p (Seriesi Spravochnik po
elektrotekhnicheskim materialam, t. i) 30,000 copies printed,
Eds (Title page): Yu.V. Koritskiy and B.M.--Tareyevj Ed. (Inside
Look): I.V. Antikj Tech. Ed.: A.M. FridicunT--Eas, of series:
K.A. Andrianov, N.P. Bogoroditskiy, Yu.V. Koritskiy and
B.M. Tareyev.
PURPOSE: This book is intended as a reference guide and textbook for
engineers and technicians of electrical-engineering and radio-
engineering industrIal organizations and plants, of electric power
stations and substations, electrical repair workshops, laboratories
and scientific research institutes.
COVERAGE: The publication "Reference Guide on Electrical Engineering
Materials" consists of 2 volumes. The Ist volume "Electrical
Insulating Materials" consists of 2 parts. This is the 1st part
Car~_~
Electrical Insulating Materials (Cont.) SOV/2082
and deals with the properties of insulating materials. The editors
state that the book may serve as a systematically arranged and
condensed source of technical data on most of the electrical in-
sulating materials, their characteristics, standard specifications,
production and machining processes, quality testing methods, and
their applications in electrical and radio engineering. It also
describes electrical insulating products: capacitor insulation,
cable insulation, insulators, insulating materials for electrical
machines, transformers, apparatus, radio equipment, and electro-
thermal apparatus. The book complies with recommendations of the
Vsesoyuznoye byuro elektricheskoy izolstsii All-Union Bureau of
Electrical Insulating Materials) of MONITOE ~VNITOE), issued in
1948. Each chapter is written by specialists and their names are
listed in the Table of Contents. References are alloted separately
to each chapter.
TABLE OF CONTENTS:
Foreword
5
Abridged Table of Contents of the 2nd Part - Testing Methods
and Applications of Electrical Insulating Materials 13
Card -2/-16-,::.
Electrical Insulating Materials (Cont.) Say/2082
PART I. PROPERTIES OF MATERIALS
Ch. 1. General Properties of Electrical Insulating Materials
(Professor B.M. Tareyev, Doctor of Technical Sciences 15
1. Definitions,apptnWti7ons and classification of
electrical insulating materials 15
2. Electric conductivity of dielectrics 16
3. Polarization of dielectrics 21
4. Dielectric losses 30
5. Insulation breakdown 34
6. Thermal characteristics of electrical insulating materials 38
T. Various physical and chemical characteristics of electri- "
cal insulating materials 41
Bibliography: 12 Soviet, 4 English, 3 Czech, and 2 German 44
Ch. 2. Gaseous Dielectrics(Docent N.F. Voloshchenko, Candidate
of Technical Sciences) 45
1. Specific inductive capacitance of gases 45
2. Electric conductivity and dielectric losses of gases 47
Card--3/A6
Electrical Insulating Materials (Cont.) SOV/2082
18. Integrated mica 385
19. Special methods of testing mica insulation 385
Bibliography: 8 Soviet references 389
Ch. 17. Various Mineral Dielectrics (Electrical insulating
rook materials) (Professor B.M. Tareyev, Doctor of
of Technical Sciences) 389
1. Marble. 389
2. Slate 392
3. Talc and talcochlorite 393
4. Jet 394
Bibliography: 17 Soviet references 394
Ch. 18. Electrical-Insulating Glass Materials (Professors
B.M. Tareyev and N.,P. Bbgoroditskiy, Doctors of
TectinIcai sciences) 394
1. General properties of glass materials 394
2. Processing of glass materials 399
3. Types of glass materials employed in electrical
engineering 400
4. Glass bushings 400
5. Glass enamels 408
Car&_t"
AUTHORS: Mikhaylov, M. M., Kostenko, M. P., soMo5-58-7-28/32
Heyman, L. R., Tareyev B. M., PriTezentseT, V. A., Zartsev, 1. A.
""*
Shramkov, Ye. 0 1 or~
~" Yu. V.
TITLE: Professor V.T*Renne (Professor V.T. Renne) To His 50 th Birthday
(K 5o-letiyu so dnya rozhdeniya)
PERIODICAL: Elektrichestyo, 1958, Nr 7, pp. 92 - 92 (USSR)
ABSTRACT: Vladimir Tikhonovich Renne was born on July 18t, 19o8, in Kaluga.
He graduated in 193o from the Leningrad Polytechnical Institute
and obtained the certificate of electrical engineer. Still a
student, in 1928 he entered the telephone works "Krasnaya Zarya;'
and specialized in the field of electric technology. He organized
a series of laboratories and directed them during several years.
He worked out 15 tYPes of paper-and mica condensers, thus in-
dustry being made independent of imports from abroad. He developed
a series of cuprous oxide rectifiers for telephoreequipment. He
holds 8 patents. Since 193o he teaches at the Leningrad Institute
of Electromechanics (Leningradskiy elektromekhanicheskiy in3ti-
tut) and then at the Leningrad Institute of Electrical Engineering
(Leningradskiy elektrotekhnicheskiy institut). From 1935 onwards
Card 1/2 he works at the Leningrad Polytechnical Institute (Leningradakiy
Professor V.T.Henne. To His 50th Birthday SOVI 105-58-7-28/32
politekhnicheskiy institut) department of electric insulation
and cable onginceringp where he has a full-time job since 1939.
He organized a laboratory for electric technology and electric
condensers and published several manuals. In 1938 - Docent, in
1939 - Candidate of Technical Sciences, in 1,051 - Doctor of Tech-
nical Sciences, in 1952 - Professor. He published more then 14o
papers on electric insulation, electric technology, and condenser
design. He maintains close relations with industry and scientific
research institutes. He advises them and carries out scientific
work together with them. For a number of years he was secretary
in the Section of Electric Inaulation at the VITITOE and is at
present Member of the Bureau of Electric Insulation at the Ts-
ENTOEP. He is the scientific head of the Scientific Society of
Students at the Faculty of Electromechanics of the Leningrad
Polytechnical Institute (LFI). Thore is 1 photograph.
1. Electrical engineering--USSR
Card 2/2
TARIM, B.H., prof., red.; OZERSKIY, V.I., red.; VORONIN, X.P., takhn.rea.
C-Iffect of radiation on electric Insulating materials] Tox-
deistvie radioaktivnykh isluchanii n& elaktrolsoliatsionnyo
materialy. Moskva. Gos.energ.izd-vo, 1959. 87 P- (MIRA 12:5)
'(Slectric insulators and insulation) (Radioactivity)
I V~t V It-- V
lb(6) PHASE I BOOF EXPLOTTATION SOV/2903
Elaktrolzolyatoionnyye materialy. Ch. 2t Matody lapytanlys I pr1man6n1ya
m4terj4jov (Electrical Insulating Materials. Pt. 21 Methods of Testing and
of Application of the Materials) Moaoowt Gosenergolzdat, 1959. 476 p.
(Series: SpravQchnik po alektrotekhnichaskim materialam, t. 2) Errata slip
inserted. 30vOOO copies printed.
FAs. (Title'page)s' Yu.V. Ko'ritakiy and B.M. Tareyev: Ed. (Ipaide book): I.V. Antik;
ial Boa of Siarlest K.A. Andrianov, N.P.
Tech. Ed.t A.M. Fridkin; Editor N~
Bogoroditakly, Yu.V. Koritakiy, and B.M. Tareyev.
PURMSEt The book is intended for technical personnel of the electrical and radio
industries, electric power stations and substations, electric maintenance and
repair shops, laboratories and scientific research institutes.
COVERAGEs This is the second pa:tt of Volume I of "Electrical Engineering Materials"
and containsj in concise and systematic formp data on various types of the most
commonly used electrical insulating materials and their properties, standards,
methods of processing, applicability in electrical and radio engineering, and
methods of testing. The following types of'insulation are also described:
capacitor insulation, cable insulation, Insulators and insulation.for electrical
machines, transformerso radio equipment and electrothermal devices. References
cal~-~
Electrical Insulating Materials (Cont.)
follow some chapters.
TARLE OF CONTENTSt
Change to Part I of Volume I of the "Handbook"
Errata to Part I of Volume I of the "Handbook"
PART II. METHODS OF TESTING MID APPLICATIONS OF MATERIALS
Ch. 21.. Basic Methods of Testing Electrical Insulating Materials (D.M.
8
9
Kazarnovskiy and B.M. Tareyev) 11
1. Conditioning-test Sam-ple's-oT-Rectrical insulating materials 11
2. Electrical testing of electrical insulating materials (general In-
formation) 16
3. Measuring with galvanometers specific resistances of electrical in-
sulating materials
4! Measuring 6xtramely high insulation resistances 22
S. Measuring specific inductive capapitance and dielectric loss angle 25
a). Measurements at low frequencies 26
SOV/2903
Electrical Insulating Materiols (Cont.) SOV/2903
b
. Measurements at audio frequencies 29
a . Measurements at high frequencies
l 35
d . Measurements at super-high frequencies 41
a . Measurements of the dielectric loss angle at high-frequency hirh
voltage 50
2. Measurement of the capaeltance-tomperature coefficient 51
g . Testing nonlinear dielectrics 53
6. Determining electric strength 56
7. Mechanical tasting of electrical insulating materials 63
8. Determining heat resistance 70
9. Various pbyalcoebemical tests 75
10. Ultrasonic testing 87
Bibliograpbyi 29 references, all Soviet (1 translation) 89
Ch. 22. Electrical Insulation In Capacitors (V.T. Ronne) 90
1. Terminology and classification 90
2. General properties of capacitors 90
3. Capacitors vith gaseous and liquid dielectric 98
4. Capacitors vith solid Inorganic dielectric 101
90)
AUTHORS:
TITLE:
PERIODICAL:
ABSTRACT:
Card 1/3
SOV/143-59-5-5/19
Tareyev, B.M., Doctor of Technical Sciences, Profes-
'sor, 3nd Lerner, M.Mot Engineer
An Investigation of the Forming Process of Aluminum
Foils for Electrolytic Capacitors by Three-Phase
Power Frequency Current
Izvestiya vysshikh uchebnykh zavedeniy - Energetika,
1959, Nr 5, pp 36-45 (USSR)
Studying the process of static forming of anode alu-
minum foils by three-phase alternating current will
result in a more complete evaluation of the advantages
of this method, which eventually will find industrial
application. In this paper, the authors consider the
connection between capacitance of the foil sample to
be formed and the linear forming voltage and also
the direct voltage component in the tanks. Pigure 1
shows the connection of 3 tanks for three-phase static
forming of foils. The authors discuss the time re-
quired for forming the foils, the final forming cur-
rents and the speed of" oxide layer formation. They
V
SOV/143-59-5-5/19
An Investigation of the Forming Process of Aluminum Foils for
Electrolytic Capacitors by Three-Phase Power Prequency Current
compare the quantity of power required for di'f'feren't-
forming methods'. The forming of aluminum foil's was
erformed in tanks with stainless steel electrodes
eel lKhl8N9T). The electrolyte consisted of boric
M
acid-(100 gr/jiter)oand borax (0,5 gr/liter), and had
a temperature of 80 C. As a rule, 60 min were re-
quired for the forming process. Samples of 0.08 mm
thick aluminum foils, 3X5 cm, having a purity of
99.95%, were subjected to forming. The data in Table
1 show that the final currents hardly depend on the
forming voltage with three-phase forming; on the
average they amount to 1.22 milliamp/cm . Experimen-
tal data confirmed that the final current density
does not depend on the voltage. With three-phase
forming the oxide layer is formed faster than with
two-phase forming. If the foil formation is perform-
ed on direct current with the voltage U_ and by three-
phase alternating current with the voltZige Uo , with
Card 2/3 the aforementioned electrolyte composition, then a~~
SOV/143-59-5-5/19
An Investigation of the Forming Process of Aluminum Foils for
Electrolytic Capacitors by Three-Phase Power Frequency Cutrent
identical capacitance of the foil may be obtained
under the condition Uq = U_. The direct voltage com-
ponent Uo 2 during forming-under these conaitions, is
equal to half the effective value of the linear volt-
age. In the ultimate case, when the*resistanoe of
the electrolyte is equal to zero, and if the valve
effect of the oxide layer is ideal, UO is equal to the
amplitude of the phase voltage. There are 2 diagrams,
9 graphs, 1 -eable and 3 Soviet references. Mi axticle vw
go i kabellnoy talftik' ZThe Mair of
Aftb
ASS A se o uznyy zaoc n y ene ;ticheskiy institut (All-
Union Corre,spondence Institute of Power Engineering)
SUBMITTED: December 28, 1958
Card 3/3
8 (3)
AUTHORS: Tare ov B. M., Doctor of Teobnical SOV/105-59-6-i6/28
"
m
ev
'
`
`
`
Z
Y
_
%
. -Foie
~r
nc
fessor, Lernerg %. M.,Engineer
cfe
4
e
e
g
TITLE: Continuous Alternating Current Oxidation of the Anode ftil of
Electrolytic Condensers (Nepreryvnoye oksidirovaniye peremennym
tokom anodnoy foligi dlya elektroliticheskikh kondensatorov)
PERIODICAL; Blektrichestvol 1959, Nr 6, PP 71 - 76 (USSR)
ABSTRACT: This is an investigation of the continuous-band-motion oxida-
tion of anode foil bands with single-, two-, and throe-phase
a.c. A counterconneotion of the baths appears to be most con-
venient. The utilization of troughs of conv2ntional construc-
tion for a.c. oxidation is possible only if the troughs are
made of oxidation-resistant material, (as, for example, stain-
less steel 1Kh18N5'j'). The highest operational stability during
oxidation is achieved if one foil is pulled through counter-
connected baths (as shown in figure 3b). With respect to an
equal load distribution on the transformers a three-phase ox-
idation is very interesting. It gives, similar as a two-phase
oxidation, an oxide layer of high quality. The oxidation of
anode foile by continuous band motion by means of a.c. and
Card 1/2 counterconnected baths avoids the rectification of the a.c.
Continuous Alternating Current Oxidation of the 507/105-59-6--16/28
Anode Foil of Electrolytic CondenBern
and hence the energy losses connected with such a traneforma-
tion. No short-circuits will occurt if the foil breake, the
coe-fof the installation increases an& the output also in-
creases owing to the elimination of polarization at.-;he elec-
trodes. There are 7 figures, I table, and 7 Soviet references.
ASSOCIATION: V8esoyuznyy zaochnyy energetichaskiy institut (All-Union
Correspondence Institute of Power Engineering)
SUBMITTED: December 25, 1958
Card 2/2
TARAYHY, B.M., prof., doictor tekhn.nauk, otv,red*vypuska
_V&
.,5,w
(Dialectricsj Dialektriki. Moskva, 1960. Z1 p. (Bborniki
rokomanduemykh terminov, no.53). (MIRA 130)
1. Akademiya nauk SOR. lomitet tekhnichaskoy torminologii.
(Dielectrics--Dictionaries)
(Russian language-Diationaries--Polyglot)
ANIORIAMOV, K.Aep red.; BOGMWITMaye IsPes red.,o, KORj1zfigjT~ Yu*V., red,;
PASIMMo VJ09 red.; B.M.0" red.; S03CMAP YO#Xoo
takhn.rade
[Handbook on electric engineering materials; in two volumBBI
Spravochnik po elektrotakhniche skim materialem v dyukh tomakh.
Moskva, Gos.anerg.isd-yo. Vol.2. [Magnetic. conducting, semi-
conductor and other materials] Nagnituyeg provodulkovyeg
poluproyodnikovys L drugie materialy, Pod red, N.P.Bogoro-
ditskogo I Y.V.Pboynkova. 1960. 511 p. (KERA 14:1)
(Ilectric engineerint-gNaterials)
Alsksandra., 1. T.. Larlonal, A. I., ft.41A. 3. V.. C"tre,
-1 --L - O"Id" I. .. I Be- ~ T. T:
Z-V-01's, I. a.: Trualtakly. I' -D" Uty.tiza: a. F.
T.. and Others
TIT"S ?rot .... r T. A. an 11. 60th birthday -4 the
)5tb-AaaI1#T-W7 or It- 3010.41fle-podenecal ad
goal ... ring Activity
MIDDICA.L. 92.ktrIshast". 1960 ,so. 7. F.
Tan. This 1. a brief bloCrophy of TI rr%-aw%A.-.
W." .1 the .11I.C. If lazodkino, I.. V-. -
1924 be rtalsb*4 his studies at the 514ktratakhniebaskly fakul-lot XTTT
(D.P.rt"at me 11"tri-I CcAlusering of the I=). later *a at the
I..ko"kis p0 I ta.titut (N.Saw. I.StAtelt. of
Ind"" and Z.::4%Y). and the Trembly* podapeabaski7o kursy ?rl Wr=
(][Labor ftd&40910-1 Course at the ITTU). In 19", be dissociated far It.
4ogrw. of C-dld.t.,b.4-4 . Docent to 1139. and . ftafe.a.r in 1946.
Prote.ver T. A. trl-s.ut.o- On Its 60th 31105160100010712-W02T
'Irtbd%y said the 351h AWLV.".rr at 11. WOUDW5
end U491 ... 'lot
AstiTity
3.12-ritaw 1 1951 oil"a of ~9:t.r aftTeststA,val
34 :J 1 23' ad r 2 t be sacs
- to 1952' Irva 1) bb 0 ya r. .
:. to
(.1604stal . a '41 me: b.t-
"Dw,-bmL;;, 1 45 It marked amour . hL:.r., "tb
'9., and 5. Pros 9 hl dl r at
-hostrellways k.ballsays Ubor,%toriy: W,.,C:,.Itr*l Cable laboratory REP)
awd r a d puty director for t .aI utlf at Los of the Banat-
1#84 derat:11.kly In.litut k.b.1-mor 1"-rc.V/
Imatitat. of the Cable XA4-tr?)- ?2-- 1949 on. be be. b r
department chief at the SIM. He cooperate& in the rall::5.110.111114109 mf
".or ""a for 1-10 k., .4.4.ct.9 the pradvatis
solowshill I caproca-, and wea,ml,
to. :.o.b as. mad cables with glass o.l..
tell lor 25 years he has to" workinC %% the Mgt. At %be SLUT.
be to sup."W:c tb rk or vc.t-Cwdualq students. a. wrote many
lbook.. handbook an :.b-le engineering, mad sure &ban 100 articles. For
15 You". he was the r-ponsilole editor of the
P2.41C.1 of cable w.Ci.o.ring (edition of the Warta motd the
v KL). conducted for 15 rearm, the kabel-mays, w.ktlym, Ira..bno-
Pref o war T. on IL. &Oth 3/1 05/60/000/aT/Wtv
Birtidar, abi the 35th Anniversary of ale SmixW5
if q-p,dadvdla.I and rzClv--rle
"0'. t I
kh,clah-k-go, :*"to Kl-1:txwt- Iqktr.t.%hm1*bmwkc7
ft
li . auction f the 3. 1. t,fi "Id Twebal..1 Ca.vicil .1 the Stat.try
of the glectratoebRital Industry), "A us. a member of the Prot%tt~
TO-60y"anor by.- p- i..17et.iL (Pro utus or th. At%-
late. as".. of 91-atr IQ for or. than 1; rear.; later
%a *"pentad in the work
(C:f I P.
t.selsololit pri AM SS31 *31 -1 rims and T.ralv.ledr am the
As 4331). There is I ricur.-
Card 3/3
L
TAREYG,V B.M., doktor tokhn.naukp prof.; 1XMI~2, M.H., kand.tekhn.nauk
14- 1
Concerning the replacement of copper with.alunimm in the
electric industry Elektrichestvo no.10:78-82 0 160. (MRA 14:9)
iElectric engineering-Materials)
CHILIKIN, M.G.; LARIONOV2 A.N.; ANDRIANOV, K.A.; MESFKOV, V.V.;
IONKINO P.A.; ARMUPOV, V.N.; PETROV, G.N.; BRAGIN, S.M.;
PRIVEZENTAV.. V.A.; TAREYE B.M,
Professor N.G. Drozdov. Elektrichestvo no.10:9Q 0 160.
(MIRA 14:9)
(Drozdov,, Nikdlai Gavrilovich, i~OO-)
tlw
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S1.
Fb
0-4 -6 -6 P
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WOO
S/181/60/002/010/023/051
BO19/BO56
AUTHORS: Tareyev, B. M. and Lerner, M. M.
t 1 14
TITLE: The Theory of Unilateral Conductivity of an Oxide Film
on Aluminum t\ -
V1
PERIODICAL: Fizika tverdogo tela, 1960, Vol. 2, No. 10, pp. 2487-2492
TEXT: The present theory of unilateral conductivity of oxide films on
aluminum describes satisfactorily the behavior of an oxidized sample
immersed in an electrolyte. If, however, the sample is taken out of the
electrolyte, this theory fails in the description of a number of its
properties. This theory is especially not developed for electrolytic
capacitors with solid electrolytes. The authors suggest a hypothesis
that holds good for oxide films which are formed in weak electrolytes,
if the former has a positive potential. In this hypothesis it is assumed
that a p-n- junction exists, which is destroyed with the formation of an
n-type semiconductor: 1) by removing the voltage from the sample, 2)
by taking.the sample out of the electrolyte, 3) by applying a negative
Card 112
84600
The Theory of Unilateral Conductivity of an S/181/60/002/010/023/051
Oxide Film on Aluminum WON%
potential to the sample relative to the electrolyte (in this case the
defects are in the oxide film). On the basis of this hypotheois suggested
by the authors, it is possible to explain the behavior of oxidized Al-
samples in the following cases: 1) The vol-tage is removed from a sample
dipped into an electrolyte. 2) A negative potential is applied to the
sample relative to the electrolyte. 3) The sample taken out of the
electrolyte is subjected to the action of various media and temperatures.
4) Onto the sample taken out of the electrolyte, a layer of p-type
semiconductor or of metal is applied. There are 24 references; 3 Soviet,
11 US, 3 Dutch, 5 German, 1 Swiss, and 1 French.
SUBMITTED: August 29p 1959
Card 2/2
BO=ODITSKIY NikolV Petz~,6vicb; FASYNKOV, Vladimir Vesillyevich;
TAREYEVP Borio Mikbaylovichp"AgMt V.T,# doktor tekbnojmukv PrOf.f
oil I red.
[Electric engineering materials] ElgktrotekbuicheskiS mater"o
lzd,4,t perer, Moskva, Gos.energAzd-voy 3-961. 52.8 p. (MIRA 34t6)
1. Zaveduyusholo WedrOY elektroizoiyatsionnoy i kabel'UOY
tekbnj j Leningradskogo politekhnicheakogo instituta im. H91-Kalirlina
(for Renue)*
(Electric engineering-Materials)
-- - - - - -- --- --- --- - - --- - -- - - -- --- ---- - - - -- - - ---- ---
TAREYEV B.M., laureat Sta-linskoy premiip doktor tekhn. nauk-,, prof.;
WGUMN', O.A.2 red.
(Fundamentals of the pbysics of dielectrics; lectures) Osnovy fi-
ziki, dielektrikov; lektaii. ~Ioskvap Vaes.zaochzWi energ. in-t.
Wo.l.[Electrical conductivity of dielectrics] Elektroprovodnost,
dielektrikov. Izd 4,,, perer. 1961. 46 P. (14IRA 15:7)
N electrics)
TAREYEV, B.M., prof... red.; BUIZAKOV., V.A., red.; LILRIONOV) G.ye"
tekhn. red.
(Electric insulating materials with increased heat resistance]
Elektroizoliatsionnye materialy povyshennoi nagrevostoikosti;
sbornik perevodov statei. Moskva.. Gosenergoizdat, 1961. 103 P.
Translated from the Engligh. (MIRA 16:5)
(Electric insulatbrs and insulation)
MIKRULOV, A.I., prof.; TARMEV, B.M.., prof.
[Scientific information in the field of electric asA
power engineering] Naucbiiaia inforp-atsiia"v oblasti elek-
trotekhniki i anergetiki; lektsiia. MoBkva, Vses. zaochnyi
energ. ir-t, 1961. -17 p. - (MIRA~ 16:32) .
1, Direktor Vsesoyuznogo instituta nmehnoy Itekbnicheskoy
informatsii (for Kikhaylov). 2. Zaveduyushebiy kbLfedi*
elektroizo:Lyatsionnoy'i'kabeltiioy tekhhiki'Vseioyuznogo za-
ochno o energeticheskogo Instituta (for Texeyev).
&wer engineering-Information servicea)
BRAGIN, S.M.; BUTAKOV2 I.N.; KRASIN, A.K..*SOKOLCVI A.As ; STEKOLINIKOV,
I.S.; TAREYEVI B.M.; FIALKO, Ye.I.,- CHILIKIN, M.G.
----------
Fiftieth anniversary of the birth of Pr9fessor A.A.Voroblev.
Eleldrichestvo no.1393 Ja 161. (MIRk 14:4)
(Yoroblev, Aleko&ndr kkimovich)
TARSM) BaM... doktor tekhn,qauk, prof.; UMM, N.M., kand.tokhn.nauk
Trends in the deve2op'mcnt of alumimim electrolytic capacitors
abroad. Elektrichestvo no.5:81-,84 MY,1624 (MIM 14:9),
(Electric capacitors)
A
377h8
s/196/62/ooo/oo9/oo9/oi8
B114/EI84
AUTHORS: Lerner, N.M., and Tareyev, B.M.
TITLE: Single phase formation of anodic foil for capacitors
using alternating current
PERIODICAL: Referativnyy zhurnall Elektrotekhnika I energetika,
no.9, 1962, 6, abstract 9 B28. (Tr. vses. zaoch.
energ. in-ta, no.18, 1961, 77-91)
TEXT: Static formation of foil in a slngle bath-d:Lrectly
connected to an a.c. power supply was considered. Two cases were
exceeds that
analyzed: 1) when the impedance of the foil (21
of the bath IZBI; and 2) w1hen Z is of he same order of
magnitude as, or much less than, IZB i- Case 1 is possible if
the bath is made of a material which is not affected by a.c.
(for instance stainless steel). In this case, a large (reverse)
current flows in the conducting direction of the oxide skin which
is being formed, and,more enargy is required than when forming
with d.c., or by other a.c. methods, and this, to some extent,
impairs the quality of the oxide film because it Is intensively
Card 1/6 ,
Single phase formation of anodic S/196/62/000/009/009/018
EUVE184
heated during the conducting half cycles. At the same time, the
voltage utilization factor K, which is the ratio of the
voltage across the oxide film to the total voltage applied to
the bath, is high - the wbble voltage of the source of power is
applied across the oxide film with the exception of voltage drop
in the electrolyte. Case 2 is possible if the bath is made of
a material susceptible to a.c. (for instance aluminium), and the
s.trface area of the bath is 'about equal to the area of the foil
(or is a little less). In case 2, the reverse currents flowing
through the foil are much less than in case 1 because
jZB~ >,, ~i -91* This reduces the a.c. power consumption and the
oxide film is of better quality because heating is less. In
-case 2, K is much lower, particularly when 12BI> 1~111-
Curves are given of capacitance and current as function of the
time of a.c. or d.c. forming for case 1. The oxide film
formation time counted from the moment when the current-and'the
capacity cease to fall is about 15-20 mms for both a.c. and d.c.
With a.c. the time of passage of ionic currents forming the
oxide film is much less than the time of application of voltage,
Card 2/6
Single phase formation of anodic ... s/196/62/000/009/009/018
EUVE184
while with d.c. both intervals are the same. With a.c. and a
single bath, the oxide layer forms only during that part of the
half cycle during which the current passes through the foil in
the non-conducting direction for the oxide layer. The ionic
current begins to pass through the oxide layer at an instant when
the applied e.m.f. is greater than the back e.m.f. in the oxide
film, which is proportional to its thickness. The authors call
the time of passage of the ionic current Lt, 'the absolute time
of formation'. Inasmuch as &t is a function of time of the
a.c. forming period, full absolute time T during all the
periods can be calculated from the formula;
t . .F , where
T I/Y
Et = t Lt dt Is the tIme of formation of the oxido
~-M 0
layer, T - full period of the forming voltage@
Card 3/6
Single phase formation of anodic ... S/196/62/000/009/009/018
E114/E184
If, to a first approximation, it is considered that the time
function is linear
At = T (1 t
t
then T = 5 minutes for a.c. conditions compared with 20 minutes
for d.c. Therefore, vhilst a.c. is flowing the instantaneous
;onsity of ionic current should be somewhat greater than with
(..C. Comparative curves are given plotting reverse capacitance
aZainst voltage for d.c. and a.c. In the range up to 160 volts
the specimens are of the same 'capacitance if the effective
voltage with a.c. is three quarters of the d.c. voltage (the
forming takes place in aqueous solution 100 g/litre boric acid
and 0-5 &/litre,borax at a temperature of 80 *C.). In the
second case, film formation was studied with various ratios of
foil to bath surface area. It is shown that, as tho bath area
is reduced, the consumption of electric current decreases.
The problem of comparing a.p. and d.c. processes is discussed.
A.c. and d.c. can both be conducted in three ways: firstly, at
Card V 6
Single phase formation of anodic ... S/196/62/000/009/009/018
Ell4/El8h
a constant &urrent density; secondly, at constant voltage; and
thirdly, mixed. However, not all those ways are suitable for
comparing a.c. and d.co processes. In the first way comparison
is difficult because with a.c. not all of the current is used for
the formation of the oxide layer. It has a considerable
capacitative component, and the reverse current does not form the
oxide at all. It is impracticable to utilize the third (mixed)
way for comparison because it partially includes the first way.
The most convenient is the second way - comparison at constant
forming voltage. The choice of the equivalent voltages for a.c.
and d.c. can be made from the requirements of creating the same
capacitance of oxide layer - its most stable and simply measured
characteristic. In this case, other conditions being equal, the
a.c. voltage U is considered equivalent to a d.c. voltage U,
if the capacitance of the samples being compared after formation
is the same. 2 references.
Abstractor's remarks. The detailed analysis of the a.c. method
shows that an aluminium bath whose surface is much greater than
Card 5/6
Single phase formation of anodic ... S/196/62/000/009/009/018
E114/E184
that of the foil cannot be included in case 1 to the same extent
as the a.c. method with a stainless steel bath. Although with
ah aluminium bath of extensive surface liB1,C41 there is
no sharp increase in the reverse current with a.c. under these
conditions because both the bath and the foil have rectifying
properties. Thus, the bath and the foil being formed in it
comprise a system of two opposing electrolytic valves. The a.c.
c,%sc with one aluminium bath of extensive surface was further
investigated by the authors and practical confirmation was
obtained of the possibility of the dynamic forming of an oxide
layer using a.c. in industrial conditions in one bath, and in
such condItions the oxide layer is of relatively high quality.
[Abstractor's note: Complete translation.
Card 6/6
PMEZRITSEV, Vladimir Alekseyevich; MAGIDSON, Abram Onipovich;
-,,,TAREYZV,-D,Ij,, rof., doktor tekhn. nauk; YEMMIN, V.V.0
tekhn. red.
(Artificial and synthetic fibers and films for electrical
insulation]Iakusstvennye i sintoticheskie volokna i plenki
dlia elektricheskoi izoliatsli. Moskvap Gosenergoizdat,
1962. in P. (Polimery v elektroizoliatsionnoi telchnike,
no.3) (KUA 15:10)
(Electric insulators and insulation)
(Textile fibers# Synthetic)
RUINE, V.T.., doktor tekhno nauk., prof.; TkREYEV B M doktor
tekhn.naukp profop red*
(Study of the relationship between the properties of
condenser paper and the quality of paper condensers)
mrrual for the course in "Technology and electric
insulation"] Issledovanis sviazi mezhdu svAstvami kon-
densatornoi bumagi. i kachestvom bumazhnykh kondensatorov;
uchebnoe posoble po kursu "Takhnologlia elektricheskoi izo-
liatsii.11 Moskva$ 1962. 29 p. (MIRA 17:5)
1. Moscow. Vsesoyuznyy zaochnyy energeticheskly institut.
Kafedra elektroizolyatsionnoy i kabellnoy tekhniki.
GAYLIS11p Ye.A-.; DRCODOV, H.G.;.YEVSTROPIYSV,, K.S.; KAZARZIOVSKIY., D.M.;
NEMAH., L.R.; PASYNKOV, V.V.; PRIVEZEIITSEV, V.A.; REIREO V.T.;
TAREYEV B.M.
N.P, Bogoroditakii; on his sixtieth birthday and the thirty-fifth
anniversary of his theoretical and educational work. Elektrichestvo
no.7:87-88 i1 162.. (M1RA 15:7)
(Bogoroditakii., Nikblai Petrovicho 1902-)
---
TAREYEV B.M doktor tekhn.nauk, prof.; LERNER, M.M., kand.tekhn.nauk
Concerning L.L.0dynets' article "Efficiency of using a.c. for
shaping plate foil in the manufacture of electrolytic condensers.
Izv. vys. ucheb. zav.; energ. 5 no.2:112-113 F 162.
(MIRA 15:3)
(Condensers (Electricity))
d
r bai. nauka (Tareav B M.] (U.S.S.R.);
4 =.=4 1-10
IZRMR, M.)f.., kand. tehn,--tauka (U.S.S.R.); IWVAJSKI, Pavle,
inz. [Vanalator]
. i. Subotituting alumimm for copper in electrical engineering.
Elektroprivreda 15 no.4:170-176 Ap 162,
GRIJBNIK, doktor tokhn. nauko pror.p red.,
[Enamelled wires; a lecture) Ema-lirovarrqe provoda; lektsiia.
Moskvap Voesoiuzrqi zaocbnyi onerg. in-tp 1963. 53 p
NIRA 17:3)
SHVEDOVA, L.A*; TAREYEV, :3 rII
dukLor toklin. nawk, prof., red.
[Lectures on the course "Calculation and construction of
electrical insulation") Lektsli po kursu. "Raschat i kon-
struirovanie elektrichaskoi izoliatsii" Moskva., Vass. za-
ochnyi energeticheakii in-t. No.l. (Design of oil-filled
entrances] Raschet maslonapolnenrqkh -v-vodov. 1963. 38 p.
(RLU 17:4)
KAZARNOVSKIY, David Mikhaylovich; TAREYEV Boris Mikhavlovichp,
KUCHINSKIY, G.S., red.; S Ye.H.J. tekhn. red.
[Testing of electric insulating materials) Ispytaniia
elektroizollatsionnykh materialov. Mosk-vaj, Gosenergoiz-
dat, 1963. 314 P. (MIRA 171l)
BOGORODITSKIY, H.P.; VAVIDDV, V.S,; VALEYEV, M.S.; DROZDOV, N.G.;
KORITSKIY, Yu.V.; FRIVEZENTSEV, V.A.; RENNE, V.T.; _TAPYLIV, B.M.;
YAMILNOV, S.A.
B.M. Vul; on his 60th birthday and 35th anniversary of his
scientific work. Elektrichestvo no,8t95 Ag 163, (KM 16:10)
YAMANOVA, L.V.1 TARRYEV, B.H.., doktor tekhns nauk-, prof.p red.
(Electric condensers; lectures] Elektricheskie kondensa-
toryl lektsii. Moskrat Voes. zaocbmyi energ. in-t. So.1
1964. 84 P. (VIRA 1833)
TAREYr-V, B.M., prof*, laureat Stalinskoy premiis doktor tekhn, nauk
[Fundamentals of the physics of dielectrics; lectures] Osnavy
fiziki dielektrikov; lektsii. Moskva, Vses. zaochrWi energ.
in-t. No.l. - No.2. Izd.4., perer. 1962. 87 p.
(MIRA 17:9)
--Z 1.
, .1 -,- -
g W, 4 it
'. m. a
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gg
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r r-~
d t
,~,smmmlp-m
IaNlfflz REM
M.M.p kand. tekhn. riaukv dot.s. MATSOI'-/,.SHVIL.1, B.N.;
karid. fiz. auki REINNE, v.L.2 Ator tekhn. muk,
--mat em. r if
Prof.; nauk, prof., re-d.
-TAP doktor tp-khn.
(Electric engineering materials: eluctric conde"werv) wtres
and cabl-1q] Elektrotekhmicheskie mat.erialy, elektricnesk.1c
1 -:1963. I'losk " 9 64.
kendenswory, pr-cvoda 1 kaba"i 2962 va,
158 P. (MIPA IS.,2)
1. Akademlya nmik. SSSH. Institut nauchnny in-formatsli.
GOROKHOV, PA., kand.tek7wn. rauk~ CrOR'KOVA, V.I,p kand. tekhn. nauk;
PAVLOVp L.L., kand. teklin. SERGEYEV, N.P.i TAREYL-V,
B.M., doktor tekhn. nauk, priff,% SYNOTKIN, LS.?. K~A~4TO*A, 11,S.
kand. tekhn. nauk, pr.'if., red.~ CHESKISY Z.B., red.
[Frencb~Russlan elactr41--al erigineering diationary] Frantsuzskc--
russkii elektrotekhninheskii. sl-warl. Pod red, V.S.Kurbatovoi
i B.M.Tareeva. Moskva. S'lv6tokq~ia entsiklopediia,, 1965. 720 p.
(MIRA 18:12)
~ h. VOjf)Y'OlMNiSKIY , IL'I'-~-,Y ,I ikh&y I c,,,,J-,2 b ~
BDGOIIODIITSKIY, Nikojay Petrolrlc 1,AREyEV, Boris Vilkha7lclicb;
Aieksandr AXI.M.
VOROBIYEV, A K'K.P
MWE, rets"'rlz6'tJ- t,'i!j*A, L.S., red.
Y,AZMOVSKV( I Dal,17~lm' red.; P V M 0 E-,,kv a s,
(141 RA 3 8 -
[Theory of dieler."Ird'al .3-2)
Energiiap 1965. 34& P-
BESSONOVj L.A.1 BABAKOV, N.A., prof.0 retsenzent; KnT-rIBKOV. D.s.,
profop retsenzent; TAREM, B.M., prof., doktor tekhn,
nauk reteenzent - -
[Principles of graph theory] 0snovy toorii grafov; ucheb-
nos posobie. Moskva, Voss. zaochr7i energ. in-t, 1964. 48 p.
(MIRA 19sl)
SHVEDOVA, L.A.; TAREYEV, B,M., doktor tekhn. nauk prof.,, red,
(Manual on a course in ffCalculation and design of elec-
trical Insulation") Uchebnoe posobie po kurs-.1 "Raschet
I konstruirovanie elektricheskoi izolintsii. Moskva,
Vse3. zaochnyi energ. in-t. No.2. 1964. 74 P.
(MIRA 19:1)
APROSINA, Z,G..~ kand, ml:~d. muk: AFANASYbVA, K.A., kand. med. nauk;
AKIREN,AKEFFMOVICH, R.M-, prof.., B11-UGER, ~.F., doktor med.
nauk., BONDARI, Z.A-,. VASiU-11KO, V.Kh., prof.; KIKOOrE,
I.A~) kard. nied. na-ak, LINORIBRAT21, L.D., prof.; LOGIE'Oli,
A,S., kard. med. nauk; MANS1JROV, Kh.Kh., prof.; NAZAR13TYAN,
Ye.L.~ kand. med. nauk; NIOGALIER, A.1-1., prof.-, PLO"L711KOV,
pri,,f,^, :3F2l,'FNDYPNEVA, kand. med. ;iauk; TAREYEV,
Ye.M., pruf., Y,~: kand. Ted. nauk,
TER-GRIGOROVA, Ye.1,,,. pri,';-tF2flYSHEVAl Ye.V.. kand. med,
nauk; SINOT"37 L1.0"I"'. HfA-SOIKOV, A.L., prof.,, zam. otv.
red.; BOGOSL."NSKU, V.A., red.; SEEIENDYAYEVA, 1-11.Ye.~ red,
[Multivolume inanual r.n internal diseases] Mnogatomnae ruko-
vodstvo pc~ -nwtremnim bolezniam. Moskvap lleditsina. Vol.~.
1965. 724 (MIRA 18:9)
1
.. Deystvitel1r,;y chlen Al-111 SSSR (for Tareyev, Ye.Yl.,
Vasilenko, l4yasuikov) .
XONIUCKOT,I.A.; BROD, 1.0e, profel red*; TARNM, I.N., ved.red.; KASOWT,
ThoKov takha.rods
[Stmaying masozoic deposits in eastern Ciscaucasia; oil and gag-
producing prospects] Opyt izueheniia mecozoinkikh otloshanii Vostoch-
nogo Prodkavkaxiia; v sviazI a perepaktivami neftegazonoonosti.
Noskya. Gosintis' 1958. 125 P. (MIRA 12:S)
(Caucasus, Worthern-41oology, Stratigraphio)
, 1. 1".
"Heat Engineering" 1951
Textbook. Contain 2 chapters on turbines and compressors. Jet engines mentioned
P. W6. -
I - - - -- --- - _:~ - - - -- - - -- - - - -- - - - - - - -- -, -- -- - - - -- - - -- - I I
KUZOVLLV. V.A., inzhoner-makhanik; TABEYJIV V M doktor takhnichookikh
I nauk, professor, redaktor.
ETechnical thermodynamical Tekhnicheakaia tormodinamika. Ixd.3.
Pod obahehei red. V.K.Tareava. Moskva, Gos.izd-vo vodnogo
transporta, 1953. 330 P. Wak 7:3)
(Thermodynanics)
MAMANIKO, M.G.i kandidat tekhnichemkikh nauk; TARIM, T.M profossor;
TBILISHCHN, P.A.; KRITROT, P.A.,t~khnICh*skIy-Y4..R'i.
Conversion of ImAernal combustiock engines to gaseous fuels, Tru4
TSNII MPS no.74:3-96 154. .MR& 80)
(Gas and oil engines)
p
-m
TARE71Y Y.M.. Professor.
,!sj~ ~-
Serial construction of velocity triangles In the hes-t calculation of
turbines. Trudy NUT no.82/83:231-236 135. (WHA 9:8)
1 (Reat engineering) (Turbines)
". ~-- ~~,~~Ofes-sww. ---
AK---
Problem of the mechanical efficiency of the vanes of steam and gas
turbines. TruAV RIIT no.$2/83:237-242 '33. (XLRA 9:8)
(Steam turbines--Bladee)
- ___ - __ - __ - - __ __ - -___ - - - - ___ - - - - - - ____ - - __ - - __ ____ - - __ __ - __ - __ - - - - - - - ___ - -----
.2-92-9,11A.,professor; DOGIN, N.Ye., dotsentj AGAPOV, V.K., inshener.
Automatization of the diesel installations in railroad electric power
stations. Trudy MIT no.82/83:432-449 '35. (KM 9:8)
(31lectric railroads--Substations)
(Automatic control)
~4-w
.KUZOVLZV, Vitaliy Alskmandrovich; TAUYNT TOM professor, doktor
takhnichaskikh nauk. redakt-OrMINOWNISA. 2-T., redaktor izdatell-
stva; EWIIAYA, A.K., takhni;;wekiy redaktor
(Technical thermodynamical Tekhnicheaknia termodinamika. Izd. 4-os.
Pod obahchei red. V.M.Tareava. Moskva, Izd-vo gReehnoi transport,m.
1956. 338 p. (NT.,RA 9;8)
(Thermodynamics)
VRASHEV, Sergey Pavlovich,inzh.; LSTNIK, Alakeandr L'Yovich, dote.;
SHIPRIN. Daniil Hoisayevich, inzh.; V X rof..doktor
takhn. nauk. red.;' TYUK. A.ff..kmnd.t9khn. nauk. retsenz*nt.;
KVITKOVSKIT, Tu.V., kWnd.takhn.nauk. red.; MOM'. B.I.,takhn. red.
[Kachineryl Knehinovedenia. Izd. 2.. dop. i parer. Moskva, Goo.
asuchao-takha. izd-vo mashinostroit. lit-ry, 1958. 483 P.
(KIRA 11:12)
(Machinery)
T I Y-,, a
*O!ich, prof., doktor tekhn.nauk; NIGKATULIN,
doktor retsenzent; SHL M IKOVA. Z.V., red.izd-va;
BOBROVA, V.A.. tekhn.red.
[Reference book on thermal calculation of operating processes in
internal combustion engines] Spravochnik po teplovomu raschatu
rabochego protsessa dvigatelai vnutrannego egoraniia. Moskva,
Izd-vo *Rechnoi transport," 1959. 399 P. (Kim 12:9)
(Gas and oil engines)
11(1); 260) PHASE I BOOK EXPLOITATION SOV/3043
tareyev, Vladimir Mikhaylovich, Doctor of Technical Sciences, Professor
Spravochnik po teplovomu raschetu rabochego protsessa dvigateley vnutrennego
agoraniya (Handbook an Thermal Calculations for Working Processes of In-
ternal Combustion Engines) Moscow., Izd-vo "Rechnoy Transport", 1959.
403 p. Errata slip inserted. 8,,500 copies printed.
Reviewer: 1. ff. Nigmatulin., Doctor of Tbchnical Sciences; Ed.-of Publishing
House: Z. V. Shlennikova; Tach. Ed.: V. A. Bodrova.
PURPOSE: The bbok is intended for students of schools of higher technical
education, aspirants, and technic4l personnel of zesearch inzUtutes and
design bureaus.
COVERAGE: The book deals with basic calculations related to the thermisl
efficiency of internal combustion engines. The first-part treats the
theoretical principles underlying such calculations. It includes the theory,
design, and operation of Inte 1 combustion engines. The principal
efficiency standards and the vaYues of respective coefficients are determined.
The second part discusses ten main types of engines and demonstrates how
Card 1/ 13
Handbook on Thermal Calculations (cont.) SOV/3043
efficiency coefficients are calculated. The engines discussed differ in
purpose, type of fuel, number of strokee.. degree of compression, type of
neavengLug and supercharging or its absence, and upeed. Particular
attention is paid to calculation methods developed by V. I. GriDevetskly.
The contributions of Professors N. R. Briling, K. M. Maslemikov, and
A. S. Orlin, to the study of internal combustion engines are mentioned.
There are V'ieferences, all Soviet.
TAME OF CONTSM:
Pbrevord 3
Symbols 5
PART r. TWORETICU PKNCIPLES OF 7WFML EFFICIENCY CAICUIATIONS
Ch. 1. Objectiwas, Methods, and Principal Stages in Thermal Efficiency
Calculations of Internal Combustion Engines. Determin tion. of
the Combustible Mixture and the Products of Combustion 13
1. Objectives of computations related to the thermal efficiency of
engines 13
2. Methods of thermal efficiency calculations of internal combustiom
engines 14
Card 2A3
Handbook an Thermal Calculations (Cont.) SOV/3043
3. Principal stageq of thermal efficiency calculAtlons of engines
4. Types of fuels 19
5. Air necessary for combustion, products of combustion, and lip-at
value of liquid fuels 21
6. Air necessary for combustion, products of combustion, and heat
value of combustible gnaes 27
7. Relative changes in the volume of combustible mixtures during
combustion 31
6. Mapraial capacities of gaseous mixtures 35
Ch. 2. Coefficients and Temperatures Typical of the Charge ?--ocess in
Four-stroke Engines 36
1 Formulas of V. I. GrinevetskV and Ye. K. Mazing 37
2. Computations based on the GrUievetskly and Mazing formulas 43
3- S. Ye. labedev's equation 46
4. Computations'baseii on the Lebedev equation 48
5. Further development of the above formulas 51
6. Examples of computations based on the formulwin, Paragraph 5 57
7. Selection of a method for calculating the charge coefficients
in four-stroke engines 59
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Handbook on The rual Calculations (Cont.) SOV/3043
Ch- 3- Coefficients and Temperatures Typical of Charge Process in
stroke Engines 63
1. Coefficients ~ (residual ~%sesj,T,, ta~avenga fact;orjn,jesc&pe
factorl,11, (scavenge efficiency), andYjj,p (useAa scavenge effect] 64
2. Coefficients related to the volume of charge in cylinders 67
3. Excess-air coefficients 69
4. Fhtio of the residual-gas coefficient to the excess-air coefficient 72
5. Determination of the initial temperatureT,,, in two-stroke engines Aq
6. Formulas for charge coefficients in two-stroke engines 5
7. Determination of the coeffiaientec (specific heat) ip two-stroke
engines 8-1
8.. Examples of determining the coefficienti;,: 88
Ch. 4. Kinematics of Gas-distributing Mechanisms in Two-stroke Engines 91
1. Dependence of piston position on crank angle 91
2. Determination of the integral of the crank angle-to-length of
travel relationship for piston travel jtime -integml diagram] 98
3. Ranges of exhaust-aild scavenge-port timing in degrees of crank
travel 104
Ch. 5. Calculations Related to Scavenging Forts 110
I. Calcuaatigg the range of port timing 110
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Handbook an Thermal Calculations (Cont.) SOV/3o43
2. SxaVle,af determining the port area 114
3. Sixplifidd formulas for determining port area 116
4. Port calculations in complex scavenging systems 121
5. Press= in the cylinder during scavenging 132
6. Port-shapes 135
Ch. 6. Exhaust Calculations 137
1. Necessary exhaust timing 137
2. Range of exhaust timing 140
3. Determination of back pressur6 from exhaust timing 142
4. SimplXfied formUlas for calettlating exhaust lead
' 143
5- Comput~mg poinis on the exhaust
curve from a systematic investi-
gation of thq elementary parts of the process 144
6- Accurate integration of the exhaust equation 146
Ch- 7. Beat Capacities of Combustion Products and Combustible Mixtures
for,Some Basic Types of kwl 150
1. Theoretical products
of complete combustion of typical petroleum
.
fuel 150
Cara 5A3
Handbook On Thermal Calculations (Cont.) SOV/3043
2. Heat capacity of exhaust gases of petroleum fuel during complete
combustion "th an arbitrary value of CI_S- 152
3. Reat capacity of air in mixtures with the produ(tt of combustion
of petroleum fuel (Heat capacity of a combustible~air-gms mixture) 156
4. Another method of computing the heat capacity of the combustible
mixture in an oil engine 159
5- Converting to isobaric and molal heat capacities 161
6. Peat calpaelty of combust-Ion products in a semidleBel. with water
injection 161
7- Heat capacity of a comb~tstlble mixture in a semidiesel, engine
with water injection 163
8. Pbrmulas for coefficients of molecular change in oil engines
with water injection 165
9. Chemical coefficient of molecular change in gasoline at CI < I
and at theoretical incomplete combustion 166
10. Empirical formula of the dependence of,~.onal at incomplete
combustion of gasoline,according to experimental data of
Mmelennikov 172
11. Yean isochoric volumetrie heat c&pacitySv*A,f products of the
incomplete combustion of gasoline (where C(< 1 173
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Ihndbook on Thermal Calculations (Cont. ) . SOV/3043
12. Composition of theoretical products of the complete combustion of
'
gasoline (wherec(-l
) 178
13. Heat capacity of theoretical products of the complete combustion
of gasoline 180
14. Heat capacity of the products of complete combustion of gasoline
(whers4,4 1) 160
15- Heat capacity of a gasoline-air mixture with residual gases at
incomplete combustion 181
16. Heat capacity of the combustible mixture at complete combustior
of gasoline 184
17. Composition of theoretical products of complete combustion of
producer gas (wbe re dj. i ) . 185
18. Heat capacity of theoretical products of produeer,&Ss combustion 186
19. Heat capacity of flue gases from producer gms(at an arbitrary value
of 18-3
20. Heat capacity of producer gas 191
21. Heat capacity of the combustible g%s-air mixture (pure) for
[typesof) producer Sao 1.93
22. Heat capacity of the combustible mixture for produmr-gas engines 190
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Handbook ku Thermal Calculations (Cont.) SOV/3043
23. Approximate formula for calculating the heat ampacity of combustible
mixt,4res in prq4ucer-gas engines 1.77
24. Composition of theoretical products of the compkte combustion of
natural W (Where,4=1 ) 198
25. Heat. capacity of theoretical combustion products of natural
0%0 200
26. Beat capacity of flue gases from the combustion of natural gas
(at an arbItrary value ofr-\ ) 2oo
27. Heat capacity of a combustible mixtiAre of natural gas 2o3
Ch. 8. The Comprosuion Process 205
1. Basic formulas 205
2. Yethods of determining the mean coefficient kl of adlabatic
compression 206
3. Coefficient k for heqvy-fuel diesel and motor engines 2o7
4. Cneffiel=t ki for gasoline engines 2()o
5. Coefficient k, for semidiesel engines with water injection 209
6. Coeffiaeut k, for producer-gas engines 21-2
7. Coefficient ki for natural-g&s engines 213
8. Summary of thi results of determining mean coefficients of
adiabatic compression for different types of fuel 214
9. The pDlytropic exponent of compression
n,
215
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Handbook an Thermal Galcalations (Cont. SUV/3043
Ch. 9. Combustion Equations
1. Derivation of principal formulas for mixed combustion 2.16
2. Basic combustion equations for constant-volume heat GuP.PlY 22-3
3. Basic combustion equations for constant-pressure heat supplY P24
4. Principal special cases of combustion equations 225
Ch. 10. The Expansion Process ?29
1. Basic formOAs 229
2. Interdependence betveen the heat-generation coefficient and
n2 IP01YIWOPic exponent) 230
3. Coeffl:pient k2 [mcan coefficient of adiabatic expansion) for
heavy UquiA-fuel engines 234
,pt k2 for gasoline engines at incomplete combustion 236
4. Coefficie
5. Coefficient k2 for semidiesel engines 238
6. Coefficient k2 for producer-gas engines 240
7. Coeffipient k2 for natural-gas engines
8. Summary of results of determining mean coeffiaents of adiabatic
expansion ()c2) for various types of fuel and determination of
the value of n2 243
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Handbook an Thermal Calculations (Cont.) SPV/3043
Ch. 11. Pumping Lootes, Friction Losses., and Compression Work. 244
1. PmvplAg losmes in foiz%stroke engines 244
2. c'mMutation or puipping losses
3. Friction losses in fvo-stroke engines 250
4. Summary of losses from friction and pumping in four-stroke enginps 252
5. Compression vork 257
6. b1sebwAtAl srork produced by the gas turbine 260
7. Temperature Tq'of exhaust gas 264
8. Relation between g(compressed-air pivaouxe in tbe peceiver) and
p(V (gas pressure the discharger] 2~
07
Ch. 12. Deteraination of Mean Indicator and Effective Pressures.
Determination of Basic Parwmeters of the Cylinder. Computation
of Effiialency Indices for Engine Ferfoxy-nees. Plotting of the
Indicator Diagram 270
1. Foraula for the prellmin ry (theoretical) mean indicator pressure 2.70
2. Corracted [adjusted] mean indicator pressure for a two-stroke
engine 270
3- Corrected [adjusted) mean indicator pressure for a four-stroke
engine without conpideration, of pumping-losses 271
card 10113
Handbook On Miermal Calculations (Cont.) SOV/3o47,
4. Corrected (adjusted) mean indicator presouret, wit-11 en-iisiders,tion
of pumping losses
5- Wan effective pressure in two-stroke engines 2_~2
6. Mean effective pressure in four-stroke engines 273
7- Meebanical efficiency coefficient in two-st-roke engines 274
8. MeebanicAl efficiency coefficient in four-stroke engines 274
9. Determination of basic parameters of a cylinder 275
10. Specific fuel consumption and its relation to efficiency cc-
efMcieftts 2TT
11. Plotting of the indicator diagram. 283
PART II. THUMAL EFFICMNCT CAICUIATIONS FOR THE
PRINCUM,L TYMS OF IMRNAL COMBUMrON ENGMS
Ch. 13. 7hermal Efficiency Calculations for a Four-stroke Silent-running
Low-compression Engine Operating on Pr~oducer Gas Obtained from
~nthm;ite 285
Ch. 14. Calculations for 4L Low-compression Semidiesel. Engine With
Water Injection 297
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Handbook on Thermal Calculations (Cont.) SOV/3043
Ch. 15. Calculations for a Four-stroke G"Oline Engine of a Motor
Vehicle 305
Ch. 16. Calculations for an Aircraft Gasoline Engine Witlout Sulier-
r.harger 311-7
Ch - 17. Simplined Cg,tlculations (According to M%slennihkav) for
Aircraft Gasoline Engines With and Without Sclapera'har-ging
[Boosting] 331
Ch. 18. Calculations for a Compressorless Two-zt?klke Diesel Engine
With Precombustion Chamber and Crankcase-c~mpression Scavenging 340
Ch. 19. Calculations for a Fbur-stroke Compressorless Marine Diesel
Engine Without Supercharging 352
Ch. 20. Calculations for a Four-stroke Locomotive Diesel Engine With
Gas-turbine Supercharging (Check Calculations)
Ch. 21. Oilculations for a Two-stroke Marine Diesel Engine With
Uniflaw Scavenging Controlled by a Sleeve-valve and Having a
Two-lobe Stipercharger 3715
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Handbook da Thermal Calculations (Cont.) SOV/3()4-5
Ch. 22. Calculations for a Four-stroke Engine Cperating on Compressed
Natural C~%s With Inflammble-liquid Injection
Bibliography 400
List of Computation Graphs W-1
AVAILABLE: Library of Congress
AC/mg
Card 13/13 3/l/60
Prof -
TARZM, V-M-,
-
Selec,ting indices of compression and expansion P017trOPOI
in the thermal analYsis of internal-combustion angines. rrudy
HJIT uo.112:27-55 '59. (14IRA 1.31.2)
(Gas ancl oil engines)
N TARMET, vomes, prof.
~ ~
Abridged calculation of the exhaust process in two-cycle, engines.
Trudy MIIT no.112:56-84 159. (IURA 13:2)
(Gas and oil engines)
KUZOVM, Vitaliy Alokeendrovich; TAREYEV, V.M., prof., doktor tekhn.
................
ta lr~
.M~
nauk, red.; VCLCHM, I.M. 0
[Principles of heat engineering] Oanovy toplotekhniki. Pod red.
V.M.Tereova. Izd.2, Leningrad, Izd-vo "Rechnoi transport."
Loningr.otd-nia. 1960. 199 p. (MIRA 13:11)
(Heat engineering)
~ AREYEV, Vladimir Mikbayloviobp prof. # doktor tekhn. nauk; GOIWACHHVI
TAga- ~A.VVI.~~rtir~;~pl-X~t tekbn. red.
[Manual on the thermal analysis of the workipg process of internal
combustion motors) Spravochzik po, teplovomu ra'schetu raboohego
protsessa dvigatelei vnutrennego sgoraniia. Izd,3.9 perer, Lenin-
grad, Izd-vo "Rechnoi Transport" laningr. otd-nie, 1961 415
OU I (HNU .14:95*
a and oil engines)