SCIENTIFIC ABSTRACT NAZARENKO, N. D. - NAZARENKO, U. P.
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CIA-RDP86-00513R001136220020-4
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S
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Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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UZARMO
laveattgating the hydmtIon of the w4vesite mixture and Its effect
'On stntering during the buralng proceer, Ognsupory 2z no,9'392-398
057.- (Mig 10:11)
1. Miarltovskly politaichnichaskly Institut tu. r1. Zenina.
(Befraotary naterialn) (Neignaelts)
~:Ll J-2
Fl ~i C L R 0 "15
12
p M iffiffl-
t-gi
E D 1 00
7 7
ACC Me AP6021672 SOURCE CODE: UR/0131/&/000/00310059/006!,
AUTHORs Nazarenko, N. V.; VkLaW. N. L; TOwsho V. L.; Skryabhuftya. L V.
ORG: hmututs of 31surWa Researobp AN UkrSSR (hudift Problem Maerial"edenlya
SM)
TITLE: ffi4arddy nonfired refractories with magneshm Phosphate used as the binder
SOURCE: Opeupory, no. 3, 1966t 59-61
TOPIC TAG9.- refractory, magneetum, compound. phosphates nonclay refractory product
A13STRACT: Superddy concretes were experimentally produced on using fused-magnesite
wasWs of electric4eater producUon and monosubstituted magnesium phosphate. The pbosp
was obtained by adding small portions of active MgO to preheated phosphoric acid:
MgO +gH3P04 - Mg (H2P04)2 +HzO
and evapcratlng the solution until a dry residue remained. This residue, dry monosubstitut4xi
magnesium pbouphatewe added as the bfider to the charge. Specimens of the resulting Ma-
terial were immediately pressed in semi-dry form in a hydraulic press and dried# Uret'in
ACC NRs AP6021572
air and then at 100410*0 (when the find setting of the phosphate binder addfUouaUy enhanced
the strength of the material). The dry qvchnens were heated to 9004C In a muffle furn=4
and to 17006C in a Kryptol furnace.. Findings Indicate that the mfnfmmn! ipalling m-
that it
iaistaii~e of the speotmens after heating at NOV is suffictentty, higN Increases
markedly *Wn they am heated at 1200-160OV. The material thus devekqW may be primarily
recammendkd for the production of rammed refractory Unings wd amenories (Including
th=e tuba) for 4h-~wnperatu:re f=aces of the laborktory tM~ Ox%# azfq but, ra U14441,
SUB*CODN:'' SUBM DATH& --nonq/ OM REIre 002 7:,
1 r41
It Ito
1 LU
.", 401
Cmd
&,a*.,,.Ih - ,Ii ~.. -
AFJMTSMAN,, TS.L.; BASAIDVA, G.r-; GORZIZVSKRA, S-A . NAZ&R-ZZC,--N.G;
XHODZEWF,VA,' R.P.; PCH TS9VA, G.M., red.; VZO, Ye.I., teklm.
red*
(Thermal investigation of ur=ium and uraniuz-cottaining minerals]
Tormichaskle isoledovanila uranovykh i urausoderzhashchikh minera-
lov. Moskva# Goo. izd-vo lit-ry v oblasti atomnoi nauki i tekhnikip
1961. 146 p. (Uranium-Amlysis) (MIRA 14: 1.1)
MUM
G&RTSEVA R.V.; TSnULOSUYA, H.S.; AMWRTSMAN, TS.L.; IY~~ILENKO~_ N.G.;
i~WAFMIMV, G.P.; KHODZHAYF.VA, R.P.
Now data on hydrous pitobblonds and urgits. Z&p.Vxss.mln.ob-vm
90 no-5049~-556 061. (MMA 14,10)
(Urgite) (Fitchblendo)
DINKOV, ruA; MAZMNKO, N,G,
Coffinite and the nature of pitchblende peaudocrystals. GeoWslia
60.41301*-312 162* (faRA 160 )
(Coffinits) (graninits)
I
OV, ru.M.; SOLOVIIEVA, F.I.; 3AZARENKOO N.G.
P91sudosphermlites of uraminits. Z&p.Vscs.mla.ob-va. 92 no.2,
242-247 163. (MA 16g5)
(Uraminite)
4 a-, ai thxtTTfDr--,q i f; IAT'P- I FF ni U=IUVi ni trMi-A-S twi th T I - ~Iffii
ait 20QO a % ai~a--nico~uranium near -stoichiom-L-tric the mreciri-
wf~ -T-
"-I- -armmit r-.~-ticnv cl urz lum-
"il' Lriva~P'tt hol,
SIMIDER, Viktor Aleksandrovich: 1XIOWYLOV, Yu.G.t nauchn. red.;
FAZIU121KO, M.I.,, red.
1 1 - ~: 1. , ~. 1. - .- _ ,
(Scrapers, bulldozers, and graders) Skrepery, brLd'dozery,
greidery. Izd.2., ispr. i dop. Mosk-va, Vyashaia shkola,
1964. 269 p. (IURA 18:3)
FNA LOI /I/ V
wCartain Peculiarities of PolyneurLtis of Dysenteric Xtiotoas"
by 'X. V. 11azarenko, Tru~ natituta Nevroloill i Fizicheakikh
Ketodov Lecheni7s. Ministerstva Uravockhraaentys Turkmeaskoy
SSR (Works of the Institute of Neurology and Physical Kethods
of Therapy, Ministry of Health Turkmen WR), Vol 3, 1955, pp
55-62 (from Sovetskoye Keditsinskaye Referativnoye Obozreniye,
No 15P 1956t p 26, bstract by D. Antskewich)
"The problem of affection of the nervous system in dysentery has
been considered comparatively seldom in neurological literature, but it
has always been acknowledged that any part of the nervous system and most
frequently the cells and fibers of the peripheral columnee can be affected
in dysentery. In this article, a detailed history of disease in five pa-
tients suffering from polyneuritis of dysenteric etiology are presented.
Three of the patients had severe motor disturbances and two had pain sea-
satlons; in the hands and feet with a background of polyhypovitaninosis.
fte increase in notor disturbances davel(qwd rather rapidlys but w" re-
stored considerably wre slowly than that of sensorr disturbances. ftraicaL
arA wdicinal wthods aria the wet OffectiTO cOMlex tbcrsgY- The Pro-
Vittous AdidnistratiQu. of vLt"dUsv especially It CONVUX0 into the Org&&-
ion to inportaut-W (0)
SOV/109-4-8-4/35
AUTHORS: Kucherenko, Ye.T. and Nazarenko, O.K.
TITLE: Properties of a Discharge with Electron Oscillations
in a Magnetic Field
PERIODICAL: Radiotekhaika i elektronika, 1959, Vol 4, Nr 8,
pp 1253 - 1256 (USSR)
ABSTRACT: The effect investigated in this work was observed
earlier by one of the authors (Refs I and 2). The
experimental tube employed is illustrated in Figure
1. This consists of a cylindrical anode A a heated
cathode K and two reflectors R, and R 2 a known
longitudinal field is applied to the system. Two
different types of discharge can be produced in the
system. The first operating regime occurs at pressures
p < 2 x 10-3 mm Hg and is dependent on the form of the
cathode; this is referred to as the "difficult regime".
The cathodes in the tube were made of tungsten and were
in the form of a long cylindrical helix, a short helix,
Cardl/A, a flat helix or a flat oxide cathode. The characteristics
-3 L-~
sov/ioq-4-8-4/35
properties of a Discharge with Electron oscillations in a Magnetic
Field
of a difficult discharge in which the cathode was in
the form of a cylindrical helix (length 20 mm, diameter
5 mm, spacing 2 mm) are illustrated in Figure 2a. This
shows a change of the discharge current I a , the ion
current I t extracted from the system by means of the
Pierce device, and the discharge voltage U a as a
function of the magnitude of the magnetic field H
Figure 26 rhows similar curves for a discharge with flat
helix oriented perpendicubtly to the direction of ths
field. The discharge voltage U a as a function of the
magnetic field H is illustrated in Figure 31 the
curve was taken with a flat helix, having a diameter of
10 mm. in hydrogen. As the gas pressure is increaas(i,
the supply-source voltage being constant, the ion
current increases considerably in the region of the
peaks (Figure 4a). A further increase in the pressure,
Card2/A above 2 x 10-3 mm Hg, for hydrogen, results in a very
sqv/ioq-4-8-YF35
Properties of a Discharge with Electron Oscillations in a gnatic
Field
intense discharge, which is characterised by a low vi)ltage
drop; this is illustrated in Figure 46. A similar
critical pressure is also observed in argon, the presssure
being about 5 x 10- 4 mm Hg. The discharge above the
critical pressure ir referred to as the "are dischari;e".
From Figures 5, it is seen that the increase in the tupply
voltage, in the case of an are discharge, leads to an
increase of the discharge and ion currents and to the
broadening of the "existence" limits of the discharge
(towards higher magnetic fields). The authors make
acknowledgment to Professor N.D. Morgulis for discussion
and his interest in this work.
There are 5 figures and 6 references, of which I is
French, I Gorman and 4 Soviet.
Card 31d
rl
TITLa Aspect a& the S"..d "1-U".. - Gas
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UolGii or ties- &-I Plea"
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tU#--IblAW4fl-*lB-*r-tbo 064LI-I&tle-a &a Plea" (the Lafts-1,
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S /12 5/60/000/069/006/0 17
A 16 1 /A 130
AITTHORSo Gurevich. 3.11., Nazarenko, O.K., Timohenko, V.A.
TITM Electron-Beam Welding Unit for Refractory and Chemioally AOtive
Metals
13
PERIODICALi Avtomatiobaskaya evarka, 1960,,"No. 9, pp. 48-53
TEXTR Detailed description is given of an eleatron-beam welding unit for
straight and annular seams oA oylindrioal work up to 700 mm in diameter ind
~200 mm length (Fig. 1), developed at the Electri3 Welding Inetituto im.
Ye.O. Paton. The chamber of ;200 mm length and 1020 mn dt&metez fe mftde of
killed low-carbon ateel 12 mm thick; the chamber inside is gr~,Lnd ard al-
parts chrome-plated. The front end opens for placing work, ar,(.~ tvo eftafte
are passed into the ohambor through the rear eni ccver (Fig. ?)~ rne has a
ecrev thread for mo;,~ing the carriage with work in the chamter, and the other
beara,!gpir,ion to rotate work. The electron gun is installed on the flange
(see . 1). Two inapection window3 with lead glaaa arb pro,!1dod in the
C aTt-,.~
j/12,-/60/060/009/008/01-1
kl,6*,/A'5G J
Electron,Beam Welding Unit for Refractory and Chemiral'.y Act'l j6 Matalq
ohamber vall. The v&cuum eXetem has a forb vacuum pump EH-1 kVN- 1), 9,
high-vacuum BA-5-4 (Vk-5-4) unit (nonvarted H -5` (N--5T) utear :oil p,_imp)
two fore-vacuum valves with 90 mm diameter aperture, snd a aY-3C-' (DU.3RO'
vacuum gate. The vacuum system produces rarofioation up tc 7- 10-6 MM. Hg.
It takes 50-60 min to replace the work and produce a iacuum. The electrrn
gun gives a sharp-focused beam of over 500 ma and up to 20 kv. 14, 3peaial
biological protection is nocessary. The combination foouning ayetem has a
primary electrostatic lent, and a secondary electromagnetic lens pr:.ducing
a beam of 1 mm diameter at the weld, with up to 10 kva power. The gun is
lowered into the chamber through the mentioned flange; inser'~ ringE% are ustzd
for varying the distance to the work. The gun is illuetrated in diagram
(Fig. 5). The electric system of the unit consists of two partsA feed cir-
cuit of the electron gun (Fig. 6) and auxiliary oontrs! cir,;uite. The gun
feed system inclu4ee a 50 kva transformer with aecondary voltag'; ct 22 kv;
a 25 kva potential regulator smoothly adjusting the primary tr%nsfcrm6r
C a H-04~-
5112 60/000/009/008/017
A! 61YA! 30
Electron-Beam Welding Unit for Refractory and Chemically Active Metals
voltage between 20 and 400 volt; a Larionov kenotron rectlfiei- with
B 1-0, 1/40 (VI-0. I'/40) kenitronel YHII-I (UIP-1) rectifiers feeding the gun
cathode heater and the electromagnetic focusing lane, adjusting output
voltage in the 20-600 volt range at a maximum current of 600 ma (one recti-
fier is connected to a 220 volt network through a Isl transformer with in-
sulation between windings, designed for rated 30 ky tenoion), : h;:tin
transformer for heating the flat tungsten spiral of the cathod g up f,220/
20 volt, 100 amp); a smoothing LC filter consisting of a 3 miorofarad ca-
pacitor and a 25 henry 1 amp choke instruments (milliampermeters, an &mper-
meter, a voltmeter, and a kw-meter). The control 9yetem includes magnetic
starters, intermediate relays and oontactors, autotr&n9formers e%,., all
placed in a separate instrument box and in the operator's sontrol board.
The welding process is watched on instruments in a -.entral Instriiment rabi-
net including auxiliary electronic equipment (the UIP-1 eouroee, the heat-
ing transformer, the oathode heating unitetc.). Welding of m.3l1ybdenum and
Cartt-t74_
31"1251601600 '009/006/017
A 161/A1 30
Electron-Beam Welding Unit for Refraotcry and Chemically Active M6,,ale
other ohemioally ototive metaltj hat) been triod with au,~~,oji5 .Thor., are 6
figures and 3 references, 2 of which are Soviot ani 1 Fngllih.
A550CIATIOHA Ordena Trudovogo Krasnogo Znameni Inotitlat elektrcsv-irki im.
Ye.O. Patona AN US3R (Electric Welding Institute "Order of the
Red Banner of Labor" of the Academy of Sclenr;4~s i! the Ukr~idkf)
SUBMI?TEDi April 29, 1960
C
AUT71OR: Nazaronko, 0. K.
22YLO
S/125/61/000/006/004/OIC)
D04O/D112
TITLE- Eloctron-boari -aelding gims
PERIODICAL: Avtomaticheskaya ovarka"~ no. 6, 1961, 31-36
q~
TEXT: Information in given on tro ner electron-boam -.7,)Iding gun sy6tems
developed in the US'SRt 1) A aphorioal-type gun producing a sharply*focusi3ed
electron beam at 20 kv and 100 m-ampo current, diving a 0.5 mm, diameter -2
focus ot on the workpiece being welded , and 2 a cim with - 1.1 *10
amp/kv VL conductance. forming an up to 20 kva electron beam at 20kv, and
giving 6-8 kva/=2 specific power in the welding plane. The two systems,
both working with an accelerating voltage of 20-22 kv, are a development of
electron guns described in two non-Soviot publications (Ref. 1: E. B. Bass
0. Cremosnik, Schreissan im Hochvakaum mit Elektronanstrahlen, "Vakuum Tech-
nik". No. 7, 1959; T7. J. Greene, R. R. Banks, R. M". Niedzielaki, A Ner
Electron-Beam Welding Unit, "Welding Journal"s 39, No. 8, 1960). The design
,with cathode and anode repromenting portions of cones trical spheres is
adopted from radio en6incoring (Ref. 21 ;zh. R. Piro ocian epellin4 t,
Teoriya i raschet elektronnykh puchkov LTheory and I.Ruculation of eleo ron
Card l/ 6
22940
"lectron-boam i7olding guns S/125/61/000/006/004/010
Z D040/D112
beams] t "Sovetakoye radio"# 1M., 1956). LA betracter's notes The obviously
EnGl5h namev probably J. R, Pearep sugCoste translation from English] The
Poisson equation for the stream of electrons between spheres is taken irom
calculations by I. Langmuir and K* Blodgett (Refo 3t Currents Limited by
.Space Charge Betwoon Concentric Spheros, "Phyn. Rev.", 24, pp 49-54, 1924).
The design is illustrated in two diagrams and two photographs (Fig. 1, 3, 4,
5). The electromagnetic lens of the described gun is a screened coil with-
out pole endel tho nonmagnetic gap is adjusted by replaceable bushings from
armco iron. The ampere-turns number, close to that determined empiiioally,
is determined by the formula
R v
IN - k mean a (9)
f
where f is the focal length of the lens; Rmean- mean coil radius ; k - the
lens parameter (for the eiven design k - 71 v. - ac3clerating voltage
The toroidal lens is placed in a vacuum-tight casine. As cai be Eeen from
the formula (9), the focal length of lons depends considerably on the ac-
celerating voltajo, and it is evident that pulsation of rectified voltage
Car4.2A
22540
S/12 61/00-J006/0,54/010
Electron-boam wolding guna D040YD112
increases the effective focal spoti this means increased width c-,F' the weld-
ing seam and a wider zone of heat effect. 1arionov rectifiers with LC-
filters are used in the 6-un food units to elimint,te these phenomena, and
the rectified voltage pulsates not more than 0.1-0.3%. Abstracter's notet
No information on the Larionov rectifier in included.2 The space between
the lens and the welded workpiece is 70-100 mm. The cathodes are made from
lanthanum hexaboride and developed by the Institut metallokeramiki i
spetasplavov AN USSR (Institute of Ebwder L%talhirgy and 3pecial Alloys AS
UkrSSR). They give 2considerable emianion density at comparatively low tem-
peratuie (10 amp/CM at 1600cop and their service life is dozens of houree
Information on these electrodes has been given by Ye. T. Kucherenko (Ref-51
The effect of ion bonbardment on the emission of oxide and boride cathodes,
"Radiotekhnika i elektronika", No. 9, 1960). There are 5 figures and 5
referencess 3 Soviet-bloc and 2 non-Soviet-bloc. The two references to
Engliah-language publications road as followot W. J. Greene, R. R. Banks, V~,
R. It. I.Tiedzielski, A New Electron-Beam Welding Unit, "Welding Journal", 39,
No. 8, 19601 1. Langnuir, K. Blodgett, Currents Limited by Space Charge Be-
twoen Concentric Spheres, "Phys. Rev.", 24, PI) 49-54, 1924.
Card 3/6
Electroa-beam welding guns
22940
S/12 61/000/006/004/010
D040YD112
ASSOCIATIONs Ordens. Trudovogo Kra3noeo Znameni In3titut elektrosvarki im.
Ye. 0. Patona AN USSR (Electric Welding Institute "Order of
the Red Banner of Labor" im. Ye. 0. Paton, of the AS UkrSSR)
SUBMITTEDt December 15, 1960
Card 4/6
22952
S/125J61/000/007/nOO/013
D(.)40/Dl 13
AUTHORS: 112dovar, B.I.j NAzaranko, Gure,,-ioh, S.M.; Chekotilo,
L.V.; Fsvod, A.G.; and Pinchuk, N.I.
TITLEs Some peculiarLticr of rllec~tron-beam -.7-ilding of austenitic
ft I VI A I I 0Y '3
PERIODICAL; Avtonaticheakaya nvarka-v;o- 7, 1961, 79-01
TEXTi In their Intioductory rpfwirko, the authors state rrhy the electron..
beam welding of austAnitic stecto and alloys In a vacuum is superior to cor-
ventional welding. For ex~erlmantal plixpose3, specimcns of M726 (ET 726)
and 9V1696 (El 626) heat-resistAnt auatenitic steels and a n1monio-type
3H 4376 (E1437B) alloy were wmlded by the electron-beam method. All these
types contain boron and are prone to cracks in the area near the weld and in
the weld metal, if the compositon of the base metal is reproduced. Welding
was carried out with an electron-beam gnin designed by the Ordena Tru4ovoCo
Krasnogo Znamani InstJtut elaktronvarki im. Ye.O. Patona Ali USSR (E160tT10
Welding Institute "Order of the Red Banner of Labor" Im. Te.o. r%ton AS
UkrSSR) using 120 mA, 20 kv (current and a 35 m/hr welding speed. Metal
ard 112
22952
S/125J61/000/007/008/013
Some peculirtrities of elertron-beam D040/Dl13
produced by the electron beam wan completely sound, exo ept in the cas" of
E1726 steel where an increaoed box-on content of 0.0251% oauned cracks to form
in the bmun metpil at the somm and eometim6b even ~n the weld metal, The
following oonolusiono are drawni The new method of eleotron-beam wGIding In
a vacuum munt be uue4 not only for refraotory and chemically active metals
but also for heat-reeietant auntanitic at 'eels and alloyu. The electron-b4am
method given welds much more resistance to crystallIvition cracks than other
known welding methods. It Is to be expected thet the use of filler wLre
will make the elmetron-beam prseess applicable to a wider range of austenitic
steels anft rlloyc. and that th~- dagLeT shape of the seam will necessitate so-
me mo4ification of the design of the joints. There are 6 figurea.
ASSOCIATION? Orden% Trudovogo Kravinogo Zriameni Institut elaktroevarkl im.
Yo. 0. PatonA AN USSR (Elootria Welding Institute "Order of the
Red Banner of Labor" im. Ye. 0. Paton AS UkrSSR)
SUBMITTED.- April 17, 19~1
Card 212
rl's
0
AUTHORSt Nazarenko# 0. X.1 Povodt At Go
TITLEt Experimental study of a weldlag Gleo!z-t~
type projector of long focal length
PERIODIOALi Avtomatichookeya avarkaj 14 6i2
_Anoo9g 19
.5~!2 e~000100~,1006/C` 4
8 /.' '? I L
D040 1) 1-13
Cum with a Lapheri-14.1-
33-311
TEXT& A now welding electron gun is described# Its
system (Figol) produces a beam of up to 120 ma ezi up !~. 5 kw,/= ero:~gy
in the focus spot* Welded joints with veld shape faotDr bel:w la5 he-,o been
obtained in experiments with this gun withcur, raiF-',.ng -rolt-
age oT%r 20 kvo This disproves the opinion that it 1E pr.),iao4
welds with a shape factor below 3ol with the uoe of welditg guns
(Ref&li GoBurtonq ReLoNatchetts Elootrona shot fx.,,m gtr.- malo- 7
weldss "American Maohiniet"t Ve 103# no-4, 1959)- T~ie
electrostatic system has a oathod unit (1) cathode q'e3tr,A- 2
';. ar. d an
accelerating electrode (anode) (3) with aperture for thn tsiz. (,urroal, it
supplied through two high-voltage and two low-7odtage lesj,; a I t r om
be&m passes through the anode olsotrodo and apertur4 d.~%F..,.ragz ~,9) !k:.1 '.5
Card 1/4
26482
8/125/61/000/009/
Experimental study of a welding elootron D 0 4 0 ~D,, I -:~
finally focused by an armored eleotromagnqtif) lpn~ 1.9). The g%~-a t!;
to the flange (10) of the vacuum ohamboT by so:49-,, ty i- Uit*n3s
between the chamber axis and the oleo tromagne "j- ic lang n,&G be *iarieia The
cathode and anode are shaped like parts of aoncentri-.al sp~erA!, W,I~t a :a-
dius ratio roath - 2*5* The oalculation of the projentccz ig gl--~!:~ ly. szother
.r
an
work.. (Ref..2& O.KoNazareakop "Avtomsticheilkaya svajkt.~,, Tha
cathode material in lanthanum hsxaboridiip~L&~6): Oa!hod%:~f thip M&ZOrial
,.600')O)1 stalility agains-b
have a high emission density 10 am am a; ,
ion bombardment and require no activation after ~~ntanij with allt. Th-
tiale inoludes a general view photograph of the g,.,Ln ani tw,~
graphs of two welds produced in stainless steel and m:)lyb49num. There are
6 figures and 2 reforenossi 1 Soviet and I noi-Soviet Thq one refor-
once to English language publication readai GoBurtonp R.L,V&toh9tt2 Eleotrors
shot from guns make high-purity welda~ "Amorinan UihialW9 7. 103P no-4p
1959.
Card 2/4
26482
S11251611000100910061014
Experitoontal study of a welding electron b04C/Dll3
ASSOCIATIONs Ordena Trudovogo Krasnogo Znemeni Inctitut elektroavarki im.
Ye.O.Patona AN USSR (Electric Welding Institute "Order of the"
Red Banner of Labor" im. Ye.O.Paton,AS UkrSSR)
STJBMITTEDo March 18, 1961
Card 3/4
1. ~110
AUTHOR: Nazarenko, 0., Engineer
S70%61/000/009/006/006
D037/Dll3
TITLEs An electron beam in the role of a welder
PERIODIOALi Tekhnika molodezhip,.no. 91 1961t 28
TEXTo The author describes the advantages of the electron beam welding
method. He stresses in particular the 1-5 - 2 times higher productivity
than in argon-are welding and the possibility of focussing an electron beam
with high accuracy on a sharply defined small spot on the surface of the
metal* Steel maintains its structure and necessary features. The parts
are not deformed or distorted* As welding is carried out in a vaouum the
level of impuritie3 is extremely low. The method gives especially good
results in fine welding of parts made of tungsten, molybdenum and tantalim.
The installation for electron beam welding has been developed at the In-
stitut alektroavarki imeni Ye.O.Patona (Ele3trio Welding Institute imeni
Ye.O.Paton). With this inatallation it is p,)ssible to well workpie-as up
Card 1/3
27399
VF An electron be%m in the role of a weldez, S102 YD 6 1/1) 0 0/00 9/006 /0 0 6
D037 113
to 1 m long, uP to 0-7 m in diameter and 4-5 mm, thick. The electron team
welding process i9 shown in a diagram (Fig.2). There are 2 figures.
Card 2/3
3
S/125/62/OW/M7/009/012
r) 0, D040/D113
AU'MORS: Nuzilell, A.V.; NazzarenkoVO.N.; Povad, A G ; Strekall, L.P.
TITLE: A universal welding electron gun with up to 50 kv acceleration
voltage
P"":UODIC.,'LL: Axtomaticheskaya svarka,&no. 7, 1962, 68-91
-iT:M The described electron gun (Fig. 5) of the Institut elektrosvarki im. Ye.O.
Patona (Zlectric laleldinZ Institute im. Ye.O. Paton) is used in Y -3 (U-3) elc~-
tron beam welding machir.s_s, and permits the accelerating voltage to be adjusted
in the 15-25 kV and 25-50 kv ranges. It can be used for welding various metals of
different thic1mess such at; thin sheet molybdenum or tungsten and thick aluminum
or stainles;i steO. The gun has a 3-clectrode projector'with a lanthanum boride
cathode, and a one-stage electromagnetic focusing lens of 2,0W amp-t in a screen
of an,ico iron. The long current supply system of the cathode reduces tile heat
transfer to the vacuum, ~ihich seals off the armored high-voltage insulator. A
metal bellows joint permits the projector to be displaced along the gun axis* dur-
ing operation, and also allows the space between the focusing electrode and the
Card 1/8
S/l25/G2/QM/CO7AO9/012
D040/DI13
A universal weldinG ... ...
anado to be adjusted without disturbing tL3 vacutmi in the gun. The entire 1;un can
be tilted l5o from the vertical axis to adjust the focal spot to the work edges.
An electron, agne tic deflecting system placed under the focusing lens deflects the
beam by 5-100 along the scam; this protects the cathode from metallization and
ion bombardment. There are 6 figures.
A550CIATION: Ordena Trudovogo Krasnogo 7.nameni Institut elektrosvarki im.
Yc.O. Patona AN USSR (Electric 'Welding Institute "Order of the Red
Banner of the Labor" im. Ye.O. Paton, AS UkrSSR)
SUMITT M-: November 4., 1961
Card 2/6
A-vFr-/ASD ---Pf
WM
S/Oj86/63/000/002/0026/0027
ACCU31014 NRI AP3000840
AUTIWi Lit-vinshuk, M. D. I Vlaaenko,_ P. 1. 1 Hazarenko, 0, K.; Tt!;chenko, V. A.i
FroiyLroy, A. N.
TITT-St Inotallattan for loatron-been welding of tubes With tuba penals.
Cla34 H 05b; 21h, 30 sub 10, Vo. 152714
SOU11M Byul. ixobrateniyi tovarnykh znskov, no. 2, 1963. 26-27
TOPIC TAOSi clactron-bana welding, automatic program control, welding
ARSMM Installation for electron-beam welding of pipe with pipe panels,
containing an elactron-beam welding gun with magnetic deflection system, a
rotating table for fastening and rotating the work piece during the weiding
process, and an automatic control system for sequential operation of individual
mechaniams; its distinguishing feature is that in order to autowAte the weldin
process, the table in provided with two land screws with a drive system for
moving the article in two mutually-parpandicular directions when it comes tt=
N) -AT 1HO
L 2,964T-63
ACCEMON MR: -AP3000840
to weld the next tube, and the control system contains a program unit with relay
elements for automatic control in accordance with a program recorded on a
punched tape or come other program carrier. Orig. art. has: I figure (see
betractor's notat complate-trans-latio .7
ASSOCUTION t none
SUMITTED: 11 Sept ~I DATE ACqs 28 May 63 ENCLs 01
SUB 00DRi MD, 14. NO REP SOVi -000 OTHRt 000
L Cord
S/125/63/()00/004/002/011
DOAO/D112
AUTHOM Strokallo' L.P., and Nazarankol O.K.'
TITTILEr Graphical and analytical plotting of electron trajectorion,
in projectors, and investigation of the magnetic lenses of
electron welding guns'
PERIODICALS Avtomatieheskaya avarka, no- 4o 1963, 7-11
TEXT: The described graphical and analyticil method of plotting
electron trajectories takes the space charge in the bean into account and
permits accurate determination of opti=am electrode configuration and inter-
electrode spaces. The'fieldo of a three-olootrode gun projeotor wero
simulated in an electrolytic bath and tho magnetic foouning lenses of vold-
ing guns were in7astigated. A universal relation for obtaining maximum
magnetio induotion on the Ions axis was found. The detailed description is
illustrated by graphs. There are 5 figures.
ASSOCIATIM Instit-at slektroevarki ime Y9.0, Patona All VSSR (Electrio
Welding Institute ita. Y9.0. Paton, AS Ukr3SR)
MIMMM i April 23-1196?
Card
NAZARENKOV O.K., kand.tekhn.nfixtk; IEOIITIYEV, N.N., inzh.
Electron-beam welding in Indiistry. Ma3hinostron-rde n,).6%48-52
N-D 163. 041RA 16sl2)
NAZAREKKO 0. K.; POVOD, A. G.; LEONTIYEV, H. N.
4perimenta on electron beam welding in vacuum 1 . l(rl + I .
10-2 zmm rt. at. Arta=. evar. 16 no.3:88-89 Mr 163.
(MIRA 16:4)
(Eledtric welding-Equipment and supplies)
(Electron beams) (Vacuum technology)
5AZARMO, 0. K.; OLSMSX1Y, H. k.;
......
"Present Day Status of Klectron Beam 4elding in the USSR!
Report to be submitted for the First International Conference on ia6ctron and Ion
Beam Science and Technology, sponsored by the *Iectrothermice and Metallurgy
Division of The glectrochemical Society and The ketallurgical Society of The American
Institute of Mechanical A~-insera (AI14M). 3-7 Nar 64, Toronto, Canada.
OLISFANSKIY, N. A. (Dr. Tech. Sci.); 'JA7A'r--,'rTFO, o. K. (Card. Tech. Sci.)
"Conter~porary Status of Electron Beam 'Welding in the U5SR."
Report to be suNnitted for the International Conference on Electron and
Ion Beam Science and Technology in Toronto, Canada, 3-7 May 1964
ACCESSION NR: AP4020103 S/0125/64/0001003/004410049
AUTHOR: Nazaranko, 0. K. (Candidate of technical sciences); Povod, A. G.
(Engineer): iiajA1ii',_ N-S'- (Engineer, Moscow); Artarnonov, N. N. (Engineer,
0 *
Moscow): Panov, Yu. P. (Engineer. Moscow); Kedman. A. B. (Engineer. Moscow)
TITLE: Equipment and techniques of electron-beam welding of large places
SOURCE: Avtomatichaskaya evarka, no. 3, 1964. 44-49
TOPIC TAGS: electron beam welding, welding. electron beam welding
equipment, electron beam welding method, U86. - electron beam welder, dagger
shaped fusion
ABSTRACT: An experimental outfit for electron-beam (circular) welding of
large -size pieces is described which can be mounted on a "telescopic" carriage
with a headstock and tailstock and introduced into a cylindrical (4-m length. 2-rn 1,
diameter) vacuum chamber; 20-mm-thick staAaless steel was used for building
Card 112
ACCESSION NR: AP40ZO103
the chamber. A d-c motor mounted on the carriage ensures an adjustable welding
rate within 5-100 m/hr. A VN-6 fore-vacuum pump. an N-20T oil-vapor fine-
vacuum pump. and a BN-3 oil-vapor booster pump. w~h a combined output of
10,000 lit/sec. exhaust the chamber down to 10_y~-10' torr. Three electron
guns are used with these parameters: accelerating voltage, 10-25 kv; test
voltage, 50 kv; beam current, 0-500 ma; specific energy in the focal beam spot
with optimum leas distance, 5-10 kw/mm'. Some details of welding procedures
are given. "A. M. Svyat*skiy was the leading designer. Engineers A. A.
Mikhaylovskiy, V. 1. Khoroshilov, A. L. Loginov, andV. F. 11larionov took part
in designing the outfit. V. M. Shiyan was the leading designer of the electron
gun. 11 Orig. art. has: 5 figures and I table.
ASSOCIATION: Institut alaktroavarki im. Yeo 0. Patons, AN UkrSSR (1astLtuta
of Electric Welding. AN UkrSSR)
SUB?ZTTED: 2lDec63 -DATEACQ: 31MAr64 ENCL: 00
SUB CODE: NO RE]r SOVs 000 OTH.ERt 000
card
',.azaren-o, of tochRical sciences)
~iF: Uaiver,3al experimental rliat tor industrial alictron bean
we td tag
S OURCE Avtotuaticheakaya ovarka, no. 10, 1964, 85-8i
i T oil I ~; TAGS . welding, electron beam welding, electron gun, thin 9hent,
p I a tic
,
U
'-bm t - -
-
-
IN ADSVIACTi- -The Electric.,we
1-ding 1.1-tti-ttzte-im- Te 0
f Paton and the
SUm v- I'l 0 c t-f-o n Microscope and Uleetj'~;,: L* t o -.;a t I o it r I ~I t
HAI
I
a -1 d Uullt an &P- 30 ex
a In
e SC C h I kic '1.~ P
f
L it t I 1 0 G -7 n 0
a t n q
M
S101
rig AP4047232
Th
Sp -j J w 0 1 d i q L -
q op oa n a
17
V, r e ~
ztSSOLIATIONt n one
M 1 T'r C D s00 E N CL 00 S Ij B0 1) E I E, EE
R T] F SOVi 000 T 11 11 D 3140
-Cc'M-
ACCESSION MR: AP404LO33 S/0120164/000/003/0126/0128
AUTHORS Hazarenko,,Oo K., Z0zulYaq S. I#, Baranov, G. V.
TITLE: Cathodes for sharp-focused electron guns for electron-beam
welding
SOURCE: Pribory* i tekhnLka eksperLments2,-no. 3. L964, 126-128
TOPIC TAGS: electron beam welding, electron gun cathode, cathode
emitter, lanthanum hexaborLde emitter, tungaten-emitter
!ABSTRACT: The Electric Welding Institute, AN USSR, has developed
;two types of electron-gun cathodes for electron-beam welders.. Both
;cathodes have indirectly heated emitters. The emitter of the first I
icathode is a lanthanum hexaboride pellet held in a molybdenum cup
'positioned with a molybdenum rod. In tests, the pellet operated at,&
:temperature higher than 1700C, ensuring a thermionic current density
2
of about 20amp/cm . The contamination of the emitter surface can be
prevented by decreasing the dolid angle at whi:h the vapor* of welded,
metal can reach the emittar. or by shifting the beam focal spot role-
~.,tivs to the anode aperture axis. The second cathode has a tungsten
I
LI _. 1/2
~ACCESSTON HRs AP4041033
rod emitter, 2 mm in diameter. With this cathode at an accelerating
voltage of 20 kv, a specific energy of 1 kw/MM2 is developed at the
focus spot, which is 120 tam distant from the anode. In general,
.cathodes of both types perform equally well. producing electron
:beams with a specific energy of 10 kw/MM2 wLCh a beam current of
sevexal hundred ad1liamperas at. an accelerating voltage of about 30 kv. OrLge
jart. has: 3 figures.
!ASSOCIATIONi Institut alaktroavarkL AN Uh-SSR ".;- (Electric Welding
,.,Institute', AN UkrSSR)
SUBHITTEDs 02jul,62 ATD PRESSI 3048 ENCLt 00
ISUB CODZs EG, MH NO REP SOVs 002 OTHERs 001
POVOD A.G.1 SWAKIN,, U.S. (Hoakya)i ARTIMRG7, N.Y. (Moskva);
PAUM-luopo i4oskva); IMERAN, A.B. (Moskva)
Instruments and equipment far elgotrou beam velding of largi-sive
articles, kvtom. ever. 17 no.3144-49 Mr 164. (KIPA l7sll)
lo Institut elaktroavarki im. Te.O. Patou LK UkrSSR (for Hazarenko,,
Poved).
ACC N& AH50256Z9 Honograph UR/
.-Mazareako, Oleg Ku nL_ph
Electron beau welding (Elaktrontio-luchavaya ovarka) Kiev, Haukova
dumk-a- I_9WS_. 1-27 lio Lllus., biblLo. (At head of titles AkadewLya
__qauk Mkrains.k-o.y. ~S~R. _-Ordena trudovogo krasnogo zaamemL__LaWtLtut'_
slaktroevarki is, Yee 00 Paton&) Z000 copies printed*
TOPIC TAGS: welding, electron bass, electron bean welding, electron
beam welding technology-. electron bean welding apparatus
PURPOSZ AND COVERAGE: This booklet is intended for angiaaaring per-
sonnel and scientific workers dealing with welding It nay also be
useful to students specializiaR in welding, The b;oklet reviews the
basic physical principles of alectroa-beam welding, gives LnformatLou
on electron-bass Sun* with various accelerating voltage#, describes
the basic components of elactroa-besm welders, such as vacuum systenag
and atectrLe-power sources, and reviews the types of the best Ladus-
trial oquLpaento
TABLZ OF CONTENTSt
Introduction, 3
C."d 1/ 4
ACC N& AH5025629
Cho I*
Cho 11o
Physical principles and technology of eleccron-beam welding - 6
Specific features in the utLILzatzom of an electron been as a
welding beat source
Transfer of energy to a solid body by a bean of accelerated
electromp
Heat balance in a welding bath -- 8
Pressure on a welding bath during electron-beam welding -- LO
Formation of dagger-shaped welds is electron-beau welding -- 12
Effect of parameters of eloctron-boan welding on the pattern
of penetration -- 14 14
Electron-beam weldLax equipment -- 23
Generation and shaping of LnteneLve electron beaus in welding
electron gums
Cathode@ of welding electron guns
Emission system of electron welding gums -- 32
Design of projectors of welding electron guns - 39
Focusing systems of welding electron gums -- 51
Aberrations in electron-optLe systems of welding electron
Auns -- 59
The effect of acceleration voltage an the power density in
beams of welding electron gums
Heasucing the beau*focal point -- 64
2/4
AX-502,5629
vacuum system for electron-beam welders 69
Power sources of electron-bass welders 72
Power sources of welding guns
9lectrLc drive systems of eLectron-beam welders -- 78
Cho Me Industrial applications for alectrom-beas welding -- 79
Industrial welding electroa-beam guns
Classification of welding electron-base guns
Low-valtage gutts -- U
Guns with acclolo rating volta a of 40-60 kv -- 92
ULgh-voltage welding and aiectining guns
Protocypes and industrial elaccrom-beam, welders -- 94
UnLv;r::1,cal4er for electron-beam welding of tuall, articles
EquL a t for precision electron-beam weldLn~g !ad
machLnLog - 101
Specialized quipment for electron-beas welding of large
parts -- 101
Equipment for electron welding in an atmosphere of inert
gases or in air -- 106
...WeLdLag La portable and transportable chambers 109
Examples of the uses of electron-beas welding 110
Protection of personnel from coemtgsu*r&4LatLaa 123
ACC MRs AX5025629
Probless and dLreccLaus in dovelopmest of olaccrou-boas
weldLas -- 124
Referescoe -- 126
993 CODC /V SUBM DAM llKac65/ ORIC REIrso 0341 OT3 RZTe OIS
Cmd 414
ACU-T~W- 2 ~i
.~OUPCF 0)!!;.:
INVENTOR, ~'t reka V i P.; Dii(Pn, 1). A.; U~iznrt-.io'-
ORG: nona
TITLE - Method of automatic foLlowinp, t lie jniii( T: r i
14o. 177006 1
SOURCE: 5 y u I I C t (41' 1 Zo b ro tell I y t I o va r tiv
TOPIC TAGS: electron beam welding, secondary I(-,- r-n (,n, iw t I ,I) t I ,it
electron intoraction, met.-il inlnln,~ , ;;Je-1A1,t-
ABSTRACT: LThe method of -iutomati( flillo,,;ing i,f f joint ill -L'-(In i)"e,-1
with the application of an electromagnetic det 1(~( Lion syqtem thlt ;hift-i trio electron
beam with repard to tile workpfi-ce, 1.9 Oiaracl--riwd by tile fact th:it fit PT(ff'r to
eliminate the effect of rite materipl and of th-, workpiece shapv on Oi(~ tr it k inp,
accuracy, USC iS M& Of tile qeCOTI(Jary electron enis-4Jon, occurritif, diii in~,. t hf,
reaction of tile electron bearn wiLli the nurfricc of the workpiece, 1,i ontz,d 1 1;1t,, t lit,
deflection System.
2. The method, descri')ed Ill paraprlph 1, 01 rl;,ed by th. 0, t (!I
to improve tile trrtckin~,, accuracy. ;-9c JS madt- 1); Lile secondar-Ir 1- 1 1-11 1-11
occurring during the renction of 'lit, iri/i I tar,'; !lha r p I v f ocul3l"d I ec t rnll t~t ;I i-, ~ !
tiltulln [ty W11 th tile sllrf~trp of thp 1 it ont roll Inp the dof )!-f t lr~ri 11.
Card 1 /Z UDC: N I . 7 2 . 019
L 326)i'4'--V,
ACC AP6002894
3. The method, described In piirwraph-q I and I!, i-; ct,.aracteriz(,:
order to simplify the apparitun for shifting, the main and "111xi) 1~;Iry (,I(( r"041 F)"
use in made of a common elect romagne tic. deflection ~;ystem to qt Lf-, tho Ln ;i
lateral direction wit!) reFpect tO 01C efige,14 Of Lh,~ wor~piece.
SUB CODE: 131 SUBM DATI-.*.- 03'NovQ/
LCq-ld-2/2-,. 1 1-)
_WZ~UT(b _4Z(1VW&Chj Dliff
T,'152i2_-66_.txqA &MCy)jVW?(t_)j1~WP - -L -
~.C M AF600296a 9OURCE CODE: UR/0286:165/GOGIO24[0136IG136
INVENTOR: Zhivaga, L. I.; Nazarenk'
o. 0. K.; Chvectko. A. t.
ORG: none
TITLE: We IIding electron jo Class 49, No. 177261 1[announced by the Electrical
I -T_ arki AN UkrSS
Welding Institute im.Ye. 0. Paton, AN Ukr.;15R Institut elektcriev R)
SOURM 5yutteten.1robretenly I tovarnykh zaakov, no. 24, 1965, 136
TOPIC TAGS: we Iding,.electron beant welding, electron gun, gun catho
ABSTRACT: This Author Certificate introduces a welding electron, un
tE. equipped w1th an
anode and a cathode, the later heated by electron, bombar-N-01=6 improve the
efficiene.y and service life of the gun, the (Rek-shaped ta taluartathode with a
concave emitting surface Is tightly fitted in a round thin-wall housing whose convex
botton faces the anode. CMDJI
SUB CODE: 13/ SUBK DATE: 1Suec64j ATD P.MSS: &0q
UDC: 621.791.12.03
i /-- ~- 4,,pf t )T1E;!Bj1E
IJP(c
.... ........ 5-3~~
CC NRt Al
SOURCE CODE: uiV6j.-!o~6676WI66376~-~,FOI~l-D7
AIMOR: Zinchenko, G. ff.; zinchenka, f[. g.;, K=bel".,. A. V.; roxareakal 0.
Raalo Physics and Electronics, ALM UkrSSR (Inatitut radiofiziki L n-'
ORG: institute of
elektroni,,,d A.If UkrSsR); Inst:Ltute of Yiectric Welding,
7u(-Lr&SBR), Kiey (Inatitut
elaktroavarki'Aff Mcar-.332311
TITLE:' Hermetie; Sealing of tungsten-barium cathode~with the aid of electron-bem-
welding
SWE"., ~ribory I tekhnika ekaperimenta,, no. 1,, 1966, 2c)9-21o
TOPIC TAGS:, cathodef electron beam welding~ hermetic seal, eeam welding
AB57MM The authors describe experimerrts on sea-ling tungsten-barl.um cathodes or
various geometry, to prevent leakage of the activating.BaCO:3 to the outside of the
.cathode structure. The teats were rude with a ripecially designed laboratory cetup
in which electron-beam welding could lif! carried out in V&cWM up to 5 x 10-5 Torr
(Fig. 1). Vie welding electron gun operated at 40 kv accelerating voltage and was
feil fron a courL!e a:C power up to 2.5 Yw. Special, waldLng Joints had to be designed
,to produce a herMeticallY-tight welded seam. 1he construction of the optimAl cat'hod&
aod of the proper welding joint are briifly deacrib(A. Testa have rhuwn tile nev
cathode construction to be Immuie to lefikr, reaulting from repeated heating atV1
c001irlgo. Orig- Date hag: 3 figures.
P ~T:
Card MC.- 621-385,435
L- 27059F
ACC NRc AP60078~~
t
Fig. 1, Diagram of electron-beam welding gun*
fl---Reater.. 2 - cathodef.3,- rocusing electrode.*
anod
e., 5 - electron beam, 6 - aperture dia-
hragmt T - beam shtAter, focusinglans,
13
9 - defelecting systemp 10 welded exticle,
11 - prisiz~ 12 - optical system)- 13 - shielding
V
glassj., 14, glaaa*rotating mechanism.
SUB ODDE: 09t 'u, 15/ SUM DATEs '25Dec64/
ORIG REFt 001
2/2
Card
HAZAMIrivop O.M.; SHAKH, TS.I.; KAGAN, F.1u. (Kahan, F.Iu.]
Improving the skiU of analytical chemists. Farzstsev. zhir. 16
no.3378--80 161. (MIRA 14:6)
I. Kiyevskiy inatitut uaoyerohenstvovanlya vrachey.
(PHARM&CY-4TUDY AND TEACHING)
RIUMIKOF 001;.; MUTSQYAV S*G*
Data on the Indu ed polarization of potential electrodes obtained
in resistivity prospecting. Trwty AzIIII DM no.4:223-229 156.
(14LU 1414)
(Zleatria prospecting) (Polarization)
HAZOENKO.. 0.V.
Sffect of spaci between potential and current electrodes an
proopecting reauts obtained by the use of dipol-m axial installa-
tions. Trudy AzIIII DII no.4:230-2-43 156. (MIRA 14:4)
(Electrodes)
W.14444
1, -Aqb, O.OT
I - .
Effect on results of errors In determining true distances when
using the AHMB ay=etrical apparatus. Azerb.neft.lthoz.35 no.11:6-
9 N 1569 (KLRA 10:4)
(Prospectine-Geophysical methods)
MAZARCHrO. 0.V.
Ketho4 for continuous marine electrical prospecting. Geol. neftl
1 no.8:40-J46 Ag '57. (MIRA 10: 12)
(Prospecting--Geoph7sical methods)
WkZARENKO, O.V.
Using difforontial apparatug in offshore electric proupacting
on the Makarov shoal. Gool.nefti I gaza 3 no.10-44-47
0 '59. (MIRA 12:12)
1. Azarbaydzbanakiy nauclino-issladovatellskiy institut po
dobyche nefti.
(Baku archipelago--Zlectric prospectiw-Squipmint anti supplio-3)
NAURMO, O.T.
The NMX~57 station for electric prospecting at sea. Rezvod.1
prow.geofis. no.31:45-74 159. (MIRA 13:4)
(Ilectric prospecting)
NLZARENKO, 0. V., Cand Tech Sci -- (diss) "Development of' ocean elec-
trical exploration with direct current." Moscow, 1960. 15 PP; (Flinis-
try of Geology and Conservation of I-line-ral Resources LBSR, All-Union
Scientific Research Inst of Geophysical Methods of Exploration, VNIIGeo-
physics); 150 copies; free; (KL, 25-60, 133)
S/169/62/COO/009/055/120
D228/D307
AUTHORS: Andreyev, L. I., Bayramov, P. 399 Nazarenko, Oe Ve
and Sarkioov, G. A.
TITLEs Narine electric prospecting (Discourse theses)
PERIODICAL: Referativnyy zhurnal, Geofizika, no. 9, 1962, 41, ab-
stract 9A273 (In-oollection: Sootoyaniye i perapekti-
vy razvitiya geofiz. metodov poiakov i razvedki pol-
ezn. iskopayemykh, M.0 Gostoptekhizdat, 1961, 379-380)
TEXTs The method of executing various modifications of.marine
electric prospecting is described. The perfecting of developed ty-
pea of equipment led in 1957 to the creation of an :)PCtf-,'7-7(ER3M-
57) marine electric prospecting station. Results, which corredpond
well with seismic surveying and drilling data and were obtained by
-the method of continuous axial dipole sounding (CADS) and map pro-
filing, are mentioned. At present, marine electric prospecting
can be employed: 1) for reconnaissance surveys in order to seek
--anticlinal structures (continuous axial profiling and CADS); and
Card 1/2
5/169/62/000/009/055//120
Marine electric prospecting D228/D30-1
2) to solve some problems connected with the study of the arched
parts of anticlinal folds (CAW and map profiling). Abstracter's
note: Complete'tranalations
Gard 2/2
ACC NRt
AP7001556
INVM;TORt Hazarenko# 0. V.
OXG: none
0-UR-C
S E COM UH/0415/66/000/021/0072~6&i2~
TITLEt A device for electrical exploration for mineral deposits. Class 21, No-187893
SOURCEt Izobreteniya, preawahlennyye obrazt9y, tovarnyye znaki, no. 21, !966, 72
TOPIC TAGS: prospecting, mineral, magnetic dipole, dipole, forromagnetic material,
magnetic induction
ABSTRACT; This Author Certificate presents a device for electrical prospectine for
mineral resources by means of magnetic profiling. The device contains a r--l(gletic
.induction meter and a grounded receiving dipole. To simplify the proceo3 under the
'condition of oceanographic investigations and to improve the work efficiency, the
etic induction meter is combined with the receiving dipole in such a way that one
stir d of the receiving dipole cable made of a ferromagnetio material serves as a core
1,s WIthe induction meter.
SUB COM 06/ SUBM DAM 10&&r63
Card 1/
UDC9 550-637(204.1
KOROTKOV, A.G.; NAZARXHK , P.T.
OMMONOW
?asks In expanding the production of forging nachims and presses.
Sallkhozmashina no.5:22-25 Kr 157. (VJ3A 10:5)
(rorgIng machinery)
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by
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SOURCE CODE:
AL"WOR: Mazarenko, P. V.; Zaytoev, 0. V.; Kostetskly, B. 1.
ORG: Kiev Institute of Engineers of Civil Aviatioa ~rdyevskly Institut inzhenerov
1grazhdanskoy aviatail)
TITLE: Effect of initial dislocation density an external friction force and the
ratio between elastic and plastic deformations
SOURCE: MIko-khimicheskays mekhanlka materialov, v. 2, no. 6, 1966. 664-667
I
TOPIC TAGS: crystal dislocation, elastic deformation, plastic deformation, friction
ABSTRACT: The process of external friction between solids Is chiefly represented by
elasto-plastic deformation. Iii this connection, the deformation of NaCl manocrystala
(which have a simple cubic lattice that clearly reveals dislocation and are suffi-
cleutly photoactive for exadning their deformation in polarized light) was estimated
with the aid of a specially designed machine which makes It possible to determine the
elastic and plastic components of deformation according to the illumination intenaity
,of double-refraction bands directly In the process of friction under both static and
dynamic leads. Dislocation density was deteraitted "cording to etching pits. Find-
the Initial dislocation dinalty of the materUls to friction markedly affects
lugs:
the relatioukhIp between the pUstic and elastic. def~rmatioas arising in the proceas
UK/0369/661002/006/0664/0667
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ACC NR. AP7004184
of friction. When the 41slocatIon density to We minim= or at a maximum, the elast-
Ic component accounts for the greater part of the toiAa deformation. When the dLalo-
cation density Is medLuq, the plastic component accoints for the greater part of
the total deformation. 1he friction coefficient Is kgher In the materials which
during friction are subject to considerable plastic 4eformation. The initial dialoca-
tion density Influences the formation of the frictiod force Inasmuch as It Influences
the magnitude of and ratio between the elastic and plastic components of the deforma-
tion arising during friction, with the magnitude of he plastle deformation being the
principal factor. OrIg. act* hass 4 fig.
SUB CODE: Us Ill.' SLMK DATFs ZM1661 ORIG RM 1003.
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A-
USSR/Forestry - Forest Plants. K-5
Abs Jour : Ref Zhur - Biol., No 2, 1956, 5933
Author : Nazarenko, S.I.
Inst : - .........................,
Title Autu= and Winter Horse Chestnut Sawings in the South of
the UkSSR.
Orig Pub Lesn. kh-vo, 1957, No 6, &3-
Abstract So abotract.
Card 1/1
TIAM1111KOP S.I.
Experience in cultiva*.lon d(jr5 w-_t.`, -;` -,a_-~jn
In the southorr, U~ralne. Apt. af,-In 1-i no.4:2(_29 JI-Ag
(MPA 17: ~ i
i. BotanicheBkiy nad (Af3jbrl.-r):,o govu,ila%JLV,.alrioj~~j
lmeni Mlechnikova.
NAZAREMOO S. 1. (Klyov)
Excretion of estrcger. fractionn In otriscic-rovis. Zhur. uni, p r,05.
i gor. bol. 24 no.2sl2-14 Mr-Ap 16/, (~Iu,~A i8:1)
1. Iz laboratorii bioklilmil i surdologlche5kogo otdela Vnuchno
Insledovatellskogo Inotituta otolaringoloCil Ministor-stva zdravc-
okhraneniya UkrSSR (direktor i nauchnyy rukovcditell - zp-sluzhen-
nyy deyatell nauki prof. A.T. Kolomiycheiko).
If FAZARENNO, S. K.
2, usm (6oo)
4. Incubatora
7, letter to the editor, Piganvadstvo no. 10, 1952.
9. Monthly List of Russian Accessions, Library of Congress, February --1953. Unclassified.
TSUK104AN, R.V. kand.tekhn.nauk; NAZARLIrKO, S.S., inzh.
p -
Cost Indices of hlglk-capacity steam boiler rAnufacture.
Energomashinostroonte 7 no-10:33-36 0 161. WRA 14: 10)
(Boiler-making industry)
TSUKERMANP R.V., Yand. t9khn. nauk; BULANOV, N.C., kand. ekon. nauk;
SHIFRIN.. I.B., inzh.; BRILI, A.R., inzh.; NAZARENKO, S.S.P.-
inzh.; BIZIXA, N.S., inzh.
Auxiliary equipment of atefou turbine electric power plants.
Energomashinoutroenie 11 n0-9140-42 S 165. (MIRA 18:10)
11'~nlli
S/14o/62/000/004/007/009
C111/C333
AUTAOP: Nazaroak-o, T, 1.
TITLE. The numerical solution of the Cauchy problem for a class of
linear integro-differential equations
PETUODICAL: Vys3hiya uchebnyye zavedeniya. Izvestiya. Matematika,
no. 4, 1962, 110-117
TEXT; Considered is the numerical solution of the Cauchy problem
(1-i) b a
ai(X) z W + ~i xi(x,y) Z(,-')(Y)dy - f(x) (I)
1-0
Z(i) (iaot it .00P 1-1)p 0 r at bj p (2)
p
where a,(x) and f(x) are continuous on La I ; K,(x,y) together with its
0 bj
sufficiently high derivatives being continuous in &