SCIENTIFIC ABSTRACT YEKHICHEV, O. I. - YEKIMOV, P. P.
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CIA-RDP86-00513R001962520008-8
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RIF
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S
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100
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September 1, 2001
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8
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Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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ACC R9 AP6031272 SOURCE CODE: UR/0057/66/036/009/168'L/1684
AUTHOR: Yekhichev, 0. 1.; Zinchenko., G. N.; Zinchenko, N. S.; Karnaukhov, I. M.;
Slabosr)itskiv, V.- P.; Taranov, A. Ya.
117
ORG: none
ITITLE: An atomic beam ionizer as a source of polarized ions
SOURCE: Zhurnal tekhnicheskoy fiziki, v. 36, no. 9, 1966, 1681-1684
TOPIC TAGS: ionizer, polarized ions, polarized ion Aurce. atomic beam ionizer
ABSTRACT: An ionizer based on the principle of ion focusing as developed and patented
earlier by Zinchenko and others, is described in some detail. In this arrangement,
the electron beam is coaxial with, instead of perpendicular to, the beam of polarized
atoms, thus increastrg the ionization length. The electron beam was produced by an
electron gun with an oxide catfiode 5.5 and 9.6 mm in inner and outer diameter, re-
spectively. The distance from the cathode to the anode was about 7 mm, and from the
anode to the collector, 60 mm. The hole diameters in the cathode, anode, and collec7
tor were 6, 7, and 8 mm, respectively. An investigation of the characteristics of
the device revealed that the transmission factor of the electrons was 100 percent
through the anode orifice, and 92 percent through the entire ionizer. The divergence
of the electron beam was small, the beam diameter varying between 6 and 8 mm. A
hydrogen atom beam produced by the dissociation of molecules in glow-discharge and
UDC: 539.188
L 44774--66
6-0-3 12 7 2
focused according to atomic spins in a field of a magnetic quadrupole was introduced
'0_4
into the ionizer. The measured efficiency of ionization was found to be 4.5 X J.
at a 90-mamp electron current and a 1400-v potential difference between the cathode
and anode. The mass-spectrometric data on the composition of the focused atomic b~a:-A1
showed that it consists of hydrogen atoms, thus confirming the stated efficiency of
ionization. This efficiency is 3 to 5 times higher than the results reported in tlie
Proceedings of the International Symposium on Polarization Phtnomenq_2L_Eur
(Birkhaser Verlag. Basel und Stuttgart, 1961). Orig. art. has: 3 figures and 1. for-
mula.
SUB CODE: 20/ SUBM DATE: lODec65/ ORIG REF: 004/ 0711 REF: Q01/ ATD PRESS: 50 0
-Card
2
KURITSYNA, D.A.; )MKHI"IPV IVMIOVA, L.V.; CHZHAJ1 XHUN-SHUN' [Chang
Problen of shortening the quarantine period in measles.
Trudy LSC-14I 32:30-34 '57. (MIRA 12:8)
1. Kafedra spidemiologii sanitarno-giglyenichealcogo meditsin-
skogo inntitnta (zav.kaf6droy - prof. V.A.Bashenin) i Gorodskaya
sanitarno-epidemiologicheeka.va stantsiya g. Leningrada (glavnyy
vrach - A.I.1yupar).
OWA=S, lorev. & control
quarantine, problems in shortening period
(RUB))
OR11GORIMAt N.G.1 YEMILEVSKAYAl Ye.L.
Experience in the control of diphtheria ih Leningrad during the
period 1948-1959. Sov.med. 2/+ no,12s.LU-116 D 160, 1
(MIRA 1413)
Is Iz Leningradskay gorodskoy sanitarno-opidemiologicheokoy stantaii
(glavnyy vraoh Kowhilov V.Ye-.). i
-D
(MINGRAD, 1PH.THERIA)
ANSHELES, I.M.;(YEKRILEVSKAYA, Ye.L. (Leninerad)
-Ways of eliminating the incidence of-diphtheria. Sov. tdrav. 19
no.1106-40 160. (MIPA 13:11)
1. Iz Leningradskogo instituta imeni Pastera i Loningrabkoy gorodskoy
oanitarno-opidemiologicheakoy stahtaii.
(LENINGRAD-DIPUTHERIA)
MHILEVSKAYA, Ye.L.
Control of whooping cough in Leningrad. Vop. okh. mat. i det. 6
no.9;80-82 3 161. MIRA 14:9)
1. Iz Ldningradskoy goriodsko~ sanitarno-epidemiologicheskoy sULntsii
(glavnyy vrach V.Ye.Kovshilo .
(LENINGRAD-WHOOPM COUGH)
VARAVITSKIY, I.M., Icandidat maditsinskikh nauk; TRUINOVICH, Ye.M.;
LITVINOVA. U.S.
Novocillin therapy in syphilis. Yest.,ran.i derm. no.1:35-37
Ja-7 '54. (KLRA 7:2)
1. Iz Ukrainskogo nauchno-iseledovatellskogo koshno-yonerologi-
chaskogo instituta (direktor - professor A.M.Krichavskiy) i 4-go
vendispansera (glavnyy vrach L.Ya.lashchanko). (Syphilis)
SAVVINO L., inzho (Moldaviya); TLKRIAKCV, A., inzh. (Svordlavisk);
TRUSOVI I., inzh. (Frunze),- IVAINOV, Njj,---PIAKSF.YEV, ~. (Kherson);
KNCRM, M. (Llvov); GR%OOKO, P.,- rabochiy (Novosibirsk);
TARASOV, 0. (Novorossiyok); DIXAKOV, P~, inzh. (Kamensk-
Shakhtinskiy); BUTUSOV, V., dotsent (Moskva); SUNDAKOV, M.,
inzh., student; PCRTZIOV, Ya., kand. tekhn. nauk (Makhachkala);
MTROV, Yu,,, inzhoner-stroitell (Ivanovo) -
Readers argue., agree, advise. Tekh. mol. 31 no.6:6-9 163.
(KERA 16:7)
1. Starshiy inzhenor Usol'skogo mashinostroitelinogo zavoda
(for Ivanov). 2. Moskovokoye vyssheye tekhnicheskogo
uchilishche imeni Baumana (for Butusov). 3. Zaochnoye otdoleniye
fakullteta zhurnalistiki Leningradskogo goeudarstvennogo
universiteta (for Sundakov).
(Technological innovations)
S:
YEKHLAKOV, A.D.
Grinding of rails. Pat' i put.khos. 7 no.12t4-5 163.
(MIRA 16s:2)
1. Nachallnik rellsoshlifavallnogo poyezda na Sverdlovskoy doroge.
IW~i
pd
126-5-3-27/31
AUTHORS: Yelchlakov, A.D., Gladkovskiy, V.A. end Rodionov K. P.
TITLE: The-hfifect of Pressure on Young's Modulus for Certain
Metals (0 vliyanii davleniya na modull Yunga nexl-.o t or-jFrkh
metallov)
PERIODICAL: Fizika Metallov i Metallovedeniye, 1957, Vol 5, Nr 3,
pp 559-560 (USSR)
ABSTRACT: An apparatus dependent on observations on bandinG (not
described in detail) is used at hydrostatic pressures up
to 5000 kg/cm . Electrolytic copper and aluminiun,
99.35-99-95% pure, and medium-carbon steel are used; the
results gre given in Table 1 (left column: Al, Cu, Steel;
units eml-/kg; columns: fr5 (2), from experiment), for
pressures up to 4000 kg/cm . These metals viere used
because the bulk (K) and shear (G) moduli are known for
high hydrostatic pressures. Eq.(2) is derived by
differentiating the standard Eq.(l); Eq.(3) is an
Card 1/1 approximate formula relating K to p due to BridEpan.
Table 2 is similar to Table 1 (same materials); the units
are cm and kg. There are 7 references, none of which is
Soviet.
ASSOCIATION: Institut fiziki metallov Urallskogo filiala All SSSR
(Institute of Metal Physics, Ural Branch of the AS.USSR)
SU13LIITTED: May 15, 1957
1. Metals--Elasticity 2. Metals--pqnsure
ME"
- - - - - - - - - - - - - - - -
SOV/126-7-1-16/28
AUTHORS: Yekhlakov, A.D. and Gladkovskiy, V.A.
TITLE: Dow Method for the Determination of the Dependence of
Young's Modulus of Solid Bodies on Pressure (Novyy metod
oprodoleniya zavisimosti modulya Yunga tvordykh tel ot
davleniya)
PERIODICAL: Fizika Metallov I Metallovodeniye, 1959, Vol 7, Nr 1,
pp 116-121 (USSR)
ABSTRACT: In this paper a static method for the direct experimental
study of the dependence of Young's modulus of substances on
pressure is suggested. This method is based on the deter-
mination of the change in rigidity of a cantilever beam-
specimen on application of hydrostatic pressure. This
determination Is based on the restoration of the initial
angle of bend of the cantilever beam-specimen, which is
rigidly fixed in a high-pressure chamber by means of
turning the chamber through a certain angle &cK , the
value of which determines the change of Young's modulus
with pressure. The method suggested also allows the
Gard 1/4 simultaneous determination of the compressibility of the
SOV/126-7-1-16/28
Vew Method for the Determination of the Dependence of Young's
Modulus of Solid Bodies on Pressure
liquid -which transmits the pressure to the specimen. In
order to measure the change of Young's modulus with pressure
a high-pressure apparatus was built. The main part of
this apparatus is a special steel mandrel, which is shown
in Fig.2. The specimen, 1, in the form of a length of
wire, is inserted in pincer grips, 2. A centralizing
device, 3, enables the circuit to be closed, 5, at a
pre-determined time for a selected angle of inclination of
the apparatus. A load, 4, of 0*4-0*6 g in weight, was
chosen which was usually made of the same material as the
specimen (except foi experiments with aluminium). The
apparatus, when assembled, was placed in a high-pressure
chamber, and was firmly affixed to tt by means of two cover
plates, 6. A high pressure was established in the chamber
by a high-pressure compressor of the L.P. Vereshohagin
type. The chamber is provided with an electric conductor,
which passes through a conical ebonite stopper. The other
end of the tappings, 7, makes contact with the chamber.
Card 2/4 The working of the apparatus consists in the following:
SUV/126-7-1-16/28
New Method for the Determination of the Dependence of Young's
Modulus of Solid Bodies on Pressure
at the beginning of the experiment the apparatus with the
specimen at atmospheric pressure is, by turning the high-
pressure chamber, put in a position at which short-circuiting
of contacts, 5, occurs. If Young's modulus of the
investigated substance increases with rise in pressure,
and hence the angle of bend of the beam-specimen decreases,
then it is sufficient to set up a relatively small pressure
in the chamber to cause short-circuiting of the contacts.
For repeated short-circuiting of the contacts (at existing
pressure) a supplementary turning of the chamber through
a certain angle A oeq io required,, etc. Hence, the
relationship between the angle of turn of the chamber and
the hydrostatic pressure both on raising and on lowering of
the pressure, can be found. The experiments were carried
out with aluminium, copper (containing 0.05-0.15 per cent
impurities) and steel St50. The specimens were made from
0.7-1.0 mm diameter wire. A mixture of kerosen6 and
transformer oil, the compressibility of which was detormined
in this apparatus (see Fig.3) was chosen as the medium for
Card 3/4 tranamitting the high prosaure to the specimen. In the
2': 4u
SOV/126-7-1-16/28
New Method for tho Determination of the Dependence of Young's
Modulus of Solid Bodies-on Pressure
determination of the compressibility of the mixture loads
used were of materials which markedly differed from one
another In their specific gravity. The experiments were
carried out at.room temperature (200C). The results of
direct measurements of the change in Young's modulus with
pressure for aluminium, copper and steel St5O are shown
in PiS.4. There are 4 fiSures and 7 referencesp of
which 2 are Soviet and 5 Bnglish.
ASSOCIATION: Institut fiziki metallov AN SSSR
Physics,Ac. Se. USSR)
SUBMITTED: November 25p 1957
(Institute of Metal
,.,/1,a-/()0/0 09/o I /0,2~ ,/ C)
AUTHOR: YL,!~r-hla k~r,~'
TITLE: On the Change ir. Stresa State of a Solid umd,~-r 'lite
Action. of Hydro3tat-ici Pve~;L;itre, Latter to t1r-,)
PERIODICAL: Flzll,,.u mota,'Ilov 1 3.1)60. Vol cl~j Nr 1)
pp 155...356 (*tTSGR)
ABSTRACT: According to Yu.NN. Ryabinin (Ref 1) one of the main
reasons for the Increase of plasticitj of a
pvesstrp-
specimen under the ac;tJor, of a great
is the in th,~, 3trr-,3r, state.
qualitativ,-:,~ pii,-tv-re h-3 grivos of e-Tonguti.on
dot- iio,111- fully eluci,-I~tte t-'L,tis
the ti:xaciole rufor.,; 0) a
and ~jrj-loivlly b-f!c-Au.,jr,~ Lho
static prc--su,7(i :L~-; e.,V~!.--L'I in mag.'UtWit) I;C-,, ',r
tensile loac., anTplied to t~,,ra
~Ylzt
Clonsideratir,n of the --i-obt o-, ims la,11 rha
a;., I.- I cl, R,)-f ~D a 3 cn-, 1VA t r,
Card umicr unde-
Stitic t-c- ayia].
1/3
Za' F, dc -s n -t
.i tera 16~ c C~.
F, 01 /E. I
On the Change ill Stress State r~f a &A.R! and'er tl-,e Art1on c-L'
Hydrostatic Pressure. Lotter to the Editor
fully a rapid _-harige - the
ton3ilo strosses In Hit, ~ipoolriori. If a 31milIr
1-,,y consil.-artu. for Uto r,,aje. of ri
specimen under condlit_101-1:; of appli,~,alt-!(.;n r,,!' a
D.-ZeSS'Ure p equal to or c7,3eejdn,, a tqias "T, S""Oss a,
then it- --an ea3ily be :3tian tho. ~'-, i.A. p =-- Cr ti~o ur,14-ax,Ia 1
Lensl' fin is I-eplacad by b-Ia-X.iL~tl -and I
pressure of p ~~ a it is replace(', b.;
general compression. Thu,,s threo ~,ypt-.,.9 of st,.ttti
iure possible wher. tpstinC spc~imerjs in
hydrostat-41.c: pressul,e; 1) < Cr - the _~S s
In Ryabin"ir.'s article thle hydrostatic presslare is
!aompletely relieved in 1"he 2pe,_-Inien by tensille
The specimen experiences ax-Jal tonsile
a - p in one direr:'U-ion, and compressive stresses equal
to p in two other directions. 2) p cr n6 tansile
Card stresses exist in the spo,2i_tien and the
pressure has begn rel-leliod. The spe-Jri,,!n experienr4~&
;2/j -L e - - 4.
Only -~orpressj.ort in two directions. CF ~.tlo
E091/9191
On the Chan~,e In Stress 3~.V-.-- of a Solid u.-ider thr, A(A.-Lon of
Hydro3tatic, Pressure. Lettor to tiria Editor
di.rectional conip,.-cs-slve stress, equal c., anj
hydrostatic pressure equal 'to D - a takes plar,-.,
No tensile stressq.3 oxiot.
Card There is 1 Soviet reforenc.&.
3/3 This is a complete trans la tion.
ASSOCIATION: InstitUt fizi.k'. metallo-v AN ESSR
(Insti.tute of Pliysics of Metals,, Acad.S--!,. USSR)
SUBMITTED: OC',ober 9~ 195~,~
S/126/6o/oog/06/020/025
E
AUTHORS: Yakhlakov, A.Do and RodionoPIOAP,
TITLE. Hydrostatic Method for Measuring the Compressibility of
a Liquid at High Pressure
PERIODICAL: Fizi metallov I metallovedeniye, 1960, Vol 9, Nr 6,
pp 932 - 935 (USSR)
ABSTRACT: One of the authors (Yekhalov) has previously indicated
the possibility of using a static method for determining
the pressure coefficient of Young's foffrs of solids for
studying the C'ompres;ibility of liqS , . The present
article gives the method of calculation and results for
several. liquids, some based on published data (Refs 7,8).
Th'e apparatus has been described previously (Ref 4)
and consists (figure) essentially of a pressure-chamber
which can be inclined at various angles, containing a
duralumin weight attached to a flexible steel rod rigidly
fixed at its other end. The free end of the rod operates
a contact. Increase in pressure in the chamber causes
the weight to rise, opening the contact: the inclination
of the chamber is then altered to close it. The authors
Cardl/2
S/126/6o/oog/o6/020/025
211,1401g2lity of
Hydrostatic Method for Measuring the Compre 3 1 a Liquid
at High Pressure
now give an improved equation for calculating the
compressibility and tabulate results for paraffin, VAA
paraffin + :25-7556 transformer oil3and transformer oil
at 20 - 80 OC and 1 65 000 kg/cm The accuracy of
determination is within 0-5%.
There are I figure, 1 table and 8 references, 7 of which
are Sovkt and 1 English.
ASSOCIATION: Institut fiziki metallov AN SSSR (Institute of
Physics of Metals of the Ac.Sc., USSR)
SUBMITTED: December 14, 1959
Card 2/2
35011
3/596/61/000/000/001/00-1
D217/D304
AUTHORSO* Buzynovi A.Ye,,q Yekhlakovq A.D., Motovaq Z-;A~, Mocha-
lov, M.D~ k and Fa-k_1_6_ov~
TITLE: Action of 1-irradiation from the betatron on X-ray
filmaq and the constitution of exposure graphs of
irradiated steel
SOURCE: Akademiya nauk SSSR. Institut fiziki metallov. Beta-
tronnaya gamma-defektoskoplya stali,, Moscow, 1961,
10 - 25
TEXTg A sensitometric investigation of the action of y-rays on se.-
veral types of films was studied and the distribution of the inten-
sity of irradiation along the cross section of the beam was measu-
red. German films made by Agfa (GDR), Laue, Sino, Texo-R, Texo-S
and the high sensitivity Russian films of factory no. 8, "Rentgen-
X,-opytnyy" and "Rentgen-X-opytnyy" sprayed from one side, were in-
vestigated. From the sensitometric results obtained, exposure grapbs
were plotted. These, in conjunction with curves for the angular dis-
tribution of intensity and figures illustrating the dependence cf
Card 1/ 5
S/596/61/000/000/001/003
Action of T-irradiation from ... D217/D304
exposure-time of defects on the degree of blackening of the film,
enabled the exposures under various conditions of X-raying to be
calculated~ It was foundq that the experimental film "Rentgen-XII
sprayed on both sidesp was the Most sensitive one with respect To
y-rays from the betatron,, The German films Agfa, Laue, Agfa Sino
and Agfa Texo-R have similar sensitivity characteristics under si.
milar conditions. The film Texo-S is somewhat less sensitive. In-
tensifying screens considerably shorten the time of exposure, The
and 2 mm front lead screens differ littie from each other as to
their action on the film. With an increase in thickness of the ir-
radiated steel piatesq the conventional characteristic curves of
the films are displaced in the direction of increasing exposure and
change their general character, the linear porTion of the curve de-
creasing in extent. The contrast range also changes somewhat. All
imported films, when used in conjunction with the betatron, should
receive longer exposures than those indicated by the manufaciureri
Curves were constructed for the dependence of the degree of black-
ening of the film on the distance from the center of the beam, for
various exposures In the center of the field of Irradiation and for
Card 2/3
8/59 61/000/000/001/003
Action of y-irradiation from D217YD304
steel plates of various-thicknesses (50 - 426 mm). Exposure graphs
for the Agfa Texo-R film were constructed for several degrees of
blackening. Graphs were constructed for two sets of screens, used
respectively for the determination of small defects (pores, cracks
etc.) and for big casting defects. There are 13 figures, 4 tables
and 19 references: 7 Soviet-bloc and 12 non-Soviet,-bloc., The 4 most
recent references to the English-language publications read as fol-
lows: A.L. Paceq Bon-destructive testing, 12, 1954, no. 2, 21; R.
Widerdep Bon-destructive testingg 11, 1953p no. 4, 23; C.E. Juran,
Non-destructive testingg 11, 1953, no. 8, 25; K. Nelsonp Journal
Sci~ Instr., 33, 1956, no. 1.
Card 3/3
35012
B/596/61/000/000/002/003
D217/D304
AUTHORS: Buzynovp AoYeo; Yekhlakov, A-D,, Mochalov, M,D,, and
Fakidov, I.G.
TITLE: Experimental determination of the sensitivity of the
photo-radiographic method of non-destructive testing
by y-irradiation and by irradiation from a betatron
of 22 Mev.
SOURCE: Akademiya nauk SSSR. Institut fiziki metallov,~ Beta-
tronnaya gamma-defektoskopiya stali, Moscow, 1961,
30 - 35
TEXT% The authors experimented with the models of defects in the
form of cylindrical holes with fairly big diameters (10 mm), so
that the degree of diffuseness of the edge was considerably less
than the radius of the hole. The sensitivity was determined for de-
fects of various depths A Lp measured along the beam, and for va-
rious total thicknesses of irradiated plates L. The difference in
thickness between sound and faulty places was of relatively little
Card 1/3
T
S/596/61/000/000/002/003
Experimental determination of the D217/D304
stgnificance; owing to the small size of the defects~ It can, there-
forep be assumed that changes in the characteristic curves of the
film used would be insignifi-cant for variations in thicknes-, of OU3
order,, A graduated non-destructive testing machine was specially
made for the investigation. The apparatus was made in the form of
eight segments of a diBC# each differing from the preceding one in
thicknesn by 1 mm. (exce t for the first and eigthi which differed
from each other by 7 mmT An annular hole of radius 4 cm was dril-.
led through the eight segments; the center of the annulus coincided
with that of the disc, and the diameter of the hole was 10 mm. The
holes and steps were intended to simulate defects of definite di-
mensions, The apparatus was placed in front of the irradiated steel
plates. and orientated so that its center should coincide with the
axis of the betatron beam. Under these conditions, the defects re-
ceived y-rays of equal intensity, and shadow images thereof were
arranged along the circumference of the film. For exposure, an Agf-a
Texo-R film, 15 x 20 cm, was placed between the intensifying screms,
In order to minimize the dispersed background radiation, a lead
screen, 3 mm thick, was placed behind the rear fluorescenL sl-reen,
Card 2/3
B/596/61/000/000/002/003
Experimental determination of the D217/D304
and a lead screeng 25 mm thick? was placed behind the adaptor~ Steel
plates of various thicknesses were used as specimens for irradia-
tion. It was found that the relative sensitivity of the radiogra-
phic method of betatron testing increases with increase in thick-
ness of the steel plates. The dependence of the magnitude of the
smallest detectable defect on the thickness of the irradiated szeel
plates was established. The size of the smallest detectable defect
depends on the thickness and combination of intensifying screens.
There are 8 figures and 10 references: I Soviet-bloc and 9 non-,
Soviet-bloc. The 4 most recent references to the English-language
publications read as follows: H. Crainer, Non-destructive testing,
159 1957, no. 4, 234; R,, Widerdep Non-destructive testing, 129 1954
no. 4, 27; A.L. Pace, Non-destructive testing, 12, 1954p no. 20 21;
E.A, Burril, Non-destructive testing 119 1952, no. 2, 23,,
Card 3/3
DUBROVKV1, S.D., kand.tekhn nalik-, YEWLAKOV S.V. Rand. tekhri. mik;
MOSTINSKAYA, S.B., InZ110
Using electronic computers in the investigation of Qerzal
processes of polyethylene pipe welding. Vod. i san. tekh.
no.8s20-22 Ag 165. (MIRA 1802)
iv~
SHMLEV) F.A.1 KAGAN, D.F.;
Use of plastic pipes in rural construction. Vod. i san. tekh.
no.6:18-24 Je 161. (MBA 14:6)
(Water supply, Rural)
(Pipe, Plastic)
(milk-Transportation)
KAGAN, D.F., kand. tekhn.nauk; VVIYAKD!, D.4.; YL-MILAKOV, S.V., inzh.;
# eRMF.--r-e-d-.
IFTINKAs G.A., red.izd-va; KASIMOV,,-D-.T-a-.-7-
[Basic recommendations on the use of pressure pipes made of
low-density polyethylene (high pressure)] Oanovnye rekonendatsii
po primeneniiu napornykh trub iz polietilena nizkoi plotnosti
(vysokogo davleniia). Moskva, Gos. izd-vo lit-ry po stroit.,
arkhit. i stroit. materialam, 1961. 63 (MIIIA 15:4)
1. Akademiya stroitellstva i arkhitektury SSM. Institut sa-
nitarnoy tekhniki.
(Pipe,?'.astic) (Polyethylene)
KAGA119 D.F., kand. tekhn.nnuk; VAITYAKIN, D.E.., knnd, toklin. nmik;
LOBACM, P.V.j kand. tokhn. nauk; YEKHLAKOV S.V.0 inzh.;
PAVIM, L.D., inzh.; RUZ321, M.Ya.--in-zh.,-~.~A~ND,:-iIEYEVA, I.11.,
inzh.; SHMOVA, G.D.p inzh. Prinimali uchastiye:
SAPOZMIIKOV, M.M.y kand. tekhn. nauk; GM331G, A.K.p kand.
tokhn. nauk; RALINOVSKIY, R.B.., inzh.j STRASIMM, V.P.1
red. izd-va; KASBIOV, D.Ya.0 tokhn. red.
[Instructions for designing, installing~ operating, and
repairing interior water supply systems using vinyl plastic
pipes] Ukazaniia po 1)rooktirovnniiup montazhu, okfipluatatoli
i romontu vnutronnJ-kh vodoprovodov iz viniplactovykh trub.
Moskva., Gos. izd-vo lit-ry po stroit., erkhit. i stroit. ma-
terialam, 1961. 91 p. (MIRA 15:2)
1. Akademiya stroitel'stva. i arkhitektury SSSR. Institut sa-
nitarnoy tekhniki. 2. flauchno-iseledovatellskiy institut sa-
nitarnoy tekhaiki Akaderdi stroitellstva i arkhitektury S-SM
(for Kagan., Vanyakin, Lobachev,, Yekhlakov, Pavlov, Razinj,
Andreyeva, Shmakova.). 3. Leningradakiy nauchno-iseledovatellskiy
inatitut Akadorii kormunallnogo ),hozyaystva im. K.D.Pamfilava
(for Sapozhnikov). 4. Vsesoyuznyy nauchno-issledovatel'skjy in-
stitut gidrotekhnicheskikh i o-mitarno-tekhnicheakikh rabot
(for Gefding). 5. Institut po proyektirovaniyu zhilishchno-
grazhdanskogo stroitellstva v Mioskve (for Malinovskiy).
(Water pipes
. . . . . . . . . . . . . . .
~j
SHEUM.. F.A,.; VANYAKIN, D.M.; LOBACIIEV$ P.V.; YEKRUKOV, S.V.
Designing, assembling., using# and repairing Interior vater pipes
made of virql plastic. Sbor.trud.IIIIST noo,8s5-25 161.
(141RA 15:5)
(Pipe, Plastic)
SHEVFJ,EV.. F.A.; ULAN, D.P.;. YMIUKOV, S.V.; MIRONOV, A.A.
Analysis of procedures and types of jointa of polythene tubes.
Sbor.trud.faIST no.W&-63 161. (KOA 150)
(pipe" P18:3tio)
YEKHLAKOV, S,V,, inzh.
Contact welding of polyethylene pipe fittings into the bell. Vod.
i san. tekh. no.5:22-25 MY 163. (MM 1616)
(Pipe, Plastic-Welding)
P-
LOGAQV, Vasiliy Sergeyevich; YEHLAKOV, L, V., red.
[Gas pipelines made of vinyl plastics; installation and
operation] Viniplastavye gazoprovody; opyt montazha i
ekapluatatsii. Moskvap Izd-vo M-va kormun.khoz.RSFSR,
1963. 50 P. (MIRA 17:6).
-7
KAGAI'vS, D.;Y F E .V A. r.' J,. T. 1 lit
red
[Polye thyl er,e pirc-S in agr.cilature;
and assembling] Prli,:~,ttlena caurules laukoai.-mleciba;
projektesaria, ie~uiaisnna im moritam. Rlgl-~, I rtvl;Las
Valsts izd-ba 19'4. KV p.
.YEKHLAKOVA, LN., inzh.; KLETINSKIY, A.K., Inzh.
FiEperience with polyethylene pipe for carrying highly minerallived
water. Vod. i san. tekh. no.5:26-28 Vq 163. (KMA 16:6)
(Pipe, Plastic) (Mineral waters-4ransportation)
z
YEKHLAKOVA, N.G.; NOSKOV, V.G.
Use of stabilized soil in olty road building. Wauoh. trudy
AKKH no.24t38-49 164 (MIRA, 18:2)
y &_,k1i1_A-ka11A1 SiA' 137-58-5-8753
Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 5, p 4 (USSR)
AUTHORS: Plaks in, I. N. , Okolovich, A. M. , Figurkova, L. 1. , Yekhlakova,
S. A.
TITLE: A Comparative Analysis of the Procedures Employed for the
Separation of Copper-lead Concentrate at the Berezovskaya and
Zol:otushinskaya Plant (Sravnitcllnyy analiz usloviy raboty
tsiklov razdeleniya medno-svintsovogo kontsentrata na
Berezovskoy and Zolotushinskoy fabrikakh)
PERIODICAL: Byul. tsvetn. metallurgii, 1957, Nr 10. pp 13-19
ABSTRACT- A presentation of results of the sampling of selective flotation
of Cu-Zn (Cu-Pb?) concentrates at Zolotushinskaya and Berezovskaya
milling plants. A comparison of the data obtained revealed the
following facts. According to all criteria the progress of flota-
tion processes at the Berezovskaya plant is more stable. All
operations of selective flotation at the Berezovskaya plant are
carried out with considerably thicker pulp and the content of the
solid constituents is kept constant. The processes at the two
plants also differ greatly with regard to the amounts of de-
Card 1/2 pressant employed. The Zolotushinakaya plant operates with a
-V
N-M -
137-58-5-8753
A Comparative Analysis of the Procedures Employed (cont. )
higher cyanide content. The selection process at that plant proceeds at a
higher concentration of hydroxyl ion (with a pH greater than 10) without addi-
tion of alkaline reagents for the regulation of flotation; the introduction of soda
merel impairs the separation of minerals. At the Berezovskaya plant 100-
150 g~t of soda are introduced for this process while the pH remains within
the range of 9.
A.Sh.
1. Copper ores--Flotation
4. 0..-es--Frocessing
Card 2/2
2. Zinc ores--Flotation 3. Lead ores--Flotation
j
AIMITKOV, V.F.,- YEKIMENKO,,,,Y4.!
Use of compressed wood in the enterprises of White,Russia.
Mashinostroitell no.7:24-25 JI 165. (MIRA 18:7)
YEKIMENKO, IN.A.; AIIIIENKOV, V.F.
Compressed wood from the waste of veneer mnufacture (eores).
Der. prom. 14 no.7:10-11 il 165. (FJRA 19:1)
1. Otdel mekhaniki polimerov AN BSSR.
J,
z-4 ' P! ~n
YASNCFCL"S,-AYi~%$--k-.J-~%-.;-VIKIILYAYEVA
Nineteenth Interdepartmental conference on cathode electronics.
Radiotekh. I elektron 6 no.8:1407-1,4C8 Ag 61. (MIRA 14:7)
(Cathodes) (Electronics-Congresses)
M-2
K;
79321
~0'03 S/109/61/006/010/019/027
/37) Ii/246/D302
AUTHOR4: BaBalayeva~.N.Ya., Yekimenkop T.M.0 Yelinson, MOIC9
0~_,rnovq Do SaviT-eR`dYA-,-f-a-.Z_-sand Yasnopollskaya,
A. A.
TITLE: Investigating some properties of a cold m$gnesium-
-oxide cathode with *elf-enhancing emission
PERIODICAM Radiotekhnika i elektrot4ka, v. 69 no. 100 1961,
1728j- 1740
TEXT: The aim of this work was to study some pioerties of cold
magnesium oxide cathodes which were not investigated in technical
literature. In the experimental apparatus# cathodes made by cata-
phoresis and spraying were used, with varying thicknesses (6 - 35p
and 12-60 Ii, respectively). They both had high plWusness (80 % of
the -;otal 'Volume). They had nickel substrate of the tl)pe NM (mag-
nesium added) and platinized nickel. The instrument used was a
diode with tubular cathode of oval cross-section and a mesh-anode.
The starter used was a thin (100 p tungsten filament. The ca-
Card l/P
29321
B/109/61/006/010/019/027
Investigating some properties ... D246/D302
thode was activated bb~baking it for 10 min. at 850 0C. Number of
specimens approx; 400 Their volt-ampere characteristics co%fespon-
ded to those in he 1 t erature. a) To investigate the effect of
oxygeng specimens were oxidized in cycles, at 8500C in atmosphere,
starting at 0.1 mm of Hg pressure. Then the max. stable currento 1e
was measured with the corresponding potential differenceo Ua, bet-
ween anode and cathode. Ie/Ua was then taken as an approximate cr~-
terion of the qualitjlof the cathode. Fig. 4 shows Ie/Ua as a fur-
tion of the number of cycles (N) for cataphoresis cathodes. Fig. 5
- the same for sprayed cathodes. The same types of curves were ob-
tained for platinized nickel sut&rate (Ft layer rv50 p thick)i
which proves that NiO layer does not play any significant role in
the mechanism of emission. b) Investigation of temperature-depen-
dence showed that there are both reversible and irreversible chan-
ges of the emission. If the cathode is heated higher than 4000C,
irreversible processes start. It was shown that heating up the ?"'g0
layer is responsible for limiting current density# hencep Improve-
ment by its cooling. c) The time dependence of the starting pro-
cess was also investigated* It was shown that it is sufficient to
Card 216
Inveliti*ghting some properties o..
S/109/61/006/010/019/027
D246/D302
illuminate the cathode to start the cold emission. On the other
harid the decre Se of the incandescence of the starter olectrorle.
greatly increas( ., the starting time. d) The influence of the pre-
sence of a magnLt..c field is shown in Fig. 14. e) The increase in
thickness (up to 30 - 40 11) of sprayed cathodes imprms their emit-
tive properties. The opposite is true for cataphoresis cathodes,
but comes from single centers, situated in cracks for thick ones.
g) By positively charging up the MgO layer, it was impossible to
start the emission# thus it is necessary to introduce a small
amount of free electrons for starting. At the end the authors dis-
;o L
,cuss the various hypotheses proposed in technical literature A x_
plain the effect and state they intend to test them in their future
experiments. There are 14 figures and 11 references: 6 Soviet-bloc
and 5 non-Soviet-bloc. The references to the 4 most recent English-
language publications read as follows: D. Dobischek, Electronics
and Com-,ins, 7, 5, 26, 1959; A.M. Skellett, B.G. Firth, D.W. Mayer,
Proc. 47, 10, 1704, 1959; Y. Mizushimap Y. Igarashi, T.
Imai, J. Phys. Soc. Japanp 15, 4, 729p 1960; H.N. Daglish, Proc. I.
E.E., 108B, 37', 103, 1961.
SUBMITTED: May 23, 1961
Card 3/0
L 3991-66 1,'L,0 ktilto-11 kK)
ACC NR, AP50i565.5L ii UR/0080/65/038/010/2222/2226
JDMW/JG/AT/WH
~537.363+546~61+546.831
AUT 110R, It'
T. H.; Zhivulina, L. IA'~
TITLE: Preparation of thin zirconium carbide Is ers by electrophoresis
~8OURCEI. Zhurnal prikladnoy khimii, v. 38, no. 10, 1965, 2222-2226
U.
TOPIC TAGS!. zirconium carbide, refractory coating%;'~lectroEhoresia
ABSTRACT: A study. claimed to be the first of its kind,"has been mao of depositing
thin (80-1000 ZrC layers on metallic substrates by electrophoresisRof a ZrC suspen-
in alcohol. Two problems were studied: 1) preparationof-st-atile ZrC suspensionE;
,and 2) establishment of the optimum depositing conditions, Study of the staHlity'of
;organic ZrC suspensions resulted in the selection of ethyl alcohol as the dispersive
medium and in the addition'of 0.5% solution of HFC14 in absolute ethyl alcohol as
generator of the electric charge on the particle surface. Suspensions of the followirg
composition were selected for the experiments: absolute alcohol, 80 ml; ZrC powder
with 2-5 p particle size, 20 g; 0.5% IIFC14 solution in-absolute alcohol, 0.5-2 ml.
Experimental study of electrophoresis resulted in the determination of the dependence
of the coating thickness and 'coating density Qn time, the electrokinctic- potential
(E) of the particles, and cell potential. From these data curves were plotted which
made it possible to select conditions for depositing ZrC coatings of the desired
quality. Orig. art. has: 8 figures. (Bol
L_Sard
if
t Mal I WO
-Izm
IZ N -Q.- 9V4--
mArilitn (Mb-dr9tary f Cie tAA StuAv of Wafix of &grintiTturaT VA-chtme PartO -f tha
ROZINA, L.A.; VAYNSHTAYN, O.L., professor, otyetetvanW rodaktor; p~imov,
A.A., redaktor; KUZMSOV, S.S., professor. rodaktor
Sergai Pavlovich Kravkov (1873-4938). Bibliogr. soot* L.A.Iozinoi.
leaingrad, 1949. 34 p. (KLRA 10:1)
1. Leningrad. Nauchnaya biblioteka imeni X.Gorlkogo.
(Xravkov, Sergei Pavlovich. 1873-1938)
YIKIHOV, A6A.
D.I.Mandeleav's vork in the petrels= industry. Vost.Lsx.un.
10 no-8:137-151 Ag 155. (KTRA 9:1)
(Mendeleev, Dmitrii Ivanivich, 1834-1907)
LEVIN, Mikhail Izrailovich- TEXIMDV, A.A., kandidat takhnichaskikh nauk,
nauchnyy rodaktor.
[Supplying industry with material and equipment] Materiallno-
takhnichaskoe snabzhAnie prodpriiatiia. Leningrad, 1956. 44 p.
(Hkonomika promyshlennogo prodpritatita; rokomendatelInyi
ukazatel1literatury, no-7). (KLRA 10: 2)
(Bibliograpby-Industrial management)
MKIMOV9 ApAs (Leningrad).
Ietter krom B.I. Mendeleev to V.I. lovalevskii. Top. Jet. est. J
tekh. no.y:194-196 157. (MIRA 11:1)
(Mendeleev, Dmitrii Ivanovich, 1834-1907)
(Kovalevskii, Vladimir Ivanovich)
AUTHOR: Yekimov, A. A. 54-1-14,~ 17
TITLE: 11. 1. Voskoboynikov and the First Oil Refinery in Baku
(11. 1. Voskoboynikov i pervyy Bakinskiy neftezavod),
From the History of Oil Refining and the Development of
Petrochemistry in Russia in the Thirties of the 19th Century
(Iz istorii neftepererabotki i razvitiya nauki o nefti v
Rossii v 30-kh godakh XIX v.)
PERIODICAL: Vestnik Leningradskogo Universiteta Seriya FizZd i
Khimi i (Nr 1), 1958, Nr 4,-
ABSTRACT: The article is based on unpublished documents and describes
the present stage of research work and the utilization of
Baku oil and petroleum products in the thirties of the 19th
century. The article begino with the biography of minine
en-ineer N. I. Voskoboynikov: he was the first to draw the
attention of Russia's governmental institutions to the
prospects of a more intense utilization of Baku oil, and
began oil refining in 1834-1838- In the present article data
are given concerning the investigation of the chemical
Card 1/2 composition of oil (G. H. Hess, Member All) an well as a
N. I. Vookoboynikov and the First Oil Refinery in Baku. 54-1-14,,17'
From the History of 04.1 Refinini; and the Deyelopment of ietro-
chemistry in Russia in the Thirties of the 19th Century
technical description of the first Baku oil refinery built
according to N. I. Vookoboynikov's project in the villa6e of
Balakhany (the use of natural gas for heatinE; the still, the
designs of the still, the condenser and the receiver, the
plant lightinG oyster, etc.). The article gives the de3ign3
of the plant, which were found in the depository of the
Leningrad Central State Historical Archives. There are 3
figures and 15 references, all of which are Slavic.
SUBMITTED: December 23, 1956
AVAILABLE: Library of Congress
1. Petroleum-Production-Development
YMKIMOV, A.A.
I. Voskoboinikov Pnd the f irst oil ref iner7 In Baku (from the his torj-
of oil refining And development of petroleum science In Russia in the
1930's [with summary in English) ). Vest.14U 13, no.4:1111-151
(HMA 11:4)
OnIni-Petroleum-Refining)
YMMV, A.A
------------
Outline of the ownomica of the Carpathian oil-bearing regicr.,
Izv. vyg. ucheb. 2av.1 neftl i gaz 4 noAM2 161. ~
(MIRA 'i4212)
(Carpathian Kountain region-Petroleum industry)
IEKIMDVO AtAo--,-. ; I -
j
... :
-1
rages from the hietor7 of drilLing for oil in the Cau"zus from
the 1840lis through the 18601se Izvovys*uchebazave; neft'
4 no*7&124-127 961. (U:214310)
(Caucamm-Boring)
YEKIMOV, A.A.
-------------
Refining Rumanian oil in refineries of southwestern Russia
in the 1850's and 60's. Izv. vys. ucheb. zav.; neftt i gaz
4 no.llsll3-117 161. (MIRA l7s2)
'z I.-
ACCESSION NR: AT4012206 S/2797/63/023/002/0118/0151
AUTHOR: Yekimov, A. A.
TITLE: New principles for the development of a physical theory
SOURCE: Pulkovo. Astron. observ. Izv6stiya, v. 23, no, 2 (173), 19630 118-151
TOPIC TAGS: special theory of relativity, theory of relativity, Einstein theory
of relativity, general theory of relativity, physical theory, Lorentz traaaforma-
tion, conservation of energy, conservation of momentum, curvature of space,
Newton second law, gravitating mass, de Broglie wave
ABSTRACT: Energy, momentum and moment of inertia serve as a basis for physical
theories. These are proposed as primary physical concepts and other physical
values are-expresoad through them. For example, velocity is defined as the ratio
of the momentum of a moving material.object to its total energy. Velocity there-
by is expressed as a physical concept not dependent on time and space. All.tho
tasic formulas of the special theory of relativity, including the Lorentz tran3-.
formation, are derived on the basis of the law of conservation of energy and the
lav of conservation of momentum, taking into account Einstein's principle of
relativity. FTom these thrie general principles it is found-.'-that the speed of
light is independent of the motion of the source and it.therefore is considered
Card 1/3
ACCESSION NR: AT4012206
that due-to more fundamental lava of nature it cannot beused as the basis for the
development of a general physical thoory. Moreover, ii the postulate of constant
speed of light is set aside the problem of the curvature,of space around,gravitat-
1 ing masses is left open. The concept of m~ass is introduced by using Newton's
second law as a definition of mass as a measure of the;,inertia of energy. All the
c a
main conclusions of th general theory of relativity ",be obt ined (without
a9suming curvature of :Pace) on the basis of the laws of-conservation of energy,
momentum and moment of moncatum and by using Galileogelprinciple (in 4 broader
sense) that any material object (including photons) in a:gravitational field is
subjected to identical acceleration. The value obtained for the gravitational
red shift in the first approximation is tho.same as that given by Einstein's
theory of relativity. The values found for the motion of the perihelion of
Mercury and the deflection of light in the solar gravity field differ somewhat
from those of Einstein. Yor the former 38".2 is obtained (Einstein - 43".0) and
the latter 2".04 (Einstein - 111.75). Only.those, phenomena which are dealt with
in Einstein's theory of relativity are considered on the baiks of the new princi-
ples. These now principles apparen;'tly"allow for further development. Por ex-
ample, by quantization of the moment of momentum it is possible to derive an ox-
prossion for do Broglie waves. Orig. art. has: 107 for=las, I table And 7
r
Card
A-CCE"S'S'IO'N Na: AT4012206
ASSOCIATION: GLAVX= ASTRONOMICHESKM OBSERVATORM, PULKOVO (Main Astronomical
Observatory)
SMITM; 00 DATE ACQ: 2711464 ENCL: 00
SUB CODE: PH, AS NO REF'SOV: 605 6T'ECM*: 002
3 M(JV A
y
YEKIMOVt A.A.
D.I. Mendeleev and the problem of the oil and gas occurrences in
D -I
the northern and eastorn parts (Volga-Ural) of Famsia. Izv 1170,
the
uoheb. zav.; neft' gaz 6 no.ltll'7-.120 '63. bl[RA 17-.10)
uoh
MININ, Yuriy Vladimirovich, red.;
KARZIVI G.A.; red.; TANISIXVIR.I.p red.; FILDIONOVA,
D.S.P red.
[For an economic use of fuel and lubrication materialol
Za ekonomiiu goriuchego i smazoehnykh materialov.
Arkhangel'sk, Arkhangel'skoe knizlmoe izd-vo, 1963. 24 p.
(MIRA 1715)
SOV/124-58-11-12942
T'ranslation from: Referativnyy zhurnal, Mekhanika, 1958, Nr 11, p 154 (USSR)
AUTHORS: Gurevich, M.A., Yekimov, G. K.
TITLE: An Instrument fd'r-&L-M-6~asuremenCof the Total-head Distribution
Profile in Fluid Jets (Pribor dlya izmereniya profilya napora v
zhidkikh struyakh)
PERIODICAL: Nauchno-tekhn. inform. byul. Leningr. politekhn.in-t, 1957,
Nr 12, pp 49-59
ABSTRACT: A presentation of the calculation and description of the desi8n,
the electric circuitry, and test results of an instrument proposed
by L. G. Shikhov (Leningr. politekhn. in-t, Graduate Thesis, 1954;
unpublished). The instrument operates on the principle of the
capacitive manometer and consists of a stepped cylinder filled
with water. The wide portion of the cylinder is covered with the
diaphragm of a capacitive transducer; a capillary tube ("needle")
is exposed to the total-head pressure. The electric circuitry
differs from the usual type employed in capacitive manometers
by the presence of a device which excludes the capacity of the
Card 1/3 connecting hose from the resonance network. The authors point
.777,
SOV/124-58-11-12942
A:n Instrument for the Measurement of the Total-head Distribution (cont. )
out that the natural vibration frequency (NVF) of the sensor of the instrument is
signifi'cantly (by an order of 10Z) lower than the NVF of the diaphragm, whereupon
they make certain assumptions and derive an equation for the approximate com-
putation of the NVF and the logarithmic damping decrement and propose a calcula-
tion procedure for the instrument. Following are the contents and results of the
tests:-1. A determination of the NVF and of the logarithmic damping decrement
was performed for several sensors (results are adduced for four of them) which
differ in the dimensions of the needles and diaphragms; these determinations were
accomplished by means of oscillographic recordings of the total head of a water
je't which was chopped by a rotating disk. Within the limits of accuracy of the
measurements a proportional*ity was observed between the experimental and the
calculated values of the frequency values (the formulas are accurate except for a
constant factor), 2. Measurements were made of the total-head profile in jets of
liquids of different viscosity (water, castor oil, oleogel of aluminum naphthanate)
within a broad speed range (3-80 m/sec) by means of the oscillographic recording
of the readin8s of a sensor moving strictly along a diameter of the jet, with simul-
taneous pin-pointing of its coordinates. A verification was accomplished by means
of a comparison of the mean velocity computed from the discharge and from the
total-head profile, and also by the construction of the total-head profile by a
Card 2/3
I SOV/124-58-11-12942
Ah Instrument for the Measurement of the Total-head Distribution (cont. )
different method, namely, the introduction into the liquid of a finely dispersed
glittering powder and the stroboscopic observation of the displacement of
periodically illuminated particles thereof. The data and graphs adduced testify
to the fairly close agreement of the results. The highest NVF (1500-1800 cps)
is indicated for a sensor with a needle diameter of I mm, a Z-mm thickness of
the steel diaphragm, and a diameter of the unconstricted part of 16 mm.
A. A. Rabinerson
Card 3/3
POMERANTSEVI V.V.; YEKIMDVI G.K.
---------------------
Approximate computation methods for the conveyance of nongrainy
materials along feed chutes. Inzh.-fiz.zhur. 5 no.l2s59-64 D
162. , (KrRA 16s2)
1. Politekhnicheski7 institut imeni M.I.Kalinina., Leningrad,
(Fuel-Transportation)
POWTANTSEV, V.V.J, doktor tokhn. nauk, prof.; YEKIMV, G.K., inzh.
Cascade trough-type fuel hoses. Energomashinostroenle
9 no.3:23-25 14r'63. ~ ~ It ()UFA 170)
N
POME-RATNSINO V.V.p doktor tekhn. nauk, prof.; 14ARGULIS, S.A., inzh.;
YEKIK)V G.K., inzh.; SOSENSKIY, A.I., inzh.
Operation of the V.V. Pomerantsev high-speed TsKTI Curnace on
waste wood. Energomashinostroenle 11 no-5:7-10 My 165.
(MIRA 18:6)
YEMOV, G.P., inzh.
Urgent problemn of improving the quality of drain pip-ea. Strol.
mat. no.11:12 H 165. (MIRA 18:12)
y"I'01-101,13 it. Fl.
Or!~anizntsi-,,n Ir-Ae 1 Tpbac'ne7o "e3ta Kuzneljtt 3uobodnoy Kovki.---"fek~xnlzptsi,va
Kuznechnykh Operafsii. Pod. Red. P.V. Kaumevs. L, 1954 l2s. S Chert; 7 L. Chert.
;?I SM. (Vspso,,.-uz. f)-vo Po Rpsprostl-nnpnlpj Polir. I N uch. ZnFkniv. Leningr.
Dom Nauch-Tokhn Propagandy. K6. Kuznetsov I ")htwnpovsh+i,:ai LO'NITTO.", nsl,.
B-cliks Kuznqtsa-ncv,-. tore. Vyp. 1"). 6.250 EF2. I r. 51:.-(54-552~)9) P
621.73:658.5+611.71.0025
SO: Knizhnaya, Letopl-s, Vol. 1, 1955
"(F-KMOV, V~ - YN -
UMITET. P.V.; TIKIMOV, K-X.; GArOV, B.I., inzhener, retsenzent; OBOLDUYNT,
G.T., iMOUK~-W~kctor; PUISXAYAO R.G.0 tekhnichookly re4aktor
I
[Rachanization of laborious operations in forge shops] Hakhanizatelia
trudoemkikh operatsil kuznechnogo proizvodetva. Moskva, Goo. nauchno-
tekhn. Izd-vo mashinostroit. i suAostroit. lit-ry. 1954. 46 p.
(Porging) (HM 7.#11)
VL-- K)lwll
137-58-3-5081
Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 3, p 88 (USSR)
AUTHORS: Yekimov, K. K., Ginzburg, Z. M.
TITLE: Mechanization of Press-forging Operations in Leningrad Plants
(Opyt leningradskikh zavodov po mekhanizatsii kuznechno-
shtampovochnykh rabot)
PERIODICAL: V sb.: Kuznechno-shtampovochn-proiz-vo- Leningrad,
Lenizdat, 1957, pp 112-125
ABSTRACT. A description of equipment and apparatus, and an account of
improvements in their design, introduced in the mechanization
of a number of press-forging operations at Leningrad plants.
The transfer of metal from its storage place to the appropriate
station is accomplished by means of a railroad crane. which
had been converted from steam to electrical operation. The
operation of cutting the stock is completely mechanized by the
employment of track-type slat conveyors and roller-type con-
veyors. The design of improved gripping and manipulating de-
vices is presented together with a description of a system in
which the drop.-hammer and the rotary crane are controlled
Card I /Z jointly. The author also shows the design of a rocking mono-
Y--
13~7- 58-3- 5081
Mechanization of Press-forging Operations in Leningrad Plants
rail with a pneumatic lifter and describes the application and design of the
following equipment: conveyors for the drop-hammer stand; a ground-type
manipulator and a tilter operating in conjunction with the forging hammer:
an electrically powered tilter; an overhead clamp-type holder; revolving
plates and a manipulator operating in conjunction with the forging presses.
The modernization of control systems for hydraulic, steam- hydraulic, and
frictional presses is examined.
P. S.
Cara 2112
25(l);18(5) PHASE I BOOK EXPLOITATION SOV/3382
Yekimov, Konstantin-Konstantinovich, Vladimir Dmitriyevich Makrinov,
dff d_-Ge orgi-y-1-vanovich-Sukha--nov
Izgotovleniye pokovok pod kovochny74i molotami i pressami (Hammer
and Press Forging) Moscow, Mashgiz, 1958. 120 p. (Series:
Biblioteohka kuznotsa-riovatora, vyp. 4) - 7,000 copies printed.
Reviewer: B. 0. Bange, Engineer; Ed. (Title page): P. V. Kawnev,
Candidate of Technical Sciences, Docent; Ed. (Inside book): G. T.
Obolduyev, Engineer; Ed. of Publishing House: 1. A. Borodulina;
-Tech. Ede; 0. V. Speranskaya; Managing Ed, for Literature on
Machinery Manufacturing (Leningrad Division, Mashgiz): Ye. P.
Naumov) Engineer.
PURPOSE: This book is intended
personnel of forge shops- and
students.
for engineering and technical
can also be used by engineering
Card 1/5
Hammer and Press Forging SOV/3302
COVERAOS.- Thia bookj one of a series of eight books-on the subjeot,
presents information on methods of drop and press forging in-
oluding examples of advanced methods. Considerable attention
in paid to the problem of the mechanization of forging operations
and organization of around drop hammers and presses.
The firat and seuond chapters were written by G. I. Sukhanov, thp
third and fifth by K. K. Yekinov, and the fourth by V. D.Makrinov.
No porsonalition are mentioned, There are 14 references., all
Soviet.
TABLE OF CONTENTS:
Preface
Oh# 1. Information on the Development of Drop-s.)rging
Prooessos (a. 1. Sukhanov)
1, Solooting the nize of a blank, aooording to the
forging operation and technical oonditions
2, Soloction of the drop hammer
Card 2/5
3
5
5
11
gammer and Press gorging SOV/3382
3. Drop hammer dies 11 3
4. Temperature ranges for forging and oooling regimes
depending on brand of steel
5. Characteristic features of forging nonferrous metals
avid alloys 15
C~, II. Examples of Expedient Drop-V~rging Processes
(G. I. Sukhanov) 22
6. Making forgings with reduced allowances and laps 23
7. Production of ferrous metal forgings 35
8. Production of forgings using gas cutting and
electric welding 39
Ch. II I. Mechanizatinn of Drop-forging Operations
(K. K. Yekimov) 47
9. Conveying equipment and devices for charging
and removing metal from furnaces and delivering
it to hammer dies 47
Card 3/5
Hammer and Press Forging SOV/3382
10. Special mechanisms and devices for drop forging 54
11. Various devices for the mechanization of work
of a forging shop'gang. 63
12, Planning eauipment f or -the wovkplac< and organ-
Izing the work 66
Ch. IV. Open-die Press Forging (V. D. Makrinov) 70
13- Working principles of a h~draulla press and
determination of the power required 70
14. Shape of ingots for efficient forging 72
15. Degree of reduction 'by forging 77
16. Shape and size of working surfaceo of hammer
dies 8o
17- Measuring devices for a forging press 85
18. Modern forging process for some standard forgings go
19. Cooling press forgings 102
Ch. V. Mechanization of Press-forging Operations
(K. K. Yekimov) 104
Card 4/ 5'
Hammer and Press Forging SOV/3382
20. Conveying equipment and devices in press-forging
shops
21. Mechanisms and equipment for press forging
22, Examples of planning equipment and organizing
work in press-forging shops
Bibliography
AVAILABLE: Library of Congress
Card 5/5
A04
108
118
122
VKIMUO
4-27-6o
SOV/1 37- 59-3-6935
Translation from: Referativnyy zhurnal . Metallurgiya, 1959, Nr 3, p 287 (USSR)
AUTHOR: Yekimov, K. K.
I'ITLE: A New Design of a Crankshaft-driven Forging Press With Electro-
hydraulic Regulation of the Base (Novaya konstruktsiya kovoclinogo
krivoshipnogo pressa s elektrogidravlicheskim upravleniyem nizhnego
stola)
PERIODICAL: V sb.: Novoye v kuznechno-shtampovochn. tsekhakh Leningrada
Leningrad, 1958, pp 109-119
ABSTRACT: Based on the experience of combined forging in two 40-ton, crankshaft-
driven presses with a hydraulically operated base, a 200-ton
crankshaft- driven press was designed and manufactured at the Barnaul
plant. The machine consists of a crankshaft mechanism, connected
through a drive to the main motor, and a hydraulically powered ad-
justable base. Although it is free to travel and raise and lower the
billet along the vertical columns of the press housing, the base d o (-- 5
not participate in the forging operations other than by providing a
firm support whenever the two dies are pressed together. The slider
Card 1/2 is powered from an oscillating crankshaft by means of a rocker arm
A New Design of a Crankshaft -driven Forging Press (cont. )
SOV/137-59-3-6935
which transmits the force from the connecting rod of the crankshaft mechanism.
This type of drive enhances the efficiency of the machine by reducing friction losses.
Technical specifications, the kinematic system employed, and the over-all view of
the press are given. The press was installed at the Kirov plant, where it is now in
operation.
A- M.
Card 2/2
ASHKIIIAZI, Aleksandr Llvovich; YEKIMOV. KqK* p inch# p retaenzent;
REZ111KOVICH, X.A., kand.-=MM-.Tfflft',"ftd.; VARKOVETSKATA, A.I..
red.izd-va; SPZWSKAYA, O.Y., takhn.red.
(Potentialities of steam-powered equipmant in proes-forge shops]
Razervy parosilovogo oborudovaniia Iniznoehno-pressovykh teekhov.
Moskva, Gos.nauchno-teklm.izd-vo mashinostroit.lit-ry, 1959.
225 p. (MIRA 12:12)
(Forging machinery) (Steen engines)
IVANDV, A.P.; LISITSY11, V.D-LJRP& ~-~
Scientific conference on modernization and operation of forging
and prqpsing muchiner7 In Leningrad. Kuz.-Ghtav,prOizT- I n0-3:
47-48 VV 159. , (MIRA 12:10)
(Forging machineu) (Power presses)
PHASE I BOOK EYWITATION SOV/4381
Yekimov, Konstantin Konstantinovich
Mekhanizatsiya i avtomatizatsiya kunechno-ahtampovochnogo proizvodstva (Mechani-
zation and Automation of Forging and Stamping) Moscow, Mashgiz, 1960. 161 p.
4p5OO copies printed.
Reviewert P.M. Pavlovich, Engineer; Ed.t A.P. Atroshenko, Docent, Candidate of
Technical Sciences; Ed. of Publishing Houset M.A. Chfas; Tech. Ed.t O.V.
Speranskaya; Managing Ed. for Literature on Maohine-Building Technology (Lenin-
grad Department, Mashgiz)i Ye.P. Naumov.
PURPOSEt This book is intended for engineering and technical workers engaged in
forging and stamping.
COVERAGEt The book discusses problems involved in mechanization and automation of
forging and stamping shops. The mechanization experience gained in advanced
plants is also diSCUBsed. Recommendations are made and deocriptions of some of
the most effective devices and mechanisms which are being introduced in these
plants are given. No personalities are mentioned. There are 13 references., all
Soviet.
Card-l/+-
PHASE I BOOK EXPLOITATIOU SOV/5658
Ivanov, Aleksandr Petrovich, Candidate of Technical Sciences, and
Viktor Dmitriyovich Lisitsyn, Candidate of Technical Sciences,
cats.
Modernizataiya. kuzncchno-shtampovochnoeo oborudovanlya (Moderni-
zation of Die-Forging Equipment) Moscow, Mashgiz, 1961. 226 p.
Errata clip inserted. 10,000 copies printed.
Reviewer: V. Ye. Nedorezov, Candidate of Technical Sciences; FA.
of Publishing House: T. L. I-eykina; Tech. Ed.; A. A. Bardina;
Managing Ed. for Literature on Machine-Building Technology
(Leningrad Departmont,,Machgiz): :Ye. P. Naumov, Engineer.
PURPOSEt This book is intended for foremen, machinists, designers,
and process engineers concerned with the modernization and do-
signing of die-forging equipment. It may also be used by students
at schools of higher education.
COVERAGE: The book contains mLt6ria. presented at the Conference
Card 1/8
Modernization of Die-Forging Equipment 30V/5658
on Problems In the Modernization and Operation or Die-Forging
Equipment, bold In November 1958 In Leningrad. The Conference
was called by Leningradakly Sovet narodnogo kbozyayatva, saktalya
obrabbtki metallov davlenlyem Leningradskogo oblustnogo pravleniya
NTO Maubprom (Leningrad Council or the National Economy, Section
of 1-11atal Pressworking at the Leningrad Oblast Board of the Sci-
entific and Technical Society of the Machine Industry) and Lon-
Ingradskly makhanicheakly institut (Leningrad Mochan1cal Engi-
neering Institute). Actual problems In the modernization, oper-
ation, and repair of die-forging equipment are described. Ana-
lynes are provided for problems Involvad in :the mechanization and
automation of dio-forgIng and stamping operations. Also In-
oluded are practical data to bo used in 'he modernization of equip-
ment. No peraonalities are mentioned. there are 59 references:
56 Soviet, 2 German,'and 1 English.
TABLE OF CONTENTS:
Foreword 3
Card 2/8
Modernization of Die-Forging Equipment SOV/~658
Ch. 1. General Problems In the Modernization of Die-Forging
Equipment 5
1. Basic trends in the modernization of die-forging equipment
(V. B. Gordin, Candidate of TeeNnical Sciences) 5
2. The requAiremente for dle;forgln~ equipment (A. P. Ivanov,
Candidate of Technical 8 iences 8
Ch. U. Modernization of Forging and Die-Forging Steam Hammers 18
1. Hariners and their role in modern die-forging equipment
(Z, M. Gingburg, Engineer) 18
2. The modernization of stoam-distributing devices of hammers
(A. L. Ashkinazi, Candidate of Technical Sciences, and
1 -1 -16zhinskiy, Engineer) 19
3. pl;de;nization of ha=er control and drive (A. L.
Ashkinazi, Z. I. Ginzbtirg, and K. X. Yekimo~-,--Ynginecr) 26
4. 96de-rnfiatlon and repair of foun--da-lTo-no dhd-anvil blocks
of hammers (Yu. V. Belyayev, Candidate of Technical Sol-
ences, Z. M. G~nzburg, and I. I. Kozhinskiy) 31
Card 3A
Modernization of Die-Forging Equipment SOV/5658
5. Modernization and repair of hammer frames and guides, (V, A,
Zhivchikov, Engineer, and 1. 1. Kozhinskly) 38
6. Kodernization and repair or hammer cylindern and piston
rods (Z. M. Ginzburg. V. A. Zhlvchikov I. I. Kozhinakly,
A. M. Kaznacheyev, and M. V. Tilinaklyl 41
7. Modernization and repair of rams ( 1. 1. rozhintskly) 50
8. Lubrication of hammers (I. A. Gorbunov, I. I. Kozhinskly,
and A. I. Kaznacheyev) J 53
Ch. I II. Mcdernization of Steam-Hydraulic and Hydraulic Presses 56
I.- Modern trends and the outlook for modernization of by-
draulle presses (A. L. Ashkinazi and V. B. Gordin) 56
2. The ways for decreasing the weight and cvrjrall dimensions
of hydraulicIpresses (Yu. P. Xyzlko, Engineer) 58
3. Modernization of steam-bydraulic NUnited" 2,000-ton for$-
ing press (B. F. Vasillyev and V. A, Yelezov, Engineers) 63
4. Automation of steam-hydraulic OUnited" presses (S. P.
Moiseyev, Engineer) 71
Card 4/8
Modernization of Die-Forging Equipment SOV/5658
Ch. IV. Modernization of Mechanical Crankshaft Presses 78
1. Basic methods for the complete modernization of crankshaft
presses (M. A. Ooncharonko, Engineer, and V. D, Lisitsyn,
Candidate of Technical Sciences) 78
2. Modernization of the drives of mechanical presses (A. P.
Ivanov and V. B. Oordin, Candidates of Technical Sciences) 87
3. Modernization of on aging and disengaging mechanisms of
crankshaft presses T A. Zhivehikov, A. M. Kaznacheyev,.
and V. D. Lisitsyn) 89
4. Moddrnizatinn of control system or mechanical presses
(V. D. Lisitsyn.) 100
5. Modernizatiort and repair of individual subassemblies and
parts of mechanical presses (I. I. Kozhinskly, and V. D.
U.91tayn) 108
6. Modernization of mechanical pressesfor the purpose of
protecting them against overloading (Yu, M, Batikovx En-
gineer), 115
,T. Safety technique in the modernization of mechanical
presses (V. D. Lisitsyn)' 229
Card WO
MOW-
Modernization of Die-Forging Equipment SOV/5658
Ch. V. Modernization of Horizontal-Forging Machines (Upoetters),
Percussion Presses, and Sher~rs 133
1. Modernization of horizontal-forging machines (V. A.
Zhivchikov and 1. 1. Kozhinakiy) 133
2. Modernization of power-screw percussion presses
Kozhinakly, and A. M. Kaznacheyevl 141
3. Modernization of eccentric shears for blanking operations
(I. I. Kozbinskiy and V. N. Cherkasov, Engineer) 144
Ch. VI. Mechanization of Forging and Hot Die-Forging Operations
in the Modernization of Hammers and IV-draulic Presses 149
1. Mechanisms and equIpment for foWing and die forging on
ha=era %'K.,.T._YekJmo EnSInver) 1h9
2. Mechania ~i-&ffd-WqU iv-1 orging (K. Ks Yeklmov,
n pment for press-f
and S. P. Moiseyev) 155
Ch__VII. Mechanization and Automation of Stamping Operation3 in
The Modernization of Cmkshaft Presses 16o
Card 6/8
Modernization of Die-Forging Equipment SOV/5658
1. Trend3 in application of mechanizing and automatizing devices
in the modernization of presses (V. D. Lialtayn and M, A.
Goncharonko) lFO
2. Mechanical devices for feeding band and strip stock (M. A.
Gutnik, Engineer, V. D. Lialtayn, and Ye. S. Hazaronko,
Engineer) 163
3. Mechanical devices for feeding piece-blanks (V. D.
Licitsyn,and Ye. S. Nazarenko) 177
4. Fully automated (production] lines (E. E. Roytershteyn,
Engineer) 186
Ch. VIII. Experimental Investigation of Die-Porging Equipment 191
1. Oeneral sequence for the calculation and design of ma-
chinos in the modernization of die-forging equipment
(A, P. Ivanov) 191
2. )Basic problems of the drive-system dynamics and of the
automatic feed of stock in the modernization of presses
(A. P. Ivanov and Ye. S. Nazarenko) 193
Card T/8
Modernization of Die-ForgIng Equipment SOV/5658
3. Mothods and means for the experimental investigation of
die-forging equipment (V. I. Zaytaev and M. P. Pavlov,
Candidates of Technical Sciences) 203
Bibliography 223
AVAILABLE, Libraryof Congress
V*,0r. 47 no'll
78-79 Ja 164. 18.7)
PIOMOVSKIY, S.L., inzh.; YXKINDY, L.S., tekhnlk
Utilizing the steam sucked out of the intermediate chambers
of the end packingee Znergetika 8 no.3tl2-13 Mr 160.
(MIR& 13:6)
(Turbines)
J-1
_MLIMOV, M.A.; SOSEDOV) Ispe
Prevention of burns from electrolyte in workers ir. the minirg
industry. Gig. i van. 26 no.5t58-60 My 161. (MIRA 15:4)
(BURNS AND SCALDS) (ELECTROLYT?Z)
92-58-5-9/30
AUTHOR: Yekimov, M. V. Chief of PTO S14J No. 4 Tatneftepramst'~
TIM: The Erection of Storage Tanks DW-It of Large Fxv~fabrlcatt!
Sections (Krupnoblochnyy montazh rezervuaxov)
PERIODICAL: ReftYanik, 1958.. Nr 5,, Pp 10-11 (LMSR)
ABSTRACT: The modern construction engineering eaployed in oil fields I-q
characterized by the a-tandard. procedure of assembling large
prefabricated sections at the construntion site. Oil fields of
the Tatar RepubU-: started to follav this procedure in 2.955, and
the SMU (Construction and Installation Adrdinistration) 5--. 4
used this method to aw=hl-- mwoma mWbUb uma:k &-tbeierg sad. tz--tz-
porting crude oil. Lazer, in 1956 the SHI used a similar methAt,) es3m-
Me three steel storage tanks of 1000 cu. mo capacity each. -Mn toh:~s
case such elements a3 roofs, bottws.. stslr3., atc4,, were made at
the construction site of the storage tanka ani not at the y1sre
designated for assembly operatticns. All naaaessary material,
velding equipment, tractors, autmatic hoists, eta. vere bra-ught
to the construction site. Sitch orgavlzation of vork created
serious diffl-.ulties,, and in 1957 the SWJ No. 4 van coupelled t-~
revise its constru,:tion methods. As a reir-17t., tank bzittow, rxffs,
Card 1/2
The Erection of Storage (Cont.) 92-58-c-q/~o
frames, stairs, etco are ncri welded at the special assembly area and when reg-4 tn
these elements are brought by trucks to the site where storage tanks are er_-zt-ed.
The assembly of storage tanks built Of large prefe,=Icat2-d sections proveC. to be
very profitable from a financial point of view. This method of assembly r2.s--
contributed to the safety of workers, saved a considerable amo-ant of mateel-s' ena
time.. and reduced the overall corstruction cost. Ther-_ is 1 photograph shlj_'_:~ng
how various sections of a manifold are being assembled et. a special area dasigns:~Ged
for assembly aperationso
Associmom PTo sm No. 4 Tatnefteprmstroy
1~ Oil tanks--Storage 2, Oil tanks--Gonatruction
Card 2/2
V
tilt! u; Rc e.nAll At the IntctfACO Petra-
t,1D-O11O1,rm,1;1,1'V IN-imov. . 'mmti Nefl)~irol Vekh., Vp
gerenlysloree MYMOTIVO. -1. r~-) L-Thc study of burfac,
erti. cNpccLally the rurfacc tension at the intctficc jwtro-
Jeum-water, gain more and more improatirc. 71cre are
several mcthrAls for Illensuring stirfact The 1"0"'1
Important Is tire mctljcxf of 11. A. ficbirulcr. flowever, (his
method was not successful for the dttn. or rnanv uaturd-
petroleum samples. Ilystertsil or l2gging of wc1ting ap-
peared, which hindered the formation of all equil. of drops.
This was caused by surface-active corripdn. present !it the
crude oil., These two factors itsult in the following behav- -
or: If the end or tip of the Pipct of the Rrbinrlcr app. is
Immersed in water, then the petroleunt dm not rain edit !n
the shn C of droplets; the petroleum starts to flow con-
tinuousFy along the outside of the capillary. Refined
petroleum products such as gasnIhie-i. kerodyLe oilq, etc.,
form under the same conditinns an equil. of drolvi, which
Imakes it somib!t to rue-tsure their surbice ten-Aon with
water. Therefore the change of the surface tctoion was
tatudied by adding swrfilc"ctive compd;., which were exid.
from petroleum, to nnitpolar liquid hydrot~atbons And to
water and soIns. of electrolytes. Naphillenii ,acid3 and'
i
r 'other surface-active substances. disgolve very poorly ill
fwater and salt sMni, -~ Therefore, in orler to condoct. these
investign I tons, the naphthenic ocids were digcstetl fornb~)llt
8 days witli-t-fi-e-Ot roln.7,FY-1r11F1T4-1lT1, -_- I- IN
'In 1wrtal Ica Y.
'The optimum time of dige-.sting,nnist he deld. cxptri-
mentally. The results of this study (if &frface trusion oil
.nonpolar hydrocarbonj and wimixts. of surface-active
ccmpds. can be profitably used also for the don, of -Atr-face-
active matter in water after r,-xtg. Wrolcum. For this
twirpose a curve can be drawrt by plotting the citange of sur-
face-terislon.at the interface of tran-farmcir oil-water against
?Ion the given curve
IwAnts are plotted. which courcitpeatd with tho-w of tlin lmr-,
ace tension at the interface transformer oil- wotcr al(cr the
cxtn. of natural p0roleurn, thett Analogically can he det.d.
Ae content of surface-active ootnvoi. Ill the tratcr rx.
pres."I In cc. of naplithenic itchl. 11. 0. VKL~"_
YEKIMOV, P.P.
Fh7sical properties of Faleozoic rocks in the Minusinsk depression
and Kuznetsk and Xaraganda Basins in connection with the evaluation of
their oil and gas potentials. Avtoref. nauch. trud, VNIGIRI no.17:74-78
156, (MIRL 11:6)
(Siberia--Petroleum 9801097) (Gas, Mtural--Geologv)