SCIENTIFIC ABSTRACT TARATORIN, B.I. - TARALYNOVA, G.T.
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Publication Date:
December 31, 1967
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SCIENTIFIC ABSTRACT
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IN
86
133-IP-12/26
AUTHORS: Morozov, B.A., Timoshuk, L.T., Candidates of Technical
Sciences,and Taratorin B.I., Engineer.
TITIZ: An Increase in the loading Capacity of Stands for Plate
Mills (Povysheniye nagruzochnoy sposobnosti stanin
listoprokatnykh kletey)
/7.- - 11
PERIODICAL; Stall, 195? 1 No.12' pp. 110? 10 (USSR).
ABSTRACT: An investigation of the strength of stands of stati.c and
dynamic load carried out by TsNIITWh and TshIIChM is des-
cribed. The distribution of.main stresses on the surface of a
working stand is shown in Fig-3, the dependence of the working
ability of stands of typical and improved dOBigns on the value
of a pulsa+ '*nS load - Fig*6, the dependence of deformation of
.parts of stands of mills 2180(a) and 1680(b) on the positioning
of the screw clown screw in Fig.7. Conclusions: 1) The
weakest spots in housing stand of sheet rolling mills are cross
beams, particularly when they possess openings for screw doun
screws. 2) In order to increase load carrying capacity of -he
stands of operating mills, it is necessary; a) to change t
design of the nut of the screw down screw, transferring the
supporting surface of the nut to the bottom surface of the cross
beam (Fig.4b) or at least into the zone of compressing stresses;
Uardl/2 b) to increase transition radii in the most stressed points
133-12-12/26
jLn Increase in the Loading Capacity of Stands for Plate Mills.
at the stand, A B, V (Fig.4). If the latter is impossible the
corresponding places should be viork-hardened (treatment with
rollers or shot peening). 3) The quality of casting of the
cross beam of the stand should be particularly watched. There-
fore, when an Increase of load on the stand is expected, un-
treated surfaces of the cross beam in the stretched parts should
be machined. 4) The weight of stands should be decreased by
about 18% by changing the cross-section area of stands (Fig.4b)
by about 30'1'o which does not deteriorate the strength and rigidity
of the stand. There are ?-figures and 3 Olavic references.
ASSOCIATION: TsNIITMASh
AVAILABLE: Library of Congress
Ca-rd 2/2
TARATCRIN, a. 1. Master Tech Sci (dies) -- "Investigation and computation of
deformations and stresses in the back-up plates of hydraulic stamping preases".
Moscow, 1958, published by TeRM. 23 pp (Glavnitproyect Lmin DesWing"; of
Gosplan U3M,, Central Sci Res Inst of Technology and Machinebuilding), 150 copies
(KL, 110 1, 1959, 121)
TARATORIIT* 11.1.
~-Ihkfi of undardie block$ for hydraulic stamplug prossese Iruze-shtam.
prolsv. I no.2t8-13 7 159. Oan 12.-10)
(Power prommes)
TARATORIN_1 B,Ij
Experimental investigation of deformations and stresses In underplates
of hydraulic forging presses. Kuz.-shtam. proisy. 1 no*7:15-19 Jl '59.
(MIRA 12:10)
(Power presses) (Strains and stresses)
TARATORIN,-V.,,,.i
:Pqcon#i,uqtiu&.~4q SIIK-1, crane. Stroitell no.5:22 My 157.
(NM lot6)
1. Glavarmekhanik UPravlpa#a xhilimh~hnogo stroitalletya Angarska.
8-,'aarricks, etc,)
77~ 7
SOV/126-7-4-8/26
AUTHORSt Gulyayev,, A. P. and T&reta*4iteT-+6 V.
TITLE: The Effect of the Heating Rate on the rraiisformations
in Steel During Tempering
PERIODICAL: Fizika metallov i metallovedeniye, 1959, Vol 7. Nr 4,
. PP 544-550 (USSR)
ABSTRACT: Electrotempering, i.e. tempering by passage of electric
current, has b,:-c~qmc a practice widely adopted in
industry and this prompted the authors of the present
paper to study the effect of the heating rate on the
transformations taking place in steels during tempering,
a problem which so far has received attention of the
Soviet workers only. The present investigation was
carried out by means of dilatometric and hardness
measurements, X-ray and metallographic analyses and
anisometric determination of the quantity of the
retained ausnenite. High-carbon steel U12 and a
constructional steel St.45 were used as the experimental
materials; for the sake of greater accuracy, silver
:_7 steel wire wns used for the preparation of the test
pieces, 100 nm long and 3 min diameter. Prior to the
Card 1/9 tempering experiments, the test pieces were quenched
SOV1126-7-4-8126
The Effect of the Heating Rate on the Transformations in Steel
During Tempering
from 11000C (steel U12) or 8300C (steel St-45). The
transformat*Luna taking place at relative.Ly low heating
rates (2.7 C 10-2 to 3.2 x 10-1 OCIsec or 100 to
12000C/hour), attained during furnace tempering were
studied wit'a the aid of an optical dilatometer; those
occurrin� at faster rates of heating (0-7 x 10-2 to
9 x 102 C/sec). attained during alectrotempering, were
investigated in a capacitance dilatometer designed by
Panov (Ref 5). Since the working length of the test
pieces in the former and latter case was 50 and 75 mm
respectively, the curves obtained for the shorter test
pieces were re-plotted to give data relating to 75 mm
length. In the case of steel St.45, identical dilato-
meter curves (41, mm versus temperatureWC) were
obtained at all heating rates between 100 and 1200*C/hour;
a curve of this type is shown in Fig I (curve 1);
curves 2, 3 and 4 in Fig 1 are the dilatometer curves of
steel U12 heated at 1200, 300 and 400, and 100 and
200 0C/hour, respectively. Fig 2 shows the dilatometer
Card 2/9 curves of steel U12 heated at (1) 900, (2) 750t
SOV/126-7-4-8/26
The Effect of the Hecting Rate on tte Transformations in Steel
During Tempering
(3) 490, (4) 320t (5) L07 Pnd (6) 0.10C/sec. The
dilatometer curves of steel St.45 heated at (1) 680,
(2) 400, (3) 70 and (4) 0.1*C/sec are plotted in
Fig 3. (Curves 6 in Fig 2 and'A in Fig 3 were obtained
with the aid of the optical dilatometer). In the next
series of' experiments, the carbon content in the a solid
solution and the proportion of retained austenite in
steel U12 were determined by X-ray diffraction. The
test pieces were heated to various temperatures at
various rates of heating and quenched in water
immediately after switching off the current. For
comparizoit, test pieces heated to each tempering
temperature at 0*50C/sec and held at the temperature
for 1.5 hours were also examined. The X-ray diffraction
patterns were obtained with Fe - K radiation; from the
variation of the distance between the (211) - (112)
doublet, the variation of the tetragonality of
martensite was calculated and the carbon content in the
a solid solution was determined. The carbon content
Card 3/9 of martensite in steelIP-2 as a function of the tempering
SOV/126-7-4-8/26
The Effect of the Heating Rate,on the Transformations in Steel
During Tempering
temperature (*C) find the heating rate C/sec) in shown
in Fig 4. The proportion of retained austenite (%)
and microhardness (H.) of steel U12 plotted as functions
of the tempering temperature and the heating rate are
sht-wn in Fig 5 and 6 respectively. (The lowest curve in
each of these three figures was plotted for specimens
heated to the tempering temperature at 0.50C/sec and
held at the temperature for 1.5 hour). The proportion
of the retained austenite was determined by visual
comparison of the intensity of the homologous lines
(Nechvolodov method); these data were made more accurate
by determining the quentity of the retained austenite
with the aid of an anIsometer. Regarding the metallo-
graphic analysis, no difference in the microstructure due
to different rates of heating was observed under the
optical microscope in stools tempered below 6000C. The
microstructures of steel U12 which arter quenching from
1100% was (a) heated to 6oO*C at 75dC/sec and
(b) tempered at 6000C for 1.5 hours, are shown in Fig 7
C-,,,rd 4/9 (X500). Only with the aid of an clectron microscope
sov/.1,,).6-7-4-8/26
The Effect of the Heating Rate on the Transformations in Steel
During Tempering
was it possible to show that the microstructure of
the tempered steel was, in fact, affected by the
heating rate even at low tempering temperatures. The
microstructure of steel U12 quenched from 1100 0C (as
revealed by the electron microscope) is shown in
Fig 8 (x1200). The electron microphotographs of the
same steel, heated to 200*C at 750 C/sec and heated
to 200% at 0.5*C/sec and held at the temperature for
1.5 hours are reproduced in Fig ga and b respectively.
Fig 10 shows the electron microehotographs of steel U12
which after 9uenching from 1100 C was (a) heated to
3000C at 750 C/sec, (b) heated to 3000C at 150OC/sec and
(v) held at 3000C for 1.5 hours having been brought to
this temperature at 0-50C/sec. The experimental results
obtained by the present authors iihow that increasing
the rate of heating results in ptirtial suppression of the
first transformation, although the temperature range at
which this transformation takes place is significantly
shifted only when the rate of heating exceeds about
Card 5/9 500OC/sec. At slow rates of heating (0.1*C/sec or less)
SOV/126-7-4-8/26
The Effect of the Heating Rate on the Transformations in Steel
During Tempering
such as are attained during.furnace tempering, the
first transformation begins at approximately 80*C;
this is marked on the dilatometer curve by the point at
which the volume (length) of the specimen begins rapidly to
decrease (comp Fig 2 and 3)- Judging by the dilatometer
curves, the first transformation still begins at about
800C even when the rate of heating is raised to
4909C/sec; when, however, a heating rate of 750'OC/sec is
employed, the transformation begins at 330-350*C; at the
rate of 900*C/sec it starts at 430-450"'C. The same
effect is revealed by the difference in the carbon
content in the a solid solution in steel specimens heated
to various temperatures at various rates of heating,
although the X-ray analysis gives the beginning of the
transformation at temporatures lower than those
determined by the dilatometric meacurements. While the
temperature range of tile first transformatioti is shifted
at fast rates of heating only, the degree of decomposition
of martensite is affected by the variation (,f the heating
Card 6/9 rate throughout the range of heating rates employed in
SOV/126-7-4-8/26
The Effect of the Heating Rate on the Transformations in Steel
During Tempering
the experiments. This is shown clearly by the
dilatometer curves, while the X-ray data also indicate
that the faster the rate of heating, the lower is the
degree of decompdaition of martensite. These findings
were confirmed by the results of the metallographic
analysis: electron microphotographs show that both the
quantity of the precipitated carbides and their particle
size decrease as the heating rate during tempering
increases. Regarding the second transformation,
i.e. decomposition of the retained austenite, it occurs
at the studied rates of heating, although the positive
dilatometric effect (expansion), characteristic for
this transformation, is observed only at heating rates
not exceeding 100*C/sec. (Compare Fig I and 2).
Since anisometric measurements of the proportion of the
retained austenite in specimens heated to various
temperatures at various rates of heating showed that
austenite does, in fact, decompose even at heating rates
as high as 750 C/sec, it is suggested that the
Card 7/9 discrepancy between the X-ray and dilatometer data might
SOV/126-7-4-8/26
The Effect of the Heating Rate on the Transformations in Steel
During Tempering
be due to the fact that the retained austenite deconposes
only during cooling front the tempering temperature, when
comparatively fast rates of heating are employed;
this problem, however, requires further study. The
dilatometer curves of steel specimens heated at the
rates of 750 to 9000C/sec show absence of any volume
changes in tile 300 to 4006C temporaturo range which
could be taken as an indication that the transformations
are completely k-uppressed in thits temperature range;
the results of the X-ray analysin, however, show that
under these conditions there is it slight decrease in
the degree of tetragonality and in the proportion of the
retained austenite. It is therefore more likely that
at fast rates of heating the transformations are
completely suppressed at temperatures up to 2000C, after
which both transformations take.place simultaneously,
the volumetric changes caused by them cancelling each
other; when higher temperatures are reached, the first
Card 8/9 transformation predominates which results in contraction
SOV/126-7-4-8/26
The Effect of the Heating Rate on the Transformations in Steel
During Tempering
shown by the respective dilatometer curves. There are
10 figures, I table and 5 Soviet references.
ASSOCIATIONtTsentrallnyy nauchn-i-issledovatellskiy institut
tekhnologii i mashinostroyeniya (The Central Research
Institute of Technology and Mechanical Engineering)
SUBMITTED: December 3, 1957
Card 9/9
TARATORINA, M. V., Cand Tech Sci -- (diss) "Effect of the speed of
heating on transformations in steel during heal:ing - " Moscow, Combined
Scientific and Technical Publishing House, 1960. 16 rip with graphs;
(State Committee of the Council of Ministers USSR for Automation and
Machine-building, Central Scientific Research Inst of' Technology arid
Machine-building, TsNIITMash); 150 copies; price Dot givun; (KL,
1?-60, 160)
Z it Lf A.
I V. A. gal 0. W.
-Taraforima. Zkxr. MArAid. RpWmid. jammummoW.
00 ix 19". Ni. 3. WK-Coamicidfu C is Me on! teria!
=
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The rntenxvms. It is cffwthe in tirmu,
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-r"Wic) and 12-100 (barterkidal). ell. K.
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-TA-VAT&,INTA-.6~.Fi, ~T, - --
"The' Influence of Bactariophage on the Durand-Reynals Factor of Fathocenic 1.1crobes,"
ZhM, 9, 71-78, 1946
--1 i -- ~. 'T. 7.7.
~ - -, -
Kr--,-sLovnik,jva, V. A., Taratorina,_ 0. M. and Jorcvko, V. T. "On the probl,~m of t,-,e
etiology of conta~io~is-toxic illnessas of newboms," Trudy VIL Vvsesir.-uz- slyezia
r
det- vrachay, posvyashch. pa7Vati prof. Filatova, Moscow, 1.948, P. :'-,;o-86
SO: U-3264, 10 April 1953, (Letopis tZhurnal Inykh Statey, No. 31, 1949)
TARATORKI.Nq AsP., inzh., red.; FORIN, I.V., red.1%d-va: UVAROVA, A.F., takha.
[model design for modernization of 153 and 152 typiq of open-side
vertical lathe] Tipovoi proakt modernizateii karusollnogo odno-
stoechnogo stanks modelei 153 L 152. Moskva, Goo. neuchno-takha.
itd-vo mashinostroit. lit-ry, 1957. 146 p. (MIRA 11.5)
1e Krasnodarskiy stankostroitellnyy tavod imeni Sedina. 2. Otdol
modernizataii, i remonat stankov Iksperimentallnogo nauchno-
iseledovatellskogo institute metallorethushchikh stankov (for
Taratorkin)
(Iothes)
TARATORKIN, AeFs, insh., red.; IONINO 19T., red. izd-va; TDMUOT, A.1a.,
tekhn. red,
[StwWWxd plan for the modernization of model 136 and U36 turret
lathes] Tipovoi pr6ekt modernizateii revolivernykh otatkov modslei
136 1 iA36. Nookra.' Gos, nauchno-tekhn, izd-To mehinostroit. lit-ry,
1958. 377 P. (KIRA 1199)
1. Zavod imeni Sergo Ordzhonikidze. 2. Otdal modernizataft I, re"onta
at--nko7 okeperimentallnogo nauchno-isoledovatellskogo Instituta
.metallorezhushchikh stankov (for TiLratorkin).
(Latham)
TARATORKIfij A.P.9 Insh., red.; BOLISHAKOV B.N.9 red. iad-va; TIKRAW
-t-e-Wn. red.
(Standard design for the modmizatice of IM.36 and 137 turret
lathes] Tipovoi proakt, modernizateft revollverrykh stankoy mo-
delei IM36 1 137. Moskva, Gog. tauabno-tekbn. izd-vo mashino-
stroit. lit-ryt 1960. 396 p. (NIRA 14:6)
1. Moscow. Ekoperimentallnyy nauohno-isoledovatel'skiy inotitut
metallorezhushohikh stankov. 2. Otdel tekhnologii mashino-
strayeniya Eksperimentaltnogo, usuchno-issledovatellakogo institu-
ta metallorezhushchikh stankov (Moscow) (for Taratorkin)
(Lathes-Toohnological i=ovationo)
TARATORKIN., A.P.
Repairing the spindle block of a semiautomatic lathe. SbDr.
inform.mat.um no.17:3-16 t6o. (IMA 14:10)
(Spindles (Machine tools)-Vaintonance and repair)
TARATORKMA. P.P.
Follow-up data on the regeneration of skeletal auscle tissue in
mammals subjected to experimental hypertbyroidism. Dokl. 105 no-5-
1114-1117 D 155. (KI-RA 9:3)
1. Pervy7 laningradakiy maditsinskiy institut Imeni I.P. Favlova.
Predstavlano akademikom A.D. Speranskim.
(WSGIaJ (MOMM&TION (SIOURI)
h~j.cr.-, pnpuasov iz kollok'-L;!--
32432. TARATO-HKIN~'-, F. C
Sbornik Iiuzeya antropologii J- cthografii, li-1419., 3- 3137-4L3~.
SO: Letovis Zhurnallrylch Statley, V01. 1)4
BES,
~zh. (Boo. Jj;- P LISKIf, R.A. '[translator]; TAPAIM_IIEUKO, N.I.,
[translator]; SHROXOT, S.I., red.; PLWNXV, V.S., red.; TIKHONOVA,
Ye.A., takhzi.red.
[Chartering and shipping terms, Translated from the English]%
Horskle frakhtmye i transportaye termiDys Pod rod. S.I.Shirokovs.
Moskva, Izd-vo OKorskot transport,'-1957. 133 P. (MIRA 11:5)
(Shipping--Terminology)
FECHIM, V. I., kand. tekhn. nauk; NAGORNYT, L, Ya.(Ifghorrqi, L. IAJ;
TARATUIMHA G, P.C.Taratukhina , H. P.1; PRADUL-SADOVSKIY, D. D.
Ll?radied-&dov-s- lkyi,, D. D. ]
Tensometric measurement of preasure. Xhim. prom [Ukr.] no.l:
47-52 Za-Mr 162. ~MIRA 15:10)
1. Institut avtomatiki Gooplana, UkrSSR.
(Strain guageo)
1. TARAMINA, 0.
2. USSR (600)
4. Cotton - Diseases
7. Root rot of cotton in the light of recent research, Khlopkovodstvo 3 no. 1, 1953.
9. Monthl List of Russian Accessions, Library of Congress, APRIL - 1953, Uncl.
DEYCINAN., E.N.1 TARATUSHKINAO L.S,
Reaction of indium sulfate with ammonium sulfate. 'Mur.neorge
khim. 7 no.10:2331-2334 0 162* (MIRA 15::Lo)
(Indium sulfate) (Ammonium sulfabs)
CORINO D.I., kand. tekhn. navik; BRON, D.J.; TAPA1IJTA, A.I.; UVITEIS, I.I.
Effect of high-temperature heat and mechanical treatment'~on
fatigue characteristics of 55C2 and 50KhG spring steels. Avt.
prom. 31 no.1:38-39 ja 164. (MIRA 18:3)
1. Belorusekiy inatitut mekhanizataii sellskogo khozyaystva .
Nauchno-issledovatellskiy institut tekhnologii avtomobillnoy
promyshlennosti.
'n(',PTr TA(q. nA~'. ~fmtiana/ 9~!A.P it.,aQ' rnl(hi'~ Lat.AA-~
sman, I r-nn V~~-,fzW jR o-, ?1 -1 r a r
T-4m wio-5rro~; amna, a LI-Ilpff 1;0 J)GW!E UP
Z983
:3 a unugo i rwzi avstv4
L W63-66 W(m)/EWP(t)/Er /EWP(-kl jp(aj --a/.HW__
- ACC NR& AR6027569 SOURCE CODE: UR/0277/66/000/005/0010/0010
T~
AUTHOR: Gorin, D. I.; Taratuta, A. I.
TITLE: Electron microscope stud ofthestructure silicon leaf -spring steel for
high -temperature tbermomechanical treatment
SOURCE: Ref. zh. Mashinostroitellnyye materialy, konstruktaii i raschet detaley
mashin, Abs. 5.48.58
REF SOURCE: Sb. nauchn. t. r. aspirantov. Belorussk. in-t mekhaniz. a. kh.
Minsk, 1965, 87-90
TOPIC TAGS: steel property, silicon spring steel, leaf spring steel, spring
steel/55S2 steel
ABSTRACT: Electron -microscope studies (5400x) were made on the structure of
,,65S2 steel after conventional quenching and high temperature thermomechanical
,treatment (without tempering). [Translation of abstract] [FrA]
SUB CODE: 11/ SUBM DATE: none/
1 '?VA/ UDC: 669. 14. 018. 21:620. 187
L 01091-6-lt---t7iiT(in-)/E7dP(k)/FWP(t)/ETI--IJP(a)- JD/1PW-
ACC NRI AR6028437 SOURCE CODE: UR/0137/66/000/005/1062/IO62
AUTHOR: Taratuta, A. 1.
2-Y
TITLE: Effect of high -temverAture thermomechantcal treatment on the mechanical
properties of sprin g steel
SOURCE: Ref, zh, Metallurgiya, Abs. 51425
REF SOURCE: 'Sb. nauchn. tr. aspirantov. Belorusak. In-t mekhaniz. s. kh.
Minsk, 1965'. 91-96
TOPIC TAGS, thermomechanical treatment, mechanical property, spring steel,
steel/55S2 steel 17
ABSTRACT: The effect of high temperature thermonjechanical treatment (HTMT),
(heating to 950-970C, rolling with reduction by 5, 15, 20 and 4076, quenching after
6-8 sec and tempering at 200, 300 and 400C for 1 hour and at 460C for 30 min) on
the mechanical properties of St55S2 steel has been studied. The combination of
elasticity and strength within pecifications for mechanical properties in spring
metals is attained for St55S2 Wter high-temp~_-rature thermomechanical treatment
and tempering at 400C for 1 fir and 460C for 30 min.- In order to attain still higher
C,rd 1 / 2 UDC: 669.15. 018. 27
01091-67
C NRs AR6028437
strength properties, it is necessary to r educe to a minimum the time from the end of
deformation to quenching; to obtain high plasticity characteristics without a loss in
strength, it is necessary to subject the deformed metal to some soaking prior to
qi,ienching. For St55S2, the time is set at 6-15 seconds. [Translation of abstract]
[AM]
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66321
~q (2, 3 q,-6.~Ato BOV/3.62-59-1-20/27
AUTHORS: Dementlyev, Ye.P. Taratuta. A.S.
TITLE: One Method of Analyzing the Noise Properties of Ampli-
fier Stages
PERIODICAL: Nauchnyye doklady vysehey shkoly, Radiatekhnika i
elektronika, 10,99, Nr 1, pp 176-181
ABSTRACT: The authors describe a method of changing the equiva-
lent circuits of noisy four-poles, essentially simpli-
fying the analysis of the noise properties of ampli-
fier stages by transferring the so-called "noise cur-
rent generators" from one circuit to another one, with-
out changing the external characteristics of a four-
pole. Ye.P. Dementlyev established LFef 12 that three
independent "current generators" are required for cha-
racterizing completely the noise properties of an am-
plifier stage. In /ffef 12 he described a method of
"current generatorTr transfer and this paper is a fur-
ther development of this method. The method establi-
Card 1/3 shes the connection between the equivalent circuit dia-
41-
66321
BOV/162-59-1-20/27
One Method of Analyzing the Noise Properties of Amplifier Stages
grams of amplifier stages with three independent noise
sources, shown in Fig 1# and with two intercorrelating
noise sources, shown in Fig 2. Simultaneously, the me-
thod will solve the problem of the degree of correlati-
on between the "current generatorell I I and I I it
ut, I ULI;tween
is important to account for the phase relations
the conditionally positive directions of the "current
generators"; a practical method is given for this pur-
pose. The authors formulate a general rule for exchang-
ing any "current generator"? connected to any terminal
of a four-pole, by two equivalent "current generators",
connected between other terminals of that four-pole.
For transferring a "current generator" from one termi-
nal pair to two other terminals of a four-pole without
disturbing the equality of output effects, the parti-
cular "current generator" must be short-circuitedv
thus the short circuit current passes thru those ter-
Card 2/3 minal pairs to which the "current generator" is to be
Vr
66321
SOV/162-59-1-20/27
One Method of Analyzing the Noise Properties of Amplifier Stages
transferred. Then, the "current generator" to be trans-
ferred is removed from the circuit diagram, replacing
the short circuit currents between two pairs of given
terminals by "current generators'll equal in value to
the short circuit current but having its reversed sign.
There are 13 circuit diagrams and 1 Russian reference.
ASSOCIATION: Kafedra radiopriyemnykh ustroystv Leningradekogo elek-
trotekhnicheakogo inatituta , (M)Air ' of Radio Re-
ceivers of the Leningrad Electrical Engineering Insti-
tute) 400,
SUBMITTED: September 16, 1958
Card 3/3
TARATU -- #s0
Shot effects of real p-n junctions. Radiotekh. i elektron. 9 no.9sl729-
1731 S 164. (MIRA 17110)
GERASIMOV, Serhey Mikhaylovich (Herasymovo S.M.)., prof.;
TARATUTA A.S., kand. tekhn. nauk, retsenzent;
kand. tekhn. nauk, red.
(Transistor generators] Tranzistorni generatc- . Hyiv,,
Tekhnika, 1965. 146 p. (MIRA 18:5)
TARATUTAI ,A.S... -
Method for predicting the life of semiconductor devices.
Radiotekh. i elektron. 10 no.12:2257-2259 D 165.
(Y,I RA 19: 1)
1. Submitted December 110 1964-
WA~f vs. (Krasnodarskiy la~ POLNSUO, S., (Krasnodaroki.,r kr#4 Un?M,
F*, (Krasnodarskly krv~
F-Wava -
Good initiative (OBIrlef laboratory manual of organic chemistryA.)
[professor] M.P. Platuitakii, B.A. Wasterenko. Reviewed by T. levashov,
S. Polashko, F. Tar&tuta, Zhim. T shkole 10 no.3:69-71 My-is 155.
(Chemistry, Organic-laboratory manuals) (MIRA 8:8)
(Piatnitakii, M.P.) (Nesteranko, B.A.)
J'ARATUTA,
-K.;
"Preventive Measures Against the Perforation of Textiles. Tro fron
the Russian." p. 52, (ODMZ, Vol- 5, No. 3, Mar. 1954. IAxIz, Poland.)
SO: Monthly List of East European Accessions, (EEAL), LG,
Vol. 3, No. 12, Dec. 1954, Unal.
IN, B.K., insh.: Prinizali uchastiye: TARA"AL N.Kj. gornyy insh.;
Z3M;1vT"&KIT'
A.M.., gornyy Insh.; 3URTIN, A.P., gornyy inzh.;
BONDARMO, 're.D.6 gorn" lnxh.; FILIKONOT, A,P,, gorn" inzh.-
SOMNSKIT, V.P., otv.red.; KHODMA, 1.*V., red.isd-ye;
ILOINSKATA, G.M., tekhnered,; BCLDTFWA, Z.A., tekhn.red.
($election of mining systems for flat Donets Basin seems] Vybor
sie'tem rasrabotki dlia polog1kh plastov Doubassa. Koskys. Goa.
nauehno-telchn.ind-vo lit-ry po gornomu dalu, 1960. 194 1).
(Donets Basin-Goal mines and wduing) (KM 14t4)
KUKIap B.K.; prinimali uchAatiye:'Z3LIVYANSKIYj A.M.# gornyy inzh.;
BAKHTINv A.F.v gorjW inzh.; FILIMONOV9 A.F.',, gornyy insh.;- _TARA-
,-2MT*-N-.A gorbyy ifizh' ; BOVDARINKOp Te.D.9 gorn37 inaho; RUIN-
BMG, V.ye., kand. i;&. nauk., otv. M.; NUMUMLWWVA, T.F.,
red. jzdva; LWILINAO L.N.9 tekhn. red.'
[Analyzing the methods of mining flat seams in the Donets Basin]
Analiz siatem razrabotki pologikh plastov D=bassa. Mookyap Goa.
nauchno-tekhn. izd-vo lit-ry po gornomu delup 1961. L15 P.,
(MLU 106)
(Donets Basin-Coal mines and mining)
AZRJ.KANt D.) TARATUTAV R.
Denip of fluid meter indioators. Takh. ant. 2 no.g-.12-13
S 065. (MYRA 18s.11)
1., Spetsia-11naya konatruktorskoys bluro Naftakh!Aprlbor,
I'ACC NRI AP6035931 (A UR/0413/66/000/020/019
5/0195
INVENTOR: Kiyasbeyli~# -A;, Shi; Taratuta,. R~, N.; Nersesov, G. A.; Arutyunov, L. A.;
-A. A.; Teabkevich, E. R.; Agabskov, N. G.
Krems, Ye. Fe; Arutyunov;
ORG:. none
TITLE: Dual-action vane pump. Class 59, No. 187530 [announced by the Special Design
..,["Bureau "Neftekbimpribor" (Spetsial'noye konstruktorekoye byuro "Neftekhimpribor'l)]
SOURCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 20, 1966, 195
TOPIC TAGS: pump, fluid pump, vane pump., 907*oA2 & /-jg j),F
ABSTRACT: An Author Certificate has been iasued for a dual-action vane pump con-
taining a rotor in which blades are mounted in radial grooves. These slide along
the inner surface of the stator, the profile of which is formed by two arcs described
from the center of the rotor and having various radii, and between then is located a
curved crossover section. To reduce inertia, the crossover section is made in
accordance with a curve determined by the equation
(2+6 2 cos Mn
2 UDC: 621.662.4
AP6035931
where y is the blade- displacement value depending on angle 0, 6 is the flow angle
(which changes from 0 to 0, 0 is an angle taking in the entire guide curve, and h is,
the maximal (given) working-blade-displacement value, which Is equal to the difference
between the radii of the outer and inner arcs of the stator profile. Orig. art.
has; 1. i.Lgure. - [KT
IWA-9d
SUB CODE:* 13/ SUBM DATE: 21Jun65
'_Sard 212
ABRAKOT. N.A.; ALIVERDIZAIM, K.S.; AMIROV, Te.M.; AR R.I.; ARSENITAT.
S.I.; EAWAUROV. R.H.; BAGDASAROV, G.A.; BADAKYAM, A.A.; DJNITB-
LTAN, G.N.; DZHAFARCV. A.A.; KAY , A.B.; EMCMMSKIT. N.M.; KOYYU-
KHOT. 3.I.; KRASUBATZT, A.T.; KMOTSKIY, A.I.; LALAZAROV, O.S.;
LARIONOV, Te.P.; LISMGARTAN. M.Te.; LIVSHITS, B.L.; LISIKYAN,
K.A.; LOGINOVSKIT, V.I.; LTSMOVSKIT, P.S.; MCLCHAKOT, G.V.; KAY-
MMIKAN, NX; OKHOKIKO. 3.K.; ROKANIKHIN, V.A.; ROSIN, I.I.; RU-
STAMOV, N.M.; SARKISOV, R.T.; SKRYPKIK, P.I.; SOBOLEV. N.A.;-TARA-
TUTA.-,R.H.3 TVOROGOTA. L.M.; TER-GRIGORYAN, A.I.; USACHIV. V.I.;
FAU, B.P.; CHICHBROV, L.G.; SHAPIRO, Z.L.; MWCHUK, Tu.I.; non,
A,A,; ABUGOV, P,M,, red.; KWTNOVA, M.P., vedushohly red.; DANIyX-
LTAX. A.A0; TRWIMOV, A.V., tekho.red,
[Oil field equipment; in six volume] N6ftianoe oborudovanie; v
ohesti tomakh. Kookya, Goo.nauchno-tekhn.isd-vo n6ft. i orno
toplivnoi lit-ry. V01.3. (Petroleum production equipmentl Ubo-
rudovanie i inBtrumont dlia dobyehi nefti. 1960. 18) p.
tKIRA 13:4)
(Oil fields-1quipment and supplies)
AID P 4953
Subject USSR/Engineering
Card 1/ Pub, 110-a - 2/21
Authors Kostrikin, Yu. M., Yu. 0. Novi, K. A. Rnkoyj Kandidats
of Tech. Sci., 0. 1. Aleynikov, N. V. Bidpkova, V. A.
Taratuta, Engineers.
V*
Title Results of thermal and chemical tests of A once-through
boiler of 215 and 300 atmospheres.
Periodical : Teploenergetikd~.- 8, 10-13, Ag 1956
Abstract : Data are given on the quality of steam 4upplied by an
once-through boiler operating at 215 and 300 atmospheres.
The boiler is fed by the turbine condensate mixed with
the cooling calcium-bicarbonate water. T~e design and
performance of boilers of near critical and super
critical pressures are discussed, and various related
problems are examined. 4 diagrams. references.
I AID P - 4953
Teploenergetika, 8, 10-13, Ag 1956
Card 2/2 Pub. 110-a - 2/21
Institution : VTI (All-Union Heat Engineering Institute) and Tsy'TI
(Central Institute for Boilers and Turbines), Moscow
Branch.
Submitted : No date
tm
'r
t
M
IM j-- I, , V~f
I 11"Ev If
Man ~,Mwmm- mm
- - -~ - -- . -- - - -.I.-- -
V~, r, ";; J, i I ra , ,
r -1 A-
- ~ 'M I -- - I I
~~ UP RMS, NORT-0
R, A -,U, ~ I m~ AN, t m wa, m -, I
,-,- KIM
-
Y_
Y-9111, '7- Lr~
W,
SOV/96-58-5-9/2?
AUTHORS: Korovin, V.A., Engineer, Kostrinkin, 'ru.M., Candidate
of Technical Sciences and Taratuts, V.A., Solov1yeva, V.P.,
Engineers
TITLE: A Spectro-photometric Method of Cuntrolling the Water
ConditionB in Thermal-power Equipment (Spektrofotometriches-
kiy metod kontrolya vodnogo rezhima v teplosilovom
khozyaystve)
PERIODICAL: Teploenergetika %~_Nr 5, pp 46 - 49 (USSR)
t 1958,
ABSTRACT: At present two methods are used to determine the salt
content of steam and condensate; one is by ionic analysis and
the other by measurement of electrical conductivity. The dis-
advantages of these methods are described and the use of
spectro-photometer is recommended. The technique for the deter-
mination of elements .3uch as sodium, potassium and calcium is
indicated in general terms.
The article then describes a simple flame spectro-photometer
installation assembled at the All-Union Thermo-technical
Institute. It can be made up in any power-station laboratory.
The equipment is illustrated diagra=atically in Figure 1; its
construction and method of operation are described. It was
used to determine sodium in solution at concentrations ranging
Card 1/2
SOV/96-58-5-9/27
A Spectro-photometric Method of Controlling the Water Conditions in
ThermaI-power Equipment
from 0.1 mg/litre to some hundreds of milligrams per litre.
A special three-channel burner was used; it is illustrated
in Figure 2. Detailed operating instructions for the instru-
ment are then given, including calibration with standard
solution and the method of working out the results.
The entire process of determining sodium content in amplos,
for example, in acid concentrations or in other liquids, can
be completed in 5 - 10 minutes, including the time necessary
to plot the graphs. The accuracy is of the order of + 5016,
similar to that of a good photo-calorimeter.
There are 2 figures and 4 Soviet references.
ASSOCIATION: VTI
card 2/2 1. Heat engines--Water supply 2. Feed water--Purification
3. Feed water--Analysis 4. Spectrophotometers--Applications
SOV/96-.59-6-4/27
AUTHOR: Taratuta, V.A., Engineer
TITLE: - 17r-oee~urefor Determining Sodium Ferrite
PERIODICAL: Teploenergetika 1959, Nr 8, pp 11-14 (USSR)
ABSTRACT: In 1949-50 whilst testing high pressure cace-t-hrougli
boilers the All-Union Thermo-Technioal Insti4,4te r.)btalriel
evidence of caustic-soda deposits oz the heating ~~3urfa'~es.
As it is not possible for caustin, soda to occur in solid
form in the presence of steam it was suggesteii that a
chemical compound was beinS formed between the _-austle~
soda and iron oxides of the form of 2NaFeO2. With th-~'-
introduction of flame spectrophotometry it became poss'.b1le.
to determine accurately small coni~entration3 of sodilum acj-4
it was discovered in a power station of the Mos,.~ow System
that caustic soda deposition occurs even when its con,',er.
tration in the feed water is very small. Ca,~,-stla soda
commonly occurs in the feed water of once-through na-'--lers
and so it was decided to study the subject. After ccn-
Card 1/3 sideration of published work it was dec~ided to I.r.vesT.-I'gate
SOV/96-59-8-.4/27
A Procedure for Determining Sodium Ferrite
the reaction between anhydrous sodium carbonate and iron
oxide. The substances were mixed in a stainless steel Vessel
and heated, and the sintered product was analysed. The
test results are given in Table 1 and it will be seen that
there is a chemical reaction involving the evolution of
carbon dioxide and the formation of sodium ferrite. The
reaction commences at about 7000C and at 9000C it is
practically complete in 5 minutes. Excess iron oxide
promotes the formation of ferrite. %he reaction between
iron oxide and caustic soda was also studied in a stain-
less steel vessel, with the results given in Table 2.
Again the experimental procedure is described. In this
case the reaction could occur freely at a temperature of
2000C but was not complete at 1600C. Further test results
are given in Table 3 and show that excess iron oxide is not
a prerequisite of the reaction. Tests were then made to
determine the formula of the ferrite formed. The tests are
described and the results lead to the conclusion that the
composition of the reaction product is NaFeO29 whatever the
ratio of caustic soda to iron oxide,the temperature and the
Card 2/3 duration of sintering. However, it appears from some of
SOV/96-59-6-4/27
A Procedure for Determining Sodium Ferrite
the tests that sodium ferrite formed at low temperature Is
more easily decomposed by cold water than that fomed at
high temperature, so there are probably tm modifications
of sodium ferrite. In the light of the above work, a
procedure is suggested for the determination of sodium
ferrite in the presence of free alkali and iron oxide.
In conclusion, it is noted that dry sodii1m ferrite can be
kept in a dessicator over q-,iick lime for quite a long time
without fear of decompositiozt if free alkali is present
the sodium ferrite decomposes more rapidly; and in moist
air even pure sodium ferrite decomposes quickly, being half
decomposed in 4 to 5 hours. Thus the ferrite may not be
detected when boilers and turbines are shut down, because
the presence of small quantities of moisture wili cause
its rapid decomposition into free alkali and iron oxide.
There are 1 figure, 3 tables and 2 Soviet references.
ASSOCIATION: MO TsKTI (Moscow Division of the Central Boiler Turbine
Institute)
Card 3/3
XEMLIP%Ns M6N*; TAHATUTAP V*Ao; MKINS N*B*
Thermal and chemical testing of an experimental US-2*6/39 on6o-through
type waste-heat boiler,, Prom.energ. 16 no,513-8 My 161.
(MM
(Boilers--Testing)
iARATUTA,, V.A.. elektrosvara~hehik
We mast4pr new methodB of welding. Tranap. Btroi. 12 no,11:5-6 N 162,
(MIM 15:12)
1. SMP-plO2 treata, Nbatranastroy.
(Concrete reinforcement-Welding)
YAMEA A.P,, doktor tekhn.nauk; NOVIp YU.O., kand.tekkn.nauk; TARAFA_.
V.A,-,,, inzh.
Chemical purification of onoe-through type boilers using trilon B,
Elek.sta. 34 no.2sl2-16 F 163. (KIRA 16s4)
(Boilers-Cleaning)
MAMET, A.P., doktor tekhn.nauk; NOVI, Yu.O., kand.tekhn.nauk; TARATUTAY
V-Av inzh. - ---
I. -
Water cycle norms of once-through type boilers. Teploenergetika
11 no. 1:91-92 Ja 164. (MIRA 17:5)
KOSEPLEV, I.I.,'kand.tekhn.nauk; ESKIN, N.B., insh.; TARATUTA V.A.p
inzh.; KAPCHITS, D.A., inzh.; ABRYUTINA, N.V.
0
V.P.J. inzh.; LEBEDEVA, I.G., inzh.
Study of'salt extraction by the flushing and separating
system of the PK-24 boiler. Elek. at&. 35 no. 4210-15 Ap 164.
(KRA 17v7)
RUIET, P.P.j, doktoT tekhn, nauk, prof.1 ALEYNIKOV, G.I.,, kand. I,ukhn.
nauk; TARATUTLA, V.A., inzh.
2-vestprt clortnir~.fdf an 30CMv. power blonk. Top! nezierro.. IRII
.12 rio.7:2(--33 ii 165. (HTPA IF:7)
1. Moskovskoye otdelenlye TSentrallnugo kotinturbinnogo In-
stituta im. Polzunova,
TARATUTA, V.N.; BABC11UK, I.V.
There will not be economically w9ak farms. Zashch. rast. ot
vred. i bol. 9 no.1:4-6 134. (MIRA 17:4)
1. Nachallnik Khmellnitskogo proizvodstvennogo kolkhozno-sovkhoz-
nogo upravleniya (for Taratuta). 2. Nachal'nik Vinnitskoy oblastnoy
stantsii zashchity rasteniy (for Babehuk).
TY~UI'ILUL~, Ye. S%
Acad. led. SCI. of Zicea.'~
Ccm-,itinal H;r,i-ae, D-pt, Hyriene,
e, ygi,~ne
.je
-C1.949--) Mbr., Eozcow Obiast Sanitation & Hy i H
,e Decentrdized Exha, st T:-ntilcticn in Mills Pro-2 cir~- _a"O" it Gir.
Appraisal of t! -1
" 10,49.
i. can., ~To. A
NORNEVSKIY, Boris Ivanovich; 2gUTMY-, Ivi~n A~ana HMTOT, I.I..
red.; VOLCHOK, X.M., tekha.red.
[Electric power plants and networks for sbipm] Sudo"s elektri- .
cheskis Stantaii i setI,.Leningred, Izd-vo "Rachnot transport,*
1958. 267 P. .. .. . .. (WRA, 11:12)
(Electricity on abips)
TARkTYNOV,j,_A.., inzh.
Economically effective electric current density in eInctric
netwc4rko. on ships* Izv, IMI 59 no.46:157-10 '62.
(MIRA 15:10)
(Blectricit-, on ships)
W
s-
NOnIEVSKIY, Boris Ivanovich; 6RATYNOV, IvTanakfana
ja.lr_
retsenzent; PAIN, B.S..
-aots., retsenzent; MURATOV, I.I.p kand. takhn. nauk,
retsenzent; FRIK, A.0.1 inzh.j red*; W, P.M.# red.
(Electrical equign-ent of ship and shore stations and su6-
stations] Elaktricheakoe oborudovanio beregovykh i sudo-
v-ykh Btantall i podstantaii. Moakva, Transport, 1965. ',334
(MIRA 18: 5)
TAUTYNOV, V., inzhoner-sudovoditall.
From experience acquired in utiliging Professor G.I. Paylenko's
diagram on "Laningradw type ships. Mor.flot 15 no.12:23-25 D '55.
(NLRA go)
(Cargo handling) (Paylenko, G.B.)
V., kApitan parekhoda "Minsan" inzh*nsr-sud*v*ditol'.
BrItish experimental radar daterminotion chart. Ker.flet.16 me.9:25-26
8 156, (Smat 3ritala-lautleal charts) (~Mu 91-10)
,~~TYNOVO vap inshener-sudovoditelf.
'T?IZ-%
A w M-e-method, of graphic plottlng of radar observations.
Nor. flot 17 no.4:10 Ap 157. (KrMA 10:4)
1. lapitan parokhods. Olliasan"o
(Radar In navioLtion) (Collisions at sea-Proventlon)
Z" V-
TARATYITOV, V.
Anomalies of radar wave propagation. Nor. flot 18 no.2:10-11 7 '58,,
(KIRL 11:2)
1.1apitan pa"khod& mKh&s&n.4
(Radar in navigation)
M) PHASE I BOOK EXPLOITATION
Taratynov, ]qAqjgjg3L~~~aptain
Ispollzovaniye RLS dlya raskhozhdeniya sudov (Use
for the Separation of Ships) Leningrad, Izd-vo
transport," 1959. 67 p. Errata slip inserted
printed.
SOV/2070
of RLS [Radar]
"Morskoy
6,000 copies
Special Ed.: V. I, Shchegolev; Ede of Publishing House:
Z. S. Frishman; Tech. Ede: 0.1* Kotlyakovas
PLWOSE: This book is intendbd fov specialists in marine navigation.
COVERAGE: The book describes the fundamentals of radar observation
and interferences occurring in the process. It discusnos makhods
of determining the elements Of movement of converging ships and
methods of separatione The book is based on Soviet and non-Soviet
sources and on the authorle experience in radar operation. The
author thanks V. I. Shchegblev, scientific staff-worker at TsNIDW,
for help in reviewing the manuscript. There are 8 references:
3 Soviet (including 1 translation), 4 English, and 1 Oermano
Card 1/3
-Use of RLS [-Radar] (Cont.)
TABLE OF CONTENTS:
Introduction
Ch. I. Radar Detection of
Dependence of-the range
factors
Interferences in radar
SOV/2070
3
Approaching Vessels 5
of vessel detection on various
5
)bservation 11
Ch. II. Determining the Elements of Movement of Converging
Vessels 22
Evaluation of vessel convergence 22
True plotting based on course .
25
Relative plotting based on course 27
True plotting based on azimuth 29
Relative plotting based on azimuth 31
Conclusions 34
Radar plotting boards 35
Determination of minumum safe distance 39
Man3uvering board 41
Card 2/3
Use of RLS (Radar] (Cont.) SOV/2070
Approximate determination of movement elements 42
Ch. III. Maneuvering ana Separation of Ships by Means Of
Radar 47
Moderate ship speed in fog 47
Zone of dangerous approach distance 51
Separation of ships by means of radar 59
Use of various scales in separation 67
Selection of oriented image 67
Bibliography 69
AVAILABLE: Library of Congress
JP/air
Card 3/3 9-15-59
UUTTMV, V.. ke6pitan, dallnego plavanlys
Steps to be taken by captains in reportizW dmwb to
ships in forelga harbors. Hor.flot. 20 no.8t.L5-20
Ag l6o. (MM 13 -- 8)
1. Baltiyokoye parokhodstvo.
(Ship handling) (Marine accidents)
TARATYNGV, VOJcapitan dallnego plavaniya
Propooed rules of navigation in the English Channel. Hor. f2ot
21 no-4:42-43 Ap ,61. (MIR& 104)
(English Channel-Navigation)
(Collisions at sea-Prevention)
JTARATYNOV, V.
Regulating navigation on the sea routes of Norttwestern
Europe. Mor.flot 22 no.12.-23-25 D 162. (KM 15:12)
1. Kapitan teplokhoda "Kraenograd".
(British Channel --- Kule of the road at sea)
(North Sea-Rule of the road at sea)
30459
S/129/61/00o/oll/W/olo
E073/EI35
AUTHORS: Bogulyubov, V.A., Nagovitsyn, V.V., Taratynov, V.P.,
Toymer, D.A., and FIlyand, M.A. .................................. .......
TITIEi Stainless free cutting steel
PERIODICALs Metallovedeniye i termicheakaya obrabotka metallov,
no. 1.1, iq6l, 4.1-43
TEXT: Machining of the steel I X18H9 (lKhIBN9) can be
effectively improved by introducing 0.20-0.40% S. However, a
content of over 0.20% S brings about a deterioration in the hot-
working propertlen of the material. This difficulty can be largely
overcome if the sulphur'is'added in the form'of sulphides of
zirconium or molybdunum. However, the presence of sulphur ;rIll
always reduce the plasticity and,the ranistance-to-corrosioiL of
the material. The machinability of stainless steel can also be
improved by introducing selenium. A content of 0.15-0-30% Se has
no appreciable influence on the mechanical properties of chromium-
nickel stainless steel; the elongation,'contraction ana impact
strength are higher than in the case of adding S; the decrease
in the resistance-to-corrosion is insignificant. Since Se cannot
Card 1/3
3D459
Stainless free cutting steel S/l29/6i/ooo/oil/oo8/o1o
E073/Z135
be used in its pure form, experiments have been made to find
Se-containing master alloys which would enable obtaining the
required Se content, without generating excessively poinenous
substances during the process of melting. The experiments were
carried out in high-frequency furnaces of 35-50 kg and 0,5-1,5-ton
capacity and in a 1.5-ton capacity arc furnace. It was found that
Se-containing steel should be produced in h1gh-frequency furnaces
with acidic linings since in these the amount of selenium oxide
generated in 5-10 times lower than in basically-lined furnaces
(the selenium contamination of the air was evaluated by
V.P. Yershov of the Institut gigiyony truda i profzabolevaniy
AMN SSSR (Institute of Hygiene and Industrial Diseases of ANN USSR).
The selenium-generation from arc furnaces is higher. The iron-
base master alloy should contain 20-25% Se; if the So content is
higher its evaporation increases appreciably. Formi 'ng of the
steel was without special difficulty, the initial forging
temperature being 1150-1180 OC and the final one 900 OC. The
thus-obtalned blanks were hot-rolled to 6.5 an and 4.5 - 4 mm strip
for further cold-rolling. The hot-rolled strip was quenched from
Card 2/3
30459
Stainless free cutting steel S/129/61/000/011/oo8/olo
E073/El35
1050 OC in running wateri the Se and S contents did not affect
the hardness of the met'al after heat-treatment, The machinability
and the corrosion-resistance were also tested and comparativ*
tests were made on steel containing'S additions. It was found that
additions of S or Se to the steel under investigation improved its
machinability so that it'approaches that of carbon steels. It was
also found that additions of S did reduce the*resistance-to-
corrosion of the material. 'Addition of Se in a quantity greater
than 0.15-0.30% reduces the corrosion-resistance of this steel on
exposure to a hot and humid climate, an'atmosphere which in
contaminated by sulphurous gasus, human perspiration and sea mist.
There are 2 figures.
ASSOCIATION: TsNIIChM
Card 3/3
TARATYINOV, V. P.)
------
"Imprcrvement of the physical and mechanical properties of Fe-base, Co,base, or Ni-base
alloys . 11
report presented at the Conf. on Nev Trends in the Study and Applications of Rare
Earth Metals, Moscow, 18-20 Mar 63
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drained off. The ingots of the resultIng, steel should contain 0.4% selenium. Tt iB
claimed that the observation of the enumerated rules restlts in a bwdrfidfold redue-
.tion In vapoqration of selenium. Orig. art. hase I table.
AMOCTATI(Vt TaIIM~Arrwt (Central Scientific Research Tnatitule of Perr6us vwtal-~
SUBMITTEDs 00 ERGLt 00
DATE ACQ% 27Aug63
SUB COM ML NO RF? SM 000 QTFMRv 000
TARATYNOVA, G. P., Okhotsimskiy, D. Ye. and Eneiev, T. M.
"DL-termining the Time of Existence ofthe Artificial Earth Satellite and Studying
Secular Perturbations of its Orbit,"
Paper prepared for the VIII International Astronautical Congress held in
Barcelonsi, 6-12 October 1957.
Incl. No. 41 R-456-57, - Conf. File.
AUT:701t
T TT LE
IIEIIIT0DIC;',L
ABSTRACT
Card 1/,~.
1,
0KI.I0T5I:JUir.'IYj D.I.,E11"IE14 T~l.'..,"'ARATYi:'fjvjL"-.P., 53-1a-3/18
T h Q D e t e r;.-. i ~.; ii o f t h 1, 4 i a r, ".C C; IrIcIal Satellita and tne
e Er ur aticina of its Orbit.
Inv(~sti; atio.. of the S P t b
(0;xedeleniye
lczi;,,~4911chenid, Yago )r!),Lt; -3fjian)
-,hi Fiz.liuuk, 1 ~~137, Vol 63, i-, la, p,, 3' - ;;o
el % I
At heights of froa about loo to Ijo ',ni the 11fe of the satellite
is short and in the case of low transversal utrc3:ies the Bnatillite
does not oveii perform a full revolut ion.; crlkii exi!:ting L).p to now o:.,
the life of artificial eatollites use 01,1Y approximatio% itiethodn
and for the general case do j-.ot :7ive a fall solution of the problem.
Besides,un3ub3tantiated aethods of upproximation may lead ta es-.~Qn-
tial errors.By ireans of the method discussed here the life. of the sa-
tellite can for the general case be com~;uted aufficientl,~- qaickly
and reliably.This inve-.:tigation proved the existence of univerz.,al
(,ependences betvioen the :.-iain para~ietors of the oscilatory ollip3e.
These relations a
pply in the case of any satellites and de,~end only
-qon the density distribution of the air at increasin,3 height .`,Yith
uhe help of the dia,,rams and tables given here "he life of the satel-
lite as well as the change of its orbit parameters with rnpect to
time can be deteriained quickly.The equations used here were coal)uted
bymeans of the electronic rapid ~-om ..,utor BESK, of the AcadF-my of Sci-
ence of the U.S.S.R.Becaaue of th~~ hitherto unkno-,-.ri dependence cn
height of the air dezzity,the nucerical rt;,saltr, ~;Ivcn here are natu-,,-
The Determination of the Life of ar. Artificial sat,114t 53-1a-3/18
- V
and tho Invest.'eation of the St.-c~ilar Perturbations its Orbit.
ally suited only f -r te:tporary orie.-.tation.Thc; ---.--orded by
the satellites "'ill make it -jossible to carry c).zt Computa-
tions .
The aendence of the donsitL, of the cUmpsphere _t_)on heiz.,tj Aa ap;ro-
ximated for-;ala for this de " ia &iven.
The egaation of motion: The motion of the satellite iu ~,eter.-Iined
here by makinc US-3 Of the 000LIIdtor~, orbit IL-.h;- correspon-
ding equatiolir, of aotion are written (iown expli,?-tt1,y.This ~~jutem of
equatiore is then trarsf orned. b-;7 aeans of the kaci,.i ccle,t ial .,eaha-
nical theore,-,-Is. Eq7_iationij for the variable llar~~U;,ent of bradth" U
are more ouiable for computatiuns than the e,,-Lu-:!Aionu of %.-ic tvru-_~
anomaly -v,, .
The method of the determination of the life ~f an artifirial Gatzl~
lite: The a-atho_rs here investigate the motio.,, of tht~ 3,att-,11-4te In
the ierrcstrial atmosphere in the case of a aent-3%,_l ,ravitational
field o--,' the earth.The si"ultaneous ,.,otion of tats a'-Io.-I-here to:,e-
ther -sith thle daily -~..vol"tion of the earth is _~.e~;lk~cteA herc.The
corresponding sy3te.-i of equations is 1&iven.The resi-Aarx- of the at-
cios-7,here docs iot cause s-.~ou'ar -.~i-t urbat ions of the i,,cdal len:.-th and
the inclination of the orbit.Th- problem Inve5tigate-C hore Loa's to
the inter-ration c;f a a.,ste:j of twc, difl'erential
C,
Card 2/4 out of inte:-ration is discuszed.Th~? coaD-utaticna arc carried out
U -
The Deteraination of the Life o-f an 114,.'~ifiaial Sate"ite 53-1a-3/1
8
and the InventigfLtion of t'Lie Sec -alar 1?ertu rb:it ions of its Orbit.
here for the initial height of tite apogee haom 16oo '.:m and for in-
itial heights of the perigce 16o km