SCIENTIFIC ABSTRACT SINYAK, K.M. - SINYAKOV, V.I.
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December 31, 1967
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SCIENTIFIC ABSTRACT
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LESHCHENKO, P.D.; SINYAK, K.M.
Mass irmunization of the popu- a Aen of the Ukraine witil live polio-
myelitis vaccine and its epidemiological effectiveness. Zhur. mikro-
biol., epid. i immun. 41 no.12:9-IJ, D t64.
(14IRA 18:3)
1. 1-tinisterstvo zdravookbraneniya UkrSSR, Uzhgorodsk-y institut
epidemiologii, inikrobiologii i giffiyony.
SINYAF,, V., polkovnik, kand.voyennykh nauk
Does the machine direct the battlel Starsh.-serzh. no.2:27
F 161. (Electronic calculating mac'hines) (MIRA 14:7)
(Military art and science)
SINYAK) V., polkovnik
Prospects for the development of military communications (as
revealed by foreign press data). Voen. vest. 42 no.8:1~~122
Ag 162. OURA 15:7)
(United States-Commmications, Military)
SINYAK, V.S.; SHIRYAYEV, N.P., red.; CHkPAYEVA, R.I., takhn. red.
[Military applications of electronic computers]Voennoe pri-
menenie elektronnykh vychislitellnykh mashin. Moskva, Voen-
izdat, 1963. 166 p. (MIRA 16:4)
(Electronic computers)
(Electronics in military engineering)
~.: I !,~ ". 0 :,., -1,
.. #I - , :. ,
* , I- ~!~ L -d c
.1r,,7; of' autor.--a-.ed s-,Ve, - , ni trol
s ~-, "L I& n mg ar on
if in tr:~- IVYA. I crg.llekh. v stroi. i proekt~
! I c - -2 - I',- - 13 164, (MIRA 18s.10)
S/094/61/000/001/001/007
E073/E335
AUTHORSg Nekrasov, A.S. and 'M k-Y-12 -
TITLE- Comparison of the Specific Consumptions of
Electricity and Gas in Heating Processes
PERIODICAL. Promyshlennaya energetika, 1961, No. 1,
pp. 4 - 9
TEXT: The specific consumption is determined for insulated
holding furnaces of the conveyo 5 or pusher type with specific
loading rates of 150 - 2202kg/m hour for normalisation
annealing and 40 - 70 kg/m hour for annealing, gas cemen-
tation, etc. A comparison is made for characteristic hourly
rates of gas furnaces and electric resistance furnaces of
equal productivity per unit of floor space. Induction
heating has not been considered. In gas furnaces iecuperative
air'5%ting to 400 OC was applied if the required temperatures
were 6oo 0C or0higher. On increasing the air temperature to
1 000 - 1 050 C a furnace efficiency of 38-42% can be
achieved in the case of non-oxiding heating. Preliminary
Card 1/ 4
s/o94/61/000/001/001/007
E073/E335
Comparison of the Specific Consumptions of Electricity and
Gas in Heating Processes
analysis has shown that for determining the efficiency of
utilisation of electricity and gas for heating purposes
it is sufficient to consider the following main technological
processes:
Card 2,, 1~
s/o94/61/000/001/001/007
E073/E335
Comparison of the Specific Consumptions of Electricity and
Gas in Heating Processes
Temper- Heating and Approximate
ature, soaking time relative aux-
t9 0C I*r_*, hrs iliary times_
Tempering low temperature 150-350 1-3 0.2
high temperature 350-650 1-3 0.2
Annealing 700-900 3-6 0.3
Hardening and normal-
isation annealing 850-1000 1-3 0 3
Carburisation 900-950 6-io 0:5
Heating to the forging
temperature 1100-1250 0.5-1.5 0.1
The comparison is made solely on the basis of heat consumption
and not on the basis of costs, i.e. the electricity consumption
in kW/ton is compared with the consumption of natural gas in
nm 3/ton of material to be heated. The use of the derived
relation is illustrated on the example of heating a cylindrical
Card 311,
s/o94/61/000/001/001/007
E073/E335
Comparison of the Specific Consumptions of
Gas in Heating Processes
component to 1 0000C in gas and electric
authors recommend that electric heating be
from the higher temperature range of 1200
Electricity and
furnaces. The
introduced starting
- 800 0C and then
in the temgerature range 6oo - 200 OC. In the temperature
600 - 800 C gas heating is more efficient from the point
view of heat consumption. The proposed relations enable
evaluating in the first approximation the changes in the
range
of
specific heat consumption as a function of the temperature and
the heating time and revealing the separate influence of each
of these factors on the specific heat consumption. The
divergence between calculated and measured values of heat
consumption varied between 2.9 and 14.4%, the calculated values
being lower in every case than the measured values.
There are 5 figures, 2 tables and 5 Soviet references.
Card 4j~-
BESSONOVAY I.N.; SINYAK, Yu.V.
dorrelation between the abundance of electrical equipment and
labor productivity in the U.S.S.R. and the U.S.A. Obshch. energ.
no.6:58-71 163. (MIRA 16:10)
(United States-Electric power)
(Electric power)
NEKRASOVY A.S.; SINYAK, Yu.V.
TeWerature boundary in the fields of application of electric
power and natural gas in heating processes using pyrometallurgical
and electric resistance furnaces. Obshch. energ. no.6:83-88 163.
(KRA 16:10)
(Electric furnaces) (Smelting furnaces)
SINYAKY Yu.V.
Temperature boundary in the fields of application of electric
power and natural gas in heating processes using pyrometallurgical
furnaces and induction heating system. Obahch. energ. n0.6--
89-94 163. 1. (KIFA 110)
(Electric furnaces) (Smelting furnaces)
SINYAK, Yu.V., inzh.
I
/./
Using the mathematical method of the theory of games in
substantiating the optimum variant of a production process
for a long-term period. Vest. mashinostr. 44 no.8:78-82
Ag 164. (MIRA 17:9)
NEKRASOV, Aleksandr Semenovich; SI-NY-AK, Yuriy Vladimirovich;
ZL,,iT(jFOLISKIY, A.11., red.
[Economic aspects of power engineering for heatL-,g process-
es] Ekonomikp. energetiki protsessov nagreva. MOSI'va
Energiia, 1965. 134 P. N i RA 19 - C, ~
2o_li&4_28/6~
AUTHORS: Sinyak, Yu. Ye., Roginskiy, Sj 'Z.,Corredp6hding
I -796-im-Fir -9f - fh-e AS *.U5SR, Yanovskiy, M. I .
TITLE: The Isotopic Exchange of Carbon Dioxide Chemically Adsorbed
on an Iron Catalyst in the Synthesis of Ammonia (Izotopnyy
obmen C02, khemosorbirovannoy na zheleznom katalizatore
sinteza ammiaka)
PERIODICAL: Doklady AN SSSR, 1958, Vol. 118, Nr 4, PP- 727-730 (USSR)
ABSTRACT: The catalytic synthesis from nitrogen and hydrogen at an ison
catalyst with aluminum- and potassium additions has already
often been studied. The nature of the accelerating effect of
these additions has hitherto remained unexplained. The second
author emphasized in a previous work (reference 2) the exploi-
tation of the velocity measurements of the isotopic exchange
between the atoms of the surface and the gases. The kinetic
isotopic method has a number of advantages, campared to the
former methods (references 1,3-5) suggested for the study of
the heterogeneity. If it is used, the probability of a re-
distribution of molecules decreases and all measurements are
Card 1/4 carried out with an unchanged filling of the surface, which
The Isotopic Exchange of Carbon Dioxide Chemically Adsorbed 20-118-4-28/61
oA an Iron Catalyst in the Synthesis of Ammonia
is essential. The exchange velocity of chemically adsorbed
cgrbon monoxide at the same catalyst has already been studied
(reference 6). The velocity constant of the exchange decreased
gradually in these experiments which cannot be explained by
the influence of the interaction. The iron catalyst was double-
-activated, reduced, and passivated outside of the reaction
system. Active carbonic acid was produced from B&C14o3 and
H2SO4 of 96,c,o. The inactive carbonic acid was formed in a py-
rolytic decomposition of N&2CO3' Pigure 1 gives a scheme of
the experimental plant. The lower curves of figure 2 show that
adsorbed C02 i*n atmosphere of CO, H21 and Ar at a pressure
of 500 mm torr. is not desorbed. In the case of presence of
C02 ijthe plant a quick rise of the activity is observed in
the gas phase. After the equilibriut had been reached C02 Was
freezed out in a calibrated container ( figure 1,4) which was
fitted out with an end-counter MST-17. Then the total acti-
vity (A IAust 'A Iobm) of the CO 2 was determined. It was found
that AIkust forms a quantity of approximativelY 0-50,46' of the
Card 2/4 total quantity of the a!dsorbed C14 02* Then an equal quantity
The Isotopic Exchange of Carbon Dioxide Chemically Adsorbed 20-118-4-28/61
6n an Iron Catalyst in the Synthesis of Ammonia
of inactive C02 was introduced into the catalyst. The activity
(AIIAust) in the gas phase increased unimportantly. This ope-
ration was carried out a second time. No rise of the activity
4 IIIAust) was found in the gas phase. Then the reactor was
heated up to 4750C. Thus an activity appears in the gas phase
which amounts to approximat _,ely 2o% of the total activity
which was absorbed by the contact. Only the introduction of
hydrogen at 4750C into the circulation makes possible the con-
sumption of the residual activity. Figure 3 shows the second
experimentla series. The trained catalyst had to absorb a cer-
tain quantity of inactive C02 and then a strictly dosed quan-
tity of active C140 2' Then the kinetic experiment was carried
out. In the second experiment an equal quantity of C140 2 was
absorbed by the catalyst immediately after the draining and
then the curve of the isotopic exchange was recorded (figure
3). Hence follows that the exchange percentage depends on the
Card 3/4 sequence of the absorption. If C140 2 is absorbed first, the
SINIAK, Yu. Ye., Gand Chem Sci -- (diss) "Hadiochecuical research into
indu--trial catalysts in ammonia synthesis." Moscow, 1960. 10 pp; (Stat,
Committee of the Council of 1,inisters USSR for Chemistry, Order of
Labor Red Banner Scientific Research Physical Chemistry inst im L. Ya.
Karpov); 11-0 copics; price not given; (KL, 27-60, 149)
ROGINSKIY, S.Z.;, SINYAK, Yu.Ye.; YANOVSKIY, M.I.
Investigation of the surface of an alkali promoter of the ammonia
catalyst by mean of the isotopic method. Probl. kin. I kat.
10:210-213 160. (MIRA 14:5)
l..Institut fizicbeskoy khimii AN SSSR.
(Catalysts) (Alkali metalloxides) (Alkaline earths)
`V.; SINM Yu*Ya*
KRYLOV, 0. 2
New catalysts for the polymerization of ethylene oxide. Vysokom.
soed. 3 no.6:898-900 Jo 161. (MIU 14:6)
1, Iwtitut fizicheskoy kbi-ii AN &SSR.
(Ethylene oxide) (Polymerization) (Catalysts)
j002/oo5/002/007
S/07205/4/E61326
AUTHORS: Krylov, O.V.9 and sinyakt yu,Ye.
TITLEt Catal~sts for the polymerization of ethylene oxide
PERIODICAL: Neftekhimiya. v.2v no.5, 1962, .688-696
TEXT: The authors investigated the polymerization of
ethylene oxide on several oxide's and hydroxides of alkali-earth
metals to establish rules for the selection of effective catalysts.
The materials examined were oxides. hydroxides and carbonates of
Ca, Sr, Mg and Be, Ba(0H).1 CaSO,,, Ca(H ?*H C&F29
2P01d. 20'
SrCl 2' 9&CO39 BaS04, Zn(OH )2' ZnCO 3' -FeOOH, Zr(011)4#
Ni(OH) 29 Th(OH)4, Co(OH) Cr(OH) 39. AI(OH) 39 wilica gel,
3*
siiica-alumina. Catalytic properties of N&CJL, (Mild2 CO3 and
semiconductors ZnO, GaAs, etc., were investigated for purposes of
coo arison. The catalysts (0.2-0.5 g) were activated (75-450 *C'
10-9 mim Hg) and then sealed in an ampule. A part of the ampulo
was filled with ethylene oxide (5 of in 5 mf benzene) and separated
from the catalyst by a glass partition. The polymerization started
Card 1/3
Catalysts for the polymerization- S/204/62/002/005/002/007
E075/E136
by breaking the partition. The most active hydroxide was 13e (OH ) 2
and BeG produced in the ampule by heating Be(OH)2 under vacuum.
At 90,C BeO and Be(0102 gave polymers having the molecular weight
of loo 000 - 175 000, the rate of polymerization ranging from 1.3
to 6.2 millilljoles/m2. hours, f-19C03-~',90102-H201 MgO formed from
Nfg(OH);, SrC03 and C&O formed from CaC63 also had high activity
at.90 C, giving polymers having the molecular weight of 25U 000,
350 000, 1 000 000, and 6oo 000 respectively, the rates of
polymerization being 5.7, 1.45, 6.1 and 2.6 millimoles/m2.hour
respectively. Certain salts and hydroxides of Fe and Al also have
high catalytic activity. In general the active compounds of
transition metals have electronic configuration do and d.
3+ 1* + 4+ It +
(Fe Th Zr Ti The acidic catalysts (e.g. silica-
alumina) were not active. The molecular weight M 'of the
polymer increases as follows:
c C
M = av .oso (7)
1
Card 2/3
Catalysts for the polymerization... S/20ii/62/002/005/002/007
E075/E136
where: V volume of ethylene oxide, mf ; a - constant;
C. and c initial and final concentration of ethylene oxide
respectively; SO - catalyst surface occupied by the active
1 1,
centres at t = 0. For co - c = consto ;i varies linearly with
0
SI. The apparent mean activation energies for the polymerization
on various samples of Be(OH)21 BeO and BeO-CO2'5H20 ranged
from 8.7 to 17 kcal. The reaction was most pr:obably not diffusion
controlled. The authors conclude that for the alkali-earth
hydroxides at go *C the proportion of active contres decreases with
the increasing atomic weight of the metal, but the activity of the
individual centres tends to increase with'the atomic weight.
At 20 0C the order of the activities in reversed, since the energy
of activation increases with the atomic weight of the metal.
There are 3 figures and 6 tables.
ASSOCIATION: Institut khimicheskoy fiziki AN SSSR
(Institute of Chemical ]Physics, AS USSR)
SUBMITTED: May 5. 1962
Card-3/3
ACCESSION NR: AT4o37681 6/2865/64/003/00010089/0103.'
AUTHOR: Golldshvend, B. L.; Gusirov, B. G.; Iabanov, A. G.; Sinyak,.Yu. To.;
'TereGhchonko, A. P.; Chizhoy, S. V.; Shilov, V. M.
TITIZ: The-recycling problem under prolonged spaceflight cond4'.or
SOURCE: AN =SR. Otdolentye biologlc~eskikh nauk. Problemy' Vos,.1cheskoy Aologilt,
v. 3, 1964, 89-103
70PIC,TAGS: manned space flight, life support, closed ece-o-Ical system,, waste
recycling, respiration, toxicologys" algae, nutrition, phr" ynthesin
ABSTRACT: Biological recycling of wastes on spac eships , --in v4%A:LA'.:*-q boti. . trobic
and anaerobic methods. Apparently liquid wastes can bw j~-_oce-ssad by of
aerobic oxidation, while solid wastes require anaerob"; methods. ?be
of the aerobic method are: the high speed of procer,*.ng in an a*rota.-. c.U.-ti-
of oreanic substances down to OD29 and the ability ~r. control the opm -c., rri
process by means'of regulating the rate of *oxygen 11 -r., The d1sadvantA ~,f: of t' -
method is the large amount of oxygen required. Thf advantages of the :rjorobl,;
method consist of the absence of Urge air roq%4r~ iD+.s and a smil ..w a rw,Llr-I
ment. The disadvantages of this latter pmess'.art ukw slow rate of p, ooeW.Ag
ACCESSION NR: AT4037681
and the production of a large amount of harmful.taseag particularly methane, makine'
the mixture explosive. Another method which can be utilized in a closed ecological
system is a biological method of processing wastes with participation of photosyn-
thesis of algae. The advantage of this method to that it takes place in the 1
Ian,
91*d
and the oxygen required for bacterial oxidation.of organic substances in obtai
of
from the photosynthetic activity*. Bacterial mineralization of organic aubstanc
so-
is accompanied by photosynthetic building up of,cell bodies of the algae. Con
quently, this process involves the utilization of substances contained in human
and animal wastes for obtaining algae which can, in turn, nerve as a source or food
for man and animals. The following are the chief dioadvantages of the above indi-
cated biological methods: small probability of complete recycling of wastese,'the
difficulty in obtaining products which are qualitatively and quantitatively Con-
stant; the uncertainty of adaptation on the part of microorganism to unknown
space-flight conditions (the possibility of mutations, etc.); the difficulty in
controlling the rate of the processes; and the possibility of the appearance and
-accumulation of toxic by-products. Physicochemical methods of mate recycling cen
also be used. By means of these methods, it to poaaibl* to separate the soluble
from the insoluble parts, extract useful substances from solventag provide for '!~ -
combustion of insoluble substances to obtain gases and solids, and synthesize the*
gases and solids into required substan~,es.. Recycling of wastes, bas" on
215
7
777
:AGGk;b5IUN NR: AT4o37681
Iphysicochemical methods can include the following: extraction of substances from
'wastes which can be used directly, mineralization of organic substance obtain-
iment of products of definite chemical composition from ash and gases, and synthesti.
;of nourishing solutions. The recycling of carbon and nitrogen in a closed ecologi.-;
!cal cycle cnn be performed by physicochemical processes. 002 gas exhaled by man I
Ican be used directly by plants. Soluble carbon compounds can also be utilized by
iplants for nourishment. Insoluble carbon compounds can be transformed into 002 by
-means of heat treatment. The C02 thus obtained can either be stored for supply
t
~purposes or can go directly to the greenhouse. Nitrogen products found in wastes
!can be extracted and used for feeding plants and possibly even animals. The
remaining nitrogen compounds can be used for mineralization, which can be accomp-
lished by various physicochemical means. An outline of such a scheme utilizing
lphyGicochemical processes can include the following: a unit for the collection of
'wastes, from which the products proceed to a second unit where those that can be
utilized by man or other*living organisms are extracted directly. The remaining
substances proceed to a mineralization unit. While the Cases produced during the
rmineralization process are trapped and separated, the*insoluble inorganic salts
are transformed into soluble ones in the next unit. Part of them go to living
organisms while the remainde:. Zo to a unit for obtaining inorganic compoun". The
Lby-products thus obtained are then converted into nourishing mixtwmee
V5
ACCESSION NR: Ar4o37681
fl
At the Present time it is difficult without experimental data to make a precise
evaluation of this type of cycle, but it is possible to estimate the weight of
e as 400 to 500 kg for a crew of five. Even if this weight were to be
such a cycl
doubled, it would still be considerably less than the required weight of mineral
I.salts for green houses in a life-support system based on stored supplies@ A d
900
recycling system should have the following characteristics: a minimum system of
units necessary for processing wastes, use of common processes for transformation
of elements contained in wastes into definite compounds, a maximum rate of proces-
sing these products, the inclusion of only those substances which are-involved In
the recycling. In addition to the above, it should have the following character-
V istics: minimum weight and size, minimum energy requirements, simple reliable
construction, use of stable and highly resistant materials, means of preventing
toxic substances from seeping out-into the space cabin, and absence of'proceases
not required for recycling. A comparison of biological methods, an the one hand, A
and phyricochemical methods, on the other, shows that the latter have a number of
Iadvantages, including the possibility of complete recycling of wastes, short dvlrt#-'
tion of the recycling process, the possibility of obtaining separate substances
and required nourishing solutions of predetermined composition, and the use of'
,processes which are widely used in chemical engineering. The disadvantages includi,o_
thigh energy utilization and complexity ofequipmpnt. However, these are offeet, t0j;
ACCESSION NR: AT4037681 j
a certain extent, by the use of solar energy and the latest materials and methods
of physicochemical processing. It should be noted that each mission requires the
recycling of only those products required by that mission. This means that, in . :
6ome cases, life-support systems will require only the regeneration of water. The
fact that physicochemical processing has been very well studied in comparison to
biological processing makes,it probable that phyeicochemical recycling will be
used in the first experimental closed ecological systems. However, it should be ~1
borne in mind that the optimum systempf utilization will be based.on-the use of-
biological as well as physicochemical processes
ASSOCIATION: none
SUBMITTED: 00 ENCL#* 00
SUB CODEs pot ~A OTHER:
NO REF SOV: 022 008
Caid'--
- - ------- -
- - ---------
-------------
ACCESSION NR: AT4o37682 S/2865/64/003/000/0104/0112
AUTHOR: Sinyak. Yu. Ye.; Chizhov, S. V.
TITLE: Water regeneration in the spaceship cabin
SOURCE: AN SSSR. OtAeleniye biologichookikh nauk. Problemy* kosmicheakoy
biologii, v- 3, 1964, 104-112
TOPIC TAGS: manned space flight, water regeneration. life support, catalysis,
solar energy
ABSTRACT: Regeneration of water of a spaceship is necessary on flights laa
ing more than two weeks. A catalytic metbod of regenerating-water from human
body wastes is described. This method uses simple equipment, does not require
high vacuum or low temperatures and requires a minimum of energy because solar''!
energy is used. Water.~regenerated by this method exceeds conventional re-
quirements for potable waiter and has properties similar to those of distilled
water. Consequently, certain salts suet be added in order to approximte the
taste of water to which humans are accustomed.
ASSOCIATIOK: none
ACCESSION NR: AT4037682
SMrrZZD: 00 - , ' ENCL: 00
NO MW SOV: 006 s 013
I
I
N
nINY41F., Yu,yf-
Pcf,Ttblll"'7 Cf eynthe--!s z-.f' carb-hyldra-,.,~~:, ',n ;;
. I ,
sl%!?-es~dp vabin. ?rob!. knsm. bi-c:. ; -, 4.C;--- -409 -- - .
fj,j-rf).,; -~ .7:~ 6 '
- j
Gull *,AlBANov , fl.G. S I Nyl"K, YU. YO.
S.V.
T!
ation for a
-,,lytj!roch-,rndr-al chaLn cf u.tiliz,
lirr,lorip-I zc,-,~w-o flight.. Probl. kn!3ri. blol. 3:193-197 164.
(mlwi 17: b)
GOLTSFIVEND, B.L.; GUSAROV, B.G.; LOBANOV, A.G.; SINUK, Yu.Ye.; TERESHCHENKO,
A.P.; CHIMOV, S.V.; SHILOV, V.11-1.
I
Problem of re-eneration in
pro onged space flights. Probl. kosm.
biol- 3:89-103 164. A (MIRA 17:6)
ACC NR, AT6036606
SOURCE CODE: UR/0000/66/000/000/0245/0246
AUTHOR: Kuzn0tsov, S, 0.; Sinyak, Yut Yo.; Shullgina, L L.
ORG: none
TITLE: Problem ofthe catalytic method for the mineralization of human vita,
activity products LPapor presented at the Conference an 2robleas of Space Madicine
held in tbscow from 24-27 M2y 19661
SOURC--: Yonferentsiya po problemam kosmicheslcoy maditsiny, 1966. Problemy
kosmicheskoy meditsiny. (Problems of space medicine); materialy konferentsii,
NDscowp 1966, 245-246
TOPIC TAGS: life support system, biologic metabolism, metabolic waste
ABSTRACT:
Several methods- of mineralization of human metabolic7 wastes exist:
combustion, pressure cooking, and catalytic oxidation.
In view of the fact that combustion requires high temperatures whiled
pressure cooking requires high pressures, thO developrm-nt of.catalytic
oxidation acquires importance since the process can take i)lace iinder
more moderate conditions..'
card 1/3
AC -C N-R, AT6-0-3-66-06
Investigations wei*e cdiidu'cted under laboratory conditions using two
different methods:
1 - direct oxidation of metabolic wastes in the catalyzer and,
2 - pyrolysis of wastes followed by oxidation of the_products in a
patalyzer.
The second method has the advantage in that it solves the problem
of extraction of the inorganic residue from the surface of the catalyzer.
Experiments have shown that when air (and, during final stages of
combustion of the polycoke remnant, * oxygen or oxygen-enriched air),
is used as an oxidizing agent on a platinum or hopcalite. catalyzer,
*almost complete oxidation of organic compounds found in urine or urine-
.fecal mixture. is possible. Optimal conditions for the process are
150-2000 temperature in the pyrolysis zone, 250-300* temperature
in the catalytic zone,- and normal atmospheric pressure. When these
temperatures are reachedthe process continues at the expense of
heat-producing oxidati .on reactions which do not require'additional
external heat.
The end products are composed of ash, condensate, and gases
(which in the main consist of CO nitroaq;i,..ARd qr c
_gu~phi~r . _ _ .' :
_Oani
ACC NR- AT6036606
nitrogen compounds are oxidized to nitrogen or ammonia taepenaing on
Ahe temperature in the catalytic zone).
A relationship exists between the kinetics of gas products and
;changes in the temperature d i v- the. course of. the process...
ur.n
A. No. 22; AM Report 66-116
_7
SUB CODS: 06 / SUBM DATEs OOKV66
3/3
016-4-2LV24
Cand.Tech.Sc., Sinyakevich, B.G., Bn~-ineer
AUTHORS: 'Inukov, A.K.,
and Chaban, 0. 1. , En~_,ineer.
TITL~P;: Therdal-lossec, resultins from ext-'ernal coolin-- of sets
.1 U
v.!o-kin,-- at 'ri,,-,h and ,uper-hiC,.,_- ste,121- conditions.
(Teplowjye poteri ot naruzhnogo ok-hlazhdeniya. blokov
vysoki1-ch i sverkhvyso1r1i1di para;.ietrov)
PERIODICAL: TeDloen-_7.r'~'etiku, 19581 ~10.49pp.94-95- (USSR).
ABSTUCT: In 10.57 the Southcrn Division of OTRGPLL~)'S tested -the thermal
'; -pr-:~ssure
insulatio.a of a hi-i set in the Pridneprovsk
re ;;ional poz-er station and of a super-hiGh-pressure set
ir, the Cherepetsh- Power Station. Measurements viere made
of the ther-aal losses throuGh the insulation and of the
distribution of -the losses between sets and equipment.
Ther-2al losses from particular parts of the sets are
tabulated. In the iiiLr,-h-pres sure unit, 1.2G-Plo of the total
head -;.-as -o L,
11 ,as_in!~ throuGh the insulation, and in th~ super-
hi~~h-proscure sets 1.4Wo. Not all this heat is wasted
becau,e so.-..~a returns to the boiler viituh the air blast.
About 8050' of the losses occur in the boiler-house. The
losses are Greater in the super-hiCh-pressure set because
ti-le temrei-ature is hi-her and the pipin- is lonCer.
Card 1/2 Co_-'13idera],)le ther-aal losses occur throuL;h uninsulated
Theriual-losses rc,--ultuin~ fi-or c)r,--11.-2lV24
1 e-zternal coolinG of serfs -;.,Orkin~; at
hi-i-h and supe.---hiEh stea:a conditions.
LJ
parL"s of fittin-s. These forim about a quarter of all
&Z,
the th-.~rm,.J losses. Shroudin(,7- the insulation with
inium sheet s,;iall reduction in the heat loss.
alun, 0
There is 1 t,,;,-blc.
AVAILADL,~': Library of Congress.
Card 2/2
VNUKOV, A.K.skand.tekhn.nauk; SINYAKEVICH, B.G.,inzh.; CHAUN, O-I-,inzh.
Investigating heat losses to neighboring media in electric power
plants equipped with highs- and superhigh-pressure units. Blek.
eta. 29 no.11:19-22 N '58, (MIRA 11:12)
(Ilectric power plants)
SINYAKEVICH, B.G., inzh.
Device for automatic determination of inCOMplete chsMiCal
combustion and correction of the fuel-air balance. F.Isk.
sta. 34 no.3:26-28 Mr 163. (MIRA 16:3)
(Gasea-Analysis)
(Boilers) (Furnaces)
SINYAKEUGH, D.G.p inv.1i,,
Redesigning of the gas burners of TGM-84 boilers. Elek. Sta.
34 no.7:76-77 J1 163. ~ (MIRA 16:8)
VOLODARSKIY. V.: SINYAKIN, F.F., red.; CHGTIYFV, S.. tekhn.red.
(Economic effectiveness of the mechanization and automation of
p~oductionl Bkonomichasknia effektivnost' makhanizataii i avto-
mati2staii proizvodetva. Frunze, Kirgizskoe goo.izd-vo, 1958.
61 P. (MIRA 13:4)
(Automation) (Machinery in industry)
USTINOV, N.P., inzhener; SINTAKIN, M.G., in2hener.
Defects in the leaf springs of the TX and T22 diesel locomotives.
Ilek.1 tepl.tiaga no.9:13-15 S '57. (MIRA 10:10)
(Diesel locomotives) (Car springs)
SINTrAKIN, M.G., kand.teichn.nauk
Checking steam locmotlve wheel pairs and adjusting thea. Sbor.
LIIZRT no.16o:176-192 '58. (KTRA 12:5)
(Car wheels--Testing) (Locomotives)
lop
SINYAKIN, M.,G*,,doteent, kandtekhn.nauk
Relationship between values of slide valve travel and changes in the
length of the slide valve link. Sbor. LIIZHT no.168:107-119 160.
(MIRA 13:10)
(locomotives--.Construction)
SINAKIN d.tekhn.nauk; CRILYAKOV, A.S., inzh.--tekhnolog
Device for the removal ct=ztures. Elek.i tepl tiaga 5 no.11:9
N t61. NIR& 3,4:3-1)
(Electric railway motors-Maintenance and repair)
SINYAKIN M.G., kand.tekhn.nauk, (Voronezh); CHILYAKOV, A.S., inzh.-tekhnolog
-'~~To-ronezh)
Our method for modernizing.the collector bushing of the arnature of
the MP*9/47 generator. Blek. i tepl. tiaga 7 no-4:1&19 Ap 163.
(MM 160)
(Diesel-'locomotives)
ASSONOV, V.A.; DOKUCHATET, M.N.; UJKMOT, I.X,; -MIKMATEV, N.A.. retsenzent;
ROSSI.- B.D., retsenzent; SWAXIN, P.Ter ratsenzent Edeceasedj;
DIMIDYTX, G.P., kmnd.tekhn.~a4,-nSuchnyy red.; GCMOTA, 11,A.,
red.izd-va; STWANOVA, I.S., tekhn.red.; RtMAKOVA, N.I., tekhn.red.
[Boring and bbisting operations) Buroviryvnys raboty. Moskva, Gos.
izd-vo lit-ry po stroit., arkhit. I stroit.mterialam, 1960. 40~
(MIRA 13: 10
(Boring) (Blasting)
AMOSOVA, V.V.; SINYAKIN, S.I.
Mechanical suture in a mannary-coranar-
y anastomosis. Uch. trudy
GMI no.19:247-254 165. (MIRA 18:8)
1. Iz kafedry operativnoy khirurgii Gorlkovskogo gosudarstvennogo
meditsinskogo instituts. Lmeni S,M.Kirova.
ACC Nilt A' 6035502
k A SOURCE CODF: UR/0135/66/000/01I/002210023
Sinyakin V. P. (Engineer)
ORG: none
TITLE: Welding alloy in a helium at~wsphere
SOURCE: Svaroctinoye proizvod.,;tvo, no. 11, 1966, 22-23
.TOPIC TAGS: aluminum, magnesium alloy, alloy TIG welding, he1ium rc welding,
P i
wold matal strength, weld matal ductility/Mg6l alloy
APSTRAM-: E-,qpc rime nts have been made with joining large M1.1g6l aluminum-alloy cr s
soctions by manual helium-shielded arc welding with a tungsten electrode. Preli=~ry
exporinmonts showed that in helium-arc welding with AMg6l alloy filler wire 5 r= in
dia,-i-i--ter the weld ratal deposition efficiency was 3.6 g/arp.hr corpared with the
a
go'n-arc metal CiLposition efficiency of 1.68 g/amp-hr. Helium-arc welded joints in
~'~'S61 alloy plat~-s 20 m,-,i thick had a tensile strength of 31.1 kg/mm2 and a bend angle
0i: 130 deg, compared with 33.1 kg/mm2 and 56 deg for argon-arc welded joints. No
pares or other defects were detected in helium-arc welded joints, while an appreciable
porosity was observed in argon-arc welded joints. All joints had a satisfactory
corrosion resiszance. In the next experiments, forged bars 160 x 250 x 200 M were
!.welded together in the do~-m-hand position with AMg6l alloy filler wire 5 mm in diameterl.-
a water solution of.the 34A flux brushed onto the faying surfaces and filler
Card 1/2 UDC: 621.791.754:546.291:669.715-
L 09932-6-1
ACC NR: A? 6 0 3 5502
jr4ro. During welding, each deposited layer was painted with flux. Bars were pre-
heated to 150-200C. Sound poreless welds were obtained with the weld metal chemical
co-.-.:position and -incrostructure corresponding to those of AMg6l alloy filler wire.
The hardness of the base metal and'oi the metal of the heat-affected zone was
77-80 HB, and that of the weld metal was 70-74 HB. In the as-welded condition the
weld wtal had a tensile strength of 28.0-34.0 kg/, andanelongation of 10-20%.
The corresponding figures for the weld annealed at 330C for 3 hr were 29-36.5 kg/MLZ
9.5-20.5%. At present, manual helium-arc welding is successfully used for welding
rings and flanges from forged segments, and other structures from sections more
than 20 mm thick. Orig. art.'has: 2 figures and 2 tables.
SUB CODE: 13/ SLBIM DATE: none/ ORIG REF: 005/ ATD PRESS: 5105
Card -2
12807-66 EWT(m)/EWP(j)/ZWP(t)/LWP(b) IJP(c) JDIRM
~61E_ NRi XP5028680 S__0_U`R'_C__k -d66i~-.--W631-81'65-16601011100251L76fg--'i
AUTHOR. G)rul'misaryan, T. G.; Gilyazetdinov, L. P.; Aksenova, E. I.; Shmeleva,
- a
R, I.- Khokhlov B. P.; Bystiov, K. !1.; 5 DVa V V Sinyakina, A. V.; Abayeva,
2
B. T., Okinshevich, N. A.
iCRG: N1IShP; VNIINP: Novo-Yaroslavl Carbon Black Pl!nLjNovo-Y&rosl&v9kiy nathevyy
zavod); Volgo ra&ACLrhgV DlaSk Plant (Volgogradakiy eazhevyy savod); Scientific
Research Technological Design In te (Nauchno-isaledovatellskiy konstruktorni-;
'-teWiii;Ti-j'UrWik1j' 17nii-Clit-ut-j-
TITLE: Industrial tests of new types 'of petroleum stock In the production oi
activated PH-70,furnace black /
SOURCE: Neftepererabotka i neftekhimiya, no. 11, 1965, 25-28
TOPIC TAGS: activated carbon, petroleum product, gas oil fraction, phenol
ABSTRACT: In "der to confirm and develop the results of earlier studies which
indicated that catalytic and thermal gas oil could be used in the production of
activated furnace black, experimental batches of initial sulfur and hydrofined
phenol extracts of catalytic and thermal gas oil were produced. The physicochemical I-
characteristics of the now types of petroleum stock are compared with those of I
green oil; in the degree of aromatizatLon they are 'identical, but in fractional I
composition, molecular weight, and viscosity, green oil Is slightly lighter* In-
dustrial tests confir.mad that hydrofined phenol extracts of catalytic pa oil, th*
Card 112 UDCs -66.095.21:547.21.001.5 F
L 12807-66
ACC KRs
initial sulfur-containing phenol extract of catalytic gas oil, and also mixtures of
thermal gas oil and green oil (in the ratio of 60:40) can be used In the production
of activated PH-70 furnace black In plants equipped idth cyclone reactors, a dry
system being used for trapping the black. Ocig, act* heat 2 figures and 3 tablese
9UB CODU 07 / SUNK DATRt now / ORTA RZrg 006 .
-6
jw
USSR/Human and Animal Physiology '(Normal and Pathological)* T-13
Effect of Physical Pactors. Ionizing Radiationo
Abe Jour : Ref Zhur - Biol.., No 16, 1958,, 752M
Author : Antipenko, Ye.No, MCebrov, K.M., Sinyakina, N P
inst
Title Influence of Extraordinary Stioll tion of the Nervous
System in Animals Which Transmit Radiation Sickness.
Orig Pub Tr. Vses. konferentsii po medo radiole Wperim. me..
radiol,J, m-Y medgiz.. 1957: 52-55.
Abstract Dogs (10) vhich underwent acute radiation sickness as a
result of exposure to Co6O in a dose of 650 r were sub-
jected to interference of food and defensive reflexes,
After the latter interference (in 10 months after exposu-
re) the number of leukocytes vas decreased by 60-65%, the
phagocytaric index - 3-5 tiraes, the quantity-of reticulo-
cytes - sometimes UP to 3 times. The content of erythro-
cytes and Hb did not chanae essentially. In the bone
Card 1/2
SIKYAKOV Ji.B.
- 66;;;=
. ~4- 41 -.,~ .
Organization and efficiency of hIgh-capacity maltiple-pattern
sectional production lines. Iag. prom. 18 no.Z:39-41 F 158.
(Clothing industry) (MIRA 11:2)
SINYAKOV, A.B.
ow tscl~
bnology In rwrafacturing non's coats. Leg.prom. 18
no.6:46 Je '58. (MIRk 12:20)
1. Glavnyy Inzbener Leningradskoy shveynny fabriki iment Tolodar-
skogo. (Clothing lnduatrr)
KOBTLYANSKIT, D.A.; SIMAKOV, A.B. (Moskva-Leningrad)
For advanced standards in the quality and grading of
clothing and fabrics. Shvein.prcm no-3.*13-17 My-Je 6o.
(MIRA 13:7)
(Clothing industry) (Textile fabrics)
SINMOV, A.B.; KUSIMR, B.A. (LeniDgrad-Moskva)
Experimental introduction of recirculating conveyers
with high productivity. Shvein.prcm6 no.3(:32-36 My-Je
16o. HIMA 13:7)
(Assembly-line methods)
(Clothing Industry-Squipment and supplies)
SINYWQY,,-.Aleksandr-.Borisovich; GALYNKER, I.I., kand. tekhn. nauk,,
-.-- red.; FREGER, D.P., red. izd-va; GVIRTS, V.L.j, tekbn. red.
[Measurement of pattern surfaces in the clothing industry] lzme-
renie ploshchadei lekal v shveinom proizvodstye. Leningrad,
1961. 16 p. (Leningradskii dom nauchno-tekhaicheskoi propagarkly.
Obmen peredovym opytom. Seriia: Shveinaia promyshlennost', no.4)
(K= 15:5)
(Clothing industry-Equipment and supplies)
SINYAKOV., A.B.; VOROBIYEV, VA. (Leningrad)
"IL" photoelecTronic machine for the measurement of pattern
surfaces. Shvein.prom. no.5:9-10 Jl-Ag [i.e.S-0] 161.
(MIRA 14:10)
(Photoelectric measurements)
(Clothing industry-Equipment and supplies)
SINYAKOV, A.B.
Experience of the Leningrad House of Fashion Designs. Shvein.-
prom. no.2gl7-20 Mr-Ap 162. (MIRA 15t4)
(Leningrad-Clothing industry)
SURAKOV, Aleksttndr 8omaovlh;.TSAREV, Nikolay IvAnovich;
.. .... I
KARASSEEV) V.K., red.
(Technology of the processing of men's suits made from
fabrIcs containing over 50','.' of lavsan fiberoi practices of
the Leningrad House of Fashion Design] Tekhnologila obra-
botki muzhskikh kostiLunov iz tkanei. soderzliashchi'kh svyshe
501. volokna l.avsEn.-, opyt 'Leningradsiogo Doma modelei. Le-
ningrad, 1964. 20' p. (MIRA 18;2)
SINYAKqy, Aleksandr Borisovich; ANTIPOVA,knisiya Ivanovna;
' k ~kv~' AMOY)WOVA, T.N., inzh.p
retsenzent: VIDMIOVA, R.I.2 prepodav.,, retsenzent;
GURIYANOVA, N.I., prepodav., retsenzent; DATNER, M.G.,
inzh., retsenzent; KARASEV, V.K., kand. tekbn. nauk,
nauchn. red.; GABOVA, D.M., red.
[Technology of clothing manufacture] Tekhnologiia shvei-
nogo proizvodst-va. Moskva,, Legkaia industriia, 1965. 409 P.
(MIRA 18:7)
ABASHIN, Georgiy Ivanovich; POWSUN. Grigoriy Nuradovich; KHEIN, O.Ye.
rateensent; BILTATETSrATA, L.Y., reteenzent; jVffAKQ".2-,.
retsensent. red.; KAMAYSTA, O.H., red.izd-va; KARASN, A.Z.,
takhn.red.
[Tungsten and molybdenum production processes] Tekhnologlia polu-
choixiia vollfrema i molibdene. Moskva, Gos.nauchno-tekhn.izd-vo
lit-ry pd"chernoti tsvetnoi~.metallurgii, 1960. 259 p.
(MIRA 13:10)
(Tu.ngsten-48tallurgy) (Kolybdezut-Astallurgy)
- ~ IVYAKOV.0 B.S. ., -
I Metastasis of a seminorria to the palatine tonsiI3. Vestn. otorino-
laring. 25 no.)899-IO'L 10 (MTRA 1,731)
1. 1z khi-rurgicheskogo otdalenlya ( zair. A.11* Fedorov) bollnitay
vodnikor. No.2 Moskovskogo--Cksko-V6lzhskogo otdela vodnogo zdra-
vookhraneniya.
SINYAKOV. G.F.
Resection of necrotic tissues and application of blind suture In
certain types of paronychia..Sov.sed. 18 no.6:28-30 Je 154.
(MIRA 7:6)
1. Is kafedry fakul'tatskoy khirargil (sav.-prof. I.D.KojsUll-
nikov) Chelyabinskogo usditsinskogo Instituta (dir.-prof. G.D.
Obrazteov)
(PARONYCHIA, surgery
*resection of necrotic tissues & application of blimcl
suture
(SUTMS
*b1 Ind, In resection of necrotic tissue In paronychia)
IlTrr-:~tin~ cert-ain forrr-~ of canaritia '0- e:q-ision o" ne-rrotic
tizmzslv, U-SiTI-7 penicillin an--i a Iblind, Suture". Clhel.vabinck, 1955-
Ezvercilavsk 1-1-dicaL Inst. (-C)issert,.~.tions for the De~--r"e of C-inciii:lte
Of Mlcriir-al Sciencf-s),
.0
letapis I N,) h
Knizhn?~y r November V55 - t-' smr
SINYAKOV, G.F.
Use of a prim
77-78 D'57
ORION
tight suture in pRnaris.
(DISEASM
Voen.mod.zhur. no.12:
(MIRA 11:5)
S INYAX~Vm _ G. 7. , _,
Skin grafting in fresh industrial injuries. Ortop., trays. I protez.
18 no.2:57 Mr-AP '57. (KLRA 10:8)
1. Iz kliniki fakulltatakay khirurgit (say. bafedroy - prof. I.D.
Korabollnikov) ChelyabinBkogo maditsinskogo instituta (dir. - prof.
G.D.Obratteo,r)
(SKIN GRAITING)
!!~ ~.~ (Chelyabinsk, Yuzhnyy SpArtak, d.6, kv*23)
Application of sutures in heart wounds. NOT,khir.arkh, no,2:86-87
Mr-AP 158 (MMA 11:6)
1. Kafedra fakulltetakoy khirurgii (zav. - prof. I*D. Korabellnikov)
Chelynbinskogo meditsinskogo Instituta.
(HEART--SURGSRY)
(St"URBS)
SINYAKOV, OT.F., (Chelyabinsk, Chelynbinskiy trnktornyy zavod, ul. Tuzhnyy Spartak,
kv.23).
Method for suturing the Achilles tendon. Yest.khir*80 no.6:ii6-n8
JeI5S (MIRA 11:7)
1. 1z kliniki fnkulftetskoy khirurgii (MV. - Drof. I.D. Korabellnikov)
Chelynbinskogo, meditxinskogo instituta.
(HES q wds. & inj.
Achiba tendon, technic for suturing (Rua))
SINYAKOV, G.F.
Treatment of fractures of the metatarsal bonea and phalanges among
workers of the Chelyabinsk Tractor Plant in the polyclinic. Ortop.
travm. i protez. 20 'no.2:3-6 F 159. (NUU 12:12)
1. 12 kafedry fakulltetskoy khIrurgII (zav. - prof. I.D. Korabell-
nikov) Chelyabbiskogo meditainskogo instituta (dir. - prof. G.D.
abraztsov).
(MMATARSUB, fract,
ocoup., outpatient ther, (Has))
(FINGBRS AND TONS, fract.
occup. phalangeal, outpatient ther. (Rae))
K c i
CIORINO
pnn t~u,
--re prnduc -'s
sc e nc
j,c)j,~T-j zea nc
e. a C t i o n 8 30 n o . 6 q 4. i, - q2 6 5,
. y c~ Mi a 3k 2p
P.N Belorl'35kO
InOtIl
ig6r-,.
4'
L 3:2023. 66 E I,% 'i ~ 1,; 1 ) /r,'i`I - - - - __-
.7 L 3/66/ooV0rj5/o4-I!/
0 SOURCE CODE: UiVo';~o~
U i," C, "-'-,;rel;,,ova, i. I.; qLaELnovic'h,_G-__P,; QiuAk2c,_QA_UA_
OEG:
TITIZ: investigation of the ionization of plithalocyanines
pri]da~jioy spelftroskopii, v. 4, no. 5, 1966, 429-433
TOPIC ViGS: p';,thaiocyanine, Ivuminescence spectrum, light polarization, proton intuer-
action, ._'-Lectron transition, ionization phenomenon
[
ABSTRACT: in view of the discrepancies between the results of numerous experimental
investir-ations of the spectral and luminescence properties of phthalocyanines, the
authors have used a structural approach and polarization-luminescence methods to ob-
tain new da-"-a on the protonization of phthalocyanines in acid solutions. The lumines-
cence spectra of solutions of phthalocyanine and of phthalocyanine It were plotted
with apparatus consistirvr of a diffraction nonochromator and an,,automatic recorder.
The polarization ineazurements were made with solutions cooled to liquid-nitrogen tem-
perature using a niodification of the same apparatus (described by one of the authors
in Izv. AN SSSR ser. fiz. v.. 22, 1407, 1958). 1he measurements were made at 700, 740,'
770, and 870 nm, in neutral, acidified, and acid solutions in dimethyl phthalate, and
in 98% sulfuric acid (the phthalocyanine Mg was dissolved in dimethyl phthalate). n2e
high valuer~ obtained for the luminescence polarization and: the characteristic struc-
ture of the spectrum offered unique evidence of low symmetry of structure of the ionic!,
Card 1/2 UDC: 535-37
L 3 2 C-, 21-
ACC NR: A116C)15591~
forms of the pht-np.10Cranines, and that in this case the electron transitions must be
simulated by fully aniootropic absorption and emission oscillators. It is concluded
on the basis of z1ic 6"ta that all the ionic forms of the phthalocyanine in an acid
medium are not s~-az-,ei;rical. 'Idle protonization of all the nitrogen atoms of the phtha-
locyanine is ii- 'co.,.rAete even in the strong 11~SO4 solution. The extra protons are
probably joined successively to the bridge nitrogen atoms vith increasing acidity.
Orig. art. has figures.
SUB CODE: 201 SUBM DATE: Y(Augo'55/ ORIG IW: 021/ OTH REF: 001
2
SINTAKOV, I., Imnd.tekhn.nauk
Cbemistry in printing. IUn.takh. 2 n0-8:33 Ag '58.
- (MMA 12:7)
(Printing machinery and supplies)
ZALESSKIY, B.; SINYAKOV, I.
Conference on the "Projection of the upper mantle." Izv. AN
SS,SR.Ser.geol. 28 no-5:117-121 Yy 163. (KM 17:4)
SINTAKOVO I,F,g red.; MVIN, D.N., red.izd-va; TAKKINA, Te.L..
tekhn.red.
(Handbook of consolidated indicators for estimated costs and
expenditure of resources; buildings and structures or city
electric transmortation systems] Spravochnik ukrapnennykh
pokazatelai smetnoi stoimosti i raskhoda resoursov; sdaniia
i sooruzheniia gorodskogo elektrotransporta. Moskwa. Goo.
izd-vo lit-ry po stroit,j arkhit. i stroit.materiales.
No.l. 1959. 73 P. (KIRA 13:6)
1. Russia (1923- U.S.S.R.) Gosudarstvennyy komitst po delan
stroitallstva.
(Local transit--Finances)
I.F., red.; KHAVIN, B.N., red.izd-va; TEMKIIIA, Ye.L., takhn.red.
(Manual on consolidated indexes of estinated costs and the
expenditure of materials] Spravochnik ukrepnennykh pokazatelei
smetnoi stoimosti i ra"ods resursov. Koskva, GosAzd-vo lit-ry
po stroit., arkhit. i stroit.materialam. No.l. [Buildings and
structures of the fishing and food industries] Zdaniia I sooru-
zheniia rybnoi promyshlonnosti I prodovollstvannykh tovarov.
1959. 99 P. WRA 13.-6)
1. Russia (1923- U.S.S.R.) Gosudaretvannvy komitet po delam
stroitallstva.
Orisherles-2quipment and supplies)
(Food Industry-liquipment and supplies)
SINTAKOT, I.P., inzh., red.; IFTINKA. G.A., red.izd-va; SHRMENA,
N.Y., tekhn.red.
(Handbook of consolidated indices of the estimated cost and
consumption of resources] Spravochnik ukrapnennykh pokazatelol
smetnoi stoimosti i raskhoda resursov. Koskva, Goo.izd-vo
lit-ry po stroit.. arkhit. I stroit.materialam. No.l. [Multi-
story industrial buildings with a network of columns 6x6 m. and
standard not-load of 1000-2300 kg./n2.1 Knogoetazhnye pro-
myshlennys zdaniia s setkoi kolonn 6x6 m L poleznoi normativnoi
nagruzkoi 1000-2500 kg/m2. 1960. 89 p. (KIRA 14:4)
1. Russia (1923- U.S.S.R.) Gosudarstvennyy komitet po delam
stroitelistva.
(Building--latimates) (Industrial buildings)
(qtructural frames)
SINYAKOV, -I.?.. red.; PXTROVA, Y.V., red.itd-va; RYAZANOV, P.Te.,
tokhn.red.
CUBndbook on consolidated indices of estimated costs and
expenditure of materials and labor; buildings and structures
in the lumber industry] Sprevochnik ukrapnennykh pokazatelei
smatnoi stoimosti, i rankhoda resursov; zdaniia i soorusheniis
prodpriiatii lesnoi. promyshlonnosti. Koskva. Gos.izd-vo lit-ry
po stroi., arkhit. i stroit.materialam. No.l. 196o. 166 p.
(MIRA 13:10)
1. Russia (1923- U.S.S.R.) Gosudarstvennyy komitst po delam
stroital'stva.
(Construction industry--Costs) (Sawmills)
SDIYAKOV inzh., red.; PATROVA, Y.Y., red.12d-va; BOROVNIM, M.Kot
tekhn.red.
[Consolidated standards for making estimtes for buildings and
structures] Ukrupnennye smetn" norsy us sdanlia I sooruzheniia.
Moslcva, Gos.12d-vo lit-ry po stroit., arkhit. i stroit.raterialan.
Mo.8. [One-story imltispan Industrial buildings with opens of 12,
15. 18. 24. and 30 m.) Odnoetszhuys mnogoproletur promyshlennys
zdaniia a proletemi 12. 15, 18, 24 1 30 m. 1960. 227 p.
(MIRA 14:1)
1. Russia (1923- U.S.S.R.) Gosudaretvannyy komitet po delsm
stroitelletva.
(Building--latimetes) (Industrial buildings)
~RTAKOV, I.F., inzh., red.; KLINOVA, G.D., red.izd-va; KASIKCYV,
=.a-., -tekhn. red.
[Indices of the estimated cost and outlay of resources for
the construction of drainage systems]Po*.azateli sretnoi
stoimosti i raskhoda resursov sooruzheniia meliorativnogo
stroitellstva. Utverzhdeny Gosudarstvenrrym komitet(n,. Soveta
Ministrov SSSR po dalar stroitel'stva 15 oktiabria 10.60 g.
Moskva,, Gosstroiizdat. No.l. 1961. 75 P. (MIRA 15:9)
1. huscia (1923- U.S.S.R.)Gosudarstvennyy komitet po delam
stroitel'stva.
(Drainage-Costs)
-S1NYAKOV,-'I.F., inzh., red.; K1,1140VA, G.D., red.izd-va; YIYMEVA,
A.A., tekhn. red.
[Indices of estimated costs and material expenditures] Po-
kazateli smetnoi stoimosti i raskhoda resursov. Moskvay
[Land improvement engineering] Socruzheniia meliorativnogo
stroitel'stva (SN 24cN-63). 1963. 165 P. (MIRA 17-3)
1. Russia (1923- U.S.S.R.) Gosudarstvennyy komitet po de-
lam stroitellstva.
1. P. , inzh. , md .
[1-:ariual (if consolidated indices of estir,--ated cost and
expense of materials; buildings and structures of the
mining industry] Spravochnik ukrupnenWkh pokazatelei
smetnoi stoimooti i rasklioda resursov; zdaniia J so-
oruzheniia gorriorudnoi promyshlennosti. Izd. ofitsiall-
noo. Yoskva, Sz.roiizdat. No.l. [Utility and service
buildings and structures] Zdaniia i sooruzheniia pod-
sobno-proizvodstvennogo i obsluzhivaiushchego naznache-
niia. 1964. 177 p. (MIRA 17:7)
1. Russia (1923- U.S.S.R.) Gosudarstvennyy komitet po
delar; stroitel'stva.
Pandbook cn 'indice-,-- of' e2,tirr--ted costs and
exi,endi tures ~)f ma ', er~Lals and labor; bluil.-jirgs 5na
structures in the luirbCr and woodworking indiistryl ~',Pxa-
vochnik ukrup-nennykh pokazatele! smetnoi stohrostl 1 ras-
khodh re-o-awsrov; z,-DiTnAn I ~anriizhenfia predp-liat'l-i leono!
i cto-revoab:-abat,yvaiushc lie i promyF tile nnost 1 . M,)skva, S'troi-
iziat,, klo.2., Ic465. 342 P. (MIRA 19;1/1
-31a (1923- 11~` Go,,iudacotverjrfy kcmltef, 1:o de.
-lair, stroitellstva.
SIIIIAKOV, N. 1. , jt. au.
GRIIjOWEV, G. A.
XasAfacture of moulds for do-set prIntIft. A textbook. Hoskva, Go&. amuchno-tekho.
lnd-we IsLkol proqyshl., 1950. 2.51 p. (51-39119)
TR970.063
1. Photo-exVraving. I Sintakov, N. 1. jt. Suo
winmq L to,,; IV I L red~n"- r Z . N
tekhnicheskiy rs~dv'-tor
L"hotomechanical co.-itrol i., the repror:.uctica tecihni-que; therratical
principles and ~.,racticijl inetructione 11
Traar-lated from t*-ie Oerwnj korrok'tura v noro-
duktuionnoL tel-h-nike; teoreticherkie ocu-Ivy I
nii,g % 11 rl5unlcami. ?erevod 9 nemetB;cot-,c. 7, I-J`iliciirxva. Mc, skva
GOS.17d-vo "Iskulstvr"" 19',6, ?,q j).
1. Leipzig. Inetit'Lt fiir
(Color urint 1-0
KOLOSOV, Aleksandr Ivanovich; LAVRENTIYEVA) Anna Georgiyevna;
SI.N,Y-AK.O-V,_'N.I.j red.; STRELKOVA, A.N., red.;
PANKRATOVA, M.A., tekhn. red.
[Technology of printing in t-o
ligraficheskogo proizvodstva
kusstvo. Vol.l. (Preparation
pechatnykh form. 1963. 487
books] Tekhnologila po-
v dvukh knigakh. Moskva, Is-
of P.Wftto6 forms I Izgotovlenie
p. (MIRA 17:2)
GALAKTIONOV, V.D., kand.geol.-min.nauk; GOnTSKIT, G.I., doktor geole-min.
nauk; MIRA , V.A., kand.tekhn.nauk; MMKOVICH, M-Tee, kand-geol.-
min.nauk; KAVETIV, T.S.. kand.geol.-min.nauk; POUWVSFATA, N.M.,
kand.gool.-min.nauk; BRA2WINA. A.N., inzh.: TRGCROV, S.N., inzh.;
KUMOVA, O.G., inzh.; LOVMSKIT, U.S., inzh.; KUGWO, G.K., inzh.
MILIMUR, Sh.G., inzh.; 'SINMOV. N.P..-inzh.; SOGEMA, N.A.,
red.; VORWIN, X.P., takhn.re .
[Geology of the Volga-Don Canal region] Geologiia raiona soorusbanil
Volgo-Dona. Pod red. T.D.Oolaktionova. Moskva, Gos.energisd-vo.
ig6o. 416 p. fold.col.map. (MIRA 13:10)
1, Moscow. Vaesovuxnyy proyaktno-isysketellekly I nauchno-isele-
Oovatellakly institut *Gidroproyekt" Imeni S.Ta.Zhuk.
(Volga-Don Canal region--Geology)
BONDINI M.A.j ~IWMOVJV inzh.,- SHI-RIEVICH, N.S., insh,; POPOVICH, M.V.;
A.A., inzh.; KHOLODKOV, N.76.1
KCIUVAT7114 S.F.,. inzb.
Exchange of practices by the enterprises~of economic councils,
Torf. promo 39 no.6128!--35 t62,, (KMA 3.6.7)
1. Kalininsidy sovet narodnogo khozy&yntva (for Bondin).
2, Torfopredpriyatiye Vasilevichi 11 (fA~ SiMakov, Shirkevich,
Balandin,, Koholodkov). 3. Nwhalinik konstruld6rokogo byuro
Tesovskogo transportnogo uprayleniya (for Popovich). 4. Starshiy
inzb. konstruktorskago byuro Tesovskogo transportnogo upravlaniya
(for Tatarnikov). 5. Taroslavskoye torfopredpriyatiye- Tar~)Glavskogo
narodnogo khozyaystva (for Kolevatykh).
(Peat machinery-Technological innovations)
RYSIN, V.I., inah.; KHOLODKOV, N.Ye., inzh.; SHIRKEVICH, N.S., inzh.;
qINTAKOV,. O.G.
&change of experiences by the enterprises of economic councils.
Torf.prom. 40 no.1:30-33 163. (MIRA 16:5)
1. Torfyanoye predpriyatiye "Radovi"kiy mokh" (for Rysin).
2. Torfyanoye prediiAyatiye Vaklevichi II (for Kholodkov,
Shirkevich).
(foat machinery)
i% ~-': j V I F . -,- .
P.V. niA Ciiernyy, B.A. [Dnepropefrovsk, Gosudarcti.,enrlyy universi-
tet (State Univerz;ity, Dneprrjppetro-~sk) I Electrical P-ciperties of Multi-
(The Physics of Dielectrics; Transactions of the All-Union Conference on the Physics
of Dielectrics) Moscow, Izd-vo AN SWR, 1958. 245 P. 3,000 copies printed.
This valure publishes reportz presented at the All-Union Conference on the Physics of
Dielectrics, held in Dnepropetrovsk in August 1956, sponsored by the "Physics of
Dielectrics" Laboratory of the Fizicheskiy institut imeni Lebedeva AN SSSR (Physics
Institute imeni Lebedev of the JNS USSR), and the Electropbysics DeWtment of the
Dnepropetrovskly gosudarstveonyy universitet (Dnepropetrovsk State University).
65953
SOV/58-59-4-85oo
0 C
Translation from: Referativnyy Zhurnal Fizlka, 1959, Nr 4, PP 159 - 160 (USSR)
AUTHORS.- Sinyakov, P.V., Chernyy, B.A.
TITLE.- Electric Properties of Multicomponent Ferroelectric Ceramics
PERIODICAL.- V sb.: Fiz. dielektrikov. Moscow, AS USSR, 1958, pp 203 - 209. '1 Diskus.,
p 210
ABSTRACT!. The authors investigated solid solutions of BaT'03 - NiZrO3 and BaT'03
NiZrO3 - ZnT103, Increasing the concentration of NiZrO3 and NiZrO -
ZnT'03 in BaT'03 lowers the Curie point regularly, The shift in I
Curie point is accompanied by a smoothing-out of the temperature maximum
of C and tgJ . As is consonant with the dependence of tgE on the con-
centration of NiZrO3, samples containing 20% of N'Zr03 show the least
losses. The combination of small losses (tgc~ = 4 - 10-4) with a high
6 (at 200C C = 570) presents a practical interest. In the temperature
course of electric conductivity in polyer7stalline BaT103 a jump of the
Card 1/2 conductivity is observed at the Curie point. Introducing ZnT'03 Into the
65953
Ele-:!tric Properties of Multicomponent Ferroelectric Ceramics SOV/58-59-4-8500
Ba:T-io3- NiZrO3 system leads to a sharp increase in the volume resistivity and
activation energy of the conductivity. A measurement of the thermo-emf showed that
ZnTiO3 possesses hole conductivity in a wide temperature range. (Un-t, Dnepropetro,
Ussp).
The authors' conclusions
Card 2/2
Subject USSR/Aeronautics - Miscellaneous
Card 1/1 Pub. 58 - 13/15
Author : Sinyakov, S., Lt. General of Aviation
- British Aircraft F-hibition of 1956
Title
Periodical : Kryl. rod., 11, 22-23v IF 1956
AID P - 5319
Abstract : A report on the British Aircraft Exhibition of 1956. The author
describes s-rily the various types of exhibited British aircraft
and appraises their performances. 2 photo.
Institution : None
Submitted : Ito date
PONOMAREV, Aleksandr Nikolayevich; DAUZ11ININ891Y, M.V.) red.;
SIFYAKOV, S.F., general-leytenant aviatsiip retsenzent;
~ffASNIKOVAY T.F., tekhn. red.
(Rocket aircraft] Raketonosnaia aviatsiia. Moskva,, Voen-
izdat, 1964. 341 p. (MIRA 17:2)
SINYkKOV, V*F.
Self-clamping mandrel. StanA instr, 33 no.7:39-40 J-1 '62~
(MPIA 15 .7)
(Chucks)
- SINYAKOT VJ.,
Fly-schlike upper Cambrian formations along the B. K" Rivulet in
the Sheria, Highlands. Dokl.AN SSSR 108 no.2:320-323 Ny 156.
(KIBA 9 - 9)
l.Prodstavleas akademikom -D.V.NalivkiWo.
(G*raay& Sheriya~-Geelsgy, Stratigraphic)