SCIENTIFIC ABSTRACT KOROBOV, P.I. - KOROBOV, YA. V.
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CIA-RDP86-00513R000824810004-4
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S
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100
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Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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Body:
BUYANOW, Ivan Andreyevich, dvashdy Ger*7 Setsialistichaskogo Truda,
deputat Varkhovnogo Soveta SSSH;-KCROB07, P.I.,-red.;
MARAKMA, L.P., tekhn.red,
[On renovated land3 Na obuoylannot semle. Moskva. lzd-ve
*Sovetskata Ressita,* 1961. 78 P. (MIRAL 15t2)
1. Predsedatel* kolkhoza imant Vladimira Illicha (for Buyanov),
(Agriculture)
SOV/133-58-12-1/19
AUTHOR; Korobov,
TITLEt f4or the Ikealisation of Tasks Set by tha Party (Za
-'-iYe7 zada
resheniye postavlerm.ykh pa'di ch)
PERfODICALs Sts'189 1958, Nr 12, pp I ... IV (USSR)
ABSTRACT: The planned development Qf the Iron and Steel Industry
during 1959-65 proposed by Khrushchev during the 21st
Conference of the Commun.4,.st Party of the USSR is dis-
cussed. In 1965 thq output of iron should reach 65-70
million tonsg steel 86-91 million tons and rolled
products 65-70 MJ1140_n, This implies that during
the above period the zate of irA~rease in the output of
iron should be 3.6 ... 4.4 mIllion tons/year as against
2.5 million tons/year diarlng lqc,~2-58, steel 4.4-5.1
million tons/year as agaf.jnst 3.1t million tons, and of
rolling products 3.2-3.9 a-11lioL tons/yea_r as against
2.7 million tons/year. Tht,, advantages of the Socialist
system for the nationall ecCnomy are emphasised, com-
paring the high rate of devalopmar "t of the Iron and
Steel Industry in thla TJSSR agal-nst that of capitalist
Card 1/2 countries. It is pointikid out that the plarmed increaTes
in the Iron and Steel output will be achieved not only
SOV/133-58-12-1/19
For the Realisation of Tasks Set t7 th6 PErt7
by the construction u.1' i~.ew units but also by a marked
increase in the effic:Ler-j' of operatfon of the existing
units. Towards this qr.~"an interworis competition for
the best productiq'ity will be started. The
progress achieved during the last few years in improving
the efficiency of opera -3; o1o various production units
is outlined and held as an example for further possible
*mprovements in prod:1.2,,,tivity.
Card 2/2
AUTHOR: .1l.Korobov, F.I. SOV/133-59-1-1/23
TITIZ: For a New Important Development in the Iron and Steel
Industry (Za novyy moshchnyy pod"yem chernoy metallurgii)
PERIODICAL: Stall', 1959, Nr 1, pp 1 - 4 (USSR)
ABSTRACT: Achievements of the iron and steel industrg in 1958 antl
planned new development in 1959 are outlined.
The production of primary products in 1958 was as follows:
39.6 million tons of pig iron, about 55 million tons steel,
about 43 million tons of rolled products. Capital expen-
diture in 1958 amounted-to 8.2 milliard roubles i.e.
2.2 milliards more than in 195?. New units put into oper-
ation in 1958: 7 blast furnaces, 5 large open-hearth
furnaces, 2 co4verters, 12 electric furnaces 1 blooming
and continuous billet mill (Krivoy Rog Works3 and a
blooming mill at the Cherepovetskiy zavod (Cherepovets
Works) is under test. However, when the production plan
for 1958 was over-fulfilled (1 million tons of steel and
I million tons of rolled products) the planned construction
of new rolling mills was not carried out. In the iron-Qre
industry a large number of new shafts and open-cast mines
were put into operation (naines ofe depodts given but no
Cardl/3 data on quantities). The construction of 9 new sinter
SOV/133-59-1-1/23
For a Bew Important Development in the Iron and Steel Industry
strands was finished. however, in respect of mining,
beneficiation and agglomeration of ore, the plan was not
fulfilled. In the coking industry 8 new batteries were
built, 6 of which are in operation. The increase in pro-
duction achieved in 1958 is ascribed to the reorganisation
of the management system.
Planned production figures for 1959 are as follows: pig
iron 42.7 million tons, steel 59.0 million tons, rollihg
products 46 million tons, steel tubes 5.1 million tons,
coke 53.5 million tons and iron ore 92.7 million tons.
Capital expenditure should increase by 2.78 milliard
roubles to 10.98 milliard roubles, of which 4 milliard
roubles in iron-ore mining. Nine new sinter strands (7 of
which have-75 m2 sintering surface) will be put into
operation. It is pointed out that particular attention
should be paid to the construction of new rolling mills
(no figures given). In the coking industry, 8 new batteries
will start operation in 1959. The construction of new
production units will be built mainly on existi~ig works.
The construction of new works - West Siberian and Karaganda
Card2/3 - will be energetically continued. However, for the
SOV/133-59-1-1/23
leor a New Important Development in the Iron and Steel Industry
fulfilment of the plan an improvement in the productivity
of existing units will be necessary. In the production
of pig iron an improvement in the burden preparation, an
increase in the hi h top pressure to 1. 1.5 atm, increased
blast temperSture ~some works already operate with
950 - 1 050 C blast temperature) are necessary. In the
production of steel: wider application of oxygen; com-
pressed air; increase in yield; increase in service life of
refractories; use of pellets from rich ores in converters
and open-hearth furnaces, etc. In rolling mills: increase
in rolling speed; improvements in the roll-pass designs
and reduction schemes; increase of weight of ingots and
billets; simultaneous rolling of two or more strips. In
view of rapid development in the output of iron, the
industry will operate with a tight balance in respect of
ore and coke.
Card3/3
0.0000
~~111~1133-60-1-2/30
AUTHOR: Korobov, P..
TITIE: For Further U~)surge of Ferrous Metallurgy
PERIODICAL: Stall, ig6o, Nr 1, Preface (USSR)
ABSTRACT: This article lauds the achievements of the Soviet
industry, particularly those of ferrous metallurgy,
as a result of planning decisions reached at the
XXI Congress of the Communist Party of the USSR.
In 1959, a record annual output in steel production
was established, reaching 5,100,000 tons. In 1957
and 1958, the annual growth was equal to 2,500,000
tons and ~,700,000 tons, respectively. The production
quotas for 1959 '-were exceeded in all major phases of the
metallurgical industry; production of cast iron equaled
43,000,000 tons; that ol steel, 6o,ooo,ooo tons; of
rolled iron, 47,000,000 tons; and that of steel pipes,
Card 1/3 5,200,000 tons; and 94,-'300,000 tons of iron oretwere
For FUrther Upsurge of Ferrous Metallurgy 77441
SOV/133-6o-1-2/30
Card 2/3
mined. In 1959, the Soviet ferrous metallurgy budget
exceeded that of 1957 bY 70%. Projects for construction
of steel.malcing plants and rolling mIlls were fully
realized, new plants for PMdUction ot' electrowelded
large-diameter pipes went Into operation, and, In
the by-product cok&-Industry, several co.'C `%C /
03MG (M ill -&* 00.138 (as in butadione).
4r- N
>C--4< IL174 (ask -13 - ); >C--C< 67.1w (as in
b* %0.40' WADI (im; J. CJW. C-C M.4477
,I_=
0 In em. C-C ADI (C-C In gmpwtr).
Of Vdn hr do d2iiiiiie setim amd b smosed
W
cma. okw d aft "M *&*war imuccloodaff on -w
late bdvMW bod 10 - bet wA in tbe edutitm ci thir
~ktltiv Mm. Assitypimal"wAh.o-MoRtClif.givirs
Ips
__.. _ M.701 bmA.. at IVA COW. Valli.
lit, ly
I. - aIlmama, the valow ow -3Nw.92 slid
0. Sit. Kmo&avft
Mel
KOROBOV, V. V.
Tatevskil, V. M., Mendzherita',di, E. A., Korobov, V. V. (Chemistry) The additive
scheme for heat formation of hydrocarbons and the sublimation heat of graphite. P. 8"
Chair of Physiml Chmmistry
Jan. 1, 1951
SO: Herald of the Moscow University. Series on Physics-Mathematics and Natural
Sciences, No. 5, No. 5. 1951
V~ "d so buts of
ate"ba, V-%".Xwww. and E. A,
Ob" Uoly
r_41961); J. C.).. 4t= A".
Nallb S.S.S. a. 3233r,
37M.-Timl Wdend 049COMM Aol in tbg additi" equo-
" for the m" d knombigs AW Inam the Istot" of a
It b" CaW how dids d All' kir
4r= =461:1= Fw~; the submingipts i
and j take Ae withers himin I to 4. hw a rim to 414.f"-
ktwv C mom. The Aq thims eakd.. at awl 2V1 IWK
age Ait - MI&II&I *W -411141N, Alt -347. 24A mul
-3&1 Me. A14 - -MI I%r-'
and -11M.4112. Mal -177AV. .1.
-10.874 mail - J -116,496and
A. - -018.675mW -87.m..-M.1r. And -M.9m).
IN. Thon
IMNBIGH, Kennatla George, KOROBOV. V.V. [trans laborl ; SFJIENCHENKO, V.K.,
redaktor; GUROV,'Ir.P.-,'n'RC=, M.A., takhnicheakil redaktor.
[Thermodynamiop of the steady state. Translation from the English
by V.V.Korobov] Termodi-miks statsionarufth noobratimy1ch protneseov~
Perevod s angliiskogo V.V.Korobovs. Pod red. i a predial. V.I.Ssman-
chanko. Moskva, Isd-vo inostranno! lit-ry, 1954, 118 pe
(Thermodynamics) (H=A 8:4)
FROST, Andrey Vladimirovich. professor; DOLGOPOLOV, N.N., sostavitoll
TOPCHIYXVA, K.Y.. doktor khimicheakikh nauk, otvetetvennyy redaktor;
GMASIMOV, Ya.l., redektor; Ag#CBPV, V.V., kandidat khimicheskUth
nauk, redaktor; SHIRNOVA, I.V., i~~afaifkhtmlcheskikh nauk, rodaktor;
TSTEVSKIT, Y.M., doktor khimichaskikh nauk, redaktor; TILICK97", M.D.
doktor tak)inicheakikh nauk, redaktor; SHCHWIN, V.V.. radaktor izda-
tel2stva; ZZANKOVA.-Te.y.. takhnicheskiy redaktor
[Papers on kinetics and catalysts] Trudy po kinetike i katalizu.
Moskva. Izd-vo Akademit nauk SSSR. 1956. 538 p. (KLRA 9-7)
1. Chlon-korrespondent AN SSSR (for Qarastmov)
(Catalysis) (HydrocaAons) (Chemical reaction)
VEYTS,I.V.: GURVICH,L.V.; KCROBOV,V.V.
Determination of the dissociation energy of metal oxides (SrO,
CaO and KgO) by measuring the Intensity of resonance lines of
the metal atoms in flame spectra. Izv. AN SSSR. Ser. fiz. 19
no.1:21-22 Ja-F '55. (NLM 8:9)
1. Institut goryuchikh lskopayoUkh Akademii nauk SSSR
(Spectrum analysis) (Spectrometer)
GURVICH. L.V.; XOROBOV, V.V.
Calculation of the thermodynamic functions of diatomic genes taking
Into account the excitation of molecular electronic states. Zhur.
fis. khti- 30 no,12:2794-2800 D'56. (MM 10:4)
1. Institut goryuchikh lskopayewqkh, Nookwa.
(Thermodynamics)
-11o
14
1 5 h
$11~
JUMP za
Im 8
V 'I" U o a
NR
A
!i! F1 1; I-J
-3 Allq
11ab,
gal ~.z Bali
has been regarded as the most accurate value. However, the
spectrographical determinations of A. P. Purmall (Ref 17)
Card 1/3 which resulted in a value of 64.4 1-0 kcal/mol seem to be
SOY/76-33-1-10/45
Investigation of the Thermodynamic Properties of Substances According to the
Method of the Explosion in a Spherical Borab. II. 1~ydroxyl
more accurate. It is stated that 'the investigations carried
out by Wohl (Vol), Magat (Ref 11), Lewis and Elbe (Llyuis and
Ellbe) (Ref 14) furnished too low results, in reference 11 on
account of wrong calculations, and in reference 14 on account
of heat losses. In the present determinations according to the
explosion method, an oxygen-hydrogen mixture with a surplus
of oxygen and an addition of water vapor was used, since heat.
losses occurring with the cembustion of these mixtures are
smaller. 21 explosion experiments were carried out. The cal-
culation method has already been given (Ref 10). The mean
value obtained for the reaction H20gaso OHga3 + 1/2 H2 gas
is AHO = 65-5 kcal/mol in accordance with the dissociation
0
energy of the hydroxyl of Do/OH) = 102.2 kcal/mol. The equilib-
rium constants K were calculated for var 40
p -L,11,,3 temperatures
(Table 4). There are 2 fifmres, 4 tableB, and 22 references,
5 of which are Soviet.
ASSOCIATION: Akademiya nauk SSSR..In3titut gorrichikl, iskopayemykh (kcademy
Card 2/3 of Sciences, USSR, institute for ~Iineral Fuelo)
LAVROY, Nikolay Yladimirovich;J~QV,Jaleriy Vladimirovich;
JFILITTOVA, Vera Ivanovna: LIBIRV, V.V., otv.red.; IVANOVA,
D.A., red.izd-va; BRUZOMI. V.V., takhn.red.
[Thermodynamics of gasification reactions and of synthesis
from gases) Tersodinamika reaktali gazifikstali. i sintess
ix gazov. Uoskva, Izd-vo Akad.nauk SSSR, 196o. 97 P.
(MIRA 13:7)
(Gases) (Thermodynamics)
26533
S/167/60/000/006/003/003
A104/A133
ATITHORS: Lavrov, N. V., Academician of the Academy of Sciences UzSSR,
Korobov, V. V., and Chernenkov, I. I.
TITLE: Method of thermodynamic computation of the pyrolysis of light
hydroca:.-bons
PERIODICAL: Akademiya nauk UzSSR. Izvestiya. Seriya tekhnicheskikh nauk, no. 6
ig6o, 67-76
TED(T: The authors review the necessity of increasing the resources of
unsaturated hydrocarbons (ethylene and propylene) by the method of oxidation
pyrolysis of saturated hydrocarbons. The oxidation pyrolysis was investigated
by Soviet and foreign scientists [Ref.'5; K. K. Dubravay and A. B. Sheyman, Oki-
slitel'nyy kreknig, (Oxidation Cracking) M.-L., ONrl, 1936; Ref. 6: M. Ya. Kogan
and L. D. Balashova, Okislitellnoye degidrirovaniye etana, Otchet MITKhT im.
Lomonossova, M., (Oxidation Dehydration of Ethane), 1947, Ref. 7: P. P. Karzhev
and G. A. Baluyeva, Khimicheskaya pererabotka neftyanykh uglevodorodov (Chemical
Processing of Petroleum Hydrocarbons) M., AN SSSR, 1956; Ref. 8: Problewl okis-
leniya uglevodorodov (The Problem of Oxidation of Hydrocarbons) Institut nefti
Card 1/8
2b533
Method of thermodynamic computation of ... 3/167/60/000/006/003/003
A104/A133
AN SSSR, M., AN SSSR, 1954 and Ref. 9: Deansly, Wotkins, Chem. Eng. Progr., 47,
No-3, 134, 19511. The first investigations on this problem were performed by
K. K. Dubravay (Ref. 5). Oxidation pyrolysis experiments were performed at, the
ONTI, MITXhT im. Lomonosov and by the Acadewl of Sciences USSR (References 5-8),
whereas experiments of oxidation pyrolysis of ethane and propane performed at
the IGI AS USSR were not satisfactory. As the pyrolysis is accompanied by a vol-
ume increase, the reduction in pressure should increase the amount of unsaturated.
hydrocarbons in the equivalent mixture. The reduction in pressure by addition
of inert solvents (nitrogen, hydrogen, carbon dioxide, methane) is considered in-
expedient and the introduction of water vapor Into the reaction zone is recomen-
ded despite of contradictory data on its effect on the yield of unsaturated hydrb~
carbons and on coking. The purpose of this investigation is to establish the
gas equilibrium of the pyrolysis C21 6, C3H8, C4HjO, at 700 - 1,5000K depending on
variations over a range of oxygen mid water vapor concentrations in the raw ma-
terial. In view ofthe complexity of this problem all possible transformation of
the raw material, e.g., oxygen and aromatic compounds, were investigated to de-
termine the most advantageous reaction process. It was assumed that the equili-
brium mixture of the pyrolysis C H , CA, C H contains C H C He, C
2 6 4 io 2 4' 3 2H2'
Card 2/8
26533
S/167/60/000/006/003/003
Method of thermodynamic computation of .... Aio4/AI33
CA' C3H8' CH4' C4H1,' COW CA' H2' 02' Col C02' H201 CH 3' COOH, CH3CHO, C6H6'
The required 17 unknown equilibric partial pressures are determined by 17 inde-
pendent equations, 14 of which, representing the equilibrium constant of indepen-
dent reactions according to Gibbs law, are:
1. Co + H20'_ C02 + H2 K
P,
2. C
A CA + H2 Pj
3. C2%~w*C2H4 + H2 K
P3
4- c2H4w--c2H2 + H2 KP~
. P
PH 'z C02
PCO 'HbO
PH, PCa
PCBHB
P P
Ilia,PC2H
Cz H6
PHI,P PC2H
CIH4
Card 3/8
26533,
S/167/60/000/006/003/003
Method of thermodynamic computation of .... Alo4/Al33
5. CH 'CH K PC0J. PCH~,
3COOH V'- 4 + C02 PT PCHjCOOH
6. ciVHO~;:ft CH4 + CO K PCO PCHIr
P(, P CH3CRO
7. C Hr C2114 K PCH., PCjH4
3 + CH4 P.;. P C.3H8
8. C H C2H + H K - PC.Ljf,.* PH .1. PCOZ
3 8 + 02' 6 6 + C02 p, P CtHr - P
P2 ,
9. 2CO + 02:.;� 2CO2 K - - Col
Pq P20 P
C
Card 4/8
Method of thermodynamic computation of ....
H + CH K __PCHA PCOZ
lo' C2 4 + YF_- C02 4 Ps P Cj.Hq P04
1l. C4H -'*' C4 H + H =P H2_ PCqHj,
10- 8 2 Pto PC# 1i to
26~
1
S 1~37/60/000/006/003/003
Alo4/A133
12. C4H8w,-,C4H6 + H2 K - Cq.H(,
Piz PCtHj
13- 114%~~*IC2% K a
P15 PC,,HS
14. C4H6 + c2H2;r_-4,c6H6 + H2 K P4 =PH2 ' PC(A.
PC,#Hj * PCjH2
Equations 15 and 16 represent the constancy of ratio - (15)
H2
Card 5/8
and ratio Hj (16)
0 50,
26533
3/167/60/000/006/003/003
Method of thermodynamic computation of Alo4/Al33
In the raw material and in derived equilibrium gas. Values of both ratios are
given for ethane, propane and butane. The equality equation of the sum of par-
tial component pressures to the total pressure in system is Pi = Ptot (17)
H,O
where m - , = water vapor concentration in the initial mixture,
. 0& CnH2 n + 2.
n - C H = hydrogen concentration in the initial mixture and P tot = pressure
n 2n + 2
in the system equaling 1 atm. [Abstracter's note: subscript tot. (total) is a
translation from the Russian 66(obshcheye).] In view of the diff~'culty of solvv
Ing equations (1) - (17) by conventional. methods the use of a ric-am(BSEM) elec-
tronic computer is recommended. Most favourable thermodynamic values of sub-
S-tances participating in the reaction were achieved by extrapolation of available
data on acetaldehyde and interpolation of acetic acid data at 1,000 - 1,5000C.
All calculations were carried out according to equation
R 1n K A00 +,d x
P T
Values of tx potentials and aHO9 of substances participating in reactions 1 - 14
Card 6/8
26533
S/167/60/000/006/003/003
Method of thermodynamic computation of .... A104/A133
were obtained from N. N. Lavrov, V. V. Korobov and V. J. Filipova [Ref. 21:
Termodinamika reaktsiy gazifikatsii I sint-eza Is gazov (T~iermodynamics of Gasifi-
cation Reaction and of Gas Synthesis) M., AN SSSR, 1960. Calculations of the 4x
acetaldebyde potential at 800 - 1,5000K was based on the initial constant of mole-
oule described by K. S. Pitzner and W. J. Weltner [Ref. 23; Am. Chem. SOO. 71, 18,
2842, 1949] Acetaldehyde molecules have no symmetric elements, therefore their
symmetric number is 6 - 1 and all frequencies have nondegenerate characteristics.
Fourteen equations were determined during the investigation of vibration spectra
525, 918, 1-114, 1-35o, 1-370, 1.4A, 1.74o, 2.710, 2.915, 3-005, 764, 883,
i.44o and 2.976. ;~e 15th equation corresponds to the delayed internal rotation
of the CH 3 group around C-C. The height of the barrier decelerating the rotation
of this-group was determined as C2H50H - T3CHO + H2 according to data on the
equilibrium of the dehydration reaction of ethyl alcohol and the thermal capacity
of acetaldehyde steam LRif. 27: C. F. Coleman and J.J. de Vries, Am Chem. Soc.
71, 18, 2839. 1949]. The assumed height of the barrier equals 1,000 cal/mol.
The addition of two equations, obtained by the calculation of progressive end ro-
tation components, provides 4) xr+p = 5.7263 + 18-30224 IgT. The free internal
rotation component is ~ xf.,.P. = 2.2878 lgT - 3.4183. [Abstracter's note: sub-
Card 7/8
SIIAUIA)V, Yukhanan Khaimovich; IMINER, Moisey Ovseyevich. Prinimal uchastiye
PREDVODITEIEV, A.S., prof.;._KOROBOV V V., k:and. khim. naia, red.;
SHEYNFAYN, L.I., red. izd-va; ROZIIIII, V-.T.-, tekhn. red.
[Combrustion in liquid proj~ellant rocket engines) -Gorenie v zhidko-
.gtnykh raketTWIh dvigatiUakh. Moskva, Goo-. nauatDo-tokhn. izd-va
Oborongiz, 1961. 194 p. (VIRA 14: 10)
I.Chlon-korrespondent U SSSR (for Predvoditeley).
(Liquid propellant rockets) (Combustion)
KACHELKIN, L.I.; RUSBNOV, N.P.;_N0AODOV, ~J.; MIKHAYLOV, G.M.;
CHEREZOVA, V.M.
[Use of lumbering wastes] IspolIzovanie otkhadov lesoza-
gotovok. Moskva, Lesnaia promyshlonnost', 1965. 322 p.
(KIRA 18: 6)
1. Nachallnik labora+orii ispollzovaniya drevesiny i dre-
vesnykh otkhodov TSentrallnogo nauchno-issledovatellskogo
instuta mekhanizatsii i energetiki lesnoi promyshlennosti
(for Kachelkin).
,j(:iT~y 'L--ast
930A3,
L iroll On ,ol,fiorud.
liroE.i. no.6:14 N-D 164. 0-11--*,,'~ 18:3)
PZEGIJC-'Y, D.G.; DUBININI, A.F.; FOROBCV, V.V..__
IN),,r ctita on the Lower Carboniferous etratigraphy of the
11,~ .nsk region in the Altai. Im. vys. ucheb. zav.; geol.
i znm. 6 no.5:3-11 My 165. (KM 18:10)
1. Ust'- Yjimanogorskiy gornometallurgicheskiy inst'Itut.
AL 4-131`5-66 51 T EWT( RM
ACC NR.- kP6024019 SCUiC3 CODE: n/000'2/66/000/006/1009/loib'
HOR orob
AUT, Golubtsov, S. -A. -- PopIcov, K. K.; Trofimova,--I. V.
Ta::-etskaya, R. A.; kid". -K. bqnkova, :6. V.; Golosova,
z i anovo ; A
Aristova, II.-G.
ORG: none
TITIS: Reactions of formation of alkyl(aryl)chlorosilanos in a direct interaction be-
tween alkyl (aryl) chlorides and silicon. Report No. 6. Role of cuprous ghloride in
the foxTiation of dialkyldichlorosilanes I TI
SOURCE: AN SSSR. Izv. Ser khim, no. 6, 1966, 1ooq-ioi6
TOPIC TAGS: silane, chloride, silicon compoundi copper compound
ABSTRACT: A mechanism is 7oroloosed for the formation of dimethyl(diethyl)dichlorosil-
ane and rre-L~hyl(ethyl)trich:lor'osilane during the reaction of methyl (ethyl) chloride
,rith silicon on ouprous chloride. The proposed mechanism for the formation of dialkyl
dichlorosilanes is as foUows:
Card
UDC:
422
KOROBOV, Ya.
Printing rollers made of plastic. Znan. ta pratsia no.7:12
ii 161. e (MIRA 14:8)
1. Golovniy tekhnolog knizhkovoi fabriki "Zhovtorl".
(Rollers (Printing))
KOR(MOV, U.S.
4, -1
One should establish a standard with for splicing paper: letter
to the editor. Bum.prom. 30 no.12:23 D '55. (nM 9:3)
1. Glavnvy tekhnolog Kiyevskoy knizhno-zhurnallnoy fabriki.
(Paper indUBtry)
KOROBM', Ya.s.
I ,, mumm"ftw
Pasting of printing paper for rotary press; letter to the
editor. Bum.prom. 34' no.7:19 J1 159.--- (MIRA 12:10)
1. GlavTVy inshaner Klyevskoy kn1zhno-zhurnal'noy fabriki.
(Paper)
ACC NR, AP6035942 SOURCE CODE: uR/o4l3/66/ooo/020/0199/0199
INVENTOR: Vollfenzon, Sh. 0.; Korobov, Ya. V.
ORG: None
TITLE: External load suspension system for a helicopter. Class 62, No. 187541
SOURCE: Izobreteniya, promyshlennyye obraztsy, toyarnyye znaki, no. 20, 1966, 199
TOPIC TAGS: helicopter, cargo handling equipment, auxiliary aircraft equipment
ABSTRACT: 7his Author's Certificate introduces an external load suspension system
for a helicopter. The device contains a winch with a cable, a cable head with a
swivel lock and release, and a load hook. The installation is designed for increased
operational safety of servicing personnel during suspension of the load from the
helicopter by uBing a power lock with a housing which has a built-in cup rotating on-
bearings, as well as hinged rotating hooks with a four-link mechanism which auto-
matically grabs the cable head with-the lock and release mechanism. The power lock
is opened and closed by a hydraulic cylinder operated through a terminal switch.
SUB CODE: RY~ SUBM DATE: May63