SCIENTIFIC ABSTRACT IVANOVA, L.P. - IVANOVA, L.V.
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CIA-RDP86-00513R000619220009-2
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S
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100
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December 31, 1967
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SCIENTIFIC ABSTRACT
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DGININ, N.A.; IVPIIOVA, L.P.; CHERKASOVA, V.A*
Intera--,tion of asym-diethylhy-drazine with some alipbatic
ketones. Zhur. ob. khim. 34 no.7z2116-22118 Jl 161,
(MIRX 17t8)
1. Le-ningradskiy gosudarstvann-yy universiteto
F, f7, C ;.p rvv: E r,.-' y v av er. 0
71-11 M
A.Aio; LaPs
U1,Mxn rvaw a=tatita of tho lmvtmL- aild.tsi
(ieayt =aifp t1ho Nc,.,Wiorn bivla)o Tmdy Initt* Vziolr# t-iYON &UIR
no*70151-53 165* 621A ISIV)
! 11
; 11 1 1 1
HATSUNICH, Ye.S. [Matakevych, IE.S.J; IVANOVA, L.S.
Rate of exchange of Ions of the same sign in the state of
adsorption equilibrium of the syetem carbon-electrolyte.
Dop. All URSR no.2s218-222 165. (MIRA 18;2)
1. institut fizicheskoy khimii AN Ukr6SR.
DUBYANSKAYA, Yelena Andrayevne; RADTSIG, Hatallya Tikhonovnnr.
,I,&,-Xed.; BULIDYAYEV, N.A., tokhnared.
(Botany; textbook for pharTmeautical schools] 110tanAka;
uchabnik dlia farmateevticheskikh uohilishch, Izd*?'j perar,
Noi3kva, Gos.izd-vo med.lit-ry Kedgin, 1961. 310 p
(Botany) NIRA 14:4)
Oil*
Monthly List of Russian Accessions, Library of Congress, Uncl.
IVANOVA, L.S.
Bilateral dislocation of the patellae. Ortop.travm.1 protes, 20
no.4:92 Ap 159. (MMA 13:4)
1. Iz kafedry rentgenologii i radiolo Ii (zav. .. Prof. A.I. Domb-
rovskiy) i kafedry detskikh bolesney MY. prof. II.D. Dvydoy)
Rostovakogo meditsinskogo Instituta.
(PATMA--DISLOCATION)
3(8)
A UT HICIR: Ivanova, L.-Of
TITLE: Use of Aerial Photographic Surveys for Subsoil 7later
Prospectin~; in Semi-Deserts
PERIODIC,~L: Izvestiya Akademii nauk SSSR, Seriy-a geoCrafiches-
kaya, 10,59, Nr 4, pp 117-118 (MMZ)
ABSTPLAM The article deals i-,,ith pros-oectinn, for subsoil ,-,ater
in ser~u-desert areas of the 'ClasPian re7gion by aerial
plhoto~raplV. According to the studies conducted by
Gayel , Viktorov, Vostokova, anO_ ol;he.- scientists,
subsoil water occurrence in deflation-caused, sandy
hollows and other depressions in semi-desert areas is
rather coEimon. The best method to draw a subsoil water
map cf a Siven semi-desert are!l is by ae-r-Jal -I)I,-oto-
Crapl~y since it reveals geomorplioloCic.-al and ;,-,,-eobo-
tanical features in the most sati!~factory way. The
subsoil. water favors th(-, -ror,,th ol" such phreatorT,,,T-(,eS
.'lard 112 as Glycyrrhiza -labra and Arte:-.i_isJ.,-. procera indicating
1301,1/10-5 PI-4-15/29
Use of Aerial PlIoto-raphic Surveys for Subsoil Water Prospecting
in 33emi-Deserts
fresh water, whareas the so called "Grey Artemisia".,
a certain species of Salsola, the Statice., etc.
point to a water with a hi,,fh content; of mineral salts.
The first-men'Gionod plant Group is charactorizod diirinc
spring, summer, and autumn, with the semi-deserl; flora
witherin- away, by its bri-hU Creen color which appears
as dark snots on aerial photo-raphs. (Fi,Sures 1, 21
and 3). The second plant group, iml-icating hi-h con-
tent of mineral salts in subsoil wmter, can be easily
snotted from tli~~ aircraft in autL=,. by -",ieir br-i.-'n'
cl,imson or orange coloration. There are photo~!:raphs.
ASSOCL`LTION: Vsesoyuznrj aerolo-icheski-y trest (!il1-U-nion
Aerolor-ical Trust)
Card 2/2
PWAU X MOOZ =PtDr-AZZON =/" 14.
Samol.tnle Iekt~borudolmniy.; dborj)c stat.1, No I (Air-
M==tt !tlectric 1_=-p-_-=t: Ccllecticn of
Mqeow. Obomniz. 1960. 106 P. ri-sta slip inaerted.
3two copies printaa.
Ckmral Sd.t A. P. Fedoseyew, CaMidate or Technical Sciences;
Zd. of Publishing House: 9. 1. Origgraaft; Tech Ed.: T. r.
M==; P.E.RhUMna Z:I.' A. S. =R7MOTo=7a. Zr4lnesr.
jCMSZz Tbl* book 12 intended for engines" enZaxml In I-
and operating aircraft electric eq-.Op~nt. It
IT= be . i
ftrt-rest to those -Orkin& In the qlwrl-41
1ndustr7, and teachers, Instru-tors and stad.n.. In
*lootrical engineering scr~is or-hteher &n,4 #Roohda."
edusation.
COVIRAM The book Is a collection or 9 artlelve deaaln" Ith
prob2e... In dezigrang, celeLaating and operating alr:~.;t
*1*aZrIo 4q"r~4nt, and 41140trlc "tore, reeulatqrt, In-
str%aonts, oto. The u7r~if hest-rt*Lstant coatings and
Itaxaner A. V., LJ V._T,. Tukhtank6. A P4thoi for Construct.
Control -'Sys tex-VIth Almost; Opttnxl Trvulont
C=44.~4
.0,, 63
A._Y_veI-9hiN4Jj_- instr=ent for MeaouMng
QU&Mtity of Zlectricity. ifteriy Ao~ A-MIng Pwrlod 70
I'SLCXR, A.
!Use - _ ~L- "d D. IL-Tasin. Upellsme* aalned In
=
chemical NIqksl~l&tI4--- 79
=nkO-A__D.' W4 S.-Fr' Sha"y- Us* of SPOX144 ItealMS as
iMij and IspregrWating Co.~kpoa:aj. 83
A-P....VA91.1-yeva. Datercih&tjon or
TAmperatures for Qj&S3 Texto_
92
AVAILASIZA Llbrary of Congress
Card 3/3 a
- IVANOVAv L.S.; VASILIYKVAO A.P.
Determining maximum working temperatures for g2ass textolites.
Sam.elektr. no.1:92-104 16o. (MIRA 14:3)
(Glass reinforced plastico)
LASHICM-TICH, A.M.; TERRITIYEEVA, A.A.; IVANOVA L S.- BOMMULINA, M.A.;
VELICIUqIKO., I.N.; NIVIMIm, T.I.; SHMIOVA, T.P.;
NY-ASHINA, A.A.; YASINSKAYA, Z.A.; AGALITSEVA, II.B.; SOLIMENSKAYA,
Ye.G.; KRETSI-MR, V.L.; KON(DIOVICH, L.K.; FEDORAYI-."VA, A.M.; TKACIUJB:,
L.Ya.; VYATY,3NA, G.A.; SLOUSHCH, V.S.; RACHINSKAXA, L.N.; FORTIAYA,
R.Yu.; KARAKOVSKAYA, E.M.; POK-ROVSKAYAO M.A.; KORNEVA, A.I.;
YERSHOVAY K.F., otv. red.; Prinimal uchaotiye KAIIAHOV, M.I., red.;
LAGAREVA, A.P., otv. za vypusk; NIKITINA, I.P., tekhn. ied.
[Economy of Novosibirsk Province; collection of statistics] Narodnoe
khoziaistvo Novosibirskoi oblasti; statisticheskil sbornik. Vow-
igibirsk) Gosstatizdat TeSU SSSRj 1961. 331 p. (MIRA 15-.6)
1. Novosibirsk. Oblastnoye statisticheskoye upravlenip. 2. Us-
challnik Statisticheskogo Upravleaiya Novosibirskoy oblasti (for
Yershov). 3. Zamestitell nachallnika Statiaticheskogo Upravleniya
Novosibirskoy oblasti (for Kamanov).
(Novosibirsk Province-Economic conditions)
Mathematical Revieus
Vol. 15 No- 4
Apr. 1954
Mechanics
Ivanova, L. S. The Pdded matu of a flidd ffillng an ovtn
Akad. Nauk.S&% Prikl, Mat-bleh.
17,491-495 (1953). (Russian)
Dans le plan Oxy, consid6rons le domains:
0;5y5i's; cc scra la section longi(xidinaic d'un vwsc, ouvert,
parallWpip&liquc, rempli d'un liquide parfait, non pesant,
au repos pour 160. Ia surface y-1: ent libre' ' A l'intitant
i
nt
I Rial t-0, 1e vasc- prend un motavement de translation e,
vitcs--,e vo, parallNe A Ox. L'auteur (144termine le charnp
initial des vitesses du liquide, en (11duit l'impulsion Subic).
par le vase et discute lea r&ultaw, J. Kraochatko.
124 - 58- 9 -9822
Translation from: Referativnyy zhurnal, Mckhanika, 1958, Nr 9, p 50 (USSR)
AUTHOR: Ivanova, L.S.
TITLE: The Distribution of Impact Pressures During the Impact of a
Liquid on the Walls of an Open Rectangular Vessel (Rasprede-
leniye impul'sivnykh davleniy pri udare zhidkosti o stenki otk-
rytogo pryamougollnogo sosuda)
PERIODICAL: Tr. Mosk. tekhn. in-ta rybn. prom-sti i kh-va, 1957, Nr 8.
pp 229-234
ABSTRACT: An ideal liquid is imagined to fill an open, rectangular vessel
which, suddenly, acquires a horizontal velocity. The problem is
plane. Issuing from the solution previously found by the author
for the hydrodynamic problem (Prikl. matem. i mekhan. , 1953,
Vol 17, Nr 4, pp 491-495; RzhM --kh, 195 3, Nr 3, abstract 1135)
the distribution of the impact pressures on a vertical wall;- is
computed. With a change in the ratio between the length 11 of the
vessel and the height 1,2 from zero to infinity, the position of the
center of pressure along the vertical wall varies from 0. 5 12 to
0. 3712. 1. Hydrodynami c s- -USSR 2. Liquid s--Theory 3. Pres.:;ure--T?ieory
Card 1/1 2. Mathematics--Applications M. 1, Gurevich
ZT" "MUM.,
AUTHORs Ivanova, L.S. (bloscow) 40-22-2-14121
TITLE% On the Liquid Shook on an Inclinad Wall in an Infinitely lfid.~.
Partially Covered Receptacle (Ob iidare zhidkosti o naklonnuy-a
stenku beskonechno dlinnogo chastichna zal:rytogo sosuda)
PERIODICALs Prikladnaya matematika i mechanikha,'1958,Vol 22flTr 2.,
PP 254-256 (ITSSR)
ABSTRACTs The author investigates a problem important for shipbuilding.~
the impact of an incompressible liquid against an in-.1ined irall.
The vessel which is enclosed by the inclined wall is partially
closed on the upper side. For the calculation of the ;roblem
it is assumed that the receptacle is infinf-tely long, and that
the whole problem can be considered to be plane. Up zj a
certain depth the recaptacle is filled with an incompressIble
and inviscid fluid. The lower side and the partially covered
upper side of the re,:ieptacle are horizontal and connected. i,-LTh
each other by an inclined wall (wall of a ship). The problem
is treated with the aid of complex.-analytic rnethods$ whereby
the cross section of the partially covered receptacle is
mapped onto the upper semiplane with the aid of a -:onformal
mapping. The problem is to find a velocity potential which
is connected with the pree3ure p and the density
3
Card 1/ 2
On the Liquid Shock on an Inclined Wall in an Infinitely
Wide, Partially Covered Receptacle
liquid by the relation t
P = - I f
40-22-2-14P*
Of -ourse the b-undary conditions must be, particulazly taken
Intj Consideration.
The -alculation 'Leads to a velocity pol-ential- in
which can be simply numerizally e-valuated for gi;'~'E:.n
ments of tll-,e system. The autt:3r carr~-~Gd ow7 ."jr
two cases% 1. for a receptacl.:,, whl-'h i!j ope-ri or. -11he upper 1~w4de
and 2. for a receptacle which is psr-.,.',,.u11y z,*Losed on zae 1--p~r
-L13, nig. n6r pxeissa. r-s o r,
s~ -. Here it appears, that
under aartlal cover -.)f the i u:7 i nq a I P j,
liquid against th~~ inclined well.
Thp-ro qr,- ~; fii~~uree, anl 5 rt~fer2n,-,;, 4 rf yrlhi~-.b az~-
SUBMITTEDt June 28, 1957
1. imDact shook- -Matheina- U r-a I analys!s 2. ShAl.p plal-,-
Card 2/2
AUTHOR: Ivanova, L.S. 20V-5-56-3-34/35
TITLE: Testing the Hydrochemical Characterin tics of njllwwwd~inun-
dated Areas) of the Volga Region (Opyt gidrokhimichedDy
kharakteristiki landshafta. volzhskikh il'Loriey)
PERIODICAL: Byulleten' Moskovskogo olishchostva iallytateley prirody,
Otdel geologicheskiy, 1958'31ir 3, p Ao (ussiz)
ABSTRACT: This is a resume of a lecture given on Feb 4, 1958. As a
member of the Caspian expedition of hoscow State University
the author conducted hydrochemical research on inundated
areas along the Volga river. As a reault of the research,
the water of the llil~nenll was subdivided into 5 groups ac-
cording to their nalinity, and the Amen proper into 3 groups
according to the degree of salinity. Salinity tents are of
importance for the future use of the ilmet, whether for
water reservoirs or as irrigated farm land.
1. Water--Chemical properties 2. Sallnity--MeaBurement
Card 1/1
LEM a
1111.1til I lull MAIVIMIRMA
~VANOVA, L.S.
Underground ocOponents of the water and malt balanco of the
Caspian Sea. Trudy GOIN no.68%94-102 162. (KM 160)
(Caspian Sea-SeaNater-Composit1pn)
f,
IVAi,-0-VA, L.S..., 'J. I.; SIDOhOll,. R. I.
Comp).-; ~Ltierl of 'Alk.riols of !,.o!-,n temponai.Lre
by .t'ho nllutllocl.~ m' wid g
I.iau--I.d c,iroztto,,Traphy. izv. SO AIN' SSS.R Ser.11hirl-viri-ak. rD.3:
10P,1.13 '63. Omu-k
1. In3t'Ltut, nefte- i S~b-~,-skogo ol,dpLiml-
Ya AN SSSR, knuarsk.
RUDAKVI, G.A.1 SHESTAYEVA, N.M.; IVANOVAJ, L3-S,
Influence of the carriers on the course of the avid antalytic isomerl..
zation of pinene. Dokl. AN SSSR 162 no.6sI320-13~'22 Je 165. (MIllk 1837)
1. Institut nefte- i uglekhimicheskogo sinteza Irkutskop gosudeu-stvelinogo
univeraiteta. im. A.A.Zlidanova. Submitted Decemb!)r 9, IX,4.
Fill
IVANOVA, L.S~; RUDAKGIT, G.A.
jr-fluence of the porous structare of oatalyst-;, oa the a~!'di-
heterogeneous isorrierization of 0~-pinene. Dokl, 0 SI':-")'R 163
no.It113-115 J1 165. OURA 11317)
1. Institut nefte- i uglekhLmicheakogo sir'leza lvkutE~'kogo gosudarsitver,
nogo universiteta im. A,A.Zhdanova, Subzaittled Deo-ember 9, Iq64.
-I,,: CJ 5 ~11 -;V FI.J.
.1 -,t
A k? t h e J -, - -, -a- -, -. .. ~l
.1 1.. ~ i , r), I P!b nn
AN
3 K,: mc-l !,.V. PJ
r
R kh.i
IVANOVA, L.S.; PASHELIKO, G.M.; BURAKOVA, A.I.; FEDOROVSKATA, L.V.;
VISIlIzvSKly, V.14.
Study of sorption purification of floi,imycin by means of
ion-exchange resins. Antibiotiki 10 m.10:872-87'1 0 165.
(MIRA 18: 12)
1. Laboratoriya ionnogo obmena i adsorbtsii (zav. - prof.
D.N. Strazhesko) Instituta fizicheskoy khimii imenl L.V. Pisar-
zhevskogo AN UkrSSR i Kiyevskiy zavod uieditsixiskikh preparatov.
Submitted Jan. 4, 1965.
5 (3) SOV121-59-8-131126
AUTHORS: Ivanova, L. S. , Strazhesko, D. M. (Strazhesl:o, D. N.)
TITLE- Investigation of the Mechanism of Base Adsorption by Active
Carbon from Aqueous Solutions
PEPIODICA'Lt Dopovidi Akademii nauk Ukra.-Lnslkoi RSRv 1959; Nr 8,
pp 869 - 873 (USSR)
ABSTRACT: This article deals with investigatinns based upon the mothod
of P. B. Bruns and 0. H. Frumkin [Ref, 53 which were conducted
by the authors for studying the mechanism cf sorption of
various inorganic and organic bases by means of active carbon.
Ash-free carbon of phenolaldehyde tar activated at a tempera-
ture of 900 - 10000C was used as an adsorber. Some strong
(LiOH; NaOH, KOH, RbOH, Ba (OHY and week. (NH OIJ) inorganic
bases as well as a number of capilar-active orianic baseit
with a variou5 ability of disassoziation Huch as piperidine,
dietylamine, benzy1amine, codeine, aniline, methyl aniline
and dimethylaniline served as objects of this investigation,
It was established that in the case oif acids, electro-chemical
Card 112 exchange of ions of the outer coating of a double carbon layer
ITT,
SVV-1'21-59- a -- 13/26
Investigation of the Mechanism of Baso Adsorption by Active Carbon
from Aqueous Solutions
acting as a gas electrode on ions with the same charge of the
dissolved electrolyte does not only completely determine the
adsorptive behavior of hydroxides of alkaline and alkaline-
earth metals, but also plays an essential role in the
mechanism of sorption of the weak inorganic bases as piperi-
dine, dietylamine, etc. Such weak surface-active bases as
aniline and its derivatives are adsorbed by carbon in the
form of whole molecules. The basic results of this investi-
gation are shown by the table and by the diagram (1-3).
There is I table, 3 diagrams and 18 references, 11 of which
are Soviet, 1 Germang 2 French and 4 American.
ASSOCIATION: Institut fizicheskoy khimii imeni L. V. Fisarzhevskogo
AN USSR (Institute of Physical Chemistry imeni L. V.
Pisarzhevskiy of t Qk_rSSR)
I". S Bor~ d a 41 Y) ;
PRESENTED: By 0. 1. Brodskyy/ Member of the AS UkrSSR
SUBMITTEDi April 10, 1959
Card 2/2
83846
S/ I 38160IM010031001 1,Y) 7
A051/A029
AUTHOR3. Reykh, V.N.; Samoletova, V.V.; Feriiiger, D.P.;
Kormer, V.A.
T-ITT F The Properties of CWV-3 (SKI-3)~ a New Synthetir~ Isoprene Rubber
PERIODICAL: Kauchuk I Rezina, 1960, No. 3, PP. I - 5
TEM The aut1hor states that in the last decade synthetic rubber of high
elasticity was produced both by the USSR and the USA. A list of d,ome ~)f thle
typss which were synthesized is submitted (Refs. I - 7). it is p.:Amej ou, that,
all Iscpri-ne rubbers correspond to some degree to natural rubber., depending on
the nature of the catalyst and the polymerization method. Sir-r-3 was synthest?ed
in the USSR in 1957 - 1958. SKI-3 obtained with a complex moiified catalysts
was shown not to differ significantly in its microstructure from natural rubber
a-Rd SN Ameripol. It is quite similar to these in its technological and phyzico-
mechanical properties. The structure of the rubber was determined by the infra-
red spectroscopy method. k detailed description of the structure is given and
Table I shows the data of its comparison with natural rubber and Ameripol S11.
Its physico-mechanical properties are discussed. It was found that the SKI-3
Card 1/2
838h6
S/I 38/( )0/000/003/001/007
A051/AO29
The Properties of CRH-3 (SKI-3), a New Synthetic Isoprene Rubber
rubber at a given composition vulcanizes at about the same ratA! as natural rubber
and in this way differs from the quickly-vulcanizing lithium-imoprene', rubber.
The elevated rate of vulcanization in the former is probably explain*d by the
pre---ence of residuall catalyst. SKI-3 is close to natural rubber in Its 'Vempera-
ture resistance (at 1000C). It was also found that rubbers produced with comp:ex
catalyst's have a more uniform structure, better technological properties Luid a
high-zi, temperature resistance, but their elastic dynamic properties are Inferior
to the hilgh-molecular lithium-isoprene rubber. The authors think that SKI-3 due
to its many valuable properties is of great significance to the -,ire and rubber
industries. There are 4 tables, : fig-are and 9 referencest 4 Soviet and 5 Eng-
lish.
ASSOrTATION; Vsesoyu7_nyy institut sinteticheskogo kauchuka im. 8-V. Lebedeva
(All-Union institute for Synthetic Rubber irceni S,V.-Lebedev)
Card P,/2
IVANOVA, L.S.; SVINTSOVA, L.G. [Svyntsova, L.H.1; STWHESM, D-11. [Strazhesko,
Separating acid mixtures on the basis of the difference In the mechanism
of their sorption on activated charcoal. Dop.AN VRSR no.9:2151-2254
160, * OIRA 13 - 10)
1. Institut fizichaskoy khimii im. L.V.Pisarzhevskogo All USSR.
Rredstavleno akademikom AN USSR A.I.Brodskim.
(Acids) (Sorption)
-, -- J
157.1boo
S11381601000101010011008
L051/AO29
AUTHORSs Reykh, V.N.j Samoletoya, V.V., Baranova, G.P.p Pritnova, L.So
TITLEt Properties of Divinyl Rubbers With a Regular Struoture and That
of Their Vulcanizatee
P-TRIODICALt Kauchuk i Rezina, 1960,ftNo. 10, pp.6-12
TEXTI In 1956, in the USSR the following polymer was synthesized using
complex catalystst Gis-lt4-diyinyl rubberl having a structure oft cis-10-
links 70%, trans-1,4-links 25% and 1,2-links 2-5% (Ref.12 and the following
properties: vitrification temperature of the polymer -1021C, molecular weight
35W00, unsaturation, 94-100%. Later on clivinyl polymers containing cis-1,4-
links up to 95rito were produced. In 1958 the possibility of obtaining regularly-
constructed divinyl rubbers using lithium as catalyst was proven. The 1,4-
link content in this polymer was as high as 85't the vitrification temperature
,f
fluctuated within the range of -100 to 1050 In the resent article the
authors deal with the properties of cis:1,4-aivinyl Mber obtained by the
polj,inerization of a go diyinyl rubber using complex catalystaq and also with
the properties of lithium-clivinyl rubber. The properties of the regularly-
constructed divinyl, rubbers are compared to that of the industrial types of
Card 1/9
89059
S/138/60/000/010/001/008
A051/AO29
Properties of Divinyl Rubbers With a Regular Structure and That of Their
Vulcanizates
natural and divinyl rubber. The polymers synthesized with complex catalysts
(Ma-SKD) were found to have a more regular structure than thoae of the
lithium-divinyl type (CI?SIA-SKLD) . Table 2 gives an ind.1cation of these
structures and the respective vitrification temperatures. An outstanding
feature of the investigated divinyl rubbers is their high resistance to oxida-
tion destruction. The introduction of 1'/'~o phanyl-'P -naphthalamine insures a
satisfactory stability of this rubber in its processing and storage. Rubbers
of various molecular weight were obtained when using complex catalysts depend-
ing on the conditions of polymerization and, accordingly, different plasticity
(the plasticity varied from 0.10 to 0.70). The lithium-divinyl rubber under
the given conditions of polymerization was obtained with a high. molecular neight
only (plasticity.-O-05-0-10). The SKD-rubber can be satisfactorily processed
on laboratory equipment. During the rolling process it acquires a dense coat-
ing and is comparatively easily mixed with the ingredients. The SKLD-rubber
crumbles in the rolling process and without preliminary mastication cannot be
applied to the production of rubber mixtures. The mastication of divinyl
rubbers can be accomplished using chemical plasticizers. In the cast of the
Card 2/9
S/138/60/000/010/001/003
A051/AO29
Properties of Divinyl Rubbers With a Regular Structure and That of Their
Vulcanizates
SKLD-rubber the best plasticizer among those being tested proved to be an oxi-
dation-reduction system, consisting of "galipot" (boiled pine resin roCT 840-
41-GOST 840-41) and iron naphthanate. -The indicated system (at moderate
temperature (1300C) and in a relatively short period of tine, viz., X-30 min) was able
to raise the.plasticity of the rubber from 0,05-0-10 to 0-50-0-70- It is
further pointed out that the investigated rubbers, SKD and SKLD, have no acLhe-
sive properties. The technological properties of filled divinyl rubbers were
found to be unsatisfactory. The introduction of channel carbon black caused
the plasticity to drop, which ia explained by the fact that divinyl rubbers do
not destruoturalize during the mechanioal processing, contrary -to natural or
isoprene rubbers. The type of carbon black used was also found to have an
effect on the mixture. Mixtures containing Filbreck 110" carbon black have a
much better surface in calendering and atomizing than.those filled with gaseous
carbon black. Large quantities of softener or plasticizer are suggested to
improve the technological properties of filled divinyl rubber mixtures. The
vulcanizate properties of divinyl rubbers were studied by comparing them to t1uLt
of the industrial type divinyl rubbers: CH6 (SKB) , CRB (SKY-potassium-diTirtyl
Card 3/9
89059
S/138/60/000/010/001/008
A051/AO29
Properties of Divinyl Rubbers With a Regular Structure and That of Their
Vulcanizates
rubber) and CRSM (SKBM-lithium-diyinyl rubber) having the same plasticity as
well as with natural rubber and divinyl- styrene rubber, CRC -30A (SKS-301) -
Carbon black-filled Yulcanizates were chosen for the inyestigation with respect
to the industrial type divinyl rubbers and SKLD. The tear-resistance of the
non-filled more regularly construated SKD polymers (ois~-lpij-linku 92-95M was
found to be higher and equal to 80 kg/CM2. Table 4 presents the comparative
figures of the physico-mechanical properties of the carbon black Yulcanizates
of the divinyl rubbers and that of natural rubber. It can be seen that the
indicated divinyl rubbers are close to natural rubber in their elastic-dynamio
properties and are superior in their wear-, frost-, and heat-roisistance. The
residual elongation of the divinyl rubbers decreases with an increase of the
cis-10-link content, which is assumed to be connected with the relaxation
phenomena. The temperature stability of all divinyl rubbers including that of
SKD is lower than that of natural rubber. The figures are actually misleading
since the testing of the divinyl rubber as compared to natural rubber is
conducted at higher temperatures, if the zero point is taken at the vitrifica,
tion temperature. The highest frost-resistance was found to be in SKD and
Card 4/9
U >'V. -, Y
S/138/60/000/010/001/008
A051/AO29
Properties of DiTinyl Rubbers With a Regular Structure said That of Their
Vulcanizates
SKLD rubbers, which corresponds to their lower Titrification temperature. At
a.tqmperature of 200C the elasticity of the SKD rubber is much higher than
that of the natural rubber with the same carbon black content in the mixture.
The SXD and SKLD rubbers have a higher elastioity than tho SKS-30A. Since the
elasticity of. SXD, SKLD and natural rubber at elevated temperatTarea is almost
the same, the heat formation and mechanioal losses of the vulcanizates of
these rubbers are close. The vulcanizates of the SKD and SKLD rubbers retain
their elastic and resistance properties well after heat aging.(Table 6), which
is a great advantage of the divinyl rubber as compared to the natural rubber.
One of the greatest advantages of the regularly-constructed divinyl rubbers
is their high wear-resistance, which, in turn, is higher in SKD than in SXLD.
Finally, the SKD rubber has a high resistance to crack growth, determined
according to the method of H.E. Railsback. ftnluling, the author emphasizes
agaJn all the valuable properties of the regularly-constructed divinyl polymers,
stating that these properties of the cis-divinyl rubber make it applicable
as a rubber for general use by itself or in a mixture vrith natural rubber
primarily for the tire industry or for frost-resistant articles. The authors
Card 5/9
89059
S11381601000101010011008
A051/AO29
Properties of Divinyl Rubbers With a Regular Structure and That of Their
VulcaniZat6B
think that this rubber has a great future due to the preaence of a large raw
material base of the initial monomer (divinyl) and its comparatively low
price. There are 6 tables, 4 graphs and 12 referencest I Soviet, 10 English,
1 German.
ASSOCIATION: Vsesoyuznyy nauohno-issledOTatOl'skiy institut sintetichaskogo
kauchuka im. 3.V. Lebedeva (All-Union Scientific-Research
Institute of the Synthetic Rubber Industry im. M. Lebede-T).
Card 6/9
89059
S11381601000101010011008
A051/AO29
Properties of Divinyl FbAbbers With a Regular Structure and That of Their
Vulcanizates
Table 2
The Structure-of-Divirql Rubbers
---------- -------- -----T------ -- ---- -------- T-----------------------I
Type of Catalyst link content, % Vitrifioa-tion temp.00
rubber 1 7 7
1,4 ;ois-lP4:trans-:1,2:
---------- -------- ------ ------- 4-A --- -----------------------
COMDlaX 192-96 11-12 :4-81-105 - 110
S
KD !80-95
SKLD
Card 7/9
89059
3/138/60/000/010/001/008
A051/AO29
Properties of Divinyl Rubbers With a Regular Structure and That of Their
Vulcanizates
Table 6
T -----------------------------------------------------------------------------
Heat-resistance of divinyl rubber Tuloanizates and natural rubber (aging
T-------- 92E!2L2�Ar3- at 100021 -------------------------------
j............... lype of rubber
Indices T ------------- 1* ---------------
I I SKLD Natural rubber
I SKD A
------ - -----
I-before-Fafter-lbefore after before after
aging .:_aging_iaging aging aging aging
----------- ------- -------- ------ --- 4 -------
Tear-
resistance
kg/CM2 236 137 185 130 320 54
recoil
elasticity 50-55 53-59 5 50
at 200, at It I
1000 55 60-62 1 52 57
Card 8 9
89059 .
S11381601000/0101001100a
A-051/1029
Properties of DiTinyl Rubbers With a Regular Structure and That of Their
Vulcanizates
Table 4
Physioo-meohanioal properties of carbon black vulcanizates of diyinyl rubbers
,and natural_rubber_jj!!R!E!!ure of vulcanization 143PO) .........
T---------- ----- T
tM-2E.rubber
Properties ------ y......... T........ T T-w .... T.0 ------- T-------
SKD I SKLD I SKBM SXV
---------- ------ --------- f-------- -------
Plasticity f lot Ot6OII
11 OP50 50- COO 0950 Ov5O 1 COO
the rubber I I I
Modulus at 30e.;
qlongationvlE~m2160-75 60-75 60-75 60-75 60-75 70 75
'Tear resistano.9 1 , It - - It It It
,.kg/oi,2 12206-270,1150-190 1150-170 1150-41701 150 1 280 11 320
I
Relative elmgat- % I 500-TO 11500-190 600 600 1 600 1 650 1, 640
,Residual elonga-,I I I
t10-15 ;10-20 20-30 20-30 30-50 25 40
Card 9/9
'ALIVSHITS. I.A.; RETXH, V.N.; RTkZAIqTSEV, X.P.; SALIMB, K.Yu,; SAMOLN'TOYA,
V.V.; STEPASOVA, V.I.; SHLIFER, D.I.; Prinimila whastiye
IVANOVA, L.S.
Properties of ethylene - gropylene copolymers. Kaucb. i rez.
19 no. 11:1-5 N 160. (14IRA 13:11)
1. Vsesoyuznyy nauchno-iseledovatellskly Institut sinteticheskogo
kauchuka im. S.V. Lebedeva.
(Ethylene) (Propene) (Rubber. Syntbatic)
3/073/60/026/00-/0019/021
BOO 4/1110
AUTHORS: -J-xa2.ova,, L.... and S-rintsova, L. G.
TITLE: Study of th--~ Mochaniwa cif A,13orl0lon Of 1~y
Activated Carbon~ !- Mechanism of A:--Ils Y--
Aqueous Solutions
PERIODICAL: Ukrainskiy khirriisheskly zhurnal, 1960, Vo".. 2,6. No.
PP. 58-65
TEXT; The authors describe a stukv of the adsorption of acids c)n
actIvated carbon prepared by carbonizing phenol aldehyde- ze-~In, and
activated by heaf.ing to 650-10000C in a CO 2 fl,:,w, 0.25% of platirrizi wa-,
applied to the carbon by the method of B. P, Bruns and A~ N. Frumki7~
(Ref. 6)~ The authors studied A) the adsorption of inc,rgariic, p,-,c.:-'-y
surface active acids in -air and in hydrogen atmospheri., ram,,Aly H)SC 4:
HC1, HBr, HI, H 3PO, 4 jHF, H3BO 3~H3 A90 3 'Figs. I and 2 3hc,ii adsorpticrk
isotherms. It was found that the ad8orption of in,~rganic ac-~da, alio of
Card 1/3
Study rf the hle~.,hanism of Adsorption of S/07'/60/026/001, 1'009/C,.--
Electrolytes by Activated Carbcn. 1. Mechanism BO04/BQ54
of AdsOrption of Acids From Aqueous Solutiono
poorly dissociated ones, is mainly peTformcd by
The latter Is, however, superimposed by specific anion aorpt-4on (HI) and
in the case of weak acids (H BO H,AsO ), sorption of 3omplet-3 m:~le-u:r.'.
3 3' ~ 3
In the case of HF in dilute solution, electr3chemical sorpticn preva-'113,
whereas at high concentration molesular sorption occurs in sddition
(sorption in hydrogen atmosphere). B) The adsorption of organic acids:
formic., acetic., propionic, butyric, caproic, oxalic, malonic, sucsinic,
glut-a-ric. adipic, monochloro acetic, trichi~~.rc a3etic, benzoic-, phthalic.,
salicylic, sulfosalicylic, and sulfan~l~c acid, as wt-11 as phc-n1-'.,.. In the
-'S. In Morf~ d4Z:3',C_.a1r,
a,.;e of weak organ4c acids, mo'p--:!ular sorption preva
c - - - - -d'
surface-active acids ~e,g,, SUlf03alicyllc ac--'d) ;.on -~-xchanj~~- occurc. ir
addition., The authors thank Professor D. N, Strazhoslko for th.!
work, There are 6 fig-.~.,es, 2 tables, and 23 r-~ferenses: 17 Soviet, j US,
3 German, and 1 French.
ASSOCIATION: Institut fizicheskoy khimli im, L_V.Pi_%ar_-he,~T!_-.kogo -411 USSR
(Institute of Phynical Ch;-miZtry imani L.V.
AS UkrSSR)
Card 2/3
'Otudy of the 'Ylechanism of Adsorption of S/073/60,/026/oo-,/000/021
Electrolytes by Activated Carbon. 1. 11'rechanism BO04/3054
of Adsorption of Acids From Aqueous Solutions
SUBMITTED: November 11, 1958
Legend to Fig. 1: Adsorption isotherms for sulfuric acid (1) a,,d photphoric
acid (2) in air (a) and in hydrogen (b); 3: amount of adsorptior in
mg-equlg; 4: equilibrium concentration of the solution (mg-e-qu/1).
Legend to Fig. 2: Adsorption isotherms for lVdrofluoric acid (1) and
boric aci(I (2) in air (a) and in hydrogen (b); 3: amount of ad,.soryt4on
--e
(m 4: equilibrium concentration, of the solution (!-,-e -L,//-)
qu
47
h")
43
-le
41
10 x
Card 3/3
5/062/61/000/001/002/016
3101/B220
AUTHORSi Dubinin, M. M., Zaverina, Ye. D., _Tj~ya, j!. S., Kaverov,
A. T.v and Kasatochkin, V. 1.
TITLE: Study of the nature of the micropore structure of activated
carbons. Communication 1. Activated carbons from phenol-
aldehyde resins
PERIODICAL: Izvestiya, Akademii nauk SSSR. Otdelenlye khimicheskikh nauk,
no. 1, 1961, 17-28
TEXT: The aim of the authors was to characterize the micropore structure
of activated carbons by adsorption of molecules whose dimonsions are
comparable to those of the micropores. The present report deals with..
activated carbons from phenyl-aldehyde resint whose structure has be4n
modified considerably by treatment at various temperatures. The method if
obtaining the carbon has been described previously (Refs. 11, 12 Th;~"
product obtained by carbonization of the resin has been aotivated in a
rotating quartz retort at 9500C till the lose in weight amounted to about
Card
S/062/61/000/001/002/016
Study of the nature of the miaropore... B101/B220
50~6. This specimen was termed A-950. Its heating in nitrogen to 1750,
2000, and 23000C resulted in the specimens A-1750, A-2000, A-2300. A-3000
was obtained by heating in an electric resistance furnace of the type
Pr, -100 (RS-100). Reduction in weight was 3.21% at 175000, 3.50% at
20000C, 5.53% at 23000C, and 5.57% at 30000C. Debye-Soberrer patterns
were taken by means of a BPC,-3 (VRS-3) camera; the parameters La and L.
of the carbon arystallites were determined according to R. E.'Warren
(Ref. 13) and the radiographic density q was calculated from equation
Q - zAm/abo (%14 number of 0 atoms in the unit cell; A=12, atomic -weight
of C; m-1.66-1 g, mass of the H atom; a-b-2-456 A, conotante of the
graphite crystal lattice in the basal surfacel a-UO02, dimension of the
unit cell along axis o). Table I indicates the data obtained. The
adsorption properties of the specimens were determined in a wide range of
relative pressure by means of a sorption balance for benzene, cyalohexane,
and water at 200C (Table 2). The cenetante of the ii3othermal lines of
adsorption were oaiculated from Sq. (4) of the potential theory of
adsorption: a - alexp [(-B(T 2/p2) (logp"/P)2], whore e.1 - If /Y (5)
0 0 a
Card 2/9
3/062/61/000/001/002/016
Study of the nature of the mioropore... Biol/B220
corresponds to the maximum dooupation of the ddeorption volume WO and v
is the voluae of 1 millimole of the adsorbed substance (Table 3). This
carbon has a mixed structural type with two kinds of micropores as shown
in Fig. 5 for benzene and A-1750- In the miaropores of the first type,
which correspond to a6, there occurs an increase of the adsorption
potential. This effect is absent in large mioropores of -the second type
(all). The following relation has been obtained: ao' + all = a0 (6).
0 0
a0 is the adsorption occurring at the beginning of hysteresis and
capillary condensation of the vapor in the intermediate pores. This valu
is represented in Fig. 5 by a.broken vertical line: (p/ps)o - 0.175. Bas:d
an the sorption isotherm, the volumes of the different typea of pores were
evaluated: v + Vol are the volumes of the tWO ty])GB of micropores;
mi ~ Vm'i mi
vi is the volume of the intermediate pores; and v. is the total volume of
pores (Table 4)., Tables 6 and 7 indicate the values found for the
eCd'so_ip'tion* of organic substances and electrolytes. The crystallite
surfaces (cylindrical lateral surface Sl, basal surfaces SO which vere
obtained from radiographical data do not coincide with calculations
Card 3/9
S/062/6-1/000/001/002/016
Study of the nature of the micropore... B1-01 B220
according to Brunauer, Emmett and Teller, and LangmtUr (Table 8). An
attempt hash been made to explain the structure by the example of A-~950-
It is assumed that binary micropores are formed by tho combustion of two
superposed crystallites when the carbon is heated. 4 is assumed to be the
specific surface of,the mioropores composed of the surfacl3 cc of the single
miaropores and of l-a of the "binary" ones. In the singla micropores, ni
molecules of one vapor and n~ molecules of another vapor are assumed to be
adsorbed. Correspondingly, nil, n" molecules are adsorbed in the binary
pores. "ll, 02 Pre assumed to 1 be 2 the areas oooupied by -the adsorbed
molecules. The
asn,1/201 + (1-ce
resulting in a
A = aol oil/all
0 G)2
following relations have been
snll/201_a~' (11) and ocan2f/24)
1 2
(An" nil
- nil )/[(An"
2 1 2 1
(14) and a - 2al Gi Eanl
0
obtainedi
+ (1-a)9 11/2tj all (12)
2 o
(An2 n, (V), where
+ (1-a)n1l] (15). For A-950
1
one obtains a - 0,256 and s-~= 568 m2/g. Thus, binary pores are formed for
the major part (74%). This approximative model of micropores agrees with
radiographic data and reproduces the measurements of adsorption correctly.
D. N. Strazheeko, S. G. Tolkaohev, and I. V. Uspenskiy are thanked for
Card 4/9~
S10621611000100110021016
Study of the nature of the micropore... BIOI/B220
assistance. There are 5 figures, 8 tables, and 25 references: 15 Soviet-
bloc and 9 non-Soviet-bloc.
ASSOCIATION: Institut fizicheskoy khimii Akademii nauk SSSR (Institute of
Physical Chemistry, Academy*'of Sciencea USSR). Institat
SSSR (Institut
goryuchikh iskopayemykh Ak-ademii nauk -e of
Mineral Fuels, Academy of Sciences USSR). Tnatitut
fizicheskoy khimii Akademii nauk USSR (institute of
Physical Chemistryt Academy of Sciences UkrSSR)
SUBMITTED: October 13, 1959
Card-5/9
S/062/61/000/001/002/016
Study of the nature of the micropore... BIOI/B220
Legend to Table 1:
,
a) carbon. mro mccAcAosamHu yraeA
Amme peMeHorpa~114e
L,. A 10, 1
l I
n o (001 no (004) no tm
A- 950 8 8 21 22 3 1 oo 1,91
A-MO 1
0 it 31 34 3173 2104
A-2000 U 13 39 40 3,58 2,13
A-23W 15 t5 43 45 3,48 2,19
A -.M 22 .23 5 1 5 2 3,40 2,24
TIPeAeshime sejm~mjim' COPGUIIH x CwP41103111"U, e o6semm
Legend to Table 2:
a) carbon. . C.H.
YrVAb Vs.
AIMIJ eils"'I JIM/
A" 5.84 0.519 4,79 0,5t8 27, 1
0,488
-1 0
A
1 3,36 0,299 2,03 0,24D 16,8 0,302
2
A
1 1,27 0,113 0,711 0,P77 4145 O,M
~
A-
O.iq8 0,()18
0, 1 ~5 0,018
0,18 0,0034
Card.6/9 A O'li 0,010 - - -
$10621611000100110021016
Study of the nature of the mioropore. .. B101/B220
KOHCTAH'fW YPADKeHHR 1130tepM AACOPOWIN
Legend to Table 3:
a
vapor; b) carboni 0.)
o range of validity .
~ TUP Vr" 104 11
P/Ps
CA A. 050 4,62 0,4tO 0.773 1.00 1 10-10-*-Z-10-11
A-1750 1,59 0.14t 0.873 1,00 5.10-6-2-10-3
A-2000 0,57 0,05t 2,07 t A 2. to-It _4 - 10-9
CHit A- 950 3.80 0.410 0,773 1,00 7 - tO-4 -2-10-0
A-1750 O,9t 0,098 .0,873 0,995 3-10-4 -7- t0-4
A-2000 0,30 0,033 2. W 1,02 1.5-10-4-1-10-1
05-hellba p a3.21111HUX PA31MOMAHOCIeft nop yraeA a cxlft
Legend to Table 4'. ~X MTaWMIOUX IC 7,111
7, a) carbon; b) components
V
vmi; 0) intermediate
pores S
A. 050 0 474 410
0 ONS
O 0.0115 O'Sto
A-050 0:253 0 141
: 0 iu
: 0,045 0,200
A-2000 0,060 0,05t 0,003 0,053 OJ13
A-2300 0,002 0,010 0.018
j
Card 7/9 A-M 0,000 0.010 0.010
TT
..........
S1062J6110001001 100210 16
Study'of the nature of the micropore... BIOI /M220
Legend to Table 6: a.xAffe
a) ad 'porbed AAcoj:6apyemoe vcuvvTw
substance; b) AMO X117M A-100) A-050 A-1750 A-M
relative amount of
adsorption; 1) formio -i MyPaBbm)inq ncnara 0.555 0,218 0,050 1'00 0,39 0,090
acid; 2) acetic acid; tYxcycHaq xncaon O,M 0,315 0,075 1,00 0.39 0,093
3) propionic acid; 4) 3nponllotioaafl XHCnoTa 1,207 0.4M 0 118 1.00 0 38 009
q MaCARHaR KHCJIOTa 1,705 0,607 0 1W 1 00 0 4t 0 itt
butyric acid; 5
~ MhpoHooaa micacyra 2,367 1,332 0,40t) t:w 0 56 O,tGq
caproic acid; 6 4 OeHOJI 2.035 1,2110 0,285 i,w 0:63 Oj4O
phenol; 7) methylene I MeTmfteHanuft rany6oft 1,015 0,243 0,055 I,w
00 0,24
0
5 0,054
00
0
jKoHro XP3CHWR 0,088 0.04YA 0,000 1. ,0 .
blue; 8 Congo red.
Aiteop6wis exexTpoamloyj m3 a0itRux PacTriopoll a MEIV
Legend to Table 7: Ha NOCI
a) carbon.' YA b(SOH
W cf- r OH-
A- 950 0 307 0,303 001
0
03,
0 01030
A-1750 0:079 0.075 0 000
: 0:013 0,00
A-2M 0,0()B
01007
-01001 0.000 O,wt
Card 8/9
A-2"
0 0 0,001 0,000
mu
S10621611000100110021016
Study of the nature of the mioropore... B101/B220 TddAmixti 8
Legend to Table 8: YAC-Umbic nosepiloervi S "'Ja
a) carbon; b) X-ray Citi,
surfaces; c) BET; 4b a
) Langmuir; e)
S5
ST
S
aln S
,
lateral surfaces;
f) basal surfaces A- 950 9170 13tO 2280 4.58 1130 5
12 1270 3.71 850
. A-1750 6t0 940 15-50 2.48 610 2 67
: 6W 1.45 330
A-2000 480 750 1230 0,514 130 0.483 HO 0,289 68
A-2300 420 Gio t030 0,02A 6 0,013 3-
A-3000 350 390 740
US
p
-a4,
.a7
Card 9/9
33605
S/678/61/()00/038/005/009
0/,;20 A057/A126
AUTHORS; Sidorov, R.I., Nedell, M.M., Mivostikova, A,A., Ivanova, L.S.
Kositsyna, E.I. ------ ~-
TITLE: Investigation of the composition of industrial liquid-phase
hydrogenation products. Report 6. Investigation of the com-
position of the gasoline fraction in the hydrogenation product
of petroleum residues
PERIODICAL: Akademiya nauk SSSR. Vostoohno-Sibirskly filial. Trudy. Serlya
khimicheskaya, no. 38, Moscow, 1961. Prevrashcheniya aroiratL-
cheskikh uglevodorodov v protsesse destruktivnoy gidrogenizat.-
sii., 77 - 86
TEXT: The composition of the gasoline fraction obtained from a liquid-
phase hydrogenation product frommout of Ramashkin and And1zhan petroleum
was investigated in order to improve the efficiency of hydrc)genattLon plants.
The amount of the gasoline fraction, separated by fractional distillation in
a laboratory-scale column, was 26.1% of neutralQil, 0.67% (2.7% or the methane-
naphthenic fraction) of which were hydrocarbons boiling at 20 - 9)OC. The
Card 1/3
33605
s/6,r8/61/(DOO/038/005/009
Investigation of the composition of ...... A057/A126
latter contain 1.01% 2-methylbutane, 0.93% n-pentane, and 0-75% non-saturated
hydrocarbons, or a small quantity of cyclopentane. Determinations by the
GROZNii method [Abstracter's note: not described here] showed the following
composition of the investigated gasoline: 8% non-saturated, 25% aromatic, 17.5%
naphtbenic, and 49.2% paraffinic hydrocarbons. The high :;ontent of aromat,lo
hydrocarbons Indicates the usefulness of this gasoline as autom:)bile fuel.
The single components in the methane-naplithenic fractions were separated also
chromatographically on 1HCM (,9hSM) 60 - 150 mesh silica Fel, wi..,h 12 activity
units. The final identification of each component was carried out by meam!3
of Raman spectra. 117 compounds,i.e. about 77% of the me"hane-naphthenic con-
centrate were identified and some regularities observed. It was observed
that naphthenes contain only 12% compounds with quaternary carbon atoms,
while paraffinic contain 29.0%. Naphthenes with quaternary atorlis are apparent-
ly less stable in liquid-phase hydrogenation*. Aromat-1c hydrocarbons were
separated in the present study chromatographically and thimi by fractional
distillation into 34 fractions. 14 compounds were identified by means of
Raman spectra Fon al4CII-51 (ISP-51) device] and ultraviolet spec',ra Fon a
C~D -4 (SP-43 device]. The compositon of the aroniatd~~ fr_:iction
Card 2/3
33605
s/678/6i/oo