SCIENTIFIC ABSTRACT UDOVENKO, V.G. - UDOVENKO, V.V.
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CIA-RDP86-00513R001857820003-7
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RIF
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S
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100
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November 2, 2016
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April 3, 2001
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Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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Body:
The Soviet Far East;Economic and Geographic Features (Cont.) 245
Ch. I. Physical and Geographic Features and Natural Resources
Topography
Minerals
Lakes and rivers
Climate
Permafrost
Soils
Flora
Fauna
9
9
17
22
28
32
33
36
45
Card 3/5
The Soviet Far East;Fconcmic and Geographic Features (Cont.) 245
Ch. n. Stagds of COloaization 48
Ch. III. Population 67
Ch. IV. Economy 77
Industkies 78
Agriculture and an'lly-1 husbandry 102
Transportation and interregional camunications 121
Ch. V. Features of Individual Krays and Oblasts 134
Khabarovskiy Kray 134
Pr:Lmorskiy Kray 154
Card 4/5
The Saviet Far East;Fconomic and Geographic Features (cont.)
Amurakays, Oblast
SakbaUnskaya Oblast
Kamchatskaya Oblast
Magadanskaya Oblast
Bibliography
Appendix
AVAU&4=: Library of Congftss
Card 5/5
GC/bmd
May 28,1958
245
176
192
al
221
235
237
KLYUCUMV, A.P.; KO1U=T'YZV, S.N.; Pfinimali uchastiye: GUSARDV, F.V.;
k_WWXUQ, YGp MROV, G.A.; BUMER, V.Yo.; S11HONIN, I.A.;
KUDRIN, Ye-A.; GALAKHMATOV, S.N.; ZIMM, L.P.; SHISHARIN, B.N.;
KONDY'UR11TA, R.V~; BURMISTROV, K.A.; SHIRNIN, I.A.; SIM01MIKO, P.N.;
GORSHILOV, YU.V,; KOLPAROV, B.V.; GUSAROV, A.K.; BOIA)TOV, P.G.
Heat insulation of open-hearth furnace crowns. Metallurg 5 no.11;
14-17 N 16o. (MIRA 13:10)
1. Nizhe-Tagillskiy metallurgicheakiv kombinat.
(Open-hearth furnaces--Design and construction)
(Insulation (&at))
KORDRATIYEEV, S.N.; KLYUCHEROV~ A.P.; UDOVENKO, V.G.; SHIFITIN, I.A.;
VURINA, M.A. -V ------
Rapi&-methods if reDair and the fritting of new hearth bottoms.
Meta32urg 6 no.%M-!~3 S 161. (MIRA 14:9)
1. Niehne-TAgillskiy metallurgicheakiy kombinat.
(Open-hearth furnaces-41airkterance and repair)
2~:
ILAR~'Wgl, V.M.; DOINSKOY, S.A.; T(ESHILM, TRETIYA OV, M.A.;
V.G.; IMEYDENZOO, Ye.Z.
Blowing of cast iron in h-lgh,-:!apacity converters. Me-,a)'urg if) rr,.'4~
15-18 S 165. OMIRA l81'?)
Nizhne-Tagillskiy metallurgicheskiy konabinat.
1~
ALAMPIYEV, P.M.; OMAROVSKIY$ A.G.; UDOVENKO, VA-i'.
New features of the literature on the ecpnomic regions of the
U.S.S.R. Izv. At SSSR. Ser. geog. no.4tl47-151 JI-Ag 163.
(KIIA 16:1)
(Bibliography-Geography, Economic)
11
DUBROV, N.F.; KITAYEV, B.I.; KOKAREV, N.I.; UDOVENKO V.G.; KONDRATIYEV, S.N.;
ZATULOVSKAYAJ, Ye.Z.; ELYUCHEROV, A.P. .. =2 -
Review of the book by. N.A.Vecher "Highly efficient operation of
open-hearth furnaces." Stall 24 no.7:63,3-614 J1 164. (MIRA 18:1)
1. Urallskiy nauchno-issledovatellskiy institut chernykh metallov,
Urallskiy politeldmicheskiy institut i Nizhne-Tagillskiy metallurgi-
cheskiy kombinat.
ARNAUTOV, V.T.; BARANOV, V.M.; LONSKOY, S.A.; PASTUKHOV, A.I.; SMIRTIOV, L.A.;
TORSHILOV, Yu.V.; TPYI"YAKOV, 14.A.;,,LJ.Pn'gq
FITTIENZON, Ye.Z.;
SHMEWITIV, Yu.S.; Prinimali uchastlye: MAMYFV, S.V.; YO!"PANILYE-_"J,
G.M.; NAGOVITSYN, D.F.; 1,10VOLODSKIY, P.I.; VARSHAVSKIY, V.L.;
KOROGCDSKIY, V.G.; KLIBANOV, Ye.L.: WDVEDEVSKIKH, Yu.; TALANTSEVA,
T.I.; DUBROV, N.F.; DZE14YAN, S.K.; TOPYCHKANOV, B.I.; CHARUSHNIKOV,
O.A.; KHARITONOV, Yu.A.
Developing and mastering the technology of converting vanadium
cast iron in oxygen-blown converters with a 100 ton (14g) capacity.
Stall 25 nn.f~-504-1;08 je 165. (MIRA IS:
1. Nizhne-TagiiYskiy metalliurgicheskjy komhiriat (for Makayev, Z.
niyets, Nagovitsyn, Novolodskiy, Var-shavskiy, Korogodskiy, Mib~_-(-.;
Medvedevskikh, Talantspva). 2. Tirallskiy
institut chenykh metallov (for Lrubrov, Pzemyan, Topychkanuv.
nikov, Kharitonov).
FIN YLIENZON , fu Z. ;, U
." I , . . .1, ; p Y,
TPLIETIYAKO"', N.A. Nri(l 1V ~Tl~ Itl i,. ;Y
I op.;r"it.'rin oL' plant.
of' the N1.7,hrily '1w,"ll (!oi;;bfiif-j. SlaLl ro.t -
5
ne-Tagillski- Nietfiliurgiche'3kly kc..,nbinat, i lkl-a L 1, 1
N i zh. j
na u c hn o - -4 s s va i_ r-. f: y j r, ~-; t i t U T, c - e rn yk h ir ee ta I I C.
VARLAMOV, V.S., kand.tekhn.nauk; ILIINA, A.I.; KUDRrASHOV, A.I., inzh.;
UDOVRNKO, V.S., Inzb.; KOGAN, G.A., inzh.
Continuous oxidation of paraffins under industrial con-
ditions. Maol.-zhir.prom. 25 no-10:39-41 '59.
I (MIRA 13.-2)
1. VS880YU247 naucbno-iseledovetallskiy institut zhirorv
(for Varlamov, Illina). 2o Shebakinskiy kombinat sintaticho-
skikh zhirzWkh kislot i zhirrqldi spirtov (for Kudryashov,
Udovenko. Kogan).
(Sbabekino--Paraffins)
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jrim.
jrf7
(B) Mw %vMM =L wL of NH mbdYPhM%
C
in CA rim wj* ID(Lft coam; t6" of N-PhE:&,
000�L U R the appmenit uioL wt.
falls with rid% cortem Tba massif appawnt wal.
wt. of Mixtures of PWR wd smines in 0,11, 111
would fallm frova the additive rule. to a degme
ineressing with their conen. R. T.
A 10. 1 L A AETALL~AL L11111141OW1111 CLASWICOW
a A, .0 L11;
0
OT44
a**
we 0
f JA L I I 1W 6 4 9 1 w a 9 a a 3 0 v IMf
allumm" Is
OOA
i
o 0
00 4
so&
sog
004
000
00's
Nk$Mft W Of WHOM WAik Wd-dAMMIMmum gas
,1116111 -V, V- U410,101'. , J. C".
92"OW)" -, The v was deld.
CAM. Iff a. fl~ 11 M10, I'
&1 23, 5 ~li Ga.. Ile Md. % of HOAc mood up to
IF" 1110040 A NOR. At 14 thM
and ,h= Wh mddtmed with locremalas temp. wiid~~
cd HOAc'ur to do kwvimcoms -nt. In dhoethyl.
arlubm-W65; tw aliff. Wed, V of HOAc "d In
dielbylanNift-MAc at 60 mdiir-mc. Tb* lattw
Im. wom own vbmx thes tiw form". The w1m.
evolved bat wbm prepd. and ba both "esms the fonms.
dw of cmpdt. mu owed bat their compa. was Doi
d"A Z. KA90kh
A I a. I L A MR?A&LUftKAL 4.1111ATIM1111 CtAUVICAIM
film
0 0 0 0
0 0 0 0 010 0 0 0 0 0 0 0 0 0 * 0 9
Name" 414j* a mr
00
n .00
L
coo
t'99
4*0
---- --- see
yes
INSW dA 41KV All
I Od 0 0 0 1 IF 0 9 A 4 3 4
111 0 0 0 e 0 0 0 0 0 0 0 111
0 9 0 0 0 111 0 0 * 9 0 0 0
fwq
100 A
00,
00 A
00a
oo*
fee.4
00
* 0 ic
to
-CAM. (U.
drtaL am& wkb 6Q.af J wespowpows A + 0, imd to
Val" of a -saw, wt.,' of the two-Ompomt Maute ;
defted by mW cakd. fm M - 1140009 - Moil)
tAr. wbin &r is the aboottv kilifins d the t. P.;
tha wt. cd the adind Witte (A + 3) 1 K Mo, go We
_Y tide COWL, ma. wt. AW Wt. ce 16 ;4;;;t, ;wp.
yor 4eyttai flooll ratio% A, 8 the w4dd. M b plotted
Againg the qc#t;i mnm. 0('(A + a) (to md'. P" 1111111 g,
"Veils) in the MA". Next, plots of M agdam The fool.
ratio A:B am OwOrmt Owcom-n- Us-)- M--
menu we" mosolle In b MAO. for The InfuA solute%:
(1) Tauendthybemem: M is Itodepead-t of the
cown. c4 (A B). for the Vt" ~P~ts " wn So
for the tailit .1, tbm is cwY am ohqk borown. line. a
,traTht Mabasol-ach"W: for all ratkos A ~ ft.
I ke
he bXIMPIS With ISKIVILADS COWQ- fA IA t B); the
WOCOOM. Wall mv warty pW*W strals t lames. (3)
afterldim-pboyllsolkiclermtel $A ismagm. fims olhow
co"unm obarp wax. at AA; -&fps
Ih wbkb In&
mmpd. 14MAIIIII" w"710 -t Inform, Isolated
A
A$ 1# assavd, th,
RL
kwli&A* c"m ~ ~
.10: 4.0 egg
III IN K) A 7-1- 1 t r
- . ~ a 0 a v A 4 9 111 U 0 1
0 w c'41 dvv 0 40 0 0 so 41 0 a 0 to
a
61 a U (A 4 0
0
ftoo
Ad B m =ly swxd.;
kfolkates either the
rtmaln unchanced
smm. of A# and of B, Is
1. &JOUM 3 WW 4 an
Ist"mift.
The
vs at Samis. rldnor with
- -19, T.
a
000 Of 9 0 0 0 6 0 a 0 4
0000600004
.00
"lot
-00
we*
.00
41110 0
0041
Go*
411141411
909
8141010
4169
ve 0
1*0
Sol. wt. datitradruiUm " a wAmna of pbyxico-chemicol &Wysim.
V. V. Udovepk4Q,(Arsa Physirochim. (I.R.S.S.. 11942.16,336-3411.-
The-VrA-alloo of mol. wt. with compmition in determined by the
C 011-C q* method and plotted in the case it( Alcoll-MOll, and
IZNIO~T`hht mixturrs,in Collp to rtpmrnt mixtures of miniflar
Ynols. where thm is no chrmic4l interaction, anti for pilwridine-
I,hN*CS and INllMrI'h-PhNCS mixtures. where there is interaction.
The mul. wt-com position curve is a straight line where there in
no interactkm, J)uj the curve shows a max. coinclifing with the Lmn-
posits-in ut the comp,)und where there is interacti"n. A. J. %I.
see
00.3
00.
*04
1110446*4606900000 too 119P
0000
1 6 1 Is 14 u is W a It a is a a it Ill 311 Ill a Is It v a At x 4
I g a ; I -A-" ,-11 -_ 1! - 1- 1-1 a s- 1
-- --------
FaNclus AND Factellffis 1.011
TLv mulltalmn of viscosity of irrational systems.,_Y_
~V. V_4qVMGkQ-(PhYS. CtWM. lAh., Middle Asiatic State
Viiiii. ). Aka~ Nook S.S.S.H., Otdri. Trkh. Vank. Inst.
Mdsho'nowdemiya, -Somikeharvii r I)a4vili ZhdjoM,,i-
KWhW. Rittivitwor (Coxf. Pit li~scvjjty of LiquiJil-Witif
CWW41 Seim%.) 2. with
mehing d:agmas has shown that In "irrational" binary
r/14ttlill the WAS. of the VhKCdtY CUrM ill terM$ Of
The cointin. mffemponding to
Tile usual inte"Ovisition in
E.-ofilau."n lZrIl~-.1ito. 1, whjmt to coution. A
tliagrain of a uv%icm j -it iterol%inc a entitlill. C "n he
ctow4ruLtvdfrv4iatbcNrl,liai:tuin A-C. withstumit..unA
C-0.
nim I, -Itw to inicraclioll Ili the ct"llpti. C alml the mot.
r;.;,~l A rout Suit 1'. Thi" it ftlrltwr 4"11
"l-elvillion that the 114114. h... 1"'t 1.11.1 1.1,11AW
t. the It*'hkMW( fie% ALN 1 Ilk' it-fill). VJIIWIMVIU~
the vi.p.. wt," *-*Ila have to be the A-W.V, it [he 1114"v-
I it to &,.". m liquil phase. Vic- %hift
en were. lie
M
;I wAnctin" ix lausid to gwrWst below the m.p. In utkkr.
1,i kd Liquid. In the systent SuC14-CH.C0014. the Inax.
11;7vi*vmty lk t atx-mt 'When it I I
.2 In IN71GIMMil"
the culupn. it, It,
The inaX. I" ill 67 larol. % CIICMII, and Ill Position Is
unaffectM tky tunp., wriurtax the compd. (m.p. 41 ')
N ecIttinicil. The saine Is true for the rplem phffA-
um"e the 0XIIIxt. (m.p. 30.5') 6 equilliol.. Imt the imil.
if -Atm of
a #1 a 4 As a
7--o
-00
-00
.00
age
-40
.00
-00
see
200
COO
zoo
~Mroo
woo
400
woo
mr**
Igo 0
woo
C4#mpn. and stability of t4nary cmntx%, wrjv fwlj~,, 10,
vntig~tvd by crywropic nreawretilents on hel,sene soins.
of V119100% MIMS. 0( hoth the pUre "ittione"tS and lhrh
alill the retull-I Frilf-entrd 04sillic-Ily. Ttw
curves #4 rtYosceilic null. wt. for the sy,lons thlwal-
1-.1011 'how tire cot'?LAd. to Ile OW40 at an chtm. Aral di..
The "Mit.013
to 11161titsr dilu. is airigulsr (ditcorillutrotall on the ,41*v
ikAtid, with inclem4nit cWw". of the benams saln.. The inart.
uf ""A. wt, skills gml,-Ily towards the Molt; ,hi,
tvwcltcm inte"k-lism 1..Iwv," that milpossr"I arwi the
With iihill tecup.. r1w #,,4g. m.,ve. (".
%aMs the, ctmr4xl. tit the 2 sysittim pIwjmA ankljne sad
Illw1141-Midinc, the C-11INI. is d6omd. at h it ditno'.
at u cone". of about I incAcgulltl S. benjene, likilsixro. 6
practically mo. At hilthrr correns.. the cryoompk fool.
wt- 't- a nuix., Aifted towards Phentil, this spin In.
diciltm I"IrrvAll0o beg*ccn the phenol *M the eirtitusli.
--IIN. Smur coAcs sic aho known wb", the compl,
cliAs in tiler liquid phate only and tiamfor, I, nor ,,-
pircs" in the nwiting diagrain but oilly in the vilcg^ity
cwvv (cminpic the systrill (CII,),CII-SbIjrj).
Tbm
111,141> klit aftv all vassillm-1 is i7jTrmi -0.; -viii-
u a 0 6--ff-z-.T--j---r- % - r--c-P - i - T 0 slow 4
"nitwit waste man is a An ft" I 1A *44
AWMS
"masmi- dMOtwocatic 44-
Viscosity ad Sotgrowl
b#ma*. "Aosawas-Aegue add-be
00 Oftlenuf 1-b*MIW. V,,%t.,UdOvQwm -W
INIP-1611441111 sch
I.S.R.) 16, 17-20
Chita
ME
Goa
k
J
son .
.
.
o.
vam
met detif,stWalvariousbrn-
rtu "I gm1phl-
sonettotims,
WAIII A
t1
(6
k
c"
w I
us to"I"tto emm. t
p
dindkIll to the WA4 viWAst w'"11.
11
I
00 A, 10
n
Vi*4%Wll
in theIrd syGions, and In The aptowile dimthm lot
2 systcorts. U. It. RtMAIIAPUll
soz
im -I-
to
0011
.-00
cRoo
Inge
"'PO
100
noel
C-Z
AIIII-IiA& MOTALLMICA1, A."RATAIRC CA."WRAIrm
team va"Afty wee
a
1,011049 001,
0 AV to
1 not a lit An & I ff Rod a R JIM. Is
a &DRet Fl, =It 1 3 8 00
0 eip 40 0 0 40 : 0 41 0 0 0 0 0 o o o o 0 0 o * 0 0 0 0 0 6
0 0-0 .0 0-0 0 0 *40 0 0 0 S 0 see
t
~
l
~61 7
Ell if
1A 0. 'A
joy MP AWO ON cloltal
MW P04000141 OMS
A j , - 4 *' " -
OA
I
, * *444. 1. V. V.
i a 6 k
lea 1411MG
Ud
* 00
0* --
ofes
ud A. P. Aft tm. 1. CO. CAM. (Uls.
Sit
) M 42 Is T
l
O 00
9 .
mm
")e--Vbw4 , d' mad
R r
coad. of IdNIM H Is
M
uim (U L
a
uk 100
00
004
, re.
a
pp
bmu~ (4
"S %"WNW at 00.
-
Tk
b
k
-00
v
ccs
p,-~
.ewv d"sclas. .
libm asim gA @bad 76 wab % I at 4 00
p*
I bdomm paid #A Iat 50'. wbM be~ .00
a**
comm.& dAOwi win. wbeadw mV, Ana tor. The
00.3 -cows. ew n No. at o, k
With a VAL ad a mb. at 41 IMI:
r
0013 the tamp.
MiSIdUllt cand. fcr thema mans. an i4t
COO
904 go 3-ahms"d. With k6mcdam paimu at wMat 63 mck % I
so
f wkbmg Ms
or ad
M
eh
4
So 0
*OW
60 .
a.,
w c
r O
arr gym= die-
-
7ws Ob type of as I Is do x
'
99
"I
000
,
wNch two bav* be= famad Vxmlcl~
W 2KCI coo
&
.UVC
C.A. 20. SSW
i
K
m. $bmwe a FwAwmd max. at
0 t 9 1 "ki& I ,
as the temp
ithi
law Vw COO& cm t
as 0
age
.
or
s 67%ft
dow go mm cr =1& and we comm W"N* dw emes.
da. 7U%pm*(cb~mAmtu%cd=ru=b6 for tbm
MM& U
ukr
NVALLONGICAL LFIRIATM CLASWKATM Ste*
f8
*$f Gat dw a" Lst
ad 0a 9 st a A a 3
r I
#p NO at a
,
-0
Olf 00 go 0 0
4) 0 014 10 *
0
~
Wdj 0 0,
0
0
402- 0 42W 4-1
OOT i
ULA
'A.
. ;Aoti iril -a"Welcot '*44t-
00
1
Iiiieftomm w -2- 1 *w fmolo- - - 11, V. V,
Ilk" I SdV
W
OVA
i
t1ftycdo and It. P. Akqwtov t, J. Goo. Chet". (U.S.S.
7
R-)* 11, S"1047)(In Rus"i); d. C.A. 43, 25M. -- 00
'
V bmwL mW d wen stwMed is binary syg-
== I
'& k
ft 1(t
id
(11) W
m 4 '.00
00, neals
o
t
) w
k
m
,
16 414 krewd is eltbet myttm. but
edw LI%jL""d
00
04 tbom ma I uid U. In dw 1-111
1 sa M4,
,
W.
1
I
to M the
4 mom"y fvm
the viwmft
004 curve being comeave wwag& tM tows. axis. Vahm o1
0
0* kw I an 2MIO, I.8M, and
OM% at 11, 25, and 50
Z
to, U. OA%K OAWM oW OJOW cestipaile.
O
0009 The coW -cmes. cwm dw dwm an
see
breaks In the cu v at IL Value, or
-F
5:
F
20*
00 the cood. are., o.74.
'
2
,
76; and 0.003 0003
-
'a
9*0 awoxwxlo ohm-1cm.
I. Vsku"Gotbed.
m
: n0&
00- 1M75, unit U 0.9474. 0.9169, OMIS g./ X so*
cc. Notombiorom-wersobect. istbacurmcid.,
viscosity, ar cond. at I-M ar" The kwft-emm.
jr ctuf wusindlartodial-Roysum. AtOrAdS64 M
(
wt
b
ojod
m O
WZ
~
bas Ta
," 0
o a
COMA
3 , ty
;
coed. Sm thas 10-Y obm-1 co.-I at both .; d..
0-7= wW 0.71MO ff./vc. Mid Ifiller no*
6
ZOO
l AS114A RVALLUMICAL Lrlf.NATM CLAWIC11TWO
i-1-cot -53" 01 Aix glow WMOV
k ,4' tows* -4 '1 svn;oo ot Ong 40 v3stil w a" sit
I
lk
t
ig
0 Is It 19 x it.
. O'S so
e 0 6~41* a 0 0 0 0 00 0 0 0 0 0 0
. . . . . . . . . .
f 0-0 0-10 411 0
Determinaflart of the nilolecullir *tight as a ruethrA of
19 *(kit. Chttil. 17, 06-61(pi-M
, cf. C.A. 3S, 01751-The appircitt titol. wt.
At of a few billary Systeills of Itollillteractilig components
!me of which i., :tubject to a,~3cn. was &td. by cryascopy
Iit CsIl,, snin. jr(I ivas plotted abainit tile conipti. for the
total intlialitics sit - 0 (Infinite dilit.), 0.5, 1.0, and 1.5
Inales/jOLM K- C.11'. III tile system pliNfe-NIC011, the
tit - 0 isoconomtrate Is a straight line; tlit m - 0,5
curve is convex to the altis of cottilin., the In - LO and 1.5
curvc-ti INiss throtigh a min. shifting to the FhMe side with
tising tFi. In Pkilkle-131011, tit - U i,.t linear, tile tit - 0.5,
1.0, and 1.5 curves pass through a min. increasingly shifted
10 PhIlle with filing tit. In tile 111INte-NIN02, tile M - 0
l5oconctntratc I!; again rectilinear, tile other curves con.
vex to the axis of compti., merging with tit,- tit - 1) line at
72 mol. % I'liNte. The syAcut I'llMe-11hi'al, shows the
same behavior; extrapolation to in - 0 gives for PhNII, a
valve of At soniewhat higher than the theoreticati; this
was reproducicil in repeated detns. itrcspective of addal.
purificatioti. 'file. linearity of M at infinite diln. indicates
ibsence of wziocli. The min., and 1B shift, is the result,
on the one hand, of the dmea-,e of M due to decreasing
nssocit. of the all!. with its increa,hig diln. fly Pljhfe, and,
on the other hard, to the incrense. of At with increasin
I'liMe ciontent. The absence of a min. in the case .1
PIINO~ and of PhNlf, means not only lower assoc.". but
mainly 0, le~-Rr tendency to tli:,vcn. oil diln. with PhIkle.
N. Thon
-1EAME
X w -a ~A 16 it x lot 4
TOO4.11P
2 If r
r 40 ..Q of. C401 0.
A -RUW A
W. V V
cum- Man it, d -00
C.A. 42.4W. alias., t ad. Wtik U (dcid.'
by 4, ZW# win ot bbwy Mktg.. 0
with ft. .0
ass ITH, 26".=1 WW Plotted as a functim of the -419
(-P'3'dthc=1xt-,NrfOwcOQ=-: hiftakedflu..O.S.
**,& 1.0, &W IJ nalw/lOOD&CA (6mmmentreste lims ass
041 I-IV). ILI) In WOR-CH I is tfttWms,, 11 cwm
to Cho am of Awtoss, 111 MW IV n.. QmSh & MIG.;
the Um d- wkb Amce~'Cffi"_ QW Wage with
1 U 93 04ok % CHCh. The disgra, indkIft, dissocn. of
30W- EtOH utols., wkb:b is cm out by am MS. tbw_
'"I egr"t in -Wag EKWK wi* a jwp &W. CC CHCI..
Tbe ChM IBWwdm foUmftd by um Ww*y 1,mbftm
do" not (2)lnftNff,,CH", Selo
Hats 1-1 W&~to the emespotmilets Us.
of 0* Pnmethwsysteim. 1*0 Ihm UMP witb I at 68 each
% of the two. as III U4 IV. cam. see
PwW wkh Its &boesm in tbs ey"m mUh,_,,hmme. in_
4kalen knt*lmell &-m- of mawd, wOm nwb. 1. tbe moo
7Nr*'CCH MM94 wi& tolumm. (3) In
"ok C 4 1 M tftvvit mm awle 41 �D*
;C H MAN Only dk-p. (4) U%C0.
It,
4(4 1 -IV wv dightly coack";
wtffwtka. Tbft moo
it
*;IiiALLCMICAL LITINAU101 CLASWICATIO"
Igoe
SsUlwa Mir vL&&A1 GK GMT lee
d"I use
";'k I a 0 3 IN dl I
it I It
0-0
4941o400 0 00 00 0 0 0 0 0 0 00
0 0 0 0 41 0 -0 0. :o
'!~ . a- - -
MOMXO' T. T., no?.
Solution (Chemistry)
Some problems of investigating 2-iqid binary systems. Biul.Sradneazoun.,
no. 25 t 191+7.
9. MonthlX List of Russian Accessions, Library of Congress, November -19A Unclassified.
- ~ "il- .1 - - &.L-
USSR/chemistry - Beat of Va'Porization oot 48
chemiistry - Mxture
"On Heats of Vaporization of Binary MIrtureo, - M,"
V. V. Udovenko, To. B. FrId, Con Asia StateXr,
Lab rhys Chem, Tashkent, 8 pp
"Zhur Fiz Khimii" No 10
Studies vapor pressure of five systems formed by
dichlarethane with a-loohols: mathyl and ethyl at
40, 50 and 600Y and propyl,' isebutyl, aad isoWl
at 5o, 6o, 70 and 800. Calculates heats of
vaporization of these systems at ome texp6r6~tzre
by own formula. Peoults agree with caliulatims
using Clapeyron-Clausius equatiGn. Shma PILt own
LC 174=3
USSR/Chemi8try - Heat of Vaporizatim Oct, VQ
(Contd)
formula can-also be used to calcu3Ate heatis of
vaporization of real binary liquid sya-ti=s.
SubmItted 6 Doe 47.
LC W"13
US%/ChMlWtr.v - A=176jo) phgeloodhemical A*,48
CbemIstry - Molecular Weight., Deter-
minaticKa of
"D6termination of Molecular Weight an One Method of
Physloochemloal Analysis, IVt" V. V. Udovenko)
0 P. Babak, Lab Phys Chem, Can Asiatic State U,
P.P
ffZhur Obahob We Vol XVIII no 4
Studies following system by lolecular weight method.*
methyl alcohol-anilina, mathyl alc~hol-nitrobez~iene,
ertbyl alcohol-aniline and etb,71 aloohol-nitrobenzene.
Analyzes molecular weight diagrams Of ByBteMS with
an associated component. Subaitted~2 Doc 1946.
N4__ - SAWPO
rA' 6/49T29
4a%
UM/Chemistry - Ana3jvsIs, Pbysicochemical Apr 48
Chemistry - Molecular Weight, DetermimtIon
of
"Determination of the Molecular Weight as One Method
of Pbysicochemical Analysis, V," T. V. Udovenko,
S. P. Babak, Lab Pbys Chem, Con Asiatic State U,
51 pp
"Mrar Obahch XhUP Vol XVIII (IM), No 4
Studies following system by the molecular weight
nethod: ethyl alcohol-acetone, aniline-acetone,
and et_hrI. alcohol-acetic acid.
Shave how, molecular weight diagram alters vhan
Interaetion of the components occurs at the sa-m time
LISM/Chemistry - Ana3jvala, Pl~yaiccxahemical Apr 48
(Coutd)
as dissociation of the associzted molecules. Sub-
mitted. 2 Dee 1946.
USM/Chemistry - Analysis, PbyalcochemIcal Apr 48
Chemistry - Molecular Weight, Determimtion
Of
"Determination of Molecular Weight as One Method of
Pbrelcoohemical Analysis, VI V. V. Udovenko, IALb
Me Chem, Can Asiatic State U, Ti pp
*Zhur Obahch Xhle Vol XVIII (I=), No 4
Studies follovIng systems by the molecialar weight
method-. Chloral-motbyl alcohol, chloral-atbyl alcohol,
alcohol and chloral-n-butyl, aloohol.
Aual,yzes molecular weight diagrams of system with
sh"ly deflned chemical reaction of the components.
Shown that irrational max-im is explained, not by
8/49T33
U=/Cbemistry -'Aralyi3layftyalcochemical Apr 48
(Contd)
dissociation of the chloralcoholate, but by its
reaction with the alcohol. Submitted 21 Dec 1946.
8L42T41
movE --."0, V. V.
V~ V. Udovenko and Tz. B. Fried,, The heats of evaporation of binary mixtures. I. P. 1136.
An equation has been derived for the heat of evaporation of binary lial.Lid mixtures.
For the calculation of this value, one has to know the heats of evaporation and the vapor
pressures of the pure components and also their activity coefficients in the mixtures. The
vapor pressure of three ideal systems have been studied at500., 600, 700and 800: propyl
alcohol - isobutyl alcohol,, propyl alcohol - isoamyl alcohol and isobutyl alcohol - isoamyl
alcohol.
Lab. of Physical Chemistry of the
Central Asiatic State University,
Tashkent
September 2J4, 1/047
SO: Journal of Physical Chemistry (USER) 22,, No. 9, 1948
UDOVENKO V Do
Ve Do Udovenko and Tz. B. Fried, Heats of evaporation of binary mixtures. II. P. 1135.
This worK includes the results of investigation of the vapor pressure and heat of
evaporation of five systems composed of raethyl, eth7l, propyl, isobutyl arO iso~nyl alcohols.
The vapor pressure was studied ;y the c1ynamic method. The composition of the liquid and the
vapor were determined refractanetrically.
Central Asiatic State Universit-f)
Tashkent
December 1, 1947
SO: Journal of Physical Chemistry (USSR) 22, No. 9, 1948
.. I
Ll J010) Ad 01. t.4 0
a 00 00="t# Sim 00werttl NuIll
A I ~~, I,.- I .II: ,II- I a Z a*
- I- t& v---,-
a V.
Ia. IM). d. A. 44, 4764.-11w
Cbtu
=Pa. awd
ems coutC. dkbb~buw JQ was deultazv
W, For K40H 40d atou a" at &) so 70 Q`
00 SGO for MH iewsim, am ba4moll.., %e :4 at I
00 8 was ISO. 2Uk UGO 4M sed MS no. tit at 40. W.
70# aod SD o no.- A* SDI, wbas tbo mob kscuou
90 5
th**J&IMtb*�VWw*sO.I,O,4,O7 r:gjl.O goo
-ftectinbuiewspairsacipwaret Awvi-
MA Oin Old MA Ow MA SDIA, am 1.0 vd, too
00 3M O.M sad SIL7.0.433 tad 3304, 0.801
MW
for MH 0.106 aW MO,
MW MW 1 .0 wW MO. ago
.*o 0.195 MRS SMA 0.317 "d I#U MW IA mW 07.0; to IX
Go iw-uou Uff #Ad SHOO O,iR wd 910.0 O.W sed
173.1. wad 1.0 said M; md kw rwrawd FOR MW
219A Oms $ad IWA OAS md I*A. ow 1.0 &a
174. P bu a mt. In aH systacas *mpt I + iw-AmOll;
It Is obwmW at greater v t1w bow W temp. Tim bnt Q9 0
cd yoporbatim at these qgwm c". actwdW# to the 010 9
If ftruer equa d. Am. sk., &Croft with Am cakef. hom
the etpatien:_14 Clap"m &M CkwAus. The forma V* 0
=fta be used AD (a stmWeal sMan in wMA
:1 d activity im with tmp.
too
1111060 wit *Kf 94(
00 06 96 a 0
4LIk-0 00 0 040 0 0 so 00 0 0
UDOVENKOI V.V., TOROPOV, A.P. juW O~;ININA, M.Ye.
Udovenko, V.V. - "Conductornetric titration of anabasine," Doklady Akad. nauk UzSSR, 1949,
No. 1, p. 7-10 --- Sumn ry in Uzbek
SO: U-3566, 15 Marchs 53, (Letopis 'Zhurnal Inykh Statey, No. 14, 1949).
UZOWNKO, V. V.
Ayrapet~-)va, R. P., Grapitova, C. T., ar:' TT~.ovenk , V. V. ITY~2ca-1-11*-~-'r-r,
invc-stir7ation of a fori-Ac system", D--.Irla--~y np-~,k _Uz-15:',
No. 22 P. 13-20, (Restu-:e in Azerbaijani), - Bil,2-Jng: 14 iters.
SO: U-43029 19 Aligust 53, (Letonis 'Mumal Inykh Statey, No. -ly 10,491).
UDGT!-,;IKU, 11. ',f.
"Research on a system, with fomaic acm IV." Ud n1l, V c R I
uq0v
o c -.o v. . a Airap to- a,
(p.632)
SO: Journal of General G,epistnr, (Zhurnal Obshchei 12d=,J) 1049, Vol. 19, No. 4.
7 ~, -7 -.
UDOTWO T. V-
Chemical Abst.
Vol. 48 No- 4
Feb. 25, 1954
Inorganic Chemistry
A
Complex compmds 01 cobalt Wts.
T_ T ~~j4hlfevL-h'azd V-1 d-Asiat;c State
Univ- -Whtent). vVela "A UBEr-s='It-
1040. No. 3. 1 8--M(-jn Rumlanl.-Addn. of aimbasine to sq.
COCl" with cooling, followed by addn. of JfCJ to dissolve the
greenish ppt. of hydrated Co, gave blue CoCls.CjsHjjNj.-
2110, in. 283*, when an excess of RCI was used, or the cor-
responding CoC!Ij.CjJ1i4N,-HCI, m. 3030, with the cones-
pondingly smaller &-mount of HCI. Both am sol. In H20,
insol. in usual org. solvents, except for hot HC(hH; both
are electrolytes In aq. soln., and the cond, Indicates complete
dis,%ocn. In saln. of the di-HCI salt with 13 ions wng formed;
the niona-11CI salt Is a weak electrolyte. Anaba3ine also
forms complexes with CuClt and MnCit, which are not dc-
0. Nt "1 0
77
Godw "djois. v O'kig 0:41411CAl a,
Jamil.
Ikets Univ Or
)[Mo. A;;Z, h$. FA 41#
ISASA It. 1101-11SOO "'I"WITIeWO i1l
Ilfhvtrat#donWWao42IOHImCs1f4- Ondeabstimis
f1withe 4eft.a1tbe&k-,ImCH4-,!pi as mob. of
it
I". Van t filid tm #No ot,117tv Ow Appot"t
*" to "100140
lays 14,IbAl S 1.4 1 1 .1 , I oil 0*11
cimns. IWO ff~ w I=w 14w0 are sks 6-mv%6 of
"data. t I kvm but (d dw som total
waric"
in Ciff.. Utro
Sim um Md. wt. of labitly 0. ads. on the
al this *ad a diagram of couspo.-mol.
on whicbdisratUl'
1. U401H t1rFH compa. is the abwlm vW the
110, ko ordlostv. Tko family, of curm (straight
fw;~) Sir In which III* Itmew
ISM 0" "Ittl tho qvilwooot liuvro4amply hilibm TmAr"S
fly ibis "Iethm! "two WAK&OW *I. Tuf via Itic a
DO. of systems. In the symom tahwoo-athylbeastm, the
Components do not remet with each otbw wW the tool. wt. of
the pm compomento as vmg " of their udzi. don am cbmage
with tb& come - in CJf4- Tbadore. all the ismommu-
t rotes cebk*fe and on the diagram appews a" straight line.
I " -Mr0l 1. the loiter is am soft 1. cmpd,
'011.1ho airoom Iffla"W
140 Ilev"O W *saw". dvro& an Ila r0"". In t:atlf ew III
"s 114144, wNh lolumm. 1100, as swo I -#, sit moult,
,Ila lowducatmo Is 0 straight Jim OW ma us QuAnthy in -
crowi" tise cwveo bead toward Ow abwkm, Muslimly am
diwitsocIl th4 dkgmm et tolume-attillm. Wttobwnno-
M. flosch
=O1=DZ_.io-`srd the
Icl;
1.0,01- Mo, wt. of I at, wep..
4 rhl I = for the a Md. wt.-
own &XIS Mo ITS" It
A. ad na. 17 - 101121 e.g.. ex-
Curves an linear, the 0.5 " =N~t M for
oncIr mol. wt. of about 97 for 1 , of the li~
ending ff- a tow Cone". the S
with iw-%"9 14T 04 IM4 Curves all
in the syd-ems the 01 mow curve
jocreage. , Of 100 At 91
In the 1141 system-' Mo. of
,how ma,- mot of9ifs Ito* to to tbc
. from to 78 for IV The 2310127ness
ON tow coucs.
'nole %11,uod tbeahTimrsasiag Ogg"
, invesso dm ffew Is mol. Wt.
the MA - I CWVV ~beo droPs
IN t OA ad I
a. I atODWck%ls less with
for to . wt. of Paris V ClOwilles oin. lu.
7MB odwr pwe pabou"Oto at
WWe" the
if SO wit Is tweasioi
wt. all Arild J. Mulct
total coo".
UM/Chemietry - Chloral jan 49
9hemi8try, - Viscome tric Analysis
"Viscosity of Systems of Chloral With Alcbh6le""
Y. V. Udovenko, Ye. I. Kalavanovekaya, M. F.
Propkoplyeva, I.Ab of Physicochem, Ceu Aoiatle
State U, 3 1/4 pp
~74mr Cbshch KhIm" Vol No 1
Tabul.eLr studies of viscosities and densities
of the system of chloral and methyl alcohol
at 40, 60, and 750 and the system of chloral
aaa ieowql alcohol at 40, 6o,. and 800 ehov
maximum viscosity of the systems is invariably
USsRI/Chemis.try - Chloral (Coatd) Jan 49
~i?i'e'cted by the alcohol, regardless of the
value for the viscosity Of the chloral. Sub-
mitted 29 SeP 47.
LT -?!!
~5
UDOVENKOt V. V.
FA 67/4~?T44
USSR/Chemiotry - Anabnalne may 49
Acids., Mineral
"Reaction of Anabasine With Mineral Acids," V. V.
Udovenko, L. A. Vvedenskays, Lab of Phyaicochem,
Cen Asia State U, 1 3/4 PP
"ZtLur Obahch Ellav Vol XIX, No 5
Derives the crystalline compounds of ansbasine with
,hydrogen chloride and nitric acid, respectively:
C1014N EC1 and C10414Y2 HN03. Submitted
.118 Mar
6-T/49r4h
m
6N
d
CA
fly"Oto *a fartak 441d. IV. V. k?dqVV1OA1.41111
it, P. AIOWIOVS. Zkow. OhArm x6w"'Tv; 6W-11;
J. Gfff. CA**, U.S.S.R. It, 8"190)(USIM trunbl".
w"); cf. pramdIag mbistr.-Mof. wu. iwm dod. lqr
vairlous nA,414. of forvok seW (1) with amino (U). I;.
butanow 1111). and 4jentow" (M. As In the pn,-
Timit Attieft. turvvt life Ohown tar Mo. wt. ft. go.. for
total tvww. of dimWvW Pubsionm c
1.6 11joks PPF 11111111. b"Isr". r" t'11WOO.Yetem 1-111,
w1 m1 0.6 "ZI wv" arv Ow"Ve tuvraftle thu
nwa. Oak, wher"s Ow .0 *ad 1,11 malol my" so
1 1. Forliwillinakicew,
~',Molf OW MCI, wt. amt
j n4.1 Vv. fill; 00, lifill M, 101%, NJ (14. da. In
ff* sy4tem 1-111, dw carm at all total emm. so thfolsh
VAX. at labout 75 maAN 'cy I the IN UWWI &w" sting
(Im . rool, t. at 107 farf, through a imit. of 110 thru
droMiNgtoWnt 111. Tbe-ysteml-1V I% Andlar, tf~ I'(1
luuw twvv twos Itum a tdw. wt. of 1u? fur I to A ul". of
its At 70 wh % 1. OW drS to W for IV. Tim a".
. M
In. tho wMa 4frilesm, A. J. U.
UDOVINIO, V.V
Viscosimetry in physicochemical analysis. Trudy SAW no.15:3-16
150. ()aa& 9: 5)
(Viscosimetry) (Chemistry, Analytical)
Vis~T &A4 de"tk of binary systems with nicotine.
in. 114buk anti '. V. t'do-muko (SURLIFUnd Wd.
IUs Zhup. MAIM KAlm: tj.-Crn. Ownt.) JQ. ISM 71
(JW); c, . C. A. 44. WMIi Tlw
.Y.ICIII stums A ewlsixt.. Vis.
VlWily of tlW SYSIVIII %hIIW% A ULAX. At IN' dlhl%t' S-0111119I.;
the hula,., nux. 6 at .15' 8.0113 mutilwiWa, lovrrf Itus.
at W 4.38M. and at M* VON), lk-nily-ronipa. nityrt
are slumAh ClarvIrs of Illwar tAW KohMfIXIS 11.11ift ot .13*
anti IM) ntW.% ukalhw to 1.1 13 at I M nug.% nk-otine
kit S)" front O.QW to 1.2M) at 0-01v nictfilnr. and at '7151
from O.V670 to 1.20) at 0.079 uk-ollne. The nk*Mkw.
PhNOj shows a limar viscotiity relation: at 23'
ranging = MIMR7 (().n% nknotim) to 3.RD12, at Sn" from
1A= to 21W 6. at 75' from 0.8490 to 1.2626; values of 41.
similarly range from I.M1.1 to I.IXXM. frtwn 1. 1719 to MOW.
anti front 1.14ND to (MI1170, tvxp. Tlr sydrin with a-
I . (~. has lhwar viwxWty midlions: itt 11.1"From 2.IIW7
NfvC.1f.%
(0% uk-otine) to 3.SM2 (1(10%), at INV front 1.1477 to
2.&i. at 75* front OXX to 1.2M: d. vArirs shnilAfly:
front 1. 1 ", t o LOW. frout 1. 1313 t o 0 *RM Irnin LION)
to o.grsn. map. Thr sysicut.with fecolt'NO. has a
linmr visconity friAllon: at 25 front (4 M MIA.%
nivAlnt) to IND-12 (111110o). at 'Wl* frrat I ."MA (11%) in
2.0376 (IMN, at 75' front MMM (0"') to I Md (IIW)%I.
int tariy: frm l.n-jp3 Mg. i~qn 1.1=11 III
d. varks a n to 1A
wown. Irr"n 1. 1013 In OARTM. mv. V.. M. K.
tk
t The viscosity &Ad dins4ty of binary systems with Dicu
tins. F Whak fuld rMlAo t"Wimtkal"I
_4 0
NIVII. 111VI. J: Gto. Ck."S , 1110) 32
I(Iffic). frantlilliml). -Swe. C A. 43, Mlid, R. 'M S
y1malty of kney Wadme with alcoons. tV. S. F.
fMtmk
ilks,v ObjkAvI CArv.
V.-Y-T.M. M. 21W-=;1 XJX3-4,4RngI. trarvilatim); Cf.
CA. 46, 4WW~ -I and ~. avre detd. for solno. of nko.
01W 11) with ccl, at temin. of 2.5, 3.5, arml W1, or,11 with
phel, and Ph"? at temps. of ;g,
M. and 75'. 77mro A no Indicutkm o( any clwm. in.
1ttAC1k.V" hetlrerfr tjW er"ptMentS in any The 9.
ffim'n- CUMS In rub of the 4 systcrrv~ ix a qtr4Jjhj III*
as The highest temp. xtud)rd, but btvwwg Incres%incly
convex -ads the Mwn. ask with derrea,ing temp. In
vdj
are! 25": 0-00, 15710, 0,9240; 25,140, 1..Vraf'-J,
-9136 1 22M. 12747: 74P.11). 1,11M. 3.4,&j. jy)jx).
110A.'a-M42, at W:
(1.00, I.A491, 11IM7,
I :XM,~ 1.2 1 M: 7A 7o, I .(9rj. 1.7zlit; px1,0(j, II.W",
::.4.67 Similar Values at 23 for the rtgn.1"'. GyStcmA
Are~ 'I-1.2.&Itloruelhane. oon, 1.2W. 11.7fAs U.M.
fW), I f", 1XIM; 77.11). 1 A=.
i-pha* 0' '213. 9?. 1.4471t,
0(j. t-IMI, (1-7114;
M57; W.63, I.om, ixm. ate. 1.(zLT,'. 2-W2
I-PhDr: 1),00, 1.4"). 1,11AM 2514, 1.3-V). 1.&M.
4A.72, I.W74, 2-I(XV. 74.07, 1.0016, 2.9070. V. 1W.
and d.'wttc detil. at 25, M5. and 10' (or th:
'v-dem 1--iwtirme, and at ~3. SA), and 75* for Ow syttem.
I-MtC()Iio and W). 11w ant 2
viteflis hxvv Ovemn. curve-A similar to th," nwridoped in
jutl IV O%kvpt that even at the highest t*mp. fjlvcvti~
Ig:&" tat vttrve4 are %tin eonveit towsrds the rmm~
avis. For the s)Ntem 1 -11 the curves arr S-shaped, with tbw
curvature decrea%ing with increasing temp. Vslurs for
tnole % nicatiar, d.. And o. resp.. at 23* are as follows:
1-tertanc, 4101, WMIX, 0.3332; 24.98, OASM. O.Wi5;
lwmk5, O."iti. I 2M; 74 M, O-W97. 2IM; I(K) 06.
1 -0648, 3-W12; I MeCOM: wivs. o ?spa, 0,4444, 14 63,
11.Wj, 0.71R7, 4M,7X. 0.1015. 14459; 73-74 HOW)
Tvxr.,; 11-11Z 001, 1 IrM. I WIN; 1.14 211, ifiiii~
49.34, LIAM, 2,W(41; If IAI. V01111. 3 Wt.
Arild ). Milke
PABOVSKLYA, G.B.; UDOMKO. V.V.
i"
Simplified methods for the determination of alkali metals In presence
of mapesium. Trudy BAGU no.27:81-88 '51. Mak 9:5)
(Alkali metals) (Conductiometric analysis)
PASOVSKMA, G.B.; UDOVEM9 V.V*
Conductometrte c;as determination of magassium and allmll
metals. Trudy Mom. anal. khim. 4:196-204 '52. WIRL 11W
(Yagneeium)
(Alkali metals)
(Gonduatometrio analysis)
UUOVEN-KO, V. V.
Chemical Abst.
Vol- 48 No. 8
A r. 259 1954
p
A rialytical Cheai~ stry
VrmdLf&i efr, d terminatIon of Odium
"r ILU
~P 1.4ftwyIX
d.1l.ko and G. IM entml
0'. 2S n J,Affaj.Lhd"f,kU- M'.)
C.A. 47, 1636i.
H. L. ff.
UDOVIWKO, V.. FATULINA, L. G.
Solubility
Solubility in the system ethyl alcohol - 1,2-athylene dichloride - water. Zhur.fiz.khkim.,
16, Yo. 6, 1952.
Monthly List of Russian Accessions, Library of Congresup Novemijer 1952. Unclassified.
M~I 3
TMOVETM) V. V.
Udoirenko, V. V., Airapetova, R. P., l4alak-l-iova, V. T.- "Physico-cheir.-Ica- ana!7 i
-L s S
of the systems: phenol-monochloro-acetic acid, and phenol-trichloroacetic aci--,I."
(p. 1759)
SO: Journal of Genoral CheEt!Lta, (Zhurnal Obshchei Khimii), jqj~, Vql. 22, ~'Lq. _ 10
Chemical Abst. Phnicacheinical analysis of the Slatems phenol-001160-1
Vol. 48 No. 9 tbIoroaceUc_#d4 and phenol -tdchlq;b-a-cehc acld.%oV. V.I
Udovertkotvn. P. ATrgWov;t andW. T. NTaIqkhov%=..---
Lay 101 1954 chem, (U.b.S.R.) 22,
General and Physical Chemistry C.A. 47, 2028f.
vil
q
4
Soin
S rolllpqtm~!'i of ljyfj'j,fjl~- -wi-til cupdr. 011"tride. V. V.
I r.lovvF1lo',n0 1": NI . 0 Jll v.-I !k"%114 A'i ati, "4.4tV Viliv.
-M-Al it f; if f ) ./111s, . , A 111-rv 21Z ,'.'!0A ,-,;1 ?, - ,
l"'11,41101. aflitq. of .111hy(l. CIICI, 1110 C,11,-N. ill lih-,. ;t1c.
o'r :lry MVID) forill liOtt hlm- Ct10-'C,1f,,V (1). -Oliull
slow ly (iri U fv,.v lir,.) cl_mt!t,; bito gray C/1(7,G11,N (11).
With IICI, I forvv: 1.211U. pri,mr,, ;md dmk hiown
crystain of (111). Thh. TC1.qC_
tion call take ill moist lIC1 valim, Irit not lit drY 110
gas* II is not it- org. So!'rnh; i!l I i~O, it i- decorrip'l.
into I and Cttcl,. he.ttrd above I loses'CillsN be-
Coming .11thyd. C(Wt.. III is obtaint'd ftmn aq. 'Ohis.
contg. strictly stoirlflo,netti, aml-;. of CjiCl! and C.,If.,N
and in exc(ss of I IC
'I; ~.Olmttt exce.:;~: 110, o;llv 11 k pptd.,
-but it rediszolm, ill 110 and, (,it Lvm n., give's ill,
which call ~c rccry,,td. frOM illo. Ill alc., 11"t decornly. to
I, and in Mc~CO to 1.2110. itisol. in C,114, Cclt, etc. Ill
m. (deconipti.). In air, III lo-.;cs l!'O and 11cl,
bcmnhig XuCl,~M,11,N (IV), a light-groct: po-sckr,
which cannot be obtained directly from CuCh awl C&IIINN.
In HO, IV deconsp. t. I. ivio; im. it forms III. It is
stable in a;r at room tesup., dc-conip. above 19T, wid rt.
P2-3' (decompti.). Blue CftC!-_GCMiV wtj OU'lillf-i
-with CuCll aad a largc txeesn 61F dal'W;. within if, (ky3 at"
a ternp. not over 12-15', falttr at W'. N. Tlion
MOVERKOP TO Vo,
o'
hemical Alfat.
-Volq 48 No. 9
ay 0, 1954
norganic Chemistry
p
8=0 cqw~ with ;URVC; chloride,
rd
M., Gen. Vvem.
ng. rislation).-Sm C-4. 49,.,
.8.
4". If. L. H.,j
6Y
w
V 2-
c ;i~~
=I, 7.7. 21 :b
-Arig- t ~
~,o -2n2j.
- - I . - I ; i '- ~ .. : -04.- .4 -4
tMoymo. V. V., nmig.", r. 0.
Chemical Apparatus.
Apparatus for determination of pressure and composition of saturated vapor
of layer-forming liquid systems. Zhur.fiz.khim. 26, no. 2, 1952.
9. Monthly List of Russian Accessionsf Library of Congress, September -1951k Unclassified.
.i
- ~ ~ I I ~ 1." -1 1 la. I ~ I . 1. .. ..
M , Y. ir. , rAMMINA I L. d.
Phase Rule and Equilibrium.
Vapor pressure of ternary systems. Part 1. System ethyl alcohol - 11
2-dichloroothanabonzene. Zhur. fiz. khim. 26 no. 5, 1952.
9. Monthly List of Russian Accessions, Library of Congress, November 1952(? Unclassified.
1. UIDIXT
4. Systems (Cherdstry)
7. Vapor pressure of ternary 3yotams. Part 2. System ethyl alcohol-!, 2-dich-
loroethane water. Zhur. fiz. khL~. 26 no. 10, 1952.
9. Monthl List of Russian Accessions, Library of Congress,
March
1953, Uncl.
FA 242T3
LTSSR/Chemistry - Ternary Systems Noy 52
"The Equilibrium of Liquid.-Liquid in a Ternary Sys-
tem," V. V. Udoveako and L. G. Fatkulina, Cent-
Asian State U, Tashkent
"Zhur Fiz Knim" Vol 26, No 11, PP 1569-1572
The authors examined the eq of L. A. Rotinyan and
showed that in the case of a paraboloidal curve of
sepn in ternary systems, the nodes can be parallel
to the side of the triangle when the liquid phases
are in equil. On the basis of the above-mentioned
eq, the authors concluded that the critical point of
mutual soly in ternary systems can.also be located
at the vertex of the binodal curve of sepa.
UDOVNNKO, V.V.; PABOVSUYA, G.B.
~#
Conductance method for the study of the adsorption of electrolytes.
Trudy UGU no.33.35-37 '52. (MLRA 9.5)
(Electrolytes) (Adsorption)
OEM
OR
VIt"(don-of hitli~fiie fuld - die
d j
j
ful
'_t_4'
hehA A-Un. 2, and Or-
b, I DiCit
0
i. "Iri. MOH form bru., m C,-11s, 1,7011. C ' M, dcnrnp. 1250,
NMI flu"OY oil VIDD-1:L111 ta ,vlr: 11 the
pruPordmi of 111plilinc 1-1 kl:v!J' Vivii, 1.1 Oblillff-d 16 W,ell
n1cl h1flat. ("'011"Nocuo (1). "1. 216' CK H!Cfl'CI
11
while Lfieevapd. filtiaut YkIdi. 11117ininC JICI 541t, -M. 2,11.5
labolorrilsoutniringabs.
ht contact with ettm. 0.
CHIC111011 to EA011 Sohl. of CLiCIS gikye r!ccr EtSM'31p
CHIOC110, 7-1. J59* (fflitz? UCH'CLISCO. whil" clinvil. of
the sola. gitvc th,i amirm 11C) itilt. Tl-.vi flit A-1-
duct is tramforinvi into the at-,holatr mmer -w1lon tJ rn.
CCs? rimint) Mc., whi,:h mmlts in lo-.s of 11C) m.1 Nrmn,
I'
fj
I
.
vj
tion of I anrJog Emd amint 110 o.iit~ i
V
v. man
.;j
a
U S SR
Separati,)n of mixt=d'ofja
_f jjiiQL"4baslna and 1upinine.
Lvc ya
V. V. u A~
ag," ale,
,
ale 1,4njv;; Fast Ee!lt
1, vVicl N I., ~ ter. 2, 11 2-r(',k1 9 M).-Thc eepti. is performed
through tile Cu SAIES (Cf. fojj~ %% jug ab,~tr.) ai follows. The
mixt. of knoi% n coin pn. of am,basirte and luniiine is treated
with ahighly caticd. ~oln. of CuClzalld 11121 or Cu(N0i)jand
If.'-"O,, inat'e up on the ktsii of thcorctical calm. to form
cither CuC),A~2-10 or Cn(XO,,),2AAJl1NO, (A - ana-
Imsille). with cooling. The t)rder of addii. is Immaterial.
~ilice tile mixt. now contains a ptit. of Cu oxide, addal. acid
is addend to d,,eialve thi, (avoid ~.xces3 of Trams of
kerosine front com. ulkaNids arz rLinoveli at this point by
boiling. Tlv! mixt. then yield-i cryst. salt of anabasine.
which treateil with coned. N-011 give,., the purt base, which
is purified by distn. in narnp, TlIe capd. filtriate from tile
sAt is treat,!d with coricAl. NaOlf asid extd. with Wt.,
Evaimi. of the ext. yicid.i cry-i't, lupinine. The HC1 salt
givc:~ sornewbat better result t~ Pure an4basj" b4 167-10".
W1 1.5120, 1, 1.04W; Np4m,, 60". N1 fr--
P
IM
Alz ant
us s 11
Romalon of miAbsifn1with iiji:L e cex%-,~f, V. V.
and va A5b
Stal f - Ofih,,h I - KA ' ' '!-'Z" -1127~9
P71
W ff,17,11'~ 2 '~Mil N,",h CIIC12,-Mil itcl
and with culk'and IfUr, to~,W7- Wit'!t Ih2
'Lilt prop,
ftior-S there werre '111fable-d: yEM."v
Ifr!~ flecnmp~ ~,-,bi- thim; (1k
z Ifitu
pon~ut-q ns ba5i; d cowl. J~!tn,.); Cu(.'I,.A.IiCI, Kruf:u,
decomp, IN-CF(completely diswwd, in aq. ~01111.); hfa~k
jecomr, 214"; Iza-brol,11 C"Eir.;.~AjLBY -I -
Nm
Iftsot - 101110, wht:h all 11~j
All di~so,, in
lit,
"'ItEieractioz of apabasine with Mercuric 5nif hierccr6tw
P. Azi
WOO
a
-
'4 =. a ,
~1
1
F Zi
~hi
1
5
117.
16
um, zi
7m.
9
4,
is
;
. 1'p
-m ~'h'tz!
rea-:ted xvith unalmsiric (1) lit aq. soft
I
t
UtLurp!l0U:i 'ZOIllild. IIj;C;-.Cj;H,j4N (111, It
The ma-,tion proectils with
tion of li,a', ifarl unles, cool-d a columi -w:,~l o . Aa,w'..0
11 ~a:; obi::, vwd 1,y ti f1disig dropwispan aq. 4 1
ligO., ',,uli'~j ill icc wmer. Upmi hi i., f lo' 11
turmA tcl!ow It i~ rianhygrErscopic, di-tiv-, 1,:-rly :u
urater (:116kEly b,!ttcr ill bot water). ac-itbaw, ;,,ul i`tbllf,
In3t4. in berizetic acit toluctle. After Wilitig, aq. ~vlrns. d
-
H allk- reaction. I1dk--:oIvc5 in 1. iiii-, '12o"Nic;
11 have 4
Hg; addil. u( 'NfelcO ha"S"Llis thil reacLion. is) 'Vm- 116di-
fied with AcOll ors, mag mineral acids If d! - .0 ,d f- l6ivg
a compti. 'A diff':fut Compa. SOCO k7ally '.j. if, -'I 1-ri'd
-its.
acicular cryst. I I
actcd with I w.,ording to.
:
Iil. 11 1.1111
A comprative Stu4ly W-23 matic ~2i
of 1, pyrldto,-- tIV), itid piptridiric (V) wit!i Ill -. h,
4ctiitxs ~-r~ carrizi utit YeRb an cm~%i ot !'-, ill kh~ '11'
criev of moi,rurc. Itrimediat,ly following d.t. m.-w,~, At-,
Ill tain., and -it,,r 7 days, (lit vxtent. ilf int,ra~ umi J I
HI was 7. u, mcl IKe'O. resp. For I'll w-A lit a :ill
75.6.). and u lid for Vaiul M It wa. 1.1 1 iwj i
rcy. In tht! L~. z
A cv'% flu fkAls. iNx, v13& i.fl.f 'I iyq.
That, ill it, !wil"ll 1.11 'try 111. 1 12 Oo,cr to V t)l:'rJ
. IV.
lit file prc-:,- miic, of sviter- tht: Interactiou .f i i,r IV will lit
:
Rescd;ii of U N gar
venke) and I;,- Asia
,.,. ~Mt Obrfichef KAun. 277-MM "MTF=-~
Xn- b sine (1) and TIC0211 yield eryqudline 1.1100$11, very
and sal. irt erg, rolvants, I und-AcOll pvc-,
1. e011, tit. RRI~ - PrCO-H sltui
Harly gAve I.PrMff, very
hygroscople solid. I and ho-BuCWI gave Us*-RqC'OIt,
kp~ry hyg~OSCOPIC solld. With (Cojlt~ there Stre formed"
21-0411;, tn. 210% I.C104112, m, 199', and 1.2CIOJI1. in.,
nt.81,; all are qery Sol. ',It tile Malonic acid,
gave 2f.C,0jIj, in. M'. SuMnic acid gave 1,;ry heZro-
I ave /
irople 21,CArIt. Tartaric acid-Lp--bolid
Citric acid gave solid JI.C.11.0'. With -.1,1plithalclie-2-
-culfonic atid thcrr are formed, I.CtiffiSOJI. m. 13U*.. and
0~gl'VIF
2R
ILL
qq,
u S S
WW --niji irffiii &NAff c-d:d'fi1T,4Wa-n-f t-xmW97
Udgyrdko and
i -Fir, To. k, -tic
mvi,-Ilw he3to 61 Vapodratiol .1
tern'try miVu. Corstst, to-M In'At Atoti (1) with
v in
propuition- of bemene (11) aw, 1.2-dichlotn'thmi III
were mfcl. 11 'vIth-ang of the ClaU411IN-Clapeyroll CC] atirm-
from cxp0- daia publWi-A rarlier (lot. cit.). VrOjars 1, w
ralul, agrec uithirl 10"'. or hnia (Itj the 11Y. -mitli three C,'jjCd.
by pivaivi of the wpiatina h - L layl + Lin. whefe
I't I" thu flevt 0 V,11snilzatia el j~h mnpii-ni and yj
4114 mokfilrdoll Iii Ilse Impbago.
talmlinted. 'nit, equatio-t L ~ (Litl-nx, + &p2~yjr, +
+ '4214n arid je wm
fll(~Vapor prmfurt fn fhv pme stpte4
the %C141t; fl
and the ninfe fr;tc!lor) of Cio jth comp"lluat In thf: 114tia
phaw, wil, Vvmn &,Tbltd. W.
u ss Re
.jja"5mr- a~d
Xl~rriz;tg nf -sa-le bimiry spstenir with nicct
Thc viw-i~y ~Vmil d. ul mixts. uf 11K."Olst %%ith cllcl~.
1,11,1iri, tt;tt achlor,w(lim e, EtOU, i-AitiOll, AwOff, atid
a1c. tvvi'- stilflicd at "0' at'd 75, alid 'J Itico.
linu and McOll -it 2.1 and M the vela-
tiott 1110 vakt!~-.i 'Ind alol;tr t~mlsjllt. itttli-
catoi intmactient bvtwcci~ itt,fititw aiul ClICI;. oit)-vile
bromid,.-, au'! NIf:, Et' wid ~"o-fiu Oc-'.
Tfic ifjlvfIIvG~Ii I'f dirt'r sukt~lslcvs %tith 1wmilir imlic--ti-S
their aidic wtutte in rdaii,,n E,, itio~aixie ;-i -,
vi'v.il'ity Lorholls (if Iticotiac. I'Axt. tt HI (;% Ooliciyl 1 10.
-how" Im lowlioin !)t t-'A tol tjl!-- tit 1). Tit, afl'ifi~ projtufile~ '
of tit, lt.lfox.l~ ;'.idt flvm rv). of 111410.1ftll MO t;"
ill thk! incil ad iuvrctei:-: alko upon 1he retilarcim-at uf Cl
by Br lit 0!, w~c of an iiicrv;i,t~ jj~ lht~ le"oh i)f tW
mp
i'! ,~ -~ -a . ~ ': I I I . - . . , .
;;, ~ " , - . I - - :- i_,
, zz z - ; .. - a . . ,
- - ', I - - - , - I ~ . I
AUTHORS: Udovenko, T.V. and Fialkovq Yu~. Ya.
TITLE: Viscosity of Germanium Tetrachloride - Ethers Systems.(Vyazkost,
Sistem Chetyrekhkhloristyy Germaniy - Efiry).
PERIODICAL: "Zhurnal Neorganicheskotxblmil" (Journal of Inorganic Chemistrj-
V-01.11, N0.21 PP-434-43U
ABSTRACT: A study of the complex-forming ability of germanium tetrachlor-
ide would be useful in enabling a comparison to be made of the
properties of various addition products of IV group element
tetrahalides; the rules governing the formation of these pro-
ducts could also be deduced. In connection with this studies
have been made of the viscosities of binary systems of which
one component was always germanium tetrachloridey the others
being various organic compounds. Allmaterials were carefully
dried to avoid hydrolysis of the tetrachloride'.
Measurements were made of the viscosity and also the density of
the following systems: germanium tetrachloride - acetoacetic
ester, germanium tetrachloride - anisole at 20, 30 and 40OC;
germanium tetrachloride - dioxane at 2.5 and 40OCy and germanium
tetrachloride - diethyl ether and germanium - tetrachloride -
'
dimetbyl sulphide at 200C.
It was found that in contrast to
titanium and tin tetrachloridesp germanium tetrachloride does
not form addition products with the abo7e type of compounds;
this is explained as being connected with the increase in the
Card 1/2
581
Viscosity of Germanium Tetrachloride - Ethers Systems.(Cont~.)
screening of the central atom in germanium tetrachloride.'
There are thirty-one referencesq of which fifteen are Russian.
One Figure and Five Tables.
The work was carried out at Kiev Polytechnical Institute.
Received 17 September, 1956.
Card 2/2
1
esiry of Wmry qstems wilb CS-10-1
. I V, V,
12 f -- -j= - -
~C, T, ie
7
Systems sll~w comv,.wc~t a ery-
lit
loaa. at
~ua -.tltj
C.A.42,nl.'t). Tlit ?"CII.OH lu-Jed
mM p cryst. &ddu,-t ba, gavt a cl,--r m~x. im dic vis.
crZky Curve af 70 .,XCjc lio alc M. Kcsf;lrp_nL.
Y
bturi systems frezil
R. 1.
if
,
Pnd file, cc4c:-!t
a~ cwllplcxc~ with the -I pherG, dia"t
h- h In
t. pmenta W.- at
-
.
"
61=f
w! ii0k !11V
';~~
1:1. .-
,Sys or- yklklm' A Uoll-~t C.
lu. MC'. Gmng to Under
-61 fto~ SinliUrly a sin-w-li ault. of Y, ~"ij
(OHICCIs' lu, 147" was, ~-Ojlatc-j r~k
~C=110 34-awi art irraffix-11. vk4c-tiEr ruix. at V5 vw1c
-CHO, 11di fudi=" it Compd. C(%Clf0;vllhcl-ft tile
maz,
kka. any -razdoaA c4utpoatiat propc~~v;' ivith I tdwer6ot
In at 33 Mol
t ax,
a
dqeo thafifth
R. M
MMY
M"P ~'-
Ore- =~~,
2"Id V it
COICHO at W. 75~, an~i 85, a:e
- z
t
17
USSR/Physical 9,~';~Y/ ?';iher~-"ynamics, ThermochemLtry, B-8
Equilibria, Physical-Ch. emical Analysis, Phase Tr=;.' tions.
Abs Jour : Referat Mur - lChimiya, No 1., 1958, 414
Author : V.V. Udovenko, Yu.Ya. Fiall-ov.
Tnst : -~
Title : Viscosity of System-, Germanium Tetrachloride - Ethers and
Esters.
Orig Pub : Zh. neorgan. khimii, 1957, 2, No 2, 434-438
Abstract : The viscosity and density of binary systems composed by
Cermanium tetrachloride (I) with ethyl acetate III); ani-
sole (III), dioxane (IV), diethyl ether (V) and dimeme-
thylsulfide (VI) were measured. The systems I - II and
I - III were studied at 20, 30 and 400, the system I -IV
was studied at 25 and 400, and the systems I - V and I -
VI were studied at 200. All the operations of preparinG
the solutions and carryinC out the measurements were do-
ne under airtight conditions. Viscosity was measured
Card 1/2
USSR/Physical Chemistry - Thermod~rnamics, Thernochemistry, 13-8
Equilibria, Physical-Cheadical Analysis, Phase Tranoitions.
Abs Jour Ref Zhur - Khimiya, ITo 1, 1958, 414
in a closed viscosimeter for volatile licuids described
earlier (Toropov A.P., Zh. prikl. khiriui, 1939, 1-2, 1744).
The viscosity isotherms of the studied systems are convex
with reference to the composition axis, which Ladicates
the absence of a chemical interaction betATeen the co=o-
nents. The authors connect the absence of interaction
with an increase of the screeninc of the ceaLral atom in
Card 2/2
-~F
AUTHCRS: Udovenko, V. V., and Khomenko, R. I.
TTTLE: Viscosity of Binary Systems with Chloral-4 (Vyazkost' binarnykh
I sistem s khloralem. IV.)
PERIODICAL: Zhurnal Obahchey Khimii, 1957, Vol. 27, No. 1, PP- 37-40 (U.S.S.R.)
ABSTRACT: Investigations were conducted to determine the visooBity and density
of binary systems consisting of chlaral with acetophenone (boilirg
point 80.00 at 12 mm); benzophenone (b. p. 161.0 0 at U mm); ben-
zaldehyde (b. P. 177.20 at 731 mm) and salicylaldehyde (b. P. 193-00
at 7Z7 mm). The viscosity/density measurements were carried out
at temperatures of 25, 50 and 750 and the results obtained are given
in tables (for each mixture separately). The isothermal viscosity/
density curves are either aligitly convex or rectilinear, depending
upon the temperature. None of the systems investigated showed any
definite reactions between the ccmponents which could lead to the
formation of any specific chemical compound.
Four tables. There are 5 references, of vhich 4 are Slavic.
Card 1/2
446
Viscosity of Binary Systems with Ghloral-4
ASSOCIATION: Central Asiatic State University and the Kiev Polytechnicum
(Sredneaziatskiy Gosudarstvennyy Universitet i Kiyevskiy
Politekhnicheskiy Institut).
PRESENTED BY:
SUBMITTED: January 3, 1956
AVAILABLE:
Card 2/2
V
AUTHORS: Udovenko V V and Khomenko, R. 1. 79-2-9/58
TITIE: Viscosity of Binary Systems with Chloral. Part 5. (Vyazkost' binarnykh
sistem a khloralem. V.)
PERIODICAL: Zhurnal Obshchey Khimii, 1957, vol 27, No 2, pp. 322-325 (U.S.S.R.)
ABSTRACT: In order to explain the nature of the reaction between chloral and ether,
the authors investigated the viscosity and density of systems: chloral -
ethyl formate, chloral - ethyl acetate, chloral-ethyl ether, chloral -
anisole and chloral - acetoacetic ester at temperatures ranging from 25 to
750. Viscosity was found to be constant in the first four systems and in
the fifth one it varies with tire. A reaction between the components was
established in all systems investigated but only the reaction of the chlor
acetoacetic ester system is clearly expressed and this is explained by the
presence in the molecule of the latter of a hydroxyl group.
It was established the, acetoacetic ester in the presence of pyridine
Card 1/2 reacts with chloral forming a compound which during distillation in vacuum
Viscosity of Binary Systems with Chloral. Part 5 79-2-9/53
decomposes into chloral and acetoacetic ester. Optical investigation
of acetoacetic ester solutions in pyridine showed that the latter like
alcohol, reacts with the pyridine by means of the hydroxyl group. Also
the reaction between the chloral and the acetoacetic acid is due to this
hydroxyl group of enol form.
4 tables, 1 graph. There are 2 references, of which 2 are Slavic.
ASSOCIATION: The Kiev Polytechnicum
PRESENTED BY:
SUBMITTED: January 25, 1956
AVAILABLE: Library of Congress
Card 2/2
UD KHOMMO, R.I.
Viscosity of binar7 systems containing chloral. Part 6. Zhru. ob. khlm.
97 noJr583-5P5 Mr '57. (MIRA lotO
1. Sredneaziatskiy goinidarstvannyy universitat i Kievskiy politakhni-
chaskiy institut.
(Systems (Chemistry)) (Chloral)
USSIVInorgamic Chemistry. CoMlex Compounds.
Abs Jour: Bef. Zhur-MAmiya, No 1, 1958, 677.
Author -_Yd * 4.7., Fialkov, Yu. Ya.
_9v nkor,
InOV 7i,'
Title Interaction of Silicon Tetrachloride with Acetic and Benzoic
Anhydrides.
Orig Pub: Zh. Obshch. Xhimii, 1957, 27) No 4., 905-906-
Abstract: It was established that SiC14 can interact directly with
C
anhydrides of organic acids thereby forming mixed anhydrides
of organic and orthosilicic acids. This reaction proceeds
under less rigid conditions than the reactions of interaction
of SiC14 with corresponding acids. By means of the above re-
action the tetraacetate and tetrabenzoate of silicon were ob-
t&ined in good yields.
Card 1/1 _17-
AUTHORSs 0venkQ__,je,,,YA,,jialkov, Yu. Ya.
Ud 79-26 --3-54/61
e____
TITLEt The Viscosity of Binary Systems With a Substitution
Reaction (Vya,7.kost' dvoynykh sistem s obmennym
vzaimodeystviyem)
PERIODICAL: Zhurnal Obshche7 Khimfi. 19r8, Vo~'. 28, Nr 3,
pp. 814-818 (USSR)
ABSTaACTt The viscosity diagrams of binary systems are to a great
extent systematized at present and are often used for the
explanation of the ocourring pronesses. When systems with
chemical reactions are considered the present classifica-
tion (Ref. 1) provides diagram types for such systems in
which chemical reactions take place with a decrease of
the molecular number., e. g. in the system weter--chloral,
or for systems in which the molecular number does not
change, e. g. in the system acetic anhydride-water, Such
systems ha-7a been little investigated. Therefore N. A.
Trifonov suggested such model systems as, among other,
diethyl-water, systems -Plulld:acive 4-;~' visualization of thFi
Card 1/5 type of the diagram of vis~:os ilty when only
The Viscosity of Binary Systems With a Substitution 79--28-3-54/61
Reaction
one chemical compound without a decreaee of the mole-
cular number is formed. It must be noted that in the
system acetic anhydride-water the number of molecules
remains the same after the chemical reaction had taken
place as two molecules of acetic acid are formed from
the molecules ofthis anhydride and water. The reaction
leading to the formation of a chemical compound is not
the only possiblf~or reactions where the moleoular num=
ber remains unchanged. Not less frequenz is the substitu.
tion reaction where the final products are two chemical
compoiinds, Systems of this kind are of great interest
for the theory of physical and chemical analysis-, they
haven however, not been investigated by any chemical
scientist wish respeiztt to the viscosity method. Below,
data on the viscosity of systems are mentioned in which
one component is silicontetrachloride and the other one
of the following compoundst methylal (d-imethoxymethane),
acetal (4
i,1-diethoxyethane) and acetic nhydride. Accor-
ding to the methods of viscosity and d isity the binary
systems silicontetrachloride-methylal L, 2o an 00 C,
silicontetrachloride-acetal at 2o, 3o and 4o 0C and
Card 2/3 silicontetrachloride-,acetic acid anhydride in benzene
The Viscosity of Binary Systems With a Substj-t.,_,tjo-a
Reaction
as indifferent medium at 2ooC were investigated. The
authors found that in the reaction of silicoixtet-rachlo=
ride with methylal the final products aret dichlvrodime=
thoxysilane and chlorodimethylether, and with acezalt
dichloroethoxysilane and chlorodiethylether. This reac=
tion represents a new method of the synthee4s of dichlo=
rodialkoxysilane which differs from the existing ones by
its good yield and by the purity of the products.
There are 1 figure, 3 tables and 5 references: 4 of which
are Soviet.
ASSOCIATION:
SUBMITTED:
Card 3/3
Kiyevskiy politekhnicheskiy institut (Kil.yev Polytech=
nical Institute)
March 3, 1957-
AUTHORS: Udovenko V--Y., Aleksandrova, L. P. SOV/76-32-8-.26/217
TITLi: ---~he Solubility in the System Formic Acid - 1,2-Dichloro Ethane
Water (Rastvorimost' v sisteme muravlinaya kislota - 1,2-
dikhloretan - voda)
PERIODICAL: Zhurnal fizicheskoy khimii, 1958, Vol. 32, Nr 8, pp. 1889-1892
(USSR)
ABSTRACT: The mutual solubility in the above mentioned ternary system
was investigated within the temperature range of from 20 to
700 according to the polythermal method by V. F. Alekseyev.
The data of the mutual solubility of water and dichloro ethane
were taken from other Dublications. In the determinations of
the solubility eight polythermal lines were taken at different
constant ratios between formic acid and dichloro ethane, and
the results obtained were given in a table. There exists a
greater laminated section in Lhe system which decreases on an
increase in temperature. For determining the intersections in
the system the compositions of the layers of equilibrium were
determined by a titration of the acid in both layers at 30,
45 and 600C. The kinetic points of the mutual solubility on
Card 1/2 the curves of the separation of layers were determined according
SOV/76-32-8-26/37
The Solubility in the System Formic Acid -- 1,2-Dichlaro Ethane - Water
to the method mentioned above. The coefficients of distri-
bution were calculated. The difference observed between the
system H 20-02H5OH-C2H4Cl2and that investigated was explained
by the greater coefficient of distribution of formic acid an
compared to that of ethanol. There are 5 tables and 3 references,
2 of which are Soviet.
ASSOCIATION: Kiyevskiy politekhnicheakiy institut (Kiyev Polytechnical
Institute)
SUBMITTED: March 25, 1957
Card 2/2
-5 (4) ' SOV/78-4-2-17/40
AUTHORS: Udovenko, V. V., Artemenko, M. V.
TITLE: On the Interaction of Copper Chloride With Monoethanolamifte
(0 vzaimodeystvii khlornoy medi s monoetanolaminom)
PERIODICAL: Zhurnal neorganicheskoy khimii, 1959, Vol 4. Nr 2.
pp 352-355 (USSR)
ABSTRACT: On the interaction of monoethanolamihe with copper salts
complex compounds of various compositions are formed. The
following compounds are formed by copper chloride with ethanol
amike combined with hydrochloric acid: ICH 2OHCH2 NH,]CuC'L3
and (CH 20HCH2NH 3)2 CuClA' On the interaction of a concentrE.ted
alcoholic solution of copper chloride with monoethanol amine
the compounds CH2 NH2CH2OCuCl and (CH2 OHCH2 NH3)Cucl3are formed.
In weak solutions of copper chloride in acetone the compound
CU(CH2ORCH2NH 2)4 C1 2is formed. This compound crystallizes in
well formed blue crystals wbose melting point is 1030; it is
soluble in alcohol and water, and insoluble in acetone. On
Card 112 the interaction of copper chloride with Cu(CH 2 OHCH2NH 2)4 C12