SCIENTIFIC ABSTRACT VAGO, O. - VAGRAMYAN, A.T.
Document Type:
Collection:
Document Number (FOIA) /ESDN (CREST):
CIA-RDP86-00513R001858330008-5
Release Decision:
RIF
Original Classification:
S
Document Page Count:
100
Document Creation Date:
November 2, 2016
Document Release Date:
August 31, 2001
Sequence Number:
8
Case Number:
Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
File:
Attachment | Size |
---|---|
![]() | 3.27 MB |
Body:
'C' Seec.2 "Fol.10110 i*.
UAGoo.
4445. VAGO 0., SPINER A. , COMAN Al. and OLTET .11, Centr. de Obstet. sl
Uinecol. , Matern. 'Polizu' Bucure~ti. * Cerce'nri experimentale asupra
baroceptorilor uterini. (Noid preliminar!k). E x pe r I m ent a I i n v e s t i g a -
tions on uterine baro-receptors. Preliminary note OB-
STET. GLN EC. (Bucureqti) 1357, S/ 2 (122-128) Graphs 3 Illus. 2
The receptors at the level of the cervix and corpus uteri, and of the fallopian lube,
were studied by means of a special method of stimulation. Simultaneous plethysmo-
graphic recordings of the vaso-motor variations were made. The stimuli used
were either mechanical (tractions) or intrauterine, and intratubal pressure varia-
tions caused by the slow or sudden Introduction of carbon dioxide Into the uterine
cavity. The plethysmogram showed deviations in all cases of mechanical stimula-
tion of the cervix and in most of the cases of uterine baro-receptor stimulation
through pressure variations. The presence of changes in the plethysmogram during
the passage of carbon dioxide through the fallopian tubes suggests the existence of
baro-receptors at this level. (U, 10*)
VAGO, Odon, dr.
The new forest law. Erdo 13 no.10:444-"7 0 '64.
VAGO, Odon, dr,
Forestry propaganda. Erdo 1-1 no.8:370-373 Ag 162.
VAGO, P.
VAGO, P. - The cow stable with 102 spaces on the special farms of the Hatvan
Sugar Plant. p. 19, Vol. 11, no. 13, July 1956 -
Magyar Mezogazdasag, Budapest, Hungary
SOURCE; East European Accessions List (EFAL) Vol. 6, No. 4 - April 1957
HUNGARY/Chemical Technology - Chemical Products and Their K-7
Applications. Leather, Fur, Gelatin, Tanning
Agents. Technical Albumens
Abs Jour : Ref Zhur - 10iimiya, No 2, 1958, 6743
Author : Vago, Reti, Malovecz, Varga
Inst : 7--Z-
Title : On the Storage and the Leaching of Smoke Tree (Variability
of Sume Tanning Agents) -
Orig Pub : Bor-es cipotechnika, 1957, 7, No 1, 1-3
Abstract ; The tanning (T) content in the wood of the smoke tree
bush Rhus cotinus irvestigated (50-year old) was higher
than in -the young sprouts or in the bark. Wood dyes
powdered hide into yellow (while dyes it bark T into
grey-brown), no precipitate with CH20 (while bark T gives
an abundant precipitate), produces a blue coloration in
presence of FeCl3 (while bark T give a green color).
Sum,c T is less stable than T from the Chinece nut tree.
Card 1/2
014F In as in W
IaI Oq f P I le 111,11JUISIA till M.
;oaf - '1~ "! 4 4 n as Is 0 a P!JIM NU i4ji sav long 01 V 4) a a&*
-A 6 . r~ A -1--i- -A-K F -6 9 $_1_11 Y X-1 ... 1, L-P M q aft Kit -1- -A A
t
-00
00 A (Kirv %rate _00
so, 247-&)
0411111 (IVIR With theahl of prohes, In the I"arin of Ni (a A few tells Of V~ (at lttw I' And bigh iI. a 11/i gives Ow .0*
at he %mg hotissultury; R. 6 a
09 1"' is t and about 0.15 min. wide, wound tit dif emtu t rethfani't t' Og
hick
Iffrut function "I j and pts._4 through a mAll. at lower
00 hiciffus. at 3 different depths, 50. and 150p, of a If the thirknes& of The blocking .00
icylindir"I oxide L&W of total thickne-44 20Uw, depsmited toe IS t
In-6 cm.. the nwan Clee. field I sic p:
I.
ors a heated sillid NI cylinder osre of LZI cum. dism., (A the order lip V./CIV.. Funho'. t
and with Rise aRl of an ofarning in (he cistidir layer faring the is -1 give the total cle". re
00 8'~ 1 i the core, ilia tirplb distribolims ist the current-vultsigir tent6l depth distributiom cu,vr
oo characterlittic-ii grii InvesilgAtc4l undrr voltage impulses sistam 14 between any 2 protws. I'lota of 14 brAw-rn
tit amplitudes tip to IM) v., Wric conit. W-6W mirto*vc. the Ist and the 2nd probe. against 6, at various If'. %hnw
and frequency of the order of I herts. Witlitimaider thew that thl* resistance is ohmic only at higher T (11211-
30i 2anser protscii, #lie thermoclectromotive ("M R acrofts tile at 07hand 1111th"K., Mentesthrissugha ma%. zoo
13yrrisraldr(d lpetwrcn the core atutearli isrsibewparately. rhe pbst% of 8, 1wrink evAln4t6n, wwiaJ charael"i-lu-
0 co a
At d certain stage (d the actlymion. the sign of P of joAjjj,jjn.Ir.; this.. the Infi-inAl work lists, skin 4 th, 0-
0 a 11110 that COrt"INJUdinj Ittell-Cirunk-CMItI. smit then it= tr'"I - to.9 e.v.. external U'd Is lin" Isms I"rAl ZOO
unchanged. The rhAnce xvuri first at the Inor-ruitt finsetiwissi 1.7 v.. rtni,,iim .- .1. 05 iiiiij, /,if. rtij .1
V probe (closest. to the cute) and moves gradually towards - Iu73'K. anti Itox) v., wwn. 4 it" cl-trini,s - PO
.4
*4111 the pefir of the xide yet" Sometimes. a reverse at 1121)'K. The Drbye scrtruing length -at% fie estd tit 10449
L charges,
tngc E cx~rs o!~n ~. an activated layer on cm. anti the %urlact ctirwu. of It" to
case, the "inversiou 10"isq. cm. N. Ilion ago
cli C a.. In c
temp'n waii fit V
emp. drop serum the izo 0
siside favor. from the core to the outer periphery, was 800
about 101)", From the set of curmt-voltage curves at
various depths, Potential diqribution curves were coa-
It 41 in terms of the depth at various const. rmivdon
_3 ruc r
current intemitift i and trinin. T (975-1 IFLOVIC.). TIMse
ro-Okil curves usually show slight tirralts. fixtrapolation to iscro
depth gives the lwwcntW junip a V a( the boundiry of the
__V_ 11131.9he -Me layr. its value ranges from a few V.
io-'C &Ssi-SLA A"AlL CrKAL t,T1'1PA1LXL CLASSWICAMN 1:46
tt"Mj'
J~i!
-GArg; A
--i-ii n4 0 a I It si I IF
131 a
U Is AT P01119 "till 1119 it t! it I It n d"
!o 0 0 0 0 0 0 0 0 0 0 o o o a;
000 :!
:10 0 o o o o * 06 egos 0 .6 Gre 1000000000 00 00 0 9 000
!-. 7 . 9 VAGOCOVSKAY A. 7.V a
w
T'rj-w-t"imperaturs reactions of atoms and radimle.
2sKhim, 20 no,3#20-22 MY-J* 165. (MIRA 18?88~
1. Moskovskiy universitet, knfedra fizichaskoy k1dr-li.
VA&-ONENE, Gle- P) ,
USSR/Farr Aninrls. Tho Swine
Abr Jour : Rof Zhur - Biol., Nc 11, 19.98, No 50059
Q-h
Author : ~ ~-~ ~.M.
Inst : Lithumirn Scientific Rorcrrch Inctitutu of Aninel HuEbrndry
-nd Votorinrry Sciences;
Title : The Effcctivencrc of Sub,titutinU Concentrrted Fco~r by
Corn Er7r Silage in F-ttenin,- Diets of GrovdrC Pip.
Orig Pub i Byul. nruchno-tokhn. infom. Lit. n.-i. in-ta zhivotnovordstvr
i vctorinrrii, 1957, No 1, 25-26
Ab,-trvc", No r:bstract
Cerd
VAGONIS, Z. I. Cand Diol Sci -- (diss) "Effect of vqrious rations upon certdi
immunobiological and hematological Indicators in young cattle." Villnyus, 1957.
24 pp (Min of Higher Education UBSR. Villnyus State Univ im V. Kapsukas), 100
copies (KL, 4-58, 82)
-16-
US3R/ Farm Animals. Cattle.
~,bs lour: Ref Zhur-Bioli, No 12, 1958, 54744;
Author
Inst Not given.
Title The Effect of Different Rations on Certain
Immunobiological and Hematological Indexes in
Young Cattle.
Orig Publ- Byul. nauchno-tekhn. inform. Lit. n.-i. in-t
zhivotnovodstva i veterinarii, 1957, No 1,
33-37.
Abstract; Three groups of heifors, ? heads in each, fed
different rations (1!jt group was fed concen-
trates, 2nd - roots, 3rd - silage), were vac-
cinated thrice against paratyphoid. The high-
est immunobiological and hematological indexes
were obtained in the 1st group, the lowest -
in the 2nd one.
Z-2
Card 1/1
AYZINEEJDA5, L.B., VAGONIS, Z.I.
*On the functional stigwta of the constitution of fam animls."
Report submitted, but not presented at the 22nd International
Congress of Fhysiological SclenvAce
lalden, the Netherlands 206-17 Sop 1962
AIZIVBUDAS, L.B.; VAG0111,1q, Z.I.
Physiological trend in the theory of the constitution of 'arm
animals. Zhur.ob.bial.23.no.6 :432-440 N-D162. (MIRA 16:7)
1. Itovskaya vaterinaniaya akademiya i Litovskiy nauchno-issle.-
dovatellskiy institut ,5hivAnovodstva.
(VETERIVAlff PHYSIOLOGY)
NARKEVICH, O.Ye.; TRUKHTANOVA, V.I.; ROYZMAN, V.M.; DUBROVINA, L.M.;
VAGONOVA, N.,A.,_red.; ELIKINA, E.M., tekhn. red.
(Price determination in enterprises of public dining]TSeno-
obrazovanis v predpriiafiiakh obahchestvannogo pitaniia. Mo-
skva, Gostorgizdat, 196~. 86 p. (MIRA 16:3)
(Restaurants,, lunchrooms, etc.-Prices)
VAGONOVA N A - TOLPYGO, Ye.A.; TIMOFEYEVA, L.I.; ZAXHLBOV, V.I., red.;
_i~~~~HNA, E.M., tekbn. red.
[Now developments In the operations and equipment of public
eating facilities]Novom v obahchostvannom pitanii. Moskva,
Gostorgizdat, 1962. 241 p. (MIRA 16:4)
(Restaurants, lunchrooms, ate.-Equipment and supplies)
(Restaurant management)
L 521.16705 Pf
ACCESSION NR: AP5015363 UR/0286/65/,,()W009/C)12/01l2
621.914.37 f
AUTHOR: Vagros , P. V.
....... .................. .
.. ............
;on two sides. Class 413, No. 170819
,. ...ISdURCE: Byulleten' izobmtdniy i tovarniykh znd Wj% at cA. strulk-ir flun the ficnitint
c.d. wid 25,30% -st biXber ir.d. Primurnably, depiatitisin
of nwital follm" AiwItArge al the corupkit Atli"n $nCIS AS
AgWN), %and the delsosit k istrinoth I"auge the contiplei
anions displatv impiritiet from the r1ectrixte surfAv-
t'-Wan,w, et al. C C A. 34,31AC1111. e1jinsirst skit "irtat cast
Ise rk-etruslirl"iti -1 im a Xb.% i'dwr next to the cal)usdr, tyus
V. and It. rimild is-it it-pruduce thit expt. C.Lspunov*~
111crwy thal 11w piu:,41 dd-pmItImi I, a m"midary psrtxv~ is
birfortrel, 1, ), ffilifirnim
A I volif"i'vu ttat Z A. -w,g.,v'cvd I At Ali N I . 0
~A A-, J4. C.""a 1;11111,141~;
64. 4441h. %feel III-- ittwil i ,f
Ile"I lgifelful t,A duclux I w . 'Hit. #ItCA%Ilff% A J-1111.1111AIII-M
% j1 1),),, 1 - 1). 1 or -11111 1 he I It 'MI i~ 47 It -I gAi I) -fit, 1,
1114V tit~ high- I than N. . f1w at I - 11-141
terf'-five an - "I - N. 311, flair III the of the cutil.0e
.1111iiiat J, A knovilrilgr kif the (smirlilou Air W) Kiveli M-
fiallaw(kill 4N1 tile Titc ef 1-4-1%Atie'll fit t4liticell
41141 tq$ tile influctim "t wAr"S.
I'll (he rite An Autemalatic at,,,, jlI
it f-.6 "I"'ttepiple"lly tile OLIHIC', After Illgl..t
I'llelarupticlo, 1 3 A. 11). '18), ml. ,HI :ji.) _. he,
a app.. during curfelit ititcItuption i~
Iloic to-pi-itt.o.mi,
found tin thet sAme r-allumic in ii W2 X KAgaC-Nir ~Arj
140.4tv-deti't, fwalbburect, inctrAic AN all III%. fif't Cj- Iml
)34%C 00 WRIMM-C Ill the Wt%Wl. 1111 411.Wllfktt Ill WIVI
Ate. till a /it vathiatic WA" id-O lltudivll~ I;lrt A I
-r%c I - ~~lj whclc I I. the Cit. I, hii 1.0., alle
cAth-).Ie in A 2 S ZuSA). 1 0.6 N .4,#. 1~1-u tilt.
,uf%v And #limit the %Ahl- 14 % ellill all ill., 'imi ...b'
I it J13.1 vajib %,Ivl ile . Ille act. Ille 1'. . .1.
IM, "thus (sl:,Cc I - "I.t.) tile 4j"f%7A,c all ivtl%c "1114-
4S title to witatirpticut. Admirption rite curv- v
,how ihAt Or rate il; Large at firut and hmi of,wi .1wit
~,fis is upin-stadird. Admwplimt imi04-rus, inight I.- .!,.all
let Ihim b0own, 11jr 41,t-trot~ let ittite s-Atfust, %sitt.,tt
AS-SmiumwIl to XCNI rv ill a .,III --io-I
IV
with wlyl it V. N1101.1 flowfolt
L4,
IU*Mocbemkd method of detamintion, of the adhesion
of eloctroctepasits. A.J., VailtanTut OM11 VU. S. T%AftVA
Onst. Phys Chem SZO: - "1':.% Mowow).
Pokkadv AL4. Na;*i s.S.s R., 74. :90 J"t IWA)).
milbCA" of an rJectrudepoit to its IMLW 111rial SUIIALV, th.-
lormfins " It do" ou the fraction of flic tk%w swtal surf*Lv
area covered by the depchit fit the earliest Ptage of dclw%[- t
t1un. Is itiftfml from the vzcr14 AN of the Initial I rt"It"In
NO to the cathode and 11sr atilk"tary 4 tst1JjhA=At lAttr
stagrso(thedepaAhlon. InthedelmAititmolCultimnCu.
80.2M a.l. at 20'. e-d. 0.O& amp./eq, cm., 41 - i% - q
was IKS. a" a "StviumicAly Pound CIS CatiRldt, AU111 It$-
MAW-1 04 ft frSUlt 111 6-1-1111- Wll"Wnt W011 I", %'AOII,
llfolwdy Im OwTount of jW"iml oxidaliu" of the mufarr
4ht the mmie Cu cathn&. addith"tal?y etched. ilrjttL~J.
art(] activated with a KCN 3oht.. AN "as "Cjl. Mech. &,I-
hesion tests by the bending method confinnrd the lufmtmvs
frorn the AV deins. Ths- fuictions f of initially scemit,le
surface area of the csth--ir wrrt evalumed from meamyr.
ruents of the initial " and tipti. curves of q m a functiNt
of the surface area. In (his way. f (or a nwchimirAily -
ground Cu cathode was tstd. to 22'~; subsequent trvat-
ment with 197. %aOll lom-red f to 17.X",. For the IINOs
(1:1) CtChVtJ And SUIJOCIJUIMOY KCN~W162401 Cu sur-
facr. W as lound - 61.61 N.
VAORAMIAN.. A. T.
Y!aamianv A. T. and SolovIeva, Z. A. A new method of study of the cathode
paseivation. Fage 1252.
Academy of Sciences, USSR
Insts of Phys. Chemistry
Moscow
March 7, 1950.
SO: Journal of Physical Chemistry., Vol. 74p No. 10. October 19;)0.
Vsluk 01P T
ij fisIT.1y until t~c
,roeity dlr.
ff
A--i
r~, -d
ghowirg I,llang-. in -q G, N- cl-zt-d~ hen tt, A. ~-rted
liumfly from 0 to 30 to 0 ..am p, i'--m, I t fie "h,5 4 r, at z~,~ c.d -
was - 3us Mv. f,)r a 15-, ,.~ d,,, and - 2 t2 -n V. for a 1 5-6c~.
cycto. Taking MA mV tm e-,tdRb-.4u(n pcfentiM Q,, th-5
is 06 mV. Lf tl~e - tc-ldy " ralun JU CA of:to
~, taken tho 1-m*o1tage is 799 mV Tb~
er % ~:M-lter rana" nf-i f,,r
tt", 'If
It-
Sec., 1 11.16, 1 !Q!7, 37.
6-27 1 is not vupmw,,~J e v th~~ ia,* t1-' -crapn~ e-tt,-4w~ the
euzf?~Ce of *L,~ cit, -'e,A InOM ptiro
N1 stifface -zrjlnt .X~ time rcircig-n
ff.rt,~k~ ,m Ov rl- it Tb..
Un'l L- E02~-,-t I t~ ulrftoil U~ frolu frt,~,Iy
dcpcsited Ni, a-..4 Lf If"I tLa J.Avnkia! ft alcre nugurm.
, I
t nic to
0 It. rvniify
(
ii with
Tht~ darew
tcl
;
T
~ ~l
,
a Tnc-. r~-Atavo v3!: v ir expl-airt-, r 1'. pwiv.clnn or
%
h-, al .1 p~tt-f flIce wit ha,mg a nor n3l eq--librium
e
"'A'r
.4, ~k-nc,~ 4 Lh, dv,Oi,I~-, ,I, the
P~ kln.-7~ 1.1 As phy.-c,
tK,
VAGRAWAN~ A. T.
Electrodes
New method for investigating the polarizati-on of electrodes. Trudy Inst. fiz. khimii
AN SSSR No. 1, 1952.
Monthly List of Russian Accessions, Library of Coneress, December 1952. Unclassified.
G331R,"C'hemistry - 'Iectrochem! ~i Jun 52
Nickel
.he -_:'ffect of Al'ernating Curren' on ',!,2
Electrodeposition of Nickel," A. ". VP.r-r-?myan,
A. A. Sutyagina, inst of Phys 'x.--d -cI;':
Uw R
"Iz Alt Nauk, Otdel Xhim Nauk" 110 3, T-2, 4ICI-414
On application of above certain cl-lr-ent -1,7.,nsities..
the structure of the deposit becor.-~7, ::~_,crocryst.
?be number of porcs in the electrilytic Ni depor-It
decreases, With increased freqiency of the so., it6
action graduilly ceases. A ssible mechanlim, of
22DZ5-
the action of Se on the CbmW of the struct W'e' -of
tbe'deposit and on overvoltage in disebarge qf,
lew is suggested.
19
Gim 4d 414w466 MV-". ',.V
i"". 77k!Z". a. Offmlooui.
A lisist beam wasnAKOd from acatbodeam w6kh NI was
heing drptWtrd. uW Aw intrawky I of the refteud bum
was awisfarml. TUM am cliana of #bM cass"d by air was
eliminatW.
contslood %1S%.7140) 140.14110.13.X&CI 6. sadNal? 1.5
I.J1. The cum "I't4piot V (# b the thickness of th*.%l
deposkL=b6dS It. wm#-OWWS-SWSOI
W,
always witill. lathiervolvalhowk"Profto(
VI rcpmtc4 that of F-c wulgravath, and the kuFamn of I was
wbrit c.d. was 1-1-5 amp./sq. dm. *Ad deerviowd an an
Tbiswwtxp6iwdby-
the propwtirs of the surface obtained; an electrea mkie-
w,4w showed that the deposit consisted at casm mystals &I
high c.d., of M-".& of dUkrrat six% at small cd.. and of
uniftwo ssamAk cry"s at ummika c.d. Adilc of CS-
~Nll )a (et;l- Il'# c.A.) or of dis~thakuir ark! (c.s.
SX) M I ab." it. h6b"t "amoiar'W to 1.6.
flertrulyte MW MISIP mwk I almost 11- t of c.d. be-
twam I &W 4 atup./sq. dm. Then =7sive Aw in
%ma vg"orm Itals It the cathode was brpt Without-
or Inin. and cWnst was then switched
cumal for IM.
on, I decreased for wvwW we, This ou moord by the
passivation of the electre& dwims the 6twuption of cur-
rent; when the depookke was nm=W it oamwred *a the
spou least paulvated and, tbok the cathisclelmeame less
uni(cm. *-.Vapbthd. at c.d. 2 depressed 1. 1. 1. S.
VAGRA)ffAN, A, T.; SOLOVITEVA, Z. A.
Electrolysis
Tnvestigation of brightness of electrolytic deposits of nickel during electrolysis.
2kjur.fjz.Wm.p 16, No. 6, 1952.
Monthly List of Russian Accessions, Library of Congress, November 1952. Unclassified.
S/137/62/O00/V)4/150/2D.1
AO6O/A1O1
AIJUDR: Vagramyan, A. T..
TITLB; Joint deposition of chromium with other metals
PERIODICAL: Referativnyy zhurnal, Metallurgiya, no. 4, 1962, 107, abstract' 416511
(V sb. "Elektrolit. osazhdeniye splavov". Moscow, Mashgiz, 1961,
198 - 215)
TEXT: The article discusses the combined deposition of Cr with other metals,
W and Mo with,metals of the iron group, and also the deposition of tenlary alloys
of W and Mo with other metals. Methods are cited for the deposition of Cr alloys
from its hexa-valent compounds (dr-Mn, Cr-Se, Cr-Mo, Cr-W, Cr-Re), and also for
the deposition of Cr with metals of the iron group (Cr-Fe, Cr-Ni).
Ye. Layner
[Abstracter'G note: Complete translation]
Card 1/1
S11080161103 4/00 9/CC8,"rj
D204/D305
AUTHORS: Solov'yeva, Z.A.v Petrovat Yu.S., and Vagramyan, A.T.
TITLE: Effect of chromic acid concentration on the electrrde
pof&tion of chromium
PERIODICAL: Zhurnal prikladnoy khimii,v. 34, no. 9, 1961~
2007 - 2012
TEXT: This is report II from a series of papers on inve,;vipaing
the rates of linked reactions in the electrodeposition f ~'--omium.
The effect of chromic acid concentration at constant and vury7ng
H2SO4 contents on the rate of deposition of meiallic chr(,m-;_uz,, -the
rate of intermediate reduction of chromic acid and -the raTe of hy-
drogen evolution were studied. Alsop the relationship be-ween zur-,-
rent distribution and CrO 3 concentration at constant and %ar_y-_~ng
H2 so4contents at various temperatures, and the variation of ca-
t1bode potential with CrO 3 concentration at constant H 2s0 4 ~ori~ent
Card 1/3
S/080/61/034/009 /00F"'
Effect of chromic acid ... D204/D305
were investigated. It was found that a decrease in chromi-? acni
concentration increases the rate of chromium deposition sharp.y,
the rate of increase depending on H 2so4 concentration, tempera-~ure
and current density. The rate of in'~ermediate reduction ~,f -tiromic
acid also increases and the rate of hydrogen evolution decreases.
A decrease of chr9mic acid concentration with simulTaneoua j-:~crea-
se in sulphuric acid concentration increases the rate of elirox--,um
deposition considerably. However, the rate of intermediate r,educ-
tion of chromic ac3.d is initially independent of the CrO., and HI)
so4 concentration and subsequently decreases with a deer,~!s- in"
CrO3 and H2so4 concentration. The authors suggest that on ,haaging
the solution compositiong the change in the rates of the linked
reactionsp taking place at the cathode during reduction cf -nromic
acid in the presence of H 2SU 4' is due to a change in ::ornipoilt~!-Dn
and properties of the cathode film formed, from which dischar,~e of
Cr6+ ions occurs directly. There are 3 figures, 1 table and I
Card 2/~
S/080/61/034/UO9/G()P,/G_6
Effect of chromic acid ... D204/D305
Soviet-bloc references.
SUBMITTED: August 299 1960
p"',
Card 3/3
3/076/61/035/00`1/0-8/02~
B121/B206
AUTHORS: Vagramyan, A. T., Usachev, D. N., and Klimasenko, N. L.
TITLEs Effect of film composition on alloy formation during electro-
deposition of chromium together with other elements
PERIODICALt Zhurnal fizicheskoy khimii, v. 35, no. 3, 1961, 647-650
TEM The effect of film composition on the electrodeposition of chromium
together with other elements was studied. It was established that the de -
position of metallic chromium depends on the composition of the film andnot
on the composition of the electrolyte solution. Investigation of the catkx,.lic
polarization in an electrolyte consisting of 2.5 moles/I of CrO. and 0.025
mole/1 of selenic acid on a gold cathode showed that, in principle, the ef-
fect of selenic acid on the electroreduction of chromic acia is the same as
that of sulfuric acid. An alloy of chromium with selenium forms on the
cathode during this process. This alloy also forms when adding Belenious
acid instead of selenic acid. The reduction rate of the chromium ions is af-
fected,not by the ion concentration in the electrolyte, but by the ion con-
centration in the film. The change of the composition of the Cr-Se alloy
Card 113
Effect of fili,.i B12!/B206
on a change of the concentration of selenic acid in a 2.5 I'l chromic-acid
solution at a current denuity of 0-50 a/cm2 and a temperature of 20 0C was
also investigated on platinum electrodes. The results showed that tile
p rcentage of selenium in the alloy rises to 0.15 mole/l with an increase of
R. e selenium concentration in the solution. The composition of the Or-Se
alloy"remains unchanged with a further increase of the selenium noncentratian.
The same rule was also established for a replacement of selenic acid by
selenious acid. During electroreduction the permanganate ion has no reduc.-
ing effect on chromic acid. The ability of forming a film an the cathode
thus depends first of Pill on the nature of the anions. The effect of tile
sulfuric-acid concentration on the percentage of selenium in the Cr-Se alloy
during deposition from a solution with 2.5 moles/l of chromic acid and
0.1 mole/I of selenic acid was studied, and it was established that the
selenium content in the electrolytic deposit decreases with increasing
sulfuric-acid concentration. Partial exchange of sulfuric acid for selenic
acid in the film results in a decrease of the reduction rate of the selenium
ions. There are 3 figures and 5 references: 4 Soviet-bloc and 1 non-
Soviet-bloc. The reference to the English-language publication reads as
followst C. Kasper, J. Res. Nat. Bur. Standards, 9, 353, 1932.
Card 2/3
Effect of film ...
S/07 61/0-'5/003/018/02-0
B121YB206 J
ASSOCIATIONt Institut fizicheakoy khimii Akademiya nauk SSSR (Institute of
Pbysical Chemistry Academy of Sciences USSR)
SUBMITTED: July 13, 1959
Card 3/3
S/076/61/035/007/001/019
B127/B208
AUTHORSt Kuznetsova V. N., Popkov A. P., Uvarov L. A., Vagramyan A. T.
TITLEt Polarization during electrodeposition of iron group metals.
1. Steady-state potential and overvoltage of iron deposition
PERIODICAL: Zhurnal fizicheskoy khimii, v. 35, no. 7, 1961, 1406 - 1410
TEXT: The authors studied deposition and dissolution of iron in 1 N FeSO 4
solution at 250C. The electrodeposited iron was found to dissolve in these
solutions in the absence of polarizing current, particularly in a more acid
solution. In this case (pH 1-5-2-5) the rate i c of t he spontaneous dissolu-
tion rapidly decreases with increasing pH(i. . 0-4ma/cm at pH 1-5). On
further change of the pH from 2.5 to 3.5 the rate of spontaneous dissolution
2
is reduced more slowly (i. - 0.065ma/cm at pH - 3). The following reac-
tions take place at the electrode surfacet H+ + e-o, 1 H -1 H _>H+ + 0,
2+ 2+ i 21 2 2
Fe + 2e 4Fe, Fe-#Fe + 2e. The reaction rates are denoted by Fit F 29F 31
Card 1/3
Polarization during ...
S/076/61/035/007/001/019
B127/B208
F4' The equation for the steady state is then: F 1+ F 3 - F2 + F4' The
potential of the Fe electrode being more negative than that of hydrogen,
the ionization rate F2 of H 2 may be neglected. Assuming that the discharge
rai, F3 of the Fe ions be much less than that of the H +, F,,one may write
F1 - F49+ i.e., the charge of the electrode is compensated by the discharge
of the H ions. The change of dissolution in-.the presence of 1N Al 2(S04)3
was also studied. At pH 1-5-3-5 the rate of dissolution increases in
this case. (pH - 1.5, 'c 0.52 ma/cm2, PH - 3, ic - 0.31 ma/cm 2). This is
due to SO __ absorption on the electrode which accelerates the ionization of
4
the metal atoms. In the presence of aluminum sulfate the polarization of
the anode is decreased by 35mv. With rising temperature of the electrolyte
the rate of spontaneous dissolution increases, particularly in the presence
of aluminum sulfate. At a temperature rise from 25 to 600C at PH - 1.5 the.
rate increases to the 7.5-fold, in the presence of aluminum sulfate to th5y,
22-fold. At low PH the steady-state potential changes quickly with a
Card 2/3
5/076/61/035/007/001/019
Polarization during ... B127/B208
change in pH, at a higher pH this change is less significant. At low pH
the dependence may be expressed by the following formulat
Irs t - A + RT ln [H+]
( 06 + 13) F
At higher pH the potential is shifted more to the negative aide. In an
oxygen-free inert atmosphere the deviation of the steady-state potential
from the rule, expressed by the formula, decreases. At higher pH the
steady-state potential is shifted toward the positive side under the influ-
ence of aluminum sulfate. The potential of the Fe electrodo is irrevorui-
ble in sulfuric aoid solution and is datormined by a number of processes.
It is therefore impossible to determine the overvoltage by the steady-state
potential. The deposition potential was determined relative to a saturated
calomel electrode. With increasing pH the deposition potential of Fe is
shifted toward the negative side. At a given current density and inareasing
pH the overvoltage of the deposition has more positive values, except in
very acid solutions. The determination of overvoltage by the steady-state
potential thus seems to be incorrect and gives contradictory results.
There are 5 figures and 6 Soviet references.
Card 3/3
S/076/61/'035/1-07/002/0 19
B1 27/B208
AUTRORSt Vagra yan, A. T., Kuznetsova, V. N., Popkov, A. P., Savostin,
V. A., Uvarov, L. A.
TITLEt Polarization during electrodeposition of iron group metals
II. Electrodeposition of iron
PERIODICALt Zhurnal fizicheskoy khimii, v. 35, no. 7, 1961, 1411 - 1415
TEXTt The authors investigated the electrolytic deposition of iron from
solutions of 1 N FeSO 41 and I N FeSO4 + I N Al 2(so 4)3at a current density
2
of 20 ma/cM . The yield of metal relative to the current changes only lit-
tle with a change in current density, and increases rapidly with increasing
pH in the range 1.5-2.5. By changing the pH by one unit the yield increases
from 20 to 90c/6. At a further pH increase the yield increases but slightly.
On aluminum sulfate addition the yield is only 4% at the optimum pH. All
curves showing the dependence of the potential of the iron electrode on the
pH pass a maximum at pH 2.0-2.2. The maximum of the polarization curves is
60 - 65~6 of the maximum metal yield. At low pH the current is consumed for
hydrogen reduction and liberation. In the descending branch of the curve
Card 1/3
3/076/61/035/,jGV-~~02/619
Polarization during .... B127/B208
the current is consumed for the metal deposition. The discharge of Ikydro-
gen ions is promoted in that part of the curve which corresponds to hydro-
gen liberation, the reduction of the metal ions in that part of the curve
which corresponds to metal deposition. The curves are exactly explained in
the papers by A. N. Frumkin, Zh. fiz. khimii, J1, 1875, 1957, Z. Phys.Cidm,
M, 321, 1957, and I. A. Bagotskaya, Dokl. AN SSSR, la, 343~ 1956. 110,
397, 1956. Apparently hydrogen deposition is facilitated on an electrode
coated by hydrogen. Thi 's is confirmed by the paper by M. Smyalovskiy
saying that there is a relationship between the hydrogen overvoltage and
the tendency of the cathode metal toward supersaturation with hydrogen.
The'following reactions are assumed to take place at the hydrogen-coated
electrode: H30+ + Hads + e ----!~H2 + H20 and H 30+ + e -;;' Hads+ H20.
The rate of the first is higher than that of the latter. The increased
metal reduction with decreased rate of hydrogen deposition is probably
due to the fact that the metal deposition at a surface saturated with hy-
drogen is far more difficult than at a hydrogen-free electrode surface.
pH 3.0-3.5 is most suitable for the metal deposition. The retardation of
the metal ion reduction is probably related to an adsorption of foreign
particles, hydroxides and others, which are deposited on the surface of the
Card 2/3
S/076/61/035/007/002/019
Polarization during ... B127/B208
iron electrode after breaking the contact, and passivate the electrode. A
potential jump is observed at the moment of connection. By adding aluminum,
polarization of the cathode increases only at pH 2-2.5. Aluminum sulfate
inhibits the deposition of the metal, but does not affect H2deposition.
There are 6 figures and 5 referencest 4 Soviet-bloc and 1 non-Soviet-bloc.
The most important references to English-language publications read as
followst Foerster F., J. Electrochem., 22, 85, 1916.- Glasstone S. J. Chem.
Soc.v 29 28879 1926. (given as 1 reference).
ASSOCIATIONt Akademiya nauk SSSR Institut fizicheskoy khimii (AS USSR
Physico-chemical Institute)
SUBMITTEDt August 18, 1958
Card 3/3
h072?
B/062,/62/000/009/001/009
BIOI/B186
t7 C
AUTHORSs Vogramyah, L. T., and Uvarov, L. A.
TITLE: Determination of the -reversible p9tential of a nickel
electrode at high-temperatures
PERIODICALs Akademiya nauk SSSR. Izvestiya. Otdeleniye khimicheskikh
nauk, no. 9, 1962, 1520-1524'
TEXT's The potential in the systeal Ni --Ni 2+ was measured within the range
18 - 250oc. Its temperature depen 'dence was compared.with the-values
related to a sulfate-mercury standard electrode as calculated from the L,-7 I,-
equations ~ - ;~ + (RT/nF)ln a + kj(T - T ) + k (T T ), where k, ~nd k
0 0 2 0 2
are respectively the temperatures coefficients at T0 2980K of the
investi,zrated and of the standard electrodes, respectively. Resultss With
increaping temperature, the potential of the nickel electrode becomes
more and more negative; it reaches a maximum at 180 - 200 0C and then
gradually becomes more positive again. At low temperatures the values
Card 1/3
S/06 62/000/009/001/009
Determination of the reversible ... B101YB186
0,
determined are widely scattered and not reproducible, but above -120
reproducible values are obtained and above 200 0C the potential agrees
with the calculated value to an accuracy of -0.02 v. It is concluded
that above 2000C there is no adsorption of impurities and no irreversible
adsorption of hydrogen and that owing to the absence of adsorption the
deposit is free of internal stress. Therefore nickel at high temperatures
behave-, like a reversible electrode. This is also confirmed by the
absence of polarization at high temperatures. The temperature coefficient
of the potential agreed with the data by A. J. de Bethune, T. S. Licht
and N. Swendeman (J. Electrochem. Soc., 106, 616 (1959)). From this, the
standard potential of the nickel electrode at 250C was calculated as
being -0.270�0.005 v in relation to a standard hydrogen electrode, which
deviateo by 0.015 - 0.025 v from the value calculated on the basis of the
thermodynamic data. There are 4 figures.
ASSOCIATIONt Institut fizicheskoy khimii Akademii nauk SSSR
(Institute of Physical Chemistry of the Academy of Sciences
Card 2/3 USSR)
j S/062/62 000/009/001/009
Determination of the reversible ... B101/BlB~ .
SUBMITTEDt March 3, 1962
Card 3/3
S/080/62/035/007/008/013
D214/1-3307
X T I "OR"', Va.rf'ranayan, A.T. and Kudi-javtsev, V.N.
Causco of the formation of electrolytic metal powders
C d,
.Tk~D I Zhurial -r)rilkladnoy khimii, v. 35, no. 7, 1962,
1.346-1549
the study of the causes of deposition of pow-
elerce. *-,'e 'L)y of Fe.S01,, the surf;-.cc structure of the
.7 6c,:=A7.ed )hotoeIcc-Lric_nII,,,- by reflected Ii3Iht
s ur r, me 7,ts. current densitics (25 the Ve has a
alld -uhile at currzwc (~cTjsity o-.Lc 27 GIA/cm2
cAectrolvsis ;z~ve -)cwc:cx-cd '2e. .."hen the T)I:k cA' the electrolyte w
I.> I . a:ity
3.1 a shar-) cha-n-e 'a the surf-acc occuri.-ed Lit a current dell
of 23 - 27'..,, ~ , 7. 'Jith pi T = 4.6 the powder
_1/crL c. limiting current. A
CM2, i.e. much lower than at the limit-
beeYan to ,at 1-3 m2-V
Cj 2
inj~ value ~',n3 - 24 o4cm '2he reason for this is tha at pH = 3.1
o-,jjy ..,c2+ are preseat in the electrolyte; at ph 4, Fc~+ gives
Fe--'+ wlhicl-, for s and this is adsorbed on the surface of the
Card 1/2
Causes of t-ie formation ...
cathodc -2-c to 'orm a powder-lihe
10
ascorbic ~:cid 6'o the clactrolyte prevents
the electrodeposited metal is dense up to
limitin,,7; current. There are 4 -L-igures.
SU31,11TTED: Sept-ember 7, 1961
S/030/62/035/007/008/013
D214/D307
deposit. Addition of,
1 3+
the formation of ~Fe and
the current density of the
Card 2/2
S/080/62/035/008/0050/009
D267/D308
AUTHORS: SolovIyeva, Z.A., -Petrova, Yu.S.9 Klimasenko', N.L.,
and Vagramyan, A. T.
on and properties of the cathode film forming
TITLE: compos
(luring the electrodeposition of chromium
P'-":'iIODI(;AL: Zhurnal prikladnoy khimii, V. 35, no. 8, 1962,
1806 - 1811
TE.M The variatioritof concentrations of the ions Cr 6+ and Cr3+
2-
kvolumetric method) and SO kgravimetric method) was studied in
4
the deposited filmt as a function of the concentration of H so and
2 4
iH CrO in the solution, and the variation of the rate of deposition
2 4
from H2 CrO4 to 6r, in order to carry out* a more complete investiga-
tion of the film composition. The coatings obtained in the course
of 2 miii on a 6 cM2 chromium-plated copper strip were either dissol-
ved in disiilled water or directly removed into a test tube. The so-
Card 112
S/08 62/035/008/005/009
composition and properties uf the ... D267%308
lutions containea 25, 50, 100 or 250 9/1 H2CrO4 and 0.5 - 12.5 iVl
H SO the temperature was -,j20oC and the current density 250 or
2 4 P
500 ma/cm2. r-ormai-iio'n of two types of films was established: 1)
Films obtained in the presence of H2so4 diatinguished by a macro,-
copic structure, soluble in the electrolyte in the absence of cur-
rent and contributing to the reduction H2CrO4 --* Cr; 2) films ol,
tained during an electrolysis without H 2so4or when H2CrO4 acts
without current on the cathode metalp possessing a microscopic
structure, insoliAble in the electrolyte. The latter do not co-.,*.,*-
bute to the reduction of H2CrO 46 The relative concentration of -~,+ 11/
and SO42- in.the films of the first type increases as the cL,*_-r,-:A
density and the concentration of H 2so4increases and as the con,_en-
tration of H2CrO4 decreases. There are 4 tables.
SUBMITTED: June 22, 1961
Card 2/2
KRASNOVSKIY9 A.I.; ~OBOSNIDMI G.I.; VAGRAMYANj A.T.
Role of passivation in the electrodeposition of nickel. Zhur.
fiz. khim. 36 no.0714-719 Ap 062. (MIRA 15t6)
1. Akadsuiya nauk SSSRIInstitut fizicheskoy khimii.
(Paasivation) (Nickel plating)
SOLOVIYEVA, Z.A.; VAGRAMYANp A.T. (Mskva)
Oecillographic study of film formation on the cathode surface
in the electrolytic reduction of chromic o*ld. Zhur. fiz. khim.
36 no.4:752-756 Ap 162. (MIRA 15:6)
1. Ikademiye nauk SSSR, Institut fizicheakoy khimii.
(Oscillography) (Chromic acid) (Electrolysis)
S/020/62/146/003/015/019
BIOI/BI44
AUTHORS:
TITLE;
Vagram-ygns A. T-t Uvarovt Le At
Mechanism of electrodeposition of nickel from sulfate solu-
tions
PERIODICAL: Akademiya nauk SSSR.- Doklady, v. 1-46, no- 3, 1962, 635-637
TEXT:' The effect of passivation on the elebtrodeposition of nic kel was
studied by a method already described (IZV. AN SSSR, OYhN, 1962, no. 9).
Results: The overvoltage of nickel referred to a steady potential at low
temperature is much greater than when referred to an equilibrium potentiaL
Above 1600C this difference disappears as the.electrode becomes
reversible. Between 20 and 1200C the temperature coefficient of over-
voltage is-2 mv/deg, whereas abov; 15CPC it becomen zero. At low tedpera-
ture, the overvoltage-versus-current density function shows two sections;
.firstp the overvoltage increases rapidly with increasing current density
and H is liberated; then the increase becomes flatter, the current
2 ..
yield for Ki being 60-80%. Above 1560C the current yield is 100~. If
-~he polarization curves are plotted slowly, no dependence of polarization
Card 113
S/020/62/146/003/015/019
Mechanism of electrodeposition ... B101/B144
on current density is observed at high temperatures. Ni deposition at
high temperatures does not cover the entire electrode surface but occurs
only in spots; hence the overvoltaGe as measured refers to much higher
current densities than those calculated from the electrode area.
Conclusions: The alight dependence of polarization on current density
at high temperatures is due to the area of deposition becoming larger as
current density increases, and in fact the current density remains nearly
unchanged. The deposition area adapts itself to the polarization current
just as is the case with metals deposited at low overvoltage. 'Mien the
polarization curve is plotted quickly, this self-adaptation is not given
time to occur. There is no essential difference in the mechanism of metal
deposition as between high and low overvoltages. The transition from
coarse-crystalline deposits at high temperature to fine-crystalline at
low temperature is due to the quicker paBsivation in the latt*er, which also
results in higher overvoltage. At high temperature, a diffusion zone
impoverished in nickel appears near the growing deposit of nickel. The
concentration overvoltage of Ni at 1800C is calculated from the thickness
of the diffusion layer: it is about 15 mv at a current density of
10 ma/cM2. There are 2 figures.
Card 2/3
S10201621146100310151019
Mechanism of electrodepoaition ... B1010144
ASSOCIATION: Institut fizicheskoy khimii Akademii nauk. SSSR (Institute
of Physical Chemistry of the Academy of Scienceo USSR)
PRESENTED: May 18, 1962, by V. I. Spitsyn, Academician
SUBMITTED: May 10, 1962
6ard 3/3
Val V,10
18
AUNICIU: Vagramy-an, A. dnd KudryavtPov, V.
TITLE t F egulari ti ep of the f orrm I irin or ro t ic i ron powder.'3
'PERIODICALt Akademiya nauk SSSR. 1% ve.-i f. iya .Otdi-lenlye khiraiche.,3kilkh
nauk, no. 2, 1963, 263 - 266
TEXT: The rormation of Fe electrodeparits was studl~.O. lo clear up the
relation between the form of the depcsit and th(, currrint, density. The
limiting eurrent was determined by plotting Lh-z, polf4rization curvoe obtained
in an electrolyte containing 70 ~/l 7112 0 and 1210 g/1 K 2s0 4 (PH 3)
20 C by the compensation method and the aficillotgraphic ~,otentivl -time
curves. At low p1l, powder forr,,zation war. obverved in the region of the
limiting cuirent. The curve characterizing the trannition fro-.1i compnot to
powder depomits was plotted usinp pulpod nurront., and showl-,J that the
current density is not the determinj.n8 factor. Compa .! t dEprsits -.ere ob-
tained below and above the limitlzi,~-, current and the fori-rition of Powder*
proved time-independent. Powder foritirition .9bove th~., lh-,Otirify, nurrent
results from a rhange in the near-elcctrod, I~tyer brol),-Iit nbout by -2 p 1.7
Card 1/3
Regularities of the formatton ... B 1,14/6 W6
change due to dinchnrge of H*1 ionf3. The nenr--c.,!n(.tvodc% layer in olkalized
and the, h-droxide formin- is visortikI on the aurt'ace of ths:! cathce,~,. This
0 U
favors the f'ormation of powder depo;iJiri. Thu!;, Lhe dlepo~iltlcri of prwdors
at current dennities bolos; thn limit [nL; c1ii-rctit could he Pxpoctcri frc,!.i
elt:ctrolytps of 'Low i,cidity und ac-Aurilly coof ii'meJ ptivLorvil rically (Zh,
.7
priki. k1linii 35, 450 (io62)). Whrl-CrIs tho (;LL-1j"ture ot, thc in
PH 3 solutions changQd in the 25 - 27 Ma/cUl '? -21igep shich coircia-2:) -.-iith
that of' the limitirg current densi,y, ill Olo Avucturnl J,-,
solutionn took place at 11 - 13 ;116 th Fi I., ~i t ill L, -,..urrCnt deriz, I ty vaj
4.
23 - 24 ma/07,'. TIA3 was also conCirued by YO-rder
formation is e-,plained by forrmtjon of ct,11r.-i-al I'ervic in.
electrolytea with r4j>.j.2. oil the 3u.-CLce, fcvric
hydroxide preveLts normal cryqtal grawth ~in.-! con:,,.~qucntly 'Ohe formation of
a compact ~epo-nit. Th,.! correctness of thoc.,vy va-s proved by fdding
,I.
12 S/I of ascorbinic aciJ, which inhibjt~; thu foririitiun cf Fe' ions, to a
PH 4.6 electrr-y";e. The deposit obtained was beIrivi thf. critical
current dunjit~,. Thprd ave 7
V'r. r d
I
I Regularities of the formation...
81062V631000100210081020
B144/Bie6
ASSOCTATION3 Inatitut fizicheskoy khimii Akademii nauk SSSR (Institute of
Physical Chemisti-y of the koademy of Soience3 USSR).
SUBMITTEDt MY 7s 1962
Card 3/3
VAGRAWYAN A.T.; UVAROVI L.A.
C-L=====L-:-,:
Machaniam of the electrodeposition of nickel from mdfate solutions.
Dokl. AN SSSR 146 no.3:635-637 3 162. (MIRA .15:10)
1. Institut fizicheskoy khirnii AN SSSR. Predstavleno akademikom
V&I.Spitsynym.
(Nickel plating)
VAGRLMYAN, A.T.; UVARUV, L.A.
Determination of the re-Wersible potential of a nickel electrode at high
temperature. Izv.AN SSSR.Otd.k~dmnauk to.9:1520-1524 S 162. (MM 15:10)
1. Institut fizicheskoy Ichildi AN SSSR.
(Blectrodeo, Nickel)
T
VAGRAMYAN, A.T.; KUDRYAVTSEV, V.N.
Regularities of the formation of electrolytic iron powders.
Izv,AN SSSR.Otd.ldiim.nauk no.2:263-268 F 163. (MIRA 16t4)
1. Institut fizicheskoy khimii AN SSSR.
(Iron plating) (Powder metallurgy)
YAQ&09A!t AT.,, doktor takhn. nauk,, prof.; SOLOVIYEU) Z.A., kand.
Irlhimi eh. nauk
Electrolytic precipitation. Narim i zhizn' 30 no.1316-21
Ja 163. (MIRA 16:4)
1. Zaveduyusbebiy laboratoriyey slektroosashdaniya metallow
Institute fizicheskoy khimii AN SSSR,
(Blectrometallurgy)
t I 'k
VAGRAWAN, A.T.; ZHAMAGORTSYAN$ M.A.; UVAROV,, L.A.
..............
Effect of temperature on the kinetics of nickel ion discharge.
Izv,AN SSSR.Ser.khij4. no.2001-304 F 164. (MIRA 17:3)
1. Institut fizicheskoy kbimli AN SSSR.
ACCESSION NR'. 'AP4025007 8/0062/64/000100310435/0439
AUTHOR: Lazhava, T. I.; V&Sramyan, A. T.
TITLE: The stationary potential of liquid and solid gallium
SOURCE: AN SSSR. Izv. Seriya khimichaskaya, no. 3, 1964, 435-439
TOPIC TAGS: liquid gallium, solid gallium, stationary potential, electrode design
ABST&%CT: When there is no change in the free energy of a metal in changing its
aggregate state, the equilibrium potential of the solid and liquid metal should be
the same. The literature on the potentials for solid and liquid gallium is
contradictory and shows differences of as much as 170 millivolts. The stationary
potential of solid and liquid gallium in alkaline solutions of potassium gallate
was determined in the 7-38 C temperature interval with electrodes of two designs
(fig. 1.); the potential curves are shown in fig, 2. The change in voltage noted
with one electrode la is attributed to penetration of the electrolyte to the
platinum contact, forming a Ga-Pt macroccll. Readings with the glass encapsulated
electrode 1b show the voltagc does not change from 7-29 C (-1.632 v.), then there
is a slight change to -1.638 v, a drop to -1.636 v, and then no change from
Card 1/4
ACCESSION NR: AP4025007
30-38 C. The cause for this change of 4-~6 millivolts was not determined. The
discrepancies in the literature are attributed to improperly act up experiments
in which the electrode structure was faulty. Orig. art. has: 2 figures.
ASSOCIATION: Institut fizicheskoy khimii AN SSSR (Inatitiite of Physical
Chemistry, AN SSSR)
SUM41TTED: lBSep63 DATE ACQ: 17Apr64 ENCL: 02
SUB CODE: GP NO REP SOV: 003' OTHER: 004
Card 2/4 1 - I-
ACCESSION MR$ AP4025007 INCLOSURE s
fig. I
Electrode used for the investigation: 1-gallium; 2-platinum contact; 3-hydrogen
bubble; 4-glass
Card 314
ACCESSIGM NP: AP4025007
ENCLOSURE t 02
fig. 2
Change of potential of the gallium
-electrode during the time of tranBi-
tion from one aggregate state to
Emother: a-using electrode in fig. la
b-using electrode in fig. lb
Card 4/4
VAGRAMYAH A.T.; ZHAMAGORTSYAN, M.f..
-., -.1 -.-,
Effect of hydrogen or, Une reduction rate of cobalt ions.
Zhur. fiz, kh-im. 38 no~3:78E~-789 Mr '64. (MIRA 17.7)
1. Institut fizicheskoy khiali AN SSSR.
Equilitriiizj po of a -)rq~,.;r e]ectrcde in pyrct"
acirl -jolutLonfj. .1-ir. 1'17. kblm. 38 no.6:1.551-l"16
1. Institut fizlche~3kor k1lirdi Al' SL'SR.
USTREBOVA, E.K.; A.T.
I .- - - ~,-, c-'-'er
echan4sm of tr.a elr-fr- e. . 1.1
M
electrolytes. 7hur. fiz. 38 r- I (-,Z. -
18:2)
1. Institiit fizici~eslkay khimii AN ~;0331R.
M---
SOLMIMAs Z.A.; VAGRXIAN, A.T.
. ............ 11..-~,
Effect of the cathode ourface ae affecting the character
of an electrochemical reaction. Dokl. fill SSSR 154 no.4:
918-921 F 164. (MIRA 17:3)
1. Institut fizicheskoy khimii AN SSSR.
UVAROV, L. A.; ZAMAG0F?TSYjlN7S3, M. A.; VAGRNiffill-li A. T. Moscov
"Die elektrolytische Abscheidurw, von Nickel aus wabrigen Losungen bei Tempera-
turen uber 1000 C."
paper submitted for 2nd Jntl Symp on Hyperpure Materials In Science and
Technology) Dresden, GDR, 28 Sep-2 Oct 65.
Institut fizicheskoy khimii Akademii nauk SSSRj Moscow.