SCIENTIFIC ABSTRACT IZMALKOV, Y. - ISMAYLOV, D.
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CIA-RDP86-00513R000619410004-6
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December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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TURXIN, A.U., inzh.; I714ALKOV, Yu.G., inzh.; KHAWILYN, 11.7o., In2h.;
TYUTIN, Ye.r-."---1'n-zh.~
Use of hydraulic clutches as direct controllflrs of once-throu9b
boilers. Elek. sta. 35 no.6:28-32 Je 164.
(MIRA 18:1)
I ~7-58-4-6-45D
Translation from: Referativnyy ZhUrnal. Metallurgiva, 1958. Nr 4. p 64 [USSR
AUTHOR Izm,3 nova, T. A.
TITLE- Effects of Alloying Element,; on the Content and Mobility oi
Hydrogen in Steet "Xiiyanive legirLIYUShchikh elementov m~ ;od-
erzhaniye 1 podvizhnost' vodoroda v stali)
ABSTRACT Bibliographic entry on the authot's dissertat-.on fot the de
gree of Candidate of Technical Sciences, presented to the
Tsentr. n. -i. in-, chernoy MCiallUrgii (Central S(:ieii!if,.t Re-
search Institute for Ferrous Metallurgy), Moscow 1957,
ASSOCIATION: Tsentr. n. -i. iii-t chernoy metallurgii (Central Scienflli(
Research Instit.ute for Ferrous Nletallurgy.J, Nfos'.-o"x
2. Hydrogen--Mobilitv2
3. Steel--Processes
Card 1/1
WIM !IV Mfulln
-rum .777mpucls
IZMANOVA, T.A. KLYACHKO, Tu.A.
Hydrogen in certain iron alloys. Xhio.nauka i prom. 2 no.4:528-*1-9
'57 (MIRA 10:113
1. TSentrallnyy nauchno-isoledovatellskiv institut chernoy
metallurgii.
(Hydrogen) (Iron alloys)
_L'~J-6-0'/ ;j
AUTHORS: Klyachko, Yu.A. (Dr.Tech.Sci.) and Izmanovap T.A.
- -- . .........I............ -_
TITLE: The influence of alloying elements on the cor4tent aud
mobility of hydrogen in steel. (Vliyaniye legiruyuslachlkh
elementov na soderzhaniye i podvizhnost' vodoroda v stali).
PERIODICAL: 11111tal", (Steel), 1957, No'06, pp-507--511 (USSR).
ABSTRACT: Tho results of a study of the content and mobility of
rogen in binary and ternary iron alloys tire described.
loys, prepared in a high frequency furnace, of the foll-
owIN,r systems were studied: Fe-C; Fe-S:1.-C (with 0.12-0'.14%
of Ri); Fe-Mn-C (with 0.1% of Si); Fe-Zr-C tLnd Fe-Ti-C
(with 0.1% Si and 0.1% Mn). The percentage composition of
alloys and their initial hydrogen content are given. The
allo-, s were tested in a forged and cast harde-ned state.
Y
The -form of ingots is shown in Fig.l. The determination
of 1%1rdrogen was carried out by the vicuo-meltimg method.
Experimental results are given in the form of graphs. On
the basis of the results obtained it i-s concluded that
alloying elements have a substantial influence on the con-
tent and mobility of hydrogen in steel, The content, of
hydrogen in steel -mder the stune nmeltiri~, co:nditions de-
~ezids on the naturo and quantity of alloyii:g elembnts.
ccording to theii influence alloyirg elements can be
Card 1/2
The iffluence of alloying elements on tb-E content and
mobility of hydrogen in steel'. (Cont.) 133-6-8/33
divided on 11~7drogen retainings,, i'..e., increasing hydrogen
content in metal (Ti, Zrj C and Mn) and 1 hose which have
no substantial influence on hydrogen co.W;ent in metal (Sj).
The mobility of hydrogen in steel decrea~,;es on alloying
with every one of the elements invest ir- W;ed, the most
effective bein,-3 hydrogen retaininE elemelits, Plastic de.-
formation and heating for this purpose load to a substan-
tial decrease of the amount Of hydrogen -'.n steels not con-
taining hydrogen retaining elements, and to an insignifi-
cant one - in the presence of these elements. The amount
of hydrogen evolved at low temperatures ~calculated on
100 g of metal) depends on the weight of the Metal sample,
the smaller the sample, the higher the wiount of the
evolved hydrogen. There are 6 fir;ures and 9 references,
including 5 Slavic.
ASSOCIATION: TsNIIChM.
AVAII_1B:_E: Library of Congress
Card 2/2
~, .1~ f - I
5(2)
AUTHORS:
TITLE.
PERIODICAL:
ABSTRACT:
Card 1/2
~GV/ 32-25-4- 3/71
Flyachko, Yu. A., Izaianova, T. A.,
Methods of Determining Hydrogen DeperidInj on the Chemical Com-
voaition and Structure of Steel (?Aetody opredeleniya vodoroda v
zavisimosti ot khimicheskogo sostava i atruktury stali)
Zavodskaya Laboratoriya, 1959, Vol 25, Nr 4, PP 396-396 (USSR)
The mout used methods for the hydrogen determination in metals
employ a heating or melting of the metal in the vacuum. To de-
termine the application possibilitieu of those methods for the
determination of hydrogen in steels cast samples were examined
in the present case after quenching in water. The total content
of 112 in the samploB wag determined after the vacuum melting
(VII); the content of hydrogen was then examined by heating in
the vacuum (HV), and the kinetips of the hydrogen precipitation
was examined for a utoring of oamples) tinder mercury at room
temperature. The following statements were inadet In steels with
Ti, V, and lAn with a content of raore -than 0-5~ C, a reduced
hydrogen content was ascertained by the HY method (represented
graphically in figures a and b) which also applies to carbon-
5011/13?-25-4- 3/7 1
Methods of Detexrriining lijdrogen Depending on the Chemical 1.1e)mposition and
Structure of St.ael
iceous (more than 0.5~6 -) tlteols (Fig v) so that these types of
~jteel can only be analyzed by the VU method- Steels containin,',r
3b and Ni (with aay ,ontent of C) as well as siluminum- and
-containing stuela (with low content of C) give good re-
-hrome
oults in the hjdrogen analysis by the V melhod. In alloyo with
:nartensite structure, the martensite disintegrates tit the tem-
peratures of JIV and the forriation of a ferrite and carbide phase
can take place; thio increases the mobility of the hytirogen, and
results in better precipitation. For alloys with "movable"
hydrogen a storing of SaMT~Je3 under mercury is therefore recom-
mended unless the h~-drogen analysis is dcne immediately after the
preparation of the samples. There are t figures -and 6 references,
5 of which are Soviet.
ASSOCIATION: Tsentrallnyy nauchno-issledovatel'skiy institut chernoy
metallurrii (Centrul Scientific Research Incititutp of Iron
Metallurgy)
Card 2/2
KLYACHKO, Tu.A.; IZ W OVA, T.A.
Method of determining hydrogen, as dependent an the chemical
composition and the structure of stool. Trudy kom.anal.khim.
10:175-182 16o. (MIRA 13:8)
1. ISentral'nyy nauchno-iseledovatellskiy institut chornoy
metallurgii, Moskva.
(Steel-Hydrogan content) (Hydrogen--Analysis)
IZMANOVA. T.A.; KLYACHKO, Te.A.; LARICHU, TT.
Contrcl of the operation of Instruments used in the analysis of
gases in metals. Trudy kom.anal.khim. 10:267-269 '60.
(MIRA 13:8)
1. Tgentrallnvy nauchur-iseledovatollskiy insti4ut chernoy
metallurgii, Moskva.
(Gases in metals) (Chemical apparatma)
I I 1h 1
AUTHORS:
TITTLE:
Gellfer, Ya. M., Izmancrva, T. A.
3"13V6?/OW/004/077/202
A052/A101
Determination of diffusion coeffIcients of hydrogm in steel at
various alloying additions at indoor temperature
PERIODICAL: Ref(trativnyy zhurnal, Metallurgiya, no. 4, 1961, 4, abstract 4131
("SI). tr. Tsentr. n.-i. in-t chernoy metallurgli," no. 19, 110 - 116)
TEXT: The diffusion coefficients D of hydrogen In the Investigated steels
were calculated by experimental data (RZhM, no. 11, 1957, 21133). The boundary-
value problem of the theory of diffusion has been solved, whPre D is found for
H diffusion from a sample having the form of a cylinder of 2Z height and H radius
at a given initial concentration and with a mass exchange an butts and side sur-
face satisfying the boundary conditions of 3rd kind. The solution of the problem
aCrot - D [a%/~r2 + + dr2CIcez2] is sought for in the form
C(r,z,t)/Co - (C1(r,t)/Cj(C"(7,t)/Co), where CI(r,t) and C"(z,t) are the concon-
trations in the same point of an unlimited cylinder ad uialmited plate by the
intersection of which a cylinder of finite dimensions is formed. In the obtained
Card 1/2
KLYACHKOP Yu.A.; IZKANOVA, T.A.; BUYANOV, N.V.; TULEPOVA, I.V.; SUKHOVA,
N.P.
Spectrochemical method of analyzing nonmetallic inclusions in
steal. Sbor. trud. TSNIICHM no.24s82-86 162. (KRA 15:6)
(Steel--Inclusions) (Nonmetallic materials-Spectra)
H'! 11;111A 111 .1 11 11 1;
L 14415-63 EWP(q)/EWT(M)/5D3 AFFTC/ASD JD,/,Hmt" 10
Acassicu NR: .4-PwO562
M All cmlltnNOM IN.-Hol --- ---- -
AVIHOR A01 IMMOV 0 Ift,
TITW: fts detominaticq in shg
SOURCE:
UVO(WAYS ldbrmtorLAQ Y. 29, no. 8, 19630
TOPIC TAGS: rol4Jbdenuu, shoot mlyWenm, gas d*terwjwjt,,j.C1M' (I
nitrogen, earbot~ mcaoxide, vMcj_tun-Mejtjng Methed, hydroomatim ilgfseno'
ABSTRACT: BecaiLse p
, rofteible resIdt's Oxe OUCOMMI'Mred, JW' gas datji3mjw;-
wrly rep
tiCa in sheet waAden= 2-3 = thiokj aA MMIYUcOl nOtI1014 bots bee* devillor,34t
for determining 0~*Zenf hYdroPn,, n1tr(nen, dnd carjLca rjajL4wj4j#j j.,M st!ah ffl(AA.
deLum by the ywu=-mel % LA
-ftle-IhOC- AbOut 3 I-Vor
2 ing P-Ditt to 105W., Tcl'"(Mve o:r,', 1141i9.
the molybden= 1,ample to 1cr. 2i - its melt
ture end eLdsorbI4 gases, the sample Is preheated at 20o---~13-cjwc Val! 15-20 111.n 14,
a speciml qvartz extensicn of tile vmcuum furnmee. qjthauj~ cccjtjtqjt ulthL t1141 all-
the cample is t2len i=CAUate1y annaymed mt 17OW by tho rixiu1=-4iw1t1rjS Mef%od..
The Preheating f6t 250C Pre-vents b3ArOcOxIOM formatica by tba "(11"Itim e. tiater
IraPor vith moWdenum cnrbide end thus improves the rim-pitaitucibillty vt rajsjLj.&,;s,,
Orig. art. has: 2 tables au(~'x figuxe.
Ctilral Scientific F lam no'3111-arg
Card 1/2/ AS53CIATION: ~nqeart.-h 1wit. of Fe.-ra
CT~
W'+1qt I I tit , II I
,ACCESSION NR: AP4005078 5/0032/63/0291012/1425/1427
'AUTHOR: Klyachko, Yu. A.; Izmanova, T. A.; Chistyakova, Ye. H.
. . . ..........
,TITLEt Determi.nation of the oxygent hydrogen, and nitrogen contents
in tungstent n%obium, and tantalum
iSOURCE: Zavoditkaya laboratoriya, v. 29, no. 12, 1963, 1425-1427
;TOPIC TAGS: tungsten, niobium, tantalum, oxygen determination,
ivacuum melting, tantalum carbides, tungsten carbides, nLobium
,carbides, nitrogen determination, hydrogen determination, vacuum
,fusion method
a
!ABSTRACT: Because the conventional vacuum-fusion method with iron
,fluxing bath for determining oxygen, hydrogen, and nitrogen in metals
~is not reliable in the case of tungsten, niobium, tantalum, and their
carbides, a nev procedure, applicable to these vittals, was developed.
~For tungsten, tantalum, and niobium, the iron fluxing bath is replaced
;by cobalt, nickel, and nickel, respectively. The use of cobalt and
,nickel as fluxing metals provides higher fluidity of the melts and
~quantitative evolution of the gases to be determined. The concentra-
ion of the analyzed metals in the melts should not exceed 30X. The
t
!Card 1/2
ACCESSION NRI AP4005078
fluxing bathe are degassed at 1900C. for 10-15 min, anti liberation of
the gases is C8Tried out at 1750-1800C. With the nicUel fluxing bath,
;oxygen is deter-nined with a relative error of 2% in niobium and 5%
in tantalum. The procedure is also applicable for the determination
.of the gases in tht carbides of these metals. 0r(&. ATt. has:
4 tables.
ASSOCIATION: Teentral'ny*y nauchno-issledovatel'mkiy institut chernoy
metallurgii (Central Scientific Research Institute of Ferrous Metallurgy)
SUBMITTED: 00
DATE ACQ: 19Dec63
ENCL: 00
SUB CODEi C11
NO REF SOV: 002
OTHER: 001
Card 2/2,
KUNIN, L.L.; J.ZMANOVA, T.A.; LAIRICIII~I~S, U.3),
A
Y
Apparatus for determining the amount of hydrogron separated during
the .::onservation of specimens. Sbor. trud. TSIIIICHJ4 no.31:110-113
163. (Metallurgical analysis-Eqiiipment and qupplios) (HIRA 16:7)
(Gases in wtals-Analysis)
KLYACHKO, Yu.A.; IZKANOVA? T.L; CHISTIAKOVA, Te.M.
--------- -". .1. . I.
Detpraination of gAses in
133-:134 163.
(Tungsten-Analysi5)
tungeten. Sbo~. trud. TSNIlrPY no.31t
(MIRA 160)
(Gases in metals-Am.Aysis)
TD40SHENKOP N.N.; IZMANOVA: T.A.; CHISTYAKOVA, Ye.M.
Autonatic determination of gases in steel by v,ans of the exhalograph
EA-1. Zav. lab. 31 no.9:1068-1069 165. (MMA M10)
1. TSentrallnyy nauchno-issledovatellskiy Inatitut chernoy metal-
lurg-Li imeni Bardinao
I I ~ - . ~; f I- -
- I .................. !'11.11 JITITIM,
VOINOV, S.G.; KWOV, L.F.; MGR(T/.h7i1S'K1y, A.I.; SAVWfZ,1f', D.F.; SH111 A.G.;
KALINNIKOV, Yo."o FlIA71INC41 KIRPYEV, B.J.,.; OKUkH111,
DATYDOVA, L.N.; IZMANOVA, T.A.
Refining a 100-ton open-hearth heat with a Jimild synthetic slap.
in the ladle. Stal' 24 no."0599-604 Jl 164.
(MIRA 18:1)
1- 4 - I..- I - &I
Cllrr7Tn PT-.l 0. KIM& A L ~.~V M~
M411; UBE P
Lit
lay
1'.ja r
l~ I 1 1:1,1111 ..4 fill, I I It 11 ~~ .i-
jiliIIIIIIIIIII WK jin fillmillIU, J, III H R.".
f
OAWA (d)/Fa? (v)/T-2/E'dP (t) IEW P (k )/EWP(b)/EW;~( I)
ACCESsIoli NE kH4046730 BOOK EXPLOITATION Pf-4 KYVI/JD/
WX
Samarin, A. Me, ode (Correoponding member, Academy of Sciences, V.S.S.R.)2".0o/
Steal production; handbook (Staloplavilluoye proizvodatvo; spravochaik),
t. 2., Moscow, Izd-vo "Metallurgiyall, 1964, 1039 p. illus., biblio.,
tables. Errata slip inserted. 5,850 copies printed.
TOPIC TAGS: otoolif opon-heart furnace, quality control, refractory
TABLE OF CONUNTS [abridged]:
Part 8. Thermal engineering
Ch. XV. Fuel and its combustion in an open-hearth furnace (N. I.
Iv,jnov) -- 535
Ch. XV;. Mochanics of furnace gases in open-hearth furnaces (G. Me
554
id
Ch. VITI. Hoot transfer in an open-hearth furnac 575
e
Ch. AV II. Thermal operation of An open-hearth furnace (Ye. A. Ha-juat1;;)
603
Ch. X1;1. Auxiliary thermal equipment in stool production (Be G. Tprqv6S T)
617
car;W
ACCESSION UP AM4046730
Part 9. Thermal processes
Ch. XX. Automatic control and regulation of thermal proc*ssen In stnel
production (A. P. Kopelovich, A. P. Sinchuk, and M. A. LIV 630
-hearth furnaces S. 14.
Ch. XXI. Evaporative cooling of opon _7
Md-2LM
720
Ch. XXII. Hot cooling of open-hoorth furnace* (A. I. Tyurin) -_ 745
Ch. XXIII. Boilore of open-hearth furnaces tA. 1. "erozhxrijk1.y) -- 754
Ch. XXIV. Cooling and cloaning converter -- 778
Ch. XXV. Supplying steelmaking shop& with compressed air (G.-A. lizoah1co)
793
Ch. XXVI. Supplying steelmaking chops with oil (G. A. Timoshko) -- 807
Part 10. Methods of quality control and testing
Ch. XXVII. Chemical analysis (P. Ya. Takovlov) 818
Ch. XXVIII. Spectral an:lyaia (R. R. gorok 840
Ch. XXIX. Melting and d livereC quality con I of steel (M. 1. Vinofrrad)
851
Ch. XXX. Mechanical testing of metals (P. 0. Timoshuk) -- a68
Ch. XXXI. Aaalysia of gases in metals and alloys KunLn, T. Ta.
11"Wal and Ye. V.. ChJ.atyakova) -- 887
Cho XXXIX. Determining nonmetallic inclusions and carbides (M. M. $ha iro)
Ca,d 213 Mr
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IZIMAY, F.
"The new method of examination for waterproof textiles" p. :1.38) "The 'for better
quality' movement" p. 142, (MAGYAR TEXTILTECIDIIKA, No. 5, IILY 1953, Budapest, Hun,.-,mry,)
SO: Monthly List of Fast European Accessions, L.C., Vol. 2, 'Ho. 11, Nov. 1953, Uncl.
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a w;kter itdimm Ikillli:T tit ait 20 mill nevvir vc 1%1-.% tillics;
lie Urp,mlhi 11011,17 ~t!l ttwi 2IN) min It-) A Ivv
111rol'i of Nvatcr npj,~ariitg lilt Lilt- 'Ity little C11:1 lk"ll. lilt.
ler .. tile the dfvrtivvjw~,; 01 IlIIJltq:IIA(Il)11. Nhiti.. rect-11011
tests liave tweti. carrivil olit by clanilditg a 23,YU) iill
spevinwit rulleil into -i tulx- like Ihitim! (,it it creit-12111
app.-irsita.i. tivisting it at firqt fi, IitIeFvim! aml Mell
Ili the other through I w 360 (hjr%vv%, ThL-4 it rill
Pe;I tell It'll tiltiv-4. ',III tit(- .11wrillitil 1% 111101'ell
tllrm[L~h 00 Icgrc(:.q nisil-tilk. 1010h! IIII(XIt"Inte relicab.-d;
'file W.1ter pr(smirc cilitalacd hy it Marlotlx'it IIIAl
rent "i Its cmi!itaut III spite of d(:rtv,1p(t1r "Ittrr Joel'
The lilatiotte'.s flasic IN 11(tvil liy
tit
1111inr tit
it
it
of too mill 1:er mlit.. itopping wlivu I, evc-I Ili 200 till
hr's L-celI r mcllcd. 1.11"ittvir volmlics I-virlilvAllig 1.1ill
tarpautin 111 10, 20, :10, rh~, 111fillites -lit! T(vri-di'll, 1110
20 111111t1teS 11A~Mte.Lbillty 1-1 llij!lt. it
title to tile swellillp, of tile Ylitiv;
.. ..........
7 -1
Ing carrit s.
9,
1FA.
H CLCCY
lid ~:!st, 11unral
So: 'A.9t 1.u,-(.,Pcz,.n Accessicn, Vol. L:O. 19,16
4-7.
77-
llb~,MISY, TiL,).-; IZKAY, Foranc
Quontions relating to the theory and It'laoting of the o-:)rv-',coa*-.- Ifty
of 41.,oxtiles. Masy textil 14 no.9:1a5-420' 0"
1. Tex-tilipari Kutato Int-ozet.
HAMASY, Tibc-r; ~Pmyl Ferene
Testing durability properties of fabrics. Hagy textil -15 no,7.*
301-306 J1 163.
1. Textilipari Kutato IptqWt*
MIM, Ferenc; Andras
TestLng nonwoven Ma.i;,
Ap 164. - y lextil 16 nr,. -': 17:1-273
1. Research Institute of the Textile indizotry, bi.idapeat.
HAJMASY, Tibor; 1714AY, Ferenc
Correlations betwean physical characteristics r.r igynthotic
fibers and properties of the more important fabrics made of
those synthetic fibers. Magy textil 17 no.~:9P-105 Mr 065.
1. Research Institute of Textile Industry, Didapast.
'rz.7"AYWV, A. It. Col. and MIJ31YENKO, A. Lt. Col,
Ij of TeC!14 Serlr-
"Sovetskaya Aviatsiya v 1938-1940 Gody" (Soviet ATIation In 1938-1940), V03t.
Tozd. Flotap No.3., pp 65-75, 1953
Summary of article D 399975
7 - . I 1 11 1 . ! ; 1: " I ~"
. - ! ,, 1111 111 11 - I I
A., podpol~.-,vnlli<
Heroic deeds, life, Find comIxit tra`riing f. 0 9
. Av. I i.'7 - 1
0 164. (.MIRA 17.10)
IZMAYWV, A.; BELOTSERKOVSKIY, L.
Work experience of the commission an labor protection. Metallurg
8 nci.10:34-35 0 163. (MIRA 16s12)
1. Chlen komigaii okhrany truda kzerbaydzhanakago traboprokatnago
zavoda (for Izmaylov). 2. Starshiy inzh. otdolu teVImiki
bezopasnosti Azerbaydzhanskogo truboprokatnogo zavoda (for
Belotserkovskiy).
MAROV, Fedor Ivanoviah, j-renaral-leytennnt avintaii v %,qpnso;
, A. -, . r,,, d .
IZ14AYlk)"I n A. , red. ; CILPAUVA, R. 1. , tektv
[Explcits of Red Aimenj rodvigi Krannykh latch1kw. Mo-
skvtL, Vooniz(Int, 1963. 118 p. 011AA Lb:6)
(Russia-Air force)
IZMAYLOV, A. A., Candidate of Med Sci (dins) -- "PL~glcnl couiplicatlow of bru-
cellosis". Baku, 1959. 35 PP (Azerb State Njed Inst lm 11. Warlmanov), 220 copies
(KL, Wo 21, 1959, 119)
KWITONOV, Aleksandr Dmitriyevich; IZKAYLOV, A.A., Fodpolkovnlk
red.
(The legendary ice route] Ugendamaia ledovala trassa.
Moskva, Voenizdats 1965. 79 P. (MIRA M12)
-- --------
.. . . . ... . . . .- I- .. . //
[Ele't-edepo.,ji tion Or Met
Eloktrc)osa,FA - 1S
Gnie met
!jjLkoja!']l-'v v
9
-in ultl..q
V!)!r
P. 01~n.p"
AUTHOR M01,OTKCV0K1X G.i0l-,,IZUAXL0V A-i. 20-5-6'4?/67'
T IT Lh Chlorophyll and Aacorbie-16id*-Gontant and Gataiiiss ilativity ill .~,,a
Leaves of Certain Weeping Forms or Arboreous Plants in Connectlan Viltn
the Polarity Phenomenon.
(Soderzh2niya khlorof ill&, as korbinovoy ki:9 iotr I aktivilor, C kataliazy -v
li3t'yaicn nekotorykn plakuchikh form drevesnylti, rastmiy
v avyazi a yavleniyempolyarneed -Russian)
PERIODICAL Doklaay Akademil Nauk 5:3dR,1257,vol 113,,'Ir 5,w
Received 7/1957 Reylivad 6/1957
A-%TRACT When studying the iaitlence exercised by gravity on ths, polarization or
plants tne authors cultivated them in an upsid-e-down pcsition.lney were
able to observe interesting changes of morplioiallIcal polarity.1heir aim
was to explain the typo of mtt&bcLL!sm, in tne br4in,,.heir. oC the hang-ing forms,
i.e. of woody plants with a naturally disturbea polarlty of the aarial
parts.For this purpose the concentrations of tne VubS1411ees mentioned a-
bove were determined at three different levels,i.t. at Aae b"z,in ta mic-
We and at. the top of branchosl ini3 wa3 dons in roth trie nanging Snd the
normal forms of the following plant species.' ja-
ponica, Forsytnia and Caragana. When analy2ing tlih ch1r.,rophylT-c4M78"ntFa-
tions found (ta0l.1) i'f Can Do soon that tn*y ri4im tamarua the top of the
branches. The ch1crophyll content is lower In young lo-uv,pa. In the hanging
varieties of plants the chlorophyll contenta is loiter than In nomal ones.
Furthermore a considerable difference was obsealveil bebulmil. differanL plant
Uard 1/2 species. N~ito similar conditions were in tne caot of tile ascorbit. acia
AUTHOR:
W81
S/144/61/000/001/001/004
E032/E314
lzmaylov, AIF., Senior Scientist
-------------------------
TITLE: Calculation of the Magnetic Field due 'to Plane Circuits
PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy. Elektromekhanilca,
1961, No.1, pp.8-20
TEXT: Expressions are derived for the scalar magnetostatic
potential of a circuit consisting of sections of straight lines.
,The derivation is limited to plane linear circuitm in vacuum.
'Following S. 1. Kurenev (Refs-3 and 4) the current I is replaced
!by a magnetic shell of density I/4TY= const. nrld the scalar magneto-
~static potential (p is determined from the well-known formula:
- I ~ (I ~1 ~ d S
an
.The reciprocal of the distance r~ between the source and the point
I
of observation, the first of which Q(ro.P01 CE0) lies on the shell.
S and the second A (r, 0 a) lies outside the shell. depends on
these six coordinates and is given by
c a r_d.~~V6-
,~-7t7,51
S/144/61/000/001/001/004
E032/E514
Calculation of the Magnetic Field due to Plane Circuits
r N-YO)"
r P.(cos7). r.r;
ro,"
n-0
0. 1, 2. 3. . . .
cosy =COSO Cos eo+sln 0 sin 60 cos(ct-*O), (3) (3)
P.(COST)= (n-ni) 12 Pm(cos OO)P,,,"(cos 0) costn(a-aio). (4)
M-U
(4)
In these expressions ' Pn is the Legendre polynomial, pn m is the
associated Legendre function and 6 = 2 when m = 0 and 6 1 when
m 4 0. Fig.1 shows the meaning of mthe other symbols -empT0yed.
Card-2.16-
s/144/6l/OOo/ool/ooi/oo4
E032/E514
Calculation of the Magnetic Field due to Plane Circuits
where ah
/,M=cos"+Ia*j -S-()sm2n
-31, CW7~0 IIAI sln"*I:t,
COS"a,, Cosma'da
-11
SI1I4a,COSI/I2'daV.
4k
The series given by Eq.(8) is uniformly convergent outside r- sphere
of radius d and centre at the origin. The series given by Eq-(q)
converges inside a concentric sphere whose radius is equal to half
of the smaller side of the rectangle (Fig.1). The analytical
formulae obtained are,applied to two special cases. The first of
these consists in the determination of the parameters of a device
consisting of two rectangular circuits which should have the
i-T-LAYLOTI, A. I.
!zmaylov, A. I.
~ A., . ': .. tomography and torr,-)fluorography)
"Stratum -itions
.roent-enological Avestig,
in the clicic for lung diseases." Chair of Roentgenologyp 1,azan 'State
k4f-Olfor the Advanced Training of Physicians. Kazan', 19!i6. (Idssert~ation
for the Degree of Candidate in jgaiffffFal Science.)
Mcb-.I~
Knizhnaya let22LSI
No. 15, 1956. Moscow.
SIGAL, 1.Z.; IZMATLOY, A.I-.
Tomographic and anatomical parallels in pulmour), t-Ed)erculosis.
Iraz.med.zhur. 40 no.5:22-25 S-0 159. (KIR& 13:7)
1. Kure tuberkaleza (zav. - Prof. B.L. Kazur) Razansicogo madi-
tainakogo instituta na, baze protivotuberkuleznogo dioppusera
Tatarskoy ASSR, i kafedra rentgenologii i radialogii No.1 (sav. -
prof. M.D. ftyzulliu) Kazaaskogo Gosudarstvantiogo inabituta
dl7a uBovershenstvoyaulya vrachey it. V.I. Lenim.
(LUNGS--UDIOGRAM) (TuRffRCULOSIS)
mi
b 1 r s
Co., I troa yt
lbscow %-:r:-,,-,r of L,-:Ilin
80 Vecheryaya Moskva
Sum 71
11111fli JUkII:
1-1 #97MAlarttlelt,- - Povex, Electric Aug 51
41 Moscow Regional Fewair sywtem
C"
*Pledge to Stalin Fres Personnel of the Bleeqtria
Power Stations and Distribution Systqaw of the
Moscaw Regional Power System of the Ministry of
Electric Power Stations"
"LlIekt-richest-y-o" No 8, Pz- -1-5
Lie-tas aceomplisl_=nmts of Mosenergo in 1950, e.g.,
pawwr output of of that. set by tbee Five-
Year Plan, saving of -j6 million kw-br of by
reducing losses in distribution syste=s, reduetton
of the cost of energy produced by steam and elec '
196T22
U&SR/Electricity - Power, Mectric Aug 51
tContd)
power stations by 19.5 million rubleg. -Lists
7 pledges for 1951, accompanied by the usual
hosa=fts.
19&22
1-7
Fol-ar" -aticn
1-clarization durinj: dercoMon of' cq~per rrcm
solutions of e.-ialates ard amincethanols. *i~Eur. JAz. khIm.
2( no. 2. 1952
9. Monthly List 2F Russian Accessions, Library of Congress, S c, r, t eU e r19'j52 Uv~cj.
_.__ -.- , t
GME Eli ,3 1 Y 1 ( V
J-CjLri.-~atk;~ (Illectrilclty)
Cathodic polarization during deposition of copTier frcm
pyrophosphate solutionf. Zhur. fiz. khim. 26 no. 7. 1952
9. Monthl List of Russian Accessions, Library of Congress, Uncl.
;"III till; 11 It 11 1,
The Cawlttee on Stalin Prizes (of the Council of b1iniarters MOR) let the fields of
sciewe and inventions amw=es that the followlng selvatifin: worlcvl popular aelan.-
tific books, and textbooks have been submitted for coopetitilont for i9ttilin Priz-as for
the years 1952 and 1953- (Sovetskaya Kultura, WOUCOW, 14o. 222-140, 1D Nib 3 Avr 19541)
Nwe Title of Work 111aminnitAid by
SO: W-306C4, 7 Ja-Y 1954
... ........ Min H, im-111-
IARklkstry 11hy-5ical clipyidstry
Card 1/1 Pub. 147 - 23/26
Authors Izmaylov, A. V.
Title Discussion on methods of investif-,atitir the dksparwtbill.%~J, of
Periodical : Zhur. fiz. khim. 28/1) 179-185, Jan .195,41
Abstract I The advantages and disadvantages of numerous meth6dis Jaitroduted for tho
study o:' electrolyte dispersibility during rathodk~: deliix,lition of ~ietTjLs
are lisiM. A majority of examples mentionend in )~Us veport vera J~ounll to
be of an empirical nature. The quantitatiwi chii.ri-leterinit-ic of elei:trolyte
dispersibility was found to be closely connocted with -Vhqj vimr1dn,.1 wtlwd
and depends upon the conditions of the experimeat. Tit 'o I''orra)-las pretieiatad
place electroly-te dispersibility in close depeb,'Wwce Utimia the -c*11a:ri=1;ion
of the electrode., electrical conductivity o,C the solutlati. and irzaly Other
factors. Twenty-eight references : 7-USA ; 2-Gevii,.an; X-~Enrllsh; 18-USSR
(1876-1953).
Institution t The D. I. Yiendeleyev Ghcmical-T(schnoloLdcal lnstituta,, VIDSCOW
Submitted April 9, 1953
0
1 4 ~-l q I - -- V/~4
USSR/Ivhemistr7 - Chemical technology
Card 1/1 Pub. 147 - 6/27
Authors I I=aylo7v;, A.V., and Gorbachev, Me
Title -Dispersilaility- of complex Cu-alectrolytos colitaiiiji6r, vOiemolamirw
Periodical Zhur. fiz. khim. 28/2, 229-235, Feb 1954
Abstract The effect of concentration and other factors on. Pie diPirlEirsibility and,
distribution of Cu on a Cu-cathode, in complex e0anolopLite cont-al.4ing"
electrolytes, wa3 investigated. The introduction into lbe electbDlyte
of a complex forming agent - monoettutnolamine arid ti-iLett3onolamine 4. vaii
seen to increase the dispersibility ivid better dijl,tribI4IL-jon of tho Meta.l.
Increased temperature decreases the dispersibilit;j, of -0111; Glectro':Ljte! imd
impairs the distribution of the metal. rhe effect of the electro(W
potential on the dispersibility arid distribution i!if thi:i metal is discu3ised
and a direct dependence and parallelism betueen Vli,~,! dl.-Eipersibilitl,f of' the
electrolyte arA the magnitude of the activation establitihed., Six
references' 5-USSR and l-USA (1923-11952). Diagrarmt-1 grApbs-
Institution : The D.I. Mendeleyev Chemical-Technological Instit%itc, Hollcow
Submitted : April 9, 1953
[ELI IT 41-1
-Z. M Y
USER/Chen.istry - Chemical technology
Card 1/1 Pub. 147 - 7/27
Authors : Gorbachev, S.V., and Izmaylov, A.Va
Title : Diapersibility of complex Cu electrolytes coutairding, S~-I!Iium pyropho'sphate
Periodical t Zhur. f1a, khim. 28/2p 236-239, Feb 1954
Abstract I The dispersibility and distribution of a metal on Alle litirface of 0.0 vinj;ular
cathodeo during the deposition of Cu in the rxeser'ios p7rophospbalte 6olu-
tions, was investigated. It was established that temp!!l1rature chan4es in
the case of electrolytes having py-rophosphatm add.'Itionm~ do' not afJ*Oct the
dispersibility and metal distribution on an anguLij.r cathacde. The.;~agnltuda
of the electrode potential had a definite oppositili effesc:t an the Ms-
persibility and metal distribution. Tho effect o:(' tile (:i;incentiut.1A.n, of the
introduced complex forming agent (Na4p,.,O,), is (1XIAnim-ich. AzL ent!Lrii4
different mechanism of the cathodic proc ss wan 61m.ervdd durin thc Cu4on
discharge from the pyrophosphate electrolytes. Three IRVIR refereiat.-as (1949-
1954)o Graphs.
Institution The D.I.. Mendeleyev Chemical-Technological Institlate, 11 iblocolf
Submitted i April 9, 1953
-2 Aq 4 Y 1, 0f4
IJSI,R/Chemistrf - Physical chemistry
Plard 1/1 Pub. 147 - 1/27
q
Plathors lzmaylov, A. V., and Gorbachev, 3. V.
Title heory, cof dispersibility of complex cupric electrolytell
Periodical Zhur, fiz. khim. 28/9, 1529-1538, Sep 1954
Abstract ExTeriments with comnlex cupric electrolytes shm4ied thhtl the natur~a o:V its
disrersibility-is determined 1-y the rachanitsm of he ~jithodic pr ass'and
V
type of polarization. The o-thcdj.d_prdco*s,_____
1 -01 odl~,'O n~.q, are
during cathode separation of netals from solutioas of. 1.1tain ex cu
explained. A definite relation between dism~ rslbilittr' and tampei-ituro, cath-
cde potential and concentration of the comIdex formiiiji agent -was st6lished.
A theoMtical approach toward selection of conditions-!nrist favorittile for the
obtainnent.of best dispersibility for electrolybijs is preuented. Sixi4en
references: 13-USSR; 2-USA and 1-Gernian (1910-19!4). Oraj4is.
Institution The D. 1. Mendeleyev Chemical-To chnalogi cal. lniiito~hf-.uta, Moscim
Submitted April 1), 1953
17- M M
In-nalloy (Mmdeltev It=. Cbnm. TmhoA., blow-w 1.
9y. is, Kkil. Z9, musy of riml.
V":im Iw 1,=Ic "xiJ. AL-lics Is 7W-11-1= ml.,
wbexta3 tha fri v;-,m-ky ' Nulm, 11 1 Imi ')H
lr,()vc tG all t1ten't accill-liog to ;hl! ("'ruithlisrt
IZMAYLOT, ).v.
~--
Iffect of teii~erature on the rate of electrochemical procenons.
Zhur. fis. khtm. 30 no.12:2813-2819 D156. (MLRI 10-.4)
1. XhIziko-tekhnologichaskly Institut Im. D.I. Kandeloyeva. KoiskTu,
(Blectrolysin)
IZM&TIOV, A.V.
~
Dispersibility mechanim of electrolytio baths. Trua-y MMI no.241
348-370 '57. (um li:6)
(Electroplating)
IZ,--A-,IOV, -'..V-, Doc
14
SOV/ 137-:8-9-19574
Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 9, p 206 (USSR)
AUTHOR: lzmaylov, AN.
Cathodic Polarization in the Deposition of' Silver From Cyanide
TITLE:
and Iodide Solutions (Katodnaya polyarizatsiya pri osazhdcnii
serebra iz tsianistykh i yodidnykh rastvorov)
PERIODICAL: Nauchn. dokl. vyssh. shkoly. Khimiya i khirn. tekhnol.,
1958, Nr 1, pp 23-27
ABSTRACT: To determine the typo o~ cathodic polarization and to study
the mechanism of the cathodic process in cyanide and iodide
silver-plating electrolytes the method cif the effect of tempera-
ture on the rate of electrolysis together ~with the investigation
of the variation of viscosity and electrical conductivity with
temperature was employed. The conclusion on the complex
mechanism of the electrode process is drawn on tho basis of
the analysis of the relationship of activation energy with the
polarization potential (the activation energy was calculated
frorn the slope of the linear relationships log I to I/T. Depend-
ing on the conditions of the electrolysis both concentratiorial
Card 1/2 and chemical polarization is possible, 1'he investigation-4. of
SOVi'137-58-9- I 1~574
Cathodic Polarization in the Deposition of Silver (cont.)
the concentrational polarization by the temperature method coincide with
those based on the investigations of the variations of the viscosity of the
electrolyt,! with temperature.
N. 0.
1. Silver-ElectrodepOsition 2. Ga7.hcdes--PoIarizatLc:i
4. lodides-Applications 5. Electroly,eo--Perfor-i4at,,--.-e
Card 2/2
SOV/ 137-58-9-19566
Trr_nslation from: Referativnyy zhurnal, Metallurgiya, 191* 8, Nr 11. 1) ?.05 WSS10
AUTHOR: lzmaylov, AN.
TITLE: Cathodic Polarization During the Deposition of Copper From
Cyanide and Sulfocyanate Solutions (Katodnaya. polvarizatsiYa
pri osazhdenii medi iz tsianistykh i rodaniiityk-h rastvorov)
PERIODICAL: Nauchn. dokl. vyssh. shkoly. Khirniya i kl-,,im. tekhnol.,
1958, Nir 1, pp Z8-31
ABSTRACT: The type of cathode polarization in cyanide and sulfocyanate
copper-plating electrolytes was studied by the method of the
effect of temperature on the rate of electroLysis and the method
of rapid plotting of polarization curves, together with investi-
gation of the variation in viscosity and eleciricai conductivity
in relation to temperature. With a constant. potential differ-
ence, the relationship log I to I/T is expretised by straight
lines the slope of which depends on the nature of the complex
ion and on the polarization potential of the clectrode. The
slope of the straight lines yields the values of the activa'ion
energy of the electrode process Aae and establisht.-s tht.- effect
Card I/Z of the polarization potential on the value of Aae-
SO V* 113 F-58-9-1956o
Cathodic Polarization During the Deposition of Copper 0.ow,)
The assumption is exposed that the segments of the Aite - AE curves where
~ strong relationship between Aae and the polarization is observed indicate
~ chemical polarization in the given segment; the segments of the curves in
which Aae does not vary with the polarization potential and which are located
within the 3500-4000 cal range indicate a concentrational polarization. The
computation of the activation energy of the viscous flow and of the electrical
conductivity produced values close to Aae, verifying the reliability of the
data. In the solutions investigated, chemical- polarization is the fundamental
one, but, depending on the conditions of the electrolysis, various mechan-
isms of the process of electrolysis with a gradual transition from one to the
other are possible.
N. 0.
1. Copper--Electrodeposi'llion 2. Cathodes--Polarization 3. 1 -1' 1 e c tu ro.4 t e S - - P.- oz' e re S
4. Cyanides--Performance 5. Sulphocyanate--Performance 6. la t h e m a t i cs>
' I '~' 'F I I .
A K4F,-_&t
Card 2/2
.5(4) ,
AUTHOR: Izmaylov, A. V. SO V/ 15 3. 58- 2- 2r,"'
TITLE: Action of Sulfuric Acid on the Process of' Elec-.rolyti,-
Copper Separation (Vliyaniye nerrioy kititoty na prot-seso
elektroosazhdeiiiya medi)
PERIODICAL; Izvestiya vysshikh uchebnykh zavedeniy. Vhimiya ikh--4,T.--cheska-.:a
toklinologiya, 1958, Nr 2, )1) 118-126 ( 1'2,61ii ~
ABSTRACT: The investigation of the mechanism of the cathodic p-rccess
under review in the uresence of sul~uri-:,. ac-"l is cf
theoretical and practical importance, it,. particu-1-ai- -for
f.-lectrolytic r(-f`in.1n,.,, an(i tho.
explains tfie thus al-i(Jirl~r :-~lArdrr!
ion dehydration. The oplnioro, howover, ur- Contrad-ic !Dry
the Frocess itsel.1 ao WILAII as 1,0
wliich were not quite sn4tabie. It is f~,z-t,-Zar
r,211cidato the irfl"Ience
o ther fUc tors up oil the Cie c1lani om of t I-. e
~Q Cl' Folar;Za-4 f-%
ty-
Card 1/ upon the _cr.. In o. To
IMA t-rMl r~"A- Kral- 11103 1.1 i M.
: I ~. . I . 1.1 -, . .........
Action of Sulfuric Acid on the Fracess of
Electrolytic Copper Separation
type and the mechanism, the author investigated t--- vartation
of viscosity and electric conductivity with -he varyinz
temperature. This was carried out by the method of +
the
temperature action exercised upon the e-ectrolysis rat"~~ "F-jf 6)
and by the method of the rapid plotting of polariza-ion
(Ref 7). The test methods and the apparatus ivere described by
the author in an earlier paper (Ref 6). a) The action of
temperature exercised upon the cathodic polarization ir, th~!
4-solutions ivfth additions of
copper separation from CUSO
Enso is shown in figure 1. The sharp d(?cr-:?iLse c-f
1 4
with increasing tempera*,ure is here the incs, characteri-cl-4,; one.
Yet, the number of active molecules wit,iin ~hte electrc-yte and
tho diffiioion rah) of oomplox Meta'l
The polarization curves for 0,1 arid OjC1 11-Cu
(Pig 2) and the temperature coefficient are discusse-~' rr-he
latter varies with the concentration of copper sulfated, the
current density and temperature. Figure 4 07,-jv-10 tht~
Ae-quantities calculated from the angle of inolinaticn, :. e.
y o- -.i! eieotro-Jic pre~-ss,
the effective activation energ ' t!
b) It was found that the Ae-quantities were the highet3t, w4-~h
Card 2/4 low polarization potentials in all eleotrolytes inves-tig;:,itedl..
L-A
Action of Sulfuric Acid on the Process of "Ilo
Electrolytic Copper Separation
If for each electrolyte a certain quantity of the polarization
potential is reached, the A,-quantities fall down to
8000 Cal/mol. A further increase of polarization does scarcely
influence the Ae-quantity. Table I presents 'the quantities of
the coefficient ac which shows the effect exercised by the near
electrode field upon the decomposition of the complex ions.
It can be 3een from figure 5 that the cathodic polarization
scarcely depends on its rate of m(sasurement. This indicates
that the cathodic polarization for the corresponding elect:-01.;te
has, more or less, the character of chemical polariza-tion.
c) The action of the H2SO4 concentration exer-.ised upon the
velocity of the electrodic process permits the investigation
of the nature of the inhibitory process of the electrochemical
reaction and the determination of the mode of action of these
or those additions exercised upon the electndic process.
Figure 6 shows the influence exercised by the I-'2SO4
concentration upon the cathodic polarization in
1, 0,1 and 0.01 M-solutions of CuSO,i,. It was found that 1i2SO,1
usually inhibits the cathodic proceas to a considerable extert,
Card 3/4
/1(
Acti.on of Sulfuric Acid on the Process of S~V/l 5~j- 2- 20/ 'Ili
Electrolytic Copper Separation
which is accompaniod by increased polarization. Thus, the
mechanism of thQ electrodic proceBs was clarified. According
to the conditions of electrolysis difforent mechanismz and
transitions between them are possible. The mechanism of t'he
cathodic process depends both on the concentration of the
basic electrolyte and on t"t Of 112SOll
Professor S. V. Gorbachev gave helpfu advica. There are
7 figures, 2 tables, and 14 referencoij, 9 of which arO SWriet-
ASSOCIATION3 Moskovskiy khimiko-tekhnologicheskiy institut imeni D. I.
Mendeleyeva (Moscow Institute of Chemical Technology imeni
D. I. Mendeleyev) Kafedra fizicheskoy khimii (Chair of
Physical Chemistry)
SUBMITTED: September 23, 1957
Card 4/4
T l,-'*. t 6,-l o.,-. o" 1. hf., I nt, luellr, 1! Exert e(j 'U;j, Z ~ I,:':- I V
VOIM,t~ pon ', rA i no: t , c~, of Copp er Eicc LI v
t mlovnniye v.1
wl, '--iw,t3ku
f-, ct-c-~;:: i a ly "-In ris t v n rov
C, 1 1 z V ~- 0 t i Y'k Vy ~,: 11 j Y f! " i I eny e r. z ri v e d en 1,;
1, 1 K.~ 110 1 -I ' L. .! Q -) dNr . 1,T, I .."I - 13 4R
A. B'i T P A CT S o m 4,! f, o i I o i (is a au j ~,t r fri c -- - a c t i v - c (,) mp i:, u. L , d a 1n i b.L
q.myill a;,,ia:.Int3, the ionic tiiscii.~rgp. ana increase ".ons-Laevh1oly
the cathodic pciarrization. Aecorain,~ i,o a.-.d
tion galvanic prf-cipitatf~ o" cafe 0-
(Refs 1-61. In !-,pitsl~ of ample practic:il
ature of th.--. wentioned inhibition
n
. , ". :. ; 1 .1. ,) r
polarization uro not yet clarifiod in wi,,-,:j 7' -
prosents a sarvey C11 tnt. Put) I ".,!atiorls (i-f'll J.n t hl-, r1*1~-
~:ent paper tile authot, tried to ILar-~fy 1-111f) Irl-
of i; 11 .Xfurt~
C)f of ana
d I
C ,an*
of tile lat"t-1. black
moino.;c"z. trv~ ti
ar
, .
,
"OV/
Investigation of the Influence Exertt,,a by 5urface-Active Gamuouras
Kinetics of' Copp(-.r Electrolytically Separated From Sulfati:
molasses, rcspectively, (Flig 1, Curve 7) the curv.?-, arc,
diff erent; th'-- variation of' ,t in dependencq :,n the
is quite a dift'erent one thAn -,na,
tion potential
with the chemical, concentration- or ph:,riv,;~ polirization lfg-:
In these cases, t, is considerably higher thar for tilt,
electrolyte without additions. The diffusion is f;Lill form;i~g
the inhibitory process. A further increasti of the
potential reduces the A-quantities do-tin to those being char-
acteristic of the basic electrolyte t%-ith tne corres.pvnd4n?~,
polarization potential. This means tnat the mo.9t retarded
stage of the electrode process apparently passea all the ~;ur-
face of the electrode. The occurrence of a new particuiar bind
of polarization may be explained apparently by the inhivit;cn
produced by a dense adsorption laypr at tho? electrode sur"are
consisting of molecules of the added surface-acti7,~ compoand.
The author intend3 to call this type of jjolarizar.-,on "adsorp-
tion polarization". The increaae of activation en.:!r,?,,y -iayIb -
explained by an increasing viscosity due to the fjrmation cf a
Card 3/5 viscous film. The influence exercised by the conc,?ntration *t'
AUTHOR: Iz:naylov, A. V. SO-VA,56 -58-2-10/40
TITLE: Several Problems of Kinetics in the Cathodic Processes of
Electrolytic Deposition of Metals(ifekotoryye voprosy kine~iki
katodnykh protsessov pri elektroosazhdenii metallov)
PERIODICAL: Nauchnyye doklady vysshey s' ..xoly, Xhimiya i khimicheskaya
tekhnologiya, 1958, Nr 2, pp. 24o - 244 (USSR)
ABSTRACT: As"''is known, metal ions pass through several stages in
electrolysis before they become a part of tho crystal lattice
of the deposition. Thus the velocity of the process is limited
by the slowest stage. In spite of numorous investigations the
mechanism of the discharge of cations in solutions of simple
salts is still not clear (Ref 1). This mecha:nism is even less
clear for solutions of complex iqns. This complicates the contro4
of galvanic processes and the choice of optimum conditions for
electrolysis. It was early discovered that with the clarification
of the type of cathodic polarization and with the study of the
mechanism of the electrolytic process the dependence of the
current upon the temperature can be #valuated. In regaTd to the
Card 1/4 problem of this paper the author was interested in studying the
Several Problem;3 of Kinetics in the Cathodic SOV/156- 56-2-10/48
Processes of Electrolytic Deposition of Uetals
the indicated solutions at differeat temlieratures and the
calculated enerlics of activatioa. These data indicate that
for solutions 2,3,6,7, and 9 the increase in temperature apriarently
influences the product q-K . This indicati.-is t!ijat tile ion
structure is markedly chanCed with churv;,e in temperature, This
factor must have some influence upon thit quality of the
depositions involved, Therefore one should prevent increases of
temperature in galvanic cells whose ele,,.trolyte structure is thus
impaired by change of temperature, On the other hand, however,
this is allowed for the folloirinG electrolytes: cyano,;en-
containing copper-plating, silver-platin6, c;~,.(Imium-plating)
and tin-plating electrolytes. An increase in t-wmpfrature is
even desirable here, since a greater current dei,sity is
produced and the productivity increasea (R,~_-'s 12 - 14),
Professor S~VGorbachev Cave valuable Bu,, _-;tions and took
part in the discussion over the work. There are 3 fie;ures,
1 table, and 15 references, 13 of Y'll-ich are Soviet.
Card 2/4
Several Problems of Kinetics in the Cathodic "OVA56 - 58 - 2 -1 o/48
Processes of Electrolytic Deposition of Metals
ASSOCIATION: Kafedra fizicheskoy i neorganicheskoy khimii Chimkentskogo tekh-
nologicheakogo instituta stroitelInykh metorinlov (Chair of
Physical and Inorganic Chemistry of the Chlmkent Technolodical
Institute for Building Materials)
SUBMITTED: September 16, 1957
Card 4/4
Concerning the Relationship Between the Effective 1~nergy SOV, 1156-58-2-11/48
of Activation of Electrolytic Processes, the Stability of Complex Ions, and
the Valence of Ions Dissociating From the Complex
energy for the dissociation of the compleic ions. The degree
of dissociation can be calculated according to Pn equation.
The author was interented in investigating the relationship
between the effective energy of activation of the electrolytic
process, the instability constant of each complex ion, and
other factorn. As is evident from figure 19 the en.-!rgy of
activation is greatest when the polarization potential is
lowest. The increase in polarization considerably decreases
the energy of activation. Figure 2 shows that for both
univalent and divalent ions the quantity K n decreases when
the quantity A 0 decreases (A is tho energy, of activation
at a E-0). From the polarizaLion curves given in figure 3
it follows that for the electrolytes II,, and III., and I.
and IV., which contain complex iona Df like valence but
different Irrfability constants, the polarization curves
differ (RUOU103,Yte -. - Zn, NaCN, NaOll; II CUSO 4' tri-
Card 2/4 ethanolamine; 111. CuSO 4 Na2C2 o4; lv~ CUCIN: Nac'"" Ila2 CO3
Concerning the Relationship Betwoen the Effective Enerf~y SOV/156 58-2-11/48
of Activation of Electrolytic Processes, the Stability of Complex Ions, &nd
the Valence of Ions Dissociating From the Complex
Card 4/4
C~ 5 -2 - 18/ 3 2
,5(2~ el) -4
AUTHORt Izmaylov, A. V.
T IT L-'-' Kinctics of the Electi-cuevaration of "Lnc nnd Cad:-.iam Frc.-.
Solutions of Simple and Complex Salts
P1.11IODICAL; Izvestiya vyoshlkh uchE2bny'e-.h zav,~doniy. i lkhii.,tehenkaya
tekhnologiya, 1959, Vol 2, Nr ,, ;)P 562 - J56'I (USSR)
ABSTAACT The problem mentioned in tile tit-le (alsf) with various additions
to the electrolyteN 4s of -....ractical as well as theoretical
interest. Despite 3eve,.al investi:;at-~or*.!j in ',*,-~is field, most
of the resDective oroblems as well as -hc-se ~f cat"lo"'.1c pola-
rization are unsolved or quPationable "Refs The paper
under discassion aims a' obtain'nC data conx~--rning
tile nature of cathollic olari.-.~at *o..,. 'n,
7)
in the title as well as e,(rlaining the .,.ffef:-t Gf -,he nature
of the electrclyte and ot-er fav--~.rs on c-1 the
cathodic process. For this purpose, tnf~ variation of v1sccsity
and elctric condu2tivity with temperatx.-e vias investi,3uted in
addition to the me+nod of tempcra'~.~r-.~ -.,!ffect on the elec-.roly3is
rate (Ref 10) and "he ;;,,,:-thod of a rarift plcttir.3 of -he pol3-
Card 1/4 rization carves according t,1 A. T. Vagramyac, (Ref 11). The
Kinetics of the Electrose~;aratiori of Zinc and CaJ=[rj-- S 3 7,' 1 2 - 4 - 2
Froai Solutions of Simple and Complex Stilts
effect of' the field near the eleutrodip or, thi! Uisc! .L-.-&e
mentioned. According to the natdre of -.he juppressing pro,,,ess
in the complex cyanogen electrolytes, a variable mechanism
of the cathodic process is observed which is brought -about
by polarization caused chemically or hi ths: --.oncentration. With
regard to the acid zinc- and cadmium :,Ipctrolyle it was fi~'and
that the activation energy does not df:jpencl :n t-e pola~rization
potential. The diffusion rate of the ions -..-) the alectrode
suppresses the electroche~-,ical procesn. Thus, concen-.ration
polarization occurs. Moreover, the Scv,.et. names
were mentioned in the pa,,)(!r: Yesin, 0. A., Titc-., P. S.,
Boldanova, N. N., Gorbachev, S. V., Staro3tenkc), Ye. ?,, Rc~-tar,
IT. ryshev, A.
V A., Yu,.a, V. A. , P,.)luyan, Ye. S., ::zc-al
There are 6 figures, 2 tables, and 17 refet'ences, ~,I' wh:.ch
are Soviet.
Card 3/4
Kinetics of the Electroseparaticn, of Zln,: an-;,
From' Solutii)ns of Simple and Ccmplox Sal ',!i
ASSOCIATION: Moskovskiy kh-imiko-te-khnologicheoikdy 1r:V:4-'~,,1t D. I.
Me (I os~:cvr -notttute
I -ndeleyeva, Kafedra fizicheskoy kh1m.1.41 .1
of Chemical TecKnology imer,4 D, C~-,air of
Physical Chemistry)
SUBYITTED: December 7, 1958
Card 4/4
Kin"etics of Electroseparation of Lead and Tin Frc:-,
Solutions of Simple and Complex Salts
viscosity and electric conductivity vith temperature. 7.1le
---ethods and the apparatus had been earller (Refs
12,11). There is a linear dependen,~- of' all rl(-ctrolytes in-
vestigated in the case of a polarizati,in pct,ertiulnE In
coordinates
IEI - 1 . The inclination angle vf tm, straight^ linp dz--~),~ndl
T
cn the nature of the electrolyte anJI t`i~! p:,t,F-ntiaI. :h- -.-U!,~es
of th3 effective a--tivqticn enerZy comj)-.~ted fro,-,. t*,is ingle
are shown in figure 2 and table I . The linesr de:,,endtince
mentioned is preserved (:)ve.r a wld-~ rqn,;IE! cf pciar-ization. 1~olr-n-
tials. The author tlotprmined tho c;f ::ot2f- f i,~ i e r: f, U w
various &E from the experimental valze.:; of the activatl-)n energy
A. According to the electrolysis corditions (pclarization poten-
tial. and degree of current &~rqity), a ::,uchanism uf
the cathodic proceso of lead 3cparstlon can c,nerved. This is
caused by chemical or corcentrati-~n Pol-Irization. Th-~ re---lts
obtained prove that thf- me,-,hanism i:,.ert~on-aLi ii, charac:t-r--rizzed
by Concentration polarization [n, oi!j:a-,-Ittion ~I.Al ;,;trL!Innt#.
Card 2/3 oolutions. Moreover, th,~ following Sa-v:iO. -..uLtioned
; , 4
11 1 r, e f. 41cs of Electroseparation of Lead and T-n Fror, ~07/1, 5 3 -2 - At- 19/1)2
Solutions of Simple and Complux Salt3
in the paper: Tubyshkina, 1". A., Kovalen~-.o, P. N., Kovalev, A. T~,
Sotnikova, V. M., Kadaner, L. I., Morshak, F., Kh(~yfets (this
spelling according to the bibliogra;)hy, Xheyfi.*s according lo
tiie text, p q68), N.,Solokhina, V. G., Gorbachwr, S. 11. Thei-e
are 3 figures, 2 tables, and 16 rpferences, 15 of which are
Soviet.
ASSOCIATION: Moskovskiy khimiko-tekhnologicheakiy institat Ameni D. I. Men-
deleyeve, Kafedra fizicheskoy khimii (kroocow Instituto of
Chemical' Technology imeni D. I. Mendeleyev ) aia ir ~f Pkrsical
Chemistry)
SUBMITTEDs December 7, 1958
Card 3/3
IZK,.Yli-)V, 1%.V.
Kinetics of nickel electrodepoettion from oulfuric acid solutioas.
Izv.vys.ucheb.zav.; khim.i khim.tekh. 2 no-5:,,'41-1144 459.
04LU 13:8)
1. Moskovekiy khimiko-takhnologichookiy inatitut inoml D.I.
Mend'31eyava kafedra fizichookoy khimii.
(Niokel plating)
MAKOLKIN, Ivan Afaneslyevich; SHWLEV, Boris Aleksnndro,vich;
jZM_TLPY~_A,V,v doktor khim. nauk, reteenzent;
KARAPETIYANTS., M.Kh., doktor khim. nauk, retaenzent;
MISHCHENKO, K.P., doktor khim. nauk., retsenzent;
FEDOFDVA, T.P., red.; RARANOV, Yu.V., tekhn. rod.
(Collection of examples and problems in phyaiciLl ani col-
loid chemistry] Sbornik primerov i zadach po fizicheiskoi
i kolloidnoi khimii. Mookva, Roavu2i%dat, 1963. 191 P.
(MIRA 16.4)
(Chemistry, Physical-Problems, exercises, etc.)
_TT
IZM,AYT,OV, A,V.; DANILOVA, U.N.
Protection of aluminum and its alloys against Lhf'.) action of' thfj
aggressive substances in the food industry. r2-.v.vyn.ucheb.zav.;
pishch.tekh. no.909-100 t63. 041RA 16:12)
1. Moskovskiy tekhnologicheskly Institut myasnoy i molochnoy
promyshlonnosti, kafedra fizicheskoy i kolloidnoy khLmLI.
IZMAYLOV, A.V.; CHERNYSHVIA, N.P.
Behavior of tin.-manganeso alloy coatings in thi.*) food substances of
the meat and dairy industry. Izv.vyn.ucheb.zav.; pishch.tekh.
no.5slOI-104 163. (MIRA 16tl2)
1. Moskovskiy tekhnologicheskiy Institut myRrnt,-)y i molochnoy
promyshlennosti, kafedra fizichaskoy i kolloldricy khtmii.
I /';A Yl.(jV , A. V. ; DAN1 If) VA , N. N.; SH I I OVA , G. Z.
Protective coatings for nonferrous metals and alloys i-sed in the
food industry equiFment. Izv.v-ys.ucheb-zav.; pishc~-tekh-no. 2:
88-90 164. (MIRA 17:5)
1. I-loskovokly takhnologichaskiy institut myasnoy i molochnoy
promyshlennosti, kafedra. fizicheskoy I kolloidnoy khi-mii.
i 'IA ;1!11-Lill U-IMI: fl~,ULWL~-' P~
Ei'fucL of surface-activo subsLariceo on cuthod.1c Polarization
diiring the depo7ition of a tin-mariganese allay from halide
elactrolyte.s. LZV. VyS. iicheb. 7.a-.,.; kh.lm. 1. kh'M. Lekh. 7 Tic-3:
4 5,.'*,.-4 59 (M.11RA 27:10
-1 M L 1 . ~ .1
1. 1,!cskovs,:iy tek~aiologilcheskiy In-stituL r,.-a,;n,-.,- oc~ nc,
promyshlenriostl, kafedra flzlcheokoy khlid.l.
L 2620-66 EPA W-2194TWAIVIPWID!P (V)/T/E!di'(t)/FXP (k)/D1F(b),iTW11 (a) LIFi(e)
:ACCESSION AR/.'AP5011368
620.197.6
621.357.7
ALMOR: Atanasyani:s, A. G.; IzMaylov, A. V., Balashovi A,
7/'7, -5 '7
'V
41
TITIX: Deposition of metallic platings on welded products ol' ti-tai 11un and At i ali.
loys
"OURCE: Zashchita metallov, v. 1, no. 2, 1965, 23$-239
,TOPIC TAGS: titanium alloy, titanium, matal deposition. nicliel P.101tIng, coppOr
~plating, electroplating
;ABSTRACT: A technique recommended for preparation of high q~jality'; copper plittings'
on w0ded articles of titanium or its alloys is described ip detilda~.- it consist-41
lof."he following steps: 1. mechanical removal of the sinter (only: for gas stailled
Famples); 2. degreasing with organic solvents; 3. etchbig at 70~C ivr up to 30 min
iIn a .3olution containing (vol. %): conc. fir-5, COnC- H',',S04-15, a10 020-0' M., C0~7~
per plating at 200C for 2 min at a current density of 1-2 A1100 coif: ixl a'coLitilon
containing (g/1): OUSO4-5H20-2509 conc. H2SO4-50, and dicync. I.-It-50l mp to coa!ppiLete'
Card 1/2
~a
ACC NR, %~_60C6405 SOURCE G~Iw:
AUTHOR: Izma,ylov, A. V.; Savel'yeva. V. N.
1 ORG. none
TITLE: Electrolytic method of depositing a tin--mol.-rbdenum molt*
Class 8, no. 178258
SOURCE., Izobreteniya, promyshlennyye obraztey, covarilyyn zna~ij'noe 2,
1966, 146
TOPIC TAGSt tin alloy, electrodeposition, elactrolyte , matial
deposition, molybdenum alloy
ABSTRAc*r: This Author Certificate lescribes an elecitrol7tic mlethod
of depositing a tin-molybdenum allo). In order to pwoduce a fine-
crystalline structure for the alloy, the electrolynia is made from an
electrolyte of the following compositions, (in grama per liter):
ammonlum molybdate, 40-60; sodium gtannate, 10-20; audiua pyro'phoophatel
40-80; sodium bicarbonate, 10-40; hydrazine sulfatao 1-3*
SUB CODEt 13, li/ SUBM DATE: OlApr64
C.,d 111 UDCs 661,3.035.447
VIEW,
1H&'.HF
r- T -1
ACC NRi
AP6030632 SOURCE CODE: UR/0413166/000/01G/0129/()129
INVENTOR: Izra~!ylov, A.__Y. �huval(hina, L, A.
ORG: none
TITLE: Method of chemical deposition of nickel-p1jqgphg)Lqg alloys. Class '13,
No. 185178
SOURCE: Izobreteniya, promyshlennyyeobraztsy, tovarnyyetnaki, no. 16, 1966,
129
TOPIC TAGS: nickel alloy, phosphorus alloy, nickel phosphorus alloy, chemical
deposition
ABSTRACT: An Author Certific'ate has been issued for a method of chemical
deposition of nickel-phosphorus alloys from a sulfate solution. To obtain a firm
cohesion of the coating with such metals as lead'-,"7tin,7mpLj,-riesil.1~l, zinc,7~admium"'
and antimo Ithe process is carried out in a so*lu~t"ion of -the followin-gcompositi n
(in g1l ): 25-35 nickel sulfate, 15-20 sodium hypophoi;phate, 50-75 diethanola-
mine, and 25-30 ammonium fluoride at temperatures of 85-95C and p1l of 8. 5-
9. 5. [Translation] [NT)
SUB COnEo 07/ SUBM DATE: 04Feb64/
Card 1/1 UDC: 621. 793. 3:669. 2481779
AT ANA SY At ~'TS , A. G . ; 1*/','-:A Y I OV 9 A. *V . ; 13). ia! -I., , A . A . ;; I T-0--'s! , 'V. 11 .
Metal plating of woldfid ribJects of titaritum und ita alloys.
Zashch. met. I no.2:23P~239 Mr-4 165.
(INIL;~k IS:6)
1. -4oskovskiy tekhnologicheskiy institut myasnoy i molochnoy
pro:nyshlennos ti.
1, i Tiff-i"
ITI
~NDRTUILJV, K,A, 7,7m,"Y107, 9,1,
Rea.,,tl.o,-, cf hIgher ailkyleh'Inrosilmne.9 tilth alcohol.
't
cb. kh,'.m. '., no.6,1041-1044 Jo 165. ISP6)
AUT110:15: '~rdvianov, V- V., ilr-l A.
It ~ I C L t C!113 0 1 1 L' i lall"t i( -11 G Q III r-, 1.
p I C) 1-) 1 k; t (!,.III i r,o!, T...l." L171, I y e 10111. ai L c. h ta It J.'e. h
i~X T ti, ji j
at
I" ohl,Jl 01~- c At' Cf,J-11ull on
th u on--a nj. z ro c I c t I v I t, I,.) i v t h.) order
CH G I!,) CH (311 11, :;h''!l 3 s of I
offer.ted of t y j I tc-l""jol IV i il s I igh t i
crea~~e Of tile n - J, r~o -P i III* vo of '~,hl!
h ij~h e r t e 1 or;~ ~, uf, T i I j-,; o f F , L !-nn ofith 1,H 3 Si' I
wao b-ou':jIf. In',)llf hi I; r I I, W,() -~Ifql t,,% -
r
In I, thy I L A Th. i t i IE. RLZ, iC 1
ca r. J' 1
ionc-'2 r i -it i On
Card
MAI
Lf,--
~ ;I
Tfrwm f ---
-lz I U
IT I -
1: 1
A~Z'747r-_APT007117
AUTHOR: Andrianov, K. A.; Izmaylov, 1). A.
ORG: none
TITLE: Hydrolytic polycondensatlon~of higher
SOURCE: Zhurnal o*,:)shchey khimii, v. 36, no. 2, 1966, 341-341S
TOPIC TAGS: organosilicon compound, polycondensation, hy&Nj1ysiii
ABSTRACT: Reactions of hydrolytic polycundensation of hexyl-, hitptyl-, octyl-, and
is ononylt richlorosi lane were investigated. The hydrolysis was Riund to differ consi-
derably from that of lower alkyltrich lorosi lanes. - Even wheii -carrlled out in an acid
medium, the initial products contained a large number of hydr:)xyl groups. The reac-
tiori is represd,nted as follows:
nRS1G13+3n11,0 ---i. IIASIO(Oll)).+ 304CI
The products were polymeric compounds of relatively low molocular weight. 3n order t
achieve a complete condensation of the hydroxyl groups, compomdm (I-IV) were distil-
Card 1/2 UDC: 546.2417
_jt 23553f 66
ACC NRI AP6007117
led under a high vacuum; this produced low-molecular three -dime nsic)nal rings, silmes-
quioxanes, which are viscous liquids soluble in benzene, tolmone, and ether. The IR
spectra of the silsesquioxanes showed the presence of an absiuptit:ai ban4 at 11.25 4M-1,
which was attributed to the stretching vibration of the SI-D,-Si brind. The eitperiment-
al data indicate tt-at the higher alkyltrichlorosilanes have a mudh S;reater tevident:y
toward intramolecular condensation during hydrolytic condensation than lower alky!Ltri~ i
chlorosilanes, in which hydrolytic condensation also readily *ccurs Intemoli!t:ulavIy.
The intramolecular eaaracter of the process is attributed to pronauxiced sterie hind-
rance effects due to bulky radicals; this accounts for the foimation of riTe lltruc-
tures instead of polymers'. Orig. art. has: 3 tablest 0
SUB CODE: 07/ SUBM DATE: IBJan65/ ORIG REF: 003/ (YIM REF: 002
1. IS111AYLOV, D.
2. USM (600)
4. Cotton Growing
7. Effect and al!.*tereffect of granulated organomineral fortilizars on cotton yitlld.
Khlopkovodst,ro no. 7, 1952
9. Monthly List of Russian Accessions, Library of Congress, janug-j:X -1953. Unelsssified.