SCIENTIFIC ABSTRACT ANDREYEVA, F.I. - ANDREYEVA, I. B.
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CIA-RDP86-00513R000101410001-3
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RIF
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S
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100
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November 2, 2016
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March 20, 2001
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Publication Date:
December 31, 1967
Content Type:
SCIENCEAB
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PZMODOHUOY, I.N.; TIM-ZAIHAROVA, R.I.; 4!~T~A ~7; TARSHINA, Ye.j.
Syphilis treated by reinforced therapy. Yest.vener. no.2:15-17 Mr-
Ap 150. (CUM 19:3)
1. Of the Skin-Venersologloal Clinic, Astrakhan' Medical Institute
(Read -- Prof. N.N.Perevodohikov).
Si*129/62/000/002/005/oi4
EOWZ335
AUTHORS: Dolinskaya, L.A., Rizol,#, A.I., Candidates of
Technical Sciences and Nekrasova, S.Z., ind ~Yevaj.M.,
Engineers
TITLE: Recrystallization of cold-drawn stainless steel
PERIODICAL: Metallovedeniye i. termicheskaya obrabotka metallov.
no. 2, 1962, 34 - 36
TEXT: The influence of long-duration holding at temperatures
of the beginning and Lnd ofrecrystallization was studied for
the stainless steel lX18POT (lKhlBN9T), using pipe specimens
with 30% deformation during the last pass. These were heated
at a rate of 600 - 800 OC per minute to various temperatures
between 600 and 1 200 0C in steps of 50 0C. The specimens were
heated without holding at the final temperature and with holding
times of 10 minutes and 3 hours, respectively. The temperatures
were measured by chromel-alumel thermocouples, fitted into one
of the specimens ~.nd recorded by means of a high-speed potentio-
meter. The changes in,the microstructure, hardness, mechanical
properties at 350 0C, content of combined Ti, number of
Card 1/2
s/i2g/62/000/002/005/Oi4
Recryatallization of .... E073/E335
interference points on the X-ray diffraction patterns and
type II stresses as a function of the temperature, heating and
holding time were studi-id. New grains appeared on heating
the specimens to 7500C and holding for 3 hours. In the case of
10-minute holding times the new grains appeared at 800 OC and
if the holding time was reduced to zero new &za:Lns formed only at
0
975 C~ The temperature interval of recrystatIlization narroivA
very considerably during the first ten minutes of holding time:
in the case of zero holding time,0the recrystallization
temperature range is 975 - 1 050 C; the respective values
for a 10-minute holding time are 800 - 2 0 0C and for a
3-hour holding time they are 750 - 850 C, There are 5 figurei.
ASSOCIATION; Ukrainskiy NITT
Card 2/2
-A_RDBEXWkj G. shiy naucbnyy notrudnik
Pine flat bug control. Zashch. rast. ot vred, I bole 10,no.7s24 165s
(MIRA 18vIO)
1. Vaesoyuznyy nauchno-Issledovat^l'skAy institut losovodstva
i mekhanizatsii lesnogo khozyaystva,
ANDREYEVAP G,; FISKUNP No
Work of the Gorno-Altai consolidated child en's hospitall. Vop. okh.
mat. i det. 5&62-68 S-0 160, (MIRA 13:10)
.(GORNO-ALTAI AUTONOMOUS PROVIRCE-CHILDREN-JOSPITALS)
A,, Cand Biol Soi -- (diss) "Grain and
I k
e Steppe~of the U SR.11
w -mrurvluA~j Chinoh Bugs in th R
(Kharlkov)s 1958. 16 pp ( Mint*** of Agrkv USSR.
Kharlkov Order of Labor Re(I Banner Agri& Inst im
V. V. Dokuohavev) 100 uoples (KL 40-58, 113)
Alip
I
vikhOA-1
U 05 f,,
14
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EVA
lf~ ~7 -Z- ~7
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ANDREWAP 0. A, P ~!Td. biologe- nauk
What the experiments of tba Corn Institute tell. Zaohohe rasto
ot vred. i bol, 5 no,500-3-3. My 160* (MIRA 16il)
~Corn(Wse)-Dioeaeas and posts)
Virawras--&termination)
CHENAKALI V.L.; ANDREYEVA, G.A.;JAVLOVA, G.Ye.; SOKOLOVA, N.V.; TOPCHIXEVI
A.V... r;a,;- FIGUMVMM, N.A., red.; SHCHERBAKWA, G.A., red. ifd-va;
VINOGRADOIYA, H.F., teklm, red.
[chamicle of the IM-~ And- works of M.V.L-omojaosov] Letopis' zhizni i
Vrerchestva M.'V.Lomonoio*va. Pod red.A.V.Topchieva, R.A.Figurovakogo
i V.L.Chemkala, Moskva, lzd-4o Aket% nauk SSSR, 1961. 435 p.
(MIRA 141n),
1. Akademiya nauk SSSR. Institut istorii yootestvoznaniya i tekbnik4.
(Bibliogr'spby-Lomonosov, Hikhaill VaBillevioh, 1711-1765)
MITSUCEIMIXR, S.P.; AlqREYEVA, G.A.; SOKOLOVA, K.I.,- KOROTKOV, A.A.
Synthesis of graft copolymers by the action of polymeric
organometallic compounds on polar polymers and a study of
their properties, Part 1: Synthesis of graft copolymers
of'styrene and methyl methaorylatee Vyaokom.oood. 4
no.9%1366--~1374 S 162* (MIRA 15:11)
1. Institut vysokomolekulyarnykh soyedineniy AN SSSR.
(atMne)
(Methaorylic, acid) .(Polymerization)
ANDREYEVA, G.A.
Efrect of antimony selenide and telluride on the absorption
and photocondictivity of amorphous selenium films. Vest. LG`U
1.7 no*16:145-147 162. (KMA 15:9)
(Antimony oelanide) (Antimony telluride)
(Photoconduotivity)
_J
34243
S/181/62/004/002/037/051
V/ 7 ? 00EI) B102/B138
AUTHCR; Andreyeva, G. A.
TITLE-~ Absorption and photoconducti.,rity of activated layers of
amorphous selenium
PERIODICAL: Pizika tverdogo tela, v.. 4, no. 2, 1962, 536-541
TEXT: The true and effective resistivities of selenium were measured and
the influence of impurities on photoconductivity was studied. The
specimens were produced from Se or Se+Te alloys, Bi 2Se3 or Bi,,Te -5
condensed on to metal or quartz backings of 20 or 750C, The specimens en
metal backings were measured by electro-photography; for those on quartz
backings, a compensation circuit was used with a Compton electrometer as
zero instrument. Tho photoconductivity spectrum was determined with the
-2M (DM-2M) monochromator and with direo-; curren 4.
same ciieuit, using a AM
and constant illumination. Absorption was measured with an CO -21f(SF-2M)
recordinR spectropliotometer. The layer thickness was determined with a
microscope and an interferometer. True resistivity was 1012ohm-om, and
maximum effective resistivity in the blocking direction was of the order
Card .1/3,
3~ 1, 243
S 61/62/004/002/937/0';l
Absorption and photoconductivity of ... B102/B138
of 10 15 ohn-,m. log Arwas plotted as a function ofA for pure and
confaminatc.d, Se layers on quartz, it is of interest that pure Se.
deposited on a 750 backing has almost the jame spectral distritution of
photo!.,enductivity as Se+l',",',Bi2 Se3at 200; a minimum at,,500 mi. P..nd
R maximuia at 660 mg. This maximum is caused by monoclinic n-type Se.
The layers on metal have higher sensitivity than those on quar-.,z. An
addition of Te causes a shift of the self-absorption edge, and so does
BinTe , but without raising the sensitivity. X-raj analysis, carried out
by f- LI.3A. Smirnov revealed B1.2se3in the Se,1-Bi Te alloy. Bi2se 3 reduces
pbo-o,onduct ivity. Professor M. S. Kosman is tharked for dis~.ussions.
Thtere ore 4 figures and 10 references: 3 Soviet and 7 non-Soviet. The
fo-ar most re,:~ent references to English-language publications read as
follows: T. Mos3, Photoconductivity in the Elements, London, 1952.
M'. A. Cilleo. J, Chem. Phys., 12, 10, 1951. P. Keck, J. Opt. Soo. Am-
.If 1951. P, Keck,, J. Opt.. Soo. Am., 42, 4, 1952.
Card 2/3
3h2h3
1/18 62/004/002/037/0;;l
..'ibsorption and photoconductivity of ;1 02YI31 38
ASOCTATIO1,": LeningrAskiy gosudarstvennyy pedagogicheskiy in-titut im'.
A~ T. Gert-.-mm.,i (Leningrad State .-Iedalgogical Tnstitute imen-j.
A. 1, Gertsen)
;!.T,I3L7,TTTLj): Julj 15, 1961 (initially) and Septomber 25, 1961 (after
revision)
Card 3/3
:2 Z/054/62/000/003/010/010
ATJI'HOI(; AndrCyLN a# G . At
TITLi;: -!;ffect of antiiaony selenide or t'elluride on absorption and
photoconductivity of amorphous selenium layers
PERIODICAL: Leningrad. Universittt. Vestnik. Seriya fiziki i-khiaii,
no. 3, 1962, 143 - 147
IAXT: To ext~;nd the photos ensitivity of selenium beyond 600 m4, selenium
and Sb So or Sb To were evaporate(L from separate vessels, or melts of Se
2 2 3
and 1-14 by weight.of 5b 25e3 or Sb 2Te3 were evaporated onto quartz bases,
0
these being either at room temperature or heated to 75.C. Separate
evaporction of the components lowered.the resistance of the resulting
layers as compared ivith that of pare Se layer, but it had no effect on
,photoacnaitivity. An extension of photosensitivity into the longi~ave
spectral range was observed in the case of the evaporated melts. Sb 2Se3or
Sb2Te 3 form,id a second microcrystalline phase in amorphous Se. An
dard 1/?
S/0'54/62/000/003/010/010
Effect of antimony selenice ... BIOI/B186
absorption maximum appeared at 680 t~t curing evaporation onto the hot
bases. Since the evaporation was performtd at a temperature high aboVe
the boilind point of seleni"m, dissociation occurred rhen Sb 2Te3 was used,
forming Bb2Se3 and frt;e Te. Truces of Sb 2Be3were discovered by x-ray
analysis. The dark resistance of ltyer6 c ontaining Sb2Be3 or Sb2Te 3_
decreased ith increasing adaixturc concentration; it was about (2.3 7) 0
ohm.-cm. The activation of Be by Sb2 Be 3- or Sb2Te3has additive character,
and is based on photoinjection of holes into the amorphou6 seleniwa. There
are 2 figures.
SUBMITTED: February 20, 1962
Card 2/2
R~
5.33do'
75691
sov/8o-32-lo-4o/5i
AUTHORS: Lishanskly, I. S., Koroticov) A. A., Lndreyc.,va, G. A.)
Zak, A. G.
TITLE: Brief Communications.' Concerning the'Dehydration of
n-Pentanol Over Aluminum Oxide
PERIODICAL: Zhurnal prikladnoy khimii, 1959, Vol 32, Nr 10,
pp 2344-2346 (ussR)
ABSTRACT: Dehydration of aliphatic alcohols over Al 20 3 leads to
the formation of isomeric olefins. Dehydration of n-pen-
tanol can give 5 possible isomeric pentenes with a boil-,
ing range between 20 and 380. 'Isolation of pentene-1
is very difficult. Attempts were made to prepare pentene-I
by dehydration of n-pentanol accompanied by the least iso-
merization. Two catalysts were used: a catalyst which
was0used for the dehydration of isopropyl alcohol at
360 and afterwards regenerated with air at 4500 for
2 hr, and a freshly prepared catalyst. The activity of
both catalysts was the same with respect to the total
Card.1/2 hydrocarbon yield. Pentene-l content in the mixture
.-)o
Br orm-aun _4 c a t 4L on sConcerning the 75 ~ 9 1
Dehydration uf n-Fenl~-anoi Ovel" Alunlinum SOV/80 l 0
je
Oxide
ASSOCIATION:
SUBMITTED:
o!' p0n'Leneu changes ,-,,4Ath the arn-,ount of alcohol passed
c)ver "he catalyst, and '.-,as a :,riaximum 39.2~N'
7.5%) h e o b 3 e r v o d ph (;,; n o: iw n~ c) i-. i ab o ux 1,N I z; i i% by
asSul.1,11inc, the 1-)~i.Eitence on alu-.-ftina of ~;enters of
diffe.rent spatial snecificity. Chlroma'~-olr-z-aphic analysis
was, do~nj by Dementlyeva, M. I., in th-e ..aboratory LenINII.
There is 1 figure; 1 table; and 41 references, 2 Soviet-,
2 U.S. The 2 U.S. references Lire: oblad and others,
Ind. Eng. Ch., 39, 11462 l947), Pines, H., Kaad, U1.,
J. Org. Chem., 23, 2, U1(1958).
Institute of High-Molecular Compounds, Academy of
Sciences USSR (Institut vysolcomolel~.ulyari-,Yllchs:ijedinen:ia,
AN SSSR)
January 29, 19f,q
Card 2/2
S/190J62/004/009/009/014
BIOI/B144
AUTHORS: Mitsengendler; S. P., And."eyeva, 0. A., Sokolova, K. I.,
Xorotkov, A. A.
'TITLE: Synthesis of graft copolymers by the action of polymeric
organometallio compounds on polar polymers, and study of
their properties. J. Synthesis of graft copolymers of
styrene and methyl methaorylate
PERIGD.TCAL; Yyaokom%jekulyarnyye soyedineniya, V. 4, no- 9, 1962, 1366-1314
TEXT.-I The interaction of polystyrene lithium (PS with polymethyl
methaq~:ylate (PWAA) *is studied. The decomposition or PS' by moisture
and oxVgpn was_eliminated by treating it in vacuo or in a nitrogen
stmoopperep and through the presence of methyl lithium or calcium hydride.
23 to iAA dizoolved in toluene was cooled to -50 - -70 C and mixedvith PS"~'
'cololed 0 -780C. The resulting graft copolymer was extracted successively
with other, acetonitrile and benzene. The ratio ~-C41ps'- waB de.termined
W,
from We ox gen content of the graft copolymer or by IR-spectroscopy.
Results: (1~ All fractions differed from a mechanical mixture of the
Card 1/3
Synthesis of graft copolymers... B101/B144
components by birefringence. A graft copolymer was obtained with 100~10
yield. (2) The molecular-weight and the ratio of components affect the
reaction course* (a) An increasing molecular weight of PMMA reduces the
selectivity and Irenders grafting of PS ' ont6 the macromolecule of PMIA
uniform. IfIthd molecular veight of PITYJ,, is increased from 70 .103 to
500*103, and Iif It~e ratio _'C.O/PS- equals lo, the amount of*PI.SiA consumed
Ifor ether fActio decreases from 31 to 3.6,~,fa, and the yield of ether
fraction from 74 to 10-6~; (b) an increasing molecular weight of PS'
inc=eases the selectivity and -duces the uniformity of graf 'ting. If the
3 3
molecular weight of PS* increases from 5-10 to 50-10 , the PIBU con--
eumption fokether fraction rises from 3.1 to 53114 and the yield of this
fraction from 20-5 to 95-VL1 (o) if the molecular weights of PO&A. and PS'~'
e~re conotantt the yield of other fraction increases as the concentration
of P�"~ is increased, or as the ratio.-'C-O/PS* is decreased. Conclus'ions:
Th e 0o ~ur~en~e of grafting is not statistical but mainly on that PMY1A
macrompjecul~ where the reaction has already started. As soon as
graftipg of the first PS' chains sets in, the c(.11ed PIMA molecules begin
to strlt'h ah'd thereby to facilitate further grafting.* High molecular
Card 2b,
S/190/62/004/009/009/014
Syntehesin of graft copolymers ... BIOI/B144
weight or concentration of PS* stipport th.'Ve effect. By suitably choosing
the molecular njight and the ratio of the'components it is possible to
Bynthesize copo ymers with the desired composition and branching. There
are 4 figure6 aAd 5 tables.
jASSOGVT!ON:i Ina itut vysokomolekulyarny~h soyedineniy AN SSSR (Institute
of iigh-moleoular Compounds AS USSR)
-SUBMITTED may 29 1961
Card 3
A14DREYEVA$ G.A.
(Recommendations for controlling the principal pests
and diseases of com] Rekomendatsii po, bor'be a osnovnymi
vrediteli-imi i bolezniami kukuruzy. Moskva, Izd-vo sell-
khoz.lit-ry, zhurnalov i plakatov, 1963. 26 p.
(Curn (Maize))--Diseases, and pests) (MIRA 16:11)
1
S/ e-251611000100.910091014
D040./D123
AUTHORS3 Andreyevap OePop'Voskanlyan, BoXhop" Yelaging V,Maq,~Kuznetbat I.I.t
TITLEs Automatic ASG-NITI welders
PERIODICALs Avtomatioheskaya evarkay xxos9p 1961o 51-59
'A
TEXTt Design and operation is described nf anAc r - ON (LSG-NITI) welder
developed by the Nauohno-issledoTatell ski y tekhrv1jg1,.~hwkkJ.y inatittt
(Stientifie Researoh Institute of Teahnology) and dem-.inshT,~Lt4l in 1960 at
the VDM exhibitiono It is designed for sxgon-ar,~. we*114-_-~g laxgs shes-1.
structures of nonmagnetic or low-magnetic metal and titanium al-
loys' stainless steel)$ with tungsten electrode ani with -.r without filler
wire: Its tracing system movec the welding head aloLg tL4 joir,t wi-;,-h *
0*25 mm aoouraoy when the joint deviates not mor,9 tLar, .0 mm per meter from
straight linst and maintains the arc length (by voltagc.), with -rl-.ltage oon-.
trol. accuracy of 0925 vi The welder is provided with TV,, remo"P., -.ontrolledg
ann weld oiroular seamaq Manual control is also providoi. Th-i Aff -2 (ASG-
2) welding head, illustrated with a block diagram and a -view photo-
Card 113
8/12 611000,100910091014
iLutomatio ASG-NITI welders D040.1/ilm-3
graphp may be used on any analogous aUtOMat!LO welderro Thc~ =ew txa-.~ir..g
principle suggested by T.B.Shoherbanenki and D.A*MIkhay".v.-, requix,3; L~~ as-
peoially prepared line traced parallel to the Join~, as riqulr,~,-.. by a,'A.:L oth-
er automatic machines with p otoelectrio tracing systems. The traoing ele.-
ment is an inductive pickup tPig-3) with two coils on one magn"atin o1rouit.
The coils are supplied with alternating current an& pro4uee alternating
magnetic field that causes eddy currents in metel eigeq being Z,oinad. The
article gives detailed engineering information and includoet t'_'~e oirouit dia-
gram of the tracing system and four photographq, There are figares.
SUBMITTEDi April 1, 1961
Card 2/3
PLOTNIKOVAI T.P., inzh.; ANDREYEVA, G.G., inzh.
QuaUty of elootrolytically tin plated sheet steel and its use
in the canning industry. Sbor. trud. TSNIICIIM no.28sl73-177
,62. (MITRA 15%11)
(Tin plate) (Canning industry)
*Different Ways of Induatria2itationew
llio6rt preaeitted at the 5th WakId Congress of Sociology,, Wrshingtonp
D*V*'P' 2-8 Sop 62.
cgs
S/b81/60/000/b17/010/016
A006/A001
Transla'.--.'c.n from.- Referativnyy zhurnal, Yhimlya, 1960, No. 17, P. 3K # 70238
AUTHORS- Fedo*,' yev, N,P,, Vyftohej3lavo , P.M., Kmiglova, Ye.G., Andreyeva,
G.P.
N1 -.,- 1 0
T=-. Electrochemical Deposition of Co-W Al3oy and Its Properties
ITRIODICAL.- Tr. Laningr. tekhnor. in-ta im. Lensov 1959, No. 53, pp. 82-97
IM. The authors studied the effect of the electrolyte composition and
eleo'rolysis conditions on the composition and properties of the CO-W alloy. For
tne deposition of the Co-W alloy (35% W) an electrolyte of the follow'ing com- V\/
positlon is reaommended (in g/1): 250-3006 NH40H (25%
W 12, c? 4, (NH4)2S04
5ol:atlon) 30-40, NaOH il- D - B-12 amp/dm ; temperature: 50-60 C; Pt or W
anodes. When the W/Co ratio in the electrolyte is increased up to 7, the W con-
tent, in the alloy increases considerably; if-the ratio is raised to 11 - the W
content increases slowly, and, subsequently, does not change. The current Offi-
cleney of the alloy drops abruptly (from 75 to 15%) with a higher W/Co.' rativ; in-
creased from I to 7, and subsequently changes insignificantly. At a total content
Card 113
85375
S/081/60/0(>0/017/010/'016
A006/A001
El-?~,trochemic.al Depositicn of Co-W Alloy and Its Properties
of the metals as high as 48 g/l, the maximum content of W in the-alloy is 56% and
decreases dom-n 'lo 40% at a total amount of metals equal to 10 " A !Agher con-
,~-er.--~ratlcn of (.NH4)2SO , raised from 10 to 150 g/l, increases the W centent in
the allay from 7 tc 24. A further increase of (NH4)2SO4 has only a --Ight effect
cn 4bs. composition of the alloy but improves Its quality, "Current efftoiency
passes thrcugh a maximum depending on the concentration of (NH4)2804. Additions
o" NH40H do not considerably affect the composition of the a!'-!!7,y, but at a higher
concv,ntraTI~--i Of M40H the.quality of the deposit is deteriorated and the current
effl.:iency decreases. At a higher D the W content in the allo increases.
Maxitram ~-%irrent efficiency Is attained at Deathode ' 10 amp/dm . At an elevation
of tem;erat-ure the W content in the alloy increases (0.6% per each 50C), current
efficieney ir.--;reases coneiderably (by 25% per each 500and the luster of the
depcsil. beec-mes brighter. The sign and order of magnitude of the internal stres-
ses cf the deposits are the same as for Cr-deposits. Microbardness of the depos-
its de-,,sazes with higher Death, increases with higher temperature and concentra-
4
Uon of (NH4)2SO4 and increases twice after heat treatment at 6000C for one hour.
Card 2/-5
85375
S/08i./60/m-~,;A~...7;40 io/016
A006,,-'AOOI
lectro,A--emiap"' D-pposition of Oo-W Alloy and Its Fropertles~
I-A4 trohardness of the dePosits" Is 500-700 mg/mn?., The alloy i~-, acid
and corrosion resistant ir. S.0- aiNd NOL~ cl;tmosphere. Best protective propgrties
in 3% NaCl solution are showni'~by alllo~., containing 35% W (Thickpise 5 - 101L
Z. Solovyova
Translatorl s notet This is the full translation of the original Russ-1an abstract
Card 3/3
5.1310,5.2200 75669
SOV/80-32-10-18/51
AUTHORS: Fedotlyev) N. P., Vyacheslavov, P. M., Kruglova. Ye. G.j
Andreyeva, G. P.
TITLE: The Technique of Electrochemical Deposition of Cobalt-
Tungsten Alloy and Its Properties
PERIODICAL:
ABSTRACT:
Card 1/3
Zhurnal prilcladnoy khimil, 1959, Vol 32, Nr 10, pp 2235-
2242 (USSR)
Thf authors' studies showed that the electroplating with
Co-W alloys proceeded much better in an electrolyte com-
posed.of W, Co, (N'N)2SO4) and 25% solution of NH4011
than in electrolytes based on citric acid and potassium
sodium tartrate recommended by other investigators.
The composition 04'
. the deposit depended chiefly on the
ratio of the concentration of component metals in the
electrolyte. The tungsten content in the deposit in-
creased with increasing W/Co ratio, and the yield based,
on current decreased. The tungsten content in the deposit
increased with increasing concentration of WH4011 and
The Technique of Electrochemical 75669
Deposition of Cobalt-Tungsten SOV/80-32-10-18/51
Alloy and Its Properties
the quality of the deposit improved. The value of the
NH401' concentration did not affect the composition but
only the quality of the deposit, which became darker
and finally black at a conbentration of 140 g/1. The
same effect was shown by NaOH. It was also found that
the tungsten content in the deposit increased with in-
creasing current density. The optimalconditions for
depositing Co-W alloy with 35% W content are: electro-
lyte composition) W 12 g/l;.Co 4 g/1; (Nr'4)2SO4 250 to
300 g/l; 25% N1140H solution 30 to 40 g/1; NaOH 10 9/1;
current density 8 to 12 amp/dm2; temperature 50 to 60Q;
anodes: platinum or tungsten. The hardness of the de-
posit can be increased almost twofold by a heat treat-
ment at 6000 for I hr. The hardness was thus raised
2 2
from 500-700 kg/mm to a maximum of about .1,000 kg/mm
Abrasion resistance of Co-W deposit on niclcel*was con-
Uiderably higher than that of silver deposit on nickel.
Card 2/3 A very high abrasion resistance was shoi-m by Co-W
The Tochnique of Electrochemical 75669
Deposition of Cobalt-Tungs',,;en SOV/80-32-n-18/51
Alloy and Ito Properties
deposit (65% Co and 35% W) oil a surface of identical
=.Position. The investigated Co-W depooits showed a
considerably higher resistance than cobalt and nickel to
the corrosix.-e action of 1:1 colicentration of Sulfuric,
nitric, and hydrochloric acid as well as to N02 and S02.
The deposit containing 35%'W resisted well the corrosive
action of 3% NaCl solution at -oom temperature, and it
dissolved at a very low rate (0.1 g/m2 per 24 hrs').
There are 2 tables; 12 figures; and 6 references, 'I U.S.,
1 British, It Soviet, The U.S. and British references
are: J. Research Nat. Bur. Stand., Oct. (1947); The
Engineer, *185., 4805 (1948).
SUBMITTED: September 19, 1958
Card 3/3
87664
10 10 9 1 VA) 12 s/i37/6o/boo/o1o/04o/o4o
Aoo6/Aool
Trans'ation fromi Referativnyy zhurnal, Metallurgiya, 1960, No. 10, P. 315,
j
24982
AUTHORS: Fedotly-ev, N.P., Vyacheslavov, P.M., Kr~uglova, Ye.G., Andreyeva,
G.P.
.0im"WO
T M E: Electrochemical Deposition of Co-Tangsten Alloy and its Properties
PERIODICAL: Tr. Leningr. tekhnol. in-ta im. Lensoveta, 1959, No. 53, pp. 82-97
TECT: It I's shown that the composition of thr. Co-tungsten deposit depends
to a high degree on the metal concentration ratia in the electrolyte, since a
higher tungsten/cobalt ratio causes a higher tungsten content in the deposit,
although current efficienci decreases. At a concentration of (NH4)2SO4 raised
from 1-3 to 150 g/liter in the electrolyte, the tungsten content in the deposit-
increases from 7 to 26%. The current efficiency changes along the curve with a
maximum at a concentration as high as 150 g/liter and furthermore drops. A higher
Deathode increases the tungsten amount in the depositj however, the quality of
the deposit &eterioratesl the luster disappears, and roughness appears. At a
Card 1/2
87664
S/137/60/000/010/040/040
A006/AOOl
Electrochemical Deposition of Co-Tungsten Alloy and its Properties
higher electrolyte temperature a gradual increase of the tungsten percentage in
the alloy takes place. The current efficiency increases noticeably. It Is estab-
iished that the dispersing capacity of the electrolyte for the deposition of the
cobalt tungsten alloy exceeds by 10 - 15% that of the Ni-electrolyte. The
author; studie-d the dependence of miarohardness of the deposited oobalt-tungsten
alloy on various factors of electrolysis. Investigations of the wear resistance
of cobalt-tungsten alloy- coatings in pair with Ni and in pair with the same alloy
showed that it was higher in the latter case than during wearing in pair with Ni.
It was stated that the cobalt-tungsten deposit was sufficiently corrosion-resist-
ant in 802 and N02 atmosphere. T19 compositim of the electrolyte for the deposi-
tion of an alloy with 35% tungsten Is given.
Translator!s notet This is the full translation of the original Russian abstract.
Card 2/2
S/080/62/035/007/007/013
D214/D307-
Fedot'yev, N.P., Vyacheslavov, P.M. and Andreyeva
Gj?.
'01 T -1.,'S:
Structure and properties of electrodeposited Sn-Cd
:.OyS
'ERIODICij, Wirnal I?rikladnoy khimii, v. 35, no. 7, 1962t
1537-1342
The st-ructure and some properties of electrodeposited
S.-.-Ce- alloys ;_ctcr~.,iined and compared with those of the same
alleys obtained 13Y usion. X-ray studies of 14 garwples of the alloy,
con-caining _~-rom 2.4 to 99"0' Cd, showed the lattice i')ai~meters to be
cl-ise to the va'Lles obtained for the equivalent alloys prepared from
mclts. The Sn-Cd alloys, deposited from a IZCN solution, crystallize,
ia accordance with the phase diagram and contain Cd/Sn eutectics.
Jeasuremcnts of the Dotentials of the alloys in a lNCdS04 solution
against a staiidard c-alomel electrode also showed the alloys to be-
have as a eutectiferous rri.4xture of Sn and Od crystals. The micro-
Card 1/2
S/080/62/05/007/007/013.
Strx;cture and properties D214/D307
hard-aess increases linearly fron, 13.2 to 35.8 kg/ran2 and the speci- i
fic resistance dccreases linearly from 0.154 to 0.114 SZ riun/m as
the Cd content ircreases. The resistivities of the electradeposited'
alloy-c- were about 225~'. higher than those of the eqvivalent alloys
Q,
pre,,3,~-~d from 18--heir melts. An increase in the Celt content causes them
catho:-ic polarization to increase; -f-he polarization cu~rves for the
simul-ancour, deposition of both metals lie in the more positive re-
gion zl-ian that in which curves for the deposition of the separate
components-are situated. There are 3 figures and 1 table.
SUBMITTSM: September 22, 1961
Card 2/2
FKDOTIYEV, N.P.; VYACHESLAVCV, P.M.; ANDREYEVA, G.P.
Structure and properties of the electrodeposited alloy Sn-Gd.
Zhur.prJI~I..Vh4w-- 15 no.7sl537-1542 J1 t62. (MIRA 15:8)
-cacbdum alloys)
FEDgTILYEV. N.F. VYAOMLAVOV.. ?.M.; AnIMMA G-P-
Structure propertleo of the elsctrod~posito ofWo-oadmium
36 =41572-578 Ff 163. OWM7 16 t 5)
W Kafedra elaktrokbimil Leningradskogo tekhnologichaskogo irotituta
imeni 1AUD'Oveta.
(Zino-cadmium a.Uoye) (Bleotroplating)
FMOTIYUO X.P.; YXAPH44WOVS P.M.; AM&U Gp.
I&JL__
Structure and propertiOB of the electrodeposited zinc-tin all
Zhur-priklekhim, 36 no.3&671-673 Yq 163, (KRA .16s5o~'
(Zino-tin auoys) (Electroplating
ANDREYEVA, G.P.; FEDOTIYEV, N.P.; VYACHESLAVOV, P.M.; PAL-IMSUYAj Iola,
Structure and physicochemical properties of electroVtio brass.
Zhur.prikl.khim. 36 -no.6:1283-1290 Je 163. (miRA, i6o)
(Brass)
k
A G ]AMW
147J & 1) A
"ACCESSXON NRS An 179
8100~
006 0/63/06/007/146Vi462
-Ahaeva
JLvy* gavoi MiL G.
0 0~
vlith6d
f
SOURG&C, 2burnal prlkla*4,,.~ Al. -T#,:-.,. A 4903s 3461 6
2
TOPIC ll+GS: to halt jil
- I : deposit., c0
~~U P 14P a. ad.;
19 met-
A;
A
ANDRErEVAp G.P.; FEIW,-4,3 , N.P.; 7x-ACWLAVOV, P.M.
XV
Structure WW pbysicochomical properties of a copp-.ir-nickel
electrolytic anoy. Zhur. prikl. khim. 36 no.9:1932-1936
D 163. (MIRA 17. 1)
-0
ACCESSION NRs AP4041796 S/0080/64/037/007/1469/1477-
,AUTHORs Andrayeval Go P.; Fedotlyevq No Ps; Vyacheslavov, P
~TITLEi Phyoicoc'hemicalproperties and structure of Au-Cu electrose
lytic. alloy
SOURCEi Zhurnal prikladnoy khimii, vo 37p no* 7, 1964, 1469-1477
:TOPIC TAGSi gold copper &lloy, electrolytic gold copper alloy, gold
:copper alloy electrodepositiont gold copper alloy structure, gold
:copper alloy property.
MABSTRACTt An experimental study of the properties of an electro- 7
:lyticall7 deposited Au-Cu alloy has shown that electrolysis in a cya-".,''
nide electrolyte containing 5*5-0.2 g/f- Au, 0.2-5.5 glt Cu, and
15.5 g/t KCN'at a temperature of approx 60C*and a ck,rrent density of
I ~'_8v
.0.15 amp/dm3produces in I hr satisfactory deposits thick The'----
deposit consists of a solid solution with a crystal kattice of Xoldoj'.-.-
..!The fresh deposits have a phase composition differivg greatly from- .i
!that of the Au-Cu metallurgical alloys Depending on the gold content,.
band the current donsity it may have$ instead of a single phasep tvo
Card 1/2
'ACCESSION NRI AP4041796
ior even three phAssal ise.j solid solutions of different compositioltol
:Au Cu3 and Au Cu intermetallic compounds, and very finely dispersed
.copper particles* However, as a result of natural or artificial
aging, the phhse structure of the alloy changes and becomes rather 11
.similar to that of the metallurgical Au-Cu alloy. The resistivity ofi
electrodeposited alloys is roughly of the same magnitude and has the
,same composition dependence as those of metallurgical alloys* The
~m*icrohardness of electrolytic alloys is much higher than that of met-11:,-
!a-llurgical alloysp although In both types of alloys the composition
idependence of microhardness follows the same patterne Grige art*
I has t7 figurest
1ASSZ111ATIONt none
.5UAMITTEDi O8Apr63 ATD PRSSSI 3074 ENCL& 00 j.
'002
.0 REV SOVi 006
SUD CODEs MM. OTHERt
Card 2/2
j
342-66 EWT(m)/EWP(e)/T/EWP(t)/ETI____IJP(c) Dlj'/JD/I%W/JG/Gl)/WH -_ -
NR% A-16024973 SOURCE CODEt UR/0000/65/0()rj/OOO/Oi94/0197
AUTHORt An
A Lenva IG:. ~.Fedot' v, N, F VXacheBlavov~ P. M.
ORG: none
TITLE., ElectrodeRositionAnd properties of silvor-palladium oys
SGUICES AN SSSR. Otdeleniye obshchey i takhnicheskoy khimii. Zashchitr*,ye metalli-
choskiya i okaidnM pokrytiVaL, korrozVa metallov i isslodovaniya 1, oblaoti eloktoro-
khimii (Protective retallic and oxide coatings, corrosion of metalsq and studies in
electrochemiAMI). Moscowl Naukag 1965, 194-197
TOPIC TAGS2 ~iilver alloy, palladium alloy, electrodeposition
ABSTRACTI TIvi conditions of electrodeposition of Ag-Pd a7loys fron, an electrol~_e have
ing MC1 as 1t:3 main component and some physicocheminal properties of these alloys wer~c
studied. L-1C1 and HC1: concentrations-were found to have a considerable influence on
the qaality of the deposits. The strongest influence on tho composition of the alloys
was exerted by the AgWd ratio -.In the electrolyte. A study of the anodic procos
0 -sis
showed that carbon and graphite electrodeje- ore best suited for the electr,o "si of
LiCl solutions. A study-. of the cathodiciprocess showed that the net_7~=oar W7.a 0 on,
curve of deposition of an Ag-?d alloy is locatcd at more positive potentials than the
not polarization curves of deposition of the puro components. X-ray analysis and mi-
crohardness and electrical resistrtnee meavurements revealed the formation of solid
lutions. In deposits containing over 70% Pdj a texture was observed which had an so- F
- Card-1/2 __ ___ __ __ -J.'',
%1
4 k -ir
na 2; v'
a =~3
I -
W
-1 1- -- PON
'%1.41, %
~e'l
ON
AN
49
ACCESSION NR: AP4019467
siability of 6BaO. Nb205 were determined: it melts without decompostion at
1930 ;L 20degrees and decomposes readily on storage In air or contact. with
water. Orig. art. hais: 4 figures and 2 tables.
ASSOCIATXON-. None
SUBMITTED! 19Jun63 DATE ACQ: 31Mar64 ENCL: 00
SUB CODE: CH NO REF SOV: 011 OTHER: 019
ZHILD-1, M.G.. professor; B=ORIT. X.A.; ANDRITEVA. G.T.
I
Sanite,27-b7gianic requiremunts in field camps. Gig. i san. 21 no.4:
44-45 Ap '56. (HLRA 9:7)
1. Iz Chkalovskogo meditsinskogo institute, i oblastnoy sanitarno-
opidemiologichookoy stantaii.
(AGRIQULTURA,
hyg. aspects of field camps (Bus))
ANDRICTAVA, G. V.
Use of luminescence analysis for detecting coli bacillus in water.
lab. delo 3 no.2:39-41 Mr-A:P '57 (MIRA 10:5)
1. Iz laboratorii sanitarnoy baktoriologii Inatituta obahchey i
kommmalluoy gigiyeny An SSSR, Moskva.
(FLUORESCXNCE MICROSCOPY) (ESCHJMICHIA COLI) (dATZR--BACTIRIOLOGT)
ANDREYE
Holybdenum-fucksin-sulfite medium for detecting and identifying
coll bacteria in analyzing vater, milk, And milk productsS
Lab.delo 4 no-59-33-35 S-0 158 (MIRA 11: 11)
1' 1z Slalingradskogo nanchno-issledowntellskogo instituta
e;ldemiologii, mikrobiologii i gigiyeny.
(BACTER10LOGY--CULTURES JAIM CULTURE MEDIA)
(INTESTINES-BACTERIOLOGY)
A-I'~;MINA, G. V. 1. VE,-, :-,Y. G . C, y 3;
A
"CTOVA T. 1. Y~~SliEVA, S. I., IGNATOVICH , Z. A., :~A.Arrw.; A.
UGHS, of PERTSOVSKAU, I. , TATAYEVA, YU. G., V. V.
G.)
"Modern problems of sandtary bacteriology in the solution
of problems of coi-Taunal hyCiene."
report submitted at the 13th ~'.I-Union CcnCross of it:-g-ionists, E~A'~'ef inlogists
an~' Trifectiontuts, 1959.
ANMMVA, G NIKIFOROVA, L.L.
~State All-Union Standard 5216-50-1955 for the Banitary-bacteriologioal
analysis of water. Gig i san. 24 no.5:61-62 Ply 159. (MIRA 12:7)
1. Iz Stalingradakogo nauchno-issledavatel'skogo inatituta epidemiologii
mikrobiologil i gigiyenv.
(WATIM, microbiology,
determ., standard form in Ibissia, (Rue))
AMZUVA. G.Y.
HolYbdonum sodium for the detection and identification of Intero-
bacterleceaes, Zhuremikrobioltepide i immune 30 no.2:7o-74 Y '59-
IMM 12:3)
1e Is Inet tuta obahcheV i kommunallnoy giglyany AMR SSSR.
tBACTIRIA,
Interobacteriaceae, detection & identification with
molyWenua medium (Rue))
OULT U
detection & identification of Interobacteriaceae
with molybilenum sodium ( Rua))
~ANDUYKVA,
Differentiation and identifioation of the Enterobaoteriaceae by
means of biophemical examination methods. Zhur. mikrobiolt.epid,
i 4"min. 31 to. 5M3 My 160. (MIRL 3
13:10)
I* Iz StaUngradakogo institute. epidemiologiif mikrobiologii i
gigiyeny.
(INTESTINES--MICROBIOLOGY)
-AINDREYEVAO G. V.; POLYIKOVA, Z. 11.
Indicator method for detection and Identification of diphtheria
cultures. Zbur. mikrobioles epid. i immun. 32 no.8:12-1 Ag 1.61.
(MIRA 15:7~
1. Is Gorodekoy sani-tarno-epiftmiologiaheskoy stanteii', Stelin-
grad.
(CORMBACTMIIUM DIPHTHMAK)
Amur Province] Pr
Amirskoe knizhnoe
otdol Yeasoyuznogo ograficheakogo
Moskalanko, Golovinf.
(Amur Province--Geography)
WM'KAN, N.X.; ANEUTHYAl I.A.; P BKO, I
I.P.; BARAXCHZTW,-V._R.; MOSKALENKO,
takhn.red.
KOSITSnf, I.Te.;
red.; GCLOVIN,
Blago-
NM 13:4)
AU 1111,",S: Tayts, Yo. M.o Andrayeva, I. A.
-------------
TITLE: On a Procedure for the Cokijit; of LiCnites (0 sp(,--(;be
vaniya burykh ugley)
PERIODICAL: Hauchnyye doklady vysshey shkoly. Khimiya i
tokhnologiya, 1959, Nr 1, pp 169 - 172 (USSR)
ABSTRACT: The procedures hitherto in customary use for the brique"ti-,:~:
of powdered, dried li,,,,nite at high pressure ( up to
1800 kg/cm2) and with nubsocluent heating to 9500 in an vc.--
tical chamber furnace are not always successful as
and temperature do not act simultaneously. Non-cahii.-- c~;~71s
and liC-;nite yield brittle coke briquets. An atteimpt was i~;ade
to produce coke briquets in an cluctricall'y heated mold.
Mien a certain temperature (400-4500) had been reacled,
pressure was applied (300-500 kg/cm2), which was but, only
allowed to act for a short tire, not more than for a for
minutes. Afterwards the briquets rere cok-ed in MuMe
furnace, and the coke was tested with re.,_,ard to comractner,3.
Coal analysis data and test results of the cokes are li-,1%,-)d
Card 1/2 in tables. The dependence on temperature and pressure cof Vie
On a Procedure fc..i- tho Coking of Livnitcs JXV/11 1-44/54
cumpactness is Graphically represented. Thermo-briquetting
yields connidorably better results than do the separate
actions of pressure and temperature. A coke is obtaincd which
is equal to the ordinary metallurE;ical coh-a. This is explained
by the fact tl;at the action of pressure at the iii-.3t.nixe of a
therrial recotion (uplittinz;-off of r;ido vadionla, formation
of aromatic C-lattices) results in new bonds at the contacts
increased in nuviber by the action of pressure. There-are 2
fiGuros, 1 table, and 7/ roferenceo, 2 of -.-ihicli are Soviet.
ASSOCIATION: Kafedra oboC,"hcheniya pclc-.n,,-I:h i-,',--opa3,cr,1y1-h Tl~ !7kovsko~r7o
CornoCo inutil.uta- im. I. V. Stalina (Chair of the Concentration'
0~
J. Minerals of the Moscow Mining Institute
ilicni I. V. Stalin)
SUDMITEED: October 1, 19r8
Card 2/2
5(2)
AUTHORS: Tayto, Ye. M., Andreyevap 1. A. SOV/153-2-3-27/29
TITLE: On the Process of the Formation of Coke From Lignite Briquets
PERIODICAL: Izvestiya vysjhikh uchebnykh zavedeniy. Khimiya i khimiches-
kaya tekhnologiya, 1959, Vol 2, Nr 3P Pp 454-459 (USSR)
ABSTRACT: For their investigations the authors used lignites of differ-
ent types. Coals from Kushmurunskoye and Eginsayskoye deposits of
the libaganikiy baoin were investigated more apourately. The coke briquets
were produced under a pressure of 2000 kg/OM2 and had a dia-
meter of 45 mm, The humidity content of the coal was 10-12%.
Prior to coking, the briquets ware dried for 90 minutes at 150~
Temperature was then increased to 9500 at a rate of 30 per
minute. In the heating process the solidity of the briquets
changes considerably. One of the most important factors caus-
ing this change is the nolidification of the coal material
(change of the cohesive powers)..In heating up to a certain
temperature the hardness of the coal is increased (Ref 2).
For this reason the forming coke briquets are more solid than
the initial briquets. Moreoverp also the forces of interaction
between the grains at the contact surfaces (change of the ad-
Card 1/3 hesive power) change. This change depends on the character of
On,the Process of the Formation of Coke From Lignite SOV/153-2-3-27/29
Bricuets
the chemical transformations during heating and it is closely
conneoted with the shrinkage of the coal particles. Distinct-
ion must be made between the shrinkage of the individual
grains (>,) and the shrinkage of the entire briquet (XI).
The solidity of the coke briquet at therwise equal conditions
is the higher the higher the ratio-Z
X . Figure 1 shows tho
connection between the solidity of the coke briquet and the
shr~,nkage of the volume for a seri*B of coal samples. In this
connection the more solid coke is obtained the more finely
lignite was crushod. Table I shows the connection between the
degree of the crushing of coal, the solidity and the one-
dimensional shrinkage for various coke briquets. Also pressure
exercises a considerable influence on the shrinkage of the
coke briquets. This connection is shown by table 2. Shrinkage
does not only depend on the coal properties but also to an
important degree on the method of heating. Rapid heating
accelerates the shrinkage of the individual grain ( X). By
this fact the contact between the grains is disturbed and the
solidity decreases due to a decrease in the shrinkage of the
Card 2/3 total briquet (;k!).The quality of coke may be improved by
On the Process of the Formation of Coke From Lignite SOV/153-2-3-27/29
Briquets
carrying oit the coking iA two steps in order to warrant
a constant contact between the individual particles. The
entire complex of problems is discussed in detail in this
paper. There are 2 figures, 2 tables, and 9 references, 7 of
which are Soviet.
AS20CIATION: Institut gl;iryuchikh iskorayemykh AN SSSR i Moskovskiy gornyy
institut - Kafedra obogauhcheniya poleznykh iskopayemykh
(Institute of Combustible Minerals of the AS USSR and Moscow
Inatitute,of Mining, Chair for the 'Enrichment . of Minerals)
SUBMITTED: July 25, 1958
Card 3/3
XOCHANOVA, L.A.; AIMMEVA, I.A.; SHCMMIN, Ye.D.; LIKHTMAN, V.I.
Regularities in brittle fracture of pure and allo7ed monocr7stals
of zinc.-Inzh.-fiz. shur. no-7:45-52 J1 '59. (MIRA 12:10)
l.Institut fisichaskoy khimii AN SSSR, g.Moskva.
(Zinc cr7stalo--Testing)
5(4)
AUTHORS; Kochanova, L. A., k-ndreyeval 10 Att SOY/20-126-6-44/67
C"chukinp Ye. D.
1.11
TITLE: on the Brittle Rupture of Pure and Alloyed Zinc Single Crys-
tals (0 khrupkom razryve chistykh i legirovannykh monokrist-
allov tainka)
PERIODICAL: Doklady Akademii nauk SSSR, 1959, Vol 126v Nr 6, PP 1304-1307
(USSR)
AB57RACT: In the papers (Ws 1-4) the authors investigated the rupture
of pure zinc single ci-ystale along the cleavage face (0001)
and fou,,id that the product of normal and cleavage tensions is
c,~aatant - ;:Oro - const v K2. The results are given for tech-
nical, zinc and t~r zinc alloyed up to 0-5 % with Cd and oom-
pared with the results obtained for pure zinc (Table 1).
Figure 1. shows the values of rupture tension for pure zinc at
-1960 G and various angles between crystal axis and face
(0001) as well as the effect of a mercury film upon the
strength at +200 C. Table 1 shows that K increases with in-
creasing. amount of ae~Jitions. Figure 2 shows the values of
Card 1/3 rupture tension T for amalgamated and non amalgantated pure
On the Brittle Rupture of Pure and Alloyed Zinc SOV120-126-6-44167
Single Crystals
zinc single crystal in dependence on the crystallographic
shear a. The characteristic break of the deformation curve
at a0 (flow limit) as well as-the increase in strength for
a < a0 connected with the latter are due to the increase of
the incomplete shears (dislocation accumulation). a0 de-
creases with increasing amount of alloy components. Table I
gives the degree of inhomogendty f - ao/ao' (at, refers to pure
zinc). As shown by figures 3 and 4, the experimental results
are in good agreement with those obtained by A. Deruyttisre
and G. B. Greenough (Ref 5). p r - K 2 holds for both amalgam-
ated and not amalgamated zinc s ngle crystals of varying
purity. The values for K are reduced by 50 as a result of
the reduction of the free surface activity 6. The authors
thank V. 1. Likhtman for his a4vice. There are 4 figures,
1 table, and 13 references, 12 of which are Soviet.
Card 2/3
On the Brittle Rupture of Pure and Alloyed Zinc SOV/20-126-6-44/67
Single Crystals
ASSOCIATION: Institut fizichaskoy khimii Akademii nauk SSSR (Institute of
Physical Chemistry of the Academy of Sciences, USSR)
PRESENTED: February 17, 1959, by P. A. Rebinder, Academician
SUBMITTED: February 10, 1959
Card 3/3
TAYTS, Ye.M.1 ANDRIMA, I.A.
Production of coke from coals of lower stage metamorphiPm. Koks
i khim. no.12:22-25 160. (MIRA 13:12)
1. Institut goryuchikh iskopayemVkh AN SSSR.
(Coke)
28094
s/181/61/003/009/028/039
B104/B102
AUTHORS: Bryukhanoval-L. S., Andreyeva, I. A., and Likhtman, V. I.
TITLE. Rupture strength of metals and the effect of surface-active
metal melts on it
PERIODICAL: Fizika tverdogo tela, v. 3, no. 9, 1961, 2774-2778
TEXT: The temperature and time dependences of the strength of amalgamated
zinc and gallium-coated cadmium has been investigated. The wire samples
were zinc crystals, polycrystalline zinc, and cadmium. Their diameter was
I mm and their length 10 mm. A contact method was employed to coat the
zinc samples with a thin Hg film (5 4) in a mercury-nitrate solution. The
cadmium samples were electrolytically coated with a gallium film. A rela-
tion between the lifetime and the angle X. between the basal pla-,e and the
sample axis was clearly established for differently oriented zinc single
crystals. The values for logT (T denotes the lifetime in sec) for every~k-
and different loads are located on straight lines. According to S. N.
Zhurkov, the activation energy U of the destruction is given by U = U " YPI
f 0
where y denotes a structure factor and P the load. Test results urnish
Card 1/3
8/10 03/009/028/039
Rupture strength of metals and ... B 10 4 7!020
UO . 35 kcal./mole. This value agrees with those of other authors. Tests
of zinc single crystala withXft5Oo at 20 and 500C show that for different
loads the time elapsing till the sample ruptures is considerably
diminished by the Hg film (from several days to seconds). The same results
have been obtained for amalgamated polycrystalline zinc and gallium-coated
polycrystalline cadmium samples. It was found that the empirical relation
'r exp UO - 7P cannot be used to estimate U and y for Zn and Cd
0 ( kT 0
samples coated with Hg or Ga films. The effect of the films is not
connected with a thermal activation but is the result of adsorption of
surface-active atoms. The presence of surface-active substances will not
affect the length of the destruction process as long as the normal componat
of stress is small. However, if this component reaches a value
~:orrasponding to the tensile strength of the metal, the surface cracks will
grow rapidly and cause the sample to rupture. The rate of growth of these
cracks Is related to the rate of surface migration of the surface-active
substance. It is not connected with any thermal activation of the
destruction process. There are 6 figures and 10 references; 9 Soviet and
non-Soviet. The reference to English-language publications reads a6
Card 2/3
TAYT$v Ye.M.; OKIADNIKOV, V.P.j RAVICHp B.M.; ANDREYFVA, I.A.
Ketal.lurgical and smokeless fuel from gas coals and weakly coking
coals. KhimA takh.tc;p.i masel 6 no.3:31-36 Mr 161. (MIRA 240)
1. Institut goryuchikh iekopayemykh im. G.M. Krzhizhanovskogo AN SSSRp
.Vostochno-Sibirskiy filial Sibirskogo otdeleniya AN SSR i HoskovskiT
gornyy institut im. V.I. Stalina.
(Fuel) (Coal-Carbonization)
YEFASHKIN, G.V.; ANDMYEVA, I.A.
Methods for evaluating the mechanical strength of a briquetted
fuel. Zav.lab. 27 no-9:1149-1150 161. (MIRA 14:9)
1. Moskovskiy gornyy institut imeni. LV. Stalina.
(Briquets (Fuel))-Testing)
11
S/020/61/139/002/011/017
KIM B104/B205
AUTHORSt Likhtman, V, I., Bryukhanova, L. S., and Andreyeva. I, A.
TITLE: Long-time strength of metals
PERIODICALt Akademiya nauk SSSR. Doklady, v, 159, no- 2, 1961. 359 -
362
TEXTt The effect of surface-active metallic melts on the mechanical
properties of high-malting metals has been studied in the authors'
laboratory. It could be shown on single crystals of Zn. Cd. and Sn that
the sudden loss in strength and plasticity ocTurriag under the action of
a thin film of a melt on a single crystal beling stretched at a constant
rate, is related neither with the grain boundaries,. nor with the dis-
solution of the high-melting metal in the mol". nor with a chemical reac.
tion between the metal and the basic meta:, which leads to an interme-
tallic compounds The mechanism of this effect consists in a considerable
adsorptive decrease of the surface energy of the high-melting metal
(Rebinder effect) both on the external surface and on *the two surfaces
of' the crack. S, N, Zhurkov et al. (ZhTFI, 23~ '677 (1953); DAN, 101i 237
Card 114
S/020 61/139/002/P1,1/017
Long-time strength of metals B104/B205
is reached. This corresp ends to the discontinuity on the curve lo gt -
f(P) rhich, in turn, corresponds to the transition from the destrac-
tion mechanism based on thermally activated prb-cesses to a mechaniam
based on an increase in the surface energy whi'ch'is brought about by the
active melt. The second mechanism occurs not before a certain ELtress is
attained. This corresponds to the braking strength of the metal which
is reduced in the presence of the active melt. The authors thank Ye. D. 1
.Shchukin and L. A. Kochanova for discussions. There are 4 figures and
10 referenceej 9 Soviet-bloc and 1 non-Soviet-bloo. The reference to
English-language publications reads as follows: K. H. 1.1ann, et al. J.
Phys. Chem., 64, ~5'1-(196o).
ASSOCIATION:. Institut fizicheskoy khimii Akademii nauk SSSR (1e.2titut
of Physical Chemistry of the Academy of Sciences USSR)
PRESENTED: March 15, 151)1, by P. A. Rebinder, Academician
SUBMITTED: March 6, 196-,,
Card 3/4
YARKHO., N.A.; RAVICH, B.M.; ANDMYEVA, I.A.
h-oduction of coke from gas coals.
Koks i khim. no-3:11-12 162.
(MIM 1513)
1, ~bskovskiy gorzV:f inatitut,
(Coke)
YEFASHKIN, G.V.; ANDREYEVA, I.A.
Selection of optimal parameters in tbermal coal briquetting.
Khim.i takh.topl.i masel 7 no.408.ftO Ap 162. (MRA 15W
1. Moskovskiy gornyy institut.
(Briquets (Fuel))
TAM, Ye.M.; ANDREYEVA, I.A.
Strength of brown-coal coke. Trudy IGI 20:208-214 161
(MIRA 17:8)
1. 0tvetstvonnyy redaktor zhurnala "Trudy Instituta goryuchikh
iskopaysmykh" (for Tayts).
'i!- i., ~), Ye.M.; BF0,141"VETSf 1 E. '. L. -',*"' '-,!;V A,-.,! A.
Obtaining plastic and binding, materials from, fossil coals. Khim.i
takh.topl.1 masel 8 no.2124-27 F 163. (AURA 16:10)
-ji-62534-65 /S,7 Ir W- I x w
n- w` -a zcuman$
$- A2'--- 20;
'A
L: ff Journ 4tataU :1,949 -1 me, o s based.on t e", a t. at,t t
t- th d i f h
h, Ct
CfeY "S A-- ii W --- ----
t --boa
A
ing, vm
MIA
Ali LIN, wo 0-
AN
a--u- r4tia-ce'':
t
NMA~-,
L 62534-6,5
'V -
~An~ -fig' i-1--of-t -a-
atif 4,1A
-yield i' h
that exper ments" f- an ours -ident cal..re6ults ~'wh le-1
ion
disforte ency -of -thajo i 1.,to. -~.shrink: e' 46n un
experimenti--the, resats-'are d W_,_ihe,~_iend
-loac :Measurements- f- s ace nsion are-shown,
der exti~6moly:hlgh b 0 ur
ithe.Enclosure f6r,pure zinc~:and .for..zinc-foil covered with various quantities* of
gallium.' Graphs Are-also given'for surface tension and absorption as functions of-
the concentration of gallium in. z inc and. for.the relationship, between.. eloneation of
V) andjoad at,3800C. "The authon are.(
zinc foil coated with lead (002~., leeply grate-~;-
'Iful to Profi3sor A. A,-Zhukhnovitaki Doctor of pbysical and mathematical sciences
t-7~
!Ye D Shchukin and CandidaLe ciem-cal sciences L. A. Kochanova for valuable comJ
3' 1 i ~
ion of the results of the work." Orig; art. has-.. 4 figurab~,
1 table.
&Pfl~
tut-fizi s -Ins
I ASSOCIATION; -Insti Moscow 0
Chemist AN-gn
ry
SUBMITTED f 2 SUB -CODE,.- 'S ~W.
ENCL% 0
150at64. S
NO RE F SOV. i. ~005 OWERi 002
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"AP50l2648
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ENCLOSURE:-- 01
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..Relations
t e: elongatlo~ ~ 6~
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IV
coated with gallium Mi 0 and'l."
load at'
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.
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P, .
i V~
Lllrj" I . V . 1 ~ ; ANO'JA , ',. 'I' . ; A I ~~',)F YEV A, - .41 . -, 1, , P. A., akadem I k
Dr-rea.c7e cf ~ho surfa26 tension ol" s,~Ud motals -wten atovis Of - .
~Ilvfa, ''o-activo motitli t~ molto are alsorbod on thaIr surfaco.
Dokl, AN SSSR 1(jr) nk).4:867-870 F 165.
(1411RA IS.-2)
1. lmiLitwl fitiolic-okov k-hiriji Ari S"t"',S11.
TAYT3, Yeflm Muiseyovich; RAVICH, Borio Mikhaylovich; ANDREYEU
Irina Aleksandrovna
[Coke aixl iron coke prepared by the briquetting process]
Koko i zhelezokoks no oanove briketirovaniia. Moskva'
Metallurglia, 1965. 172 p. (MIM IS: 7) .
ljZh
of' prf~pk_ it _~.'J.r)r deposit
tV p-, e 1 11 mi na v~ lrit~i3., ttz ng. J~~v. zmv.~ gor. zhur.
IS
-194, -)6 165. 9
F. n,.7, -T
1. V.Sz~Soyu7n),v -'.n5t pls~,clnt-v~,-' y-vnryshlennnstl (for
_)C.l O~n r.j~j n oy
2. go~-
Fokcmendovana kafrdmy
encrprtlkl Vsesoyinnopr z4-~nriv-,yo
prL-V.shl ennfs t!
OURCE-CODEi--UR/015Y[661666/0-09/kO6t/AO07 1
ACC Ms AR6035407
AUUMOR: Likhtman, V. I.; Bryukhanova, L. S.; Andreyeva, I. A.
TITLE: Measurement of surface tension of hard metals in the presence of adsorptioa
layers of surface-active metallic alloys
1SOURCE: Refs zhe Metallurgiyal Abet 9A41
REF. SOURCE: Sb. Poverkhnostn. yavleniya v rasplavakh i voznikayushchikh iz nikh
tverd. fazakh. Nallchik, 1965, 438-442
TOPIC TAGS: surface tension, alloy, adsorption, surface active coating, metal surrak;tz;,
fABSTHACT: The author determined experimentally the surface tension a of solid Zn whi"
i it
:adsorbe;l different amounts of Ga on its surface. a was determined by the Ta-an zero
:creeD method. A foil of Zn 7 x 10-3 cm thick was used; the Fa film (5 X 10-7 _
111 x ;0-5 cm) was deposited clectorlytically.. a experiences maximum reduction vhen the
0Ga film thickness is 0.1 us A tentative estimate of the depth of the diffusion'Dene- 1
1tration of Ga and Zn makes it possible to propose that the maximum reducticn of a
corresponds to a monomolecular layer of Ga on the surface of Zn. 3 illustratiens.
Bibliography, 7 titles. (From RM Khi-.) [Translation cf abstract]
i
SUB dODE'z_'-;2O, 11
1/1 um 669.j32.
ANDRMVA, I. B.
"An Investigation of the Stresses In the Cylinders of Hydraulic Presses." Ciand
Tech Sol, Moscow Machine Tool and Tool Inst Imeni I. V. Stalin, 29 Doc 54. (VM,
21 Doc 54)
&xrvey of Scientific and Technical Dissertations Defended at USSR Higher Zfteational
Institutions (12)
so: sum No. 556, 24 jun 55
ANDRMVA, I.B.-, kand.takhn.nauk
Investigating parameters of support rings for hydraulic press
cylindars. Sbor. MOSSTANKS no.4:124-138 158. (mnu 12:4)
(Hydraulic presses)
AUTHORSt Aridreyava, I.B. and Udintse~,, G.B. SOV-11-58-10-1/12
TITLE! The Structure of the Bot4om of the Sea of Janan According
to Data Obtained by th-~ -Vityaz'" Expedition 'Stroyeniye
dna Yaponskogo morya po dannym, 44ssiedovaniy ekspedits'.i
na `V'ttyazel
PERIOMCAL: Izves+.,-'ya Akademij naule SSSR, Seriya geologicheskaya, 1958,
Nr 10, pp 3 - 20 (USSR)
ABSTRACT: The seismo-accustic method of sea-bottom study was applied
on a large scale by USSR for the first time in 1954 by the
Institut Okeanologii AN SF'R (The Institute of Oceanology
of the AS USSR) in the north-western part of the Pacific
Ocean and in 1957 - for the study of the bottom of the Sea
of Japan.. The research ship "Vityaz'" was especially built
for this kind of research. Her equipment and instruments
were devised by the Akiisticheskiy Institut All SSSR (the
Institute of Acoustics of the AS USSR). The authors de-
scribe the =93UltS of these studies -which were largely
based on methods developed abroad /Ref, 9 _25, such as
the study of reflected and refract~~_d sound-waves produced
by explosive charges dropped to the sea bottom, This way
Card 1/2 three strata were discovered on the bottom of the western
SOV-11-58-10-1/12
The Structure of "he Bottom of the Sea of japan According to Data Obtained
by the "Vityazl~' Expedition
part of the basin of the Sea of Japan. The first is a
superficial sedimentary stratum 1. to kr, thick. The
second Is an underlying beshltic stratum,6.5 to 7.5 km
thick~ The third is ccmposel of ultrabastuts . It was
also found that the primary complex-tectonic relief of
the Sea of Japan basin was covered by a thick smooth, se-
dimentary layer. There are 3 tables, 1 MaP, 4 diagrams,
7 graphs and 23 references, 8 of which are Soviet, 12 US,
1 Japanese and 2 English.
SUBMITTEDi April 7, lg;ia
I
ASSOCIATION: Institut okeanologii AN SSSR (The Institute of Oceanology
of the AS 11~05R)
1. Oceanograp,~--j~kpai 2. Ooean bottom--knalysis 3. Seis=c
. I
Waves-.-Applica 14 So,,. ..---Applicatiors
f
Card ?/2
AUTHORSt Sysoyev, K. N., Udtntsev, G. B., 2o-119-3-52/65
Andreyeva, I. B.
TITLE: The Results of Seismic-Acoustic Exploration of the
Bottom of the Japan Sea (Rezul'taty seysmo-akustim
cheskikh issledoyaniy dna Yaponskogo morya)
PERIODICAL: Doklady Akademii Nauk SSSR, 1958, Vol. 119, Hr 3,
PP- 575-578 (USSR)
ABSTRACT: The two institutes mentioned below carried out the
mentioned investigations on the ship "Vityal" in 1957-
The mentioned method contributed already (Refs. 1-3)
to the collection of important material from various
oceans. In the course of earlier works (Ref. 4) the
main features of the tectonics of the Yaponskogo sea
and the distribution of the ground deposits could be
found out roughly. Therefore, it was of interest to
continue these works. The seismic-acoustic investigaw
tions were carried out along 2 cross sections in ver.
tical position to each other (Fig. 1). The working
Card 1/4 method corresponded in general to ref. 1. Explosions