SCIENTIFIC ABSTRACT KUZNETSOVA, YE. A. - KUZNETSOVA, YE. S.
Document Type:
Collection:
Document Number (FOIA) /ESDN (CREST):
CIA-RDP86-00513R000928220019-8
Release Decision:
RIF
Original Classification:
S
Document Page Count:
100
Document Creation Date:
November 2, 2016
Document Release Date:
June 20, 2000
Sequence Number:
19
Case Number:
Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
File:
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Body:
Heat-Reointant Material Prom.(Cont.) SOV/5685
from sIntored aluminum powder. The technology for the manu-
facture of aluminum powder and briquets is described as are
aintering: processes, and pressing, rolling, drawing, and
sheet-stamping methods.. The dependence of the properties of
semifinished products on the aluminum-oxide content of the
powder, on the degree of hot and cold deformation, and an the
stresses of pressing is Investigated. Also Investigated are
the mechanical and corrosive properties of semifinished pro-
ducts, the mechanism of hardening of sintered aluminum powders
the reasons,for blister formation, and the possibility of
recrystallization. Data on sintered sauminum alloys are included.
No personalities are mentioned. References in the form of
footnotes accompany the articles.
TABLE OF GONTENTSt
Introduction 3
Gerchikova, N. S., N. 1. Kolobnev, M. 0. Stepanova, and 1. N.
Pridlyander. Effect,of Aluminum-Ox1d_e-VMU_dt__oh the Structure
C ard 2/15
Heat-Resietant material From (Cont.) SOV/5685
and Properties of Pressed Articles From SAP (SIntered Aluminum
Powder) 5
Stepanova,1L-Q., G.,P. Zonkov, Yo. M. Lekarenko, and L. A.
lmitrr~- Aluminum Powder for SAIY
7
The work,was carried out wit4 the participation of 0. N.
Pokrovskaya, Chief of TsZL; R. V. Westerenko, Acting
Chief of the Shopand Engineers L. 1. Kibitova, N. D.
Chumak, and X. I. Ko lobnev,
Matveyevp B. La M. 0. Stepanova, and N. I. Kolobnev. Effect
of Specific PresiV-ki3-1Z-7r6ffbTn-g on Properties of Semifinidh-
ed Products From SAP 30
MatveyevA B. I., & 1. Nomofilov, and V. A. Shelamov. Press-
Ing of Semifinished Products From SAP 36
The work was carried out with the participation of Engi-
6eers A. V. Fedotova and 1. R. Khanova, and Senior.Teah-
nician L. S. Perevy&zkih.
Card 3/.5
. ...... ......
2- C,
Heat-Resistant Material From (Cont.) sov/5685
MurzovA A. 1. (Candidate of Technical Sciences) S. I.
Nomorilov (Engineer), and V. A. Sholamov (Engineer]. Rolling
of Sheets From SAP 50
The work was carried out with the participation of Engl-
neer R. F. Filimonova and Technicians V. 1. Sverlov and
0. A. Kolonov.
Matvayev, B. I., N. A. Davydova, and 1. R. Khanova. Study of
the Effect of the Degree of Deformation on the Properties and
Structure of Preened Seadfinishod Products and Cold-Rolled
Shoots From SAP 59
The work was carried out with the participation or L. Si
Perevyazkln and 0. A..Kolonov..
Davydov, Yu. P.# and 0, V. Pokrovakir. Stamping of Sheets From
SAP 66
Litvintnev, A. I., and E. P. Belova. X-Ray Diffraction study of
the Oxide Phase in SAP 77
Card 4/5
Heat-Resistant Material From (Cont.) SOV/5685
13orelik, S. 3 A. 1. Litvintsev, and E. P. Belova. Speoial
Featui~es of R;cIrystallization of Sintored Aluminum Powder (SAP) 88
Litvint e A.,;., and V. M.-Polyanakiy. On the Nature and
Machani:mvof Bl,stor Formation In SAP 100
Matveyev, B. 115~, P. V. Klahnov, and I. R. Khanova. Proportion
of Somifinichad Producto From Sintared Aluminum Powder 108
Krivenko, R. A., Ye. A. Kuznetoova, and 1. N. Vridlyan4er.
Sintered Alum1nUm_x17"v__ 113
AVAILABUs Library of Congress
JA/wro w
10-27~il
Card 5/5
ACCESSION NR: AT4012727 S/2961/63/000/002/0153/0159
AUTHOR: Davy*dovs, No Ao;,Kuzn*ts*va,,._Yp;-..A.#, KstVey*V, Be Is, Gellman. A* A* I
TITLE: Treatment of SAP (sinterod aluminum powder) waste
SOURCE: Alyuminlyevy*yo splavy*. Sbornlk statey, no. 2, Spechenny*ya splev".
Moscows 1963. 153-159
f
TOPIC TAGS: powder metallurgy, aluminum, aluminum powder, sintered aluminum,
sintered aluminum powder, aluminum powder waste, SAP
ABSTRACT: SAP waste Is formed during the production of blanks, so that utill-zation~
of this waste Is very Important for lowering the costo The authors studied dif-
ferent methods for treating SAP waste. Pressed or rolled packs of SAP waste can
be made with minimal losses. For better results, however, the waste should be di"*
integrated. Hamer ml I Is cannot be used as they only dent the metal . The authors
found that ml I I I ng of SAP I nto shavi ngs 0. 2-0.5 mm th I ck and 1-5 mm w1 da wi th a
density of 0.3-0.5 9/cc and further disintegration in mills leads to good quality
material having a 15.2% aluminum oxide content. The further processing of waste
(stamping temperature, pressure, etc$) Is also of great Importance. increasing
the temperature, for Instance, from 450 to 580C leads to an Increase In ultimate
strength from 36 to 39 kg/sq mmg and the relative elongation Increases proportion-
C~Qld 1/2
- ------------ - ----------
ACCESSION NR: AT4012727
ately. Higher temperatures lead to better sintering and redistribution of aluminum
oxides The best temperature for heating blanks, therefore* Is 550-580C. By fola
lowing the requirements listed In the article, secondary SAP can be produced having
the same quality as primary SAP. Orig. art# has; I figure and 5 tables.
ASSOCIATION: none
SUBMITTED: 00 DATE ACQ: 13Feb64 ENCU 00
SUB CODE: ML NO REF SOV: 000 OTHERt 000
Card 2/2
ACCESSION NR: AP4005830 S/0129/63/000/012/0035/0037
AUTHOR: Sidorin, 1. 1.; Fridlyander, 1. N.; Silaycia, V. I.; Kuznetsova, Ye. A.
TITLE; Investigation of the structure and properties of SAP-) material
SOURCE: Metalloved. I termichs obrab. metallov, no. 12, 1963, 35-37
TOPIC TAGS: sintered aluminum powder, SAP sheet, SAP sheet structure, SAP
sbeet strength, SAP sheet ductility, SAP cold-rolling, SAP hot rolling, SAP sint4W
ering SAP annealing, SAP structure, SAP property, SAP alloy
ABSTRACT: The authors have Investigated the effect of technological conditions
especially the temperature of preliminary sintering and annealing, on the struc!
ture and mechanical properties of sintered aluminum powder products at higher
temperatures (especially above 500C). The tested material was first sintered at
temperatures of 500 and 650C for 2 hours, hot pressed at 500C under a specific
pressure of 55 kg/m2, pressed at 500-550C with 89.5% deformation, hot rolled
at 500C with 70% deformation, and cold rolled with a deformation of 50%. Pre-
liminary sintering at higher temperatures (650C) decreased the strength and hard-
ness of the semifinished product and Increased the percentage of elongation* This
effect may be due to recrystallization In microvolumes. The texture formed as a
resull of pressing and hot and cold roiling of this material was very stable up
Card /2
ACCESSION NR: AP4005830
to 650C. The mechanical properties of pressed and rolled SAP-1 material deterlora-;
ted after annealing, and micrecracks appeared. The temperature of annealing lead-'i
Ing to microcracks depends on the temperature of preliminary sintering of the
briquets. It was concluded that an Increase In the sintering temperature up to
650C markedly Increases the degastfication coefficient and consequently reduces
the tendency to microcrack formation during annealing while widening the tempera-
ture interval of the stability of the mechanical properties of the annealed and
rolled sheet of SAP-]. Orige art. has; I figure and I table.
ASSOCIATION: none
SUBMITTED: 00 DATE ACQ: O9Jan64 ENCL: 00
,..SUB CODE: ML, MA 90 REF SOV: 000 OTHER##' 000
Card 2/2
7!,
777
ACCESSION NR: AT4012711 S/2981/63/000/002/0041/0047
AUTHOR: Kishnev, P. V.; Xuzndwvat Ye. A.; Vlasova, P. T.
TITLE: Effect of heating aluminum powder prior to*bricket formation on the mechanical
properties of pressed blanks
SOURCE: Alyuminlyovy*ye eplavy*. Sbornik statey# no. 2. Spechenny*yo splavy*.
Moscow, 1063, 41-47
TOPIC TAGS: powder metallurgy, aluminum powder, aluminwn bricket. aluminum
blank, bricketting
ABSTRACT: It Is well known that aluminum powder contains numerous sources of gas,
such as the fat added during powder pulverization in ball mills, as well as moisture.
This gas Interferes with the manufacture of finished products from pressed aluminum
powder, so that Uie powder should first be heated to help eliminate the gases. The
present authors attempted to determine the optimal conditions for heating aluminum
powder by measuring the content of fat$ H2 and A120~, as well as the mechanical pro-
perties, following both cold briquetting and treatment at 100-600C. The lowest quantity
of gas was detected in powder hold at a temperature of 600C for 6 hours. The mechanical
properties of pressed blanks did not change when the powder was heated up to 600C. An
I_C,,,d 1/2
ACCESSION NR- AT4012711
increase in temperature up to 600C, however, led to lowering of the ultimate strength
and increase In relative elongation. Formation of brickets from heated powder allows
one to obtain a monolithic high-quality product with a density of 2.6-2.7 kglsq. mm.
7bis permits elimination of additional pressing operations required during cold formatia7i
of brickets, thus lowering the load on the presses. Orig. art# has: 6 figures, 4 tables,
and 1 formula.
ASSOCIATION: None
00 -DATE ACQ:.13Fob64 ENCL.. 00
!---.--SUB CODE: MM NO REF SOV: 000 OTHER: 000
ACCESSION NR- AT4012714 8/2981/0/000/002/0064/0070
AUTHOR; Xuznctsova, Ye. A.; Gellman, A. A.
TITLE: Perfection of the flow process for manufacturing blanks of SAP
SOURCE: Alyuxniniyovy*ye splavy*. Sbornik statey, no. 2, Spechenny*ye splavy*.
.Moscow, 1963, 64-70
TOPIC TAGS: powder metallurgy, stntered aluminum, aluminum powder, sintered
aluminum powder, flow process, SAP, aluminum powder pressing
ABSTRACT: Up to the present time, the manufacture of pressed blanks from SAP
generally Includes the steps of cold briquetting, additional pressing or sintering
under pressure at a temperature of 450-500C, and final pressing of the blpa*. This
additional pressing of the briquet Increases the density and produces partial sintering.
Recent studies, however, have led to several innovations, such as briquetting of heated
SAP and pressing of SAP at high temperatures. The present authors therefore Investigated -
the effect of the pressing temperature on the structure and mechanical properties of the1
briquets or blanks, and the possibility of shortening the entire operation by eliminating
the additional pressing of the briquets, Studies of the microstructure, hardness and
electrical conductivity were carried out on briquets pressed at 460-600C from g~ado
1/3
CCESSION NR: AT4012714
2
~APS-l SAP containing 7.4% A1203, with additional pressing at 40-60 kg/mrn . A1 ~fgh
briquetting temperatures, the conductivity and hardness were both decreased, and
additional pressing had little effect. The effect of pressing technology and A1203 content
on the mechanical properties is shown In the Enclosure. The authors conclude that when
briquets are made from heated powder, the briquet itself can serve as the blank, sinpe
Additional pressing has no significant effect on the structure or properties, Orig. art.
has: 4 figures and 6 tables.
ASSOCIATION: None
-SUBMITTED: 00 DATE ACQ: 13Feb64 ENCL: 01
SUB CODE: MM NO REP SOV: 000 OTHER: 000
2/3
ACCESSION NR: AT4012714
Fig. 1 - Relationship between the Al.,Q,
. "
content and the ultimate
ation
stren
th and relative elon
g
g
of rods (60 MM In diameter), Q
pressed under voxious technological
conditions.
o - pressing without a stopper; 0
>"
%bR
x - usual conditions
-& - pressing with a stopper a 0
3/3
Card
ENCLOSURE:01
L W954-66 Vr(m)/IWP(k)/T/EWP(V)/DIP(t)/FTI IJP(c) JII/JD/111M/~ID
AUTHOR: Fridlyander, 1. N.(Doctor of technical sciences); guzneLqQYa. Ye. A,;
Da=dnva- N, A.; Bubenshchikov, V. S.: Nabatova, I. A.
ORC: none 4
TITLE: Delayed failure of A Zn-Mg alloy welds
SOURCE: Alyuminiyevyye splavy, no. 4. 1966. Zharoprochnyye I vysokoprochnyye splavy
Oleat-resistant and high-strength alloys), 120-134
TOPIC TAGS: aluminum alloy, high strength alloy, metal weld -A-1
mechanical failure,-d=
metal property, zinc containing
alloy, manganese containing alloy/-4T�ftx1u=iuum-aftc7- AT9 aluminum alloy
MU
14 A F'.',Al OIL-
ABSTRACT: The behavior of n 4r stress in air and in
ATsM and ATsYU aKoy welds u
argon has been investigateZ The respectivie content of alloying elements in alloys
was: zinc 4.5 and 4.3%, magnesium 1.8 and 1.5%, manganese 0.6 and 0.3%, and copper
0.75 and 0.1%. The contents of zirconium (0.17%), iron (0.32), and silicon (0.25%)
were the same In both alloys. 1~e welds were made with AMg6 and Mg4 alloy filler
wire. The specimens were stressed (below the yield strength) by bending in a special
device. It was found that the duration and temperature of aging affects the suscept
bility to delayed failure, especially in ATsM alloy welds. Specimens of this alloy
aged at 20C or at 90C were not susceptible to delayed failure, while specimens aged
Card 1/2
L 40954-66
ACC NRt AT6024921
at 100 (100,br) or 120 (10 hr) and 175 (1 hr),were very susceptible. The suscepti"
bility of ATsM was also affected by the filler wire. The specimens welded with
AMg6 alloy filler wire were less susceptible to delayed failure than those welded
with AMg4 alloy wire. The susceptibility of ATsMIU alloy was lower than that of ATaM
alloy and failure was observed only on the specimens welded with AMg4 filler wira and
aged at 120C for 10 hr + at 175 for I hr. Specimens of ATsM and ATsKU alloys tested-
.in argon remained intact for 50-
V0 days. Even when rem%ved from argon and left
under stress in air, no SI!S ingloccurred within 90 da 9. It appears that the delay64
k _ y I
failure of ATsM and ATsMU alloy welds is a result of str corrosion under the
effect of air mositure. The optimum aging conditions for both"alloys were 90C for
1.00 hr. Orig. art. has: 6 figures and 9 tables. [TDI~
SUB CODE: 11, 13/ SUBM DATE: none/ ORIG REFi 001/ OTH REF: 0061 ATD PRESS
Card 2/2
L 4Zo4L-66 i
ACC R-R-i. 0'
ITIEWRct TX UP(c) in1ju-
N) SOURCE CO.DEt UF
AUTHORx Fridlyanderp L X.; Kusnetsorvap Ye. A.; Wbenshchikovp V. So
_14-
143/0151
ORGt none
TITISI Kinetios of aging of an alloy of the Al-Zn-M& system
1-7 47 -1 1
SOURCES Alyuminiyevyyo aplavy, no. 49 1966. Zharoprochnyye i vysokoprochnyve oplavy
(Heat resistant and high-strength alloys), 143-151 1 1
TOPIC TAGS$ aluminum alloyp zinc alloyp magnesium containing alloy., metal aging,,
A'Lko~' 'S"7~F*L
ABSTRACT: The kinetics of aging of an alloy of the Al-Zn-Mg system was studied at
'various temperatures immediately after quenching (30 min at 4-SOOC* cooling in water)
and after two months of aging. The alloy had the con~osition (in %)2 Zn 4.35, Mg 1.57,
14h M59 Zr 0.17t Fe 0.27, Si 0.17, Ch 0.021, bal .M - The alloy was found to be
characterized by a very long aging pariocl at 200C, probably measured in years. The 1,
set of mechanical properties and the nature of change in electrical conductivity cor-.'
respond to the zone stage of aging. Transition to phase aging may occur at a tompori-
ture as low as 50-700C; it is possible that if the holding time is increased# this -t
transition will shift toward lower temperatures. Preliminary zone aging has an appr~o-
ciable effect on subsequent aging at high temperatures. It is postulated that some 6f
the zones change in an a1lotropic manner (or in any other manner related to the zonep)
into metastable particles, and the particles thus formed have a greater thermal stabi-
2
L 47w1-66
ACC NR% AT6024923
lity than those formed from the nuclei directly in the matrix. This machanisIm accounti
for the effect of atapwise aging. Orig# art. haul 6 figures
SUB CODES Ii/ SUBM DATES none
j_qj127-67 EWT P W/ETI/v" P (k) lit) j J."
ACC NR& AP6028585 SOURCE CODE-. UR/0129/66/000/008/0020/0024
,AUTHORt Kuznetsova, Y Ia. A. Bubensh ch1kov, V. S.; Davydova, N. A.; Habatova, 1. A.
ORG: none
TITIX: The influence of aging an delayed fracture of welded parts made from alloys of
the Al-Zn-HR7system 1. f
7-Y 17, -
SOURCE: MetAllovedeni" i termichaskaya obrabotka, metallov, no. 9, 1966, 20-24
TOPIC TAGS: aluminum a#oy, welding cracking, mechanical property, bending, fracto-
giaphy, argon, heat treatment, precipitation hardening
ABSTRACT; The effect of.aging on delayed fracture was studied in welded Al-Zn-Mg al-
loys, Two alloys were investigatedi alloy No. 1--4.5% Zn, 1.8% Mg, 0.6% Mn, and 0.051
Cuj,alloy No. 2--4.3% Zn, 1.5% Mg, 0.3% Mn, and 0.1% Cu. Welded pieces were tested
undr tilever bending in air and argon at room temperature. Two different welding
r a a of
nj m= Mg, 0.65% MO and-Ms4 .0.4% 65% Mn) were used. Mecha-
ni 1 properties were given for various aging tHatment;. 'The percentage of eamples
fractured in air, given as a Ametion of-cantilever end d splacement, initially in-
creased sharply, but dropped when plastic deformation &curred due to elastic stress
relaxation. At small displacements U.8-1.9 m-m-T, -corWaponding to 0.6 au,2, the aver-
ago time to fracture was 60-65 days. Alloy I bad a greater tendency toward delayed
Card 1/2 UDC: 669.715172:621.79
L-04197-67
ACC NR: AP6028585
fracture, since in alloy 2 the tendency was only exhibited after step aging and only
aftpr using the AMg4 welding rod. For both alloys, the relative number of artificial-
ly pged samples that fractured in a period of ten years was given as function of
fr ture time. The early fractures (70 days or less) were caused byVding cracks
whi h under stress initiated fracturing. After aging 100 hr at 900C, the acks
could not propagate readily due to the higher plasticity. -Similar tests, done in an
argon Iled chamber, showed no cracking after 50-60 days even for the severest aging
conditions found in atmospheric tests. Correlations with creep studies confirued that
k corrosion cracking in alloy No. 1 can only occur for aging,at 1000C, 100 hr or at
1200C, 10 hr t 1750C, I hr. Microstructures showed that cracking generally occurred
in the heat affected zone along grain boundaries. Orig. art. has: 6 figures, 2
tables.
CODE: 11 3G/ SUBM DATE: none
KUZNETSOVA Ye A.- ZHURAVLEV, S.V.; STEPANOVA, T.H.
Synthesis of 2-mercaptobenzothlazole derivatives. Part 4s
Some 2-(haloalkylmeroapto) banzothiazoles, Zhur. org. khlm.
I no.4067-772 Ap 165. (MIRA 18111)
1. Inatitut farmakologli I khImloterspli AMN SSSR.
00535
14wrko) 1i Yk a 1. j Jj/ UU
SOURCE CODE: UR/0070/65/0
AUTHOR: _�Morov, V. 1.; Kazaetsova, Ye, At
OR&. Voronezh State Universit onezhakiy gosudarstvennyy univeraltet)
_y (Vor
TITLE- The structure of silico and germanium sulfide surface layers
*q . , 318 2
SOURCE: Kristallograflya, v. 10, no 6 1965 -91
TOPIC TAGS- silicon single crystal, silicon compound. germanium single crystal,
germanium compound, protective coating
r
ABSTRACT: Numerous attempts were made recently to produce oxygen-free surface com-
pounds on silicon and germanium crystals. In the first part of the present paper the authors
investigated, using eloctron diffraction analysis, the structure (in particulal/,the phase
X __"
composition) of the sulfide layer created on the surfab"'o of a'SI T_=Q_CDA~aLbrocessed in a
F th n
special sulfidation tank. The experimental resu is obtained for e lattice plane dista ces
are in good agreement with the theoretical data for SIB. The second part of the paper is
devoted to the study of the structure of germanium sulfide layers produced on the surface of
germanium monocrystals during their reaction with sulfur vapors. The Debye diagram utilim
the Cu K(X line. The comparison of the experimental and theoretical values for various
lattice plane distances showed that the stable chemical compound formed Is indeed rrystalline
GeS. Differences In color of such layers are due to differences in thickness only. (Mg. art.
has: I figure and 3 tables.
UDC: 648.736
L 12103-66
ACC NR, AP6000535
SUB CODE: 11,20 SUBM DATE: 14May64 ORIG REF-. 004 OTH REF.- 002
MiSMISHY, Moisey Izzi-ailevich; MjzNh'J;kVA, Yo.b.) red.
-- ....... .. I
(Optics, atomic stru,.ture, arul the atomic nucleus)
Optiks, stroonie atoma, atummoo ladro. 17d.2., ispr. I
dop. Nonkvaf Naukal 1904. 4127 1). (1,1111A 17tlO)
0. Igor' Vladimirovich; RUMEVISOVA Ye.b., red.
SAVELIMP .....
(General physics courBe Kurs obahchel. fizlki. Moakva.,
Izd-vo "Nauka," Vol.2. lElectricity] Elektrichastvo. 1964.
335 P. (1,11RA 17:8)
.SHCHETINKOV, Yevgeniy Sergeyevich; KUZNETSOVA, Ye.D., rod.
--.1 ........I................... ;6 ............ 1.1.1 ......
(Physics of the combustion of gases) Fizika gorenlia ga-
zov. Moskva, Naukap 1965. 739 p. (MIRA 18t6)
ZAVELISKIY, Pridirikh "Samuilovich;AWSTSOVA~ Ye.B., red.; AK"OV, SON*,
... I -
tekbn. red.
[Time and its measurement from trillionths of a second to billions
of years) Vremia i ego izmerenie; ot billionnykh dolsi sekundy do
milliardov leto Izd#2,j dop, Moskva# Goo, izd-vo fiziko-matem.,
lit-ry,, 1961, 217 p. (Time measurements) (MIRA 34111)
SOBELIMAN, Igor' Ilticb; red.; BRUDNO, K.F.;
tekhn. red.
(Introduction to the theory of atomic spectra) Vvedenie v
teoriiu atornykh apoktrov. Mookva., Fizmatgiz 1963. 640 P.
IM111A 16:12)
(Atomic spectra)
ZIMM, G:Lrsh Abramovich; TODES, Oidea Movshevich; KLIZNETSOVA, Ye.B.,
red.
(Course in general physics] Kure obahchei fiziki. Moskva#
Nauka. Vol.2. 1965. 366 p. (MIRA 18:5)
CHENKIN, A.F.; RRESLIN', A.K. [Krenlinv, A 1, YUMEMSOVA) ~ye.1). .
Information and brief newo. Zashch.rast. ot vred. I bol. 9
no.11:54-61 164. (MIRA 18:2)
nZNI~TSOVA, Ye. G.
Strawberries
High yields of strawberries. Sad i og. no, C), 1952.
9. Monthly List OfRusslan Accessions, Library of Congress, 1953. Unclassified.
nAj~~-U, Mre U-. xr r
KUZENTSOVAs E. G.-I'The Rate of Formation of lActic Acid During tho Development
of Bacterium Delbruckii and the UBe of Biological MaterUl for
Repeated Fermentation*" Inst of Microbiologyp Acad Sci USSR*
Moscows 1955* (Dissertation for the Degree of Candidate in
Biological Science).
SO Knizhanay latopia I
No 29 1956.
KMNITSOVA,. Ye.G.
[Rate of formation of laotic aci4 to the devilopment of
a
Bacterium Delbrdokii andL using the baoterial mass for a
oeoqzl"ry formontation]Skoroat' obrasovantia splochnol kisloty
y p~otssses raxvitiia Bacterium Delbruckil i ~spollzovanle
biomassy dlia povtornogo broshenlis. Moskva, 16 p.
(MLRA 10:4)
(IACTIC ACID) (YBRMINTATION)
-,--VESELOV"*Ya.;-E,UZNF,TSOVAr,
Physiological role of the formation of lactic acid by homofermenta-
tive lactic acid bacteria, Trudy Inat, mikrobiol. no. 6:61-71 159.
(MM 13s10)
1, Inotitut mikrobioiogii AN SWR.
. 4 (LACTIC ACID BACTERIk)
PROKOPENKO, S.F.; YEFUMOVA, N.I.; NASONOVSKAYA, Z.S.; KUZNETSOVA, Ye.G.;
MYSAK, G.Ya., inzh.; DOBROSINETS, Ye.I., inzh.
Spraying orchards with a small expenditure of liquids. Zashch.
rast. ot vred. i bol. 8 no.205 F 163. (MIRA 16:7)
1. Sotrudniki Vsesoyuznogo nauchno-issledovatellskogo inatituta
sel'skokhozyaystvennogo mashinostroyeniya (for Prokopenko,
Yefremova, Nasonovskaya). 2. Glavnyy agronom sovkhoza imeni
Lenina Moskovskoy obl. (for Kuzn(ttsova). 3. Gosudarstvennoye
seriyno-konstruktorskoye byuro Llvovskogo soveta narodnogo
khozyaystya (for Mysak, Dobrosinets).
(Spraying and dusting in agriculture)
KUZXETSOVA re.G - NOSIREVAO R.D., agronom po zashchite rastenLy
On the Ionia State Yam, Zmaboh, rast. ot vred. L bol. 8 no.5s
4-7 vq 163. (KM A 16 19)
1, Prigarodnoye prolavodetyennoye upravleniye Mookovskoy oblanti.
2. GlavW agronom sovkhoza imed Innina (for lusnetsova).
(Spraying and dusting in-agriculture)
(Findt-Disesses and Imsts)
ANTONOV -I-A--kand tekhn- ,auk,- AVTO6H3,-Te-,V,-, insh.;-ASUOYSIATAP G.A96-
inz;.:'VASIL;YI[V, K".T,,'k&nd.tskhn.nauk; GUZOV, S.G., lash.; DZ=,
Y.K., Insh.; ZAYTSZVA, T.P., insh.; NAZENKOV, P.P., Inih.; XARA ,
Tu.B.i insh.; KOVVMOV, P.S., kand.tekhn.nauk; KMOVrV, A.I,, insh.;
KATVIR311,1.1.,
ZMMGMVSKIYj AsKet inishe; 41,;W
tekhnik; MCROZOV, M.Ts., insh.; NEXUBOV, Tu.I., insh.; MHATV.
Y.D., kand.tekhn.nauk-, NINBUW , A.I., kand.teft.nauk-, SPMOR,O.Sh.,
Insh.; STRIZHNVSZIY, x.r., kand.khim.nauk; TISMITSKIT, D.I., insh.;
IDMONOVA, TO.S., Insh.; TOXIMI, A.K., Insh.; SHASHKOV, A.N., kRnd.
tekhn.nauk, dote.; SHBLMHNIK, M.N., insh.; SHUKHMAN, D.Ta., insh.;
MLISON, A.M., insh.; VOLODIN, V,A,, red.; UVAROVA, A.F., tekhn.red.
[Machines and apparatuses designed by the All-Union Inetitute of
Autoganous Working of Metalel Mashiny i apparty konstruktaii
VNIIAvtogen. Moskva, Qos.naachno-tekhn.izd-vo mashinostroitallnoi
lit-ry, 1957. 173 P. (Moseov. Vessoluznyi nauchno-iseledovatelinkii
in8titut avtogennoi obrabotki metallov, no.9)
(Gas welding sad cutting--Equipment and supplies)
KUZNETSOVA. Te#I.
The DZP-1-57 reducer with a consumption
ekon.inform. no.lItl4-16 159.
(Gas welding and cutting)
indicator. Biul.takho-
(MIRL 13:4)
KUZNE'.VSOVA, Ya.I.
Thaumasii~ from Bkarn depoBitB in central Kazaldistan Trudy Inst.
geol.nauk AN Kazakh.SSR 71273-287 163. iMIRA 17:9)
8/136/60/000/08/001/008
E193/9183
AUTHORS: Fors'lom., G.V.. Arakelyan, 0. Kuznetsov
I ~Q) a_, Ye. I
and Goldelenok, Ye.G._
TITLEs Investigation of the Structure of Titanium_�pgn
jLe
PERIODICALs Tsvetnyye metally, 1960, No 8, pp 5~0-51
TEXT; Microscopic examination of samples of titanium sponge,
taken from various parts of a batch produced by the chloride
processq revealed that most diverse forms of crystallization of
titanium are encountered in the central zone of the reaction
chamber, where dendrites of various sizes, platelike crystals of
hexagonal habit, agglomerates of columnar crystals, and*single
crystals of irregular shape, are formed. These results,
correlated with the data on the reaction conditions, indicate that
the mode of crystallization of titanium depends on temperature and
the concentration (rate of feed) of titanium tetrachloride.
Thus, slow rates of reaction are favourable for the formation of
large, well-developed dendrites and for the uniform growth of
crystals. At increased rates of feed of titanium tetrachloride,/
Card 1/2
6/136/60/000/081001/008
R193/E183
Investigation of the Structure of Titanium Sponge
the rate of crystallization inoreases.and the petal crystallizes
in the form of thin dendrites. If the temperature is raised to
1000 OC, and the rate of feed of titanium tetrachloride slowed
downt the sponge obtained in the central zone of the reaction
vessel is granular and contains single crystals. At lower
t;.mperatures, the thickness of dendrites increases with decreasing
specific consumption of tetrachloride. In general, It can be
concluded that structure of titanium sponge depends more on the
rate of feed of titanium tetrachloride than on the reaction
temperature.
There are 4 figures, (photomicrographs).
ASSOCIATIONs VAMI
Card 2/2
t
89024
S/020/60/135/004/021/037
B016/BO62
AUTHORSt Dolgoplosk, B. A.f Corresponding Member AN USSR,
Kropacheva# Ye, N., Khrennikova, Ye. K., Kuznetsoval Ye. I.,
and Golodova,,K. G.
TITLE: Polymerization of Dienes Under the Influence of Homogeneous
Catalytic Systems Containing Salts of Cobalt and Nickel
PERIODICAL: Doklady Akademii nauk SSSR, 1960, Vol. 135, No-4, pp. 847-848
TEXT: The authors report on the considerable efficacy of homogeneous
catalysts in the production of cis-polybutadiene from butadiene in benzene
solution. The catalysts were hydrocarbon-soluble systems of cobalt chloride
(concentration 0,005 - 0-01 percentage by weight, as referred to the
monomer) in complex with pyridine or ethanol in combination with alkyl-)
dialkyl-, and trialkyl aluminum chlorides. Polymerization takes place al-
ready at OOC and 1-005 fo cobalt chloride, the polymer structure being in-
dependent of temperature. The polymer yield rises with increasing conoen-
tration of the cobalt chloride, while the molecular weight of the polymer
decreases. The polymerization rate is highest at a concentration of 0.01
Card 1/3
89024
Polymerization of Dienes Under the Influence 8/020/60/135/004/021/037
of Homogeneous Catalytic Systems Containing BC16/B062
Salts of Cobalt and Nickel
whereas the molecular weight in the entire concentration range studied do-
creases simultaneous ly with the acceleration of polymerization. The tem-
perature rise from 50 to 300C also reduces the molecular weight to
1/2 - 1/3. The role of the displacement reactions becomes much more con-
siderable in the presence of lower olefins. For instance, approximatively
I V, of P-butene (referred to the monomer) considerably decelerates the
polymerization and reduces the molecular weight of the polymer from
150 000 to 90 000. On the strength of data on the microstruoture of pol'Y-
butadiene the authors found, depending on the catalyst system (Table.1%
polymerization of divinyl)f that the highest percentage of 1,4-members was
obtained with diisobutyl aluminum chloride systems (97 ~) and diethyl
aluminum chloride systems. Triieobutyl aluminum considerably increasgs the
number of 1,2-members (up to 70 %). Cobalt salts of stearic acid lead to
an only inconsiderably deviating chain :structure in the range of conoentra'-
tions ensuring a homogeneous system, Polybutadiene produced in the pre-
sence of nickel stearate has a chain structure similar to that of cobalt
stearate, but a lower molecular weight. If iron benzoate and stearate is
used, the polymerization is considerably slower than with cobalt- and
Card 2/3
89024
Polymerization of Dienes Under the Influence B/020/60/135/004/021/037
of Homogeneous Catalytic Systems Containing B016/BO62
Salts of Cobalt and Nickel
nickel salts. The cobalt systems are also effective in the polymerization
of other diene-hydrocarbons, especially of isoprene. There are 2 figures,
1 table, and 7 references, 5 Scviet, 1 US, and 1 German.
ASSOCIATIONt Vsesoyuznyy nauchno-isaledovatel'skiy institut sintetiohes-
kogo kauchuka im. S. V. Lebedeva (All-Union Scientific
Research Institute of Synthetic Rubber imeni S. V. Lebedev) Y
SUBMITTED: August 22, 1960
Card 3/3
laborant
Controlling the European corn borer# Zaohoh,rastoot vred, i bol,
4 no-422-23 Jl-Ag 159i (MIRA l6s5)
3..' Donskoy sonaltnyy institut aellskogo kho%yayBtvaO Rostov.
(Rostov ProvinceAlAipen,e6ra borei6fttemination)
(Rostov Provinee,-Corm (Medie)-Dises.Bes and posts)
MISEISVp A.Ye.; ~RETSM.As,,,Y6410
Races of the European corn borer (Pyraueta nubil&3is Hbn.) in
Rostjov Province. Vop* ekol. W20-121 162s OaRA 160)
1. Nauchno-issleddvat~llskly institut sellskogo khozyaystva,
Rostov-na-Donue
(Rostov Province-4.M"an corn borer)
USTINCV, M.P.; _KUZN LTSOVAj Ye.K.
Slotted drainage system made 3f stainless pipes for mechanical
and cation filters. Sbor.rats.predl.vnedr.v proi2v. no.1:41-42
,61. (MM 14--7)
1. Kuznetskiy metallurgicheskiy kombinat.
(Filters and filtration)
MVET,vV, F.Ta.; IWZNMSOVA, U.N.
Intera6tion of ammonia and &mines with oxides of acetylene and
vinylacetylone series. Now synthesis of jqrrole. Zhur.ob.khim.
28 no-9:2360-2371 -8 '58, (MIRA 11811)
1. Laningradakiy gosudaretvannyy universitets
(Pyrrole)
210) SOV/76-32-11-28/32
AUTHORS: Kuznetsova, Ye. M., Makarov, A. V., Panchenkov, G. M*
TITLE: On the Calculation of the Once-Through Coefficient of the
Separation of Isotopes for Equilibrium Processes (0 raschetz
odnokratnogo koeff-itsiyants, razdeleniya izotopov dlya ravnoves-
nykh protsessov)
PERIODICAL: Zhurnal f-iziaheskoy khimii, 1958, Yol 32, Nr 11, pp 2641-2643
(VSSR)
ABSTRACT: The change of the isotope concentration in simple investi-
gations is wi-thin the error.limits of mass spectrometers. For
this reason several tests must.be carried out, i.e. the -
separation must be repeated to obtPAn the required-accuracy.
In the present-paper a calculation method for the once-through
separation coefficient is given for cases where the isototes
are separated according to the method of.ion chromatographyp
a chemical exchange) a formation of a precipitation (accdrding
to the theorem by V. G. Khlopin), or according to other
equilibrium methods. The authors proceeded from the assumption
that the stoichiometric coefficients for the separation re-
Card 1/3 action are equal to unity. In this case the' drice-through
SOV/76-32-11-28/32
On the Calculation of the Once-Through Coefficient of the Separation-of.
Isotopes for Equilibrium Processes
coefficient a coincides with the constant of the chemical
equilibrium. The final equation obtained is:
a t
X
+ 0
~ 77110-
Yn
x0 'the initial content of isotopes in the first phase
Yn the-content of isotopes in the second phase after n
separations
n'- number of separation stages (repetitions of separation)
t . 1, where L denotes the amount of the isotope mixture in
G
the first phase, and 0 the amount of the isotope mixture till
the separation process. There is 1 reference,
ASSOCIATION: Moskovskiy gosudarstvennyy universite~,Khimicheskiy fakul'tet
Card 2/3 (Moscow State University, Chemistky Department)
PASCHMIKOV, G.M.; KUZNRrSOVA, TO.M.; AKOHINSWA, N.Y.
Polarographic determination of allcali metals in aqueous and alcohol-
water solutions without the supporting electrolyte. Zhur.anal.
khtm. 15 no.4:424-426 il-wAg 16o. (min 13:9)
1. H.V.Lomonosov Moscow State University.
(Alkali metals)
S/076/60/034/010/021/022
B015/BO64
AUTHORS3 Kuznetsova, Ye. M. Panchenkov, G. U., Filippova, R. S.9 and
-Malakhov% V. F.
TITLICs A Now Method of Separating the Boron Isotoansiq
PERIODICALt Zhurnal fizioheskoy khimii, 1960, Vol. 34, No. 10,
pp. 2370 - 2371
TEXTs A method of separating boron isotopes by a selective extraction
with water and isoamyl alcohol in an apparatus already described (Rer.16)
has been developed. After the dietribution of boric acid along the a lla
of the apparatus the first and last fraction were analyzed for the i:o-
topic composition. The analysis was carried out on a MC-4 (M5-4) mass
spectrometer by a method already described (Ref. 17). The results obtained
show that together with the distribution of boric acid between water and
isoamyl alcohol, a fractionation of the boron isotopes takes place, i.e.
in the first fraction a concentration of the light isotope B10 , and in the
last-fraction of the B11 isotope. Thus, it is in principle possible to
Card 1/2
A New Method of Separating the Boron Isotopes 5/076/60/034/010/021/022
B015/BO64
em ploy the method of an extraction by liquids for the separation of boron
isotopes. A calculation of the separation coefficient of a single
fractionation yielded a a 1.0027- It is assumed that by a combination of
the complex formation characteristic of boron and an extraction, the
aeparation coefficient is increased and the method described rendered
more economical. There are I table and IS referencesi 6 Soviet, 6 US,
2 British, 1 Yugoolisy, and I B.African.
ASSOCIATIONs Moskovs~kiy gosudaretvennyy univeraitet im. M. V. Lomonoeava
,(Moscow State University imeni 9. V. Lomonosov
SUBMITTED3 March 31, 1960
Card 2/2
67892
AUTHORS: Kropachavao Ye.N., Doi oplosk. B.~jS/020/60/130/06/020/059
Corresponding Member AS USSR, B011*15
Kuznetsova,_Ya.M.
TITLE: tion of the Rate of Addition of Lithium Ethyl to
Investi
p
Styrene and Ieopren "in the Course of the Polymerization
Process
PERIODICAL: Doklady Akademii nauk SSSRI 196o, Vol 130, Nr 6, pp 1253-1255
(USSR)
ABSTRACT: The aim of this paper is to prove that the original organo-
metallic compound is not added at once to the diene monomer
as shown by data of S.Ye.Bresler and collaborators (Ref 1).
The authorsoarriod out their experiments in pure anhydrous
argon at 250-)00 . For this purpose they used a special reaction
apparatus (Fig 1). Samplea ware taken from the reaetion veasel
within certain intervals, and by means of them the amount of
the polymer formed was determined as well as that of the lithium
ethyl which did not enter the reaction. The molar ratio between
lithium ethyl and monomer was 1/150 (with isoprene) and 1/100
Card 1/3 (with styr-9ne). Figure 2 shows the polymerization kinetics of
4-,"'
67892
Investigation of the Rate of Addition of Lithium
Ethyl to Styrene and Isoprene in the Course of
the Polymerization Process
Gard 2/3
S/02o/6o/13o/o6/020/059
B010015
styrene at +109 figure 3 the same at 240 for isoprene. These
data indicate that the addition of lithium ethyl to the monomer
proceeds gradually in the course of the entire process of poly-
merization. The polymerization of styrene and isoprene in the
presence of tetrahydrofurane with which organolithium compounds
form complexes was investigated in a similar way. Yor this
purpose, solut'8ne in he tane were used which contained 16~ of
styrene (at -20 ) or 207of isoprene (at +250). The curves
III in figures 2 and 3 show the consumption of lithium ethyl
in the course of the polymerization of styrene and isoprene,
respectively, in the presence of tetrahydrofurane (I : 5).
Curves IV show the polymer yield. They indicate the rapid
acceleration of the primary act of addition of lithium ethyl
to the monomer brought about by tetrahydrofurane. Thus, poly-
merization is also accelerated. The "living" polymer chain
thus developing remains capable of further growing during a
long time, even if the entire lithium ethyl and the monomer are
consumed. Curves V and VI (Fig 3) indicate that the polymeriza-
tion process sets in with normal rapidity when isoprene (20%)
was filled up in heptane. The data set up by the authors deal
e
67892
Investigation of the Rate of Addition of Lithium S/020/60/130/06/020/059
Ethyl to Styrene and Isoprene in the Course of BO11/BO15
the Polymerization Process
with the concentration range of lithium ethyl between 0.7 and
1% by mole (referred to the monomer). A considerable dependence
of the rates of.the primary addition act and the growth of
chain on the association degree of lithium ethyl is possible.
This degree decreases with falling concentration of the
organometallic compound in solution (Ref 10). There are 3
figures and 10 references, 8 of which are Soviet.
ASSOCIATION: Nauchno-issladovatellskiy institut sintoticheakogo kauchuka
im. S.V. Lebadeva, (Scientific Research Institute of Synthetic
Rubber imeni S.V. Lebedev)
SUBMITTED: November 23, 1959
Card 3/3
KUZNBTSUVAt--YO-*'Mo-
Electron x6ttoring by a obargod dislocationo FiZetVGrotG3A
no,7s1987-M JI 161. (MM 14:8)
(Electrono-Scattering) (Dislocations in crystals)
911811611003101110141056
B102/B138
7700 (Ilqy, IP 3
-AUTHORS: Adirovicht E. Itt and Kuzneteovas Ye* M.
TITLE- The possibility of inVeree electron distribution in
degenerate semiconductors
PERIODICAL: Mike, tyerdogo tela# v. 3, no. 11, 19619 3339-330
The creation of quantum systems with negative temperatures$ i.e.
with inverse electron distribution, is of great impoXtance for the
generation and amplification of electromagnetic vavee in the submillimeter,
infrared and optical bands, , A method of creating inverse distribution
bet*ween the bands..in a semiconductor could be by injeotion through the
p-n junction in a tunnel diode above the b r er (N. G. Basov, 0. N. Krokhib#
a ri
Yu. M. Popov..ZhETFs ~Lo, 6, 1879, 1961). F 2 -F I as a critical
condition (this oorresponde.to the demand that the population numbers of
the coiling of We valence- band and of the bottom of the conduction band
are equal) does not provide for inverse distribution in the final band of
rarefied states.'. A sufficient condition would be P F
2- 1 &+&1 +&2
...-Card 1/4
S/181/61/003/011/014/056
...The'possibility of inverse electron... B102/Bl3e
(o.f. figure),acoordifig to which one band must be degenerate. A p-type
h2 (,2L) 2/3
somiconduotor,ia considered, with A K and A pl. being.
2
the'total hole concentration, Their recombination with electrons fromA
2
to negative absorption. With F and F being given as
functions of pp.n and T eto. and
( 2xm kr 2nmxkT
(NI=2 NI=2
n Not I)" - M-PI +1 (2)
is 'found for (1) and
- vr,
N
30
for the.oondition P2 -PI The forbidden band width is not included in
'those foruulaa. Tn (2) and (3) p -p(N T). The explicit funation
a
:Card., 2/4
MV61100310111014106
The possibility of inverse electron... B102/Bi38
depends o,n the state of the centers of the main h,11rurity in the
semiconductor. Three limiting canes are discuaned: (1) The acceptor
levels remain discrete and do not merge with the valence band. In this
case
IV, #1 #
n [in AL
(4)
n ik.
hold a and also under optimum conditions# inverse distribution may be
realized only with very high current densities (jt4104_105 a/cm 2
(2) The acceptor states form an impurity band which doeo not overlap with
the valence band. For band inversion (4) also holda, but inversion 'is
also possible between conduction and impurity bands. For the usual
acceptors or donors inverse distribution can only be created relative to
the impurity band if the impurity level In highly alloyed semiconductors
is broadened considerably and is highly asymmetric. (3) The impurity
staten merge with the valence band without changing the,level density on
its upper edge.. For pvmN a (somimetalB) and all T
Card 3/4,
P"
1131/61/003/011/014/056
The possibility of Inverse eleatran... B102/B138
No-
holds. At T 1006K and 103 a/om, 2 nul 10 16 am-3 and at T *200K and
itti a/om2 ned10 6 am-3. In th in case the injection level leading to
distribution inversion to highly dependent on the degree of alloying of
the semiconductor, and also on the structure and the degree of band '
overlapping, If hybrid band formation in a degenerate uomioonductor is
accompanied by a decrease in the effective maou of majority carriers
inversion'will be achieved more easily. There are 1 figure and 5 refer-
ences- 4 Soviet and I non-Soviet. The tio roferencou to Englieh-lan-
guage publications read au follows: F. Herman. Proo. IRPt" 43P 1703t-1955i
N. Solar, E* Burstein, Phy8. Rev. 2B, 1757, 1955.
ASSOCIATION-: Fizioheskiy institut Im. P. N. Lebedeva. AN SSSR Moskva
(Physics Institute imeni P. N. Lebedev AS USSR, Moscow).
SUBMITTED: May 27, 1961
Card 4/4
KUZINETSOVA, Ye.M.,- MAMROV, A.V.; PANCIENKOV, G.N.
Application of the multistage experlment formula for
devising the scheme of an ideal cascade. Zhur.fiz,kh1M*
35 no.9:2116-2119 161. i (MIRA W10)
(Isotope sap&ration)
KUZNETSQVAt--Te.X4-ZAKURIN# N,V.; NIKITIN, O.T.
lootopic effect during distribution of titanium compounds
between water and ather. Zlnxr.neorg.khlm. 7 no.3s676-677
Mr 162. (MIFA 150)
(Titanium-laotopee) (TitmAum compounds)
9 5 9
/62/145/001/008/01
S/020
B104~B102
AUTHORSt Adirovich, E. I., Academician AS UzSSR, and
TITLE: Effect of adhesion levels on the kinetics of electron
processes in p-n junctions
PERIODICAL: Akademiya, nauk 55SR. Doklady, v. 145, no. it 19629 67-70
TEXT: A theory of a p-n junction in semiconductors with adhesion levels
is developed. The cross section of these levels and the binding energies
are assumed to be arbitrary.' The minority carrier kinetics in the
junction base (0