SCIENTIFIC ABSTRACT KUZNETSOVA, M. I. - KUZNETSOVA, M. YA.
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100
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December 31, 1967
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SCIENTIFIC ABSTRACT
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L 18852-66
ACC NR: AT6006474.
tained at temperatures ranging in 1000 intervals from 600 to 12000C and the relation
T is time in min) was obeyed; k i
LMk= ST (where am is the weight gain in g/cm2
varied as a function of oxidation time and temperature from 0.5 to 2.0. Up to 800OCi
a brittle scale formed while at higher temperatures the scale was sintered and be-
came denser and stronger. At constant oxidation times, the sintering caused k to
decrease with Increase in temperature. The oxide structures were analyzed x-rayl
Idiffraction. At 500 to 8000C, two layers of a-Nb lower scall
205 were formed and the a
;of a-Nb2O5 had a texture due to contact with the metal. This texture endured oxi-
I I
:dation for 3.5 hr at 8000C. Above 8000C, a-Nb2O5 changed to O-Hb205, especialiy In i
:the outer layer since a-M205 WOB precerved in the inner scale even after prolonged
loxidation. Lattice parameters and intensities were tabulated for oxidation at
10000C and 4.5 hr for both the external and inner sides of the scale; the oxides
10-Nb205 and HbO were present, the NbO forming as early as 45 sec at 10009C. The
;texture of the scales was further studied by means of electron diffraction and datai
ishowed that for oxidation at 10200C for 20 sec the O-Nb2OS and NbO had no texture
!but after 30 sec a texture was observed. ror NbO, a (111) texture was determined.
IThe fact that the texture persisted even during the *-ffb20S + O-ffb2OS transformation
.confirmed the hypothesis that the oxide formation mechanism was Independent of phas'l
composition. Orig. art. hass 5 figures, 3 tables, 1 formula.
SUB CODE:n, 20, 13/t(MN DATE: 00/ ORIG REF: 003/ MH Mrs 006
_Par. _;12
AFAVASIYEV, P.S.p drits., kand. tokhn. nauk; SUVCHOF0, Ye.T.1
nauchn. red.; KU22ILTSOVA, M.I., roJ.
[Development of the manufacture rVood-working equipment
in the U.S.S.R. and in capitalist countrIes) Razvitie pro-
izvodstva derevoobrabatyvaiush,--hego oborudcvaniia v SSM i
v kapitaliBticheskikh stranakh.' l,'.Pskvar 190. 210 p.
I (MIRA 17:8)
I* Floscow. TSentrallriyy Institut nali6hno-tekhnicheakcry
informatsii po aTtOlDati2atell -1-mashinostroyeniyu. 2.
TSentrallnyy institut nauchno-tekhnichoskoy informatsil
po av-Lomatizataii i mashlnostroyenlyu, Mosha (f-,lr Afanaslyev).
ZHUKOVSKIY, N.I.,, inzh.1 KUZNZTSOVA. M.L. otv. za vypuak; KASHIRIM..
I A.G., tekbn. red $- "*
[Types and basic parameters of instruments and automatic control-
lers in the state standards of the U.S.S.R*] Tipy oenovrqe para-
metry priborav i avtomaticheskikh reguliatorov v gouudaravven-
nykb standartakh SSSR. Izd. ofitsializoo. 14onkvaq Gossizd-vo
standartov, 1961. 751 pe (MIFIA l5t2)
(Automatic control-Standards) (Instruments-Standards)
PrBUY, V.L ? GFLIFVRTN, 'U.1.1 SITAMOVA, M.N.; KUZNFTSOVA, M.I.
Calculation of thn processes of liquid extraction from ultleamponent
solutionn. Khim. prom. 41 no.3t212-217 Mr 165. (MIRA 180)
1. Moskovskly Inatitut tonUoy khimicheakoy takhnologii imeni
Lomononom
9 t -. - 4- L C'7 I It *,-;. 1.
"XXVIII. Relative activities of amonia and aniline in reactions with furan and
tetrahydrofuran.ft Yu. K. Yur'ev, I. K. Korobitsyna, nnd M. I. Kuznetsoy . (p. 1,493)
SO: Journal of General ChCmist (Zhurnal Obshchel Khimii) 1950, Vol 20, No 8.
DIYNER ) . 1. HNAP
.. D.I.; SOLOVIYEV, V.Ta.; KUZNET3()VA, m.!.; KRU I'll ilKoV!, -FER j.
Ye.1.1 SL&SAREVA# U.N.
Studying the ox!.dation of niobium. Trudy Glpr:)t!3vetmatobrabotka
no.24:75-85 165. (MIRA 18:11.)
MIDINSKITO U.S., (Tashkent); KUZXBTBOVA, N.I.,(Tashkent).
Uperisqute on the theory of electrolytic dissociation. Kh1u,
v shkole 11 no-5:43-48 B-0 056. (Muth q.- 11)
(Alictrolysis)
KUZNETSOVAp M*I.p redol HAVEMA, A.Ye.p tokhn. red.
[Testing measures and instruments for measuring
lengths and angles; instructiono) Poverka mer i mekhani-
cheskikh priborov dlia izmereniia dlin i uglov; sbornik
instruktsii. Isd-r ofitsiallnoe. Moskva, Standartgiz,
1963. 534 p. (MIRA 17:1)
1. Russia (1923- U.S.S.H.) Komitet standartov, mer i iz-
moritelinykh priborov.
na
IAOCHULISKAYA, Yu.Ch.j SEWNYAK, B.I.; Prinimali uchastiye: FWACHEVA, L.V.;
RANTSEVA, M.I.j KUZNL?SCVA, X.I.; TETERINA, N.H.; SABUROVA, I.U.
Dressing of kainite-langebeinite ores of the Stebnik ore
deposit. Khim.prom, no.63454-456 Je 162. (MIM 15: 11)
1. VBesoyuznyy nauchno-iseledovatellskiy institut galurgii i
Llvovskiy filial Gosudarstvennogo soyuznogo inatituta po proyektiro-
vaniyu predpriyatiy gornckhimicheakoy Vromyshlermosti.
(Ore dressing)
GELIPERIN, N.I.; FEBALK, V.Lq~~UZI~~ ~M.I..
Rotary extraction column with alternating mixing packing-free
separation zones. Zhur.VKHO 7 no-1:114-115 162. (MM 15:3)
le Mbskovskiy institut tonkoy khimicheskoy tekhnologii imeni
Lomonosova.
:(Extraction apparatus)
KONOVALOV, V.S., kand. tekhn.nauki STEFAMKO, S.A., inzh.;
KUZNETSOVA, M.1,,..red.'- KOVALISKAYA, I.F., tekhn. red.
(Yeohanization and automation of intrafactory transporta-
tion in machinery plants) Makhanizataiia i avtomatizataiia
vnutrizavodskogo transports, maahinostroitellnykh zavodov.
Moskva, TSINTIMASH, 1961. 68 p. 04IRA 16t4)
(Conveying machinery) (Industrial power trucks)
(Automation) (Cranes, derricks, sta.)
SOKOLOV, N.L.;.~NNETSOVA, M.I red.; BOHDAREV, M.S., takhn. red.
_~ I
:[Hot extrusion] Goriachaia shtampovka vydaylivaniem. Mo-
akvaj TSIMTIMASh. 50 p. (MIRA 16:4)
(Extrusion (Metals))
Ar-
. I ".
BApAIWA,
iianooov,
OZL,po 0.1 moso
V,
extractw..
of %m "aba'" yisk, %-12
AUJ)Dioa Cad on sot Wo Troofelf
rtpwt
MY CtowAld
Mocal %ot of twt
UVILIS, S..".; .0711IFT.110VA, M.I., red.
[Regulations 28-64 for measuring the consumption (if
fluids) gasos and steun by standard diaphragms and r.oz-
zles) PravIla 28-64 lzmeronila raskhoda zhidkortal, ga-
zov i parov ntandartr-yaL diafrFAgm,,uLI i saplazi,l. lzd.
ofitsiallnoe. Voskvax Izd-vo standartov, 1964. 146 p.
(MIKA 18.2)
1. Russia (1923- U.S.S.A.) Komitet standartov, mer i Iz-
meritellirykh priborov.
32651
I DO 1~ r4 5/126/61/012/005/oo4/028
E073/E535
AUTHORSt Dunayev, F.N. and Kuznetsova, M,K.
TITLE: On the temperature dependence of the magnetostriction
of electrical steels
PERIODICALI Fizika metallov i metallovedeniye, v.12~ no.5, 1961,
652-655
TEM The dependence was studied of magneto3triction of
p6lycrystalline specimens of electrical'steels containing
1. 24% - si, ~) (Ei) , 1. 93% Si. ),A (E2), 2.7 4 and 3.36% Si, -33 (E3)
and,_4,10% Si,:)tf (E4) in the temperature range 20 to 7500C in high
vacuum. The equipment used ensured rbliable compensation of
the thermal deformation of the.specimen. The sensitivity of the
metering set-up was 3-10- mm- , the error of measuring the
saturation magnetostriction % did not exceed 6%; the solenoid
enabled obtaining a uniform fi'eld of up to 1600 Oe throughout the
entire length of the 150 X 3 x 0.5 mM3 specimens. Prior to the
measurements the soecimens were annealed in high vacuum at 10000C
for two hours and subsequently cooled at a rate of 150OC/hour. The
temperature was measured with a maximum error of +50C. As can be
Card 1/
32651
On the temperature dependence S/126/61/012/005/004/028
E073/E535
seen from Fig.l. (curves 1,2,3,4,and 5 relate, respectively, to steels
containing 1.24, 1.93, 2.74, 3.36 and 4.10% SO, The curves of
the temperature dependence of the saturation magnetostriction for
alloys containing up to 4.10% Si show a maximum which shifts
towards lower temperatures as the silicon content increases, The
temperature dependence of the saturation magnetostriction X in
the temperature range Curie point to maximum X a was non-lfnear
for all the alloys investigated, The following qualitative
conclusions are arrived at:
a) The constants of magnetostriction X 100 of all the alloys in the
investigated range of composition increase with increasing tempera.-
ture between 20 and 420OC;
b) The constants of magnetostriction of all the iron-silicon
alloys containing up to 4.10% Si are nega. ive and their magnitude
decreases monotonically with increasing temperature.
c) As can be seen from FigA, the constant of magnetostriction of
X111 decreases monotonically within the investigated ranXe of
compositions, whilst the constant X100 appears to have a maximum
for a s1licon content of 2,5%, F19A shows the dependence of X max'
Card 2W
32651
On the temperature dependence S/126/61/012/005/004/028
E073/E535
ond the constants% 100 and XIII on the silicon
content. There are 4 figures and 7 refereticest 5 Soviet-bloc and
2 non-Soviet-bloc. The English-langunge references react as
followst Ref.41 Tatstmoto Z.. Okamoto T. J.Phys.Soc.of Japan, 1959,
14, No.11; nef.71 Carr W. and Smoluchowski n. PhYA-Rev-, 1951, 83,
6, 1,236.
ASSOCIATION: Urnl'skiy gostidarstvennyy universitet im.A.M.Gor1kogo
(Ural State University imeni A. M. Gor'kiy)
SUBMITTED: March 22. 1961
Card 3/0
I
SULTANOT, G.I.; ZABABILOV, N.A.; KU 'ZXXTSOVAIJ&H.; WAAZEIEVICH, P.V. o
otvored.; FZVZNI . AsSeq zavo radofzd-va; OSMO, L.M., tekhn,red,
[Uniform time and M standards for construction, assembly, and
repair operations in 19601 Bdizkya normy i rasteanki na stroi-
telinys, montashnye i remontno-stroitollnyo raboty, 1960 g.
Moskva, Gos.isd-vo lit-ry po etroito. arkhit. i stroit.saterialan.
Sbornik 5. [Making and assembling steel construction alements]
Montash i izgotoylenis stalinykh konstrmktaii. No.4. (Assembling
W*164 cylindrical tanks and gasholdors] M6ntesh tsilindricheskikh
evarnykh resermaroy I gasgollderov, 1960. 23 p.
WRA 13:6)
le Passia (1923- U,S.S.I.) GosudarstvanVy kamitat po delam
stroital'stva. 2. TSentralluoys normativno-looledovatellskoys
byttro Hinisteretva stroitel'stva WER (for Oultanov, Zarabelovp
lusnateova).
. (Gasholders) (Tanks) (wages)
KUZIETSOVA, M.M.
------
Subsurface geology and oil potential of the Dzun-Bain Lowland.
Geol, nefti i gaza 5 no. 3:60-62 Mr 161. OURA 14:4)
(Mongolia-Patroloum geology)
ROUNFELID, I.L.1 PERSIANTSEVA,
TERENTIYEV, P.B.
V.P.;.KUZNhjS.OVA, H.M.1 POLTEVA,, M.N.;
Electrochemical behavior of metals in the atmosphere of volatile
inhibitors* Zhurepriklskhime 34 no,lOt2239-2244 0 161a It
(KMA 14 til)
(Metals) (Electrochemistry) (Inhibition (Chemisti-j))
ROZEIrEEID,, IOV. (Rozanfelld; I,L.11 PERSIAMEVA, V.P. (Persiantsevat- P
TEUNTIff I F. B* (Terentlyevp ?.Boll POLTEVA,, M.N.; ~ZHETOVA,.
lumetsova, M.K I
Studies on the influence of chemical compositionp structure and
certain physicochemical, properties of the organic compounda.upon
their capacity of brak:ing the corrosion process. Analele chimie
17 no*3:175-196 JI-S 162*
TITARENKOt 0.0. [Tytarenkog O.O.1;.XUZMETSOVAq M.M.
Effedt of microelements on the growth and development of
decorative flowering plants. Visky)(Bot.eada AN URSR no.4j
21-23 162, (MMA 16 t 1)
(Plants, Effect of trace elements on) (Odessa-Flowers)
~1'11'.;: ~
.1,
DO I , Z, L. ; KIj I' NET SO VA , 1-1.11. ; S.-V,k 1', Wti. ti. Kh. ; , "a'. I.
y
Tn)ef3 of tho electromechunicid uctivity of Q, lteirL in taitral
atenosis. Izv. All Arm. SSR. Blol. nauki 17 n(,',7s37-43 JI 16,4.
(MIRA 17:10)
1. Institut kardiologii i serdechnoy khirurgll A!.',',q' SSSR.
VISHM, SKIYP A.S.; KHODYKINp A.V.; CHVAEANIYA, A.Ye.; Pr-InIzall
uchastlyet TURANSKATA, A,G., vraoh; BARNOVA, M.M., vrachj
LEVITSKAYA, L.S., vrach; BUBLIK, V.S., vrach; KUZITETSOVA,
M.M., vrach -
Clinical aspect and treatment of chronio panoreatitis at
a health resort. Vop. kur., fitioter. i lech. fiz. kul't
29 no.lt23-27 164. (MIRA 17t9)
1. Yesoentukakaya kurortnaya poliklinika (glaynyy vrach
F.G. Sendarovich.
.KUZI&TSOVA, M.N.
KUZNETSOVA9 M.N.., Cand Mqd Sci -- (diso) "Histopathology of the
placenta in acute radiation sickness." Mos, 1958. U pp (Ist Mos Order
of lanin MPA Inst im I.M. Sechenov). 200 copies (KLI 20-58pl0l)
MIURTSOVA, M.N.
Remote resultn of a Cesarean section*
3 noe'5359-63 6-0 158
Vop*'ol:h.met. i deto
(xLu nal)
I* Is kefedry akusherstva i ginakologii (sav. - prof. X.N. 3hmakin)
I Moskovskogo ordena Lenina. meditsinskogo Instituta Imeni
I.M. Sechenova'
(CM;RW SECTION)
J'I.N., kand. med. nauk
Some diagnostic, clinical and therapeutic prob.lerns of the
premenatrual syndrome, Sov. med. 27 no.2:67-72 F 164.
(MIRA 17:10)
1. Kafedra akusbarsiva I ginekologil (-Inv. - prof. K.N. Mmakin)
I Moskovskogo ordena Lenina moditainskogo inrtitutn imeni Sechenova
na baze Nauchno-issledovatellskogo Lnstituta akusherstva I gineko-
logii (dir. - prof. O.V. Makeyeva) Ministerstva zdrhvookhraneniya
SSSR.
KUZNETSOVA, M.N.~ MAKAROVS, V.N.
Yflonitization of rooks Of the Yakovlavo deposit in the Kursk
Magnetic Ancoaly. Sbor. nauch. trud. KGRI no.13247-52 162,
WMA 16.-8)
(Kursk Magnetic ArLomaly--Mqlonite)
I
a
MIKHAYLOV, V.V., doktor tekhn. nauk, pmf., red.; GIZZAROVA, I.L.,
red.j KU21ETSOVA, M.N., red.; KABROV, D.Yn., tekhn. red.
(Manufacturing prestressed reinforced concrete elements]
ProizvodBtvo predvaritellno napriazlienr7kh zhelezobeton-
nykh konstraktsii. Pod red. V.V.Mikhaylova. Moskva, Gos-
stroiizdat, 1963. 214 p. (FIRA 17:3)
1. Moscow. Nauchno-isoledovatellskiy institut betona i
zhelezobetona.
MIKHAYLOV, X.V.p kand. tekhn. naukp red.j KUZNETSOVA, FI.N., red.
[New kinds of reinforcements] Novye vidy armatur7. Mo-
skva, Stroiizdat., 1964. 202 p. (MIRA'.,,V:4)
SKRAMITAYEV, Borls Grigorlyevich, doktor tokhn. nauk, prof.;
LESHCHINSKIY, Marat Yurlyevich, kand. tekhn. nauk;
KUZNETSOVA 14 N., red.
[Testing the strength of concrete in samples, products,
and buildings] Ispytanie prochnooti betona v obraztsakh,
izdeliiakli i sooruzheniiakh. Moskva, Stroiizdat., 1964.
175 P. (MIRA 17:12)
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(Dis:;c-l-tation for Vio of Caiidiu'zite of Ci.e.,.lic!~l :3ricrxco)
30; Yniz"infna 1(1`5`1
XV 7- /l/GTI OVA /)"/V-
f B-8
USSR/Thermodynamics - Thermochemiatry. Equilibria.
Physical-Chemical Analysis. Phase Transitiona.
Abs Jour Referat Zhur - Khimiya) No 6, 1957) 1854o
Kuzn
,LA,G. Bargmn.
Author J4--
Title Physical nalysis of Interaction of Amines and
_~r
Acids. IIT. Thermal Analysis of Ternary System Urea -
Formic Acid - Water.
Orig Pub : Zh. obahch. khimii. 1956, 26, No 5, 1326-1335
Abstract : The system CO(NHA) (1) - HCOOH (11) - H20 (III) and
binary system I - II were studied by the method of thermal
emalysia; the presence of combinations of I with II of
the composition 1 : 2 (IV)) melting point -11-50, and
I : I (V) with a transition point at -30 and 44.5 mol-
was The cause which had not alowed the
auth~;rs to detect the compound (V) earlier (report 11,
Zh. obshch. khimii, 1939, 9, 637) was disclosed. An
Card 1/2 - 221 -
US.M./mIliermodynamica - Thermochcmistry. Equilibria. B-8
Physical-Chemical Analysis. Phase Transitions.
Abs Jour Referat Zhur - Khimiya) No 6. 1957, 18540
A-'-eutectic Ims found in the system II
and 59 -mol. % of III; the data (A.A - III at -48-50
obshcll. khimii, 1941, 11, 765) conce - Glagoleva,, Zh.
rning the presence
of two hydrates Of Il were not condirmed. The eutectic
in the system I - III is at 12.7 mol. % of I and
The graph phase of the system 1 11-50-
- II - III Plotted basing
on the study or J-3 sections includes 5 crystallization
field. BOt7zA t_A2 discovered compounds are stable in pre-
8:,nce of water Lind occupy 15.7 (IV) and 8.4% (V) of the
graph area. This area is divided intQ Wo ternary sysA
tems by the section with IV - III: into the system III
- IV II with an Outectic point at .49.80 and the sys.
tem - IV - I with two non-variant points, eutectic
at -39.20 and transition point at -32.20.
Card 2/2 - 222 -
-MW40VA,XJ.4,XW MAN, A.G.
Physic9chemIcal analysis *f the interAction of amines with acids.
Part@ 4. Thermal analysis qf the ternary system: urea - water -
- butyric acid. Zhur.ob.khis. 26 ne.5:1335-1340 my '56.
(MA 9:9)
I.H*skovokly tekhnologicheakly Institut myaonoy I molechney prs-
wyahlennesti.
(Urea) (Butyric acid)
5 (4)
AUTHORSt Ku%netsova, M. Nst Shullman, M. M. SOT/79-29-5-69/75
TITLEs Physico-ohemical Analysis of the Reactions of Aminee and Acids
(Fiziko-khimicheskiy analix vzaimodoystviya aminov I kialot).
5. Thermal Analysis of the Three-component System Ursa -
Triohloroaoetic Acid - Water (5. Termicheskiy analiz troynoy
eistemy mochevina - trikhlorukausnaya kislota - voda)
PERIODICALs Zhurnal obehohey khimii# 1959P Vol 29, Nr 5t PP 1737 - 1739
(USSR)
ABSTRACT: Nine sections of the melting diagram H 20 - CGI3COOK - CO(HH 2)2
were investigated (Figs I and 2). A visual method of thermal
analysis was applied. As the diagram shows (Fig 3), the
stability range of COtNH 2)2 * CC13COOK covers 60.8A of the
diagram surface. The seotion H 20 - CO(NH 2)2 - CC13 COOK divides
the diagram into two three-component systemst
1) CC1 3COOR - H20 - CO(NH2)2 CC13 COOK with the eutectic point
at -38.3 0 and 2) H2 0 - CO(NH 2 2 - COM 2)2 - CC13 COOK with the
Card 1/2 eutectio point at -12.5 -
Physico-chemical Analysis of the Reactions of SOY/79-29-5-69/75
Amines and Acids. 5. Thermal Analysis of the Aree-component System Urea -
Trichloroacetio Acid - Water
There are 3 figures and 7 references, 4 of which are Soviet.
ASSOCIATIONt Moskovekiy tekhnologicheskiy institut myasnoy i zoloohnoy
promyshlennosti (Moscow Technological Institute fo&- the
goat Packing and Dairy Industry)
SUBMITTEDt October 8, 1958
Card 2/2
KMNSTSOVA FOTAFOVA) MoAo; SAIDA=o K.M.j OLISHANGVp K.M.
DooMption of iorw from ion exchangas atudied by ileetrodWyvia.
Imv,vys.uohbb.zav.jkhim.i IdLim.takh. 5 no.3t4l8-422 162.
11 Mookovskiy tokhnologiahookiy imatitut myasnoy i m6lochnoy
promyshlonnoati., keLfadra analiticheakoy khimii.
(Dooorption) (Ion exohange) (Electrodialysis)
GOLUBEV, V.B.; KUZNETSOVAO_.,,~!~~-; YFVDOKIMV, V.B.
Transformations in the quinone-samiquinone-hydroquinone series
in alkaline medium. Part 1. Zhur. fizo khim. 37 no.l2s2795-
2796 D 163, (MIRA 17tl)
1. Moskovskiy gosudarstvennyy universitet imeni Lomonosova,,
GULUBEV, V.B.;_!LUZNETSOVA M.N.; YEVWKIMOV, V.B.
Process of conversions -in the quinone - semiquinone - hydroquinone
series. Zhur. fiz. khim. 38 no.lt230-231 Ja'64. (MM 1712)
1. Raskovskiy gosudarstvennyy universitet imeni, Lomonosova.
BANSHCHIKOV, V.M.; KMNETSOVA, M.N.; KOVALEVA, Z.Ya.
Some mental changes and treatment in the premenstrual syndrome.
Trudy 1-go MMI 34s254464 164. (MIRA 18:11)
1, Kafedra paikhiatrii (zav. - zasluzhennyy deyntell rAuki
prof. V.M. Banahchikov); kafedra akusherstva I ginekologii
(zavo - prof, KA Zhmakin) 1-go Moskovskogo ordena Loenina
meditsinskogo inatituta imeni Sechenova.
MARTYNENKO, L.I.; ZINTSOVA, Ye.S.; IMAROV, V.N-;
KONDRATIYEVA, D.N.;SOVA, N.G.; TARANETS, V.j :
., DOMARFV,D.S.
Stratigraphy of the iron ore complex in the Yalrovlevo deposit.
Sbor.nauch.trud.KGRI no. 2104-29 163. (MIRA 17:7)
MARTYNENTO, L.I.; MAKAROV, V.N.;-jjgjETr3QVAj_1jN.; SOVA,N.G.;
TAFANETS, V.I.; DOMAREV, D.S.; KONDRATM11A, D.N.
Association of minerals in the group of iron oxides in rocks
and ores of the Yakovlevo, deposit in the Kursk 14agne+ic Anomaly.
Sbor.nauch.trud. KGRI no. 21j29-36 t63. (MIRA 170)
IMIAO-NOV, ';.A.p cioktoz- toklm. nall~p 1~rof.; kAl.111111,', L.,A~,
tekhn. nauk; KlIVCROSIYASYM, V.F., inzh.;
inzh. ;GVA, M.N.p red.
[V,othuds for the rapid hent truatment of concrote ityYJ
prospect3 for using them In the productim of p,,enast
concrete] Motody kratkovremennol teplovul obrau(Aki be.-
tona 1. perapektivy ikh prixenenila pri, proizvodatve i3bor-
nogo, zhelozobatona. .. 14ookvap Stroijzdat, 1964. 11P j,
, -~ t ; (MIRA 17: 8)
G.G.; VASIL'Ullp A.P.; MMUYLODIJ, V.V.; FE2l,'.'L'Sf?r:"YH,
N.L.Weceased]; .1,111SHEM, H.G.; Yf..Y,*JBCjVr-,Krl, B.V.;
MIT111K), G.S., kand. teUn. nauk, nauchn. red.; YMN-ETSOVA
red,
[Prestresved reinforced concrete; ba.-od on materials at the
Fourth Inturnational Congrans on Prestre.-sed RoInforced
Concrete 1.1tructures 'Pqld nt Rom. and ?'-uloi In 10A')l rrwl-
irpr4f.,ol Int- - 'priazhennvi zhAl-n;--ton; po materialam IV
14ezhdunarodnogo kongressa po predvaritellno napriazhemwm
zhelezobetonnym konstnilctsilam (FTP), Him-Nealmll, 1962 g.
Moskva, Stroiizdat, 1964. 281 p. (MI RA 17: 10)
USSR/Soil Science - Mineral Pertdizers,
Abs Jour Ref Zhur - Biol-, No 4., 19581 15334
Author M.N. Kuzneteova
Inst
Title A Contribution to the Characterization of the Soil
Conditions of Plant Feeding at the Kirov Bovkhoze
(K kharakteristike usloviy pochvmmgo pitaniya
raoteniy v sovkhozo ime Kirova).
Orig Pub Pratsi 0des1k. un-tu, Tr. Odeesk. Un-ta, 1956, 146, zb.
etude robit, 8b. etude robot* No 41 69-90
Abstract No abstract.
Card 1/1
VASYAGINA 1 MariYa Pavlovnai KUZM--- a
Nadezhda Fedorovnap SHVARUNAN, sof Niko evna; PISAREVA,
nauk; SUVOROVA, R.I. I red, Ruv ovna t and. b1olog.
tekh~# red, ; 91WORUK, T.I.j red.; ROROXIIIA, Z.P.1
(Flora Of aporeforminj plant$
rastenji Kazakhatana. Alma_AtaOf Kazakhstan] Flora sporovykh
V02.3. (Mi I
Idewl Muchn1Bto-r.eiarWIZd-vO Akadlnauk Kavlakbakoi ssR.
a CrIby. 2961. 458 p.
(Kazakhstan--Mildew) (MIRA 15SI)
TITARENKO, Te.Ye.; KUZNETSOVAI M,N,
Influence of microelements On the productivity of ornamental floral
~Iants. Hauch. dokl. vyo. ohkolyl biol. nauki no,.2:169,-173 161.
(KM 1435)
1. Rekomendovana Botanichookim oadom Odesokogo gosudarstvannogo
universiteta Im. I.I.Meohnikova.
IFLOWM) (TFACE EIDMITS))
SOV/ 137-58- B-17069
T ran slation, from: Refe rat ivnyy zhurna I, Meta I I urgiva, 1958, Nr 8, p 124(USSR~
AUTHOR: Kuznetsova, M,P,
TITLE: Electric Arc. Welding of Vibrating Components (Elektrodugo-
vaya svarka detaley v usloviyakh ikh vibralsit'i
PERIODICAL: Traktory i sel'khozmashiny, 1958, Nr 1, pp 3?.-33
ABSTRACT: The process of arc welding (W) ol , orriponents which were
imparted a vibrating motion of Z5 t-ytlles/sec at an amplitude
of Z irim was investigated (the spe, imen, .vere rigidly mounted
on a vibrating table'). For comparison purpotves, W of plates
was also performed by the standard method. Electrodes of the
same type and identical welding ( ondit)ons ,vcre employed.
Specimens welded under vibration c-,h,,bited a greater tensile
strength. The microstructure of the weld is uniform and fine-
grained-. overheating and columnar nature of primary crystal-
lization are not as pronounced as in tile case of standard welds.
1. Arc welding 2. Vibration. -~!ctillurgl cal effects V.P.
3. Welda-Properties
Card 1/1
1
4
SH.AG&LOVA, R,Yu.; DAYLT, N.A,; GOLIPERIN. N.1.-. KUZNICTSOVA, M.P.
Some Improvements In the cbloral mntbod for the production of
vanillin and vanillal. Trudy VNIISEDV no.4:34- 8 158.
(Vanillin) (Bourbonal) (Chloral) IMIRA 12t5)
8/276/63/000/004/001/007,
A052/A126
AUTHORt Kuzn
TITLEs 'Cold expansion of metal with vibrating punch
PERIODICALa Reforativnyy zhurnal, Tekhnologiya mashinostroyeniyal no- 4,
1963, 52, abstract Pi* (In-collection "Konstruir. i prois-
-vo n.-kh. mashin. Mo:~cowt Mashgiz, 19062, 296 - 296")
TEXTs The possibility is diL;cussod of employing expansion by means
of a vibrating punch in agrioulturz,.l enjineering as one of the methods to
increase metal strength. The application of this method is illustrated with
the expansion of rojeoted piston p!ns of automobile and tractor engines to
standard demensions. A diagram of sit experimental installation is given and
a graph showing the dependence of pin expansion on the expanding force (Q)
is plotted. The investigations have shown that in the presence of vibration',
piston pins readily yield to expansion in cold state; the strength of the
internal surface increases by Mja', but 70 - 60% of the recovered pins are
rejected on account of cracks, T.Kislyakova
[Abstraoter-a notet Complete trank.lation.]
Card 1/1
PALISHKIN, D.A.; IVANQVj V.I.; W.MtENK09 L.N.; G.'-LAOV, K.K.;
THURCHINp S,I.; KPT 5YUK, V.I.; YIEFAIRN., A.D.; SAZ%CVA,
FISA;T-NKOP G.N.; LODKOV, M., red.
N I LMEI
(Mechanization in animal huisbandry] Mekhanizatsiia v zhi-
votnovodstvo. stavropoll, Stavropollskoe knizhnoe izd-vo,
1963. 287 p. (NIHA 17:8)
cHATrAsHrAm, m-1h., xUMWTA, X.B.
Iffect of nlootlalo &old and thiourea on the vernalization of
winter wheat. I)okl. AN SM 105 no.4:842-845 D 155. (NM 9:3)
1. Justitut fisjologit resteMy imeni I.A. Tialrysseva Akadoull
nauk G6fiR-
(Wheat) (Urnalization)
e
KIMLLT307A, 111. S.
Y T!Z NMNOV A -P 71. S. -- "Investigation of tlic Effect of a v.,~oce.,3.3 :,f
Calcil.latJon of the Nec',ianical and Mclectric Propcrtle5 of SteatIt'd.11
Sub 26 12) llio-qcow Order -)f Lunia ".*Ii,.r-;,Lco!-,!jcltn,)I.--.,,i,ctI Tati~l irrarti
T .. 1 .1 ~
D. 1. Mcale-leyev. (DiatiertaLl.on Cor f.ic De-rou of Candi.date in
Teel-mical ~-ciances).
,SO-. ~ ocharava I~cjskva) Jaauary--Da~. tithe r 1)52
O~~ /77 - I- --- -.- f
I . 10" --2%, +457, -,-. +470, 0%; QW +70"
ifij -,)m,Cl in 74*,
0g,
ISIN
h yIAC &Clg At A.- M.
+71--
MI;to the of Sao 0%. 8%; P ;4
Uctim of hah
a the 4"b
PhCHIC%H inaftses the phy"- aCtIvItT. whkb Is -,-.0%.+21 2,4-di-Cl;m 131 tlo &i"
9TC%tc8t with Cl, Dr Is less ::. ffl~, 1t1,19$q; 2.5-di-0.`m. 105".+71 1 +80
active; Iodine jit.thefi-pwtiala
.does not Increase activity. most Active am the 3. +h%, 30 122; Jj."ri-a, M I
belas 1 1 +40
I-It active the 44UJO dedrs., while the 3-hala daivv. am 15G o -fY)17,, 2 4,64ri-V apwlng, in,
' ~jd ar.'
M -I-"
Intermediate.. Ills Is the remse order of activity k com. 120', 071~.4~156 '+IOU'7,' P-VrO, in-
tyk
4rhom with PlitnoxYm(k acliO. Introdued" Of 83 ore Oril.-,
+220i'
whille.., ~V
91flocen don not change the phy +6% + 45.6%, M. in.
0.V I,:
dol. activity. while & V $ 69%; 4,3.B,Me,
haloicia can either reduce or,increan activity. A Me +
In ths P-position reduces the activit 1 +20 +71 14 6,1-03fr, in. FW
yo and a Me ,M 82'
1 -2 +40 0 .
2
reduce It very much. A smaller decrease in activity 10 t
by a p-jiteo limp, Hid9genittlon +69 + CA +M, 2.4'ClIff, m. loci%
of N-Mtc#H a - - jj_,1fe Aft()).
.0CH#C0oII -uses Increased activitro the greatest activi +1 + 1,2%. T,6%,
ulting from 4-substitutiono and I ar. I, -, g7,, 047,- 2 4 PrNe, in..
halo esm activity f. 117*. +3%, -6%, - -21 _2_,Rf -'Ya-AMAfeft
Ifnatlon. With 2.4-13 as the standard w
00 P Increase of Wheat Coleaptue growth at I m rn. 107*. 1. tibtituted
Was Showu that MM0%
mg. btbylalkykwboxylic 0
nd l1ctcv0Qu1IQ As the standard which gayl
Of lildricAmn root growth, the following mults MH from the ring by hAn I C stom redum the
were obtained In plant tegtj*, (in above (irder; w PhY11101. activity and the cotnpds. with an gcid groul) at the
andlOO K,e- C011=11i tesQ for the wheat nd I-position an C,41r, akdeton ar sub-
I 'be 1' 10 e the only UctI%
50 And 100 MCA cOnme. for the Udine I~ stanco with 2-subs(itution at -C ones;
Wil e Inactive. Subititutlon Of
SISA"Awmd PAfxY(4(fa4 adds (substItucats, given AtiyI groups or MCC) grotil" Into the C,411, ring le-ads to
sharp decline In activity. The following msults wete ch-_
talned In blot. tests (same standardi jLj above): Rilrtl-
tuted I-naplithalenca"tic adds (substituents given).
11, in. 131'. +77%, + 169%, -, -, +92%, -; 44W.
in. 1441, +278; -12% - +107, +2777a, +9'7a; 4-1te,
in. 148'0 +Itv, +1~.', -~4%, Tlfi~~, +24%. -1()%;,
4-FJ. 120*. +9%. - +9% +60'. +27 4-Pr.
in Jig' -5% -70
X -~247g, '+50-9. +32 4-flsf,
m: 110", -,*'-14j' +-)I I +W%, +33179, 1-
C1,111COCIfieffIC0,1111, in.
+4601.-
.2-C.II,C0CIf,CII,CWI, in. 174
MOM of the abovit-a6l, were prcTxi. bythe
Williteradt reaction othcri tljTmigh the ititrilc,4 fmin the
corresponding bentyl linlides. G. N1.
~GJLTRFVJCH~ G.P.; KHMELEVA, M.G.; KENETSOVA, M.S.
%jortant of iodine, cobalt and copper In the rattons of students
of a boarding school in Vladivostok. Trudy Vlad'.FMG no.23
214-216 162. (M-Tak 1813)
1. 1z Vladivostakskogo nauchno-issledovatellskogo instituta.
opidemlologAll, mikrobiologil I g1glyeny I Vladl~vostokskoy
gorodskoy sanitarno-epidemiologicheakoy stantall.
Li
112-2-2713
,~Tranolation from: Referativnyy Zhurnal., Elektrotekhnika, 1957, Nr 2, p. 13 (VSSR)
AUTHORSs Fridkin, A. Ye., Nuznetoova, M. S.
T1W Thermal Treatment of Porcelain (K voproou o termicheskoy obmbotke
farfora).
PERIODICAMTr. Goo. i9aled. elektrokeram. in-ta) 1956, Nr 1, pp. 25-44
0
combination with metal parts in a number of very important el6ctrical
appliances (air circuit breakers and otbers). The thermo-elaatic
properties (the modulus of elasticity, the coefficient of thermal
expansion, etc.) of metals and porcelain are different. Ceramic
materials obey Books's lav in a given load interval, but do not have
yield properties, and break down when the load is increased within the
Proportional limit. In addition to this, residual deformation is
observed in porcelain after a force applied over a long period of time
Card 1/4 is removed. Internal stresses are of particularly great importance in
porcelain insulators. Research on residual stresses in metals and glass
ABSTF=T :Electrical industrial porcelain (
) is the basic material used in
112-2-Z713
Thermal Treatment of Porcelain, (cont.)
has been going on for quite acme time, and an electrical cermic materials
it was initiated in 1952 at Gieki. It in chiefly internal stresses of a
primau nature that affect the mechanical Strength of porcelaln insulators.
These stresses balance out within areas with ai- ions close to those of
the given body. These stresses are usually determinecl by cutting the sample
being investigated into parts and measuring the deformations produced during
the process. Residual internal stresses can develop during hmtlm fma - cool-
ing, for example, those due to the heterogenous plastic deformation of
Individual parts of the ceramic body, am well as to the irregular develo;ment
of phase changes throughout the volume of the sample. The modification Of
quartz into porcelain is an example of this. Still another category is that
of temporary thermoelastio stresses. Insulators, especially large ones, often
break up during discharge of residual internal stresses. Two methods were
used in carrying out resparch on residual intemal stresses: 1) the method
of boring layer rings; 2) the bar method. They have found wide application
in determining residual stresses in metals. By the first method, the stressed
state of hollow pokeelain cylinders can be determined by successively remov-
ing the outer Were and subsequently measuring the deformations (the change
of the inner and outer didneters and of the length of the cylinder).
Card 2/4
Thermal Treatment of Porcelain. (cont.) -112-2-2713
on the optical indicator. The second method consists of grinding by
layers one of the surfaces of the rectangular bar. By measm*ing the
deformations produced in the process,, it is possible to determine the
value and sign of the residual internal stresses in the axial direction
in bare cut from parts of large insulators. The internal stresses were
tested under the folloving thermal treatment conditions (11000 to W -
tempemture range): a) aan &ling - cooling mte, 5 to 15 degrees per
hourl b) tempering-cooling mte, 450 degrees per hour; c) cooling 9-;at
25 degrees per hour (factory pructice). The research carried out has
established the following: 1. During annealing in the process of
cooling, and also during annealin after repeated heating, the deform-
ation of porcelain rings is measurable on the optical indicator.
2. When tempering the fired elements of 4W kv lead in covers, the
compression stresses which develop . in their owface layers attain
80 kg/cm2. In the middle layers the stresses change into tensile
11 s vith a maximum of 40 kg/cm2. 3. Under factory cooling
conditions, with a cooling rate of 25 degrees per hour, tensile stresses
develop in the rings as well as in the bars (in the surface layers),
and, in the inner layers, residual compression stresses devel6p.
4. Plesidual internal stresses in porcelain increase with the tbickness
Card 3/4 of the wall and the diameter of the insulator. This is observed during
Thermal Treatment of Porcelain. (Cont-)
112-2-2713
tempering as well as during cooling. Optimum thermal treatment of
prodwts made from electro-technical porcelain ( # ) my be ensured by
aauealing ( removing the permanent stresses),, or by creating reinforcing
(compression) stresses on the surface of the product by tempering. Ocntnpm7
3.10, 220 and 400 - kv insulators have a very complicated form and.it is
difficult to produce evenly distributed compression stresses on their
surface by tempering. Annealing is recommended as the optimum thermal
treatment of insulators vherein practically no residual stresses develop.
3.1 bibliographic entries.
N.V.N.
card 4/4
110-2-11/22
AUTHORS3 Fradkin, A.Ye. (Cand.Tach.Sci.), Kuznetaova, U.S. (Cand.Tech.Sci.)
& Genin, L.G. (Engineer) I
TITLEs Residual stresses in porcelain insulators. (Ostatochnyye napryalzheniya
v farforovykh izolyatorakh)
PERIODICAM Vestnik Blektropromyshlonnouti, 1958, NO.2; pp. 37-42. (USSR)
ABSTRACTs Internal stresses in materials are classified into three groups, but
the article is concerned only with the first of theme, namely,
temperature stresses during cooling. It is possible to calculate
temperature stresses In metallic bodies of simple shape, but little
work of this kind has been done on porcelain. The difference between
temporary and residual stresses in explained. The method of
determining residual stresses in explained. The method of determining
residual stresses in porcelain specimens was adapted from metallurgical
methods that have been described in the authors' earlier work. One of
these methods in the ring method, which is used to determine the
stressed condition of hollow cylinders and rings. External (or
internal) layers are aucc:;sively removed and measurements are made of
the changes in the intern (or external) diameter. The internal
stresses can be calculated from these changes. The rod method was
developed by Prof. N.N. Davidenkov. Here one surface of a rectangular
cylinder is ground off in layers. The resulting deformation of the
opposite side of the block is measured and the stresses are calculated.
.Card 1/3 Stress diagrams for the speciments are then constructed.
Residual stresses in porcelain insulators. 110-2-11/22
When the porcelain speoiments'ars cooled in the hardening-
ten&rature range at a speed of the order of 4500C per hour,
compressive stresses of some 80 kg/cm2- are set up near the surface and
tensile stresses of the order of 40 kg/cm2 occur near the contra.
With slow cooling, at 5 - 100C per hour over the same temperature
ranget there are practically no residual stresses. When cooling at
the rate of 250C per hour, which is common industrial practice, the
tensile stress near the surface of the speciments in about 20 kg/cm2.
Residual stresses of thermal origin are AIWAYS compressive near the
trlace, and the stress diagrams obtained indicate the existence of
tructural stresses. To establish the temperature interval in which
:
stresses are set up, a number of porcelain rings were made and annealed.
They were then subjected to various heat-treatments with different
rates )f cooling. The results of deformation measurements and the
corresponding results of stress calculations are given in Figs. I & 2.
Internal stress can be completely relieved by treatment at 11000C, and
stresses can be set up again by re-heating and relatively rapid
cooling. It was then established that changes in the magnitude and
sign of the residual stresses depend on the rate of cooling in the
temperature range 800 - 5000C. The develgpmeat of tensile stress in
certain cases was attributed to structural changes and in particular
Card 2/3 to modification of quartz, Insulator porcelain contuins up to 17~
iesidual stresses in porcelain insulators. 110-2-11/22
of free quartz, which Is converted from the a to the-3 form on
passing through the temperature of 5730C. Special experiments ware
undertaken to confirm this hypothesis. The results, given in Fig.3
and Table 2, show that the effect is most marked when the quartz
content is high, and in Absent when the fluartz content is very low.
Hence, insulators with no residual stress can be made by appropriate
heat-treatment, if the quartz content in kept very low. Another
method of reaching low residual straisoo is to adapt the heat-
treatment to the quartz content. The method by which temperature
stresses Are set up when porcelain products are cooled, is discussed
in none detail, It is considered that residual stresses are unlikely
to cause cracks during cooling because they reach their maximum value
only when the temperature is uniform throughout the product, i.e.
at room temperature. However, they may cause spontaneous cracking
during storage, or in service. There are 2 tables, 4 figures,
ASSOCUTIONt GIEKI. 2 literature references (Russian)
AVAIIABLEt Library of Congress.
Card 3/3
AUTHOR: KuznOsOva, M~ S- soy 72-58-7-8/19
TITLE: ihe Coorinc-M-ftrn-11-.in Products in Periodic Furnaces With ;,uto-
tantic Air Supply (OklilazMeniye farfarovykh izdeli.v v periodiches-
kikh pechakh a prinuditellnoy podachey vozdukha)
PERIODICAL: Steklo i keramika, 1958, Nr 7, pp. 27 - 29 (US'JR)
ABSTRACT: In order to balance the temperature in the furnace, the GISKI#
to(;ether with functionaries of the "Izolyator'l- and "Prolotariy"-
Works introduced a cooline method with the auction of cold air
below the vault of the furnace. In this way it was possible to
reduce the temperature drop in direction of the height of the
furnace from 22o0 to loo - 12oO. GIEKI proposed the mothod of
automatic air supply into the furnaco in order to be able to pro-
duce articles of larcer di~~ensions. This method was tried with the
aMitatance of the engineers L.G.Genin and G.M. Khlopin in the
'Ilzolyator"-IYorks. The scheme of the vacuuz--snd com.nrersed air
lines is shown in figure 1. The coolinC-process in carried out in
3 temperature intervals: up to Oooo, from 3oo to 500 0, and from
500 to 500- Froi 1300 to 8000, the fragment of porcelain is still
sufficiently plastic and may therefore be cooled quicker. This
Card 1/2 may be intensified up to 1000$'y opening the furnaces and the
The Cooling of Porcelain Products in Periodic Furnaces,'EV/72-58-7-0/19
With Automatic Air Supply
chimney draft. The following cooling regime was by means of tests
determined and then introduced during tho first 2 to 3 hours -
loo to 1500 per hour; up to 0500 - 30 to 350 per hour and up to
8ooo to 2o0 Der hour, in which caue the cecond period (000 to 5000)
is considered to be the most dan::erous one, nince the final so-
lidification of the liquid phase taken place within this tempera-
ture interval. It was reconmended to fix the cooling velocity for
lar,E:e products in the temperature intervi4l fron 500 to 500 with
2o to 250 per hour. The values of the dropa in tenperature within
the period of from Goo to 500 0, are given in the table. On the
strength of toots, the cooling period was reduced from 77 to 76t
to from 6o to 62 hours, and lateron to from 52 to 54 hours (Fig 2).
There are 2 figures and I table.
1. Ceramic mate:,ials--Processing 2. Furnaces--Cooling
3. Air--Applications 4. Vacuum systerns--Applications
Card 2/2
KOYNATSKIY, N.A. IGORK, 1.T~.;GROWZNCHIXO X*A* ;rA4MAKOV4, P.M.; KOVIXOYA, G.S.;
KORNIW , A.I.;KUZKZTSOVAo.g.V.;HELINIXOVA, L.9.
I "I"
Silicosis, etiology, pathogenesis, and clinical aspects. G1'g. sanit.,
Moskya no.8128-32 Aug 1952. (CLKL 23:2)
1, Of the Clinical Department of leningrad Soientific-Researoh Institute
of Labor Hygiene and Occupational Diseases.
112-57-7-15920
Translation from: Referativnyy zhurnal, Elaktrotekhnika, 1957, Nr 7, pp 298-299
AUT14OR: Bukhman, Ye. N., and Kuznetsova, M. V. (USSR)
TITLE: Statistical Study of Telephone Traffic Used in Designing Dial Telephone
Offices (Statisticheskoye izuchentye telefonnoy nagruzki pri proyektirovanii
avtomaticheakikh telefonnykh stantsiy)
PERIODICAL: Uch. zap. po statist. , 1956, Nr 2, pp 263-270
ABSTRACT: In constructing new dial-telephone offices, high quality of service and
minimum construction expenditures can be attained only through correct equip-
ment design. Telephone traffic fluctuates, depending on the season, time of
day, and chance factors.
The Erlang tables have been used to determine random fluctuations of traffic
caused by independent actions of subscribers. In addition to random fluctua-
tions, it is necessary to allow for irregular fluctuations observed during politi-
cal campaigns (elections, subscriptions to loans, etc.) and national holidays.
The effect of irregular fluctuations of telephone traffic is particularly pro-
nounced in the case of large trunk groups connected so that all lines of the
Card I /Z
112-57-7-15920
Statistical Study of Telephone Traffic Used in Designing DW Telephone Offices
Ible to every party. One of the factors influencing the traffic
group are accessi
fluctuations is the concentration of a great number of calls around a certain
group of parties (recording board, information, etc.). With all correction fac-
tors introduced, the final formula for estimated traffic at a dial telephone office
is: Y I + O