SCIENTIFIC ABSTRACT ZUBAREV, V.I. - ZAKOSHCHIKOV, S.A.
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SCIENTIFIC ABSTRACT
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ZUBAREV, V.I.
........
Ways to improve the performance of basic metallfirgic equipoent
in copper smelting plants. TBvet. met. 29 no.7:18-21 J1 156.
(MLRh 9:10)
1. Ministerstvo tsvetno7 metallurgil Kazalehskn7 SSR,
(Gopper industry--Equipment and supplies)
AUTHOR. Zubarev, V. M, 20-3-54/59
TITLE: On the Problems of the Relations Existing between the Oak and
the Spruce (K voprosu o vzaimootnoshenii duba I yeli).
PERIODICAL: Doklady Akademii Nauk,, 1957, Vol- 115, Nr 3, pp. 616-460 (USSR).
ABSTRACT: This problem has a long history In the places where the distribution
are,:is of these two species of trees meet. Since a long time the
majority of vegetable geographers and fore3t expearts consider th-1
displacement of the oak by the spruce as one of the main reasons for
the shift of the northern boundary of the oak distril)ution towards
the south. There are, however, also other opinions. The author exp1nits.
the material obtained by the stiidy of the factors, which determine
the northern distribution boundary of the CXertua pedunculata. of
today. There are scarcely any references or data concerning tho rr-
lations existing between the two tree species at the aorthernmo~,t
boundaries of the oak areal. It is known that the qrruca settligst h,:P,~
easily in the oakwoods. The oak offers,, however, strong resiztan-:;-,.
to the penetration3 the roots of the spruce sojedlings dry out a~, f;he
thick layer of leaves covering the ground,, whereas the small qua--ti"',-
of rooted spruces is stifled under further thick layers of falling
Card 113 leaves. The spruce can take roots only at ailcro-elc7atioms. The irr!e
On the Problems of the Relationa Zxi-,,3tin:7 f,et"'Ifeen the Oak 20-3-54/59
and theSpruce.
what regards growth. The annual grovith of the oaln was in the mentionf-;
Piceto-Quersetwm aegopodioswm miich lower than uBua)Ily idiat regards
volume and diameter. Spruces settling In an oak -wood RP.Qd 3o
yea,rq
excede in their 301, year of lifa the oaks what coneprrvi: growth. Thus
the spruce does not only hinder the oak reprodi-iction b,,it, also Treake,,-13
the life activity of the grown up oak.
There are 2 figures and 11 Slavic referencoso
ASSOC IATION;Forest Institute of the AN of the USSR (Institut leva. jkkademii nauk
SSSR).
FRESENTED: By V. N. Sukachev, Academician, Ibbru=7 9, 1957
SUBMITTED. February 7, 1,957,
AVAILABLE.' Library of Conares3.
Card 3/3
MPARLY, V. K.
"Biological Reasons for the Possibility of TranspImtIng Oft.-Treem to the
Northern Distr1ats of the European Part of the USM
dissertation defended for the degree of a Candidate of Blological sciences at
the Inst. of Forestry.
Dissertations. Branch of Biological Sciences Jul-Dee 1957.
Vest. Ak Hank SM, No. 4, 1958, pp. 119-1M
e.) Jx 0 y
0 1044
1959,
L) d
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fo: T~,O.R N0.1,
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ZUB;Mo V. H. ,
Zubarov, V. N. - "Experimental Iimetigation of the P, Vs t Relation of Water
and Water Vapor at Superhigh Pressures." ' Min Higher E(luzation, USSR,, Moucow
Order of Lenin Power KnglneeriM Inst imeni V. H. Holotavt Mouncows 1955
(Dissertation for Degree of Candidate of Technical Scionces).
SO: Knizhnaya Letopis', No. 23, Koscow, Jum, 1955v pp. 87-104#
Subject
card 1/1
Authors
Title
USSR/Power Eng.
Pub. 110-a - 4/17
AID P - 3883
Kirillin, V. A., Corr. Memb., Academy of Sai., USSR
and Zub re.v, V. N,., Kand. Tech, Sci., Moscow Power
Institute
Research on specific volume of water, and steam at
super high pressure .
Periodical Teploenergetika, 11, 19-23, N 1955
Abstract The article describes methods of research done on water
and steam volume at 950 atm pressure and 5000C temperature
A table with enthalpy date computed following experimeants
is included. Two diagrams. Four Russian references,
1950-1953, 2 English, 1931-1933.
AUMOR. Vukalovich, U.P., Dr. Tech., Scl SOV/96-58-7-6,/22
Cand.Tech.Sci. and Prusakov, P.G., Enginmor,.
TITLE: Experimental investigations on tho outhalpy of steam
(Eksperimentallnoye isele(lovaniye entallpli ipodynnogo para.)
I
PEEtIODICALs Teploenergetika, 1958, NO~7~ pp. 22-26 (MIL)
ABSTRAM. Although extensive work has bfien (lone in thio USSH. on the
properties of steam, there has so far been no attempt to determine
directly the enthalpy of steam. Enthalpy figures have been
calculated either from experimental data for ep, Me apecifit. heIL4.
at constant pressure, or from tho specifit voluat. both mthods are
theoretically sound but subject to error, for ex=ple irA integration,
and appreciable differen:~;es have been found betireert results obtained
by the two methods. The method of determining the enthalpy of steam
used in the present work is wicurate. In a,umlogmi work carried out
in England by Callender and Egerboa, the enthalpy error was Within
0.1%. Ilavlicek and Miskovsky used the satmi method to determLine 'the
onthalpy of steam at priinauros up to 400 Iql:/=2 Ififil wil elcmraey of
0.25%. The equipment used for the present work ho illustrated
diagr-1, tically in Fig.l., and is describod in iletail. Water is
distilled, de-acrated and cooled; it is then p-wsped at the rater of
14 litres per hour to a singlo-pass electric boiler, In the first
Card 1/4 stage of the boiler the temperature is raitied to 200 - 2500C and
Experimental investigations on the enthalpy of atefui. SM/91", -58 -7 -6 /2 2
in the second the required temperature is reached~ The steam that,
passes to a pressure-and temperature-,impasuing chomber, and tben-4:
through two similar and separate throttling dovicois,, in which the
pressure is reduced to approximately atmoopheiric. Haally the attam
passes to calorimeters,. 'file rate of flow through oue throttlkng
device and calorimeter is tvire that t1trough the other. Under these
conditions, by appropriate calculations, thermal loi5ses beyond the
measuring chamber can be allowed for. The experijoevA&I procedure is
described and formulae used in the calculations are given. rhe heat
extracted from the steam in the calorimeters is measured direatly.
A more detailed description of the conatruction ot the apparatu...4 is
then givenj including information about the calibra;tion of the
I11-ustrated iii Fij;~2,
measuring equipment. The alorimetrars used are i
and described. The acnxra~-.y of determinations d.tpends mainly oil -the
accuruoy of measurement of the temperaturo differunce of the Cooling
water, which is estimated at M4 - 0.05 'V Ilie accuracy of w,~ighing
the condensate is about 0.,01 '%, The tests ware repeated several
times. Other tests established that the louses Dr. the two throttling
and calorimeter installastions were equal. Tile inubrium error in
enthalpy determination is different for different regions of
meetaurement, but should riot, be greater than 1.5 ktal/kg, The
Card -9/4- experimental data obtained in the woric are jriven hi Tables I
Experimental investigations on the enthalpy of steam. S011/9 ~,-, - 18- 7 - (1/22
which range from 200 kg/e=2-, 4709r,.. to 400 Icglon:2, 5000C. The -tables
show that the scatter of enthalpy valittia romad tha nean does xiot
exceed � 1.5 kcal/kg~ the greatest scaf;ter bi?ing obiltained in one (if
the first tests at 200 kg/cm2 and 4701G. Mean values of enthalpy
of steam rounded off to even val".s of pressure axid temperat-ures
are given in Table.8, and are tompated with othev available data
Values obtained at premsures below 300 kq/rm,- are also includoO
The new experimental data, are in good agreement with those of Havic.ek
and Hiskovsky and with prev,-('.ous work of VulcAlovii.-Ii, but agreetaeut
with the tables of the All-Vnion Therm-Apcludcal Ustitute is not
so goods The next task Wore tho authors iS to IMILO
at pressures up to 500 kg/ /-~m2 and temperatiwes up to 600OC; the
Card 3/4
.1 .. . I 1. -1 1 '' .. ... .
Experimental inve&tigations on the enthalpy of steam.
region riot covered by previous work will be otudie,l in most
detail, because it is here than divergencie3 iii entli-alpy tables "o
greatest. When the work has been done it is hoped to corr",t the
steam tables accorditilgly. There are 2 fiquroa, 8 tables and
6 literature referenees (5 Soviet and I Germso)
ASSOCIATION; Uoskovakiy aergeticheskiy Izatitut (Moscow Power Institute)
1. Steam - Entlalpy 2. Enthalpy - DeterinAmtI)n
Card 4/4
VORONIN, Grigoriy IvAnovich, prof. dokt,tekhn*nriulc., YUKADOTICH, M.P., p:rof.
do)-,t.tekhn.nnukq ratuenzent,; PMURROV, B.S.. prof., dol:t.tekhn.rLauk.
rateenzent,; ZUBARJ,'V_V.11., dots., kwid. telchri.nowk, rittnen7ent,; ISACIUMO,
V.P., dotm.,VA-na,tekhn.nmik, retneinzent,: RABSIAZOV, D.S., inzh.,red.;
FETROVA, I.A., izd.red.; PUMMIKOVA, H.A., teld'in.redi,
[Principles of thermodynAmice nnd hont trAmMir] O-zilavy tnmo(linnmAl
i teplol)eredschi. 14oskva, Goo. I%d-vo obor., promynhl., 1958. 31#1 p.
(MIRA 1119)
(Thermodynnnics)
(lient-Tranamission)
zUBAW,,,-yU,diw;ir RikajaypjLch; rLXBJLIfOT, A.Go, otvoMubi,enzWV rad,; MWA,
--l-, ' V,A,, rod. izd-va; IUMINUAYA, AA, tekhn, viL4.; flANITOTo, A.,
teldin. red.
[Accounting In contract building org%nizationa of t-he coal Induatr7j
Bukbgalterskii uchet v podriadnvkh stroitelliViWi orpmIzataiialdi
ugollnoi prov7shle=osti. Poekwa, Tj~letekhlzdat, 19!;8. 197 P.
(Goal mines and mining-Accounting) 04M 11:9)
--------------
VUKAWVICR, M.P., doktor te)chn.rsauk; ZUBAREV, V.W*, karA.tVV.1in,u&uk;
PqTJSAKOV, P.G., Inzh.
Experimental stud7 of the anthalpy of water wypor Cirillh sixmmrT
in.Englishl. Teploanergetika 5 n0.7:22-28 Jl 158. (MIRA-Iltg)
l.Moskovskiy energetichaskly institut,
(water vapor)
----------
Soll/96-59 -1.o -14/22
AUTHORS; Vakalovich, M.P. (Dr.Tech.Sci )- Zubariav 11 11 (Carid.
Tech.Sci .) ; Aleksandrov, A.k: lgn-gl~~11121-',-F
Kalinin, Yu.Ya. (Engineer)
TITLE: An Experimental Determination of thre Specific Volwaos of
Water up to Pressures of 1200 kg/cm2
PERIODICAL: Toploenergatikag 1959t Nr 1.0, pp ?LI-77 (UM)
ABSTRACT: Available information about the therrao-dyl-aamic, propertiez;
of uater at high pressures is inadequate and experimental
data on the specific volume of water were required. The
data are needed both to formulate tables of specific
volume, and also to calculate calorific values of the
speo
ific heat at constant pressure and of the enthalpy of
w,ater at high pressures. Similar vil,)rk Is in hand in the
U.S.A. bY Kennady~ Knight and Hojso-.c,, The oquipmotit iised
was very similar to tk,,at described by Kirillin in
Teploenergeti.ka Nr 11, 1935. The p-iozomnter was made of
steel lKhl8N9T~ whose thermal coefficient of expansion Is
tabulated. Precautions taken to ewmre accuracy of the
experiments are described in considerable detail,
Cani 12 Specifti! volumes of water were de-te.-mainod at soix
temperaturesj and the experimetital data art-, tabulated,
SOV/9 f;
An. Experimental- Determinatiorl nf the SPeCJ.fJ.c 0.41, 'Water
up Pronsurps of 12.00 kg/cra2
Tho maximuni error of the, teat data in the
,u:t,(3 r lating, to
usual way is 0.06-0.08,%", the lattai! f;`LF 0
the maximum test tempe-raturij. The experltaental data
obtainad in thi~~ work are corapa-red vi-th publi~ihed
A.merican and Soviet data at -aa(.11 of 1;h(3 six temperatti-res.,
Agreement between the proserit wark a:tjd pi,~blished Amerioan
work Is good; such differenc~es as ".I-Lere ave lie wIthin
the tot-al expei-Imental erro.r of th,:~ two ~;oto of dat.a.
At low temperatures there is good with tlaj
published Soviet data, but; diff'eien,,,,,3s app-fe','iSb.1t--
at higher temperatures, This is evidtintly *IDOr1--3u3e valuOs
of specAfic volume at', high pressure -pre-iinusly publJsb.Rd
'were obtained by extrapo'Lation of 3xper!,jiiental data
Ca rd obtained at a pressure of 100 kg/L~;
p,,iblished Soviet data of appop.z to b,)- in need
Tharo a-,,o tabloo,., I f:111UTC-1 41M C -,-OfSt
ASSOC,IATIONs Mos,-,ow Power Instituta (5 so,lyler,7 3 EngIltsh)"
(Mr,s:zcivakI-y energeticheshi-, institut)
24,.5-200 soV/96-60-1,14/22
AUTHORS: Vukalovich, M. P., Doctor of Technical Scien,:,es, and
lffzampov, B.-V., and Z~ibarev,--V, N., Candidatos of
Technical Sciences I f-- -, --.o.
TITLE: Tables of the Thermal-physical Properties of kmmonia
PERIODICAL: Teploenerget.-Lka, 1960, Nr 1, pp 63-131) (USSR)
ABSTRACT: Extensive use is now being made of ammonia as a beat-
transfer')~medium, but adequaLe tables of its thermal
physical properties are not available. Accordingly,
the authors decided to study, analyse and select the
most reliable experimental Ind calculatc!(.1 datiz. on thl
properties of ammonia and t,0 Work out the tables Giv:qrl
in this article. The tabl(~s of' prE)fl0L1:r:1;, voli;ime and
temporaturo covor the i-aw,~~e of 40 - ;,:!C)(): t-hose of
specific heat aL constwit pr,-;,s!3ure are :1 ''or the range
40 - 280OC; and the viscosi-Gy tables cover from 2
30 - 250oC. The pressure range is 3. - 800 Jr.jr/cm in
all cases. International publiohed wotk on the propol, -tios
of amnionia is critically re-~riewed and t.'ae best is UIS,tld
in formulation of ("he tables. Table 1 grIves 'values of
the specific volume of ammonia for temp-;!raturos up to
Card 1/2 2900C; available VZ11U,~S were not
6,7645
GOV/96-110-1-111/22
Tables of the Thermal-physical Properties of A=onia
used because there is evidence of decowx)sition of ammonia
above 2900C. The values tabulated viere_obtain(*,~d by
calculation and graphical methods. Thero is satisfactory
af,reement with other aut'llors and differences do not
exceed 0.2 - 0.3%. Work done on the s'paoific laeat at
constant i)r~)sstire is reviewed. Values ive-re calculated
or determined g I U
I ::,raphdc,~lly -and the resulti..; are plotted
in Fig 2. It was considere-11. thnt; the eri:,ors in this
table may be 2 - 3.*%, at-,d on Wi;2 1.500C Isottieviii at
pressures of 100 lr~-O Liney lxay lb~i somewhat greater.
The properties of ammunj.a on the saturatJon Lixve have been
studied by several authors but the data rema-ii). inadeqiiate;
the thermo-dynamic properties of ammonia on '61io saturation,
line from temperatures of - 70. to + 152.11-00 Lare given in
Table 3. Work on the viscosity of ammonia is reviewed
and values are given in Table 4. It is considered that
the values in this I-,ablp are accurate and. rellable up to
2500C and 800 kg/cm~. T-11ere are 1 figurel 4 tables and
13 references, 4 of which are Sov-iet, 8 English and 1
German.
ASSOCT-ATION: Moskovs-kiy energeticheskiy instuitut (Moscow Power
Institute)
Card 2/2
7-
11 WIR
VMLOVICH, 14,P., doVtor telthn.nauk; DZA14POV, B.Y., kand.tekhn.nauk;
ZUBARFV, V.N., kand.taklin.nauk
Thermodynamic properties of a 96 percent (b7 volune) zolution
of ethyl alcohol in water. Teploenergetika 7 ao,2;70-77
F 160. (HIRk 13:5)
1. Mookovskly energaticheakiy inatitut.
(Ethyl alcohol-Therml properties)
VUKALOVIC11, M.P., doktor takhn.n&-uk;-ZUR-UUV., V.1%, 'k-Ind.to-khn.miuk;
DZA:,:IIOV, B.V., k-vnd.tW-jm.naLd,.
Calorific properties of the 96 per cent (by vol-time), i-j"b-yl
alcohol wator solution. Teldoenergatika 7 noJ.0:63-()'1
0 1( -10.
1. Mookovskiy energeticheskiy inatitut.
(Ethyl alcohol)
VUKALOVI(It M.P-o 40ktor Voll of, 'Itando 1,akhn.nauk;
rjti,jllljl# Yu.Ya.,, imzh. I- AIZYZAJI=v F A# 4. 1 wIll.
Eq%i*Uon of st4ta of water baised on experivittrital data.
%ploenergetika 8 no.,4s76-451 Ap 161. (14D-tk 14:8)
1. Moskavskiy energeticheskiy institut,
Water-TherrAl prcperft*&'
u&tjon of stALte)
M
ZUBAREVI V.P., kand.tokhn.navJc; XMIN, V.A., irmb.
Id-dLagr= of inoist air for preasures of 1 to 15 kg./(!m. 2
Teploen-argetika 8 no.7:50-53 J1 161. (MIRA 14:9)
1. Moskovokiy onergiticheskiy Inatitut.
(Conpressed air tables, calculatiow p etet)
ifli 112k :1 1,1111i 111111 : 11111h 1" T 1111h.111:111
VUKALOVIC4 M.P., 4*tcr tek:hn.nauk, prof., ZUBAREV, il~,N. I IMnd.tekhn,Iiaukj
AIEYSATIDP6V . A,A, ) allzh.
Experimental determining of the specific volvviti of 11team at
temperatures from 7CCO to 90V' C and under a p-assure -up to
1200 Kilogram por square centineter. Teploone:vffetilka 9
no.lU+9-5l Ja 162o OrJRA U,-,12)
1. Moskovskiy energeticheskiy inatitut.
(steam)
VUKALOVICF, M.P., doktor tokhn.nauk, prof.; ZUBAREV, V.U., kand.tekhn.naulc;
PRUSAFOV, P.G., inzh.
Experimental study of the enthalpy of water vapz)r. Teploenergetika
9 no-3:56-63 Mr '62. (KJIbI 15:2)
1. Moskovskiv energeticheskiy institut.
(Steam-Thvrmal liropertAns)
Calculation of the thermodynamic ... Ei94/E455
reviewed: heat of dissociation, saturated vapour preiisure,
equilibrium concentrations and'properties of reacting mixturo--,,
'rho available results are us%~d to calculate the values given in
Table 2. These values apply on the saturation lints. The
results obtained are compared with those of oth,-,jr author.-i and aro
discussed. An onthalpy/entropy diagram for potassium is plotted.
The likely errors in the results are asscs,.iad and etre mostly of
the order of a few percent. There is need for more accurate
experimental knowledge of the heat of dissocJation of the
molecule K2 and of other properties, The calculations are
valid provided that thermodynamic equilibrium Is set up in the
mixture, but the extent to which this equilibrium is in fact
observed, for example during supersonic flow of vapour, requiresi
special consideration. . In addition to the work described in this
article, tables have been drawn up and diagrams of state constructed
Cor muqerhQ4tQd Votanaium vApottr &tt ul) to 1300C,
including the specific heats at.the speed of iiound; and a more
complete table of the properties of the saturated vapour has been
drawn up. There are 3 figures and 2 tables.
Card 2
3 91
s/o96/6,,Voo0/0lO/OOl/0O1
E202/E435
AUTHORS Vukalovich, M.P. Doctor of Tochnical. Sciances,Profeissor,
Candidate of Teebriical ;cionces,
Fokin, L.R., Engineer
TITLE: Calculation of thermodynamic proporties of potassium
at temperatures up to 13000C and pressures up to
25 kg/cm2
PERIODICAL: Teploenergetikaqno.10, 1962, 65-72
TEXT: Gases dissociating at high temperatures according to
X2 ;~2 2X are treated as reacting, ideal mono- and bi-atomic
components of equilibrium mixtures. A table is compiled for
partial derivatives of first order for pressure p , temperature T,
degree of dissociation a , specific volume v , entropy a 9 4
enthalpy i and internal energy u . This table, compiled on the
basis of published work, can also be used for the calculation of
'(xT- cOeff- of heat expansion and isotherinal and adiabatic
compressibility PT and Os respectively. A detailed
discussion of a number of thermodynamic properties in the
regions of partly condensed vapour and along the saturation curve
bard 1/4 .4.
s/096/02/000/01.0/001/001
Calculation of thermodynamic ... E202/1-,435
is given; it includes the differential Joule-Thomson effect
aJT for superheated vapour and by referring p, at c to
0 P
saturation curve it is possible to calculate the JT effect on
the saturation curve, front the side of the single phase region.
The Clausius-Clapeyron equation is used for the evaluation within
the condensing vapour region. Detailed attention is given to the
application of sound velocity in the azinlyses o17 flow processes in
vapours. In the calculation of the fortner, it is assumed that
the vapours comprise a hydrodynamically hontogenoous medium of
reacting ideal gases, their degree of dryness x , boing
sufficiently high to disregard the volume and rcinpressibility of'
the liquid phase. The sound velocity is calculated from the
Laplace equation, assuming infinitely small adiabatic
perturbation propagated in the non-viscous and non (heat)
conducting medium. Further assumptiona are used in calculating
the "thermodynamic" velocity of sound in superheated and
saturated vapours on the side of the single phase region of the
dissociating vapours. In actual calculations a cont-ept of
"sonic adiabatic indicator" was introduced, defined as
Card 2/4
s/o96/62/ooo/olo/ool/ool
Calculation of thermodynamic ... Z202/Z435
ks V (-DIE)
1) av St which in Cthe case of dissociating gas was
expressed as: k where V = 2-(1 - a).
2
The considerably more complex flow processes of the, partly
condensed vapour are also considered using largely foratulan and
conditions stipulated by I.I.Novikov and Yu.S.Trelln (Prikladnava
mckhanika i tekhnicheskaya fi.ziki, no.2, 196r)). The latter are
also used to compile a table of thermoaynamic properties of
p6tassium vapours front 500 to 1300*C, taking hoat of dissociation
0
DO(K2) = 11842 + 1000kcal/inol and taking the values of saturation
pressure by extrapolating -the equilibrium vapour to liquid from
800 to 13000C front the experimental enthalpy daia of liquid
potassium. The table of saturated potassium vapour lists:
heat con ft sing.ph. Cit sing.ph, and c"two ph.'
tents csatt C p . I v v
differential JT effect allsing.ph. and a"tIvO ph. and the above
It sing.ph. JT JT
k as k and k"tt`10 ph- and also sound velocities
s a a
a"sing~ph. and alftwo ph.. Yet another table "lists the
Card 3/4
S/096/62/000/010/00.L/001
Calculation of thermodynamic ... E202/E435
following properties of muperbeated po-tAmsiulli jljjpoiax,~I: a,
specific voltulies,i and s . Additional three diagrams give
the results of calculations on the side of the superheated vapour
viz. C Vs t0c; k. vs t0C and a vs a, the last including the
P
region of condensing vapour up to 0.6. Brief general conclusions
and error analysis are included, Thore are 3 figures and 3 tables.
ASSOCIATION: Moskovskiy energetichesRiy institut
(Moscow Power Engineering Institute)
Card 4/4
32832
8/020/62/142/002/010/029
BI 04/131311
/C 0
AUTHORS: Zubarev, V. N and Telegin, G. S.
TITLE: Shook compressibility of liquid nitrogen and dry ice
PERIODICAL: Akademlya nauk SSSR. Doklady# v. 142, to. 2, 1962, 309-312
TEXT: The substances resulting from the detonation of Condensed explosives
were examined at pressures of several hundreds of thousands of atmospheres.
Pressures of up to rv 0-5 million atmospheres were produced in 002 and It2
by slowing down plates moving at high speeds. The characteristics of the
shock waves in N2 and C02 were determined from the sho(,k waviia in the Cu
and Al shields enclosing the substances to be examined (Tablii 1). In
determining the pressure and the maun velocity from the wave velocities
the isentropy of expansion of the shield material was assumed to coinaide
with the mirror image of the adiabatic shook ourves of the latter. The
resulting error lies within measuring accuracy,, Tho adialuitio shock curves
of N2 and CO 2 (Table 3) were calculated on the basis of the thijory of J. E.
Lennard-Jones and A. F. Devonshire (Proo. Roy. Sooop 163A, 53 (1937)) and
Card I/X1,
32832
6/020/62/142/002/010/021
Shook compressibility of ... B1041BI38
calculations of R. H. Wentorff R~ J. Buehler et al. ('T. Chem. P11ye., 18,
1484 (1950)). The pressure produced by the thermal motion of nolocules
during the explosiont is about 4N, of thetotal pressure. The thermal
motion of molecules is of importance when considering the equation of
state of explosion products. L, V. Alltshuler in thankod for itivice and
assistance, N. V. Panov, N. M. Filipohuk~ and 1. A. Dolijoy fo.r
participating in the experiments, and Yu. M. Shustov and Ye. V. Mokhova
for calculations. There are 2 figures, 3 tables, and 11 refsxences:
4 Soviet and 7 non-Soviet. The four most recent references to EagliBh-
language publications read as followe: J. M. Waleh, hi. 11. Rioey J. Chem.
Phys., 26, 015 (1957)1 J. Dapoigny, J. Kieffer, B. Vodar, J. 11hya. Had.,
6 67T1956); F. C. Gibsonp M. Bowser et al., J& Appl. Phys., 22, 62B
_~1_958)1 R. If. Wentorf, R. J. Buehler et al., J., Chem. Phya., 18, 1484
1950)-
A-
PRESENTED:
SUBMITTED:
Card 2A,_."
August 10, 1961, by Ya. B. Z911dovich, Acudemiaian
June 22, 1961
IZUELREV, MI.; TEUGIN, G.S.
Calculation of the parametern of detonation wavell frm oondemeed
explosives, Dok1. AN SSSR 147 no.5:UP2-=5 D Ir:,2.
(MM 1612)
1. Predstavleno akademikan Ya.B6 Zelldovicbem.
(Datonation) Mplosives)
3/161/63/005/003/026/046
B102/Bi8O
AUTHORS: Vashchenko, V. Ya., and Zubarev) V. 11.
TITLE: On the GrUneisen coefficient
PERIODICAL: Fizika tvordogo tola, v. 5p no. 3, 1963, 886.8,10
TEXT: The-GrUneisen coefficient (ratio between thermal preasure and
thermal energy density) is usually calculated by one of the following
formulae
P.,
V dV2
is- 3 2 d
-dV P.
(P. V%)
v d VJ
TD.W -Y 2 d
Card 1/5
(Slater)
(Dugd tile -MoDonal d
On the Graneioen coefficient
5/11 a 1/63/005/003/028/046-
B102/B180
(P. V./.)
-V V2
'T/== 7 d
-W -V (P. V, (theory of the*free volume)
The accuracy of the assumptions made on the derivation of these relations
is discussed. The weak dependence of Poisoon's rati,;i p on the volume,
in particular, has a considerable effect on Slater's result. Due to
the difference in longitudinal and transverse frequemoies in the Debye
spectrum
r-,
dinw, if In W,
2
C21 I is dP, 1-211 dP (5)
-V !t. .
I-+-,. dV
one obtains
card 2/ 5
S/18i/63/005/003/0,20/046
On the GrUneisen coefficient B102/B160
d.2 (P. V")
4-3n V dV2
Ti 6 2 d
(P. VO) 1 (8)
2 1 - 21L,$
d2
4-3m V j-vt (PV")
Tt -6 7- --F d
dV (P.V,")
where Po is the g val .us at P x.0. for PX.0 is then given by
a 110 n*4-5po J"3 being the j value at P -0. JI(V) may be determined
S - Z 7-211 0 S x
from 0, and 0
S exp. When jexp S, p increases on compression (n> 0) when
decreases (n < 0). Up to now only three metal ii, Pt, Pb and Au,
S
are known for which S. The "' formula was obtained from the
exp Du
Card 3/5'
S/161,/63/005/063/028/046
.On the GrUneisen coefficient B102/11180
oscillator model and is neither experimentally nor thooretically provon.
its occasional bettor agreement with experimental datit. is d.00idental.
In the theory of the free volumo
3
with
leads to
where.
I 2-nkT
Vf (12)
I d In (a)
din V (14)
Card 4/5
S/18 63,100 5AC3/ 02 6/046
On the GrUncisen coefficient B132XB180
The latter relationn agree with the initially given / f formula. For
crystalline argon and KC1 ~-(V) (,- as a function of the lattice constant.
d) is calculated accordind to Bo'rn I s theory and compmrad with /*S, .11' Dif
I -f;I,, -f(V) lies closest to the Barn curve. For KCI the divergence
increases with decreasinj; d, due to a phaso transition. There are 2
figures.
SUB"I"ITTED: June 4, 1962 (initially)
October 25, 10,6? (after revision)
Card 5/5
ZUBAM V N, , kand. tekhn. nauk; ALMSAN M-V, A. A, # Juind. tokhn.
nauk
Heat transmission and viscosit7 of a 96-per cent (in volume)
solution of eth7l alcohol in water. Teploemergatika 10 40-39
74-78 Mr 163. (MIRA 16:4)
1. Moskovskiy energeticheskiy inatitut.
(Ethyl alcohol-Thermal properties)
7:11111 h~111!; 11H 1~1 H li~ ~di 111 [1A
VUKALOITICH, M.P., doktor tekhn. naukp ZUBARV, T.N., karad. tekhn.
nauk; PFOSAFOY, ?.G., inzh. I. . l . . . 1. 1
DcperLqlenLal study of tho entMlpy of steam, Toploencirgetila
10 no.1,0:63-69 0163 (pt I RA 170)
1. M-.,!kovakly energaU,,-h,;,qkiy lilititlit,
1 T-
'I I I 1 111; ;
I --
F P,
- ~ -. I I - - , - .I... i -
I I ! j ! ~ :1, .. .1 A - Ild I - ft 11 If 1 , ; c. - ~ ~ 1 12.. !i 1 1 -,
"i !F11, i
;, :~ j: , ~ I
f~- r I I
I . I
VUBARU, Vludinlir Nikolaywilch; ALENSANDROV, Ablk--;#,-y
A-~-'.; rel.; VUYALOVICH, rr-lfl.
(Fractical work in engineering tlhermod.,,maml~:o] Pr-akt-lkum po
tekhnicheskoi termodinandko. l4oskva, Eiiox-g-'ll.n., .190~, 295 p.
I
,,m rRA
;j:
i Nj~ 'I I III H11111:11.1 HIN
l
y 'All I 2-IC L~ I Id, I .11~ il-.J j I
14
Pi
!11 n. lu 14 h I !I; ~.i I -.4ili i I
MALOVICHO 1M.P,O doctor toklin.sinuk, protojIUBM V&A., 1ui-jid.tak.%n.n&uk;
PAUSAYOV, P,0*0 k-%iid#t,*~ftijna1jkj ALEMAND111ho A4,A*, hj,ni0,t*kkirmLuk
Th6 in-diagrain of ittoam at 800-150000, temps ra Lunii u tutil, I-,rr-qmourd3 tip
to 1000 bar, Toplo4norgotilta 12 no.1008-89 0 vilA.
(MIRA 3,8110)
1. Modkovskly onorgetichbakiy Inatitut.,
! I'll 1i, 1, h,
I J, 11% 111111 1' T P7~ 11 ff-i ~! ~! i i d; , ~ I I : ~
ZUBAREV, V.V. (simferopolt)
Quantitative analysia of tho Initial plathy-amog-,ram. anzl vts-
cular reflexes to light utimulie Vrach. delo nc.1121~11-51
N'63 Omiru, *.1.6ti"~)
1. Katedra gospitaltnoy terapli ( iapo3-nyriywh(,',h,17 ohymran-
nonti. zaveduywhchogo - V.P.Poinerantsev)
fakuliteta Krymskogo meditsinskogo bwtit%ita.
1. P-111'OVCKI 1
C, it C
n 9 o r s tv, 1) U
11 H11-11 illfll~l Fill: H I Id 1: 1. - H
- --- ----- - -
fir r, e. I
r :I
a c" e r, c, r)
ra i',ey, -:if.
i, I. I I I
'1
N
If
11
hill; 11,11d
it: 4
III
,
J,
III
1
,
i h
SVA.'IlrjZE, G.G.;
Grapls for ri-IsOrMirs far f1w re-gulation
over la nc~,ricd of Trad-~~ Inst. ;Jnerg. Ali "niz. S6R 17.-
.1
267-'I'~)(1) 163. (M:1FU 17: 7)
ty
D, d,> 1 Id Z e
ZUBAREVI V.V.
Prom.
AddItIonal 6(111.1-*21t for ATs4hG-'14,164 tr"'k RA 170)
25-26 161.
11mirdl IN
M lull It 11.11puu, 1111111H 1! LU I LILL ~Iw Ill III! AA L it BIT LUML
aq A L
I. H1 "I i It I : H i1i,
17
MALIMIN, ,.,K,., j,jzjj,j MAVVITENKO,
ZlJF,AiR:",l
~ L p0 "I e r
Petermina" on of Lhe, Optil"UM Gqpurat,iorl Of a ljydrclel~jclt,r~
stationwitin OPUJOIaL I'8gullit'loll uOll-lo Trudy
HEI no./.(,A,3,-24 It: 3. M I RA _18. 3)
instituta.
iiP Pill! 111111 HH1 irl: 1-Ji
AZNAURIYANp M.S., mayor meditsinukoy Bluzhbv; ZUBkLW,, V-V-,F linpitan
mditsinskoy sluzhby
Electrocardios copy in dispensary and ambul&tory wcamir6ationso Voon.-
med. zhur. no.7:72-73 Jl 161. (HIRA 15:1)
(EaCTROCARDIOG.APHY)
DRTJGAL', Sergey Alek9androvich;.ZUBLHFVYi~t
KOGAN, L.A., kand. tekhn.nauk, retsenzent; MARTYNOV, M.S.,
inzh., retsenzent; FEDORCHTK, V.A., kand. takhn. na,Wk,
retsenzent; FILIPPOVA, L.S., red.; SHISHLY)COV, Ye.S.t inzh.,
red.; USENKO, L.A., tekb, red.
[Experience in the mechanization of the nervicing of
refrigerator cars] Opyt mekharii3ataii ekipirovid. vaganov-
lednikov. Moskva, Transzholdorizdat, 1963. 31 1).
(Refrigerator cars) (11TRA 16:5)
(Railroads-Equipment and supplies)
ANDRIANOVA, Tamara Jlikolayevna; DZAMPOV, Boris VanillyfovIchl
ZU MRE' A) r 4 t N m,
..1gypirich; RMIZOV, F
Aleisandrovich; VUKALOVICH, M.P.f prof., red.;
SINELINIKOVA, L.N.,, red.1 BULIDYAYEV, N.A.j tqik:hns red,
[Problems in industrial thermodynamics] Sbornik zadach po,
tekhnicheskoi termodinamike. [By] T.N.ArArianova i dr.
Moskva, Izd-vo "Energiia," 1964. 199 p. OERA 17:3)
z
~Lp~!IEV, V.V., In.,,h.
Stabilit7 of long length cargo ir' tTansPr~~2.t-;(:n on -0,ip7ed
flat caro. Veat. TSNII MPS 24 no.8:46-,'~9 165.
(KIPA 19: 1),
ZUBAII&V, V.Ya., inshener.
Apparatus for dateraining ox7gon content 1n feed wvter. Elek.sta. 25
no.5:53-54 NY 1.54. (MU ? -. 6)
(Feed water)
LTMKO, Y.I., polkovnik; ADININ, A.B., polkovnik; 201111AR011.0, Y.Te.,
polkovnik; ROGACREV, 7.3,, polkovnik; RTBITAKOV, U.N., pod-
polkovnik; BKLYAKOV, S.A., polkovnik; ISAKOV. F.F., polkovnik;
BURLYAT. A.A., polkoynik; SAVCEMIKO, A.M., -polkovnilq IVANOT.
N.I., polkovnik; ODEVENKOV, I.P.. polkovnik; ZUBAUT, Ts.G.,
polkovnik; DIBROVA, I.Z., kapitan 1 ranga; TSTHTKOV, R.Y..
general-mayor, red.; BR1TVIII, II.I., polkovniki red.; SEARPIW,
P.N., podpolkovnik, rod.; HTASVIKOVA, T.F., ttbkhn.red.
[Party political work in the Soviet Army and UA Navy] Fartiiao-
politicheakaia rabota v Sovetskoi Armli i. Voeimo-Korukom Flote.
Moskva, Voenizd-vo H-va obor.SSSR, 1960. 284 p.
Ouu 13.6)
1. Voyenno-politicheakays akademiya imeni V.I.Ijeniua (for all,
except TSvetkov, Brityin, Sharpilo. Myasnikovm).
(Russia--Amed forcen--Nducntion, Ron-rdlitary)
L 42170-66 wrq)
ACC Ngs AR6013678 SOURCE CODEt U11/0274/65/000/011
AUTHORSt Lyakhovkin)_A. A.; Mikhaylov, A. V.; Zubarevy Yu. 1.
-`-- .'"" .' I
TITLE: Phase stability of harmonic oscillators '!/~
SOURCE: Ref. zh. Radiotekhnika i elaktroavyazIp Aba. 11D351
REF SOURCE; Tr. uchbn. in-tov avyazi. 11-vo avyazi SSSR, vyl). 23, 1964p 1&-29
TOPIC TAGS: harmonic oacillatorp trannistorizod oecillator, phase analysis
ABSTRACT: Certain considerations were cited in reference to the factors detormining
the phase stability of harmonic oscillators. A brief evaluation of different moiboda
for the generation of harmonies from the point of view of phase ijUbility was given.
Two circuits using semiconductor devices were proposed for oscillators of broad
uniform and alternate harmonic spectrums with increased phase stability. The .
necessary calculation formulas were derived. V. P. Oranslation of abstrac!7
SUB COM 09
1/1 UDCt 621-373.072.6
TI
, ;L7 ~!' , :. , ~ . I
EOT-IK V 1 -1 11, . I ~,
1(-~: ~' [,I' ~ ~, C 1, ., ..m. ; ': .: 1-1 1 i ~:-: _.j~j 1.11
, ~ f. , .-. , - .,- - -: . 1 :., i ", . " t, "
!,-., I t " , 1" ;,." --- . f. . C 1, .
~ ; I - . I - . I :". % !I I - . ..
.1 : .,
!~:. - . ". C. . I -,,)
ONISHCHENKO) fu,A. p kand. tekhn.nauk5 ZT,;.HiiRv,`1. Yu.1 ., Inzh.
WAYJ of' Rppri.,XlM4tJ!)g 111horntory rook tenlAng data 'to
matie during, mining. :mr.vy3.u,-h3b.Tav.i gor.1hur. F'. nr.11s
21-26 165. 1931)
1. bonutalmlY wdol flornorudnogo
instl*uta (for Onlshchenko). 2. Makeyovakiy mmic~ulo-AC31EAC-.
vatellskiy irntiti,,t, pr) Inpzopaninns"J. rabot v g.:)rnoy
nos~.l (for Zl~barcv). ~~-A hinn t, I Kror ~ v 19t')5 .
ZUBAREV, Yu.P.
Effect of natural fracturing on the stability o.J.' outuraps.
Trudy Inst.gor.dela AN URSR no.lls,37-46 102. 011FU 16:2)
(Joint$ (Geology)) (Roolc preamure)
ZUBAPLV,,.Yu.po,l inzh.-geolog
Role of fractured rocka in E)ixldpn mtbarats, 11gol I Ukr. 7
no.7:49-50 J1 163. (WRA 16:8)
1. Inatitut gornogo dole AN UkrOSR#
(Mine gaaes)
OuisHCHENKO, Yu.A.;__ZU,BARE,V,_
Wfect of basic geological factors on the bobtuvior of" ro(,.k5 in =lm,
workings* by P.V.Vaoillev, S.I.Valluin. Revlewod by M.A.Daishg1ev.1o
IU.P.Zubarev. Ugoll 37 no,11:62 N 162a (.MIPA 15'.10f
10 Institut gornogo dele AN Ukr=..
(Coal geology) (Vaail~ev, P.V,) (14hlWnO S.I.)
(Coal mines and mi4Yg)
11 IP *11 IIH: 1111 11H1: 11, H, 111M1~'! .1;
8/149/6) /1)00/002/1001).4) 17
AQj6/AV)1
AUTHORS: Lovehikov, V.S., Lipshits, B.M., Obidina, L.A., Zubarev, Yu.V.
TITLEt On the Problem of Extracting Tellurium Front Al;10T -Lead -Refin-ing
Melts
PERIODICALt Izvestiya vysshikh uchabnykh zavedeniy, Tsvetn&ya metallursiya,
1961, No. 2, PP- 97 - 101
TEXT - The hydrometallurgical processing of alkali. lead refining melts is
accompanied by the distribution of tellurium over all the produoto. Tellurium
may be concentrated sodium antimonate by preoipitation from ttrong alkali nolu-
tions with antimony metal. (See tsvetnaya metallurgiya, 111 6, P, 3, 959).
9 1 To
determine optimum conditions of this process's. series of dt)tperillients were per-
formed. The initial solution contained 1.1 g/l Te; Y,4) g~/l NaOH and 65 g/1 MCI.
Tellurium was extracted from the solution with C3 -2 (SU-21) gra/Le nultimony of tile
following grain sizes: - 3-2+1.5 mm, - 1.540-85 mm; - 0,8!5-fO.A-2-= and - 0.42+
40.25 mm, Mien precipitating tellurium the theoretical anount of antimony of the
aforementicned granulometric oomposition wan oonsumel, and also its T,1VO-, fDUI,-
and nine-fold excess in relation to the theoretical conwtrqtion, The experiments
Card 1/4
S11 119/61/000/002/009/1017
A(X6/A00 1.
On the Problem of Extracting Tellurium From Alkali Lead Refining* Molts
were performed in a glass container with a mechanical mixor Intowhich 500 ml of
the alkali solution were filled. 1he solution was heated U 95001. An iron-grid
basket containing antimony metal was placed into the ho- isolution and the mixer
was switched on. The temperature and volume of the soluticin, aj~d the rotation
speed of the mixer were kept constant. Samples of the solution urere subjected
to chemical analysis, as to their tellurium content. The roeultii ;Ph-:~w that higher
consumption of. antimony and smaller grain size' raise the ta,,e al' t~eparating tel..
lurium out of the solution. It is recommended to conduct tellurtum extraction
from a strong alkaline solution at 950C with a nine-fold excess ,.)f antimony over
the theoretical amount at -0.8240.42 ram grain size for 3.5 boura, During reduc-
tion melting of sodium antimonate tellurium passes into tk16- 131ag whose leaching
out with water is accompanied by the formation of a solid reeidub ftontaining over
3% Te. From this product Te may be leached out by an aquecus solution of -sodium
sulfide. To determine the optimum conditions of this prooooi3 tivit authors -9tudled
the effect of temperature, the concentration of sodium sulfide In the initial
solution, the liquid-solid ratio in the pulp and the time of leaching out. Leach-
ing out of tellurium from the solid residue was made in a glass ,o).,itainer with a
Card 2/4
I 11;:~ ] 111111 1!111.11 : Hill i1i'likIll ::il I N'
S/Sq/i5 IPOO/002/009/t 17
A006/A031
On the Problem of Extracting Tellurium From Alkali LA-Rd Rilifining Melts
mechanical mixer using an aqueoum solution of eodium stil.ride and a solid residue,
containing (in %~i 3.2 Tel 14.0 Sb; 14.1 S102; 7-51 C40; Fe o 2,14 Mgo
2
and 0.18 A120 - The pulp volume and rotation speed of th* mix'Ejr were aintainod
constant. P results obtained show that Te should be leaahed out from a solid
residue by a solution containing 60 g/l Na2S, for 5 hours at 950C and 12%1 liquid-
solid ratio in the initial pulp. This assures a 931) trammition, of To int-D the
'~b; L-M S102;
solution. The 3olid residue (210%) contains (in %)% O.r* 2 Te~, ~.2
12.4 Cao,, 4 1 Fe 0 8 MgO and 0,29 Al 0 From the obtained tel.
~y sodium hydr 1. (10 g per I g
lurium was precipit9ted Os-Ulf Te). Within 1.5
hours at 950C, 95% Te in the form cf metallic powder was *ktracted into the pre-
cipitate. The powder was extracted from the solution tri the pialp.
The dry powder contained 96% Te. After extracting telljrlum a flltrate wvq cb~
tained containing )2 g/l Na23 and 20 g1l N&2!30 Ilia saillum h:rdr=jlfidiii was
removed front id'of Ca(~R'2, 1.
--the solution with the a Op-titnim con(litions for clean_
ing the sodium sulfide solution from sodium hydrosulfide viere ansured by using
a 50% excess of calcium hydroxide in relation to tAia ffiaanstlcal iuno,,mt, and
Card 3/4
3/149/6 i/too/oo2/oog/o 17
A606/AOOI
On the Problem of Extracting Tellurium From Alkali Lead ReTining Melts
stirring of the pulp for one hour at 950C. The solution si:1 obtedued may be usL-J
for leaching out tellurium from new portions of solid res.1(lue. Illiere are 9
figures and 1 Soviet reference.
ASSOCIATIONS: Krasnoyarskiy institut tevetnykh metallov (Itrasnoyarsk Institute
of Nonferrous Metals), Kafedra metallurgil tyazholykh tevetnykh
metallov (Department of Metallurgy of Heavy Non-Favrous Metals)
SLTMITTED: may 18, ig6o
Card 4/4
LOVCHIKOVp V.S.; LIP511ITS, B.M.; OBIDINA, L.A.; MBARPT,_Yu.,V.
Extraction of tolluriwn from vaturated levd D-4&ching rf.'agents.
Izv. vys. uchob. zav. ; tavet. met. 4 no,2:97-101 '6L
(mml 14:6)
1. Krasnoyarskiy Institut tavetny1d, metallov, liafed.m vietallurgli
tyazhelykh tsvetnykh metallov.
(Leaching)
(Te2lurium--Vetallurgy)
ZUBAREVA, A. _ and GELIELM, Z. I.
"Experiments of the Use of Soviet Gramicidin and Peidel.1.1in in the Paril'i-
cation of Smallpox Vaccine from Foreign 1,1croflora," Trii~~y TrisLitut Epi(jol. I.
Mikrobiol. Min. Pub. Health, Kirghiz SSR, Fninze, Vol, 1, pp 043, 1951
i IIIH 111,11 11111i, iIIIII II III,::! -~111 1:1001
ZUBAREVAI A. I.
'lobs ervatIono on Dr7 Smallpox Vaccine, 11
Mikrobiologii Ministerstva Zdravookhraneniya
pp. 44-47, 1951
Trudy InstitIlfilL EPIAJOMJ010gii
Kirgizskoy 5511, Frumm, Vol. 1,
~ L h
~
; 1~ I ;*~!! ! i
of 11"eir Und.er 'r),,:- "t
-Hiol 6cl, t R jr,
So: Lilfl-l 1~8, ?2 JlZTY Ir)5"
pot M I,f" 11#f
43 C-
so G"Wih of patH14. spithalilmin tim t0m. A.
Z(T"A '44h) iticid. AiNul, Kci. F.H.H.S.. IsMiA
It or the fliftill" &if the tifulimuh *00
of nowAxym robtAtot wero p-ml by tim hemallig dfq~'J' see
see mathod M a modfush ;if chickm embryatuil varart.
lt%,pwriWmd robUt phtm. Gwitrip etitliflitun
Vx*vm aU the prol;girtku o( The wilodemid px),;p
sea
o( timim, rix., hvrimnfal adiomcphy, uM6 miltiar '6! 000
atribuUgm jimiamm d pLigmabo demomn, InIvr.
No*
'see
ties
........... .. ...........
. . ......... ........
r-- too
v 44 0 4 a 1 6 ft 9
tq 1: ft it ct to (A "16 AI its
0 glee sloe 00 600 * 0 G, 0 411 a 0 4 0 0 *0 404D 416 sov qfo 0016 0 so a 0 411 i
0 a 0 0 0 10 0 0 (D * 4f 4i 0 41 a 0 0 010 a 0 4) 41 a Q, 4) 46 al 41 0 41 so 0 "D of it
"Iffimminim,mmm" - m ii
ZUBAREVA, A.V.
Aubareva, A.V. If Ex.pe rime ntal -hi st ol ogical investigations of the epith,~!lial elements of the
liver"., Trudy Akad. med. nauk SSSR, Vol. 1) 190, p. 221-28.
SO: U-hll, 17 July 53, (Letopis' Zhurnal Inykh "Statey, No. 20, 1910)
, - -~ * , ~ -, A ? ~ !
1. .. . : I a. L. % ", ki ,~t . m .
Zubareva, A. V. "The riormholo;-4 c;il pronerl"Ien fljl:~~',)-- Ole.
Tr rly Al(i;d" n: ;i'~c
S'~ 17 t~,lly 195', (IiAto-As
G., NIKITINA, N., ZEL
"Giant pulsatlons In the Sovie-t Areble. (For 1.1ic p2riod 19~9-19156)."
report presented at the Int-1. Association of G~olftagntatis'm arvi Av:.unomy, syr~pjslu,-,l on
Rapid Geovaimetic Variations, Utrecht, N(-,Lherlunils, 1-14 Sel:
I ~J N' 111 T II;II. Hill! 11 Hiii:111 1!;k Il 1
TOMM11111., L.Ya.- ZUBAREVA E.L.
Matorials on the ecology, of the grans frog in the PoIar 11ral.3.
Trudy Inat. b1ol, UFAN SSSR no.38:189-194 16~,#. P!1-111A
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ZUBARF.VA E P - NUAJBOVICH, Yu.A.
I O'LAL4.
New method for recording terrestrial currents. Trudy IAFAN
SM. Ser. fiz. no.4:35-37 162. (MVIA 15:12)
(Terrestrial electi-icity)
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PH= I Boax ML101TATION EOV/5215
Akadenlya nauk SSSR. Y~7JIduvc~4owitvcnnyy ko=ltet po provrldeniyu
Pazhdunarolnoso eeofI74cheDko-~o roda. III r&zdal pra;,-7z~~y K30Z
Ze=oy wiz.~matizn I zc-=y~4 tck:l.
XorcitkoperioMeliesk--yu kolebanlya clelctrwaa_-TLitno.~o Polya =tnli
(Short-ftirlod 0:)c1llaLtIon3 of the Yz~rthlgs ElectrontT;aellc
r1e2d) YoscoN, Izd-vo AN ZZ!;R, 2551. 214 P. I.E00 cc;lea
printed (Series: Itz: Sboralk statcy, No. 3)
Reap. Zda..- A. 0. Xnlaahnlkov, Doctor of Physics and
mind Y. A. Troltakaya, Candidate of Ph"Ica aiid M!Lth~,--Ice;
Ed.: Ye. P. Shaliukina; Teah. Ed.i Ye. V. )Wcunl.
PMOSE; nUa publicatIon Is Intended for Zc*16ysicinta.
COVERAM This collection or articles. publizhed by the L--ter-
departmental icy c-ittee or the U=t Acadc--,T of Scle=es.
treats proble= or roa=a~ictl" and telixtrIc curr-ent.3. ln~
dividual articles deal with varioui (chort-~-criod, CIZ=t1c,
Steady, eta.) 05cillatlcna of' the terrestrial
field. Particularly in the arctic raoica. !:* Por--an-itca
are Imentioned. Brief Baffliah abatractz =CC-;)anY CL74 article.
References follow Individual articles.
TADiX 09-
Afrinas?ova, V.j. Mort-Pariod Oscillations of the Earth-a
'~a-zx~at a-Weld
Kobulad=e, V. V. Sane Regularities of the Illaturbod ?LvZ~ or
Ckh-atninsInLya, r. -V.. Tu. B. R&"tru;s1n, 1--T- Rokity-en.k1j.
and S-- -~: , " , Inov. T-Z&zra-ntie3 in ti-C h~at=ticv-' -Cr
-I'latiozia I
,her tfE~0~;i C;. . In Mddlc Latlttdes 17
7 Short-rorlod Oscillations of the raectro-
EWIIU-.:F.c Field (Accord-Ine to Observatlopa in Txl--tuk) 23
,y, V. 0. IL-pid Geo-electric and Gen=z~=UO VarlfttIc-ja
Dobrovs~a
i6d-Th-a-fr FFee-uraritlea (According to Observations In Alh~~'~Sbnd) 35
Troltok-jo, V. A. Steady Czet1lations and Chain 05cillat-lens
in th. Arctla and JLnt3r'IQ 41
2kib&ineya E P * Pral lialn&ry rzeaulza of Mzmx-L~- O~~- it 40:~- i--
t
Xjjatjna~ K_ M. Prelltainary Results of Earth Current Ozs.~
-yaffo-nji' at' il~-~ftrcntobur& Station (Spitabargza) 61)
zi
SL zm. rd
T kii176-affuKa in --latle
the 1935-1956 rarlod
B^ra.kov, 0. M., and K. Yu. 4bin. Nonperpcr,;2l,-ulzr1t7 a!, the
-6f-LI-W-9 and H Variations of the Ej%rthlb Electr4-Ag-
nette Field 63
Troltak.VA, V. IL., and M. T. Phl-nikova. Characteristic
Int~rv&14 of Oar-Illatlaiin-. tcr;taaintd~er a Perlixi (1r- I
see), In the karth0a Kleatrc-aViutlo r1isid, Ana 'naIr =a1.&'Uc,,t_
SUP With Fliaw6;.6ML in tha tr-v-z-. A=.--.-
0 V . 9. r". zYt-1D. and :9. P,
M3X1lar1LiCJ Uc Behavior of the IVWrtlcal Ci~:.Ponent Or
Short-Parlod Oscillations or the Gcomagnatic k1old in a Stxbj.
Re"24 C PC Ice
AUTHORS: Zubareva,
$/81j,:)/62A) oo/oo4/003/01 3
E,3 8'
E192 2
and Nadubovich, Yu.A.
TITLE. A new method of recording earth currents
SOURCF,: Akademiya nauk SSSR. Yakutskiy filial. rrudy. Serivil
fizicheskaya. no. 4. 1962. variat.,jii intensivilosti
kosmicheskildi lucheY, 35 - 37
TEXT: The measurement and recording.of tellural. currenti by
r,I-Lrrt)r galvanometers suffers from many disadvantages and it wa's
therefore decided at the research station at Tiksi Bay to employ
for this purpose the automatic recording pot tit or, type
-09. These recorders have a time-base velocity ranging from
60'to 9 600 mm/h and are fed from 127-V AC mains-, their errors
do not exceed + 0-50%. The method of u'sing thc potentiometer .
recorder for measuring the currents is illustrated in Fis. .10 'rile
potential U to be determined is expressed as.,
U = U HPM/R1,
where R,, is the inter-electrode potential and Li 1-1 is the
potentia difference across N. The sensitivity of the device
Card 1/2
- , -jj,
S/845/62/oOD/004/003/013
A new method of .... B192/E382
is directly proportional to R but this should be less than
H
100 -.'1 . The resistances RI and RI, in Fig. 1, to8;~,-A-hcr wit.11i
the battery E , are "sed to shift tric zaro of the potentiometer
to the centre of the scale (since this is normally on tne lefthand-
side end of the scale). The system was found satisfactory in that
its results were similar to thoseobtained with the galvaltometer.
There are 2 figures.
Fig. 1:_
+
+
R,
13
Car(I .)/P
29888
S., ,.Go "61/000/0091/049/066
s,~ q 622) 8 1/1)D3 64
AUTHOR, Zubqx,~-a,. E~ P,
TITLE - Pr,~Iiminary resiult-~ of ob.-)ervataoiis of earth cufrento
at Tilcsi Bay
PER 10 DI CAL t Ref-~rattvnyy zliurnai. fx-~olizifca, wi,, O~ 1.(143t, NO
abi*.ra-~t 9G219 (V ib, K-,)rotkop,';riod,, k,)1-.4)an1ya
~-I,Qhtcomagnil-nc. Zemli, no. :3~9 If., AN SSSR, 1031,
,ult,w of ~nrtb-cjj.,-rent observations 0 the Lime of the
MT, jh?
IGY art) Th- equiptient tind -)perating cosiditioni, ar-i desc-ribed in
detai I , Th-~ m%xiw, in ttv~ diurnaL -ariation of Pt 1:ako place at 20 -
22 lics, Oajo~,, ub-~, w-i,;ima for N, being 0, 11? - 11 firs, (Febm-
ary - Jun-, 1958), Tile compartson of t1w mean diticult'i amrlitudes of Lhe
magrietir. flel-I's horizonvx-v component and tho fi.411,11s t&tit*-.
dinal-comPow,ut 0~3closed tile gciod rorrelt.Ltion betwen tlwq,~ phenomena.
At Tifcs;,. a coas tal. wp-s abs!erv-7d in the e;lrth curr,~rjt,1-4 ~ th'?
Card 412
Prel irnjirwy re.-iul 0 of D2 2 ~B.f.DJ 04
electrLe fxeld'Et intensity decr~asr~s wifli removal from 010 (-Oust, The
hodograph of the pi)tentitl gradienr. has the form of an i'long I ips e
ptvd el
,who,-e jong axi!~ is situlated along the meridifutc, AbstracUrIs notei
Complete trans latiort..
Card 2/2
297FY
8/169/61/Coo/008;t48/053
AOD6/A1Q1
AUTHORS: Zubareva, E.P., Korobkova, G.I., N!kItina, N.M., T.voltskaya, V.A.
TITLEt Giant pulsations In Soviet Arotio during 1935 -- 19-",,r)
PERIODICAL: Referativnyy zhurnal. Oeofizika, no. 8, IS61, 3.9, 4tb;~traot 8(3262
~V sb. "Korotkoperiod. kolobanlya elektt,omaMLtn. p3.1ya Zemli, no.
3", Moscow, AN 833R, 1961, 76 - 82, EngLinh ir.iramary)
TEXT: The study of giant pulsations. was carriind out, on the basic of stand-
ard recordings of the magnetic fleld with 20 mm/h scivining from data of tile fol.
lowing 6 observatories; Dixon, Wellen, Matoahkin Shur, Tlkisi, (.if~lyuskin and
Tikhaya Bay. The greatest number of-giant pulsationa was recorded at. the Wellen
and Dixon stations. Usually, giant pulsatl=3 were observ,9d wilh T of about 60
and 90 sooonds. For a number of stations T viati also about 115, -1-5 and 135 8(30.
It is possible that for giant pulsaticna there are one or Wo WkSIC periods,
whose different harmonics appear differently dependLng on 'the conditions
of the given station. The amplitudes of giant. pul-sations vary within the limita
from a few 21to several tens of T - At Dixt-,n and Wellar, gtant p-alsations arise
mainly during the first half of -the day, On Dl-.lccn the niafter of' giant pulsations
Card 1/2
29727
-9/169/6 ~/COO/008/04W'053
Giant pulsations in Soviet Arctic during 1935-1956 AOI-.)6/Aioi
increases towards the equinox, for the Welien station Eseasemal changea are less
marked. -Sfmultaneous giant pulaations on a number of' stations art.'! rather seldom,
but some giant pulsations were recorded at the Fame t1ino at Dlxcm &nd Wellon.
Sometimes giant pulsations are excited durIng tho day iit lbut clolia
hours; in the majority of such cases -they ariae firat at tfie stal,ioni located
more to the east. it is concluded that glanT. pulzations are di:;-, I.-Urban ces of the
terrestrial electromagnetic field and are typical of polar aurora zones. nMey
damp rapidly t) the north and south of th,~ aur-ra.
K. zYbin
[Abstracter's notel Complete translation]
Card 2/2
USSR/O.iltivated Plants - Fr---.its. Bevrii,-s.
Ab s Jo x Ref Zhur Biol., No 13, 1958, 82509
Author Zubareva, G,
Inst Omsk List-it_,te of Agriml-ture
Title Increasing the Gorminnting Ability of Cherry and P-Lun
Seeds.
Orig Pub S. kh. Sibirl, 1957, 110 12, 43-46
Abstract Trials at the Omskiy Tnstit-,,tf-- of AGr:ic-LL1t,xe showed that
leo,-thening the preparatory period (stratification,
raised or alternatinG tenmeratuxe[3) ftom 180-200 to 243-
253 days increased the Lerminating nbl" 'ity: in Ly.'askaya
cherry 'by 441~, in Stepmr- by 20, in Mauncya by 15-3-
In Uss-.xiyakaya P).m 'OY 13-3; in Karziaskaya, pl.= by
11.4%. It is best to prepare and stcTe the seeds in a
frost-.proof cellar where conditions of outside onviromnent
Card 1/2
123
T.
rlvhrp C' zoi I- hy, (t;
Y 1,
;I I fn -I ILI I
ItT 111-, i I
F i
77-
17
C~_ /I /~ 00 0
AUTHOR:
TITLE:
3 /05 8 /6 2 /O(R/ia /008 /136
A061/A101
Zubareva, I. F.
Beta count scint'llators on polystyrene base with Introduction of
'L
POPOP - (ROROR) as a luminescent addition
PERIODICAL: Referativnyy zhurnal, Fizika, no. 6, IS?62, 10, abstract 6B74
("Byul. nauchno-tekhn. inform. po agron. fiz.", 196-0,no. 8 - 9,
55 - 58)
TEXT: A technique of plastic scintillator fabrication is dc-scr--bed, and
some of the working characteristics of the material are considered. The depen-
d,~nce of the effectiveness of beta-particle recording on scintillator thickness
and ROROR concentration indicates that the highest effectivenes.1, as meaured
with a calibrated Sr9o-Y90 source,is achieved with a scIntillator thIckness of
42 mg/cm2 and a ROROR concentration of 2%. It appears that the scintIll tor under
15
conzideration permits the reliable 2analysis of mixtures of soft W5, ca , 144)
and hard beta emitters (such as p3 , Sr69, Sr90-Y90).
LAbstracter's note: Complete translation] B. LevIn
V
Cnrd 1/1
I 44371-66_ E'-ff(M)/EWP(j)LT
ACC NR% AP6023059 (A) SOURCE CODE: UR/01.91/66/000/004/000/0011
AUTHOR: Zakoshchikov, S. A.; Zub are va Zolotareva, G. M.
ORG: none 1 (3
TITLE: Effect of starting materials on the synthesis of-_polyamidoacids and their
hydrolytic stability
SOURCE: Plasticheskiye massy, no. 4, 1966, 9-11
TOPIC TAGS: reaction rate, polyamide, synthetic material, polyester plastic
ABSTRACT- Kinetics of formation of the high molecular weight polyamidoacids from
pyrornellitic anhydridel(PA) and methy~Rhenylenediamine~(MPD), paraphenylenediamine
( P P D ) , he x am e t-h-y-1 e-ne-Mmine (HMD), '#,4'diaminod.1--p-li-eily-l~nlt)lalit.- (DP14), and 4,4--dicmino-
-d*ph nyl ster (DPE) was studied in dimethy1formamide solvent. The hy lytic ptqbi~
li - f the product polyamidoacids and the effect of reactivity of diamines on the
qual ty of the product polymers were also investigated. It was Found that the optimui
concentrations of the individual diamines were: 10% for PPD, 20t for KPD, and 15% f0;'
HMD. A maximin specific viscosity of the polyamidoacid equal to 0.8-0.9 was achleved5
from reaction of pyromellitic anhydride with methylphenylenediamine at 0.24 H20 in di:
rnethylformamide. It was found that tl~e reactivity of the diamido declines in the fol-~
lowing order: bexamethylenediamine>decamethylene~iamine>4,41-diuminadiphenylmethane>;.
UDC: 547.582.4
CQ,,j 1 / 2