SCIENTIFIC ABSTRACT ANANYEV, Y.F. - ANANYEVA, V.I.
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December 31, 1967
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S/024/6o/ooo/oo6/ooq/oi5
E031/E413
The Approximate Analysis of Systems With Stochastic Parameters
an expansion for the above terms, which when substituted in
Eq.(4) gives the result
1~2 + [Aq,l +
KIO Y. I) clAqk 0
V-00 k-1
01 1 (D
+ k.p-l (. OAqk cl,&qp 0.41 [AqkAq,) + D,e +
0* OT (I-w,*) 11,
+ 10 (iv,*) ID UWj,*) + )] ( OAqA, At lAq,l 4-
k-I
+ j )AqkaAq. At lAqkAqp) (7)
k,p-l
Card 3/4
S/024/60/000/006/009/015
E031/E413
The Approximate Analysis of Systems With Stochastic Parameters
As an example, ~ Qw) is taken as (ko + A k)/[1 + Jw(To + 4 T)~
corresponding to an inertial link with stochastic variations of the
amplitude coefficient and the time constant. There is 1 Soviet
reference.
SUBMITTED: April 11, 1960
Card 4/4
28956
S/146/61/004/003/005/013
D217/D301
AUTHORt Ananlyevp Yu.P.
TITLE: Measuring random stationary processes by incidental
pick-ups
PERIODICAL: Izvestiya vysshikh uchabnykh zavedeniy. Priboro-
stroyeniyep ve 4p no, 3P 1961P 55 - 58
TEXTs The author a.asumes that the realization of a certain sta-
tionary process is attained by the use of several pick-upep whose
parameters qk exhibitp with respect to their nominal values qkof
random variations 6qk' It is required to reproduce the statisti-
cal properties of the resultung processp e.g. to determine its
spectral density and its correlation function from the statistics.
processing of realizations in hand and from the known values of
random quantities Yk. The same conditions may be applied to measu-
Card 1/7
Measuring random stationary ...
28956
B/14 61/004/003/005/013
D2:~7%301
ring random stationary processes by non-stationary pick-ups provi-
ded it is possible to isolate from every realization some inter-
vale of time, greater than the correlation time T. of the process,
during which the pick-up parameters could be, even in approxima-
tion, considered constant. The results of transforming random
functions by incidental (random) linear operators using strict
theoretical methods are cumbersome even in the simplest cases. In
the present article the author shows "~at the approximate solution
of the above problem is co aratively simple. In the steady state
the spectral densities SX(Z and 3 y(w) of signals at the input and
output of a stable linear system with frequency characteristic
15(jw) are related by
SYM = /VjW)/2Sx(W). (1)
In practical cases
continuous and can
/,p(jwp L\-qlt L q2 .. 6qn/2 is nearly always
be differentiated and can be represented by
Care. 2/7
28956
S/146/61/004/003/005/013
Measuring random Etationary ... D217/D301
power series
(MO U-)l q,: +
a 0 OAqk 0
I'D 4, 10 (1 .)1,+ k-1
n (2)
q. A q,,& q,
ke q1 . OAqkOAqiddqh
711 Ova 31
ki-I kj,h_l
Substituting Eq. (2) into (1) and taking terms not higher than qua-
dratic
Al Is, !(D(].)12 a 1(b U .)I
-)I A q.) 0+2:( Oliqk Aq.1-
k-l (3)
0214, U Oll "A qrh,.l q, S.,
+
O"9k"ql. 0
and
Card 3/7 M ~JSY (w ~JA q,,;
28956
S/146/61/004/003/005/013
Measuring random stationary ... D217/D301
Eq. (3) is the reqUired result. By using it, the spectral density
of measured signal SX M can be exDrensed in approximation by the
spectral density of the registered signal S y(w) and initial mo-
ments 1,V,!A qk/ and Sl/.~ qk'~q~/ of the first and second orders of
random variations :)f parameters respectively. It has been shorm
that the correlatiDn function is easier to evaluate-than the spec-
tral density and t.aat both are related by the Fourier transform
(Ref. 1: Ilugachev, V.S., Teoria sluchaynykh funktsiy i ee prime-
neniye k zadacham. avtomaticheskogo upravleniya (Theory of Random
Functions and its Application to Automatic Control Problems) GITTL
M. 1957)
c0
I S JWT
K y('r) 3 yMe d w. (5)
00
Replacing in Eq. (5) the integral canonical form of the correla-
tion function by its canonical resol tion over the interval - T c<
Card 4/7
28956
B/146/61/004/003/005/013
Measuring random i3tationary D217/D301
.L:j T - - Tfrom Eq. (3) the relation for correlation functions is
obtainud. as
All qJ4-
qk 10
(JI11
where D So (w Z-\ w. Eq. (7) is the canonical resolution of the
x
correlation function K (,r). Thus, if processes X(t) and Y(t) are
y
analyzed during the same time interval, then, under the conditions
as above, the dependence, between the dispersions of r.--aidom coef-
ficiente of their canonic resolutions is given by
D
P (10)
Card 5/7 V
(02 lip (1 1.1, led, T
- -) M qKj q11 D., c
A qA; I
oaqko-%qt 0
28956
8/146/61/004/003/005/Ul3
Measuring random otationary ... D217/D301
in which F ^0 denoto coefficients of T) 11)0Jtovlr in Eq. (7) F which de-
pend on the consecutive number of the harmonic and on the first
two initial moments of variations -/\qk' It is pointed out that the
coefficient P. carL be de~termined by either partially differentia-
ting the square of the modulus of frequency characteristic of the
measurement channc-1 or the method of transformation as given by
ra.L. Byidiovskiy (Pef. 4: Osnovy dinamicheskoy tochnosti olektri-
cheskikh i mekhanicheekikh tsopey (Pundamentald of D~mamic Accura-
cy of Electric and Mochanical Circuits), GITTI., M, 1957). The
latter is stated to be easier if the vaialytical expression for the
frequency characteristic with 6~q k"s complicated or unknown. An
example of solution is given when
I 9~ (JW) 10 = I = const. W)
There are 4 references: 3 Soviet-bloc and 1 non-Soviet-bloc. The
Card 6/7
28956
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Measuring random statiolary ... D217/D301
reference to the ]Mglish-language publication reads as follows:
W. Zadeh, Correlation functions and power spectra in variable
networkst Proc. IRE, 1950P 38, No. llt
ASSOCIATION: Moskovskiy ordens, Lenins, aviatsionnyy institut im.
Sergo Ordzhonikidze (Moscow Order of Lenin Aviation
Institute im. Sergo Ordzhonikidze)
SUBMITTED: May 25P 1960
Card 7/7
ANANIYEV, Yuriy Foilorovichj, inzh.., assiste,nt
Measurement of raDdom processes with inertial transducers.
Izv. vys. u.-heb. zav.; elektromekh. /+ no.9:70-78 161.
(KIRA 14: 9)
1. Moskovskiy ordena Lenina aviatsionnyy institut imeni
S. Ordzhonikidze.
(Automatio control) (Transducers)
(Electronic measurements)
AMNITEV-RTASHOREM, P. S.
"Development of the Sheathe of the Nerve Fibers of the Vegetative and Somatic Sys-
tems." Cand Biol Scl, ORA State Veterinary Inst, 1953. (RzhBIol, No 8, Doc 54)
Survey of Scientific and Technical Dissertations Defended at USSR Higher Iducational,
Institutions (12)
SO: SUM No. 556, 24 aun 33
- AN&NITEV-SIVERSOY, Konstantin
Popular hero: on the 90th anniversary of M.Y.Frunza's birth.
Voen.sran. 36 no.2:5-6 F 160. (MIR& 13:1)
(FFunse, Mikhail Vasillevich, 1885-1925)
UZDENNIKOV, A.; IVANOVAt V.M.; SAWp VXI ANANIYEVAI A.
'Abstracts. Apt.delo 12 no.3:83-85 My-Je 162. (MIRA 16:1)
(FRLMCY)
I~M~
/-r rV i-I T1, - IT E.
Category USSR ousti a Atm..-sphe~ric ac:-ustles. Uydxzacoustics J-5
Abe Jour Ref Zhur - ftzlkaV No 1, 1957, No 2168
Author Ananlyeva, A.A.
lust :-1Mu_9T1_cs_7MMtUte, Acad-emy of Sciew-es USSR
Title :Non-Directional Ceramic Sound Pickups
Orig Fab :Akust. zh,,, 1956), 2, ND 2., 10-27
Abstract :Description of 3pherical ani cylindrical n~u-direction broad-band Bound pick-
ups made of bartum-titanate ceramics. The directivity chazacteristics ef such
receivers, with radial pclarizati~~m, are given and axe shown to be in the plane
perpendicular t: the axis im the case of cylinders aud in the equatorial plane
in the case of sphexes. The dl,,-Fctivity characteristics are shown to be almost
circular over a vide frequency range (frcm 15 to 200-300 kc). Th the plane
containing the. :)ut-put, the d-l-rectivity characteristics of spherical receiver
are quite different. from circles.
The frequency characteristics cited show that the operating band retain a
relatively constant sensitivity up to frequencies corresponding to the lowest
natural frequen:!ies of the mechanical vibraticrs of the cerapic piezo-elements
and of the suppirting structure.. A sr.,lution Is proposed for the problT of in-
creasing the se3Bitivity of ceramic receivers, which is low in the case of
radial polarization (on the order of several microvolts per bar). One employs
Card 1/2
Category ; USSR/Acoustics - Atm-'spheric s6coustics. Hyclroacoustics J-5
Abd Jour : Ref Zhur - FiziKa, No 1, 1957,NG 2j.68
for this purposa the so-called.mechanical-stress transformation, i.e., one em-
ploys the tangeatial stresses in a thira-walled cylinder and sphere, caused by
the sound pressare on the outer surfece. The transformation coefficient, de-
termined as the ratio of the tangential stress to the outer pressure, is R/2a
for a sphere ani R/a for a cy]Ander (vbQre R ie the radius and a the thielmese
of the valls). To be able to use the maximum piezo-modulus of :Ehe ceramic,
tangential polarization Is used and the electro&es are coated on the surface.
With this type of p_Aarizatlon, the circulax d1rectivity dces not extend to such
high frequencies as in -the case of radial pi".1arization. Cxxmputation data are
given for the static sepsitivIty of cylindrical hydrcphones vith tangential pol-
arization; experlmental dats are also g
,iven, and satisfactory agreement between
experiment and theory is noted. The sensitivity of cyli--Aexe 52 mm in diameter
with valls 1.5 mm thick reached P-50 micrz~v--.lts/bax.
Card 2/2
J-5
TJSSR Acoustics. Atmospheric Acoustics
Abs Jour 3 Ref Zhur - pizilm, No 5. 1957, No 12766
Author i knsn~eva, A.A.
Institutions Aooustion Institute, Academy of Sciences, USSR, Moscow.
Title i Cylindrioal Barium-Titanate Ceramic Radiator Which Radia-
tes Alon; the Cylinder Axis.
Orig Pub t Akust. z:i., 1956, 2, No 3, 323-325
Abstract t A cylindrical radiator.made of barium titanate car-imio has
a speoiaLly proscribed distribution of norml velocities on
the raditting outer cylindrical surface. The velocity of
the constants along the periphery of the cross section that
is perpendicular to the axis, and are distributed along the
standing.-.nmve law along the generatrix of the cylinder.
Card t 1/4
is attained by making the electrodes
longituon the outer surface in the
di-2al Periodicity form of rings with a
I the length of the radia-
*tOr, and 'Mking the radia d/2 along
flition fc:- seotLon, Polarization direote~in out po-
neighborilig ring.. of the ceramic that are corresponding to
the Osoil:.ations The same electrodes are used to excite
field. in the radiator by means of an alternating
The direction of
,Lngle-�-( with Propagation of
the plane Perpendioulft radiated wave makes an
linder. 7he angle , is or to the
where x is determined by the rel axis of the cy-
ation sin:K=X/,,
is the Perithe w"OlOngth Of the sound in the water,
odioity of the distribution of theroml and d
VOIOOJ-
Card s 2/4
ceramic, D ill the cylinder diameter),
rasOnanOt, corresponding to>,,= and a longitudinal
Ohl ,,, as to Make M = go A& The value of d is so
for the first radial resonance,
ioeop the directivity oharaoteristios has one large maximum
in the direction of the radiator axis. For longitudinal
resonance, the,direotions of maximum radiation make an an-
gle of 900 with the Plane perpendicular to the axis. If
the tube is Eufficiently long,
the radial-resonanae frequency it is Possible to obtain at
axial diroction, having small d a sharp directivity in the
direction imensions of radiator in the
Perpendicular to the radiation,
. 'r.'
UStR / !GOUBtiOS, Atnospherio Acoustics. J-5
Abs Jour tRef Zhur - Fizika, No 5, 1957, No 12765
iIt is not)d that the radiation impedance obtained with this
radiator 3onstruotion is 1.6 times greater than in the case
of in-phase surface oscillations. A preliminary estimate
Gives a vilue of eleotroacoustic efficiency of the radiator
on the onler of 50 or 60 percent.
Card j A //A
iv6-3-lo/15
C_
-alYeva, A-A* Piezoelectric
AUTHOR: Ana ---- ncies of a Plane
3onant Freque ~K voprosu 0 smeshchenii
on the Shift of Re-, tivo Load (
TITLE: :inr, with an Ac ,ICOGO iziuchat-
Radiator Wor'_ , loskoaco Plyezoelektrich
razonansnyldl chastot P gruZIr-U)
clya pri rabote na aktivnuyu na Nr 3, PP.282-285
PERIODICAL: Akustich-eskiy ZhUrnall 195?, V01-1111
(USSR) jed out an analysis of the
-ev (Ref.1) has Carr al form. This gen-
ABSTRACT: N N.Anare3 losses in a gener author
pljj~e radiai;or without ~d by the present
T-ticularize The latter
)Ust*
oral treatmOnt was pa ic case,
active load in the ac( the
(Ref 2) to ;3n ats which are interesting f rom.
I it is of interest to calculate
trea;ment 12,ads to resi tor which
practical PDint Of ".ew. Thus piezoelectric radia
the e fective thickness of a e when it is working in some
f orm of a plan(. -olat a under the con-
is in the f Of PHCH an
medium having a wave resistance voltage or
diating POwerl atconstant alysis of
dition of maximum ra ugh the radiator. From an an
constant Current thrO
Card 1/3
4-0-3-10/15
On the Shift of Rcsonant Frequencies of a Plane Piezoelectric
Radiator Working with an Active Load.
the plane radiator working with an active load PHGH vrth-
out internal losses in the piezoelectric material, it
follows that, in the case of the constant current regime
one obtains maximum acoustic power at a frequency corresp-
onding to the maximum active component of the electric im-
pedance of the radiator. The results of calculations are
shown in L figures. The first figure gives the calculated
effective thickness of a plate corresponding to a maximum
current sensitivity when the plate is working in a medium
with a walre resistance PHCH (I - the case of onersided
radhtion, II - the case of two-sided radiation); Fig.2 gives
the calculated effective thickness of a plate corresponding
to a maxinum voltage sensitivity of the radiator. Finally,
Fig.3 givos the calculated effective thickness of a plate
of barium titanate corresponding to the maximum voltage
sensitivi-;y for one-sided radiation into a medium with a
wave reSil3tance PHOH - The calculation carried out in
this pape:- shows that an active load has a considerable
effect on the resonance frequencies of a plane ideal
Card 2/3 emitter compared with the same emitter working without a
46-3-10/15
On the Shift of Resonant Frequencies of a Plane Piezoelectric
Radiator Workin- with an Active Load.
0
load on the acoustic side. The calculations may turn out
to be corrrenient in the analysis of a piezoelectric emitt-
er working in a solid medium, e g., in defectoscopy. There
are 4 figijres, no tables and 2 iussian references.
ASSOCIATION. Institute -of Aaoustios of the Academy of Sciences of the
USSR, Most.-ow (Aki~sticheskiy institut AN SSSR, Moskva)
SUBMITTED: May 29, 1957.
AVAILABLE: Libra:?y of Congress.
Card 3/3
SOV-46-4-5-2/18
AUTHOR: Anan'Jelra, A. A.
TITILE: Calculati.)ns for a C~rlindrical Piezoelectric H1,diator vith
VecliGJ,ble Internal Losses (K rasellotu porslu-ievo~--o plyezo-
elektric;heskogo izluchatelya bez ucheta vnutrenn~,kh poter')
PERIODICAL: A%usticheslciy Zhurnal, 1958, Vol 4-, Nr 3, pp 2123-232
(USSR)
ABSTRACT: 171. 11. Andreyev (Ref.1) has carried out some calculations
on the piezoelectric radiator in the foria of a plane infinite
lamina which vibrates in a direction perpendicular to its
1.1lane ard i,.rlj~-cli has ne:-li-ible internal losses. This calcula-
ti3n is now part ic ~ilai~is ed to the ca:;o of 3na and two-sided
radiaticn into va3-i'JUS media. The frequency dependence of
the active and reactive comDonents of Elie specific electri-
cal impedanc,- !:~re calculated and oresonted in the form of
Sraohs. Other calculations are concerned with the dependence
of the sonic pressure on frequency at con3tant current and
con,-~tant volt-as-o in the case of:kleal plane cylindrical radia-
tors of quoxt-- and bariwa titanate .-Ior~,.inf; in water. Fairly
extensive tablps of the various p~~--amotuarL; involved are given.
It is reco-o.-r-irended that the crit(~;rion for the suitability of a
~Jard 112
Calculations fcr a Ojlindrical Piezoel(~ctric Radiator ..,ith
Internal Losses
substanec to be u,,;ed in a radialk-jor sh.,)uld b,- 'V-he
i)ossible ratio of the active -to the reac-ive con,)otionts. It
Is shovin that when choosin.- material for navrow band radi.,-.-
tors it is essential to choose iaaterials aith a 1,,tr:-.e pio,-.)-
Trlodulusw high density and a larf,c Youn~;'s 111odalus. There
are 5 f !,,;uves, 2 tables of 11U1.10rical data and 10 P3f orences
7 of which are Soviet.
ASSOCIATION: Ahastichesl:iy institut AR (Acou~ltical
Institute of the Acaderaj of Sciences of the US,3R7 !.13scow)
SUBMITTED: July 2, 19,57.
1. Pi?zoelectric crystals--Mathematical analysis
Card 2/2
AUMOR.
SOV/46-5-1-2/24
TIT19: 41 Mos,iic Barium Titanate Ceramic Transducer for Ultrasonic Froqaoncles
(MozaLchnyy proobrazovatell iz koramiki titanats. bariya na
ul'trazvukovy,ye chastoty)
Pra'IODICALt Akustichoskiy Zhurnal, 1959, Vol 5, Nr 1, pp 14-20 (USSR)
ABSTRACT: 'Ilie piper describer; a barium titanate transducer and discusses i+,-.
prope:~tie3 at 40-250 kc/a. The transducer (Fie; 1) consisted of a set
of t-wt)nty-one polarized BaTiO,3 ceramic squares, 7, stualc onto a
steel olate which forms part of vne case 1. Dimensions of the square;3
were d':O x 20 x 5 m and they were coiinected in parallel (total capacitance
16 x 1013 pF). The transducer had a plexiglas 6ransparent to sound)
cover 3 with a rubber seal ~. The space 8 between tno plexiglas cover
and the steel plato(with piezoelectric squareepas filled with
transformer oil. The back was covered with a stool can 'Q' and the
space 6 between the cover 2 and the stool plate carrying the ceramic
squ^r,jv ms filleA with air. When immersed in water the transducer
was amilti-layer system consisting of water, plexiglas, transformer oil,
barium titanate, steel, air, stool ani water. Since the transducer
CU rd 1/3
SOV/46 -5-1--2/24
A Mosaic Barium Titanate Ceramic ,Cransducer for Ultrasonic Frequencies
radiaten primarily in the BaTI03-oll-plexiglas direction, it can be repre-
so nted as a four-layer system (plexiglas, oil, barium titanate, steel)
between two semi-infinite spaces (water and air). The author, following
'fartakovskiy (Ref 1), calculated the transparency coefficient for such
a four-layer system. This coefficient is shown by curve 1 in Fig 3;
it agrees qualitatively with the empirical frequency dependence of
Sensitivity of the transducer, acting as a receiver, shown by curve 2
in Fig 3. The main difference between curves 1 and 2 of Fig 3 is
the abionce of a pronounced pealc at 180 kels in the empirical curve.
This i& due to poor impedance matching between plexiglas and transformer
oil on one hand and the medium (vater) on the other. It may be also
due to losses in the system not allowed for in calculations. Fig 4
is identical with curve 2 of Fig 3 (sensitivity of the transducer as a
receivor) and Fig 5 represents the frequency dependence of the
ca rd 2/3
sov/46-5-1-2/24
A Mosaic Barium TitauLts Ceramic Transducer for Ultrasonic Frequencies
transducor used as an emitter, Acknowledgments are made to
V.S. Grigorlyev for his advice and to A.V. Sosnov and VA. Basov for
help in .his work. There are 5 figures and 5 refereaces, 3 of which
are Soviot and 2 English.
ASSOClATION:Akusticho3dy institut AN SSSR, Ko3kva (Acoustics Institute, Academy
of Be ienl:es , U.S S R. , Moscow)
SUBMITTEDt Decambor 23, 1957
Card 3/3
SOV/46-5-2-18/34
AUTHOR: Ananlwva, A.A.
TITLE: Letter t3 the Editor (Pisfmo v redaktsiyu)
PERIODICAL: Akusticheskiy zhurnal, 1959, Vol.5, Nr 2, p 241 (USSR)
ABSTRACT: The letter gives six corrections to an earlier paper by
the autnor ("On the calculation of a piston-type piezo-
electric radiator without allowing for internal losses";
Ak. Zh., Vol IV, Nr 3, 1958. Acknowledgment Is made to
Yu.F. Shpilev, who pointed out some of these mistakes.
A6SOCIATION: Akusticheskiy institut AN SSSR Moskva (Acoustics
Institute, Ac. So. USSR, Moscow)
6UBMITTED: March 16, 1959
Card 1/1
85890
(3 2.0 31 B/048/60/024/011/026/036
4"41) Boo6/Bo6o
AUTHORS: Anan1ynvgA__A,_A., Ugryumova, M. A., and Strizhkov, B. V.
TITLE: ure larium Titanate
Some Anomalous Properties of Chemically P
Ceramics ~ I
PERIODICAL: Izvest:Lya Akademii nauk SSSR. Seriya fizicheskaya, 1960,
Vol. 2ol, No. 11, pp. 1401 - 1404
TEXT: This is the :reproduction of a lecture delivered at the Third Con-
ference on Ferroeleotricity which took place in Moscow from January 25 to
30, 19Z-O. The autho:!s studied the properties of high-purity BaTiO3 ceramics
which had been obtained via the following reactions:
BaCl 2H 0 + TiCl .~ 2H C 0 2H,,0 njBaTiO(c 0 -4H 0 + 6HC1 + H 0
2' 2 4 2 2 C 1 2 4)2 2 2
0900C
BaTiO 3 + 2CO 2 + 4H20
The reactions and r-!spective results were studied by thermographic, X-ray,
and chemical analys.?s . The specimens obtained were submitted to heat treat-
0
ment at 900 - 1450 14'. In these specimens, & was measured as a function of
Card 1/2
85890
Some Anomalous Proporties of Chemically Pure S/048/60/024/011/026/036
Barium Titanate Ceramics B006/BO60
the heat treatment temperature and the curve obtained was compared with
that taken from technically pure BaTiO 3* While the F_ of high-purity BaTiO3
specimens attains a maximum (6000) at a temperature of 12400C, and then
drops to a constant value of 2300, the F-value of technically pure
specimens remains below 1500. Fig. 2 shows F_ as a function of the duration
of the heat treatment at 1270 and 13500C (high purity) and 13500C
(technological). Only in the former case does & decrease with time, while
remaining constant :in the two latter cases. Fig. 3 illustrates the
dependence of densi-;y, porosity, and water uptake of the specimens on the
heat treatment tempo?rature. The sharpest changes were obseryed at 12400C .
At this temperature, density attains its maximum (5.94 g/cm2) and conserves
it; porosity and wa-:er uptake are practically nil.. Fig. 4 shows micro-
pictures of sectiona of the individual specimens undergoing a heat treat-
ment at various temperatures. The grain size was found to be highly
temperature-dependent. There are 4 figures and 5 non-Soviet references.
Card 2/2
8589:1
2 a 3) S/048/60/024/011/027/036
7,~60 (/I ~(tll /,/&/ 2-) B006/BO60
AUTHORSs Ananlyeva, A. A.~ Strizhkov, B. V., Ugryumova, M. A.
TITLE: Dielectri~jVnd Pkezoelectric Properties 1P Chemically Pure
Bari Titanate Ceramics 16
PERIODICALi Izvestiya Akademii nauk SSSR. Seriya fizicheskaya, ig6o,
Vol. 2*4, No. 11, pp. 1405 - 1408
TEXT; This is the reproduction of a lecture delivered at the Third
Conference on Ferroelectricity which took place in Moscow fromm anuary 25
to 30, 1960. E. S. Novosilitsev, A. L. Khodakov, and the authors of this
paper examined pol;rcrystalline specimens of chemically pure barium
titanate and deter:nined the dependence of the electrophysical properties
on the heat treatment temperature, A report is made here of the dielectric,
elastic, and piezoelectric properties of chemically pure BaTiO 3' The heat
treatments were made at 11609 1240, 1270, and 1400 0C (specimens I - 4), and
also 8ommercially pure specimens (No.5) were examined for a comparison
(1360 C). Investigation results are given in diagrams and tables. Fig. 1
shows the temperature dependence of the various specimens 1 - 5, the peak
Card 1/3
Dielectric and Piez)electric Properties of
Chemically Pure Barium Titanate Ceramics
S/ffg 0/024/011/027/036
ft
BOWBO60
values being tabulated. Fig. 2 shows L(t) for polarized and nonpolarized
coarse-grained chemically pure BaTiO 3 specimens; the two F--peaks (1st and
2nd phase transition) are well marked and are somewhat higher for the
polarized specimen. The acoustic velocity c was determined in pure BaTiO 3
ceramics on the basis of the radial vibrations of polarized specimens.
Fig. 3 shows its temperature dependence; c 0rises rapidly with temperature
and remains practically constant from 1300 C on, Fig. 4 illustrates the
dependence of the ;iezoelectric modulus d 31 on the heat treatment
temperature. For ch.emically pure BaTiO 3 ceramics, d 31 is about 1.5 times
as high as for commercially pure BaTiO 3" Specimens submitted to heat treat-
ment below 1250 0C (-xhibited 'very high d 31 values; thus, e.g., the specimen
treated at 1170 0C had a d 31^'5-10- 6CGSE. There are 4 figures, 2 tables,
and 4 referencest '-i Soviet and 1 US,
Card 2/3
ANANIYEVA, A. A. oand Teoh Soi -- "Sound receivers made of barium-titanate
ceramics." Kiev, 1961 (Min of Higher and Secondary Specialized Education MR.
r
Kiev Order of Leniiu'Polytechnic Inst). (KL, 4-61, 194)
-4'Y-
Symposium on Elootroacountio',Transducers rOl,/5981
The followlt,g bnsio p-ohlomn are treatodt 1) theoretical research an enora
tranaforrat!,on prozon.~,-s; 2) ororlrv~ntal dovelo-mant of nov tyran of
transducers: 3) olcoLroncou5tic manauremints; 4~ teehnolory of piezoolec-
tric and mnpotostriativo matorials; 5) conntruction of transducers for tech-
nical noods. and 6) dosi p of acousticpl transducer eyetoms. No personalitino
are montiontid. Raforoncoa (ir-av)foilov the Individual articles.
TABLE OF CONTEIFTSi
Preface 3
Problems of Reaearch Work on Slactroacouatio Transducers. Ignaoy Malocki,
President of t1w Conference 5
Ch. 1. Gomera:k Problems and Theory of Electrosocustio Transducers
1. ClarsifAcation of electromechanical transformation methods in the
light a:! the tanks faced w~'% ,n [sic) the danign and construction
of olea'xoscoustio equipment. V. S. Grigorlyev 7
C ard Z/4
4
Symposium on Electroacoustic Transducers: POL/5981
18. Synthetic quartz crystal. Wincenty Pajewski 197
19* Production of piezoelectric elements of barium titanate cera-
mics by means of hot casting method. A. A. An!~~av . A. V.
Sosnov, and M. A. Ugryumova 203
20. Invistigat.'ion of barium titan;Lte ceramics for construction of
eleotroaconstic equipment. 1. A.
AnarO_xuL 211
21.' _
Measuremeni; 6f the piezoelectrid constants of barium titanate
ceramics, using longitudinal vibrations of barb. A. Lenk 225
22. Poisson's imodulus of barium titanate. M. Grfitzm'acher 233
23. Measuremen-i of Poisson's ratio. Wincenty Pajewj3ki 235
24. The application of single crystals of germanium for measuring
fast variable high pressures. M. Grdtzmacher 2-43
25. New effect in barium titanate (BATiOa). Provisional report.
P. Greguss 247
26. Examinativ,2 of the piezoelectric effect occurring when bonding
BaTiO3 poIjerystalline transducers. Teodor Krajewski 251
27. Piezoelectric ceramics applied to high power transducers. Wincenty
Pajewski 259
card r ha
. 2/3
VIAWYEVA Alay-tina Aloksandrovna; GlilGORIYL'V, V.S., otv. red.;
........... A.P.,, tekhn. red.
[Coramie sound pickup equipment] Kerimicheskie
zvuka. Moskvap Izd-vo Ali SSSR, 1963. 177 p.
(MIRA
priamniki
17:1)
ANAN'YFVA, A.A.; BERFZIN, V.A.
Calculatl.ng the static sensitivity of a three-layered cylindrical
transducor. Akust. zhur. 10 no.1:15-19 164. (MIRA 17:5)
1
4. Akustdcheskiy Institut AN SSSR, Moskva.
1TII: AP402572'f i'S/0046/64/010/001/0015/0019
-UPIRMS: Ananlyeva, A-. A.; Berezin, V. A.*
TITLE: Cbm -iayer cylindrical transformer
putation of statio sensitivity of a three
5-19
SOMICE; 13msticheskiy zhurnal, v. 102 no. 19 1964t
TOPIC TAGS: static sennitivity, cylindrical transfqrmer# piezoelectric elementp
mechanical streast elastic property, piezoelectric loodulus, sound radiatorp
dielectric penetrability# plane deformationg tanpot streast radial stress
JILBSTIUCT: The authors compixte the change in statio sensitivity of a three-layer
cylindrical transformax with an-internal-cylindrical piezoelectric transforming
element and external passive layers relative to the natural-sencitivity of the
transforming piezoelemcnt subject to preasure by the external lateral surface.
e ra ial
They analyze the equations for computin- the diqtribution of stress in th d
direction in the material of a i1wee-lay"er transformer. The.,r determine the influ-'
ence of the elaxt~o properties of the naterial of the external layers on the static,
sensitivity. The tanVintial mechanical stresses in a specific construction ego
tially exceed t'heyraditLl stresses.- In the consideration.of radial mechanical
stresses it is clear that the greatec;t "sound-transparent"v i.e., transmitting
Card, 1/2
ACCESSION NR: AP4025727
internal presswelto the sensitive7.element with minimal loss, is the interstitial
(second) layer whose elastic properties are close to the elastic properties of the
first and third~lsyers (steel and ceramics). In the latter case the three-layer
transforner degeneratea intor a bir4le-layer onei, The radial stresses in the mhte-, i
rial of a cylind#oal transformer with optimal elastic properties for the interati-'i
tial layor are less th3n the sonic,pressure on the surface; thus any reinforcement ,
is theoretically -involved with,Aecrease in the static sensitivity of the transfo=er,
with respect to tho sensitivity of the transforming element. The greatest loss of
static sensitivity of a transformer occurs because of the presence of the fir
for I
igid" (reinforefd) layer in whicia, when it is thin, very Itirge tangential stresses,
arise if it is in contact with the pliable interstitial layer two. If in the con-
struction of the transformer it is necoseary to leave an external thin metallic
-layer, then it is.advisable to take measures to increase its pliability. Only thus
can high static sensitivity berealinod. Orig. art. hast 5 figures and 6 formulae.,
ASSOCIATION: Akustichoskiy/ inatitut 111 335H, Moscow (.1netitute of Acoustical AN
SSSR)
DATE ACQs -10Lpr64 EXCL& 00!
SUB PODE: APP PH. NO REP WWs 002 OTHERs 001
Card 2/;..
/A no. 1. 1965, 24-29
SOURCE: Akusticheskiy zhuriml, v. I
F- 7' -,7- c r* v.
F r 't -A, 0
Eta ta Win mhiiqW&
MDF- FT, M~
Card
EPA
-7 W' 2AM(WED, C(b)-21]VWP(k()1
77`77~7 -4 T.t7-(c)/,
kUTHJR: An a r; e v a, A A Uq ryumov a. 14, A
I ITL.F Effect of small additions of (Iroup III and IV elements o:i
z,he -,4ielectric and P1820811WC ric propartica of Ilead barium metanio-
bate- ferroelectric ceramic* ~
N19
SOURCE: Akusticheskiy zhurnAl, i~. 10, no. 3, 1964, 265-270
I)PIC TAGS: ferroelectricity, cerc-mic dielectric, dielectric ccn-
7
dielectric loss, piezoeluctric modulus, baiium inorganic
-omp(.,und, lead compound, grmp III element, group IV element
A,P-'-T!~ACT. The interest J,n 860; d sol!utions of the lead barium
,reta;iiobate (Pb Ba NI) 0 )As due tc their hiQh piezoelectric
0.6 0.4 2 6
moa,i over a wide terTeratvre range. A6di-
1, and Etah' e propert-ies
ves SC+3' +3, +3. +3 +4' +4 In the form of
L
i of y La Nd Hf and Ti
1/3
L 13808-65
ACCFSSION NR: AP4044608
oxides were introduced into the solid solution in amounts of 1%.
The additives were purpos~ely chosen to have a valence different
front that of the corresponsding component of the fundamental lattice,
so as to ensure a definite,, change in the dielectric and piezoelectric
properties of the material. The preparation of the samples is brief-
ly described. The testa 'have shown that addition of La203 (1%) im-
proves the piezoelectric properties of the solid solution, and that
+3
I -4,U-v -1 tTT
ascribed to the fact that
of Iwd then any of the other elements. The piezoelectric modulus
d31' the dielectric constant, and the parameter (d 31 E) all increased
ap reciably following the addition of lanthanum. The latter in-
creased from 2.41 x 10 12 to 3.67 x 10 12 cgs esu, or by about 1.5
times. No noticeable changas in other parameters of the lead bariwn
2/3
L 1,)E;0 8-65
ACCESSION KR: AP4044608
metaniobate were observed. Orig. art. has: 3 figrurps and 3 tables
ASSOCIATION: Akustichezhiy institut AN SSSR, Moscow (Acoustic
Ir.stitute, AN SSSR)
SUBMITTED: G3Aug63 F-NCL. 00
SUB CODE: EC, EM WO REF SOV: 010 OTHER: 00-C
3/3
Za
, - ; - - : I -,- -, I F I..
A,v ~; 1,:.A.
Effect of acLInixtill-es of lanthanw.,i oyidle and zirconium d,"Oxide on
the dielect'ric and piezoelectric proyerties of lead barium metanio-
Ixatpi. Aku st. zhur. 11 no.l.,24-29 165.
(141RA -18:4)
1. .4kisticheskiy institut AN SSSR, Moskva.
'SOURCE: Kristallografiya, v. 10, no. 3, 1965, 430-431
~TOPTC TAM: ferroplectric material, rare earth. ple2oelectric cerandc, electrical
aiii
L 15776-66 EKr(1)/bn(m)/EWP(t), IJP(c) JD
ACC NRs AP6016367 SOURCE CODE: UR/0070/657o-l o/OwP4.3 01%311
AUTHORt Anantyeva, At A,; Lusakova, G. I.1 U&rjMovaL H, A.
ORG: Acoustics Institute,(Akusticheakiy institut)
TITIZ: Temperature dependence of electrocXductivity- f Pb sub 0,6jia-sub 0o4
_tk sub 2 -0 sub 6 with and.without additions of La sub 2. 0- Bub-3.
Sd1jKd_-._ kristall afiya, Y. I(), no. , 165, 15~Ui'
ogr 3
TOPIC TAGS: leads-barium, phase transition, n1oblum compounds temperature dependence,
electric conductivity, lanthium oxides piezoelectricity, dielectric permeability
.ABSTRACT:..- Almost all 'Piezoelectric materials having high Curie points lose thi6*'
property at temperatures much below their Curie points, owing primarily to increasea
electrical conductivity of these materials at high temperatures.
Measurements made of the temperature' dependence of conductiVity and dielectric Perm.;
enbility for a sample are plotted on a graph$ which shows a stepwiee variation, in
i
conductivity at the phise transition temperature. Another break in this curve is
soon at a higher temperature, indicating another change in the conductivity mochan-
lism. This point agrees well witi.-i the polarization temperature of 15D-16000 sugeost
1-by other authors for this comppund*
When La 'D o added to the sample, the break points of the conductivity curve aldft,,".
.3 i
,in the irection of higher temperature, the lower point exieriencing the Creator
;shift; and the greatest ahift occurs for a sample containing 0,5. Mole 96 ]~.20
_2
Hig1jor percents of La2O3 drops Aho lower point a little below that of the- .. -Treated'
compound. 'Orig. *Er-t;-.Ra-v. 2 FJNSI-
SUB COQF: 200 U / SU13M DATI; i liMar64 / ORIG REF -. 006 OTH REF : 005
Card _1/1 p_6., I UDG: 548-03537---
4
r
U%033663 BOCK EXPLOITATIM S/0791
Ananlyeva, Alavtina Aleks4ndrorna
Ceramic saind receivers (Kerair- ~eheskVie priyemniki zvuka) Moscow, lzd-vo AN S=p
1963- 177 p. illus., biblio. Hrmta printed inside back covers 2200 copies
printed* Responsible editort Grigorlyav, Vo So; Editor of the publishing
house: Gessen, L, Vol Technical editor: Gusavap A* Po (At head of titles
Akadamiya nauk SSSR. Akusticheekly inatitut)
TCPM TAGSt ceramic sound raceiver, piezoeeramic receiver, accoustic receiver,,
barlum titanatep diolectric,, pistoaleetric, wide band receiver., flat diaphragm,,
characteristic frequency,, spherical shallj cylindrical shall, resonance receiver
PURPOSE AND COVERAGE: It is hoped that this book will be useful to accoustic
engineers and experimenters Sia the field.. as the author presents-som* of the re-
iults obtained by himself and his colleagues in research on piesocerazic sound
receivers, The author thanks V* A,. Berezin,, Vo A* Basovp Ye, Ve Vav:ilov,, A, No
Sapr7*gln,, and As Ve Soanor for their experimental work, Thanks are expressed to
Academician No No Andreyaw and to Doctor of Technioal. Sciences V# So Grigorlm
=033663
for their helprul attention to the experimental work and the preparation of the
manuscript* Finally, the author acknowledges the assistance of Mechanics A, V.
Prakhow and P, Do KhoUn. who sometimes played a decisive role in the praqtical
development of the sound recelverse.
TABLE OF CCNTFIITSt
From the author - - 3
Introduction -
Ch. 1. Dielectric and piezoelectric properties of barium titanate ceramic - 16!
Ch. IL Methods of determining the characteristics of sound receivers - - 39
Ch. XIL Nondirected wide-band sound receivers 59
Cho Ve Wide-band sound receivers with flat receiver diaphragne - 131
Ch, V. Spectra of characteristio frequencies of piezoearamio spherical and
cylindrical shells 140
Cho VL Resonance sound receivers with ceramic piezoelectric COLU - - 154
Literature - 167
Card 2/3
ANAN I YEVA, A. A.
SENYANINOVA-KORCUbINA. M.V.,' ANANIYICVA, A.A.
4WW am
seasonal and age flaliZion in the starch and vater content of
evergreen bog. Zricales and orowberry. Uch. sap. Ien.un no.213;295-
311 156. (KLRA 10:3)
(Bricales) (Grovberry)
AlaNIYEVA. A.R.
Devonian flora of mountain regions of the eoutheantern part of
Western Siberia. Biul.moip. Otd.geol. 29 no.3:103-104 W-Je 154.
(MLRA 7:8)
(Siberia, Wastorn--Paleobotany) (Paleobotany--Siberia, Wes-
tern)
LOKSHINA, R.D., kand. ekon. nauk; KOROLEVA, M.G., kand. farm. nauk;
KOROBOVA, Z.N.; UZDENIKOV,, A.N.; MARTYNOVAp M.P.; PANCHENKO, Te*I*
ANAN'YEVAs-A--*.T-t-._.._
Development of a methodological basis for the determination of
medication requirements. Sbor. nauch. trud. TSANII 4z20-30 163
(MIRA 1713)
1. Otdal organizataii i ekonomiki aptaohnogo dela (rukovoditell
otdela - kand. farm. nauk A.M. Sidorkov) TSentrallnogo, aptechno-
go naucbno-issledovatellskogo Instituta.
L.J~.; J"ITEYN"'. L' red.
[Integrated brigados of imnovator.3 in Azerbaijan] Kom-
pleksnye tvorcllosklo brigady v AzerbrddLhanc. lialuiv
Azernef-ila', 1~,63. 32 1). (1,11RA 17:4)
E V
iio~Jtllj-*-U~Wn-d cemeni-S Wli~ analysts. N.
A. I,QRQV()V, P. F. KONOVALOV. A. AND G~ V.
Tj meet. 20 1:11 17 21 09-7,1) hocvt,~v, of diq-
hill'otoov, tramformt0iolls I liaolinitv, ittid forms-
timl of flit-Ifei'llit silicate j%eic illvr~jigsfc-l wilil all 10114atiml
X-ray histalfallun c0abblilig ol X-1ay (Ow. gulliomkier, Iligh-
trmpcfaful~ furnace, X-ray radiat;on mcch-cr (Sa% nuiplirrr),
Ovice,
curvea %bow [Lat d1wKiWilit of tbe carbonate takes p1dee solwc-,.
it I.at alm r NW mid 6 ~.omplctc At 74MT. Curmi aho shov that':'
At Vo(X)- th'-WI'lln Olic:w Ovilic" h oill tile -I Illo'lificalloll into fill
rwircly jim typv (a' m(Alficatitmi). At e01% krinthilte jinder.,
gf)V~ SMIVtlihd C1111114AS 1110 IIVCOIIIV'.l Otil(gpliolls; it rcluabli
311i"rilhowt it) OM' to 119111",aftcT which mullite brgin% to forno
At
graditolly im.1 then wnI.1,11% at 1*.!()0*.
irmit excvm ollimphous '111cm,
"4 LILZI MIR, )I
El
TOROPOV, N.A.; KONOVALOV, F.F.; Y31FREXOV, A.I.; ANAN'T3VA, G.V.
Use of the high-temperature X-ray ionization method for studying
processes that take place in alumina production. TSvet.met. 27
no.2:37-42 Xr-Ap 154. (MIRA 10:10)
1. Giprotsement.
(Alumina) (I Zays)
16(1)
AUTHORSs Ananlyevap G.V. and Balaganskiy, V.I. SOV/42-14-1-5/27
-----------
TITLEt On the Oscillation of the Solutions of Some Differential
Equations of Higher Order (0 koleblemosti resheniy nekotorykh
differentsialtnykh uravneniy vysahego poryadka)
PERIODICALt Uspokhi mittematioheakikh nauk, 1959,Vol 14tNr 1,pp 135-140 OJBSR)
ABSTRACTs With respect to the solutions of y (n) +f(x)y . 0 the author
proves a well-known result og Knesar fief 1_7 under somewhat
weaker assumptions, Furthermore the equation
14d d d .... ~L(g ~2 +f (x,y) - 0
TX19"hin-2 1i (gn-3 dx 1 dx
is consider ed. It is assumed that f(x:,y) is continuous, that the
gk(x ) are (n--k) times differentiable, and that the uniqueness
of the solutioii is guaranteed. Let
y dT -1 9 y - dYn-1 Yo %X Yo
k = 9k dx n dx I
Theorems If Sgn f(x,y) - Sgn y for x>, x., lim. 00
Card 1/2 1 YI-x 0o
On the Oscillation of the Solutions of Some SOY/42-14-1-5/27
Differential Equations of Higher Order
00
is uniformly in x9 where f(x) >0 for X~,x 0 (x)dx - oQ,
00
f dx - o1of gk(x) >0 for sufficiently largs xj*then f9r
gk(x)
a
even n (1) has only oscillating solutions (for x >0)1 if n is
odd and the solution y is not oscillating, then it hol4s
lim. Tk(x) - of k-0911**.In-11 where the signs of the
x -->00
Y01T, 9 ... Yn-1 fo* sufficiently large x are invariable and
alternatinga The authors thank V.A.KondratlyeT.
Therq to I German reference.
SUBMITTEDs November 27, 1957
Card 2/2
L 1154J-66'tVtr(l)/I.WT(to)/T/EWP(tVEWP(b)/EWA(,t) JD/MB
0
ACC NR, AP6000183 SOURCE CODEt UR/0032/65/031/0.L2/1483/3:465
I/'/ i~ ~~ , . (4 (t ~ S' S_
AUTHOR: I Ann1yeva V Sadrno-va., Z. F,
61
TITLE: X-rAy investigation of the single crysta aggregates
SOURCE: Zavodskaya laboratoriya, v. 31, no. 12, 11965, 1483-1485
TOPIC TAGS: single crystal, x ray, lattice defect, sapphire, ruby, fluorite, gonio-
meter, cj,,+~ y. L41 4,:--, -A /W1 C_rc +m~._
ABSTRACT: The mosaic structure oll single crystals was examined with a URS-50I dif-
fractorieter. The object of the study was to determine the feasibility of a detailed
investigation of structural Imperfections in single crystals of sapphire, ruby and
fluorite. X ray spectra of single crystals were taken by placing them in a URS-50I
diffractometer in such a way that the single crystal surface coincided with the axis
of the GUR-3 goniometer. T~A crystal surface was illuminated with an x ray beam with
5-9 degree horizontal deflection and an unlimited vertical deflection. The x ray pho-
tographs were taken successively during 2-30 vertical rotation of the crystal sample
with respect to the axis of the GUR-3 goniometer. During the rotation of'& sample
composed of randomly oriented particles of single crystals, various particles pass
UDC: 548.734
Cord 1/2
L 11543-66
ACC NRt AP6000183
through the deflection point. Examination of the series of photographs at various
sample positions with respect to the horizontal axis makes it possible to determine
the topographical details of the single crystal structure. Orig. art. has: 2 figures
SUB CODE: 20/ SUBM DAM 00/ ORIG REF: 001/ OTH REF: 004
U)
Card 2/2
IANAV'Y,EVA, G.V.; SMEWOVA, Z.F.
X-ray diftraction study of the nosaic structure of single
crystals. Zav. lab. 31 no. 12t1483-1485 165
(mim 1921)
1~ a
ACCMUON HR.. AP4041801 S/OD80/64/037/007/1612/1615
:AVI!HOR: Ostroumov, Ve Val Ananlyevap Go Vo
'TITIE: Electrolytic lWr or germanium
SMCE: zhurnal prikladn# khimii; v- 37,F not 7# 1964o 1612-1615
I
~IIOPIC TAGS: germanium.. electrodeposition, electroplating, nonaqueoue electrolyte,
impurity reduction, ethylene glyco~ljp ethylene chlorobydrin, deposit brightnesaj,
amorphous structure.. polycryotalline structure., electrical resistance., p tyw
conductivity,, annealing, ocalingp vacuum deposition.. hole conductivity
ABSTRACT: The conditions for electrodepositing germanium from nonaqueous solutionp I
and the structure and properties of the electrodeposit Vere examined. 'The amount
of impurities was reduced by separating the cathode and andoe vith a porous glass
filter and using high purity graphite anode. The electrolyte comprised a 0
solution of GeC14 and ethylene glycole The ethylene chlorehydrin formed at the
anode during the electrolysis decreased the cathodic yield MA reduced, the brighte-
neso of the deposit* A 20 micrm deposit of germanium was obtained in,T-9 hours
of electrol7sise X-rayo- Wicated this uaterUa to be worphousp but beating to
Card 1/2
19624-65 EWT(j3)/-EVP( t )/EkP()-, I JP(c )/RAEM( a) /SSD/Ar4L/r~~;D(gs VE23N t
J.j
k2cl"119siON, NR: AP500050's S, oom (1'/64 '037/0 1] /2411Z'24,17
Sty*rkas, A. -D.; Ostro=ov, V. V. Lknajj~yeva, G. V.
,rITLE: Simultaneous electrolytic precipitation of antiniony and indi m from non-aq,jeous
solut.ons
'-( ,iiCE: Zhurn'111 prikla&oy ".mki, V. 37, no, 1 1, M)64' 2431-2,437
TOPIC TAGS: nonaqueous electr:)lysts, ethylene glycol electrolyte, quartz electrodo,
incduni refining, antimony refining, indium antimonide, electrolytic precipitation
AE67'RACT: The difficulties associated with the aqueous electrolys s o.' indium and anti-
rr.ony sulfates were avoided by using ethylene glycol for a solvent and substituting
IrL,(SO,)2 with water of erystalizvtion which Is still soluble in ethilerit, ,~!N,col.
'A-? -C elrctrolvzi~~d un(le r -aii)on d OxIde. Sr;4i! ~il.
t t
.1W N""Ih S6. SO
flitti practiclAy
:0 C:*, L-1. ~tit' CQRI,'XJnLL',Or, oi the layer obtained ti~-ii, O~N BoiuLiun of both ii I tA 6
t Lifa 5
Carc !/2
1. 19624-65
ACCESSION NR: AP5000504
co rresponding to a 1: 1 ratio of the motals, but above 2 m a/cm the yield was slini-pin
i-educeO. The vx)rous ;Lnd -i-anibling natur-c of the cok:,(! d 1)1
2
01 art. flas 6 ,7. r
none
-MITTED: WluI63
E,- C 1 0 0
SUB CODE: IC
REF SOV: 007
OTHER: 004
Cord 2/2
L 21240-66 E;-rr(m)/EwP(t)
ACC NR: AP6003789
AUTHORS: Chernevskaya,
ORG: State Institute cL_2P_tics
opticheskly institut)
ijp(c) JD/jw
SOURCE CODE: UR/0181/66/oo8/001/02i6/0219
E. G.; Anantyeva, G. V.
im. _'S. I. Vavilov- (Gosudarstvennyy
TITLE: On the structure of mixed crystals based on CaF2. SrF 2, and
BaF'
2
SOURCE: Fizika tverdogo tela, v. 8, no. 1, 1966, 216-219
TOPIC TAGS: calcium fluoride, strontium compound, barium compound,
crystal lattice structure, solid solution, alkali earth mineral,
crystal lattice defect, mixed crystil
ABSTRACT: Inasmuch as earlier investigations of two-component systems
based on CaP 21 SrF2 , and BaF2wero limited to solid solutions in
powdered form, the authors used crystals grown in vacuum high-temper-
ature installations (I. V. Stepanov and P. F. Feofilov, Rost
krintallov (Crystal Growth], p. 221;, AN SSSR, 1957). The structure
Card 113
L 21240-66
ACC NR; AP6003789
investigations were made with a type URS-50 x-ray installation. The
results showed that thq systems CaF._,.-SrF 2 and SrF 2-BaF 2 form solid
solutions with arbitrary component ratio, in which the lattice constants
of the mixed, crystals increasing linearly with the percentage composi-~t
.tion. The lattice constants of these two crystals satisfy Vegard's
law for all compositions. The CaF _BaF system satisfies,the additiv-,,
2 2
Aty law for BaF 2 contents up to 2% and CaF2 content up to 6 -- 8%.
number of particles per unit cell of the lattice was found to be I
,,.-approximately 12 for tbe,,mixed crystals CaF - SrF SrF _BaF and for
2 2-1 2 2
;the-single.-component crystals CaF SrF , and Ba The deviation of
21 2 F2
number from 12 - did not. depend- on the composition of.tbe orfstals 1
-for all, types ~of -crystals. It. is a so,:
40 'was approximately. the same
that the.. at6~B~~6r.'the.,difftrent alkaline earth-,me.tale An tliui
soltitt s* CaF _- r an SrF - --naF - -can participate*in't'lie forma-
2 21 2 2
0n'.0 th
i f e lattic~,,d~efec'ts* to an' equal degree, and-thO number of th6
V
~,Odefectl particlei3.of each component ip de termined by its pexcentage
J:;
L 21240-66
ACC NR: AP6003789 ;2
4~
content in the crystal. The authors thank N. A. Afanslyeva and M.
--V. Zasolotskmfor carrying out many of the measurements. OrIg.
art. has: 2 figures, 2 formulas, and I table.
SUB CODE: 20/ SUBM DATE. Wan6r,/ ORIG REF: 005/ OTH REF: 008
"On certain functional renal shifts in patients with hypertonic diseas-as
under the influence of hydrogen-sulfide b,-Aths.r hin Health USSR.
Central Inst for the Advanced Training of Physicizimq. Moscm, 1956.
(Dissertations for the Degree of Gandidate in Hedical ~Bcienca)
So; Knizhaya letopis', No. 16, 1956
7
ARANIMA, K.A.
Effect of hydrogen sulfide bathe on renal function in hypertension.
Vop.kur.fitioter. i loch. fiz.kul't. 23 no.1:23-27 158. . -
(HIRA 11:3)
1. Iz TSentrollnogo inatitutn kurortologit (dir. - kAndidet mrAltsin-
sKkh nauk G.N.Pospelova)
(MINERAL BATHS. SULFMOUS--PHYSIOLOGICAL RVYNCT)
(HYPHRUNSID11) (KIDIINYS)
t
ALIYEV, ra*Yu. [deceased]; GREBENSHCHIKOVA, N.P.; KRYLOV, G.M.; 1WGI-
MOV, ru.1.1 KRAMOV, Yu.A.i AXANIYEVA X.V.
I.---.--"- P -. ~ I
Conversion of natural gas on a nickel catalyst in the presence
of silica. 'Qzb. kh1ju zhur. 9 no. 4:69-74 165. (MIRA 18:12)
1. Institut Vhi-li AN UzSSR. Submitted July 24,# 1964.
ANANIYEVA, L.
Aleksandr Dmitrievich Dubiago; obituray. Biul.Kom.po kometJ
meteor. AN SSSR no.5:57-61 161. (MIRA 14:6)
(Dubiago., Aleksandr Dmitrievich, 1903-1959)
ANAIPYHVA L. masterp Geroy Sotaialiatiohookogo Truda (14oginsk);
--~~~~VA, A., inzh. (Noginok)
Machine designersp the final decision is yourse Sov,profooiusy
18 to.22:4-6 14 162. (MM 15212)
1. Milopchatobumasbi kombinat imeni V.I. Lenina (for Ananlyeva)o
IFTOle machinery)
SOROMA, N.S., kand. khi-ich. nauk, dotsent; BOGDANOV, L.A., inzh.;
ANANIYF&.J,,Aa, inzh.; KHARLASHNIN, V.I,,, inzh.; ZJIIJA, T.I,,
VFz'h.; PrVOUROVA, T.V., inzh.; XOTOV, M.P.j prof.
Some problems in the ayanosthylation, carboxylation, alkylatlon
and acylation of gelatin. Izv, vys, uchabo zav.; takh. log.
prom. no-3v7O--75 f63. (KIRA 1617)
1. Kiyevskiy takhnologichaskiy institut legkoy promyshlennooti.
Rokomandovana kafedroy takhnologii kozhi.
(Gelatin) (Polynerization)
KULIBA, F.Ya.j MIRONOV, ViYe.; ANANIYEVA, b,A.; ANDREWA., O.S.;
RMHANOVSKOA, L,P.
Conplex compounft of thallium triiodides with 1,10-phaiwai.-
tbro3ine. Zhur. neorg. khim. 8 no.621400-1401 A '63. '
(MIRA 1616)
1, Ianingradskiy tekhnologicheakiy institut imeni Iseneaveta,
Imfedra obabohey kbixii.
Thallium compounds)
Menantb~oline)
KULIBA, F.Ya.; MMONOV, V.Ye.; ANANIYEVA, L.A.
Complex compounds of vionovalent thallium with 1,10-phenanthroline.
Zhur. neorg. khim. 8 no.lOt23Z6-2328 0 163, (KEA 16:10)
1. Leningradskiy tekhnologicheskly Institut im. Lensoveta.
(Thallium compounds) (Phenanthroline)
rx- --A; r%n +-'nr,
-3aen bond
4- -Ic
bit,
tt
~Z P Y 7 7r F a- T f ~l
3
,ountry USSR
a t c,-~ o ry Farm AlAlauls
j '093
~.Jjs. Jour Tle.L Dim, -101.1 NO
Atithni, Le re
lilatitut. T 0
11;
Titic, DOWA.r)
L:000ho"",
T-lub.
Abstract
h
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: . .-I- . 11 %,
to u
?t s 0'.3C C o Y (I 1 11 . di-
v, tel;
V. in~, 0 -,2,GUDS A
efeOctivancss O.r* dou"-Ii 0-6.
'I j C' (. of t'~
.-
to
,CC(
no
accor-
Differen-
to of
.,ers
Of
11
ot obsinred "Or Con-
n 1.. 4.
Card 11/2
ANANIYEVA, L.F.; KRASNOV, V.D.; ALTUNINA, T.M.; MAKAROV, N.P., doktor
ek6n. nauk, prof., otv. red.
[Ways of developing agriculture in the Altai; problem in the
distribution and specialization of collective fam production]
Puti razvitila sel'skogo khoziaistva Altaia; voprosy- ra=e-
shcheniia i spetsializatsii kolkhoznogo proizvodstva. Moskva,
Izd-vo Akad. nauk SSSR, 1962. 214 p. (MIRA l6t2)
1. Akademiya.-nault SSSR. Sovet po izueheniyu proizvoditelInykh
Sil. (Altai. Territory-Agriculture-Economic aspects)
LEMESHEV, M.Ya-; LAGUTIN, N.S.; GREKULOV, L.F.; KRASWV, V.D.; IWNINp
A.A.; YAKOVLEVA, T.V.; ANANIYEVA, L.F.; KOLOSOVA, Ye.Ta.;
MURASHKO, Tu.V.; GABIDULI;1W-,-V-.M'.",r-TGPOV, N.I.; POPOV, N.M.;
STUDENKOVA, N.M.; SMYSLOVA, A.S.; PANIN, H.S.# red.;PANIN,N.S.,red.,-
GERASIMOVA, Ye.S., tekhn.red.
[Methods for creating an abundance of agricultural products in
the U.S.S.R.) Puti sozdaniia i*obiliia sel'sk*khoziaistyennykh
produl-tov v SSSR. Moskva, Ekonomizdatp 1963. 317 p. (MIRA 16:6)
1. Sektor skonomichaskikh problem sel'sk4go khozyaystva Nauckno-
issledovatel'skogo ekonomicheskogo instituta GoBplana SSSR (for
all except Panin,N.S., Panin, N.S., Gerasimova).
(Farm produce)
AUTHORS:
TITLE:
86396
S/020/60 135/002/025/036
B004/BO5~
Kargin, V. A., Academician, Kozlov, P. V., Asimovap R. M.p
and Ananlyeva, L. I.
Two Types of Plasticization of Polymers With Rigid Chains
PERIODICAL: Doklady Akademii nauk SSSR, 1960, Vol. 135, No. 2,
pp. 357-360
TEXT: It was the purpose of the present work to explain the two types of
plasticization of polymers with rigid chains: A) The plasticizer is soluble
to an unlimited extent in the polymer. B) The plasticizer is more or less
incompatible with the polymer. The fact that in both cases plasticization
occurs, must be attributed to the different action of the two plasticizer
types. The plasticization of cellulose (molecular weight about 200,000)
was investigated by means of the incompatible plasticizers guanidine
thiocyanate and urea. The cellulose-was saturated with the plasticizer
dissolved in ethanol, dried after 2 to 3 days, and pressed into tablets at
130 - 1400C and 75 atm pressure. The thermomechanical curves of the tablets
Card 1/3
8630
Two Types of Plasticization of Polymers With S/020/60/135/002/025/036
Rigid Chains B004/BO56
were drawn. Whereas in plasticizing with triethylphenyl ammonium oxide
(compatible with cellulose) a decrease of the Vitrification temperature TV
occurred proportional to the plasticizer content of cellulose, incompatible
plasticizers hardly changed TV at all. In the latter case, no interaction
can occur between the molecules of the plasticizer and the macromolecules
of the polymer. The authors interpret this effect on the basis of the
structure of amorphous polymers. They assume that the polymer has
orientated secondary structures: orientated bundles of chains. In the case
A, which they describe as "intrabundle plasticization", the interaction of
the plasticizer with the active groups of the polymer is more intense than
the interaction between the polymer molecules. The secondary structure of
the polymer is therefore destroyed, and a solid solution of the plasticizer
in the polymer is formed. In the case B, which is described as
"interbundle plasticization", the plasticizer reacts only with the polymer
molecules on the surface of the secondary structures. The secondary
structure therefore remains conserved, and the polymer keeps itshigh
mechanical strength. Its elasticity depends on the Hook elasticity of the
secondary structure. Such a kind of plasticization is advantageous for
Card 2/3
86396
Two Types of Plasticization of Polymers With S/020/60/135/002/025/036
Rigid Chains B004/BO'56
obtaining low-temperature'resistant materials, which are supposed to have
high elastic properties. There are 2 figures and 7 Soviet references.
ASSOCIATION: Moskovskiy gosudarstvennyy universitet im. M. V. Lomonosova
(Moscow State University imeni M. V. Lomonosov)
SUBMITTED: August 12, 1960
Card 3/3
ANANIYEVA, L.M.; ZUYEV, V.M.; DZERDZEYEVSKIY, B.L., prof., otv. red.;
WA~~jp P.N * . red #
(Materials on glaciologicel research: Zagorsk; hept balance] I-Ia-
terialy gliatsiologicheskikh issledovanii: Zagorsk;teplovoi ba-
lans. Moskva, NO.4. (Temperature of the soil and the snow cover]
Tomperatura pochV i snezhnogo pokrova. 1961. 141 P.
(MIRA 14:11)
1. Akademi7a nauk SSSR. InstItut geografii.
(Zagorsk-Sol'i temperature) (Zagorsk--rSnow-Teriperature)
.ANANOYEVA,2L.M.1 DZERDZEYEVSKlYp B.L., prof*, otv* red.; OGANOVSKIY, P.N.,
red.
(Materials on glaciological research: ZaEorsk; beat balance] Hs-
terialy gliatsiologicheskikh issledovaniit Zagorsk; teplovoi ba-
lm. Moskva. No.2- (Gradient observations) Gradientnye nabliti-
denlia. 1961. 179 p. NIRA 14111)
1. Akademiya nauk &9M. Institut .geovafii.
(Zagorsk-History)
ANANIYEVA~ L.M.; ZOEVp V.M.
Main trendu in modern climatological research in France. Izv.
AN SSSR. Sor. geog. no.2.-104-107 mr-Ap 161. (MIRA 2.4:3)
1. Insitut geografii AN SSSR.
(France-Zlimatology)
--ANAI"YEVA, L.M.; RATAIER-) Yu.L.; DZF=M'EVSKIY, D.L., Prof., otV. red.;
-----UGOMKIYj P.N.p red,
(Materials on glaciological research: Zagorak; heat balance]
Haterialy f,-hatsiologicbeakikh Issledovaniis Zagorsk; teplovoi
balans. Moskva. No.3. [Gtadient observations. Cloudiness.
Atmospheric phenomena] Gradientnye nabliudboiia. Oblachnost'.
Atmosfernya iavleniia. 1961. 166 P. (MIRA 15:3)
1, Akaderlya nauk WSR. Inatitut geografii.
(Zagorsk-V,eteorology--Obse&ations)
SAMARINA, O.P.; IYRMANp M.I.; TUMANYAN, V.D.; ANANIYFVA, L.N.; GF-ORGIYFV, G-P-
Characteristics of chromosomal J-nformational RNA. Blokhimila
30 no.4:88o-893 JI-Ag 165. (MIRA 18:8)
1. Institut rallatsionnoy i fiziko-khimicheskoy biologil AN
SSSR, Moskva.
ANARI YN A JL- -
-- winnedbels comet in the Years 1933-3,939* UcheS&P-laz*uD- 116
no.1177-ft '35. (KM 3L0:5)
l.y4fedra astronowdi, (Coust, winnacks's)
VOROBIYNVA, 3.
- -Ta-.
Burnbam'B comet (1938a). Astron.tair. no.211:7-8 Mf 160.
(MIRA 13slO)
1. Kafedra astronomli Kazanakogo universiteta.
(Gometa--1958)
ANARIYE-VA, L.Ya.; KORrrNrKOV, S.H-
A.lekBandr Ihnitrievich Dubiago (1903-1959). rat.-astron.
issl. no.7:395- o 61. (MIRA 14:9)
~Dubiago,. Aleksandr Dmitrievich, 1903-1959)
lit,
ZI
GFSELEVICH, Anatoliy Mikhaylovich$ prof *;-G6RK3-,- Nikolay Semenovl~ch;----
ALV2jVjA4j"p red.; BABKINA, S.I., red.; BLISEYEVA, A.V.9
red,,- GABERIAND, M.I.j, tekhn. red.
[Now surgical instruments and apparatus for cheat surgery; a
textbook for pbysicians and students in medical Institutes) Novye
khirurgicheskie instrumenty I apparaty dlia grudnoi khirurgii; po-
sobie dlia vrachei I studentov meditsinskikh institutov. Moskva..
Medgizj 1961. 151 p. (MIRA 15t7)
(CHEST--MRMY)
(SURGICAL INSTRUMTS AND APPARATUS)
RillilloWh No.1,
jio.?.Lon in caj;il'llll'~ c i,i i vz~ T rudy Tad 71j.
med. inat. 50:194,i% ~ td
xt
jx!diitril ~wi. jrof~ V.S. Va~-Ilp ;--k v, A.!A
lon Mno.
MA-AA I r--,,A " _1 -'4 ~
BOROVOY, N.Ye., kandidat tekhnicheskikh nauk;_AK6V!IIXA,,AA., ins:hener;
SOKOIOV, P.S., redak-tor; VIRIKA, G.P., takhnicheskly rodaktor.
[organization of the work of stations and side-tracks in grain
transportation) Orgunizatelia raboty etcnteii I pod*ezdnykh patel
pri perevoske khlebtWkh grusov. Moskva, Goo. transp. zheldor. Izd-
vo, 1953. 213 P. (Microfilm] (KLRA 7:11)
(Grain--Transportation) (Grain--Handling)
OV ye.K.; pRIGoROVSKIT,
SkDIKOV, P.P.; AW0113VA, 34.; LEBEDWA, T.P.; SMIR11 ' A
Y.F.,inzho,red.; TISHKOV, L.B.-I,KATOLICHMO,: V.A.;.PANIM; -V-;
HOSKOV, Tu.A.; TIIFONOVA,,M-G-j;MYMHHOV, TO.J.; BOBROVA, T9.1;,
tokhn.red. . .
[Technical equipment for large general-purpose freight yards]
Tekhnicheskoe oanashchenie krupnvkh gruzovvkh atantaii obahchego
P01'2ovaniia. Moskva, Gos.transp.zhel-dor izd-vo. 1958- 186 p.
(Moscow. Hoskovskii Institut inzhenerov zheleznodorozhnogo
transporta. Trudy, no.161) (MIRk 12:2)
(Railroads--Yards-Ilquipment and supplies)
ANANIUVA, S.A., kand. toldin.nauk
Determining the length of track used for loading and unloading
and the number of mechanized units needed in railroad freight yards.
Vast. TSNII MPSLT71 no.3:47-51 My 158. (MIRA 11:6)
(Railroads-Track) (Railroads--Preight)
AIIANITINA. S.A., kand.tekbn.nauk
Hfficient designs of covered storebouses for loading and un-
londing oporationa. Transp.stroi. 9 no.12:47-50 D 159.
(141M 13:5)
(Railroads-Buildinge and structures)
KOGAN, Libor Aysikovichi k9nd.tsW=.n*vkr-,-QCKEM0I(, Y9*&*Uy Nousoviah;
MUIM, Vladimir, Markovidftf I-IM02111;'Veris Mildwylovichi
Prinimali uchastiye: PATROVA* T.I., AMIYEVA S A TALI, K.K.;
BM&KITI A.M.; L0BDVj Aj, BMOTA, Te.M., tekhn.-r-,9-d-.'
I
[containers] lontainery. Pod obahchei red. L.A.Kocana. Hookva,
Vooseizdatellsko-poligr.obwedinento H-va putei soobahcheniia,
1960. 318 p. 04in 14:3)
(Dailroado-Freight) (Containers)
GOV/CB-50-7-20/33
AUTHORS: Fayngoltdl S.G. and Anan1ySvpL,0--,V,.,1.
T 12 Lij': OperutinG,- Conditions.of Anionia 63tills.
P.&UODICj'LL: Koks- i khimiya, 1959, Nr 7, PP 51 (US SR)
ABSTIL-WT: In view of r,3-;-zated bloc'-dng of tho aLm:ionia stills, by
precipitatin- fffpsuia wiiich requiied C*.e,:Lnin-- of the still
eve:L7 10 days, an outside reactor and an additional
settlinC, tank for the removal of pracipitated L-Zrpsum
were introduced. The above iLeasure increased the period
between successive cleanings of the Istill to 30 - 33 days,
but did not solve the problem. On the basis of 4-he temp-
erature-solabilit-y re-lationc;hip for rnrpsum (sec, Figure),
the temp,.~ratum- condit-ions in t-he oot-clints- 'U~Ink -in,~ the
still were m-Antained at 110 - 111 C and 107 - 108 C
respectively. This increased the time between the succ-
ossive cleaiiints of tlic; 4;till to 61 dAys. A r:ipid mot]16d
Card 1/2 (1 1/2 hours) of determination of SO 4'-.lons in the
SOV/68-501-?-20/33
Operating Conditions of Ammonia Stills
ammonia liquor based on the pr,-,cipitation of BaSO4 with
a solution of BaC of knovm normality and luck titration
of the excess of i~cl 2 with a solution of trilon-B in the
precence of iaaE;nesi,,un ions and chronuilethylene blue indic-
ator i2 described.
There is 1 figure and 3 tables.
ASSOCIATION: Yasinovskiy koksokhimicheskiy zavod(Yisinovskiy Coking
Works)
Card 2/2
c
IPAYNGOLID, B.G.; FILIPMV, A.A.; ANANIMA, V.I.
-------------
1xperience in operating dephenolizing scrubbers vithout packing
in the zone of contaot with phenolates. Xoks i khim. no.1:46-49
161, (min 14: 1)
1. Yasinovski,7 kbkookhimicheekly zavod.
(Phenols ) ~ (Coke industry-By-rproducts)