SCIENTIFIC ABSTRACT GARINA, I. - GLADYSHEN, YE.
Document Type:
Collection:
Document Number (FOIA) /ESDN (CREST):
CIA-RDP86-00513R000515220020-4
Release Decision:
RIF
Original Classification:
S
Document Page Count:
100
Document Creation Date:
November 2, 2016
Document Release Date:
September 26, 2002
Sequence Number:
20
Case Number:
Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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ACC NRt AP6022907 SOURCE CODE: UR/0292/C6j6M/Obl)(00331003~
); 9 v P A
AUTHOR: Alltman, A. B. (Candidate of technical sciences 'ji!Aysho (Engineer
(Candidate of technical sciences); Garina, I. M. (Engineer); K'j_ffo`va_,_T_.
ORG: none
TITLE: Metal-ceramic type "Magnicoll j~~z~~et with high coercive force
SOURCE: Elektrotekhnika, no. 4, 1966, 33-35
TOPIC TAGS: permanent magnet material, magnetic coercive force
ABSTR_kCT: The composition and properties.af two new per,*tnent-magnet aterials X0
describecLi (1) Composition, (7 ---6) T1, 14% Ni,
.4--8)% AjVj((3O--40)% Co 4.., 14
3.5% Cuj'v+est, Fe; curves illustrate the effect of composition on iHgnetic properties;
the 13-est properties obtained are: coercive force, 1080 arnp/cm; remanence, 0.8 tesla;
maximum magnetic energy product, 0.019 j/cm3; high stability of this material is
noted -- the flux of nonaged specimens practically did not change in 3,V days;
(2) Composition, 7.5% Al, 14% Ni, 38% Co, 4% Cu, 7.5 Ti; rest, Fe; its magnetic
properties: coercive force, 1600 amp/cm; remanence, 0.75 tesla; energy product,
0.02 j/cm3. Conventional powder-metal proccssing was employed; the isothermic
hardening in magnetic field and two-step tempering were used. Mechanical prop _ es
of the above materials are also reported. Orig. art. has: 6 fijjir_e6__and 1 tables.
SUB CODE: 09 / SUBM DATE: none / ORIG REF: 002 / OTH REF: 00 1
GLADY311-V I P. L.
Some vectorcardiographic and electrocardiographic cilanges in mitral
defects of the heart. Sov.med. 25 no.12:56-6a D 161. tMlrUl 15:2)
1. Iz kafedry fakulltetskoy terapii (zav. - proC. ?-I.V.Burgsdorf)
Chelyabinskogo meditsinskogo ln3tituta (rektor - dotoent P.1,I.Tarasov).
tMITIAL VALVF~-J)L~PASzS) (ELrGThOCAADlOG:LArHY)
kVEGrUHCAiWIOGRUHY)
GLADYSIEV, F.L.
Electrocar,diographic equival~~nts of "~;y3tolic" anE aimtolicll stress
on the ventricles, in acqui--,,~d vitia cordis. Karjiologiia 2 no.2:
24-29 Mr-AP 162. (Ml.A 15:4)
1, Iz kafedry fak-al'tet:;lcoy tc-ral:1.1 (zav, - prof'. :%.'.V.Iju:~gS,dorf)
C'I,iely-abin5kogo neditoinso.--o iristi'tuta (div. - dotsent P.:-'.-a,azov).
(-%-L-OTI:,0CA.,DIOGiW'V!) (IMAF~T--DlS.-ASF3)
GIADYSHEV, P. L.
Topographic value of precardiac leads in rheumatic defects of
the heart. Sov. med. 25 no.2:34-37 F 162. (MIRA 15:3)
1. Iz kafedry fakulltetBkoy terapii (zav. - prof. M.V. Burgsdarf)
Chelyabinskogo meditsinskogo instituta (dir. - dotsent P.M.
Tarasov).
(RHEUMATIC HEART DISFME)
(EM, CTROCAIIDIOGRAPHT)
KHENKIN, M.L., kand. tekhn. nauk; NIXONOROVA, A.I., kand. tekhn. nau~;
GLADYSHEV,.,~,.A.., inzh.; BOLOTOVA, Ye.P., inzh.-, SOBOLF,'k,
inzh.
Stainless steel for thin-walled caotings. [At.. proIzv. no.11-
3-5 N '65. (14111A 1911~)
IA-AO-66 XWTW/EWA(dVT/9WW
ACC NRs AP6008863 SOURCS CODN$
Va/0128/65/000/011/0003/0005
L..(Candidate of technical sciences); Ni*Koaorova,A.. I6
AUTHOR: Khenkin, H.
(Candidate of technical sciences); adXjh (Engineer); A910 V xe, P4
(Engineer); Soboleva,.N. P. (Engine-R7
elzl
ORG: none q12
TITLE:. Stainless steel for thin-walled castings -
IY
SOURCE: Liteynoye pro zvodstvo, no. 11, 1965, 3-5
TOPIC TAGS: metal casting, martensite steel, copper, corrosion resistance, tempering,
austenitic steely steely stainless steel/ W5114D3L stainless nteel, ML steel
ABSTRACT: The steel used for thin-walled and intricate castings of parts of preci-
sion machinery and devices must display a high resistance to atmospheric corrosion
without requiring a protective coating, a satisfactory fluidity, a hish dimensional
,stability, adequate physico-mechanical properties, and a tiatisfactory machinabillity.
lof the standard stainless steels not one satisfies the entire sez of thase requirement;
'Cr-Ni auetenitic steels have a high corrosion reaistance but a low Uuidiq, while
martensitic-class steels have a low corrosion reoistance but at, insufficient fluidity.
Hence it is normally necessary to employ for these purposes 35L steel despite the
1highly undesirable necessity of coating it electrochemically with zinc. U the alenent
1/2
L 26030-66
_~H_NR- AP6008863
enhancing the fluidity of stainless steels, Cu is the most effectLve. In this con-
nection, six melts of the newly developed OKhl5N4D3L martensitic stainloss steel (up
to 0.08% C, 0.8% Si, 0.7% Mn, 14.5-17% Cr, 3-4% Ni and 3-4% Cu) were tented for flu-
idity, as a function of temperature and shape of metal. Tests of varioun intricate
thin-walled (1.5 mm thick) castings confirmed the defini~aly satisfactory casting pro-
perties of this steel -- high fluidity and absence of hot cracking. Since steels uL;ed
for thin-walled and precision castings also must satisfy high requirm-nents with re-
spect to corrosion resistance in non-coated state, high dimensional s~i~bility, and
machinabllity,~these properties were also investigated for OKK31103L-fiteel as com-
pared with 35L steel of ~0_14_6jl, steel is such
Findings: the dimensional stability
that, after its air quenching from 1020*C, 2-hr treatment with cal.d at -70*C and 2-hr
tempering at 600*C, this steel remains stable in time even in the presence of rempe-
,rature fluctuations of from +150*C to -40*C. Compared with 35L ateel, Oxbl5N4D3L steel
Idisplays superior strength properties (1.5-2 times higher) as well an superior cor-
irosion resistance and superior machinability (30-40% higher). Thus OKhl5N4D3L steel
imay be accepted as a replacement for 35L steel-wh1ch previously had to be used for
Ithis purpose. Orig. art. has: 6 figures, 4 tables.
SUB CODE, 11, 13 SUBH D&TE*. none/ ORIG REF: 00
212
LADY"';; --EV, S.G., des:jlnat.or
3~1-36
-7Ud ~ L
L!UBI,IJ::F.IY, N.I.; SI;!F~IA"Ell, I.N.; MIER,
II.F.; SP.Aid"I, 7.1., a=--ri,:~m
U,.7e auvanc--d miltivation practices or W, lie 27
no..',:,~-'7-51 Ap 165. 18:4)
bi -
K; ro-,~t, Ok,-y- br I.:' I ~1'!
c; p- orayuriu p
kolk-lo-'-i "I ," -,!! !,~i na, Krn.-n,)-
Kn~--~~njkcw). G'--atrnyy a::roilcm -T
Or
I11J., he", Dinskopc ray,rn' GI-a,4yshev)
9. Stfirs!~~v 'wr')n(all PuLo".~;hc)r')O
Z,ai or-).~",;,skoy obl;t:; U ( Cur Klver) .
GIADYSIIEV, V.
Internatioral colloquium on oscillographic polarography with
alternating current. ZavJAb 28 no.1:125 162. (MIRA 15:2)
(Czechoslovakia-Polarography-Congressen)
GLADYSHEV V.
..... - . -
Technical maintemim-E, (~i' :J:ips b~,, .9jvqn--~j . , ,
, " ;-.0cn.
trar.,sp. -,~ no.";:2p--79 , v --I . ! MIF-A 18:8)
!,, sLu7,hby !~ij:":Iv'-)i~ ) kt!~)--yays'.'rt
86753
S/12o/6o/ooo/oo6/o2q/o4,~;
I/ '11.3.p 1132/E314
AUTHORS1 Gladyshev -Y-A.- and Katsaurov 1, N~
T IT LE A Vapour Jet Counter (,f' Charged 1-artlcLes
VERIODICAL Fribory i tekhnika eksperimenta 19w) No 6
PP~ 113 - 114
TEXT, In a number of nuclear studies (for example, in the
case of scattering of protons, Aeutrons, etc. at energies
below about 300 keV) it is necessary to record charged
particles having low energies. The detection of' such
particles meets with serious experimental difficulties
because it is necessary to use very thin windows separating
the counting region from the target chamber in which a very
high vacuum must be maintained, These difficulties can be
evoided if a jet of vapour is used instead of the usual
working gas in the counter Fig- I shows a schematic drawing
of such a counter The counter is essentially a single-
stage oil-diffusion pump, A tungsten wire 0.1 min in diameter
and I cm long is introduced into the vapour jet !so that the
glass sphere at the end of the tungsten wire is in the plane
Card 1/4
0,67 ~ 3
S/l2o/6o/ooo/ooO/ui,.9/0/*5
E032/E314
A Vapour Jet Counter of Charged Particles
of the end of the nozzle, The inner surface of the
condenser (25 mm in diameter) in the region of the ivire is
either silvered or covered with a thin layer of copper
This surface serves as the cathode and the wixe :Ferves iiis
the anode- The effective window thickness of' such a counter-
is practically determined by the temperature or the walls in
the neighbourhood of' the entrance part into its working
volume- This effective thickness is defined as the thickness
of the oil vapour behind the front section of' the wi-ridow
When the walls are at 70 0C the effective window thickness
2
is 10 - 20 4g/cm By reducing the temperature it can 2
apparently be reduced to tenths or even hundredths of' -.Ig/cni
However, this is associated with ~_ reduction in the
working volume of the counter. The operation of this counter
in the proportional region was checked using a-particles from
a Po source. a-particle pulses had amplitudes of between
0.01 and 0,5 V so that normal amplifying apparatus 7,ould be
Card 2/4
75 .3
C,-, t i C,! 1
~nl- n( j f
L C,l f,
of C.I-~r-
4/4
S/12o/62/OOU,/()O1/UO2/o6i
E032/E514
AUTHORS: (Aladyshev, V.A. , Knt.4aurov, L.N. and Kiiznetsov, A.N'
TITLE: on the use of a jet of vapour as a target For
producing nuclear reactions
PLRIOD I CAL; 11ribory i teklinika eksperimen ta , nu. 1, 196 2, 20-22
'f EIXT: In nuclear physics it is frequently necessary to have
.
a Th e
thin target canable of withstanding large ion currents.
present authors report in investigation of the po4!iibJ,e vise of a
jet of vapour for this purpose. The principle of the apparatus
employed is illustrated in Fig.l. The vapour was introduced
into a vacuum chamber through the nozzle 3 and was condensed by
the liquid-nitrogen-cooled trap 11,9. Water V.1T)QU1- Was E!111plOyed
as the working substance. The density Of VapOUr in the central
part of the jet was investigated by placing smal L rings inside
the vapour trap and measuring the amount of water condensed on
each of them. The experimental resul ts obtained -;uggtist that the
water vapour jet does not follow the laws of gas dynamics.
Empiral formulae are reported for the density distribution in the
Card 1/*-Y-
On the use of a jet of vapour ... S/120/62/000/001/002/061
E032/E911t
Jet. With a pumping speed of' 1000 litres/sec and it vacivittl of
1 - c) inm HQ; i t i s 1) o ss i b I e t o r e I e it s (! 0 . I g/s e c t h r- o tig It t It e nL e
If it is aSSUMed thilt tilt! Velocity Of tile JPt, %J)Tiroachos tile
velocity of sound, then the thickn )ess of tile vaponr target turns
out to be of tile order of 2 4g/cm-. For 2 NfeV protoan tile
correstionding energy loss is of the order of 000 eV. However, in
the latter case a considerable amount of vapolir sti Ll misses the
Lrap and enters the vacuum chamber. In order to obtain thicker
targets, it is necessary to use vapours of 1i(Jui 9S 1rhose vapoiir
pressure at, say, room temperature is 10-r" - 10- frim fig, or lo
develop new types of nozzles which would confine the Jet to a
smaller angular range. It is stated that vapour Largets having
-a thickness of a few keV can be produced for use with a focused
beam having a cross section of about I cm2. There are 5 figures.
SUdMITTED: August 24, 1960
Card 2/3
L 3777-66 EVIT(m)/E PA (w)-2/EY/A (m)-2 IJP(c) GS
AVMSSION NR.- -AT5007q46 S/0000/614/000/000/0659/0661
AUTHOR- rlla4 ev, V. Kpteaurow, L. R.; Kuznetsov, A. N.; Martynova, L. P.,
Hnroz, yn.
I ITLE: Concerning the Input or Ion beam Into a cyclotron
CC- I -T~Rtnriq.
E: International Conforence an 111gh Ener P-ilinia, 1963.
gy A
Urudy. floscow, Atomizdat. IqF;14, 65R-661
TOPIC TA(,S: cyclotron, particlp henm
ABSTRACT: Vie. problem of the r!xternal Injection of lenv, Ititei a ryclotron romains
especially pressing in connection with the problem of tho, ir-ol-ration of poInrized
ions, because the sourro~ nf iolarized particles, like soan other complex soui,es,
cannot be situated at the center of the cyclotron. Since, in thr case of externaJ
injection, the acceleration begins with a certain initial energy, It Is possible to
avoid a number of difficulties connected with the first revolutions In the central
portion of the cyclotron. one of the procedures for riliving this problem Is to In-
put the beam along the vertical Axis of the cyclotron -111d turm it by an electro-
static deflecting system through 900 into the owdiah plnno6 live most substantial
deficiencies, It seem, of axial Input of the beam Is th- considerable losses and
Card 1/4
L 3777-66
ACCESSION NR: AT5007946
the complexity of the deflectinp system. The prespW repnrt Indicates h(,w ;t 1-:
possiblo to realize external beam injectinn in the median p1mie -f- the in-ignet. '11tis I
can be (1-ne especially simply in sector cyclotrons. In a nonlinm-1-neous magno-ti,
,field, -hirged particles experience a drift across the gradik-nt of the. magnotir
field. It is expedient In take advantage of this In the st~ctor cyvlotron by direct-1
ing thn beam of particlon so that they drift tip to the cenlral repJon of the cyclo-~
tron clong the boundary of ono of the sectors. In the ceniral region It is Possible:
with the help of a cylindrical el-etrostatic field t- transfer the particles to the
trajectory required later. In the case of a homogoti"ous magnitic field, which al-
most always holds true at the central region of sector cyclo-trona, the minimum elec-
,trical field strength E In the cylindrical cohdenror thAt is necessary for the
min
transfer of the particles from one trajectory to anothor CAn be represented by the
.formula
where W Is the kloetle energy of the ortidlos in kev-, J? i's t6e radit0i of curvature
(for a nonrelAtIvIstic tingle-charg;eA lotit h- 43i-iog AZIt
6rd 2/4
L 3777-66 ' I
ACCESSION RRi AT5007946 C) i
K Is the mass of the ion to units of the mass of the nucleoti; # Is the angle betvee~
the trajectories at the point of their Intersection. As it turns out. it is possibb
to choose the place for injecting the particle beam such the it will alisays be
focused on its path along the magnet sector. On the path to the central region of
the cyclotron It Is possible to describe a series of loops, and also the frerpiency
of a particle's revolution (more precisely, the frequency of loop formation). The
quality of the magnetic focusing of the particles Is characterized by the ratio of
the freqtiencies of the particles' horizontal and vertical omcillations to the men-,
tioned frequency of loop formation. The radial Focusing of the tons In the magnetic
system considered almost dops not differ from focusing in a homopeneous magnetic
field. Similar considerations hold for the vertical focusliig of the ions. The con
ditions for the stability of the vertical notion of the lon4s are characterized by
inequalities Involving the magnetic field in the gap betweer the nectors in the
region of beam passage. In the case of the authors' c7clotron, them always exists
a wide Interval of initial distances of the beam from the sector boundary for 4,i,'h
,the injected ions can reach the central region of the cyclotron magnetic without
!experiencing defocusing, The experimental verification of the possibility of ex-
~ternal Inliction by the considered method vM carried out olt a three-sector cyclo-
'Card 3/4
L 3777-66
ACCESSIM ORt ATS007946
'tron with straight sector borders (magnet diamettr-720 mml accelerated particles-ii
~350 Kev deuterons). The experimental set4o avid resuito avi described in the pre-
sent report. Orig. art, ~Asi 4 fIgures6
~ASSOCIATIOOi Fizicheakly fratitut iment. K N. Lbbedeva AN MA tPhaics tnatitutaL
SSSR)
1V~II
. . . . . . . . . . . .
='E"44
Z7
vj
At ?40"
r 7 p'i
no,5~;.;,, N 165.
L 272�7-66' EWT(m) IJP(c)
d NR. AP6Oi7683 SOURCE CODE:
Ab UR, 976-5 019/005/0442
f
AUTHOR: -Gladyshev. V. A.: Katsaurov, L. N. Kuzneteov, A. N.; 14oroz, Ye. M.;
Nechayeva,
ORG: none
TITLE: Construction of a 300 kev sector Syclotron'tith external injection (Entire
article)
SOURCE: Atomnaya energiya, ve 19, not 5. 19659 442
TOPIC TAGS: cyclotron, particle accelerator target, deuteron, diffusion pump#
cyclotron magnet, vacuum chamber/N-5T diffusion pump \0
ABSTRACT: . With thin targets., r4accelerated partieles-cm b4i used P:)re
reffectively it additional acceleration in applied to them al'ter they have
pased through the target (. L. N. Katsaurov and V. G. Latysh Trudy FIM t
X
55113R fP-roceedings of the P1 9 Insti
-!WIC
Vol 33, p 235 (1965)). A am -,,30 kov deuteron scotor cyclotron was
constructed at the Physios Institute to test the feasibility of applying
additional acceleration. Plans have been made to carry out a number of
investigations with this cyclotron especially since it is equipped to
'inject ions into the median plane (V. A. GladZshev.% et al., Trudy
Mezhdunarodnoy Konferentsii po Uakoritelysm /Probeedings of the Inter-
national Conference on Accelerators, Dubna, 19627) Moscow, Atmoizdat, 1964,
;y. 658., The cyclotron ptagnet_absemb4 consists of three individual C-shaped
Card
L 27967-66-
C NRsAP6017683
0
-magnets. This design provides for a very deep azimuthal variation of the
magnetic field without requiring additional windings between the sectbre
and permits-cisy -access'to the chamber. Tfie diameter of the magna is 70 ccio'_
;The pole pieces are sectors with straight edges and 66 deg. angles. The
~supply current to the magnets is stabilized to 3 x 1o-6, Furthermore, the
field of each magnet is stabilized by an independent proton stabilization
circuit.
The pole pieces of the magnet serve partly as the covering of the vacuum
chamber, and the chamber itself consists of several parts. Its main part.
,,has three triangular chambers made of brass, each bolted to the sides of the
.aecotr pole pieces of two adjacent magnets. Vacuum sealing is provided by
,lead wire which is laid on the joints between the various parts and is squeezed
:tight by spegial fittings. An N-5T type oil diffusion pump provides a vacuum
of -2 x 10- mm Hg during operation with a beam.
. Movable probes are available for observation of the beant. These probes
can be positioned in any point of the vacuum chamber at the desired angle to
the beam by virtue of a teflon sealed ball joint and a movable croas-bar
ithat has Wilson-type teflon aealso
The source., together with the accelerator tubej can be moved in the
median plane of the magnet) making it possible to vary the beam weation
ipoint within the chamber.--
Card 2/3
ACC NRa AP60t7683
The accelerating voltage is produced on the dees bZ a genorator that
feeds energy to a quarLer-wave spiral line made of copper pipe uvund on a glass;
cylinder. Up to 20 kv aro used on the dees for acceleration. . I
In addition to the structural design features (split magnet, diassemble-
able vacuum chamber,, spiral quarter-wave line), tho cyclotron is equip~~ fox-
external ion injection, which promises new wVs of usino polarized particle.
sources as well as other complex sources6 [JPRSI
SUB CODE: 20, 13 / SUM DATE - 09Feb65 / ORIG W: 002
CI
L ?220 EWTLmL___i-iP(,C)
ACC- NRe'Ap6017684 SOURCE CMEt M/0089/65/019/005/0"Vow,
AVTHORs !V. V. A. I48-~ ~L-N-; Kwetsov, JfMoz, 14. H. I
Nee ayeva., 0,7-.
ORG: none
TITLE: Hagnetic field of a 300 kev sector,cyclotron with external injection (entire
article)
SOURCE: Atomaya energiya, v. 19, no. 5, 1965, 443
.TOPIC TAGS.- cyclotron, cyclotron magnet, deuteron, galvanometer, betatron, nuclear
resonance, magnetic field, motion equations computer calculation
ABSTRACT: This paper presents data on the magnetic field of a sector
;cyclotron with a split magnet designed to accelerate deuterons to 300 kove
;The sectors of the cyclotron are displaced radially from the center of the
magnet, and the cylindrical core is mounted in the center. Tito required
'field is obtained by empirical selection of magnet parameters4
Field measurements were made with the aid of a winding which is connected
to a ballistic galvanometer and can be shifted step~wise- The Andings passing
';through the control points in the sectorsp was shifted by 2 dog in,azinAh and
.1 cm radially. The field was measured in the control points by the mxclear
Iresonance method.'
The field focussing.properties of an isochronio cyclotron depends on
:the depth of azimuthal variation and is determined..~y.~ho betatron oscillation
Card 1/3 UDC-. 621i384.611
L 27968-66
NRiAP6017684
frequencies. The depth of the azimtbal variation is charaetvrized bry Ififlutteri;
which is defined as F (0t), B >4)k V >2.
0
When the radiud in the given cyclotron is increased from 10 tol cm.0
flutter increases smoothly from 0.2 to 0-45. The amplitudes of the first
and second harmonics of the field he
.q characterizing the asymetry of t
magnetic field, are approximately one order smaller thin the amplitudes that
cause radial instability.
The equations of motion were integrated on a computer, -Ath the measured
filed of the cyclotron given in the form of tables. This provided complete-
data on the behavior of particles mid orbital parameters in a real field.
During the work, equilibrium orbits were constructed for various energies..
and the mean magnetic field along the equilibrium orbits itas calculatedo
1.There is an insignificant difference between the field obtained and an iso-
:chronic field, and the phase shift during acceleration from 40 to 300 kev id
'6 deg as the energy increases by 10 kev per revolution. The orbital properties.
are especially evident on the so-called phase allipseaj which close after N .
~)~evolutionsj. N is related to the betatron-frequencies Qr and Q,, by the relations
and
Nr = (Qr - 1)-l NZ a (Qz -
--varicus energies and
By constructing ellipses for for different beta-
,tron amplitudes it was possible to establish that-the maximum permissible
amplitude of radill oscillationsp which is 3 am for '50 kevo increases with t~
I Increasing eneror to 5-6 cm, for omrgies Above 100 kov-_ The botatran
Card
L ~96846
ACC NRI AP6017684
,2
frequencies calculated on the computer from the phase ellipses indicate that
focussing is adequate over the entire range of energies.
Machine computed betatron frequencies were compared with frequencies
,calculated for assumed circular obits- This comparison revealed that fro-
-quencies calculated by "smooth approximtion" formulas) by formulas using
harmonic field analysis, and formulas derived for an assumed stepwize field
,differ from the computer results by 5 to 7%-
Analysis of the magnetic, field indicates that the cyolotron deelp
,with Pplit magnets easily producos-an isochronio field with very deep
azimuthal variation, providing good focussing for all orbits,i;,
Orig. art. has., 1 formula. [JMJ
SUB CODE: 20 / SU13M DATE.- 29May65
6/
LEEGN'E'YEVSlUY, Ycvgeiiiy Sergeyevich; REMKIY, Nikolay 1-likly-ylovich;
iaYLOV, V.I., ret'senzent; SHI1-11YO, K.N., retsenzent;, LADYS,
_q
V.F,,- retsenzent; OSITOV, L.L., retsenzent; TAHEYEN, V.lr-.'*,
prof.,doktor tekh... nauk, red.; VITAS111:111A, S.A., red. izd-v:a;
ijGD-%OVA, V.A., teklin. red.
(M,nrinc engineering handbook for the op-,!ration of motorships]
Spravochnik dlia mekhaniku i motorista toplokhoda. Oost. E.S.
Loontlevskii i Moskva, lzd-vo "Hochnoll tr;msport,"
1961. '~r8 P. (Milil 15:2)
(Marine engineering) (Motorships)
HENSKIY , Nikolay t-'.ikhaylovich, LWKOV, S.K., kand. taklui. ii&uk,
retsenzent; GLADYSHEV, V.F., inzh.. retsenzent; ',-'-:CLANG,
F.D., kand. P* red.; KU) r(,d,I2r--va;
RIDUAYA, I.V. ~ tekhn. red.
[Operation oil principal enlrines of serially r:,armfI'ictUrE!d
diesel. :-iver bouts] Ekspluatatsila glavii:Ah oe-
riinykh teplokhodov. Noolcv~i, Izd-vo "hechnoi tx,-4xmj;or-t,I'
1963. 119 1-,' 014T~A 1-1:i,)
130GI)AMV , N. i`. ; ;~ , V. V. ; ."' I i . ; Ij 12, * Y~'~' ~ *. , , , V . "' .
I . ~ I - - , :%. ,, it . 11 - .:- .
pararf',-. Cmm die ,e~ Cra~-*,Ions b7
(lb', a in inl~ a ., I ~,inr
filter pressing and sweating. Trudy Grozt'il no. 15:201-212
163. (1-11 P A 17 : 5 )
STEFURO, S.I.; 130GI)ANOV, N.F.; GLADY'*:)'IILV, V.P.
Adopting a paraffin-distillate -Jrocessing J. nstallati.:j:. -'n
the new paraffin shop of the Grozny ?petroleum Lubricant Plant.
Trudy GrozN-'l no. 15:19r-2CO 163. MIRA 17:r)
lit,' c:1 it L.
oro!o Crum (-,:I, tit
V. 1:
CIABYSHEV, V, 1. , 111thi
BO.-wrior t;f aulfur du:riag blInit Nniach! emb"ItIng, 5-till 25
D 16-J. A~12)
USSR/AnalysI3 of lnorCanic Sub--tances G-2
Abs Jour.- Ref Zhur-Fhimin, 11 7L, 6, 1957, 195151
Author : V. P. Cla(lysLlov, G. A. Tulstikov
Ins t : -
Ti tle ; Colcrimotric DotcrmD!-qt-'UT1 Of 1hUMMI
Ori- Pub: Zavc~'. Labcr-itcri-a,. 10.5C,, 22, Jo '.4, 1166 - 1,6F;
Abstract: A viol,~t cc~j:pcxid, applic~-clo to tho cf,1crLr,,---,tEic
an-alysis, Is producec: at the interacticn of T1 -'-
in an acid ii,,adiwn nith P.-wrinephenol. -a9 xE~Lc!71ad
s a -irl .3 ~"J. 0501 L, ~! t ~-Pl > 0. 2 1 t
L", 10
0.1 - 'o ~ 11 ,-) is
disnolved in diluted (i i), 0V3Dqr,1t0(-a
urltil it is dry, t',-10 i,-, U-oatt:d .,;ith
'A'.1t,!r, tLo soltition is filt-i-cid, ti,.o :,ruc,'-pit:~tc
Card 1/2 - ~9 -
lil:.IJ ilk
A',7 H, ic R G~adyshev, V.F. 52-5-8/-52
IT LE: I r'-
The Colorimetric Dc-tenaination of Selenium and Tellurium ' i
Du5-',- of the Lead Induitrj (Kolorimetricheskoye OT)Vedeleniye
s,-~!Iena _i tellum v pylyalch sv-1'ntso,,cgc nroizvod3tva"'
PERIODICAL: Zarodskaya Laboratoriva, 1958, Vol. 24, Nr 5, pp. '1175-278 (USSR)
.33TRAM At nresent selenium and tellurium are determined by the method
developed by S.T. Vollov Ref. Z' or V.K.Zemel' Rel'.3 Recently
a method vras described by F.V. Zaykov3kiy Ln which azcorbic ac!3
is used. In the industraal dust selenium, and tellur,-wr, are de-
termined according to S.Yu.Faynberg 'Ref.11 , but this method of
j~?termination takp-- three days. The present method -;-- based uron
a 3uggpstion made by Mek et al. [Ref-5_~, but selenium and tellu-
ri;.un are decomposed in corcentrated iVdr~ochloric acid + some drops
of nitric acid. For the .3,-paration of the tvro elements a 10,"'
-~-ol-_ition of thlourta Ln 2n hydrochlorlo acid iras used, v,+,erea:3 the
oth,?r eltm-3nt3 ara _-emo-rtd by lead chloride. RC5111L3 Of Si~paration
are 3hovrr by tables. Final determination vras carried out colori-
Ca~:j 1/121 uieLric-ally, visually. or on a jDhotocolcrimtter bll-.~e
Tn,,~ Det,~rmination of Selen--'-AM an3 3 3 2
T-~'Llijr'ltm. in 4he Du-~t of the Lead InAu.43tx-j
fil-ter., A process of analyFil-i Is described in detail, Cormaratilre
d-:!termination.3 of dxv3t -3~unpleB viere carried c~-it 1.,y the Fayilberg
methol -as well as by the inefliod and it -mas found thal
in th,3 =.,e of agre,-ing, results a doubl,~ saving of time was a-t--
tained. Results are 3hown in tableq. There are 3 falAIM, and 7
r~~fi3rences- 6 of v;hich are Slavic.
ASSOCLATIO:;: Kazakl. State Uni,iersiy (Ya,.;,kh--kiy gosudarst-vennyy uni-~ersitet)
AVAILABLE- Library of Congress
1. Lead dust -Seleniizri-Dete rminn t ion 2. Lead du:A--Tel!,~~ralxr,-
DetermirLation
ca.r3
GIAADYSIMV, V.P.; S(11,'CIITA# O.A.
Determination of selenium and tellurium in ol. di- lepd
industry. Izv.Al.' K,,v!nkh.SST?.Sffr.khim. '50. OaRA 1-1:6)
1. Kazakhokly gosudarstvennvy univetsitet.
(Seleniu'm---Annl7nis)
(Telluriumt-Analysis )
GLADYSffYV, V.P.; TOLSTIKOV, G.A.
Polarographic reduction of meconic acid on a mercury electrode.
Izv.AN Kazakh.SSR.Ser.khim. nO.1:47-54 '59. (111RA 13:6)
1. Kazakhakiy gosudarstvennyy universitet i Institut khimicheskikh
nauk All KazSSR.
(Meconic acid)
5(2)
'UTHO
-R:
~Gladyshev, V: P, SGV /7:-, 14 1 i- / 22
TITLE: Determination of Elementary Sulfur by Exlru---ticn 714-t~.
Tetrachloride (Opredeleniye elementarnoy serer ~kstrajz--f :-Ian. -
Yem chetyrekhk.,Lcristym uizlefodoz-)
PERIODICAL: Zhuirnai anaiiticheEkcy Knialll, VC1 14, N~-
(USS-R)
A33TRACT: The known methods c;f Jeterminine
time and are difiicult, and besi-jes, varicti-~ in
cases cause a considaraU'e disturba:.ce (~et- T .-. e r
de7eloped a method. of del:~-rmininE: if,
containing large t~.uantities of suLfideL, if
metals, and fUft'Ler aLSO oxideo -.1 arsenic Bind
various other sulfurous ccmr,-undi (tni~~3uifatezz,
fites, poilythionates). The cunten, of el,:&,m~nt
- - - , -a-ry --3 u ir I r:
these objects aniounLed C,rb,~n.
to offer sevLral advanlawei; over carbon :'~r the
traction ci elermentarz! silfur, The z):
sulfur in carbon te~racfi-cride 2'..
(Ref 5) . The hiher lb~iilini,, point of Car'b:~n
Card 1/3 mits a more rapid
Determination of Elementary Suifur by Extraction SCV/7 5-1 4-1 -18/32
With Ca-rbon Tetrachloride
unlike carbon disulfide, is not The results ob-
tained by determining elementary 3ulfur in artificial mix-.,,:res
and in ruck by extraction with carbon -.etrach-oride agree well
with the results obtained by determination ac_,,)rding to the
sulfite method (extraction with sUdiUM SUIfite !lLitAtion and
jodometric determination of the thiosulfate forzied). On the
basis of these results this new method was used fLr the analy-
sis of complex mixtures. Results we:-e c;ntr~__iied bv determin-
ations from various largu weighed It was found- tE&t
small iuantities of elementary s~~_Ienium -ni t~__'Iurium ~up to
0-5'/~) do not influence this sulfur determination. The simcle
method elaborated is suited for the analysis cf materials, the
anaiysis of which by the methods hitherto known is very dif-
ficult. CarrZ,,ing out of these determlna-~Lons ;.3 very- accur-
ately described in tnis parer. Preparation of sam,~Ies fcr
analysis is the same as in the extraction of carbon disuifide
(Ref 1). if bitumen or other urganic ouhstui~cezj are Fresent
in the materia-l under investigation, eie~.t~,nt~;ry sulfur is nGt
gravimetrically determined after distii-iing ofi but by the
Card 2/3 sul"ite method. There are 3 tables and 5 references, 4 of
I Determination of Elementary Sulfur b.-,, Extraction KV/75--- 14 -1 -11
With Carbon Tetrachioride
which are Soviet.
ASSOCIATION: Kazakhskiy gosudLr.-rvQr-.!,yy universitet, (Kazakh
University, Alma Ata)
SU.~YITTED: January 50, 1958
Card 3/3
GLADYSHEV, V.P.; KOZLOVSKIY, M.T.
Use of oscillograpbic polaroLTaphy in the study of the anodic
oxidation of complex amalgams. Izv. AN Kazakh. SSR Ser. khIm.
no. 2:61-66 160. (MIRA 14:5)
(Amalgams) (Polarography)
GLADYSaV, V.P.; ILYUSHCIIEIIKO, VJI.; KOZLOVSKIY, M.T.
Causes of sludge formation in the preparation of' thallium by the
amalgam method. Izv. AN Kazakh. SSR Ser. khim. no. 2:67-714 160.
(MIRh 14: 5)
(The,llium)
~2o?q
11. '121
)1 /000 1
A000 I r) 1
AUTHORS 61.--idyshev. V.P. , Ktseleva, T.G.
T ITLE On the polarography of Irermanlum
PFR'ODICAL: Rel,~ra~lvnyy zhurnaL, Metallurglya, no. 11, 9, abL3*,.ra-T_
11K~_*. ("Tr. in-.a khim. nauk. AN KazSSR", 111?_1o, (-'1. 184 - 195)
TEXT. An Investigation was carried out by the method oll di.f.ferential
oscillographi: pclarography on the resoring of Ions of Ge_"-+~ and Ge+4 in non-
buffer solu-ions 11ror example, solutions of (NH4)2SO4, NH4C1 , '.11HL j-.Pf)u, M~CNS,
Na2C0 LICI, KBr, K1, and others with additions of KCN &rd -omplexon 111),
Mer~ury-drop and jet, ele,:,rodes were ul~illzed. 11, was establ,_ stied lrffl~, in non-
buffer, neu~.ral and weakly alkaline solutions, there oc-urs the res-.or-a-,ion of
Ge+-++, as indicated by the presence of a notch in the neighbornood o": -1.5
Th
in !~he upper part of the curves dE/dt vs E, corresponding ~o :ie ca _cde pro-
2ess. The orc-cess of res-,oring is irreversible and is of a k:nel,-',: na,:ure.
in -he presence of ~he NH4 ion in the solution one oluservi!s, a s,cond wave in !.h~
Card 1/2
-',~~29
,9/ 1 3'(/61/()('.t0/C I U! 17/123
On ~,he poiar,Dgr apny. A06O/A 10 1
7,g-, on of 7 Dy 'he rpzzorat'on of If- lo "i e r(,
a *, I on Z-j~ KCI KB, wid HC-; of Iny ooncentra,~lo!l. t tile 1-1 -cn,Dlex
added, Oie rt~sxra,iori --ioeq not, o,,,,-ur in the solutior. D " (.NH!t ) 2)C03 'I'le
rez!'ora!.ior. procesc of Get~ ts reverslt~le and is of a citffu~--(,m -ia-.--,re. "h-
half-waie po-en*,Ial- are d~'.ermined for G""f+ xid Ge++ aFalns'; var:clus lbaA-
groundF Thert- are 26 referen-eS.
N G(- r
no~,e comp-le-P
(,ard 2'/2
5/i26/6o/oo9/o6/oo%/o25
AUTHOR-, Glady5liev- V.P. Elll/E-552
TITLE-, Solubility of Metal-, in INI e rc u r y
PERIODICAL! Fizika metallov i. metaliovedt--nive 1960, Vol 9. Nr 6,
pp 852 - 86o (USSR)
ABSTRACT: Some technical uses of mercury"I(Refs I-1) require a
detailed study of metal solubility in it., The author 0
tabulates published (Refs-4-6) solubility data. for 16 C
and discusses proposed explanations for observed values
(Refs 4., 9-11)~ These e*planat-Lons lie describes as /C
qualitative and not appli-cable to all metals, He maintains
that the main factor determining whether a metal is
soluble is the structure of its outer electron shell, the
extent of solubility depends on varlotis factors- The
influence of the bonding energy of the crystal latti-ce
he 'represents (because of absence of direct data) by a
plot (FiglAre 1) of solubility (atomic 0,,) against the heat
of sublimation (from Refs 17. IOU 21), metals with lowest
heats of sublimation have the highest solubility and
conversely, those wiLh i-ntermediaLe heats have medium
Cardl/3 solubi-Litv.. A similiar relation (Fi-i,:Ltie LI) is obtained
S/120/60/009/0,'WOO~/025
Solubility of Metals in Mercury EIII/E35Z'
between solubility and the bonding onerj!;y of dIatomic
mol cc'ules. Figure 5 shows the 5oltibilil.y (circl.e_4 and
primary tonisation I)otenLials plottL-d att-ain:~;( atomic
number- this shows that as IOrILZ.At.1011 J)Otentlal de,:.reasr-s
solubility increases,,' Table 2 [)resent.Ei published
(Refs 3, 24., 25. 29~ 31) dat~i for solubility and the closest
order structurp (coordination number dett*m.Lned by neutron
diffraction methods) of solid and Li_qu D'kat. temperatures
0 Lr
not ovel, 40 C above the melting points) metals; metals 4
with closest-order structure most SIMLLar to that of mercury
are the most soluble. and conversel.v. A Ctir-ther relation
discussed is that between solubility and the ratio of
(electron charge valency of ion) - (efflictivc- radius
of ion) (Refs 19, 32). The relations (Figure 4) depend
on the positions of the'-metals in the periodic table. The
aluminium sub-group shows an anomalously iiigh i;Oltlbility.
Sodium deviates from all the relations (Figures 1-4),
which the author attirbutes to the high ionization of its
atoms relative to those of other first group alkali
metals~ From the anomalous P051tIO" Of barium in the
Card2/3
S/126/6o/ooq/o6/ooS/O25
Solubility of Metals in Mercury EIII/E352
relations the author considers the publ:.shed values
for its solubility to be too low. Professor 'M~T. Kozlov.
Corresponding Member of the Ac~Sc. KazSSR, O.N. Songina,
Doctor of Chemical Sciences, and A-I, Zebreva, Docent,
assisted with advice and discussion on the work.
There are 4 figures, 2 tables and 52 references. 22 of
which are Soviet, 6 English and 4 German.
ASSOCIATION: Kazakhskly gosudarstvennyy universitet im.
S.M. Kirova (Kazakh State University im,, S.,M. Kirov)
SUBMITTED: December 23, 1959
Card 3/5
GLADYSHU, V.P.; KALIVODA, R.
Rapid oscillographic polarography of chlorideu. Zair. lab. 27
no. 12:1450-1452 161. (MTJIA 15:1)
1. Kazakhskiy gosudarstvennyy universitet i Fol3srograficheskiy
institut Chekhoslovatskoy Akademii nauk.
(Chlorides) (Polarography)
GLADYSHEV, V.P.
"Oszillopolarographische bestimmung can anionen."
Report submitted to the Oacillopolarography Course and Polarograpby Syrip.
Jens., GDH 10-15 Sep 1962
GLADYSEV, V. P.
w ncad,:~- 1e dc- ln:~ic-atoad
Palam ih, c I, f. ~
Cze holilovul: tlcadm~r of ~c cnc,.~,l
InOULA, '21--clieC1101310'r,41duche QmdeAla d-r 'Ils
CollecVorl Of Czechoolavak Chat.-icall i3a To!
Get 6", pp 216
5
of Oscilloi~rapidcal in uantd,trtlvti Aaa'Lj-5-'L!3
if ~ It?
. fia-Alor of Chlorld-ou, Drnddau and Io~hmaa"
ul---,edios~oink itcadav,-ir ocionecs
dor
-uc.
GLADYSHE;V, V. F.
---~t~D=rqct oscillographic polarographic detemination of' indfatea.
Zav. lab. 28 no.9zlG63-1065 162. (MIIIA 16t6)
1. Kazakhskiy osudarstvannyy universitet.
fSulfatea) (Polarograph3r)
ROZHDFSTVENSKAYA, Z.B.; GLADYSHEV, V.P.; SCNGINA, O.A.
Oscillopolarographic InventIgation of the redurtlon of' vomp- oxygen-
containing anions in sulfuric acid solutions. Izv. AN Kazakh.
SSR. Ser. tekh. i kh-im. nauk no.2:8-14 163. (MIRA 17-2)
GLADYSHEV, V.P.
Reduction potentials of' metals on a mercur-
y electrode. Part 1:
Structure of metal atoms and the electrocherilcal br-havior of
amalgams. Izv. vys. ur-heb. zav.; k)iJm. I khim. tekli. 6 no.3:
390-396 '63. (milu
1. Ka-.akli:3kiy gosudarstvennyy univeriitet Jn.~n,- Kirova,
kafedra arialiticlic-skoy khimit.
propertie5)
(Reduction, Electrolytic)
-GLADYSHEV, V.F.; 'KOMOVSKIY, M.T.
Reduclion of selanite ion and telliarite ion by zinc A-villgam. Izv.
vys.uchE,,b.7av.;khim.L khim.tekh. 6 n,-.5:724-';?8 163. (MIRA 1~-~:12)
1. Kazakh.-kiy goslidarstvenny-~r iiniversitet, kafedr!t analit.Lcheskoy
kh-imii.
GLADYSHFV, V.P.
Reduction of oxygen on a mercary ele~~trode in acild sv-IU7~isns.
Izv.vys.ucheb.zav.; khim. i khim. tekh. 6 r.o.6-938-9" 163.
(MIRA 17:4)
1. Kazakhskiy gosudarstvennTl univergitet imni S.M.Kirova, kafedra
analiticheskoy khirrili.
GLADYSfOl, V.P.
Rer'luctior, pot,~ntlajs of metals on n morcury Pnrt 21
Nature of overvoltage in the I~Odolotlcn or M':tAI3 on a rwrnnry
eb"Cl'rods. I zv. ~ry,,wa(-.hpab. za v. ; V him. t 6 no. 1; c 76-'-76'1
163. Ml-u
1. Kazakh3kiy goslidarstVennyi univorgile*., 1-nIfedni- anall.ticht-skey
khimiJ..
S/126/63/015/002/007/033
AUTHOR: Gladyzhev. V.P
TITLE: Some laws governing the physicochamical 1.-)r-opertics.
of binary motal-mercury systemr.
PERIODICAL: Pizilza metallov i motallovedej2iye, v. 15, i1o. 1!, 1963,
203 - 209
T LAT Basing his conclusions on the analy.,A.,~ of publisliod
experimental data, correlotod with theoretical consi(lovations', the
present author shows that the shape of the const1lautlan diagrams
of Hg-."~e systems (i--rhere %Le denotes a metal) is datc--nitined by, the
structure of the d-electron shell of the metal atom. ''L-'arl the
outer d-shell of a i,,ictal is empty t' lie liquidus of tho aaastitution
diagram of the system formed by HS in this metal is t),-Acol of
systems in which the two constituents readily interact to for.-a
intermetallic compounds. In contrast, the liquidus of systems,
formed by mercury and metals -with complately filled d-aholls changes
gradually from the molting point of one component to that af tho
other. The transition metals, i.e. with incompletely '!'illad outer
d-sholls, form with HZ systems that are characterized 'by
Card 1/2
S/ 126/6 3/0 15100 210 C; 7/0-15 3
Some laws groverning .... E193/E383
practically complete inimiscibility in both solid and liquid states.
There are 2 figures.
ASSOCIATION: Hazakliskiy gosudarstvennyy universitat
im. S.',%1. Kirova
(Kazalch State University im. S.M. Kirov)
SUB'NITTED: June 8, 1962
Card 2/2
C,l.ADU,!-V. V I,. V.P. ); :.1 1)U?" A. I
4
Polarization of an electrore tri extreme E.,)sitive poteribial
in n1ternating, curront o,-,cillor:raphic rlol.~trvraphy. chpill
zvv-sti 17 no.8 575--VO '6~.
1. Kazakhskiy F~osud~irstvt-nnyy universitet, Alma-iltu (fcir
Gladysev) .
GLADYSEV, V.P. [Gladyshev, SEDLAK, A. (translator)
Oscillopolarographic examination of 3-hydroxy-4-pyrone
derivatives. Chem zvesti 17 no.8:581-585 163.
1. Kazakhskiy gosudarstvennyy imiversitet, Alma.-Ata (for
Glad, Isev).
GLADYSEV, V.P. [Gladyshov, V P.); FuZIjE;STIIEUSKAJA, Z.1'. [EO,.hrIestv(!nskaya,
Z.B.]; SEDLAK, A- Ltranslator) -
Oscillopolarographic examination of the reduction of selenite
and tellurite anions. Chem zvesti 17 no.8:58~-591 163.
1. Kazakhskiy gosudarstvennyy universitet, Alma-Ata (for
Gladysev and Rozdestvenskaja).
r, ",, ,
~, c, r '.1 - i ! .- -jIr 3' - z -- -, I.-- e~n~~ chwr ~ -i - --, - .-I .- ~' ~'Jl - t, :1 ' .-., :-y-
sy~~ ,.:7, ~ ! ~ , '-n-~ril fae. - ' r - , :, : -Yl , , - --, : , r ~ ~!-, ; m- 1~- !",
c , ~-: ~iic- , ~, --. f, !- -,
~ a -, -.. ., : - F~, ~ ". -. 1! ~ . ~ ". -, -) :-, f -, I .1 11 ~. I -. - I
G-T,A YSfft:V:p V.P.
Oscillopolarographic examination of the persulfate anion
behavior on mercury eioctrodes. Coll Cz Chem 28 no.4:
~97-1006 Ap 163~
1. PoIyaro6r&fibheskiy institut, Chekhoslovatskaya akademl:ya
nalik, Praga; nastoyaslachiy adres: Kazakhskiy universitet in.
S.M. hirova, Alma-Ata, SSSR.
0 98
2t
it if
'AUT. --:j0*16.Vs
ec ii,
-,~SQUR M.V;-MICM~
C 11N
TIP,
0 -,.TAG i"'bl' edfhj--
smu I I M
i;j if
IA T'
d
~h,
"I TjI
-A-CdEW-ON ",464981C.-'
ir
ixw
47.
k7
I-pi
TAMEYE7A, G.111.; V.p.
1 - :; und
Oo,7'11oFraph.'~- -X I I
present together. Zhur. anal. kh-;,m. ig no. 1:138-1.39 161
(MIRA 17:~)
1. KILZIk!U3kiy ;o,;uIa,,:itvenrqy imerii lijrr~a,
GIADYSHEV V. P.
fhe Second All-Union Conference on the Preparation and Analysis of
High-Purity Elements, held on 24-28 December 1963 at Gorky State Uni-
versity im. N. 1. Lobachevskiy, was sponsored by the Institiae or chemi-
stry of the Gorky State University, the Physicochemical and Technological
Department for Inorganic Materials of the Academy of Sciences USSR, and
the Gorky Section of the All-Union Chemical Society im. D. 1. Mendeleyev.
The opening -address was made by Academician N. M. Zhavoronkov. Some
90 papers were presented, among them the following:
V. P. Gladzshev, L. A. Gudovskaya, A. 1. Ivankova, and D., P.
sy~jkov37~uo~i M-etFic and oscillographic polarography mEthccls, for detez=Lriing Te
and Se, respectively, in high-purity bismutfodth sensitivity olf 10-5 1.0 In-6.7%
!-~l
!1MmTP' F
-.wprKa,'.wwznw..ipeparauon ouq 3
Ahod'
Injok. he
''f�biiAdE-."Zhurhal pr adnoy;. kfdiA0t":!':;:l:;
V~. k-no
TOPICTA -616*trolysii~'- vijpq
tfoj
ABSTBA&V~ i.
4 1e b or
an
I'Tm
ut6i d4'
e I
..,,cqm m9e%3XLAVn'r AXL-AVa%;An 6 ~~IXMWTI=Imu anoa~
P W
v:q
rd,
q'i
irrem~ woo mcre
7,
ASSOCIATION: Ktzakhaki xoshi~
Per
7U!73~ffT--PED., 04Mz irU
W.
, ,' 6 "
`0
c
3;'.
-NR RtF~Ov. 006., 0.11
7
I -
!;~S'o Cl
Cl
. 0 .;
OMON
angl..Jj
lk
a#ft
UST11407, A J!. . CT A[!VljgEV. V.P.
-;tf!r,nln,,tlon of molybdenum in lpad. Trudy Kom. anal, krAmi. 15-27-'-
','3 '6 5. (MIRA 18, 7)
rwiuk
a. ;tlFuM in
10 1-
AUTHOR: Gladyshev, Ye.G.___(Moscow)
TITLE. On Multi-.dimensional Stationary Random Pricesses
(0 mnogomernykh statsionarnykh sluchayi~ykh protsessakh)
PERIODICAL: Teoriya Veroyatnostey i Yeye Primenen_iYa, 1958.
Vol 3, Nr 4, pp 458 - 4621 (USSR)
ABSTRACT: Wald~s expansion and the necessary and su.fficient conditions
for the regularity and the maximufri regularity of
n-dimensional stationary random processes with contirrucus
time are obtained. The results a-re su=arised in four
theorems. the firs" of which is concerned with the exoansion
properties, the second and third with the reg~ularity and
the la3t with the maximum regularity, There are
6 references. 4 of which are Soviet I En;--lish and
1 Scandinavian.
SUBMITTED~ May 25 191--18
Card 1/1
GIADYSHEV., Ye. G. (Moscow)
New limit theorer. for random procest,,es with Gausi~--'&n incre,-.ents,
Teor. veroiat. i ee prim. 6 no.1,57-66 '61, (1-11-HA 14-6)
(Limit theorems (Probability the ory) )
too
AUTHOR. Giady-.,,-,;v, Y
TITLE: Periodicaliv
PERIODICAL: Akad~mi~ -a n&uk- SSSR.
TEXT: Definition: ThL
periodically correlated if V jxj'~< f r
integral T so that for z~ and
Mx Mx Mx
n ni-T' r i- 11VT
T is called a period (;f kl-i x
Below let Mx 39 G. 2hc-
n
it has the
T-i
B (n, 1C 2
k, T
For an arbitrary intekrr-.ill ~f; tb '~i
Card 1/5
Periodically corr,~latr-~d rat:d,~r-. seouE~z- C 1 1 1C'-
Theorem 1 ; The funrztit~n is U L
correlated rando:1.1
B ( 1C
where
jj r- T)
jk(
i a t ~e correlatiGn ma r, x -i t.' 17 v,f -d 1 Ill,I
random sequence.
Another formulat~-orii ir. :,rder t."ar.
periodically correlat-d seqiaer-,~--
T.
a~ ~.\
B k C,
where Fk(-X), k-O,.. T-', ai-e c-!qiox
which are continuous f rom the lef t-hu,,d, %tiu i,e t'- Ir"i
>' the increaseT( k A :-,f tr,
A
2
Card 2/5
-2196 2
9/om/61/1 37/'C(Dzlz/005/026
Periodically corrviated randl..m C', 1 1/C222
T(N) - f(F,,,_ j( ( X-2 Itj )/T) T 1 (10)
is a Hermitean non-negative definit4? matrix (for k 0 almost every-where$ 3) in det d X > -co
d~'
Theorem 4: A periodically correlated random sequence x -a minimal then
n
and only then if 1) dot cfF(X)/dX> 0 almost everywherej
21r 1
2 S sp( ( )0/d X) - d X <
Theoauthor thanks A.M.Yaglom for advices. There are 3 Soviet-bloc and
2 non-Soviet-bloc referonces.
ASSOCIATIONtInstitut fizaki atmosfery Akademii nauk SSSR (Institute of
Atmospherical Physics of the Academy of Sciences USSR)
PRESENTEDi October 22, 1960, by L.N.Kolmogorov, Academician
SU13MITTED: October 10, 1960
Card 5/5
__V r
L,4D'l5jYl
'(00nt
th Gonfe!vienee- J Ir-,'I
4,
Basharl.hovg A.-Ye and No. S 0Yleygbman., -86m' OYbOk
tingash of lhformaition.~il
T Problems of the Statistical.Di's Ins,
195
Flows
'Volkonskiy, V. -A. Applications of the Theor7 or Randam
37
Proaesses to Estimating the hourao of Measuring
Y.
Devices
'An Interpolation Problem foil, Multi-i
38, 01
:2(
nalonal stationary Sequence#
Glushkov, V. K., V.-A. Kovalevokly.. and Vi S. Mlkhalevloh,.~
~39
on the Reliability of DiscreteAutomata
Zaydman, R. A-~On the Possibility of Correct Transmission'
40
of Infinitely-71,ong Commmications Through a Channel With.
Noise',
Transact-ons of t-nia, 6th Cor-f on Prob,b; liry T1,4-_oz7 and atj-v_-r_rt;czj Stat.;
stics ard
of the SYM03i'Ll, on Distributions in inlifinite-"Dimensional 3nz;C(,-S'ha1d1 in
5-10 Sep 160. Tlilinyus GOsPolitizdat Lit SSR, 1962. 493 p. 25co copi
pmnzed
i"I: " , yt. " . ". ~ ;.,; ,
~ .- i . , . ~ . l.;.
f *.
verola~. , ~;e L:) rio.
'FWJ 'P
-- , I - L)r:-,x IMU t - Cr.. -, . '. ~~.
, U: I
., C)'I-. -i (), ) I f 5 .
RAZLrVAYEV, G.A.; VYAZMrrJll. N.8..; GLADYShEV, Ye._.U.; 130HODAIIIU., I.A,
Photoohemical reactions of organotin compounds with some halo
derivative5. Zhur.ob.khim. 32 no.7z2154-2160 11 IC2~
O-MRA 15-7)
(Tin organic compo-xul.-) (Halogen compounds) (Phot c-cheziis try)
a