SCIENTIFIC ABSTRACT PYATNITSKIY, V. K. - PYATYSHKIN, N.
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CIA-RDP86-00513R001343720018-2
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S
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100
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Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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L 19"00-63 F. I (1)/BDS AFF I CtZ3D-3 TF
XQESSIO, A33oo6561 S1016916310r,010081DO2311)023
SO~RCE: RZh. Geofizika, Abs.- D146
AUTHOR: Py.~-ttmljtqhly-, V.K
TITLE, On the problem of determining the basic parameters of a bod,
CITED SOURCE: Tr. Sibirsk. n.-i. in-ta col., geofiz. i mincralln.
vy*p. 27, 1962, 153 Y64
TOPIC TAGS: magnetized stratum, tangential method, magnetized body
TRANSLATION: An approximate method is described for determining the main--para-,--I
meters of magnetized sheetlike bodies (deDt1h of-bp~%diDg of--horizant6l-~nd ,ert-.-
col extent, and_also-magnetizut-ion). Th6766thod is based on the tangential
rethod in which c refinement has been introduced. The refinement consists in
determining the corrections depending on the horizontal.and vertical di=ension!;
of the sheet. The introduction of the corrections'is facilitated by the con-
struction of graphics of the relationships, of certain values figuring in the
tangential method, to the vertical dimensions of the sheet for strata o.0
Card 1/2
P.F.; O.V.*; PYATNITSKIY V K RUSAKOVA. L. Ya., literaturnyy
red.; takhn.red.
[Geology,, .%-W oil and gas potentials of the Berezovo San-bearing
region in -1-'n.West Siberian Plain; based on petroleum prospectingv
key well Ir,;*.ling,, hydrog"logical, and geophysical..Utal Geolo-
gicheskoe Oeoenie i perspektivy neftegazonoonosti B~~6vskogo
gazonosnogo i?aiona Zapadno-Sibirskoi nizmennostri;,po *terialam
-owir-rid =,r -,-r.T.:hnogo i opornogo, b~eniia,, -gidrogi'olpgicheski~h i
i a) 46; V=3 101 =7T kh rabot. ]Leningrad,-.1960. 174 p. (L6ingrad,'Vsesoiuznyi
tM-. A institut. TrudY,..rol. 36) (MIRA 14:3)
berian Plain-Pe. eum geology)
(West berian Plain-Ga Ilatural-GO014y)
West
(
..L 3578-66 EIVP (e I/EPA_(r.)_2/EWT (m)/EPF (a)1EViP (i )XYP (WEl"PWAPA M -2/T W
011~Ewt
.ACCESSION NR: AP5024811 E'IIP(k)/F,'iP(b)/�IA(t)/t-M(m)UR/0032/65/03-1010/1 97/ 9
536.2.108
AUTHOR: Pyatnitskiy, V. N.; Kazurov, B. K.
TITLE: Using thermographic analysis to'study the metallixation/Of ceramics in
.11 Andustrial furnaces
SOURCE: Zavodskaya laboratoriya v. 31,:no. 10, 1965, 1197-1199
q
_T.
XOPIC TAGS: thermogram, thermal analysis, metal cladding, ceramic material, deraml
ito metal seal
1ABSTRACT: Differential thermal analysis is used f us physica
or studying the va
and chemical Vansformations and procepaq 3o1 bdenLl-+m
,twhich,accompany n a ese
'metallizationlpbf alumina-rich ceramicsViby'b TsEP-241 furnace us ng two g ten-
molybdenum thermocouples. A diagram of the thermographic unit is shown in fig. 1.
the Enclosure. 'The specimen to be examined 2 and the reference sample 3 were
!placed on the thermocouple junctions 1. Ceramic block 4 with nickel coating 5 main-
ains uniform heat transfer in the cavity of the thermographi'c unit.! A galvanome-.j,-:,,,',-,
Itric pyrometer records the thermal processes in tise-temperature and time-tempera-
Iture-difference coordinates, The specineits were made in the form of,small crudblei:_,.--'_
Card 1/4
Fig. 1. Diagram of the ther-..
A. hie --thermo-
mograp unit: I
couple junction- 2--test.speci
men,,
3--reference specimeng
,
4--ceramic cover; 5--nickel
coating; 6--ceramic Insulation
Support; 7--ceramic"disc** 8-
-fur
ceramic support for the
*
V -9
nace;' --ceramic.tubes
forthe
thermocouples; 10--;furnace
e
bottom; 11--rubber gask t;
12--adjustment nut; 13--insu-w",
lation tubes for the thermo-
----- - Couples".---
P
[C ard 3/4
7 AII/ TC,W1
173SR/Solid StAtC FhyMiC4 FbAwe Transformation in Solid Bodies 9-5
Kba JaLw Ref Zhuzr F-IMALka, No 1, 1958. 989
Grigorlorp A*Ta, Sokolovskays, Te. M., Pyatnitskiy, V.D.
Moscow State W~kre-a-4ty
T.-Ansforwbiorw in tke Solid State is AllLoya of +&e Copper-
Zinc System in the Region of the I A -6011d Solution.
Orig Pub Zh. neorgLuicls. hkinii, 1957, 2, No T, 1547-1551-
Abmt:--_c.t An ixvutigatioa vas made of the systes ft4a in the re-
giom of the- K -solid,' solution using the methods of dif-
fereatial thlez-Awl analysis, electric rssi~tivity at high
temerature, hardness, host papacity, X-ray analysis, elec-
tric revistirity, and its temperature coefficient. Two
kinds of trAnsforwtions have been establiabed in alloys,
amd these &--e explained by.the authors by the formation of
tvo modificwtions of the chesical compound Cu_qZu, awwly
Card 1/2
5-(2)918(7) SOV/78-4-9-16/44
AUTHORS: Pyatni takiy# V. Not Grigort yev, A. T., SokolovBkaya, Ye. X.,
TITLE: On Transfornations in Solid State in the Alloys of the System
Silver - Cadmium in the Range of the Solid CC-Solution
PERIODICAL: Zhurnal neorganicheskoy khimii, 1959t Vol 4t Nr 9, pp 2039-2042
(USSR)
ABSTRACT: The above system was chosen.in expectance of an analogy to the
solid solutions Cu-Zn, Au-Zn, and Au-Cd, which exhibit transfor-
mations in the solid state. Theraal analysis was applied togethw~'
with the determination of the hardness of annealed alloys
hardened by quenching. Alloys containing 2 - 40 atom% Cd were
investigated. Thermal analysis was carried out by means of a
PK-52 pyrometer. Thermal-effects indicating transformations in
the solid *i-solution occurred as shown in figure 1. Results are
givenin table 1, the phase diagram in figure 2. Compounds
formed were Ag,Cd t 3700, A92 Cd at 4500, and another below 7000
containing 4 - 8 atom%Cd, the composition of which is being
investigated. The hardness of the annealed alloys is given in
Card 1/2 table 2 and figure 3. One wide minimum inthe region
On Transformations in Solid State in the Alloys of SOV/78-4-9-18/44
the System Silver - Cadmium in the Range of the Solid OC-Solution
25 - 33 atom % Cd replaces the two minima expected for Ag Cd
3
and A92 Cd, thus indicating formation of a eutectic. The hardness.
of the alloys heated to 300 and 5500 and quenched with solid
carbon dioxide (Table 3, Fig 4) reveals that at 3000 the minima
in the regions 25 - 33 atom % and 4 - 8 atom % Cd are maintained
whereas at 5500 only the latter is preserved and still found at
6500. The heat capacity and electric resistance of these alloys,
at high temperatures are being investigated at present. There are
4 figures, 3 tables, and 7 references, 2 of which are Soviet.
ASSOCIATION: Moskovskiy gosudarstvennyy universitet im. N.V. Losonosova
Kafedra obshchey khimii (Moscow State University imeni M. V.
Lomonosov, Chair of General Chemistry)
SUBMITTED: October 9, 1958
Card 2/2
r /Y r S'C
USSF~Fhysical Chemistry - Thermodynamics, Thermochemistz7, Eq:ailibria,
Physical-Chemical Analysis, Phase Transitionz. B-8
Ats Jour: Referat. Zhurnal Rhimiya,.No 2, 1958, 3791.
Author A.T. Grigorlyev, Yu. M. Sokolovskaya, V.N. Pyatnitskiy.
Title On Transitions in Solid State in Copper Zinc System in PAW
of ot-Solid Solution.
Orig Rab: M. neorgan. khimii, 1957, 2, No 7, 1547-1551.
Abst-raet: The alloys of the Cu-Zn system were studied in the range of
the o\-solid solution (differential therz-1 analysis, electric
resistivity, and its temperature factor, ba-rdness, specific
heat and x-ray analysis). The study revealed phase transitions
accompanied by the formation of the chemical compound Cu Zn,
-which has a lov tem
perature modification cA, (transition at
2330)'and a high temperature modification AX (transition at
4520). A graph of the system state In the -sng-- of 0 to 40 at.
of Zn is given.
Carl 1/1 -31-
50), 18(6)
AUTHORS:
TITLE:
PERIODICAL:
ABSTRACT:
SOV/156-59-2-15/48
Pyatnitskiy, V. N., Grigorlyev, A. T., Sokolovskaya, Ye. M.
On Transformations in Solid Phase in Alloys of the System
Silver - Zinc in the Range of the Solid a-Solution (0 pre-
vrashcheniyakh v tverdom.sostoyanii v splavakh aistemy serebro
tsink v oblaoti a-tverdogo rastvora)
Nauchnyye doklady vysshey shkoly. Xhimiya i khimicheakaya
tekhnologiya, 1959, Nr 2, pp 280-283 (USSR)
Investigations by other authors (Refs 1-10) pointed out
anomalies in the system silver - zinc which are more close-
ly investigated by the present paper. The method of differen-
tial thermal analysis, the measurement of the electric resis-
tance at high temperature and its temperature coefficient,
as well as hardness are applied. The differential curves of
thermal analysis show each of them two heat effects at low and at
high temperature (Fig 1) pointing out endothermal transforma-
tions in the a-range and which are caused by stable phase
transitions. Figure 2 gives the phase diagram and table 1
the temperatures at which the effects set in. The phase diagram
shows that at long annealing Ag3 Zn forms which has two modi-
fications: a1 at low and a2 at high temperature. The curves
SOV/156-59-2-15/48
On Transformations in Solid Phase in Alloys of the System Silver - Zinc
in the Range of the Solid a-Solution
electric resistance - temperature (Fig 3) of the alloys,with
Zn.and
17.6 - 36. 06 by atom Zn confirm the formation of Ag
3
facilitate a more accurate determination of the transformation
temperature (Table 2). The differences between the values of
the thermal analysis and the measurement of resistance are
explained by the different rates of heating. The hardness of
. annealed alloys (Table 3, Fig 4) showa in the range of 25%
by atom Zn a broad, flat minimum which is also indicative
of A Zn. The minimum at 31% by atom Zn might indicate the
g3
limit of the solubility of zinc in silver at low temperature.
The temperature coefficient of the electric resistance shows
a maximum at 25% by atom zinc which is also explained by the
Zn. There are 4 figures, 4 tables, and 12
formation of Ag
3
references, 2 of which are Soviet, and I Polish.
'PRESENTED By.: Kafedra obshchey khimii Hoskovskogo gosudarstvennogo universi-
teta im. M. V. Lomonosova (Chair of General Chemistry, Moscow
State University imeni M. V. Lomonosov)
SUBMITTED: November 26, 1958
Card 2/2
L 16457-66 E
ViT(d)/r IJP(c)
ACC NR: AP6004553 SOURCE CODE: UR/0103/66/000/001/0095/0112
AUTHOR: Braverman, E. M. (Moscow); Pyatnitskiy, Ye. S. (Moscow)
J3
ORG: none
V V
TITLE: Estimates of the rate of converizence of algorithms derived on the basis of:,'.1-
the method of potential functions,
SOURCE: Avtomatika i telemekhanika, no. 1, 1966, 95-112
TOPIC TAGS: cybernetics, pattern recognition, potential function method
ABSTRACT: It is indicated that the conditions under which the convergence of
algorithms for restoring the characteristics of a, functional generator or for
establishing the "function of the degree of certainty" (the probability that
input situations belong to class A or B) from randomly observed points presented
in articles (Ayzerman, M. A., E. M. Braverman, and L. I. Rozonoer. Avtomatika i
telemekhanika, v. 25, no. 12, 1964, 1705-1714 and v. 25, no. 9, 1964, 1307-1323]
are proved to be not sufficient for quantLtative estimates of their rate of conver-
gence. Additional assumptions are formulated (which in the authors' opinion, only
unessentially narrow this class of problems) under whichquantitative estimates of,
Card 1/2 unc: 62-507
L 16457-66
ACC NR: AP6004553
the rate of convergence of the four algorithms presented in the above-mentioned'.
articles are derived. It is shown that algorithms which are convergent in p Iroba-
bility ensure "almost certain" convergence (convergence with the probability equal'....,--'
to unity) and estimates of the rate of such convergence are presen ted. Orig. art.~
has: 88 formulas. [LK)
SUB CODE: 00 SUBM DATE: MprW. ORIG REF:, 005/ OTH REF: 0012/ ATD PRESS:
0,~
.
C;,
2/
7-,.- 7. --
4
S/103J63/024/60'4/004/014
~
_D201/D308
AUTHOR:
'4~at~nitpl~,iy ~Yea_ S _~Mlo sow)
The upp6r: limit 'of -:.them
degree'of stability in systemi
_
with do I'ay
lix RIOD IC AL: ~Avtomatika i'telemekhanika V. 249 no. 41 1963,
465-471
TEXT
Starting with the-conditions of structuralstability,
an applied to the
stems thd
,delay sy t~uthor applies Tsyplcin's method
.
(Avtomatika i telemekhanilca v. 13; ni).: 1952):for.detennining the.
upper -limit of the degree of stability i ni automatic control systcms.
The conditions Qf'structural stability are determined using 4theor
ems which relate the degree of*the obaracteristics system polynomial
f:the degree of stab
its different
parameters; thc,~upper limit o
'';,J11ity is determinad from the analy6is*of~conditions f or which- the
characteristic polynomial".of the delay system hat; a zero. .,,;-,
.:Y'root or a pair of pure imaginary r6ots~ It is also shovm-that Ts
There are' 3 igureis.
'kin's method.fails in certain delay systems.
.;SUBMITTED: 'October 6 1962
-Card
BOGDANOV, V.M. doktor takhn.nauk;, I"YANITSYNA, I.N.,mladshiy nauchnyy
sotrudnik
-yr
)bselevicN L.V. Lisitz p I. Luchir-p N.13
P,-)--atnwir, V.I.
TITLE: Tbe -Ancie-nt Urcon-Illileni t-c Placer in the laesc-
-1-s of 71est
zoic Deposi. 'iberia.
T
P' 2ICDICAL:
Ra-vedlra i cl6irana nedr,
195?, "-,r 4 PP 1-1-
LT 3 --a
IS T L (3, T T-l,-;-- Ti ScLachoye zircon-ilmlenite place:~ -s dlic-
ccvered in 195G-1957. It is icc~ated on the water
divide of, the rivers To-m' and' Yaya in the re-io-q
of northern, spurs of thf.-., Ir-u:-,-)-.-tzkiy Alata%i moun-
tain ran 'ze. Tile Paieozoiq four-dation of motamor-
phi,-,; rock-s of the rerrian
CP _i-- ,-ovn-red by an erosion.
cruct. 15 to ?0 m thick, fomed umdei, com.-`U4-nental
conditions dlariuz~,; a Perio d from tli~~, Lidele-111ar"Iml-
-p t o
ferDus u, Upper-12etac
cous an-,- -ve Paleo-ene
c -n
i A~, s .This crust covers
U bot-h sl opo the ter
0
-d
ai
divide o-1 the r-i-,j-ers Tom'
an-'
'-.,a-ya. Zir-,-n anrl
Placer in the Deposits
S j.r, 4 a
1117-ic-li-iije founl tllds stra-uu::..., f,--I~ried by the
me'u.-a-fiiorpl-lic rccks Lhe In ilale--
this vieal-hered c uot a--a-~m e r (., d ed
-ea
lly Aa vias
av.,ay in t-l-ia sea Lnd V-,-.,
tion. de-Posited' in t;I,L(, T-',r-.r3f" de-
'D SIG- at pr,~sont al-o cl-'videa -4--it-o t-h-ree ZuibeE~ by
T
rallu f-'tj,~ ~7 -Ifll-
Jj-jC-".rj^ C,).M
JU 1" IC! l.'a r -iins1laya and Tu--ariskay-A :CL~ru
aT'Cl
aya -.uit.
A
of variously --rainedi s, t"s. %'Joiluicdoual
C..)
-olective concentratoo can be (A)'ainorl from those
u
Tho Tw,ans'oye loposit -.a.-. be c-q loited
n"
opc!rLca3 L riimiuj,~.
PYATNOV. V.I.,- BIBIKOVA, V.I., DARVOYD, T.I.~ IVANOVA, R.V.; KASATKINA,
GINZBURG, A.I., nauchn,7y red.; NEMANOVA, G.F.., red. izd-va;
HYKOVA, V.V,, tekhn. red.
(Industry's requirements as to quality of mineral raw materials]
Trebovanlia promyshlennosti k kachestvu minerallnogo syrlia; spravoch-
nik dlia geologov. Izd.2., perer. Moskva., GoB. nauobno-.tekhn. izd-vo
lit-ry po geol. i okhrane nedr. NO-53. (Thallium.. indiun, gallium]
Tallilp indiir gaMi. By V.I,Piatnov i dr. Nauchn. red. A.I.Ginzburg.
1961. 53 p. (KIRA 34: 11)
1. Moscow. Vsesoyuznyy nauabno-issledovatellskiy institut mineral'-
nogo syr1ya.
(Thallium) (Indium) (Gallium)
j j r
A (9) PHASE I BOOK EXPLOITATION SOV/2003
Moscow. Inzhencrno-fizichoskiy institut
Lineynyye uskoriteli; sbornik statey (Linear Accelyrators; Collection of Articles)
Moscow, 1959. 94 p. 1,000 copies printed.
Ed.s G. A. Tyaqunov, Doctor of Technical Sci*ncesp Professor; Tech. Ed.s
R. A. Negrimovskaya.
PURPOSE: This collection of articles may be useful to engineers engaged in
the development, production and application of linear accelerators.
COVERAGEs The authors discuss the theory and operation of linear accelerators
developed by MIFI. They describe methods of measuring variable phase velocity
in a wavtguide of a linear electron accelerator and discuss ways of determining
the diameter of a wavoguid*. A method of improving the energy spectrum at
the output of an accelerator is also discussed. No personalities are mentioned.
References appear at the end of each article.
Card 1/6
Linear Accelerators; (Cont.) SOV/2003
TABLE OF CONTENTSs
Foreword 5
V41'dner, 0. A. Linear Electron Accelerators of MIFI 71
The author presents a brief review of problems in the development of linear
electron accelerators. He discusses the operation of three different models
of accelerators developed by MIFI and presents their characteristics. There
are 11 references: 9 Soviet and 2 English.
Shal'nov, A. V., Ye. G. Pyatnov and A. A. Glazkov. Fundamentals of the
Design of a Linear Tr-avellng-wav* Electron Accelerator 16
The authors discuss general methods of designing a linear electron acc*l*ra-
tor. They discuss principles of obtaining the phase velocity and magnitude of
tKe field of the accelerating wave, which are necessary for achieving under
given power supply conditions the desired characteristics of the accelerator
output boss. Examples showing the variation of the phase velocity and the
magnitude of the accelerating wave are also presented. The authors also de-
scribe methods and procedure in designing wav*guides for obtaining the neces-
sary variation of the phase velocity and the magnitude of the accelerating wave.
Card 2/16
Linear Accelerators; (Cont.)
There are 6 references: 3 Soviet and 3 English.
SOV/2003
Glazkov, A. A. The Amplitude of the Fundamental Wave (TM) in a Diaphragm-
type Waveguide 32
The author generalizes the procedure for calculating the amplitude of
the accelerating wave in a linear electron accelerator, depending on
geometrical parameters and operating conditions of a waveguide. It Is
shown that the value of the fundamental wave decreases when higher-order
modes are taken into account in calculations. The author also derives*
an expression for partial power of the accelerating harmonic. It is
shown that partial power depends on the distribution of amplitudes of
harmonics at the axis of the waveguide. The author also discusses methods
of obtaining the function of amplitude distribution. He presents numerical
results of the calculation of partial power, which,may be used in practi-
cal application. Ht also describes possible methods of experimental study
of higher harmonics in a waveguide. There are 15 references: 6 Soviet
and 9 English.
Card 3/6
Linear Accelerators; (Cont.) SOV/2003
Sobenin, N. P. Measurement of Variable Phase Velocity In a Wavegulde of
a Linear Accelerator by the Reflecting Plunger Method 49
The author describes the reflecting plunger method of measuring
variable phase velocity in a diaphragm-type waveguide. He discusses
possible error sources and evaluates the accuracy of determining phase
velocity. He also presents results of experimental studies of reflecting
plungers and suggests optimum sizes of plungers. -rhere are 4 references,
all English.
Sobenin, N. P. Determination of the Waveguide Diameter of a Linear
Accelerator 54
The author presents experimental and theoretical data for calculating
the diameter of a diaphragm-type waveguide with variable phase velocity..
He also presents parametric curves for determining the diameter of a wave-
guide in a wide range of variation.of the phase velocity, operating wave-
length, and Size of the diaphragm aperture. The curves are valid for
diaphragm-type waveguides excited bylr/2-type waves and having a diaphragm
thickness of 4 mm. There are 9 references: 1 Soviet and 8 English.
Card 4/6
Linear Acceleratorsi (Cont.) SOV/2003
m
,Shallnov, A. V., and S. P. Lomney. Preliminary Bunching of Electrons in a
Linear Accelerator by Means of a Klystron Resonator
The authors study the axial motion of particles in a waveguide resonator
of a linear electron accelerator with a klystron pr*r*sonator. Methods of
analyzing electron bunching are also presented. The authors suggest
plotting the output characteristics of a waveguide resonator as a function
of output parameters (terminal energy and phase) and the phase of the high-
frequency field of a particle entering the klystron resonator. They also
present two numerical examples.illustrating the advantageous effect of
preliminary bunching by means of a klystron. The authors also discuss the
injection characterittics of two types of resonators and present the
phase-energy characteristics of a klystron resonator. There are 8 referencess
5 Soviet, 2 English, and 1 French.
Glazkov, A. A., and Ye, G. Pyatnov. Problems of Improving the Energy Spectrum
,of Electrons at the Output of a Linear Accelerator by Shifting the Phase
1800.
The authors present a theoretical study of a method of shifting the
phase 1800 as a means of reducing energy scattering at the output of a
Card 5/6
64,
79
Linear Accelerators; (Cont.) SOV/2003
linear electron accelerator. The method was suggested by 0. A. Valldner.
It is shown that the use of this method for accelerators of over 3-5 Mev may
by three times the nonuniformity of energy of the output bass. The authors
discuss ways of applying this method practically and show that by using this
method the longitudinal stability of particles is not disturbed. There are
6 references: 3 Soviet and 3 English.
Tragov, A. G. Phase Shif ter With Two Dielectric Plates 91
The author discusses a phase shifter in which phase shifting is accomp-
lished by moving two dielectric plates in the cross-section of a r*ctangu-
lar waveguide; It is shown that the use of two plates instead of one
makes it possible to increase the phase shift and decrease the size of the
,.phase shifter by one and a half times. Results of theoretical and ex-
perimental calculations are presented. There are 2 references, both Soviet.
AVAILABLE: Library of Congress
Card 6/6 JP/Isb
8-31-59
21 (0) 24 (0)
TY49UMW. 0. A.
the -"?I (1-ch- a komforentsiYa, HIP4-
TITUS Scientific Conference Of
MIODICALI A10AM47% 1959, Val 7, It 2, pp 176-17T
L3STIACT. The ;.arly scientific ".tlnC was hold from 17 XPril to 15 may
lq 59 in the Mo.k~.kiy inch..wr.o-fisi.h..kIr ta.tit.t (Came..
PhystaoZ' Ensimearica Institute). '--ore th= 600 puticip~tm froz-
100 different Inatitutat attended the 2 plalary Wd 18 sactia..IG
~f.~c.. of 148 '..ct~.s war. hold. ?4. followime
- :'t.0W"ly x.nti-do V. C. Roz-v-
leatu.r.. A-. -IUY q
the berno-mucl.- an tb-
phjulana foundations of -I.-l= generators And amplifiers,
-A. T. L.Z -c'M4 am, %he amotmation of a f-t reactor, L,_jf
~It an , be theory or -he poriph,rsl. o*lll.ion of =*.wm
and nUeleano, A. D- IKICW on superfluidity =4 ==ont= of
_j~ ,~-- -t- - IZ- 02=9 -1-trommeno,
Inertia of the =alai, A. t. ram un
r.,Ity ..,#, r. 1. a rr 04 kal.ln t;ich ". #.cited within
A I And 1~
mucle" .1 comprehending th6m_j.:i-
W Lkb Xb0 -Al~Oi* Of the pos4ibl.
experiments of the ... wr.nento of the
the spectrum, or liquid And
P-.0Ms' T
=78t-llia h,7dr;j.A U;Z.r P-.*Z~W (DWO-.0000 AtQ--3nd An
instrument for abs.rptian mo-.4, L.:j_
4!V. 51-11 kifi-1-t Ql~_Zv- 0-1--diA. OA A" Application p.a.ibiliti"
oba4;0 ~'n OQ C-10%lAtian mo%hods
for limanz Ioctrga waslarazar"Ith =J~Tator7 O~van, P. A
And A. I. Z'-'111-
slactram, capture under bet4larm.-aa.-dima Of the accalarztLan,
P, ~ *4 Optim~q vAV. I.nesh far . 6*4or3tor, 3. P.
T, foavaing isA
al.atrao a4c.loraton P. - vni%rovskiy, n-
the 3114#= ~celerators of %be XXrj.
0. -!1
aaaawLay an ozactinatl*n he olz%r*n Movement In the Yet..
Of !,h0 slutran with conwil.r.tjoc of the scgt.riie fl.14._Z 1.
r 01 =Palo- method far MO&SUrinc V~* beat 1011"Jimm
S ty of liquids AW 0 th-or7 a' th~la zoth*4. Ys_Z~,
M
h - he IIF;r. ad D. A. Ctirw on hsa
_tqb~~- % tram"t.11on
.,.at,. _~ . Rich i f
1-8 in a circular space, Ta ?~ f
Zttr-wICSvT an beat tranamis-iOn to circulatine a*rcuvf, g g-
Cwd 2/3 c0nditl*mm fta. orklma with , flat %,t~d. in
the Impulse t..hulqu. 2.S. Po~mraysf cn cat cU13tim methods And
Constrac-ion of An -r imstr-ants with
1-*nta' Tla. A: 12-;.%
8031-conductor *1 An 4 P03.1bility
ract.riatics
udca the oh~ ==-Lc rtmordin,~ of impulse
S. I. I&Z' nin cn tPe element r7uzac; for a UmlveraAl diTit4l,
ccntrol of t1'A parem.ters of
Uthae"e.o -;racaaasa, P. I- f~ = ~LL?44iz at ctvar~l
systan. m hihj'k-st'Al -.rc7 ar;aravan a-
be autc-4tLealix
started, an a method t* ox~Una the qualit, 0,
a reactor contral whfr. the re"ctivitj chano-es dt-pWi-0 or
(3, A. L.WOM V%d A. 1. TaTatfujLhift *a wr-jn.ttA
!f th. Ldift. method of to &nd. charmd%eristi.s
of the matma obtalnedo sr.d 0. C. r4abova. an
.1-1 - Tom, M~jgtw~. ra
net'-- of the micriZUatribut-an of Mr a
vul other element. to zirmmiun =4 its m1lay, b;~ use of A,,t,
ra4LW&pby, 4.t:=izrm%!on Of the sublixkqlon
be.; of LAC UdlCoat.1. I.d1Q,t.,.
And 0- D- P-40m' and On Of the
dlfM-sto. s"Clialanta, Of hr-i-, nicke. Iron and chromium
nickel. :toolz. The.11.%#ratur, f-r all %he&* lectures will 1~v
Card 3/3 publish d by %to Trl in a ~--Poaiwx.
8/05e/62/000/011/043/061
A16o/Aim
AUTHORS: Valldner, 0. A., Pyqtnov, Ye. 0.
TITLE; A comparison of' the experimental and theoretical characteristics
of a waveguide bunching for 3 Mev
'PIMIODICAL: Referativnyy zhurnal, Fizika, no. 11, 1962, 39, abstract 11-3-77t
I
(In collection: "Uskoriteli", no. 3, Moscow, Gosatomizdat, 1961,
121 135)
TM: Adescription is given of an installation which was designed for
studying the experimental characteristics of a waveguide buncher. The instal-
lation is a linear electron accelerator for 3 Mev withsome constructional pe-
culiarities which are being explained. The main experimental results obtained
with the installation are described. The experimental and theoretical data are
compared. There are Treferences.
V. L.
,[Abstracter's note: Complete translation]
Card 1/1
SOURCE: ~bscow.- Inzhenerno-fizicheskiy~i~stitut.-Uskoritel*i. no.3. 1962. 78-82
TEXT Tentative figures and'plots of the output parameters and operating
characteristics are presented for several-linear accelerators developed at them
Moscow Engineering-Physics Institute, The computations were made with the BESM
electronic computers. The output pararmters evaluated were the energy of the.
accelerated electrons, the width of*the energy.spectrum,.,and the phase width of
the-electroaclusters.- The input parameters were the injection energy, the Ln-
jection-current, and the power and frequency of the high-fre-quency supply. The
enerV was expressed in terms of its effective aciion (orthermal action if calo-.
rimetry is employed).- The operating characteristics were.determined in terms
of dependence on the injectiozi-; the current, the power, and the frequency. Each
dependence 6ould in turn pertain to the energy, phase, and spectrum.-Data are
Card 1/2
..S/759/62/000/00j/012/021
AUTHORS:I.Valldner,-O. A.,,Pyatnov,-Ye._G. I
TITLE: Comparison of experimental and theoretical characteristics'of
...wavegui
de buncher for,3 MeV
-no- icheskiy institut. Uskoriteli. .3. 1962. 121-135
SOURCE: Moscow. Inzhenex fiz4 no
TEn: A special test setup, U-1-M, constructe&for a study of the expe
ental characteristics of bunchers; and to ascertain the agreement between the
theoretical and experwiiental data, is described and the main experimental res-,
ults obtained are presented. The setup comprises a 3 MeV linear accelerator
with housing of adjustable length to ace 'omnodate bunchers of different sizes,
and with exciting coils so arranged as to produce a magnetic field of variable
length.~ -The relative phase velocity and field-intensity were such as to pro-
duce a narTow phase bunch (60,at half-height.of the phase spectrum and 25* at
the base) containing 905 of the electrons, at a load current.of 100 mA. The
waveguide was of the loaded type assembled of individual rings and diaphragms
on stainless steel dowels. The theoretical and:exper-~mental distribtrtions of
the phase velocity along the buncher were in good agreement, but there was a
Card 112
Canparison of 6xperimental..., :S/750/62/000/003/612/021
disparity between the theoretical and experimental attenuations along the
buncher' The bebavior of the frequency, power,land current characteristics
is analyzed and explained from the point of view of,the phase stabilityprin-
ciple.The experimental characteristics were found to agree within 3-4% with''
the results-of the theory-developed at the Moscow.Ergineering-Physics Insti-
tute -at low values of power. -A similar agreement is found with respect to
the width and-form of the energy spectru;nj indicating that the numerical
integration of the equations of motion -of 'a single electron (the "single-
electrm, theory - with no account.taken of the space charge of theacceler-
ated bunch,'lateral motion of the electrons, etc.) isapplicable.at least
J~ for, pulsed currents up to 300 It is pointed out that in the design of
special accelerators with narrow phase or energy spectra' itis necessary to
analyze thoroughly beforehand the data governing the choice of the operating
region of input parameters (frequency and high-frequency Wwer of the gene-
rator) such as to attain the -Lequired stability of the accelerated beam.
There are 8 formulas and Il figures.
Card 2/2
77'
kATNOVj,
8/089J62/013/006/019/017
AVrHORS1 G. T. and U. R.
TITLE@ Vauchnsys konforostolya Moskovskogo Insboverso-fisich:GkOW
instituta (Scientific Coaf*roaoo of the Moscow Engine ring
Physic* Inatitate) 1962
PERIODICAL..'Atounnya energiye, v.. 15, no. 6, 1j62, 603 - 606
TEXTs The annual conf*renco took pleas i% 1ky 1962 with &or* than 400
delegates participating. A review Is given of these lecturow that are
assumed to b* of Interest for the readers of Atoarays onergila. They are
I followings A. 1. L*ypwwkiyg future of fast reactoral A. A. Vasillyev,
design of accelerators for sup*rbigh energies*; 1. Ira. Poa*raaohuk,
onalvtioity, unitartty, sad asymptotic behavior of strong interactions at
high on*rgitsl A. B. MiSdal, phenomenological theory-for the many-body
problomp Tu.'D. riveyekly. deceleration of modim-emergy antiprotohe In
1 aatterl Yu-. M_. Kogan, To. A. losilevokly, theory of the Wasbamer affect$
M. 1' Syssamov, theory of Scalsetiom losses to asabonagesecas "dimal
Yu. i. Ivanov, A. A. Aukhadse, W 662609SIVISY st-ogberMeal. plas"I
[.-.Card I
S/089/62/013/006/019/027
Nauchnaya konferentaiya... B102/B186
design of 30-Mev electron linear accelerator; Te. Cf. F-Yat 0v. A. A. Glaskovo
n
V. G. Lopato, A. I. Finogenov, G. N. Skepskiy, V. D. Seleznevp experimental
characteristics of' low-energy electron linear accelerators; G. A. Zeytlenkp
V. M. Levin, S. I. Piskunov, V. L. Smirnov, V. K. Khokhlov, radiocircuit
parameters of JIY_~(LUE)-type accelerators; G. A. Tyagunov, 0. A. Valldner,
B. M. Gokhberg, S. I. Korshunov, V. I.,Kotov, Ye. M. Moroz, accelerator
classification and terminology; 0. S. Milovanov, V. B. Varakeirf, P. R.
Zenkevich, theoretical analysis of magnetron operation; A. G. Tragov,
P. R. Zenkevich, calculation of attenuation in a diaphragmated waveguide;
Yu. P. Lazarenko, A. V. Ryabtsev, optimum attenuation length for linear
accelerator; A. A. Zhigarev, R. Ye. Yeliseyev., review on trajectographs;
I. G. Morozovat G. A. Tyagunov, review on more than 500 ion sources,
M. A. Abroyan, V. L. Komarov, duoplasmatrgn-type source; V. S. Kuznetsov,
A. 1. Solnyshkov, calculation and production of intense ion beams;
V. M. Rybin (re. V. Armenakiy), inductive current tranamitters.of high
sensitivity; V. I. Koroza, G. A. Tyagunov, kinetic description.of linear
acceleration of relativistic electrons; A. D. Vlasov, phase oaci.1lations
in linear accelerators; E.'L. Burahteyn, G. V. Yoskresenakiy, beam field
effects in the waveguide of an electron linear accelerator; R. S. Bobovikoyt
Card 3/4
ACCESSION NR: AT4019725 S/2759/63/000/005/0096/0107
AUTHOR: Vai'dner, 0. A.; Glazkov, At A.; Pyatnov, Yet Go; Selenev, V. 0.
fa
TITLE: Experimental study of the Y-10 linear accelerator. 1. Preparation r
operation and measurement,techniques
SOURCE: Moscow. Inzhenerno-fizicheskiy institut. Uskoriteli (Accelerators) no. 5,1 -
1963, 96-107
TOPIC TAGS: accelerator, linear accelerator, beam, stability, reliability
ABSTRACT: The aim of the paper is to make a detailed test of the type Y-10 linearl,
accelerator in the following respects; 1) correspondence between the obtained be"
parameters and the calculated data, and the verification of.the assumptions made 11
in the design; 2) determination of operational characteristics of the accelerator',
which are important in estimating the stability of its operation and which,describo
the beam reaction to variations In the feed conditions; 3) verification of the
operational reliability of the accelerator for a long duty-cycle.. Orig. art* has; 17
i 7 figures and 10 equations.
'J' ASSOCIMON: lnzhenerno-fizicheskiy institut, Moscow (Engineering-Physics
Institute)
.C
L 365o-66 ENT( m) 1JP(C)'
ACC N',h AT6017509 66 SOURCE CODE: UR/2759/65/000/007/0066/0076
AU1'HOR: Grovunov. A. A.; ~ya nov., Ye. G.; Finogenov, A. I.
ORG: none
TITLE: Experimental characteristics of a linear electron accelerator with continuous-
ly adjustable energy from 1.4 to 2 Mev
SOURCE: Moscow. Inzhenerno-fizicheskiy instj n 5, 66-76
7 -tift, Uskoriteli, o. 7, 196
TOPIC TAGS: linear accelerator, waveguide, radiation chemistry, magnetron U 16 lin-
ear accelerator
A13STRACT: Measurements of the energy dependence on frequency, power and load current
were made. All measurements were made onthe U-16 linear electron accelerator operat;~
ing in the traveling waveguide mode. The U-16 accelerator is used primarily as a
source of radiation for research in nuclear radiation chemlstr7. It was necessary
tfierefore, to achieve an operation mode with continuously.adjustable energy from 1.4-.,
-12 Mey. The U-16 accelerator operaZes with an average current of 200 uA. It is driv-
9n with a high frequency pulsed magnetron with variable frequency. The tests showed -
that a simple and effective way to achieve a wide range of energy regulation consists.
in varying the frequency of the pulsed magnetron. In this manner, the energy and cur-
rent in the accelerator can be varied independently. In order to obtain a stable ope~-
1/2
Card
L 4368o-66
ACC NRt AT6017509
ration of the magnetron in the frequency range of 6 to 10 Mc, it was necessary to as"?
certain the properties of the entire high frequency portion of the accelerator. -The"
band properties of the high frequency part of the accelerator are shown in a graph.
Additional graphs show (1) the energy variation and the energy band as a function oC
frequency for different input power at 200 IjA; (2) the relation of output energy of
the electron to input power; (3) electron energy at the output as a function of the
,load current of the accelerator (beam current). Orig. art. has: 10 figures.
SUB CODE: 20,0111 SUBM DATE: none/ ORIG FXF: 003
Card 2/2 s
ACCESSION NR: AT4oi9726 S/2759/63/000/005/0108/0124
AUTHOR: Valldner, 0. A.'; Glazkov, A. A.;-P
yatjoy. a. G. Seleznev. V. 0-
i TITLE. Experimental study of the Y-10 linear accelerator
SOURCE, Moscow. Inzheiserno-fizicheskiy lilslittit. Uekrorltall (Imrcclarators), no*
5, 1963, 103-1214
TVIC TAGS: accelerator, linear accelerator, particle accelerator. electron
accelerator, linear electron accelerator
.ABSTRACT:, The first part of this paper appears as the preceding paper in the same I
This second part describes the energy spectra of the particles, the fro-
!quency characteristics, the power and current characteristics, and the beam-panoter-
-and high-frequency efficiency. Orig. art. has: 12 figures and 5 formulas.
:ASSOCIATION: Inzhenerno-fiziiheskiy institut, MoscowlEngineering-Physics institute)-,
,.SUBMITTED: 00 DATE ACQ: 19har64 ENCL: 00
SUB CODE: NP NO REF SOV: 003 OTHER: 001
Card
BORISOV, Yevgeniy Borisovich; JUAWO Y FEDCHENKO . V.
-V
A,,. Ir
red.; BUGROVA, A., tekhn. red.
(A key to the sun; stories about the young science and new
technological field making possible space.radio and television#
electric power plants without machinery arA*much else, in a
word-stories about semionductors] Kliuch k solntsu; rasskazy o
molodoi nauke i novoi. oblasti tekhniki, sdelavshei vozmozhrwm
kosmicheskoe radio i televideniev elektrostantaii bez mashin i
mnogoe drugoe, - slovoin, rasskazy o poluprovodnikakh. 2... dop.
izd. Moskva# "Molodaia gvardiia," 1964. 303 p. (MIRA 17.4)
BORISOV, Yevganiy Borisovich; PYATNOVA, Irins Ivanoyna; FEWHE167KO9 T.p
RYAGKOVA G . 1. ; KE it 'EV -*','I YAHAT R S All"W'i V A , I
N610BRAZEIKEF-11Y. N.A.
Higher fatty acids. Par. 16: of cis-, cis-, cis-, r'lls-'
9,122,15tl8- tatracosatetraenoic acid. Zhur. org. khim. .1 no.6-981.-
983 je 165. (M I KA IF -9)l
1. N'rj.-~kovoki institill, kilkoy khlrilichaolkuy tekhnologii i meni
Lcmonooova.
AUTHORS: Borisov, Ye. and Pyatnova, 1. 4-12-13/24
TITLE: Extraordinary Transformations (Neobychaynyy* prevrashcheniya)
PERIODICAL; Znaniye Sila, 1957, #.12, PP 36 40 (USSR)
ABSTRACT: The authors give as an introduction a description of future
solar and atomic thermalstations, which though not in existence
at-th* present time are n ot an illusion, due to the existence
of semi-conductors. In this article the authors deal with one
of their varieties - the thermo-elements. However, these ale-
ments are not yet applicable in power plants.
,AVAILABLE; Library of Congress
Card 1/1
S/07Y62/032/001/0'04/0.16
D21 3D302
AUTHORS,s Pyatnova.2_Yu6B., Kovtun, I.A.,~Pleshakovq M.G., Kray-,
evsk1yq A.Aop Sarychevaq I*K.9 and Preobrazhenskiyq
N.A.
TITLE: Studies in the synthesis,of poly-yne compounds,
PERIODICAL: Zhurnal obshchey khimii, v. 32, no. 1, 1962p 138-139
TEXTS, Methods of preparing decadi-yne-194 9 and tetradecatriyne-2,5
,a,-.ol.-l are described. The above compounds are intermediates in the
synthesis of arachidonic and other unsaturated acids. (1) Chlorobu-
tyne-2--ol.-I: Butyne-2-diol 1,4 was treated in,!_~-ridine and benzene
DO) mixture) at 3-500 with excess SOC1 2 (1. ,equiv.) with tempe-
rature being kept.at 15-200 C. The yield was 60 %. (2) Octyne-2-ol-l-
Prepared in 59 % yield from 1 chlorobutyne-2-ol.-4, with butyl ma-*Z
gnesium. bromide, the former being added over 90 mins. Th~, fraction
of b.p. 98-100OC/16 mm. was collected. (3) 'I-Bromo-octyne-2: To oc-
tyne-2-ol-1 in dry ether kept at 0 - 20C, PBr In slight excess and
3
catalytic amounts of pyridine were added over 15- mina. The yield
Card 1/2
S/079/62/032/001/004/016
Studies in the synthesis of D213/D302
was 80 %. (4) Decadiyne-1,43 1 Bromooctyne-2 was reacted with Na
acetylerlide. Theyield was 48 %. (5) Tetradecatriyne-29598-01-1: To
a solution of excess ethyl magnesium bromide in dry ether with cool-
ing to -3-50C propargyl alcohol in benzene was added over 90 mins.
There are 7 references: 3 Soviet-bloc and 4 non-Soviet-bloc. The
references to the English-language publications read as follows.-
W.J. Bailey and E. Fujiwaraq J. Am. Chem,, Soc-9 77, 165, 1955; W.J.-
Gensler~ A.F. Mahadevan and J. Casellaq J. Am, Chem. Soc., 78, 63~
19564 J~M. Osbond and J.C. Wickens, Chem.1a. Ind., 1959, 1288.
ASSOCIATION: Moskovskoy Institut-tonkoy khimicheskoy.tekb.nologii
imeni M.V. Lomonosova(Moscow.Institute of Pine,Chemi-
cal Technology imeni M.V. Lomonosov)
SUBMITTEDg January 259 1961
Card 2/2
MITROFANOVA, T.Y.; SARYCHEVA, I.K.; IVASHCHENKO, S.P.; PYATNOVA, Yu.B.;
PHASE I BOOK EXPIDITATION SOV/5241
Konovalow, Yevnenly GrIgorlyevich, and Yevgenly Iosifovich Pystosin
Gbrabotka. plosk1kh powerkhnostey shaftko"al golovk=1 (Nall BWWBhlng of Plow
Surfaces) Minsk, Izd-vo AN BBSRg 1960. 19 p. %000 copies prlntedo
.Sponsoring Agency: FlUko-tekhnicheskly Institut AN DSSR. Laborstorlys,
novykh metodow dbrobatki materialov.
Ed.: ROL. Totpenets, Candidate of Technical Sciences; Ed. of PubUsUng Boa":
L. Tizoreyev; Tech. Ed.: I. Volokhanovich.
FURPWZ: This booklet is Intended for designers and operators of burnishing
tools.
CMEPAGE: Ball burnishers am discussed from the standpoint of their design,
kinematics, macrogeometry, and other data relative to their construction and
use. Cold vorking processes ar* wntlonod briefly. No personalities are
mentioned. There are nine references, all Soviet.
Card 1/2
I! i~ 7 rl ~ Ili . I'f . ~ I
. , knnl. telvhr. wrik, stlirshly prapmd.fo.,I-tf,)l I , L.,' . ,
k-,~.-I. tel~jjn. na-a~-., a:isistnt
"Mt-- ----
a-- . - - ---- -- -
NqR"
=M-
L,8854--66 EdT(d)/.EWT(M)/EWP(V)/ . WPM/ IWP~(k)-IWI-I(WEWP~(IiYIWP(IY131A~c-)--JDIHI,4
ACC NR, AP5026483 SOURCE CODE: UR/0286/65/000/019/0009/0009
t;" ..I Yefanov, V. I.; Yakovlev, S. A.;
INVENTOR: Granovskiy, S. P PXatunin,
Arutyunov, I. G., Revunov, V. A._; Zdffi~WUV A. A.; Shofman, L,, A.
OKC7: If YJ F), -Y Y, 5- 5-
TITLE: Production of seamless tubes. Class 7, No. 175026) [Announced by All-
/Ej-,Union Scientific Research and Design-Planning Institute of,Metallurgical Equip-
soyuznyy niuchno-issledovatel'skiy i proyektno-konstruktorskiy institut
icheskogo mashinostroyeniya)] T
Byulleten' izobreteniy i tovarnykh znako no. 19, 1965, 9
S: tube, seamless tube, thin wall tube, light alloy tube, WK41 rolling.
This A, hor Certificate introduces a method for making seamless tubes
ht-all I b f
rom rolled, forged, orcast,tube shells.. To obtain-thin
,a
9 of larg ameter with precise.dimensions and a clean surface, the tube
first hot rolled with expansion in a helical mill and then cold rolled A
gation in a helical rolling mill' [AZ]
13/ SUBM DATE: 12Feb64/ ATD PRESS
:UDC 621.774.3
~7-
.... . .....
5 5,
TITLE: Results from testing of an ageostrophic model for predicting wind tem-.
erature fields for several atmospheric levels
P
SOURCE: Leningrad. Glavnaya geofizicheskaya observatoriya.'Tru Idy.-no. 168, 1965,.
Chislennyy analiz I prognoz pogody Wmerical analysis and weather forecasting),.
3-13
TOPIC TAGS: geostrophic wind, weather forecasting, atmospheric geopotential
ABSTRACT: The results of 27 daily forecasts of wind and temperature fields for
levels of 850, 500, 300 and.200 mb are analyzed. In contrast to earlier works, the
temperature and wind fields were predicted using a system in Lagrange variables.
The method used Is briefly,described, A,high speed electronic computer was uqed1oi
making the claculations. The initial data consisted of 333 values of geopotential
and 263 temperature readings on each of the foiir levels studied. Tables are giveii
showing'the reliability o~f forecasts for geostrophic wind velocity and temperature
variation. Predictions of wind velocity were much more iceitrate on the 060,ailds
Card 1/2-.,
. I . I. zI , , ': . , -- I -
. I I II. . . .II. I II I . o " .
I . I , .I . I I I ~ ,1,1 1.. . - .I , I~ II. . . I I I
.lCard . - - - - -I , "
- I - . . c I . I I I a~ "
Ail i
-an
SA
i 1A
Sig
Eli -'m
I d
I Ell a 11:1
1K
PYATYKPINA, P.P.
lsal;-'tion, purificatior and some physicochemical properties of t~e
antibletic sekazin. Antibiot-iki 10 no.6:483-488 Je 165. (MIRA 18-.7)
1. Otdel Infektsionnoy patologii I eksperimentallnoy terapii infektsii
(zav, - chlen-korre.-ipotident AIMN SSIR prof. KhAh. Planellyes) Instituta
eplldemlologli i mikrobiologii im. N.F.Gamalel AMN SSSR, Moskva.