SCIENTIFIC ABSTRACT KUZOVKOV, A. G. - KUZOVLEV, G. M.
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CIA-RDP86-00513R000928310001-7
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RIF
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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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Body:
Mn
PEW,
KURTSJT, 1. T.
Permeability of the hematoencephalic barrier in experimental newosis.
Nauolx. soob. Inst. fiziol. AN =R no.1%102-103 '59. (KRA 14:10)
1. Laboratoriya kortiko-visteerallnoy patologii i Kafedra. normnllnoy
fiziologii Voyem6~meditsinskoy akademii imeni S.M.Kirova (zav.
I.T.YLurtsin),
(BRAIN)
KVZOVI A/
AUTHOR: Kuzovkov, N. T (Moscow). 24-1-6/26
TITLE: On the motion of a gyro-stabilised platform at large
angles of deviation. (0 dvizhenii girostabilizirovannoy
platformy pri bol'shikb. uglakh otkloneniya).
PERIODICAL: Izvestiya Akademii Nauk Otdeleniye Tekhnicheskikh Nauk,
1958, No.1, pp. 44-51 (USSR5.
ABSTRACT: A platform stabilised about two axes by -tavo gyroscope
monitored servo power units is considered in this paper
under conditions of motion Yvhen the an6le between the
platform and the external frame is no longer small, which
was the limitation of earlier theory. The position of the
platform axes and of the syroscope axes is defined by four
variables. By settins up the Euler equations for each
of the constituent elements of the system, four equations
are derived, which the motion of the system obeys. The
equations are non-linear. For small deviations, linear
equations can be substituted by a variational procedure.
These equations can be represented by a circuit
configuration diagram which, in turn, can be so transformed
that cross-coupling terms are eliminated. In this manner
it is shoun that the equilibrium angle between the platform
Card 1/,-und the external frame has a substantial effect on the
24-1-6/26
On the motion of a Syro-stabilised platform at loxge angles of
deviation.
nature of the configuration diagram.
There are 6 figures and 3 references, all of which are
Russian.
SUBMITTED: June 29, 1957.
AVAILABLE: Library of Congress,
Card 2/2
24(6),3~6(i) MV/55-58-6-4/31
AUTHOR: Kuzovkov N T
TITLE: An Investigation Methol for Control Circuits Containing Linear
Terms with Variable.Parameters (Metod issledovaniya sistem
av-tomaticheskogo regalirovaniyap soderzhashchikh lineynyye zven'7a
s peremennymi parametrami)
PERIODICAL: Vestaik Moskovskogo universitetap Seriya matematiki, mekhanilci,
astronomii, fiziki, Whinli, 1958P Nr 6. pp 19-30 (USSR)
ABSTRACT: Let it be possible to decompose a given,control circuit into tvo
connected blocks so that all terms of the first block have constaut
coefficientsy while the terms of the second block are linear and
have variable parameters. In a simple manner., for the second
block which is assumed as one termp the author determines the
"transfer function Ati (p) in the moment ti" for an impUse influeace.
The function Ati (p) is identical with the transfer function of a
tem, the coefficients of which are c-Ustant and equal to the
values of the corresponding variable coefficients. The knowledge
of A-,i (p) enables to apply to the considered. system the usual
linear methods and to answer the
Card 1/2
An Investigation Method for Control Circuits Containing SOV/55-58-6-4/31
Linear Terms With Variable PVameters
following questionsi 1) whether the system fades or increases
in the moment til 2) how large are-, the deviations of the single
variables in the moment t1 3) how large is the summed control
deviation in the moment t1 4) how large is the mean quadratic
deviation for stochastic influences?. An example is calculated.
The author mentions N.M.Kryloy, N.N.Bogolyubov, and V.S.
Kulebakin.
There are 9 figures, and 7 references, 4 of which are Soviet,
and 3 English.
ASSOCIATION:Kafedra prikladnoy mekhaniki (Chair of Applied Mechanics)
SUBMITTED: August 8, 1958
Card 2/2
SOV/24-58-7-15/36
AUTHOR- Kuzovkov,, N.-T, (Moscow)
TITLE: On the Motion of a Gyrostabilised Platform in a Bicardan
,Suspension (0 dvizherdi giTostanilizirovanno7 platformy,
u.stanovler.noy v bikardanovom podvese)
PERIODICAL: Izvest"iya Akademi-L. nauk- SSSR, Otdeleni.ye tekhnicheskikh
nauk, , Nr 71 PP 94 - 97 (USSR)
., 1958
ABSTRACT: A bicardan suspension is an ordinary cardan suspension
supplemented by a stirrup in which slides a rod which is
firmly linked with the inner ring of the cardan suspension.
The general theory of bicardan suspensions has been developed
by IshliDskiy and Chekhovich (Ref 1). In the. present paper,
on the basis of results of 4v-hl:s theory, the -equations -of
small oscillations of a gyrostabilised Dla-11--form in a
bicardan suspension about a position charact-erised by a
large angle of deviation of -t-he outside ring and stirrup
are developed. A comparison is also made between these
equations and those of tlesame platform in an ordinary
Cardan suspension. Compaxison of the structural scheme of
the platform in the bic ardan suspension with that of the
platform in the cardan suspension shows that the first
Card 1/2 system is distinguished from the second by the presence of
SOV/24-58-7-15/36
On the Motion of a Gyrostabilised Platform in a Bicardan Suspension
additional connections and also by higher values for the
moments of inertia the coefficients of viscous friction and
the coefficient K3 defined in Eq (14). The additional
2 1
connections,may have a harmful effect on the stability of
the system but a more definite conclusion about the
influence of the stirrup structure on the stability of the
platform can be made only as a result of analysis based on
the use of numerical values for the,parameters of the
system. There are 2 figures and 2 Soviet references.
SUBMITTED: January '31,1 1958
Card 2/2
AUTHOR: -Kuzovkov, N. T. (Moscow) SOV/24-58-11-16/42
TITLE: A Single-axis Power Gyro Stabilizer with the Axis of -the
Frame Set Obliquely (Odnoosnyy silovoy girostabilizator
s kosym raspolozheniyem osi kozhukha)
PERIODICAL: Izvestiya Akademii Nauk SOSR, Otdeleniye Tekhnicheskikh
Nauk, 1958, IIr 11, pp 70-?4 (USSR)
ABSTRACT: The system of coordinates etc. are shown in Fig.1; the
y-axis (normal to the axis of rotation of the gyro' is
set obliquely in the frame. The motion in a system of
coordinates connected to the base is examined. The Euler
equations for the gyro are Eqs.(l). The base is assumed
fixed in the coordinate system; this gives Eqs.(2).
Ishlinsk-4y's methods (Refs.1 and 2) are applied to give
Equation (5), in which the torque applied by the stabilizer
motor 4 is allowed for (this torque is assumed to follow
the law given in Eq.(9), where K is the gain and f a
viscous friction coefficient). The equation of slightly
perturbed motion (11) is now derived; condition (12) must
be fulfilled if the motion is to be asymptotically stable,
The relation of restoring torque to displacement is now
Cardl/2 considered-;,Iit is shown that K? f and F cannot be increased
SOV/24-58-11-16/4"
A Single-axis Power Gyro Stabilizer with the Axis of the Frame Set
Obliquely
without the system becoming unstable for various reasons,
but that the oblique position of the y-axis can make an
unstablq system stable; Eq.(19) shows how Y-2 varies as a
function of the angle y of Fig.1; Eq.(18) is of course
just the open-loop transfer function. Eq.(16) gives the
value of y which gives L maximal (i.e. the angle y
which is optimal from the point of view of stability,
all other parameters remaining fixed).
There are 2 figures and 4 references, all of which are
Soviet.
SUBMITTED: April 5, 1958
Card 2/2
XMOVKCV, N.T.
Method of analyzing automatic control systems containing linear
elements with varying parameterse VesteMoskoune8erematopmekhe
autron.,fiz.,khim. 13 no,6:19-3o 158. (MMA 12:4)
1 Kafedra prikladnoy mekhaniki Moskovskogo gosudarstvennogo
Qiveraiteta. (Automatic control)
-.ACHERKAN, H.S., prof., doktor teklm.nauk; DOROSMVICH.~ A.M., kand.tekhn.
Iliuk; IROZWVWTA,-I,S,, insfi.; KMOVKOV H.TZ-6-0 kand.tekhn.nauk;
ARTOBOLEVSKITl' I.I., skademik, H.A., tekhn.red;
[Automation iA the machinery industry abroad; collected translational
Avtomatizateiia v mashinostroenil za rftb82hom; abornik perevodov.
Pod obahchei red. I.I.Artobolevskogo. Moskva, Izd-vo inostr.lit-ry,
1959. 321.p. (MM 13:4)
(Automation) (Machinery industry)
SOV/24-59-2-9/30
AUTHOR: Kuzovkov N T Moscow)
,TITLE: An Approximate Method of Studying Linear Systems with
Variable Parameters (Priblizhennyy metod issledovaniya
lineymykh sistem s peremennymi parametrami)
PERIODICAL: Izvestiya kkademii nauk SSSR Otdeleniye tekhnicheskikh
nauk, Energetika i avtomatika, VJ59, Nr 2, pp 60-64 (USSR)
ABSTRACT: The paper deals with an automatic control system that can
be considered as consisting of a fixed part and of several
parts with variable parameters, which parts are described
by simple linear differential equations and are lumped into
one. The pulse transfer function is considered; the response
to a pulse of arbitrary size and of the form shown in Fig 2
is defined by Eq (1) (if the parameters are fixed) and by
Eq (2) (if the parameters are variable). Eq (3) results
from using the principle of superposit-in, as does Eq (4);
the two relate to.the fixed and variaVLe parts respectively.
The subsequent argument is asimple application of stepwise
approximation to the functions desoribing the variable part,
whose parameters are considered as constant during any one
time interval. The article concludes by pointing out that
any calculation based on these methods must include as an
Card 1/2 essential part the usual operations of calculating the
A
SOV/24-59-2-9/30
An Approximate Method of Studying Linear Systems with Variable
Parame ters
deviations produced by 'EXturbations the damping of shook-
excited oscillations,, arid so on. The simplicity of the
method presanted in the paper is strassed. There a-re 4
figures and 5 references, of which 4 are Soviq.45 and I is
English.
SUBMITTED: October 14, 1958.
Card 2/2
KUZOVKOV, N.T. (Moskva)
Synthesis of automatic control systems by logarithmic root
hodographs and with generalized frequency characteristics.
Izve AN 4SBR. Vtd* takh. nauk. Xnerg. i avtom. no.5:136-146
S-0 &59. tHIRA 13:1)
(Automatic control)
S/024/59/000/06/015/028
E023/8235
AUTHORS; Belyaeva G M and Kuzovkov N T. (Moscow)
TITLE: Transients in a Linear System HRving a Pure Delay
PERIODICAI.- Izvestiya Akademii nauk SSSR, Otdeleniye
tekl~nicheskikh nauk- Energetika i avtomatika, 1959,
Nr 6. pp 127-133 (US7SR)
ABSTRACT: Kasters and Moore's method of logarithmic frequency
characteristics is used to find the roots of the transcen-
dental equation describing the system; the paper is an
extension of the one by N. T. Kuzovkov (Nr 51 1959)~
Some examples of transients are given to illustrate the
method. There are 7 figures and 6 Soviet references.
SUBMITTED; July 23, 1959
Card 1/1
PHASE I BOOK EXPWITATION SOV/5258
Kuzovkov, Nikolay Timofeyevich
Teoriya avtomaticheskqlp regulirovaniya, oenovannaya n& cumstotnykh metodakh
(Theory of Automatic Control Based on Frequency Methods) 2d ed., enl. and rev.
Moscow, Oborongiz, 1960-1445 P- Errata slip inseked. 3.1,000 copies printed.
Reviewer: S.O. Dobrogurskiy, Doctor of Technical Sciences, Professoi* Ed.: M.N.
Generozov, Engineer; Ed. of Publishing House: A.G. Belevtsevail Ifech. Ed.4 N.A.
Pukh3tkova; Managing Ed.: S.D. Krasillnikov, Engineer.
PURPOSE: This book ig intended for engineers and technicians concerned with the
design of servo-and automatic control systems and for students specializing in
the field.
COVMWE: The book discusses modern methods of frequency analysis (az. estsb3is~ed
by V'*V. Solodovnikov) applied to servo-4md control systems which can be de-
scribed by linear differential equations with constant and variable coefficients.
Methods of systems synthesis based on generalized frequency characteristics
and logaritnuie root hodo(Sraphs am given. Applications of the theories dis-
cussed to actual calculations am shown. In connection with this, the book
Caw=TA-12~:' -
Theory of Automatic Control (Coat.) SOV/5258
includes reference material, eogo, Hurwitz' stability condition, the Boluticn of
algebraic equations, etc. Much attention is given to methods of setting up
differential equations for automatic control systems (Che I). The second
edition presents a fuller treatment of the frequency methods of analysis than
the first edition discussing the classical results of B.V. Bulgakov, A.Yu.
Ishlinskiy, V.S. rW~e=, and B.N. Petrov in the field of control froa the
point of view of frequency analysis. The nev material is contained chiefly in
Chapters VIII and IX (generalized frequency analysis) and X (eng-ineering methods
for investigation of linear systems with variable parameters). Section 3 of Ch.
VIII treats the construction of root bodographs according to frequency methods. As
in the first edition, the mathematical apparatus used is simple (differential
equations with covstant coefficients and Loplaco traAsformation). Only in see-
tions 3 and 4 of Ch. VII vhich treat the determination of transfer functiont
from experimental transient processes are the basic principles of matrix calea-
lus used. The author thanks Professor SsO. Dobrogurskly, Engineers V.I. Blinkov
and M*N. Generozov, and Candidate of Physical and Mathematical Sciences I.T.
Borisenok. There a" 101 references: 82 Soviet (3 of which rAre translations
from the English), 18 English, and 1 German.
Co&-2/3.l,
S/024/6o/oo0/01/024/028
AUTHOR: .Kuzovkov N.T. (Moscow) EO8l/E335
TITLE: Transfer Function of a First-order Link with Linearly
Varying Coefficients
PERIODICAL: Izvestiya Akademii nauk SSSR, Otdeleniye tekhnicheskikh
nauk, Energetika 1 avtomatika, 1960, Nr 1, pp 163-164 (USSR)
ABSTRACT: A method given previously by the authoA in issue Nr 2 of
the journal, 1959, for finding the transfer function
approximately by means of power-law approximations to the
coefficients is improved by using the inverse pulse
transfer function to find those coefficients without
resort to,those approximations. The argument relates to
a link whose equation is Eq (1) (x is input, y is
output and the other quantities are constants).
Eq (2) is Eq (1) in general form, with (3) as definitions.
Tha initial conditions are taken as being zero and it is
assumed that b *.bl~t , The rest of the results
are quoted from the previous paper (Ref 1) and the
Cardl/2
s/024/60/000/01/024/028
8
Transfer Function of a First-order LinkERNKERRearly Varying
Coefficients M)
treatment.from Eq (6) onwards is simply a repetition
of the earlier treatment (with less detail).
There are 4 references, I of which Is English axxd
3 are Soviet.
SUBMITTED: November 39 1959
Card 2/2
BORISENQK~ I.T.; UPEROZOV, M.N.; YEM4EYEV, N.V.; KARAWSHKIN,
BORISF
V.V.; K_U2~QVKqY,.j 140K, I.T.; KULIKOVSKAYA N V
SAVIFOV, G.I., kand.fiz.-mat. nauk, dots. (deceasedi.-
PIROGOV, I.Z.; Prinimali uchastiye: BJUMNEVA, I.A.;RAWIN,
B.M.; BELYAYEVA, G.M.; BELYAKOV, V.I.; VELERSHTEYN, R.A.;
ZPAMOV, G.M.; KOROLEVA, V.Ye.; LITVIN-SEDOY, M.Z.; POPOV,
A.I.; PRnTALCV, V.A.; STUKALOVA, L.M.; CHISTYAKOV, A.I.;
SAVVIN, A.B., red.; CHISTYAKOVA, K.S., tekhn. red.
(Laboratory work in theoretical and applied nechanics] Labo-
ratornyi praktikur. po obshchei i prikladnoi nekhanike. Mo-
skva, Izd-vo rosk. univ. 1963. 233 p. (MIRA 16: U)
1. Kafedra prikladnoy melchaniki Moskovskogo gosudarstvennogo
universiteta. (for Balayeva, Balakin, Belyayeva, Belyakov *'
Velershteyn~ Zharkov3 Koroleva, Litvin-SWoy, Popov, Privalov,
Stuka2ova, Cbist:~akov).
(Mechanics-Laboratory marmals)
KUZOVKOV. NJ. (Noscow)
IlBiaxial gyro-s tabilized pls~tforms. on a moveable base".
report presented at the 2ndAll-Union on Theoretical and Applied
Mechanics, Moscovr~ 29 Jan - 5 Feb 64.
A DF
BC
A:UTHOW.
TITLE: Bl=w, gyro-stablHzed PI-MEWms vna imovaNe baso,
"O'URCE! M SM~ I", TAW6481taYak&OMetika, no. 196-4. 174-182
--A c oontrol, MMOBtMM,- g3adi v-S"on, blwdal platform.
jai
platform
1AMTRACT: Gyro-stabUtzed-plaffDrwa imn be cans or t
-true-bad using eith,_ w
A-MM avsWmiof lwo: *wpled- "i. -whw-viOOqAjn&U eltbaT by memo of gears-"- an
antloarallelogram. ftee tha,-fOur - gyro, system fn struchirally mueb more cam-p! ex wid
OOBUY, it iB Ot -Intarest to wmpare the marits of the two systems. The wmparj&on 28
based on range of angdar etability and on the magnitude of induced oscWations Caused 1)v
iake~ Orin
ikifoi ie&
-a".8MA11 about-an eqaMrium Mint; wbleb-Is abaratterized by zero values of a1l &-oflar
!
vellneitt" 'af the RvEtem. 7%8 eau-Al i4 of Mouan for a
AXY Q-M-ln
o~, - _1 77 77
"4041W1
ON
Miffiayatem afigmalinn are -emn- Unamized bv assmnlw innaU Twrtu-,Nt~u ans in
=pl.ax _-ri;=ftVtnp, *he -Tatfrrrn a~wvut I"- maillib-z-him poln't TtY,
wtou=cMa!
Up problem a ww:n plago-rM
6
6d
V plaOnym nn wm_wvsbU ham doev unt May f-r-m-h n ril nffa
Wd'conaj, i~da and *at the four-gym systein does not
~-~~rxif-bdth i0temb e- rangaftla
WAsm vaotion of ft. lbase Is considered, then
ps in std)Mt
tag
PPA aftan-
7,Z 1~_
A ~j '~by tbis motim is I
A
_Vflt---RtP.T TUT Sie 11 -,7 S-Tv17tMLU IhMi- EMT thw- t-gvrn aysleir TMs is c-n,
17he atl~ye GMLIUS1.1-Kis
die maw
t),IWZ-rr i'.1 al' p x _q T. P; r! 7qrt-- FVrA jyz-wfDj ATT. h", 17 ("TuRtlim;q ajil,
M ttolm
A
SOM
~_G
2/2
ACCESSION M: AP4H3898 S/0179/64/000/004/0143/0145
AUTHOR- Kuzovkov, N. T. (Moscow)
TITLE: A damped gyroscopic pendzIum free of ballistic deviation
SOURCE- AN SSSR. Izvestiya Mekhanika I mashinostroyeniye, no. 4, 1964, 143-146
TOPIC TAGS: gyr. oscope, Mvscoplc pendulum, pendulum, ballistic deviation, gyroscopic
pendulum ballistic deviation, damped pendulum
ABSTRACT: A gyroscopic pendulum mounted on an object moving along the Earth deviate
from the true vertical by an angle directly proportional to the velocity and acceleration
of the moving object. The component directly proportional to velocity is the velocity
deviation, while the acceleration component is tile ballistic deviation of the gyroscopic
t o th
pendulum. The latter deviation Is equal to zero for any motion of he bjcct along e
surface of the Earth when the nabiral oscillations of the gyroscopic pendulum are not
damped and the period Is 84.4 minutes (Shulor stipulation). So far, such a gyroscopic
pendulum has not been made, and would have only limited use due to the lack of damping
of natural oscillations. The prosent article ibereforo proves the possibility. of such a
damped, gyroscopic pendulum for the particul ar case of motion of an object with any
v3
Card
41,
ACCESSION M-t: AP4043898
desired acceleration., For an object moving at a velocity much lower than the linear
velocity of the Earth, the precession motion of the gyroscopic pendulum mounted on this
Pbject Is described by the following:
a + k
k + U all: IF +tg (P
k + Ig L9T k
T
It is then assumed that a platform Is placed on the object, stabilized horizontally and
in the North-:South direction, and that a gyroscopic pendulum Is installed on the platforM6
7'he article shows that a damped gyroscopic pendulum may be made when the object moves
along a parallel of the Earth and:
in 40
(2)
A platform stabilized in the East-North-zenith directions with an Installed damped
oseopic pendulum may constitute a stabilized double-axis gyrosc6pic platform
yr
g
corrected in relation to the vertical by the gyroscopic pendulum. 7he platform win be~
4
i C,,d 2/3
-V
Y,UZO'JKOV, N.T. (14oskva)
Damped gyrosoopio I'Agidulum, withaut banistic deriations. Izv.
M SSSR Mekh. i matibiuostr. no.4c3A3-;145 Jl-Ag 164
ze:r a I y
TOPIC taMM
ABSTRACT: Differentiating. and integrating (equivalent - -1i ag ram) corrective 100-3s
are compared as to~ the. nize ~ol t:hei-r-..:resPe_ctive stability regions and the rate of
darnping of free oscillaflDns in a single-tr~s servoed gyro stabilizer where the
loops are used. The oy)i~ration of Fk single-axis stabilizer is zzalvzed, anfi
methods for enstiring stabili"tion are considered. With a high gain, the bez5i
iB IAeinI-_oductiD_n ol electric ~orrer_uvu i"Uyn,
C-
L
"""'ilal corrective loop has
roT
I-~VVD,
e- formulas,
ASSOCIATION: itud I
'UE"ETTED: 39D,c63 0C)
NO REF SOV, 004 S-rB CODE: NG
OTHI;R: 000
KUZOVIOTP N.T. (Moskva)
Two-axis gyro-stabilized platform with a moving base. Izv. AN
SSSR. Tekh. kib. no.3:174-282 Je 164.
(MIRA 17:10)
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"ended Of tAt g I's cl . PPejjj 0 eejl a a ee 0,,,,,
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of
bOV/68-58-2-5,'20
'AUTHORS: Gryaznov, N.S., Fel'dbrin, M.G. and__Kuzo-;jaw-r--6-,-8-i-
TITIB: Coking of Preliminary Pre-heated Coal Blend (Koksoiraniye
predvaritellno nagretoy ugollnoy shikhty)
PERIODICAL: Koks i Yhimiya, 1959, Nr 2, pp 17 - 20 (USSR)
ABSTRACT: The influence of a preliminary pre-heating of the coal
charge on the characteristic features of the coking:
process and the quality of coke produced was investi-
gated. A blend from Kuznets coals, used on the Chelyabinsk
Metallurgical Works, in which a part of the fat coal
replaced by gas coal of the -following composition was used
for the investigation, %: KZh - 41, Zhl - 17, G1 - 11,
K2 - 31. The blend was crushed in the usual manner to
9% of - 3 mm2baction. Pre-heating was done in a rotating
drum placed in a ring furnace. The coking wwas done in an
electrically heated oven, 400 mm wide of a capacity of
180 kg. The temperature of ~he surface of oven walls at
the 8nd of coking was 1 080 0 and at the tar line nlane
950 0. The hot blend was charged directly from th7e pre-
heating drum. Changes in the bulk density and rate of
flow (from a special bunker with an outlet 40 rn in
diameter) of pre-heated blend were determined (Table 1) -
Cardl/3 both attained maximum value at a pre-heating temperature
SOV68-58-2-5/20
Coking of Pn-liminary 13B-heated Coal Blend
of 200 00. 0 Pre-heating of the blend to a temperature
above 200 C is unprofitable as the bulk density and the
rate of flow decrease due to the beginning of tl*,.c-rmal
decomposition. Changes in the volatile content, thickness
of the plastic layer and apparent viscosity with pre-
heating temperature are given in Table 2 and Figure I. A
decrease in the fNdity of the plastic mass begins after
pre-heating to 204 C. Thetemperature gradient during
coking was measured with 4 thermocouples placed in one
half of the oven. With increasing pre-heating temperature
the mean coking velocity increases but the individual
layers of the charge carbonise at a rate sharply different
from the mean rate. Changes in the heating rate of
ordinary and pre-heated charges during the plasticity
period at various distances from the wall are given in
Table 3 and changes in the thickness of the plastic Lver
during its movement towards the tar line plane in
Figure 2. The quality of the coke produced from ordinary
blend and pre-heated to various temperatures is Sompared
in Table 4. On pre-heating of charge up to 200 C, the
Card2/3 quality of the coke improves, but with pre-heating to a
Coking of Preliminary Pre-heated Coal Blend SOV/68-'?8-2-5/20
higher temperature the quality of the coke deteriorates.
It is concluded that pre-heating of the coal charge
improves the quality of metallurgical coke and increases
the throughput of the coke ovens by approximately 35%. 0
Pre-heating of the coal charge within a range up to 200 C
is advatitageous. There are 2 figures, 4 tables and
7 Soviet references.
ASSOCIATION: VUKhIN
Card 3/3
'164 -,S,--?...9A3.-64[OGOt 954in27n
AT40f 00210-
MUM
f vr Amalmr- v 71f PX-AMIJL- #i,,
SOV/121-5 8-10-1-9/2-5
AUTBDR: Kuzovkov. -VM.
TITLE: fd~~Rollers for the Rollimg-on of Knurls
. . r I yye
and*the-Method of their Mmufacture lBoahkoobraz,,a
Xoliki Mya Haka-tyvaniya 'Aiflpniy I idetod Lkh
izgotovleniya)
FMIODICAL-.Stanki I Instrwientv 1958, Nr 10, pp 39-40 (USSR)
ABSTRACT: Barreled.rollers for knurling operations-are used at
the Izhor4 Works (Izhorzkiy Zavod) "Imeni Zhdanov
In makir4g these. -rollers-9 - after- turning the barrels
the teeth are-milled..with a special cutter having
internal'teeth-which is clamped in a three-jaw-collet
of a lathe'. Theroller is placed on a special holder
clamped on the-lathe tool post. Straight or helical
teeth can be-cut. A wooden lap is-also shown for
finishing the roller teeth. There are 5 illustrations.
Card 1/1
ALM IOR Finovko, V, M,, Engineer
KO
All-Union Conference on the hardfacing of dies for hot and cold
prose-forming
IMIODICALs Svarochnoya proizvodstvol no, 39 1963* 44 - 45
TOM The First All-Union Scientific -Technical Conference an hardfacing
29, 1962. The Conference heard
of dies was held at Volcogrod from November 27
the following reporta3 11. T. Prosvirov (VNIIPD]ASh) on "Operational conditions
and the type or for(SinGMas" i L. A. Pozdnyakova (T211101h3h) on Irroblems otj the
durability of dies and preon-forming stecls"I N. A. Popov, MIMIASh, on some
struattral peculiarities of carbide tools ror bold extrusion and upsotting;i
.mDn, B. V. Danillchanito (Inatitute of Electric Welding imeni Ye. & Pa-
ton) on I'Mcc trio -a lal; hardfacing of some dies"; L. Holomiets (XIM Imcni Y
_; - 0.
Paton) oa "Reconditioning of dies by electric -slad- -hardfaa inif; _V, A. Timchenko
(IM imeni.Ye. 0. Paton) on "A machine idth program control for automatic hard-
facing of forging dies"I Reports on manual arc-hardracing of dien,wero delivered
by N V. Popov (Volgograd Tractor Plant), V. M. Panovko- and X9, 0 Blochkihi
Welding Plant) j 0. j_~._Su-_____(C_he ---~o
lyabinsk
parka Tree ~r -t);
N. 1. Nikolko (Ural Heavy Machinebuilding Plani)_,_.F__ft,_Sapov ("Hosteel -mash"),
v 'L POV
I. Kwzovkova (GAZ), Yu. P. Zaytqev (041*Mh), V 1; Ilil Lin (ZIL), Oo I in
__CKh_a_r_rRQ_v_7Tv_e_f GhakJitOr_a_"_P1_a_ntj_j" otherc. on
In a decis on tMe Conference
mentioned deficiencies connected with the subject, i.e. lack of unified eleo-
trodes; of centralized production;;' of unified technological instruationi on
the hardracing-of dies; of methods~for evaluating the quality of hardfack,
metal, and lack of high-quality electrodes for hardfacing cast-iron dies__~ The
Conference decided to take steps in order to eliminate the aforementjontd~~Aefi-
KUZOVKOVA, 0. A., CM TOTAREV, A. K.
"Experience of improving the sanitary conditions of workers on
cat.tle-breedintv scmkhozes unsafe in reFard to brucellosis."
report submitted at the l3th All-Union Congress of Hygienists, Epidemiologists
and Infectionists, 1959.
GVSEVAY N.A.; BEZUMNOVA, F.I..j KUZOVKOVA 0 A ROKMNKOp V.V.
Outbreak 0k leptospiroois;among reoidonts of the village af
Karalat' in Kamyzialpk District of Astrakhan Province. Zhur*-
mikrobiol. epid. i -frammi, 32 no.5:3-19-.221 My 161'
14:6)
1. Iz A,3trakhanskoy oblastnoy sanitarmD-apidemiologicheakoy stantaiif
(KARAIAT (ASTRAKHAN PROVINCE)-* LEPTOSPIROS33)
NUZOVKOVA, Ye.S.
Treatment of tuberoulous meningitis without subarachnoid adminis-
tration of streptonVein. Sovmed. 23 no.LL:109-112 N '59.
(MM 13:3)
1. Iz tuberkulextogo Adeleniya ralushokoy gorodskoy detskay boll-
nits79'
(TUBXEMSIS KKKrNGUL therapy)
FUNUMP'l-I. L.# kand. med. nauk; GOTLIB, V. 0.; KU'z;OVKOVA, Ye. S
I - 2-
Mass prevention and treatment of rickets with maximm doses of
vitamin D in Kaluga Province. Pediatriia no.4:52-54 162.
(MIRA 15:4)
1. Ix Nalushokogo oblzdmvotdaia (sav., N. G. Afanaslyeva~ i
Kaluzhukoj detskoy lbollnitsy (gl&vWy vrach Ir. 0. Gotlib
(IALUGA FROVINCE--RICl=) !VITAMIF&-D)
bmtIona! HAs 4 P-A-U- a p~ureii Imagifiltry- C-06ttl By suitably
tzrs.ing the Poles of tbe mnsitiocm! funct6n 10CWTJ an the
ImsPoNrY -i3, it is M-Rible to construct a phate-amplaude
h, the mirmfidat whereof tb the point i0-1) in the U"
manner falms a Critetian of FLahIlItY. AnX I IA amined-a
the ageaSinras of .1 takLl im a a equ2tions of
Motion whtreof, the t-rma Com.-Sponding to vitca" hicdon ate
eliminAted, wt.-Y J L A. Roxesbag
qq*rfifi"tYi-z&KtzgL USSR
KMOVLBVI AI.D*
Origin of the Sanar crater.
- --- - I
Izv.AN WSR. Ser.geol. no.3:131-134 My-Je 153.
OAT-RA 6:6)
(Sanar Valley--Geolog7, Stractural) - I
GRIZHENYA, I.F., inzh.; KUZOVLEV, A.I., inzh.,- KAZANSKIY, V.V., inzh.;
CALKIN, A.S., i~ ~h.~'
Blast furnace gas purificAtion in tba-m*ft d foOkmanganese.
Stall 22 no.1:89-92 Ja 162. (MIRA 14:12)
1. Kosogorskiy metaUurgicheakiy zavod i Yuvenergochermet.
(Ferrmanganese--metanurgy)
.(Gases--Purification)
--- - -1 -- I - - - -- --- -- -1
KONDRAMVA, K.G.- KUZOVLEV, A.I.; GUREVICH, E.Ye.,- MALEINA, A.P.;
MATROSOVA, # * -
Rendering cyani0e in waste waters harmless with liquid chlorine.
Stall 24 no.lOt946 0 164. (KM 17:12)
1. Kosogorskiy metallurgicheskiy zavod.
mmem~.
-2
lonuffula for co3xscqy &Rpmed -Siasw. A
Er
l
2Z
J
06
7
1
W. A
4% jti
,
,
g
y
f
o
0 pW- toMtvag i-,n 3 vcrtkAl
J
dm
uperturn in m
L, iffiOded by a diz,- into 2 X-one-s' one of which
'lomra the MiT-ra-A09 -_MtYi~tlgialY -into the sun=udinx
ch-wnba aild "e olhcr ht-"t the
mto the
z5
a.
-- KUZOVLEV,-A. -- K. - - - - I
Central ABian Geological and Mineral Raw Materials Institute
"Tests of a new type of turbocyclone"
report Mmeut*d at the 4th Selentifle and Teebileal Se"lon of the MeMmwbr
Inst,, lenlqpsd, 15-18 July 1958
Centrifuge (turbocycloas) for thickening, classifying or clarifying
coarsely dispersed suspensions. Gor. zhur. no -.10:72 0 158.
(Separators (Machinbe)-Patents) (WRA llrlO)
SOV/127-59-4-18/27
AUTHOR: Kuzovlev,A.K., Engineer
TITLE: The Centrifugal Classification of Mineral Sus-
ensions in Turbo-Cyclones.
entrobezhnaya klassifikatsiya mineral'nykh
M
suspenziy na turbotsiklonakh)
PERIODICAL: Gornyy zhurnal, 1959, ITr 41 PP 65-68 (USSR)
ABSTRACT: The author describes different types of bydrocy-
clones, centryclones and feed-screw centrifuges
presently used at home and abroad in concentration
plants. He findu that the bydro- and turbooyalones
do not give an exact classification of the sus-
pension, as about 20% of the ooarse-grained frac-
tion is carried away. The feed-screw centrifuges,
guarantying a correct classification, are struc-
turally too complicated and are quickly worn-
out by mineral suspensions. The new centrifugal
classifiers - drum turbocyclones - are of a
Card 1/2 simple construction and give excellent classi-
SOV/127 -59-4-18/27
The Centrifugal Classification of Mineral Suspensions in
Turbo-Cyclones.
fication results. In this category the author
gives a detailed description of the TTs-lD turbo-
cyclone vrith a bi-zonal turbine, developed by
the author (author's certificate Nr 106749'
May 27, 1957). The turbocyclone was built Rt the
Ufimskiy zavod gornogo oborudovaniya (theUfa
Y_ ant of Mining Equipment) --taad undenient industrial
tests by Uralmekhanobr and the Uralzoloto Trust.
The results of the tests are 'described in detail.
There are 2 tables, 2 graphs, 1 photo and 1 dia-
gram*
ASSOCIATION: Sredne-Aziatskiy institut geologii i minerals.
nogo syr'ya. (The Central-Asian Institute of
Geology and Mineral Raw Material), Tashkent.
Card 2/2
KUZOVLEV, A.K.
Using turbooyclones in an ore-dressing laboratory. Uch zap*
SAIGIM no.5:205-217 161. iMIRA 15SII)
(Ore dressing)
XUZOVM,I~eA..,A~tarshiy elektromekhanik
Operation schedule for storage batteriezz Avtom.,telem. i oviaz' 3
no~2:22-24 7 t599 (MIRA 12:4)
1. Dom avyazi stanteii Rogocha, Amaralmy dorogi.
(Storage batteries)
KUZOVMI.BiA.
The inventor and innovator movements are widening. Avtom., tolem.
i avian' 3 no0:34 Mr '59. (MIRA 12:5)
IiPredeedatell pervichnoy organizateil Veesoruxnoge obehohostya
isobratateley i ratsionalizatorov pri Rogochinakoy distanteii
signalizatail i evnzi.
(Railroado-Hoployeas)
KUZOVIXT, B. A.
We are using electric power efficientlye Avtom., telem.i
aviaz' 4 no.6:21-23 !,To '60. (HIBA 13:7)
1. Starobly elektromekhanik uzla avyasi stantaii Mogocha
Zabayks,llskD~ dorogi.
(Railroads) .(Electric power)
-=ZQUgL-B,A._,, ptarahiy- aloktmekhanik
Connectibg " #FU voUy_ through- a bridg'e.rect;Lfier. Avtcm., telem.
i: dviaz I' 5:-no~3.32, Mr 161. (MPU 14:9)
1. mogoch*~4"tdtfay;l,.,signalizatoli i avyazi Zabaykallskoy
dor,ogi.
(Railroads-camnunication systems)
KUZOVIEV, B.A,., starshiy iM7.h.
Schematic for connecting th6 negative busbar in TaB x 3 x 2
commutators. Avtom.9 telem.i sviaz' 6 no-4:31 AP 162
UMU 15:4)
1. Mogoehinskaya distantsiya signalizatsii i svyazi Zabaykallskoy
dorogi. (Railroads-Blectric equipment)
(Railzoada-Signaling
KUZOVLFIV, B.A.
Fomula to be used. Avtom.,, tallm. i oviazi 7 no.6,-41-42
Je 163. (MIRA 17:3)
1. Starshiy inzh. Mogochinskoy distantaii digna.Uzatsii i
svvui Zabaykallskoy dorogi.
- KUZ-'CVII-V, D.A. ) inzIl,
Electri2 power supply of -o11- 1. !It c~iinter
ztL-L,*,,.-n-,- .h
edri.f. Calls. Avtom, ~ telGIA. 1 8 110-11:34-35 N 164" .
(14111,~ 17:12.)
electriclan participatea In the plaming of the statif of a
ad district, Avtom., telam. i svitis' 9 no.6-.31-32 je 165.
(MIRP 18:8),
amertitell jaachaltnika Kiroxrskoy distantsii Gorlkovskoy dorr-ji.
1. YUZOVLEV, G., Eng.
TrasR (6oo)
4- Hydraulic Engineering
7- Stone buffers of particable dimensions to relieve the tension from
supporting walls, Mor. flot 13 No, 1,1953
9. Monthly List of Russian Accessions, Library of Congress, MaY 1953. Unclassified.
VT.IZV- a-V 41mzhener.
Notes on the book Manning hydraulic structures.$ Otdr. stroi.
26 no.2:46-47 7 157. (NLU 10:4)
. (Hydraulic engineering)
r
AUTHOR: Xuzovlev, G.M., Engineer 98-58-3-6/22
TITLEt An Earth Dam on a Weak Muddy Poundation (Zemlyanaya plotina na
slabom ilistom osnovanii)
PERIODICAL; Gidrotekhnicheskoye Stroitel'stvo, 1958, Nr 3, pp 23-25(USSR)
ABSTRACT: The article deals with the construction of an earth dam under
water pressure of 7 m, and standing on weak muddy soil. The
composition of the soil is evident from figure 1. The width of
the muddy stratum mixed with peat goes from 0 at the banks to
4 to 5 m in the middle of the valley. The upper layer is richer
in peat than the lower one. Under the mud there is fine and
coarse grain sand. The coefficient of porosity, taken by means
of 3 bore holes, is shown in the following figurest Nr 1 _ 67%,
Nr 2 - 113.496 and Nr 3 - 54%. A cross section of the earth dam
is shown on figure 2; the lower slant is steeper than the upper
slant. The calculated maximum a&g.of the dam was accepted to be
35% of the width of the peat/mud stratum, or 1.9 m according to
the project. The dam was built from dry medium-fine sand which
favored the process of sagging and the displacement of water from
the bottom. The construction of the dam was carried out by
Card 1/3 bulldozers and MAZ405 trucks, without any rollers. Some parts