SCIENTIFIC ABSTRACT LISITSYN, D. M. - LISITSYN, S. M.
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CIA-RDP86-00513R000930110017-9
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RIF
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S
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100
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17
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Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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Body:
TSVETKOVA, V.I.; PIROGOV, O.N.; LISITSYN, D.M.; CHIRKOV, N.M.
. . ..................I
Kinetics and mechanism of olefin polymerization on complex catalysts,
Part 3.: Kinetic equations and determination of the rate constants
for the polymerization of OC-olefins on the system TiC13 - AlR when
different methods of accompliokifiK the process are employed, 4~okom.
sood. 3 nos4:585~-593 Ap 161. (MIRA 14-:4)
1
1. Institut WiLmicheakoy fiziki AN SSSR.
(0.10fins) (Polymerization)
RASPOPOV,. L.N.; PIROGOV, O.N.; CHIRKOV, N.M.; LISITSYN, D.M.
Mechanical properties of -polyolefins. Phrt 1: Dependence
of the mechanical properties of polypropylene on its molecu-
lar veight and fractional composition. Vysokom soed. 5
no.12:1761-1764 D 163. iMIRA 1711)
1'. Institut khimicheakoy fiziki AN SSSR.
L On53-M RPL W/RM
ACCESSION N11 APS0220off UFJ0295/65/0"/01~10077/0077
671,7102#2
AvMORf ML g seldiv 00. A
_&LBekbehl-zab A. A.a.1 Kallbarov Tu. 0.
Itlys. D. *),Anrt
tkova, V. 1. A I& A.Orgz,.
bropylowl"t
TITLE i - A u~tW[ for prodming an
othylous
No. 172962 7
SOUNCci sysnoteal isabmtsaiy I toveMkh makow,zaa. llip.1965s 77
TOPIC TA=8 4199tawro othrl4m, PMYU"g QoPQlYmft4"tlm* parwrisatim
AUTMM TbLs Autbarls CatUleaft latrodoo" a wsdwd for I ithyl4m
Knation at othylow vith pmwIfte #A a w1vowt IS
pr"ylam slavt~r by eapolyou
the pimmemn of m ZUSUP asuaysto ;P410111mvi"tift is all
a
the solveat.
fled by "Lag !a ~pvlwlm=
A68OCIATIONs two
now WWI 000'. op~
LISITSM, Fedor Pavlovich; VAMEYK(.1, 'V.1., red.
[Sprink2er irrigation of fv--T crops; brief description
of the des-.gn and use of sprinkling machines] Dozhde-vanie
sellskokho2;iaistvenrwkh kulttur; la-atkoe dpisanie kon-
struktsii i primeneniia dozhdeval'nykh mashin. Frunze,
INISKh Hirgizalcoi -SM, 1961. 118 p. (MI FLA 17: 10)
LIBITSYN F.T.- SIYANITSLU3, F.M.
Moist thermal method for'disinfecting containers. Zashch.rast.
ot vred.i bol. 5 no.3s48-49 Mr 160. (MW 16s1)
1, Leningradskaya. karantinnaya laboratoriya.
(containers-Disinfection)
,KUCHEROVA, B.G.;, agronom-toksikolog;.LISITSYN. I.T..- agronom-toks i kolog
Gas analyzer and its use in quarantine fumigation. Zaahch. rast. ot
vred, i bol., 7 no,8352 Ag 062* (MIRA 15:12)
1. TSentrallnaya karantinnaya laboratoriya MinisterBtva sellskogo
khozyayst'ra SSSR i Leningradskaya karantinnaya laboratoriya.
(Fumigation) (14ethane)
NATIAT INA, N.A,,, star~hiy agToncra.-baktoriolog; LISITSYN, F.T.
Information and brief news. Zashch. rast, ot vred. i bol.
6 no,808-59 Ag 161e (MM 15:12)
1'. Direktor Leningradakoy karantinnoy laboratorii (for Lisitsyn)~
(Plants, Protection of)
A
LISITSYN) G,
Industrial safety and labor protection propaganda. Mias.ind. S3SR
34'no.3;23-25 163. (MRA 16:7)
1. Vsesoyuznyy nauchno-isaledovateliskiy institut mjasnoy promysh-
lennosti.
~
LISITSYN, G. F.
LISITSIN, G. F.: "The dynamics of processes of magnetizing raterials with
rdetangular characteristics". Moscow, 1955. Min Higher Education USSR.
Moscow Order of Lenin Power Engineering Inst imeni V. M. Molotov, Chair
of the Theoretical Principles of Electrical Engineering. (Dissertations
for the degree of Candidate of Technical Science.)
SO: Knizhnava Letovis' No. 50 10 December 1955. Moscow.
18(3) SOV/161-58-3-1/27
AUTHORS: Shamayev, Yu. M.t.Candidate of Technical Sciences, Docent
(Moscow)' Lisits'yris G* P. Candidate of Technical Sciences,
Assistant (Mo-s-co-w-)- govj A.. I., Jr. Scientific Collabor-
4or (Moscow)
TITLE: Methods and Results of Measurements of the Static and Dynamical
Charaoteristiou of Ferrites With Rectangular Loop of the
~ysteresis (Matodika i rezulOtaty izmereniy staticheskikh i
dinamicheskikh kharaktoriatik ferritov a pryamougollnoy petley
gisterezisa)
PERIODICAL; Nauchnyye doklady vysshey shkoly. Blaktromekhanika i avtomatika,
- (USSR)
1958, Nr 3, pp 317
ABSTRACT: In the first chapter it is pointed out that the behavior of
ferrite cores is known under static conditions, and deriva-
tion of the differential equation for the general case of
dynamic magnetic induction is outlined. Work was carried out
At the Kafedra teoretioheskikh oenov elektrotekhniki Moskovskogo
ordena Lenina ener Igeticheskogo instituta (Chair for the
Theoretical Foundations of Electrical Engineering at the
Institute of Power Engineering, Moscow) which was awarded
Card 1/4 the Order of Lenin. An improved type of galvanoffi-et6-r was uied
4~ v
v:
BOV/161-58-3-1/27
Methods and Results of Measurements of the Static and Dynamical Character-
istics of Ferrites With Rectangular Loop of the Hysteresis
for the investigations. For weak fields up to 5 08 the genera-
tors 26 1 and GIS-2 were used as pulse generators, and for
fields above 5 oe a special generator was developed. A basic
scheme for the experimental arrangement is then given (Fig 4)
with photographs of several oscillograms (Figs 3, 6). In con-
neotion with the results of statical tests, a diagram (Fig 7)
shows the reciprocal value of the time needed for magnetiza-
tion as a function of the external magnetic field of the
ferrites VT-2. Next, derivation of induction with respect
to time as a function of the external field is given (Fig 8),
and in the third diagram (Fig 9) the variation of induction
with respect to time as a function of the reciprocal pulse
increase is given. The two first diagrams show an initial
linear increase with increasing field strength, and with
higher values'of field strength increase becomes lose. Next,
the results obtained by investigations of the inf luence exer-
cised by temperature within the range of from -60 Cto just
below Curie point (Figs 10, 11), and the results obtained by
investigating 9 types of ferrites are given by a table. When
Card 2/4 dealing with the dynamical tests, the corresponding differen-
SOY/161-58-3-1/27
Methods and.Resulta of Measurements of the Static and Dynamical Character-
istios of Perrites With Rectangular Loop of the Hysteresis
ICard 3/4
tial equation is first written down, in which the"terms with
derivatives of a higher degree are neglected. Next, the
variation of induction with time in dependence of the-ex-
ternal field strength is investigated and the results ob-
tained are shown in form of a diagram (Fig 12). The magnetic
resistance and the shift coofficient,,andt in conclusion,
the time needed for magnetic reversal-are investigated. Final-
ly, the similarity to the magnetic reversal in ferrites with
rectangular hysteresis loop of a great variety of types is
dealt.with. The other figures show the following: Figure 1:
~ representation of the dynamical characteristic in form of
~ surface wil-h the coordinates B, H, Q figure 2: a
dT
schematical drawing of the pulse fields generated by the
generatorej fliS\ir 5: hxote esis loopI figure 13: the do-
I d dt I
pendence of r (B\T. on induction; figure 14; the
0
surface of the shi.'t coefficient; figure 15: the curve of
maghs+tic, reversal
sov/161-58-3-1/27
Methods and Results of Measurements of the Static and Dynamical Character-
istics of Ferrites With Rectangular Loop of the Hysteresis
I . fl(Hm); figure 16: -'gfr f (' /Hor) . (-rfr - time for
I T m
impulse front; T - time for magnetic reversal; H M - amplitude
of the external field; H critical value of the external
or
amplitude in which i fr becomes v). There are 16 figures, 1
tablep and'7 referenoesi 5 of which are Soviet.
This article was recommended for publication by the
Kafedra teoreticheskikh osnov elektrotekhniki Moskovskogo
energeticheskogo instituts. (Chair for the Theoretical Funda-
mentals of Electrical Engineering at the Moscow Institute of
Power Engineering)
ASSOCIATION: Kafedra teoreticheskikh osnov elektrotekhniki bloakovskogo
energeticheskogo instituta (Chair for the Theoretical Funda-
mentalB of Electrical Engineering at the Moscow Institute of
Power Engineering)
SUBMITTED: June 3, 1958
Card 4/4
Y
SHAMATIVO 1~04p.dotesnt, kandetekhnnauk; kand.tekhn.
nauk; MILIHIKOV, Z.A., inzh.; OVCHINNINDV, V.M., inzh.
SIUMM, V.V-, kand.tekhn.nauk; TITOV, D.G., insh.
Developing and'teviinig th's method oi autio-matic object adjustment
of the width of t he line on the screen fcr electron-beam tubes.
Trudi M no.27:267-280 158. (MIRA 13:4)
(Cathode ray tubes)
UM
AUTHORS: Shamayev, Yu. M., Lisitsyn, G. F., SOV/48-23-3-32/34
Pirogov, A. 1. -----------
TITLE: On the Problem of Dynamic Characteristics of Ferrites (K
voprosu o dinamicheskikh kharakteriatikakh ferritov)
PERIODICAL: Izvestiya Akademii nauk SSSR. Seriya fizicheskayap 1959,
Vol 239 Nr 39 pp 420-423 (USSR)
ABSTRACT: The analysis of various experimental data shows that the
dynamics of the magnetic reversal of ferromagnetics is in each
case characterized by a loop B(H). The loop B(H at ) does not
exert any direct determining effect upon dynamics. The
experimental results show that the characteristics B(H) vary
greatly under different conditions of magnetic reversal.
Similar results are obtained also in the investigation of the
sinueoidal field: The characteristics differ in the cane of
the same amplitude and different frequency and in the case of
the same frequency and different amplitude. Dynamic character-
i3tics of ferrites were investigated by means of a device vith
a generator for current pulses and with two indicators. A
Card 113 large number of different fe3=ites was investigated by means
On the Problem.of Dynamic Characteristics of Ferrites SOV148-23-3-32134
of this device (VT-1, VT-2, VT-4, X-series, etc). It was found
that the most essential dependences of different ferrites have
a similar form, Figures la and lb show the o8cillograms of
current pulses taken on the controlling resistor, and the
voltages on the measuring coiling. As may be seen,the magnetic
reversal can take place in a longer (Fig 1a) or nhorter (Fig 1b)
period of time than the time of ascent of the current p-c:lses
(T fr). Pulse characteristics I/T - f(H) were taken for
various ferrites at different constant values of the duration
of ascent of the pulse of the field reversing the magnetism.
The duration of magnetic reversal T was determined according
to the voltage in the ferrite coiling in a height of 0.1 U
with respect to the voltage pulse. The characteristics
found are well approximated in a wide range of field variations
by the formula (H- Hoyr - S w. Figure 2 shows the dependence
T fr /T - f(H M/Rkr) which was taken at different amplitudes
and the duration of magnification in diameter of the external
Card 2/3 field (-C fr - duration of the pulse front, 7- - duration of
On the Problem of Dynamic Characteristics of Ferritea SOV148-2jr-3-32134
magnetic reversal, % - amplitude of the external field, ~kr
the critical value of the amplitude of the external field
if 'r fr 'r). It is possible to draw three different conclu-
sions from figure 2: 1) There is a similArity between the
processes of magnetic reversal of pulses. 2) The slowing down
of the magnetic reversal is connected with the possibilities
of the experimental device. .3) It is convenient to determine
Sw and H0 from the formula (Hm - H0)V Sw at'r>- rt-fro i.e.
on the linear part of the curve 1/~~ f(Hm). It is also
possible to obtain this curve analytically from the dynamic
characteristic of the ferrite which takes into account the
binding B and H with at least one derivation dB/dt. The-re axe
2 figures and 2 Soviet references.
Card 3/3
V/4893
PROX I BWK UPLOITATION a A
7assoyuznoye noveahchanlye p0 ftzlke. riziko-khlzlch*sklm evoystvam
fwrrttov I flalchasklm canovam lkh prlzen*nly3. 3d, Minsk, 1959
Ferrlty. fUlcheeklys I flXlkQ-khlmICheskIy9 3VOystva. Dolclady
(T*rrLtsxj Physical and Physicochemical Properties. Reports)
Minsk, Zzd_vo AN B33R, 1960. 655 P. &-rata Allp Inserted.
k.000 copies printed.
sponsoring Agencies: Kaudwyy Sovet p0 marneti2mu AN SSSR. Otdal
flzlki tmerdago tala 1 poluprovodalkov AN BSSR.
Zdltorla~ Boardt Rosy. Ed.: ff. N. Strata, Academician of the
Academy or sciences am; K. P. Belov. Professorl Ye. 1. Kondcr-
SkIY. Professor; K. M. ftllvangv; Professor- R. V. Telosala. Pro-
-
te. Candidate
of
ressar; al. A. Smalenekly, Professor; X. N. Shol
ftysical and Mathematical Selena*@, 3. M. Smolyarenkol and
L. A. BLshklrov,. Md. of Pub Ishing House: S. xhollavakly; Teen
Zd.% 1. Vololkhanovich.
i Is,$ -0hys leis ts- -Fiiisiiii-ciiiiii te
radl
a ol*ctr4onleg engineers. and technical personnel engaged in
the production and use Of fOrrOmAgnstle materials. It may also
be used by students In advanced courses In radio electronics.
"lea. and Physical chemistry.
COURAONs"Th. book contains reports presented at Me 741rd Ul~
Union Conference On Forritea hold in Minsk, Belorussian SSR.
2he reports 4*41 with m&gn*tlc trAnsfOrmtIOns, electrical and
Vvanowagnstic properties Of fQrrIt43, studies of the g"wth
ferrite Single crystals, problems In the and P"'_
cochemle"I &nLIYsIA of ferrIteo, studies of r*rrites having
.t.gular byst~rwals loops and mu2tlcomponant ferrite Systems
wchiblUng spontaneous rectangularity, problems In magnetic
attractlon, b16h2y c"zvlv& rlrrlt*s. maIM911c spectroscopy,
rerromAgnetIc resonance, "agneto-optics, physical principles at
---umus ferrite Components In electrical circuits, anisotropy of
electrical and magnetic properties. otc. The Committee an Ma&~
Ostl-. AS USSR (3. V. Vonsovskly, Chairman) OrganIted the can-
References accompany Individual articles.
re"ItSE (Cant.). SOV/kft3
Sabole 4 P, X. 10111. D"AnIcs of the no-
versalva 'Xa.gnQ;I'.'a'tX0n-Of AL Perr1te Bar With a Rectangular
Cross Section
MIN
and Yu. M. Shazarov. The
.>Ilrln, 1. A.. 0
HE
surface 1rf9c_t*Tn- a
lave With Rectangular
Hysteresis Loop
Shamayevs Tu. M. Stability of Particular Cycles and
*Accomodation " During Pulsed Reversal or NAgnetizatlon
or Ferrites With Rectangular Hysteresis L4op
Shan-yev, Tu. K., A. 1. Pirogov. and 11; l- Balrawwkly.
Pulse.1 Reversal of Kagnetitation ot '. rite$ With Rev-
tLngular Hysteresis Loop
FAIlkin. L. I.. and B. Sh. Spebtern. Ferrites with Rec-
tangular Hysteresis LOOP In Weak Fields
cam 12/18
Card 4A8
364
377
386
391
401
r,
j 6r~ F11-
- ------- ------
48
Coo,
bo'n
0
No h- 10 c to :0
rag b7.
;too orw,u~
W3 .0
A., P. ti 0 0
VIA .0 R3 0 A 0. C.
1 40 EN
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a 0 00 Z, rb:-" 8 20.
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-9 -4j
Vv 0
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lit
. . .......
30519
S/194/61/000/008/078/092
D201/U304
AUTHORS: Brin, I.A.,,-Lisitsyn, G.F. and Shamayev, Yu.M.
TITLE:- Surface effect in a rectangular hysteresis loop
ferrite membrane
PERIODICAL: Referativnyy zhurnal. Avtomatika i radioelektronika,
no. 8, 1961, 53, abstract 8 1342 (V eb. Ferrity.
Piz. i fiz.-khim. svoystva, 11insk, AN BSSR, 1960,
377-385)
TEXT: The surface effect has been evaluated in a thin
ferrite membrane with and without the effect of magnetic viscosity.
If the viscosity is absent it is assumed that the process of mag-
netic polarity reversal of material layers occurs instantaneously
as soon as the intensity of the reversed magnetic field reaches the
value 11C inside the layer. The equation has been derived for this
case of the inter-domain boundary displacement. For actual ferrites,'
the time V of the magnetic polarity reversal is of the order of
Card 1/2
21237- SOURCE COD9.i UR/0271/66/000/0031BO5566//BB005566
AUTHOR: Lisitayn,.G. F.. Starostin.-A,-N.
TITLE: Operating principle of core transisto digital elements
SOURCE: Ref. zh. Avtomat telemekh i vychial tekhn, Abs. 3B467
REF SOURCE: Tr.Mosk. energ. in-ta, vyp. 60, 1965, 13-24
TOPIC TAGS: computer circuit, switching circuit, logic element
ABSTRACT: The operating principle and the physical processes occurring in the core-
~ransitor elements are analyzed. A simplest example of a loaded core-transistor
element together with related oscillograms illustrating its operation are given. The
variation of the corets magnetic state in the core-transistor element is shown. The
transmission characteristic of the core-transistor element is analyzed as a function
of the transistor collector load, transistor characteristics, supply voltage, and the
number of transistor base windings. The effect of introducing back bias is investi-
gated. Two methods of realizing logic operations using core-transistor elements are
examined: by application of special signals to the storage transformer input windings
controlling its magnetic flux, and by switching on the transistors of the correspond-
ing elements. [Translation of abstract] 9 illustrations and bibliography of 2 title
V. M.
SUB COM 09
LC.M I /I flne". ADI lAq r-V.Aql Ila 1`14
I ACC NR, AR6018976 SOURCE CODE: UR/0271/66/000/002/B051/B051-
ArIHOR: Lisitsyn, G. F.; Ovchinnikov, V. M.; Titov, D. G.
-TITLE: A group of ferrite core-transistor units with a clock frequency of 100 KRz
,S0URCE-. Ref. zh. Avtomat telemekh i vychisl tekhn, Abs. 2B364
I
!REF SOURCE: Tr. Mosk. energ. in-ta, vyp. 60, 1965, 139-153
NOPIC TAGS: magnetic core, pulse generator, electromagnetic memory
iTRAINSLATION: A ferrite core-transistor component group is designed using VT ferrite
f
icores 1, 2 x 1.4 x 0.8 mm and P14A transistors. A table of 6 unit t es is included.-
Yp
IThe component group load is in the collector circuit and may be varied between I and
4 component groups. Thewrite pulse generators are available either in transistorized
or in vacuum tube versions. The operational temperature range is 40-700C. The wind-
ling data for four types of accumulators is given. The various systems based on compo-
Pent groups are extensively described: a memory cell, an inhibit unit, a gate-coinci-
Idence unit with two inputs, an eight input summing unit, and shift pulse generators.
10 figures, 2 references. N. S.
1
SUB CODE; 09 UDC: 681.142.67:621.382
Card 1/1
OCHKINI V.A., inzh.-mekhanik- LISITSYN G.K., onstruk-tor; GORBATOV,
V.M., red.; KORBUT, L. z ~W.; i~ATAROil A.M., tekhn. red.
(Safety guards for machines and apparatus in meat industry
anterprises]Ograditellnye ustroistva mashin i apparatov na pred-
Priiatiiakh miasnoi promyshlennosti. Pod red. V.M.Gorbatova.
Yoskval Fishchepromizdat$ 1962. 83 p. (MIRA 15:9)
1. Moscow. Vsesoyumnyy nauchno-issledovatel'skiy institut myasnoy
promyshlonnosti. (Meat industry-Equipment and supplies)
(Machiner7-Wety appliances)
PAPQROTSKn, L.A.; DAI(-yDOV, S.A,; LI9TTSYN- G T.- URUMOV T.M.; SAFARGALIYEV,
M.S.; SULEYNANOV, M.S.# AN,, H.Ch.
Comient on the article bT O.A.Baikonarov and A.F.Kovrigo on Nays
of reducing labor consuming tasks in, stopping bLt* the Dzhezkazau_,.--
Mine."- Go~rahur. no.3:77 Mr 160. MIRA 14:5)
1. Proizvodstvenno-ekep4~rimentallnoye upravleniye Soyuzvzryv oma,
Moskva (for Paportotakiyo Davydov). 2. Nachallnik buro-vzryvnykh rabot
Dzhezkazganzkogo rudoupravloniya (for Lisitayn), 3. Nachallnik
sbakhty no.31 Dzhezkazganskogo rudnika (for Urumov). 4. Nachallnik
burovzyvnykh rabot shakhty noo5l DzhezkazganBkogo rudnika (for
Sapargaliyev). 5. Zamestitell glav.inzh. Bhakhty no.51 DphezkazganBkogo
rudnika (for Suleymanov). 6. Starshiy inzh. 'Instituta. gornogo dels,
AN Kaz= (for An).
(DzhezkELzgan-Stopping (laming)
(Baikonurovi O.A.) (Kovrigo, A.F.)
LISITSYIF G.T.; KIMp D.
.000
Boring and blasting operations in the chamber and pillar
mining system in pits of the Dzhazkazgan Mine. Vzryv.
delo no.55/12:245-253 164. kNIRA 17:10)
. LISITSIT I. (Kiyev)
k --. - -
~. a ~ . ~
laecretaries of party committees in caursese Voen. zn8n- 40
no.IW9 D t62 (MIRA 18 21)
S/lP-2/60/000/011/003/020
C) A161/A127
AUTHOR: Lisitsyn, I. S., Engineer
TIM: Balancing of rotors of operating turbogenerators in situ
PERIODICAL: Vestnik mashinostroyeniya, no. 11, 196o, 10-15
TEXT: Owing to the high rotation speed in modern turbo machines where the
rate of rotating rotors exceeds thefirst critical velocity, the increased vibra-
tion rate requires the balancing of rotors in their own bearings. Hitherto ex-
isting balancing methods did not take into account the effect of the form of dis-
tribution of the longitudinal unbalance of the rotor, and frequently no positive
results could be obtained. Damping forces have also been neglected in theoretical
vibration studies of rotors, resulting in distorted concepts of the rotor's elas-
tic line and its phase relations. Theoretical studies on this subject by Medahl,
A. (Ref. 1, Auswuchten elastischer Rotoren/Balancing of Elastic Rotors/, "ZAMM",
Vol. 34, no. 8/9, 1954), Gusarov, A. A., and Dimentberg, F. M. (Ref. 2: Vestnik
mashinostroyeniya, no. 1, 1959) and Zenkevich, V.A. (Ref. 3: Vestnik elektropro-
myshlennosti, no. 8, 1959), the last two dealing with the balancing of flexible
Card 1/8 VK
S/122/6o/boo/oil/003/020
Balancing of rotors of operating... A16i/AI27
rotors, do not offer any concrete method on how to balance turbine machine rotors
in their own bearings. Therefore, the vibration laboratory of the TsKB MSES is
studying at the present time vibrations of turbine machine rotors, and methods for
balancing similar rotors in their bearings in situ are being developed. In this
study, transverse vibrations of a rotor with a constant oross section and an even-
ly distributed mass are described. The problem is solved by taking into account
the following two phenomena: 1) damping which is proportional to the displacement
velocity of the rotor elements, and for the general case 2) distribution of the
longitudinal unbalance in the rotor. Mathematical calculations have been made
on the function which is characteristic of the law of distribution for the un-
balance, the vibration of the rotor resting with its bearing ends on two station-
ary supports, the displacement, the projection of the dynamic flexure on the axle
x, effects on the supports and flexural moments. Inspite of the existing assump-
tion that the unbalance of the rotor corresponds to the vibration which increases
as the ratio of the squares of the rotational speed, the author proves in equa-
tion 6 that this is not the case, thus refuting the opinion of Sverchkov, A. N.
(Ref. 4: Remont i naladka parovykh turbin/Repair and Adjusting of Steam Turbinesl
Gosenergoizdat 1950). Based on the formulas obtained it is possible to determine
Card 2/ 8
S/122/0/OOP/0 I I
/003/020
-opira'
A16l/Ai27
B&I 'Of
Ahe7elastio Un
e of rotors for any value Af colrotational speed of -the rotor),
~Figure I*shows the form of the elastic line of the rotor for variousm lvalues~
.The-elastic, line*:is a space curve which considerably ohang:es Its form . at dif -
~.ferent rpm.rates..The siy, variants were established for.'the-following rpm.rates
'60 /sea, 100 /zoo, 150 /see,. 250 /seo, 330 /seo, and 440,/seo. The twift Ii
,'A and.the vibration phase depending onthe rpm.rate are given for the bearings
k2 S (a + 72 - ------
no. .9 and 6 of 'a VK-35 generator rotor, produced by the AEG firm. In practice,. bal.~,, ill
ancing,og rotors in their own bearings is limited to the end planes of the rotori
Calculations are made for vibrations of a rotor provided!with two', eccentric bil-'
lancing weights.plaoed in a single longitudinal plane. Four-ier series arq qpplied J
in the calculus. Following typical features were found. symmetrical balancing
weights create odd forms of the unbalance,,while skew-symmetrical balancing-
s produce even forms. Purthermore,.in accordance with equation 6
Weight
F;
2xs
its
S S16,2its a...
-L- - - - 2k 91 1-.:L% Ica 1,
J:
O's
A 2
B +
7 +q
"Card 3/8
25090
S11221601000161ilOO31026
A"61:/Al27-z
f bperating..'.
Salanoing of -rotors 0
Ure of: the -'rotor;
in the,velo ity..r eunder consideraiio' -:La no dynamic fjei
n there
c ang
firativr6 ii , ~, 'v
e fe0t'sl On.:the.4upports as well as bending moments, being excited by t Ihb
forms Of .th e.unbalanoe were not
..observed when the Fourier function faotori B
v, the factors Bl. and B may.
and B ..0 were taken 'into consideration. Apparenti.
2
be made~equaj.to.zero oing weijhts into the unbal~xjce.
'bj placing symmetricalUlan
"plane of the first kind,- and akew-symnetrical weights into e e
th unbalanc
P1
ey be, r6dua-'j-,,.,
the second kind..''Thus the problem of balancing in the first two forms m
anes'of unbalance in the first two forms. 94e
1 ed to -the determination . of - the pl,
plane -of unbalance may be approximately determined by measuring the phase curves; 7
plane of flexure may be determined by adequate instruientationt, As prov*ed.by,
calculations, the phase shift angle in the criticAl rpm range does not depend on
unbalance may be
the unbalance, value, so that finally,' the plan(i'of determined by
plotting of a vector diagram. When determining the numerical values of the bal
lk'~L;i~ancing weights, -one maq assume according to equation 6, that the vilue of flexure
N.-~~,-i(and correspondingly the,effects on the supports and-the bending moments) may be
-.determined by the term which corresponds to thq vertical velocity. Actual bal-
ancing produced a relationship between the amplitude vibrations and,the numerical"
:;T'I"Card
2
8/1~2/60/000/01 1/00j/026
Balancing' of rotors of'operating... A161/m7
of.the balancing weights which is,clos6lto linear. Balancing in carried
The.number of,balancing weights is.easi-
Poitt separately for each of the two forms.
ly deterinined ;in accordance wIth-the length ot the rotor!. For the adlaUlation of
-the-weight of the balancing weights the following.two formulas for symmetrical
f
and skew-symmetricial weights may be used, where the 5ymbols indicate the following
values:
~i, r a the'radius-for the arrangement of the balancing.weights
the radius of the rotor
balancing weights as arranged in,,the balancinq pr?cess
P xW the weight of the
st
1 the di ance between the balancing,weights and the,iupports.
the cross-section f the rotor where the nth pair of the balancing we Shtp
0
n A-
positioned
P symmetrical:weig~ts
for symmetricil"weights, P gor.Am!
sin P sin
pj~ ---- P,
sin 2xi
sin -01
-.,.,,,Card 5/8,
Q0
axicing of ivtors of operating... A161AI27
The --balancifig'method descri-bed is successfully':used by the TsKB and.the Rostov
eneigpremont'Administration of the MSES. Similar results have been obtained
various heat and power plan 'ts, which might be referred to'as examples. Figure 5,
in iost`es-*Ah6 dependence of the twin sihpIitude of the rpm rate prior to balan
cing
A
and after the balancing process. The amplitude value decreased throughout the 14hole,
,i rpm range. In addition to the practical application of this method the possible-~uzet-,!"
of a single balancing weight is outlined at the end of the Article. A singlebal", T111"';;0
,dancing weight clamped onto the rotor may produce for the general case all; form;:of
,,-.,-.-unba1anqe, and as proved by calculations, the first two forms of unbalance may be
eliminated by putting on a single weight under the two following conditions:
-.'a) at the coincidence of'theapjanes of unbalanco of the,first and second form, i.e.
When oL 0, b). yhen following equalitj conditions are' fulfilled:
-he work written by S. I.-Mikunis (Ref. 5: 0 balansirovke
""A
2xi gibkikh rotorov deystvuyushchikh agregatoy/Balanbing of
its/, Ve~t
Flexible Rotors of Operating Power aenerating Ur~
Ba nik,mashinostroyeniya, no; 12,,1959) dealing with this
problem may be considered approximate and sometimes justl
'fi 'in practice. At one heat and power plant (GRES) bal-~
ed
ancing was carried out with'two symmetrical weights, each
6/,6.
27726
S/122/81/000/008/002/005
119- 1121 /':~_D D221/D301
AUTHOR: Lisitsyng 1. S*9 Engineer
TITLEt On transversal vibrations of revolving rotors with
bearings of different elasticity and mass
PERIODICAL& Vestnik mashinostroyeniyal no. 89 19619 23-30
TEXTt The author discusses transversal vibrations of a constant section
rotor with a uniformly distributed mass and supported by two bearings with
.different elasticity and mass. It is assumed that an oil film of linear
properties exists between rotor and bearings. For simplification, it is
proposed that the coefficients of rigidity of bearings and oil film are
equal in all directions. Vibrations of rotor and bearings in a fixed sys-
tem of coordinates with consideration of damping,, but neglecting the pseudo-
gyroscopic effect are given by
Card 1/10
27726
S/122/01/000/008/002/005
Ii/
On transversal vibrationsooo D22 D301
Ej d4z (s, i) doz (S. t)
I ds, + oil +
+q dz (S. i) 40f (S) 0 4 1+ (3) + all
of
M14 (1) C14 (1) PIZ,11 + P, (z (0.') - Z, (')I + (2)
M,i. (f) tz, (1) - (1) +
+P8 [Z((, ()- Z.(')l + N 1~ (" i)-4(o 1. (3)
Where EJ is the rigidity of rotor to bending; m is mass of rotor per unit
of length; Z((:tgt) are di:placements of rotorl Z(t) are displacements of
bearings; z 0 ) and Z(l t) are displacements of center at ends of rotors;
W to the angular speed of 'rotation;.Mi and If 2 are concentrated masses of
of bearings; c I and c 2 are coefficients of rigidity of bearings; p, and P2
are coefficients of rigidity of oil film; t,, and ~ 2 are damping coeffi-
Card 2/10
2
22~ 6
S/1 7
6
e
91 i/000/008/002/005
On transversal vibrationsobo D221, M 01
cients of bearings; P I and P 9 are damping coefficients of oil film;
(a) e' a) is a function that characterizes the law of unbalance dis-
tribution along the rotor; Iin the length of rotor. After mathematical
deliberationag the author obtains
3, a
a 2 .2nK 2,,K21
(eig A/ c1h Al) -VX (13)
11-2
where
which is transcendental equation of natural frequencies. Its roots can be
calculatedy for example, by graphical method. Table I indicates critical
speeds calculated for:
le kg *!see2/cm; N 14.6 kg see9/cm; 100 1 and
2 see
p 2,106 kg/cm.
Card 3/10
27726
P/122J61/000/008/002/005
On transversal vibrations**@ D221/D301
Table 1: (1) c1 in kg/cm;
(2) c in kg/cm; (3) critical
2
speeds in' 1
sec
b)PUTImme .41ful 060po"I a
tit
C
C. I
-
2,
2,
28 24 2s
1-101 4-101 03.2 223 360 627 755
1-10, 2-101 92 221 314 440 730
1-10, 3,3.10- 85 147 23D 410 725
2-101 3-10, 95 281 381 470 740
100 400 9W - -
The first three natural vibrations of rotor are illustrated through graphs.
Their comparison permits the conclusion that natural vibrations in the caxe
when rotor is supported in bearings with various elasticity and mass differ
from -those in the case of rotor in rigid or equal elasticity and mass bear-
.ings. The author further deduces that resonant vibrations at critical
Card 4/10
27726
S/122/61/000/008/002/005
On transversal vibrations*&& D221/1)301
speeds are excited by the corresponding member of expansion of the unbalance
function. It is possible to establish that,in the case of unbalance dis-
tribution in odd harmonics in the region of second critical speed, the dif-
.0
ference in phases of vibration of bearings amounts to 20-60 . When unbalance
is distributed in even forms (harmonies), the difference in phases is about
1800 & It follows from experimental data that the form of forced vibrations
does not coincide with natural forms of vibrations; it depends, however, on
the form of unbalance distribution. Coefficient of expansion, B,, depends
upon the kind of load on the rotor, namely, single, symmetrical and belico-
symmetrical. In all cases, the forms of unbalance produced are distributed
in natural forms of vibrations. Recently, the idea of rotor balancing in
accordance with its natural forms of vibration has become widely used in
the USSR. However, it is impossible to apply this method in practice at
present. The author then uses the method of expanding the function of
unbalance into Fourier series. After transformations,
z(I)f sh W s. . sin X s]' (0) [sh k (I Bn sin e Ian
sink (I _s)
z W 2 L Wsh -XI - t _nX i + 2 sh A I + sinki
+ 7.2 ~ us + 1q&j
Card 5/10
(19)
27726
S/122/61/000/008/002/005
On tranayeri3al vibrations... D221/D301
is obtainedg where j and are given by
4
+
2
t
x -4 +
2 [,Ir-0+-e "Y 2
x
C
2 Y-2 + q, +
V(
Card 6/10
On transTersal vibrations...
26
6.
S/I 2' .
1/000/008/002/005
D221 MOI
Eq. (19) indicates that the amount of dynamic sag of the rotor represents
a sum whose last member defines the dynamic sag of the rotor supported by
rigid bearings. The result isq thereforeq identical to that previously ob-
tained, namely$ the form of forced vibrations of real systems (i.e., systems
with damping) does not coincide with the forms of natural vibrations. In
order to investigate the effect Of various forms of unbalance on the magni-
tude of resonance vibrations in the region of one or another critical speed,
the author expands each member into a i7ourier series of natural forms. Nu-
merical data for certain Talues of different coefficients are given which
show that resonance vib .rations at critical speed (initial) are mainly ex-
cited by unbalance of the first order and at second critical speed by the
second harmonic. At third speed, resonance vibrations are equally excited
.by second and third harmonics. The author limits himself to the case of
balancing rotors by placing loads in two preliminarily selected planes and
assuming that balancing means elimination of vibrations of rotor ends as
well as its bearingt. lie then quotes the case of symmetrical and helical
symmetry disposition of loads, where the condition of zero equating for
displacement of rotor ends and its bearings is given by
Cord 7/10
27726
3/122/61/000/008/002/005
On transversal vibrations... D221/D301
RI+"1 0 Pi+ P, - 0; (23)
H+ H 0; P +P * 0. (24)
2 2 2 2
These transcendental equations allow the values of Elf Z2t O(lp and
2
i.e.g. magnitude and position of symmetrical and helico-symmetrical loads
which nullify displacements of rotor ends, to be determined. In the case
when aI= (X 2 -"' UM - 0, (initial unbalance is in one plane), and
q = 0 (external friction of rotor does not exist), then after mathematical
elaborationag the solution is given by
n (2k-1YBU-j
2
12h 1
(2k (g5) j
(2k 1)'51n
12h-1
Card 8/10
27726
S/122/61/000/008/002/005
On transversal vibrations*.. D221/1)301
Equating the latter's denominator to zero provides the means for determining
the range of frequencies at which there are no vibrations of rotor ends
and its bearings when symmetrical loads are placed in section 1 1 and 1-Y
Substituting Eq* '(25) 'in Eq. (19)~ and assuming chat there are no even bar-
monies) the equation for sag of rotor is
C 27sin
4 .(S) - W, " (- - - - -- -1 -- - --- I -I
-11 +27 sin
03 - Sin
I ts magnitude in the case of eliminated vibrations at the ends of the
rotor depends upon the ratio of initial forms of unbalance and the closeness
of insensitive frequency to tke balancing speed of rotation. Consequently,
when vibrations at rotor ends are el'iminated at a frequency which is in the
region of insensitive speed, then large stresses way be produced in the
rotor. It is concluded that natural -vibrations of rotor supported by bear-
ings with different rigidity and timass do not coincide with natural vibr&-
tions of the rotor in rigid or two bearings of similar stiffness and mass.
Card 9/10
27726
S/122/61/000/008/002/005
On transversal vibrations... D221/D301
Forced vibrations of a real system at critical speeds do not coincide with
natural vibrationag due to damping. Balancing of rotors in operational
conditions is expedient when the function of unbalance is expanded in Fouri-
er series. There are 8 figures) 2 tables and 3 Soviet-bloc references.
Card 10/10
LISITS)RIP I.S. , inzh.
fl~
BaUncing of turbogs?reritor rotors. Vest. elektroprom. 33
no.11:67-70 N 162. (KRA 15: 11)
(Turbogenerators)
LMTSYNt K.M.., kand.med.n&uk (Uningradp u1. Prmnp d.159 kv.85)
Transplantation of the bone tiovue of cattle embryos. Ortop.1,
trm.i protew. 22 no.P25-28 Ap 961, (Km utn)
lo Iz kafedry voyemo-corskoy kbirurgii (nach. profs A.A.
Bocharov) Voyemo-meditainskoy ordena lenina skademii ime
Some Kirovao
(BOVE GRAFTIING)
-13SITSYN, KA, .kar4dmed.nauk (Leningrid, ul. Frunze, d.15, kv. 85.)
Clinical use of embryonic bone hiterografts preserved in paraffin.
V60toknlr. 89 no,8%24-26 Ag 162. (MIRA 15:10)
1. IZL kliniki voyenno-marakoy khirurgii (nach. - prof. A.A.
Bocharov) Voyenno-meditainalcoy ordena Lenina akademii im. S.M.
Kirova na baie gorodskoy bollnitsy "V paWatl 25 Oktyabrya"
(gl. vrach - I.,P.Yushmanov).
(BOUE GRAFTING)
ZAV,
AID Xr. 971-27 20 *W
EXCITATION OF RECOMBINATION. EMISSION BY MEANS OF A LASER
(USSR)
33asov, N. G. , L. q. Lisitsyn, and B. D. Osipov. IN: Akademiya nauk SSSR,
Doklady, v. 149, no. 3, 21 Mar 1963, 561-562. S/020/63/1491003/009/028
An experimental study of recombination emission in germanium, silicqn, and
gallium arsenide at various temperatures employs a ruby laser (6934 A) to ob-
tain high excitation levels. Samples of n-type germanium with a resistivity of
40 ohm-cm and a diffusion length of 1. 5 mm in the shape of a 'Veierstrass
sphere" 8 mm. in diameter were excited by light pulses with aduration of
200 g sec and a density of 106W/CM2. A spectrometer wi th a l-e ad sul f id e
indicator (100 11 sec time constant) was used to analyze the recombination emis-
sion pulses. The signal was amplified by a broadband amplifier and registered
by a dual-beam oscillograph. Laser output was monitored by a photomultiplier.
Card 1/2
ik
An Nr- 971-27 20 MW
ZXC=ATION Oir MCOWIMTION (Cont'd)
8/020/63/149/003/009/028
7he results show that the intensity of recombination emission at the tempera-
ture of liquid nitrogen is "two orders" greater than at room temperature, and
at the temperature of liquid helium 2 to 3 times greater than atthe temperature
of liquid. nitrogen. *Analogous results were obtained for silicon*and gallium
arsenide. it is proposed that laser pulses of 10-7 sec be used for further in-
vestigations of recombination processes..
[BB
Card 2/2
'7
BASOV.. N.G.; LISITSYN, L.H.t-WIPOV, B.D.
Uoe of an optical qmant= generator for the excitation of
recombination lumineszene --in semiconductors. Dokl.AN 8SSR
149 no.3s561-562-Mr 163. (KIRA 1634)
1. Flzicheskiy institut im.. F,N.Lpbedava-AN.S=. -2, -Chlan,
korrespondent AN SSSR (for Basov)".
(Wears) (Semicondp'ctors) (Luminesenece)
5 1 'S
L. N.3 MRKIH, E. P.., OSIPOV., B. D., BASOV., N. G., K.PJDKHN, 0.
"On Negative Photoconductivity and the Induced Electron Transitionsff
Paper presented at the IUPAP International Conference on Photoconductivity,,
Itham, New York,, 21 - 24 Aug. 1961.
28767
3/056/61/041/003/020/020
7 7 (/13() B113/BIO2
AUTHORS: Basov, N. G., Krokhin, 0. N., Lisitsyn, L. X., Markin, Ye.P-#
0sipov, B. D.
TITLE., Negative conductivity in induced transitions
PERIODICAL: Zhurnal eksperimentallnoy i teoretioheskoy fiziki, v- 41,
no- 3(9), 1961, 988-989
TEXT: In indirect transitions the carrier concentration at which a
negative temperature occurs relative to the'band-to-band transition, is
comparatively small. It is by some orders of magnitude lower than the
concentration at which a negative absorption coefficient exists for photons
with an energy that is comparable with the width of the forbidden band.
For the existence of a negative absorption coefficient it is necessary
that the probability of induced photon emission in the band-to-band
transition considerably exceeds the photon absorption probability in the
inverse process in order to compensate also absorption in inner transitions.
The proaesses,.however, that are connected with internal absorption
practically do not influence conductivity since they do not change the
Card 1/3
28767
B/056/61/041/003/020/020
Negative conductivity in induced ... B113/BI02
total number of free carriers. The band-to-band transitions which are in
a state with negative temperature and which were induced by photon
irradiation, reduce the number of free carriers and lead to a decrease in
conductivity. Hencet the semiconductor which is in a state with negative
temperature relative to the band-to-band transition is bound to have
negative photoconductivity when irradiated with photons, whose energy is
almost equal to the width of the forbidden band. The measurement of the
spectral dependence of the semiconductor photoconductivity permits the
determination of the states with negative temperatures also with lacking
negative absorption coefficient. The authors made experiments for the
production and observation of statep with negative temperature in
silicon. The specimen was irradlat;d at 40K with light of a wavelength
smaller than 0.7 ti which considerably increased its conductivity. Upon
additional irradiation with weak monochromatic light a conductivity
reduction (negative photoconductivity) was observed for a series of
specimens in a narrow band of wavelengths near 1.1 g. It can be assumed
that the conductivity decrease observed is due to the existence of a state
with negative temperature. However, also other explanalions, such as
impurity photoconductivity, are possible. (Abstracter's note: Essentially
Card 2/3
28767
9/056J61/041/003/020/020
Negative conductivity in induced ... B113/B102
a .omplete translation.] Thor* are 3 Soviet references.
ASSOCIATION: FizioheBkiy institut im. P. N. Lebodeva Akademii nauk SSSR
(Physics Institute imeni P. N. Lebodev of the Academy of
sciences USSR)
SUBMITTED: July 139 1961
LISITSYN, L.V.
New developments in the repairing oil electric locomotives in the
plant. Zhel.dor.transp- 45 rw.7:68-71 JI 163. (MIRA 16;9)
1. kachallnik Clielyabinskogo Elektravowerwntnogo zanda,
(Electric locomotives-l-Ltintenance and repair-)
JRMMLI. Tefts Borisovich; KOMOLOV, Vladimir Georgiyevich; JFATB#
Semen Isakovich; SAVCHMO, Toevolod Viktorovich; GORBBW,
S.S., Insho, retsensent; b1� T., lush.,, retsenzent;
LT ~NL~
RTZHDT, B.T. Insh., ratsensent; TSOUMT, A,V`#, inzho,
retneweat; hIKOV, V.7.0 kand.tekhn.nankv-z=L~.-~~--Bomw,&,
U*Ns, tekbnerade
'factory repair ot electric railwey motors and auxili"7
machinery] Zavodskii remont tiagovykh drigatelei I. vapono-
gatelljWkh mashiss Hookv Toes.isdatelOoko-poligredbmedi-
xenie X-va, putei soAshchsnila~ ig6i. 366 p.
(MIRA 14.12)
Olectric machinery-Maintenance and repair)
(Rallroads-Xlectric equipment)
LIJ Va. -4
Biochemistry
~ -,.: 11
llllffllvm~
see tLC
i
I
LISITSM. I. Be insh.
Balancing rotors of operating, turbogenerators. Vest-mah. 40 no.11:
16-13- N 160. (NBA 13:16)
(Balancing of mohinery) (TarbOgeAerators)
LISITSYN, X. S. of the
USWA%dicine - Intra.-Ossal Puncture Nov/Doe 53
"The: History of the Method of Intra-Ossal Intro-
duction of Drugs,n V. G. 14itrofanov, Cand of Mad
Sci, Chair of Gen. Surg-I Naval Med Acad
Vest Khirurg im I. I. Grekov, Vol 73, No 6,,
pp 60-62
Attributes origination of this method to USSR
workers., Names X. S. Lisitsyn of the Militar7-
Med Acad im. S. X. Kirov as having introduced the
sternal puncture method in 19Z7. States that
administration of penicillin.. analgesics, blood
substitutes, etc by this method is gaining popu-
larity in the USSR.
274T33
LISITSYN, M.S., professor, saslwhenMy dayatell nauki; ZOWTUKHIN, N.A.
maditsinakikb nauk.
Hemostatic action of resorptive gauze (oxidized cellulose)
Vest.kbir.76 no.9:69-74 0 '55. NLRA 9:1)
1. Is kliniki obsbchey khirurgii (nach-prof. X.S.Lisitl7n)
Voyenno-;~kskoy meditsinskoy akademii.
(CALLUUMS,
oxidized cellulose gauze, hemostatic action)
(HDOSRASIS,
hemostatic action of oxidized cellulose gauze)
LI seor, .. zaaluzh. dayatel"nauki (Leningrad, pr. im.
H.Siprofe
I-OTT-R-allaa, d.'106, kv. 84
Physiological methods for the prevention and treatment of
postoperative complications [with summary in Inglish, P-1571
Vest. khir. 77 no.2:14-24 1 156 (KMA 9:6)
1. Iz kafedry obshchey khirurgii Tnach. prof. M.S. Lisitsyn)
Voyenno-morskoy meditainskoy,sImdedli;
(SMOMY, ONWATIV31, compl.
prev. & ther., physiol. method)
LISITSYN.-HoS., prof,, zaslyshennyy deyatell naukle, (Leningrad, Y,6, Moskovskly
-r.,-d*206j kv$84)
low data an theories of surgical shock (with summar7 in Znglishle
Testelhirs' 81 no-9t7O-77 $158 (MIRA 11:11)
1. 1z kliniki obahchey khirurgii No.2 (nach. - Prof. M-S-
LiBitsyn) Voyenno-meditainakoy ordena Lenina akademii imeni S&M.
Xiro,ra;
(SHOCK,
surge, theory (Rua))
(SUMMM. MYERATM, complications
shock, theory on mechanism (Rue))
LISITSIU H.S. zasluzhennyy dayatell nauki, prof.; SIMAKIN, I.S. , kand.
med.nauk
Potentiated local anesthesia. Nov. khir. arkh. no-4:116-117 J1-Ag 160.
WU 2 54.2)
1. Kafedra fakulitetakoy khirurgii II Voyenno-meditEinskoy ordena
Lenina akademii imeni S.M.Kirova,(nachallnik - prof. M.S.Lisitayn).
Adres avtorovt Leningrad, Zagorodnyy per., d.47, 2-ya fakul'tstskaya
khirurgicheskaya klinika. (LOCAL ANESTHESIA)
LIBITOT_OjiikQ2#Z-Aud-re_yev~ch-. SWUN. I., -red.; DMOVSMA., G.,
tekbn. red.
(State plan Is the law of developing production] Gosudarstven-
nyi plan - zekon razvitiia proizvodstva. .'14insk, fAm-12d-vo
BSSR. Red. sotsiallno-ekon. 3-it-r7 19611. 30-P. (MM 1-5:1)
(Ruosim-Rdonomic UC754~~7ta.
po
WSR /Mining NothodLe Aipr 49
Explosive Design
"Partial Insulation or Charges Duribg Mass ft-
p-losipne in Wet Books," 1. 1. Li sitsyn, V. F.
Shishkin, 2 pp
"Gor Zhur" No 4
In mass explosions where the charge in the rocin
bas a volmus of several tons of cubic motors.,
ammonite charge that b&6 b6oaie-iret itill exPlode
if there is dry anmonite, in the Oii9r-aa-*rts
of the obarge borclering
of mitnes in which peLrtiall7 insuIate& charges
ID 4lAqT8.9
UWE/Mining Yathods (Coutd) Apr 49
or uninsulated charges have been usedl success-
ful17.
W
xlA9T89
S~TUILA, V. A.; LJ,)IT6YN'. 141,~l
bwavation - Tablen, Calculati~-,ns
Deternunation of the coefficient of rock excavatim. Gor. zhur. no. 4, 1952.
V'ohthly List of Russian Accessions, Library of Gong.ress, April 1952. Ui~'GLASSIFIED.
LISITSYN, N. M., Cand. Teoh. Sci. (diss) "InvesLI,-,,,7-atIon of Sta-
bility of Movement in Lathes under Mixed lFriction," Moscow,
1961, 17 pp. (All-Union Corresp. Inst. Dept of Metal-cutting
Lathes of Moscow Lathe-Instrum. Inst.) 200 copies (KL SuppilZ-61,
270)
'T
L1533SYNY IIA inzh.
Amplitude and frequencies of natural vibrations caused by combined
friction. Vestemasha 41 MO-10:24,29 0 t6l- MRA 14 -- 10)
(Vibration)
-:7--l'It. I
LISITS)M, N.M., prepodavatell
Effect of the parameters of a mechanical 97stem on the steadiness
of motion in the presence of a combined friction. Iosl-v obl.
metallorezhatan. no.4:121..147 161. (M!iU 14:12)
(Friction)
(Mechanical movements)
LISITSYN, N.M., prepodavatell
Investigating the steadiness of wtion in case of a combined
friction. Isal.v obl.meta.Uorezh.stan. no.4:49-65 161.
(MIRA 14:12)
(Meebanical movements)
(Friction)
Paz i~~ 1~ S4 W-'O WA a"M;'w-~r~w=nr'&%L-pa4 Q'4
G.A. Frinima"'. u-oij-- e~,
TARMANOVY
V.V.,, lnzb.~. VUSHKV., Yll,m~~ iT!Zh,,
retsenzen-t- LWT-IN 11 14- kaa6, (-ekyin. naukj, rea.
(Desiga of muclnm fc~, 'oAniral desig-aers!
Proektirovan.le miail iitankr~r, v p2moshchl
r-)65. 235 P.
(MIRA 1& 12)
ACHERKAR, Naum Samoylovich, zasl. deyatell nauki i tekhniki RSFSRj,
doktor tekbn. naul~ prof.; GAVRYUSHU1, A.A.; YMMAKOV,, Y.V.;
IGNATIYEV, N.V.; KAKOYLO, A.A.; KUDINOV, V.A.; KUEUASHOV,
N.M.; MIKHEYEV, Yu.Ye.; PUSH~A;,,V41Fj
O.N.j FEDOTENOKO A. .; KHOMYAKOV, V.S.; ABANKIN, V.I., inzh.y
retsenzent
(Metal-cutting machines in two volumes] MetallorezhuBhchie
stanki. [v dvukh tomakh). Pod red. N.S.Acharkana. Moskva,
Masbinostroonie. -44i.2. 2. perer. izd. 1965. 628 p.
(MIRA 18:12)
ACHERKAN, N.S., doktor tekhn. nauk, prof.p zasl. deyatell nauki
i tekhniki RSFSR; GAVRYUSHIN, A.A., kand. tekhn. nauk;
YEFdKAKOV, V.V.., kand. tekhn. nauk., dots.; RRIATIYEV., N.V.,
kand. tekhn. nauk, dots.; KAKOYLO, A.A., inzh.; KUDINOV,
V.A.j kand. tekhn. nauk; KUDRYASHOV, A.A.,, kand. tekhn.nauk,
dots.'; LISITSY11 11 Mkand. tekhn. nauk~ dots. MIKHEM,
YU.Ye.S dots.; SH)- V.E., doktor tekhn, nauks prof.;
TRIFDNOV~ OJ., kazA,. takhn. nauk, dots.; FEDOTRIOK, A.A.$
doktor tekhn. nauk, prof.; KHOMYAKOV, V.S.) kand. tekhn.
nauk; ABANKIN, V.I., inzb., retsenzent
(Metal cutting machines] Metallorezhushchie stanki. Moskva,
Mashinostroenie. Vol.l. 1965. 764 P. (MIRA 18:10)
NUDY14OV, V.A.; LISITS)DII, 14M.
Basic factors-affecting the regularity of displacements of
machine-Uol beds and carriages at combined friction. Stan@
i instr. 33 no"02,.1-5 F 162. WIPLA 15:1)
(Machine tools)
(Friction)
B/12X/43/00/902/002/016
MO/D112
AWHOIWI DiUiU#VTJ DOB6*j:~ d
m
4r
-ITTIS lbv6aiigaiiix~ of-'4 zaAfLetoitrietiv4 jdar6f sod. drive
PMODICALt- St~~i.`.i instruniiiat, iio.21 196
3
,4e 'V~~Iivib (K63) alloy i~d.. -'3~ im in: diMiMter, hul,
of K65
TUT's - Thd.=Potoo~ Act r
a, n" tiLl-linit. is 0v 0-
been' studied in ;.,,e-qerimeb A~ni~ t1ii Plask 'skly -stank
pe
lnstru~evfilt4y- IhO#tut .: (Koisicdi~ Institute - of Machine Tools and. Instruments) - and
th an 0 tical:'head. vith
built* at-the 1116461; 'olitar-Ayll:~ Plant. It I
W a fitted Joi
of lhe:stWies va'
0 0001 W.di ..Purpose proOide-Kalta-for dasi
& a. gners
gnqt6atr-jctj~~ drive' f J Joji machine, tools, ouch
f
mg a.. or.,prec, a. as used.in the Bri
0
Anmt, 1,~.
ilainc "der'"arid some other iichines. Thevbser-04tion d
,2 k..'cent4brIeps gr
the rod b6h- a i~-'aeiitil:and ac
avior,q doo iihd
.O-gr tidal: recount4ndatione are g
iie iloiigatioh -6t -86. evi without social heat treatinentj..,,;-""
k65 al* ~ 6': 1' k4at
en
axid'hag been-.!,.Tbuid`A 'suitable material f~r the drive rdds. It is reco~ended
tof use 'a magnetic'.'. drcuit. perjuitting almost total magnetic saturation at lov cur-
to.-uie cuiTent of_nof'sore,thn 0,5 amp/MM21
den'sity In-. oiAir~ to~.:preven u (3) to useheat-r
t elongation. thro gh heating
- .: . '! : L~~. -iff-
. - ll~
. , . - : - : . I --4~-
-, !, ~: , - - - . I , m ~ , , -7~~':-.. z
1. , . I I - . . % , - . " 1 ;, ~ -
~; ~ . 1 ir :~ ~ i.:'
. , '... w , ~v - ,
lisitsian, IT. 5.
I'Influence of credit on fastening the tljrnover of workirig capital. of indi-istrial
enterprises." Reviewed by N. Parkovskiy. Den. i kred. 11 no. 5, 1952.
9. 1Monthl List of Russian Accessions, Library of Congress, Auglist 194, Uncl.
LISITSYN
7or wider dissemination of the experience of leading inspectors.
Yin. SSSR 20 no.6:44-50 LTO 159. (MIRA 12:10)
l.Nachalluik Upravleniya gosdokhodov i nalogov Ministerstva, finansov
RSPSR.
(Finance)
LISIVI,YK, N.V.p
I
.-I.r,