110 'C Category : USSH/Radiophysics - Generation and conversion of radio-frequency oscillations Abs Jour : Ref Zhur - Mika, No 1, 1957, No 1827 Author :Yeytyanov S - I Title '-79RE-ernal ln~luences on a Self-Excited Generator Orig Pub : Radioteldmika, 1956, lij No 6, 3-12 1-4 Abstract : Discussion of ~he -principles of formulating the technical callp-ulation for a self-excited geperator subject to an external excitation. The calcu_uk- tion does not involve a polynomial approximation d the anode current and makes it-possible to take self'-~ias Into account. A novelty is the intro- duction of the method of modulation characteristics, based on the use of a double Fourier sepies. Certain details of the calculations in synchronous and asynchronous podes are e2mmined. Card 1/1  UssivRailiophysics General Problems., 1-1 Abst Journal: Referat Zhur - Flzika, No 12., 1956s 35236 Author: Yevtyanov, S. I. ------------------- Institution: None Title: On the Connection Between the Abbreviated Squations and the Pover Balance Original Periodical: F-adiotekhaka, 1956., 11., No 2., 3-13 Abstract: A detailed description of a method of writing down the abbreviated equations of a generator, in which the power balance at (active and reactive power) is used. Three examples are givent (1) single- tuned-c1rcuit autonomous generator., (2) alngle-tvned-circult gene- rator, locked by a harmonic force, and (3) two-tuned-circuit gene- rator vith weak coupling between tuned circuits. Bibliography, 9 titles. Card 1/1  YZVTTAVOV, 6.1. Calcu-1-alTag oscillators in overvoltage regimes. Zlektrosylaz 1 11 no.11:52-58 9 '57. (M MA 10: 12) (Oscillators, Blectron-tube)  YWffAMV, S.I.; CIMLNDKOV, O.A. Transistor oscillator. gauch.dokl.vys.shkoly;.radlotekho I slaktron,no.1:102-118 ' 58. 12.-1) 1. Kafedra radioperadayushchikh ustroystv Ifoskovskogo energetiche- stoogo inatitutai, (Oscillators. Transistor)  YBRUYANDY. S.I.; KAPRAMY, M.V.; TERESHIITA, G.M. Band. oscillator, with increased frequency stability. Kauch.dokI.v7s. shkoly.; radiotekh. i elektron. no.2:89-98 1 58. (MIRA 12:1) 1. Kafedra radioparedayushcbikh ustroystv Moskovskogo energeticheskogo instituta. (Oscillators, Electric)  YEVTYANOV. S.I. Two-cycle frequency dividers. Ilauch.4okl.v7soahkoly; radioteltho i aleK.ron. no,2:134-137 1 58. (mrRA i2a) 1. Karedra radioporoda7ushchikh ustroyetv Roakovake-go energetichaskogo instituta, (Frequenc7 ohangera)  Ymmov, S.I. Theory of.two-cycle frequency dividers. Part 1. Rtuch.doklev7n.shkoly; radiotekh. i elelctron. no.2:138-150 58. (MIRA 12: 1) 1. Kafedra radioperedavushchikh ustroystv Roskovskogo, enprgeticbeskogo instituta. (Frequency changers)  9(2) BOV/162-58-3-12/26 AUTHOR: Yevtyanov, S.I. TITLE: The Theory of a Push-Pull Freqwncy Divider II (Teoriya dvukhtaktnykh deliteley ohastoty II) PERIODICAL: Nauchnyye doklady vysshey shkoly, Radiotekhnika i elektronika, 1958, Nr 3, pp 84-92 (USSR) ABSTRACT: In two preceding papers, the author describes the function and the circuits of a DDCh (dvukhtaktn y delitell chastoly = pueh-pull frequency d1vider5 CRef ;7 and applied the eneral theory for the frequency .multiplicity n = 2 44ef Z7., During the investigation of -b"e frequency divider at n = 2, the characteristic of the anode current was approximated by a fourth- power polynomial, whereby only members with pair power were important, In this paper, the author in- vestigates the DDOh at n = 31 based on the push-pull circuit arran ent of vacuum tubes according to fig- ure 3 of ZFef 97 The characteristic of the anode current with n = 3 is again approximated by a polynom- Card 1/3 ial  The Theory of a Push-Pull Frequency Divider II SOV/162.58-3-12/26 2 3 4 5 + ~-' e + e + e + I e + 4 e (1) 0. 11 2 ~ 3 .4 5 whereby the members with impair powers are of import- ance. The author then determines the voltage at the grid e e = A cos t + R (2) and the bia s by the feedback voltage E = U cos It + Based on the general theory of DDCh developed in fR-ef ?7 the static operation at n = 3 is described by the equations Se S (x (8) 3 c 1 R cos 3 e~ Sc whereby S0 = 1 0/UV so Ia/U. With these equations the author investigates the static operation. Based Card 2/3 on these equations, the characteristics of the divider  The Theory of a Push-Pull Frequency Divider Il SOV/162-58-3-12/26 are calculated and graphs are presented for the oper- ation at n 3. There are 6 graphs and 3 Soviet refer- ences, ASSOCIATION: Kafedra radioperedayuohchilth ustroystv Moskovskogo energeticheakogo instituta (Chair of Radio Transmitting Equi ment of the Moscow Institute of Power Engineering~ SUB11ITTED: April 12, 1958 Card 3/3  INYTIANOT, S.I.- KULESHDV* T.N. Fluctuations in single-circuit ealf-oacillators. Mauch.4oklays. ahkoly; radlotokhtt olektron. no.4993-10? '58. 04nu 12:6) 1. GosudaretvenM7 nauchno-iseledovatel'skiy institut Kinistebstva sv7azt. (oscillators, Illectron-tube)  0 YIEYT yEVTYAIMV, S. I. HISHCHENKO, A.V. YM10 Transistor oscillators with phasing. Haucbdokl-vvseshL radiotekbA elaktron. no.4:103-113 ;58. (14TRA.i2:6; 1. Gosudaretvenrqy nauebuo-iseledovatel'okiy institut Hinisterstva svyazi. (Oscillators, Transistor)  tvo V Aim rf.r- 0 am* C. A. C'V'."'~ rr-"""ft AL C. ad. F. IL ff""~ Mft' of (C 14 9 -,1" IL c x~_ OL IL A~m IL IL Isom (c 10 is 16m L OL L IL rq- sp room me combaw" "Kttv4 ot u0 IrAtmff%s Todwautt"s 634t"y 4c MMAWM-ba 04 xugtrlftl camud4at" m IS. A. 4. rqw 0304M. 0.12 tow.  . ..... . ... 9 (29 3) ... SOT/162-59-1-13/27 AUTHOR: Yevtyanovt S.I. TITLE; -Establishing-'-.- Self -Oscillation Frequency PERIODICAL: Nauchnyye doklady vysshey shkoly, Radiotekhnika i elektronika, 19599 14r 11 pp 105-116 ABSTRACT: - Th6 author establishes general# shortened symbolic self -oicillators In, A --li-4- an-- xa, head -4- f i th f we 4db&6k*-- Har iilDator -a Colpitts: oscillator and -a dynatron ley~osc I - a oscillator. It is assumed that the oscillators have low attenuation and that their oscillations are close to the harmonic ones. The method of generalg shortened symbolic equations wasdeveloped by the author gef 27., From these equations he.obtained cor- rections for the frequency during the process of es- tablishing self-oscillations. For approximating the anode current chara teristics by a cubic polynomial, Card 1/2 the author plotted craphs of the nonisochronism,  SOV/162-59-1-13/27 Establishing -Oscillation Frequency shown in Fig 5, ie. the dependence of the~frequency on the oscillation amplitude under transiont condi- -tions. In this connection# the-author reviews briefly 'the research into self-oscillator procesalts performed ~by N.M. Krylov and N.H. Bogolyubov'ffi~f I/ and by N. N. Bogolyubov and Yu.A. Mitropollskiy ZR-ef 47. In these naDers general-calculations were.emphasized, but actualZ. circuits were 'insufficiently investigated. There are 4 circuit diagrams,l graph, 2 tables and 6 references, 5 of which are Russian.and 1 American. ASSOCIATION: Kafedraradioperedayushchikh ustroystv Mookovskogo exiergeticheskogo instituta (Cha~ir - of Radio Trans- mitters of the Moscow Power Engineering Institute) SUBMITTED: October 2, 1958 Card 2/2  9 (2- 3), SOV/162-59-1-16/27 UTHORS- A Y.K. Yevtyanov. S.I.. Isakova, TITLE: Automatic Phase Frequency Trimming With Reduced Phase Instability ]~ERIODICAL- Nauchnyye doklady vysshey shkoly,-Radiote'khnika i elektronika, 19599 Nr 19 pp 134-140 ABSTRACT: The authors describe one of the methods of reducing the phase instability of an automatic phase frequency trimming circuit, suggested by 3.1, Yevtyanov. A block diagram of an automatic phase frequency trimm- ing circuit with reduced phase.instability is shown in Pig 1. For reducing t-he phase instability, the fre- quency deiuning of a free self-oscillator (jog in re- gard to the frequency.of an external. force, is compen- sated by trimming with a frequency detect-or. The fre- quency detector, the-self-oscillator and a reactance tube form a follow-up system. In case-the relative tem-nerature instability of the-center frequency of Card 1/3 the frequency detector is equal. to the il,,Istability  SOV/162-59-1-16/27 Automatic Phase Frequency Trimming.With Reduced Phase Instability W 0i then the-.temperature phase instability may be eliminated. The theoretical considerations were check- ed experimentally at l4oo ke external force frequency. The self-osaillator.frequency was about equal to that of the external force.-A circuit diagram of the expe- device is shown in Fig 2. Besides the ele- ments, shown in block diagram Fig 1, there are two amplifiers composed of one-UM tube each. One of the amplifiers serves as frequency detector input. The phase detector is composed of one 6Kh2P tube, while one 6Zh4 tube has been used in the self-oscillator and for the reactance tube. Two DG-Ts2l diodes are used in the- -frequency-detector; -1 The- experimental results are- in agreement with theoretical assumptions~. The results of the experimental investigation are shown in graphs. There are 1 block-diagram, 1 circuit diagram, 4 graphs and-:-I-~Russian- ref erence-.- Card - 2/3  AUtomatic Phase Frequency Trimming With Reduced Phase Instability ASSOCIATION: Kafedra radioperedayushchikh ustroystv Moskovskago, energeticheakogo institute (Mair of *,Radio Trans- mitters of the Moscow Power Engineering Int3titute) SUB-ITTED: January 260 1959 Card 3/3  9 (2) SOV/1612-59-1-18/27 AUTHORS: Yevtyanov, S.1.9 Chelnokovv O.A. TITLE: The Condition of Self-Excitation of a Transistorized Self-Oscillator PERIODICAL: Nauchnyye-doklady vysshey shkoly, Radiotelchnika-i elektronika, 1959, Nr 1, pp 149-162 ABSTRACT: The authors establish the conditions of-self-excita- tion of a single-circuit aelf-oscillator,_assembled according to a generalized-Colpitts circult with one junction transistor,, at frequencies, where inertia properties.have an influence. A generalized Colpitts oscillator cimuit is shown in Fig 1. The S-parameter system was used for investigating the comnon-emitter circuit. The authors present the frequency relations of S-parameters from a T-shaped equivalent circuit for a junction transistor shown in Fig 2. The 'y investiga- te the frequency characteristics of the/transconduct- ance 8, the input admittance So and the output admit- Card 1/2 tance 81. The resulto of the calculations are oompa- WOO'  ~SOV/162-59-1-18/27 The Condition of Self-Excitation of a Transistorized Self-Oscilla- tor red to experimental results obtained with a P3B tran- sistor. The inertia properties of a junction transis- tor may be neglec 'ted, only. at frequencies below 0.02 OcA It was established experimentally that selif-oacillati- ons may be.obtained in the frequency range up to 'Vot, using a transistorized Colpitts oscillator. However, at frequencies higher than 0. 2 to ck, the . sel-Lo-oscillati- ons are produced only at groat values of iVSol ie. due to optimum phaeing. There are "', circuit diagrams, 6 graphs, 9 references, 7 of which are Russian and 2 American. ASSOCIATION: Kafedra radioperedayushchikh ustrdystv Mos,kovskogo enermeticheskogo institutp (Chair '~ of Radio Trans- mitters of the Moscow Power Engineering Institute) W"-*, SUBMITTED: October 15, 1958 Card 2/2  YERTYANOV, S.I.; SHEWAYEV, G.D. Synchronization of a oelf-osaillator. with two almaitis. flaueb. dokl. vys. shkolyl radiotekh. i elektron. no,21a26-137'1590- (IIIRA 14: 5) ,1. Wedra radioperedayushchikh ustroy~tv Moskovskogo energeti- Cheskogo i6tituta.* (Osoillatorsil glectria)  3110616,01000100110021005 A056/A126 AUTHORS: Yevtyanov, S. I., Snedkov, B'.*A. TITLEf Study of a push-pull frequency divider PMUODICAL: Elektroavyazl, no. 1, 1960, 11 - 22 ME': The author discusses the theory and the computation of push-pull frequency dividers, on the basis of polynomial approximations of the plate-cur- rent characteristics. The circuit presents two pentodes L, and L,-.1 with phase op- position A cos wt between the screen grids.. Such design gives th~ possibility of anyfrequency division, but here the author considers the concrete case of a di- visibility n = 2 - 5. The last part of the article treats the redation between A the band of synchronisation and the amplitude of the input a - -,;., and the rela- tion between the amplitude of auto-oscillation U and a. There are 8 figures and 6 references: 5 Soviet-bloc and 1 non-Soviet-bloc. The reference to the English- language publication reads as follows: -Sterkyj "Frequency multiplication and di- vision'! Froc. UIE no. 9, 1937. SUBMI=: September 30, 1959 Card 1/1  TLVTTAROV. S. I.: SIMKOV, B.A. Investigation of a puah-pull frequency divider. Sle~trosviazl 24 no.l.*11-22 Ja 160. (KM 13.#5) Ofrequency changers) 9  5/108/61/000,'IOQ6/001/008 D201/D305 AUTHORS and Kapranovj M.V. j Nembers of the Society (See.Aaeociation) TITLE: Processes in high order frequency multipliers PERIODICAL: Radioteklinik~Lp no. 6, 1961t 3 13 TEXT: In a multi-cascade frequency multiplier, complex,processes of amplitude and phase modulation occur. These procesees determine the characteristics of theoutput frequency~spectrum. I.S. Gonorov- skiy (Ref. 1: Radiosignaly i perekhodiyye yavleniya v radiotsepy- akb~ (Radio Signals and Transient Phenomena in Radio Circuits), Svv" lizdatt 1954) found the.solution for the output voltage of a single stage frequency multiplier (YBIJ - UVP)t using the methods of the theory of the complex variable. Yu.L. Sverdlov (Ref. 2: Ra- dioteklinika i,elektronika No. 6, 1959) applied the method of Gono- rovskiy to evaluate the phase modulation at the output of a multi- cascaded multiplier. In the present article the authors give an, Card 1/8  236G$ S/108/61/000/006/001/008 Processes in high order D201/D305 approximate method which permits the obtaining of cOmparatively -simple'expressions for the envelope at the output of' a single cas- cade.frequency multiplier, the multiplier not necessarily having a single multiplying circuity but a system.of oscillating circuit's very little daraped. The expression for the output voltage envelope is determined using the Fourier integral method, preferred to that of Duhamel. Prom the basic equation UM = Z(iw) i~t) (1) relating the voltage u(t) at the,-load koonaidered as a four pole) to the current at its input (iw is an operator and Z kZ(x# where k the transf er coef f icient' and ZcL input impedance) the f i- U06 neJ~ expression for the envelope of'the output voltage is.aerived as ;f*(t+,CT) not u Re ITrnI. (13)  w S/108/61/000/006/Opl/008 -Processes in high order D201/D305 0 A*(t) is the complex amplitude given by iAwt' e- -where x(t)-is the complex amplitude of voltage resulting from a single pulse of current. It may be seen tha:t in order to evaluate the output voltage of a freqjLenc multipliet it is enough to deter- mine the complex amplitudes A*(t~ and to,add all complex amplitu- des.for particular pulses. If the load of the multiplier consists of a single oscillating circuit, the voltage across it due to a single current pulse will have the shaDe as given by a(q7&Re- sin wo t. (14) as cited in,S.I. Yevtyanov (Ref..3.- Perekhodnye protsessy v pri- yemmo - usilitelinykh akhemakh (Transient Process in Receiver-- -Card 3/8  93605 8/108/61/000/006/001/OOP, Processes in high order ... D201/D305 Amplifying Circuits) Svyazlizdatp 1948) where the damping of the circuit and R - the resonant resistance of the circuit. Intro- ducing the complex amplitude 1(t) and. the generalized detuning 2Aw the voltage across thecircuit becomes 0 Ae e ,R ,e f A where e (17) and X =jz n (18) Further, by introducing the dimensionless time, Ir W t (21) 0 2 and after several transformations the exbression for the m6dulus or the output voltage envelope io derived as C rd 4/8 a  236Q5 5/108/61/000/006/001/008, -Processee in high order D201/D305 U I.R e7~. (22) - SJO 2 If the.load circuit is tuned exactly to the n-th harmonicp i.e. if -in Eq. (22) a 0' xt T U(T) InR'f (x) e (24) is ob,tained. In this expression the functioncp(x) reflects the in- fluence of the order of harmonic and that of-damping and is given by X (25) -x e are.given of the output voltage envelope for several values Card 5/8  -2 Processes in high order D201/D305 of the geheralized damping x 1Xn in the case of exact tuning to the n-th harmonic. The graphs show that with tuning of the output act to higher harmonicst the output voltage is far from being mono- chromatic and that the maximum of the amplitude occurs for t = 01 i.e. at the beginning of the interval between burrent pulses, The changes in the output voltage amplitudep-when the output circuit is retuned to the next harmonic, is considered next. A factorwis introducedt. which takes into account the influence of detuning a on amplitude Its graph is given also which shows that.for finite values,of ge- neralized damping the function bL(a) representp a periodic function of detuning. Pinally a multi-cascade frequency MUltiDlier with a pass-balid. filter is considered. The analysis is basea on the ge- eral expression n Card 6/8  S/108/6-1/000/006/-001/008 Pr6cesses in high order D201/D305 ~2 2e T sin. ax 1 + + ( 1 -.e-x and given'for the case of a multiplier working into two coupled circuits. The resonance resistances of both primary and secondary are assumed to be equal# i.e. R 1 =.R2 = Rt also 61 52 = 6 and respectivWtSosonance frequencies wil = W " W . The following 02 ~~ 0 conclusions-are drawn& With the increase of the generalized damp- ing x =%nS,J"'troughs appear in the ery-velopea during the repetition period T with'the corresponding increase of overshoots. For large -enough values of xp several *Npughs may occur. The physical reason for these is the interference between primary and secondary cir- cuit frequencies due to coupling. The theory given above has been experimentally checked. Illustrations show the oscillogra*s of vol- tages, obtained with a multiplier working into a pass-ban& filter Card 7/8  3/108/61/000/006/001/008 Procoones in high oxder D201,/D305 'tuned to the 60th harmonic; one shows the voltage at the primary i-ind the other, the voltage at the secondary. The coupling coeffi- cient P = 1.5 and x = 3. [Abstractor's notes No other data of the oxperiment are givenjo There are 6 figures and 3 Soviet-bloc re- ferences. ASSOCIATION: Nauchno-tekhnicheskoye obahchestvo radiotekhniki i .. im. A.S. elektrosvyazi' Popova (Radio Engineering and Electrical Communications Soclt-.6v imo Asbo voDov) LAUStrac-tor's notes Name or association taken from first page of journal] SUBMITTBD: December 8, 1960  MTMOV# $.I.; RUIESHOVP VIM. Fluctuations in self-oscillators* Radiotekh. i elektron.6 no.4:4,69-505 Ap 161. 1 (HIRA 240) (OscilUtors.0 Electric)  37570 S/106/6Z/000/()05/001/007 A055/AIOI 9 W AUTHOR3:* Yevtyanov, S.I.; Shemanayev, G.D. TITM; Synchronization of a self-oscillator with a "follow-up" trimming of the circuit PERIODICAL: Elektrosvyaz', no. 5, 1962, 3 - 1 1 TEXTi: The "follow-up" selfoscillator-circuit trimming system already de- scribed by one of the authors [S.1. Yevtyanov, V.K. Isakova, "Fazovaya avtopod- stroy'ka chastoty s oslablennoy nestabil'nost'yu fazy" ("Pha&e automatic frequency tri-mming -system with reduced phase-instability"), NDVSh, razdel Radiotekhnika i elektronlika, no. 1, 19591 Is used to widen the synchronizatlon band and to re- duce the pbase-shift. The system is shown in Figure 1. An exterior force, whcCe freqitency coext is little different from the discriminator center frequency Wd, acts upon the discriminator. The discriminator output voltage Ed controls, through the reactance tube, the selfoscillator-circult frequency. This circuit!s frequency is equal to t4c, in the absence of the exterior force; it is equal to W 10 when the trimming is operating. The direot synchronization channel Is re- presented by the dotted linet.. The controlling factor is the dGtuning between Wd %lard 1/4  311061621000100510011r,07 'Synchronization of a self-oscillator with a .... A055/AlOl, and W The "follow-up" trimming occurs either wheri coext varies or when there ts a temperature drift of (Od- In the latter case, the detuning .6 (0 rt introduced by the reactance tube compensates the simultaneoll's temperature drift and-the generated frequency stays constant. The selfoscillator is synchro- nized at the frequency lyprine numbers. To -2- cc ext, q and r being reciprocal analyze~the synchronization, it is convenient to consider the selfoscillator with autonomous" system whose natural frequency Git is "follow-up" trimming as an 0 determined when account is taken of the action of the trimming circuit. If the W..A reactance tube and the discriminator characteristics are, respectively:- A rt Srt Ed, and Ed Sd (Wext Wd)JN Srt and Sd being the transconductances, we have: wd)- -)o o = Srt + Sd (W ext It is desired that, in the trimming process, the generated frequency should al- ways be equal to the synchronous frequency, i.e.: (2) Wo ~ r exto and, therefore, (4) These equalities can r ext q o) Srt 3d (W ext wd)- be satisfied only if Card 2,A  S1106162100010051001/0W Synchronization of a self-ozoillator-with a .... A055/A1O1 Srt Sd - a (3) and 4) W (4) r a ") d 0 r If the selfoscillator and the discriminator circuits are tuned (in a ceritain point of the range) according to (4), this equality will be maintained in the case of a.temperature drift only if: &;o Z to d - a - (5) WO wd The following frequency characteristic; is next deduced by the authors: A L Wo (1 (7) 0 "Where r Srt Sd i8 the trimming factor. On the basis of (7 ),,*the.authors discuss the characteristics of the synchronous operation with a quasi-statical variation of the detuning. They find, for instance, that, when e - 1, the syn- chronous oscillations are in phase with the exterior force and their amplitude is constant. A practical application of the examined system is described In the second part of the article, and thexesults of this practical experiments are discussed. There are 13 figures and I Soviet-bloc reference. SU34r=: February 2, 1962 Card 3/4  S/I 0616210W100510011007 Synchronization of a self-osoillator with a .... A055/A101, Figure 1: (1) wext; (2) frequency discriminator; (3) Ed; (4) reactance tube; (5) A c0 r~t; (6) self-oscillator (1) (2) (3) (4) (5) (6) --------------- Card 4/4  S/108/62/017/007/003/008 D288/D308 AUTHORS: Xg-vtyarkov, S. I., Isakova, V. K., Members of the ~oc -et-y-C-see Association) TITLE:. Automatic delayed phase control of frequency PERIODICAL: Radiotekhnika, v, 17, no. 7, 1962, 26-33 TEXT:. A general analysis of an a.p.c. system is presented, consisting of'the controlled oscillator, r.f. amplifier, phase discriminator, low pass filter, and reactance device. Relation- Ships between acceptable correction delay, low bass filter time constant, and amplitude and phase responses of the amplifier are irivestigated. Transmission characteristics are established for the amplifier, detector and filter networks, and the re- actance valve-oscillator combination, in terms of amplitude and phase coefficients,and the external sync frequency w assuming e that t~e amplifier has symmetrical amplitude and phase response, Card 1/3  S/108/62/017/007/003/00& Automatic delayed phase... D288/D308 is tuned to w e and has idealized,limiting properties. The characteristic equation is discussed and used to derive syn- chronization and stability limits. The latter are dealt with in detail. Assuming a simple integrating low pas.s filter with a bell-shaped amplitude response and a linear phase response, an approximate plotting of normal-ized (i.e., dimensionless . delay Vs. the filter time constant, with the normalized amplifier band- width as parameter, is described. It becomes more and more accu- rate when-the number of amplifier stages increases. It is also shown that near the stability limits a simple linear relation- ship exists between the normalized delay and bandwidth. There bare 4 figures. ASSOCIATION: Nauchno-tekhnicheskoye obshchestvo radiotekhniki i elektroavyazi im. A. S. Popova (Scientific and Technical Society of Radio Engineering and Elec- trical Communications im, A. S. Popov) f-Abstract- er's note: Name of Association taken.from.first. page of'Journal Card 2/3   UVTYAKOV~ SI.,* SH E14MYEV., G,D. ynchrorLization of a self-oacillator with tracking tuning of the stage. 31ektrosviazl 1-6 nc-,5:3a-n Hy 162, (MIRA 15:5) (Oacil-latorsp Eleotro;~tuQ   - - -- ...... --, = I I "'m .  IVA RAMM lag sum URVA tal"Ma -L 44379-- EEO) -ApGo2ign souna com-:* unlom/65/521/003/0051/0058 ACC NR3 AUTHOR: Yevtyano,,r S. 1. (Active member); gid'Idn., G. Ye., (Active member) S'/ ORG: ~cllentifie and Technical Society of Itadio, Engineering and Teleco=mications ill* A. S. Popov (Naiichno-tekhnicheakoye obahchestvo radlotekhalki i elektroarjazi) TITLE: Investigation of the pulse shape in a modulator with an artificial line -SOURCE: Radiotekh:nika, v. 21, no. 3, 1966, 51-58 TOPICTAGS: pulseshape, similarity theory, pulse modu lation ABSTRACT: A method has been worked out.for calculating the pulse shape formed during the discharge of artificial line for active resistance. The calculation Is based. an the involvement of methods of operational computationq~, the theory of filters, and the similarity of the theory of filters to the theory of long lines. The voltage on the active load is'presented in the form of an electric- series containing analogs of incident and reflected waves while the waves. reflected from the load, are not taken Into conrjideration. rhe effect of the number of links of the artificial line on the pulse shape is indicated. Experimental oscillograms of pulses are in.kood agree- 1/2 UDC: 621.376.5  of SMBRYAKOV, Yu.0 gvardii inihener-podpolkovnik; YEVTYMMII, 1, POdPolkovnlk. inzhoner- For an efficient operation of automobiles. Voen.vest. 33 no.16: 31-33 11 153. (Automobiles--Maintenance and repair) 04IRA 10:10)  MMMIIU Ilya. - SIREBRYAKOV, Yu.p.; KONF.1110 P.1.0 podpolkovnik, ro- dakfo"r,-TALAGHNV, M., takhnichaskiv redaktor- [Driving automobiles,in,columnal Vozhdante oxtomebilia v kolonneo Hoekvat~ Voen. izd-vo Hinisterstva oborony Soiura SSR, 193.5. 79 P, (Automobile drivers) (MM 8:7)  YBVTYUKHIN, Ivan Tegorovich: SO RYAKOV, Turiy Fadorovich; KOIJKINp PeI*p poTk-ov-nTl~'.--re-dV.--M,'=-T-MOVA. M.A.. tekha.red. [Track ariving., in convoys" Vozhdante avtomobilia v kolonna. Izd.2., ispr. i aop. Moskva, VcenJzd-vo H-va obor.SSSRS 1959. 94 pe Owu 12:10) (Russia-Army-Trausportation) (Notortrmcks)  ,M17 a Driving an Lutomoh~le under ~U-.Ffilcul,t conditions. Tr. from, the ~-Ussian. D.po. ZA RCIDTI-J~Tt Sofyia, Vol. 6. no* 1, Jan. 1956. SO. Iloathly Li-3t of East European Accessions, (EMAL), LC, Vol. 5, No. June 195b, Uncl.  YCVTYUXHIN, I., Inshener-podpolkovnik. Tra ining in driving trmcks and armored carriers at might. Toon.vest. 36 no.12:36-41 D 156 (MM 10:2) (Tran;portation, Military)  VLASOV, Khrioanf Va oil I yevi ch I -lZnTUKM,.-. Lvan:-YegoravIch; =MRYiM'OV, Turly Yedorovich; GOLOSHCHMOV, I.M., red.; KONOTALOVA, Ye.K., takhn.red,, EDrivins motor vehicles under difficult conditions] Vozhdanie avtomobilia v olozhuykh uslovilakh. Moskva, Voen.lzd-vo K-va obor,MR, 1959. 133 P. (KM 13:3) (Automobile drivers)  YxVTYUKHIM'j..yq.; H.I.; OKUNN, la.K., podpolkovnik, redo; X?ASAVIUA, A.K.. tokhn.red. (Maintening motortracks in operating conditions] Podgoiovka avtomobilia k reisu i obaluzhivanN ago v puti. Kosk7a, Voen. izd-vo X-va oborjS=. 196o. 45 P'. (MM 13:9) (Notortrucka-Maintenance and repair),  ARESHKIN Grigorly Iva=vich; GOUACIEVO Vladimir Trifonovich; TE_VMKM.,,_Ivan_Xg~royich; KONSTANTINOV.. Sergey leonidovich; LAVROV, Oleg Vil�aylov_ ~ch; FEMR, Vladimir SergeySV4Ch; SEREMYAKOV, YurV Fedorovich; KOSOROTOV, B.V.,, inzh.-polkovnik zapasa red.; ZUDnIA,, 14,Ps.* tekbn, red* manual.for motorVohicle.drivors] Posobie dlia pod- gotovki voditelia, avtomobilia. Nosk7a, Voen.izd-vo F.-va obor. SSSRI 1962. 501 p. (KIRA 15:4) (Automobile drivere) (Vehicles, Military)  VLASOV, Khrivanf Vanillyevich; j,1.tVTYPIqilV., Ivan Ycgq~~qy-~tcjj; Yurly Fedor i re-d. S"MEBRYAKOV ov c h u (Motor-vehicle driving under difficult conditi:jns Vozxi.- denie avtoriobilia-v- sloAn--yk-h u-slovii-akh-.- -I-zd.2., dop. l,o.-,kva, Voanizdat, 3,9(v,. 166 pe (IMIRA 17:9)  2. USSR (600) 4, Steam Boilers Efficlencias 7. I~r experience in saving fuel and electric energy. Za akonemats no*3t 1952, lonthly List Of Russian Accessions, Library of Congress, JanuarY 1953. Unclassified. -  ACCNRS AP7002727 SOURCE CODE: UR 6665/6716001001/0023/0026 AUVOR, Sentyurikhina, L. N.; Tropkina, G. N.; Oparina, Ye. M.; Yevtyukhina, R. M. Vladimirova, S. L. ORC: VNIT NP _T17LE: Pastes and suspensions of mol denum disulfide in various dispersion media yb SOURCE: Khimiya i,.t ekhnologiya topliv I masel, no. 1, 1967, 23-26 TOPIC TACS: lubricant, solid lubricant, lubricant filler additive, silicone lubri- cant-.', molybdenum disulfide, grease Pastes'and,suspensions of MoS ABSTRACT 2 in oils or synthatic dispersion media silicones) ire manufactured In various concentrations: pastes iVnich usually contain over 50% Mos and suspensions; highly concentrated .(50~-20%)_; medium concentrated (20-1%) and low concentration suspen- ;sions with MbS2 content below 1%. The study reported was mainly devoted 'to the investigation of the lubricating properties ofhigh and medium concentration suspensions and pastes-, as littla attentiorL has been &Ivan to their study in spite of their wide-spread use. Rheological properties (tha so-called strength limit). colloidal *stability, antivear effec .6 t coefficient of friction and t 'he longevityJo4 films were determined. It L M was found that pastes and suspensions, which can be prepared with MoS 2 and a surfactant in a nonstructured or structured modification (the Card 62i.893  ACC M AP7002727 lattar having a three-dimensional solid phase network.structure), do not"* ;differ significantly in their coefficients of friction a~d longevity of ~:films. (Structuring is achieved by introducing a surfactaat, i.e., a soap, usually lithium Atearate on heating, when soaps.swell in the ambient oil and produce the three-dimensional network). The high a trength ;limit, especially in structured suspensions, is detrimental for theanti- wear efZect because of's decrease In the mobility of the lubricant. The colloidal stability. determiiLqd by centrifuging 'Increases- with. the cou-t_ Idantration of'HoS2 ana the viscosity of the.sv'steim. The structural activity of soaps Is stronger In low concentration suspensions than In !highly concentrated ones. The addition of MoSa increases the antiwear effect of lubricating oils, e.g., the introduction of this solid lubri-- cant into UIATLIK-221 grease increases thelongavity of its films by 10-12 tizaa under a $600 kg/cm2 load. Siructured'syatems with a'low content of 10S., such as VIN11 ZNP-242, V4411 NP-220 and nonstructure'd high ,Vloh-content pastes VNII NP-225 and VNIX NP-232 are widely used at the present tima.,* Lubricants with low MOS2 content are usually applied in rolling friction Joints; lubricants with high MbS2 content are used in gliding friction and in threaded Joints*,-., Orig. art. has3 tables and 4 figure SUBM DAT-z: none/ ORIG REP: oog/ OTEE REP: 003/ ATD PRESS: 5111 sua ()Onz 2ip  Viat link-assembly bases should be like. Put t. khos, pu no*5:10 K7 159. 12:8) 1;Gla*ny7 inshener PHS-w73, stantaiya Kuropatkino, Tashkentakoy dorogi. (Railroads-Track) (Railroads-Equipment and supplies)   YEVTrUKROV, G.A. Kachiner7 in track maintenance and repair. Put' i put.khoz. no.12: 20-21 D 61. (MIRA 15:1) 1. Glavnyy inzh. putevoy mashinnoy stantsli No.80, st. Saksagan', Pridneprovskoy dorogi. (Railroads--Maintenance and repair)  TSVTYU OVI G. A. Busing the tracklayIng xachine in replacing-milsvith used ones, Put' i put* khos, 7 no,3:7-~9 163, OUU 16:4) 1. Macballnik slushby,puti na Pridneprovskoy doroge, Dnepro- petra7sk (for Tyutyunnik). 2. Machallnik putevoy machinnoy stantaii No. 6. Illarionovo, Pridneprovskoy doragi (for YevVukhov). (Railroads-Rails) (Railroads-Tracklaying machinery)  . YEVTYUKMV, I.G., inzh.; CHUBUOT, V.P., inzh. ffydrophobie film-forming materials used to protect pavings from icing. Avt. dor. 22 no.9:15 3 '59. (MIRA 12:12) (Roads--Maintemance and repair) (Ice) (silicon organic compounds)  WIT I~Utoliat  nymmov. K. 0 "Broken telephone.", Mwo-trada i sotostrakh. 6 no.102 A i63. - (HIM 16;1) (Industrial aocidents) 1. m  Ash Disposal What to.do with the cinder dump. Rab. energ. 2 No. 8p 1952. 9. Monthly List of Russian Accessions, Library of Congress, November -19W2 Unclassified.  YNYT MV, lConstantin Stemanovich; DMirsOVA, I.S., radaktor; WOV. s.r. [Safety methods for loading and unloading:work In intrafactory, trarRportation) Takhniks. bacapasnosti pri pogruzoohno-razgruzo- chn.vkh rabotakh na vnutrizavadakom transports. (Haskval lzd-vo VTsSPS Profirdat. 1954. 127 p. (HM t3:7) (Loading and unloading)  TEVTrJKHOT, K.S., GILIBERG, L.A., redaktor; CHISTTAKOV. A.T., tekhai- ii&ktor. [Safety measures In transportation instdo.the plant] Tekhnika bezopasnosti -rnutrIz&vodskogo transporta. lid--3-0 Ispr. I dop. Moskva, Gos.lzd-vo oboronzioi promyshl.,1955. 227 P. (W-RA 8:9) (Transportation-Safety measures) (Industrlil safety)  INVTXU&hU-V. K., imb-4- BlImInate accidente. Okhr.truda i uotg.Btrakh. no.6.-22-25 D 158. (MIRA 12:1) (Loading and unloading--Safety rteaclurod)  OV4 ta v ch; MMISOTA, I.S., red.; NA, ,Konstantip,,q 4 _ -y-qpq_ (Safety measure toohnique In loadirg and unloading work within a plant] Takhnika bazopasnosti.pri pog-ruzoahno-raz- gruzochnykli rabotakh na vnutrizavodskom transports. Izd.2.. ispr, i dop. Moskva, Izd-vo VTsWS, 1959. 174 p. (MIRA 12:12) (Loading and unloading-Sarety measures)  2 .95 f 1 PHASE I BOOK EXPLOITATION SOV/3284 Butenko, N. L., Engineer, L. D. Ginzburg-Shik, Engineer, K. S. ,Yevtyiakhov Engineer, V. A. Krylov, Engineer, I.- I. MikEe-yev, ij. IWIFH~is, Engineer, B. Z. Chernyak, Candidat6-of Technical Sni,~~nca-s, and V. N. Yakovlev, Engineer. Spravochnik po tontazhu zavodskogo oborudovaniya (Handbook on 'Assambling and Installation of Plant Equipment) Moscow, Mashgiz, IC959. 828 p. Errata slip inserted.. 20,000 copies Ed.. (Titlt paga)3 V. N. Yakovlev, Engineer; 'Ed. (Inside ~pok)*, G.A. Molyukov, Engineer; Tech. Ed.: A. Ya. Tikhanbv; Managing Ed. for Mndbook Literature (Mashgiz): I. M. Monastyrskiy, Engineer. PURPOSEo This book Is intended for technical tersonnel engaged in the installation and erection of industrial equipment. COVERAGE: The book contains a set of instructions and engineering data on equipment, devices, and tools used in the installation and er-r,act"n of industrial equipment and machinery. Installatiori CaTd 1/4 t  Handbook on Assembling and InstallatAon (Cont.) SOV/3284 procadures'for various machines, pneumatic, hydraulic and lubricating systems are explained. The book also discusses safety regulations and fire prevention instructions to be obst,irved durinly various operations. The text contains numerous graphs, tables and illustrations. No-personalities are mentioned. There are 7 Soviet'references. PART 1. EQUIPMENT, DEVICES, AND TOOLS FOR ASSEDIBLY OPERATIONS Ch. I. Geraral Reference Infomation.(Yakovlev, V. N., Engine~er) 14 Ch. II. Hoisting and Transportation Equipment. (Glnzburg-Shik, L.D., Engineer) 118 Ch. III. Machine-Too! Equipment. (Butenko, N. L.,.Engineer) 200 Ch. IV. Electric Welding Equipment. (Butenko, N. L.) 211. Ch. V. Equipment for Gas Welding and Metal Gas-cutting. (Butenko, N.L.) 223 Ch. 171. Pneumatic Equipment'and Tools. (BVtenko, N.L.) 236 Cardi72/4  'andbook on Assemblin4 and Installation (Cont.) SOV/3284 --3h. VII. Electric Tools and Devices. (Butenko, N.L.) Ch. V111. Equipment for Pipe Trimming an( Bending. (Butenko, N. Q 10h. IX. Hand Tools. (Butenlco, N. L.) Ch. X. Measuring and Checking Tools. (Butenko, N.L.) PART II. GENERAL PROBLEMS OF ASSEMBLY Ch. 1".. Basic Methods for Installation of Manufacturing Equip- M~nt. (Krylov, V.A., Engineer) Ch. I.I. Fraz~paration for Assembly. (Krylov,, V.A.) Ch. 11I. Hois~ling and Moving of Equipment Durir4~ Assembly. (Krylov, V.A.) Cb. IV, Erection and Alignment of Equipment. (Yakovlev, Card 3/4 V. N., Engineer) 246 258 262 302 319 359 388 445  Handbook on Assembling and Installation (Cont.) SOV/3284 Ch.V. Mounting of Machine Subassemblies. (Yakovlev, V.N.) Ch. 'V,I. Bench Work and Fitting Operations. (Yakovlev, V.N~) Ch.'VII. Other Operations Performed During Equipment Assembly. (Yakovlev, V.N.) PART III. INSTALLATION OF LUBRICATING, PNEUMATIC AND HYDRAULIC SYSTEMS Ch. 11. Lubricating System. (Mikheyev, I.I.) Ch. II. Pneumatic Piston Actuators. (Mikheyev, L.I. and B.Z. Chernyak, Candidate of Technical Sciences) Ch. III. Installation of If draulic Systems. (Mikheyev, I.I., and B.Z. Chernya PART IV. SAFETY ENGINEERING AND FIRE REGULATIONS DURING INSTALLATION OF EQUIPMENII (YEVTYUKHOV, K.S., ENGINEER) 4 6 3. 556 591 6r,)2 738 770 AVAILABLE: Library of Congress VK/mg Card 4/4 4-26-60  RROUN, K.; IDMITRIYEV, K.,LJM~. K.; VOIJMT, Tu., starshty nauchnyy sotrudnik Discussing the article 'Methods of drawivg-up industrial safet7 rules and.their contents." Okh. truda i sots. strakh. no.6:47-54 Je '59. (MIRA 12:10) leStarshly inzhaner po tekhn1ke bazopasnosti ordena Trudovogo Krasnogo, Znameni tresta "ruzhuraltyuhstroy" Orenturgskogo sovnarkhoza, g.Orenburg (for -Broun). 2.TekhnJ-3heskiy insl*ktor stanteli Sinarskaya Yuzhno- Yrallskoy zhelesnoy dorogi (for Ilmitriyev)- 3.Zameatitall nachallnika Spetainspektaii Goagortakhnadcora HSFSR (for Tevty-ukhov). 4.V99soyuzVy nauchno-issladovatellakly institut okhrany truds, Vanso7uznogo teentrall- nogo, ooveta profsoyuzov, Leningrad (for Volkov). (Industrial safety)  OQMO Complaints Against authors arA publishera. Okhr.truda I sotsestrakh, no,7:81-84 JI -859. (NIRA 12:11) (IrAustrial safety)    KOLCHIN, B. A. .Archaeology - Methodology Some methodological nrocedures In archaeological research In the U.S.S.R. Yeat. As SSM-1 220 No. 5t 1952. Month List of Russian Accessions, Library of Congress, October 1952. Unclassified.  -YEVTYUKROVA, M.A. H,A, "On the plants. belonging to the Botanical &arden BOard-' Byujisteul-Glavi botan, sada, Issue 1, 1948t p. 90 SO: U-2888, Letopis Zhurnallnykh Statey, No. 1, 1949  --YFVTYtYrQiOVAt M, A. 30228 Ekspozitsiya nor7 Yevropyeyskoy chasti SSSR. Byunyetyen' glav,botan. Sadal VYP. 3., 1949, s. 15-20 SO.' IMOPIS' 110. 34  38193. YEVTYUKHOVA,, M. A. Dikorastushchiya rasteniya v zelenom stroitelostya. E~rulletenf Glav. botan. sada., vyp. 4, 1949o s. 60-62  YEVTYUKPOVI., M. A. 35221 Flora i Rastitel'Nost' Nauk SSS.R. Trudy Glav. Botan. Sada, T.I,, 1949,a. 63-66.- B ib liogr; S. 85-86 SO: Letopis'Zhurnallnykh Statey, Vol. 34, Vbskva, 1949  Utilixatloh of ornamental plants of the native flora for landscape prden- Ing. Biul,Glavobot.sada, no#14:55-62 052. OM 6:5) 1. Glavuyy botanichaskiy sad Almd mil, Mauk SSS% (Plants, Or4azentuil)  UIP N A.. Steppe flora of the laropean U.S.S.R. In the exhibition of the Kain Botanical Garden. B1u1..GLw.bot.sad& no.20:43-W 155., (KM 8:9) 1. G1wwVV botanichissidy &A AkMemil nank SSM. (steppe flora)  YZVTYUKWA. X.I. nowering In winter. Pr1rods 46 no.1:126 is 15?. 1. Glavnyy botanichaskly sad Akademit nauk SM, Noskva. (Plants. Flowering of)  TEVTrUKILOYA, H.A. Geographical races of goldenrod under climatic conditions pre- vailing in Moscow. Blul. Glav. bot. eada no.34:37-39 !59 (KIRA 13:3) 1. Glavnyy botanicheskiy sad Akadeati nauk SSSR, (Moscow-Aroldenrod)  YZnTUKHOVA, M.A. Field flowers on Moscow streets. Priroda 48 no.6:127-128 Je )1 59. (MIRA 12:5 1&olavW botanicheskiy sad AN SSSR, Moskva. (Moscow--Flowers)   VOROSHILDV, VX.; DAYEVA, O.V.; 'MITYUKHO I GOR Vfik_jt~,~-_YE IOVAp Ye.H.; I'MITETSOV , VJI ICWLITIL1_21 IME JUIASOV, A.A. ; SUROVA, V.P.; T.AaIZOVA, T.I. Prinimali uchastiya ,VEIDVAYA, Yu.N.; MMCHEV,A_$ G.F.j TSITSIDN, N.V., _'Yaderrik-I Otvs red*; ASTR07 A.V., red., -W-va; LAUT, V. G. P -tekhn.red. [Native planta -of -the - U S. 3..R# --briof suzararv. of- introdu Iation work in the I'lain Botanical Garden of the Academy of sobaces of the U.S.S.R.] Rasteniia prirodnoi flory SSSR; Iwatkio itogi introdi-Itaii v Glavnom botanicheskom sadu Akadomii muk SSSR. MosI.-va, Izd-vo Akad. nauk SSM, 1961. 359 p. WIRA 15:3) 11 Moscows Glavro-y botanicheskiy and. (Plant- introduction) kMoscow. tanical-gardens)  1. P.- YEVTYUKO,VA, :1. P. "Investigation of Automatic Voltage Regulation in ,h-Frequonay Currouto." Induction Ifeating uoing 11lip Min flighe r Education U88R. Moscow Q.,dar of Lenin Power Engineering Instimen-i V. M. Molotov. Moscow, 1956. (Dissertation for the Degree of Candidate iniSciences) TocGical  IVANOV, Vyachasla7 Aleksandrovich; IZAKOV, FaMs YokbVIevich; LAIUOROV# G.7c., takhne red. -TRTXU.KQULL., red.p (1-leans for increasirg the efficienc7 of inducticn, heating syst=,ql Putl povysheniia K.P.D. ustanovok induktsionnogo nagreva. Moskva, Gos,energ.izd-vo, 1961a 150 pa (Biblioteka elaRtrotermistal no,7) (MIRA 34:12) Unduetion heating)  NEMIASOVAO Aba Mikhaylowal kand, takhn. nauks dotsentj KATSEVICH, Loonid Savvich, kand. tokhn. nauk; YVVTYUKOVA,,2.rin6 Pro y _qypa-; kml. tekhn. nauk; FISHCHEVITAIY, V.P.., red.; LAIUOIIOV,, G.Ye., tekbnxed. (Industrial thermoelectric systems] Fromyshlenmqe elektrotermiche- skis ustanovki. Moskva, Gos.energ.izd-vo, 1961. 414 p. (MIRA 14. (Electric furnaces) (Electric generators) (Indvction beating)  ZARUDI,, Moisey Yefimovich; SVENCHRISKIY A.D. 9 red.; YEVTYUKOVAp I.P.) red,,; BOROOV, N.I.,, tekhn. red. [Joint operation of inductor alternators with increased frequency] So,mestnaia rabota induktornykh generatorov povyshennoi chastoty. Moskva., Gos energ.izd-vo, 1962. 93 p, (Biblioteka elektroter- mislA., n0.9; (MIRA 15:6) (Electric generators) (Induction heating)   the Volga DB:Ltm under various 31gificance of come fish in 0.cologic conditions. Vop. ikht, 2 no.3-0397-40 '62. (HnU 15t1O) 1. IKafedra ikhtiologii-Moskovskago gosudarstvannogo universiteta. (Volga Delta~Fiaheq)  USHUSILT, zai.; GONIMM. M.D.;-YXVTYU$f1X1V, D,S.,- RITZY. S.,&.-, RUSAKOT. A.1[. , , - I- 4d-~- MISLOV. N.A.. re"ktor iz"tel st;4--wMSON. X.M.. tek-b"ich" skiy, rkt~ktor [A refemnoe book on labor eal wages in the Wilding trades] Soravoch- nik po trudu i carabotaoi plate v stroital'stvto-10, 2-oo parer. i dops~ Moskya, G,os, izd-vo lit-ry po stroit. i arkhttelcture: 19560 420 p* MaA 10:1) (wages) (Building trades)  STRELICHUK, 11. prof., doktor tekhn.nauk.; YEVTYUSHKIII., N.,, lnzh. Experimental datermining of fire prevention apacing of open-air 2.n- stallatio1w. Pozh.dola 9 no.110-11 N '63. tA 17:1) (MIF  i4lvll Illss I.Ie.; ti,~--lop lkwnd. telim. -,auk,, mltovofttall raboty *" n ~71,mnta-l n , uly vi th-, .Al C::V t; dcvOlpFMcnt =d cxtl--~cttrji or =Mad pvatu Mw. Vo=B. bazop. no.4:201-:, 15 165. (I'MA, 19: 1)  BOBIN, K.Ps; GEWIMOV, N.S.; GOLUBBIV, S.G.; DNMIDOV, P.G.; DM4'YAN=Ol M.P.; --l-UMSHKIN. U.K.; ZEMSKIT, M.I.; KAIAMIKOV. K.A.,- KOKCHAW, B.I.; KOMM, A.I.; MUHIZROOVSKIT, P.Io; KUM-KOT, G.M.; IWCSMIK# M.N.; ROYTMO, M.Ta.; WHYANTS17, V.I.; SZWSMJ3, B.T.; SKUROV, A.M.; TARASOV.-AGAKOV, ILA.; TOWEEV, A.I. Semen Theillevich Kaliaev,- obituarir. Pozh. delo 4 no.5:29 My 158. (Kaliaev, Samen Vasillevich, 1904-41958) (MM 11:5)  STRRTICHUK,-N.A., dok-tor tekhn. naul-.,- -Y&MUSEMM,5.1-1-, inzh. Frablfa., of datemij Ang fire limits bp-Umeu open Inzt&IU- tionti, Prou. atroi,,~41 ne.11:13-18 H 163. OMA 1?.- 2)  S/128/6P-/COO/003/0C4/CO7 Aoo4/Ai27 AUMORS: Tyutava, 11. D., Yov't;ai jiltin, Ya, A. TMS'. Cast,cutting tools PIMIODICAL.- Litaynoye proizvodotvo,, no. 3, 1962, 38 39 LIECT: The authors describe the technoloa of manufacturing cast cutting ti)ols, f rom the hif~i-specd steel gradles P 9 (R9) and P 18 (R18) modified with bovoil. Tho burning out of carbon during the smelting process was compensated for by the addition of - O.',~*, and 0. 1%1 C for the gradon R18 and R9 rospectively, in the form of. R18 steel carburized up to 5%. The addition of thiu alloy, without re ducing the basic quantity of alloying elements, considerably increases the C- ccntent of the melt. The steel was reduced with 0.2% Al, then O.OIOPC" boron was added 70 - 90 seconds prior to casting at a constant temperature of 1,1150 - L-~ 1,1180'3C into the molda. The authora give a description of the used chills and casting technology,according to which cutting-off, profiling and ollazing tools were manufactured, the steel grades having ~the following composition. 0.66 - I - 1% C; 7.8 - 9 - 1% W; 3.0 - 4.0% Cr; 2.0 - 2.Z V; 0.001,"S B, and 0.8 - 1. 1% C; I T.6 - 18.5% W; 3,.7 - 4.9,L"o' Cr; 0,92 1.2% V; 0.001% B. The heat treatment Card 1/2 -  S/128/62/000/003/004/007 Cast cutting tools A004,/AI27 consisted of double tempering for I hour each at 600 6200C. The following parameters were obtained: MG 63 - 64, 6b = 80 95 Ic&/mm2, ak - 0.2 1.0 kgm , /cm ~ The tools were tested on automatic turret lathes. The tests showed that the life of cast tools exceeds that.of forged "U'ools b,,,, a factor of 1.15 viith radial feed and by a factor of 2.4 with tangential feed. The life of cast cut-off tools ex- Qeeds that of forged tools of the same type by a factor of 1.6. The authors point out that the life of cast tools can be compared with sintered carbide tools. Card "VP