SCIENTIFIC ABSTRACT GONOR, A.L. (MOSCOW) - GONSHAKOVA, V.I.

 ---------------------- 7, -1~265-~66 Eff (I I Awp (M]4~jA(d).4=(k)&MC1) ~CC NRt AP6002367- Cow: UR/020T/65/000/066/0122/0125 AUTHOR: Gonor, A. L. (Moscow); 0hvetsj A. I. (Kos-cov) ORG: none TITLE: An investigation of pressure distribution on certain starlike bodies at.nearly 4 m . SOURCE: Zhurnal prikladnoy, mekhaniki i tekhnicheskoy fiziki, no. 6, 1965, 122-125 TOPIC TAGS; aerodynamics, supersonic flow, shock tube, angle of attack, pressure distribution, wwre drag, aerodynamic boundary. layer, shock wave ABSTRACT: The results of an experiment investigation of pres-S. distribution on star-like bodies (see Fig. 1),in suoe onic flows in an amic wind tunnel at 14 = 3.85 � 0.1 and Re = 6.0 x 100 are presented. The,models, experimental setup, and measuring techniques are described in detail. Pressure measurements were obtained by manometers with tetrabromoethane liquid.(density - 2.96 g/CM3). The boundary leyer effect upon the flow structure for various angles between wings is investigated and shock. wave structures for various angles of attack (from 5 to 150) are analyzed.. A~ comparison of the experimental results with the exact theoretical data obtained previously by the author shows good agreement for all models. The ratios between the wave drags of equivalent circular.cones and vave.drags of models calculated from Card 1/2  - , .- -.m. -1. 1, . - 1. 1, , , 4. -- ;. , --- ~j I . ~ - ': - , . : . - ~ - ... ;~ 1 1 .4 1 .-~ T., . ~.,. :- - - ~ ~ --j , . . p I- - . ~ .:~ .. I I -, . --.- - -, ~;' -, 'I , I . I - .1 . ~ ; F4. , . , . - I I . w. . -. " , --  L 31822-66 EWT(d)/EWT(1)/EWW/EwT(M) ZEwp(w)./EWP(k) WW/EM ACC NR, AP6020729 SOURCE CODE1 UR/0421/66/000/903/0098/0102 3 1AUT11ORt Gonor, A. L. (koecow)I-Shvetso A, Is (Moscow) ORG: none ITITLE: Investigation of the.shock wsvi_XXstau in superso ic flows arcund star-shaped bodies SOURCEt AN SSSR. Izvestiyas Mekhanika shidkosti i gaza, no& 30 1966.. TOPIC TAGSs supersonic aerodynamicas aerospace structure, pressure distribution,41nd tunnel, attached shock waves reflected shock wave, f,low structure ABSTRACT: The results of an experimental Investigation of the flow structure around bodies with star-shaped cross sections in supersonic Fig, I* Flow field and model. Cald 1/3'..  L 31822-66 ACC NR9 AP,6020L729 flows by means of an optical method are presented, The shapes of.tho bodies were taken from data obtained-.by one of the authors (Prikladnays matematika i makhanika, v. 28, no. 5. 1964 (Fig. 1)). The experiments, were carried out in an aerodynamic wind tunnel at H - 2,85 t Oel and angles of attack from 0 to 15% Assuming that a shock wave-is attached. to the ribs of bodies symmetrically located with respect to the axis.: flows over star-shaped bodies are studied on a model formed by two 7' 7:: Figs 2a Shadowgraph of model and shock wave systaux half-ribs which represents a V-shaped wings The o'kparimental set-up and procedure are described., Three modai-s of V-shaped wings were Card 2a  L L 31822-66 f C) ACC NR: AP6020729 javestigated at angles of roll Ot 10, 15, 30t and 450 in order to iobtain a three-dimensional flow structures- The results presented in ischlieran photographs, charts, and graphs are discussed; avi~;.Iitlalysis lof this material shows that the deviation of the Hach number from its ILheoretical value, the effects of viscosity, inaccurzcv of the modalso iand the presence of a small angle of attack lead to realization of a , flow pattern which Is formed by a system of intersecting and reflected Ishock waves (Fig. 2). Good agreement was found-between theory and experiment on pressure distribution. Orig. art. has: 8 figures and 6 formulass JAB] SUB CODEt 20/ SUM DAM 09Jun65/ ORIC REFt 006/ OTH RZF1 001V ATD PRESS Card 33  87432 S/191/60/000/010/004/017 S gilt) B004/B06O AUTHORS: Skrylova,.L. V.., Molotkov, R. V., Gonor. E. S.. Kazanskaya, V. F., Gvirts, E. M. TITLE: Polyglyoidyl Cyanurates as Heat-resistant Epoxy Resina PERIODICAL: Plastioheekiye massy, 19609 No. 10, PP- 13-14 TEXT: The'authors based on the U.S. Patent No. 2,809,942 to synthesize an epoxy resin from cyanuric acid and epiohloro hyqrin ()i~(ETB-Resin)). [Abstracterfs Note: The synthesis is not describedj. Number of epoxy groups (29-32%), content of inorganically bound chlorine (0-04-0-06%), and content of organically bound chlorine (5-6%) were determined. ETs resin was polymerized either with maleic anhydride or phthalic anhydride. Its thermomechanical properties were examined and compared with those of 3,A-6(ED-6) resin (a than resin). A better heat resistance (up to 170-175'C) and a smaller dielectricity loss.were established at high temperatures,.as compared with ED-6. There are 2 figures and 3 non-Soviet references. Card 1/1   J ili U it J4 S XV a It 11 "1, _ 1, 6 it it 4t)0 1 j - - I re~Idt4k ;.4. 00 oil M7. 62 us "W dm i u * w f *0 r s . C C b of left ;I. I Iftf- 1 A%If. is# nMkvj of e4j"itto %mm AWWtim 0( jSfth by soq 00 in the ckrmmrwk i = f w .1 0 o ovir pwjO& good, A s03 Intior pktM -dd bc Obt&WW if ip,, %WWWR of i 0 ~ the "ballillwo "*U^7 -Mmoft ,vtlp. in Of,* see i see l o . too A 11 S Lm&fALL~AL U1111411141 CLAWK1111610 - I------ fife wee - wsjj5 .40 iov awl ua If 10 I fs R u A to Flo 900 0:0 000 0 :~ : 000'0 000 00 00,000006 00090000 44 00 0940000 0 00 I  FA GONORCISIMi I- S' I . - - - -.1  GONCROVSKIY, I. S. /tri"i4mot., littir 0 -1946, PA 19T2  in 14"W" lho F" 33- soofamirv I lh~Agn llwgwy tA x1om" fru A W^Intltsw A to-wiAticr valvr Im I"W.wv ro"Wol "( a WOU Ntsllot 0 "1, 0. rfmsitlo~ml arwi V41iollon wife-11 141-04#1110118 OW " 14WO VEIVP tol, IIW 1- 11141-10 At# Ilm-sligom, Trool fm ate voll.11"Woomil I.kw Oh. broookat twomilict at Illinciew are oliom sovorol,  GONOROVSKIY, is so 'ton the Theory of Determining Processes in Selective Systems," Radio'tekhnika., 7., flo-lo 1952   GONOROVSKIT, I.$. .Clkdib signals and fringe phenomena in radio circuit@] jkdjo- signal'y I perekhodaye larlentia v.radioteeptakh. Konkva, Sviazi- isdat, 1954.1326'p. 7:11D)  USSR/Electronics Card 1/1 GonorOVBkiy, I. Active Member, VNORiE Author Title The-relation between frequency and phase characteristics in linear c"ir-- cuits Periodical Radiotekhnika.9, 11-18, Jan-Peb 1954 Abstract Considers interrelations between frequency and phase characteristics and their influence on transient processes. Discusses conditions for which the sign of derivative of-the phase characteristic can be varied; and shows that, in the passband of any four-terminal network, this characteristic has a negative derivative. A positive derivative is possible only in a delay band. Four references: 3 USSR Institution All-Union.Scientific and Technical Society of Radio Engineering and Electric.Communications imeni A. S. Popov (VNORiE) Submitted November 14, 1952    IVANOV-TSYGANOV. A.1.. rodakto,r; LIDNIVA. ktor c1pundementals of radio onglusering] Omnov7 radiotakhniki. Moskva. 0o@. tsd-vo Ilt-ry po voprosen eviast I radio, 1957. 726 p. Obdlo) OUM 10:4) -7-11cull  tin M10 V 11-415, AUTHOR: - Goporovskiyt.,I 1. S. 10g-10-7/19 TITLE: e on the Phase Pluctuation in an Electron Tube Oscillator (Yeshche o r1yuktuatall fazy v lampovom generatore) PERIODICAL: Radiotekhnika i Elektronika, 195?, Vol-II, NO-10, pp. 12?9 - 1288 (USSR) ABSTRACT: The problem was dealt with by the author in an earlier paper (Ref-1) but since the above work was criticised by S.M. Rytov (Ref.5) it was thought necessary to clarify and amplify certain reievant sections of the above work. Fivet, an amplifier having a single resonance circuit as its anode load is considered. The anode Voltage is in the form: ~ua(t) = Uo Cos W 0t (1) and the fluctuation voltage at the anode is: U.t(t) U 4(t) cos-x = UO-(t) cos (wot (2), where U (t) is the amplitude and 0(t) is the phase of the fluctuating voltage component. It is shown that the average Card 1/3  109-10-7/19 More on the Phase Fluctuation in an Electron Tube Oscillator. square value of the fluctuating voltage amplitude is given by Eq.(4), while the average square deviation of the phase is: x2(_t:) 2a[ 1 - e- ^01 where: eIao R2 a = 1 (16) U2 It 0 0 is the averaging timel Iao is the DC anode current and -ro 2Q/wO where q is the quality factor of the tuned circuit (see Fig.1). Bq.(l?) takes the form of Eq.(18) for ---!o 00 (1. e. ~ when ~ the second term of Sq- (17) becomes 0). Tie analysis is extended to an LC oscillator (see Fig.2) in which the anode current is a function of the grid voltage as expressed by: i su - YU 3 Uard 2/3 a 9 g (20)  109-10-?/~q .,More on the Phase Fluctuation in an Electron Tube Oscillator. It is shown that, in this case, the dispersion of the frequency deviation.is given by Eq-01), while the square phase deviation is expressed by: xlco 2a 1 + e-t-/Vo (35) .On the basis of the above results, it is concluded that most of the Rytov criticisms (Ref-5) were due to a misunderstanding, which arose as a result of certain,$implifying assumptions which could not be elaborated due to the limited length of the author's paper. On the whole, the results of the above analysis coincided with those obtained by Rytov, even though the mathe- matics employed was considerably simpler, though undoubtedly less rigorous. There are 3 figures and 6 Slavic reterences. SUBMITTED: Septmiber 3, 1956- AVAILABIR: Library of Congress. Card 3/3  SOV/109-3-12-7/13 AUTHOR: Gonorovskiy, I.S. TITIR: Transmission of Pulses with Linearly Changing Carrier -Frequency, Through Selective Systems (0 prokhozhdenii impulbov s lineyno izmenyayushcheysya chastotoy zapolneniya cherez~izbiratellnyye sistemy) PERIODICAL: Radiotekbnika i Elektronika, 19589 Vol 3, Nr 12, pp 1485 - 14% (USSR) ABSTRACT: A general solution of the problem is attempted. It is assumed that the input signal is in the form of a hi~gh_ t frequency pulse, extending over an interval t1< t t2 and is expressed by: e(t) EM Cos (WP Pt2 + (1) 0 where 3(t) is an arbitrary envelope of the signal, W1 is the carrier frequency at the instant tlf 0o is the initial phase, and 0 determines the rate of the frequency change. The instantaneous frequency of the signal is expressed by Eq (2). The selective s7stem. to which the pulse is applied is in the form of a cardl/4 Gaussian filter and has the transfer coefficient K 9  SOV/109-3-12-?/13 Transmission of Pulses with Idnearly Changing Carrier Frequency, Through Selective Systems which is expressed by Eq (3), where w is the resonant p frequency of.the filter,.. 2V-a is half the bandwidth of the filter and t is the slope of the phase character-.. 0 istic. The unit impulse response of the filter is given by Eq (4). Consequently, the response of the filter to the pulse,~expressed by Eq (1) is given by Eq (6). If the envelope of the input signal is an exponential function as defined by Eq,(8), the output signal is expressed by Eq (9). By-introducing a variable � , which is defined by Eg' :(10),.the output sienal is expressed b Eqs (11)1 where the function W k is defined by Eq (125; the complex arguments z1., z 2 are defined by Eqs (13) and (14), res'peetivelyo Fqs (11) can also be expressed in the form of Eq (l?) in which fun tion WM is defined by Eq (16). -The above formulae can be used to analyse a number of special cases. Thus, it is shown that the application of a high-frequency step (constant amplitude Gard2/4 and constant frequency) produces an output signal which  SOV/109-3-12-?/13 Transmission of Pulses with Linearly Changing Carrier Frequency, Through Selective Systems is expressed by Eq (20) where I is the probability integral. If a signal of constant amplitude but with linearly changing frequency is applied to the filter, the output is in the form of Eq (21), where z. is defined by Eq (22). By adopting the notation of Eqs (23), it is possible to transform Eq (21),into Eq (26). From this, it follows that the:envelope of the output signal is jiven by Eq (2(3). This formula was used to evaluate the envelope numerically and the results are shown graphically in Figures 1 and 2., for various values of the parameters m and n . It is also shown that Eq (21) can be represented as Eq (28). From this, it is found that the maximum value-of.the envelope is expressed by Eq (30). If the input signal is a pulse with a linearly changing frequency and if its duration is, t2 , the envelope of theoutput signal can be expressed by Eq (36). The arguments z 1 and z 2 in Eq (36) can be expressed by either Xqs (35) or (3?), depending on whether the frequency (;ard3/4 deviation in the pulse is small or large in comparison with  SOV/109-3-12-7/13 Transmission of-~~ Pulses with Linearly Changing Carrier Frequency, ,Through Selective Systems, the bandwidth of the filter. If the deviation is smalli the output signal-envelope is in the form of the curves shown in Figure 3; the case of large frequency dieviations is illustrated:in Figure 4. The author thanks T.M.Rubasheve, .Engineer, for calculating the graphs in this paper. There are 4 figures and 6 references, 4 of which are Soviet and 2 English. SUBMITTED: March.4. 1958 uard' .4/4  AUTHORS: Neyman, L. R., Polivanov, K. M., SOV/105-56-7-29/32 Zhekulin, L. A., ggliorovskiy, I, S., Solov'yev, I. I., Taypk-in-,--Ta-.--Z.-,--Gavrilov, M. A, Ullyanov, S.-A.I.Lavrov, V. M. and others TITLE: Professor G. I. Atabekov (Professor G. I. Atabekov) To His 50th Birthday-(K 50-11etiyu so dnya rozhdeniya) PERIODICAL: Elektrichestvo, 1958, Nr 7).PP- 93 93 (USSR) ABSTRACT: Professor Grigoriy Iosifovich Atabekov, Doctor of Technical Sciences, was born in 1908. In 1930 he graduated from the Blektromekhanicheskiy fakultet Tbiliaskago politekhnicheskogo instituta (Depto- of Electromechanics at the Tbilisi Polytechnical Institute). He worked as engineer in the Zakenergo, then moved to Moscow where he -worked as chief eng3neer.in the Mosenergo and then in the Teploelektro- proyekt. He worked out several distance-pratection circuita which are used in energy systems. In 1945 an inertialess directed high-voltage pro tee tion device with a 1,ha3e sensitive circuit was developed as control organ for the 400 kV Card 1/2 transmission line from the Kuybyshev Power Plant to Moscow  Professor G. I. Atabekov. To His150 th Birthday SOV/105-58-7-29/32 under his supervision in the TsNIEL of the Ministry of Electric Power Stations. In 1950 he was awarded the Stalin Prize for the development and introduction of the mass production of directed high-voltage filter protection device for electric supply lines. Since 1946 he is head of the Department of Theoretical Foundations of Electrical .Engineering at-the Moskovskiy aviatsionnyy institut (Moscow Institute of Aeronautics). He made 48 inventions and published 98 scientific papers. He is memt)er of the editorial staff of the periodicalIlzobrotatellstvo v SSSR11 ("Inventions in the USSR") and the periodical"Izvestiya vysshikh uchebnykh zavedeniy'(Energetika) ("University News" (Power Engineering)). His papers were translated and published in Hungary, EjIMSAia , and China. There is 1 photwmph- 1. ScientifieLpersonnel--UWR Card 2/2  AUTHORs GonorovskiX,_Xx-~1% I Jember 108-13-5-3/11 o-:r- the society TITLE- On the Theory of the High-Frequency Autogenerators With Lagging Feedback (K teorii vysokochastotnykh wrtogeneratorov s zapazdyvayushchey obratnoy svyazlyu) PERIODICAL: Radiotekhnika, 1958, voli~, 13, Nr 5, PV* 19-30 (USSR) ABSTRACT: Hore the possibility of a stable generation of a spectrum of equidistant frequencies in dependence on the shape of the frequency characteristiG in the oscillation system and on the ratio between the transmission band of this system and the lag is investigated. The autogenerator here is represented as a combination of a resonance amplifier with an amplitude limiter in the feedbalk circuit. Here consciously the consideration of fine details of the voltampere characteristic of the electron device is dropped and the latter is traced back to an ideal,limiter. This allows to determine the basic Card 1/4 characteristics of the phenomenon without employing  Un the Theory of the High-Frequency Autogenerators 108-13-5-3/11 'With Lagging Feedback nonlinear differential equations. The possible steady modes of operation are investigated and the stability of the s5ectrum. production is determined. Here is shown: 1 If -the transmission band of the selective system contains not more than two frequencies which differ for the quan a stable generation (soft way t1ty 2T/(Tl +Tk)' of operation) is possible only at one of these frequencies, independent of the shape of the resonance characteristic of the system. 2) If the number of frequencies reaches three and more a stable generation of the spectrum of equidistant frequencies (with the interval 2*/(Tl +rk) is possible on the following condition: The resonance characteristic of,the selective system is saddle-shaped and secures the amplification of the "sidell-frequencies with regard to the central frequency- 3) The complicated auto-oscillation which is produced at the limiter output is a phase modulated oscillation with the 'modulation,- -period equal to the retardation quantity. Card 2/4 4) The oscillation produced at the output of the colective  on the Theory of the High-Frequency Autogenerators 108-13-5-3/11 With Lagging Feedback Card 3/4 systemp 1. e. the really measurable and exploited one, can have a considerable amplitude modulation, forming because of theunequal transmission of the spectrum which acts at the limiter output. The law of the instantaneous phase variation, however, must be the same one as at the limiter output. This condition must be regarded as a claim to the oscillation system, which i3 necessary for asbea4 mode operation in the spectrum generation. The main characteristic of the autogenerator with lagging feedback is the capacity of generating different frequencies and on certain conditions also several frequencies simultaneously. The mechanism of the increase and of the stabilization of the vibrations in case of free starting as'well as in case of starting from sufficiently strong high-frequency pulses will be discussed in a separate article. k the inclination of the phase characteristic.  on the Theory of the High-Frequency Autogenerators 108-13-5-3/11 With Lagging Feedback the amplitude characteristic of the nonlinear inertialess fourupole. There are 13 figures and 8 references, 7 of which are Soviet. SUMMED: October 4, 1957 AVAILABLE:. Library of Congress 1. Generators--Theory Card 4/4  GONOROVSKIT, I.S. Astablishment of self-oscillations in a high-frequency oscillator withretarding feedback. Radiotakhnika 14 no-1:25-33 Ja '59. (MIRA 12:2) 1.Peystvitel'un chlen Nimuchno-tekhnicheskogo obahchestva radiotakhniki.1 radionvyasi in.-A.S.Popova, Oncinatorm. Blectr4c)  9. 3 2 6/109/60/005/o6/oO3/021 zl4D/El63 'AUTHOR: Gonorovskiy, 1.9, TITLEs Ltage with Rapidly Varying Frequency on. an Inertial. System PERIODICAL: Radiot Iekhnika i elektronika, 1960, Vol 5, Nr 6, pp 902-912 (USSR) ABSTRACTt In problems concerning an external force with varying _,,,~frequency the assumption is usually made that the frequency variation is relatively slow. The purpose of the presentarticle is the analysis of the case where the frequency of the external force varies so rapidly the network passband is small in comparison with the time 'constant of the network. In particular the case of the'effeats on an inertial system of "zero beats" arising in beats of frequency-modulated oscillations is studied. The author.first determines the.signa v, structure in the region of low values of instantaneous frequency where the waveform of the signal is no longer Card 11almost" sinusoidal. It-is found that the effect of 1/3 the signal in this.case hasthe character of an impulse that the time of passage of the signal frequency through  8/109/60/00 510 6/003 /021 11W/K163 The Effect of a Voltage vith-Rapidly Varying Frequency on an Inertial System fo.roe whose intensity-depends on the initial phase of the signal, i.e. the phase at the instant of passage of frequency through the zero value. An exact expression .is found for the filter response to a, single cycle of signal frequency variation. The sOlution involves. the probability integral of complex argument. The approximate response has a shape of the impulse characteristic of the network with initial amplitude proportional to the ratio of passband to the square root of the rate of variation of angular.frequency. The amplitude also depends.on the initial phase of the signal at the.instant of zero beat. The case is further considered of a resonant system vith passband located in the region of distorted waveform. k similar conclusion to the above is,reached. k proposal is made for generating a normalised random process by generating Card zero beats.-between two frequencies such that the phase Of the-output oscillation at instants.of zero beat is 2/3 random and the time constant of the system is much  . . I/ V~~- ,  3712;~ S/108/62/017/005/00-1/007 D407/D301 AUTHOR: _g2ao=Y_qki yv_~ Memberof the Society (see Asso- Rciation) TITLE: Simulation of ladder filter by means of a delay air- cuit 0 PERIODICAL: Radi tekhnika, v. 17, no. 5, 1962, 5-15 TEXT: A simulation principle is described, based on the reglace- ment of a single signal-pass through a ladder network, by t e re peated passage of same signal through a single network, inserted. in the feedback circuit. This principle is illustrated by opti- mal filtration of-a radio-pulse with frequency-modulated signal. Experimental data are given on the compression of pulses by means of a delay circuit with phase-compensating networks. Such'a me thod of simulation makes it possible to determine the principal characteristics-of a filter by a study of one or more of its net 'works, prior to the manufacture and assembly of the complete fil 17-ter. tj,,,rst? formulas are derived for the spectral density and for .-0-4374- -57  S/108/62/017/005/001/007 Simulation of.ladder ... D407/D301 the phase-characteristic of the signal. Phase:-compensating filtersq: consisting of second-order networks, are considered for the pur- pose of assessing the requirements towards the characteristics of -the closed circuit. By means of a delay circuit, containing but ones network, it. is possible to analyze a signal structure, corresponding to the output of an actual ladder filter. This makes it possible to select experimentally the network parameters and the elements of matching and compensation; thereby the required number of net- works is simply determined according to the number of signal- passes, for which the best shape of compressed signal is obtained. The realization of the above method involves the fulfilment of a number of rigorous conditions, imposed on the characteristics of the elements of the feedback circuit. Two of these conditions (sys-" tem stability and a decrease in circuit damping) are contradictory., By using special methods of automatic control, it is possible to reduce oonsidera.Vly the gain-in the damping oircuit, and hence to increase the number of signal passes. It was found that a fiXter can be simulated by means of a circuit, containing a single net- work, provided the ~required total number of networks is moderate Card 2/5 -0,  -S/108/62/017/005/091/007 Simulation of ladder D407/D301 (about-10 to 15). In order to check the effectiveness of the pro-' posed method the following input-pulse parameters were selected: (f denotes the central frequency, fo = 2.5 Me., 2f D 1 Me.; 0 fD the frequency spectrum of the input signal). Oscillograms of the delay-circuit-output voltage are shown, with the insertion (in the circuit) of one, two and ten networks respectively (r = 8/usec). From the comparison of the oscillograms it follows that 10 signal- passes through a circuit with a single network have the same effect as 1 pass through 10 networks. This shows that the influence of pa-.. rasitic circuit parameters is negligible in the case of 10 passes. Similar oscillograms are shown for pulse durations C equal to 20, .50 and 100juseconds, respectively..The experimental data obtained ,are not- only valuable as proof of the efficiency of the simula- tion method.employed, but also for the technique of designing op- timal filters. Experiment has shown that it is possible to obtain large coefficients of pulse compression by means of filters con- sisting of a large number of phase-compensating networks. On the ,other hand, it was found that the frequency-amplitude filter cha- icard 3/5  S/108/62/017/005/001/007 Simulation of ladder D407/D301 racteristics require careful compensation. This should be carried out for each group of networks separately. Properties of the delay circuit are.also examined under conditions of signal separation against, noise background,and under ."passive generation" conditions, A simple gating-device can be used for separating the r6quired Sig- nal. If the delay time t'4Z, then the noises accumulate and the d signal-to-noise ratio at the output is inferior to that of compar- able "open" phase-compensating filters. If td>Z, this shortcoming can be overcome. A delay circuit with a delay line, corresponding to td >'C', can also beused for passive generation of signals; the pertinent relationships between the parameters of the phase-compen- sating network and of the-output signal, are derived. There are 9 figures and 5 references: 2 Soviet-bloc and 3 non-Soviet-bloc. The references to the English-language publications read as follows: R. Klauder, A. 0. Price, S. Darlington, W. J. Albersheim. BSTJj V. 39, no. 4, 1960;*C. E. Cook. ?ire, v. 48, no. 3, 1960. Card 4/5  S/108 62/017/005/001/007 Simulation of ladder D407 D301 ASSOOIATION.: 111auchno-teklinicheskoye obshchestvo radiotekhniki i elektroavyazi im. A. S. Popovs. (Scientific and Techni- cal Society of Radio En gineerin and Electrical Com- munications imeni A. S. Popov) Abstracter's note: Name of Association was taken from first page of j =~nal._7 SUBMITTED: October 6, 1961 Card 5/5  YEFIVDCHKINA, Yevgeniya Petrovna; KOZHMIKOV, Naum losifovicb; retsenzent; MIKEWEVA, Ye.A.2 Q0jQ2M 46, U%ILOVA, T.M., red. (Problems in the theory of probability] Zadaohi po teorli veroiatnostei. Moskva, Mosk. aviatsionrqi, in-vt im. Sergo Ordzhonikidze,, 1963. 96 pq (MIRA 17t7)  00140ROVSKIY I S-- ITSKHOKI, Ya.S., doktor tekhn. nauk, prof., re se'ien ; VLASOV, V.F., kand. teklin. nauk., dota., retsenzent; IAPISp A.A., kand. tekhn, nauk, dots,,, retsenzent.- ZABOLOTSKIY, N.G., red. .(Radio circuits and 61gnals) hadiotekhnicheskia tsepi i signaly. lzd.2.,, ispr. Moskva, Sovetskoe radio, 1964. 694 P. (MIRA 17:11)  GONOROVSKIY I S, *'ITSKHOKI, Ya.S.t doktor.tekhn. uauks prof*.. V.F.9 kand. tekhn. nauk,, dots... retsenzent; LAPIS, A.I.,, kand. tekhn. nauk, dots., retsenzent; ZABOLOTSKIY.-N.G.J. red. [Radio circuits and signals] Radiotekhnicheskie tsepi i sig- naly. Moskva., Sove,takoe radiop 1963. 694 p. (MIRA 17:5)    GIONOV, Alskoandur .The a g nience proportion of the stras^ Lines, average surfaces and average ~er"Iopos whose fooal mirfaces are forming a W-pongruenoo, Godishnik fis 55 no.1:159-173 160/161 (publ..162.)  ZAKHLRCVA, K,P.; GIONOV, Al. V. [translator] Some problems of instillinp into ouvils the concept of the theory of groups during lesson on geometric transformations.-Mat i Vz Oug 7 no.5:35-40 164. l.. Schcol-,.No.4", Moscow (f or Zakharova).  GO.NSALES, A.; HURGANOV, V.M. RemodeLling a regenerator unit f9r catalytic crackihg. Nefteper. i neftekhim. no.7:3-6 164. (MIRA 171l1) I Salavatakiy,kombinat i Vaesoyuznyy nauchno-iseledovatellskiy ;;stitut po pererabotke nefti i gaza i polucheniyu iskusstvenn-ogo zhidkogo topliva.  ,-W( m.)/EPF(c)/T Pr-4 wE: Ap5oi8685 4/000/D09 /--I" 21r 00 5 17 Karsnn,~v, V. M.t Gonzales, A. kt 0 of cmtact time on the qualitT of tbic- reaction olyttm-e Ln a "t4lytio craak~ reactor SOUX9: YeftePiararabotka i neftekhimlyaf.noo 9* 19641 12-15 1 re IMPIG ZAGSt __petroleum finivAl catalynis A study 4C the errect ot'conta~c#, time'on Cho yield and quality roducts showed that there is a rate of priwar-y decomposition P t-'-;-drocek.-bon moleculea &t high ap-acA th'~ first -i t3 rl n,J t h o c ft Z1t ';j 0 aq 'd tho ad i V e r 'Ir"JUCL6' j 1111ralkiraLf~d compou, ri ro i r,2f;iILnce tLc3a of the pr~,d-,a,-', T.-I ~n ia contool. ol unaaWrqii,~i e Ll~ r o, ii rb 0 a a .Pr o c -, a i i n z 4 , i c nru 1L i,; aLI) s n: 'Lione ~N Do 'f ,I -OLOSO &0 a MJX%.UrO VJ1.12 fro,'- ad OrIg. art. has I figu:rot I graph, and 4 tables. Carwa  L 57116-i!~; AccEssion hRt Ap5ol8685 .A-wociATinut seaa-mtsidz kombimt (salavixt combine) i v.TIZP SUBPU =J: 00 MCLI ~ 00 SUB OODE: FP, GO NO P" =1 002 omt 000 JPRS isx card 0   FOV KURGANOV, V.M.; AGAFQ A.V.; ABAYEVA, B.T.; POLETAYEVt V.B.; VIVIYER, A.S.; RUDOVICH, M.A.; BELYAYEVA, Z.G.; RUTMAN, G.I. Results of redesigning an industrial catalytic-cracking device. Nefteper. i neftekhim. no.9:6-10 163. (MIRA 17:8) 1, Salavatskiy kombinat i Vsevoyu,-nyy nwichno-issledovatel'skiy Institut po pererabotke nefti.  laMGANOV, V.M.,- -GONSALES, A.G. Remodeling a catalytic cracking furnace. Nef teper,, ~I 1wftekhim. no.5$36-39 164. (*M 17:8) 1. Vsesoyuznyy nauchno-iseledovatellskiy institut po pererabotke nefti i gaza i polucheniyu iskusstvennogo zhidkogo topliva i SalAvatskiv neftekhimicheskiv kombinat.  S/282/63/000/OOZ/003,/005 A059/A126 AUTHORS: Kurganov, V. M., Gons les, M. A., Agafonov, A. V~ TITLE: Methods of supplying stocks to a reactor of catalytic cracking PERIODICAL: Referativnn-thurnal, otdelInyy vypusk, 47. Khimicheskoye i kholo-' dillnoye mashinostroyeniye, no. 2. 1963, 33,_ abstract 2.47,186 (Novosti neft,~ u gaz. tekhn. Neftepererabotka i neftekhimiya, no. 8, 1962, 15. 21) TEXT: Stock feeding to the reactor by single vapor-liquid flow has con- siderable advantages over the separate feeding of the liquid.and vapor phases to ies the operation and reduces the operating expensesr. .the reactor,'greatly simplif of stock preparation. The contacting method based on spraying of the liquid phase over the surface of the catalyst layer is the most unsuitable of all known methods, since it does not exclude coking of the internal surfaces and conglo- merate formation. The utilization of any cross section ofdropping catalyst film for contacting with the.-stock creates a uniform distribution of the liquid residue on the greater partfpf the catalyst, but does~nbt exclude coldng of the Card 1/2  S/282/63/()00/002/003/005 Methods of supplying stocks to a... A059/A126 reactor. The most advantageous of the alternatives considered is the setup based on the method of phase contacting under restricted conditions on mo ins V. in the suspended state below the distributing plate (model BHIJHHII - K -18 (WIIINP-K-18)). -Fitting out the reactors of catalytic-cracking devices with an inlet assembly for the stock according to the model VNIINP-K-18 permits: to process heavy petroleum stocks without coking of the reactor and conglomerate formation; to increase the yield of light petroleum products by 3 to 5%, to reduce catalyst consumption by 0.5 to 1.5 kg/t of the stock; to reduce the tem perature of the stock on discharge.fromthe furnace from 480 - 4900C to 420 45000; to Prolong the time of passage through the setups and to stabilize their capacity during the whole cycle; to eliminate laborious and dangerous work In-. volving.the removal of coke from the internal surface of the reactor.. 2here are 4 figures and 8 references. (Abstracter's note: Complete translat ion]. Card 2/2   6- D 1-4 -ov- . '. , 1.* H I --- ---- YUSE I B'OOIC EXPLOITATIoN sov/546o Leningradukly motalliaheakly xavod. Otdel tekhniohookoy 1nformatell. Nekotoryye voprosy tekhnologil pro.Uvodatva turbin (Certain Problem In the Hanufacturo of Turbines) Moscow, Haahsla, 1960. 398 P. (Goriest Itat Trudy, vyp. 7) Errata slip Incorted. 2,100 copies printcC Sponsoring ftency: RSFSR. Sovot narodnogo khozyayotva Leningrad- Blcogo okonomicheakogo administrativnogo rayons, Upravleniye tyazhe2:oeo machinostroyeniya, and Leningradakly dvazhdy ordena Lonina metallicheakiy zavod. Otdol tekh'nichookoy Informataii. Ed. (Title page)t G.'A.'DrobIlkoj Editorial Board, Reap. Ed.s 0-A. Drobilko, B. A. Glebov, :A. N. Nayzell, and H. Kh. Pernik; Tech. Ed.: A.' 1. Kontorovioh; Managing Ed. for Literature on Machine- Building Toohnolosys Ye. P. Neumov, Engineer, Depart- ment,14achgIz. PURPOSE: This collection of articles is intended for technical personnel In turbine plants, Institutes, planning organizations, as-well as for production Innovators. Card--2p=1-  f7 Certain Problems (Cont.) SOV/5460 COVERAGE: The experience of the LMZ (Leningradakly metallicheokiy zavod Leningrad Metalworking Plant) in the manufacture of modern large-c,apacity turbines in presented.. Methods for the rationall- zation of basic manufacturing processes and for the;meahabizatioxi and automation of manual operations are given. Descriptions of attach- ments and tools designed by LMZ for improving labor productivity and product quality are provided, and advanced inspection methods discussed. References -avocipany some articles. No personalities are mentioned. There are 20 references: 25 Soviet and I English. TABLE OF CONTENTS: F6reword 1. NEW PROCESSING M ETH ODS IN MACHINING AND ASSEMY, Gamze, Z. M. EEngineer]. The Organization, Methods,and Trends In Efforts for Improving, the Easy Manufaoturabillty of Designs for Large Hydraulic Turbines Card-a/-j:e-  Certain Problems (Cont.) SOV/5460 Gonserovskaya, M _30 [Engineer]. The Welding of Turbine-Wheel Blade racm-'an d No7zle Segments Made of Type 15Xhl1MF Steel. 254 Gonserovskiy, F. 0. [Engine erb The Effect of Process Factors on the Quality of Austenitic LSteell Welds 261 Kochergin,, A. K. [Engineer). Resistance Spot Welding of Metal Constructions 275 Pachin, V. Kh. [Engineer],, and 0, M. Pevzner [Engineer]. The Production of. Parts by the Investment,Casting Method 278 Turovskly, A. I. [Engineer], Electric-Heat-Treating Furnaces Designed by IXZ (Leningradekly inetallicheakly Zavod _-_'~Ienlngiad r Metalworking Plant] 286 Feygin, L. A. [Engineer]. Induction Heating of Parts by In- dustrial-Frequency.Current. 293 Butkevich., P. I. (Engineer],, and 0, A, Sazonov. Iron Plating Card-4/,12  25434 ILS 0 0 5/1.37/61/00Q/006/058/092 A006/A101 AUTHOR: .0oneerovsk&ya,,T.S. TITLE- Welding piles of 15Kh11MF steel spee-d-wheel blades and nozzle seg- ments PERIODICAL: Referativnyy zhurnal- Metallurgiya, no. 6, 1961, 15 abstract 6E103' (V sb. "Nekotoryye vopr~. tekhnol. proiz-va turbin!', Tr. Leningr. metallich. z-daJ no. 7, Moscow-Leningrad, 1960, 254 - 26o) TEXT K T [A -9-57 (KTI-9-57) eleatrodes are employed for welding piles of 15KhIIMF and 15Khl1MFL blade& and nozzle segments. Welding is performed on d-c of reverse polarity. Mae piles which are beveled for welding only, on the see- tion of the shaft perimeter and on the b%ndage,- are welded in a device with lo- cal preheating to 300 - 3500C. To assure penezraticn of the seam root, the ini- tial pa3ses are welded with 3 mn diam6ter electrodes, and the subsequent passes with 4 - r mn electrodes. Piles with beveling for welding on the whole perimeter of the shaft and bandage .are gripped in the device and then welded outside with joint preheatling In an 6leotrie furnaCe to 300 - 3500C. Fillet welds are alter- natingly applied irtc the shaft and handage openings. Welded segments of high Card 112  2543u 3/07 ~61/000/006/b58/092 Welding piles ... WYA 10 1 pressure nozzles are manufactured in, Two variantst as welded-forged and welded- oast segment.s. The aBsembly and waldlng of wel.ded-fcrged segment's if; performed In the following sequenO6: welding-m of Inserts, Ithe rim, the reinforcing ring and the end eap. The welding and as6embly of welded-cast. segments requires the use of a device of simple deaign. V. Gort [Abstracter's note, Complete.traxnalation] Card 2/2 P 4  - - -- ------- A T Ci, 7 (1 2 C) S. 2 ~7 M'iterials for the welded-Parts of stea-m, gar. and hylrauh-c t,-3rhtnes z a, od, 'Ittd t- 1~i,: ~i~raclik:l 77 ---taJlHrriesrci,;, :nt ~rnqtsll rr -i gvarochnovo -I-q- t airbine, crpr. hirhine. hwrirnulio turhl, nv~'.t !--q!qta,,.t qtee.1, rr C, C), 17-0,37 Si, 0.4-0.7 Mu, 0.9-1. 2 C r, 0. 2~ - 0.3 5 M o, 1 .5-0. 3 5 V, not Card 1/3  ACCFSSION NR: AT4047026 over 0. 03 P), and of the TsL-20 electrodes for these metals (0. 08-0. 13 C, 0. R - 1. 2 C r, 0. 4 - 0. 7 M o, 0. '0-0. 2.1 not over 0. 04 S, not r, th(, begr resi-11ts WheTI wf-lrfin -it thr, 7, (' r! l For 1 N1 1 b titee I i) Mn. MO. S and I P_r~d KTI - 10 e lectrocles (U. ()9 13 u (1.:S -1). 7 6- 1. 1 N1 n, 9.5-11.5 -0. 4 V, not over 0. 03 S, W, P) S I i (~, wthe be4t frr veldin eratures For as turbines havin workin tem dif- ab- ve 600 C g. g p g g - , elec-,rodes are used with not over 0. 12 to not over 1). :12 C, not over 0. 3 -16 Cr. 7.5-3R 0. 6- 1 C* Mo. 0. 5 - .1, 0 M n, 14 1 0. 9 0.6-3.5 'J. 2 - 1.5Ti, riot over 0. 015 to not over G. 03 S, and -)t over 0. 025 to not tii0iine~: ire !radf, of I OK'h 1 1 C i -lot V I %Velcing  ~rlTozra-dskiv metallif-heRkIV 7-1-Vr-Al 1 A-,'I a~' M OtA 'IC';j rV, 0 FNC L: 00 R mm, P'R OTHERi 000 :`-)Vi 002 Card 3/3  J" 7 7 77 t' ;-N P "FVP(k I Air', IF i, "'4: t3f) 9. 14. 018. 5 /4 SOURCE: Ref. zh. Metallurgiya, Abs. IE57 AUTHOR- (~pnserovskava. T. - - - - - i ~ . M TiTLET7 Materia iae structural elements l s To; F we l in steam, gas and hydraulic o turbines CITED SOURCE: 7"r. Leningr. metal. z-da, v. 11, 1964, 52-71 IC TAGS: metallurgy, ferrous metals, welding, turbine, hpat resistance T OP ~c-- velded p-irf- -it tho -me-tal p1ant were- c I- io Izi. :W'L for ~7 e -7- Card 1/2 Mtko  7 L 52945-65 ACCESSION NR: ARS008966 which should have 2-5% ferrite phase in the molten metal ane used, 10" IRN3G3D2. L 7A-92S ele-trodes which ar-e stable ir a.~~rasi-- tions are used in making hydrqplic turbines. Work is in p-t-o-?Iess on overcoming pr,oblems in welding 30Kh10G101&teeI, which, according to. pm I.-iminary data, is n I 't -istp - c cavitdtional and abrasi-.e ;ear SUB CODEF: W4, IE ENCL: 00  T f) 'I" T L- -I A f, mo, 1 1 i hl gy, rerrous --;ct --irt; 7-1  Ccrc 2  GOffSBRGVSKIY, F.G.,Anxhaner. Meeting on welding heat-resistant austenItic stools. Bnergmashinest"oule no.;3:31-32 Ky 156-. (KM gig)  GoNsmajays, ir. welding austodtle steel at the Lemisoad, Notallurgima plant. Smarpmashlustroulo ao*4;23-26 Ap 156. (KWU 9:7) (Steel-Welding)  18(2,5) SOV/125-59-9-11/16,. AUTHOR: Gonserovsk.iy, P,G., Engineer TITLE: Influence of~Sequential Tayer Peening on Metal Quality in Austenitic Welds PERIODICAL: Avtomaticheskaya svarka, 1959, Nr 9t Pp 81-87 (USSR) ABSTRACT: The Leningrad Metal Works imeni Stalin had to surmount a number of difficulties in connection with the intro- duction of austenitic steel welding, due to the appea- rance of 1-2 mm'long cracks in metal built up by electrodes TsT-7 and TsT-13. It was assumed, sequen- tial peening would eliminate these shortcomings because in perlite welds it reduces the stresses during the process of welding. This method was applied.also to austenitic wel,4s and began to be used on a large scale. However, in 1155-1957, special research, carried out in the central.laboratory of the Works for determining the influence of peening on mechanical properties of austenitic welds has led to altogether different con- clusions.~During research, test-piece such as shown Card 1/3 on page 82 were used. Their welding was performed by  SOV/125-59-9-11/16 Influence of Sequential Layer Peening on Metal Quality in Auste- nitic Welds ,TsT-7 electrodes with a diameter about 3-0,- Condi- tions of welding were: Current intensity 110-130 amp.; tension 30-35 v. Results of research in respect of pro- perties of the metal fused by means of above electro- des are given in Table 1. Tables 2(Rider) and 3 give figures pertaining to transversal shrinkage, welding stresses and mechanical properties of joints welded both with peening and without it. The final conclu- sions drawn on the basis of research are: Sequential peening of austenitic welds is not exDedient; in non- rigid welded bonds, the use of it reduces, to a slight degree, residual stresses in welds, but, in the case of rigid bonds it increases the stresses. At the same time it changes mechanical properties of welds by increasing their strength and diminishing their plas- ticity and shook tenacity. There are 4 tables, 4 dia- Card 2/3 grams and 4 Soviet references, ~3 ~m q g  SOV/125-59-9-11/16 Influence of Sequential layer Peening on 1.1etal Quality in Auste- nitic Welds ASSOCIATION: Leningradskiy ordena Lenina metallicheskiy zavod Imeni Stalina (I!eningrad Order of I-enin Yetal Works imeni Stalin) SUBMITTED: September 20, 1958 Card 3/3  Y-_F~_e~l t) N F f~ MSE I BOOK EMOrIVATION SOV/546o Leningradakiy metall1oheakly, zavod. Otdol tokhnichookoy Informatail. Nekotoryye voprosy tekhnoloSIiproUvodctva -turbin (Certain Problems in the Manufacture of Turbines) Moncow, HanhSiz, -1960. 398 P. (Seriest Itat Trudy, vypo 7) Errata slip inserted. 2,100 copies printed. Spontsoring Agencyi 'RSFSR. -Sovet narodnogo khozyayotva Leningrad- Bkogo okonomichookogo adminintrativnogo rayona, Upravlenlye tyazhologo machinostroyeniya, and Loningradakly dvazhdv ordena Lenina metallioheakiy'zavod. Mel tekhnicheakoy Informataii. Ed. (Title page)s'G. A. Drobilkoj Witorial Boardt Beep. Ed.t G. A. Drobilko, B. A. Glebov, A. M. blayzell, and M. Kh. Marniki Teah. Ed : A. I. Kontorovioh; Managing Ed. for Literatu~re on Machine- iUlding Technolosyt Ye. P. Haumov, Engineer, 'Leningrad Depart- ment, DTashS1z. 13OSEs t This collection of artioles Is Intended for technical personnel in turbine plants, institutes,, planning organizations, as well as for produotion Innovators. Card=1?ar 4  f7 Certain Problems (Cont.) BOV15460 COVERAGE: The experience of the LMZ (Lenlngradakiy metallicheBkiy zavad Leningrad Metalworking Plant) in the manufacture of modern large-capacity,turbinee in presented. Methods for the rationali- zation of basic manufacturing processes and for the',meahanizatiod and automation of manual operations are given. Descriptions of attach- ments and tools designed by LMZ for improving labor productivity and product quality axe prov;Lded, and advanced inspection methods discussed. References accompany some articles. No personalities are mentioned. There are 26 references:. 25 Soviet and 1 Rnglish. TABLE OF 0ONTENTSs, Foreword 3 1. NEW PROCESSING =RODS IN MACHINING 'AND ASSEMBLY Gamze,.Z. Me' (Engineer]. TheOrganization, Nothods,and Trends in Efforts for Improving theiUsy Xanufacturability of Designs for Lar lio'Turblnos .5  Certain Problems (Cont.) SOV/5460 Gonserovskaya, T. S. [Engineer). The Welding of Turbine-Wheel Blade Packs and Nozzle Segments Made of Type 15]KhllMF Steel' 254 Gonserovskiy F 0. (Engineer], The Effect of Process Factors lustenitic LSteel] Welds 263. Kocherginp A. K. [Engineer]. Aesistance Spot Welding of Metal Constructions 275 Pachin, V. Kh,.[Engineer], and G. M. Pevzner [Engineer]. The Production of Parts by the Investment Casting Method 278 Turovskly, A. L. [Engineer), Electric-Heat-Treating Furnaces Designed by LMZ [Leningradakiy metallicheskiy Zavod-~~Ijwnjngjad Metalworking Plant] 286 Feygin, L, A. [Engineer]. Induction Heating of Parts by In- dustrial-Frequency Current. 293 Butkevich, P. I. [Engineer], and G. A. Sazonov. Iron Plating Card 8/12  ZEMZINV VIN., kand.tekhn.nauk; SMIRNOVA,, I.D., inzh.; GQNSEROVSKIY, F.G., inzh.; BIRYUKOV, VA. inzh. Welding high-chromium heat'resistant steel for steam turbine parts. Trudy LMZ no.9sl59-174 162. (MM 16x6) (Steel, Heat-reoiotant.-Welding) (Steam turbineo-Design and construction)  PETROV., Georgiy L'vovich; ZEWIN, Viktor Nikolayevichj XQHSAFQVSKIY.,,, ~rl ~evich~KUREFIKA, G.N., red. izd-va;-BARDINA, F~sdor Gri A.A., tekhn. red. J!deldingof heat-resistant atairdess steals] Svarka zharoproch- .nykh nershaveiunhohikh stalei. Moskva, Mashgiz, 1963. 247 p. (MIRA 16:5) (Steel, Stainless-Volding) (Steel, Heat-Resistant-Welding)  0 AISC- PHASE I BOOK EXPLOITATION SOV/6435 Petrov,.Georgly Llvovloh, Vlktor Nikolayevioh Zemzin., and Fedor Grigorlyevich Gonearovskiy Svarka zharoprochnykh nerzhaveyushchikh staley (Welding of Heat-- Resistant Stainless Steels) Moscow, Mashgiz,-1963. 247 p. Errata slip inserted. 5500 copies printed. Reviewer: I. A. Zaks, Engineer; Ed.:. B. 1. Bruk, Candidatt of Technical Sciences; Ed.-of,Publishing House:, G. N. Kure~ina; Tech. Ed.: A. A. Bardina; Managing Bd..-for Literature on Machine-B61idingTechnology, -Lenlngrad Department, Mashgiz: Ye. F. Naumdv., Engineer. PURPOSE: This book in intended for engineering personnel.of plants, design bureaus, and scientific research establijohments concerned vMUnnuEacture and design of welded structure's made from heat- resistant steels and alloys. ,Card I/IL 2-:  Welding of Heat (Copt.) SOV/6435 CovEmE: The book reviews problems connected with welding of high-alloy heat-resistant.ohromium and chromium-nickel steels and some heat-resistant.nickel alloys, and problems of weld- ing these materials.to low-alloy steels used in structures which operate at high temperatures. The Introduction and - chapters I. III, and IV were written by 0. L. Petrov, chap- ters 11 and V by V. N. Zemzin an d chapter VI by F. G. Gonserovskiy. :No personalities are mentioned. Most of the 192 references are Soviet. TABU OF CORTENTS Introduction. 3 Ch. I. Heat-Resistant Steels and Alloys Used in Welded structures 5 1 Complex f properties determining heat resistance 5 2:_ Methods Ofordetermining heat.resistance 5 Card 2/ q -  =Mfg Froportlao of aA-925 hard-facing eningradnkiv metal I i ch e F. k z a 1 h e -3 k o !7 , V 2 0 6 1 d a g A S h a r d f a c I n g ',.,A 925 hard I cod ne we i n laboratory c) f g c I I r F, i - d ra i t r ad 1-1 pt a u e. 1 , IC !I - aT ~I - a C 17 V, h 1 7 G a 1 gn a Led &A-9.15 a V G a C 0 rC' 7 P H I h a 8 e I di n i r a , and y i a I d a I C e a Lc-farritic micros Lructure wh ic h tif te r has t treatment at Cord 1/2 - - - - - - - - - - - - T~  L 13551_65-:-- CESSION NR: AT4047027 has an IHB hardnesa of 430-470, The deDogited rietal can- -0.30% C, 0.9 maxZ each Si ano Mn, -251 Cr, 4.5 -5.0 1 Mo. Laboratory and ftel--i t?stq 91iowed tne metal to be 3 i II a C., t t o c o r r o a i on c a v I t c t a i n e a r nd welding- 'aLI o n EA -25 electroues c. r i e a c! -I X TLO 19! r A- urbtne working wheeLs a c t1h a 13ratsk tiyd r c, e-I e ccr I rPowe r Drig. art. hasi 3 figurea and 6 tabies, I none 0 E N ~: L i 7R N 0 RMV SOV-t, 004 ut xiii it 1 Card  GONSEROVSKIY, F.G., inzh. Properties of l5Kh5W weldeUsteel joints made by the electric a2M r,,iv%" -- nd I /- I IUTDA  d m)/gfA( )/]~#P(v,)/T/JWP(t)/W(k)/WP(z)/W(b)/&iA(h)/W- A( 44~ t 3235-66 E14T ACCESSION NR.- M021984 AR/0286/65/600/014/0059/0059 6214791.89 Be nnyyj 0-1. AUTHORt Gonserovskly, F. G'. Vil. i E- 'Method of weldin IT 9vafiadiuM:t6:chromium and chromium-nickel stainless a eels T and- nick 1-4110ye.. -:Class 21j I(q., 112924 t tova_r,nykh. SUMCE Byulleten Z, znakov, no. 14 i 19659,59.- obre , WOPIC TAGS-_ chromium steel, stainless'steel; chromium-nickel-ater.1- nickel a4ci um tainlohs steel vanadium'jolning, nickel alloy vanadium, vanadi vanadiuai veldink, s 7-- 7 4 7- 7 joining tc issued fbr a method of welding:vanadium: ABSTRACT. An Author Certificate has been . -base alloys. To obtain, chromiwd;_~. or. chromium-nickel stainless steels and nickel better dUctility and. thermal stability of veld6d Joints, the welding isdone with the use of a third metal 'an-Akmcolron-base alloy containing U-17% Cr, (NS _7- Oigafti zataiya: g9pilAiLiAvenno Awiteta po audostrop!n1yu SSSR ASSOCIATION,! go '::I rg zat -the Stflte-~Combdttee -on Ship 'Buil ingiSGS ~1(0-ahi' ion 6f 7 ENCLI 0 'Y 'SUKETTED: 22WA 0 SUB COD RFF SOV., 00 Wn OTIM.. 000 ATD PRE ~ E S 6f d 1 qn i M4 I 7=4- r  -1; 2-2alA ACC Nks AP6011215 SOURCE,r.ODE: UR/0413/66/ooo/006/0052/0053 INVENTORs Gonserovskiy,- F.,:C. 4herman, V. P ORG:- none TITLE: Method of j6iningniobium and-its alloys to va,nadiums' Class .21, 'No. 179855. Izobreteniy SOURCEs ap-promyshlennyye obraztsy, tovarnyye znakto no, 60 1966, 52-53 TOPIC TAGS: welding fusion.weldLng.-niobiumo niobium alloy, niobium welding, alloy welding, vanadium, filler material, titanium,. titanium filler, niobiwa titanium wAding ABSTRACTi This Author Certificate -introduces:a method of welding- Iniobium and its alloys" to vanadium.-&,[ To ensure a high ductility -of A we titanium is used 49 ft1lermaterial IND SUB CODEC' 13/ SUBHDATZ:,~,22AprW ATD PRESSt 170 we sZlar metals 1ding of d& UDCs 621,79la762.5.Q42, ard  YARPOLISKIT, L.K.; VISMMVSKLTA, G.O.; WORSKIT, D.F.;-GRUZ, B.Te.; YAESINEW, A.S.,- MI"XIN, I-a.; G~~~T& ~T--; KIPRWOV, A.I. Improvement in the'sethad for producing p-nitrophenylehloro- metl~rlcarbinols. ~ M4deprom. 13 noJi20-21 Mr '59. (KIM 12:5) 1. Institut organicheskoy khtmil. AN MR i liyevskiy khimiko- Imuld,* sayod Iment 9- V.Lomononoyso  KOROVYAKOV, I.A.; NELYUBIN, A.Ye.; RAYKOVA, Z.A.; KHORTOVA, L.K.; GONISHAKno; VA_ V-1 nauchnyy red.; POSPEWVA, A.M., red.izd-va; IYERUMAIAM; KAYA, Ye., tekhn.red. jOrigin of.Norillsk trap intrusions bearing sufide copper-nickel ores.) Proiskhozhdenie norillskikh trappovykh intruzii, nesushchikh sullfidnye medho-hikelevye rudy. Moskva, Goageoltekhizdat, 196). 100 P. (Moscow. Vsesoiuznyi nauchno-issledovateliskii institut minerall- nogo syrlia. Trudy, no.9). (MIRA 17:2) le Vsesoyuznyy nauchno-issledovatel skiy institut minerallnogo syrl- ya (for Korovyakov,, Nelyubin, Raykova, Khortova). X_- i'*2i~7_. '-U  C, A I?   GONISJUKOVA. V.I. region (southwestern part of the Siberian Trapp of the Angara,-Ilis . .. (KLRi 7:3) platform). Trudy Inst.gool.nauk no.147:3-27 #53. (Angara-Ilis region-B&gs1t) (B&s&jt-wAngara-Ilim region)  ISHAKOVA, V.I. -wo --p:ii 04 Iffusive rock of the Lovor Paleasole In the reCion of ChInels-2m. Trudy Inst.geoloAmak. no-* 147:28-54 153. (NLU 7:3) (Chiiigiz-T&u--Raokv,- Igneous) (Booka, Igneous--Chingis-Talu)   GONISWOVA, VoI. A ease of contact effect of trapps on limestones of the lower Cambrian. Dokl*AN-SSSR 94 no-3.-35j-556 A 154. 7: 1) 1. Predstawleno akadenikom S.I-.Kironovym. (Poledul river-Petrol osy) (Pbtrology--ftlefti river) Ell  GON'SHAKOVA, V.I. Avildence of trappean voleaniss occurring in the late Lower Juriusic period found In the Siberian Platform. Dokl,AIF SSSR 93 no.4037-839 AP,134. (Mu 7:3) 1. 'Institut geologiI.Tostochno-Sibirskogo, filial& Akademil nauk USA. (Siberian,Platforu--Geology, Stratigraphic) (Geology, Stratlgraphlc--Siberia~ Platform) I Pis &%MMMaWHMMM   Rb - the we- 'Vit Fridagooft amygdalsild dimbasers o stein yq . depressioG.'- V, 1. , Gon'sInikova (East-Siberian Pilial, Acad. Sd. U.S.S.R.. IMuts Zillpiski Vusayus' ifs'n- eralog. ObAckeava 84, 3321-40(1956).-mm-The diabases (~~r - G eith h i i i di i i i i b f i er c or a5 ac c n martne: n a porp t n a tu cro a c yr s. Jumssic sedirlients; the dikes are 10-100 in. In thickness. The atnygdutes of 2 mm. to 5 cia. in diam. ate normally filled with Calcite, opal, or uolites (Spirialcime and itatrolite). ' Xcnoliths of sandstone and of Siluriiii dolomite marts often tire disselitimated through tile Tock of -~ii ivy cm- to '21 n), its diant,; they are strongly impregnated with quartz and cal- cite. Chloroplitleite and valagouite are everywhere dis- pemd ill vehiliets of I miss. to 6 cm. in thickness, of black ;color. with. art Ve.0, content of 11-261"~ but lo%v in CIO (0.78-3.550- The paligouhs: b uitially obierved lictwecit the graini of plagloclast usitt pyroutie or oil I lie walls of the C"kicite-v.0ite-filled amyRdides as a thin fitiu. Ill tile porphyritic diAmic (with pliettocrysts of bytownitt! unit evess iiii(xillite compti.) it eldoritic mincral is often funiml, -ally in file ceiltral partit of tile aillygdItles, zorrounded lly pale-greett P-Atgollite. -The pyroxelles -are clinoctv'ta- ite-dioliside or occasionally a 57 'i0,,' hortuniflitic oliyiits: (with. i '/a Fe.,S 2 11 - -71*) Tile palagonitr i~ partly i~sisropitr. parily anivAropic, Willi 0 vari'llilt, I)et%yvvfl 1.5,191 alld 1.539. hill alu) 1.557 1., m- cusiotially. obiervvd; tismilly it is tlv;~p-browu ill vOisr. Tlie high vontents its 11,0 W tile palagoijites iii,licate the At le-murtma it:, (it igilk u( Stt;:I~ fligis ill I 1~0.iml '%(), I'll I 14t%y ill !ii0~.11101alkillivi. its: fillilig 111C aillygd1ifes oftels 'hows tile climilivi; tiltAly.11 wbirb the1ate-neirimitiv have 1104.1 ill; ill,- -Wral parts Willi calvire ur I   AUTHORt Gon'shakova, V.I. SOV-11-58-8-4/14 TITLEt ~Featuree of Occurence and Progress of Intrusions (Neko- South-East Part of Siberian Plateau of Traps in the toryye osobennosti razmeshcheniya i mekhanizma vnedreniya trappovykh.int~uiiy v yugo-vostochnoy chasti Sibirskoy platformy) PERIODICALt Izvestiya Akademii nauk SSSR, Seriya Geologicheskaya, 1958, Nr 8, PP 38-56 (USSR) ABSTRACT. The Bouth-east part of.the Siberian plateau is composed of five-basic structural elements: 1) The Angara-Lena Lower Paleozoic deI ressio.n; 2) the south-weBt part of the Vilyuy syneclize; 3~ the north-east extremity of the Baykal folded zone; 4) the Berezovka depression and 5) the north slope of the Aldan anteclise. The unusual structure of the whole region caused a predominant development of both dyke-like and blanket-like formations. The process of formation of these trappean intrusions was different for each of the five parts. ~Parts with~onlyslightly dislocated plateau cover and with a crystallic foundation disposed near the surface (the Aldan anteclise) possess highly developed dyke bodies associated with numerous disjunctive disturbances, usually forming large Card 1/6 zones stretching in a north-eastern direction. Ruptures, in  SOY-11-58-8-4/14 Specific Features of Occurence and Progress of Intrusions of Traps in the South-East Part of Siberian.Plateau the form,of faults, and stretched fractures, through which the basic magma intruded, were formed simultaneously with the post-Cambrian deformations of the Archeian and Cambrian strata. In the part of the plateau characterized by peculiar folded formations and by powerful Upper Cambrian and Ordovi- cian sedimentary layers (Angara-Lena depression), trappesn intrusions are absent from the south-west part of the depres- sion and found in its more elevated north-western part. in the northern areas of the depression, where the sedimentary blanket.formation is less important and only slightly dis- loca ted, trappean formations are numerous and of varied form. Powerful trappean blanket tormations are also found in the north-east extremity of the Baykal folded zone. Thelargest varieties and forms of tr~appean intrusions are found along the lines of junction of the five enumerated parts. These trappes belong to different eras of formation and their com- plex nature is the result of different tectonic movements connected with voloanieprocesses. In the Berezovka depres- sion$ the trappean blanket formations are found at a depth Card 2/6 varying from 500 to 2,000 m. Slightly sloping dykes, ob-