SCIENTIFIC ABSTRACT KOPYLOV, I.P. (IRKUTSK) - KOPYLOV, N.G.

KOPYLOV.I.P. (Irkutsk) Book about the Siberian roe door (ORos door In Bastern Siberia.* A.S.Yetisov. Re'riewed by I.P.Ropylov). PrArode. 44 no 9;122-123 S '55. iKW 8:11) (Siberia, Isateru-Roo doer) (Yetisov,A.S.)  ..0000000000000* 0' OU A A a I A L 00 00. 9 !! 00 egg r 008 got of ood mail, 606906n:100000000000 so- Swell.- 1411301 wit ONOP (141 AV 10 111,' V to to 6 * a a III a K a a It " ' ' ' - ' ' A I 000:40000000100000 -is-00000,009060669000000000009 ~ * -00 14 0 It v M IS a, Q 44 41,& it L dMIM80 d SOW& hadvolL N. 1. Venatitskil-TMtakii I.Vtor" Talk" JT#rA. S'e"), JIK (4A140), W36; V. 111miam.1 ('11 ON 14111 HOW [to), W1, Nil, *019k are Mi194k WA OR ~X'Nbtffw'd. (H"te). 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A. 31.317,UO.-J.'m tAIting* of Gar porosity a Bakefite lacquer of sp. gr. an,j *10 9 Viscoaky 120-HAPE. was uwd. The lacquer was litelki. '00 h4toft 100 parts phWall, 101) parts HCHO (37.5%) and 5 00 Z .00 Parts NH4 (25%). The resolate obtained was liswAv,,l 000 in ak. in a UP40 ratio. For c~gstittj% with ctmose lwwcs 40 000 the use of a filler tpaphite, Al j%pw,lrr, AIA) iq fmmin- '00 mrtufiii as obeautriy ji%~,-.wAkry. rhc in,t vxjjjt% wrtc 00 obtained by iwjxrguat~)u under lnes,urr, (lit gas having SOO first hmn coonplettly frinovetl frian the caiting-i in vac- zoo uum. The subarquent thrrin&J treatment ni the impfrit- 400 a "ted casting, consisted of "ling at l7,()--F4)' fir 11.0-11)) goo 00 1 min. Coo 00 '00 '00 ~00 boo I . L 041TALLUMISIC61. 1,111111411102 CLASSINKATION too 00 t -1, M., '4-t 0 0 1 TL_ U 4T 10 0 00 00 0 0 0 000 0 0 0 0"0" o 0 00 4 00 0 o:ojooooooo 00000 0 00 0f000000000000 OT1401 0 0 0 0 0 a 0000000  IT OF AV 0 L !AN! ISO. '6*I_r:_ I ft; Wo Afm 4 lot vital#$ #I ivid owavxm"W12 "RAwmalli itr3fasn'tIvIt" 0,1 00 09 00 eft as 00. 040. 00 --,uq) ;-;jjwja"q ttq;);W A OX A 'I :!B" NIP -WW-4 3 so ro it **JF. tilt croq a ait 01 or 4o It it s t 19 1 p I I i oil* -wo 0 0 0 0 0 0 0 0 0 * a 0 0 0 6 ALALA 2_f 0 * * 0 * 0 0 0 0 *  A A- j; AME A mi so, F. I fuNwr I botrym 00, im -'7'1 :**: 2417. C. Am.. 1943. 37. V251--fln Romian.) Wo-lo s 2 brusize (tin 11i. zinc 2';'~. and LAw not copprv) was conjimml with f YToWN-2-1i: 7: 11; 1 0 )mum (tin 2-41-6-33. sim OHS-7-79. li~l the rm% m Mmv). 11w structour of The latirr alloy is a milid jmlut~-n 4 fill, Nine. am nickel in coqqw with kvid dimoributc4l in 11w grain The OT482V &Hoy has good dvidily: a I#rMl hanltxv* of 41-9 #Z-3; volun", vh=W of br4wom.l(xmp' and ll(MY' C.; gtm%l mistancr w cur. week wid, oW Udic acrid up to 04) 1 c.: awl in SW~ HILM), 2-60 im atUckW strong1jr in hot 1110,1110. Comimirrvial It" are for *Iemo for. see Unew 61 Pnomurm up to 15 SAWORPImpfro aftj avid-ro4i'lling rantinox at FIX) so no* 00, see see Goo see '00 'GO IS-SL. MULLWGICIL Litco,twe cwuromow C-Z too t J.( Joe b u 0 o 0 0 0~9 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 9 0 0 0 0 000000 **0000 ..10.  Kopnov, I. P. "Amplidon With Superposed Kagnetization." Cand Tech Sci, Chair of Electric Machines, Moscow Order of Lenin Power Engineering Inst imeni V. M. Molotov, Min Higher Education USSR, ffoscow,, 1955. (KL, No 15, Apr 55) SO: Sum. No. 704, 2 Nov 55 - Survey of Scientific and Technical Dissertations Defended at USSR Higher Educational Institutions (16).  KDPYIDT, I.P., kandidat tekhnicheskM nauk. - ""OWMMWxtFr--1 Alternating zschines with sectional stators. Toot. elaktroprom. 27 no.5:41-43 yr 156, (NLRA 9:12) 1. Mookovskiy energeticheekly Institut imeni V.N,,KolotoTa. (Blectric motors, Induction)  T G.11., ae)ktur tekhniches),-M nRuk, i)raeosor; ivi-YLOV, kr",cid.-t nauk. Dynin-ce-Ift.t-tric mschine with supt-r-osed mAgnotization. Vest. 27 ao.-:4-8 S 156. 9) 1, -k .7ptieheoldy institut imeni Y.K.-Molot v cv, ly Pnert 0 a (NI'lectric machineryl  &THOR: Ppylov..'! 0 nijJadtJ'1eo?fTeTCe TITIZ: A Met OW10*f'"legulating (Sposob regulirovaniya shek) 110-9-12/23 nical Sciences Ica, Sciences the Inductance of Grounding Coils. induktivnosti zazemlyayushchikh katu- PERIODICAL: Vestnik Blektropromyshlenmati, 1957, Vol.28 No.9, pp. 46 - 47 ?USSR). ABSTRACT: Grounding (or compensating) coils are becoming mordwidely used and recently they have been applied to mobile electrified machines supplied through cables such as excavators crelectric tractors. The principles and advantages of compensating the capacitative component of fault current are briefly explained. The inductive reactance of the coil should equal the capacitative reactance of the lines, but as the capacitance of the system is continually varying, the coil should be adjustable for complete compensation under all operating conditions. The simplest solution is to instal on'each part of the circuit a compensat-ing coil, tuned to resonance and switched with the line. Rowever, even in this case the individual coils will have to be adjustable. Adjustment may be by altering: the number of turns; the air gap; the relative position of the coils; the inductance of the coil by auxiliary magnetisation. Tapped coils can only be Card 1/3 adjusted in steps and tap-changing switches are bulky and V  A Method of Regulating the Inductance of Grounding Coils. 110-9-12/23 expensive. Coils with adjustable air gaps can have a current range of 1:10 and offer -the possibility of smooth control with- out disconnecting the coil from the circuit. The method of altering the coil inductance by auxiliary magnetisation offers considerable possibilities. A schematic diagram of a coil of this kind in which part of the upper yoke can be additionally magnetised is shown in Fig.l. In such coils there is auxiliary magnetisation of only part of the magnetic circuit; and, more- over, there is an air gap, so that the range of variation Is quite- nartow,'.say--,1:l.5.7. However, the inductance can be changed with great accuracy and the tuning made automatic. Because of the quick action of the control coil it need not be switched on until the fault occurs and, therefore, the continuous power losses are very small. The design of compensating coils of this kind is briefly discussed and curves are given in Fig.2 of change in-current in an experimental coil with change in the air gap, the number of turns and auxiliary magnetisation. It is conveni- ent to use alteration of the air gap for coarse adjustment and auxiliary magnetisation for fine adjustment. A 20 kVA coil with auxiliary magnetisation has been working succestfully since 1954. It is stated that Soviet industry should commence to manufacture Gard 2/3earthing coils with smooth inductance control.  AUTHORS: Kopylov, Igor' Petrovich, Candidate SOV 261-58-1-17/33 of fech al ~Sciences, Assistant to the Chair of Electrical Lc Machines at the Moscow Institute of Power Engineering-, Polyak, Leonid Mulseyevich, Engineer at the FWperJZMta1 P3.&-A-b Cf the Scientific Research Institute of Electrical Industryi Radin, Vladimir Isaakovich, Engineer at the Plant imeni Vladimir Illich TITLE: Electrodynamic Differential Amplifier With Bias Magnetization (Differentsiallnyy elektromashinnyy usilitell s podmagnichi- vaniyem) PERIODICAL: Nauchnyye doklady vysshey shkoly, Elektromekhanika i avtomatika, 1958, Nr 1, pp. 136 - 142 (USSR) ABSTRACT: The mode of operation, the design, the computation and the characteristic curves of an electrodynamical differential amplifier with bias magnetization (EDVM) is investigated. This amplifier is a combination on one ag.-regate of a magnetic differential amplifier with a d.c. generator. The differential circuit element in the magnetic amplifier inverses the Card 1/3 polarity at the output of the electrodynamical amplifier, when  Electrodynamic Differential Amplifier With Bias SOV11.161 -58-1-17/33 Magnetization the polarity of the control signal is inversed. The EDVM warrants a high power amplification factor as high as 104 4 10 6 . Such a high amplification factor is attained by the gLging of the magnetic amplifier and the d.c. motor. It considerably exceeds that of the electrodynamic transverse- field amplifier and that of the two-stage longitudinal-field amplifier. The time consta 'nt of the EDVM at a frequency of 50 c is almost equal to that of the transverse-field amplifier. It can, however, be reduced by a feed-back and by a frequency increase of the voltage feeding the input cascade. The essential advantage of the EDVM is its high stability. This is achieved because the output voltage in the whole operational range is a function of the difference of two exciting fluxes, and by a closing of a strong alternating flux through the stator, thus re-magnetizing the whole steel frame of the EDVIJ. Experi- ments showed that this new amplifier can be used in systems of automatic control. The data of the test equipment of the EDVM are given. There are 7 figures and 4 references, which Card 2/3 are Soviet.  Electrodyna-mic Differential Amplifior With Bias SOV/ 161-58-1-17/33 Igagnet:Lzation ASSOCIATION: Wadra elpktricheskikh mashin Moskovskogo energetichesko6o instituta (The "hair of Electrical Machines at the Moscow Institute of Power Engineering) SUBMITTED: JanuarY 4, 1958 Card 3/3  60) 5011/161-58-4-10/20 AUTHOR: Kopylov, Igor' Petrovich, Candidate of Technical Sciences, JJUUtJUU TITLE: Is the Use of Thermoelectric Cooling Possible in Electric Machines ? (Vozmozhno li primeneniye termoelektricheskogo okhlazhdeniya v elektricheskikh mashinakh) PERIODICAL: Nauchnyye doklady vysshey shkoly. Elektromekhanika i avtomatika, 1958, Nr 4, PP 70-74 (USSR) ABSTRACT: The thermoelectric cooling depends on the Peltier e9fect. At electrical machines no deep cooling till below 0 is desired. It is sufficient if only a part of the heat arising in the machine by losses is led away to the cold soldered joints outside the machine (Fig 1). A variant of snch a scheme for the thermoelectric cooling of an electric machine is given here. At this variant conductors are used through which the working current is passing and the thermocouple elements are directly connected with tho power circuit. In this case it is sufficient that the thermocouple elements are running empty at this moment when the Joule heat is absorbed. Card 1A The electric circuit of the machine has to consist of a  SOV/161-58-4-10/28 Is the Use of Thermoelectric Cooling Possible in Electric Machines ? series of parallel elements. The formula (6) for I optimum and (7) for the optimum of the current density is derived here. This is the case when the amount of heat being de- livered or absorbed in one second equals this delivered in the branch lines of thermocouple element 6 If the temperature of the soldered joint increases (over 27 0 then the length of the conductor may be some centimeters. If thermocouples with especially good characteristic factors are used the length of conductor can be still greater and the optimum of the current density can be increased for the multiple. In this form the thermoelectric cooling can be used at uni- polar generators at which the rotor bars have a cold soldered joint consisting of two semiconductors within the operating zone of the machine and the hot soldered joint without the machine. An other way is more economical, i.e. the use of a special electric system. In this case the electric cooling consists of thermopiles connected in series or in parallel so that the electron element is connected with the hole Card 2/4 element and the hole element with the following electron  SOV/161-58-4-10/28 Is the Use of Thermoelectric Cooling Possible in Electric Machines ? element. All cooling soldered joints are inside, all heating outside the machine. If current is flowing the soldered joints being inside the machine are nooled and th;Be outside the machine are healed. At a teuperature of 12 C inside the machine and of 47-C in the hot soldered joints only a fifth of the electric power is needed for cooling the heat produced in the machine. Thus the power nec- essary for cooling is only a part of the mechanical power. The weight of the thermopiles amounts to 15-2o% Of tile weight of the machine. There are 2 figures and 5 referencesp 4 of which are Soviet. ASSOCIATION: Kafedra elektricheskikh mashin Moskovskogo energeticheakogo instituta (Chair of Electric Machines of the Moscow Institute of Power Engineering) Card 3/4  AUTHOR: v, I. P. andidate of Technical 105-58-6-14/33 _"PXkOv1 I. P.J C Sciences TITLEs Combination of a Magnetic Amplifier and an Electric Machine (Ob"yedineniye magnitnogo usilitelya i elektricheskoy mashiny) P&iIODICAL: Elektrichastro, 1956, Hr 6, PP- 56-58 (USSR) ABSTRAM In the plant Vladimir Illich 3 test samples of electrodynamic amplifiers with a mWetizing paver of I k.W. were produced in different modifications (references 2 to 4). The moot inte- resting one is the differential amplifier with magnetization and self-excitation. In the differential amplifier the stator consists of 4 plates to which 2 magnetic amplifiers with inter- nal return coupling are fixed. The amplifiers are connected ac- cording to the differentLal diagram and feed the individual ex- citation windings. The differential amplifier has symmetrical and stable characteristic properties, needs less copper and no airect-current supply for the feeding of the control winding. The amplifier with self-excitation is a combination of a magne- tic amplifier and of an electrodynamic one with transverse field (.reference 5). At the poles of this amplifier there are, be- Card 1/ 3 sides the windings mentioned above, one self-excitation winding  Combination of a Magnetic Amplifier and an Electric Machine Card 2/3 105-58-6-14/33 and one control winding that is connected to the output of the mangetic amplifier. The amplifier with self,excitation shows stable characteristic properties as a consequence of the strong flux that is caused in the stator steel by the &.c. windings of the magnetic amplifier. The disadvastages of the magnetic ampli- fier that is combined with the electric machine are the diffi- culties in the use of special steels and the restrictions in the selection of parameters. In the motor amplifier with magne- tization the d.o. motor of the &.a. motor are combined in one aggregate with the magnetic power amplifier. The motor ampli- fiers differ from the electrodynamio amplifiers with mangetiza- tion only by the fact that the amplifier in connected to the armature-current circuit and is computed for the engine perfor- mance. It is shown that it is possible to construct a d.c. mo- tor amplifier with a wide range of regulation for the rotatio- nal speed, with a high factor of amplification according to the performance, and with arbi-t;rary mechanical characteristic pro- perties. As large rectifiers which are susceptible to overchar- ges are not always Useful the amplifier can be combined with a single-phase collector motor with serial excitation. To sum up it is stated: 1) The combination of a magnetic amplifier with  Combination of a Magnetic Implifier and an Electric Machine ASSOCIATIONi SUBMITTEN 105-58-6-14/33 an electric machine in one aggregate renders it possible at a .performance of the unplifier on the excitation winding to ob- tain a good electradvnami*mplifier with high overcharge ca- paoity. 2) Motor amplifi&rn with installed magnetic amplifier are by 15 to 20% lighter compared to a system of an automatic power amplifier and an electric machine. There are 3 figures and 8 references, 5 of which are Boyiet. Hoskovskiy onergetichookiy institut (Moscow institute -of Power Engineering) December 24, 1957 1. Magnetic amplifiers--DeSign 2. Magnetic amplifiers--Performance 3. Magnetid amplifiers-Equipment 4. Electric motors--Performance Card 3/3  "0'04~ 4 ZKopyjlov, I.P. (Cand. Tech. Sci. ) & Radin, V.I. (Eagineer) 110-2-6/21) TITLE: An experimental investigation of an amplidyne with sub-magnetisation. (Eksperimentallnoye issledovaniye elektromashinnogo usilitelya s poduagnichivaniyes). PERIODICAL: Vestnik Elektropromyshlennosti, 1958, ;!7j No.2, pp.19-23 (USSR) ABSTRAM The amplidynt with sub-maguetisation is a combination of amplidyne and d.c. machine. Articles on its theory have been published. The present article gives experimental results obtained on a I kW machine manufactured at the works imeni Vladimir Illich. Bagineer B.B. Buyauov and Technician E.N. Sokolov participated in the work. The construction of the amplidyne with sub-nagnetisation is first described. A four-pole machine was made, for checking the effect of asymmetry of the magnetic system on the operation of the amplifier. An illustration of the stator care with amplidyne windings before insertion in the machine frame in given in Fig.l. A general view of the experimental moden amplidyne with built-in drive by induction motor is shown in F.2. The machine output in I M The static characteristics are then described. The first cascade of the machine in a magnetic amplifier and the second a d.a. machine. The individual characteristics of the two components are hardly distinguishable from those of an ordinary amplidyne with positive feed-back and a d.c. generator with independent excitation. The poles and steel frame increase the leakage flux of Card 1/3 the magnetic amplifier; a frame of aluminium alloy is therefore I I0 _21- i I/ 2n. An ~xperlnental investigation 9f an amplidyne with sub-magnetisation. recommended. Characteristics of the magnetic amplifier without frame, with a steel framep and with a steel frame and poles, are given in Fig.3, to show that the leakage fluxes appreciably influence the characteristics. Armature current and control current are related in Fig.4. The amplidyne with sub-magnetisation can give a high amplification factor with stable characteristic3 and a stable power amplification factor of 5 z 105 was obtained in experimental machines. The influence of the number of poles is discussed. . Armature voltage and the control current for various currents in the compensating windiqg are related in Fig.5. Transverse armature reaction has little influence on the chars, 'cteristies of the w#lidynel its influence in analysed an in an ordinary machine. The influence of longitudinal armature reaction flux is briefly discussed. All the experimental nodal* of amplidynes with sub-sagnotisation were 10% heavier than standard amplidynes of the cross-field type of the same output but with an amplification factor of 1,000. The experimental machine suffered from the need to use standard components. Selenium rectifiers were used in the experimental models, but germauiun rectifiers will improve the characteristics of the machine. To a first approximation, an amplidyne with sub-nagnetisation working into an inductive load nay be considered an an &periodic link. This JLG Card 2/3 confirmed by ascillograss of transient processes given in Figs.6 & 7. Wft~: Lib - - . - - - __ - __ _11 I Icna') ard 3/3 rary Of COngress.  8(3) AUTHOR: XapXjqx&_LL_2,*__Qandidate of SOV/105-59-1-11/29 Technical Sciences TITLE: A Direct-Current Motor-Amplifior (Dvigatelf-usilitell postoyannogo toka) PERIODICAL: Elektrichestvo, 1959, Nr 11 PP 45-48 (USSR) ABSTRACT: Endeavors to reduce the weight of systems with high-voltage magnetic amplifiers led to the creation of a motor amplifier which combines the high-voltage magnetic amplifier and the D.C. motor. The magnetic amplifier is installed at the stator of the motor-amplifier consisting of two packages. The A.C. windings are applied to each package whereas the control winding and the winding of the external back coupling com- prise both packages. The construction of the motor-amplifier Is the same as that of the electrodynamic amplifier (EDA) with premagnetization. The only difference is that in case of the magnetic amplifier in the FDA with premagnetization the exciting coil constitutea the load, whereas in the motor amplifier the motor armature constitutes the load (Refs 1-4). At a change of the control signal, the inductive resistance Card 1/4 of the A.C. coiling changes, whiah leads to an increase or  A Direct-Current Motor Amplifier ~0005-59-1-11/29 decrease of the rectified current flowing through the motor armature. Control of the armature current leads to a corres- ponding change in the rotational speed. The motor amplifier can possess different exciting systems. This makes it possible to obtain the most varying mechanical characteristics. The power amplification factor of the motor amplifier is the ratio between the power on the shaft and the control coil power P2 Kp= Py The power amplification factor of the motor ampli- fier is determined by the amplification factor of the magnePc amplifier, and can be in the order of magnitude betweeen 10 and jo3.- The motor-amplifier has a higher efficiency as.com- pared with the gdnerator-motor system. The motor-amplifier works with nearly invariable losses, it needs no special- starting devices. In starting, it is connected to the circuit at a current Iy - 0. As compared to the generator-motor systemt the motor-amplifier has smaller dimensions and a smaller total weight (as there is no driving motor and no generator). Half the number of brushes increases reliability. The shortcoming Card 2/4 of the motor amplifier is the impossibility of recuperatiVe  A Direct-Current Motor Amplifier SOV/105-59-1-11/29 braking. The magnetic amplifier is constructed in the motor. amplifier according to different schemes. In non-reversible motor amplifiers, the scheme with internal back coupling is preferable. At a capacity of I kw and up, it is convenient to use three-phase magnetic amplifiers. If the direction of rotation is to be changed, a differential connection or a bridge connection can be used for the magnetic amplifiers in case of motor a~iplifiers (Ref 4). A change in the direction of rotation of a differential motor amplifier can also be achieved by means of a change in the exciting field direction. - The calculation of the motor-amplifier with the use of an equi- valent circuit diagram is pointed out here. In the motor- amplifier, the current density in the magnetic amplifier coilings can be assumed as in ordinary electric machines with immovable, punctiformly distributed coilings cooled by a ventilator. The reduction of the copper weigth is one of the most substantial advantages of the motor-amplifier. The Card 3/4  A Direct-Current Motor Amplifier SOV/105-59-1-11/29 The motor-amplifier,9 designed at MEI (Moscow Institute of Power Engifieeririg), has a capacity of 1 kv and veighs 70 kg. It im designed for frequent "stop-and start" operation. SUBMITTED: August 13, 1958 Card 4/4  8 (5) AUTHORS: 1) KoPAlov.'-I._ .9 Candidate of Technical SOT/105-59-11-12/32 Senwd-*~-~-Z~I.ngv-_I.q Engineer TITLE: An Alternating Current Notor Amplifier PERIODICAL: Blaktrichostvo,.1959, Nr 119 PP 56 - 60 (USSR) ABSTRACT: In the beginning the us* of alterfiating current commutator motor@ in enterprises where the number of revolutions has to be changed is pointed out and a new motor type of this kind in mentioned, which in a nodifioation of the Schrag-Riohter motor. In this type the induction controller which controls the fed rotor voltage is used with which a change of the number of re- volutions of 30 -1 may be achieved. Figure I gives the prin- ciple scheme of a series motor of this type with a magnetic amplifier to control the armature voltage. Figure 2 gives the principle scheme of a motor amplifier in which amplifier and motor are combined. The magnetic amplifier is fitted into the stator of the motor and an important decrease of the copper weight may be achieved by better cooling. By the combination of the two units on the stator the steel weight in reduced by Cardf 1/~ 30-4*. The single-phase commutator motor shown in. figure 3  An AlternatIng Current Motor Amplifier BOT/105-59-11-12/32 was constructed on the basis of a series production magnetic amplifier and a series production motor in the 'Plant, imoni Vladimir Illiaho.The motor amplifier has 3 kw, 127 vo 50 ape, and 9000 rpm* Bagineer )LU. So BeleAlkly and ftineer So Re Troitskil assisted in the Investigations. The distribution of the magnetic flux In the stator shown in figure 4 indicates that the amplifier characteristics are changed due to the irregular distribution of ths *agnotic flux, The diagram on figure 5 shows that by applying an excitation flux the linear son* and the amplification factor of the characteristics are reduoodp whloh.lea4,s to a dooreas* in the short-circuit car- rent.with nazinus control pulses When the control pulse is looking the excitation flux has no influence on the a W stic amplifier oharsoUrIstioss Furthersorep the equivalent circuit scheme (Ift 6) is discussed and the nonlinear differential equations 11) and (2) are giv*A. The apprazimation of the W- notimation OurTes from those equations through two straight lines say be obtained from the equations of a convebtiORS1 magnotio amplifior.-The position of the working point is shown by the diagram on figure 7 and the working characteristics are discussed by the diagram in figure S. A large air cap and a Card 2/~ small field overlap are recommended to reduce the armature  AUTHOR Kopylov-, I.I-. " CrAildid-rite ()U T(-,Cil!ljcaJ '-~(Acflces- Aosistant TITLE: Self -Exci tat ion or a 1*re-1-.-,-,- iiutizcd Rotary Amplitier PERIODICAL: IzvestAyrs vysshildi tichr-Amy1ch zavedemLy, L.Icktr-omeldiajiikki. 1959; Pr- t'-', oj~ 62-67 (USSR) ABSTRACT: Cross-field jLjj1 e.1;!Oa Ile -fl OW 1.%,Ldely used in autwimLic control systeii~s but Cam:oL i'l- cet dlL Coil re (111 ent ly 1.1~sv is i~)o of J.c. gel'.0r;!tOrs in -villich the ficl fl 1~-j by a wal---rlct~.c amI~111'ier a6 indicated i.j-, tk f~ circlld.t djagra;,, ot Fir~ 1. In non-reversin,~., dr-Lves th~i!5 cou,h;uation w-e:I_phs Ic!z;s than a cross-fiel(l al-i-p-liclyzic. OF c 0 1, h espor-tdin,~~; cult.1-111t; f'or in5tince, v.,cnerator t,.11pe I- I)(# LIL-;i- Lit 14j0 I-pl-..i 1-ici.ghs 530 lcv~ T! i c i i-,a I i.~ t i c: a i:i 1) 1 c. v suipjAy:LnS t:IV. field witidi-i-ii-L shoult.1 be 61* -3 to 4 kVA . wkLf~h at a frequeticy oL' 50 wculd 've igli 100 to 1.26 1,;; ircluding the wei~,,Iit; of the rectifier. Tlhe v;ei~~Iit oC sucii it .f~i t evu can be further reduced by us int-,.- high-speed l!;Ljc!liliL1S -OiLl high-frequency supl-ly to tiic, mawnetic The speed of large cross-field, m iqilidynes cannot he irmi -i~ a s -9 (1 because of' licor comi.aitatioyt. '.. 11-POWel- 31 Ili hiO I. t ow.l t ic. C-A r d I Cori tro I syst el!.Is i t wou la i; c. FA(Iv~l 11 Lagreous t c, u bc ~1 i cec. t-  sov/144-59-12-9/21 Self -Excitation of a Pre-Magnetized Rotary Amplifier field amplidynes. These machines, also known as ro-totrols, can give very high amplification fnetors and can be constructed for high witputs, s)nce they resemble ordinary d.c. geticrators. They have not been inuch used, mainly because of instability a-,sociated w-ith the marked influence of reinanent fields. During. the last two years the Moscow Power Institute. together 'With the Vladilflir Illich Works, have been -investigating a pre-magnotized. -implidyne combining a magnetic amplifier and d.c. generator- One variant is a self-excitine, pre-magnetized amplidyne that combine--: a single-stage direct-field amplidyne and a magnetic ariplifier; the cirCUit IS shown in Fig 2. Here the magnetic amplifier supplies only part of the field winding, the remainder being supplied from. the machine armature. The relationship between the control winding signiaL and the output voltage of this arrangement rijay be determined by considering it as an amplifier with two stages; a magnet.-Lc ariplifiev and a di-rpct-f-Leld amplidyne- The corresporlding machine equations are written doiin and the final voltage equation VI/ Card 2/4 Of the arrangement is given by Eq (12). The amplificatior  sov/144-59-12-9/21 Self-Excitation of' a Pre-Magnetized Rotary Amplifier Card 3/4 factor of such an arrangement is of the order of 105 and a device of 1 16V at 110 V and 3000 rpm weighs 85 kg including the built-in induction motor. The duration of the transient process in the experimental model was about 0.9 seconds; an oscillogram is given in FiQ, 3. In studying the arrangement considerable attention was paid to the influence of the alternating field of the magnetic amplifiers and the remartent. field. The renianent field depends upon the value of the demagnetizing field, the quality of the material used, the mechanical vibrations; temperature, design features and other factors. The influence of various factors on the remanent field Is discussed,. The alternacting, field must be of 60oO to loooo gau.3s in order for it to reduce the remanent field. To secure considerable reduction of the remanent field it is necessary to demagnetize the entire magnetic system. In a self-exciting amplidyne the series field winding can also be used as an output cascade of a 2 to 3 stage direct-field amplidyne. Fig 11 shows the circuit of a threo-stage amplLdyne with 1')re-magnetization; reduction in the remanent field j,Y 501,T/11111-59-12-9/21 Self-Excitation of a Pre-Magnetized Rotary Amplifier the variable flux of the magnetic amplifiers secures 0 stable operation of the output stage. At present all amplidynes using high-amplification factor are produced with a demagnetizing winding, This winding should be designed so that the alternating field is of the order of 6000 to 9000 gauss. The self-exciting aniplidyne with pre-magnetization corresponds to an ordinary d.c. machine with laminated stator, and the demagnetizing winding is designed for operation aa an a.c. magnetic amplifier winding. The device can replace the cross.-field amplidyne, giving higher amplification factors and a wider range of outputs~ There are 4 figures and 3 Soviet references, ASSOCIATION: Moskovskiy energeticheskiy institut Institute) SUBMITTED: September 28, 1959 Moscow Power Card 4/4  84915 S/l44/60/QO0/0O7/oo8/Oo8/XX E194/E484 AUTHOR: Kopylov, I.P., Candidate of Technical Sciences, Docent TITLE. Direct Current Reversing Motor-Amplifiers PERIODICAL: Izvest�ya vysshikh uchebnykh zavedeniy, Elektromekhanika, 196o~ No~7, PP~72-79 TEXT, Automatic electric drive with magnetic amplifiers connected in the d.c. motor power circuit are finding increasing application for control systems with a wide speed range, However, for reversing drives with a wide speed range magnetic amplifiers systems are difficult to make for 50 c/s supply and are heavier than amplidyne systems, This article describes a number of systems of reversing d,c. motor-amplifiers, In motor amplifiers the magnetic amplifier is built on the motor stator giving a weight reduction of 30 to 40% as compared with soparate construction of motor and magnetic amplifiers. A number of different systems are then described, each with its own advantage in particular cases, A differential motor-amplifier with the circuit shown in Fig.1 was made at the works imeni Lenin and tested by the Moscow Power Engineering Institute in 1959. The machine permits of a number of variants of connection of the magnetic amplifier and field winding, The stator is divided into four bundles bearing a.c. windings Card 1/6  8491.5 S/l44/60/000/007/oo8/oo8/xx E194/E484 Direct Current Reversing Motor-Amplifiers connected as shown in Fig.l. The differenc6 between this and previously described d.c. motor amplifiers lies in the construction of the magnetic amplifier. The magnetic amplifiers operate on the armature of a four-pole motor having a simple lap winding without equalizer bars, In one method of connection, the magnetic amplifiers are cross-connected and the current flowing in the armature creates torques of opposite signs. When the magneti: amplifier currents are equal the armature is stationary and the armature rotates in one direction or the other as the current in the corresponding nMtTnCt.L-: amplifier increases, With this method of connection the size of' the machine is very large for a given output-. There is a very curious current distribution with differential operation in the parallel branches of the armature winding and the circuit of the parallel branches of the simple lap winding for a four pole machine is as shown in Fig,24 during differential operation the polarity is reversed on one pair of brushes,. The current distribution was studied on a model, This type of machine is odvantageous where stable characteristics are required over a range of speeds, It is recommended that the differential connection should be used only Card 2/6 1'~  84 915 S/144/60/000/007/008/008/XX E194/E484 Direct Current Reversing Motor-Amplifiers for brief periods and the machine should mainly be used with tile magnetic amplifiers not cross-connected, Fig.3 shows a photograph of an experimental motor-amplifier with an output of 1 kW at 127 V with a power amplification factor of 300, other details are given. In order to--avoid equalizing currents -arrd to make better use of the armature copper, the armature may have two separate windings brought out to two commutators, With the armature windings cross-connected variable speed characteristics may be obtained just as in the case of the differential motor amplifier described above, Fig.4 shows a diagram of such a motor with three-phase magnetic amplifiers on the stator. The stator is divided into twelve bundles bearing a.c. windings, The direction of rotation of a d,c. motor may also be altered by changing the direction of the field in the air gap and the simplest way of doing this without ballast resistances is a circuit with two cross-connected series field windings, In this circuit each field winding is supplied from a magnetic amplifier and on the armature both branches of the circuit are connected in series as shown in Fig.5. With this construction more copper is required in the field winding and it has other disadvantages including instability during reversing and a mec_hanical V~ Card 316  849~5 S/144/60/000/007/oo8/Oo8/xX E194/E484 Direct Current Reversing Motor-Amplifiers characteristic of complicated shape. However,. the motor- efficiency is much higher than in the case of the circuit in Fig.l. Reversing can be obtained without a differential magnetic amplifier if the machine has two field windings. one of which is supplied with d.c. at constant voltage so that the current is constant and the other supplied from a magnetic amplifier with varying current. Other variants of this circuit are also described. Fig.6 shows a diagram of a reversing motor-.amplifier with saturating bridges, The power magnetic amplifier with internal negative feed back is built on the motor stator which consists of two bundles, The a.c. windings are wound on each bundle and all the remaining windings cover both stator bundles and have no induced fundamental frequencies. The field winding is connected in series and is wound on four poles, Two of the poles have saturating bridges for example by being made partially holl-aw as shown in Fig.6. The number Of turns of field winding on the poles with saturating bridges is 3 to 4 times greater than on the two other poles,, The field windings on the saturating poles are cross connected with those on two other poles, Alteration of the signal in the control winding alters the Card V 6  84915 S/144/60/000/007/008/008/XX E194/E484 Direct Cxtrrent Rpversing Motor-Amplifiers current in the field windings and in the motor armature, The induction in the air gap under the saturating poles first increases more rapidly than under the unsaturated because the ampere turns of the field winding of the saturating poles is greater. Then the bridges saturate and the induction increases slowly whJ.lst it continues to increase under the unsaturated poles. F:4.7 shows the change in fields under the saturating poles and under the unsaturated and also the resultant field of the machine. As will be seen from Fig-7, as the current in the field winding alters the field changes sign, passing through zero. As the field passes through zero the motor is stationary and as it further decreases the motor reverses in direction. One of the disadvantages of the system is that the motor torques are not the same in the two directions. As compared with the other motors that have been considered this one with the saturating poles is the lightest and most efficient. The motor with saturating bridges is much lighter than a motor-generator system and has only one commutator so that it is more reliable. This motor should find wide application in drives of certain kinds of machine tools, including planing machines Card 5/6 .0~  B/144/61,/000/012/001/001 D274,/D305 AUTHORSs Vinogradov, N.V., Kopylov, I.F. and Razgulyayev, TITLEs Blectric ma.,,chines with compound stators, manufac- tured by-the method of powder metallurgy PERIODICALa Izvestiya vysshikh uchebnykh zavedenj-y, Elektro- mekhanika; no. 12, !961,. 91-95 TEM- A method is described of producing stator and rotor cores from metallic powders, for electrical machinery (e.g.Fig. 1) of power not exceeding I M The parts are manufactured from powders of known mechanical and magnetic properties, obtained by crushing scrap metal. The starting material is ground and tem- pered, and 6 - 7~5 of an alcoholic Solution of styrol is added to serve as an insulator, at 12G-125,C. The powders are then size- and weight - graded, lubricated and cold-pressed. The latter Card 1/3  8/144/61/000/012/ool/001 Electric machines with D274/D305 process is described in some detail. The compacts are densified by sintering and do not require finishing. Pro erties of the pressed material are compared to those of.;31 tE 31) steel, and an ac.count of the characteristics, weights and costs of machines using ordinary and pressed-powder parts is given. There are 4 figures, 1 table and 4 Soviet-bloc references. SUBMITT.1',D,- March 8, 1961 Ca r It. 2V 3  KOPYLOV, I.F* dotsentp icandetekhnonauk rder of Lenin ience and technology at the MoScOw 0 ilektromekh. r,onference on sc ucheb. zavo; Power Engineering Institute, Izv- vys (MIM 14:7) 4 no*5:106-107 161e c driving-Congreq (Blectri .068) ) (Electric machinery-Congressss  KOPYLOV, I.P~, kand.tekba.souk; BESPAWVO V.Ya.0 inzh. Revoroive asynchronous motor with excitation, Vest, alektroprom. 32 no.11:14-17 N 161. (MIRA 14%11) (Electr;Lc motore , IndwUm)  OORYANOV, Fedor dots.; 2-ed, - Alekseyevich..Prinimali uchastiye: SALGUS, G.K... KOPYLOV, I.P., dots.; YMCHIN, V.V., tekhn. [Amplidynes; theory and design] Elektromashinnye usiliteli; teoriia i raschet. 14oskva, Gosenergoizdat, 1962. 287 p. (MM 15:7) (Rotating amplifiers)  S/144/62/000/602/007/007 D289/D301 AUTHOR: Kopylov. Tgorl Petrovich, Candidate of Technical Sciencesp Docent-Fo-eeAssociation) TITLE: Single armature converter with superposed magnetiza- tion PERIODICAL: Izvestiya vysshikh uchebnykh zavedenoy. Elektro- mekhanika, no. 2, 1962g 189 - 195 TEXT: The design given is a modification of Kulebakin's design where a converter is fed from d.ca side with rectified a.c. from the mains. The output is variable in frequency and voltagep the ra- tio voltage/freque-ncy' is constant. A magnetic amplifier is used, reducing the weight o-f the apparatus and providing internal feed- back loop without special windings. The feedback utilizes an open bridge rectifier. The excitation fluxes are superimposed on the magnetic amplifier fluxes-and their distribution around the stator depends on whether they add or subtract. Current in armature wind- ing is the difference between d.c. and a.c. currentsp and is a function of load and power factor. The converter can be uprated by Card 1/2.  KOI'YI,OV p I. P. . kand.tekhnonauk. Asynchronous motor with excita-lion. Vest, elektropromo 32 noa3: 39-42 Mr 161. (Electric raotors, Induction) (MIRA 15:6)  VINOGRADOV, Nikolay Vladimirovich, kand.tekYn.nauk, dotsent;_~OZYLQ_V_' ,:~ P~ ~, kand.tekhn.nauk, dotsent; RAZGLiLYAYEV, Boris Basillyevich, student-diplomnik Electric machinex7 with composite-stators constructed by utilizing techniques employed by the powder metallurgy industry. Izv. vys. ucheb. zav.; elektromekh. 4 no.12:91-95 '61. (MIRA 15;1) 1. Kafedra elektricheskikh mashin 14oskovskogo energeticheskogo instituta (for Vinogradov, Kopylov). 2. Mosk-,)vskiy energeticheskly institut (for Razgulyayev). (Electric machinery) (Electric equItpment industry)  KOPYLOVO I.P. Single-arnature converter with field excitation. ucheb. zav.; elektromekh. 5 no.21l89-195 162. (Electric current converters) Izv. vyse (KRA 15:3)  ANTONOVO Mikhail Vasillyevichq inJh.;.ILOPYWVP Igor# Petrovich, kande tekhn.nauk, dotsent; RkDIN,, Vladimir,Isaakovich, k-an-c%te-*. nauk Use of the inverse synchronous field in single-phase electrical machines. Izv.vys.cucheb.zav.; elektromekh. 5 n0.93994-1001 162. (MM 16:1) 1. Nachalinik elaktromashinnoy laboratoril Hoskovikogo elektromakhanicheskogo, zavoda imeni Vladimira Illicha (for Antclpov). 2. lafedra elaktricheakikh mashin Moskovskogo energaticheakogo instituts. (for Kopylov). 3, Nachallnik tsentrallnoy laboratorii Moskovskogo elektromekhanicheskogo zavads. imeni Vladimira Illicha (for Radin). (Electric driving) (Electricity in agriculture)  KOPYWVY I.P.J. kand. tekhn. nauk, dotsent; BESPALOV, V.Ya., inzh. Reversive asynchronous motor-amplifiers. Trudy MEI no.38:199-208 162. (MIRA 17:2)  Igort Petrovich, kand.tekhn.nauk, dotsent KOPYLOV, - Eauations of a gener&Uzed electromechanical converter. Izv. vys. u~heb. zav.; slaktromakh. 6 no.lltl.200-12-04 163. (MIRA 17t4) 1. Kafedra elektricheakikh mashin Moskovskogo anargaticheskogo inatituta.  GRISH'IN, Ye.N., !LIINSKIY,, N.F.; KOFMAT I.?. Determinii~-Aan of tl-..e spr_-ctrilm of the harmonics of a magreLizing for,--a ir. nonsymmetric8l windinga. Elektrictiesi;vo no.~IgV-49 Ja 164. (KIRA 17t6) 1. Moskovakiy energetiallieskly lpstitut. 0 . - I  ALENCPIKOV, D.A., inzh.; BESPALOV V.Ya,, inzh.; kand. tekhn. nauk; NIXITIN; Yu,A,,, inzh. Series of motor-amplifiers. Elektrotekhnika 35 no,6:19-24 is 164. AMM 17:8)  tekhn.nauk, dotBent Self-excited asynchronous aeco generator-amplifier. Izv.vys.ucheb. zav.,- elektromekh, 7 no.lOsl220-3224 164. (MIRA 18%1) 1. Kafedra. elaktricheskikh mashin Moakovskogo energeticheskogo instituti.  - KOPYLOV,,, Igor' Petrovich, karld.tekhn.nauk, dotsent; %~AZUIEEVICCE,, Aleksand -iniz-h. Single-phase synchronized motor. Izv.vys~11cheb.zav.; elektromekh. 7 no.11:1367-1371 164. (MIRA 18-3) 1. Kafedra elektricheskikh mashin Moskovskogo energeticheskogo institlita. (for Kopylov). 2. Moskovskiy energeticheskiy institut (for Mazurkevich).  L.545196-65 E T(-d,)/t:ZIT- IPA d Fo-4-/:1jq-4,/Pq 4/F-L-4/Pl 1,P -0- ACCESSION NR. AT5009813 UR/0000/64/001[000/0173/0190 SOURCE: Yg avtomaticheskomu kontrohm i metodam Vj?;L _yR~kqnfereatsiya pq elektricheskikh izmerepiy..--.4th, Novosibirsk, 1962. Avtor-naticheskiy kontroll 1 rnetody clektricheskikh izmereniy; truciv konferentsii, t. 11: Metody clektri- chcski~-h izmereniy. Tsifro-rWe izmeritel'nyye pribory. Elernenty izaieritel'rifth sistern (Automatic control and electrical measuring techniques; trInsactions of ~Diiference, v. 1: Electrical measuring techniqliei Elements of measurement SVSte.Mil- Red:Ldai S~n. utc. Al~ 6-55R, 1964, 173-180 TOPTC TAGS: servomotor, contactless dc motor ABSTRACT: The developi~e t is reported of a squirrel-carre ii-1,luctiory rnotor a co-mb.nc with a static dc-ac inverter which emp'loyF, pusil-pul~-ccn~nccted output The windings of the inverter tran-sformor -are ~mlbeddi,--,i 'lie slo's 1-'.c notor stator. This joint use of the rnotor r-nag--,Et,.c permits Card 1/?,  KOPYLOV,_jgqr! Petrovich, kand. tekhno nauk,, dotaent; MAMEDOV, Fuad Aliysii6h-,'a'xp'irant Mathematical modeling of an electric drill working on dIfferent depths with current asymmetry. Izv. vys. ucheb. zav.; elektro- mekh. 8 no.11:1266-1274 165. OMIRA 19:1) 1. Kafedra alektricheskikh mashin Hoskovskogo ordena Lenina energeticheakogo instituta.  YiOPTLGV A It hpv* guaranteed wages. Nauka I pered.op.v nel'khoz. hy we don 7 no.9:48 S '57. (NIRA 10:10) 1. Sekretarl Belolutskogo rayounogo koettets Kommunisticheekoy Partit Ukralnv Toroshilargradskor ablasti. (Collective farms) (Wqes)  KOSTRYUKOV, V.A., inzh.; KOPILOV,46 inzh.; GOVOROY, V.P., inzh., nauchnyy red.; TWe'tMULUT, Ga.-, r8ue; Dramu , I.T., otvetsv. za vypusk [Program for the subject "Production standal-de and estimates' in the technical school major *Sanitary installations in buildings,* approved by the Ministry of Higher Education of the U.S.S.R.0 April 14. 1955. A 90-hGur course] Programma predmata Ofekhnicheekoe normirovania i ametyN k uchabnowu planu spetelallnostl tekhnikumov 'Sanitarno-tekhnichookie ustToistva zdanii,I utverzhdennomu Mini- sterstvom vysshego obrazovaniia SSSR, 14 a-Drelia 1955 g. Ob"em programmy - 90 chasov. NoukYa. Uchabno-matodicheskii kabinst. 1958. 9 P. (MIRA 12:2) 1. Russia (1917- R.S.r.SIR.) Kininterstvo stroitellstva. Otdol uchobnykh zavedeniy upravlamiya kadrov. (Construction industry)  v# KCPYLOT, M. -, ~ Let's align with the bestl Okhr. truda i oote. strak-h. 3 no. 12:8- m, 10 D t6o. (MIRA 13:12) 1. PredesdatelO Astrakhanskogo oblastnogo soveta profsoyuzov. .(Astrakhan Province--Technological innovations) (Astrakhan Province--Industrial hygiene)  .KQPrLOT,-)L, insh.; GINZOURG, M.; ARTAMONOVA, T.; MIKMIMM, k; ICHUSOT, A.; IGLIN, S. Teabnical information. Okhr. truda i sots. strakh.--no.4-*32LO- Ap 063.' (MMA 264) 11 Gefudamtvlenw-f My nauebm-inaledovatellskly traktornyjr- inatitut (for UW=2. Starably,lush. po tekhnike trasopm- nosti neftesayoda imni XnI s4yesda Kommuniaticheakay partii Sovet&kogo Scyasaq -Baku (for Ginsburg). (Teebuological innovationa)  x0mayr, N,-- Rural Industrial b7glenes Okhr,truda I nots,strakh, 6 no,ls6-8 U - 163. (KM& 1611) 1. Prodkedatell Astrakhanakogo oblastnogo moveta profemalmalf. nykh soyuxav. ', (Astraldan Province.-Farm mechmization-Hygienic aspeats)  KHAYKIN, V,; SUKHAREV, Yu,; PETROV, Ye,; BEKKER, A., inzh. po tekhnike bazop&Bnosti; PODISTOV, N.; KOPYLOV, M., inzh. Technical information. Okhr. truda i sots. strakh. 6 no.6: 34-41 Je 163. (MIRA 16:8) 1. Upravleniye legkoy promyshlennosti Soveta narodnogo khozyaystva Estonskoy SSR, Tallin (for Bakker).  KOPYLOV, M. B. 42620. RentgonologieO-- Iskiye Prodstavlonlya 0 Mokhanicheakikh Faktorakh V Venoznom trovoobrashchenil Cherepa I Mozgs. Trudy in-ta Neyrokhirurgii Im. Burdenko; T. I, 1948, S. 45-63-Sibliogr; ? Nazv.  op\n.-Ai KOPUxt M. B., Row, B. 0. PAmt,senoWcal ohamateristics of vtnular v4)ply of maingeal wd amnial borm tumors. Vopr. nevrokhir. 240, Kay-June 50. P. 20-1 1. XOSCOW CUM 19., 5, Nov.,, 1950  KOFTLOV, N.B.;PLIIVAKO, N.S. f Roentgenotherapy of hypopbysma twwree Vopr. neirokhir. 16 no. 4: 28-33 July-Aug 1952. (CIUL 23:3) 1. Of the Roentgenological Division (Head - Pmf. IL B. Kopylov) of the Institute of Neurosurgery ism I Academician N. N. Burdenko (Director - Prof. B. G. Tegorov, Corresponding Member AM UOR), Academy of Medical Sciences USSR.  KG?TLOV, H.B. . . Secondary modif Watione In the cranium In brain tumors,. Vopr. neirokhlr. 17 no.1:24-29 J=44b 1953- (CIKL 24:2) 4 Professor. 2. Of the Institute of agwasurg~ry iftnt Acadenician 1. N. Burd nko. , Wrootor -- Prof. B. Go Yegorov. Corresponding Member ANS =) of the AcadevW of Medical Sciences MR, Moscow.  VOLTNKIN' U.N.; Kmmv. K B. Use of partition anglography In arachnold andotheltoma. Vop. neirokhir. 19 no.3:27-32 IV-Je 155. OCERA 8:0 1. 1z Nauchno-iseledovatelfskogo ordena Trudovogo Krasnogo Znament instituta neyrokhtrurgit imoni aW. N.N.Burdanko Akademil Aidl- tainsicikh nauk SSSR. (BRAIN, neoplasms, mening,loma, cerebral angtograpby in) brain. angtograpby in) (ARGIOGRAPEt. cerebral, In meningiona)  XWYIA)V, M.B. mwnnwwaw~ Roentgenological sips of cospeneatory significance in the cranium and In the brain* Yopenstrokbir, 20 no.5:29-38 5-0 156. (HLRA-9:11) 1. Is Mauchno-iselodavatellskogo ordens T*ftlovogo Krasnogo Zaament Institute asyroldArugii imeni akad. N.N'Aurdenko Akedemli meditain- skikh nauk SSSR. (CRANIUM. radiography. - (RUB)) ORAIN, radiography, (RUG))  USSR/Human ai-A Animal Mor~hology - Normal and Pathological. 8 Skeleton, Skeletal AnatoiW Abs Jour : Her Zhur Biol., No 11, 1958, 5o347 Author : Kopylov, M&B. Inst Title : Intracranial Press-ure and Cranial Bones Orig Pub : Zhi nevropatol.~-'i psikhiatrii, 1956, 56, No 3, 265-271 Abstract : When intracranial pressure in the bones of the cranium (C) increases, then osteoporosis and symmetrical as well as asyL=trical changes of the structure, fcvm and size of C) may be ascertained roentgenologically. These changes are nore markedly expressed in children of early age in whom calvaria of the skull is more frequently changed. In adults in whom C is fully developed, only the form and structure of the sella turcica and those of thin flat bones of C is upset. The area of visivle os- aeous changes is determined by the size of the surface Card 1/2 USSR/Huinan and Animal Morpholoo - Normal and Fathological. Skeleton. Skeletal AnatorW Abs Jour Her Zhur Biol., No 11, 1958, 50347 receiving the pressure and depends on the place of location of the tumor, its size and rapidity of its growth- -- I.B. Barabash Card 2/2 S - 3T -  - ~OP~Ipy) If-.B- Problem of the genesis of aneurysms and angiomas of the brain. Vop, neirokhir, 24 no, 3:37-41+ My-Je 160. (MIRA 14:1) (BRAIN-BLOOD VESSELS) (BRAIN TUMORS)  Roentgenological signs of venous stasis of oral segments of the cerebral trunk* Zhur.nevr.i,~aikh. 61 no.2:280-284(161. MIRA U: 6) 16 Nauchno-issledovatellskiy institut ceyrokhirtirgii i~eni N.N. Burdenko (dir. - Prof. B.G.Yegorov) OdfSSSRI, Moskva. TBUIN-BLOOD SUPPLY)  WWI K.B*, prof. (Moskva) Poattraumativ vascular formations in the brain. Vop.neirokbir. ro.4t7-12 162. NIRA 1519) (M=-VOUNDS AND INJURUS) (INTRACROIAL ANEURIMS)  xomov, xoB&# prore (mDekTa) Pathology of deep veins in Impaction of the brain into the tantorial foremen* Top,neirokhir. no.4:20-23 161. (MIRA 14:12) 1. Nauchno-iseledovatel'skiy ordens, Trudavogo Krasnogo ZrAmeni, institut nWokhirurgii Iment akad. W.N. burdenko PM SSSR. (BMM.-~DS AND IRTUMES) (MM~-BLOOD SUPPLY)  rVANDV-DYATLOVp F.G., kand.med.nauk; KOPYWV M.B. prof. Roentgenotherapy of tumors of the brain stem and the reactions of the cardiovascular system to the irradiation. Problesovr6 neirokhir. s283-295 162, (MIU 16t2) fMAIN-TUMMS) (X RAYS-THWAMTIC USIS) (CMIOVASCULAR SYSTM)  ARENDT, A.A., prof.; ARKHANGELISKIY, V.V., kand. med. nauk; BOGDANOV, F.R., prof.; BDNDARCHUK, A.V., prof.; KOPYLOV, M.B., prof.; KORNEV, P.G., zasl. dayatell nauki RS -LIK,M.I., prof.; LEYBZON, N.D.9 doktor sed; nauk; MAKAROV, M.P., kand. mad. nauk; NIKOLISKIT, V.A.,, prof.; PODGQRNATA, A.Ya., doktar med.nauk; RAZDOLISKIY, I.Ya.. prof.[doceased]; ROSTOTSKAYA, V.I.,, kand. med.nauk; TUMSKOt, V.A., kind. med.nauk; UGRYUM~ V.M., prof.; FISHKIN, V.I., kand. mad. nauk; KHRAPOV,, V.S.1 kand. mad. nauk; CHIKOVANI, K.P., prof. (deceased); SHLYKOVI A.A., prof.; PETROVSKIY, B.V., prof. zaal. deyatell nauki RSFSR, otv. red.; YEGOROV, B.G., zasl. dayatell nauki RSFSR prof., red. toma; MIRONOVICH, N.I., doktor med. nauk, zam. red.; PARAKHINA, N.L., takhn. red. (Manual on surgery] Mnogotomnoe rukovodstvo po khirurgii. Moskva, Medgis. Val.4. (Neurosargery; the sequelae of leai&s of the central nervous system. Diseases of the spine, the spinal cord and its membranes. Diseases of the vegetative nervous system] Neirokhirurgiia; posledstviia povrezhdenii teentrallnoi nervnoi aistemy. Zabolevaniia pozvonochnika, spinnogo Nsga i ego obolochek. Zabolevaniia vegetativnoi nervnoi shrtemy. 1963. 667 p. (MIRA 16:10) 1. Deystvitellnyy cbken ANN SSSR (for Petrovskiy, Yegoroy, Kornev). 2. Chlen-korrespondent AMN SSSR (for Bogdanov). (NERVOUS SYSTEM--SURGERY) (SPINE-SURGERY)  XOPYLOV, M.D.; MADHIDOV, N.M. Changes in the cranial boneB in leptomeningItAs of the posterior cranial foosa. Veat.rontai rad. 40 no,5M-72 S-0 165o (MITU 18:12) L Nauchno,-IsBledovatellskly ordena Trudovoeo KraBnogo Znameni institut neyrokhirurgii imeni akidemika N,NoBurdanko W SSSR, Moskva.  KOPYWY, N.D. (Villnyus) s~lt-;:!:o.'-~'l-',-' ~- - Dermatitis bullosa caused by peorlaoin, Vest.derm. t van. 31 no.3:47-48 MY-Je '57. (mud 10:11) (SKIN--DISBASIS)  KOPYLOT -%mionyus) On ths qu"tion of buttercup dersatltlo, ?9 my-jo 158 (SKIN-DISIASES) (CROWFOOT-PUTSIOLOGI CAL Vne?) Vest.dem i ver. 32 ne-3 (MIRA 11:7)  KOPYLOV . M.K. - , - ~ - Cab of the uJohn Doer" grain combine. Trakt.i sellkhozmash. 32 no.4:48~-P-3 of cover Ap 162. (111M 15:4) 1. Gosudarstvennyy soyuznyy nauchm-issledovateliskiy traktornyy institut. (United States---Combines)  .-KOFIWV M.K. Compressor attachment to the *Ferguson* tractorm. Trakt. i seXt- khozmaBb.32 no.7:39-40 J1 1-62. (MIRA 15k?) (Grea.,t Britain tractor*.-Equipment and supplies) (compressors)  MICHKIN, I.A., inzh.; KOPYLOV, M.K., inzh, Increasing the reliability of the work of fuel injectors. Trakt. i sellkhosmanh. no.5slO-12 My 164. (AURA 17t6) 1. Gosudarstvannyy noyxt%nyy nauchno-isslednvateilskiy traktomyy Institut.  KOPYLOV, M.K. "Haflinger"-700AP, a lighL amphibious unit. Trakt. i sellkhozmash. no.5:42-44 My 164. (MIRA 17;6) 1. Gosudarstvennyy soyuznyy nauchno-issledovatel'skly traktornyy institut.  KOPYLOV, M.K. I A tractor driven land rollerutilizing the weight of the tractor. Trakt. i sallkhozzaah, 32 no.10W-48 0 162. (MIRA 15:9) 1. Gosudaretvannyy sqyumW nauchno-issledovatel'skiy traktornyy institut. (Rollers (Fmthwork))  -Kopnovp M.K. Testing a tractor cab or increased strength in England. Trakt. i 9911khozzash, 33 no.3:46-47 Mr 163. (MrRA l6z 11)  XOPrLOV, M.K. Characteristics of the valve mechanism of the VM engine. Trakt, i Bellkhozmash. 33 no.10.*47 0 163. (MIRA 17-1)  MENEVICH, V.Ye.; jWFMVj6K.; CHERNIKOV, B.P. Results of testing the brake systems in truck trailer trains. Trakt. i sel9khozmash. 33 no.9iU-14 S 163. (MIRA 16:10) 1. Gosudarstvennyy soyuznyy nauchno-issledovatellskiy traktornyy institut (for Yasenevich, Kopylov). 2. TSentralInaya mashinoispy- tatelinaya stantsiya (for Chernikov). (Truck trailers-Brakes)  KOWBDV_. G.G.; KOFMV,, M.K. Tz-actors exhibited at the Italian Industrial Uhibitiona In Hoecav. Zrakt.i sellkho=ash. 32 no.921+5-47 S 162, (MIRA 15M) I L 1. Gmudaratvemyy soyuznyy naucbno-ineledovatellskiy traktornyy institut. (Tractors) (Moscow-Exhibitions)  KOPYLOV) M.K. --- A semitrailer with power takeoff from a tractor. Trakt. i selikhozmash. 31 [i.e.321 no.11:47-49 N 162. (MIRA 15:12) I%Tractors.-Trailers)  KOLOBOV, G.G.; KOPYLOVP M.K. English wheeled tractors. Trakt. i self~hozmash. no.10g 42-45 0 '64. (MMA 17:12)  -KOPYLOV, M.K. - ~-_- Spark arrester of the "Doutz" tractor. Trakt. i sellkhozmash. no.6s 47 A 165. (MMA 18-7) 1. Gosudarstvannyy soyuznyy nauchno-issladovatellskly traktornyy in- stitut.  KOPYLOV M.K. The "Farmell"-560 tractor, Trakt- I sellkhownrish. no.4'-47-48 165. (MIRA 18:5)  AUTHOR: Kopylov, M.S., Shop Manager 91-58-5-6/35 TITLE: Cooling of Furnace Panels by Feed Water (Okhlazhdeniye topochnykh paneley pitatellnoy vodoy) b PERIODICALi Energetik, 1958#,"Nr 5, P 10 (USSR) ABSTRACT; Boilers using solid fuel are cooled in different ways, mainly by water flowing around the boiler walls. In the article a new method is recommended. The water flows from the lower part of the feeding tank into the "cold" col- lector2 and from there through pipe lines into the panels (3), and returns through the "hot" collectors (1) into the feeding tank (see Diagram). It is possible to install a forced circulation by using a pump (2). The control of this pump is carried out by a thermostat depending on the temperature of the feeding water in the "cold" collector. There is 1 figure. AVAILABLEi Library of Congress Card 1/1 1. Boilers - Cooling  il 61 Y~iov I 1,.V.; I-O.V,6v ;,..Yc. out' outPut. ",a:ihino:;trcjtrj' no. 2:11 V 161. ('_7-,-.. (Hubtsovsk-Tractor iu~i-~vtry--Tachnolojical irworii -111. c  1. KOPYTP'V, ~% V. 2. US3R (600) 4. Cactus 7. Grafting experiments vdth cactuses. Kul. G31av. bot. sada no. 11, 1952. 9. Monthly List of Russian Accessions, Library of Congress, February -1953. Unclassified.  - --XUFTWV-, Sensitive palnt in open soil. Biul.Glav.bot.sada no.14:103 152. (MI-RA 6:5 ) 1. Sukhumakiy botanichankty sad Akademit nauk Grazinskoy SSR. (Nimosa) M.  KOPYLOV N.V. * 'I ~-- w, Cultivation of tropical aquatic and swamp plants in the Sukhumi Botanical Garden. Blul.Glay.bot.eada no.26:95-96 156. (KM 10:2) 1. Sukhumekly botanicheekly @ad Akademil nauk Gruzinskoy SM. (Sukhumd--Aquatic plants)  L V,, USSR/Cultivated Plants Ornamental. M. Abs Jour : Ref Zhur Biol,, No 4, 1958, 15902 Author : M.V. Kopylov Inst Title : An Attempt to Cultivated Tropical Water and Swamp Plants in Sukhumi Botanical Chrdan. (Opyt kulltury tropicheskikh vodnykli i bolotnyldi rasteniy v Sukhumskom botanicheskom sadu). Orig Pub : Byul. 01. botan. sadas AN SSM, 1956, vjp. 26, 95-96. Abstract : The assortment of water plants has been considerably enlarged with the introduction of Nelumbo nucifera, Victoria Cruzinna, Eichhornia speciosa, Euryale ferox, Sagittaria nafans, Nymphaea cerulea, N. capensis, N. hybrida (a water-lily with red flowers), Limnocharis Humboldtii. Special basins, both rebuilt old ones and newly constructed ones, have been set up with a total area of 184 square meters. Card 1/1 KOPYIOOVI K.V. reenhouse cultu" of the banana in Russia. Bot. zhur. 43 no.2:96 Ja '58. (MIU 11:2) 1, Botanicheekly "d AN Gruzinskoy 33R# Sukhumde (3anjLna) (Greenhouse plants)  DANILOV, A.D.; MUKKIN, G.I.; LXNOV,,M.;-KIM!ANOV, V.;_SCM-'V, N~; KOWBNNIKOV, V.; MOMMOTA. N.; LISOW, Y.Te., red. -, IkelIN. 1.A., red.; PONOKARNA, A.A., takhn.red, [Distribution of brancbes of the national economy of the U.S.S.R.J Razmashchanis otraelal narodnogo khosiaistva =SR. Pod red. A.D. Danilova i G.I.NokhIna. Moskva, Gosplantrast. 1960. 331 P. (MM 13:11) 1. Moscow. Gosuderetvennyy skonomicheakly InstItut. 2. Xafedra ekonomicheekoy geogrefil Koskovskogo gosudarstvonnogo ekonoui- cheakogo Institute (for all, except Kholin, Ponoisareva). (Geography, Xconomic)  KOPYWY, II.A. k- ~_ Repairing open-hearth furnaces, Bezop.truds v pron. 4 no.l: 26-27 JA 16o. (MIRA 13:5) 1. Torkhne-Isetskoye stroltelluoye upravlonlya treat& "Uraldomaremouto* (Ural Mountain region--Open-hearth furnaces-Maintenance and repair)  GINIVAL', S.M., kandidat tekknichaskikh nauk; LAVRINOVIGH, A.A., Is- zhaner; KOPYLOV, N.A., Inshener. Over-all mechanisation of leading and unloading in cc are ring brick and slag concrete brick. Strol.prom. 32 no.?-.42-" J1 154. (MRA 7:7) (Brick~--transportation) (Loading and unloading)  KOPYLOV, N, Fj GINMMG~ N. N., MIARIN~ A. L,, and SALMOVt ri. A. "The Question of Stability of the Basic Biological Features of Anthrax Vaccine Strain STI-I,, H pages 142-152 of the book Anthrax STI, Moscow, 1946. V LXA,%.~Lc-  r USSR/Medicclne - Anthre-v Vaccine MaY -1047 Medicine - Vaccines "Results of Application off Anthrax Vaccine STI During 1944 - 1946," 1.- F. Kopylov, 11. N. Ginsburg, Scientific and Research Institute of Epidamiology and Hygiene of the Soviet Army, 2 pp "Veterinarfya" No 5 Mostly tabular results of the use of STI vaccine on iorses., sheep, pigs, and deer during the years 1944 to 1946. '17T8  137-1958-1-47 Translation from.- Referit:Lvnyy zhurnal, Metallurgiya, 1958, Nr 1, p 9 (USSR) AUTHOR: Kopylov, N.G. TITLE: Evaluating the Handling Capacity of a Shaking Table (K otsenke transportiruyushchey sposobnosti kontsentratsionnogo stola) PERIODICAL: Kolyma, 1956, Nr 4, pp 15-19 ABSTRACT: Bibliographic entry 1. Shaking tablea-Zapasity-Bibliegraft 2,, Ores-?r*- ceasing-9quipmat Card I /I  ~ZFDTOVA, Ye.V.., inzh.; JKOPYLOV, N.G., dotsent Selection of operating conditions for a r6iersib2e-type shaking conveyer and a concentr6tion table. Izv. vsy. ucheb zav.; gor, zhur.' no.6sl22-131 '60. 4M 14:5) 1. Ler4ngradakiy tekhnologicheskiy institut pishchevoy promyshlennosti. RekomeAdovana kafedro7 takhnicheakoy mekhaniki. (Gonveying machinery) (Ore dressing)