SCIENTIFIC ABSTRACT MIKHAYLOVSKIY, G. A. - MIKHAYLOVSKIY, N. G.

The Electron Microscope UM-100 With Doubl,--I,~~rw Condeniier depicted by the conderizer in the object. p2are. Z& the n1d of' the stigmator, the image turn.9 out very well. Investigatior-,'3 Shc-aed that the radLus of the oathode tip, when not exceeding 12A, does not exert any influence upon the quality of the Lruige. The object lerm consist.3 of thr,,tf? partE,. Th,i upper part to I*% tife object chamber, w1deh ii Lnuide aricemsible by a valvf; an-3 e&ich contains an o'bject table. The central par-t contairm the polle shoes of the magnetic lerLi and the aperture sto-p. Tlm- !~,wer FArt Li the actiial object lerw tube and contains the :itigmator and the seleotiva stop. The objent table 1,4 movable and permiti a turnIng and tilting of the object. Next, the rrecKanical facilities of L~,e In.,itriment, serving for the adjuztm~nt of the vvkrIoLi,-. el,.merit- of tefl. object len.s are *described. Also modes of emplc6vryant of '~-j otject 1,--n;, for reflecting and diffraction pictures are described. Th~., intermediate and projecting lenses are housed in a 'block. Their auyiAary elements are de3cribed. Tube and three obqernration wiru3owi and the camera are contaiwid in the lower part of the uil~,ro-icopn. Thp vactwm system of the instrument corwista of a mecNinitial vacuum pump RVN-20 and a diffusion ptunp TSVL-100. There ar-3 ~, figurej and 5 -referencej, 3 of wiilch ar-e go-Aet. Card 212  i15 S/120/68J oo/oo4/oili/028 9, 3) VO (okc, 10030 II'VO) E032/E414 AUTHORS: Stoyanov, P.A., Xlk.4ay4p 'j~a 4 1G.A., Bertyn . A.R., Grishina, N.M. and Moseyel, TITLE. The Universal High-Resolution Electron Ml:ros~.ope Y-31AS-100 WEMV-100) PERIODICAL: Pribory i tekhnika eksperimenta. 1960. No.4 pf)~110-117, TEXT: A description is liven of an electron mlcros-cpe having A nominal resolution of 10 It incorporates -a fozubing corre,.!o', a deflecting system for work by reflection. a bina:ular vie-er, a specially-designed vacuum ~;hamber and various other featureS. This microscope presents an improved version of the mlrroscop~_- UEMV-100. The micros:.ope :olumn incorpcrate, 5 lense.-,, namely 2 condensers, I objective, I intermediate lens and I j)r:)je_tion lens. The aim of the modifLcations and Improvements wits to improve the electron-optical chara~,teristics of the UEMV 100 microscope. In particular, a special focusing --orrector was introduced between the second condenser and the obje,?Ive- This corrector is in the form of two pairs of coils pla,ed outside the vacuum chamber, one above the other. The coils are lo_a~ed in special grooves cut into the body and separated from the evactiated Card 1/4  871V S/120/60/000/004/0!4/028 E032/E4!4 The Universal High-Resolulion Electron Microscope 100 (UEMV-100) space by thin walls, The -oil windings ar, supplied with alternating current, consisting of symmetri- rt--vanguiar pulse.S Currents in the upper and lower pairs of ~-oilm are 180' oil? ~,f phAs~ so that the fields produ-.ed by theae (oils are in oppo-site directions. The focusing carrector serves to the aperture of the Illuminating sys'em (Dorsten t-t al, Ref.3) In the present case the aperture angle is increased in one plane At the same time the depth of focus is reduc-ed so that pr- i-i~ focusing of the image is easier to establish. The orre-t-,- j, particularly convenient In the case of relatively small ele-.truri optical magnifications with subsequent high magnification of the photographs. When the corrector is switched on the image if not accurately focused, divides into two parts. The onditJons tinder which this "doubling" disappears correspond to precise focusing, The paper is concluded with a general description of -various other modifications including a special specimen table which can be u5o-d to select any given part of the speLimen even under overall Card 2/4  6M5 S/12o/60/000/004/0111/02", E032/E414 The Universal High-Resolution Electron NicroscoPe Y2~M13-1c() (UEMV-100) magnifications of 1.5 x 10 6; a binocular viewing arrangement having a magnification of x6 and a relatively large field of view (diameter 28 mm), and the pumping system of the microscope, Acknowledgments are expressed to Yu.Ni.Kushnir for assistance. There are 11 figures and 5 references: 3 Soviet and 2 non-Soviet. SUBMITTED: July 4, 1959 Card 3/4  S112ol6b.k.~,.~ ~~bd6b/004/014/028 E032/E414 The Universal High-Resolution Electron Microscope YMB-100 (UMV-100) ri L - j -o, puc. g. I(Oppe_Op ~01(yc NolicTpygiluff, 6Bi3emmill mig. e - o".11011fmWe Card 4/4 maTymxm: capana - Ann xoppexTO_pa ~ -olcycliponxit, czena - gnq p96oTw im capametme  KABt,NOV, MI.; MIUAYLCVl~K-'Y, G.A.; SVIRIUV, A.M. Features of uslng elec7r-~n iw~Lns cf ele'rl-r. a' Radiotekh. i Ple~tron. "Y Ag lf,4. (,-:-tA  L '#'#,'i,~6-66 F,4,4T ( i ) ACC NRj 024635 SOURCE CODE: UR/0170/66/011/001/0022/0029 AUTHOR: Mikhaylovokly, G. A. ORG: Institute of Water Transportation, Leningrad (Institut vodnogo transport) TITLE: The problem of evaporative"Xcooling of gases SOURCE: Inzhenerno-fizicheskiy zhurnal, v. 11, no. 1, 1966, 22-29 TOPIC TACS: gas dynamics. cooling &,--&pnrratt*i gas flow) 'compression, ABSTRACT: Cooling of gases in a pipe flow or during compression by means of liquid Injection (evaporative cooling) leads to certain peculiarities in the behavior of the fluid. Due to the absorption of heat by the evaporating liquid, the properties of the gas or vapor vary considerably which is reflected by the change in the adiabatic exponent k. This problem was theoretically analyzed. and it was shown that k can change from 0 to t_ depending on the intensity of evaporation. Three expreasiongwere derived for k (kl,k2,k3) for processes In which p.V; T.V; or T.p are independent pairs of variables. The local values of kl,k 28' and k3 were plotted as functions of the intensity of j Card 112 UDC: 533.6  L 44226-66-- ACC NR' AP6024635 evaporation when water is Injected. The overall results showed that evaporative cooling may lead an unusual behavior of the fluid. i.e., during compression the pressure may decrease. resulting in a decrease in the flow velocity. Orig art. has: 4 figures and 13 formulas. IPVI SUB CODEz4o,23/ SUBM DATE: 28Jun65/ ORIG REF: 002/ OTH REF: 001 mt Card  -m.zoj jvoTqdvj2 u-1 gdTlqguoTWToz TTv 9-4u;;gazdoH -iogoaadmoo ul 3(joA uoTosevisoo IGC=Z Pm 'XQPtrT OT,4vqvTpu llsso3ord uo-;osojd -mo al A,4Tzvdva 4vaq saggnosTa -zTv pwo jo UWJftTP Sr BuTgn "UOTguadous uT oaTzT~~jgd jw~va ftuoo tiTm ly4vg jo i3goooid uolsgajdnoz goTp4q 9-t-UT dd '6 09 AguI tRv4OTd-2j; 9-A %I, (g.zQsuT9= J.-,4vfl j0 -4gtrT Puigawn) zATri 'rTOS RM Oum* 'AT3tgAcrrtvqxrA *v -,D luov~aaCtri =n -vA Aq quTlooZ iq,4TM jTv jo uoTi ajcftoo atr4 Uo, 35 ftT.TaDw;gwvm OD  MixiaLLOVZ~&iL (~_. ", -j,!,XVENKC, V. V. Rarine Ent ineering Kxamination of the perfori,ance of the oil traps on vessels of the type "Akademik Vavilov." Hoch. transp. 12 no. 1, 1952. Yonthl,( List of Russian Accessions, LIbrury of Cot4,-reas, June 1952. LP;CL-.JSIFI'-!D.  MIKHAYLOVS11Y, G.A., ~-and.tekhn.nau~, dotsent Method of calculating and constructing a 'nited i-s d1agram for steam and a steam-air mixture. rrudy LI-vT no.2~:1~9-175' 95~. (MIR.,~ 14:9) (steam)  67646 10,q000 SOV/96-60-1-15/22 AUTHOR: __j1ikhay1ovskiy, G. A. , Candidate of Technical Sciences TITLE: The The for the Construction of Entropy Diagrams for Steam-gas Mixtures PBRIODICAL: Teploenergeti-ka, 1960, Nr 1, pp 69-75 (USSR) ABSTRACT: In ganeral, the condition of a oteam-gas mixturo 113 determined by three independont variables, so that analytical methods of calculation are complicated. Therefore, entropy diagrams for such systems are much needed, but cannot be constructed in one plane because there are three variables. Previous attempts to resolve this difficulty have resulted in diagrams that are inconvenient in use. However, if the steam-gas mixture is considered as an ideal gas,'~Lnd use is made of certain latent properties of entropy diagrams, then a diagram can be constructed in one plane. The principles of construc- tion of such diagrams are that the enthalpy of an ideal gas does not depend on the pressure and entropy is usually reckoned from some nominal condition, which may be chosen arbitrarily. When diagrams have been constructed, the plotted values of entropy serve only to express the Card 1/4 scale. Therefore, they may also be used to express the  67646 SOV/96-60-1-15/22 The Thermo-dynamic Basis for the Construction of Entropy Dingrams for Steam-gfto Mixturoa entropy when any particular parameter, for example, pressure, is changed at a given point. It suffices to suppose that the origin of the diagram is altered. Thus a given point on the diagram may represent conditions that differ in respect of pressure. This in its turn means that in constructing the diagram one of the parameters may be fixed and this need not be the pressure. The principle that enthalpy is independent of pressure has to be used in different ways for different sets of k conditions. The three characteristic regions that are distinguished in constructing the enthalpy diagrams for steam-gas mixtures are: quantities of steam in the mixture not greater than 20% by weight; high steam-content at temperatures below the critical temperature; and temperatures above the critical temperature. A special diagram is constructed for each of these three regions, and all the diagrams can be constructed for any gas with the vapour of any liquid, though the usual ones are air Card 2/4 and steam. In order to extend the field of application  SOV/96-60-1-15/22 The Thermo-dynamic Basis for the Construction of Entropy Diagrams for Steam-gas Mixtures of diagrams of the first two types, it is necessary to extend the concept of relative humidity somewhat, employing the definition given in expression (2). The significance of this is explained by a numerical example, and Fig 1 shows curves of changes in relative humidity as functions of temperature at constant pressure and constant proportion of steam by weight. In order to construct the entropy diagrams for steam-gas mixtures in one plane it is necessary to reduce the number of independent variables by one, which is done by fixing one of the parameters. For the first and second regions, where the temperature is below the critical value, it is convenient to fix the relative humidity. An entropy diagram for moist air in the first region is plotted in Fig 2. This diagram is simple and easy to use and has an extensive field of application. A combined entropy diagram for water vapour and a steam-air mixture is plotted in Fig 3, and this can be used to make all kinds of calculations on steam-gasmixtures at high steam- Card 3/4 concentration. The construction of entropy diagrams for  67646 The Thermo-dynamic Basis for the Co;..,uructi_n uf Entropy Diagrams for Steam-gas Mixtures temperatures above the critical value is then described and such a diagram is plotted in Fig 4. The method of using it is explained. It is constructed for a single pressure and the way of allowing for this is explained. The diagram is particularly useful when the composition of the gas in the steam-gas mixture is the same in different calculations and only the amount of it in the mixture varies. Variations in the composition of the gas cause changes in the relationship between the specific heat and the temperature 9 so that the diagram gives erroneous results, though corrections can be made by special graphs. However, in such cases it is better to construct further diagrams, to allow for the change in composition cf the gas. The principles described in this article may be used to construct such a universal diagram, which may be applicable not only to steam-gas mixtures but also to combustion products of fuel, and is simpler than other available diagrams. There are 4 figures, and 6 Soviet references. ASSOCIATION: Leningradskiy institutvodnogo transports (Leningrad Institute of Water Transport).  27919 S/o96/61/000/011/006/oo6 5-,200 F'194/E155 AUTHOR; --Mikhaylovskiy, G.A., Candidate of Technical Sciences TITLEi An I-S (enthalpy-entropy) diagram for air and combustion products PERIODICALt Teploenergetika, no. 11, 1961, 91-94 TEXT- The condition of a mixture of games depends upon two thermodynamic parameters and upon the quantitative analysis of the mixture; thus it In a function of many independent variables. The influence of the composition of the mixture an Its thermo- dynamic properties may be expressed with sufficient accuracy by the quantitative composition factor of the mixture 0, (see for example Ref.2 (Lutz and Wolf. I-S Tafel fur Luft and Verbrennungogane, 1938) and Ref,41 (S.L. Rivkin, VT1. Gosenergoiz- dat, 1955), The coefficient 0 governs the value of the solar specific heat according to the gas composition. 9AGp a f1M * Of 2 (t) (1) Card l/ 9 Al  27919 An I-S (enthelpy-entropy) diagram.,S/096/61/000/011/006/oo6 E1941/9155 wherej fl(t) and f2(t) are temperature functions which are the same for all gases. Assuming for air an arbitrary value of 0 and for pure combustion products without excess air a value of 1.5, we may find expressions for fl(t) and f2(t) and consequently also for A in terms of the specific heats of air and of the pure tombustion products, In this way the physical meaning of the coefficient can be seen, The following expression to then derived; Ikep JAC PB + 20 - 1) (0c pH ~ Oc Pe) (2) where the suffix H refers to combustion products and the suffix B refers to air, The oefficient 0 is calculated from formula (19) of Ref 4 lAbstrastor's notel Ref.14 mentioned but apparently incorrecZ1. If in formula (2) we substitute true raolar specific heat and integrate between appropriate limits, we obtain an expression for the enthalpy of the mixture at the given temperature an a function of one parameter, Card 2/ 9 1 - Ia #- 2(P - 1) (IH - is) (3)  27919 An I-S (enthalpy-entropy) diagram.... s/o96/6i/ooo/oil/oo6/oo6 E194/EI55 where IB and 1H are the enthalpies of one mole of air and of the combustion products of normal hydrocarbon without excess air. Strictly speaking, m device of this kind cannot be used to obtain a formula E*r the calculation of entropy, because the actual entropy of a mixture is greater than that calculated from the simple rule of mixing by an amount equal to the entropy of mixing given by the following equations A SCM ` - 1.9858y, riIn ri where ri is the volumetric or molar proportion of the i-th component of the mixture. If it is assumed that the origin from which the entropy of the gas mixture is reckoned is displaced by an amount equal to the entropy of mixing, which does not depend on 0, a formula for calculating entropy may be obtained in the same way as that for enthalpy, provided that the components are at the same pressure and temperature both before and after mixing. In this way the following expression is obtained: Card 3/ 9 S = SB + 2(p - 1) (S H - Sa) (5)  27919 An I-S (enthalpy-entropy) diagram s/o96/61/000/011/006/oo6 919VE155 Numerical values of enthalpy and entropy for each value of 0 way be taken from the table of Ref.4 for temperatures up to 1100 OC or may be calculated by means of formulae (3) and (5) using tables of the thermodynamic properties of gases. It will be seen that by using the coefficient p and displacing the origin for entropy the number of variables has been reduced to three and it is necessary to reduce them to two in order to plot curves. Correct selection of the parameter to maintain constant is most important. In the diagram of Lutz and Wolf (Ref.2) the principal curves are suitable only for dry air and so the diagram is constructed for a constant value of 0 = i. However, to maintain P constant does not fully satisfy present requirements and it is better to make the pressure constant. Then the enth&lpy and entropy corresponding to the conditions at the given point (with the set temperature for which the diagram was constructed)-mmy correspond to the condition at other pressures, provided that the in-fluence of pressure on the specific heat can be neglected. In order to represent on the diagram a number of conditions of different mixtures, lines of constant � mubt be constructed on it. Essentially they represent isobars for one and the same pressure for gases of Card 419  27919 An I-S (enthalpy-entropy) diagram .... S/119b/6J/000/011/006/006 E19VEI55 different quantitative composition. Thus the I-S diagram for air and combustion products may be constructed for a constant pressure of 1 atm and for I mole of gas mixture. The graph must contain curves for the isotherms, the isochores and lines of p = constant. At pressures of above I &to there in an error but it is negligible and does not exceed 0.5% at pressures up to 25-30 at=. A diagram of this kind can be used to calculate all the thermal processes encountered in practice. It in necessary to have only one auxiliary curve corresponding to &S - 1 986 In 7r, where 7t is the degree of change of pressure in t9e pr;cess, equal to the ratio of the maximum to the minimum pressure. This curve is plotted directly on the diagram. The complete diagram in illustrated in Fig.2 for air and combustion products over the most commonly used range. The y-axis gives enthalpy in kcal/sole and the x-&xis entropy in kcal/mole degree; the inscription against VO reads m3 per mole. The method of use is an follows. At the point of intersection of the line p z constant with the isotherm for the given temperature, we find the enthalpy I and the volume of the combustion products Vo at a pressure of I atm and the given temperature. The actual volume of a mole at the given pressure p Card 5/ 9 LAI  27919 An I-S (enthalpy-entropy) diagram .... S/096/61/000/011/006/oo6 El9'*/EI55 is Vo/p. If the process is isobaric, the given quantity of heat Q kcal/mole is laid out on the vertical from the initial point of the process. Allowance is made for the sign on the line of 0 = constant to determine the final composition. In an isochoric process the amount of heat in first multiplied by the adiabatic index and the product, kQ, ib laid out an in the isobaric process. At the final point the temperature T2 in found and the final pressure P2 = p1 x T2/Tl is calculated. The value of the adiabatic index is found from Fig-3 as a function of p and the mean temperature of the process. Calculation of adiabatic processes is based on the circumstance that the entropy does not increase. With known pressures at the start and end of the process ASP is first taken from the curve of &S P = f(7r), starting from point A on Fig~2. This value is laid out horizontally to the left for expansion and to the right for compression. Proceeding vertically from the point obtained, intersection with the required curve of 0 = constant (point B) indicates values of 12, T2, and V.2 and between voints A and B the value 4,1' Card 6/ 9 Jr  27919 An I-S (enthalpy-entropy) diagram .... s/o96/6l/oOo/0ll/006/oo6 E194/EI55 The final volume of a mote is found again by dividing Vo by p. A somewhat different procedure is required if the degree of expansion or compression is given instead of IK . The I-S diagram proposed unites the positive features of the two best existing methods of graphical calculation, namely Lutz and Wolf's diagram of state and Rivkin's diagram of thermodynamic properties. The now diagram is very simple in use and it can easily be constructed in each particular case. it is only necessary to make one curve of 0 = constant for the given composition of gas and a curve of 6Sp = f(Tr), choosing a scale to suit the degree of accuracy required. There are 3 figures and 5 referenceas 4 Soviet-bloc and I non-Soviet-bloc. VIIr Card 7/9  MIKWWVSKIY, Georgiy Andreyevich; ZYSIN, V.A., kand. tekhn. naukt red.; MITARCOX, G.A., red. izd-val POLISKAYA, R,, tekhn. red. (Themodynamic analysis of processes in steam-gaa mixtures] Temodinamicheakie raschety protsessov parogazovykil smesei. Moskva, Nauhgiz, 1962. 183 P. 0-11RA 15:6) (Thennodynamics)  MIKHAYLOVSKIY, G.A., kand.tekhn.anuk Thermodynamic procesE-es of stvam-,-as m.-~xtures. lrploeneri7etika 9 no-5:92-95 MY '62. (P-ermodynamics)   A-VASTIYANOV, N,.S., :;ABfmOV, V.1%. , I . - 1. !! Uit 'or qt,idying ~-no ,.efit resilstar:,!e -." -'- . - iron - (,arbnn. Mv. 30 It,. . 'f"?A -'. 1. Omakly pol~l,ok!ini-cht~Rkly inntltlit.  A 11 OVS K I-' ---, G . T . G. 1'. -- IlIntcroccj~tivc Effeetv, on Certain Functions of the Cehtral Nrmio,~3 Systen, TCr,,dt!rjj, Frorl Irritatlo, of' thr !:(cf-aiiore; trrr of the Gartroint.vfAinal Trart.11 "Sub 29 Jan ~2, Crntra. In:-t ror thr, Advanced Trainim, of Niysirians. (DIssert-ation for t.~e Def-rse of Candidate in Med,(-al Ecience5.) 5u: Vechcriiava '-Ioskva January-D,cembvr 1'152  KIKHAYLOVSKIT !, G P. podpolkovaik maditsinakoy sluzhby. Imndidat meditsin- -WtmT1n&,-UT-j- ftnetional test for detecting latent cardlovascnlar Insufficiency. Woeae-uede zhur. no-3:84-85 Kr 156. (Rw 9-9) (CARDIOVASCUUR STSTIM-DISFASIS)  XIDATWVSKIT. G.F. (Koskva) Data on the effect of stimulation of Interoceptors of the gastro- Intestinal system on uneonAttioned defense reflexes. Report no.l: Relation of effects from interoeoptore to the nature of the stimulus. Bimleskap.blol.med. 42 no.7:13-18 JI 056. (NLPA 9:9) 1. Prodstavlons dayetwitellayn chlenon AK9 SSSR T.M.Chernigovskim. ("STROMBSTIVAL SYSTSK, physiology, off. of mechanical stimulation on unconditioned defense reflex (Run)) (RIWLEX, unconditioned defense. off. of mechanical stimulation of gastrointestinal system (RUB))  GRLIKAM9 B*Lo# kandenedonank. RIMikThWSXITq O-OPe. podpolkovnik med.sluzhby kand.med.nauk. . BASOVA, R.N., Gomparative description of methods for studying Cailtvic secretion. Voon-wed,zhuro nos8-132-36 Ag 156 (KIRA 12:1) (STOKACH-SECRETIONS)  84HA~LOVSA11Y C-T-J' USSR/Human and Animal Physiology - Nervous System. R-12 Abs Jour Referat Zhur - Bioi., No 16, 1957, 71.101 Author G.P. Mikhaylovskiy, Title Data on the Effect of the Stimulation of the Interoceptors of the Digestive Tract on the Unconditioned Defense Reflex. Report 2. Effect of the Stimulation of the Mecha- noreceptors of the Digestive Tract in Different Functionai States of the Cerebral Cortex. Grig Pub Byul. eksper. biol. i meditsiny, 1956, 42, No 9, 6-11 Abstract The inflation of an isolated part of the small intestine or stomach in dogs (chronic tests) produced an insignifi- cant inhibition of the unconditioned defense reflex. After an emotional excitation (in cats) or subcutaneous injection of 0.5-1 ml 10% solution of caffeine the inhi- bitory influence of mechanocenters of the sto ~-Lntes- tLnal tract increased (which is related to the increase of the irritation process in the cerebral cortex, and af- ter Card 1/2 - 70 -  USSR/Humn and Animal Physiolo~,rf - Nervous System. B-12 Abs Jour Referat Zhur - Bioi., 1957, 7il0l larSe doses of caffeine- became weaker. Within a few days following daily administrations of Br (10 days- 1 gm) there began to appear the stimulating influence of the mechanocentera irritation on the defense reflex, which is connected with the strengthening and concentra- tion of the inner inhibition process in the cortex. Part I- look RZHBIol. 1951, 33697 Card 2/2 - 71 -  ROSIN, Ta.A,, prof.; HIMIATLOVSKIT. G.P., kand.ced.nauk. podpolkavulk medi- tot koy slu~yf SUVOTTOT; P*14.. kandued.nauk, kapitan meditainskoy slushby Iffect of radial acceleration on flying personnal with nemrocirculatory dystonia of the hypertensive type. Voeu.-med.zhur. no.8:58-62 Ag 059. (14M 12112) (ACOMURATION effect@) (NZUROGIRGULATORT ASMINIA physiol.)  5/03q62/000/012/003/003 D036/D114 AUTHOR: Kikhaylovskiy, G.P., Candidate of Medical Sciences TITLE- Some results of the development of space biology PE110DICAL: Vestnik 4,kademii nauk SSSR, no. 12, 1962, 105-106 TaT: Soviet research in space biology was summarized at a session held by the Otdcleniye biologicheskikh natik Akademii nauk 5~5111 (Department of Biological Sciences of the Academy of Sciences of the USSR) on October 1-21 1962, and opened by N.M. Sisakyan, Acaderucian-Secretary of the Department, to commemorate the 5th anniversary of the launching of the first artificial satellite. The follow- ing subjects were discussed: Sisakyan: the effect of extreme flight factors on living organisms, the development of biological fundamentals for space flights and life on planets, and conditions and forms of extraterrestrial life. V.I. Yazdovskiy and O.G. Gazeako: research done during the "Vostok" flights. Yu.M. Volynkin and P.P. Saksonov: the biological effect of space flight factors. Saksonov, V.V. Antipov, and N.N. bobrov: the proven freedom from radiation hazards of short orbital fli-hts beneath the radiation belts. A.V. Lebedinskiy Card 1/3  S/030/62/000/012/003/00, D036/DI14 Some results of ...... and Yu.C. Nefedov: the effect of prolonged small doses of ionizifiL, radiation In view of experi-nictital ~Iata wiiich show that, due to the conq:)Icx action of cosmic radiation and other factors, the reactivity of' various systems of a livin, orga- nisin chani7es. Gazenko, I.T. Akulinichev, and R.M. Baycvskiy: splitting biolo- ~icdl telemetry into (a) constant medical supervision, (b) medical research into C, specific reactions, (c) biological indication. Ya.A. Vinnikov, B.B. Yegorov and Gazenko: vestibular di'sturbances during weightlessness at many levels, in- clucLinr, tile cellular and molecular le-els, where Ye-orov and GazerJco studied this problem usinp inicroc3ectrodes. Lebedinskiy: methods for evaluating tile reactivity of the vestibuJar analysor based on a study of the effecit of positive and negative an ,~.rular accclerations of various magnitudes on the vestibular- vv:,-etative reflexes; Titov's complaints of "sea-sickness" during weightlessness. N.N. Gurovs!ciy,M.D. Yeniellyanov and Ye.A. Petrov: the possibility and mechanism of adaptation of the vestibular analysor. A.D. Seryapin and V.P. Dzed%ichek: rfgancration of aic in a s Aace craft by photolysis Of W2 or electrolysis Of H20 for lom, space flights. A.A. Nichiporovich and V.Ye. Semenenko: so-called Gard 2/3  S/03q62/000/012/003/003 D036/DI14 Sonic results of ..... closed ecolo.-ical system which will be necessary for long space flights or for a stay on aiiother planet. A.F. Kleshnin: increasing the productivity of chlorella. A.1. Oparin: theories on the possibility of extraterrestrial life which should be based on a study of the general prooess of the development of matter, so as to establish whether life could have arisen during evolution of tile given planet. 0 ' Ilie session noted the widening scope of space biology. Reports were also delivered on ad3-naany, artificial hybcrnation, engineering psychology, gravity and the brain's blood supply, physiological speech research in order to create automatic speech recognition systems, tile effect of space flight on hereditary structure, and other subjects. Card 3/3  MMAUZft#i G*P., kand.mednat* SMO,results of the doolopment of eomis biolog). Tost.Ali UM 32 So,l2slO5-108 D #62, (MM 15:12) (space bioloar-4ongressom)  ACCESSION INR: AT4042642 S/0000/631000/000/0006/0008 AUTHOR: A)tulinichev, 1. T.; Bayevskiy, R. M.; Belay, V. Ye, Vasillyev, P. V.. Gazcnko, 0. G.. Kakurin. L. I.; Kotovskaya, A. R.; Maksi.-nov, D. G., Mikhaylovskiy, G. P.. Yazdovskiy, V. 1. TITLE: Results of physiological investigations aboard the "Vomfok-3" and "Vostok-4" spaceships SOURCE: Konferentsiy2 po aviatsionnoy i kosmicheakoy meditsine, 1963. Aviatsionnaya i kosrnicheakaya meditsina (Aviation and space medicine); materialy* konferentaii. Moscow, 1963, 6-8 TOPIC TAGS: biomedical monitoring, electrooculogram, pneurnogram/Vostok-3. Vostok-4, EEG, EKG ABSTRACT: A number of physiological indices were monitored during the tandem spaceflights of Nikolayev land Popovich (Vostok-3 and Vostok-4). New procedures used for the first time on these flights and improvements of exist- ing equipmant yielded a great deal of physiological Laormation. Waigntless-  ACCESSION NR: AT4042642 ness had no noticeable effect on the functional state of the CNS in either coe- monaut. as evaluated on the basis of performance of various tasks. ECG'~ showed a dominance of comparatively high-amplitude rhythms with a frequency of 5 to 7 cps, similar to those observed in athletes after intense physical exertion, during the first hours of weightlessness, Later a gradutil shift toward beta-rhythms with a reduced mean amplitude of EEG biopotentials occurred. Heightened emotional stress in the first hours of night and before reentry was reflected in decreased electrical resistance of the cortex. Functional stability of the higher involuntary nervous centers is indicated by the maintenance of normal daily variation of cortical resistance --higher at night. lower during the daytime--during the rest of the flights. EOG's (electrooculograms) were used as an index of the functional state of the vestibular apparatus. Asymmetries in oculomotor reaction, which could have indicated disturbances of the vestibular centers, were not observed In either cosmonaut. Vestibular tests not supplemented by EOG's also failed to yield any evidence of vestibular disturbance. Oculomotor activity was also used as an Index of general and motor activity. Variations in oculomotor activity had a phase character. At the beginning of the night Nikolayev, and to C.,d 2 / 5  ACCESSION N`R: AT4042642 a lesser degree Popovich, showed an increase of oculomotor activity up to 4 to 6 eye movements per second. Eye movements of an uncoordinated character. of both large and small amplitude, were recorded. On the 6th and 7th orbits eye movement fell off, and later ZOG's show periodic increases and decreases in oculomotor activity. Toward the end of the flight a second stable increase in oculomotor activity occurred, but its level was lower than at the beginning of the Cardiac activity was monitored by EKG's (using chest leads). lncreascd pulse rates (from 98 to 112 for Nikolayev, and from 04 to 13G for Popovich) occurred immediately before launch, with corresponding shortening of the PQ and QT Intervals, EKG changes during the powered-night phase were similar to those observed in ground experiments with centrifuging. The maximum pulse rate during the first minute of flight was 136 for Nikolayev and 132 for Popovich. Normalization of pulse rates to the rates observed 4 hr belore launch took place on Nikolayev's 6th and 7th orbit and on Popovich's 3rd to 4th orbit. Normalization of pulse to Initial rates took 5 to 10 min dur- testa. No 1KG changes indicating disturbances of automatism, excitability, or conductivity were observed. in night Popovich registered 3 separate extra CdWd 3/5  ACCESSION NR: AT4042642 systoles; this had also occurred during training tests. The character of daily variation of cardiac activity remained unchanged. Pneumographic data revealed no respiratory irregularities. Some increase in respiration rate war, noted during the powered-flight phase; this had also been observed during centrifuge tests. No pathological change in physiological functions of either cosmonaut was observed during flight. During the powered-flight phase, functional shifts similar to those observed during centrifuge tests occurred. Definite changes in the functional state of various physiological systems took place durina the first hours of orbital flight. as indicated by the inhibition of pulse-rate norm- alization and the character of EEG and cortical resistance changes. Changes in the' character of EEG's during prolonged (3 to 4 days) weightlessnes in- dicate shifts in the Interaction of excitation -inhibition processes in the higher levels of the CN&S. However, the mental activity and neuro -regulatory functions of the cosmonauts remained at a high leveL ASSOCIATION: none cd?d , 4  14MLAYLOVSKIYI. Q.p.- Sesolon of the Department of biolorical Sciences of the Acar- demy of Sciences of the U.S.S.R. dedicated tq the fifth anniversary of the launching of the first artificial satel- lite. Izv. All SSSR, Ser. biol. 28 no.1:152-156 Ja-F'63. (RI,,A 16:8) (SPACE 131OLOGY-COIGRESSES)  VOLY14KIN, Yu.M.; YAZDOVSKIY, V.I., prof.; GEVIN, A.M.; GAZFIIKC, O.G.; GURCJV3KjY, 11.1j.; TEYELIYA]XV, Y.D.; G-R,j GORBOV, F.D.; SERYAPIU, A.D.; BAYEVSKIY , R.M.; ALTUKIOV, G.V.; KOPANEV, V.I.; KASIYAN, I.I.; MYASNIKOV, V.L; TERRiTlYEV, V.G.; RUANOV, I.I.; FEDOROV, Ye.A.; FOIU, V.S.; ARUTY11TIOV, G.A.; ANTIFOV, V.V.; KOTOVSKAYA, A.R.; KAKURIN, L.I.; TSELIKIR, Ye.Ye.; USHAKOV, A.S.; VOLOVICH, V.G.; SAKSOINOV, P.P.; YEGOROV, A.D.; NEUHYVAKIN, I.P.; TALAPIN, V.F.; S1'JAKYAN, N.M., akademik, red.; KOIRAKOVA, Ye.A., red.izd-va; ASrAFIYEVA, G.A., tekhn.red. (First group space flight; scientific results of medical and biological studies carried out during the group orbital flight of manned satellites "Vostok-3" and "Vostok-41 Pezvy~-gruppovoi kosmicheskil polet; nauchriye rezulttaty mediko-biologicheskikh issledovanii, provedennykh vo vremia ffruppovogo orbitallnogo poleta korablei-sputnikov "Vostok-3" i "Voskot-4." Moskva, Izd-vo 1111auka," 1964. 153 p. 0'. IRA 17: 3)  L 31920-6k (1) SCTB ACC NR, AT6012899 SOURCE CODEi UR/555oT6s1i55/o6o/o2i_57V2io AUTHOR: Volhov. A.A.; Denisov V G.; Kirilenko, Yu. I.; Mankevich. I I - Mel'nik S Q NkhmWqWx,~.~P. , OniahcKe-nko. ~. F. ORG: none TITLE, The structure of the command signal and the psychophysiological capabilities 0( an operator in control while subjected to G forceV SOURCE: S18tenls. chclovek I avtomat (Man-automaton systems) - Moscow, lzd-vo Nauka, 1965, 215-228 TOPIC TAGS: man machine communication, automatic control theory, human engineering, biologic gravity effect, flight physiology, psychologic stress ABSTRACT: Circuits containing a man-operator as one of their elements are extensively used in mckiern control systems. The case studied involves the control of the pitch of an aircraft in descent prior to landing. An experimental investigation Is made of the psycho- physiological characteristics of an operator during control under conditions of G force acting in the chest-back direction. It is found thatv I th a G force below a certain limit, the operator is capable of controlling angular and trajectory movements it he receives a single control command. The structure of the control command shcK:ld be Identical with the principle of control of an automatic sygWm; furthermore, a correcUou should be made In the 1/2  ACC Nit, AT6012899 command system, i.e., the dynamic properties of the operator should be corrected. Optimal structure of the control command may be s a I a c ted by methods employed for automatic control systems. The quality of the control to considerably affected by its dynami(. characteristics, by the preparation and the training of the operator, by perturbation factors, and by the organization of the working place of the man-operator. According to data obtained with the polyeffector method of recording physiological functions, an increase in G force acting on the man-operator leads to the execution of control functions which are unchanged in capaefty at a high neuropsychic stress and at a lowered performance. The polyeffector riethod makes It possible to determine the neuropsychlo activity ct the openitor undAwC 9=4 mom Mly, An abjection e%uUmi'm of the pro I employing the man-operator in the control circuit may be obtained as a result of analysis of the parameters od the motion dynamics of the controlled plaft, the actions of the operator, and the degree oC the operator's psychophysiological stre". Ovig. an. has: 12 figures and is formules. SUB COM 05 / SUBM DATEt 01AuC45 / AXD 1PR2 I I td 2/2 -Z(-  ACC NRs AT6036558-- SOURCE.COOS---- UR/0000/66/000/000/0162/01631 AUTHOR& Yegorov, P. r.; Dupik, V. S.; Yermakova, N. P.; Korotayev, X. K..- hina- YA. ~qyq -GG1_P. Neunyvalcin, L P.; Petrova, T. A.; Ta_j Yga Routova, H. B.; Filatova, i.11 Tayganova, N. L; Yakovleva, I. Ya. ORG: none TITIE: The effect of hypokinesia and homogenized food rations on the functional state: of the human organism (Paper presented at the Conference on Problems of Space Yodicinal held in Moscow from 24 to 27 May 19661 SOURCE: Konferentsiya po problemam koemicheskoy maditainy, 1966. Protlamy kooodches- koy reditsiny. (Problems of space medicine); materialy konforentaii, Hoscow, 1966, 162-163 TOPIC TAGS: isolation test, hypodynamia, human physiology, space physiology, cardiovascular system, space nutrition ABSTRACT: For a period of 7 days, four specially chosen healthy subjects 21-:-29 years old lay flat in bed under conditions of limited isolation. Two of the subjects received a special ration of homogenized foods. while the other two received a ration identical in calorie content (2200 kcal) and chemical composition. but prepared by ordinary cooking methods. Water consumption was unlimited6 Cwd 1/3  ACC MR in the course of the experiment, reopiratoryyolume and vital capacity decreased in all subjects; the subjects iL-ceiving the special rations showed a more pronounced increase in oxygen consumption and consequently in basal metabolism level. Cardiovascular system changes were seen In 1'.e EKda of all subjects (decreased voltage of R and T peaks, bradycardia, and rotation of the axis to the righ%. and persisted more than 12 days after the experiment. Hemodynamic studies using N. N. Savitskiyl a method revealed a decrease in the speed of pulse wave propagation along arteries of the muscular type, and changes in peripheral resistance and blood minute volume. Disturbances of intranasal circulation were revealed by the rhinopneumometry method. 7hese shifts in vascular tonus were more pronounced in the group receiving special food rations. Following the experiment aU the subjects exhibited orthostatic weakness, and in the two sub,'Jects receiving the special food raUbn. an active orthosta- tic test Involving standing for 30 inin induced coUap" (an the 3rd mid 23rd min of the test).  ACC N;t, AT6036558 Pronounced functional shifts of a transient nature were noted in the gastrointestinal tract 4diminished gastric secretion after the experiment in the group receiving special rations; and changes in protein, carbohydrate, and cholesterin metabolism, and impairment of the bilirubin -excretory function of the liver in all subjects). After the experiment all subjects showed a weight loss of up to 3350 kg, although disturbances of kidney function took the form of decreased diuresis, decreased creatinine clearance, and impaired water excretion during water loading tests. Changes in mineral metabolism during the expL%iiment consisted of Increases in the blood plasma levels of potassium and calcium in all subjects, and toward the end of the experiment, decreased chlorides 'in the 24-hr u*rine of the subiects receiving special rations. Audiometry revealed neurodynamic disturbances of the functional state of the auditory analyzer Jasymmetry and elevation of differential thresholds of sound intensity and height). A change was noted in the level of the dark adaptation curve. A considerable increase in light sensitivity in the 60th min was noted in the subjects receiving ordinary food, and a lesser increase in the subjects receiving special rations. Analysis of nyctograme taken during the initial period of dark adaptation sh6ired no substantial shifts. -[W.A. 14o.'22; ATD 6 Report 66-1 SUB OWNs 06 / SURN D&Tgg OW41" I-CwA .3/3  -TITLE f. t vow- rapen SOURCEt-'. ftzika t'verdo t6la, go Y. 7, no. 2o 1965, 496-5oi TOP w azaztoww-~ mi-emb); oc k-d"pe re i o at"volution AnA r Le- r scope -::- _ABSTRAM This investigation was aimed at further confirmation of a hypothesis AdVancedby:one of the.authors.-previously L(Garbert UFZh v, 19 88, 1956; FTT# v. 24 :1089 1960) that plastic deformation can be reprded, stwting vith a certain: stage.'as simultaneims dispersion of micrioblocki and restoration of contact be. tween fragments , Using an auto-ion~ microscope$, the atthors observed the for-a- yatal of tungsten at liquid-nitrogen temperature, tion of.tcrackAn a single cr under tbti influence rf_t_h_e_'q'*U_e1%cbing stresses and of the force produced by an electric field* The evolution of the cra*k.durLng the course of evaporation of 1-Card   SOURCE CODE: AUrHOR:_ Garber, R. I.;.Afanaslyev, V. I*; Dranova, Zh. I ; Mlkhaylov- ORGo PhysidgtoglMloal lns~ljjft, AN MIR# (Miko-tekhnicheekly Lns;j.tut.AN Ukrainakoy SSR) TITLE: Low temVejAkUX9_ncrvstalljz4tjon of tungsten m1orocr-yetala V-1 SOURCE: Zhurnal okeperimentallnoy I teoreticheskoy flzlki., v. 50, no- 3. 19669 520-524 TOPIC TAGS.# low temperature, recrystallization, crystal dislocation, grain structure,, microcrystal, tungsten deformation ABSTRACT: Tungsten deformed at liquid nitLro en temperature has been investigated in a field ion microscope after being kept at room tem- perature. It is shown that new recrystallization centers may arise at 6oo--7ooc In the deformed boundary region of t4e microarystala. The transverse size of the stable grain Is 20--60A at a disorienta- tion angle of 8--100,. The.dislocation spructure of the boundaries Vas discussed. Orig. art. has: 9 figures. LBaaed on author's abstrac NT SUB CODE: 20/ SUBM DATE: o6Aug65/ ono REY.. oo3/ OTH REF'- 001 CaM .1/1 AV  L 516 CWT (d)/--'L5-2/E74T (1)/E14A (h).. GS/GW,' ACCENUON NR: ATS014719 IJR/0000/66/000/000/0117) 0121 AUTHOR: newt 9 S.A.; Chineakov. L.A.; lovaid I I.P.. Cheenokovq A* Fe 55 TITLE: Memory devices for systems of meteoric radlotelegraph communications SOURCE: Operativayye I postayannyye zapomfnayushchlye ustrqystva (Rapid and non- volatile storep); abornik statey. Laningrad, lzd-vc, Energlya, 1965, LIT-121 TOPIC TAGfid. meteoric communication memory, fast resding memory, slow recording memory, stan0y memory, radlotelegrapby ABSTRACT, Proposed meteoric radiotelMaph communicatiqu--linke kequire buffer memories which make pei-sible a continuous transfer of information over a discontinuous, communication channel. The memory on the transmitter side should have a high reading rate and slow recording speed while the memory on the receiver side should operate In the reverse manner. IMe memory described In dds article can carry out simultaneous recording and reading of informatiett and can be started ad stopped almost instantan- eously. With a capacity of goo code combtLations It Is relatively simple while, nevertheless, ft causes only lns4pffleant reductions In the communication channel trander rate. It allUzes direct sampling and has five operating digits plus one control dWt. OrIge at. boo: 3 8gur". Cwd 1/2 7-  ACCEMOK NRt AT5014718 AES"nOKt now .'F.,;',AUBJUTTEDs 2Wan65 ENCIA a SUB CODEt DP, EC  120739-66 EEC(k)-2/EVtA(h)/EW(I)/Elff(u)/T/EW(t) IJPW JD ACC MR s AP6W538 SOMM CODE# UR/0410/65/000/C06/0028/01035 AWWRt Kostsov, E. G. (Havosibirsk)l Ulkhaylovsk!y, 1. P, (Novosibirsk) ORGs none TITLEs Thin-film c"cltors and the possibility of using them in measuring SDURCEt Avtoutriya, no. 6, 1965, 20-35 TOPIC TAGSt thin,flin capacitor. measuring Instrument ASSMCTs Conventional thin-film capacitors, their construction and characteristica are briefly doicribed. T& capacitors cannot be used sucfpssfully at frequencies .ovei 10-kc, Attention Is dram to the potentialities of,Al-AI20 capacitors; al- though Al capacitors are,slightly larger because of loW67-f of Afft they have these"advebtagess tHe nandissolvtng-slectroLyto processing, whic permits accurst@ control of the oxide-film thicknesso high electric strength of the oxide jilms simple method of spraying of Al files good reproducibility of charecTe-Milce; wide'class of materials suitable for backingss time stability of characteristics, The", experimental Curves Cwd 1/2 UDCs 661.200621.319.40539.238  ACC NRg AP6007538 are shown: specific capacitance vs. backing temperature (100-300C); electric strength vs. oidde-filrn thickness. leakage-current density vs. applied voltage (10-100 v). Al film capacitors are suitable for operation up to 10 or 20 Mc; their temperature coefficient of capacitance in -ZOOxIO-6 p~r IC within -180+240C. On the strength of the above resultj, the Al thin-film capacitors are recommended for use in electric measuring instruments. Orig. art. has: 6 figures. I formula, and I table. (031 SUB CODE. ~ 09 / SUBM DATE: 07Aug6S ORIG REF; 000 -OTH REF: 009 AT D  L -20740=0 EEC(k)-2/EWA(h)/EWT(I)IgWr(ps)&AWP(t) TJP(c) _M ACC Hit, AP60075391 SaMN C(MIC: UR/0410/69/0W/006/0036/000 AUTMR: Vinogradov N. G. (Nawalbirsk); laggi 1. F. (rawasibirsigh Kany6yeir Kastwavq ORO: Ime repeats for usloa t -9 a is Mawl"Aadawants 'Awtamstriyar no. 6, JL90, 36A4 TOPIC TAGSt' 3mdUCtCr "046 9 thin film diode 0 wassurift Instrument AWMCT: Three tMs of jkjA=tLjaAwllKU In Vee! (1) Diodes with Vace- charge-lialted current; (2) Diodes. with oxide film vhoss fianctlanift depends 00 metal-oxide-boundwy qhwum~; (3) Haterojim Man diodes. Their prialepol char- acterlstles and the 04sleal pbsoomma transpiring In them am discussed. The re- .0141te of off experimental- Investigation of the second and third types with 0.01 ad 0.0003 c4satIve sartice (91-41odles per cvA we reported. Current-MItage cbm- acteriaties, or Tl-.*3ddt-fUa diodes are shmin; those diodes can aperato at IbIlillw~.. turns up to 20W#* their characteristics do not deterlarsits, with time (2.IF Ira). Odlg* betora4metion diodes exhibit my steep characteristics; at 0.2.&0.h v, their fw- ward Curran 6 we Conoldemble; at -3--4 Y9 their reverse carrow a we 10-40 micro- At teoperstarew aver 100C, their rawer" current rapidly Increases. After bra of contlawand operalkida 9 the rorwwd curroat (hdtlaW 2 ms,)~_ lw"4d".Iw  200-3000. Nth UoW' tire we nwommW for ww is msmwdft Justmosts "bag the w4dwisd Of V=7 low (20 w) Wtspsq " flroqwwfmoo w& slant" (031 am, 00=1 gulso/ one Mrs 0091 on =I wrl. m  I ~)GVLYAY , V YF . ; !,Y I,. ".~, . . :, . . I O~ , .,.. . , !'. '. ; )'~ ~,-' : " ) , .,; ~~ . 'o,utir,Fs or = t*ti;f- -- .-. -,,, I - - -.- ~, " - - " - ~ *.' - - - , (~qulpmf-nL. Nf ~ 'I- I , j -- - . , -. ~, :' -- v K ~,-,m .n c, .,-' .- , ! - , ~I --. I ~,~ -, I '. ': , , I I r !~ I I K. ~'.. , I . Ilauchno-! -i ~ 1-4 nv?; t,~ 1 l 1 r,:i *I *, 1, r r) ', it , ~ n - *,; ' ,,. , 'If-ft'l A nofLo; T-c-t .11 1 ", .  YE!tvfN, loylis 3 ,,at lorary po*~F-nf -',I r tno~ vilfootl !n un In.-jult*,Ing film. Trrimsr. ' ?hran. noftl r.(-, 7-~ 165o 1. - . - - *- 7, , '.r ar. u '- K:, r ns 3 IlPft! 1 nof Lfiprodukt~-.v.  L 13080-66 EWT at SOURCZ CODE: Ult/031816510001011/002910032 AUMRt-Pbv1ysyg V* 24,; QomIk,* A. A !!ft!!=Ld& 1. T44 ~MG:. Nut Iwo TMX: Corrosion of petroleum tank sndAts control In the refineries o cis SOMCE: Neftepecerabatka i neftakhtmiyog no, llg l%Sv 29-32 TOPIC TACO: corrosion, petroleum refinery Oqui;=t, gotective coating, apoxide. gas corrosion, storage t5u*, corrosion rate, me sur ace ANTUM To elucidate the mechanism governing the ewcosive attack of the inner surface of a petroleum tank, use was made of a LWkwatory unit which simulated such corrosion under conditions of condensation and periodic wetting of the metal surface (St. 3 steel) by petroleum products in the presence of-wisture, hydrogen oulfLdep and atmospheric oxygen. It was found that the maximum corrosion rate takes place In the upper third part of the tank, where the ratio of the frequency of wetting of the wall by petroleum to the time of contact between the surface of the corroding metal and the air-gas mixture In the highest. To reduce the corrosion of the Inner surface of the wall, petroleum from the dehydrating and desalting units should be cooled to the temperature of the surrounding air before being collected :in the tanks, It Is recommended that the Inner walls be Insulated with -, tallic (spoxide-bass) costiosse;inalneer N. M. Samsonave and laboratory technicians lo Me Find wd T. A. FAchankaws participated In the expeclowntal vocke Ortge acts has: 3 f ftures,  I IMACL66  YEKKOV, A.A.; MiKhAYLOVSKIY, I.Ya. Dev-ice for plotting polarization curves. Zjv*lab. 31 no.-12388- 389 165. (VJRA 18:3-Z ) 1. Nauchno-issiedovatellfskiy inatitut pa transportu I khraneniy-u nefti I nefteproduktov.  SOV/68-59-6-10/32 AUTHORI M Kozel', V.Ye. TITLEi Signalisation of the Position of Coke on the Coke Wharf and the Position of the Quenching Wagon (Signalizatsiya zapolneniya koksovoy rampy i polozheniya tushillnogo vagona) PERIODICAL: Koks i khimiya, 1959, Nr 8, pp 23-25 (USSR) ABSTRACT: Under conditions of bad visibility in the neighbourhood of the coke wharf, due to steaming, the discharge of freshly quenched coke on to the correct position on the coke wharf is often difficult. This becomes particularly important when the discharge of coke from the wharf is done automatically. On the Zhdanov Works, a signalisation system was introduced which indicates the position of the quenching wagon and the position of free space on the wharf. The design and operation of the system is outlined and illustrated, There are 2 figures. ASSOCIATION:Zhdanovskiy koksokhimicheskiy zavod (Zhdanov Coking Works) Card 1/1  - qj 'K I .,. J, _ t, r -, tv I,.' . p. . , M -~Ii AY:,r)V:-, I Y , K . F . I , 1, . ' ". ~ F 'CT ~r '(.r t ) - * ' - ' * -,rtr*cl c%t* 9 ~OKr IT '. ~ : " 1. pn - Jc c ~ r - I * ~. f; . I - - ro. -,, .1. - -- r,! r (j 11 1' '12. ; . I~A . kf . ; _  IIIIIEHAYLOV51"ryp L. K. Filkhaylovskiy, L. F. - "InvestizatLon of Ferrite3 at a ' Around 10,rK4~ ~k---gacycles wit.. 7ranz,,r,-rse Maznetization.0 X~~ Lr*-~ca,-'. on USSR. il-,occow Order of Lenin Power i~nglneerlng Inst imeni V. M. Y,61otov. Chair of the Theoretical Principles of Radio Engineering. Moscow, 11;56 (Di.ssertation for tne Dei:ree of Candidate Ln Technical Sciences). So: Knizimaya Letopiii I, No. 10, 1~,56, rq. 11',-127  P I : .-I' -,~' I,I .~.. ( : ! " c " C)v ) -11'v'j*..,.,C", K. .I. i:cu-~:Y, Y. :,. ~IIA ,, ., - , , "ariumov"lay. L. K., I ,,j.!aGnctod ie lertrics i! WavPJU 4 d~:, , " "Se I -tei~ r'- " ~1'2 I:.* nro I . . 1,''- -1 -~ - 7 ~ 1,0:. - -,, ( f Cotiferer,(-c on Pli,,s!cs () - -j, - ,  AUTHOR: Mikhaylovokiy, L.K. TITLEs Investigation of Ferrite Characteristics (Issledo- vaniye parametrov ferritov) PERIODICAL: Izvestiya Akademli Nauk, Vol 1X, #11, pp 1279-1263 1956, USSR, SeriYa fizicheskaYa ABSTRACT: This article describes the results of theoretical and experimental investigations of the electromagne- tic field structure in a wave guide filled up with a medium, which is characterized by the tensor of magnetic permeability. As a result of this investigation, it was found that in bounded gyromagnetic media there exist waves de- pending on the intensity of an additionally magneti- zing field (perpendicular to the axis of the wave guide). The experimental arrangement of this investigation Card 1/3 was as follows: ferrite rings of various thicknesses  TITLE: Investigation of Ferrite ~haracteristico (Isnledo- vaniye parametrov ferritu.) were placed into a round wave guide. The rings were made of ferrite of the "Oksifer-400" type with a diameter oqual to the inner diameter of the wave guide, 26-6 mm. The ring thloknooo vnriod from 8.3 to 0,96 mmi. The frequency of the waves applied was 9,590 megacycles. On the basis of these experiments was determined the dependence of the losses of electromagnetic energy flowing through the ferrite ring on the intensity of the magnetizing field and on the ring thickness, The resulto are presented graphicully as families of curves shown in Fig. 1 and 2- It was found that in uddit4in to the losoes nentioned above, losses of resonance character were super- posed. The additional losses, originated because Card 2/3 of the volume rooonance, can be eaDily aingled out.  TITLE: Investigation of Ferrite haracteristics (1331,~o- vaniye panstmetrov ferritDv) The bibliography libts 5 references, of which 2 are Slavic (Russian). The artiode cont"ins 4 graphs. INSTITUTION: Power Engineering Inctitute imeni V.,V. Molotov in Moskva PRESENTED BYt SUBILITTED: No date AVAlLLBLE: At the Library of Congress Card 3/3  MIKHAYWVSKIT, L.K., kand. tekhn. nauk Matching of wave guide sections with air and binary fillings and flat junctions. Trua UI n0-31:225-233 '56 (K13A 13:)) (Wave gmidas)  WBOV. G.D.; KIKHAYWVSKrY, L..K. Gas-fIlled detector for centimeter and aillineter waves. Mauch. dokl.v7s.shimly: radlotelth. I alaktron.W.1:232-234 ' 58. (IGRA 12: 1) 1. Kafedra tooretichaskikh osnov radiotekhniki Koskovskogo anargetichealcign instituta. (Microwaves)  pt/ Pr~ IL C a.&- 9 soft ft 10 An 14 -1 OL 11.41- it 111- pm~ It iiwiia 0 to n .-I L R ll"~ M a IL A- (e PO w to ~j c a a a tq~ 14- P--. mostme 49 Us 61100tote onw" 4c O"lla au..Ow d riva" &to mo. HSI  ... Vol 'A U21at 0-IT44ad J, , -138.VT3 ...I -islq,, 9-.Ailtoom ul aarl, ARS g- Iv.~OdWD j. Ln .0 V *A '-Itljqvd io" -lei 0111"n" dXg 'tn JO 80TZUR~bsj, '1042w~', 16eft/AOC 841 POS I"Qso (.wwToma 'AT Jts--B-OA 'A *S) WO CV 'USMo -pum uo evil 'T'"sqz .020 .601 14 adoard arzoulm puv iwnnlojo J. tdoi%.oT - "2 Tnaal!Vjrojj%*ojo uI w%aouod~* in%4jOJ fuls" I.IdTo.l,d 'Adoo.oil ,-d131-4.2" '80, 1111 WOOD XTU3Tq *M0%'4*Sn3V S.&Tcwd SUTZ141we Ivlrvuv3ow I.TAVU ..2tjj*,; ja astrn3v %jj*j 0 61611ru: TwIllopwoo -%scud P"v Tv~jm&A4z ~,l o1 esolqojd flV2*" o1sul qnMej j0 MI-.431 t~l j0 m.1 P-48 *Iolljjoj ja solza-doad P.1 -.1razoi 1,141D4 op wzjod- OU .ags .I. na TsQ"v..j* .1 plo'. lwu"Djuao I u0 -%TV pjtql .n 3% pr4usemad "Jodai vnw2uca t= ma i'XODVVMl 1VOTBAud PuV Italasqd ;.tOTuOJ'33*T- -Tpvj ~n sasjm~ paouvApv u1 szoopme 44 poom 04 oe C~ III -vlwl4olva ol13su9vm0Jj!j j0 ounlopul mr4anpoid "n .1 P. Ija __Gj ILI ~ I .4,uoa puv oj*. u 3*010 Dipw 'w29T:s,qa ~TwZqd ?a 6 joi popualul atao-eq-tv" txroigw -MDT-cuWAWTOA *1 "PI CTxsAwXTOfO -S :osnon lulu�Tlqrw JO ps 14oallmovs *v "I I 'u .1 ff:auslos l"I2Vmfxavv puv zv*lstqs p I .ovuajvAlous 'm maj 'v 'D :Jotvoj olvplp.v:) ei4 Aljqtual"g uJuB.Ta't -*JDf9BJ*JJ '11319 !joasa.1.44 &else 'a '31 V= Wa3uslag ja Asopwav am.4 jo rVjojfvvzT *W%"Ig . a. --pi -ds&V tPJWM 11"Jollpi i ,USTR NY omup.Aollod I IT*% 020pasall TRINU TOM ~;Z.ugvs d 46kolt juum~ftvs Issoloually wnaov~da M ulid voTdoo ooo't -poliom.1 d11. sn~uj 'd S;Q 'C967 '11CM NY 0--Ptl '316UTY t.1 PuV Iv.,Isx%w .801zuad) (..Aj.dav ur 011310C 't.13*ADIS 1i I O'Cizvowlau wed t_(1 ..... lid UM V.Outo CIMSOM3111i I 4LO314jej A-.Xlzlj ..AIZIJ Od *j(juv%jaqsaAoq atouzntovou _Y_ .. YOM I IMA  WOK zxFL;:)1-ATC!q SOVA893 wassay,us"O" soveshchant" Po rtzlim, rIzlkO-Knimlcrw.4CIA S~Tsts.. rarrItav I f1clelwaklm ox-a. Ion ~1. 141-34. 19-19 Perrity, risichaskiyo I rittko-whimichtaki" svc"tva DwLia-:2y (Forrlteal Physical and Phyalcoctlemical F~opertlem. Re Dcr-* 1 Minsk, lxd-va AX WSR. 1960. 655 P. &-rata 211P lnfiorto-- %.000 copies printed. Sponsoring Agencies- Rauchnyy sov*t po m&4p~tlt;u AS SSSR. 0"o I fUlki tvordago tala I poluprevodnllcov AJI WS SdIllortal Boardt Rest). Rd. t 3. 1. Sircta. hea4amiclan or the Academy or Sciences a=z L P. Belav. P"femoor; Te. r. K~dar- skly, ft-cfameor; Z~ N. I-allyangv. Professor; R. T. Tol.s.ln. ft-o- fassor: a rroressor- z. P. sh-i*ts, cx~dic-t- r < ftyaloal 3. K. an.1ya"nKol ar4 " 1 h- 1- A. IMShkirovi Rd. at Publishing NO~Set S, KIWIYALVSICIY~ . Nd.t 1. Tolokha."Ich. ' Into.dod for ph"tclstj. phy,le.1 ftsal,t a Malo el*ctmnlcs Onlln*Ocs. and technical personnel or4x," I; %b* Production and use Of r*rrO*x9n*tIc saterl.1m. it cAy *I,* be Used by Students In lkdl&nc-d course@ In radlo ej~tr,onlcs. ok"Its. AM Physical th&al&try. COMRAGI Th k b oo v e contains "POrTS Presented at t," Talrj all. Colon Conference on Forcites hold in KlxsA. 11A0 rvPOrtA 0041 with aaeotlc Olwetr. _A, ~ on, gzlv&nousgn*tlc Pr-P-rtiOs Of fOrrLt*3. studies of the gr~eth of ferrite single crystal.. Prcbl*m& In ths ChomIcal ~.d payol. tochealcal analysis of to " Item. *tuelts of re"t-we havtn, met&rgUl&r bjeterselm loOps and sulrlcocpQ_nt ferrite Systems 4.1hIbItIng opmt&neoug rectongul"Ity. Problems in cm#p~*-.Je attraet"O"' highly C"MITO rgrrlt*&, W&&~StLC -POCtM3C0;Pj forromagnotIc resonanc., 449noto-optics. onyvical Prt..:P1,;; r Usin& rarrlt* ccmponents in electrical cimultg. &n1pot"P, ; *I*, trIcal and '"VOtIc PIP*ItI... Otc. Th. Ccoraltt.. - .ti*o s AS V= ( I, VOnS"OitI7. ChAlroan) 0rXm124d t~e ;. forne References accompany Individual arttcl*&- PerrIt.a (C-t. 3CW/%ft3 %67 %t o mikh"10,21617. L. 9. CMOs plodul4tlon I. . forr VUL~Oslr9lt-". V. To.. A. A. Rn.ylov*, and 3. P. Stantmhst.- dkg". r"*StIgatlon of PJW..1,~-Cnroct- Perrltvs In t~ Pect"tric We.. R-J. *)9 1 ftbrlkov. T. A. 7r.. lboor7 of Fe"Ito Dielectric Delay Ll.sa, hilth oletribut.11 Constftnt. -%96 Shwartm, A. A. KagnotoatrIctl" Cores Prom Forric Oxide% f-m 3?-~Yvv. ru. X. Cilculatton of Translamt ~m4ovsva In Pul-- CIm-l',- C-nt-l~"& P." Cores Whlzn Kavo Itectangular Hydtomal. L-pa 1,17 I% , C 6.1ye-sic3Y. V. P., and ru X. 3hammyq- C.1-1. tl~ ?~, : . h ~ Othn,t CondItions in Pulsed Clmulta C-tali-Ing P-It ROCtArdular 8"t-sts L-ps tj 3 Card 17/18 Card 4A  V17-M AUTHDRSt TITLE: PERIODICAL; 30U0 3119 1%3601/000/007/070/079 D20 5 filv) _j#,~.haylovskin L.K., Balakov, V.P. and Pollak, B.P. Conversion of electromagnetic oscillations of ultra- high frequency in fer-ites ReferativaVy zhurnal. Avtonatika i radioeLektronika, no,17, 1961, 3. abstract 7 K13 (V ab. Ferrity Piz. i z.,Ahim. svoystva, Minski AN BSSRt 1960j, i6o-566) T Detection, multiplication and mixing of frequencies have been investigated using ferrites in the 3 cm range. Several models have been constructed of pulsed SHF-power indicators. The dependence has been confirmed of the conversion of a ferrite multiplier an the geometrical dimensions of! ferrite and on the level of the applied SHP-posmr. The shape of the signals obtained after conversion, did not differ practically from that obtained from a crystal-mixer. The conversion gain of a ferrite mixer was found to be much smaller than that of a crystal-mixer. 5 references. fAbstracter's note: Com- plete translation .j Card 1/1  S/194/61/000/008/067/092 D201/V304 AUTHOR: Milthaylovskiy4_ L_,K. TITLE: Ferrite cross-modulation PERIODICAL: Referativnyy zhurnal. Avtomatilta i radioclektronika, no. 8. 19619 11, abstract 8 101 (V sb. Ferrity. Fiz. i fiz.-khim. svoystva, Minsk, A14 3SSR, 1960, 587-590) TEXT: A description is given of experiments carried out in order to establish the basic possibility of obtaining a cross- modulation of two SHF signals with a poly-crystalline Ni-Zn ferrite. This possibility has been proven to be theoretically possible. 4 references. Z-Abstracter's note: Complete translation2 Card 1/1  20585 s/log/61/006/002/017/023 9,2 9 71 (9/so IIV,?., 11SIr P-140/9435 AUTHOR: Mi kha yl, 21 .ova y, L.K. TITLE: Broadband Amplifier Using Frequency Converter PERIODICAL: Radiotekhnika i elektronika, 1961, Vol.6, No.2, pp.329-331 TEXT: This note concerns interaction of two microwave signals in a non-linear element analogous to the Luxembourg-Gorkiy effect in the ionosphere. While it appears that the author has in mind ferrite, no specific non-linear medium is discussed in order to keep the result "general". It in shown qualitatively that under certain conditions amplification of one signal (in power) in the presence of another can occur with arbitrary relationship between the frequencies. Measurements on an unnamed material under unspecified conditions are claimed to have resulted in a linear gain factor of 40. Acknowledgments are expressed to B.P.Pollak, V.F.Balakov and A.V.Zayteev for their assistance. There are 2 Soviet references. SUBMITTED: July 12, 1960 Card 1/1  2h976 S/ 109 /6- /QC)6/ ",16/, 4, 3o o #1;p D262/D',2"6 ATJTIIG:tS 1,*.ikhay 1 c)vgK i v, L. K. , Yakari shchev, 11. P. ,Pollak, B.P., --h-d-T TlTj,L: Nc,,r, - 1. ine u. ri-imut;n e t fec 1. s D f L, nu i c,n: cliLracter in 1'errites P'dtlUDICAL: 1178 - ~ih5 TEAT: Tj,is papcr a "fill1lClil S().'~IaLV ')f ;-LA10 im. A.~3. Po!,,,) on May 1,5. 1,)60 leals "lith t~~e L;yrc,ma6nt;t,i'~ of limp! *11,1C Tim ul IF urA pe:-!,11" t.lie 7,he llu~ltt 1-![L~ 11''Ill(OAl. Of ::iu;trw*lz,t~lun. jar~,j t-r,, C L ; r _, V IV beeri I j I .L, d4 ?A 1 7 A (Rel'. '.): RadioteKi,n1ka 1 5, 1, i and lie r. CLrd 1/ 5  2LL876 :'cn-lintar gyromagnet-, D 2 6 4- D',7 G 6 _r. y Voyegoyuzrioy Y or, fe r,~n t.; -.o fc-rr. tw:. r'lnsk. The present the Tt, x e r i: - n wo rz C~j Au- tliors, purformed witi, tto r,_.~ -.6 *-,~(: ~. - - . , 7. t -t r I t y of the U-Iupendenc~- i_)aer lp,, :.t- rm r ~i i r. t h e fe r r ! t e j,,-rn; ~ e ~i r, tne resonarit e f sinusoidal ri,,~ -_ z a t i -,, u n d e t h,- 1 n n ,, the 6HF power of .I;e .'oC.1,.L "6'..i.-tor. '."nle s_-,r~e S11 3 a or, - 11nuous or pui8t_ n e ,j. r, - r K - ~ :,_, - e 4 0 (4 5 -1 The f erva t.- zami,l y h t_- c ,u a t3 a,- i % 5 - C r, of a standard waveguiae at 116 t ar, f mr, f r c n :-ai,rov" wa.. of the waveg4lde- Fre-juency ~~angu viuii cm, IF waii cr., i? waij 50 L.'c/s. The effective Q uf tue resonant cct was 2~ a,~ -10 !'c/o. The constant magnetic field was ap-,Iied parallel to the Ararrow wall of the waveguide. Its r%jugnlitude .warj -,orrespond-Ing to t at of the fer- romagnetic resonance. The fcrrt,~ was a :-.on6 r..-yq~a~ of ytt.rium ferrite havlng the ferr,c.-..agriet1:: resonance ana 5-1C oer- sted. The shape of the sai:ipie was neariy spher:.cal vilth unlappei Card 2/5  20 76 S/109/ C" t/ ~7/", '2 Non- i incar gyro.-,zi~;ne t:. D262/'D5&6 L3.irfa-(,. TI.--, :,v-ra- lF a. f i ab:) "'ec to vj', th a Sri m i ro i ,)Vk f C  rl - i ! r, t at- ~Ion ri 'fie c r ~le r e Le f-- r 5 c i ni L,, I j tL 0 12 1' V f-''!0 n a I; a r :3 u r-. ar.et t at- i t T.. I- -, ) . - Ox Is i a ru e r i e 7 z i nE ar o!. e r e r Th e I H nt -!,r t i Z:. t A. i e 0 t' 0 f . 6 c x a r r .21 r i te C I C* I. i ! F fe r-  20 76 3 J:- S Ovi Pow-: i~- 6 J r. - 3 O'l an u;, e It, 1.3 f. L- 1,  L10299-66 ~_gwr 0 ('I)/F-tlA (h) .1JP (c _~,C C ~NR 'APS*26"4 SOURCE CODE: URj0l"/65/010/0l0/l739/l7SZ_ AUTHOR: Sawta" L, K. j Pollak, B. P. Balakov, V. r. i xhanamirov, A. To. ORG; nano Ole TITLE: Characteristics and uses of single -magnetic -axis ferrites in the 1 millitneter band (A review) ~SOURCM' Radlotekhnika i elektranika, v. 100 no. 10, 1965, 1739-17SZ TOPIC TAGS: ferrite anisotropic ferrite, millimeter wave 0 Gurces .'ABSTRAGT: Basodon 193S - 65 1Soviet and 1948 -63 Western published a and. sis a an soun recent Soviet mWerimental data (coercitive force. ferrarnagnstic reigonancos ferrite Vdv*)# this review 'covers the following subjects: rerro- rnasnetic resonance in anisatzopic ferrites at moderate external magnetic fleldsi UDG:, U1,319.134.0.29.6S.001.9  L:102"666 ACCINK: APki4M Of parameters of anisotropic Cerritos and methods of measuremente, characteristics and variation of composition of B&O-61rat0s and SrO.6rezos ferrites; 'measured effective anisotropy field of polycrystalline ferrites in the 4, and 8-mm bands; roson"t field as a function of the angle between the anicatropy axis and the external bias directions, peculiarities of high- and low-coercitivity anisatropic. forrites; ferroresonance phenomena and tWr theory; ferrite-loaded ctions (roe oh Cox-rite ntizers. "The authors wish to thank wave des* t Via and Ke P A. M 7&n:w for londipig I 6n$ Of tested materials and for their attontion to the works and also a. &3OWAY-and. 0Y I lt~knfa for their paxt In the experimental work. Orig. art. ban: 10 figures and MM CODIZ: 09 SMU DATE: I"ug64 ORIG REF: 004 OTH RXF: 009, IN  L 36362-66 EWT(1) ACC NR1 AP6oO5322 SOURCE CODE: UR/041Y/66/000/001/0057/(>05T INVENTOR: 14ikhaylovskiy. L. K, ORG: none TITLE: Super high-frequency spectrum Analyzer'_ Class 21, No. 177527 SOURCE: Izobreteniya, promyshlennyye obraztay, tovarnyye znaki, no. 1, 1966, 57 TOPIC TAGS: spectrum analyzer, pulse amplifier, super high frequency ABSTRACT: An Author Certificate has been issued for a super high-frequency spectrum analyzer containing a converter, a heterodyne, a vide-band lov-frequency amplifier. wid an oscillograph. To observe the spectrum and to make panoramic measurements of the pulse parameters with super high-frequency charges and all durations, a converter In the form of a ferrite cross modulator is inserted at the analyzer in- put. The ferrite cross modulator is ball-shaped with two windings on it along the axis of the rectangular wave ide in the constant magnetic field (see Fig. 1). Orig. art. has: 1 figure. ?Translation of %batractl INT)  L 36362-M ACC NRI AP6005322 1 t SUB CODE: 09/ 611BM DATE: 28Dec63 ___70 Fig. 1. Super high-frequency spectrum analyzer I - Small ferrite ball; 2 and 3 - coils; 4 - waveguide.  SMCE COWS 6 OW, 000 ;ij1OTO3W5 AT6028"5 0( 1 ad /I L 38 1(11d%ejlovvWp- Lot- Kv; Balakovo To F. I Puddwo To So I Radchankol To Fe OROS ?me TIM 1 10 3d of elsotromspetio signals on a magnetically manoexial ferrite SWRCEs Yeawyuzacya soveshchwilys po ferritam. 4tho Minsk. Fisicheskiye I fisiko- iddsidwWdye ovorstva forritow (Piwaima ad oweloodmimi propaties of forritemb dolds sovisehobanLys. kinsko Sauk& L tdchnikav 1966o 310-315 TMO TAWS ferrite# m&wtio property# wMetio material, electromagnetic mixing ABVMCTs Ma possibility of constructing ferrite mixers for use in the 4-1cm wave- length range was investigated. This work supplements the results of K. No Polivanovq- L. K. Mikhaylovskiy, So A. Madvedev, B. P. Pollak, and V. F. Balakov (Sb. Forrity, Isd AN B&M, 11inak, 567# 190). The experiments were carried out on meMetically mono- axial ferrite specimens. The experimental procedure was identical to the one describe by L. K. Mikbaylovskiyo V. P. Vskarishchev. B. P. Pollak, and To A. Fabrikov (Radioteidmiks i slaktronilm, No@ 7t 1178, 1960- It was found that the intensity of the Intermediate sipal was elvei by - AP P. Pint Pint m g, where A is a constant charaoteristio of thoi partiomis ferritep P. - theAntensity of the ultrahigh frequency signalo =A Pg the'Intenalty of the hateradyne signal respeotively.  ACC MR$ AT6026993 TIw authore Ocuolude that it is possiblep in principlat to six two slootromeametic sipals In the millimtor wwelwg% region by memo of mpotimlV mmaxi&I forritoo at relatively, imll..0daiml Ewati" flemso, orlco',~C~s b", 5 "tions. ma o=$., 090, 1 5 4 card 212  mn(MYMM~lm'' 14. MIKRATW JXO &; SHLIPM, M., redaktor; HAKOTA, I.. takhnichaskly redakto . [Darable and attractive footwear In greater quantity] Bollshs prochnot I krasivol abuvI. Nookwa. ltd-vo VTsSPS Prof Isdat. 1953. 30 P. (KU1A 7:6) (Ciao industry)  HIfftYL40VSKIY, M. (Moskva) The ONeftegaz" plant has th6 lead- Pozh.delo 8 no.11:2-3 N 162. (MIM 15 - 11) (Moscow-Petroleum industry-Fires and tire prevention)  k 1LiTi n 1. h 7i'a P60290-1~ SOURCE CODE: UPIO)jI3166100010141012010129 1111 Vi7j; TO P :Gerlovin.-L. I.; Chernovin, 14. A.; Averin, V. A.; 11agibin, A. Ya; Torganhov, - -I, , I ev fty V -Ay, V _A X1tJtnnnr1rovv,?iy, A. A.; 'irneh2 Mlkh lo- s1 -rop-9-V -M ZF OP(-,: none LITLE: Valve with a hydru-il io or pw-umatic piston drive. Class 1179 flo. 1811084 [announced by the ()fflce of tho Bnlf._i.c 13PAXeT3u I it! Ina_ Faqtgry Ordzhonikidze kr)nsi,r,jkt.nrsVoyP hyuro kotlostrr),teniyn Briltfyokogo zavoda7l --- - I zobre t prom , 1, r,t -. Lov -..n , no. 1), 128-12,) SOUPCE: TOPIC Tik(-',S: valve, Iri-Jr:i1ilic piuton )rjvr, prieuniatic 111M.on drive AL'z" B STRACT: propose, n hyl)rnulir or pneumatIr piston drive In designed for opening and closinr 6e through I'low-rection of main and auxiliary pipinga. In order to synchronize Lhe openini, FLnd cloning of both pipings, itn control piston ig provided with an anirilnr Froove, which, in the open valve ponition, connerto the  L-Jj'1~1.76-66 ACC MRs AP6029071 Fig. 1. Piston valve intake and outlet .cavftles of the auxiliary piping (see Fig. 1). Orig. art. has: I f i gure. [AV) ,(,UB CODE- 21,,/SUBM DATE: limay65/ I Card 2/2 RQB  MIKHAYWVSKIY, H.S. W-A*U0Ui, Distinct pulsating sound in the ear associated with aneurysm. Vast. otorinolar., Moskva 14 no. 5:72-73 Sept-Oct 1952. (CIAL 23:3) 1. Of the Clinic for Diseases of the Zar. Throat. and Rose (Head -- Prof. V. A. Chndnosovatov). Dagestan Medical Institute.  LWR/Xedicine - Novocain Block Jul/Aug 53 "The AppLication of an Intradermal Novocain Block in I Anginas,'2M. S. Mikhaylovskiy,4:: Clinic of Ear, Throat and Nose Diseases, Dagestan Med Inst Vest Otorinolar, No 4, PP 56-58 Advocates the application of a novocain '-,I cx-k In cases of rtrigina [septic throat], acute tonsillitis, peritonsillitis etc. Injections of a 0.5% solution of novoce-in were made into the skin folds of the horizontal part of the lower jaw. No other treatment 270T62 vas given. A' tributes the beneficial results of this treatment to the neurotrophic effect of the blockade acting on the central nervous a.,. stem. 270T62  O"7";-ly, "The lrm:,h.-Aic of trio r-tic-ular liloyr-'r-Itr. ?oxiection th thf- or'-,)it -n,, frort f7ur'n,!r. of c~-llflren clj.nic~~! invr,-ti It.-ite .-:!dicil Inst. 1~,',5 Pj-~-sertati.--)n for the ric,~-rpR of Doctor Jr :,:(-dicil Sciencel 'To. Ir" YK6. Nnscow  MIKHATIDVSKrY, H.S. Modification of the incision in radical surgery of the ear. lost. oto-rin 17 no.3:50-51 MY-Je '55. (KLRA 8:9) 1. Iz oto-laringologicheskogo otdolonlya Haspublikanskoy klini- cheskoy bollnitay. Makhachkala. (W, wirgery out modification)  41KFFATWVSKI-T, M.S. Uurs in a case of otogenous abscess of the calreballun.Yop. nalrokbir.19 no.4:51-58 JI-Ag 155. (MLRA 8:10) 1. Iz reepublikanskoy klinicheskoy bol'nitsy Dagestaw (OTITIS 03DIA, complications. abscess of cerebellum. cure) (CXMIUUV. abscess, otogonous, cure) (ABSCISS, cerebellum. otogenous, cure)  USER/!-',,z-..-n rn-'. '.n-.*- ~-l Merph-)1--gy -nd F-thclc,ic-1) Ly-ph S-4 systal Ab!3 Jrur Ref Zhur- Dirl., Nc 12, 19589 No 5~12~ Auf hor !ljchryjrv-kiy Nl.~. In~-t "-iicino Titlo I Or '.h.- Fr-~Icr cf C ,r,nt^ct Botwoun Ly-ph-tic --rtjjwri7q rf +hr, Eth, (V.-1 Lri~jrlnth rn,4 Orbitrl C-vi~.Y. Orl w NI) 3 SL. nruchr.. tr. 'rr(.ft. 1 gry Lj .~. in-t, _) , ( , ~~ '?- ~ 70 i~'-)r ct ; 71-~. -n tc -, f tht. n-s-I ly Y,'--tic v---rcl -i--' *h, -rl.;Ii c,vi*v ---o stij~i. ' n 147 rhil' ocrp!o!-, lly injcc~in,. -t-in.:,! "J.lb-trncos in'~ 'hc, ucr-- f t~ic 1-~yrir,th. Th, A~v-:- t~-Ank- th-t ',hc b-.-ic -n-ctD-cf-ir ~-~tvccr. the. 1~-- phrtiC '.'C rCl:- Of th,. th~ oj~!rj 1-,)yrint.!i -n' the erbit.-I c-vity crn-ist, -11 1 ~r 2 trunk-.- whirn -r, 1~~c-.cd n(--r th, crn1hu . Pr-con'inr t-wrl th,, cr,it-l c-vity, thcE., olcirt the 1-cri--l s-c frc-, rn,,' -t it, -odl-1 p:rticn. C r r," Al.  MAHAYLOVSK I Y M Content of Rlycwnn of *hl chemical Lrauzui. Ar?~!, ;r, IM, 9 4(j- bapei3t-ljrisk-~wu me'-' LI hr I r)6:i .  MIKHAYLOVSHY, 11.0. llpthodE for th, , L5ti-r-on and z~-aling -)f -clur~- z .izr. . no. 12: 31 D ','I . (K-l'u, :,-:1) (Strain gauges)