SCIENTIFIC ABSTRACT KREMENA, P.A. - KREMENETSKIY, B.A.

AUTHOR: __-Kremena, P. A., Economics Engineer SOV/127-59-1-11/26 TITLE: The Problems of Cost Calculation in the Ore Mining Industry (Voprosy uch'e'ta sebestoirnosti v gornorudnoy promyshlennosti) PERIODICAL: Gorn~;Y zhurnal 1959, Z4r 1, pp 40-42 (U.-"m) ABSTRACT: N. N. Patrikoyevla article on a new method of cost calculation in the ore mining industry is discussed. 14, N. Patrikeyev's critiques on the existing calculation form in mining industry tire quoted as being correct and well timed, however, not com- plete. The author proposes his own cost calculation method. ASSOCIATION: Ukrainskiy nauchno-i3sledovatel'skiy institut orf7_anizatsli i meklinnizatsii shakhtnopo utroitellstva, Khar1kov. (The Ukrainian 3cientific lieo,2arch institute for Organization and Mechanizt tion of Mining Construction, Kharl kov) Card 1/2  KREMENA, ~4A., starshiy naucbnyy sotrudnik Considerable improvement is needed in capital assets accounting and amortizati6n. Ugoll Ukr. 5 notl:42-43 A 161. (MIRA :V.:1) 1. Ukrainskiy nauchng-issiedovatellskiy inatitut, organizatsii i mekhanizataii shakhtnogo stroitel'stva. (Coal mines and mining-Accounting)  j.. ..:I'. !, L "! i rl " i ; ~ n i , , 11 t, . T). I ~ 1'. F */L;~,,, I "I, , 1r). 7, Apr. "1 -1: ':o, . I j '- - - :"Ilro,,) . ' ',') , .1 11 .-I ~ , -i Uil, - Li -, t, o f , r, f 7 'L * ~!,kn I(A. 1,, 1J, ~.jc'- 1`55, ! ."n c, 1, .  IM-120-58-1-1/43 AUTHORS:hTal'nev, A. F., Yesel'son, ?'I. P., KromenchueQ44 TITLE: The Main Principles of Recording of 3pectra, Using Infra- Red Spectro-Photometers (A Review) (Osnovnyyc printusipy registratsii spektrov v infrakrasnylch spektrofotozietrakh - Obzor) PERIODICAL: Pribory i Tek-hnika Eksperimenta, 19-58, Nr 1, pp 3-16 (USSR) ABSTRACT: In recent years infra-red spectroscopj has become impor- tant in connection with the solution of industrial and analy- tical problems. The possibility of application of infra-red spectroscopy to analytical problems was first established in 1881, when Ebney and Fcstinr~ discovered that all the hydro- carbons absorb radiation of wavelent,-,th ^.,3.4 -p During the years 1905 to 19Winvestigations of hydrocarbons have led to the discovery,.6~ 'other bands characteristic of the funct- ional groups (o_Hf,,OH ~.tc). However, experimental difficul- ties prevented-itrther development of the methods of infra- red analysis.,.The.rPrototype of contemporary infra-red spectro- meters and spectroph6tometers is the "ultra-red spectrograph" constructed by P N' Lebodev (Refs-1-3). Because of their sensitivity, spe;d- Ld accuracy, 'the methods of infra-red Card 114 analysis were applied from tht-- very outset to the solution  jOV-120-5;3-1-1/43 The Main Principloo of Recording of Spectra, Using Infra-Red Spectra 11iotameters (A Review) of chemical problems and viere then widely used in industrial laboratories. At the same time infra-red analysers of the non-dis-Dersive and dis~.ersive tjpes wore d(,voloped for uor!c, in induotry, where they were used for continuous control purposes and the control of the manufacturing cycle. Fast me 4. to- aperatin3 spectrometor:3 and spectropiao Uers were produced which were used to study reaction kinetics which rccorded spectra over time intervals, comparable with the tii:ae taken by the process (10-5 - 1 see). lConsiderable attention "'las cpiven to the construction of spectrophotometers. In these instru.ments the radiation from the source was divided into two beams, one of which (the "specirien beam") is pasred through a vessel contain] 'nj,, L110 Oleclllen undor inv,~.;ti:"ration and the other (the "comparisin boxzii") io passed through a compari,son vessel containing a substance whose spectruim, it is deoired to exclude from the speztrum of the Tito. ratio of the intensitiolt-, of Uio two 1),-~a~:in or their lo-arithms Card 2/4  30V-120-58-1-1/43 The I-Jain Principles of Recording of Spectra, Usin~.7 Infra-Red Spectro- photometers (A koview) are thpn. recorded either by a )en recorder or on a CRO screen. The advantage of spectroohotometers as compared with spectro- meturs is their independence of chan:;cs in the intensity of the radiation emitted by t-he o~)urcc, Ulie sensitivity of the r,-coiver and the rieasurin,-) a[)T-,,a-,,atus. Iii the Present pa-por the main nethods of recording of spectura usin~~ spectrophoto- meters are described and are classified as follo,,ws: (1) The compensation method or "null method". as used bY Hardy (Ref.37) White and Liston (Refs.3-11) 1 .Talyshev et al (Refs.00, 21, ~7 and 55), Terenin et al (Ref'.53), and others; (2) The "two beam" method as used by Daniel and Brac-1,ett (Ref.72), Savitsky and Halford (Ref,65), mid others; (3) The phasometric Piethod suggested by Bianov-Klyukov (Ref.,,. 99-103), and also by Golay (Ref.1011); (4) The method using a memorj-dev10C U.3 UOed by Avery (R,,aff. 106), Donner (Ref.109), Uallnev ot all (Re'.107), and oth2rs. The pr,-)blem of accuracy and reproduceability has been coi- oidered by mo-ny authors (Refs.141-164) but there is a n~,ed for fundamental wor": on the comT.)arison of different types of spectrophotometers. Generally speakin-, spectrophotometars based on different principlosi rr)ive relatively the same results Card 3/4  The Main llriricipl~,-3 of Rrcr),rdii.,.- of "ipectra, Usin- Infra-Red 3pecturo- Phc)~WlCtCrs (A ReView) (Refs.189 and 190). It is gen(,rally believed that -the -,-DOctro photometers using- the "nuil" -aethod are the most reliable. At the presont -time there is a noticeable tendency to replace mechanical parts in the measurinr,- part of the spoctrophot-o- meter by the equivalent cl,~ctrieal circuitus. However, thic. L,,-roup is riot very nwiierous as yet (Refs.77, 39, 97 and 99). There are 17 figures, no tablen and 195 references, most Of whicb arc Western. ASSOCI&TION: Institut fizi1ci AN U.33M (Iri~;tituto of Plijsic~, of tile Academy of S-,iences U3SR) SUBMUTTED: 7,L,.jy C.-)1 1)57. I "I l.'Infrared spectrophotometero--Developirezit 2. Infrared spectropliotcm eters-AP'Plications 3. Infrared spectroptiotometers--Performanee 4. Infrared spectrophotometers-Equipinent Card 4/4  YALINEV, A.F. (Yallniev, A.Fj;.j;RgMC1aJGSXIY,1.,S. (Kramenchuhslkyi, L.S.] Infrared analyzers and their application to the automation of production processes. Ulcr. fiz. zhur. 4 no.3:277-292 My-Je, 159. (MIRA 13;2) l.Inatitut fiziki AN USSR. (Infrared rays--ludustrial applications)  MAL'ITEV, A.F.C Mallniev, A.F.1; KREMICHUGSYlY. L.S. [Kremenchugslkyi, L.S.] Device for measuring the parameters of electromagnetic radiation receivers. Ukr.fis.zhur. 4 no.4:522-523 JI-Ag '59. (IIIRA 13:4) 1. Institut fiziki. AN USSR. (zlectromarnetic waves--Measurement)  7. (3),'24 (7) AUTHORS: 1:~allnsv, A. F., Yoselltion, P.0 SOV/48-23-10-28/39 Kremenchugskiy, L. 3. TITLL: Measuring Device f6r the Infrared Spoctrometer .FLi(IODIC&L t Izvestiya Akademii nauk SSOH. ~;eriya fizichaskayat 1959, Vol 23, Vr 10$ pp 1246-1247 MR) ABSTMICT: Infrared spectrometers are being used to an increasing extent in chemistry, petroleum refineries (automatic control of the technological cycle) and for research work in -uorks laboratories. In the present paper a measuring system for such a device is briefly described. The device consists essentially of a bolometer bridge, a pre-amplifier, the main amplifier with synchronous detector, a modulator-generator with phase inverter and a fooding block. Radiation is first interrupted by a modulator (constructed together with S. Z. Sh-illga) (20 cycles), after which it passes through a monochromazor and reaches the receiver. The latter is a nickel bolometer developed at the Institut fiziki All SSSR (Institute of Physics of the AS USSR). The next stage is the preamplifier, from which the pulses reach the main amplifier block the elements of Card 1/2 which are briefly discussed. The emerging signals may be  A Measuring Device for the Infrared Spectrometer SOV/48-23-10-28/39 transmitted either to a recorder or to an oscillograph. A block scheme of this measuring system is given. After half an hour's pre-heating the amplification coefficient of the system remains constant (variation 19 0.5%). For research work the meaffuring device is used together with a spectrometer of the type VIKS-M39 and for periodical controls in industry, together with a spectrometer of the type VIKS-M4 (both devices were constructed at the IFAN UkrSSR). There are I figure and 4 Soviet references. Card 2/2  AUTHORS TITLE: PERIODICAL: 16594 S/18 60/005/003/009/020 D274X303 Mallnyev, A.F., Yesel'son, M.P. and Kremenchugs1kiy, L.S. A measuring device for spectral itivestigations of low energies Ukrayinslkyy fizychnyy zhurnal, v. 5, no. 3, 1960, 380-385 TEXT: 41 device is described which is used with spectrometers and other spectral instruments for the mea:;urement of energies of the order of 10-9 watt. (Second part of the article). In'the first ~)art of the article, the most effective ratio is found Zor resis- tarices of the bolometer bridge arms. This optimum ratio has not been dealt with in literature. An equivalent circuit is shwwn of a bolometer bridge with transformer. In the case of optimum mat- ching, the amplification factor of the transformer increases with decreasing Rout* In choosing the ratio between the bridge arms, Card 1/3  6/18 60/005/003/009/020 A measuring device... 26594 D274X303 one ought to reduce Rout and increase the transfer constant Kt. [Zout can be reduced, with fixed Kt, if R2 is reduced (i.e- 't2 < RI). A detailed study of this problem sho%4$ Lhat the conditions for max- imum amplification of a system bridge- tran--f ormer and a inaximum transfer constant of the bridge circuit are given by the G~ne rela- tionships, viz. R > R, (i.e. Kt Rout 4 R); these 2 conditions give the optimum connection of the bolometer (with res- istance Rl) to the bridge circuit; R2 and R3 denote the resistances of the bridge arms. The total value of R, + R2 should be chosen so as not to overload the current source; in practice, R3 - (3 to 5) RI and R2 * (0.1 to 0.3) RI. Hence a bolometer with two equal arms does not lead to optimum performance of circuit. The measuring de- vice is described then. A nickel bolometer of 20 Ohm resistance is placed at the focus of a monochromator mirror. The balancing resistors are in the same unit with the pre-amplifier and trans- former. The total amplification of the input unit is 2.105. The natural noise-level of the device is several times below that of Card 2/3  S/185/60/005/003/009/020 A measuring device ... 26594 D274/D303 the bolometer. The main amplifier includes a synchronous rectifier and an oscillator. The device is supplied by n stabilizer with a two-stage d.c. amplifier. The spectrum of water vapor and carbon dioxide, an registered by the spectrometer VIKS-3 by means of the device, is shown in a figure. The device is used in laboratory investigations in conjunction with the 91-iectrometer VIKS-3 and in plants with the spectrometer VIKS-4, It can be also used in the spectrometers IKS. There are 4 figures and 4 Soviet-bloc refer- ences. ASSOCIATION: Instytut fizyky AN USSR (Physics Institute AS Ukr SSR) SUBMITTED: November 12, 1959 Card 3/3  MALINEV, A.F. (Mallnievp A.F.]; DYM9PTiUGSKIY, L.S. (Kremenchuhalkyij, L.S.Ij SKAC11KO, M.A. - I ---- -.1-1-1- 11 Comparing several receiver.; of heat radiation. Ukr. fiz. zhur. 5 no. 5:634-639 S-0 160. (MIRA 14t4) 1. Institut fiziki AN USSR. (Heat-Radiation and adsorption)  P 3 c-, 2) S1051160100910:0 X024'-/O3'+ 9"~17_3 9201/El9l AUTHORS: Mallnev,_A.F., and Kremenchugskiy, L,,S. TITLE: A Low-temperature Receiver of Thermal Radiation PERIODICALs Optika I spektroskopiya, 1960, Vol 97 No 47 pp 530-531 TEXT: Lowering of the working temperature of metallic bolometersli~proves their characteristics. Such. a low-temperature bolometer was constructed by the authors. It was made of niokel and cooled with liquid nitrogen. Its construction is shown in a figure on p 530, where 1 is a cryostat window, 2 Is the bolometer, 3 is a heat-conducting rod, 4 Is the internal wall of a liquid-nitrogen container, 5 is the external wall of this container, 6 is a handle, and 7 Is an inlet. At the boJling point of liquid nitrogen the temperature coefficient of the bolometer was 8 x 10-J deg-1, i.e. twice as large as at room temperature. The ohmic resistance of the nirkel plate was three -)om times smaller at the temperature of 1.1quid nitrogen than at rL temperature. The threshold sensitivity was 20 times lower at ?7 OK than at 300 OK~ The bolometer was of quality (--.omparable Card 1/2  ",39'A S/051/60/009/004/024/031t E201/E191 A Low-temperature Receiver of Thermal Radiation with some of the superconducting devices but the best of such devices had better characteristics. The bolometor r:an be uss~d in infrared radiation receivers, and for studies of omiaFion by low temperature sources. There are 1 figure, 1 table and 2 references: 1 Soviet an(] 1. German. SUBMITTED: April 12.7, 1960 Vx Card 212.  23469 S/115/61/000/006/005/006 q, 6/5-,n oqn) E073/E535 AUTHORS: Mallnev, A.F. and Kremenchugskiy, L. S. TITLEa Experimental Apparatus for the Determination of the Parameters of Thermal Radiation Receivers PERIODICAL: Izmeritellnaya tekhnika, 1961, No.6, pp. 26-30 TEXT. An apparatus is described for the investigation of the parameters of the thermal radiation receivers in the frequency range 3-70 c-P-8. at signal levels of the order of 10-10 V. The parameters which can be measured are 1) the mean-square value of noise; 2) the sensitivity to modulated radiation; 3) the threshold sensitivity; 4) the time constant; 5) the spectral density of noise. A block diagram of the apparatus is given in Fig.l. The standard source of radiation I is a cylindrical artificial black body consisting of a tube with an electrically heated nichrome spiral. The radiator operates in the temperature range 400-5000K. The heater spiral is wound so as to ensure uniformity of tempera- ture in the cavity. At 4500K the cavity temperature is uniform to within +50C. The ratio of the depth of the cavity to the radius of the Tadiating aperature is 32. The front wall of the radiator Card 1/6  23469 Experimental Apparatus for ... S/115/61/000/006/005/oo6 E073/E535 is water cooled and its temperature does not rise by more than 1.5%. The radiation is modulated by means of a vibrating chopper 7 and falls upon the receiver 9. The receiver circuit is connected to the amplifier by means of tuned matching transformers 2 with a number of primary windings. Amplification is by means of a valve preamplifier 3 and a main valve feedback amplifier 4. The noise level of the measuring apparatus with short-circuited input to 1.1 x 10-10 V at a frequency of 9 c.p.s. with an effective pass band of 0.1 c.p.s. The gain of the preamplifier is 190 and the frequency characteristics, The frequency characteristic of both ampl-_~fiers is constant within +5% over the frequency range 3-100c4ls. The output of the amplifiers is fed to a phase sensitive detector in the frequency range 3-70 c.p.s. An R.C. oscillator 5 is used to operate the chopper and supplies the reference signal to the detector. At high frequencies a disc chopper is used and the reference signal to the detector is supplied by the photocell 8. An ancillary oscillatir at a frequency of 1000 c.p.s. acts as a supply for bolometer bridges. The detector output is recorded by means of a recording millivoltmeter or potentiometer 6. A valve voltmeter 10 and oncillograph 11 are used for monitoring Card 2/6  23469 9xperimental Apparatus for ... S/115/61/000/006/005/oo6 E073/E535 purposes. Power to the devices in supplied by means of an electronically stabilized power supply. The apparatus is mounted on a single base with arrangements to position the radiator appropriately with respect to the receiver, In receiver tests the sensitivity is computed as the ratio of the effective magnitude of the first harmonic of the receiver output signal to the effective magnitude of the first harmonic of the radiation flux with square wave modulation. The radiation input power is calculated from the Stefan-Boltzman law and multiplied by J-2/fr. The output is calculated from the apparatus output and the known gain. It is essential to measure under actual conditions of operation the ratio of the input to the preamplifier to the output of a voltage generator equivalent to the receiver. The mean- square noise of the receivers may be measured for low resistance bolometers by one of two methods. In the first, the noise under conditions of operation first with the bolometer in circuit and then with a re3istor of equal resistance substituted for the bolometer. It must be taken into account that for the same current the bolometer temperature is higher than that of the Card 3/6  23469 Experimental Apparatus for S/115/61/000/006/005/oo6 E073/E535 resistor which leads to errors of up to ~ 10%. Thus, the ratio of the receiver noise to that of an equivalent resistor can be measured and the absolute value of noise computed by Nyguist's formula. In the second method an arrangemeat with high load resistance enables noise to be more accurately measured directly or by comparison with resistors. With thermoelectric devices noise measurement takes place directly. Noise is evaluated from the graph of the recorder or if noise is measured by comparison with a resistor it may be measured from the variation of the indication of the output of an indicating instrument. Threshold sensitivity - the radiation flux producing a signal equal to the noise is estimated from the noise with an error of not more than +30%. The time constant is measured from the rise of receiver signal after a step input. Square wave modulation is used. with a period about 6-8 times the time constant. The time constant way be measured from frequency characteristics using a 1000 c.p.s. signal for the bridge supply and measuring the output by the valvc voltmeter, The time constant T is determined from the formula -4 = 1/2f 01 where f0 is the frequency at which the signal is Card 4/6  23469 Experimental Apparatus for S/ll5/6i/ooo/oo6/oo5/oo6 E073/E535 0.465 its value at zero frequency. If the frequency characteristic F, + (2r, follows the law fT)2*1--~_ the time constant may be deter- mined from measur;~ements at two frequencies. The error in time constant determination is +10',/j. Spectral density of noise is determined at various freq~~encies and currents, Use of the device makes it possible to select optimum conditions of test for the receiver that is to find-values of current and frequencies corresponding to the lowest sensitivity threshold. Acknowledg- ments are expressed to M. P. Yesellson and V. 1. Mallnikov for their assistance. There are 5 figures and 5 references: 2 Soviet- bloc and 3 non-Sovict-bloc. The references to English language publications read as followst White, I.U.. Liston, M.D., J.O.S.A. 1950, 40, No.2, 93.; Milton, R.M. Chemical Review, 1946, 39, No.3, 419V Card 5/6  YESELISON~ M.P. [lEsellson,, M P.]; XPZtENCHUGSKIY L.S. - -_-% iev, A.F. j (Kremenchuhatk.yi,, L.SJ; - ~- ~Iln Temperature variations of the characteristics of input transformers of low-resistance thermal receivers. Ukr. fiz. zhur. 6 no.3:420-422 My-Je 161. (MIRA 14:8) (Electric transformers-Thermal properties)  D299/D304 AUTHORS: Kremenchu[OA-Lky-y-,-I-S-,---and llallnyev, A.P. TITT-3: Contactlet3s measurement of tenperature of bo~.Iies belovi the red-hot temperature I'ERIODIC.,'~L: Ukrayinslkyy fizychnyy zhurn,,-,il, V. 6, no, 6, 19_~-!, 876 -- 878 TEXT: The contactless method involves measuring the intensity clo heat radiation. The authors developed a device for measuring low energies in the infrared region of the spectrum. A block ~_,ac_rar, o'~` the device is shown. The radiation from the investiC.'a-ted surfa0e off the rotor (of an electromotor), arrives at a nickel bolometer, af- Ler passing a vibration modulator. The signal, produced by the bc- lometer, is applied to a preamplifier, then to an amplifier, a syn- chronous detector and the output device. The synchronous detector is th~: main selection element of the circuit which sepaf~ates from the signal spectrum a narrow frequency band (close to the modula- tion frequency). For higher accuracy, feedback with a caiibrated zignal is used. If the investigated surface is small, the tempera- Card 1/3  6/18 6110,06 "(,",06/028/030 Contactless mea3uremeyn', of... D299YD304 ture of the obJect can be determined by the formula T4 0 - d" 2as a V 1 2 0 where TI and T 0 are the absolute tempeoraturef~~ of the r,)tGr jurf.,..Ce and of the modulator respectively; 6 1, 1--o -the coefficients (of blackening) of the rotor and of the modulatorp 71 - the effective va.- Iiies of iKe power of the first h,,.ri,,ionic of the modulated radiitl_~or: which arrives at the bolometer. The sensitiv,.ty of the dcv-ce r-han,-es in 'he surface t emperat Lire of the rotor, c-~n be est=ated by t~ae formuola ,E T T 21s S 2 A T) V 1 2 d0 +-1 ,.,ihere A VI - is the threshold sena-Ltivity and T11',) -.,,rrpera~ur- f-Itic- C.-rd 2,/3  S/185/61/006/006/028/030 Contactless measurement of D299/D304 tuations of the medium. By means of formula (2), it is possiible to estimate the influence of each paraneter on the accuracy of nleaqu- rement. By calibrating the scale of the output device di-I-ectly in ter,perature degrees of the rotor, higher %ccur.%cy of Measurn-ent can be achieved. A figure ahov;s the heating- and cool-Lng curves or the electroriotor, the power of the radiation, inciden, on the bolometer beinj~: plotted as a function of the time of operation of the electro- motor~ After 1 hour, the rotor temperature attains 3340K, and chan- .es but little afterwards. The temperature was measur/ed to an a-c- curacy of 1 %, and the sensitivity to temperature charLes of the r,-,.- tor, is 0,10C. There are 2 figures and 2 Soviet-,"Ioc re-IL'erences, i '-- Z~ ~--OCIATION: Instytut fizyky AS TjkrRSR (Institu-te of Physics of the AS UkrRSR, Kyyiv) Card 3/5  MALINEV A.F.-[Mallniev A.F.), YLSILISON M.P. (IEsellson, IM.P,] Y 1 j ; L.S.] Characteristics of measuring devices for IKS-11 and IKS-12, spectrometers with modulation of th6 radiation flux. Ukvfiaw zh=,.~ 6 no.6:881-883 N-D 161. (MIRA 16-'5)- I* Institut fiziki AN UkrS6R., Kiyev. (spectrometer)  MALItUp A.F.; KREMENGIIUGSKIY, L.S.; BEaZKO, B.N.; SHEV-PSOV, L.N.; BOGDI-'VICII, A.G.; KIRILLOV, G.M.; CHASHECIINIKOVA, I.T.- YARYIOLENKO, N.A.; OFFNGENDEN, R.G.; SEWN, V.Z.; DALYUK, Yu.A.; BEREZIN~ F.N.; KONENHO, L.D.; SIIALEYKO, M.A.; SHEVCHENKO., Yu.S.; STOLYAROV, V.A.; KIRILLOV, G.M.; BOGDEVICF, S.F.; LYSENKO. V.T.; BRASHKIN, N.A.; SKRIPNIK, Yu.A.; GRFSHCHENKO, Ye.V.; TUZP R.A.; SERPILIN, K.L.; GAPCIr--FKO, L.M. Abstracts of completed research works. Avtom. i prib. no-3:90-91 J1--S 162. (MIRA 1612) 1. Institut fiziki AN UkrSSR (for all except Skripnik, Greshchenko, Tuz. Serpilin, Gapohenko). 2. Kiyevskiy politekhnicheakiy institut (for Skripnik, Greshchenko, Tuz, Serpilin, Gapchenko). (Research)  35o96 r-jo ~29~;/ -D-502 v, 2. cl"~rc'cte -st!c- S of .1L,0 tller!-~Lll rc.-ceivers -'T C U.'crayins lkyy fizychnyy v - 7 no. 46 -2 OeU 0 C 0 r r e - u:n p, 11 fl' c rcircui Is ~,jj' ~~',j [I.,, 1.,17)u,~nr 10 t 1-' ll -L I uDL: ,e at c-rid condi-.ions. Tl-,c folloWij~-- ~-,rjeS 0 -z' 110 '-,7b,-,s vie - Gu d J e6T* 6 r I- . r (6S41'), 6 1Ar (61-114 P), 6 ~16 (6:,.'l 0- 2 typus viere investi-,L.-Lcd in cl:its. A. noioe analjzer, opcr:~U-i-,Z at t"Ir-, frc:" 51 15 and, 20 cycles, vivs usedl. '211(" -n' 'o Selt-~tive amolifier, det(~C'~O.-"" mil ivo- tr,.c-ter. noi~;e'- of tu1)C-G' f,"'Inction oL* the f~l,' waent current. and th(. 'jLLJjjk,' Of 45."!L" e Card 1/3  "o i S c cS o" S` :)299/_7j`52 .,d bac.~,*; by l-'sin- no t --; v e Y! u U- i' C'vc!l 1170- to 4 11' E! f if airly r,:,o C, 3 __-l t,, 'Lls:_-d lqO 1 S e 0 1- th~e in-')I! t lub 0 s C an be e as i 1Y c ove -,e 0 C.." c S G f ~1 - 20 cycles); if liovicvk~r, ria_riiaturized in-,'t at very lo,.-i frequencies, are uoed, ti-tis bec,),,-.e- :..u c 1. o i d fi C"I_ t. -ure sho~%,s -:he eain factor of transfon--.erc %,,,_J~1: oy core. -by coi.~-parinug obtained datua, it was foun~l -,,h,1t t'.~~ (,led lo,.,iest noise-level. The follo%-dn~,, are fliven: P.-_,quency -_~e- pendence of the Lain factor of a transformer, of of transfor:2er on its output noize-levc!, 01~* bac` -round noise o--:' transformer on 'I, of ,)r4 I i,l,.s Y) C 1. 1 e I r 0 (" u c 110, de-uendlence of nre-a:~.,plifior C-.0 of L 1, :7. -0 de"riatior of t-0 calou'.1-a-ued ones, did not ex.cefad 15 Co:~C,~~ Tt, 42 7.C. t.3 d e s i C 0 .1 i th c t:., I - 2-10-10v at -j y o f 20 cycloo C-CLU. t'r,. e ---;.bulated (Lata an d t',10 rrapics it'. io to j'er"3 , fi f_ I _e tj S Sec i n a c Ila 1 c ~i. c e 0 r(2 rc.,nc; 4 ~'oviot-bioc and 1 non-Uoviet-b-ioc. T*,ie Irefele-.-c,~ to t, e Cara 2/3  of 2 roads z.., '0110,,,,,S 40, 36, 1950. -.O.~GCL' TIC, Ln-tyi-ut fizy,.- _y Of Xy-' Ulcr. iv S U B ",,:I T T-'~ 1) 1-irch 14, 190-1 LIA Card 3/3  ,KUMENCHUGSKIY _ L.S. (Kremenohuhs lkyl, L.S.1; MLLINUO A.F. [Mallnievs A.F.1; -ROYTSY- --, 6.-V. [Hoitoywl O.V.) Dynamic characteristics of vacuum metallic bolometerse Ukre fize Zhure 7 no.12sI298-408 D 162. (MIAL 15:12) Is Inatitut fiziki AN UkrSSR Kiyev, (Bolometer)  K101ENCOGSKIY, L.S.; MALINLN, A.F. Apparatus for studying the dynarrdc characteristics of receivers of heat radiation. Prib. i tekh. eksp. 8 no.5:182-185 S-0 163. (MIRA 16:12) 1. Institut fizi-ki AN UkrSSR.  IWT (1) IWP(q)lEn (m)/BDS AFFrC/ASD/ESD-3/IJP(c) Pad GGIJDIIIW ACCESSIO.N NRt AP3003618 S/0185/6)/008/007/0762/Cr767 'AUTHORs Kremenchugalkyl*y, L. So; Mallnev, A* F.; 5amoylw, V. Bo TITLE1 Investigation o~r`t6-temperature dependence of current noise of thin metal film .80URCEs Ukrayinatky0y fizy*ohn5Py zhurnal, v. 8, no, 7. 1963, 762-767 ,TOPIC TAG3t current noise., thin metal film, nickelj, gold, Liquid nitrogen tempera-* ture, metal film ABSTRACTs The authors give the electrical diagram qf the setup they developed and describe the procedure they used in their4nves ion of-current noises of thin 1'2~and metallic films. They investigated nickeL'6d o films at a temperature range of .77 to 400 K. The temperature depena-ence of current noise was established* When temperature was decreased from room temperature to that oflLuid nitro ~Nhe mean square of the current noise was reduced by 100. This may not be eXplaine by a de- crease in the film resistance during cooling. An empirical equation was developed showing the change in current noise taking place in thin metallic films over a -.0-de range of temperatures. "The authors are grateful to coc=ades B. N. Berlozko and 'L. No Shats for their help in adjusting and preparing the installation." Orig. art,, Card 116P  L 18944-63 ACCESSION NRs AP3003818 has 4 figures and 4 formulas* ASSOCIATIONS Insty*tut fizyolv* AN URSR, K.ev (Physics Institute of the Academy of Sciences,, UKrSSRp in Kiev) SUBMTTEDs l9Deo62 DATE ACQt O8Aug63 MCLs 04 SUB CODES PH NO REF SOVt 002 OTHERS 001 Card 2/6  ACCESSION NR: AP4012789 S/0170/64/000/002/0003/0009 AUMOR: Kremenchugskiy, L. S.; Ly~senko, V. S.; Mallnev, A. F.; Roytsina, 0. V. TITLE: The determination of the thickness, heat capacity, and thermal conductivity of thin miniature films SOURCE: Inzhenerno-fizicheskiy zhumal, no. 2, 1964, 3-9 TOPIC TAGS: thin film, film thickness, heat capacity, thermal conductivity ABSTRACT: Thin miniature films are widely used as sensing elements for heat radia- tion detectors and for circuits measuring the power of ultra high frequencies. U18, essence of the now method for determining the physical characteristics of such films is the determination of the heat capacity C of the bolometer layer from its tine constant which, in turn, is found from the frequency characteeistics and the effective coefficient of thermal losses of the layer, as shown in Equation (8) 12 Rg& . (8) 2v fj R - Ro Card  ACCESSION NR: AP4012789 (i = excitation current; R, Ro = bolometor layer resistance during the passage of current, and its initial resistance, respectively; X = temperature coefficient of resistance; f;. = frequency corresponding to the half-maximum of intensity on the frequenay char2acteristics). From the known hea:t capacity and the surface of the layer one gets Equation (9) which gives the thickness do of the layer do = ClespAy . (9) (c.,p = specific heat capacity; A = area of the layer; -f = density). Using further t.he equation of the heat balance of the layer, one gets an expression for the coefficient of thermal conductivity given in Equation (13) K 12RA I 2__(8s&.T3bl 'Cri2R.) (R - go) 12 (R - RO) X iZ R2 % 0 b = length and width of the layer. respectively; S = cross sectional area of the layer; X = coefficient of absorption of the layer; & - Stophan-Bolzmann constant; Card 2/4 L4  ACCESSION NR. AP4012789 To = to-aperature of the swrounding medium). The heat capacity of bolomotric elements was determined earlier by Jones, Smith, and Chesner (Determination and Measurement of Infrared Radiations) using the tine constant and the volt-watt sensitivity. Since they assumed 6 to be zero, this led to significant errors bocauso 9 actually varios botwoon 0.05 and 1.00. Othor rosoarcher3 (too 06goo G. Barth and W. Maier, Ann. d. Phys., 7, 260, 1959) utilized the heat-loss coefficient in absence of radiations, which reduced the accuracy of measurements by a factor R/Roo The authors determined the heat capacity, thickness, and thermal conductivity coofficionts of froe 4 x 0.4 mm2- Ni. layers obtained electrolytically. Me experimental results are summarized in the Table of Enclosure 1. Experiments carried out down to the ".emperature of liquid nitrogen did not produce any sig" nificant chan-es in the heat capacity of thin Ni layers, while the thermal conduc- tivity increased by a vory =11 amount. The authors applied the same method to dete-.ninations of the heat capacity of thin layer coatings deposited on film, by subtraction of the film's capacity from t~e total measured amount. A maxim= heat capacity of Au coating of (0.35-0.45)-10-0 watt-sec/OK (corresponding to a maximum relative sensitivity of the coated bolometer) unas obtained with a (3.0-4.5)-10-6 kg gold coating. The Au layer contributed to a 50-70% absorption of the 4-15 p radia- tion. Orig. art, has 13 oquationsp 2 figures and I table. Card 3/4 Ll  ACCESSIO14 NR: AP4012789 ASSOCIATION: Institut fiziki (Institute of 7hysics), AN UkrSSR, Kiev suma=D. zoFeb63 nA.TE ACQ: 26Fob64 ENCL: 02 SUB CODE; PH, SP NO REF SOV: 002 OTMt 005 Carcl 4/44  ARME11011SKAYA, L.M. [Artiukhrivolka, L.M.]; L.S. (Kremenchuhslkyi, L.S.]; W.,LINET, A.F. A.F.1; ROYTSRIA, O-V- LRoitsyna, O.V.] riffect of tho ofte of the receivInf, aron on Oin prhicitlal char~;c- . zhur. ~,4 r.C. I I -. teristics of metal vacuum bolcmeters. Ukr. f;".. 1 1-40-121,7 N 164 (. , I -., -.1 1- Is : 1 ) 1. Institut fiziki PJ7 IJ'ki-SSRP Klyoy.  -i-:tekhnika~ SOURCEt- Pri~6ry. -.~kOeelt~entali 'no i1-j - 1965 i153-15T TOPIC TAGS: bolometer design$ bolometer sensitivity, metal bolometer, bol6meter: .ABSTRACT. 6ethodology,,.experlmental GAUP, and conclusions drawn from. zo-.Ie- sensitivity measuremente inmacuum and gas-filled bolometers are prcsented. Rela.- tionships of zone sensitivity S'to.such parameters as dimensions and Position of, the detection area, modulation: fr6qlietcy of the incident radiation, and type of material are derived. The effects of heat loss on sensitivity and the selection of; optimum operating current are,considered. Radiation from an incandescen:~ lamp was focussed oii 0.15-ma segments bf'-nickel, gold, and bismuth specimens 0.1 v thick. -specimen length, -j va6-4* 5--8- mm specimen -width O.'2-1-mn; radiation -modulation:- frequenclest-5-'200 6~84 area -1 0-3 and 760 Hg. Curves of relative zone '.Sure sensitivity versus deteWm-area, dimensions and modulation frequency were plutted and -card F'W-   L-J0247-66 Ewr(1)AWP(e)AWr(m)Aff(n~- (tjAyl~(b) IJP(c) plieqll~l NRI AP5028133 SOUP= ODDE: UR/0048/65/029/011/2110/2it2 AEMIOR: Artyukhovskaya, ts,K.; Kremenchugski L.S.~, Ual'nev, A.F., Samoylov 1(!~tsenko, A, F, qy ,ORO: In-ktitute of ces. Ukr3SR (Institut fiziki Akademil nauk UkMR) TITLE: Use 'of the pyroeleptric effect of barium titanate ceramicg, ,to record low fluxes of thermal radiation 41eport, Fourth-KI-I-Vnion Conference on Ferroelectricity held at Rostov-on-the-Don 12-18 September, 196A7 SOURCE: AN SSSR. Izvestiya. Serlya fiziches kaya, v. 29, no. 11, 1965, 2110-2112 TOPIC TAGS: pyroelectricity, pyroelectric detector, barium titanate, ccramicwutA44d transdu~erl .2 ABSTRACT: A nu'm'~e,,r, 6i i~in barium titanate ceramic wafers were produced and tested as pyroelectric detectors of minute, rapidly changing thermal fluxes. Details of the preparation of the detectors are not given. The sensitivity and the noise level were both inversely proportional to the frequency, and the minimum detectable power won nearly independent of frequency for frequencies up to 2 kc. The intrinsic noise of the pyroolectric detector exceeded the Johnson noise of the equivalent RC circuit by not more than 50%- The intrinsic noine of the detector decreased mom rapidly with Increasing frequency than did the noise level o2 the input circuit; In designing Input- circuits for use with pyroelootrIo detectors, thorefore, It is desirable to take par. Card &  L10247-66 ACC NRt APS028133 ticular pains to reduce the noise level at frequencies above 100 cps. The temperature dependence of the dynamic pyroelectric constant was determined by the method of A.G. Chinoweth (J. Appl. Phys. , 27, No.1, 78, (1956)) . An aging ef feet was observed when cycling the det6otors between room temperature and 70C; the aging was completed within a few cycles, however, and thereafter the temperature dependence of the pyro- electric constant was reproducible within 5%. The pyruelectric constant reached a maximum at about 90C of from 2.5 to 3 times Its rem temperature value. Since the dielectric constant also Increases with temperature, however, the detectors were only slightly more sensitive at 900 than at re= temperature. A preliminary investigation of the stability of the detectors showed no significant changes over a period of nix months. The sensitivity thteshold of the-detedtore was between 2 x 10'9 and 5 x 10-9 W/cps, the time constant,was legg than 50 vse&, and the Jones',figifre.of merit M2 was, greater: than fO.-I-5. Oz4ig, 'Art. has: 3 figures. (151 SUB CODE: 420/ SUBM DATE: none/ ORIG REF: 003/ OTH REF: oW ATD PRESS: Card 2/2  -L-22934--66 EWI(1) 1JP(0) CC ACC NRi AP6012850 SOURCE CODE: UR/0368/66/0041004/0298/0301 yuw~aawf 06 V4 AUTHOR: Kremenchugsk!Z, L. S.; Lysenko, V. S.; Mal'nev, A. F.: Roytsina ORG: none A/ TITLE: Improvement of spectralcharacteristice of high-resistance thermal radiation SOURCE: Zhurnal prikladnoy spektroakopti, v. 4, no. 4, 1966, 298-301 TOPIC TAGS: thermal radiation detector, IR radiation, IR sensor, IR detection ABSTRACT: An improved method is proposed for the construction of high-resistance thermal-radiation detectors which use gold-black as the infrared absorber. Because of its poor adhesive properties, gold-black cannot be deposited directly on the sensitive material, but must be deposited on an interleafing layer, which causes high heat losses. Calculations are presented to demonstrate that these losses can be reduced to an insignificant amount if the interleafing layer is made of dielec-~- trics such as beryllium- or aluminum-oxides, which are good heat conductors, and if the layer's thickness is much less than the length of the incident heat wave. Experimental data are in g6od agreement with the theory. Orig. art. has: 4 formu- las, 2 tables, and 1 figure. (ZLJ SUB CODE: 20/ SUBM DATE: 02Apr65/ ORIG REF: 001/ OTH REF: 004/ ATD PRESS: Z. 1~2 3 :ard tMG# 621,317,794  ACC NR, AP7001958 SOURC& COM UR/0120/66/000/006/0169/0171 AUTHOR: Krcmenc1xug&k1y..,L#,S,; Mallnev, A. F.; Samoylov, V. B. ORG: Institute of Physics* AN UkrSSR (Institut fiziki AN UkrSSR) TITLE: Largo-area pyroolectric radiation detector SOURCE: Fribory t tekhnika eksperimantal no. 66 19669 169-171 TOPIC TAGSt thermal radiation detectorg thermoelectric phenomenon ABSTRACTs Figh-speed, large thermal radiation detectors with a high thresh- old sensitivity, a small time constant, and a reliatively uniform zonal sensitivity are described. An equivalent circuit and a cutaway view of such a-detector are sliown in Fig. 1. Thermoelectric current I is determined by the speed with which polarization of the crystal is changed under the effect of irradiation. Time constant 'r of the detectors does not ex- .ceed 5 0 p B ec. The mean-square value of the noise current is frequency' IPigs 1. Large thermal detector 4 a) Structure of the detectort 1 - Protective jacket; 2 - body; 3 - vacuum inlet; 4 - output ter- minals; 5 - KBr windov; 6 - sensi- tive element; 7 support; 8 - lid. a Card 1/3 UDCs 621,384.326,22:536  ACC N& Ap7001958 I - C CID b) Equivalent circuit of the de- l te tor: 'INV* - noise current generator; I T t ersoelectric current goneratorl b ------------ V. C -'crystal capacitance; 4 - equiv- alent loss resistance in the crys- c tal; Re - load resistance;, CID input capacitance of the tube. c) Circuit diagram of the detector. independent over a wide range, and the SIN ratio of the detectors therefore remains practically constant at f < i-I and constant radia- tion flux. Sensitive elements of the detectors are made of crystals in the -form of flat capacitors, Deposited layers (- 1000 A) of silver serve as the electrodes. To obtain a relatively uniform spectral character- istic of. a detector in the near and central infrared regions of the spectrum, the electrodes are coated with black.gold. The thickness of the crystals (100 p) is uniform within +30h. Card * 2/3  ACC NRi AP7001958 The zonal sensitivity of detectors made of BaTiO3 single crys- tals and ceramics and triglycinsulfate crystals were investigated. Sensitive areas of the samples ranged in size from 80 to 100 MM2 Sensitivity distribution over these areas was measured by a light probe 0. 15-1 mm in diameter. When measured with a 0. 15-mm probed sensitivity varied from its maximum value by up to 2516 for ceramics and up to 7576 for single crystals at isolated points. These studies also showed that large detectors made of BaTiO, ceramics exhibited the most unfform sensitivity (threshold sensitivity, 5 x 10-9 w/cps 1/2). Thermoelectric detectors made of triglycinsulfate single crystals had a greater, although less uniform, sensitivity (2 x 10-9 w/cps1/2 ). It is noted that these thermal radiation detectors have significant advantagep over other typqs when large-area sensitive elements are required. Orig. art# has: 3 figuraso Mias v. 3. no.27 SUB CODE: 20 1 SUBM DATEt 24Nov65 I ORiG REFt 004 / OTH REF& - 003 Card 3/3.  I'll, ;- P"_ - -1 ~'111- 1, L 20248-65 -F%D"2/ZZ0-2/EWT(1Y Pn-4/P1-4/Pae-2' IJP(0/SSD/#14L/ASD(a)r/ NSD(Ss) ACCESSION N.Rt -APS000629 $10185164/009/0111124011241 AUTHOR: Artyukhovalkaj_ L.- H..(Artyukhovskaya, -L. H.); Kremenchugs'kyly. S. al-ayev, A: V.- (Harnen AO Roytsy*na, --O,__V. (Royt$ nap go Vo) TITLE: Effect of -the -siza -of,, the detection area on the basic charac-.. teristics of metal vacuum~bolometers SOURCE: Ukrayins'ky*y fi-zy*chny*y zhurnal, Y. 9,,no. 11, 19640 1240-1247 Metal ~v.acuum' _bolometar,, bolometer thecrm TOPIC measurement ABSTRACT: The* effect of. ~the size of the detection area of mickel bolome'ters on the senattLvoity,and th.o inertia was Lnvestigated.- The general case, of heat'removat, from the bolometer either by radiatLott or by conduction of the fitm.Oas discussed, I.t'vas 4"ound that the dependence of .-bolome ter -'sons ttivi ty.:on the width of the detecting element is much stronger than it L a at., 'the lart5th of the alement: Card 1 2   OITSEVICH, M.A.; BOURSHINOVA, K.P.; KWIENCHUK, G.A. ft#6 of the phage increase reaction in the examination of objects ft the external enlironment. Report No.l: Use of the phage increase reaction in water analysis. Zhur.mikrobiol.epid.i immun. 32 no.3: 43-44 Mr 161. (MIRA 14:6) 1. Iz laboratorii Dorozhnoy sanitarno-epidemiologichaskoy stantsii Vostochno-Sibirsk6y zheleznoy dorogi, Irkutsk. (WATEIR-MICROWLOGY) (BACTERIOPHAGE) (SALMONELJA TYPHOSA)  MEMOCHUK, G;A.; GITSBVICH, M.A.; BOYARSHINIOVA, K.P. Use of the phage titer growth reaction for studying objects in tho external eivironment. Report No.2: Use of the phage titer grovth reaction in the analysis of water. Zhur.mikrobiol. epid. i irm-,un. 32 no.7:124 Je '61. (1-aRA 15-5) 1. Iz DorozImoy sanitarno-epidemiologiclionkoy stantoii Vostochn3- sibirskoy zheleznoy dor6gi Irkut-sk (BACTBRIOPIUGII,.~ ' (WA~:--A-MICROBIOLOGY)  KR'r>lE,N'GHUF, G.A.; GITSEVICH, M.A. Fbage titer growth reaction in thq study of external env!ronment. Zhur. mikroblol., epid. i immun. 40 no.11:146 N 163. (MIRA 17:12)  KRR4ENCHUK, G.A.; MYSHLINA, N.D. Comparative characteristics of glycerin mixture and borate bu"er solution as preservatives of diphtheria bneilli. Trudy Irk. NIIEM no. 7049-353 t62 (M IRA '19.- 1 ) 1. Tz bakteriologicheskoy laboratorii dorozhnoy sanitarno- epidemiologicheakoy stantaii Vostochno-Sibirzkoy zheleznoy dorogi.  Kfe F M i~N C- H 4 T- _5 KI ~ N. F_- NW~ASOVSKIY, U.S., pro#ensor; KRDWCHUTSKIY, N.Y., kandidat tekhaicheakikh nauk; BOZHKO, LL redak tor, I A., tekhnicheskly redaktor; ALADOVA, Te.I., tekhnicheakiy redaktor. (Mining steep coal strata in the Donets basin) Razrabotka krutopadA- iuahchikh plastov Donbassa. Moskva, Ugletekhizdat, 1954. 303 P.(KLRL 8.'l) (Donets Basin--Coal mines and mining)  NMASOVSKIY, Ya.S., professor; I~RZMCHUTSKIY, N.F., kandidat takhnichaskikh nauk. Use of cutter-loaders for the extraction of steeply pitching coal seams in mines of the central part of the Donato Basin. Izv. DGI no.24:143-172 t55. (MLRA 10:2) (Donato Basin--Coal mines and mining) (Coal mining machinery)  BALTKOV, V.M., inzhener; GERSHU40VICII, S.Ya., inzhanar. Valuable aid for angIneero and technicians working on pitching scams in the Donato Basin. OMIning pitching scams in the Donato Basin." X.IA. Nakrasovskii, N.Y. Kromenchutakil. Reviewed by V.M. Balykov, S.E. Gershanovich. Ugol' 31 no-5:44-45 My 156. (MLRA 9:8) (Donato Basin--Coal mines and mining) (Nekrasovskil. MA.) (Kramenchutskii, N.Y.)  sks, doteent, kandidat tekhnicheskikh nauk. Readers$ response to I.Y.Flavel'skii's article "Determining the length of the extraction area and that of the panel on strike In mininj flat Karaganda Basin seams." N.I.Iremenchutskii. Ugoll 31 no.12:33-34 D 156. (MW 10:2) I@ Dnepropetrovskiy gorny7 institut. (Karaganda Baein~--Coal mines and mining) (Plavellskii, I.V.)  TIMOYEYV,, P.A. About the article "Increase cross sectiong of haulagewaynO. Bezop. truda v prom. 2 no.11:18-19 N 158. (NIRA 11:11) 1. DaepropetrovskAYgarnyy institut (for Kremenchutakiy). 2. GlaVM7 inzhener Stalingiproshak.hta (Yor Timofeyev.). (Mining engineering)  MM-TNCTfT?TSKIY, F.F., kand.tekhn.nauk, doteent I-' Determining the most advantageous distance between cross headings considering ventilation expenses. Izv. DGI 31:69-80 158. (MIRA 11:7) (Mining engineering) (1,11ne vontilation)  KRZME11CHUTSKIY, N.F., dotsent, Imnd.tekhn.nauk Determining energy losses for atraiphtening, the flow beyond the ventilation openi Izv. DGI 31:155-163 '58. (MIRA 11:7) 7hne ventilation)  KREMENCHUTSKIT, A.F., dots, Fb6mlas should be nora accunate; response tb S.M. Lipkovich's and K.F. Sapitakii'a article entitled: "Determination of long- wall length by the ventilation factor." Ugoll Ukr- 3 no-3:46 Hr '59. (MIRA 12:5) 1. Dnepropetrovskiy gornyy inntitnt. (Coal minea and mining) (Mine ventilation)  KM4ERGIIUTSKIY,-N.F.. dotsent Optimum extent of the mine area in calculating ventilatIon. Izv. vys. ucheb. zav.; gor. zhur. no.9:39-46 159. (MIRA 14-6) 1. Karagandinskiy politekhnicheakiy institut. Rekomendovana kafedroy rudnichnoy ventilyateil i tekhniki bezopasnosti. (Mine ventilation)  KREMENCHUTSKIY Nikolay Feofanovich; BURCHAKOV, A.S., kand. tekhn. nauk, --ro~s-en~2i-en-t,.-=Kmv--r-s--kand. tekhn. nauk reteenzent; KLEBAIIOV, F.S., kand. tekhn. nauk, otv. red.; ZAKWOV, M.I., red. izd-va; SABITOV, A.x tekhn. red.; KONDRATIYEVA, M.A., tekhn. red. [Ventilation of coal mines] Provetrivanie ugolInykh shakht. Mo- skva, Gos. nauchno-tekhn. izd-vo lit-x-y po gornomu delus 1961. 239 pq (Mine ventilation) (MIRA 15:1)  KREIVICHUIMUS N.F., dotsent Method of determining the amount of air in a mine. Izv.,.,ys.ucheb. zavol gorozhure noo3t79-82 161, (NDA 15:4) 1. Karagandinakiy politekhnichoskiy institut; rekomendovana kafedroy rudnichnoy ventilyatsii i tekhniki bezopasnosti Kara- gandinskogo politekhnicheskogo instituta. (Mine ventilation)  KMIENCHUTSKIY, N.F.p kand.tekhn.nauk 114ine ventilation" by M,, N. Bodiagin. Reviewed by N.F. Kremenchustkii. Bezop.truda v prom. 5-no.7:35 J1 161. (MIRA WO 1. Karagandinskiy politekhnicheaki institut. (Mine ventilatioJ (B~~Vm. N. Art",  GRASffGHENKO', IIJ,., kand, -,~kmi, nauki KMW',HrISKIY, IT.F., dotsent; MALYAREMSKIYO VJ41, ~atsent; AIMMAYEV, D.A., inzb. Ways o! improving wrin,~-, -vent.11ation in the Karaganda Basin. Izv. vys. ue--heb. Bev.; gor, ziur, no.12~55-60 961. (MIRA 16:7) J., Karfigandinskly poll tt.0Ahr.-'ches'xiy Institut. Rekamendevana kafedroy ru~nlchn"y vontilyatsil, '..Karaganda Baeln-Mine ventilation)  MMUCHUM.1Y, II.F., kand. tekhri. nauk; GUMUK, T.Ye., kand. tekhn. nauk; IVAMOV, V.A., lnzh.; YATSMIKO, I.S., inzh. Breventing spontaneous fires in mines of the Prowjahlennyy Section of the Karaganda Basin. Izv. vys. ucheb. zavo; gor. zhur. no.12:61-67 161. (MMA 16:7) 1. NaragandinBUy politekhnicheBkly institut (for Kremenchutskiy, Gumenyuk). 2. Karagandintikiy sovet narodnago khozyayatva (for Ivanov). 3. Kombinat "Karagandaugoll" (for Yatsenko). Reko- mendovana kafedroy rudnichnoy ventilyatsii i tekhniki bezo- pasnosti Karagandinskogo politekhnicheskogo inatituta. (Karaganda Basin-Coal mines and mining-Fires and fire prevention)  ALEKIIIII, F.K.; ALOTIIJ, L.M.; ALTAYEV, Sh.A.; A],70NOV, F-ye-; BKVZJK, Yu.Yn.j [E-LENIKIY, D.M.; IJIIATClIF71KOO B.F.1 gornyy inzh.; BRENNER, V.A.; BYE K-up *7.F.; VALISHTLYN, G.I.; YIRV.OIMIOK~ N.S.; ZHISLITI, I.M.; IVAI.'OV, V.A.; 1VANCIIENKO, G.Ye.; PON; S.S.; KODYK, G.T.; KREVENCHUTSKIYj N.F.; hURDYAYEVp B.S.; KUIUICHANOVp G.K.; MASTER, PREOLRAZUENSKAYA, Ye.I.; ROZF21TAL', Yu.M.; RUDOY, I.L.; RUSHCHIN, A.A.; RYBAKOV, I.P.; SAGINOV, A.S.; SAMSONCV, M.T.; SERGAZIN, F.S.; SKLEPCHUK, V.14.; USTINOV, A.M.; UTTS, V.N.; FEDOTOV, I.P.; KIIRAPKOV, G.Ye.; SHILENKOV,V.N.; SIDIAYDMAN, LM.I.; BOYKO, A.A., retsenzent; SUROVA, V.A., ved. red. [Mining of coal deposits in Kazakbstan) Rnzrabotka ugoll- nykh mestorozhdenii Kazakbstana. Moskva, Nedra, 1965. 292 p. (FIRA 18: 5)  ABIMIOV, F.A., prof.; K=ZN9UU-Zj. "1y dottiont Calculation of the aerodynamic resistnnee of ventilation I*vindcwB" in complex ventilation systems. Izv.vys.uclieb.zav.; gor.zhar. 7 no.l2z48-51 164. (MlR,~ 18:2) 1. Dnepropetrovskiy ordena Trudovogo Krasnogo Zrauneni gorrcf-f institut imeni Artema. Rekomendovana kafedroy rudnichnoy ventilyatsii i tekhniki bezopasnosti.  ACCESSION NR: AP3003622 Z/0055/63/013/005/0396/0398 AUTHOR: Kremenek, J.; Skrivankova, H.; SJ,mkova, J. TITLE: Measurement of angular distribution of elastically scattered protons from aluminum atoms with mass number 27 SOURCE: Chakhoslovatakiy fixicheskiy zhurnal, v. 13, no. 5, 1963, 396-398 TOPIC TAGS: proton scattering, proton elastic scattering, proton inelastic scattering, proton scattering spectrum, proton scattering distribution ABSTRACT: The angular distribtuion of elastically scattered protons and five groups of inelastically scattered protons from Al has been measured with the help of a Se detector with a barrier corresponding to a proton energy of 7.0 Hev and protected with a 16-p-thick Al foil to absorb the a particles produced at the target. The range of meas- rements was 30-170* at an incident proton energy of 6.5 Mev. The measured groups correspond to -Q values of 0.842, 1.015, 2.21, 2.73, 2.98 and 3.00 Mev, of which the first three groups were resolved. Card 1/2  ACCESSION NR: AP3003622 The angular distribtuion of inelastically scattered protons obtained in measurements repeated several times for each angle are given in a table. The continuation of the studies of inelastic processes on aluminum is ansiounced. Orig. art. has: 2 tables. ASSOCIATION: Ustav jadernehe vyzkumu CSAV, Prague (Institute of Nuclear Physics, CSAV), Katedra fyziky fakulty strojni, CVUT (Facuilty of Machinery, Physics Department, CVUT) SUBMITTED: 27Aug62 DATE ACQ: 12Jun63 ENCL: 00 SUB CODE: PH NO REF SOV: 001 OTHER: 004 Card 2/2  (). Some e.,camplea of use of dischargetube r~.-cLiClers. j).23- I-LL-F,TR0T-i-'-'jINTK, Prague, Vol. 11, n-). 1, Jan. 1956. SO: Monthly List of i~ast European Accessions, (E;,AL), Ij,;, Vol. 5, No. 6 June 1956, Uncl.  i. ~ t C f 4 ~. Small transformers with nutomatic control. p. 318. ELEKTRMI'MINIK. Vol. 11, no. 10, Oct. 1956 Praha, Czeehoslovikia 'A"" 'R '-`: Sust European List (.MiL) Library of Congress, Vol. 6, No. 1, January 1957  KRENENETS, Yu., inzh.; SILIYANOV, V., inzh. Limit the upgrade length in denigning the longitudinal highway profile. Avt. dor. no.10%11-12 0 164. (MMA 17&12)  KUZOVSHCHIKOV I N. 1. , lnzh.; YJQ, 4ENETS, Yu.A. , invi. Technological and economic efflciqncy of ma,jor, repOrs on mountain roads. Avt. dor. 27 no. 3:19-20 Mr '64. NIHA 5)  MEMEIWS~ N.A., lnzh.j SILIYANOV, V.V., irivh. Design of long ascents and descents. Avt.dor. 28 0 no.10:10-11 0 165. (MIRA 18:11)  KPIVETTIETS, Yu.A., as;dn-,.,A I Grjj,,)jjc deter.1jr.11ticri of Itinic of Lhe free rw;rlpf* of a motor vehicle. Izv. vys. uch(!I). zav.; mashinotr. no. 10: 129-133 165 19:1) 1. Submitted October 22, 1964.  U33 k, b i 1 111 s r Q 3 t C po r t r v i tide j Ij 1 t Monthly List of Russian Accessions, Library of Congress, '7: 1953. Unclassified.  KIENETS(VA, I.F.; FALKINA, D.A.; ANOKHINA, K.P., red.; KREMENETSKAYA, A.V., red.; ELIBERT, G.A., red. [Scientific and technological information in the U.S.S.R. and abroad; a bibliographic index to the literature published in 1960 and 19611 Nnuchn,;-tekhn1cheskaia informa- tsiia za 1960-1961 gg. Moskva, 1962. 215 p. (MIRA 16:10) 1. Moscow. Vsesoyuznyy institut nauchnoy I tekhnicheskoy in- formatsil. (Bibliograpby--Science) (Bibliography--Technology)  SOROKIN, Nikolay Yako-vlevich, prepodavatel I; Yj~EV04ETSKAYA, 1. 7. , red. [Stimulation of students in classes on the specialized technology of machining on lathes] Aktivizatsiia ucha- shchikhaia na urokakh spetsialinoi tekhnologii tokaivogo dela. Moskva, Y-yssbaia shkola, 1965. 52 p. (MIRA .18-.12) 1. Professionallno-tekhnicheskoye uchilishche No.45, Leningrad (for Sorokin).  SER LIU L IGrigoriy Illarionovich; KREMENETSWAp I.I., red.; BARAKOVA, U.1719 tekbn. red. [Equipment for cabinetwork) Prinposobleniia dlia obrabotki stoliarrjykh izdelii. Vloakvaj Vses. uchebno-pedagog. izd-vo Proftek,hizdat., 1961. 15 P. NIM 15:2) 1. Master proizvodatvennogo obucheniya professionallno-tekhni - cheskogo uchilishcha Eo.4 g. Stalinabada (for Serbul). (Cabinetwork-Equipment and supplies)  DZ10*01, V.M.;, RUDENKU, N.F.; q~~N44YA$ J.N. M.xed thorium complex with cupferron and 41-nitroso-2,21-dihydroxy-4-mothyI -5-isopropulazobenzene* Zhuroneorg.khim, 8 no.3:655-659 Mr 163. (KIRA 16.4) 1; VsesoyuarW nauchno-iosledovatellskiy institut khimicheskikh r 6tivov i laboratoriya radiokhimii Nauchno-issledovatellskogo inatituta yadernoy fiziki Moskovskogo gosudarstvennogo univeraiteta. (Thorium compounds) (Cupferron) (Asobenzene)  RUDENKO, N.P.; DZIOMIKO, V.M.;,,~(F NSKA~YA,-J.A-- Mnthod of naparnting Zr93 from NO by thm extraction of zirconium as a mixed complex with 8-hydrcxiquAnaldoxime and caproic acid, Radiokhimlla 7 no,0492-494 165. (MIRA IM)  DZIOWOP V.M.; RUDENKO, N.P.; WMKNSKAYA, I.N.. Determination of the compooition of the complex thoriumd"v)- .f-isopropylaz6benzen c4pforron-41-nitro-2.,21-dixydroxy-/+-methyl- Zhur.neorg.khim. 8 no.5sl278-1280 My 163. (MIRA 16:5) 1. Vasaoyuznyy nauchno-issladovatellakiy institut khimicheaklich reaktivov i Nauchno-issladovatel'skiy institut yadernoy fiaiki Moskovskogo gosudarstvennogo universiteta, labo.-atoriya radiokhimii. (Thorium compounda) (Cupferron) (Azobenzene)  YFOIENE'I-KAY~kj (Mookva) RhoumtIc fever In elderly and sonile peroono. Arch. Fit. 27 no. 1: 47- 5 1+ 165. (MU 16:L) 1. Laboratoriya serdoclmo-sosudit,tLy patologii (zav. - chlen-kor- respondent AMN SSSR zasluzhennfy doyatall riaukl prof. A.I.Strukov) InstiLuUt morfologil chelovoka (dir. - eh len-1: ot-reoponden t MAN prof. A.L.Avtsyn) AMN SSSR.  MW,NF,T.c;YIY A,Ye., podpolkovnik aapasa Perfect the practical training of atndentfi. Mor. sbor. 47 no.6t4O-44 jo 164. (MIRA 1817)  TARAN, A.G., inzh.; YAKOVIE1, V.M., lnzh.;._ jfoTSX~J, G.1s., inzh,; RAYTRUB, M.S., inzb., BOLOTSKIKH, V.S., inzh. k Hydraulic conveying of rocks used in drainage operations. Shakht. stroi. 7 no.3-.23-24 FrI63 (MIRA 11727) 1. Ukrainskiy nauchno-Issledovatel'sk.1y Inotitut organizats.-Ii i mekhanizatsii shakhtnogo st,roiteltntva (for Taran. Bolotskikh). 2. SU No.2 tresta DLTitrov-uglestroy ( for Yakovi;A.  I.Ya. (Ibokva); MVINA, T.N. ( 1,16okva) Mw factory in ,bgcow. Shvein.prom. no.4-32-35 Jl-,Ag '63. MRA 16:9)  MENETSKAYA, L, Ye. KREICNETSKAYAO L. Yo.: "On the proJem of changes in the brain membranes in hypertonic disease". MOSCOW, 1955. Second Moscow State Medical Inst imeni I. V. Stalin. f Candidate of FSDICAL Soiences) %Dissertation for the Det-ree of SO: KnizhnayA Letonial 0. 51, 10 December 1955  nWWTSMAq L. To. Problem of changes in pacchionian granulations in hypertensive dieeasee Arkh.pate 2 no,3t1q-23 t60, (KRA 13t12) (HIMTENSION) (DURA MATER-DISLUES)  KENWETIMAYA, L.Ye. (Kalinin) Changes in the cerebral durs. mater in hypertension, Arkb-Pat- no.nt38-42 161. (MMA 14: 10) 1. Iz kafedry patologicheskoy anatomii Nav. - prof@ L.F. Popov) Nalininakc-go meditsinskogo instituta. (DURA HATM--DISEASES) (MTERTENSION)  KREMEMSKAY,i, T.P.: ILTSIMTA, Yu.A. Y'~ Tenth International Fanhion Congress. Tekst.prom. 19 to.12: 46-48 D 159. WIRA 13:3) (Fashion-Congreases) ~A,. k-,  CEUM=SKIT, A.M. I Use of bent sections abroad, Haahinostroitell ?,,j.12:40-41 D 16o. (MIRA 13:12) (Steel, Structural)  r-E-`EI;ZTSKIY, A.11, Cuttln(~, tools whic-b do not need retiharpealng. 1 12 42 D 161. n. 14 12 ) (1-letaA-P,uttinp, tools)   nEMENYUSKIY, B. A. , _- --4;--* - - Coreless molding In large-scale production. Lit.proizv. no.?: 24-25 J1155- (HLRA 8:10) (Holding (Younding))  MMEMSKlY.B.A. Making precision castings with surface formation of cementite in combined forms. Sellkhozmashina no.8:29 Ag'55- (MLRA 8:11) (Die castiw~)  r -, -.: 1 .1, 1), 9T .". mc~ -1 f.);'y I I c! ylo- , (O-cr-all df?c-r r! ~e In Irbor conswmption of pr,-)di!ctive nrocesses) ."oskv!i , C,ostopte~hiztl-t.. 1951. 9. Monthly List of Russian AccesElons, Library of Congreas, -1952 1953, uncl.  KRZMZb'JN=KrY, I. M.