SCIENTIFIC ABSTRACT RUDKIVSKIY, G.P. - RUDKOVSKAYA, G.D.

RUU.IVLFIY, G.P. [Rudkivs'kyi, H.F.J, kand.biolou.nauk Bhfc?U-orn nretarine. flauka i zhittia 11 110.10:38 39 (Black thorn) (Nectarine)  RUDKIVSIKIY, G.P. Cultivation of fruit trees without transplanting as a wa7 of increasing their drought resistance and winter hardiness. Visnyk All URSR 28 no-9:53-56 S '57. (MIRA 11:1) (Fruit culture)  'Deach s of Deaches in the Ukraine. Creating new frost-resistant wnrietie lri~;nyk AN URSR 24 no. 1, 1953 9. Monthly List of Russian Accessions, Library of Congress, May -1953. Unclassified.  Ukraine Peach 7. Creatiw7 nev frost-res-Istant varieties of peaches in the M-craine. Visnyk AN nSR, 24, NO. 1, 1953. 9. Monthly List of Russian Accessions, Library of Congress, May -1953. Unclassified.   FdJDIKO.v A. K. BORODA-'HEK, V. U. AND KULIK, L. X. ItApproximation solution of thermal conductivity equations for laminar-uniform media." Report presented at the Ist All-Unicn Conference on Heat- and,Mass- Exchange, Minsk, BSSR, 5-9 June 1961.  80799 IMO SOV/124-59-9-9799 Translation from; Referativnyy zhurnal, Mekhanika, 1959, Hr 9, P 31 (USSR) AUTHOR: RudAko, A.K. Z_~'i ZZ 1 ii-ILE. The Concentration Limits of Flame Propagation Within a Laminar Two-Phase Mixture PERIODICAL- V sb.: Goreniye dvukhfaznykh sistem. Moscow, AS USSR, 1958, pp 26 - 49 ABSTRACT: The author divides,for performing a theoretical investigation, the front of flame propagating within a two-phase mixture into three zones: the heating zone, the zone of kinetic combustionXX of the evaporated fuel, and the zone of diffusion-combustion of the fuel droplets. The heat flux, transferred from the more heated zone of diffusion-combustion into the zone of kinetic combustion, causes an increasing in the propagation rate of the flame and a widening of the concentration limits of ignition of the two-phase mixture in comparison with a homogeneous mixture, in which the maximum temperature of the flame Is equal Card 1/2 to the temperature at the boundary of the kinetic zone and the  80799 SO'V/124-59-9-9799 The Concentration Limits of Flame Propagation Within a Laminar Two-Phase 'Mixture diffusion zone of the two-phase mixture. The heat flux from the burning vapor phase In the kinetic zone to the fuel droplets causes Inhibition of the chemical reaction of the vapor phase combustion. On the basis of these ideas, the author determines theoretically the concentration limits ofthe Ignition of a two-phase' mixture of ethyl alcohol and air for different concentration ratios between the. liquid and evaporated phases, for different dispersities, pressures, and tempe-: ratures. The experimental investigation confirmed the fundamental conclusions of the theory: 1) The upper concentration limit of ignition of the two-phase. mixtures for the stoichiometric composition of the vapor phase is 3 - 4 times higher than for a homogeneous mixture, if the mean diameterof droplets is not below 100~-. 2) Fine-dispersed mixtures ignite even at zero-concentrations of the fuel within the vapor phase, but for the ignition of coarse-dispersed mix- tures, a definite minimum concentration of evaporated fuel is necessary. 3) If the concentration of the evaporated fuel within a two-phase mixture exceeds the upper concentration limit of the homogen mixture, the two-phase mixture does not ignite. 4) At increasing temperature or pressure, the concentration limits of the two-phase mixture somewhat widen. Card 2/2 L.S. Dmitriyev  SOV/123-59-23-99226 Translation from: Referativnyy zhurnal. Mashinostroyenlye, 1959, Nr 23, p 375 (USSR) AUTHOR: Rud'ko, A,K- TITLE: Concentration Limits of Elame Pro augration~ln Laminar Two-Phase Mixtures PERIODICAL: V sb.- Goreniye dvukhfazn. sistem, Moscow, AS USSR, 1958, pp 26 - 49 AP.STRACT: An example is presented of solving the problem of inflammability limits of laminar drop mixtures. The test results obtained for the drop mixture of ethylalcohol with air confirmed the basic conclu ,sions of the theory. The inflammability limits of drop mixtures can.essentially differ from those of homogeneous gas mixtures. The evaporability of the liquid medium con- siderably affects the limits; these limits are considerably narrowed doi-m- with a cooling of the mixtureand a pressure reduction. In consideration of the fact that in practice not laminar but turbulent mixture flows are used, it would be very interesting to continue the investigation Ln application to the combustion of -turbulent drop mixtures. Thirte6n figures eferences. r 5 ,d  FHASE I BOOK EXPLOITATION SOV/1372 ~kademiya nauk SSSR. Energeticheskiy institut Goreniye dvukhfaznykh sistem; abornik dokladov na obshchemoskovskom seminare po goreniyu pri Energeticheskom institute AN SSSR (Combustion of Two-phase Systems; Collection of Reports of the All-Moscow Seminar on Combustion at the U.S.S.R. Academy of Sciences, Power Institute) Moscow, Izd-vo AN SSSR, 1958. 123 P. 3,200 copies printed. Resp. Ed.: Khitrin, L.N., Corresponding Member, USSR Academy of Sciences; Ed. of Publishing House: Meleyev, A.S.; Tech. Ed.': Kashina, P.S.; Council of the Seminar: Khitrin, L*N., Corresponding Mdmber, USSR Academy of Sciences (chairman); Knorre, G.F., Doctor of Technical Sciences, Honored Worker In Science and Technology, Professor, Deputy Chairman; Shchetnikov, Ye.S., Doctor of Technical Sciences, Professor Deputy Chairman); Vanichev, A.P., Doctor of Technical Sciences; Voyevadskiy, V.V., Corresponding Member, USSR, Academy of Sciences; Golovanov, N.V., Candidate of Chemical Sciences; Zhuk, D.S., Candidate of Chemebal Sciences; Inozemtsev, _'N,V., Doctor of Technical Sciences, Honored Worker in Science and Technology, Professor; Kantorovich, B.V., Doctor of Technicel,,9ciences; Kogarko, S.M., Doctor of Chemical Sciences; Lebedev, B.N., Card 1/15  Combustion of Two-phase Systems (Cont.) SOV/1372 Candidate of Technical Sciences; Nikitin, K.A., Candidate of Technical Sciences; Sokolik, A.S., Doctor of Chemical Sciences; Golovina, Ye.3., Candidate of Technical Sciences (Secretary). PURPOSK: This collection of articles is intended for scientists working in the field of combustion. COVERAGE: This is the first issue of proceedings of the Moskovskiy seminar po~ voprosam goreniya (Moscow seminar on problems of combustion). It is devoted to problems of ignition and combustion processes in two-phase liquid-vapor fuel systems, and to the general characteristics of combustion in a fuel stream. The papers published in this number were presented at the seminar in 1955/55. TABLE OF CO!Y=TS: Pr6face 3 Klyachko, L.A. Experimental Study of the Combustion of Fuel Droplets (June 17, 1955) 5 Card 2/6  Combustion of Two-phase Systems (Cont.) SOV/1372 The paper discusses the combustion of fuel droplets from the point of view of the diffusion theory of G.A. Varshavskiy (2]. The following characteristics are determined: rate of combustionP radius of the combustion zone., droplet and combustion zone temperatures, temperature arreas and partial pressures around the droplet. Two methods were used: 1) combustion of large model droplets in a spherical burner (Fig. 2), 2) combustion of droplets suspended from a filament. Data were cal- culated for the folloving fuels: kerosene., benzene., isooctane, and ethyl alcohol. It was determined that the rates of burning for benzene and isooctane are similar. The rate for kerosene is on the average 25 per cent lower than for benzene, and the rate for alcohol is lower than for kerosene. The theoretical and observed temperatures of the droplets show close valuess with the observed temperatures lower than the boiling points of fuel for all pressum of air. Photographs Of isooctane droplets burning at various air pressures show that the pressure drop results in the flame front receding from the droplet surface and in the change of the flame form to spherical. Ratural convection for droplets 100 - 200 is negligible, There are 9 figures, 2 tablesl- and 5 references, 2 of which are Soviet and 3 English. Card 316  j 4, Combustion of Two-phaBe Systems (Cont.) SOV/1372 Tikhomirov, V.G. Fundamental Combustion Characteristics of a Two-phase Fuel-air Mixture (October 14, 1955) 19 The paper discusses.the fundamental combustion characteristics of two-phase fuel-air mixtures in a turbulent flow. A method was devised for the study of a predetermined sector of the flow with a given droplet size, and mixture composition. Flame propagation in such mixtures is due to heat flow from the burning droplets towards nonburning droplets in a medium which does not necessarily contain a combustible fuel-vapor concentration. It was determined that in- jection of atomized fuel into the air stream adds to the turbulence of this stream. The rate of flame propagation is modified by the turbulence of the flow. The time of combustion of the two-phase mixture, which is the time during which the components of the mixture remain in the combustion zone, has a higher value than that for a homogeneous mixture, especially for low turbulence of the stream. There are 4 figures and 5 references, 4 of which are Soviet and I English. Card 4/6  Combustion of Two-phase Systems (Cont.) SOV/1372 Rud,ko,_A,K. Concentration Mmits of Flame Propagation in a Laminar ,TV6__P~ase Mixture (November 25, 1955) 26 The author presents the approximate solution for the problem of normal propagation and concentration limits of flame propagation in laminar two-phase fuel-air mixtures. The results are compared with experimental data obtained from the study of concentration limits of flame propagation (with spark ignition) in air-alcohol droplet mixtures with aflov rate below o.5 m/sec. It, was deter- minP-d that there exists a satisfactory agreement of the experimental data with the theoretical. The two-phase mixtures show an expanded concentration range of the combustible mixture. The deterioration of dispersivity over a certain limit in mixtures with a low content of vaporized fuel 1:esults in a nonflammable mixture for any summary concentration of tae fuel. The concentration limits of inflamma- bility become narrower during the cooling of the mixture and during a temperature drop. There are 13 figures and 5 references, 4 of which are Soviet and 1 English. Card 5/6  Combustion of Two-phase Systems (Cbnt.) SOV/1372 Kantorovich, B.V. Problems in the Theory of Combustion of a Fuel Stream (June 13, 1956) 50 This paper presents theoretical and experimental considerations on the combustion processes occurring in a stream of fuel (pulverized, liquid, and gaseous). The essential differences between the streams of various fuels are indicated in the article. Solid fuels- coal ARSh from the Donets Coal Basin, coal from the Kuznetsk Basin, Chelyabinsk Basin and the Moscow Basin; peat, petroleum coke.'Liquid fuels: Diesel oil, ethyl alcohol. The basic equations describing, the combustion process are: 1) the stoichiometric equation of mass transfer 3) the equation of state of the gas medium 4) energy equation, and 5) the kifietic equation. Atomized liquid fuels require an additional ,equation for the eveporization of fuel particles. There are 53 figures, 223 equations, and 40 references, 37 of vhich are Soviet and 3 English. AVAILABLE: Library of Congress Card 6/6 TM/mas 4-13-59  dyei. Part 52: St-Yryls f.-cm !~aryl quinn-I'd=ium alt aeri-vaL:~v--,q, Zhur. org. kh-imm. 1 no.9.1685-1687 S 165. (MIRA 18-12) 1. Ghernovitskfy gosudars'vvenn3rf univers-itet. Submitted August 8, 1964.   BELYY, M.TJ.[BilyiqM.U.1;.RUDIK0q B.F. [Rudlkoo B.F.] Effect of temperature on the lumihescence and absorption spectra of solutions of heavy metal salts, Part 1: Study of solutions of lead and thallium salts. Ukr. fiz. zhur.. 5 no.6:799-808 N-D 160. (MIRA 14:3) 1, Kirjvskiy gosudarstvennyy universitet Im. T. G, Shevchenko. (Lead salts-Spectra) (Thallium salts-Spectra')  14.U.; RUDIKO, B.F. Tonmerature studies of the luminescence of halide solutions of heavy metals. Izv.AIT SSSR.Ser.fiz. 24 no-5:582-586 MY 16o. (MIRA 13:5) 1. Kiyevakly gosudarntvannyy universitet in. T.G.Shevcheako. (Haliden-Optical properties)  S/04 611025100310A 3/04 7 B'04YB203 4 AUTHORS: Belyy, M. U., Okhrimenko, B-A., and Rud'kc, B. F.- TITLE: Recombination luminescence of Sn 4-1- in aqueous solution of LiCl and HC1 at low temperatures PERIODICAL: ivvjL1ya Akademii nauk SSSR. Seriya fizicheskaya, v. 25,, no. 3, 1961, 426-428 TEXT: This paper was read at the 9th Conference on Luminescence (Crystal, PhosDhors) in Kiyev, June 20-25, 1960. It is known that the cp"i4cal characteristics of alkali-halide crystal phosphors and certain concen- trated solutions have much in common: the absorption spectra are in practical agreement, and the luminescence spectra have also certa-in ~orresrondences. Hence, the authors concluie that a study of concentrated halide' solutions containing hoivy metal ions might help to clarify absorp- tion and luminescence mechanisms. It has been founi earlier that a red luminescent band could be observeu in a solution of Sn+~_ in LiCl(HC1) on reduction of temnerature. The luminescence spectrum of this solution 3-. L the temperature of liquJd oxygen consists of a blue band 0. MaZ 4. 40mjA) Card 114  S/048/6,/025/GO_,'/04'3/C47, Recombination luminescence of... B104/B203 and a red band (Curve 3 of the figure). The present paper deals with the origin of this band. It was found to have three maxima: 585 m., 605 MIL. and 635 m~L Further, it was stated that these two bands were excited in different partn of the absorption spectrum: the blue one at the abso,rp_ ticn maximum of 226 mp, and the red one in the region of two distinct maxima at 262 m~L and 276 m~u Fig. 1 shows the absorption and lumineocence spectra of two solutions. It was found that the absorption spectra cf these solutions did not shift on reduction of temperature, only undergoing a slight contraction and elevation of the bands. It was further shown that the absorption spectra of the two solutions had a distinct maximum at 226 mp-, and two less distinct maxima 260 M~X(and 276 mK, The luminescence spectrum of the solution Sn + LiG1 HC1) had only a rpd band. It is assumed that the longwave absorption maximum of the solutlon Sn + f- + LiCl(HC1) is caused by the transitions 15o P .3 P Thi3 however, aloo clarifies the triplet structure of the red 1UMJ,ne3cPnt band of Sn++. The similar structured of the -red luminescept band of Sn4t tions is explained by the same transitions in the Sn-+ ion as above, Card 2/,d  S/048/61/025/003/043/047 Recombina Recombination luminescence of ... B104/B203 + since they also give a red luminescent band of the Sn ion. This inter- Dretation is confirmed by the agreement of maxima of the excitation, spectrum calculated from.formula . dcocK" 1, -(K..cC 0+KIGO)d _e . K~.G ~+KoC~o .with the ones found experimentally. Here, I and I are the intensity J110 M 0 of luminescence and the intensity of the exciting light, a is the probability of a recombination of -an electron and of an Sn4+ ion, K , K x 10 Cx, and Cc are absorption coefficients and.concentrations of the Cl- and, 4+ Sn ions, and d is the thickness of the,absorbing layer. It was shown that I reached a maximum at K /Kxl= C2/C2. In a subsequent discussion, ;A ~0 M 0 X, o Ch. B. Lushchik dealt with electron transitions causing absorption in activated crystals. There are 1 figure and 2 So-viet-bloc references. A3SOCIATION: Kafedra optiki Kiyevskogo Gos. universiteta im.T. G. Shevc~enko (Department of Optics of the Kiyev State University imeni T. G. Shevchenko) Card 3/4  no - 25 9 JI M 4fla d517 ffl i? Sfn R1 , 717 jrfft A mfj  L-' 4-' STRUCTURE An PHYSTCA.L PROPERTIES OF MATTER IV A LIQUID STATE reports read at the lith Conference convened,in KIYEV fro, 1 to 5 June 1952, published by the nublisheir. House of XITEV University, KTYEV, USSR, 1962 laculir ~tructura, A.z. rC)LIK and 010LPA,,4,,. t'0 Surf-,Ca fran,tion und Vi3codity of 301rd Polysiloraned 57 ou..~su.079 11rot)lerj of vincoaty af Compresaed 65 ~rTtsna itni Liquid3 O.YA. coanection Betwoen the Coordination --tumber nnd the 7hermal !iotian of .1,qu-iouj solution Fftrticlas of Elec- 71 tralytei I.G. `,:1*.dAYLkV tn,' YU.?. SYRIMOV, Tbermal bepandency of the Aqueous Sjlutionu of Salts Nt Low Concentrations 74 -11. BELYY !nd HUDIXO.,-The %rfect of 3(,IV,3nts n7ri!r----mj,t!r7Cu-re on the Luminescent C,ipactty of Tn ;;sit :,olutictis 79 YU.Y;. -,OTLIB, K S-ILTK~;OV a%d V.A. .:GLLV'Y*'V, 1hearl of' 111tratiound Alsorptio U I r-olymer ,;---Iutions 85 G.14. 2ARTY:;.KSVMj, Conneotion Betseen the Structural UrAls of Ga3ej and Structural Units of i.iqutdtf q2  Incorporate the search resul-;.s of everyone int-o a com-mon plan. Sov. ofsoiuzy 19 no.24:18-19 D "3. (MIRA 17:1) pr 1. Predsedatell zavodskogo komiteta. professionallnogo soyuza Kurskogo zavoda traktornykh zapasnykh chastey.  AID P - 4624 Subject USSR/Aeronautics - maintenance Card 1/1 Pub. 135 - 13/23 Author Rud1ko, G. A., Eng.-Maj. Title Technical maintenance of electrical equipment Periodical : Vest. vozd. flota, 4, 65-68, Ap 1956 Abstract : The inspection, checking and maintenance of various electrical equipment of aircraft Is described in detail. The article is of informative value. Institution None Submitted No date  IVANOVA, A.M.; KNKLY,11, S.Z.; RUDIKO, I.S. Our experience in the use of polyglatain. Zdrav.Belor. 4 no-3:50-51 Mr 158. (MIRA 13:7) 1. Iz khirurgicheskoy kliniki Vitabskogo meditsinskogo instituta (direktor I.I. Bogdanovich) i Vitebskoy oblastnoy stantsil. pere- livani.va krovi (direktor S.Z. Mekler, rukovoditell raboty dots. A.Ta. Mitroshe nko (BLOOD PLASMA, SUBSTITUTES)  6.Z. M,114NA, A.M.. ;WD-Ku, I.S. Use of TSOLIPK prot-An hydrolysate in zurg-ical dicease5. Zd:av. Bel. 7 no.8:57-58 A,- 161~ 0~111~il 1-5:2) 1. 1z Vituebskoy obla3tnoy stantsi-i F-aralivan-4ya krovi (dir. 03LOOD FLASI-J%~ JJi,'6TiTU";'zZ)    RUDIKO, P.D. (Variations in the morphologic structure of farm anIzals as affected by their oars and use] Izmanenie morfologiaheskoi struktur7 ael'sko- Ichoziaistvennykh zhivotrqkh pod v.Uianiem aoderzhaniis, i ekapluatataii, Stalinabad) Tadzhikskii selikhoz. in-t, 1958. 263 (MIRA W12) (Morphology (Animals)) (Stock and stoakbreeding  RUDIKO, F,I,; GRZZ.5 M., redaktor; GOROIRIICHA~ A., tekhaicheskiy redaktor. [Thus the victory was won; account by the cUrector of the LIvcT Stakhanov low-voltage elactric,lamps factory] Tak sdoblivalas' pere- moha. Rozpovicll dyrektora Vvivalkoho, atakhanovalkoho zavodu nyzlkovolltnykh elaktrolamp. Vviv, Knishkovo-zhurnallne vydlvo, 1952. 60 p. (MLRA 8:2) (Lvov--Xlectric lamps)   A02 S/185`61/006/006/009/0-30 2 2-6 D299/D304 AUTHORS3 Horban', I.S., and Rudlko, S.M. TITLE: Absorption- and luminescence spectra of HgJ2 crystals PERIODICAL: Ukrayinslkyy fizychnyy zhurnalp vo 6, no, 6, 1961p 7614 - 767 TEXT: Exciton theory in the effective-mass approximation is consi- dered for the case of non-hydrogenic exciton spectra, as well as the following related problems; Transformation of exciton-excit-a- tion energy into radiation (due to direct transitions f&W exciton V~ levels), conditions for transitions without radiation, and the in-. teraction between exciton excitation and lattice defects. The ab- sorption- and luminescence spectra were measured at temperatures of 20, 77 and 1000K~ The luminescence was,studied on single crystals, whereas the absorpt-ion spectra were studied on polycrystalline spe- camensc A figure shows the obtained spectra. The h4gh values of the L absorption coefficients (104 cm-1) and the obtained reproducibility of data for various specimens, show that the absorption spectrum is Card 1.1/3  S/185/61/006/006/009/"030 Absorption--- and luminescence ... D299/D304 of cryatalline type. The high values of the absorption coefficients show that the corresponding optical -transitions are direct- allow,~-d transitions,, The spectral band of longest wavelength corresponds Uo transitions to the lowest exciton-state. It is important to Cal-, culate the oscillator strength f for this band; it was found that f -~ 6 - 10_4 to 4 - 10-4 (for temperatures between 20 and 1000K),, Knowing f. it is possible to determine the dissociation energy of excitons G exco ; this was found to be 0.14 0.17 ev., very close to the values of the spectral distance (0.14 0-15 ev) between the ma- ximum of the band and the beginning of the continuous absorption (which increases sharply'ir. the shortwave side of the measured spectrum). The obtained results lead to the conclusion that the continuous absorption ip-due to interzone transitions~ Know_jLng it is also possible to determine the order of magnitude of.the dia- meter of exciton excitation and its reduced effective mass. Amother figure shows the energy distribution in the luminescence spectrum, which has 2 bands, corresponding to transitions between ex-Aton sta- tes and to lumine3cence of local senters~ The experimentalily measu- red lifet-11me of excitons and the caluclated one, differed by an or- Card 2/..'  S/18 61/006/006/009/030 Absorption- and luminescence ... D299YD304 der of magnitude. (This discrepancy is explained). By extending the. above considerations to the ratios of luminescence-lband intens'.- ties, it is possible to quantitatively determine the efficiencrof radiationless transitions, of exciton radiation, and of exclt-on energy transfer to local centers. The obtained experimental results are proof of the great significance of excilon processes in the transformation of the excitation energy of HgJ crystals, into lu- 2 minescence. There are 2 figures and 9 references: 5 Soviet-bloc and 4 non-Soviet-bloc (including 1 translation)~ The references to the English-language publications read as follows: R.G~ Elliot-~ Phys~ Rev~, 108, 6,,1957,, D~L. Dexter, Phys. Rev., 101; 489 1956; T~ Moss Photocond. in ebm.. London, 1952. ASSOCIATION: Kyyivslkyy derzhuniversytet im. T.H. Shevchenka (Kyyiv State University im. T.H. Shevchenko) Card 3/3  S/185/60/005/003/016/020 Gorban'. AUTHORS: I.S., Rudko S.M. and Shyshlovs'kyy, O.A. TITLE: Wavelength-independence of quantum yield of infra- red Cu?O-Iuminescenceduring excitation in the region of exciton absorption spectra PERIODICAL: Ukrayins'kyy fizychnyy zhurnal, v. 5, no. 3, 1960, 420-422 TEXT: The dependence is studied of the intensity of infrared lum- inescence Of Cu20 on the wavelength during excitation in the region of the yellow and green hydrogenic series. In literature, there is no common viewpoint regarding the mechanism of excitation-energy transmission to the local impurity-centers which cause the lumines- cence. A quantitative study of the Cu 0 absorption-spectrum at 2 liquid-air temperature, showed that the long-wave edge of the eigen- absorption band has a complex structure. In the present study, a lamp of 300 watt was used as a light source. Then the light passed Card 1/3 Miffiaamaz~  266oo S/185/60/005/003/016/020 Wavelength independence of quantum... D274/D3O3 through a monochromator and onto a photomultiplier whose signal was amplified and recorded by electronic potentiometer PSP-l. The measurements were conducted at liquid-air temperature. A figure shows the intensity plotted vs. wavelength (in R). The spectrum was.obtained from a specimen 50,a thick. From the figure it is evident that stronger luminescence corresponds to greater absorp- tion. It was established that the dependence of luminescence on wavelength does not have a structure corresponding to the narrow hydrogenic series of exciton absorption. The investigation shows that the intensity of luminescence does not depend on the nature of the exciting light. The processes involved in the luminescence can be explained by assuming an exciton mechanism of energy transmiss- ion to the luminescence centers. Excitation by carriers is likely owing to the size of the exciton radius. The lifetime of the car- riers in the conduction zone is very short; this may be the reason for the small quantum-yield of photoconductivity in CU20 which agrees with the results of earlier investigations. In conclusion, the author considers that a complete solution of the problem would Card 2/3  266os, S/185/60/005/003/016/020 Wavelength independence of quantum... D274/D303 require further experimental results. There is I figure and 6 references: 5 Soviet-bloc and 1 non-Soviet-bloc. The reference to the English-language publication reads as follows: J. Bloem, Philips Research Reports, 13, no. 2, 167-193, 1958. ASSOCIATION: Kyyivs'lcyy derzhavnyy universytet im. T.G. Shev- chenka (Kiyev State University im. T.G. Slievchenko) ..'AMMITTED: December 31, 1959 Card 3/3    m  S/051/62/012/005/010/021 E032/E414 Au"I'11014s: Gorban', I.S., Rud'ko, S.N. TITLL; Absorption and photoluminescence spectra of JISI2 crystals 11I-_',RI0DECAL,: Optika i spektroskopiya, V.12, no.5, 1962, 610-615 TEXT; The spectra were.measured at 20, 77 and about 1000K using a mirror spectrometer with a iRlane diffraction grating. The linear dispersion was about 16 A/mm. A -tGY-17 (FEU-17) photomultiplier wasused as the detector. The photoluminescence was measured in single crystals arid the absorption spectra were determined for very thin polycrystalline plates. Fig.1 shows the absorption spectrum (3) and the energy distribution in the photoluminescence spectrum (1,2) of the red.modification of HS12 at 200K. Curve 21 in this figure shows the peak marked 2 on a larger scale. Fig.,2 shows the energy distribution in the photoluminescence spectrum Of IISI2 (I - 20"K, curves a and 6 are for single crystals (obtained from the vapour phase) and-refer to different portions of the original material; curve a .represents the luminescence of a crystal grown from solution; Card ll?r,  GORWI) I.S~j RUD3KOl, S,,N. Absorption and photolmineseence spectra of HgI2 crystals. Opt.i spektr. 12 no.5.-610-6LI5. Yq 162. (MIRA 150), (Marcury Iodide crystals.-Speotra)  GORBAIII, I.S. [iforban', [Rudko, S.M.]; SHISHLOVSKIT, A.A. LSnyahlovalkyi, O.A.] Independence of the quantum yield of CU20 infrared luminesceace on the length of the wave upon excitation ta the region of the excitoa structure of the absorption spectrum. Ukr.f--z.zhur. 5 no -3:420-423 My--Te 160. (KIRAL 131) 1. Kiyinvskly gosudarstvannyy universtet im.T.G. bbevcbeako. (Spectrum, Infrared) (Copper oxide--Spactra)  89235 ,/61/.025/001/001/03.1 S/048 5?, ~iI66 A a 113 S ?Jr) B029/BO67 AUTHORS: GorbanIq 1. S., Rud1koj S. N., and Shi8hlovskiy, A. A. TITLE: Luminescence of semiconducting.crystals on excitation inthe region of the discrete structure of the absorption spectrum PERIODICAL: Izvestiya Akademii nauk.SSSR. Seriya fizicheskaya, V. 25, no. 1, 1961, 6-12 TEXT: According to the authors, the intensity of recently observed short- wave luminescence bands of Cu 20 (Ref- 5) is largely dependent on the production process and the heat treatment of the specimens. Fig. 1 shows luminescence spectra of Cu 20 crystals with different resistivities. The spectra were taken at 200K and 770K. The luminescence of Cu 20 crystals is mainly caused by impurity centers. Radiation 1 is caused by copper vacan- ciee, whereas luminescence 2 and 3 are caused by oxygen vacancies. A temperature change strongly reduces the luminescence intensity of the bands in the short-wave region of the spectrum. In Fig. 2,' A, schematically Card 1/5  89235 Luminescence of semiconducting crystals .... B/048/61/025/001/001/031 B029/BO67 illustrates the ground states of defects of the type of copper vacancies. Levels A2 and A3belong to the centers of the type of oxygen vacanciesi ml and m2 are the excited states of the centers. The mechanism of excita- tion-energy transfer to impurity centers on illumination of the crystal wit'a frequencies of its bwn bands is essential for the explanation of luminescence and photoconductivity. For this purpose, the authors analyze some experimental data. Fig- 3 illustrates quantitative measurements of the absorption spectrum at liquid-air temperature, i.e., of absorption spectrum (1), excitation spectra of Cu20 luminescence for radiation 1(2), as well as for bands 2 and 30). This can be explained by two mechanisms: 1) excitation energy is transferred to impurity centers by carriers and excitons with the same efficiency. 2) Impurity centers are excited by excitons which are formed directly during light absorption or through conduction bands by interaction of carriers of opposite.sign. According to the authors, the second mechanism is more probable. In this connection, reference is made to N. A. Tolstoy's ideas. If Wit < Wi, the following Card 2/5  Luminescence of semiconductin~ crystals.....* L3/048/61/025/001/001-/631 B029/bO67 relation holds for the temperature dependence of the exciton lifetime: P+W'N'+(w +W )N- W _W ldc~ P7ej/kT .4w )C .-E2/kT_(W _W e_'3AT _(W, 1 1 2 3 2 2!? 2 3 3f 3 EiAT For the-exciton yield bf the-i-th band W.(N G e )T.holds with i 1,2,3; N. ~denotes the concentration of lattice defects per unit volume; 97 is the number of occupied levels; W are the probabilities of 3. 1 collision.betweeh excitons and vacancies; W "are the collision pr6babili-'- ties 6f an exciton with occupied-acceptors; P is the decay probability of,,,'-. _E /kT an exci-t on wi thou tcollision with a defect. Furthermore, N 0 e IE2AT E3/kT N C e N C e The conclusions drawn by the thors agred 2 2 3 au wish the experimental results obtained and help to explain some hitherto inexplicable details. The authors then describe luminescence and absorption Card 3/5  89235. Luminescence of semiconducting crystals-,..... S/048/61/025/001/001/031 (Card 4/5) B029/BO67 properties of some-other cryst'als. -4s Fig. hows the energy 'distribution in the two shortest short-wave luminescence bands of HgI The spectral 2' properties of CdS, Zns,,PbI 2 crystals are similar to those of HgI 2' According to the results obtained, the structure of the excitation spectrum cannot be fully related -to the different absorption character. This is the reproduction of a lecture read at the Ninth Conference on Luminescence L 196o. There are 5 figures, 1 tabl e, .(Crystal Phosphores), Kiyev, June 20-25, and 17 references: 12 Soviet-bloc and 5 non-Soviet-bloc., 0 i Legend to Fig. 4: Low-temperature spectra of HgI A) T 20 C, B) T -.7706, 2; curves a and'b refer-to crystals grown by the sublimation method, 6 to crystals giown from a solution. JA f M a 200 -7 7 - 7P. 50 2. q ,RiMOO A. 9coo A. fill 8b  Luminescence, of semiconducting crystals S/048/61/025/001/001/031 B029/BO67 k. 'A 7 Ira v 2001 < 460 1 2 ~ S6 80 13 t z Card, 5/5.. 7Z.  GORBANI, I.S.;_RUDIKQS.N. Optical properties of silicon carbide crystals. Fiz.tver.tela 5 no.5:1368-1372 My 163. (MIRA 16:6) 1. Kiyevskiy gosudarstvennyy universitet imeni T.G.Shevchenko. (Silicon carbide crystals-Optical properties)  mug= GORBANII I.S. [Horban'.. I.S.]; N~_Dj~O, S.N. [Rudiko, S.M.] Absorption spectra and photoluminescence of HgI2 crystals. Ukr-.fiz.zhur. 6 no.6:764-767 K-D 161. (1-9-U 16W 1. Kiyevskiy goaudarstvennyy universitet im. Shevchenko. CiMercury iodide crystals-Spectra) (Luminescence)  GORBANI, I.S. (Horban', I.S.1; GRITSENKO, Yu.I. (HrytseAo, IU.I.]; RUDIKO, S udIko, S.M.] .-N-- _LR I Optical properties of impurity centers ancfthe photoconductivity of copner oxide. Ukr. fiz. zhur. 8 no.1:96-101 Ja 163. (MIRA 16:5) 1. Kiyevskiy gosudarstvennyy universitet im. Shevchenko. (Color centers-Optical properties) (Copper oxide-Spectra), (Photoconductivity)  EWT(d)/EfiP(h)/EY1P(1) ACC NRt AP6009560 SOURCE CODE: UR/0413/66/000/005/0138/0138 AUTHOR: _-Rudin. A. D.- ORG: none TITLE: A vibration conveyer. Class 81, No. 179665 SOURCE: Izobreteniya, pro ennyye obraztsy, tovarnyye znaki, no. 5, 1966, 138 mysq TOPIC TAGS: conveying equipment, mechanical vibration, electric vibrator, magnetic circuit ABSTRACT: This Author's Certificate introduces a vibration conveyer with a working element in the foryd of a 'pipe',which is oscillated by an electromagnetic vibrator con- sisting of two armatures and a core with ac and dc windings. The effectiveness of.the conveyer operation is improved by mounting the core of the vibrator on the end of the pipe along its axis and connecting the.armatures to form a system of two magnetic cir- cuits. One of these magnetic circuits, equipped with dc windings, has a larger cross section and a greater number ofampere-turns on it's ac coils. UDC: 621.867-868 I Card 1/2   RUDIKC, V. F. "Bone FlastiC3 of the Lower Jaw." Sub 2-12 Jan Moscow Medical Stomatological Dist, Vi:aistr~ of Health RSFSR. DissertatLcns presented for science and engineering degrees in Mcscow during 10,51. SC: Sum. No. 480, 9 IaY 55-  Jkin Grafting Rapid method of formation an6 transplantation of Filatov's flap. Stoinatologiia no. 1, 1952. hopthly List of 'Inis.-i-an Accessions, Library of Congress, May 1952, Unclassified.  RUDIKO, Y.F., dotsent, Methods used in nasal plastic surgery. Stomatologiia no.6;32-33 153. (MI-RA 7: 1) 1. Iz kafedry khirurgichaskoy stomatologii (zavedayus hohiy - professor A.I.Tevdokimov) Moskovskogo meditsinskogo stomatologicheskogo instituta (direktor dotsent G.N.Beletski:e). (Nose--sarger.v) (surgery, Plastic)   RUD'KO, V.F..dotsent;KASPAROVA, N.N.,kandidat maditainskikh nauk Surgical treatment of ankylosis of the temporomandibular joint. Stomatologiia 35 no-5:24-27 S-70 '56 (MLRA 10:4) 1. Iz kafedry khirurgichookoy stomatologii (zav.-prof. A.I. Tevdokomov) Moskovskogo meditsinskogo stomatologichaskogo instituta (dir.-dotsant G.N. Beletskiy) (TEMPOROMANDIBULAR JOINT--AMLOSIS) 7:777, !71-- _7    RUDIKO, V.F., dotes' Dental care for children in certain Vest European countries; based on material fro~'the BrMs'sels conference of a group of experts from'the World Health Organization, February 3-7, 1958- StOmatolOglia 37 noe'4;Z5-28 JI-Ag 138 (MIRA U:9) (FOODONTIA) R- ~,TF-772~- -747~7777,-.! ITTIM-12-IM  FuJDIKO, V.?., dotsent Planned improvement in oral h3rrlene In children is the basic tauk of stomatology. Stomatologlia .5:3-9 S-0 159. (MIRA 13:3) 38 no 1. Glavnyy stonatolog Ministerstva zdravoolm-hraneniya SS.9R. (MOUTH,-AR-7 IM HYGIM) -A  gUDIKO, V.F.; SOKOLOV, M.M. (deceased); KOSTYLEVA, S.G. High speed turbine drill; preliminary report. Trudy NIIE-MAI no.5:285-287 161. (KIRA 15:8) 1. Iz Moskovskogo meditainakogo stomatologicheskogo instituta i Nauchno-issledovatellskogo instituta eksperimentallnoy khirurgi- cheskoy apparatury i instrumentov. (DENTAL INSTRU~IENTS AND APPARATUS)  BEMTSKIY; G.N. (Moskva);_I~~' Urgent problems in the development of stomatological care. Sov. zdrav. 20 no.10:28-33 161. (MIRA 14: 9) 1. Direktor Moskovskogo meditsinskogo stomatologicheskogo instituta (for Beletskiy). 2. Glavnyy stomatolog Ministerstva zdravookhraneniya SSSR (for RudIko). (STOMATOLOGY)   RUD?KO V.F., dotsent Prinoiples and methocl-of the atudy of the incidence of stomato- logioa diseases. Stomatologiia, 43 no.10-17 -Ta-F'64 (MIRA 17 IAO 1. Roskovskiy medlt6inVkiy stomatologicheskly institut. 0  USSR/F'cr--:- HorFas Q-2 Abo Jour : Ref Zhur - Biol., No 11, 1958, mo 49959 ."ift'hor : Zhc-.'cnov V.N., Rud'ko Yo.F. Inot : Odc--sc F,-r-. Title : The Sh-po~, end Ty .pas of Lungf in Horson Orig Pub : Tr. Odcfsk. -.-kh. in-tr, 1955, 7, 19-26 Abstrr.et : On the bczic of invartiE.-tionr pcrfor-,cd on 32 rdult horrev, 'hc vci-htr of the brsic left rnd ri-ht lum: ectionr rro pra~vntcd (Pry-octric coofficicnt 1.2 ). illrinly~ cttention i- drrvm to apicrl outWrowth- rnd brcnchcs (proc. epicrlir). Brced on thcir develop-cnt, the uthor dictingui-her 3 types chicfly of sy-.--Lictric,-.l rnd -:cvcrTl typc,- of c-sy.-m-etricrl lionz7. '.he ruthor ortPbliFhes r connection bctveen. those ~ypcc cnd the con,titutiorirl typcs of dry (riding) end dn-P L (trc-,isport) horrcs. Cord 1/1   MUCHNIK, V.M.; fWDIKO, Yu.S. Formation of hoarfrost on frozen drops of water in an eleotrical field. Izv. AN SSSR. Ser.geofiz. no.10:1450-1452 0 162. (MIRA 16:2) 1. Ukrainskiy nauchno-Issledovatel'skiy gidrometeorologicheskiy institut. (Frost)  ~i a C-: -r. 78 -787 13  987-891). [In Rumian]. or ing the atechanica!= ies of ainter ere critically dism aLad found to We iable resultiL The reasons for this considered And & now testing procedure in described for w1 Jac. the following advantages are claimed; reaults am mom ob ee tive; the U4 and aigr~ operations aft fully mechanized-, the test duration is decreased (10 min) and- conditions, aral improved. The test Is baead on a shaker and requires 0.0-40 kg of sinter (lump aim *> 100 ram). 'A sol6ction of results is presented, Including soma oo-afirmlog the benetle(al affect of FoO an mechanical propertles-a. jL  W/137-57-10-18604 SO Translation from: Referativnyyzhurnal,Metalltirgiya, 1957,Nr 10, p 19 (USSR) AUTHOR- Rudkov, TITLE- xperiences in the Operation of the Sintering Mill at the im. Dzerzhinskiy Plant (Opyt raboty aglomeratsionnoy fabriki zavoda!im. Dzerzhinskogo) PERIODICAL: Tr.Nauchh. -tekhn. o-va chernoy metallurgii, 1956, Vol 8, pp 206-212 ABSTRACT, The sintering plant produces 2 types of sinter: Bessemer (B) containing P < 0. 025% and Mn < 0. 5%, and open-hearth (0), with 3-4~ 5% Mn. A portion of the ore usually goes to the sintering machine without blending. Ore in the 12-0 mesh fraction is sint- ered after screening. A large number of proportioning tables at the receiving bins makes it possible to blend the ore at the sintering machine to a single class so that fluctuation of Fe therein is :1:11/6- A description is provided of the sintering -process flow, and it is shown that the quality of the sinter is determined by holding to an optimum flowsheet for the given mix. The average hourly output in 1953 of the belts (with a sintering area of 50 m2) was 74. 1 t for B Card 1/1 and 67.5t forO. F.K.  130-58-4-3/20 AUTHOR: Rudkav_,~_ TITIE: Sinter Production by the Gas Sintering Method (Proizvodstvo 0 - aglomerata metodom gazovoy aglomeratsii) PERIODICAL.- Metallurg, 1958, Nr 41 PP 3 - 5 (USSR). ABSTRACT. The author describes a sinte-ring method in which the Mix, -.containing less carbon than normall is charged onto the strand and ignited in the normal way. Immediately after . leaving the ignition hood, the top of the bed is quenched to a Short depth with water sprays and a inixture of blast-furnace ga.-:3 and air is sucked through the bed. The mixture is applied through a series of hoods but does not ignite until it reaches the hot layer, ignition in the first hood not taking place be--ause of the previous quenching. A sintering machine at ' V _(imeni Dzerzhinskiy Works) zavod has he imeni Merzhinskogo been converted to the new method (Figure 1),, being fitted with eleven hoods covering 44 m of.the grate area and has produced 1 200 tons of sinter in test runs. The mix contained 57.'VWo ore With 59-4-Wo Fe and 11.71% SiOps 6.5(ylo flue dust with 40.26P/lo Fe and 12.85% Siio~,, 6.5(Ylo limestone with 2.8% Si02-j 27.40 returns and 2.12% coke breeze; the average carbon.and moisture contents Card 1/2  "Inter Production by the Gas Sintering Method 130-58-4-3/20 of the mix were 1.6 - 2.5 and 5 - 5.5%, respectively. Bed height was 185 - 200 mm and the suctiS~n (1 000 mm water gauge) was provided by a fan:ated at 3 500 m'/min. Air and gas pressures were 300 mm,,ater gauge, the gas:air ratio being 1:1'.15. An insintered top layer 7 - 15 mm deep was produced, which the author considers could be avoided by an ignition temperature higher than the 1 000 OC used. The sinter produced was more reducible but a little weaker than normal. The rates of I. production-achieved (45 tons/hour average, 60 best) could. be improved, the author considers, by better design of hoods so as to avoid the ignition of the mixture in them which . occasionally occurred during the test and by greater experie- nce. Except for fuel, the costs of the new and conventional processes are about.equal, so that the saving of about half the solid fuel consumption must be set against the increased gas consumption for individual values of solid:gas fuel.cost ratios. There are 2 figures and 1 table. ASSOCIATION: imeni Dzerzhinskogo zavod (imeni Dzerzhinskiy Works) Card 2/2  AUTHOR: -Ru(Jk Vr-A-.K-.- SOV/130-58-12-4/21 TITLE: Method for a Rapid Replacement of the Fan Rotor of a 50 m2 Sintering Machine (Metqd skorostnoy zameny rotora eksgaustera aglomashiny 50 md) PERIODICAL: Metallurg, 1958, Nr 12, pp 10 - 11 (USSR) ABSTRACT: The sinter strands at the sinter plant of the works Im. Dzerzhinskogo (im. Dzerzhinskiy) . are proviaed with centrifugal, typo, D-3500-13 fans rated at 3500 m-5/min. under inlet conditions (1000,mm suction) 1500C temp.) at 1500 rpm. For rapid replacement of the rotor special tackle (Fig 1) has been developed which enables the operation to be carried out in under 4-5 hours by eleven men with one supervisor. The author gives the order in which the.operations are carried out and illustrates (Fig 2) the removal of the upper fan main. There are 2 figures.. ASSOCIATION: Zavod im. Dzej?zhin5k,, (Works imeni Dzerzhinskiy) Card 1/1  59-3--2/32 AUTEORS: OrP,6hkj_n', G.G., Plotkin, IJ.Z. an4 Rudko,,, A-K,___. TITLE: G~-,nt-j'_xrao-.a3 Calcining c-f Limestone for Adding to Sinter M4-cas (Nepreryvn,7y obzhig izvestnyaka dlya aglomeratsionnoy shikhty) PERIODICAL- Stal'. 7.959, lir 3. pp 19? - 203 (USSR) ABSTRACT: In 195?, the authors de-Teloped at the Dzerzhinskiy Works a scheme for the calcination of limestone directly on the sinter plant by installing a "round calcining machine" OPR (first letters of the authors~ names) in the mix preparation section. The design of the machine is shown in Figure 1. The machine consists of a rotating wind box in the form of a cut-off cone, with the diameter of the large base -,arrying the sintering grate from 4 - 8 m. a correSponding working surface area from 0 to 40 The 4gnition of 'he mi for calcining con- M. j _x -,istina of crushed limestone 0-10 mm (oversize of crushed lime aZter screening-off -3 mm taction for adding to s.inter mixes), crushed coke breeze (aboicit 10016) and moisture (3-4%) , _Ls done by a row of burners made from tubes 20 mm in diametep with flattened outlets (4-5 mm) fired with coke- Cardl/4 4 S cven Eas. The calcined lime transferred to a feeding  SOV/1331-59--3-2/32 Continucus Caloln-ing of LJmiestone for Adding tc Sinter Mixes table from which it is added to the sinter mix. In order that hot lime (with a +_ ture of the individual pieces of Ur tc 1 200 -, 1 0 not f all- directly onto the r_=tTaYO-,:2 belt, the diameter cf the feeding table was inc..-reased to 3 m and fitted wilth two spirals and two knives. The _-.rs-1- knife transfers Limestone cnto the conveyor ,aar::-y.ing the s2nteT mix while the second knife transfers the hot lime on top of the limestone layer. In order to prevent -the formation of dust at the dis;~harge of the a i_'-, -ned lime apprcx1mate-1,-Y 3 ILL of the calcination m chine a the dust is sucked into s en~~'_-,sed int,,) a --asing so that . w '-he layer. Similarly, the place of discharge cntr- the r_~onveyor was cased and the casing connected to the exhaust tube. The dus-.'- f,:~xmed during --alcining is trapped in a dust catcher (bag) from which it is passed lo the feedin.- table carrying calcined limestone. The pogition of the calcin-;ng ma.:~hiae in the mix preparation department _Js shown in F--'L-,.:re 2.. The influence of suction on the cal-Aning process was in7iestigated on a laboratory- ,.a-e apparatus and the results obtained are given in Card2/4 Figu::-e 4. Similar machines with a working area of  -2/32 Continuous CalcinJnE. ol" Limes-cone for Adding to 2 10 and 15 m are being designed for other sinter plants. An improved design of the machine with upward suction is ;ihowa in Figure q. It is planned that a! the Makeyevsk Works the calcined lime will be discharged directly into the mixing drum and at the "Krivorozhstall" (Krivoy Rog) and "Zaporozhstal"' Works directly onto the conveyor belt already carrying the remaining components of the sinter M4X. On the basis of prolonged experience in the operation of the calcining machine the follcwing conclusions are drawn: a) it is advantageous to calcine limestone of the size 0-10 mm, (not larger than 15 am) from oversize after screening -3 mm fraction for the addition to the sinter mix in the raw state; b) the limestone mix ehould contain 8-10016 of carbon and "--4% of moisture; the size distribution of fue-l should be the same as for sintering; c) it is advantageous to carry out the calcining process up to ~0-80%- :)f de--arbonisation; d) the ignition of the mix can be done with .3oke-oven gas with a consumption of not less than 40 k:,al/ton of the charge; e) for mixing the charge before calcining a worm mixer should be used; charging onto the grate is done with a swinging spout; f) the through- Card3/4 pu-"- of the machine of 4 m diameter and 200 mm HOO suction  SOV/133-59-3-2/32 Coatinucus Ca'olaing of Limestone for Adding to 6inter is up to 150 t/day and can be consideiably increased by 3 increasing the capacity of the fan from 30 000 to 40 000 m 1h and au~.,-tion of up to 500 MM H 0- as the calcined lime 0 2 7 is added hcit (1500 -- r)50 C) its influence on the -intensifi- .;at---r;zi of the sJntering process is higher tha-n that of cold lime4 h) on '-,-he introduction. of the calcination. of lime- 4-r-to, the sintering system, th-- output of sinter ini-reased by &% (bX. 10% if ccmpared with the operation without cal--ined limeA" in addition .the dust content of the lime hand-ling pia~,es considerably de-:~reased; i) the cost 0 - cf the machine of 10 m2 workin- surface area is about 0 1.50 000 rcubles and is recovered in a few months of operation. There are f igures and Soviet --ef erences. ASSOCIATIONS: Za-.rod 4m. Dzerzh4nskogo (im. Dzerzhinskly Works) and Dnep.r--'dzer2;hinsk1y vesherniy meta-llurgi,:~heskiy institut Metallurgical Institute) Card 4/4  AUTHOR: Rudkov,.J..K,_,, Engineer SGV/133-P9-3--5/32 TITIE: Operation of Battery Cyclones at Sinter Plants (K-es.pluatat s iya batareynykh tsi&nov aglomashin) PERIODICAL: Stall,, 1959, Nr 3, pp 209 -- 210 (USSR) ABSTRACT: At the sinter plant of the Dzerzhinskiy Works each sinter st-rand (50 m2 surface area) is fitted with an exhaust 3 fpin D--,A.5O0--l3 of a capacity of 3 500 M at a suction of 000 mm H 0 aiid a temperature of the waste gases of 2 lco 0C. In order to Drevent a rapid wear of the fan rotor, I.Vle operat-ion of various types of cyclones was investi- gatecl. The general lay-out of the exhaust system is shown in Figure 1 and the designs of the tested elements of the .."one Jn Figure 2. It was found that the des* y, ign g c (F.-'L.gure 2) was most suitable, as the rotor operated for a perLed of over 3 years during which 2.2 mil. tons of sinter was produced. There are 3 figures. ASSOCIATION: Zavod im. Dzerzhinskogo (im. Dzerzhinskiy Works) Card 1/1  28.1000,18-5000 75571 SOV/130-59-10-3/20 AUTHOR.: Rudl(L)V, A. K. (Chief of Sinter Plant) TITLE Automat.leDust Withdrawal from the Dustcatching Bag;3. of Gas Mains and Multicyclones PERIODICAL: Metallurg, 1959,.~, Nr 10, pp 6-7 (USSR) ABSTRACT: The special feature of the new design (see Fig. (1), attached) 1~; dust acting ds an automatic vacuum gate. The dust in supplied by a pendulum feeder driyen by an electric motor. Experimental automatic vacuum gates Introduced at zavod Imeni Dzerzhinskogo(Plant imenJ. Dzerzhlnskly) produce satisfactory results. Advantages: (1) elimination of dust escape fvom gas main and nul- ticyclone; (2) increase in productivity of sinter machine,-,(3) decrease in exhauster power con8LIM0f,10'.1; (4) reduction in servicing personnel; (5) cut cost of repairs; (6) improved working conditions. Thdre is 1 figure. Card 1/3   Automatic Dast Withdrawal from the Dusltcatchlnt~,- 75571 .Bags of' Gas Mains and Multlcyclones sov/.130-5,-1-10-3/20 FIg.l. Automatic vacuum r, gate: (1) top pipe; (2) bottcm. pipe; (3) top manometer; (11) bottom manometer; (5) pend- ulum feeder R, S, T - A. C. phases; RN - coil and relay terminals of bottom pipe;-,P.V'- coil and relay terminals of top pipe; TR - transformer,; D - electric motor; n and KII - blocking terminals of feeder with exhauoter and dust vemoval tvanoporter; PM - coil and termInals of magnetic Jtarter.  ,4'ork prectlAces at ,h-~ 11c.2 Sintering departztent of the Dnepro- dzerzhinsk Plant. Stall 21. no.12i,1064-1069 D 164. (MIRA l8s2) I. Met-allurgi-,hesk-ly zavrid Im. T,'zerzh'Lnskogo i Dneprodzerzhinsk-ly metallurgi-.hps~'y zavod--vtu7, im. MMI. Arsenicheva.  KoPUNIN, -uaj4l,~.r of ra. ia-F 165.  YEFIMENKO, G.G., inzh.; VOYTANIK, S.T., inzh.; YEFIMOV, S.P., inzh.; MACHKOVSKIY, A.I., inzh.; RUDKOV A.K., inzh.; RUDKOVSKIY,.G.I., inzh.; Prinimali. uchastiye: IKCiE~~17f'.rr.-,-~--GO'rOVTSEV, A.A., VASIL'YEV, G.S.; ZE14,YANOT, A.A.; KUKUSHKIN, S.N.; MATYNA, M.G.; LOVCHANOVSKIY, V.A.; KRAMNIK, T.A.; NFCffFSOVA, U.I.; MARTYNENKO, V.A.; KURAKSIN, D.I.; LETYAGIN, N.L. Intensifying the sintering process by the use of a special charge wetting device. Stall 23 no.12:1061-1064 D 163. (MIRA 17:2) 1. Dnepropetrovskiy metallurgicheskiy institut, zavod im. Dzerzhinskogo i Yuzhnyy gornoobogatitellnyy kombinat. 2. Dnepropetrovskiy metallurgi- cheskiy institut (for Kovalev, Gotovtsev, VRSillyev,, Zemlyanoy, Kukushkin). 3. Zarod im. Dzerzhinskogo (for Matyna, Lovchanskiy, Kraj~nlk, Nechesova). 4. Yuzhnyy a,ornoobagatitellnyy kombinat (for ILqrtynenko, Kuraksin, Let- yagin).  iOV G  RUDKOV., G.V.; BELYAYEV, A.G. Our method for reconditioning the jacket of 9753 diesel engine cylinders. Elek. i tepl.tiaga 7 no.11:17 N 163. (MIRA 17:2) 1. Zamestitell nachallnika Kustovogo proyektno-tekhnol6gl'cheskogo otdela po remontu,i ekspluatatsli teplovozov Pri zavode im. Illicha, Zhdanov (for Rudkov). 2. Starshiy inzh. Kiistovogo otdela po remontu i ekspliuatati;ii tt!plovozov nri zavode im. Illicha, Zhdanov (for Belyayev).   RUDKOV, G.V,; LUKASHEVICH, V.P. Use of diesel locowtives with hydraulic drive in industrial enterprises. ZheldQr.transD.44 no.3:75-76 mx 62. (MIRA 15:3) 1. Nachallnik reklamatsionnogo byuro zavoda, im. F.E.Dzerhinskogo, g.Murom (for Rudkov). 2. Zamestitell nachallnika mekhanosborochnogo tsekha zavoda im. F.E.Dzerzhinskogo, g. Wiroin (for Lukashevich). (Diesel locomotives--ilydraulic drive)(Railroads,Industrial)  RUDKOV, G.V. How to improve the performance of heating boilers of TG1,11 diesel locomotives. Elek.i tepl. tiaga 5 no.10:39 0 161. (MIRA 14:10) 1. Nachallnik reklq-tsionogo byuro zavoda im. F.E.Dzerzhinskego, (Diesel locomotives) (Boilers)  RUDKOV, G.V. Recommendations on the maintenance.of t~e diesel engine of TGT-21 diesel 10cor-J'Aives. F'Iek.i tepl.tiaga 6- no.1 'ja 6Z. OMIRA 15:1) 1. Nachal'nik reklamatsionnogo )~-riro Murumikof,o 7.avoda Im. P. E. Dzerzhinskogo,, (Diesel engines-Maintenance and repair)  am ?LAVOYAIDV G.N.;.KRYIDV, V.I.,- OZOLINO A.K.; RUDKOV, G.T.; KHATSKKLMCHI M.1'. Replies.to the inqairies of our.readers. Elekoi:tepl*tiaga 7 no.1&43.-" 94 163~ (MIRt 16s2) 1. rxLavnyy-.tekhnolog po avtotormosam G[Lavnogo upravleniya Itko- mottmogo khozyayetva Ministerstva putey coobahcheniya (for; Mar'- Yalqv). 2. Rachallnik tormoanoy laboratorii Mookovskogo tormoznogo anvWa (for Krylov). 3. 7Amestitelt pachallnika spetsiallnogo ,o Hookovskogo *rmoanogo'zavoda (for Ozolin)e 4. Zamestitell nachallnika proyektno-tekhnologicheakogo otdsla po rem6ntu i skspluatataii teplovoza7 pri zavode im. Ilticha (for Rudkov,). (Railroads--Jignaling) (Diesel locomotives)      24426 S/079/61/031/007/008/008 D229/D305 AUTHORS: Sokolova, T.A., and Rudkovskaya, G.D. TITLE: Synthesis of N-substituted methacrylamides. VI. N-me- thyl dimethacrylamide PERIODICAL: Zhurnal obshchey khimii, v. 31, no. 7, 1961, 2224 - 2226 TEXT: N-methyl dimethacrylamide has been synthesized by two diffe- rent methods. The investigation was carried out in the absence of. any information on the compound. N-methyl dime thac rylami de (YIMU)t was pre-pared by heating N-methyl methacrylamide with methacrylic as-id anhydride (MAA), and by heating methylamine hydrochloride wi h excess methacrylic acid chloride (YAC). On heating equimolar qucn- tities of CH 314H HC! with MAC in a solvent, the main product is a monoacylated deKvative. Hitherto, the latter method has been des- cribed for obtaining only monoacrylated anines. Preparation of 1,MNIA. is the-, described. About 30 % yield of MIDMA was obtained. This was Card 1/3