SCIENTIFIC ABSTRACT MEDNIKOV, YU. A. - MEDNIKYAN, G. A.

ashener. operation of the 10-60 electric pipe-welding machine. Retallarg no.3:21-23 Nr 156. (MLRA 9:9) 1. Chelyabinskly truboprokatnyy z"od. (Electric welding) (Pipe, Steel--Welding)  V- or, rele t in the production of welded pipes. Itetallurg. no.8:23-26c L 156, (KW 9:10) 1.Zameatitell nachallnika teakha, Chelyabinakogo traboprokatnogo zavada. (Pipe, Steel-Welding) (Rolling (Yetalwork))  Deputy shop manager at the ChelyAki AUTHOR: Mednikov, Yu.A. E)3-nsk Tube Works. TITLE: Dents in welded tubes. (Vmyatiny na svarnykh trubakh.) FERIODICAL; "MetallupL" (Metallurgist) , 1957, No. 1, pp. 29 - 30, (U.S.S.R.) ABSTRACT: In this short article, various types of dent-like flaws in welded tubes, their causes and ways of avoiding them are discussed. Tests at Chelyabinsk have shown that for flaw-free tubes, the skelp edge must be quite free from mechanical dam si&ns of lamination and other defects. The cleanliness and cooling of the first two forming and welding rolls are also important factors. 4 photographs.  133-9-12/23 -AUTHOR: Mednikov, Yu.A., Engineer and Krichevskiy, Ye-31. TITLE: The Production of Electrically-welded Tubes from Cut Strip of Rimming Steel (Proizvodstvo elektrosvarnykh trub iz rezanoy lenty kipyashchey stali) PERIODIOAL: Stal', 1957, No.9, pp. 819 - 822 (USSR). ABSTRACT: The possibility of usi#g rimming steel 08wn , MC-r.1, MOT2 for the production of tubes by electrical welding of cut strip was investigated. Strip was rolled in two stages from various steels and tubes made on electro-welding mill 10-60. The foll- owing factors were studied: a) the distribution of segreg@- ations and places of lamination along the length and width of strip; b) the distribution of elements in steel and deviations Irom the chemical composition of the metal; c) the distri- bution and the de ree of non-uniformity of mechanical proper- ties of metal; d5 the frequency of appearance of laminations during contact-welding of tubes; e) the quality of welded metal; f) comparative data on the proportion of defects and consumption of metal. The distribution along the length and width of strip of segregations and deviations in the composition and mechanical properties of metal from corresponding limits are shown in Figs. 1, 2 and 3 and 4. On the basis of the results Cardl/2 obtained., it is concluded that the use of rimming steel for the  133/9-12/23 The Production of Electrically-welded Tubes from Cut Strip of Rimming Steel. production of tubes by contact-welding is possible and advan- tageous. In order to establish optimum technological data and teehnical-economical indices of the process, it is necessary to organise mass production and investigation of tubes from rimming steel. There are 4 figures and 4 references, 2 of which are Slavic, ASSOCIATION: Chelyabinsk Tube Rolling Mill (ChelyabinBkiy Truboprokatnyy Zavod) AVAILABLE: Library of Congress. Car d @/2  MMIKOT9 Tu.40.; KELIGMSKITO TO.M. Heno"I of internal burr from are'-welded pipes, Blul. ISNUMN no,'16t49-51157-i (MM USD 1. chel^biuskly truboprokatun savod (for Kednikov). 2. HaskoveklY trubW saved (for Mrichevokly)e (pipe)  MEDNIXOT, ru.A.. inzh.; KRICHEVSKIY. Te.M. RanufM@6i'pipes by electric welding of cut strips of rimmed steel. Stall 17 no.9:819-822 S '57.' (MIRA 10:10) l.Chelyabinakiy truboprokatuyy zavod. (Pipe, Steel--Welding)  111't- 3/ @ , 4, , 'P /'. x AUTHOR: Mednikov, Yu.A. 130-1-15/17 TITLE: -5-e-tting Continuous Tube-welding Mills (Nastroyka nepreryvn,ykh trubosvarochnykh stanov) PERIODICAL: Metallurg, 1958, No.11 pp. 32 - 34, (USSR) ABSTRACT: After briefly outlining some of the ways of setting the rolls of continuous tube rolling mills, the author discusses in more detail the relative positions of the first and second passes. He conclubs that the first and second passes should be so arranged that the mass-centres of the arcs of section of the skelp in them are on a single axis. He gives equations for calculating the appropriate displacement of the centres of the passes. He goes on to consider the placing of the side air jets, giving empirical equations for this, listing three common types of misplacing and mentioning ways of minimising the effect of these. The setting of the jet between the forming and welding passes he considers for skelp less than 150 mm wide and greater than this width, giving a formula for the latter case. Finally, the author deals with the cooling and cleaning systems. There are 2 figures. ASSOCIATION: Chelyabinsk Tube-rolling Works (Chelyabinskiy truboprokatng zavod) AVAILABLE: Library of ongress Card 1/1  AUTHORS: Mednikov, Yu.A. and Strizhak, G.K. 130-58--5-12/16 TITLE: '@-VMat@rosta=tic @'.taod of Painting and Oiling TLcbes (Blektrcstaticheskiy sposob pokraski i smazki trub) PERIODICAL: Metallurg, 1958, Nr 5, pp 30 - 34 (USSR). ABSTRACT: The authors outline the method of painting in which electrostatic charges are given to paint particles in a field such that they settle on the work and describe experiments made to determine the possibilities of this method for various sizes of tube. 325 x 10. 377 x 10. 426 x - lo.465 x 15 mm Pilger tubes were aoated with bitumen and asphalt, two types of lacquer and tar. 83 x 4. 89 x 4.102 x 4 mm tubes made on an automatic installation were coated with urea-formaldehyde enamels, type UE-15 and DE-20 and phthalic-base enamels type FSKh-15 and FO-16. 1/2, 3/4, 1, 1 1/4, 1 1/2, 2, 2 112 and 3-inch diameter continuously welded (from hot-rolled skelp) gas tubes and 12 x 1.59 22 x 1-5, 33 X 1.75, 40 x 1.75 and 51 x 1.5 mm eletatrically welded (from pickled and hot-rolled skelp) tubes were tarred and ooated with coloured enamels. The installation used (Figures 1 and 2) was comparatively small and the tests included only sections of large-diameter tubes. In some tests, tubes were pre-heated, in otheistube surfaces were prepared by Card 112  Electrostatic Method of Painting and Oiling Tubes 130-58-5-12/16 treatment with 10% caustic-soda solution and washing with hot water sprays. The coatings were tested for continuity, resistance to corrosion and adhesion2and were found satis- factory, about ?4 g of coating per m of surface being required. The coating conditions are tabu]Aed for various materials and solvents (Tables 1, 2, 3) and the authors discuss these and point out that the failure of the coating to deposit on inner surfaces can be utilised advantageously for parts with internal threads. There are 2 figures and three tables. ASSOCIATION: Chelyabinskiy truboprokatnyy zavod (Chelybinsk Card 2/2 Tube-rolling Works)  AUTHOR: Kg-rinikov, Yu. A. SOV/130-58-11-12/16 TITLE: Conversion of 10- U_T1r1=to Tube Welding with Higher- Frequency Currents (Perevod stana 10-60 na svarlm t:-ab tokami povyshennoy chastoty) PERIODICAL: Metallurg, 1958, Nr 11, PP 38 -39 (USSR) ABSTRACT: The author states that at tube-welding speeds of over 25-30 m/minute with a 50 cycles/second current the seam quality deteriorates. The 10-60 mills are designed for this frequency but otherwise their welding speeds could easily be increased to 40 m/min. Two variaiits of con- version to frequencies of 150 and 100 cycles/second have been tested at the - Chelysbindkiy,. truboprok%tnyy zavad (Chelyabinsk tube-rolling works), one based on asynchronous conversion (Fig 1) and the other on synchronous (Fig 2). The latter was found to be simpler and was adopted after preliminary tests. Provision was made (Fig 3) for additio- nal cooling of the rotary transformer and gear systems were strengthened. After further tests under different welding Card 1/2 conditions with vall thicknesses 1.0-2 mm. optimal values were selected for 100 nycles/second currents (taole) with  SOV/130-58-11-12/16 Conversion of 10-60 Mill to Tube Welding with Higher-Frequency Currents welding speeds of 36-40. All tubes produced under the recommended conditions were satisfactory and the con- version increased the labour productivity by 14.2% and reduced metal consumption by 2.3%, the maximal produc- tivity per shift rising to 20090 m of tubes. Further increases in productivity are prevented by mill design and insufficient transformer capacity. There are 3 figures and 1 table ASSOCIATION: Chelyabinskly truboprokatnyy zavod (Chelyabinsk Tube Rolling Works) Card 2/2  8/032/6C/026/06/27/044 B010/BO16 AUTHORS: Mednikov,, Yu. A.9 Gung Go Ya. ....... W-QMMMM@ TITLE: The Accuracy qf Evaluating the Deformabilit of the Weld Seam of PipadMn Flattening Tests PERIODICAL: Zavodskaya laboratoriya, 1960, Vol. 26, No. 6, PP. 750-753 TEXT: The flattening test on pipe specimens is carried out according to l'Or-T-(GOST) e695-58 and 1753-53. In this connection the pipes are flattened up to about 2/3 of the original diameter. The weld seam of the pipe has to pass vertically to the compressive stress. The deformability /C-, OIL the weld Beams is judged from thq oraaks occurring on the external surface of the pipe. A possible destruction of the weld seam on the inner surface a: the pipe is not considered at all. The authors point out that the true deformability of a weld seam may be determined only after a universal evaluation of the pipe under load. Furthermore, the thickness of the pipe wall is not taken into account in GOST 1753-53. The tests performed in the present study (Table, Figs. 2-5) show that the Card 1/2  The Accuracy of Evaluating the S/032/60/026/06/27/044 Deformability of the Weld Seam of Pipes BO1O/BO16 in Flattening Tests deformation of the surface layers in pipes with equal diameter vary considerably with the thickness of the pipe wall. Therefore, the decrease of the pipe diameter caused by the load must be chosen by considering the thickness of the wall, when comparing the deformability of a weld seam. There are 5 figures, 1 table, and 1 Soviet reference. ASSOCIATION: Chelyabinaki truboprokatnyy zavod (Chelyabinsk Tube Rolling MillT Card 2/2  MEDNIKOV, Yu. A. Cand Tech Sci -- "Study of aim problems of production of t @ . --. ... - . .. - phpowsk welding pipes by ve 0.. rolling.1 Mos, 1961 (Min of Higher and Secondary Specialized Education RSFSR. Mos Order of Labor Red Banner Inst of Steel im I. V. Stalin). (KL, 4-61, 198) -4  ORLMSM., Ye.L.; MMIUKCVJP- TU.I.; KULAKOVp P.N.; SHCH&LOVANOV.. L.N. Contrast sensitivity and half-tone reproduction in picture transmitting systems. Slaktrosvias' 16 no.10:45-55 0 162. (MIRA 15:9) (Phototelography)  LAZAREV, V.P.; PARTIN, I.A.;.-VIMTKOV, Yu.P. Investigating temperature fields by the volume of melts in foundry furnaces for aluminum a2loys.TS -t% met. 36 no.11:74-79 N 163. (MIRA 17-3.)  MIKHEYEVY V.P.;_!!@P@IKO.V, YU.P. Characteristics of@the calculation of injection gas burners taking into consideration the energy of the air being sucked off. Gaz. prom. 10 no.1:33-38 165. (MJ RA 18: 1)  MIKHEYEV, V.P.; 14jLNJEOV, 71I.P.; *rt@Ljtj, ye.F. Plant testing of flat multinozzle injector gas burners. Gaz. prom. 10 no.?;lP-21 165. (MIRA 18:P)  SOV/1 37-58- 1 1-ZZ43Z Translation from: Referativnyy zhurnal. Metallurgiya, 1958, Nr 11, p 85 (USSR) AUTHORS: Mednikov, Z.G., Trofimov, R.N. T IT LE: Forging Molten Metal (Shtampovka zhidkogo metalLa) PERIODICAL: V sb. : Lit' ye povyshennoy tochnosti. Moscow- Leningrad, Mashgiz, 1958, pp 168-175 ABSTRACT: A communication is presented on an experiment in molten-metal forging (MMF) on PG-Z5 friction and hydraulic presses with side plungers and split gang dies (D). It is found that MMF is possible not only with high-Cu (LS59-1, LK-80-ZL, and BrAMts-9-2)alloy but with high-Al alloys as well. To increase D life, it is suggested that the metal be poured in a sernicongealed state. The importance of lubrication in MMF is emphasized. Natural wax is the most desirable lubricant, but graphite is recommended for brass. For production of high-dens@ty parts, the following pressures should be maintained: 600 kg/cm on hydraulic presses, 800-1000 kg/CM2 on friction presses. The labor required for D manufacture can be sharply reduced if the parts are broken down by groups and if Card 1/2 -4 rdmv4bLacks are used with changeable inserts. It is observed that  Forging Molten Metal SOV/137-58-11-22432 water cooling of D, makes it possible to refrain from the use of alloy steel (St) in producing inserts and to substitute Nr-50 St for 3Kh2V8 St. Under these condi- tions, die life is 4ZOOO to 5000 pressings. In MMF on friction presses, inserts permitting blanks with flash to be produced are used to prevent the punch from @--sticking in the die. It is shown that MMF with gang dies is profitable with as few as 100 parts per year. G. F. Card 2/2  BELOUSOV., ff. N. (Cand. Tech. Sci.) DODONOV, A. A. (Engr.) KOVVI, K. G. and NEDNIKOV, Z. G. "Casting Und r Pressure by Using a Vacuum." AU-Union Conference or Foundry Workers. end of 1957. MOSCOW. Mashinostroitell, 1958. No. 5, p. 48.  /v i Kc v PHASE I BOOK EXPLOITATION SOV/4754 Vsesoyuznoye soveshchaniye po gruppovym tekhnologicheskim protsessam v mashinostroy- enii i priborostroyenii. 1st, Leningrad, 1959 Gruppovaya tekhnologiya v mashinostroyenii i priborostroyenii (Group-Processing Methods in the Machine and Instrument Industries) Moscow, Mashgiz, 1960. 378 p. Errata slip inserted. 7,000 copies printed. Ed. (Title page): S.P. Mitrofanov, Lenin Prize Winner, Candidate of Technical Sciences; Eds.: A.S. Azarov, Candidate of Technical Sciences, N.G. Gutner, Engineer, P.V. Kamnev, Candidate of Technical Sciences, A.K. Kutay, Candidate of Technical Sciences, R.A. Reznikov, Engineer, and G.N. Shalgin, Candidate of Economic Sciences; Managing Ed. for Literature on Machine-Building Tech- nology (Leningrad Department, Mashgiz): Ye.P. Naumov, Engineer; Ed. of Publish- ing House: N.Z. Simonovskiy; Tech. Ed.: O.V. Speranskaya. PURPOSE: This collection of articles is intended for technical personnel in ma- chine plantsdesigning organizationsand scientific-research institutes. It may also be useful to skilled workers. _G@@  Group-Processing (Cont.) SOV/4754 COVERAGE: The collection consists of papers presented at the 1st All-Union Conference on Group Processing in the Machine and Instrument Industries, held November 24-28, 1959 in Leningrad. The conference was called by scientific and technical societies of the machine and instrument industry, GNTK RSFSR, and Lensovnarkhoz. The articles are based on the experience of industry in introducing the grouping principle in processing. They dis- cuss basic trends in development, and group machining as the basis of mech- anized continuous production. The designing of automatic production lines, construction of accessories, and modernization and specialization of equip- ment are discussed. Problems dealing with the introduction of group-machining methods into processing on various machine tools and into production of blanks (casting, pressworking, pressing ot plastics) are considered. Plan- ning, standardization, and methods for calculating the economic effectiveness of group processing are also treated. No personalities are mentioned. There are no references. TABLE OF CONTENTS: From the Publisher 3 Ca=L44--  Group-Processing (Cont.) SOV/4754 PART I. PROCESSING IN BLANK-MAKING DEPARTMENTS Mednikov, Z.G. [Leningrad]. Application of the Group Machining Method in Die --For @ng 6f-Molt-en Metal and in Die Casting 5 Kamnev, P.V. [Leningrad]. Group Method in the Manufacture of Forgings 22 Chistoserdov, P.S, [Mogilev]. Cold Forging in Group Dies With Exchangeable Forming Parts 42 Vostrodovskiy, A.V. [Leningrad]. Group Method of Processirig Parts by Forging (From the Work Experience of the 'Vulkan" Plant) 58 Platov, A.V. [Lehingradl. Basic Principles of Introduction of Group Processing in the Production of Articles of Thermosetting Plastics 67 PART II. MECHANICAL MACHINING AND ASSEMBLY PROCESSES Bachelyuk, I.G. [Kiyevl. Introduction of the Group-Machining Method for Me- j chining Parts on Various Metal-Cutting Machine Tools (From the Experience of the Kiyev "Arsenal'OPlant) 87 --Ga3r"?  h52h6 /'_7 S/738/60/OGO/003/001/001 AUTHOR: Mednikov, Z. G. TITLE: Group method for the making of blanks by liquid-metal extrusion. SOURCE- Moscow. Tsentral'nyy institut tekhniko-ekonomicheskoy irdormatsii. Peredovoy nauchno-tekhnicheskiy i proizvodstvennyy opyt. pt. 3: Opr. vnedreniya gruppovoy obrabotki v zagotov-ltellnykh tsekhakh mashinostroitellnykh zavodov; sbornik. Moscow, 1960, 45-54. TEXT: Liquid-metal extrusion combines the advantages of casting and hot ex- trusion, with a smooth surface and good dimensional accuracy. It is fundamentally a casting process, since the processes of flow, crystallization, and shrinkage occur- ring therein are typical of casting. Yet, the problem of air entrapment and conse- quent surface porosity, typical of pressure casting, is absent in liquid-metal extru- sion. The force -and-energy history of the stroke of the punch comprises a low- energy portion during which the liquid metal is driven upward, a high-force no- displacement portion when the liquid metal has filled all available space, and a high- force compression portion, when crystallization leads to an increase in density and the pressure applied helps to eliminate gaseous and shrinkage porosity. The grouped production of liquid- me tal- e xt ruded parts can be economically advantageous. Differ- ent inserts can serve to make different parts. The various parts should be classified according to design characteristics (the metal employed is of no consequenco). The Card I / 2  Group method for the making of blanks ... S/738/60/000/003/001/001 design of dies utilizes the following steps: (1) Design of the blanks of a given group; (211 determination of the plane of separation of the die; (3) working dimensions of the die including shrinkage; (4) position of the blank during application of pressure; (5) maximal pressures required; (6) materials required for the various parts of the die. Quick ejection of the completed blanks and water-cooling of the die should be provided. Dies for use on friction presses should permit fin formation, those for use on hydraulic presses should not. Liquid- me tal- extruded products are classified into two groups: (1) Al- and Cu-alloy bodies of revolution up to 140-mm diam, up to 90 mm high, with an extrudable area of up to 140 cmZ; a cross-section of a grouped die block with replaceable die inserts is shown; (2) elongated Al- and Cu-alloy bodies up to 140 mm long, up to 40 mm high, with an extrudable area no greater than 150 cmZ; a group die block is shown in cross-section, aliso with replaceable die in- serts. A cross-sectional view of a grouped trimming the for each of the two groups is shown. Comparative cost figures (gleaned from production figures at factories in Leningrad) show the economic advantage afforded by grouped dies, even in small- batch production (two full pages of tabulated and illustrated correlations). There are 10 figures (tables are counted as figures); no references. Ed. by Candidate of Technical Sciences M. V. Vasillchikov. ASSOCIATION: None given. Card Z/Z  D V, 7, PHASE I BOOK EXPLOITATION SOV/5648 Sokolov, Aleksey Nikolayevich, ed. Mekhanizatsiya i peredovaya tekhnologiya liteynogo proizvodstva (Mechanization and Advanced Peocessing in Foundries) [Leningrad] Lenizdat, 1961.- 236 p. 2, 000 copies printed. Ed. : Ye. V. Yemellyanova; Tech. Ed. : 1. M. Tikhonova. PURPOSE: This collection of articles is intended for technical personnel, foremen, and skilled workmen of foundries. It may also be of use to staff members engaged in the mechanization of production operations. COVERACE: The collection contains articles discussing the experience of a number of Leningrad plants and engineering and design organizations in mechanizing foundry processes and in applying advanced techniques to the manufacture of castings. No personalities are mentioned. Some Card 1/5  Mechanization and Advanced (Cont. SOV15648 articles are accompanied by references. References are all Soviet. TABLE OF CONTENTS: Foreword 3 Sverdlov, V. 1. Mechanization and Automation of Foundry Processes 5 Zeleranskiy, Ya. V. . M.S. Kashanskiy, and L. Z. Tsyganko. Pneumatic Transfer at Foundries 27 Zelichenko, G. S. Automatic Line for Molding and Shakeout 52 Zelichenko, G. S. Mechanization of the Cast-Iron Foundry at the "Elektrik" Plant 63 Card 215  Mechanization and Advanced (Cont. SOV/5648 Sokolov, A. N. Mechanization of the Charging Operation in Electric-Furnace Steel Manufacture 77 Zeleranakiy, Ya. V. From Mechanization Practipes in Foundries Matveyev, V. N. Mechanization of Metal-Mold Casting 108 Dityatkovskiy, Ya. M., P. R. Kuratov, and V. N. Matveyev. Mechanized Drying of Cores by High-Frequency Currents 118 Dlugach, M. A. Making Small Steel Castings in Shell Molds 133 Kashanskiy, M.S., M.A. Kremer and S. Ye. Tysov- skaya. Rational Methods of fFla@;ej Trimming and Cleaning Steel Castings 152 Card 3/5  Mechanization and Advanced (Cont. Mednikov ,@,Q Application of the Group- Processing -ii:e- @@o@Tn ]Zking Blanks by the Die Casting and Die Forging of Molten Metal Desnitakiy. V. P. (deceased). fleat-Resistant Steel Castings in Power-Plant Constructions Kremer, M. A. Determination of Sizes and EconomiC Efficiency of Exothermic Risers for Steel Castings El'tsufln, S. A. Cast Rotor Blades for Gas-Turbine Compressors Tkachev, K. 1. Experience in Developing and Using the Slot-Type Gating System SOV/5648 160 172 188 203 219 Card 4/5  Mechanization and Advanced (Cont.) SOV/6648 Kononov, M. N. Patterns With an Epoxy-Resin Base 229 AVAILABLE: Library of Congress 08233. S55) VK/wrc/be Card 5/5 11-15-61  MONNOV Z.G. Multiple production in billet shops. Hashinostroltell no,l$32-35 Ja 164. (WRA 17t2)  VOLZHM, Aleksay Hikolayevich-, TAKOVIGH, Vjktor Andreyevich; DENISOV. lu.S., red.; (Antiradar measures) Protivoradiolokataiia. Moskva. Voen.izd-vo H-va boro.S=. 1960. 134 (MM 13:3) (RadaJ,  ACC NR. AT6036187 SOURCE CODE: UR/3116/66/277/000/0075/0083 AUTHOR: Mednikova, H. S.; Chernin, K. Ye. (Candidate of physico-mathematical s ciences ORG: none TITLE: Graphic reproduction of coordinate networks on a cathode-ray tube using a computex SOURCE: Leningrad. Arkticheskiy i antarkticheskiy 'nauchno-isaledovatel'skiy institut. Trudy, v. 277, 1966. Chislennyye metody issledovaniya gidrometeorologicheskikh usloviy v Arktike s ispol'zovaniyem elektronnykh tsifrovykh vychislitel'nykh mashin (Numerical methods of studying hydrometeorological conditions in the Arctic with the use of electronic digital computers), 75-83 TOPIC TAGS:* computer, cathode ray tube, computer application, weather chart, graphic technique, physical geography, coordinate system ABSTRACT: Two methods are described for plotting a geographic network on the screen of a cathode-ray tube, using a computer. The first method involves the calculation of Cartesian coordinates of latitudes and longitudes based on formulas for a stereo- graphic projection. The second method is based on the consideration of equations of isolines (latitud'e and longitude) described in Cartesian coordinates. The methods des,cribed can easily be extended to other types of projections. In principle, the method of plotting charts on a cathode-ray tube is similar to plotting charts with Card 1/2  ACC NRt AT6036181 mechanical printers. However, due to the high resolution of the CRT, isolines appear as a continuous line. Formulas are derived for describing latitude and longitude in both methods, and two computer program for the process are given. It is stated that the time required to plot a network using the first method is 1 min 30 sec when the p,91e falls outside the screen limit. With the pole on the screen, the time is about 11-3 min. For the second.method, the times are 30 and 42 see# respectively. A geographic network produced on a CRT cAn be used can be related in order to obtain weather charts 114 formulas dnd 4 figures. SUB CODE: 04, 09/ SUBM DATM tMe/ .:ORIG REF: as a datun to which weather data or isoline charts. Orig. art. has: [WA-N041 0041-, OM MW: 002/  ACC NRs AT6036185 AUTHOR: Borieenkovs Mednikova, E, So ORG: none SOURCE CODE1. UR/3116/66/277/000/0063/0067 Yes Pa(Candidate of physico-mathematical sciences) TITLE: The problem of the automatic decoding of synoptic reports using a computer SOURCEs Leningrado Arktiahookly I antarktiaheakly nauohno-laale- dovatellskiy institut, Trudy, v, 277, 1966. Chislennyye metody issledovaniya gidrometeorologicheskikh usloviy v Arktike s ispollzo- vaniyem elektronnykh tsifrovykh vychislitelInykh mashin (Numerical methods of studying hydrometeorological conditions in the Arctic with the.use of electronic digital computers), 63-67 00/n .00 -re'e; TOPIC TAOS:4 computer program, computer application, meteorology, synoptic meteorology, Arctic climate, computer coding / Ural 2 computer AASTRACT: some of the results are presented of projects undertaken at the Arctic and Antarctic Scientific-Research Institute involving the automatic decoding of Incoming syno;tic reports for the Northern (see discussed takes into account Hemi'sphere, The decoding program specific and frequently encountered deviations from accepted standards Card  ACC NR, AT6036185 Data input from telegraph tape into ata ithe machine operative memoyj f Tel agraph-code conversion into Ideclimal-binary code Search for beginning of mes Idecoding of station coordinaslts:: al IDecodinjq of USA reports .-Print Figi Is Conversion of machine decimal- IbInary code into telegraphic + Output of results on tele- straph tape Decoding program  ACC NR, AT0036185 in coding and compiling weather reports. Data from 1900 land-based 1-_..-and,500 shipboard weather stations were used for a synoptic analysis~ -it-was learned that the data relating to about 900 of the land-based I i- @stations were only duplicate dataattributable to reception through I_z_.--,several communications channels; this indicates poor data-transmission organization and excessive loading of the channels, Great difficulty was encountered in locating the beginning of a message, Procedures for ..-.,finding the beginning of a message are outlined and problems Involved ____.XE_.the control of IndIvIdual meteorolosLasl el*ments are 41sausaad. -The information processing rate for 100 messages is roughly as follows: input, decoding, control, and recording on the magnetic drum takes 10 min; output of the decode& and cleared information on telegraph tape takes 5 min. Using a Ural-2 computer, a-weather report can be decoded and cleared in 1.5 to 2 hr, The authors conclude that the algorithm reviewed in the article can be used as a component in the process of decoding incoming weather informations Orig, -art* has: 5 formulas and 1 figure* CWN04] SUB COEE: 049 09/ SUBM DATE: none/ CHIQMW: 004/ OWMF: 001 Card  KOROCHKIN, V.G.. inzh.; 140HIKOVA,, F.A., inzh.. Development of precast reinforced concrete production in Irkutsk Province. BetA zhel.-bet. no.8:374,-375 Ag 161. (KMA 14:8) (Irkutsk Province Precant concrete)  mmmovt" I. I. "Defects of FerrOdynamic Electric Measuring Instruments." Cand Tech Sc4 Moscow Order of Lenin eower erigineering inst im7mi V. N. Molotov, Min Higher Education USSR, Moscow, 1954. (n, No 7, Feb 55) 80: Sum. No. 631, 26 Aug 55-Survey of Scientific and Technical Dissertations Ilefended at USSR Higher Educational Institutions (14)  (c A* n 0=1 4L P. XfWA4 A. A. IL IL 0 1-0@ AL A. od W- A. 09- (c 101.1ftis""M) IL 9 1"*- 44. CILSKKN SACK% "9wK"w"bffoq ftx:txo a IL ry.." fm-- M.S-ft O.M" a IL r-". qw"" it mt rw-.@ L & r... a IL ft".WM6 T. IL IL C G.Ok es NWW*w tor commoul Vftttn at Un Okf4"UU ftaftWoels" Swl"F of wads. mmauwue .14 zxev%r%4" cqmm""%I@ fs. A. S. for- mas), X-1 &ta j@w.  VASILOYATA, Nataliva Petrovna; SEDUCH, 011ga Aleksayevne; BOYARCHEIIKOV. Mikhail Alokumdrovich; MMMIKOVA, I.I., red.; VORONIK, K.P., tekhnored, [Designing magnetic amplifiers] Proaktirovenia magnitnykh usilitelel. Koskya, Gos.energ.Azd-vo, 1959. 335 p. (MIRA 12:3) . (Magnetic amplifiers)  3/194/62/000/001/059/066 D201/1)305 AUTHORS: Vroblevskiy, A. A. and Mednikova, I. I@ TITLE: The orientation of residual induction in a tape magne- tised by a revolving field PERIODICAL: Referativnyy zhurnal, Avtomatika i radioelektronika, no. 1, 1962, abstract 1-7-213kh (Tr. Vses. n.-i. in- ta zvukozapisi, 1961, no. 8, 26-34) TEXT: The results are given of experiments on the magnetization of a sample simulating an element of the tape, by a revolving mag- netic field. Data obtained by measuring the residual induction of stacks, made of cuttings of a tape magnetized by a toroidal d.c. head are given for comparison. The results obtained make it poss- ible to visualize the orientation of the residual tape induction, when it is magnetized by a toroidal head in recordings without HF bias. /-Abstracter's note: Complete translation.-7 Card 1/1  ACC-'NR-,-XEW6i@ 75 S-OU-R'C*E'-C-,"OiiE~'.-UECfdi-7-476Trd"O W3@rA-01@6-fB6Y6 AUTHOR: Mednikova 1. 1. rITLE: tagn SOURCE: Ref. zh. Radiotekhnika i elektroavyaz', Abs. 3B404 REF SOURCE: Tr. Vaes. n.-i. in-ta magnitn. zapisi i tekhnol. radioveahch. i televid., wyp. 3(13), 1965, 3-21 roPIC TAGSt magnetic tape, magnetic recording tape, noise analyzer &BSTRACT: A general expression is derived for determining magnetic tape noise using "Preysakh" diagrams. Its individual components are analyzed. (Translation of a4stractl From author's surwary sup CODE: 14-  0 3 L p p  nq  MEDIIIIKOVA, L. 11. "Preparation of High l'olecular Substances fron Plant Wastes (Oil Cake3 and '@rist) and Their Use in the Textile anl@ Other Branches of Industry." l'in Higher Education USSR, Leningrad Textile Inst iineni S. I-'. Korov, Leningrad, 1952 (Dissertation for the Degree of Candidate of Technical 3ciences) SO: Knizhnaya Letopis', No. 32, 6 Aug 55  A,:) /@ L) /V I /< 61-, v! /@- I @-, Aj, USSR/Chemical Technology - Chemical Products and Their Application. Dyeing and Chemical Treatment of Textiles,, 1-16 Abst Journal: Referat Zhur - Xhimiya, No 19, 1956, 62855 Author: Andreyev, D. K., Mednikova, L. N. Institution: None Title: On New Raw Material for the Production of Size Original Periodical: Tr. Leningr. tekstilin. in-ta., 1955, No 6, 53-55 Abstract: For the purpose of reducing the expenditure of starch for sizing it is proposed to utilize vegetable proteins contained in considerable amounts in the seed of oi-1-yielding and leguminous crops. The cheapest raw material are cottonseed and other grist and cake frm which the adhesive agents are extracted with sodium alkalies or cal- cium hydroxide. The low solubility of the latter ensures a perma- nent slight alkalinity and lesser degradation of protein molecules. Ccmbined use of aqueous solutions of lime and chloramine increases the 5rield of extracted substances UP to 45%. The substances thus Card 1/2  ussR/chemical Technology - Chemical Products and Their Application. Dyeing and Chemical Treatment of Textiles, 1-16 *Abet Journal: Referat Zhur - Kh-Im-1ya, No 19, 1956, 62855 Abstract: obtained are readily soluble in cold and hot water and have high adhesive power. With increasing amount of lime utilized in the extraction of the oil cake the amine-nitrogen content of the extract increases. Card 2/2  BOBYKZilf B. V.; KELIMAN) V. M.; "Dispersion Properties of a Prismatic Electrostatic Beta Spectrometer." report submitted for All-Union. Conf on Nuclear Spectroscopy, Tbilisi, 14-22 Feb 64. FTI (Physico Technical Innt)   xuk@- dc- I --Of -@`Cul tug vlat  TI  HMNIKOVA, H. V. CaPA Biolcg Sci Dissertation: "Endocrinic Glands of Mosquitoes." 13/6/50 Acad tied Sci USSR SO Vecheryiya Moskva N %'>um 71  MNIKOYA. N.V. [Ionospheric disturbances in the middle latitudes] Ionosfernye vosmushchaniia v srednikh shirotakh. Koakva, Izd-vo Amd.nauk, 1957. 1 v. (MIRA 13:5) (Ionosphere)  MEDNIKOVA N V.: YAster Phys-math Sci (diss) -- "Ionospheric disturbances In - - the middle latitudes". Tomsk, 1958. 17 pp (Min Higher Educ USSP, Tomsk State U -Im V. V. Mwbyehev), 150 copies (KL, No 61 1959, 125)  NEDNIKOVA, N.V.2 kand. ftz.-Mat. nauk, otv. red. Murmansk. Moskva. (Its: MlaterialY ionooferMkh issledovanii) sept.-Oct. 1957. 196o. 57 p. flov.-Dec. 1957. 1960. 67 p. March-Apr. 1958. 1960. 77 p. SeP--Oct. 1958 -1960. 57 P. iMIEU 15: 101- 1. Akademiya naak SSSR. Institut zemnogo magnetizma,, ionosfery i rasprostraneniya radiovoln. (Ionosphere-Observations)  NEDNIKOVA., N.V.. kand. fiz.-mat. nauk, otv. red. [Materials of ionospheric research: Salekhard) 14aterialy iona- sfernykh issledovanii: Salekhard. Moskva. July-Sept., Dec. 1957. 1960. 67 p. Jan.-Apr. 1958. .1960. 69 P. May-Juna 1958. 1960. 61 P. JulY-Aug-1958. 1960. 67 p. Sept.-Oct. 1958. 1960. 59 p. (141RA 15:3) 1. Akademiya nauk SSSR. Institut zemnogo magnetizma,, ionosfm7 J rasprostranene jo ospwre  Kwxi&QYA2-.NV.,--otvo red, [Materials on lono@pberic research: luzliw-Sakbalinsk) Haterialy ionosferrqkhissladovanii: Wzbno-Sakbalinsk. Moskva. July-Sept. 1957. 1960. 59-p.''Obt,-Dee.1957. 1960. 47 p. Jan.-Apr.1958. 1960. 63 P,, May-Aug-19;8. 1960. '79 p. Sept.-Dec.195.8. 1960. 63@p. (MIRA 14:11) 1. Akademiya nauk-SSSR, Institut ze=ogo magnati=av io'noafery i ras- prostrananiya radiovoln. (Yuzhno-Sakhalinsk-lon6sphera)  MEDNIKOVA II.V. I kand. f iz.-mat. nauk, otv. red. [Materials of ionospheric research: Yalmtsk] Materialy iono- sferr7kh isoledovanii: lAkutsk. Moskva. Jan.-Apr. 1958 - 1960. 59 p. May-Aug. 1958. 1960. 75 P. (MIRA 15:3) 1. Akademiya nauk SSSR. Institut zemnogo magnetimp ionoofery i rasprostrananiya radiovoln. (Yakitsk-Ionaspbore)  FI-'DNIKOVA,, N.V., kand. fize-mate naukq otve red* (Materials of ionospheric research: Moscow (Kramnaya Pakhra)] Matoprialy ionosfeimykh iffoledovanii: Moskva (Krasnaia Pakhra). ModIft. July-Aug.1957. 1960. 78 p. Sept.-Oct. 1957. 1960. 78 p. Nov.-Dee. 1957. 1960. 67 p. Jan.-Feb. 1958. 1960. 71 P. Mar.-Apr. 1958. 1960. 76 p. May-June 1958. 1960. 7A p. July-Aug. 1958. 1960. 83 P. SePt.-Oct. 1958. 1960. 73 P- Sept.-Oct. 1958. 1960. 73 p. Nov.-Dec. 1958. 1960. ') 67 p. (MIRA 15:3 1. Akademiya nauk SSSR. Institut zemnogo magnetima,, i0fiosfery i ftsprostranenip kadiovoln. (Moodow-Ionosphere)  b=IKUVA N-V-@Otv. red. [HaterWe on ionospb6ric resegrahs Chita] Materialy ionoaferrqkh isoledovanii: Chita, Moskva. JU17 1957-Dec.1958. 1960. 85 p. (MIRA 14 t 1-1) 1. -Akademiya nduk M. Ihstitut ze=ogo magnetizma, ionosfery i rasprostrananiya radioVolm. (Chita-Ionosphero)@  red* [Materials on ionospheric research: Irkutsk) Materialy ionoafermVkh isoledovaull: Irkutsk. Moskva, JUy-Sapt.1957; Mar., June 1958. 19606 63 P. July-Aug-1958. 1960. 67 p. Sep.-Dae.1958. 19600 90 P. MU 24: 1-1) 1, Akaaemiya nauk SM. Institut zemmogo magnatima, ionosfery i ras- prostrananiya radiovoln. -(Irkutsk-Ionosphere)  .KMIKDVA, 9A., kand.fisiko-matem.nouk, otv.red.; TRCPIXOVA, L.A., red.; PCLTAKOVA, T.V., takhn.red. (Ionospheric research; collection of articles] Issledovaniia lonoafery; sbornik statei. V razdel programmy KGG (ionoafera). Moskva. 90.3. 1960. 100 p. OGRA 13:12) 1. Akademiya nauk SM. Ifezhduvedomatvennyy komitet po prove- deniyu Kszhdunarodnogo geofizichaskogo goda. (Ionospheric research)  MEDNI I TROITS.KAYAI,V. A., ALPEROVICH, L. V. and IOVA, AL V. "The Ane Strudure of Magnetic Storm in Respect of Pulsations" Report presented at the International Conference on Cosmic Rays and Earth Storm@ 4-15 Sep 61, Kyoto, Japan.  I IV- I.-Ij, 7. V. 1,MNIKOVA, V.; MULTOVA, G. A.; 7FOITJ(?,YA1, V. A.; AJ@FMI "Fine Structwe of Magnetic Storms in Respect of Aillsations," ((II-lB-3)) report submitted for "lie Intl. Conf. on Cosmic Rays and Sarth Storms (TT'PAP) Kyoto, Japan 4-15 Sept. 1961.  MWNINOVAq N.V.., otv. red. sverdlovsk. Moskva. (Its: Materjaly ionosferrqkh issledovanii) ft 1958 - Deo. 1958 1962. 1. Akademiya nauk- SS.S. Institut zemnogo magnatizmap ionosfery rasp--ostraneniya rodiovoln. (MIRA 15:12) (Sverdlovsk-Ionospheric research) 1; , -  MEDRIKOVA, V.V... otv. red. A3=a,Ata, Moskvap (Its Materialy ionosferrykh issledovanii) may-june 1958. 1962. 61 p. July-Aug. 1956., 1962 65 pa Sep.-Dec. 1958. 1962. 57 P. (MIRA @5:8; 1. Akademiya nauk SSSR. Institut, zemnogo magnoti=a, ionosfory i rasprostroneniya radiovoln. (Alma-Ata-lonosphere-Observationi;)  ?4EDNIKOVA,.H-Y,-,otv. red. Irkatak. Moskva, (Its Materialy ionoafernykh is5ledovanil) Jan.-Feb. 1959. 1962. 63 p. Mar.-Apr. 1959. 1962. 56 p. July-Aug. 1959. 1962. 67 p. Sept.-Oct.1959. 1962. 62 p. Nov.-Dee.1959. 1962. 62 p. (MIRA 16:3) 1. Akademiya n4uk SSSR. Institut zemnogo magadUzma, ionoafery i rasprostran6hAya radiovoln. (Iofiosphere-Observations)  .@MIJ @PA,,A.Yj,-otv. red. Leningrad 0 14oskva. (Its- Materialy iVkh po Jig d . issledo Sept. Oct. 1999. 19620 vr_ -1959. 1962. 59 p. (kM, 15212) l.-Akademiya nauk SSSR. Institut zemnogo magnetim@ ionosfery i rasprostraneni;Va radiovoln. (Leningrad-Ionospheric research)  MEDNIKOVAg N.V.$ otv. red. [Materials of ionospheric research: Sverdlovsk] Materialy iono- afermykh issledovanli: Sverdlovsk. Moskva. Ju17-Oct. 1957 1962. 78 p. Nov.-Dec. 1957; Jan.-Feb. 1958. 1962. 63 p. (MIRA 15:6) 1. Akademiya nauk SSSR. Institut zeirmogo magnetima, ionosfery rasprostraneniia radiovoln. (Sverdlovsk-Ionospheric research)  MEDNIKOVA. N.V., otv. red. Simferopol'. March - April 1958. 1405kva, 1962. 79 p. (MIRA 16:11) 1. ricademiya nauk SSSR. In5titut zemnogo magnetizma, iono- sfery i rasprostraneniya radiovoln. (Simferopol'--Ionospheric research)  MEDNIKOVA,. Y.Y., kand. fiz.-mat. nauk, otv. red.. Murmansk. July 1957 - Dec. 1958. MDskva, 1960. (MIM 16: U) 1. Akademiya nauk SSSR. Institut zemnogo magnetizma, ionosfery i rasprostranenlya radiovoln. (Murmansk-Ionospheric research)  MMNIKOVA, N.Vj, otv. red. Leningrad. moskvv. (Its Materialy ionosfernykh issledovanii). July-Dec. 195?. 1962. 90 p. Apr.-May 1958. 1962). 62 p. Aug.-Sep. 1958. 1962. 67 p. Apr,44ay,-June 1959. 1962. 95 P. July-Aug. 1959. 1962@ 65 P. (KMA 15 -.8) 1. Akade miya nauk SSSR. Institut zeinnogo magnetimra,, ionosfery i rasprostrananiya radiovoln. (Leningrad-Ionosphere,-.Observations)  MEDNIKOVA, N.V., otv. red. Simferopol'. Sept. - Oct. 1957. Moskva, 1962. 67 p. (MIRA 16:11) 1. Akademiya nauk SSSR. Institut zemnogo magnetizma, iono- sfery i rasprostraneniya radlovoln. (Simferopol'-Ionospheric research)  IMEDNIKOVA, N.V., otv. red. Sverdlovsk. Nov. 1957-Apr. 1958. Moskva, 1962. 1. Akademiya nauk SSSR. Institut semnogo ma aetizma, io- noafery i rasprostr4neniya radiovoln. PRA 16:11) (Sverdlovsk-Ionospheric research)  MEDNIKOVAp H.V.,.q.otv. red, Slmferopoll., Moskva. (Its Materialy ionoaferr7kh issledo- vanii). Nov.-Dec. 1957. 1962. 67 p. Jan.-Feb. 1956. 1962. 71+ p. SeP.-Oct. 1958. 1962. 73 p@ Mar-June 1958. 1962. 75 P. Nov.-Dec. 1958. 1962. 73 p. (KERA 15:8) L Akadem4a nauk SSM. Institut zemogo tagnetizma, ionostery i rasprostranen#a radlovoln., (Simfer opd3.t.~.,Iowispbom--Observatioui)  MEDNIKOVA. N.V. oty. red. Rostov. JulY 1957 - Dec. 1959- Mbskva, 1962. (MIRA 16:11) 1. kkademiya nauk SSSR. Institut zemnogo magqotizma, iono- sfery i rasprostranenlya radiovoln. (Rostov-On-Don-lonospheric researqh)  MEDNIKOVAO N.V., otv. red. el, Tomsk. July 1957 - Dec. 1959. 14oskva. 1962. . __ . I (MIRA 16:11) 4. 1. Akademiya nauk SSSR, Institut zemnogo magnetizma, iono- afery i rasprostraneniyk radiovoln. (Tomsk--Ionospheric research)  FIEDIUKOVA, N.V., otv. red. Salekhard. Moskva. November - December 1958. 1960. 57 p. (MIRA 16:12) 1. Akadeiniya nauk SSSR. Institut zemnogo magnetizma, iono- sfery i rasprostraneniya radiovoLn. (Salekhard-lonospheric research)  MEDRIKOVA, II.V. Simferopol I . Moskva. July - Aug. 1958. 1962. 82 p. (MIIU 16:12) 1. Akademiya nauk SSBR. InstAtut zemnogo magnetizma, iono- sfery i rasprostraneniya radiovoln. (Simferopol.-Ie@-nospheric research)  KEDI-11KOVA, V.V., otv. red. [Materials of ionospheric research] Materialy ionosfer- nykh issledovaniy. Alma-Ata. Moskva.:_ July 1957 - Apr. 1958. 1962. 1 (MIRA 16:12) 1. Akademiya nauk SSSR. Institut zemnogo magnetizma, iono- sfery i rasprostraneniya radiovoln. (Alma-Ata--Ionospheric research)  KIYA?ICYVSKIY, M.P.; MEDNIKOVA, N.V. _ Relation between geomagnetic and ionospheric disturbances at middle latitudes, Geomag. i aer. 3 no.4:769-771 JI-Ag -;- 163* OTMA 16:11) 1. Moskovskiy gosudarstvennyy universitet, fizia'heskiy falcu-11- tet i Institut zemnogo magnetismap ionosfery i rasprostranyniya vadiovoln ALI SSSR.  MEDNIKOVA, N.V.2 otv. red. Rostov. Moskva, Jully-Aug. 1958. 1962. 59 p. (MIRA 17:1) 1. Akademiya nauk SSSR. Institut zemnogo maqneti=ap ionosfery i rasprostraneniya radiovoln.  DROBKIU.l A*Ye,j PrInimli uchastlye: COLUBINSKAYA,, M.A.1 KRYIOVA, L.M.; MEMMOVA, V.M. Naphthalene and ammonia content of oil-shale gas. Tru4y VNIIT no.10: 91-95 161. (KWA 15:3) (Oil shales)(Naphthalene)(Ammonia)   L '4 2:- 3/ A: h -ie thea_.-prb nin e@ ie y-,Iot ret@ p der, Q@- e a -ok 1 b ii3hAi4--na ure. po ar zdtion;'An Ot ar.;@fdat r 5 of L4 e es on -ourren a: "Th -the-e e-etrat b6l_,6@itati dr i@@- ea. qre _777- 2'ASS id w Pla6t' ds -gu gena-; - -i t': 'i @ rin' a qm@ ee u;v pro . . A' 7@  KBDRIKOVS, V.A. Artificial stiumlation, Of iesin fOrmiation In fresh pine stumps. Latvijas PSR Unritnu. Akad. V;stis 149, No.10. 65-76. (HLRA 4:1) (CA 47 no.22:12836 '53)  MMIKOVS, P.A. The resin content of tapped wood, Latvijas PSR UnUnu Akad. Vistis 149, No.7, 103-10. (KTHA 4:1) (CA 47 no.22:12835 153)  FsA. cilt, 1. Ww-re= Ijb VOL'Zit,413,70 Oc=l Ml.w@,C*. Vol" 's All, I uffd*' .7A4 7- A4 extit. a b4ftety Ovid"' -a m -,It wm* ox fidum, C( -d---OAU Arim. ic had n', Yi  MEDNIKYANq G.A. . Confe rence devoted to the preparation quateran and to ite clinical application experiment. Izv.AR Arm.SSR.Khim.nauki 17 no.1:111-115 164. (KRA 17:4)  1 1 4 It 9 111 14 11-116 111 1,R 11423111milliffill" -pp INO 4#1-lot TodcdW d (1) ("I, howl andlenamet. @Wjs after-4 certab :40 9, patently shows a 06 Ystcm. 040 041' .00 8! so To Ii -t-. u 0 Al 10 Asl 0, tv it 04c K d 1190 7'80V : : 0 0 4b -1016 Ow NSA an no buxual um" ... .... using cuts, docs. 914ims pigs. mk@r. li$RQt&PTOtOPl&s"llcP`@m- tateitt-*T(W (.5 to 20 days), and OUs i h OffY e ctntm setective wkm an t R. Cohen z so zoo Zoo zoo .00 I S*o ISO* Iso too - n A a A s a d 0 0 a I w ld 0 1 Xlk 3 0 w 411M  00* ot$3: CAW4CA, A-AGOGO it . M. f a 11 u O.A.'t A_A.. O-A A 0 4 &__L_L1 0 4 A., . "Mao. t 00 Ai 0 Ir iri CWparative Ctudies of the affect of certain g&V&a1c E'V forlpiration. -C.. A. Mednikyan. J. AvIL4. -09 00 aj . II@;!S_R.) 24, --The 4 intravenous isiection Of 14-15 mg. of acctYl-'-Am1Uo-9 .00 nicotine (1), 2.8 Ing. of -aminonicotinc, 2.3 mg. of a'- 8 aminmicotine, 0.0".05 mg. of nicotine, 0.1"IN mg. 40 of anabaiine or 0.15-0.17 mg. of lobefine (U) Per k9. of body wt. gives rise to practicay equal values for the to .311 excitation of respiratka. I in this dose docs not increase the blood p"ssure and is less toxic than U. as am. to a lesser extent, the other nkvtime decivs. These derivi. can be used to restm resp"tion aittir depression with 41 W atorphine or chlorul hrdrate. S. A. Kwiala Joe MA, J! be* iA 16M4, SIVALLURGICAL LITERATIM CLASUPICATICO' C.Z_ 00 too, it Is, 0 - -4 -T - , --- 4 .9 a U I I - An L I W N Cl 4 of 49 KLO ft I M 0 0 0 0 0 0 0 0 0 0 0 0 0 11 * '*a @'Oe 0"10,6 0 0 4 * 0 0 0 0 0 0 0 0 : 0 4 0 0 0 0 * 0 0 6 0 0 0 00 01, 000 0  IEDNIKYAN , G. A. "Pharmacological Properties of the Snake Venom of Ancistrodon Bloahofii Ussuriensis. 11 Comounication," Farmokol. i Toksikol., 2, No. 6, 1939. Prof., Dept. of Medical Parasitology and Division for Experimental Pharmacology (Head: A. i. Tusnetzov) of the Dept. of Pharmacology (Head: Prof. V. 7. Savich) Leningrad Branch of the All-Union A. M. Gorky Inst. of Experimental Medicine, -1939-.  lip 0 41@ 04 @e 4 0 4 -0-:6 a I It I t t I 12 11 It I t @s- @'Wx- -00 i*. -vft@= with dodicurt thic"U4u oe 00 . A. Afedniktan, 8, No. artalot, fur Vipra 14dixd bitr , '0* - Mj1x-u1a1M1u,1y. 1n(rAvc1.;U4y, M M"Ut i b n An xir tw It-%*. The kisc is 0.6 to 4 C.jkC.; the tests %we made with mice AIM ralkits. Julian F. Smith lee lee lee &46.! Zi we b two . 21 WO IVA 1004 141,jaj -41, Mv all 41ALSIC"t %low W341M. of All 4 1 F a I ; 119 U W AV so it 1 A 5 As rA KI 04 O * 0 000 00 0 0 0 We 0 0 0 0 - - ,  too a goo Goo*** ago 0@0* wFAF0 ****44 &&tll ftf rif eff:46 401000 see 004 petcol"t Ago "efteflo kftpts 0 - a 00 . a A at ompuads ELK& -00 lives. L43Cd111'd1'tk ictivICT a' 7_(X_MSthyI_2_ IL4- I 2 '00 - -PYTFQ dyl).Z.911401 7+V-=9th7 h " OU d 3 - an ".1hadif r 0 5 P i T .00 I Paco' "o 1'4)V'd pyriluid"Otts ' I 0 - N TakID . t"ted or 10Wgneghdic utivity. 7-(N-methYl-2-9YT- t active; 7-(N- i 1 s mm ) f'olillyl)-2-1 ben Yimid"'j, ( is weaker; 1*41 0 41 2, 1 Jyjpylitni'laitga (UP anti 3.phgaylpyrituldagole 3171 the COOII dvdvo' (d it anti IV r k .00 13 e .1 still . , Showell no An4mbetic activity. 'rest, no rabut uterine logo 00 C(Wnu show I W have lo times the &aesthetic activity of 104i 0013 cocaiue@ it is gw active aft" subcutaneous injection in 9 *04 guinea pip MW in contact with the "tk nme In (fogs ll cats Clinical trials with I coa&M its antith ti & age 00- - a . e c power in the eye, Absence of effects on the corncal epi- - e d h i 4 thrlium, an trx=kr presme, and on on n ler t pupil wi I l " 11 f4delt of 1 U III and IV and a Igoe accommol . . suo . . , y '1'e. atudy of effectli " ittated to ckets" attacture. Ibid. U-8.-To white mke subcataneoutly anti Intmvenoudy so* Injected I and 11 are watewhai owe toxic than cocaine; m- III and IV am ka toxic. The toteratcd 4ose ol I Is O a . (MH mg./g.; of U. 0.01-0.013 mi./a.; of Iff, 0.25 i A V ** Wee c. ll 4 comptIs. have a de- is sO ku tox mg./I.; I Prestor eiroct CA Itimulate Mpiration, to Isolated rabbit ear the vasodilator efilect of I &ad U (in 0 1 anti goo . 0.010,10 solaj lva atout 10-14"' Adren4line inhibits a* the vascstilmor action. The P@idaxole and beame - fro 0 -- --- Age 5 L OCTAU GXAL Ut rings are mainly mpoasible for the focal-antabetic ac- h h dkd l I I I Cl Go _; t e nM nL mat y accentuates t. y p=y The Ste and COO gmups fews antithetic "vity. 1 40*09 fulian F. Smith itai fte iN, at U a 0 199 Of Met ICINjUall 1 1YA dz 0000,0010 0 49 0000 0 0 0 0 a 0 0 0 010 0 4010 000000 0 0 0 0 0 0 0 0 0 0 0 0 &.&OO0000000%..Ooaeeoooooooe-oooooo0000600000040  - R *A i a 0 0 o 0 0 0 0 a 0 0 o o 0 0 0 G ), 4 r # - v 't it ts w L6 V it I# 1@ 0 If 3, 31 9 Z 16 &F X N 'U 41 Q 41 'A 64* st A SAI Pft tf O gdf 4s G make wenacm (Aackivadea katya cace- ganue. skitwidd). Rm. 1 S i l At f S Iv e el . . 1940911 4). -The effects (it 1"%olling fly 1 .11 1cut.4firlitis inwkmg 41f the vvnj"" it( 4 st j r r I h , 4 dt'smus WO w y ite Itd(V il Simitir tO t1ut pro. .111ml fly the we"m of .4 11cionkloq b/0"ho'd ISISAdrieniii. mWolects (phyAw. And PhArlimetil rAthcr 112;4:1 t-he"J ) . . W. R. firms fee zoo goo Zoo 00 '00 'go .400 too - . v _ o p 4 4 it t #4 of it vt vpf Is ts t An t 44 ly :10 . l I @ a I- 0 j 0 i 0 0 0 *--a 0 * 0 0 0 0. * 0 0 0 a 0.0.0.* 0 0 000000 a 0 00 00 0 0 * 000 es i ;S jo 00 0 00 0 0 00 0 e 60.0 000  W011IKIAN G. A. AIM KOLDMSIk-.A-IA R. fl. 3714t Hednikian G. A._,and.Koldobqk4Ia R.'M, Changes In lysozyme activity of the saliva under the influence of pathological conditions and of materials used for prostheses Stomatologiya, Moscow 19", 4 06-50) The average concentration of salivary lysozyme under normal oral conditions in 1 : 640 and Its activity does not diminish until a dilution of I : 1280 to reached. At dilution 1 : IJ0,00n the activity totally disappears. In periodontic disease. caries etc. the activity of lysozyme diminishes and concentrations of 1 : 10 - 1! 160 are required for activity. In presence of prosthetic material (gold, steel, plastic) the same conditions as observed In the pathological cases are valid. The activity of lysozyme has no relation to pH or viscosity of saliva. Eggers Lura - Holbak SO: Excerpta Hedica Section IT Volurre ITT No. 7