SCIENTIFIC ABSTRACT BOGDANOVSKAYA-GIYENEF, I.D. - BOGDANOWICZ, J.

-1493 1. D. T vei-,-ho,,-.Yl:h bolot SSSR. Trudy Vtorof,o Vsesc~quz. P-eorr. s"Ye:~6z-, T. 1.949, S. 1Z.". s. I'd - '~2. -tolis' .--lumnalln-l-h `tntc~, 1:0. 2~, 1'.0sirva, 1CM9 0 C) : Lp ;  13OGT)A.t,O~ISK-kYA-,,",IYE!,TEF, I. D. 24864. BOMANOVSKAYA-GIYEENEF, I. Posvyashch. -1toletivK So Bibli.o,ax:S* 583. w D. Obrazovaniye bplavin. Trupy Yubileynoy Sessii, Dnya Rozhdene"a Do~,Mcliaeva. M.-L., 1949, 5 576-83- SO: Letopis' No. 33, 1949  BOGDANOVSXATA-GITINO I D i'~ '"'"w 1* ~419 , Types of formtion waters. Trudy GGI no.39:81-95 '53, (mmA 11:4) (Water, Underground)  DOGDANOTSULYA-Giniaw, x.D. ., Ad~;~f ,0400-0, 4 --:t Natural reproduction by seeds in meadow coonoses of the forest son*. UchosapeLonoua. ao*167:3-47 154. (xLRL 9:6) (Pastures and meadows) (Plants-Reproduction)  BOGDANOVSXATA-GIYIUW, I.D. Swan streamse UohosoLp.Lon.un. no.199:215-249 155. (MMA 9:7) (SWAMPS)  BOGDANOVSKAYA, R.L.; SREVELFVA, A.D.; ZIIURAVLEV, Ye.F. 2 Solubility in the system Ce(N03)- UNC H20 fit 10f 20, 3 - - and 300C. Zhur. neorg. khim. 10 no.7:17i3 1715 J1 165. (~UtA 18;8) 1. Permskiy gosudarstvennyy universitet.  ZHURAVLEV, Ys.F.; SHEVELEVA, A.D.; PDGUNO.VSKAYAO, R.L.; KUDRYASHOV, S.F.; SHCHUROV, V.A. Solubility in the ternary water salt system. containia-g. -cerium nitrate and an alkali metal nitrate. Zhur. -neorg.,khim. 8,no.8i 1955-1963 Ag 163. (MIR& 16:8) 1. Permskiy goeudarst n Univer3itet. rave 7 (Cerium nit tea (Alkali metal nitrates) (Solubility)  BOODANOVSKII D. Production and feeding chickers on the Sukth Collective Farm. p. 23. Vol. 9, no. 7, JuIY 1955 PER BUJQESINE SOCIALISTE Tirane, Albania SO: East European Accession Vol 5 Wo. 4 April 1956  '-4LODANSKI, X.A,__ The spatial distribution of ascorbic acid levels in the flesh of fruits as a function of the light transmittance of tissues. Bul Ao Pol biol 9 no.4:149-156 161. (UAI 10: 9) 1. Laboratory of Vitamin Assay, Research Institute of Pomology, Skiernievice. Present4d by I. PiJanovski. (Ascorbic acid) (Fruit) (Light) (Plant cells and tissues)  BOGDANSKI, Kazimierz; CZAJKA, Grazyna Study on the determination of ascorbigen in the presence of free ascorbic acid. Chem anal 7 no.6tll49-1152 162. 1. Department of Nutriments and Vitamin Concentrates Technology, Politechnikal, Lodz.  . - ---- m PETENIO) Mi., kand.blolog.-nauki DOODANOVSKIT, A.,, VUtZlIdnikj MISHKIN, S., otarshly na-aulinry -,otrudniR i Derivatlve3 of ltriczlno and arett In potat.) Za5bcb.rast' , ct )n,ed.1 bol. 30 no*4:27-13 165. (tra W, 19 16) 1. rjow-ollokaqa 6blm,Voiya ml opy"r-aya stantsiYas  DOLININ G.A.; STEPANYAN, A.N., voter. vrach.; r-MCHENKO, N.A.; OMFKHOIJSKjY, V.K.; LYSENKO, I.F., voter. vrach (Tiraspoll Moldavskoy SSR); SARAYKIN, prof.: POGUIYAY, V.D., voter. vrach (Romanovskiy rayon, Altay- skogo kraya); P??DANOVSKIY, A.V.; SAVUSHKINA, Ye.T., kand. veter. nauk Prophylaxis and treatmcmt of dyspepsia in calves. Veterinariia 41 no.1:72-75 Ja 164. (MIRA 17:3) 1. Glavnyy veterinarnyy vrach sela Uren', Gorlkovskoy oblasti (for Dolinin). 2. Ivanovskaya mezlirayonna a veterinarnaya labora- toriya Khersonskoy oblasti (for Stopanyan~- 3. Starshiy veterinarnyy vrach sovkhoza "Kamenskiy" Moldavskoy SSR (for Saraykin). 4. Mol- davskiy sellskokhozyaystvennyy institut (for Saraykin). 5. Glavnyy veterina-rnyy vrach sovkhoza "Berestovoy") Donetskoy oblasti (for Bogdanovskiy).  Y BOGDANOVSKI~', Ale'ksandr Evstaftvich Lenskaia doroga i ee ekonomicheskoe znachenie. joena road and its earnomic importance7. S.-Poterburgj, 1911m 296 P. NN - x/ SO. Soviet ortation and Com=nications, A Bibli Eaphy., Ubrary of Congress, - .0110 _ rtment, Washingtonp 1952p-Un lassifiede  BOGDANMSKIY, G.A.; KONONOVICII, M.G.; KHOMCHEINKO, G.P. Determination of the true surface area by the elecLrochemical measurement of methanol adsorption. 7hur. fiz. khim. 38 no.10: 2509-2511 0 164. (14IRA 18:2) 1. Moskovskiy gosudarstvennyy universitet imeni M.V. Lomonosova, Khimicheskiy fakulltet.  V> t' 43 4'0"P C' ,I C" Y,,, -q I Q. \rx . AUTHORt, Bogaanovikiy, G.A. P Shlygin, A.I. 76-11-7/35 TITLE% On the Mechanism of the Eleotrooxiaation of Alcohols and Alaebyaes on Platinum (0 mekhanizme elektrookieleniya spirtov i alldegiaov n& latine) On the Mechanism of the Electrooxiaation of Ethyl Alcohol 0L mekhanike elektrookimleniya etilovogo spirta) r PERIODICAL: Zhurnal Fizicheskoy Khimii, 1957, Vol. 31, Nr i1, pp. 2428-2434 (USSR) A13STRACT: The process of the alectrooxiaation of ethyl alool;ol on platinizea platinum in an acid medium was investigated. It is shown that the polarization curve passes through a maximum, the potential of the beginning of the current decrease depending upon the alcohol oonoen- tration and amounting, for the ocnoentrstion of 9 mo3/1 to I V. The opinion in expressed that the eleotrooxidation of ethyl alcohol &oetaldehyde an platinum develops according to an electron-mdical scheme in an acid medium. It is shown that the decrease of current# i.e. the aeorease of the total velocity of elaotrooxidation is due to a decrease of the surface concentration of ethyl alcohol at the oost of the aostaldehyde which is formed# When using platinized Cara 1/2 platinum only acetalaehyde must be obtained in the case of a high  -16-11-7/3-5 On the-Mechanism of the Eleotrooxidation of Alcohols and Aldehydes on Platinum. On the Mechanism of the Eleotrooxidation of Ethyl Alcohol concentration of ethyl alcohol in the potential zone up to + 0.65 V; in the case of a higher anode potential, acetaldehyde and acetic acid are formed sirmiltaneously; finally, with a potential value of more than 1.9 V, conditions for the production of pure acetic acid are created. It mm found that, though the adsorbed oxygen or the aurfaoe oxides of the platinum participate in the process of eleotro- oxidation of the alcohol, this is the case only in the zone of a large overvoltage. There are 5 figures and 4 Slavic references. ASSOCIATION: Moscow State University imeni X.V.Lcmonosov (Moskovskiy gosudarst- vennyy universitet im. M.V.Lomonoso") SUBMr=1 May 15, 1956 AVAILABLE: Library of Congress Cara 2/2  SOV/156-58-3-10/52 AUTHORS: Bogdanovokiy, G. A., Fooktistov, L. G., Shlygin, A. I. TITLE: The Behavior of Benzene on Platinized Platinum (0 povedenii bennola na platinirovannoy platine) W.',"'~OTAC -AL: Nauchnyye dokludy vysohcy shkoly, Khimiya i khimicheskaya tekhnologiya, 1959, Nr 3, PP. 443-446 (usn) AP.-,TRACT: The adsorption of an organic oubstance on platinized platinum can be investigated electrochemically by measuring the po- tential of the adsorbed substance on thedegassed surface of t'he electrode. The method was describel in detail by Shlygin (Ref 1). The experimental results were illustrated by dia- grams which are discussed. They show: Diagram 1; the charge curve in 0,1 n H SO 4 (1) the charge curve in 0,1 n with benzene saturateg 11 so and the charge curve in 0,1 n with benzene-saturated H61 13'). Diagram 2: the potential change in 0,1 n HASO with the introduction of benzene into the system with the digassed platinum electrode (1), with hydrogen-sa- turated electrode (2) and in 0,1 n HCl (3). Diagram 3: the Card 1/2 charge curve-in 0,1 n H Zso4 without (1) and with benzene (2).  The Behavior of Benzene on Platinized Platinum SOV./156-58-3-10/52 Diagram 4: the curve of the electroreduction of benzene in 0,1 n H2so (1) and 011 n HC1 (2). Theoretically the electro- reduction In HCI should take place more rapidly than in 119S0 , where the bond energy of the adsorbed hydrogen is IlIgAr. Thia is not the caae, however, from the experimental results it may be concluded that the abw rate of electro- reduction of ben7,eno on plittinized platinum is related to tho preoence of a double electric layer which hampers the nonetration o.~ the bon.-en- to the electrode. There are 4 j-ure. j referenceo, which are Soviet. Wedzi ~jloktrokhimii Moskovskogo gosudarst- vc.-ino '-o universitat.- im. V. Lomonosova (',nlair of E'lectrochemiatry of Moscow State University imeni M.V. Lollonoflov) SURMITTED: January 21, 1958 C ,urd 2/2  AUTHORS: -Bogdanovskiy, G. A., Shlygin, A. 1. 76-32-2-27/38 TITLE: On the Mechanism of the Electric Oxidation of Sulfur Dioxide on Platinum.I. (0 mekhanizme elektrookisleniya sernistogo gaza na platine. L) PERIODICAL: Zhurnal Fizicheskoy Khimii, 1958, Vol. 32, Hr 2v Pp. 418-421 (USSR) ABSTRACT: The electric oxidation process of sulfur dioxide on a platinum electrode in an acid medium was investigated. It is shown that as long as the electric oxidation of sulfur dioxide starts at 0,45 V it is obvious that the process does not take place over the adsorbed oxygen but according to an electronic mechanism, i. e. by means of a direct transition of the electrons of the adsorbed 50 -molecules to the electrode with a subsequent interaction of ?he forming molecular ions (apparently with water molecules) according to the following equation: SO 2 -79 + 4H20 --:.* H2SO4+ 2H3Ot. The reaction velocity is important here and ~Efilg y amounts to 0,054 in the initial stage, increasev with the increase of the anode Card 1/3 potential and reaches the value of 0,122 V. In the present  .On the Mechanism of the Electric Oxidation of Sulfur Dioxide 76-32-2-27/38 on Platinumj. case two electrons take part in the process and it can there- fore be assumed that the reaction comprises two single- -electron stages. The scheme is given according to the stages. The 2nd and 4th stage apparently depend little on the potential. But as this dependence is sufficiently clear in the experiment the limiting stage can be the 1st or the 3rd. As is known from the theory of slow ion discharge the coefficient 6E/3lg y must be equal to 0,116 if the stage of the release of the first electron is the slowest stage. As long as it was equal to 0,054 in the present investigations it can be maintained that the limiting stage of the whole process is the third stage - that of the release of the second electron from the sulfur dioxide molecule. - It is further shown that the character of the limiting electron stage is predetermined by the magnitude of the electrode potential, and that the slowest stage of the electric oxidation of sulfur dioxide is that of the release of the first electron, if the value of the electrode potential exceeds 0,6 V. It is shown that the formation of adsorbed oxygen leads to an important decrease of the surface density or the charge of a double Card 2/3 electric layer and consequently possibly to a decrease of the  On the Mechanism of the Electric Oxidation of Sulfur Dioxide 76-32-2-27/38 on Platinum. I. velocity in the actual electro-chemical stages of the electric oxidation process (which becomes evident in form of a decrease of amperage). Thera are 1 fiCure and 3 reforendes, all of which are Soviot. ASSOCIATIO17: woskovskiy goeudarstvennyy universitet im. M. V. Lomonosova (Moscow State University' imeni M. V. Icmoaosov) SU!"MITTED: December lo, 1956 1. Sulfur dioxide--Electrochemistry 2. Sulfur dioxide--Oxi-dation 3. Sulfur dioxide--Electron transitions 4. Platinum electrodes --Performance 5. Oxygen--Adsorption Card 3/3  BOGDANOVSKIY, G. A.: Master Chem Sci (diss) -- "on the mechanism of electrolytic oxidation of certain non-ionizing compounds on platinum". Moscow, 1959. 8 pp (Moscow State U im M. V. Lomonosov, Chair of Electrochem), 150 copies (IG, No 11, 1959, 115)  1 5M PLUS I BOOK EXPWITATIOM SOV12216 1z) Soveshchanlye p0 *Iobctrokhtmil. 4th, Moscow, 1956. Trudy... j I abornlkl (Transactions of the Fourth Conference on Eloc rachemletry; Collection of Articles) Moscow, lzd-vo AN SSSEr,' 1959. 868 P. Errata slip Inserted. 2,500 copies print d Sponsoring Aganc7j Akademiya nouk SSSR. Otdolonlys khImIcft*e;1'Ikh nauk. Xdltorial Boardt A.M. Frumkin (Rasp. Md. ) Academician, O.A. Y*Nln,* professor; 3.r. Zhdanov (Rasp. Secretary), S.W. Kabanov, Pro- fessor, S.I. Zhdanoy (Reap. Secretary)$ B.S. YAbanov, Professom TO X. Xclotyrkln, Doctor of Chemical Sciences% V.V. 1,25ev. F.D. Luiartmov. Profexsorj Z.A. Solov'yova; V.V. Stender, Professor; and O.M. Plarlancyleh; Ed. of Publishing Houses N.C. Y*gor-ov; Tech. Ed.; T.A. prusakova. This book Is intended for chemical and electrical tngl- IV:=" Physicists, metallurgists and romearchsre Interested in i~z ABDOcts of electrochemistry. The book contains 127 of the 1,28 rgpog.tg presented at the Fourth Conference on Electrochemistry sponsored by the Depart- went of' Chemical Sciences and the Institute of Physical Chemist r3 Academy Of Sciences, USSR. The collection pertains to dlffervrit branches Of *Iectrochemlcal kinat galvanic processes In metal elect Los, double layer theories &~d rodepoolton and Industrial elect- rO2Y9ls. Abridged discussions are given at the and of each d_,Tl- Olen. The ORJOVItY Of reports not Included here have been published In Periodical literature. No personalities are we laced. References or* glyon at the and or most of the articles. nt .Araoll-shch4kay. A.I. (20sudarstvennyY institut a?otno7 promjqhJj*nr1Z1tI - State Institute Of the Nitrogen Industry). 272 glectrothesical Reactions Of 01790n ~!rbovlch, M.A. (Deceased). and R.I. Kaganovlch (M38cO- State University). Study or the Mi-chanis. of Some Anode Processes by Combining Electrochemical and Tagged-Atom Methods 2rj Shlyglm. " O.A. Bogdanovskly (Moscow State Unlvcr54tY)- of ion of Some Compounds on Platinum 282 _j0,amMcv_V.G., N.C. Bikhchisararts'Yan. and A.?- Tomilov M skovskly kh_-mlki-t6chnolo&.lcho9XIY InDtitut Imeni D.I. Mende leye~a-Mosco- Institute or Chemical Technology I"ni D.I. Mendoleyev). Mechanism of' tno Electrolytic OxIdation of Acetone in Alkaline Solutions 2r, Khaw~tov, W. yq. (Moscow institute of Chemical Technology imeni , -V.-j '-- Mende Jolt v). Xachaniss of Some Irreversible Elect- Card 22/34 rOIytJc-OXId&t1*n Reactions 292 pomanko, A.S.. T.M. Abramova and I.L. Ganklnft (lr'Rtltut firiche "0y W-filml-An =R-Instltute of phyntcal Chemistry . NrSSR). Mocranism of the Corrosion of Iron, Zinc an5,! Lluminun With the AI'd of Heavy OxYgIn Isotopes 29~0 Discussion I A.K__QLrjXrg, A.?. Toollov, P.D. LUkOVtOOV, O.A. Tedoradve and contributing authors) 302 PART IV. ZIZ--rR=E PROCESSES I'M pt'510" 309 Y.sin, O.A. (Urallel(IT poll tekhnichesklY Institut ;-Ural Poll- - VfMille Inatitut.). Electrode Processes In ru,ed Oxides 311 plan Stornhelm. R_ prancinl, and 0, pontanelll -ti-q-1taly). 'In;oor1gat1_cn ~f Overvoltag. Phenoiw~_!W_Fui_" Salts 323 Card 23/ 34  13 /~9 0 67316 -AUTHOR: Bogdanovskiy, G. A. SOV/181-'.1 .8-21/32 n Electric Contact in an Electron Microscope TITLE: Investigation of a 'Y PERIODICAL: Fizika tverdogo tela, 1959, Vol 1, Nr 8, pp 1261 - 1285 (USSR) ABSTRACT: The author shows that under the action of fields of an order of several million v/cm the surfaces of metallic electrodes change considerably. First, the experimental apparatus is described. An electron microscope (10,000-fold magnification) with an EM-3 optics served for the measurement of the small spacings and for the observation of the electrode surface. The following section of the paper deals with the currents occurring before breakdown and with the breakdown over the vacuum gap. In a vacuum gap of the order 1 V a strong field appears already at several 100 v with currents of the order 10-13 to 10-10 a occurring. The am- perage logarithm is a linear function of the reciprocal volt- age, similarly as in the case of cold emission. This straight line shifts and changes its dlope with increasing electrode spacing. Emission is highly ~.nstable because of the surface changes. The potential difference required for inducing one and Card 1/3 the same amperage does not increase in direct proportion to the  67316 Investigation of an Electric Contact in an Electron SOV/181-1 -8-21/32 Microscope electrodes spacing. Emission is therefore assuined to proceed essentially from the tip of the electrode. The field strength at the tip attains values of 5,107 v/om. These facts prove the autoelectronic character of the currents occurring before breakdown. The next two sections deal with the formation of oxide bridges and metallic bridges. The maximum current passing through the contact is limited by successive switching in of the resistance R lim* In the case of slow variation of the dis- tance between the contacts with R lim < 100 ohms the same cha- ractoriotics as in the case of metallic bridges appear on the oscilloscope screen, The bridge is heated with increasing volt- age at the contact, and its resistance increases. By pulling the bridge under voltage apart its resistance may be increased to some dozens of ohms. When the bridge is stripped, its re- sistance increases by a jump. When the electrode spacing is in- creased to 0.01 Vp resistance changes gradually. The fusion Pard 2/3 traces on the surface of the opened electrodes are indicative  67316 Investigation of an Electric Contact in an Electron SOV/181- 1-8-21/32 Microscope of a high temperature. When currents of less than 10- 2a (R lim > 100 ohms) are passing throughpthe volt-ampere charao- teristice have the same shape as in the case of small oxide bridges, i.e., the bridge resistance decreases with increasing' voltage. The bridge resistance may gradually assume the value 6 10 ohms. This is obviously due to the improvement in conducti__e vity of the oxide inter-layer'in strong fields. Substance trans fer in the case of a low vacuum-causes growth of the dendrites on tho surface and formation-of oxide bridges. Pointed pro- trusions form on the cathodep and therefore field strength in Some Bites of the cathode may exceed the-average value by one order-of magnitude, These gradients explain the autoelectronic character of the currents before bre6.kdown. The metallic brid- ges form by growth of the protrusions on the electrode surface under the action of a strong field. The author'thanks Academi- cian A. A. Lebedev for the subject and for his valuable advice. There are 14 figures and 8 references, 3 of which are Soviet. SUBMITT.ED: July 26, 195a  C BOGDANOVSKIY, G.A.; SHLYGIN, A.I. Decomposition of hydrogen peroxide on platinum-plated platinum containing a small amount of palladium. Vest.moak.un.Ser.mat.. mekb., astron., fiz.. khIm. 14 no-1:155-163 '59. (MMA 13:8) 1. Kafedra alektrokbinti Moskovskogo universiteta. (Hydrogen peroxide) (Platinum)  A7 TIM': 4 1 1 /-~ I A . Kupr,iv10i, '1 4 -10 sner, V. R., ~Stepanov, 1. V. ,ioroSCOpC 'j,'Lt~j the TITLE: A Li,-ht-electranic High-rosolution 7,1 Utilization of .,TonooryutF.,l,l,1no Image Scrcerm- ivetoolektronnyy m1krookop r, iqpo11-4-mvmi.,re-,1 cho3'Akh ekranov vy3okogo razreshcniy,:.) PERIODICAL: Izvt,,-I.iyn Akademii nrillic -833R. 9e .riya fizicheslfayj~i, 1959, Vol. 2"), 11'r 1, pp -479-1BO (USSR) ABOTRACT: I-vur(! screens with polycrystall*no phosphoriis rire uood -nith Cloc'uranic microscopea. Thpy do not offer :i vcr%,,, high rcoolution. Monocrya tall ine iTngo scroons offor v much highor recolution nnd allow a photo-opilev.1 investi6ation of the eloctron optical magnification. Ardenne "Hof 1) made I'm- of 7,n3 monocrystals..17ith nrtificial.ly prep.--)red 7.nS ond Cdt') monocrystals one obtains a resolution of up to 11,w-t --n ticcolor,,Ainl-, voltn,ge of 20 I-v, Figuv~ 1 shoii:-t Mic schemc of an Prrangement for the monsurement of li.ght- )uti,ut and resolvinI.T. power. A net in projected o nto tbe; jcro,-:n !n- the lov.,cot mar nJficntion i!~ d6tormine%cl, nt tho net 'L~,. C i~;11 vi:;iblo. ., triblo 1,rjvu,t MOPI-1411*j.,v, i,.- FC~,-Z~  A Li '-ht-electronic lliEh-resolution Microscope ~Yith the Utilization of "Ionocrystalline lmnqL~ Screens imop,e screens. The scheme of 1i photcalectron nicroscore in shorn as an application fcr monocrys tall ine inawc :3crecn:-.. There are 2 stages: the first is a common electron microscope with a,monocrystallinc imago screen and t?,c second stage is a photo-optical microscope for the investigation of the image screen. Tht-re are 2 figureo depicting a VOO fold magnificntion. resolving po~,,.,or ountinF up to 150 There are 3 fiUnr-s, 1 tnble, ,.nj 2 Carl 2112  AUTHORS: Vert3ner, V. N.,.Ivanovi Mo Got SOV/48-23-4-12/21 Kozelkin, V. V. ,BnSdanovskiy, Go A., Vorobl yev, Yu. V. , Klyukin, V. Ye., Nikiforova, V. A. , Chent3ov, Yu. V. TITLE: The Series Electron Microscope EK-5 (Seriynyy elektronnyy mikroskorp EK-5) PERIODIOAL: Izvestiya Akaaemii nauk SSSR, Seriya fizicheskaya, 1959 Vol 23, Nr 4, Pp 485 - 489 (USSR) ABSTRACT: The electron microscope EH-5 is a high-resolution instrument (Fig-1). The principal elements are arranged vertically and the image screen exhibits high resolution. There is a camera and various adjusting facilities a-low good working conditions. in the object, the part hit by the electron beam has a diameter of.7-5,4A% The object is situated on an object slide, which is movable fr outside. The object lens and its stigmator consisting of eight coils are accurately described, as well as the intermediate and projecting lens. The diffraction mount allows electronography with penetrating and reflected beam. The camera works with plate dimensions of 4.5*6 am and 4i,5-3 an. The instrument features a special vaouum system. Aooelemtion taken place by the voltage Card 1/2 steps 40,50, and 60 kv. The.current source is stabilIzed, its  The &eries Electron Microscope IM-5 SC)V/48-23-41,-12/21 fluctuation amounting to 0,003%. The electrical supplies are discussed, The electron microscope EM-5 allows a bright and dark field illumination, stereoscopic investigations, miorodiffraction images, dark field investigations of-the diffraction reflexes, etc. On focusing, the image screen is observed through a binocular miorosoope with a 9fold magnification. The resolving power amounts to 20 f. There are 3 figures and 3 Soviet references. Card ?/2  AUTHORS: Chentsov, Yu. V., Vertoner, Ve Not SOV/48-23-4-18/21 Bogdanovskiy, Go A. ------------ TITLE: Some Constructional Improvements of an Electir-on. Microscope EM-3 (Nekotor,yye konstruktivnyye uluchsherdya elektromogo milkroskops, EM-3) PERIODICAL: Izvestiya Akademii nauk SSSR. Seriya fizzicheskaya, 1959, Vol 23, Nr 4, pp 519 - 521 (USSR) ABSTRACT: The present paper describes the experiments and results, that were conducted in order to improve the quality of the electron microscope EK-3- It was fi=t of all necessary to increase the resolution and the light output. A new electron gun was developed with an almost punctiform cathode. In oAer to render the centering of the individual microscope parts easier, a stand was designed with an internal micrometer. A special appliance was designed for the adjustment of the illumination system, Ydiich makes the adjustnent of the object lens and condenser easier. By employing a new material "Femendyur" instead of Amoo iron in thn. pole shoes the quality of the image was improved. Also the astigmatic variation of the focus upon the optical axis was strongly di-mini-shed, thus increasing the resolving power to 30 to Woft, with reflected beam Card 1/2 was made possible, and eleotronographic operations may be carried  .Some Constructional Improvements of an Electron Mioroscope ENI-3 SOV/48-2.21-4-18/21 out by removing the projecting lens. The instriment was equipped with a camera and improvements were also made in the high-voltage system. The chromatic aberration was considerably diminished. A binocular microscope of the type BR-51.-2 with 9fold magnification was installed. There are 5 figures and 2 Sovie", references. Card 2/2  5 (4) AUTHORS: Bogdanovskiyp G. A.p Shlygin, A. I. TITLE: On the Mechanism of Electro-oxidation on Platinum. II.Gn the Electro-oxidation dehyde PERIODICAL: Zhurnal fizicheskoy khimii, 1959, Vol (USSR) SOV/76-33-83- of Aloohols az.,.d Aldehydes Mechanism of &~etall- 33, Nr 8, pp 1769 - '2773 ABSTRACT: Sinoe acetaldehyde (1) is an intermediate product of ths ethanol electrolyaiag investigations of the electro-oxidation (E0) of (1) were carried out. (E0) took place in 1 n H 2s0 4; and a larger platinum-plated platinum electrode (20 cm 2) without mixing, or a revolving platinum then (0.2 em 2) was used as an ele--trodp. The inveazigatic-ii methods have already been described (Ref 1). The Polarization carves (PC) of the (I)-oxidation obtaired show that the current Intensity (and with it the rate of %/E0)) increases as the potential (P) rises. A maximum is reachea at a (P) of 1.25 v, and then the polarization cuTrent falls to a minimum. Sirv~e a discernible (E0) Of (I) starts at ae~p) of 0.6 v (i.e., there is no adsorbed. oxygen on the electrod ` it may be assuined Card 112 that the (E0) takes place according to an electron radices! meih-  On the Mechanism of Eleotro-oxidation of Alcohols SOV/76 -.3 3 -8-1 5/'j 9 and Aldehydes on Platinum. II.On the Electro--oxida- tion Mechanism of Acetaldebyle anism, The direot transfer of electrons from the (I) Wolecul, V) the electrode is ooni!tdered the fiTst stage of the (Z0) of (I). By this process pzYsitively charged ion moleriles are formed. Sinr.e the latter are unstable they react with the water mol-s- oules by splitting off from them the protons. The (EO) of (1) takes place; in princUpla, similar to the discharga of water mole-;ules. The above-mentioned current drop is attributed 'to the appearanoe of adaorbed oxygen on the ele~,,trode, since oxygen has an inhibiting effect upon the (EO) of ( 'I). The form of the (PC) of the (EO) of (1) is to a great eytent dependent upon the surface properties of the electrode, and its pralimt- nary treatment. The latter will necesear 'J* 1y also have a~zn effa-,t upon the form of (PC) in the ethanol oxidation. since (I) -;a ar .Mtermediate product there. There are 3 figures and 3 SLviet referer.^.es. ASSOCIATION: YoakovBkiy gosudarstvennyy universitet im. M. V. LomonosDva (Moscow State Uni-ersity imeni M. V, Lomonoso-) SUBMITTED: January 21, 1958 Card 2/2  _,5774, 6 00 68338 ,.5. '31? 0 0 (A ) 5 (4) 3/076/60/034/01/009/044 AUTHORS: Bogdanovskiy, G. A., Shlygin, A. I. B010/BO14 TITLE. The Mechanism of Eleotrooxidation of Alcohols and Aldehydes on Platinum. III. The Shape of Polarization Curves of the Oxidatioxi\of Ethyl Alcohol~ I PERIODICAL: Zhurnal fizicheskoy khimii, 1960, Vol 34, Nr 1, PP 57 - 62 (USSR) ABSTRACT: In the present paper considerations on the shape of polarization curves of ethyl alcohol on platinum are discussed on the basis of experimental data. Pigures i and 2 illustrate polarization curves obtained from a large platinized platinum electrode (without mixing) and a rotating platinum disk. The visible sur- face of the large electrode was 20 cm2 and that of -the disk 2 0.2 om . These curves exhibit 2 maxima one of which occurs at a potential of 0.9 v and the other at 1.25 v. These two maxima are accompanied by a considerable amperage drop. It may be assumed that various reasons account for this fact. The first depression at 0.9 v is caused by the inhibiting action of the intermediate product - of the acetaldehyde. The second depression at 1.3 ~r in Card 1/3 caused by the occurrence of oxygen adsorbed on the electrode.  68338 The Xechanism of Blectrooxidation of Alcohols and S/OT6/60/034/01/009/044 Aldehydes on Platinum. III. The Shape of Polariza- BOIO/BO14 tion Curves of the Oxidation of Ethyl Alcohol This assumption is confirmed by a number of facts. Figure 3 shows the dependence of the maximum current on the acetaldehyde content and figure 4 shows the dependence of the rate of alcohol oxidation on the latter. The experiment proves that the shape of the polarization curve is determined by the intermediate product, the aeetaldehyde. The rate of its eleotrooxidation depends on the condition of the surface. If oxidation proceeds on the respective surface with an insignificant rateg the polarization curve of ethyl alcohol obtained from this elec- LIK trode has a maximum at 0.9 v (Fig 5)- If the eleotrooxidation of acetaldehyde is not slower than that of the alcoholq the curve has a maximum at 0-3 v (Fig 6). The current depressions caused by the surface blocking by means of intermediate products may not always be observed. The most favorable conditions for determining depressions are the following: slight reactivity of the intermediate, its strong adsorbability, small volume of the solutiong large electrode, and weak concentration of the starting product. Experiments performed with a weak alcohol con- Card 2/3 centration (10-3 moles/1) on the rotating diak show but a slight  68338 The Mechanism of Electrooxidation of Alcohols and S/076/60/034/01/009/044 Aldehydes on Platinum. III. The Shape of Polariza- B01O/ '~014 tion Curves of the Oxidation of Ethyl Alcohol increase in the maximum current. In this case the first maximum could be observed already at 0.6 v (Pig 7). Figures 8 and 9 re- present further polarization curves of rotating disks. In con- olusion, it is said that in the electrooxidation of ethyl alco- hol on platinized. platinum in acid solutions three potential zones may be distinguished: 0-5 - 1 V: conversion of ethyl al-1) cohol into acetaldehydej I - 1.6 v: oxidation of acetaldehyde.1 in acetic acid. The transition into this zone is usually associ- ated with a current depression. In the range 1.6 - 1.7 v a fur- ther conversion of acetic acid occure. This generalization may not be taken as a binding rule since the limits of the above ranges may shift according to the activity of the electrode. There are 9 figures and 6 references, 5 of which are Soviet. ASSOCIATION: Xoskovskiy gosudaretvennyy universitet im. M. V. Lomonosova (Moscow state University imeni X. V. Lomonosov) SUBMITTED: January 26p 1959 Card 3/3  24 8 9 1 10 9 /6 _"." 0 0 C-,/ 0 0 8/0 11 /0'L 8 I? D207/'DA04 AUTHORS: Vertener, V.N., Nikiforova, V.G,, Bogdanovskiy, G.A,, Xozelkin, V.V., Shchetnev. Yu.F. - TITLE: Optical-elec-tron-microal-ope 3M-6 (EM-6) PERIODICAL: Radiotekhnika i elektronika, v, 6, no. 8, 1961, 1365 - 1369 TEXT: This paper was presented at the 3rd All Union Conference on electron microscopy, Leningrad.. October 1960. This is a descrip- tion of an electron miqmzscope as based on the proposal of V,N. Vertsner. 1~. Is a simple inst4'umentp L-he resoluTion of whiun iw half-way between that of an optical and an electron. microscope, and which has been called the optical (light)-electron microscope. The-production type is designated 314-6 (EM-6). It incorporates an electromagrietlc obje.-tive, which produces a magnified electron picture of the sample on a high-reaolution monocrystallic scrten, the picture being subsequently observed by an opticai microscope Card --/' .1_ 5  2489 1 S/109/61/006/008/01 1/018 Optical-electron-microel^ope D207/D304 of small marification and photographed by a came.ra, type 113enit C" (Zenit S . The source of electrons Is 'blit electron gun I (Fig. 2). The anode diapbragm is 1 mm in diameter and the oathode wire may be centered together with the modulating electrode '. with re-- specl to the anode. The focussing diaphragm 2 is directly behind the anodes The illumination system allows a narrow beam of elec- trons to reach the sample (about 100 pA) without additional lenses. The samples are introduced through the 14-ock 3. The sample in a cy- lindrical holder is placed in the gap between the magnetso the holder being fixed at each end with rubber washers. The aperture diaphragm 4 is Introduced into the gap behind the sample. The elec- tron beam after passing through the sample reaches a second lens 5, whose magnification can be varied in three steps~ The final elec- tron image is formed at a monocrystalline ecreen 6i the side on which the beam impinges is covered by a thin layer of aluminum to prevent the charge built up. The screen is only 4 mm thick because of the properties of fluoritev The'Optical microscope 7 is fixed to the instrument by a hinge to facili,tate access to the screen. Car,O -2/5  -C /o06 /0" 1 /0- 8 Optical-elec-tron-miCroacope For photographs the best f:L."Am is fluorographic f IL.Im P~--3 (RP-3) but, o-t.her films having sensitivity of 180-250 units of rOCT (GOST) e.g. type A-2, may be used. The exposure times vary fr3m 2 to 21", sec, depending on the 3ample density and overa7i magnification. which at an optical magnification of 40 can be 10,000, 5,000 or 2,000. The adjus-.ment of the instrument consists of directing the elec- trons along the optical axis of the objective by adlusting the tilt of the gun and the axial adjustment of the two diaphragms. The vacuum aystpm consists of a distributor, a small rotary pump VH-494 (VN,.-494) and a diffuslon pump 19BO (NVO-40) with air cooling. The sA.1--,cone oil and the diffusion pump is type BKW,-L)4 (VKZh-94) and does not oxidize in air when heated, The power ouppIy is from 220 V mains through a ferroresonan-t voltage siabilizer. HP, EHT BUPPlY is used. The HP oscillator a rY--50 (GU--50) tube, working at 60 Kc 'iI's at an ampIltude of 8-9 kV, ThIs vcltage is app- lied to a voltage mul.-.iplier where I-, reaches 35, kV. The optical elect-on microscope type EM-6 which is now be4n prcduced has a resolution of '450 R for photography and 80-106 ~ fo-r visual obser- Card 3/5  'A siloq,/ Optical-electron-microscope D207/D304 VE010110, WI fl) VOI-Y fA0QUrAt#I manufal--,Tuted flagnet taps the resolu- tion can be Increaeod to 60 K. It Iv st~-il,od Iii .-ninoluoton tht.Alk, tho simple conati-u!,-tion and ea5y use of 'he 'na''ruirent vii.ll it widely adoptedf obtain magnifioa-r-loi-is between those 3f the opti- cal and of the plire elec-roo micro3:ope, There are 6 flg~Ares and 3 referencess 2 Sovie4k-bloc and I non-SovIet-b1oc, SUBMITTED; February 7, 1961 Card 4/55  21-89 i 3/10 6 11/006/0 08/011/018 D207YD304 Opt-II'Leal-electron-microscopeoe- Fig. 2. Orose-section of the microscope column. NLrd 5/5 A~  VERTSNER, V.N.; VORONA, YU.Mo; VOROBIYEV, Yu*Vo; BOGDANOVSKIY G.A,; CEMSOV"Aua. Optics Of EM-5 and BM-7 electron microscopes. Izv,AN SSSR.Ser.fizo 25 no*6t680-682 je 161. (MM 14;6) (Electron microscope)  BOGDANOV6KIY, G.A.; M10W'191,1%)X0, VOliCIVIKO, G.D. Acisorptive (,apunity of noyne II-Dulin,-1-1d., twara hydrogen at different I)II valuea. 11) no.4*35-38 JI-Ag 164. (MIRA ILB%S) 1. Kafedra obsh~;bey kh'-Mil Mookovskogo universitata.  "'., I ~;'~ M of upd t C 'u, Om*,.; 1-9.8)  BOGDANOVSKIY, G.A.-; KHOMOHENKO, G.1',.,, VOVCHENKO, 6,1), Charge C'brvoa of powdered metals. Zhur. fiz, kh,,~m, 11) no.6~1408-1412 Je 165. (IMIRA 1s-.11) L MoskovBkiy gosudarstvonnyy universitet imF,.ni L,-)monosova. Submitted Feb. 22, 1964.  SH;~'MR-EVP G.I.; BOGDANOVSKIY, G.A., (,.j,. . .. - ~ - - I ~ I ... .t y Electrochemical reduction of nitrumet~un(j (in :om, metals and their mixtures. Zhuv.fL--.I:'hIm. 39 no.M1733-1738 J1 165. (W-RA 18.8) 1. Moskovskly gosudarstvennyy universitet imeni M.V.1/=.onosova.  ACC NRt AM017438 SOURCE CODEs UR/OO76/65/039/OO6/V4O8/1= AUTHOR: Bogdanovskiyj G. A.t Khomchenko, G. P.; Vovchenko, G. D. ORG: -Moscow State Univers t7 i / im. M. V. Ioomonosov (Mciskovskiy gosudarstvennyv universite7t TITLEt Charging curves of metal powders SOURCE: Zhurnal fizicheskoy khimii, v. 39, no. 6, 1965, 1408-1412 TOPIC TAGSs metal powder, rhodium, ruthenium,, hydrogon ABSTRACT: A method is proposed for plotting the charge curves !for metal powders, called the direot contact method, The values ,of the true surfaces of metal powders, calculated according to the .hydrogen region of the charge curves plotted by the direct contact .methodq are In excellent agreement with values obtained by the BET 'method. It was established thatthe amopt of electricity relluire& to elImInat6 adsorbed hydroge:p from'l cm, surfaoe of rhadjun or &t_;;eL;r1z amounts to 28 10--~' coulombs and is tho,ofiaraoteriatio value for metals of the platinum group. Orig. art. has' 7 figures. CJPRS] SUB CODE.'n SUBM DATE: 22Feb64 ORIG REF: 010 OTH REF: 002 K:,rd UDC,  BOGDANOVSKIY,, I.M,~; FESENKO, T.A.p red. [Laboratory chromatographs; a survey) Laboratornye khro- matografy; obzor. Moskvap TSintielektropromp 1963. .127 p. (MIRA 17:9) 1. Russia (1923- U.S.S.R.) Gosudarstvennyy komitet po elektrotekhnike.  5028507 SOURCE CODE: UR102861651000102 INVENTOR: Bogdanovskiy, I. M.; Zalkin, V. S. -X0 I TITLE: ,,A device for converting the electric signal of a transducer. Clags 42~ No. 1T5721 [Announced by the All-Union Scientific Research Institute for -the Complex. Automation of Oil and Gas (Vsesoyuznyv nauchno-issledovatellskiy institut kompleksnoy omatizatsii nefti i gaza)) SOURCE: Byulleten' izobreteniy i tovarnykh znakov, no. 20, 1965, 88 TOPIC TAGS: electronic amplifier, acoustic transducer ABSTRACT: An Author Certificate has been issued fbr a device.'for converting the elec- tric signal, of a transducer, i.e. , a chromatographic detector, to a pneumatic im- pulse. It contains an electronic amplifier, a transducer (see Fig. 1) and a rever- Fig. 1. Device for converting the electric Li signal of a transducer L I - Electronic amplifier; 2 reversible motor; .3-- mechanical-to-pneumatic converter; h ten- sometric bridge; 5 flexible element. UDC: 543.544.o8 Card 1/2 621.317.79  L 9563-66 ACC NRj AP5028507 eibie motor connected to a mechanical-to-pneumatic converter. To increase reliabilit: and assure the linear relationship of output pressure to transducer Signal, the electronic amplifier input contains a tensometric bridge, whose arms are connected to a flexible element which senses the output pressure to the mechanical-to-pneumatic converter. Orig. art. has: 1 figure. (WHI SUB CODE: 09 SUBM DATM 09Apr64/ ATD PRESS.,  6l049,-Z7____ 'EW(l) F-ACCNR- AA6021875 SOURCE CODE: UR/0124/66/000/003/Aoll/Aoll AUTHOR: Bogdanovakiy, L. N. TITLE: Relative motion of a material particle over a rotating surface of revolution SOURCE: Ref. zh. Mekhanika, Abs. 3A70 REP SOURCE: Uch. zap. Mosk. obl. ped. in-ta, v. 154, 1965, 176-193 .21 TOPIC TAGS: yart1cl motio , material particle, motion equation, Coulomb friction, friction, rotation, material separation, surface of revolution ABSTRACT: It is noted that in the theory and practice of mechanical separation 6f friable mixtures, the problem of the optimal configura- tion for the working surface of a separator has not been solved. Therefore, the differential equations were formulated for the relative motion of a material particle on a rough surface of revolution rotating with constant speed, the surface forming a certain angle with the ver- tical line. The differential equations were solved for the motion of  L o1949_67 ACC NRs AR6021875 a particle on a rapidly rotating cylinder with Coulomb friction, and for an inclined cylinder with resistance proportional to the velocity of motion. An analysis was made of the relative equilibrium of the material particle on the rough surfaces of a cone and a paraboloid having a vertical-rotation axis with Coulomb friction and zero initial velocity of the particle. In conclusion, some remarks are made con- cerning the value of the particle pressure on a smooth surface of revo- lution rotating around the vertical line. B. V. [Translation of abstract.] [AM] SUB CODE: 20/  S/128/60/000/012/008/014 A054/AO30 AUTHORSt Bogdanovskiy, M.N.j Repkina,,V.I. TITLE; Processes in the Meial-Mold Boundary PERIODICALt Liteynoye proizvodstvop' 1960,~No. 12, PP- 30 - 32 TEXT: When casting large-size parts of metallur ical equipment, care has 19 to be taken to prevent cindering, which is not always possible, even if the mold is coated with high-refractory niaterials.(.e.g., chrome containing iron cores, etc.). The degree of cindering depends, among 9ther things, on the composition and the temperature of the liquid metal, the coating mixture, the-degree of dry- ihg of mold:and core, etc. The most important of these factors are the pouring temperature and the interval during which high temperatures are applied, depend- ing'on the thickness of the coating. In order to study the mechanism of cinder- ing, tests were carried out with specimens of cinder formed on large castings of the Dnepropetrovsk Factory of Metallurgical Equipment. Altogether 30 samples were testedi a) 17 samples with easily removable cinder; b) 8 samples in which metal penetration was caused mechanically, and c) 5 samples from which cinder could not be removed. Microsections were made of the most characteristic samples Card 1/5  S/128/60/000/012/oo8/o14 Processes in the Metal-Mold Boundary A054/AO30 for microscopic analysis with light transmission [MUH-5 (MIN-5) type microscope], and for analysis with light refraction N04-7 (MIN-7) type microscope]. The sam- ples were also examined in unprepared condition under and MEC-1 (MBS-1) type binocular microscope. In tests group a) a 15 mm thick crust formed during the casting of a blast furnace cone was examined by petrographical analysis of the sections and by comparisons with the data of the constitutional diagram of the FeO-3'02 system (Fig. 1). The crust consisted of three layers, the first of which (at the side of the.casting) contained isolated, cracked, grey, round quartz particles and glass. Fayalite was found between the quartz particles and tridymite mainly around them; glass covered the quartz particles with a thin layer. The boundary between this layer and the side of the casting is the melted surface of the crust, while the other side of this layer passes into the second layer (Fig- 3), consisting of less cracked, round quartz particles, coated by glass and bonded by fayalite, while no tridymite was found in this layer. The third layer contained slightly changed large quartz particles, closer to each other and bonded by colorless glass. No fayalite or tridymite could be found in this layer. A similar sequence could be observed in other layers of removable cinder, only the thickness of the layers was different, varying with the thick- ness and the temperature of casting. Each layer attains its maximum temperature Card ~/5  S/128/6o/ooo/o12/oo8/o14 Processes in the Metal-Mold Boundary A054/AO30 in accordance with the distance from the casting and the duration of high-temper- ature regime. In the temperature range between 1,2050C and the casting tempera- ture of steel the sand particles melted, forming a liquid phase, mainly that of fayalite. The remaining part Of S102 particles were partly transformed into high.. temperature quartz-tridymite. During the temperature decrease from 1,2050C to 1,1780C the hard crystals of fayalite separated and formed, together with the glass, a bonding mass sometimes penetrating deep into the coating mixture and hardening it to a crust. Then the eutectic alloys tridymite + fayalite + glass and fayalite + biostite + glass separated, For the formation of fayalite and the eutectics nearly all sand particles which came into contact with the metal were absorbed. The spaces formerly occupied by sand were empty: a thin space was formod between the metal and the mold and this made the easy removal of the crust possible. Similar phenomena could be observed in the coating mixture surrounding the forming iron. In tests group b) it was found that "mechanical cinder" is caused by the liquid metal penetrating into the inter-granular spaces of the fom- ing mixture. This infiltration of the liquid metal can be caused by insufficient density of the core or of some parts of the mold, high pouring -temperature, ex-- oessive ferrostatic pressure and bad quality of coating protecting against cinder. This aspect of cinder formation does not involve products of chemical reactions Card 3/5  s/128/6o/ooo_/o12/oo8/o14 Processes In the Metal-Mold Boundary A054/AO30 between ferro-oxides and S102, the sand particles or groups of them are surround- ed by metal and due to the presence of marshalite dye stuff, the bond between the communicating metal bonds in the depth of the core sand is stronger, than in the casting and, therefore, though with difficulties, it is possible to separate the metallized part of the core from the casting. Non-removable (test group c) cin- der is formed, when all the elements forming a removable crust are present, com- bined with a metal lattice mechanioally penetrating into the separating gap and into the inter-granular channels of the forming mixture. In such cru*sts the re- maining sand particles are present in the form of extansions and they hinder the removal of the crust. As a final conclusion it can be said that the sand parti- cles on the metal-mold border remaining impede the formation of a separating lay- er and contribute to the formation of non-removable cinder. There are 8 figures. Card 4/5,  S/128/60/000/012/W/014 Processes in the Metal-Mold Boundary A054/AO30 Figure 1: Easily removable cinder. (1) temperature; 2 liquids; (:D chrys- tobalite + liquid; (D tridymite + liquid; (~) fayalite + liquid; biostite uid; tridymite + fayalite; fayalite + biostite; weight. + liq Ozoxfm 0 S fix. Tpudillfgm - 471~mum MUM- WMEM 01,14MMVC~Ml &'0 40 N fe. SIA49 _Bee Card 5/5 Figure 3: The second layer  SHCHERBAK9 G.S.: BOCDMM=p.-N.A.; GONCHAREVICH, Ye.M. Increasing the performance of percussion-cable drilling rigs. Trudy Inst. gor. dela All Kazakh. SSR 7:99-108 16:L. (NIRA 14:6) (Rock drills)  I SOMANOMly, S. D. BOGDANOVSKII, S. D. Osnovnye problerV ekonoTaJ sovetskoi nefti; s predisl. N.I. Solovl eva. (Leningrad), Neftianoa. izd-vo, 1929. 125,v 1). DLC: HD9575.R82B6 SO: LC, Soviet Geography, Part 1, 1951, Uncl.  - A .-I" WUVANUV:~IhITIS. D. BOGDANOVSKII, S.D. Neft' plane velikikh rabot. Moskva, Neftinnoe izd-,,ro, 1930. 91 P. DLC: 1ID9575.R82B6 SO: LC, Soviet Geography, Part 1. 1951, Uncl.  L 4177-66 I , A C HR. AP50211hOW"M SOURCS COM UR/0266/65/000015/0083/0083 I w fir .1. ;r* rf- INVEHM: Extultin 0. f. I zinina L"'Cl Koshelevs. 0. Tapilin. V.I.. Boynrinovs. v etk;v%. V1. , -, , ; Toy H-56-2a~' H- -. L.-P n., t M. V . B 4 v K6 K."Pl1i ovskly, r f- r jdkej~opv. a rog Kh r OMI none- S4 TITLX: at-re di~nt' nfckel-bas~ ~110Y, , Class 40. No. IYA18 [announced by rontrel ~henp-P-Mlh IN-titute Of rerrous Notallurg in. 1ardij'kT::ntr%1IAyj "I'Mr. Hatitut thernoy MeMlurgii); x-d "Zickt Tevos SMMCNI byalletan' Isobretenly I tov&Mkh znakov, no. 15, 1965, 83 MPIC TAOSs WIW, nickel alloy, cbraduA%4ontaining alloy, ~~en~4;coataining alloy, tuagL%sa-eptaining allort Ut- luffi.qontaining slloy,-vL1%Ldnum-q Uar, -Vtaiving IL carbon-awtaining alloy, beryllium oat Inifig alloy, cerium containing jMo7 - V 1.7 . . AWMM This Author Cartiricate Introducev a vftught, be el-baa* ,kWl.twt, nick alloy vith impTowd mcbmalcal properties and veldability, ) .a alloy eontains 1T to 2Q% chromium, &-129 malrbaenum, 0-6% tungsten. 2-3% titanium, 1-2% aluminum, 0.1% mi cLrio~dl 6% Inal Iran, 0.01% max sulfurs 0.015 max phoopwns, 0 1i5%. a"* ON-' an*896 0.6% an sillcoms 0.01% max %wm, and 0.02% vu cerium&--~ (AS) C=t,:,: DMI OMb6h/ 0m NW. OW1 M UPI 000/ ATD'pww-f/o~ Cwd V1 Am -.669,65-._  'ba 4:34 A Va 0 Q_s 9: X- 1.,, 5- 5, BOGDA - Inzh. - ............ tetiv,~Iei o~' the Metallurgical Sectlo% if '.-.- li~w-lre_r7 Indlistry p.t. V-, Knlomna heavy-duty machine-too] pli-tt. !:iostroitell 0 157. (MULA 10:U) (Kolomna--MachIne-t-nI:1  'AUTHORS: Bogdanovskiy, S.S., Yudkin, A,K. SOV-128-58-9-2116 TITLE: Concerning the Article of N.A. Barinov (Po povodu stftt-~ N.A. Barinova) PERIODICAL: Liteynoye proizvodstvo, 1958, Nr 9, Pp 4-6 (USSR) ABSTRACT: In "Liteynoye proizvodstvoll, 1958, Nr 4, an article on the use of low-silicon iron in casting was published by the Can- didate of Technical Sciences, N.A. Barinov. The authors of the present article are commenting on the results attained by Barinov. The value of the graphite enclosurea in blast furnace iron is not the only condition for the production of quality iron. The opinion of Barinov that the graphite separates the principal mass of the iron, contradicts the results obtained in the graphitization of cast iron. The important role of manganese is not recognized by Barinov, The influence of manganese on the mechanical properties is slight at a content of 0.75~c,, but at higher values this in- fluence increases considernbly. The transition to low- Card 1/2 silicon iron by uaing ferrosilicon can not be recommended.  Concerning the Article of N.A. Barinov SOV-128-58-9-2/16 There are 2 graphs, 1 table, 1 photo, and 12 references, 11 of which are Soviet and 1 English. 1. Iron--Casting 2. Cast Iron--Properties 3, Cast iron.-Matet,ials 4. Silicon--Metallurgical effects I Card 2/2  18(2) SOV/128-59-8-25/29 AUTHOR: Bogdanovskiy, S-S.,-Engineer ~ TITLE: ph_03_rus on the Wear Resistance of of Phos Cast Iron 2ERIODICAL: liteynoye proizvodstvo, 1959v Nr 80 pp 44 - 45 (USSR) ABSTRACT: in reference to the article of A.V. Fortugeys (litey- noye proizvodstvo, 1959, hr 2) the author states that the -=xi'muoi solubility of phosphorus in grey iron with a content of 3-5~ C is 0-3%. By lowering the C content the solubility of phosphorus can be increased beyond 0#7% and such iron can be used for producing bearings; but such iron is rather brittle and bctter alloys are being developed for this pur- pose. The author mentions that German standards for grey iron castings (GWK 4191) limit the content of phosphorus to 0.4% only and that they should be less than 0.15%. Tha author means that there is no need to increase the percenta e of phosphorus in grey f references. iron, There are 2 Sovie Card 1/1  BOODANOVSKIY, S.Sl Mechanical Ussolving of caustic soda. neuch.-IssLinst.nauch.-I tekf,.Jnforn 27 no.lIt"17-28 N 164. (lMqRA 180)  FJOCTKNOVFKIY9 5.S., Jnzb.; ORLOV2 V.I., inzh.; RDM!iNGf!VX* V'V., Ir?"', y Measuring the metal level in pouring, ladles. ]it. prwzv. no.1106-37 N 165. (Ml-'AA 18.1,2)  BTUANOVS ;.VOLKOV, A.,inzh. Life requlres.,oIzabr. i rate. no.1:34-36 Ja '59. (MIRA 12:1) 1. Nachallnik Byuro sodaystviya rataionalAzatait i isobratatell- stvu Mookovskogo zavoda imeni Vladimira Il'icha. (&aWstion systems)  BOGDANOVSKIY., V.- ,-- I.- Origimtion of a collective solution. 14TO 5 no.6:50-51 Je t63. 1. Zamestitell predsedAelya soveta nailchno-tokhnichaskikh obshchestv Moskovskogo elektrmekhaniche3kogo zavoda imeni Vladimira Illicha.  BOGDANOVSKIYY V.[Dohdanovs1kvi, VJ, arkhitelctar They brought the house from the factory. Znan. ta pratsia no.lOaIE-19 0 162. (MIRA -15:10) (Buildings, Prefabric&ted)  3PO~ S/125/62/000/007/012/012 D040/1)113 AUTHORS: Korennoy, A.I., Dogdanovskiy, V.A., and Dmitriyeffl(o, V.Ye. TITLE: Submerged-are-welding with two convergent or divergent,arcs PLRIUDICAL: Avtomaticheskaya svarka, no. 7, 1962, 96 T-XT: The Institut clektrosvarki im.:Ye.O.Patotia (Blectric Welding Institute La. Ye.O.Paton) has developed a new technology for welding structures with seams converging at an angle (Fig), such as for instance automobile rear-axle housings 0 with inserted wedges. It is difficult to machine weld such joints with one arc since the guiding of the electrode is complicated. In foreign practice, ana- logous sew-as are welded by automatic single-head welders with interruptions in the -are burning process; this lowers the output and requires complicated copying devices and control systems. A new welding technique, developed by the Electric, Welding Institute and dispensing with arc interruptions and idle runs, consists~ in welding with two arcs simultaneously. The arcs can converge in one welding pool or diverge. After welding the length A-B (see figure), 'the two electrodes,, diverge in the directions B-C and B-D without the welder stopping. Welding in Card 1/6 -~7'  Submerged-arc weldin S/125/62/000/007/012/0122 D040/D113 - the reverse direction is also possible; in this case, the arcs will then converge at the point B. The current supply may be from one or two sources. Even fusion depth in the entire weld is reached by varying the welding speed. The method is suitable for any weldments with such forked joints. There is 1 figure. 7Abstr'acterfs note: Essentially complete translatioi Card 2/#  --- BOGDANOVSKIT, Y.F., inz~. Wo#ers of the Vladimir Illich Plant prepare Congress of the CPSU, Veat. elaktroprom, 32 o 161. (Electric industry workers) for the 22d no.10:48-50 (MIMA 14: 9)  ,.KONDRATOYEV9 V.A.; DIJBROVINSKIY, V.Ya.; DOERINSKIM, A.K.; ROZENBAUMO P.S.; TAVROV, Ya.M.; BOGDANOVSXIY. VF,; GRINGAUZ, S., red,; YAKOVLEVA, Ye., tekhn. red. [Named after Vladimirnlich]Imeni Vladimira Illicha. Mo- skva, Mosk. rabochii,, 1962. 510 p. (MIRA 16:4) (Moscow-Electric machinery industry)  BOGDANOVSKIYO V.F. Flawless manufacture of articlea, Mashinostruitell no.7s7-8 JI 164, (MIRA 17s 8)  vo~Anovskly. V. 1. 6OGDANKMAlY, V. i. -- '71WACTICAL JIIYC:~TICATICIIJ OF Tior FrtrcT I 'ir A JJYD[40LYNAMC (~PATF III, 711E WHLEL Of AN AXIAL-FLOW IUIIP." Sur 3'j Jun 52, Pc,:~co~i OF LAI:(.';! Ri.0 GAUNEff HiGiicn TccimiC~.l. SCHOOL imrm BAUMAN (Dil:,SERTATIOI) FOR' THr DLC.:~rr ~~F CANLI-ATC IN Tt:cwjjCAL -SCIENCE'S) SCJ: VECIIERNAYA 1,1,0!~KVA, JANUAPY-Drcrmucn 1'15-2  BOGDANOVSKTY,__ ~Lkand.tskhn.nauk Investigating the shape of Inlet and outlet guide vanes in axial pumps. Trudy VIGN no.22:91-113 ' 58. (MIRA lial) (Pumping mchinery) 0 a  BOGDAIMVSKIT, V.I., kand.takhn.nauk - Iffect of radial. impeller clearance on the performance of &Xial pumps. Trudy VIGM no.22:114-124 1 58. (MIRA 11:11) (Pumping mobinery) .0-  , BDGlXLN6VSKI-f, V.K.; MOLLYV, A.M.; SILVORTSOV. G.G. Studying slides in open-cast workings. RazvedA okh.nedr 26 no.5:37-40 Yf 160. (MIR& 13:7) 1. Severo-Zapadnoye geolupravleniye (for Bogdanovskiy, Nikolayev). 2. Veasoyuznyy muchno-lasladovateliskiy institut g1drogeologii i inzhenernoy eologii (for Skvortsov)a IStrip mining) (IALnelides)  PLEKHOVp N.D.; LUPAN, A.M.; ABRAMOVp REZNICHENKO, V.I.; GREKOVAp Z.I.; GOLJJB, P.I.; ENERZHEYEVSKIY, Ye.V.; BELOSHKURSKIY, P.I.; PODDUBNAYA, N.A.; MIROSHNIKOVI P.P.; KORNEYEVA, L.P.; ZLOTNIKOV) G.Z.; PAVLIS, G.F.; SKACHKOV, I.A.; SEDELEVA, Ye.P.; POLTORATSKAYA, E.A., red.; LEUSHCHENKO, N.L., tekhn.red. [Three-dimensional apartment house construction] Ob"emnoe domostroenie. Kiev, Gosstroiizdat USSR, 1963. 165 p. (MIRA 17:2) 1. ~auchno-issledovatellskiy institut stroitellnykh kon- struktsiy.  L26198..66 9WP(h)/W(1) ACC NR, 518 (A/ Al AP6007 SOURCE CODE: GE/0051/66/000/002/0070/0073 AUTHOR: BogdMcLw, A. 'P. (Engineer); Tschernow. M. I. (Engineer) B ORG: none TITLE: Low-draft_Lh~ps of the Soviet inland waterways SOURCE: Schifftautechnik, no. 2, 1966, 70-73 TOPIC TAGS: inland waterway, inland waterway transportation, inland vessel datas hydrofoil, marine engineering, cargo ship, shipbuilding engineering ABSTRACT: Modifications to vessels,of t~e..Soviet river fleet, and shallow-draft ve ss'-el s in .. particular, have conir'ib'ute*d significantly to the great boom in Soviet river transportation Ouring recent years. i Soviet inland waterways :have been divided into foulAroups according to their average depth: 1) over 3.0 m; 2) 1.65-3.0 m; 3) l..0 1.65 m; 4) 0.75-1.0 m. The following is a summary of the most significant modifications which were carried out on vessels operating in shallow waters (groups 3 and 4) and on vessels -which are being~builtjn series. Cargo yessels and tankers with a load capacity of 300-600 tons, belonging to group 3, are equipped with shrouded propellers, and have a speed varying from 13 to 15 km/hr. Group 4 contains dry-cargo ve 'ssels and tankers with a load capacity of 100-150 tons and a speed between 14 and 15 krn/hr. Modifications on these vessels include the replacement of C  L 26198-M ACC NR: AP6007518 installation of . and trim the screw propellers with hydrojet propulsion units tanks on two types of vessels in this group, an increase in the dimensions :.of 100-150-ton tankers, and the , equipping of 150-ton cargo vessels with 11 3500-kg electric derricks with 15-m booms. These modifications will !make it possible to operate fully loaded vessels (carrying 150 tons) in Iwater 0.9-1.0-m deep and partially loaded vessels (carrying 100 t n tin water 0. 7-0.8 m deep._ Hydrojet-propelled 10-ton-dw refrigerator ships and 25-ton-dw dry- cargo vessels for operating in water 0. 56- and 0. 65-m deep, resliectLvdy, am iunder construction. The overall dimensions of these vessels (LxB 23.6 x 3.7 and-24.2 x 3.7-in. respectively) permit their transportation b. railroad- from one ri7er system to another. The following types of pas- senger motorships, equipped with screw propellers, are also being built ,'in series; the Moskvich (143 passengers, 0.9-m draft, 150.hp, 19 km/hr), I lithe Leningradets (100 passengers, 0. 84-m draft, 150 hp, 19 km /lir),. the Ozernyy Wskvich (242 passengers, 1.47-m draft, 2 x, 150 hp, 20 km/hr; or 165 passengers, 1.50-m dialt, 2 x 150 hp. 20 km/hr), and the MO ,.(138 passengers, 1.20-m draft, 150 hp, 20 km/hr). Three other types of vessels being built are designed to carry 22, 1 60, and 153 passengers (draft: 0.55, 0.55, and 0.68 m; speed: 16.8, 16.8,'and 18.5 km/hr, respec- tive Y); :,all are equipped with.150-hp engines and hydrojet propulsion. Car  L- 26i98-66 ACC NRt AP6007518 The modified Raketa hydrofoil now has a foil -borne' draft of 0.5 in, ti Ploating draft of 1.2 in, an 850-hp powerplant, carries 50 passengers, and develops a speed of 60 km/hr. This vessel can now operate on group-3 inland waterways. A newly developed high-speed passenger motorboat, for operating on very shallow rivers (0. 7- 1.0 m deep), has a hydroplane hull, hydrojet propulsion, a Oaft of 0.4 m,.,and develops a sp!~ed of 43 km/hr with an- -850-hp engine... Orig, art~$-hast 10" figures"and 3 t~bie_s'&' [AT'D PRESS: 422943 SUB CODE.: 13 SUBM DATE:' none ard 3/3  BOGDANOWA, Beata. (Wroclaw, u1. Traugatta 57, 111 Klin. Ch. Wevn. A.M.) Various faotors affecting the etiology & pathogenesis of acquired hyDogammaglobulinemia. Polski tygod. lek. 14 no.6:255-258 9 Feb 59. 1. (Z III Klinik-i Chorob Wewnetrznych A.M. we Wroclawiu; kierownik: prof. dr 3. Szeseklik). (AGAMMGWBULrMIA, etiol. & nathogen. hynogammaglobulinemia, nequired, in azy1oidosis, nephroBin & post-traum. shock (Pol)) (AMYIOIDOSIS, blood in bynogammaglobulinemia, etiol, (Pol)) (MHROSIS. blood in same) (SHOCK, blood in hypogammglobulinemia in post-traum. shock, etial. (Fol))  BOGDAN014IC",- LI Adam; ZEBA, Zdzislaw Share of the Prozamet Enterprise in the development of tile Polish shipbuilding industry during the years 1951-1962. Probl proj hut maszyn 11 no.3:95-101 Mr 163. 1. Prozamet, Gdansk.  BOGDANOWICZ, Adam; PROZAMET, Gdansk Modern trends in designing industrial plants. Problemy proj hut maszyn 11 no.12tJ77-384 D 163.  BOOANOWICZ9 Irena; CM4IELEWSKA9 Zofia to the problem of pure word deafness. Neurologia eto. polska 11 no.2:281-283 Hr-Ap 161. 1. Z Kliniki Chorob Nerwowyab A.M.G. Kierownik: prof. dr Z Majewaka i z Wojewodskiej Prsychodni Wrovia Paychiosnego w Toruniu Dyrektort dr mad. H. Mastalers-Wilkans. (DRUMS case reports)  ~ M MAJEWSKA, Zofia; BOGDANOWIGZ~ Irena; DILLING-OSTiOWSKA., Eva On the problem of speech disorders in children. Neurol. etc., polaka 11 no.3013-320 161. 1. Z Oddzialu Neurologii Dzieciecaj im. Janusza Korczaka w Gdansku Kierownik:,prof. dr.Z. Majewska. (SFMCH DISORDERS in Jaf & child)  MAJEWSKA, Zofia; BOGDANOWICZ, Irena; DILLING-OSTROWSKA, Ewa Contribution to the problem of absence of the corpus callosus. (Cemparison of clinical and radiological pictures in the light of eatannestic studieB). Neurol. neurochir. psychlat. pol. 13 no-4:505-508 163- 1. Z Kliniki Neurologicznej AM w Gdansku Kierownik: prof. dr Z. Majewska. (CORPUS CALLOSUM) (ABNOMAALITIES) (RADIOGRAPHY)  STELICKA, Maria; BOMANNLG4 __.,,,jpeAW-DILLING-OSTROWSKA, Ewa; SZK=YNSKA7ka~rzyna; KACZENSKA, Maria Foreed exercise of the right hand as a cause of neuroses in children. Pediat. P01. 38 no,,4:405-408 163, L Z Wojevodzkiej Przychodni Zdrowia Psychimego v Cvdansku Dyrektor: lek. mod. M. Sielicka a Poradni Zdrowia Psychiczn9go FKP v Gdansku Kierownikt dr med. S. Dybowoki i z Oddzialu Neurologii-Dzieciecoj im. Janusza Korezaka AM w Gdansku Kierowniks prof. dr med. Z. Majewska. (LATERALITY) (NEUROSES) (EXERCIXE THRRMIY)  JANKOWICZp E1eonora;.130GDANOWICZs IrOna . '.. --.1 1 1, Apropos of aphasia in the left-handed. Neurol. neurochir. psychiat. pol. 13 no.49473-478 c63. :L. Z' Mniki Chorob Nervowych IM w Gdansku Kierowni-kl., Prof. dr Z. Majewska. (APWIA) MATERALITY) (BRAIN INJURY) ACUTE)  !~DM~~l , Irena; MAZUR., Roman Television epilepsy. Polo tyg. lek., 19 no*30:1163-1166 27 J1164 1. Z.Wojewodzkiego Szpitala MSW w Gdansku (dyraktor: lek. plk. Eugeniusm Bordzilowski) a Kliniki ChoroWNerwoWoh AMG (kierow- n:Uc: prof. dr. mod. Zbfia Majeuska.) i z Przychodni Obwodowef v, Gdanska (kierownika. doe. dr. mod. W. Taubenfliegel).  Bogdanowicz j~ Z II Kliniki Pedintrycznej Un1w. Warzawakiego. 0 xminnia przapisow ;R-ajWjj~v~~-Cotyczacych Izojacji otoozenia oras dzieci chorych na ostre choroby sakains Changing sanitary regulations concerning isolAlko'ion of environment and children afficted by infectious diseases Pediatria Polska, Warsaw 1949, 23/5-6 (509-314) The following isolation periods(In parentheses the Isolation period of 1932) are proposed: Scarlet lever*) Diphtheria Whooping cough (from beginning of cough) Measles (fron disappearance of rash) Mumps (to subsiding of the swelling of salivary glands) Patients 21 days (35) 21 (21) 23 (42) 4 (14) Contacts 7 days (14) 7 4 (7) 14 0 (21) 14 9 (14) (14) (7) 0 a (21) (0) 0 8 Rubella 0 days Chicken pox 0 a (14) 0 n (21) *) If scarlet favor is treated with penicillin (120.000---300,000 per day &n& six days treatment) the isolation period could possibly be reduced to 10 clays. Author (XX, 79 4# 6) So: Medical Hicrobidogy & Hygiene Section IV, Vol. 3, No. 7-12  Dop Pq-fu 0 .1 C DOODAMICZ J. ZwdamMe obt"b sakewph astryah v sakladeab =wkd*t74 daLego0y&, &tj~j- 6f Awto Id"Um dim"ven in closed lnarUtttt4a= for ~-*7Udj7ag-j~jjat. polaka 24t8 Aug 50 ps ?00-3* 10 CUL .Vol 20p No. 2 Feb 1951  BOGDANOWICZ, J. Treatment of rheumatic fever in dhildren. Pediat.poloka 24 no.9: 786-792 Sept 50. Mn 2ot6) 1, Of the Second Pediatric Clinic of Warsaw Medical Acadavy (Di- rector-- Prof.W.Szonajch,X.D.).  BOODANOWICZ, J.; IUBINSKA, J. General considerations on the treatment of rheumatic diseases in children In sanatorla. Pediat.polska 24 no.9:793-797 SePt 50. (CLML 20s6) 1."Dzieciakawo" (Children's Home) Sanatorium of Social Insurance Is- tablishment in Jozefow.  BOGUNOWICZ, J. Therapeutic indications in whooping cough, diphteria, measles and scarlet favor. Pediat. poluka 26 no.2:210-215 Feb 1951. OWL 21:1)  'j, 7 j 4 r, -C, n F-)idcmic -Ln'ant~lc- a ra 1-0 the _!.-,a4~ Vnr;e~:r 04' 0 f t, 11 o, !~~Callsc of - m -11]~ -, of --c, 6V'fjvlllt~-cr corc~ fcs +,I' On. neiirolor~cal Man- i- ~.solf. 7-c.. follo,-.-In- c',j,rc-.es rhoul(I o~ "cinc-"r in dir,ase: 1TITI SO: