QL". 4~~- BONDARENKOJ, A.P., inzh.-gidrogeolog Problems in plamiing the drainage of durprz. Ugol I TYKr. 7 no.6: 31 Je 163, (MA 16:8)  BONDAMKO, Anatohy Porfirlyevich; AFOVINA, G.P., red.; SHAFETA, YX [Precast concrete supports) Sbornaia silikatnaia krepl. Kiev, Gos. izd-vo tekhn. lit-ry USSR, 1961. 76 p. (MIRA 15:4) (Mine timbering)  BONDARENKO) A.P., ordinator Case of death from agranulocytosis after prolonged use of an antasthman. Trudy Khar. red. inst. no.-52:148-150 159. . ' (MIFA 14:3-1) (AGMIULOCYTOSIS) (AMINOPYRINE) (PIENOBARBITAL)  BONDARENKO, A.P., inzh.; SUKHININ, VOIO, kand.tekhn.nauk Motor road-roller with frame and rollers made of reinforced concrete. Stroie i dor. mash. 6 no.6:19-20 Je 161. (MIRA 14:7) (Road rollers)  BONDARMWO, A. S. Only well-fed cattle. Nauka i pared. op. v sellkhoz. 7 no.5:8-10 OW 157. (KLRA 10:6) 1. Starshly inshener upraylenlya zagotovok skota Ki1xisteretva pro- myshlennosti aWannykh i molochafth produktoy RUSR.- (Cattle-7eeding and feeding stuffs)  BONDARMIKO, Alla Stepanovna [Antibiotics from lichens] Antybiotychni rachovyny z lyah2inykiv. Kyiv, Aksdemiia nauk Ukrainskoi RSR, 1958. 76 p. (KIRA 12:3)' (ANTIBIOTICS) (LICHENS)  BONDARENKO, A. S.- Master Biol Sci (diss) -- "The preparation and study of an antibiotic from the lichen Cornicularia steppae Sav.". Kiev, 1959. 16 pp (Acad Sci Ukr SSR, Dept of Biol Sci), 150 copies (U, No 12, 1959, 127)  CHADAYEVI V.A.; IMEN, V.N.; MOIIAKHOVp V.A.;; BON RMQOI_~ kapitan 1 rnnga zapnoa, red.; MARCHENKO, V.Gq, red.; DANILOYA., Z.S., red.-laksikograf; BUKCVSMA,A.A., tekhn. red, [Concise French-Russian dictionary of naval terms] Kratkii. frantsuzsko-russU-i voenno-morsk-oi slovar', Pod red. A.S. Bondarenko. Xloskva, Voen. izd-vo M-va obor. SSSR, 1961. 341, (MIRA 15:2) (Frencq'language--Dictionaries---Russian) (Naval art and gcience-.Dictionaries)  RF, K S_~ SHUTKIN, L.N.; RODIONOV, A.I.,, FAVOROV, F A - BONDA kon r-_a_Tm_fr_a1, red.; MARCHENKO, V.G., red.; BERDNIKOVA, N.D., red.-leksikograf; KUZIMIN, I.F., tekhn, rad. [Engliab-Itassian dictionary on submarines and anti- submarine defense]Anglo-russkii slovarl po podvodnym lodkam i protivolodochnoi oborone. Pod red. A.I.Rodionova. Mo- skva, Voenizdati 1963. 260 p. (MIRA 160) (Submarine warfare-Dictionaries) (English language-Diationaries--Riissian)  BONDARVIRO, A. S. Antimicrobial properties of an essential oil obtained from the nodding sticktight (Bidens cernuu e., cernual L.). a Li-1 (MIRA .15:7) Mikrobiol. zhur. 23 no.3*.30-33 161. 1. Institut mikrobiologii Akademii nauk VSSR. (BIDENS) (ESSENCES AND ESSENTIAL OILS)  BONDAfOIKO., A. S.; ZEMUKHA, S. I. Antimicrobial properties of wild and '.qikrobiOl. 2hur. 24 no.1:1+1-1+5 162. 1. Institut mikrobiologii AN USSR, (STRAWBEMES) 4C garden strawberries. (MIRA 15:7)  AY7ABIRUJI.9 B.Ye. [Aizenman, B.IUI; IWOM, T.P. [Mkndryk,, T.F.); SJiVA7GEFt,, M.D* [Shvaiher, M.D.); BliEDIEHINAp A.N. [Bredikhina,A.14.]; Testing the antitu rigenic plants in vitro. Mikrobiol. activity of extracts from higher zhur. 25 n0-4'-46-521639 (MML 16:9) 1. Institut mikrobiologii kN UkrSSR. (11TERIA MEDICAP VIOETABLE) (CYTOTOXIC, DRUGS)  -10PARYWO A.S.; ZELaUKRA, S.I*; 10CHINOK2 F.Ya.; NEGRASH, A.K. 1--fN6hr'ash., A.K.]; KUDRYAVTSEV, V.A. Antimicrobial properties of Bidens cernua L. and Bidens tripartita L. Mikrobiol. zhur. 26 no.1:67-72 164. (MIRA 18- 11) 1. Institut mikrobiologii AN UkrSSR.  PASYSHIll, I.I.; BONWOMKO, A.T. Hetallic osteosyntheeie o the hip in district hospitals. Zdrav.Ti=k. 2 no-5:33-35 S-0 158. WBA 12:6) 1. Iz Ithirurgichookogo otdeleniya Bavram-Aliyokoy rayonnoy bollnitay (glavnyy varch - A.V.Karkina). (HIP JOIRT-- M CTURRS)  BONURENKO, A.T. Efficacy-of hypertension treatment at the Sochi-Matsesta Health Resort. Vop.kur., fizioter.i lech.flz.kullt. 27 no.2:143-146 Mr-Ap 162. - (MIRA 15:11) 1. Iz kardiologicheakoy kliniki (zav. - dotsent N.M.Shikhova) Sochinskogo instituta, revmatlzma (dir. - prof. M.M.Shikhov). (HYPERTENSION) (SOCHI-THERAEUTICS., PHYSIOLOGICAL)  s/049/60/000/02/017/022 E032/E414 AUTHORS3 Parkhomenkot E.I. and Bondarenko j_A.T. i~ -_ -.1 - I ~ Mr TITLE: The Effect of One-Sided Pressure on the Electrical Resistance of Rocks-,V PERIODICAL21zvestiya Akademli nauk SSSR, Seriya geofizicheskaya 1960, Nr 2, pp 326-332 (USSR) ABSTRACTs At the present time there is only one paper available on the effect of pressure on the electrical resistance of rocks,(Hughes - Ref 1). Hughes studied the electrical properties of peridotite for pressures of up to 10000 kg/cm~4 and at temperatures of 1063, 1143 and 12100. Since this work was rather specialized, the present author has carried out more extensive studies of the electrical conductivity of rocks under the action of one-sided pressure. The electrical resistance was measured by the DC method described by Zaborovskiy (Ref 2) and Bogorodetskiy (Ref 3). The specimens were cut in the form of discs 0.5 to 2.0 ern in height and 2.8 to 7-0 cm in diameter. The electrical conductivity was measured in low fields (3 to 800 V) in which Ohm's Card 1/5 law still holds. The various necessary electrodes were  s/o4g/60/000/02/017/022 B032/E414 The Effect of One-Sided Pressure on the Electrical Resistance of' Rocks in the form of graphite deposits on the specimens and the contact between the specimens and the conducting wires was made with the aid of tin foils In order to have uniform fields, the area of the measuring electrodes was 39 to 45% of the area of the high-voltage electrode. The guard ring which was also in the form of graphite emulsion was deposited on the cylindrical. surface of the specimen. Under room conditions, the guard ring reduced the current by 10 to 23% in basalt and diobase specimens and by 50% in schist specimens. In dehydrated specimens having a resistance of the order of 1010 (1cm or higher, the surface currents were very small and sometimes unmeasurable. Depending on the magnitude of the resistance to be measured,, use was made of the galvanometer M91/A or a microammeter with a mirror scaled Measurements were taken on specimens of basalt, diobase, peridotite, limestone, schist and sandstone, The results obtained are summarized in the table on PP 329-330t which gives the specific resistance Card 2/5 of the materials investigated for various water contents  s/049/60/000/02/017/022 E032/E414 The Effect of One-Sided Pressure on the Electrical Resistance of Rocks and under one-sided pressured It was established that both the behaviour of rocks in a constant electric field, and the changes in the resistivity, strongly depend on the moisture content. The greatest change in the resistance is observed not at maximum or minimum humidity but at a certain intermediate value, Such an increase in the electrical conductivity of rocks as a function of pressure is apparently due to the formation of continuous and conducting channels of liquid on compression of the specimen. It Avas found also that the most rapid increase in the electrical conductivity during one-sided compression is observed in the region of relatively small mechanical pressures of, say, 200 kg/cm , while the greatest change (5 to 1.00%) was observed in schist specimens having a moisture content of 28 to 32%, The figure captions are as follows~ Figure 1 - Current (pA) through a basalt 21 specimen as a function of time-, (1 -- on application of a constant f.iel&- 2 - on application of the opposite field, Card 315 3 - on application of the original field),  s/049/60/000/02/017/022 E032/E414 The Effect of One-Sidied Pressure on the Electrical Resistance of Ro.---ks Figure 2 - Reduction in the current with time (min) for a basalt 212 specimen: (Curve 1 - dehydrated, Curve 2 - 0.23% moisture content, Curve 3 - 0.88% moisture content). Figure 3 - The current through a sandstone 14151 specimen as a function of time. Figure 4 - Current through a sandstone 14o92 specimen as a function of time (min) for direct and reversed fields. Figure 5 - Dependence of the specific resistance of basalt specimens on the moisture content (in %): (I - basalt 41; 2 - basalt 2; 3 - basalt 212; 4 - basalt 211). Figure 6 - Specific resistance of basalt 211 as a function of pressure (kg/cm2; one-sided). Figure 7 - Specific resistance of sandstone 14091 as a function of pressure. Figure 8 - Specific resistance of basalt 41 as a function of pressure. There are 8 figures and 11 references, 10 of which are Soviet and Card 4/5 1 English.  s/o4g/60/000/02/017/022 E032/E414 The Effect of One-Sided Pressure on the Electrical Resistance of Rocks ASSOCIATION2 Akademiya nauk SSSR Institut fiziki Zemli (Academz of Sciences USSR, Institute of Physics of the Earth SUBMITTEDa July 18, 1959 Card 5/5  VOLUOVIGH, M.P.; BONUiRMO, A.T. Studying electric resistance in rock specimens subjected to a surrounding pressure up to 1000 kg/cm2. Izv.AN sSSR. Ser.geofiz. no.7:946-953 J1 '60- (MIRA 13:7) 1. Akademiya nw1k SUR Inatitut fiziki Zemli. (Rocks-Blectric properties)  VOIAROTICHP M.P.; TARASOV, O.A.; BONDARENKO A.T. Investigating the dielectric permeability 9f rock samples at unilateral and isostatic (UP to 5DOO kg/cm~') atmospheric pressures. Izv. AN. SSSA. Ser. geofiz. no.7tlOO4-1008 J1 161. (MIRA 14:6) 1, Akademiya nauk SSSRJ, Institut, fiziki Zemli. (Rocks--Electric properties)  BOMARENKO, A.T. Investigations of the temperature dependence of the dielectric constant and the tangent angle of Oielectric losses of rocks on different frequencies. Izv..AN SSSR. Ser. geofiz. no.3:1+55-463 Mr 163. (MIRA 16:3) 1. Institut fiziki Zemli AN SSSSR. (Dielectrics)  --- - - - --- ------- VOLAROVICH.9 M.P.; BONDARENKO, A.T.; GUSET, K.F. X-ray investigations of rook samples at high pressures and temperatures. Trudy Inst. fiz. Zem. no.23:55-59 162. (KMA 16: 11)  VOLAROVICH, M.P.;-BONDARENKO, A.T.; PARKHOMENKO, E.I. Effect of pressure on the electric properties of rocks. T d Inst. fiz. Zem. no.~3M-90 162. (MIRA 167a  PARMOMIZO, E.I.; BONDARENKO, A.T. Electric conductivity of rocks at high sided pressure. Trudy Inst. fiz. Zem. temperatures and one- no.23:101-106 162. (MIRA 16:11)  PARKHOMENKO, ~.I.; BONDARENKO, A.T. '. ~- Elect-ic resistance of rocks at pressures up to 40,000 kg~/CMO 2 and '-.jmperatures up to 4000. Izv. AN SSSR. Ser. geofiz. no.12: 1823-1832 D 163. (MIRA 17:1) 1. Institut fiziki Zemli AN SSSR.  1ACCESSION XR: AP4038149 5/0049/64/000/005/0739/0741': IAWHORs"., Bondarenko, A* To iTITLEt Investigation of the dielectric constant of rocks at pressures up to 50 000 1kilograw per square centimeter and at temperatures up to 40D SOURCE t AN SSSR. Inv. Seriya, goof izichookay~&, no. 5, 1964, 739-741 ITOPIC TAGSt dielectric constanto capacitance, rook# pressure dependenceg tempera- ~ture dependence, capaoitance motor NIE 1 IABSTRACTt The dielectric constant was measured by means "of an NIE-1 capacitancet moterp operating at a frequency-of 5Ailooyoles. The sons *itivity of the instrument lia reputed to be t(2-5)%- Samples tested included basalt, porphyritet eerpentinized 1 dunite; amphibolite, end serpentine. On a test with dunite, the dielectrie constant; was found to vary at different rates on successive loading of the same sample. The change was-greatest on the first test. Increase in iielectric constant with.load~~ was generally 20 to 25% at pressures of 50 ODO kg/cm When both pressure and itqmperature were increased, the capacitance increased more rapidly at lower tempera-, Itures (20-1000) than at high temperatures (200-4000)o When the dielectric constant Iwaa measured with change in temperature aloneg it vas found to increase at first,  RCESSION NR: AP4038149 -reach a ma%imum (generally at about 1000) then decrease to a minimumt somewhere !below 400op and begin to increase again. The curve differed for different preo- Isuresp being moot sharply expressed at high presouresp approaching a sine wave In appearance. The author concludes tHat the increase in dielectric constant with pressure in rocks andl in generalp substances with ionic structure is due to changes, in,exiergy of interaction between ions in the crystal lattice. Orig. art. last 4 figuree. ~ ASSOCtATIOIT, Akademiya nauk SWR Institut fisiki Zemli (loadeRr of Sciences# SSSR, Institute of Physics of the Earth) SUBMITTEDs 2Wun63 DM ACQs 12,Tun64 ENOM 00 SU CODEI 33, SS NO REP SM 005 MUMS 001 Cwd 2/2  BMARUNKO (MIRA IM6)  S/058/61/000/003/009/027 AOO I/AOO I Translation from: Referativnyy zhurnal, Fizika, 1961, No. 3, p. 299, 3E165 AUTHORS: Bondarenko, A. V., Nikitenko, V. I. TITLE: Electric Conductivity of Synthetic Ceresin in the Melting Temperature Range PFJUODICAL: "Tr. Novocherkassk. politekhn. in-ta", 1959, Vol. 73, "Raboty Kafedry fiz.", pp. 43-46 TEXT:- Specific resistivity N of synthetic ceresin grows with temperature. The different course of dependence of ?Y on temperature at 40-57 and 57-11006 is explained by the fact that higher-molecular components participate in the mechan- ism of electric conductivity; moreover, this is.also the result of the effect of low-molecular (paraffin) fractions contained in synthetic ceresin. This is confirmed by changes in mechanical and optical properties of synthetic.ceresin at the 570C temperature. The deviation of the temperature-dependence of ?v at heat- ing from the analogous curve at cooling is explained by the orientation of the structural elements of synthetic ceresin during cooling in the presence of an electrical field. V. Kuchin Translatorts note: This is the full translation of the original Russian abstract. Card 1/1  DERFELI, A.G.; KRAVTSOVA, I.P.; DYUBIN, N.P.; SVIRIDENKO, F.F.1 POPOVA, A.M.; DOLINENKO, O.V.; SHAROV, B.A.; Prinimali uchastiye: DYUBIIIA, A..V.; TARASOVA, L.P.; LESENKO, I.I.; LEVCHENKO, N.D.; BONDARENKO, A.V, Using ferrotitanium for the deoxidation of rail steel and its properties. Sbor. trud. UNID4 no.11:365-378 165. (11IRA 18:11)  BONDAIRENKO, A. V. Cand Tech Sci -- (diss) "Study of the syn-Ehesis of viMrItoluene.11 a Yaroslavl', 1956. 10 pp (Min of Higher Education USSR. Yaroslavl' Technological inst.), 1GIO copies (KL, 3-58, 97) -26-  8062.3 ,S70-~- o o SOV/81-59-5-16377 Translation from: Referativnyy zhurnal, Xhimiya, 1959, Nr 5, P 376 (USSR) AUTHORS: Bondarenko, A.V., Bogdanov, M.N., Farberov,_M.I. TITLE: The Industrial Synthesis of Vinyl Toluenel PERIODICAL: Uch. zap. Yaroslavsk. tekhnol. in-ta, 1957, Vol 2, PP 33 - 46 ABSTRACT- The process of catalytic dehydrogenation of ethyl toluene (I) to vinyl toluene (II) was investigated at 540 to 6000C with a volumetrio rate of 200 - 800 ml per I liter of the catalyst per hour and with dilution by H20 vapors in the molar ratio of 1:8 - 1:16. With an increase in the temperature to -;,-, 5800C and a drop in the volumetric rate to --' 400, the yield of 11 is reduced considerably. "Lie optimum conditions of the dehydroge- nation process are: temperature 560 - 5800C, volumetric rate 400 - 800 ml per 1 liter of catalyst perhour, dilution with H 0 vapors 1-12 - 1:16. The standard eatalyst for dehydrogenation 0-12 was used as catalyst. A thermodynamic calculation of the dehydrogenation reaction was made. The equilibrium constants and Card 1/2 the equilibrium composition were computed at 427 - 7270C, and also  3062.Y The Industrial Synthesis of Vinyl Toluene SOV/81-59-5-16377 the apparent energy of activation of the dehydrogenation reaction, being 32,700 cal on the average. It is shown that, in addition to I and II, toluene, zy1ene, ethyl benzene and styrene are part of the catalysate com- position. A circuit diagram of the contact installation is submitted. L. Volkova Card 2/2  -y j ~vr flAtim out. -With, ml ftlb pb 16d4 i0 u f& zi It r o , __ _ ' ` . L~ 7, 1 X M s rat- r'p fi .q Marti -6 0 xfi ~Ot 4 uuhv I ED ~ih 30 _iAel rod ~ls imA MMC-, J)~ M-15' th 1- -.1 - - -b- ~_e Y-ko- utue- 3~ The *.- WAS -3a iit~ aad mas. fat Oil ui~,W oioit 53 2q, .............. . . . . . . . . . . . . . .--~  ' " -Vdlllt ... .. .......... , Olt on ad. K$ im. 3D, 027--32- ~ CA AleCiffir-it (1) dild (195 0~~"O thit yitd ~~Vinoiohlac (W~ dMeawd i~ilhllw Iculp.. - and: inc . I z-vitb tha z~tt of-tmss3ge 43f I utid the dl n, The optimum . - ' , : , -' ~ A , 6tutyst/ o : - ~ I , .W 600 * - : h o AN t r cata ilkd 1 bnosed owl paid over basid ii r6i iAh. Of oplIIIIIIIII ~6611diucillq:mixts. I 2 ' : d - ltv, the prvt i - of Z 0_8.4%'d ue LT*Mpd. ol P Iiib'. t n i Valcd up Py lion. sa .70D, ealqhpo q, a Ism  2114- 8 20 S/081/61/000/011/016/040 FS 0,~-L) B105/B203 AUTHORS: Bondarenko) A. V., Karakuleva, G. I., Kutlin, A. M, Farberov, 14. 1, T1 TLE. Synthi~,sis of vinyl xylenea on the basis of xyleneB and ethylene PERIODICAL; Referativnyy zhurnal. Khimiya, no. 11, 1961, 190, abstract 111#91 (Uch. zaps Yaroslavsk, tekhnolog. in-ta. 1960. 5. 79-89) TEXT: In the alkylation of m-xvlene (1) by means of ethylene (mcliar ratio 1 the minimum yield (,-- 17'o by we.-ight of the resul t ing alkylate) i r. products of disproportionation (PD) with the boiling point '45-1800C CH CeH C H , (CHO 0 H ) was obtained at 60-650C and with 21i! A101 wh i 1 e 3 5 4 2 5 1 3 6 3 3' '~he y3 eld in ethyl xylene (II) was - 30%~ or 95-97~fo of the reacted (I), respe,,%tively. The polyproducts are smoothly dealkylated to (II) under the conditions of the main reaction. The effect of temperature and AM 3 1 -~on~~entration on thp PD yield was studied. Vinyl xylene kyield 20-25%6 Card 1/2  Qynthesis of vinyl xylenes on the 2h820 s/081/61/000/0',1/016/04C) B105/B203 i-eferred to th-3 paased-through. or 70-750/o to the decomposed (II)) is obtained by dehydrogenation of II) on the catalyst K -.10 (K- 10) (87.6,~o ZnO, 10 Al 05 %1 0. 44T, K,O) at 6000C . and dilutior. by w a t e r cr')OV 0-56~5 SIOP, 0.4z-i6 2 C. lax ratj,:~ ~-f 12 dtiring vapor in a mo , a contact time of 0,55-0,.4 se,-. Th-? ,~,ffect of temperatuz-e, ~:,ontact time, and charaz;ter of the Catalyst on the dehydrogenation process of (11) was studied,, [Abstracter's not,~,: Compl ete ti-anslation.] Card 212  ,7,/058/62/0"0/002/020/053 A058/A1O1 AUTHORS: Bondarenko, A. V., Popov, S. Ya. TITLE: Cathode polarization incident to electrocrystallization of metals under the action of sonic and ultrasonic vibrations PERIODICAL: Referativnyy zhurnal, Fizika, no. 2, 1962, 43, abstract 2G330 (V sb. "Primeneniye ul'traakust. k issled. veshchestva", no. 14, Moscow, 1961, 87-94) TaXT: Incident to the electrocrystallization of metals ultrasonic and sonic vibrations decrease the magnitude of overvoltAge in that region of current densities where there occurs concentration polarization. The lower the concentra- tion of rarefying ions, the greater the reduction of polarization. The rate and magnitude of cathode passivation is appreciably greater in the presence of a field of acoustic vibrations than In the-absence of such a field. Galvimic plat- ings produced under the action of ultrasonic or sonic vibrations may have either a finer or a coarser crystal structure than in the case of electrocrystallization without vibrations. The throwing power of the electrolyte in the presence of vibrations may be either better or worse than in their absence. A satisfactory Card 1/2  S/058/62/000/002/020/053 Cathode polarization incident ... A058/A101 explanation of the action of acoustic vibrations on the crystal structure of deposits and on the throwing power of electrolytes can be given from the view- point of the action of vibrations on the cathode-passivation effect incident to the electrocrystallization of metals. In using sonic and ultrasonic vibrations for the intensificationcC the electrocrystallization of metals, the prospects are good for electrolytes with which one can use both the depolarizing and the passifying actions of vibrations. There are 12 references. [Abstracter's note: Complete translation] Card 2/2  S/058/62/000/002/018/05-') A058/AlOl AUTHORS: Bondarenko, A. V., Popov, S. Ya. TITLE: Currentless electrode potartial under the action of ultrasonic and sonic vibrations PERIODICAL: Referativnyy zhurnal, Fizika no. 2, 1962, 42, abstract 2G313 (V sb. "Primeneniye ul'traakust. k issled. veshchestva", no. 14, Moscow, 1961, 95-99) TEXT: It was found that ultrasonic and sonic vibrations exert an effect on currentless nonequilibrium electrode potential. In the electronegative metals Zn and Pb, the p6tential under the action of vibrations is shifted to the side of positive values while in the electropositive metal copper, the potentiall is shifted to the side of negative values. This shift in potential can be explained from the standpoint of the depolarizing action of ultrasonic and sonic waves on the cathode and anode polarization of micropairs. In designing the thickness of galvanic platings for components operating under conditions of vibration, it is necessary to take into account the possibility of increase of corrosion current under the action of vibrations. FAbstracter's note: Complete translation'l 6ard 1/1  BONDARERK.O.,__A,_V.; KISELEV., V.P.; DRASILINIKGV, K.G. Compoultion of products of the thermal dehydration of silica and properties of its dehydrated surface. Kin.i kat. 2 no-4:590-598 JI-Ag 161, (MIRA 14: 10) 1. Makovskiy gosudarstvennyy universitet imeni. M.V.Lomonosova, fizicheskiy fakulftet. (Silica) (Dehydration (Chemistry))  A.V.; KUTII-, USTAVSHCHIKOVA., Z.F.; FARBEROV, M.I. Synthesis of tert-butylbenzoic acid. Izv.vyv.uchob.zav., '- d' * a~h cl~-, 1 it, I ,I ' ln,tOMI, 4 nc,3:4"--4e,5 161. (lm 14:10 1. Yp-roslavs1civ teh~-aiologiclleshiy inatitilt i ii,-,.iioiiiic,-isr,].edovr,-- tcllo'dy institut uintc7.rj. monamerov dlya sinteticheshogo kauchuka, lulfc~~a te%hnologii osrovro-o organicheskogo sinteza i u sintetichosklogo (13enzoic  BONDARUKO, AeVOP- KISELEV) V.F.; KWILINIKOV, K.G, Thermal dehydration of silica and certain properties of Its surface* DokI.AN SSSR 136 no.5:1133-1136 F 161* (MM 14:5) 1. Moskovitkiy~gos.universitet im. M.V.Lomonosova. Predstavleno akad. M.M.Dubininym. ""' (Silica) (Dehydration) (Surface chemistry)  6/204/62/002/004/014/019 E075/E435 AUTHORS: Bondarenko A.V. Dolinkina, V.P., Kutlin, A.I. Farbero , M.I. TITLE: Synthesis of vinylxylene from xylene and acetaldehyde PERIODICAL: Neftekhimiya, v.2, no.4, 1962, 585-591 TEXT: The synthesis was carried out in two.stages: stage 1 - condensation or xylene and acetaldehyde to produce dixylylethane, stage 2 - catalytic cracking of dixylylethane with the formation of vinylxylene and ethylxylene. The first reaction was conducted with 92 to 961'a H2SO4 as catalyst, the molar ratio of the acid to acetaldehyde and xylene being 1:0.25:1. Technical xylene as well as individual isomers could be used in this reaction. An increase of the molar ratio of acetAld4hyde to xylene above 0.25:1 lowered the yield of dixylylethane. The reaction temperature had no effect on the yield between -14 to +100C, however, at 20*C the yield decreased markedly. Under the optimum 8onditions the yield reached about 36% of the xylene taken and 82% of the reacted xylene. The second reaction was conducted in the presence of a clay (kaolin) activated by heating in air at 550 to 570*C- The yield of vinylxylene increased with Card 1/2  S/2o4/62/OO2/oo4/oi4/ol9 Synthesis of vinylxylene... E075/E435 temperature up to 600*C and reaction time (the time of contact up to 0.2 sec). The yield of ethylxylene increased at the same time. Dilution of dixylylethane with steam, or working under a vacuum, increased the yield of vinylxylene and improved its quality. The optimum condition for the reaction are: temperature - 5000C, contact time - 0.05 sec, dilution with water vapour 1:28 (moles), final partial pressure in the system 110 min Hg. The yield under these conditions is about 62% of the feed. Vinylxylene obtained consists exclusively of 2,4-diniethylstyrene. There are 3 figures and 5 tables. ASSOCIATIONS: Nauchno-issledovatellskiy institut monomerov dlya SK (Scientific Research Institute of Monomers for Synthetic Rubber) Yaroslavskiy tekhnologicheskiy institut (Yaroslavl' Technological Institute) Card 2/2  TIXHVINSKAYA, M.Yu,; BONDARENKO, A.V.; FARBEROV, M.I.; SOLNTSEVA, L.V. Reaction of liquid phase,catalytic oxidation of tertiary butyltoluens Zhur.pr4l.khim. P5 'no.7*tl584-1591 Jl 162. 11 (MRA 15:8) 1. Yaroslavskiy to khnologicheskiy institut i Nauchno-iseledovatell- skiy institut sintesa monmerov dlya sinteticho6kogo kauchuka. (Toluene) (Oxidation)  BONDARMOP L._~ DOLINKINA, V. P.; KUTIIN, A. I.; FARBEROV, M. 1. Synthesis of vinylxylens based on xylene and acetaldebyde. Neftelchimia 2 no.4:585-591 JI-Ag 1620 (MIM 15:10) 1. Nauchno-issledovatellskiy inatitut monmerov dlya sintati- cheskogo kauchft i Yamlavehy tekhnologicheakiy institut. (styrene) Uylene) (Acetaldetqde)  - __63 _4 , I I )-/LVj (i)/BPS: ~?nC/ASD 4 1-15 8 'A~APVC 4/ kP4 ESSION M: AP3005452 '7 41 s~02OA3/W3/04/os413/0557 iACC. '73 'AMSCSSI Bo dar ik A. VjFarberav,~ M. 1,; Tikhvinskaya, M. Yu. I ixalinina J jTn"LE: Liquid-,phase catalytic' oxidation oic so, ~f di tert.butylbenzi S01IRCE: Neftekh'Imly ~v Bs no* 4 1963., 548-557 JTU1'P1C TAGS: liquid phase-catalytic oxidation~butylbenzcdc acid toluene alk -9 -rub er, rosin, isobutylene, alumi ylation, ynthetic ~b num, chloride., cobaltous oleate I ABSMACT s The main.product-of oxidatlon of di-tert.butyltoluene Is_ 'dl-tart.butylbenzoie soid. ~It was reviously shown that the alkaline! this acid can complete] salts of 6yr place the disproport.Lonation ro !sin which is used as an-emulsifier in the production of synthetic rubber. Di erti rybutylbenzoic acid,has a branching structure with ~tuo tert.butyl groups',which combine weal with the rubber. Di-tert.- ~.bvtylbLmnzoic acid was prepared In three stages: (a) alkylation of C4 t~rd Ilp"b,  'L. i,r;48i~~63 4C1,M)SION INR I AP3005451 he presence of 90-97% Hq SOj at stmoisph" toluene with isobutylene In t er1c:pressure and 0 to 40c; (b) disproportionation of tert.butyltolu-, iene into di-tert.butyltoluene in the presence of a luminu:m chloride at~; ja pressure of 10 to 7 15 ra~ HS and 80,to-11OC; (c) oxidation of di-tert,! ..1butyltoluene with 02 from.the~air In the presence of cobaltous oleate~;- -icatalyst. Authors attempted,to, evaluate the conditions of liquid- I phase catalytic oxidation of di-tert butyltoluene, the character of 'the intermediate products and by-products, as well as the kinetics ofi the reaction. The effect of.the above factors were studied in the 6 of cobaltous oleate and other catalysts. About 80"mole % of~; pi-esene d'.1-tert.butylbenzoic acid and 5 mole % of di-tert.butylbezitoic alde- ',h,,rde.is obtained d e base on-th reacted di tert.butyltoluene. Some the -s -and identified. The ,r- Droducts of the reaction were eparated o .-like product f:-om the reaction effects the Inhibition of the re- s tar -;Bation., A.Scheme forthe formation of main, intermediate and side Is proposed and an explanation of the Inhibiting effect is -.given. Orig. art. hese.1 table, -4 f%ures, 3 formulas, and a scheme 'for a possible converslon~during the oxidation reaction mechanism. XOSOCIATION: Yaroslav enginearingg isnt. z rd.kVP  BONDMETWO, A,V,; POPOV, S.Ya. Effect. of acoustic vibrations on the passivatiort ot- a Cathode Sun- face during of zino. Trudy N111 1,3.31:;53-58 '62. kM1111A 17-.;-))  BONDARENKO, A.V. Mechanism of ultrasonic action on the process of aloctrocrystal lization of metals. Trudy NPI 133:59-77 162. (MIRA 17s2)  ;ACMSS10H XRt' AT402"23. S/3087/62/001/000/0091/0099 :AUTHOR: Bondarenkos A. V.; Farberov, M. I.; Karskuleva, Go I.; Komolova, Go A*; 'Tikhvinska~ya.M.~u.'- :T=E: Synthesis of di-tert-butylbentoic acid ,SOURCE; Yaroslavl'. TeMnologicbeekly inatitut. Xhimlya I khtmiches key& .tekhnologiya, vol. 1 (8), 1962, 91-99 TOPIC TAGS benzoic acid, isobutylene, toluenes polymerization, emulsifier, our- :face active substance, alkali metal ~ABSTRACT: Di-tert-butylbenzoic acid is a product which previously has not been :produced and has not been used on industrial scales. Only short references have been made to the possibility of its synthesis, 7he authors suggest that the manu- .facture of di-tert-butylbenzoic acid Is feasible from inexpensive raw material; toluene and isobutylene, This was done In three stages. It was shown that a con- venient method of obtaining di-tort-butyltolueM iS the disproportioning of tart- butyltolueme in the presents of aluminum chloride in the continuous extraction of toluene (in order to shift the equilibrium of.the reaction). Such a method assures a yield of the object product on the order of 90% for the converted tart-butyltoluens from the theoretics By mom of the liquid ph"s of oxidation di-tert-butyltol ,Card 1/2  4CCESSION NR: 'AT4029923 In the presence'of a catalyst It vas possible to obtain*s, high-yield of di-tert- :butylbenzoic acid. Di-tert-butyltaluene and di-tert-beazoic acid were separated and characterized. 7he salts of alkali setals of di-tert-benzoic acid wexe good ~emulsifiers in the processes of emulsion polymerization, Orig, art# has: 2 figures 5 tables. jASSOCIATION: Yaroslavskiy tekbnologicheakiy institut I nauchno-issledovatel'skiy institut vionomerov dlya SK (IMMS) (Yaroslavl technological Institute and scientific Mesearch Institute of smomirs for SK (NXIMSK)) !SUBMI=D: 00 ACQ: 29Apr64 ZNM: 00 ,SUB CODE: CH ND TZF SOVt 003 On=-. 002 '11111,rr r-ItTA COM, 2/2___ - ------------- -  BONDARENKO, A.V.; DOLINKINA, V.I.; KUTOIN, A.M.; FARBEROV, M.I. Synthesis of vinybcylol based on xylene and acetaldehyde. Khim. i khim. tekh. 1:101-107 162. (KRA 17:2) 1. Nauchno-issledovatellskiy institut monomerov dlya sinteticheskogo kauchuka i Yaroslav-skiy tekhnologicheskiy institut.  ISAYLINGOLID,, A.L.; TYURYAYEV, I.Ya.,- BONDARENKO, A.V.; CHERFMUKRINA, T.A. Catalytic hydrocracking of dixylmethane. Khim. i khim. tekh. 1:111-121 162. (MIRA 17:2) 1. Nauchno-issledovatellskiy institut monomerov dlya sinteticheskogo kauchuka i Yaroslavskiy tekhnologicheskiy institut.  It. BONDARWO, A.V.; POPOV, S.Ya. Electrocryatallization of copper on a vibrating cathode. Trudy NPI 1341 45-57 162. (MM 17:2)  BONDARENKO, A.V.; FARBEROV, M-I-; TIXHVINSKAYA, M.Yu.; KALININA.9 I.A. Liquid-phase catalytic oxidation of di-tort-butyltoluene for the purpose of obtaining di-tert-butylbenzoic acid. Neftekhimiia 3 no-4:548-557 Jl-Ag 163. (MIRA 16:11) 1. Yaroslavskiy tekhnologicb-skiy institut. T,  BONDARENKO, AN. I . 'I--.-.-'-,-...- Electrocrystallization of zinc in a stationary ultrasonic field. Elektrokhimiia 1 no-3:367-369 Itr '65* (MI-InU 18:12) 1. Novocherkasskiy politokbnicheskiy institut.  G.T . ; BC, I IP ~'r D~,Vl A VF A RBEI R A TI Production of allkyInaplAha3enes. llf:f'ekh~mila nc-.6- S56-8'7 1-1-1) 165. (MIMA 19:2) 1. Naucliiic~-issledo-v-,,it-21'skly institut. monomerov d 1~,, ~l Z; i n t P, t I - cheskogo kavchuka i Yaroslavskiy takhnologicheskiy instAtut. Submitted Jan. 26, 1965.  BASH FPC-,VA R.M, BO Energy spectrum of' positive Ions hitting the cpthode in an 117. anomalous glowing discharge. Izv. vys. ucheb. zav.; rad-Jol, 8 no.4:784-793 165. (MIRA 19;q) 1. Moskovskiy gosudarstvennyry univer,7itet.  0 0000*00 goo &00 0 go *Joe--- I A 1 6 r 6 0 V It It u W u 16 it a N a it a a k a 16 V ill it ta It I* is 1. 1? a M 4. 4, V u a Aito M I I L -IL-A V I T k A-,-b - I t- _. - 6~0 no S'Pte". of the elplasw of the explosive Mutm 2H, + )j. A. V. flondart11110. J. PAYS. R.) S. give; the wave lrnth% 00 and into.-miltir% found on the r4ates fur 318 lin" in the range U03-281 I %.. of which 23 were in the .10.13 ~iMo. 00 Jet in thr.MT(o-3428. 140 in the 3429-.10014 and II0 in t[K. ' 1 1 i h 4 i 00 - w th t ~ 't-tM . #V'4 -411 . k, Fttgms. By cimpar 'ttliv, It. and 0.1g. flar. it tif hot It. B find- thAt an lutenned6tt the excited Oil mig. is fiwu;c%l in to &V 00 atwitinti. Thiq rww source of the OUI sliectrum exceeds in powtr the uiwal 011 slk-cirum In w;ttcf vajxw. The l di t d "I i .r sa e quantitin nitua a gh rotat "Val, lisirs with h indicate that ON!. ciphulim stw1ruin 12 twur like the diwharg,-c spretm-tu than like the ordinary c4unbuoLin a 71W If&))& mechanism is lWy unlikely list Ifir *0 the nc"!aary energy .1 acti%-ntkvn of the riciled = 011 It 06 a 00 S j-00 .00 see goo Jet Net V*9 It A 11 Q 0 1 L" 0 0 0 0 0 0 0 0;0 to 0 0 a 0 0 0 0 0  -DA,17 'KC 'T 11 The TiocorTo~iitic-I of Nitrides cf 'rrc-,. .Ath Zhur 'FiZ. Elsliril.,1110. 1 of Thermophyaics. lied. 22 Jun,- Ic)38. Report U-16131, 3 Jan. 1952  001 06 icfIfiRRMhrIdwbyb=bAr& N. 1. NmmiwT. 4M It.; XM~MA 00j:Dpw" Fb,,tf, a, w lp,~,4C was bmb&rded ov With sUcUabs andAbo Izamaw cif the gas preasuro see obwrn& Tbt,yi)M otgu) Iwakvbw increaW from oem aa- it 4 v. to 1.2 i3d. as 12D Y.; sharp In. gold cr0"""j"w4t7.,10,iWdJ7v. 7bewpotentials coo M SUPPDMO $6 W tbb Olt- PDIMULU of Fe nit" and to Zwoopma wa a EbAtIon of N in 3 diffaftnt forwa. Orporxtecfd";p.,oftbaniW&traaidmost a** J. J. B, we* Coo I L A #"A"WnXjkL LITINAUW CVA3WKATMP slow Sflusaw T SSDONO bib PGov Oki 0-1 Q%v L-11 I I " , # - ~I Not on** Iguis II it TO Is M a I to bi 0 a v *1 .0, 0 a 0 * 0 : " 9 0 4-0 a 0 0 0 0 0 a 0 a 0 a a *ji a 0.0 0 some  BONDARFINKO, A. V. Defnnded his Candidates dissertation in the Phy-Acs F.cuUy of Moscow State University on 3 July 1952. Dissertation: "Inv5stigation of the Wmit Phenomeno of Forced Combustion of Gpseous Mixtures Containing Inert Diluantj." SO: Vestnik Roskovskogo Universiteta, Seriya, Fiziko-liatem,-.tiche!sk:L~',II i Yestestwmny1ch Nwak, No. 1, Momcow, Feb 1953, 1)P 151-157. trawl. in W-29782P 12 April 54, For off. use only.  SOV/137-59-12-26380 Translation from: Referativnyy zhurnal, Metallurgiya, 1959, Nr 12, p 8s) (USSR) AUTHORS: Bondarenko A V - opov, S.Ya. TITLE: The Effect of Ultrasonic Waves~~on ElectrocrystallizatioAf Metals PERIODICAL: Byul. tekhn.-ekon. inform. Sovnarkhoz Rostovsk. ekon-adm. r-na, 1959, Nr 1, pp 47 - 49 ABSTRACT: Besides the testing of equipment and the development of experimental methods, the basic problem of the investigation was to reveal the possible effect of ultrasonic waves on the formation of crystallization centers, on the contact exchange, and increase in the current density, The authors investigated the deposition of Cu on the Cu-cathod6, of Pb on the Pb- cathode, of Ag on Cu and deposition of Zn. It was stated that the ultra- sonic waves increased the current density in deposition from non-cyanide electrolytes; that a primary thin metal layer, well adhesive to the base, was formed which subsequently was extending beyond the ultrasonic field. T.K. Card 1/1  5W SOV/20-125-3-30/63 AUTHOR: Bondarenko, A. V. TITLE- An Investigation of the Thermal Dehydration of Cry3talline and Amorphous Silica by the Method of Mass-spectrum Analysis (Issledovaniye termicheakoy degidratatsii kristall:Lcheskogo i amorfnogo kremnezemov metodom mass-spektrallnogo analiza) PERIODICALt Dokladv Akademii nauk SSSR, 19159, Vol 125, Nr 3, PI) 573-5'116 (USSR~ ABSTRACT: In this investigation the author used two samples of pulverized crystalline quartz (which had been prepared at vario-as times and had a specific surface of 35.8 and 8 m 21g) as well as three varieties of silica gel (K-2, KSK-2, KSY-3). in thE!.Qe experi- ments it was necessary to subject the silica samples to a par- ticularly careful purification, All experimants were made within 0 the temperature range of from 400 to 1000 . The mass spectrum within the range of from 1 to 50 units of mass was taken at a temperature of between 100 to 1500. Negative results were ob- tained from the investigation of the dehydration of silica gel Card 1/4 K-2 in an ion source with a hot anode in which the author tried  SOV/20-125-3-30'/63 An Investigation of the Thermal Dehydration of Crystalline and Amorphous Silica by the Method of Mass-spectrum Analysis to determine charged particles. The mass-spectrographic analysis performed permits the conclusion that the silica gel surface exhibits no independent emission of ions during thermal de- hydrogenation, at least not within the limits of sensibility of the device MS-4. It resulted that the mass spectrum of the neutral components of the desorbed gas phase was comparatively complicated in all samples of silica gel under investigation, In addition to H20 (apart from the mass lines of the fragments, for example OH), the lines CO , and CO, in most cases 0,~ and 2' N2 e sometimes H21 RO as well as other nitrogen oxides and the lines of various organic compounds were found in the mass spectra. The lines caused by SiO 2-Y Sio-, 02-1 and 0 are due to +he sublima- tion of the solid phase of silica gel, The absolute and the relative content of the substances contained in the mass spec- trum of dehydration varied considerably from sample to sample and were dependent on temperature and the time of heating. With Card 2/4 the exception of H 20 and 02, all other components of the mass  SOV/20-125-3-30/63 An Investigation of the Thermal Dehydration of Crystalline and Amorphous Silica by the Method of Mass-spectrum Analysis spectrum were caused by secondary factors. The latter are not characteristic of the structural change in the silica gel sur- face. The author did not determine any noticeable removal of molecular hydrogen. A new result was obtained by the removal of large quantities of molecular oxygen during the dehydration of crystalline quartz and two varieties of silica gel. Curves of the temperature dependence of this phenomenon are then given and discussed. There is no direct connection between the specific quantity of water contained in the structure and the amount of 0 oxygen removed within the temperature range of fz'om 700 to 1000. Further, the author discusses the anomalous behavior of si'lica gel K-2 with respect to the removal of 02' Conspicuously the most important feature of the mass-spectroscopic inveBtigation of the thermal dehydration of silica gel is the removal of "structural" oxygen which attains maximum intensity within the range of from 900 to 9500. The lower temperature range of this process has not yet been ascertained with satisfactory accuracy. Card 3/4 Finally, the experimental difficulties are indicated which are  SOV/20-!25-3-30/'63 An Investigation of the Thermal Dehydration of Crystalline and Amorphous 3--lica by the Method of Mass-spectrum Analysis due to insufficiently purified samples. This investigation was made in cooperation with the Laboratoriya poverkhnostnykh yavleniy Fizicheekogo fakulteta MGU (Laboratory of Surface Phenomena of Moscow State University, Department of Physics). The author thanks A. S. Predvoditelev, Corresponding Member, AS USSRt for his interest displayed in the study under invest' gation. There are 1 figure and 8 references, 3 of which are Soviet. ASSOCIATION: Moskovskiy gosudarstvennyy universitet im. M. V. Lomonosova (Moscow State University imeni M. V. LomonoS07) PRESENTED- December 24, 1958, by M. M. Dubinin, Academician SUBMITTED: December 17, 1958 Card 4/4  I-. BONDARMO, A. V. Mass-spectrometric investigation of the thermal dehydration of crystalline and amorphous silica. Vest. Mosk nn. Ser- 34'Pix-,astron 15 no.1:11-22 160. (MIRA 13:10) 1. Xafedra molabilyarnoy fIzIki fixicheekogo fakul'teta, Moskovs- kogo goeudaretvennogo universiteta. 9 (Silica) (Mass spectrometry)  3/194/62/000/004/00-8/105 D295/D308 AUTHORS: Bondavenko, A. V. and Popov, S. Ya. TITLE: Cathode polarization in the electrocrystallization of metals under the action of sonic and ultrasonic oscillations PERIODICAL: Ref-erativnyy zhurnal, Avtomatika _J radioelektroni-ka, no. 4, 1962, abstract 4-5-39e (V sb. 11-rimeneniye ull- traakust. k issled. veshchestva. no. 14, M., 19061, 87-94) TEXT: Cathode polarization during electrical deposition of copper, silver and zinc under the action of sonic and ultrasonic oscilt tions is investigated. Ultrasonic frequencies of 12'~O kc/s wei-e ra- diated from a barium-titanate ceramic t-ransducer; sonic oscill-lations were generated by an electromagnetic vibrator fed from a.c. mains of industrial frequency. The ul-Lrason-Ac in-Len5ity was det-6rmined by a thermistor measuring instrument. The comparison of the intensitly Of sonic oscillations was carried out on the basis of the value of Card 1/2  S/1194 62/000/004/068/105 Cathode polarization in ... D295/D308 the current passing through the vibrator. 12 references. Z-Abstrac- ter's note: Complete translauion.-7 Card 2/2  J-11LUTHORS: TITLE; S/194'/62/000/004/067/105 D295/D308 Bondarenko, A. V. and Popov, S. Ya. Potential of an electrode without current by the ac- tion of ultrasonic and sonic oscillaiions PERIODICAL: Referativnyy zhurnal, Avtomatika i radioeleikt-ronika, _Jmeneniye ul'- no. 4, 1962, abstract 4-5-39ch (V sb. ?r_ - traakust. k issled. veshchestva. no. 14, 11.1 190-19 95-99) TEXT: The influence of sound of 100 c/s and ultrasound of 1950 kc/s on t-he non-equilibrium potential of an electrode wilthout cur.- rent is investigated. Sound oscillations were co=unicated to the electrode from an electromagnetic vibrator, the electrodebeJng attached to the armature of the vibrator by -means of a rod.-5, refe- rences. /-Abstracter's note: Complete translation.-7 Card 1/1  5 /1 255 004/008/005/o16 S 7 B116/B212 Bondarenko A V Voznesenskiyl Yu. A., Minashin, M. Ye. AUTHOM S.3. Sharapov, N. TITLE: Investigation of the automatic control system for t4e power level of a power reactor PERIODICAL: Inzhenerno-fizicheskiy zhurnal, v. 4, no. 8, 1961, 54-62 TEXT: The pFesent paper deals with the calculation of the control system .,iyen for the investigation of of h power reactor...A.,concr6te example is.p the transient processes for one of the variants of a projected reactor. having an automatic power control system. A number-of questions are dis- cussed which are connected with the autbmatic reactor during non-steady ope-r ct ation~ The variant mentioned is shown in ?1g. 1. The control obje is built similarly to that of the first atomic power plait in the' USSR, namely,a heterogeneous uranium-graphite boiling reactor. This reactor has -4 an effective neutron life of 1 4-10 sec and a negative temperature effect. Fig. 2 shows the cross sectiori-'of a fuel element in "he graphite Card 1/11  25555 S/170/61/004/008/005/016-. Inve-,3tigation of the automatic ... B116/B212 block of the core. Three groups of equations are set.up: For the change of,neutron density in the reactor in time: dn ko(l 1 - n + )-, cf.' d dc, k.0 P, I= -).I C, + d 6 6. where -r denotes the time, n the neutron density, k keff, A, the,decay constant of the fragments of the i-th group of delayed neutrons, 1 the effective relative yield of delayed neutro" bf the i-th group (baking into account the production energy), a the effective life of neutrons in the Card 2~ 1  Investigation of the automatic '2 ~555 S/170/ 1/004/008/065/0~6 B116/B212 reactor. The deviation ak k I is caused by an exteinal perturbation eff (ak perturbation) and by a change in reactivity 1) due to the motion of the control rods (automatiq controller): &k AR , 2).due to the insertion of emergency protection rods into the core: &k ep ; and 3) due to.the deviation of the uranium, moderator and coolant temperatures.* e,,kt; ak-combine's additively all of these. The second group of equations expresses the chang matic control ge in time of the determining parameters of the auto day Ji - system.'- They read: [n (,r (8) d d T d A-u &u k k (9) ay 2 (10), IN d-r 2 3692 ft dx T k4,6u &k- (p,2 (12), S--.v Tr AR 5 where n(T) denotes the relative neutrdrx density; y, the angle of rotation-, Card 3/11  255~5 S/170/61/004/008/005/016 Investigation of the*automatic ... B116/B212 of the drive (of the intermediate switch mechanism the angle.of 92 rotation of the switch mechanism drive; u the potential at the output of the the time constant of this amplifier; T the time magnetic amplifier'; TMV , SW constant of the switch mechanism; kl~ k , k , k , k denote the transmis- 2 3 4 5 sion coefficients of the control elements. The third group of equktions makes it possible to determine the mean change of the uranium temperature, (T-t) in the reactor and also the change ofv k. when the uranium temnera- U P f f 0 ture changes by 1 C and by&kt, if the,tempera'ture coefficient. of reactivity (Q is known. These &quationb bread as follows: temp dAt', - 0,650 A tI + 0,596 A t) -L 8,63 in 11; (13.) d- dAtIl 0,654 A III + 0,600 A I+ 16,2 11; (14) d dAIIIII 0,661 A till + 0,607 A11,11 + 20,4 (n 11; '(15) d Card 4/11  25555 S/1 70/61/004/008/005/016 investigation of the automatic B116/B212 dAiIV .1,52 A i,',v 20A tn ('0 d dAil 1.77 A t' 7,64 AX'; d d A Ptl 1,69 A 111- 4,99 A III -L 3,04 A I',; (18) d,c 41 A fill ; A till A I'll 1,48 A fill 5,67 A tlllk 3,33 A 11 -.0,01E. d where u denotes the deviation o.f the mean uranium temperature in the cross section of-the core in question from a nominal value; &t the devia- .tion of the mean coolant temperature in ace~tain section (the active.zone is eivided into several sections with respect to height: 1, 1-1, Ii~i' IV). It is assumed that the heat removal is con-ce-ntrated in the layer haling radius r , and that the fuel mass will.-produce an additional thermal re- 3 sistance. Eqs. (1) (19) have been investigated with- the help of a re- Card 5/11  25555 S/170 61/004/008/005/016 Investigation of the. atutomatic .3116 B212 actor simulator considering 6 groups of delayed neutrons and with three si.mulating devices of type MH-7 OdN-7) for work cQntrol of reactors.' The se4. of eoup-tions is schematically shown in Fig. 3. The following results have been obtained by a study of the automatic coritroller and reactor for non-steady operation; 1) Representation in one-group approximation results in an o,xcessively high-ma)eimum reactivity jumD permissible; therefore. 6 groups have been taken. 2) For a discontinuously changing reactivity, the increase of 'the amplifiGation factor of the automatic controller'dill first decrease the power excess but will also increase the control: time. in- creasing the am-olification factor by a factor o~ three will kee-D the system stable. 3) 'Uhen the temperature ef f ect. (Qt was not' taken i'nto account, one obtains &k 0.000472 and a linear dependence of the Perm Permissible reactivity jump of Qtemp: 8 &k perm/8Qtemp - 1-45- 4) The znaY:Lmui-,i permissible amplitudes of reactivity pulsation in the range of 0.05 - 0.3 cps, which can be applied to the automatic controller, are 4 Civen as: 6k 0.0002 at Q .0 and &k = 0.000325 at 9 = -0.67-10- t t Therefo re, 'Vhe temperature effect has to be determined accurately: Card 6/11  S/1 70/6 1 ~c 04/008/005/016 Investigation of the automatic B116/B212 controller is able*to take .5) Even at resonance frequencies the automatic the pulsation of the coolant amount, and the amplitudes of the co"rregpond- ing stabilized power fluctuations will be smaller than the permissible maximum.- A. K. Krasin, Academician of the AS BSSR, is thanked for interest in this work. There ate 5 figures and 2 Soviet-bloc references. SUBMITTED: April 8, 1961 Fig. 1: Block diagram of the chief components of the,automatic control system. LeGend: 1) perturbation; 2) influence of the temperature effect; 3) reactor; 4) control rods; 5) neutron detector; 6) power transmitter; 7) signal am lifier; 8) intbrmediate switch mechanism; 9) comparator; 10) drive; 113 magnetic amplifier; 12) switch mechanism. Peammop Card 7/1'1  3/137/62/000/0W018/085 AOO6/A101 AUTHOR: Bondarenko, A. V. TITLE: On the problem of the mechanism of ultrasonic effect upon the electrocrystallization of metal PERIODICAL: Referativnyy zhurnal, 14etallurgiya, no. 12, 1962, 2, abstract 12115 ("Tr. Novocherk. politekhn. in-ta"., 1962, v. 133, 59 - 71) TEXT: To reveal factors which determine the stirring effect of ultrasonic waves, experiments were carried out with the use of half-wave flutters arising during metal deposition, in a standing ultrasonic field. The experiments were made in an ultrasonic field of 1,250 kilocycles fr 'equency and 0.5 - 8 watt/CM2 intensity. The standing field was due to the presence of a reflecting surface established in the electrolyzer perpendicularly to the propagation of u1tra5.onie---- waves. The following reflecting surfaces were tested: the free surface of-the electrolyte; surfaces of glass, metal, chlorvinyl, rubber, and cork reflectors. It was established that in a standing ultrasonic field metal deposition proceeds both in the nodes and antinodes of displacements depending on the electrolyte composition and current density. 'Die basic factor accelerating the process of Card 1/2  On the problem of the ... S1 137/62/000/01 P-Aj 18/085 A006/A101 clectrocrystallization, may be microcurrents arising in the electrolyte, in the ultrasonic field, and on the cathode surface. Some effect may also be exerted by stationary currents of the "sonic wind" type. There are 21 references, 0. Oollder [Abstracter's note: Complete translation] Card 2/2  BONDARENKO, A.V.; FARBEROV, M.I.; KARAKULEVA, G.I.; KOMOIDVA, G.A.; M.Yu.; Prinimal uchastiye PAVLOV, S.Yu., student Synthesis of di-tert-butylbenzoic acid. Xhim. i khim. tekh. 1:91-99 t62. (MIRA 17:2) 1. Yaroslavskiy tekhnologicheskiy institut, i Nauchno-issledo- vatellskiy institut monomerov dlya sinteticheskogo kauchuka.  IONi i. 7 -ACCESS Ilk. '-'AP5,0D MH 0 BY AUTHOR: 7'axberov, M. 1. Bondarenko, A. V,- Romolova G. A; ~TITLE-. A metthod -for producing ~eta-vi-nyln!phthalene. s 12, No. 16"17864 Clas z SOURCE., Byialetenl izcbreteniy~,,IA ovarnyxn-znakov-, no. 3, 1965, 24 'TOPIC TAC-S: beta-viny1napbtbalerle ::~-ABSTRACT: r- - Cer~ficate ~.xnfr64taes a method for producing S-vinyi- This Autbo naphthalene. In order to increase th e purity and yield of the product, oxygen or !;air is used for oxidizing--O-ethy-ln4phthalene-in the liquid phase. The oxidation is carried out,in the prese~.6e~.of of variable valence metals, producing a mix- ture of inethy1naphthyl:. keton e* and- meth)ri~'Aphthyl - carbinol 7,ie metbyinapb4thyl icarbinol is reduced from this mixture and dehydrated. none SUBMITTED: 14Jul62 ENCL: 0C SUB CODE: GC 140 REF SOVII 000 BOTHER: 000 Card 1/1. _t IN Mi MR r; & - - It '_ T EMU g -, rL FRI 3 MKI-3 ~�M .1 ME -M_2  A VwT (I I AT 5022863' SOURCE CODE: UR/0141/65/008/004/0734/0793 AUTHOR: )Bashirova, M Bondarenko, A. V. ORG: MOSCOW State. University oskovokly gosudarstvennyy univetsitet) TITLE: Investigation of the energy spectrum of positive ions which arrive at the cathode im an anomalous glow discharge SOURCE: IVUZ. Radiofizika, Y. 8, no. 4,11965, 784-793 .TOPIC TAGS: glow discharge, positive ion .'P4~ I 'tq' ABSTRACT: The distribution of enerjies~ of the ions bombarding the cathode in an anomalous, _kYdIV die-charge -was experimentally investigated. The method of cylindrical capacitor advanced by, A. Hughes and V. Rojansky (Phys. Rev., 34, 2.84, 19?9) was used. Glasa discharge tubes 30"40-mm diameter and 20-25-mm long were used. The discharge was conducted in a gas flow. It was found that the energy distribution istrongly depends on the conditions of formation of the canal beam; the distributions were, entirely different in two cathodes whose diaphragm arrangements were different. The positive-ion current in the cathode region could not be UDC: 537. 525  ACC NRi AP5022803 determined from a common I-V characteristic for various discharge conditions; the characteristic segments of the distribution curves diverged from the common I-V curve in different ways. On the strength of the experimental results, it is assumed that the redistribution of ion energy along the way toward the cathode and in the transcathode space is largely due to a charge reversal whose efficiency within the discharge space is lower than that outside of this space. Orig. art. has: 4 figures.. SUB CODE: 20 SUBM DATE: OZjul64 ~ORIG REF: 008 1 OTH REF: 004 Care 2/2 Z.- MIND' W-0.914-1;  PILIPENKO, I.V.; BO]MkRENKO, A.Ta. Experience ~usi ~coal=zoui or firing steam locomotives. Z.bel.dor.transp. 41 no.6:70-72 Js '59. (MIRA 12.9) 1. 14ashinist-inctruktor po teplotekhnilte parovoznogo dopo Pomoob- nays, Oao_s'skC7..dorogI. (for Pili-penko). 2. Nachal'nik parovoznogo depo, PomoBhnaya Odeaskoy dorogi (for Bondarenko). (Locomotives--Fuel consumption)  POCHEPA, A2eksandr Mikhayloviob; RAMOVSM, Hikhail Yefimoviob; BONDARENKO, Anatoliy.Yevgenlyevich; RUBIN, M., red.; MOLGIMNOVA, T., teklm, - - [Use and repair of television receivers) Ekspluatatsiia i remont te- levizorove 2.# izd. Odeasap Odeaskoe knizImoe izd-vo) 1961. 3.45 p. (MIRA 14:10) (Television-Receivers and reception)  POCHEPA . Aleksandr Mikhaylovich; RASMOVSK-TY, Mikhail Yef imovich; &, Yevgenlyevich; RUBIN, M BONDARENKO ... red.; .. Aga~ol y ~- -fek6. reas [Operation and repair of television receivers] Eksplua- tatsiia i remont televizorov. Odessa, Odesskoe knizhnoe izd-vo, 1963. 221 p. (NIRA 17:2)  GRIGORIYEVA, A.V. (Orenbarg., Sovetskaya, ul., d.2); BONDAMIKO, A.Ya. X-ray diagnosis of occupational diseases of the ostevar-'Umlar- apparatus. Ortop. tram. protez. 24 no.7,.66-69 OTI'63 (MIRA 17'.2) 1. Iz kaftdry renlgenologii s medit'sinskoy radiologiyey ( zar..- prof. A.V.C~-igorlyeva) Orenburgskogo meditsinskogo instibx~,&,  SOME: Voyennyy vestnik, no. 1, 1965, 92-93 TOPIC TAGS: diver, personriel, training, training gear kWTRACT- Combat engineer divers are trained in diving beneat"h i,,e. 711he person " is first throughly familiarized with the equipment and procedures. For act-aal e~ n training the equipment is laid out as shown in Fig. 1 on Lhe I.' X 110e checking the weather fjivi-ng is prohib.,ted i1r, temperatures