SCIENTIFIC ABSTRACT MAKSIMCHUK, A.A. - MAKSIMOV, D.G.

MAKSIMCIIUK) A.A., inzh.; TREGLI~OV, V.A.., inzh. Combination ventilation system with grouped arrangement, of fans. Shakht. stroi. 7 no-4s22-23 Ap 163. (MIRA 160) 1. Krivorozhs-Iciy filial Ukrainskogo nauchno-issledovatel'skogo in- stituta organizatsii i mekhanizatsii shakhtnogo stroitellstva.  I A.A., gornrj Jji-.h.; T:trLU2lClV, V.A., Fornyy in--,I.. ~ I Testing t:-e .1-1-U,5 ma--:-tne f-.3r ra-ille3s, operation. Gor. zh-_&. 6 5-66 J1 ' 64 . (!.a:"A 1. 'ri,,rorozhs'Ki,-,- filiaL %lscboyu-_noi~o instituta i z.  ZASLAVSKIY, Yu.Z., kand. tekhn. nauk (Donetsk), KOCHETOV, V.V., kand. tekhn. nauk; BYDEROVSKIY, S.I., inzh.; PUL'KUI, V.M., inzh.,- KAZAKEVICH, E.V., inzh.; MAKSIMCHUK, A.A., inzh. Create a Soviet firm for vertical shaft sinking. Gor. zhur. no.90-8 3 164. (MIRA 17~12) 1. TSentrallnyy nauchno-issledovatellskiy i proyektno- konstruktorskiy institut podzemnogo i shakhtnogo stroitell- a-tva, Moskva (for Kochetov, Byderovskiy). 2. Krivorozhskiy filial Vseaoy-uznogo nauchno-issledovatellskiy inatitut organizataii i mekhanizatsii shakhtnogo stroitellstva (for Pullmant Kazakevich, MakB4 chuk),  YEStKOV, Anatoliy Semenovich; 1jAK.4jUM&.,_Ajpksey Arssentlyevichj_ KAZAKEVIGH , Eduard Veniaminovich; SOrA '--" 9 nv Rod-lonovich) TREGUBOV, Vitaliy Anatollye-iich; SORIV, Mikhail Samoylovich~ FEDOROV, S.A.# prof., doktor tekhn. naukr retsenzent (Short handbook on shaft deepening] Kratkii spravochnik po uglubke stvolov shakht. 14.oskva., Nedra., 1965. 175 P. (MIRA 18t8)  CMINYSIfENKO, O.A., kand. ekonom. miuk; L.I.; A.L. litilization f-,f' capital wsseto in tht, i.%d,ii3tr-Y of the Ukrainian Pet. i ll),-On. 11-b ( " ~7 IRA I P : " ";  MASS I-M-CHUM-t -B.# inzh. Analysis of the work of the grain cleaning section of a flour mill equipped with pneumatic conveying. *A.-elev.prom. 29 no.1:14-17 ;a t63. (MM 16:4) 1. Vsesoyuznyy nauchno-isaledovatellskiy institut zerna i produktov yego pererabotki. (PheimAtic conveying) (Grain--Cleaning)  AYZIKOVICAO L., kahd.tekhn.nauk; MAKSIMCHUK, B., inzh. Production of rye flour in Poland. Mak.-elev. prom. 29 no.11:22-24 N 163. (~ffRA 17:2)  0h kl~mc ~/&//' Is,-) "~'Y I' k ~ " "(~ AYZIKOVICH, Leonid Yefimovich, kand.tekhn.nauk; GROSS, Konstantin Prokof 'yevich, inzh.; MAKSIMCM, Boris Mikhaylovic.h. lnzh.; KOCHNTKOV, L. I red. 'L_._A tekhn-_.-re-a-' [Mills with pneumatic equipment; assembling, adjusting and operating] Pnevmaticheskaia mel'nitea; opyt montazha, naladki i ekepluatataii. Moskva, Izd-vo tekhn.i ekon.lit-ry po voprosam mukomollno-krupianoi, kombikormovoi promyshl. I elevatorno- skladskogo khoziatstva, 1957. 171 P. (MIRA 11:1) (Flour mills) (Pneumatic-tube traneDortation)  inzh. b6 Using Ixes designed by the Central Aero-Elydrod7mmic Institute and simplified guiding apparatus in pneumatic and ventilating systems. Hukb-elev.prom. 25 no-3:25-26 Hr 159. (MIRA 12:6) 1. Voesoyuznaya shkola mastera-krupchatnikov. (Ventilation)  RMIMCIIUK, B., Inzh. Using axial fans and battnrles of c7clones. Auk.-alov.prom. 25 no.6.*24-25 Je '59. (MIA 1239) 1. Shkola masterov-krupclatnikov. (?lour nille--Xqulpment and impplies) (Air--Purification)  AYZI=ICH, L.Y96; MAKSDEHUK B.M. Automation of a flour mill.a Mekh.i avtom.proizv. 15 no.9:50-52- s #61. (MIU 14:11) 1. Dinktor Moskovskogo malinichnago zimoda No.2 "Novaya pobed&'# (for Apikovich). 2. Zameatitell glavnbgo inshenera Moskovskogo melinichnogo zavoda Nb*2 "Novaya pobeda" (for Hiksimebuk). (Moscow-Flour millo) (Automation)  inzh. B. Problem of sopmtIng lopwitles in #m=Ittic gmin-bandlim equip-, ment. Mak-elay. prem. 27 no.1321-UAL461. (Nm 14ti) I. Moskovsksym mellnitsa No*2* (Pnewatio-tube Uw=portatian) . (Grain-cle-nin )  1. VA?.:,TMCfftff,' D. P. 2. USSR (600) 4. Plant Breeding 7. Thirty years of plant breeding and seed production in the field of grain crops (1922-1952). Dost. sellkhoz. No. 4, 1953. 9. Monthl List of Russian Accessions, Library of Congress, April -1953, Uncl.  1. BABVK~ V.; KALASHNIKOV, A.; MAKSIMMUK. F.; SAMSONENKO, G. 2. USSR (600) 4. Gas and Oil Engines 7. Repair and assembly of the head of the block and cylinders of the DT-54 tractor. Tekhoov. 14TS 13 no. 33, 1952 9. Monthly List of Russian Accessions, Library of Congress, January -1953. Unclassified.  1. ra. 2. USSR (6G0) 4. Tractors 7. Features in the asseribh, ard --~stallation of some units of t.-,e DT-54 tractor. Tekhsov. MTS 13 No. 43, 1952. C4 L 9. Monthly List of Russian Accessions, Library of Congress, Fi-bruary -1953. Unclassified.  NECITITYALO, 7. , 14UMIECHM, F. Tractors - RaTairinE 1.1-: ~ 1. 1 ~ - - : -. Subasser,hly section in th;--- !7-,achi*.-i-A-trac'.--r st-ati~3-,Is . --l -~ I --l I llonthl.y List of Rugsinn Accessions, Library of Congress June 1953. UT 'C L .  L 02252-67 &4T(1) SCTB DD ACC N" AR6024831 SOURCE CODE: UR/029q/66/OOO/OO4/RO24/RO25 AUTHOR: Maksimchuk, G. G. _11-aembra tertial ~TITLE: A device for artificially changing cLe SOURCE: Ref. zh. Biologiya, Part I, Abs. 4R163 v, Kartya ,REF SOURCE: Sb. Vopr. elektrofizlol. nervn. sistemy. Kishine r1oldoven-yaske, 1965, 120-122 !TOPIC TAGS: electric device, call physiology, biocurrent, ammeter, attery BSTRACT: A device is described for.conducting cell membrane olarization investigations; the device can stabilize the value of a ~i !current in the circuit independentjy of resistance oscillation of the linvestigated structure and other unsvoidable factors arisinE in the lexperimental process. The device is based on a M-194. type microammeter. I iThe electric circuit and general appearance of the device are described. jT '5 vacuum photocell I he power source in the circuit of the device is an F- 'with a battery or the battery itself connected hrough a photoresistor. In the first case a polarization current of 1P to 10-12 qmD Sre is 7 1provided and in the second case a polarization current of 10 to 10 Card I U DC 577.  L 02252-67 AR6024831 ampere. A die am of the device and its operation are briefly described.,: G. Morozov yTrra-nslation of abstrac2t. SUB CODE: 06, 09 ;Card 2/2  WSIMCRUK, I. Kh. "The Biology of the Flowering and Hybridization of Millet." Cand Agr Sci, All-Union Sci-Res Inst of Sugar Beets, Kiev, 1953. (RZhBiol, No 5, Nov 54) Survey of Scientific and Technical Dissertations Defended at USSR Higher Educational Institutions (11) SO: Sum. No-521, 2 Jun 55  MAKSMCHUK, V. P. 208541. Maksimchuk, L' P. Stilektsiya i semenovodstv6 zean kh kulltur. Sbornik niuk. Rab6t (Veasoyuz: Nauchi --Issled. in-T sakhar. eve;;Y7 Kiyev-karlkov, 1948, s. 216-23. SO: LETOPIS ZHURNAL STATEY - Vol. 28, Moskva, 1949.  T', 'I i --~' 'r-~ '.-~ ~ /' ; - - .' f '-I ",, , . - -- - MAKSIMCRUK, L.P. . . __ jmmmxnq&~--- I Inheritance of the length of the vagetntion period in grAin crops. Bot.zhur.42 no.8:1232-1241 Ag 157. (MLRA 10:9) (Grain) (Hybridization, Vegetable)  Z_ USM/0-oneral Biology - GianOticD, Plant Genetics* B. Abs Jour : Rof Zhur - Biol,j. No 21) 1958t 94685 Author : Makmimchuk, L.P. Inst : Khar'kov University* Title : inheritance or Length of VaGetation Period in Grain Cropse Orig Pub : V sb.; Vopr. metodiki salcktsii pshenitsy i kukuumzy. Kharlkov, un-t, 1957, 41-52. Abstract : On the basis of data obtained from study of soft w1acm; hybrids and millet hybrids over many years, rcgulatiti(,s were established in the inheritance of length of vogeta- tive period, In Fl hybrids, length of tho vegetation period depending on the inherited nature and growth con- ditions can be a doninant characteristic, intcrmediat~: or recessivee Regarding carly maturity F, progeny can bj: 1) earlier thah the early mturing parent, 2) us carly Card 1/2  MAKSIMGHUK L,P. Zffect of cultivation conditions on changes in the strain qualities of grain and pulse crops and the utilization of obtained material in breeding. Agrobiologiia noJ1364,370 Ky-Je 163. (KMA 160) 1. Vaesoyusnyy nauchno-isaledoTqtell'skiy institut sakharnoy svekly, Kiyev. (Field crops-Varieties)  L-I-c;i-ullrj 22041 EaksimchU-, M.P., Aleksandrj~ya_, F. I.; Rudoy, Ye. S. Dal Ineysheye islytariye terapevticheskogo deystuiya muskulera pri legochnom tubeskuleze. Uchen. Lapiski Nauchisslea in-ta tuberkuleza v Gdesse, ch. 2, 1948, s 9-22 SC: Letopis' Zhurnallnykh Statey, No. 29, Moskva, 1949.  ., !-*,F. 'AKS11 %I I I 22058 l4aksimchuh, Y.F. ntrak-utannaya nevokainovaya infil'tratsiya -o ~'perans~,ornu v Kllni~o 2?~,7ocl-mogo 'Iuber~uleza. I'chen. Za;-,--ski ~:auch-issl ed. -r,- La tuber~ulaza v Cdossn, Ch. 2, 191,F, S. F"5-c-O SO: Lotopis' ~hurna:'nykh St2t*y, ';'0. -01, Yosl'va, 1949.  85817, S/08;~/00/000/ 0 10/ 003/x, V50 0 ( 21,0j, 2,36 3,3 0 0 --'/ 3 Z-0.; 12.; -, V A153/AO26 AUTHORS: Troitskiy, V., Docent, Candilate of Technical Sciences, M~-Lksirqg uk --- S., Engin~~_r(Kiyev) ------------ TITLE: Single-Band Radio Communication PERIODICAL: Grazhdanskaya aviatsiya, 1960, No. 10, pp. 14-15 TEXT: The authors note an increased interest in the USSR and abroad in single-band radio communication which makes it possible to reduce size and weight of aircraft radio equipment; they explain other advantages of such communication, describing generally the methods of shaping single-band signals (filter method, phase-compensation method and phase-filter method). One prac- t~cal example of how a phase-filter method works is given. In conclusion it is stated that a switch-over o single-band radio communication requires a fre- quency stability of about 10-~ 4 10-9 and introduction of a searchless and trimmingless radio communication: Some of the possible ways for solving this problem are the development of high-stability quartzed frequency grids and the use of atomic frequency standards. There are 3 figures. Card 1/1 -# ' - -= 7t~  Translation from: Referativny p 105 (US5RT AUTHOR: Maksimchuk, V. L TITLE: Sandbanks in the Dam (Osobennosti cheskogo podpora 14-57-7-14861D zhurnall Geografiya, 1957, Nr 7, Backwash Area Behind the Zaporozhe rezhima perekatov v zone periodi- ot Zaporozhskoy plotiny) ABSTRACT: Bibliographic entry on the author's dissertation for the degree of Candidate of Technical Sciences, presented to Mosk. in-t. inzh. vodn. kh-va (Moscow Institute of Engineering and Hydraulics), Moscow, 1956 ASSOCIATION: Mosk. in-t. inzh. vodn. kn-va (Moscow Institute of Card 1/1 Engineering and Hydraulics)  112-57-8-16350 Translation from: Referativnyy zhurnal, Elektrotekhnika, 1957, Nr 8. p 45 (USSR) AUTHOR: Maksimchu-k, V. L. TITLE: Peculiarities of Bars in the Area of Periodic Lockup Due to the Zaporozh'ye Dam (Osobennosti rezhima perekatov v zone periodicheskogo podpora ot Zaporozhakoy plotiny) PERIODICAL: Izv. in-ta gidrol. i gidrotekhn. AN U`krSSR (Bulletin of the Institute of Hydr;Q logy and Hydroengineering, AS UkrSSR), 1956, Nr 14 (21), pp, 37-43 A-BSTRACT: Bibliographic entry. Card 1 / I  PYSMIJ, Boris Andrayevich, prof.; IWSAKOV, Sargey Vasil 'yevich; KAKSIMCH!.%-' Vladimir Lukloh- SOKOLINIKOV, Turiy Mikolayevich. Prinimal '4' _'& u~h yP.- M. G.B.. TOLKACHOV, A.B., rateenzent; TSIMBERG. I.Ye., retsenzent; PF.CHKOVSLAYA, O.M., red.; KATVEY- (~, A.At, takhn.red. [Problems In planning channel deepening auto] Voprosy proekti- rovaniia dnouglubitel'nykh prorezei. Pod red. B.A.Pyshkins. Kiev, 12d-vo Akad.nauk USSR, 1959. 157 P. (KIRA 12;12) 1. Chlea-L-orrespondent AN USSR (for Pyshk1n). 2. alavnvy inzhener Dneprovskogo bassaynovo,upravloniya puti (for Tolmachov). Me- challaik otdela vodnykh putey Ukrgiprorechtransa (for TSimberg). (Rivers--Regulation)  PIWIKIN, B.A. (Pyahkin, B.A.), otv.red.; TYULFJIEV, H.O. (Tiuleniev, M.O.J. red.; ARISTOVSXIY, V.V. (Aristovstkyi, V.V.J, doktor tekhn.nauk, red.; ALPATIYXV, S.M. (Alpatiev. S.M.], kand. sellskokhoz.nauk, red.; ZHMINNTAK. T.A. [Zheliezniak, I.A.I. kand.takhn.nauk, red.; MAKSIMCHUK, V.L. [Maksymchuk, V.L.], kand.tekhn.nauk, red. red.; FITECHKOVSKATA, O.M. (Piechkovslka, O.M.1, red.izd-va; KADASHXVICH, 0.0.. tekhn.red. [Over-all utilization of Ukrainian water resources; collected studies] Komplekene vykorystannia vodnykh resursiv Ukrainy; obirnyk nnukovykh prats'. Kyiv, 1959. 173 P. (MIRA 15:1) 1. Akpdemiin nauk URSR, Kiev. Rads po vyvchenniu produktyvnykh syl URM. 2. Chlen-korespondent AN URSR; golova Komisii po proble- mi konmlekencgo vikoristannya vodnikh resursiv URSR, Rada 1)o viv- chennyu produkti-vnikh oil URSR AkBdemii nauk URSR (for Pishkin). 3. Chlon-koresnondent Aii URSR; Ukrainslkiy naukovo-doslidniy inatitut gidrotekhniki ta meliorataii (for Tyulenev). 4. Institut gidrologii i gidrotelchniki All URSR (for Zheleznyak, Maksimchuk, Pinbkin). (Ukraine-Water retiources developnent)  MiKS1140MI, Vag Approximate hydraulic calculations for channel-deepening cuts@ rzy. Inst. Cidrol. i gidr..A;i URSR 15:12-22 '59. MIA 1219) (Rivers-Regulation)  -MMIMCHUK,-,V-L. [Maksymahuk, V.L.J; SIDOMHUK, V.M. [Sydorchuk, V.M.) Design of simpli ied slope lining with dumped unsorted stone. Visti Inst.hidrol. i hidr. AN URSR 21;;2j--2~ 162. (,-dR.A 1624) (Shore protection)  PYSHKIN. Boris Andreyevich; RUSAKOV, Sergey Vasillyevich; MAMM- CRUK,Vladimir Lukich;?ECHKOVSKAYA, O.M., red. lzdzVff-,- -TMVFFUM-, A.-A., ,ekbn. red. (Design of protective structures on the banks of reservoirs] Proektirovanie za-hehitnykh sooruzhenii na vodokhranilishchakh. Pod red. B.A.Pyshkina. Kiev, Izd-vo Akad. nauk USSR, 1962. 134 p. ,(MIRA 15:5) 1. Chlen-korrespondent Akademii nauk UWR (for Pyshkin). (Reservoirs) (shore protection)  PYSHKIN, B.A., otv. red.; ARISTOVSKIY, V.V., doktor tekhn.nauk, prof., A V red.; RUSAKOV, S.V., kand. tekhn. nauky red.; ~ STPICHTIK V.L., kand. tekhn. nauk, red.; TSAYTS, Ye.S., kand. tekhn. -Imuk-, red.; FECHKOVSKAYA, O.M... red.; LIBE.I.'AN, T.R., tekhn. red. (Changes in the banks of reservoirs]Pererabotka beregov vodo- khranilishch. Kiev, Izd-vo Akad. nauk USSR, 1962. 140 p. (KERA 15:11) 1. Akademiya nauk URSR, Kiev. Rada po vyvchenniu produktyvrWkh syl. 2. Chlen-korrespondent Akademii nauk Ukr. SSR (for Pyshkin). (Reservoirs) (Coast changes)  "" ?,*.,', - !` t " 1 ." . ; . . ! 'vi . . I. ! '-, - . . . I , , . . - . . . , . : . . .17 - I - ,, , ~ i,:, , '. ~ I I- , ,, , - , , - ~ -. *,, ~ -: ~rl - % , . . - . - . t, , --:. ~ . : .I . I - ~ . . ; I '. ; . .. .. :- * . . ,.- , , - I . - - . . . . I I : . - . - . . -I . . . I I  RODIONOV, 1.0. [deceased); MAKSDICHUK - _V.L.[,'-aksymchuk, V.L.1) kand. tekhn. nauk, Otv. red. (Types -f water intakes from reservoirs in the Ukraine and experience in their use) Typj vodozaboriv z vodoimyshch Ukrainy i dosvld ikh ekspluatatsli. Kylv, Naukova dumka, 1965. 103 p. (IiIRA 18:4)  P. 20-119-5-40/59 T IT LS PERIO'DIULS RLOT, LBST car& 1/3 Ifate Ions Rozenfell&' Of 511 %rat-ionov) tine FroPertle' on the P&SB'-"a hohilch S-Voyst""" Gul . 119, v, 5, (0 pasiviruyua 555R9 1958, '701 3.eiuii lisuk Doicla,dy ('US5fL) and. 99. 986-989 tate of alloys of iron finished in the passive S .Is ) is USUB611Y tharef ore are it The ot inless Ste, ana, the alloys Until r, V niolcel a h1orine ions .&e solutions. e ions 0 in chlorl t 01 chlorin - presence of corrosion ar ng effec te 'an be 'tivati the electro dan& subSeCt to 7,own that the .-vat ors into thor 0 f the has been 10 . a of PaS83- e& -The au in aqor 0 .tjo Ics intro&UG & suppres, Ln Whi-Ch Spea , properties by letely elllua6ed " enoluenOn "e analogoi the ano(lic oomp tea6 a new Pht, ions haly JU sholls lu- investiga 0 Sulf 13. 'L Cliagra () I SO Lis . e ions' il.18119T in a ' 0h a following, t to chlorin steel Ifate. In su ,jtlh respec curves O'f thsa&&jtjons of 611 ion polarization h qariOus t the P01ar'zat r 1,qsture a tion Of lia 'l lit 4StiG a , solution 'ha,aoteT ~.L-Ujjj activation ---Lvating - xiave no - The sulfate ',,liassivati 'nflu,n,e On a --Learly nAr properties of ,,, (B t ith regard-to the solid solution eel X 28)-The sulfate ion also Of nickel by chlorine ions Prevent, - The Passivating  On the Passivating Properties of Sulfate Ions 2o-119-5-40/59 effect of the BOO ions on stainless steels was to an im- 4 portant degree d6pendent on their part of chromium and to a smaller degree on the presence of nickel. Further de- tails are given. The effect discussed can be explained satisfactorily when the processes taking place on the s~-xrface of the electrode in the presence of chlorine ions and sulfate ions are of adsorption-type character. The passivating properties of the sulfate ions are dependent on their preferred adsorption by the metal surface and by the displacement of the chlorine ions from the surface. There are 4 figures and 5 references, 4 of which are Soviet. ASSOCIATION: Institut fizicheskoy khimii 1kademii nauk SSSR (Institute for Physical-ChemistryIS USSR) PRESENTEDt December 23, 1957, by L. N. Frumkin, Member, Academy of Sciences, USSR SUBMITTEDs December 21, 1857 L;urd 313  KAKSIMCHUK, V.P.: ROZMWZLID, I.L. Use of curves of charging for investigating the phenomena of passivity and the tendency of stainless steels to pitting corroBion. Zav.lsb. 26 no.3:288-290 '60. (MUU lq:6) 1. Institut fiziaheakoy khimii Akademii nauk SSSR. (Steel, stainless--Corrosion) (Passivity (Chemistry)(  A 0 0 6894 AUTHORS: Maksimchuky V. P., Rozenfelld, I. L. S/020J/60/131/02/041/071 B004/BO07 TITLE: Investigation of the Mechanism of the Activating Action of Chlorine Ions by Means of Tracer Atoms if J. PERIODICAL: Doklady Akademii nauk SSSR, 1960, Vol 131, Nr 2, pp 354 - 356 (USSR) ABSTRACT: The authors stated in reference 6 that the activating action of chlorine ions is suppressed not only by oxidizing agents, but also by sulfate ions. They presumed that the passivation of stainless steel is caused by the adsorption of anions on the atir- face of the alloy. For the purpose of checking the correctness of this assumptiong the adsorption of chlorine ions on a chromium electrode from a 0.1 9 YaCl solution was investigated by using Cl 36 (half-life 4.105 years) with a specific activity of 0.058 millicurie/g. The use of an electrode pressed from chromium pow- der instead of from stainless steel was considered to be per- nissible by the authors, because it is just the chromium content of stainless steel that causes the passivating action of sulfate Ions. Figure 1 shows the dependence of the adsorption of chlorine ions on the potential of the electrode. In spite of equal experi- Card 1/3 mental conditions, the quantity of adsorbed chlorine was different.  6899(g Investigation of the Mechanism of the Activating 3/020/6(f/131/02/041/071 Action of Chlorine Ions by Means of Tracer Atoms B004/BO07 In the first experiment, adsorption began only at +1.3 v, and the quantity of adsorbed Cl continued to remain low. In the second experiment# adsorption already began at +0.8 v and attained maxi- mum values. In the following (third and fourQ experimentag ad- sorption again decreased. Herefrom the authors draw the conclusion that, in the first experiment, the surface becomes activated only after a certain barrier has been overcome. The lower degree of ad- sorption in the 3rd and 4th experiment is explained by the fact that the irreversibly adsorbed chlorine ions in the preceding ex- periments inhibit further adsorption. Figure 2 shows the time de- pendence of chlorine ion adsorption at 1.0 v. The adsorption in- creases linearly during the first two hours, after which it at- tains saturation. Figure 3 shows the adsorption of chlorine ions in the presence of Na 28o 4* From a solution of 0.01 N HaCl + + 0.01 N Na 2SO4 less chlorine is adsorbed than from a pure NaCl solution. If the ratio of the concentrations NaCl : N&2SO 4 > 10 is increased, hardly any further chlorine adsorption occurs, It follows from figure 4 that the OR--ions have a stronger Card 2/3_ inhibitory effect upon chlorine adsorption than the sulfate ions.,  689W Investigation of the Mechanism of the Activating S/020/60/131/02/041/071 Action of Chlorine Ions by Means of Tracer Atoms B004/BO07 The pitting of stainless steel may therefore be prevonted by suppressing the activating effect of chlorine ions by the ad- dition of sulfate ions or hydroxyl ions. There are 4 figures and 7 references, 5 of which are Soviet. ASSOCIATION: Institut fizichaskoy khimii Akademii nauk SSSR Physical Chemistry of the Academy of Sciences& U PRESENTED: November 21, 1959, by A. N. Frumkinq Academician SU13MITTED: November 5, 1959 Card 3/3  26550 S/076/61/035/008/014/016 B11O/B1O1 AUTHORSs Rozenfelld, I. L., and Maksimchuk, V. P. (Moscow) TITLEs Passivity of stainless alloys in chloride solutions PERIODICAL: Zhurnal fizicheskoy khimii, v. 35, no. 8, 1961, 1832 - 1838 TEXTs The causes of the activation of stainless , highly oxidation-resistant alloys by electrolytes containing chlorine ions are as yet unknown. The results obtained from an investigation of the effect of alloy composition uDon the condition of stainless alloys are presented here. Passivation with anodic polarization served as a standard. The authors (Zav.-,dsk. laboratoriya, 1959) showed that the method of charge curves taken in the automatic potential recording was suited for studying passivitj. The automatic electron potentiometer -MI-09 (EPP-09) was connected to the emf over a d-c amplifier with an input resistance of 108 ohms. When recording the curves, the current strength in the circuit was stabilized t,- -1 107 ohm resista ce connected in series with the electrochemical rell, Samples with 0-5 am open surface and placed in polystyrene cases were ~r,und, degreased, and kept for 12 - 24 hr in the exsiccator. A calomel --.lectrode Card 1/8  26550 S/076/61/035/008/014/016 Passivity of stainless ... B1IO/BIO1 served for a reference. The following steel types were examiiied in a 0.1 N NaC1 solutions 1X13 OKh13); X17 (Kh17); X28 (Kh28); 1X13M2 (lKhlW); IX1849T (1Kh18N9T); A181412MZr (Kh18N12M2T); Y18IA13M3T (Kh18N13M3T); X20R80 (Kh20N80); X301170 (Kh3ON70)1 X50H50 (Kh501T50); inAddition, Fe, Ni, Cr, Mo. The alloys polarized up to a potential ("activation potential"), at which they passe d over into the aetive state. The said potential characterizes the resistance of alloys to the activating action of chlorine ions. Curves 1, 3, 5 (Fig. 1) concerning chromium steels present a rising passivation against chlorine ions with growing Cr content; the overvoltage of the ionization reaction of the alloy is thereby caused to rise. From among individual steel components: Fe, Mo, Ni, and Cr, the latter is passivated the easiest. Fe remains active. The rates of anodic dissolving of Ni and Mo remain almost the same, as they do not undergo any strong anodic pollarization. Thus, a chromium content favors passivation. Fe and Ni in binary solutions with Cr display almost the same behavior. Ni addition to Fe-Cr alloy, however, raisea passivation. Thus, with equal Cr content, 1Kh18N9T steel is polarized more strongly than Kh17 (Fig. 1), because Ni modifies the alloy sructure b~ an austenite formation. Various sets of the same Kh18N12M2T with equal chemical composition differed in their Card 2/8  26550 S/07 61/035/008//014/010' Passivity of stainless... BlIOYBI01 behavior due to differences in structure. Whereas ferrite structure diminished anodic passivation, austenite structure increased it. Ni-Cr alloys are passivated at high current densities. The threshold of current density effecting passivE.tion drops with rising Cr content (Kh50N50: 100pa/cm2; N70Kh3O: 2000"/cm 2i N8OKh2O: 10 ma/Cm 2). The Cr 2072- ions resulting from the anodic polarization of Cr alloys probably suppress the activating action of chloride ions. In the presence of sufficiently high 2- positive potentials, chromium alloys dissolve to form Cr 207 . Due to selective dissolution, the surface is enriched by the second comronent, Ni or Fe. Cr 2072- ions accumulated in the solution near the electrode passivate the Ni surface of a Ni-Cr solution to a higher degree than the Fe surface of a Cr steel. A chlorine ion action upon Ni is alreaf-y fully suppressed with a chromate concentration: c 2- / c 10, but not CrO4 Cl yet with Fe for c CrO 2-/c Cl- ,25. Molybdenum content also passivatess 4 ,ard 3/8  26550 S/076/61/035/008//Gl4/'016 Passivity of stainless ... B110/B101 KhI8N12M2T and Kh18N12M3T steels are polarized more strongly than 1Kh18N9T (Fig. 1). Mo content likewise influences the corrosion structure of -teele and reduces the number of pittings. The diagrams of Fig. 6 consist of two parts: (I) at a low strip-chart speed, the entire course of potential change is observed during 90 min; (II) at a high strip-chart speed, individual changes in a narrow timespan are observed. The steep potential change after switching on corresponds to the load of a twofold electric layer; in this case, the potential of stainless steels becomes unstable due to chlorine ion action. Frequency and boundaries of oscillations depend upon composition. A Mo addition to NiCr steels causes the upper and lower oscillation boundaries to shift toward positive values. Thus, Khl8,,,ll2M3T must have most positive potentials with the least changes. The authors (Dokl. AN SSSR, 196o, 131, No. 2) used radioactive indicators to show the adsorption character of the surface activation by chlorine ions. A positive shift of potential renders the adsorption of the latter easier. The dis- lodge loosely bound oxygen; this disturbs passivation. As the potential drops, active-passive galvanic cells operate. The total potential shifts toward negative values with desorptiun and a drop of the activatinj action of Cl ions. The adsorbed residual oxygen effects passivation as the cycle Card 4/8  26550 S/078/61/035/008/014/016 Passivity of stainless..6 B110/B101 is repeated. The appearance of pittings gives rise to activity of local galvanic cells, and the total potential turns negative as activation drops. Thus, pittings acting as punctiform protectors prevent the forma- tion of corrosion centers in the neighborhood. There are 6 figures, 2 tables, and 9 referencest 8 Soviet-bloc and 1 non-Soviet-bloc. The reference to the English-language publications reads as follows: M. A. Streicher, J. Electrochem. Soo., 103, 3751, 1956. ASSOCIATIONt Akademiya nauk SSSR, Institut fizicheskoy khimii (Academy of Sciences USSR, Institute of Physical Chemistry) SUBMITTEDj December 30, 1959 x Card 5/8  ROZENFELID,, I.L.; MAIMDICHUK, V.P. (Moscow) Passivating properties of anions. Zhur-fiz.khin. 35 no.1-1:2561- 2568 N 161. (MIRA 14:12) (Passivation) (Anions)  ACCESSION NR; AT4010277 S/5053/62/000/000/0006/0018 AUTHOR: Rozenfel Id, 1. L. ; Maksimchult, V. P. TITLE: The passive state of stainless alloys in the presence of chloride ions SOURCE: Trudy* Vsesoyuznoy mezhvuzovskoy nauchnoy konferentsii po voprosam bor'by*s korroziyey, Balcu, 1962. Moscow, 1962, 6-18 T OPIC TAGS: alloy, alloy steel, stainless steel, nickel alloy, chromium alloy, corrosion, corrosion resistance, chloride ion activation, passive state, anode polarization ABSTRACT: It 's well known that stainless alloys which show marked stability in o)ddizing media can readily be activated in the presence of cliloride ions. The mechanism of this activation, however, is not yet clear. In the present paper, a new electrochemical method, based on anode polarization, has been used to study the effect of alloy composition and the presence of other anions on the activation of stainless alloys by chloride. As was also indicated by practical observations, the corrosion resistance of stainless steel in 0. 1 N 'NaCl was found to increase in the order lEhl8N9T< I C103 > C104> Cr04 > S04. There is thus no definite relationship bet~veen the oxidizing activity of anions and their effective- ness in maintaining the passive state. Finally, the mechanism of these effects was studied by investigating the adsorption of isotopically labeled chloride (C136) to Cr elec- trodes in the presence of various mions; these studies showed that adsorption of Cl ca~-- .,d prevented by sulfate and hydroxyl ions, and that these ions can even displace Cl from the electrode, thus preventing activation of the metal. This is interpreted to favor L:.c- adsorp- tion theory of Cl ion activation. Orig. art. has: 17 figures and 3 tables. ASSOCIATION. Institut fiziohaskoy khimii AN SSSR OInstitute of Physical Cil'jrnistry AN SSSR) Card 2/,3  ACCESSION NR: AT4010277 SUB,'YIITTrD: 00 SUB CODE: '.vlM DATE ACQ: 28Jan64 NO REF SOV., 007 ENCL: 00 OTHER: 002 Card 3/3  -.14AKSIVIENKO, A. A. MAKSIMENKO, A.-A. (Chief Veterinarian, ~Ilain Adminlotraion of Aninal Husbandry, of Siberia and' the East, Ministry o-,f Animal Husbandry, LS-"R.) from the,2ractice of the treatment of acute meteorism"of the stomach in horses.. So: Veterinariya; 23; (10-11); October/November 1946; Lncl. TAECON Tyrapariit-1-3s; Z-;:gas jti or inti;sti,~2 :-:cd. DII-ctio~lal-L7/ w 0 0 0 0 0 0 0 0 0 0 0 0 * 0 0 0 0 0 0 0  ---- Ajr.RTU7TJrQ A-A t-1 -- - 1. wo~ Stophylococcal antiphagin for treating suppurative skin diseases in a district outpatient clinic. Test.derm. i van. 31 no.1:48 Ja-JP '57. 1. Iz Severskogo rayonnogo kozhno-venerologicheakogo kabineta. (SKIN-DIMUSES) (STAPHYIA)COCCUS)  MAJODMIKO, A. F. Maksimenkollf- A. F. - "The scalene musches (Yo. scaleni) of certain ma elsq'I TrudY Alms-(At. vet.-zootekhn. in-taf Vol. V, 1948, p. 322-26 So: U-3566, 15 March 53, (L,-topis 'Zhymal Inykh Statey,, No. 13, 1949)  14AM32IMNKO, A. F. Yjaksimenko, A. F. - tMe dorsal serrate muscles of mammals (Mm. serrati dorsales)." Trudy Alra-A+. ve+..-zootekhn. in-ta, Vol. V, 1948, D. 327-32 So: U-3566, 15 ~'arch 53, (Letopis 'Zhurnal Inykh Statey, No. 13, 1949)  IAMM,. ,WO, h. F. "Topographic anatomy Of the withers area of the horse." Aiira-Ata. Kazgosizdat. 1952, 112 pages vilth illustrations. SO: Vet., Ju-IY 1952, Unclassified.  MAKSDMO, A.F.,, zasluzlionyy deyatoll nauki KazS&R, prof. On the 70th birthday of Bronislav Aleksandrovich Dombrovskii, professor and active member of the Aoadeny of Sciences of the Kazakh S.S.Re Trudy AUI 90-11 156. OURA l5s4) (Domtrovskii, Bronislav AlekBandrovich., 1885-)  HAKS11MKO, A.F.,,.prof.; PANIN, V.M., aspirant TreAment of chronic purulent and catarrhal pnmimania of calven with a novocaine block of the stellate ganglia In conjunction with Intrasternal penicillin. Trudy AZVI 10:298-305 '57. WRL 12:8) 1. Ix kafedry operativnoy khirurgii I topograficheskoy anatomli (zav. Imfedroy - doktor prof. A.F.Mak-simenko) Alma-Atinakogo zoovetinstituta. (Calves-Diseasea) (Novocaine) (Penicillin)  MAODISHKO, A.F., prof. active approach to the stellate ganglion of calves in blocking it. Tridy AZVI l0:."106-309 '57. (KIRA 12:8) 1. Iz kafedry operativnoy khirurgii i topograficheskoy anatomii (zav.luifedroy - dGktor prof. A.P.Makeimenko) Alma-Atinskogo zoovetinatititta. (Novocaine)  J1, USSR Hurw-n and ,nli.i,,~l Eorpholo&~y (For:-inl and S Pz%t-hollo'gic~.1). Problerx~ ~,bs jour Ref. Zhur - Biologlya, No. 3, 1959, 12203 11,1,~ksimenko, N. Author Inst Title Doctrine on the Chfnge,billty of Organs and Syetems of HuL,,an Bodies. CrIS Pub Vestn. khlrurgii, 1957, 79, No. 8, 3-19 Using the histotopoE;r~phlc -.iethod of Inv,_,stI,--n- tion of tr,~nsv,~rqe suctions perforr.,.ud on one fend the same level of b.,aic nerve trunks In v- 'rious p(-,-rsons, th.. rirllces of br-,.chl,-.1 rnd liirab-~r pley.uses, the n--~rvcs of the upper and lover ex- trerAties, V rend VII nerves were studied. It la! ,s estr1lished th-,..t the r,,.dices rend nerves dif- fer fror. eich other in the same person and In Qard 1/4  USSH / Human r,.nd r-nd C-1 R-Aholoclc--~l). Gencr-A. Problems. -cur Ref. Zhur - 'SicloEiyf~, No. 3, 1959, 122~3 vr.rlou6 individu4~ls according to the qu~lntity of fibers. ~-ssymetry -in the number of Eyelin- ,--.tc,d fibers in tho r7idiccs of th6 brF~chial )lex- us is noted. Tho numb,~r of myellnited fiberz3 is gro-ter in the posturior radicos thnn In th-, anterior. in the int..xcostal n.rves, the 6eG- ment~~tion and syrinotry In thu diotribution of myclin,,Lted fibers is -.bsent. However, at tho sf~me time, rugularity In the distribution of seplnrv.te typos of fib~!rc is noted, I.e.: in the Intercostc.1 norves, sm,,.11 (dl,-..q 1-411.) cmd rAddl (4-6 are provalant; in the cutfincous, small, In tilt muscular, large (6.1-10,,u,), rind in the v!,scular, small fibers. InterrcDlacei:iont Card 2/4  USSR / Human and Animal Morphology (Norr.-ml Pnd S PRtholo.g.i6r.1) &Generp.1 Problems. ;.be Jour Ref. Zhur - Biologiya, No. 3, 1959, 12203 of the Innerv!itlon area (overlapping zone) and connection between t-he nerves Is mostly observod at the limits of the nerve complexes, i.e. nerves which have the same segmentary and genetic simil- arity. The quantitative formation of nerve fi- bers Is the more st!~ble at the li.-aits of a par- ticular nerve complex, the enrlier wns tho nerve trunk differentiated In the phylogenetic oequenco. For clarification of the existing connections between the anatoalclr~l diversities and the func- tional peculi%rities In some pLrts of t:ae venous system, experinents on anlmrls were conducted. Venous plexuses around tho org-ns of the small pelvis, In the Intestinal tract, in the br~-.In and heart ainuaca In the venn Galan ma6na vieru Card 3/4 Card 4/4  Correction of vertical strabismus by the method of capsulorrhaph7 in eongenital byperplasia and absence of the rectus Inferior muscles in both eyes. Vest. oft. no.2:55-57 162. (MIRA 15:4) 1. Nafedra. glazrqkh bolezney (zav. - zaoluzhennyy deyatell nauki prof. M. L. Krasnov) TSentralinogo instituta usovershenstvovaniya vrachey. (Erg--MUSCLES-ANCHALIES) (STRABISMUS)  i  own-, -thip.-approx. a r ar. oll:~ Lts ancU .-:17,77 77~  ratd bri --5`.~L.  KkKSDENKO. A.P.: TVERDOKHIZBOV, V.I. Work function of electrons from the surface of small-size particles. Izv. vys. ucheb. zav.; fiz. no.1:84-87 164. (MIRA 17:3) 1. Dnepropetrovskiy gosudarstvennyy universitet i Dnepropetrovskiy gornyy institut imeni Artema.  mAKSImINK0, A.P. Dissertation: "Investigation Into the Theory of Solid Solutions. Cand Phys-hath Sci, Dnepropetrovsk State U, Dnepropetrovsk, 1954. (Referativnyy Zhurnal, Khimiya, Moscow, No. 16, Aug 54.) SO: SUM 393, 28 Feb 1955  VARICHN N.I.; BUROVS, L.M.; KOLESNIGHMO, K.Ye.; MAKSDffMO, A.P. Investigating strongly supmeatax ted AI-V, AI-Mo, and AI-V solid solutions prepared vtttr high rates of pooling. Piz. met. i metalloved. 15 no.2:292-2" F 163. (MIRA 16:4) 1. Dnevropqtrovskiy gosudar9tvennyy universitat. Alumimm alloys-Me tallogmpbr) Wlutions,, Supersaturated-Cooling)  YAGTJPOL'SKIY. L.R.; VISIMVSKAYA, G.O.; YAVORSKIY, D.F.;-GRUZ, B.Ts.; XMIMM, A.$.; XHASKIN, I.G.; GONSETSKAU, Ta.T.; MPRIANOV, Improvement in the method for producing p-nitraphenvlchloro- meth~lcarbinole. Hed.prom. 13 no.3:20-21 Mr '59. (MIRA 120) 1. Institut organicheakoy khimii AN USSR i Kiyevskiy khimiko- fariviu~esiiftlchaskiy zavod Imeni M.V.Lomonosova. (METHANOL)  fin Mms I At Im Tir f(w) MALI 1:  $01037o V.~ add a so --anes dmokrhd Lot' .Were falli ad er ae*._7% n_),__ 080" the. 4 bUl, m1b t ed: Ithin to t ". _. . - i -i - . i, o_. -- ;'f I or-- thorl-~Ar a No ther . was ays .."the adminis- 6ftOks!-_7.hdmopole IO'delld-, noUbated -,at a - emperature roew or,.-,a-_perjo t_-, Abu d:--Ol. _t40. ... 7s: ful in. 'n,,; -an 10- W 12 days e .ife d'464ii-I -the -AMMAid: died IMM' t r* t e pe-of.the-.- Oid iiven~ --meroap ine rradiatlone~-.-_- Thi d In:Aoses b0 Apur.. 1, b d 'Veight--2 days pr or to the ~4 grams, pe k grams. Iriadlat ion j -'bone marroll~ in an ot after the ra aii~ q# s Lnfuse& intd-: thd::-:an m- cuto,~rad ation d -hin. 4-.~5_ d' ~_taj-.-disd 'Ifit ays after.-., 0 0 ess' he it 6 iia,ddl o_: eath-of d t 1*1 Oh it - -admin-1 marro t _Ogeneous. o round*-.`,~_b'r-~-Av"dl tjofi~~,:;aj -,'i6 th -1:0 0 rvere-.uns lb on no: i Y q p -Ins A- rr t6 ~difAibtt 6. int h 2 ft gurea. JAS ~96 001', OF 1 Rg V  IYI,~ lvle /,,/ /~'dl 4 -.9. 1_.la2 EWGQ~JN57 Pb-4 SSD/AFHL/A ACC13SM R: il/l0299/64/OO0/Ol4/MOZl/X0?-1 0 14 SOURCE: Ref. zh. Biologiya. Svodnry tom, Abs. 14M139 AUMOR: Chertkov - I. L.; Su -ranyan, G- V.; 11 V.0 M- V.; hepsholovigh, L. L.; aksimenko, A. S.: Raushen- Rogacheya S.; 8 bakh, , 0. TITIZ: Now data on the morphological basis of socondar7 sickness with bona narro transplantation in irradiated dogs CiTED SOURCE: 1. 3 Vass. konfor'lo"ntsiya po peroaadko tkaney i or anov, 1963. Yore 243-244 TOPIC TAGS: secondar7 siclaiess, bona marrow, transplantation, dog, irradiation, irradiation lethal dose, radiation sickness TRANSLATION: The ex a L was staged on 23 dogs irradiated with a lethal dose (1,000 r~.r 'Baonnto marrow was introduced intravenously in a dose of 5 x 5 x 1.0 - 15 - loy nuclear cells. Donor erythrocytes were determined by differential agglutination using dogs A- as donors and dogs A+ as recipients. Loukooytes wore datoxmilned by sox Qfd 1/2  L 15287-65 ACCESSION RR: AR4o45857 chromation (donors - females, recipients - males). To determine the activity of immunologically competent cells, the donors were immunize4 with a pure Vi-antigen of typhoid bacilli and the Vi-antibodios were determinod in the recipients. A myelogram. investigation showed that aplasia and hypoplasia appear in 2 to 3 days, and hemopoiesis is partially restored in 4 to 5 days. Young myeloid cells appear In the recipient's blood and in 5 to 7 days donor erythrocytes (2 to 3-5h,') also appear. Pron the seventh day hyperbasophilic, cells are found which the authors regard as transitional forms from homocytoblasts to lymphocytes. Later on hemopoiesis stop od, but the number of lymphocytes increased sharply reaching 90 to 8eo of the total number of leukocytes by the 8th to 9th day. Opening of the bone-marrow disclosed reticular h7parplasla typical for radiation sicimess. The time required for transformation of blood formation was determined by antigen differences between donor and recipient. The conclusion in dremn that secondary sickness 1s caused by the transfor ation of basic blood-forming calls into immunologically competent ones. SUB CODE. LS ENCV: 00 Card 2/2(1  CHERTKOV, I.L.; NOVIKOVA, M.N.; RCGACFITA, L.S.; MMIMINKOI A.S., RAUS,fENBAKI! J Transformation of hemc~,oileti^ ce-21's r~f transp'rin-~ed bone marrow into ImmunologIral"y c-upptent c9,113 in dogs. Ved. rad. 8 no.6:5`14.0 Je 1. Iz radiobiologir!heskoy (zav. -- F, "~O. TSentrallnogo ordena Lenina krovi.  CRERTKOV, I.L.; MAKSIMENKO, A.S.; NOVIKOVA, M.N.; RAYSRENBAKH, M.O. Lymphoid changes of hematopoiesis in bone mar-raw transplantation in irradiated dogs. Med. rad. 9 no.6:8-19 Je 164. (MIFA 1A t 2) 1. Radiobiologicheakava laboratoriya (zav.- prof. M.0. Raushenbakh) TSentrallnogo ordena. Lenina instituta gematologii i perelivaniya krovi (dir. - dotsent A.Ye. Kiselev).  12111~&,yl ltiZ~~7,;,t- -C ) , / _ e - MAKSIMM, A.V.. insh. Causes-for the formation of air noises in reduction gear and ways to reduce them. Sudostroenie 23 no.9:32-35 S 157. (MIRA 10:12) (Gearing) (Marine engineering)  WSIMENKO, A.V., inzh. Uonsidering the mutual effect of shaped elements in the flaid flow calculations of ventilation systems. budostroenis 25 no.8:16-20 Ag '59. (KM 13:7~) (Ships--Heating and ventilation)  89353 S/08 61/010/002/003/'018 1),1100 B102YB209 AUTHORSs _,__Maksiraenko.,A1.~,j,!j Nikitin, K. N., Bashkirov, L. I. TITLEa On the thermo-elastic tensions in the walls of a reactor with internal unsteady heat sources PERIODICAL. Atomnaya energiya, v. 10, no. 2, 1961, 131-137 TEXT: In unateady processes, thermo-elastic tensions exceeding those during steady operation may occur on places of contact and in single parts. In order to be able to guarantee operation in the case of varying thermal loads, an investigation of temperature propagation is necessary, i. e. the problem of unsteady heat conduction must be solved under the following conditionag 1~ the internal heat sources are uniformly distributed in the wall material, 2 the coefficient of thermal conductivity of the material is independent of temperature, 3) the amount of the thermo-elastic tensions does not surmount the tensile strength of the material, the shape of the walls remains un- changed, 4) the temperature field is uniform. This problem is subject to the present paper, viz. for the cases of a plane and of a cylindric wall. Card 1/10  89353 S/069J61/010/002/003/018 On the thermo-elastic ... B102/B209 Since internal heat sources chiefly give rise to tangential strains, the present calculations are restricted to the latter only. First, the equa- z2t qv tion of heat conduction j>t/ar = ayr-2+ for a plane 26 thick wall is -)Y solved with the boundary condition at/C iy-�d . �h(t T_ t) and the initial condition '. at - oCl denotes the ratiot heat transfer to heat .0 , where h A conduction coefficient, tT - t0+or the coolant temperature (0c), t0 the initial temperature of the medium in contact with the wall, and c the rate of temperature change of the coolant. The coolant temperature is assumed to vary linearly with temperature and the power of the internal heat sources to be constant with respect to time (qV . const). Thus, the steady-state solu- tion Card 2/10  "931-3 s/o8q/61/on/002/003/018 On tho thermo-elastic ... B102/B209 t =f,+CT +W61 y" + 2 2a 62 h6 61 10 2sinP,,co9(P,'Y) N, (P.-Fs'n Pn COS6 PJ X X 0XP( (3% is obtained, where w c - qv/ci-denotes the rate of temperature variation of a point in the wall. Expressions for the thermo-elastic tangential * stresses ~-- are derived for various initial conditions. These ;xpressions show the following: The C are directly proportional to w and,,r2, and in- versely to the coefficient of temperature conductivity; the absolutely high- est strain appears on the surface of the plates; the magnitud*' of*the strain on the surface'rises with time. After some time, ~'j W.,2 2 2 1-1i 2a (1/3 - Y /; ). Only now, the authors proceed to considering heat sources of variable power and the variation of the coolant temperature This is performed for step-wise variation of coolant temperature and source Card 3/10  89353 SIOB91611010100210031018 On the thermo-elastic ... B!02/B209 U/x capacity (of. Fig. 2));i the linear and/or continuous conditions vhi6h were studied for introduction hold for the individual steps. In this case, ajE W'61 (1--!i)+E1X T--j, ( -2a 3 62 a X (w, (CD7 F(D 0- 1: Tj is obtained for 6, with t-1 (14) Y 2 sin ~n Cos (D'r-T1 + sin cas x n-1 , a (T-,r,) x exp On 2 sin P, cos ( Pnl, I Pn(Pn+si11P1%C0sPn n-i _p, a(,r-TL-'rj) Card 4/10 x exp1 62 1 It T. A-;  8935~ S/089J61/010/002/003/018 On the thermo-elastic ... B102/B209 ~ 2 .) SW -x ~ DT-111 n-I M-(Pn+5'n 0- C()SPIJ x 0XP Pn 63 2 MO x 03 . (P,~+Sjjj eog n-1 .1 2 a Cr -, -0 it T. The mean wall temperature is given by x exp P" 63 to + CT + + a h6 + 62 + (E.. 13) 2 ret EWm0 m denotes the number of steps. After a respective time,o~m = -1-A J2a _ Y2/~2) (1/3 is attained again~ where-wM - am - q, lopt. NOW', the.-analo- Card 5/10 1 11  89353 On the therm.o-elastic ... S/089J61/010/002/003/018 B102/B209 gous process is performed for the case of a cylindrical wall: The equation A . 2t )t) + 21 is solved'for two different of heat conduction a (2 + -1 " Tt 2 r a, r c ar p cases of heat deduction. 1) The case of internal heat deduction for linear variation in coolant-temperature and isolated outer wall of the tube. With 3t , 0, '6t _h(t t), and to,,Nkexe the expres- -)r I r=r2 ar I'r=r1 T_ =0 tT = to+cr' sion 2+ /Aa +2k2 ]In Q+ -Ert (D hr,; k), ('17) a FT -_ - is obtained; k - r2/'l' r/ri, where r2 , r1, and r denote the outer, the inner, and the running radius of the tube, respectively. The mean tempera- ture is Card 6/10  89353 S/089J61/010/002/003/018 On the thermo-elastic ... B102/B209 1=1~+cx- ' F'-'k2- e2 + lia L 71T T 7 + k' 1+-L Ink+k'InQ+(k--I)x /93-1 ( Q2) x ---L -'-z 6 ( o; k; hr, 1 (19) hr, + a rf and for the thermo-elastic tensions on the outer and on the inner wall, (22) and (23), respectively, are obtained: ajE __ E I k24 I-I& a Tj ( -2 21' (22' ajE wrl 1 13 - tt a i (-jk2 - T T 20 In k+ (i5 - (D)-- (23) k2 - I Card 7/10  89353 S/069J61/010/002/003/018 On the thermo-elastic ... B102/B209 Furthermore. (k, Q) + Q'E -L1- x am~!-~L 4a a x tv, (ib, - (Dv) + (wt. P--% 'r- 7 vi i-t (D T- Ti where m again denotes the number of steps and f(k,~) (1_Y2) (1+k 2/32) 0 2 2 2_ ?. 4 (1+1/~ )1nk + k ln5+k After a re8peotive time, when the dif--.- k2_ 1 ference has become negligibly small, 113P G(H WMr? + Card 8/10 4a 2 2 2k2 In 1c); (25) C'tE tv~rf (-LIC2 -L - In k 0 2 (26)~  89353 S10891611010100210031018 On the thermo-elastic ... B102/11209 hold for the outer and inner temperature, respectively. 2) Deduction of heat to the outside with linear temperaturevariation in the--coolant and isolated inner surface. Unap= ajE wrl. [-L--Lk2- ' Ink 1-11 a 8 8 2 TS -_t + ((D - (D)IIBP (27) is obtained for the outer and (YOR at E WF2, k2 In k ~-!- (k- + 1) - 8 2(k' + (iD- - 0) Bit (28) for the inner surface of the cylinder. In investigations at ~he Laboratozi,)a nagreva Nauchno-iseledovatellskogo trubnogo institute, (Heating Lab~ratory of the Scientific Research Institute for I.Pubings) it was shown that a hollow cylinder may always be regarded as a rolled up plate. On this basit, some more formulas are given, expressing the temperature differences in terms of so-called form coefficients (m, n). It is finally shown that a hollow Card 9/10  89353 On the thermo-elaatic ... cylinder may betreated as The values of m, n, and m/n and n2 depend on k only. 2 Soviet-bloc. S/089/61/010/002/003/018 B102/B209 a rolled up plate with the thickness S are tabulated for several, r2/rl. mi..4 m 49 n There are 4 figures, I table, and 2 references: SUBMITTED: February 18, 1960 ---------- ?Z54, CM Ftr,,,CM q7j - - Card 10/10 Fig .2  LUOSHKIN, A.I.;.n ~ BAGIROVp Me.; VARTANOV, B.N. Efficiency of 3TS5A-f" trisectional turbodrills. Ag"b. neft. khoz. 41 no.11:12-14 N 162. (MMA 16:2) (Turbod~,')  kCESSION NR: AT4025307 S/0000/63/000/000/0173/0181 AUTHORS:. Bogdanov, 'G. r.; KozloV, P. 1-r Maksimenko, B. P. TITLE: Use of the field of the 'Ogra' itself for mass and energy analysis of fast ions emerging from a mirror SOURCE: Diagnostika plazmy* (Plasma diagnostics); sb. statey. Mos- cow, Goastomizdat, 1963, 173-181 TOPIC TAGS: plasma injection, plasma research, plasma instability, magnetic mirror, ionized plasma, mass spectrometer, ion mass'analyz- er, plasma density ABSTRACT: A simple ion mass analyzer was developed for the stream of fast ions emerging from a mirror. In addition, a spectrometer was developed for the measurement of the energy.spectrum of the ions. The two instruments were located in the region of maximum ol the mag- netic field of the "Ogra" apparatus, which was also used to separate Card 1/5  ACCESSION NR: AT4025307 the ions. The analyzer was used to measure the distributions of the fluxes of atomic and molecular ions ovlr thetradius of the chamber at azimuth angles 0 and 180*. The spe trome er was used to obtain analogous distributions for 70 and 250*. These data were used to determine the fluxes of the ions emerging from the "Ogra" througlu the mirrors. It was established that the fluxes of the H+ and H+ 1 2 ions are proportional to the current of0the injected ions, and that the density of the atomic ions is higher in'the unstabilized made than would follow from data obtained with the aid of neutral-particle detector-after &urning off the.injected current. The spectrometer was also used to investigiate the spectra of atomic and molecular ions leaving the mirror. At plasma densities above 10 6 cm73 the ion spectra have an anomalously great width which has not yet been ex- plained. The construction and adjustment of the apparatus are de- scribed in detail. Orig. art. has: 4 figures and 2 tables. Card 2/5  ACCESSION NR; AT4025*307 ASSOCIATION: None SUBMITTEDs igoct63 SUB CODE: ME DATE ACQ: 16Apr64' ENCLs- 02 NR REP SM 001 OTHERs' 000 Card 3/S  ACCESSION NR: AT402530'T ENCLOSURE: 01 Diagram of ion mass analyzer 1 - entrance slit 2 - collector 3 - flange shaded areas - geometric loci of Larmor centers of the ions entering the collector. The magnetic field is per- pendicular to the place of the figure. The length of the slot and of the collec- tor in the magnetic field direction is 120 mm Card 4/5  ACCESSION NR: AT4025307 Diagram of spectrometer: c0 5/5 ENCLOSURE: 02 1 - engrance slits 2 - blades of Ht ion collector + - blades of H2 ion collector Shaded areas - geometric loci of Larmor centers of molecular ions *&-h fixed Larmor radii and line shape for three values of the Larmor radius. T~e 18 ~blades for the atom col- lectors and the 21 blades of the molecule collectors are arranged in two tlers.  2 -mo UA An vwsl A 4r 6d-- F F q 0 W-4 W016W,%, z` s e- f lae r.--.tji con, et ect6r4::fOel' so", UICIA 6 9-P ~TXTLE*r. u q ace- &r ~ es - ~ er yaif,v.~'--19~. no. `5, AM -444 : i ete t i6ti A c or etector --------- - ~-O~ ' ' : -:"STR Th --of :ud ng arrLer.~,si icon,aco ter for measurivii a AM q Ross -surtace 16 t*, Pectra ~~of e Arg#-4m i A--- an ca rom 10 to or the.'70i ,:---deM he - Coun ers;- were made.- Jettedl;-- k6m: I4ijoil ana tr: C~ A,"; 100''' ~2 t ve.", Area. was -5 wit th- I coato- 0-90 C . - - -' , : ~. 4 icceeA 4 ---ji lng'--df 5 g did, pav, e: 10- e %reverse ted- -on --,a mapeti 'd '-b e-;:--- --coun erMl.--r~wer c.: eparator ~,ua a f- a-, I eam.o pro ons idt - ~:-te , ' i ~ ' " ' A '70 A, 'o :: - - 6 " ' ~ "' -* - j t 28. 49-5`4hC- 9i3rMVi ;,Th it le- istributlonmo -cot= or, amp U9 C~- . . -- , i144t".484d -liviliawn Id '01 1 2 Irotans- ~i -.. altaiii the g.z- recot( -.-,.spec rum a :neutr 1--partlaes- is 1~ i tiA i - :hi.~!'Ojkqi-; chamore, We, spimitnew vat -1 cc. rom AA-07 530 - -------- -  L ij!239~46 - .-AF60016.9, -47-77% i7~ 41onbl, -7 9 :z ij.- L~.- ~.~_-Amp itudd- AitiMutt --particles Pee rum~o _S t 9 t ng.-recor. - do cha.mbir 'pro ons n' was the -jaid6v Ad, -W uo~ fAlY d", ~ih, e-n'-. n-;kivY:-oia me a ar ki 'd i i~~ Oll ~V'~109' -o ..-at( energy-- sprea'd-7 f n6i_--Jtxcee _10 Itiads :di -0.1 ar a] s Cd  1. YAKSIIMKOO D. V. 2. USSR (600) 4. Science 7* Poisonous plants of the Far East. Biagoveshchenskp Amurizdayj, 1952. 9. Monthly List of Russian Accessions, Library of Congress, JaDuarys 1953. Unclassified.  SHIROKOV, A., kRnd. tekhn. nauk; MAKSIMBKO. F.; SAMITS, M.; GAVRILENKO, A. Mining steep coal seams without stope timbering In Kuznetsk Basin mines. Ugoll 34 no-8:55-59 Ag '59. (KM 12:12) l.Kuznetalciy nauchno-isaledovatellskiy ugollnyy institut (for Shi- rokov. Samets). 2.GlavW inzhener shakhty "KrasW Uglekop", Kuzbass (for 14aksimenko). 3.Zamestite 11 glavnogo inzhenera shakhty "Krasny7 Uglekop,' Kuzbass (for Gavrilenko). (Mining engineering)   act .46