SCIENTIFIC ABSTRACT SAVENKOV, A.L. - SAVENOK, O.L.

 -1,777, L 58861-65 EPA(w)-2/EWT( d~A Jlt)-2 ljp(c)____ GS _j_ ?__ -two . . - __,. _ _ ACCESSION MR: ATS007940 S/0000/64/000/000/059IM94 AUrHOR: Danilov, V. Yanchevich, 1. AU Zamoladchikov, D. L; Marchenko. D.* Polferov, E. A.; Rozanov, Ye. X.;, Savenkov, A. L.; Safonov, A. M.1 Shestov, A. V. TITIX: 1hereasing the internal beam current of the OiYal ~Vnchrocyclotron to 680- Hev tic SOURCE: International Confegn e on High Energy Accelerators. Vubrae, 1963. Trudy. 5 c Moscow, Atomizdat, 1964, 591 94 TOPIC TAGS: synchmeyclotron,-high energy accelerator ABSTRACT: The Laboratory of Nuclear Problems of oiyal modified the synchrocyclotror, to increase the intensity of the Internal beam. with the wor-k being conducted In 7 directions: (a) obtaining a higb-frequency program in:the synchrocyclotron such that the cirrent it, the terminal 'radius of the . ic'celerator would be a maximuni) 'am IbYcrlating a focusing system that compensates for the defocusing action of the 1 spatial charge at the center of the accelercl-r avid thus increases the sum currelft of acceleraied protons. The phase motion ifith* synchiveyclotran In analysed In CWj 1/5  ~8861_65 ACCESSION 11R. AT5007940 two principal stages; first, the capture of the particles at,the center of the sYM_ n chrocyclotron during the accelerating regime; and second, their phase motio uring' the acceleration process up to the terminal radius. The equations of D. Bohm and L. Foldy (Phya. rov., 72, 649 (1947)) are Insufficient fo the solution of the piob. r le~ of the optimum rapture of charged particles In the accelerating z'~egima In syn- chrocyclotrons of several hundred Mev. Ihis Is explained by the fact that,the. growth in energy per revolution in the first stage for a constant acceleraiing PO- tential (Uo=const.) depends upon the radiu's of the orbit. -The curve describing thit relative growth of proton energy per revolution as a function of radius was calcu- lated byImeans of pictures of the dee potential field which ware obtained from a model of the central region of the O1YaI synchrocyclotron in an electrolyt ic tank. Experimental meaisurements of the current at the radius R--30 cm determined the mag- nitude of ;a ini (growth of the circular frequency in unAs of.radians per secand2 that ensures optimum capture conditions. Choice of this radius necessitates exi:lud- Ing the Influence of variations in the phase conditions during protqn acceleration in the region of the middle and terminal radii. The magnituiSe of varied 9 Init ever a wide range vith variation of the magnetic field strength at the csntei~ of the accelerator, ror voltage at the des 'of ~o*12 Ulovolts' and fai'exileting Seem- card 2/  ACCESSION MR: AT500794o nes etry ?f the accelerating gap, the dependence of the intensity (capture effective j upon w s init, for the OlYal synchrocyclotron showed the optimum value to be 2.2 x 1010 rad/sec2 (B.I. ZamolodchUov,, et al. Preprint OlYaI P-720, Dubna, 1961). Correction of the parameters of the accelerator's resonance systemin January 1961 led to a frequency program with the Indicated value of at the beginning of a init acceleration, which led in turn-to Increasing the internal beam from 0.3 to 0.8 microamperes at the terminal radius ]~--274. 5 cm. The proton current -was measured b ; V 2 means of the induced activity of an aluminum target, according to the reactlan Al 24 (P,3pn)Na , obtained at"radii R 270 to 280 cm. A target with a lead backing was calibrated against a beam of protons, extracted from the synchrocyclotron chambert ? a by means of a Faraday cylinder. The second stage.of the work consisted in crea high-frequency characteristics of the synchrocyclotrion w o=w M and =UO(W UO l a that they ensure simultaneously the optimum conditions.for the capture of 4. long and their subsequent acceleration up to the terminal radius without-phase loss.~ During selection of the frequency program of.the synchrocyclotron consideration was taken of the -damping of phase oscillations during the process of proton accelamt1of up to the terminal radius of the accelerator. use was made of the invarlance of ON integral of action J' during the'adlabatio variations of the system's partmateirst L Crd 3/5  58861-65 ACCESSION MR: ATS007940 rurther increase In the Intensity of.the synchrocyclotron was reached by Introduc- t beam in the tion of additional vertical (axial) focusing of the accelerated ion central region of the accelerator, Investigations of the focusing systems demon strated the advantage of electrostatic'focusing over magnetic focusing at the can- ter of the accelerator. The system of focusing el6ctrodes used In the OIYaI syn- chrocyclotron was constructed with the possibility of regulating the gap between the dee and supplementary electrodes. Horeover, the configuration of the electric field can be varied by regulation of the arrangement'of the grounded screen placed between the dee and the potential electrodes. The Hill equation can describe the motion of the ions In the accelerator's magnetic field and in the electrostatic field created by the supplementary electrodes. The optimum-arrangement of the elec trcdes of the focusing installation was found by experimental study of the proper- ties of the system according to the dependence of the -beam current upon U - (foc-Usin f voltage in kilovolts) for various distances of the electrodes from the center of th, accelerator.. The internal beam current for the indicated conditions.was,approxL-. mately doubled, amaidting at the present time to 2.2-24 microamperes. Orig. art. hast 7 figures. card     PODLEVSKIY, A.V.; KOGAN, V.Ya.'; GORCHAKO", Yu.P.; YELIZAROVSKIYj G.I.; RYABOSHAPKAY A.P.; PIZNIK, S.R.; GOLUBEV, T.I.; GIN-ISE, LOA.; RASKIN M.M.; ZUYENK0 P.G.; KHOMIK,: S.R.; KATSTIELISON, I.A.. ZHILIN, S.I.; LYSENKOV,' M.N.; ROMANOV, B.G.; SAVENKO-V D.A.,. GIL L.T.; LEVINA, Ye.S.; VOVKI,- A.S.; IWLFDOV,, F.F. Annotations. Zhur.mikrobiol.,epid.i immun. 32 no.12:120-125 D 1610 (MIRA 15: 1. Iz Leningradskogo instituta usovershenstvovaniya vrachey imeni 'Kirova (for Podlevskiy).'2.*Iz Ukrainskogo nauchno-issledovatellskogo, instituta kommunallnoy giglyeny (for Kogan). 3. Iz Voronezhskogo meditsinskogo instituta (for Gorchakova). 4. Iz Arkhangellskogo meditsinskogo instituta (for Yelizarovskiy).,5. Iz Kiyevskogo instituta epidemiolo~ii i mikrobiologii (for Ryaboshapka, Reznik). 6. Iz zavoda meditsinskikh preparatov Leningradskogo rqasokombinata imeni S.M.Kirova (for Golubev). 7. Iz,Gosudarstvennogo kontrollnogo instituta meditsinskikh biologicheskM preparatov imeni Taraseviche (for Gintse). 8. Iz Chitinskogo instituta I epidemiologIii, mikrobio- logii i gigiyeny (for.Raskin). 9. Iz Ternopollskogo meditsinskogo instituta (for Zuyenk6). 10. Iz Rostovskogo instituta epidemiologii., mikrobiologii igigiyeny (for Khomik). 11. Iz Chelyabinskogo ineditsinskogo instituta (for,Gilt, Levina, Vovki, Posledov). (IMMUNOLOGY-ABSTRACTS) (EPIDEMIOLOGY-AESTRACTS)   M.A.p prof. (Kiyev); Prinimali iWhastiye: BFWITSKIY9 A.V.-(Kiyev); ITJI~Ovl, MI FEKAR P. P. ; S D -1.9i TARAINENKOj, M.I;ly A.&Y- BORSHCMSKIY, M.L.JOdeBsa); VILINTAMMI, tOI0 Ikov); 9 A -A - - KULAKOVA, S.A. ~ %imoferopol 'j; SOICOLOVAY YU.I. Marlkov) ABEEW ' 0 *1 . FUKS, R.A. (buepropetrovskj''BEMOSOVAl-Z A (Vimnitsa); VXLIUA, N.F. '(Zhitom:Lr),- SIDORMO, G.'P. (Ghernov:Lts DIYACHENKOJ F.S. (Stanislav). Reduction iA the periol therape#ic'pneumothorax following its use-in combination kith antibacterial theppy. Vtach. de*lo no,,12: 36--~O D 160" (MM 14: 1)' I- IrIxaJmskiy institut tuberkuleza imeni F.G. OlVi9k -for Kiebanov),' pgo 2: Dispaneer Yugo-zapadwrkh zheleznpffi dorog or A~erman). ~j Y~o (PNMOTHORAX) (TUBERCIUMLOWS eP  3/524/62/olB/OW/001/002 AUTHOR3: .8avenkov, V. Va., Candidate of Technical Sciences, Shevchenko, I. N.P Inner TITLE: Investigating the affect of zirconium upon the'structure and. properties of carbon steel SOURCE: Akademiya nauk 1JkrayjZ1Aoyi RSR. Ins~ytut chornoyi metalurhiyi. Trudy. v. 18, 11j62, r4etallovedeniye i termicheskaya obrabotka stali i chuguna. 67 72 TEXT: The effect of zirconiurr, upon the structure and properties of wheel steel (C 0.5a". Pn 0.664, 0-i 0.2L4, P 0.014% and.S 0.027%) was studied on five 'heats without Zr and with different amounts of-Zr of the following composition (in 145) : ~;r 50.~j8, Si 21.88; Al 6.W: Fe 19.53, Ti 1.73 F 0. 10 and C 0. 15. The investigations included the determination of the effect of Zr upon the structure ~of cast steel and the proneness to austenite grain growth; the effect of Zr and of the tempering temperature upon changes in the properties of steel quenched at.300, 400, 500 and 6000C: and' the effect of Zr upon microhardness of ferrite. Card I/?      21(9) AUVRORS I voi.iloovekaj.' D. P., GISIO., A. A.. D.Aila'. T. I., D At- Tu. IDS11.LFRov, V. .. DaltriyoveklY, I. P., U-41*4chika" tropia, A. A., Rybalk.. T. ZarkiAyswo, L. TITUS Putting Into Operation a Cyclotron with . Sptially ftr7ing Tension of the Ug-tio Field (7AP"k %41kl.tro- . prossrazat- wommay variat.1yox "Mash-Ma.ti magnAt"go P014.) MIODICALs Atomasra a.rgiya, 1959, VAL 6. Nr 6, PV 657 - 658 (9=) AMTUCTS 14 tit. present *Letter to the Editor- the autho- report an th oreticiol consideration. concerning ls"S.r te.t. and . e Vernon " of I h :. yclo%ron. 1. the 1^tAr.tar&y. problem Ob"yodintanaga Inatituta yedorarkIn I.al*da- vma.17 (Laboratory tar Nuclear Problems or the joiat izst1wt. for Nuclear Research) in the town of Dabam %he Am cyclic a al rator saw started In Jinuary 19591 this Am typo *has& a th a asimitthally and. . radially periodically varying -&-tic : b: 14i. The diameter of the "gnat of the a ... l.rator to 1200 ma. fl th Unse of constant field tension Ie. the shape of spiral. : C"t 1/) of Archisoodsoo r,- 16.2 go periodicity of the field structures 6. ?he mega value of she field tension Inornowee radially according to She relativistic "me increase CC the ..C.I.ML.4 the acceleration *riginata. Evan the center At low'* zLoos she ,goes he fundamental frequencies or the from w.tlloot Ann , ,kow a saaardingLy q~.- 0. Qr - I (at ~*) to 4.- 0-2. qV -1.oi (it r'- 52 on). 1% was shown theoretically that who V"J&l IA4rm4,w of the mean angfiatia field t..NIQU bl" IA necessary for the 411-lawsLan At the "AlIA-ar ve-Ounec- often I occurring in the center of the accelerator my decrease *&%a Increasing 5, accordLog to * ~md wish an tuarnmal If the radial op.aing in th V/2S(5 j )t a". a ix*d I -a 0,A jav..*34.1jan r- ; . t were takm into account in selecting the mix-spizool *troo.tzr. at the m"o.tic field I. the center at which AD woooltan- cassue Aware. All measurements of sun field tonijam, war :rri*t out by samone of a nuclear mag..t.a.t.r (error ti l :Ch : a A resonance quarter-waTs syssom with one D..hapod tl*otr 4 Card 2/3 own wed for the Ion Acceleration. In tun cyclotron doootaYVAs war. aac.lerated up to 121fiev .44 .-paxtJoL.. up j* 24 Me, at n a" the onceloratian tension on %%a 4, of 8 1r`- Th- tooIhad- which -- -ad far to. 1 energy in the came of . sext.- orbital radius new briefly A.:Grib.4, a plat4r. has. the coal ... tic, he"., At I 11 my latran (FIg 2). another one sin a4joSr.ph of . a-4%ro. : to the came of dtff*r..% radii. Th. Investigation results the possibility of prod"ota, cyclotron wish proton e-ray hiah that of a man... phoo.trom. T%er: 4" 2 fl9w.. and 2 roof.r ...... I of hinh 1. SUBMITTED s April 9, 1959 Card 3/)  -,Sx 06 Ov 21.2100 78317 SOV/49-8-3-2~ 32 AUTIORSt VasIlnvzkqyn, 0. P., A. A., Djnllav, V. I_ It., Dth,Optv. V. P., Duttrlyev3kly ' V. P., 0 h1koi D. I., i~,plittn, 11. L.. Kallga, V. V., Kmpln, A. A.: Lpa fUb%lko. V. S., TITLEs A Cyclotron WiLlo a varlIng H,rnetlc FLeld PERTODICALs Atomnayn ~~riorj-,IyA. 11K.0, Vel 6, Nr 3. pp 169-200 (USSRi ABSTRAM -y nC m3ri, A pnrtlcl mo ion The p4per otitlln,tv Ili-: thrL)i m e L . I . In a magn,vtlo , Cteld wlth prrWdlo otrtw.Uare along Ita, nzimt,th and miattia, and dco,tribca Inve4tirationa per- romed duritintlie yearu 1%5-t~9 on a cyclotron accelera- tor WIf.h rp1r41-r14i:,,d mnstpOAr. ftulda at JoInt Imititute ror mu'lear Ile-mr.,h (066y,dInvanyj InctItut yadornyh isaledovan1j). Th, inichtne waa L,-.Ilt roLlo%lne the space 4taltIJ1yAhiorj dcvelcp~d nt Dubno and Harwell The asithorn rimt dijmrs tk~. lin~nr theory and invea;l- Card 1/10 gate the pmrLI,.Ir with rt-*pect 10 a clo3ed 7'   -279-         I I I   ACC NRi AT7004927 SOURCE*CODE:' UR/0000/66/000/000/0072/0016---'- AUTHOR: Savenkov, M. V. (Moscow) ORG, none TITIJE: Determining the aging characteristics of equipment on the basis. of it~ parameters measured during its operation SOURCE: Vses. konf. po avtomatich. kontrol i metodam elektrich. lzmeremy, 6thj 1964. Avtom.atich. kontrol' i metody elektrich. izmereniy; tr. konf. , t. I: Teoriya izmerit. info. sistem (Automatic control and electrical measuring techniques; transactions of the conference, v.. 1: Theorypt measuring information systems). Novosibirsk, Izd-vo Nauk,a, 1966, 72-76 :TOPIC TAGS: reliability, reliability theory, manometer, equipment aging ABSTRACT: The regression analysis is suggested for. determining the trend intime of mathematical expectation of a selected performance parameter of equipment whose aging it is required to predict. No constraintlis imposed an the form of the correla-. ,tion function (except that R(t 0 for:all T J0 0). The time variation of dispersion-1 o-~'W and mathematical expeoitation (t) of the performance parame~ter is approxi- Imated by Chebyshev polynomials; a method of selecting the suitable degree of the Card - I / 2   PHASE II TREASUPE ISLAND BIBLIOGRAPHICAL REPORT AID 383 11 BOOK Call No.: AF627938 .Authors: SAVENKOV,.,k,._.g., and KULIKOV, S. V. Full Title: OXYGEN AIRCRAFT EQUIPMENT (Textbook) Transliterated Title: Kislorodnoye oborudovaniye samoletov Publishing Data Originating Agency: All-Union Voluntary Society for the Promotion of. the Army., Aviation and Navy (DOSAAF) Publishing House: Not given Date! 1953 No. pp.: 215 No. of copies: Not given Editorial Staff Editor: None Tech. Ed.: None Editor-in-Chief: None Appraiser: None Text Data Preface: This book describes in detail aircraft oxygen apparatus and, principles of their operation * Special attention is given to the description of problems connected with the technicaloperation, with testing of the oxygen equipment according to basic technical~lpara_.. meters, and to the installations required for testing. A number of chapters deal with the problem of oxygen production, and storage. The book contains also some theoretical information on the.composi- tion of the terestrial atmosphere and on physical properties of oxygen. 1/8  Kislorodnoye oborudovaniye samoletov AID 383 - II: pulmonary regulators with a shutoff switch of the air intake; 12. Percentage of oxygen in the inha led mixture as influenced by the decreasing pressure in the measuring cylinder. Evaluation: This is a well compiled and well illustrated textbook for the pre-military.training of the DOSAAF organization. All described oxygen apparatus and devices are well known In the U.S. Purpose: Textbook for aviation instrument mechanics and oxygen apparatus mechanics of the pre-military training organization DOSAAF. TABLE OF CONTENTS PAGES. Preface 3-4 PART ONE AIRCRAFT OXYGEWEQUIPMENT Ch. I. Necessity of Using Oxygen Apparatus on Aircraft ~5-20 1. Formation of the terrestrial atmosphere; Air pressure; Air temperature; Air density; Air humidity; 2. High alti- tude flights and their advantages: Influence of lowered temperature; Influence of lowered pressure; Influence of oxygen deficiency. Ch. II Physical Propertiesof Oxygen 21-32 3. Composition of atmospheric air; 4. Oxygen and its properties; 5. Methods of obtaining oxygen: Chemical methods, electrolytic methods, extraction from the 3/8  Kislorodnoye oborudovaniye samoletov AID 383 11 .PAGES Ch. VI Portable Oxygen Regulators l2l-lq2 17. Oxygen regulator KP-19; 1.8.,Bail-out oxygen regulator KP-15- Ch. VII Calculation of Oxygen Provision for a Flight 133-142 PART TWO ASSEMBLY, OPERATION AND REPAIR OF OXYGEN,EQUIPMENT Ch. VIII General Information on the.Assembly and Operation of Aircraft Oxygen Equipment 143-163 19. Basic requirements for the assembly of stationary oxygen regulators; 20. Basic requirements for the assembly of bail-out oxygen regulators KP-15.; 21. Preparation of oxygen equipment for flying; 22. Use of oxygen equipment in flight; 23. Post-flight inspection of oxygen equipment; 24. Preparation of oxygen equipment for low temperature operation; 25. Principal defects of oxygen equipment: Defects of stationary and.portable regulators. Ch. IX Inspection of Oxygen Regulators and Inspection of Installations 164-186 26. Oxygen testing installation KU-1: Preparation of the installation KU-1 for operation; Determination of the oxygen percentage in the inhaled mixture; Testing regula- tors for inhalation resistance; Testing airtightness of 5/8  Kislorodnoye oborudovaniye samoletov AID 383 - II PAGES adjusting the position of the controls of the pulmonary automat; Testing the casing of the regulator.KP-14 for airtightness; Repair and testing of the oxygen reductor IM-14; Repair and testing of the oxygen indicator IK-14; Repair and testing of the oxygen manometer;,Testing of the oxygen hose KSh-10; Testing of the oxygen mask KM-14; 31. Short description of the testing of the bail-out regulator KP-15: Testing for the intensity of oxygen flow through a capillary pipe; Testing of the connecting pipe charging valve for airtightness; Commutator testing; Testing the regulator for airtightness; Testing the regu- lator for the intensity of oxygen delivery and for the correct operation. Bibliography 211 BIBLIOGRAPHY 1. Knyazev,,V. N. Osnovnyye voprosy kislorodnogo obespecheniya vysotnykh poletov (Basic Problems of Safeparding Oxygen Supply in High Altitude Flights), Voyenizdat, 1947 2. Platonov, K. K. Chelovek v polete (Man in Flight), Voyenizdat, 1946. 7/8   C,  ~-L 29964-66 SVT(m)/EV1P(t)/ET1. --IJP'kc) JD r ACC NRx AR6060454 '607009 /GO !'('/C-017 SOURRCE CODE URMITr/6-570 Gorshkov, V. I.; I(uznetsovt 1, A.; Panchenkov, G. M. AUTHOR: __S,~venkova., TITLE: Continuous counterflow ion-exchange method,of separating cesium and,rubidiun, SOURCE: Ref, zh, Metallurgiya,, Abs, qG154 ~REF SOMICE: Sb. Ionoobmen.~tekhnologlya, K., Nauka, 1965, 49-54. TOPIC TAGS: rubidium, cesium, chemical separation, ion exchange ABSTRACT: The separation was carried out in a counterflow apparatus'' consisting of 2 columns 160 cm high and 25 mm in diameter. TheRb-ions. were not retalned by the cati ons, t' onite as well as were.the Cs-i -here- fore, 'Che Rb-ions accumulated in the upper part of the first column and the Cs-ions in the lower,part of the second column. KU-1 suiffo-- cation was the ion-exchan--er in this case. A h 1~~rogen-type of catiorOt'd was.selected and as a displacer - a 0.2 or 0. solutions of BaG1 Y. 2 (in some of the experiments Cs salts were also used ~ The rate of Rb-ion accumulation in the upper part of the ion zone to be separated UDC-669.885/.886.09  L ACC NR- ARbOO0434 SUB CODE:// /SUBM DATE: none a 6,67 Card 2/2 7z     &A-III-EKOV, A., rabochiy-obrubshchik (Stalingrad)i IMRUM "nVi, S. (Baku), HOLMOVA, R. V '110V R.; asnoyarskiy CHICHIKIIIAI, N.; LICATSEETs V.; I'? kray); SUMORLIKOVI, Ya.; GAYDIRIK,, P.,Qr,Gor'kiy); iUU:I'L-'I`LOVs A. (Kostroma). Letters to the editors, Sov. profsoiuzy 17 no. 3:42-!+7 F 1610 (UMA 14:2) 1, Direktor sredney shkoly No. 179 Chelyabinsk (fof'IIavlyutova). 2. Predsedatell BelGorodskogo obkoma proj'soyuza rabochikh pishch3vo-y divn promyshlennosti (for~Shcheblanov). Predsedatell prez;. :a : toyanno deystvuyushchego oizvodstvonrLo,:*o soveshchanlya o8 pr p tselcha kholodnoy sh-,'-,ampovki zavoda "Rostsellmsh" (for Sw.3nkov). 4. Sekretart Oyr--yakonskogo ra-ykoma prof so-,-Uza rzbochikh. -1/ (Trade unions) p  MIKHELISON, Yu.; SAVEIIKOV, P. -Building materials producItion base of the Voronezh Main Administration for Rural Electrification Construction, Sell.stroi. 16 no.2:8-9 T 62. (MIRA 15:12) 1. Nachallnik Voronezhokogo oblastnogo stroitellno-m' ntAzhnogo upra4eniya "Seltelektrostroyw.(for Mikhellson)."2. "N~challnik        SFYENGV, V.I., kand.med.nauk; SAVENKOV, P.M.., kand. med. nauk Clinical significance of the changes in somme indi-ators: of pro- tein and lipid metabolism in patients with suppurative lung diseases. Sov. mad. 27 no.10;12-19 0 1631. (MIRA :L7;6) 1. Iz gospitallnoy terapeyticheskoy kliniki (dir.-chlen-korrespondent AMN SSSR prof. P4Ye, Wwmskiy) II 14oskovskogo meditsinskogo ii~- stituta Imuni N.I. Plrogova.  15-57-5-6590 Translation from: Referativnyy zhurnal, Geologiya, 1957, Nr 5, pp 127-128 (USSR) AUTHORS: TITLE: PERIODICAL: ABSTRACT: Card 1/2 Berkman, A., Leybman, I., Savenkov,. a. Improvement in the quality of-Bricks'Prom Low Plas-, ticity Clays (PovTsheniye kachestva kirpicha iz Maio plastichnykh glin Stroit. materialy, iz,deliya i konstruktsii, 1956, Nr 9, pp 24-25, The plasticityIof the.banded clays in the Neva region (Leningradskeyaloblast), has the following limits: the "Krasnukha 11 clays, 9.5 to ll;,.the "Sinyukha " clays, 6.6 to 11.4;'and the "Sizovka" clays, 19.9 to 33.6. A mixture of these clays, mixed inthe e#avation pit, had an overall plasticity of 11.2 to 13.8'and the products of this mixture invariably developed massive fractures (up to 60 percent of the entire object or article) during drying. To eliminate spoilage, it was     SAVENKOV, Sergey Ivanovich; AVILOV, B.I., red. Natural conditions of the lower trans-Volga region (economic geographic characteristics); materials on economic geographic regionalizati.an to be used in agri- culture].Prirodnye usloviia Nizhnego Zavo1zhIia (ekonomiko- geograficheskaia kharakteristika); materialy po ekonomiko- geograficheskomu raionirovaniiu S&9R dlia tselei sellskogo khoziaistva. Saratov, Izd-vo,-Saratovskogo univ., 1962. 159 p. (MIRA 1?:7)      PRASE I BOOK EXPLOITATION SOV/5425 Fedorov, N.D., Candidate of Technical Sciences.-Compi-ler Kratkiy spravochnik inzhenera-fizika, Yadernaya fizika, Atomaya fizika (Concise Handbook for the Engineering Physicist: Nuclear. Physics. Atomic Physics) Moscow., Ato nizda t 1961. 50T p. 28,,OW copies printed. Ed.: A.F. Alyablyev; Tech. Ed.: Ye. I. Mazell. PURPOSE: This reference book is intended for engineers and physicists vorking, in the field of atomic and nuclear physics. COVERAGE: The first seven~peats of the book contain the most necessary reference zdaterial on atomic and nuclear physics.. The remaining parts present information and data from other related fields. The last part gives the information on system of units compiled from the new GOST specifications., physical constants.0 and some mathematical data. NO personalities are mentioned. References. accompany each part of the book. Card-;IAI~  Concise Handbook (Cont.) SOV/5425 II. Neutron Thermalization 54 1. Theory of neutron age. 2. Age- equation in the absence of absorption- 3- Calculation of the age of neutrons. 4. Solution of the age equation III. Multiplication of Neutrons in an Infinite Wdium .58 IV. Critical Dimensions of a Reactor 68 1. Critical dimensions of a reactor without a reflector. 2. The tvo-group approximation V. Design of Control Rods 1. The one-group approximtion. 2. Effective boundary conditions on control-rod surfaces VI., Kinetics of Delayed Neutrons 78 VII. Calculation of Isotopic Co sition.of Nuclear Puel 78 1. Equilibrium poisoning and excess poisoning. 2. Change in time of the isotopic composition Bib3 iography Card~_tI3_  ACCESSION NRs AP4037h37 ASSOCIATION: Insty*tut matomty*ky*,AN UlassR (Institut4 of Mathematies AN -UkrSSR) s SUBMITTED: 31jui63 DATE AOQ: 03JWA EMS 00 - ' ' CODE3 MA : ~,~ ~, NO PJF WTI 003- -0=s ow T Card 2/2 t  SAVENKOVI V.N. (Kiyev) Convergence of iterative processes in determining the constants of the Christoffel-Schwarz integral. Ukr. mat. zhiar. 15. no.3.- 321-327 163. (MM 16-12)  SAVENKCV, V - Ya Cand Tech Sci -- (diss) "Research into the ef f ect of orocesses arising in tbermal processing, in the cliange of properties of seamless rolled steel in railroad wheels." Dnepropetrovsk, 196c., 15 pp; (Academq of Sciences Ukrainian SSR, Inst of Ferrous Metallurgy); 100 cop-Jes; price not given: (KL,.21-60, 125)          ZUBETS, V.M., red.; SKOROPANOV, S.G., red.; BELISKIY, B.B.. red.; LASHMICH. G.I., red.; KHOTIKO, A.I., red.; SAYMOTA, A.I., red.; YMILOT, Y.M., tekhred. [Cultivation practices for growing field crops on peat-bog soils] Agrotekhnicheskie trebovaniia po vozdelyvaniiu sellskokhosisistvennykh kul'tur na torfieno-bolotnykh pochvakh. Minsk, Izd-vo Almd.sellkhos. nauk BSSR, 1960. 79 p. WRA 14:1) 1. Minsk. Havukova-das'ledchy Instytut melierstsyi,i vodnai hasps- darki. (Field crops) (Peat soils)  AUTHORS: TITLE: PERIODICAL: ABSTRACT: Card 1/2 SOV/111-55-3-8/29 Zakharova, N.V. and Savenkova, A.S., Engineers Coin Telephones of Type 1IRMT11 and Their Connection to Tele- phone,Exchanges (Telefony-avtomaty tips. 11RMT1' i ikh vkly- ucheniye v teleforinyye stantsii) Vestnik svyazi, 1958, Nr 3, p 6 8 (USSR)~ Coin telephones of.type 11RMT11 have been produced in the USSR since 1954, and are designed for manual.telephone ex-. changes. Compared to theoriginal model (described,in, Vestnik svyazi, 1952, Hr.8), a number' of modifications and improvements'w.ere.introduced.when the actual production of the coin,telephones began. One of the most important func- tions of.this telephone is the collecting of the coins when the called number answers which isachieved by changing the polarity. Sinc.e only manual telephone exchange equip- ment of type 11TsBXY and the modified version of the,"TsW" provide the possibility of pole reversal,the authors oon--~ sider the connection of the 'IRMT" Coin telephone to'these, two types. Senior Engineer -V.V. Denisovlofthe ",Moskovs-. koye oblastnoye upravleniye svyazill (moscow Oblast' Direc-  SOV/111-58-3-8/29 Coin Telephones of Type "RMT" and Their Connection to Telephone Exchanges torate of Communications) suggested the method for connect- ing the "RMT11 coin telephones to the "TsBx2l. equipment, shown in Figure 2. Ilia suggestion was accepted in 1957. Figure 3 shows the system for connecting the "RMT11 telephone to the "TsBx3x2" equipment as suggested by A.Kh. Sonts,- Senior Technician of the Zhitomir town telephone exchange. The article contains three diagrams, two tables and one Soviet reference. Card 2/2   PANCH'tFKOV, G.M.; N~P.; (1,11, V., I Cnnt,inqou.,~ cuintercurri-nlz, ilon ext:hange, inethod for --p-paratim or rubidium and cosium on the cnrion exchanger H-1. Zhur. neorg. khim. 8 no.12:2800-2805 D 163. (MIRA 17:9) 1. Mosl,ovskLy gosudarstveTin,-.y universitet imeni Lomonosova, kafedra f-Azicheskoy khiuiii.   7, L M t~)/ew -;--ijp Ab _LI044-,Xj,5 ACCESSION NR: AT5014245 UR/OOW/65/ow/WO/OU9/ooe-r-~t":'. AUTHORS: Gorshkov, V. I.; Kuznetsov, 1. A,; Fanchenkov G. 14 ; Savenkova 14 Fe TITIE: Contimoue counter-current I:on exchange method for separation of cesium a --D~'~- :;71 rubidium qq 0y te* no giyii:~ SOURCE: AN S83R. Inatitat fisichdak khimiis lQhoobmbhnaya. kh lo exchange teefin-ology)'. Moscow, TzP-io rlam-t-1%5, 49-54 TOPIC TAGS: cesium, rubidium,ion exchanger, ion exchange, ion exchange resin ABSTRACT: This investigation is a continuation of previous work of the authors (Dokl. AN SSSR, 143, 643, 196R). 'The best conditions for a continuous counter current ion exchange method for the separation of Cs and Rb are discussed, the height equivalent of a theoretical plate (H. E. T. P.) is estimated, and the ef- ficiency of separation for different conditions hs determined. The cation ex- change resin used vas a sulfophenolic resin KU-l'lhaving a grain dimension of O.IL - 0.14 mm in diameter. It was found that EFe-T7et results were obtained when BaCl2 and CsCl were used as displaoers. The optimum concentration for BaC12 is less than 0.1 M. There appears to be no limiting concentration for CsCl;_however, at h' h concentration regeneration of Cs takes place. The H-. E. T,, P'. 1g Cara V072      H A GAIN I G. Ya ~;'i, f , S . V. - KOF'17-111011A, Ye I.; SHGH.7GOL-EV, A.G.; V.T.-; iEVASSHIE'll, V.S.; PESINA, Z.'V'.; MIKHAYLGVA, V.S. Sor,,i gerieral regularities Jn the formation of L-fc-ms in various pathogenic bacteria. species. Zhur. mikrobiol., epid. i immun. 40 no.11:7-12 N t63. (MIRA 17:12)~ 1. Iv, Instituta epidamiologii i m1krobiologii imeni Gamalei AM SSSR.  KOCIfEMASOVAl MI.; DYKIINO, M.M.; PROZOROVSKIY, S.V.; KASSIRS 'KAYA, N.G.; BURRISTROVICH) S,F.; gAYKqq -.-V.T., SHCREGOIEV) A.G.; STARSHINO", V.S. L-form. of some types of pathogenic bacteria. Vest. AM SSSR 20 no.8:39-46 165. (MIRA 18:9) 1. 1 Moskovskiy meditsinnkiy institut Imeni I.M. Sechenova; Institut epidemiologii i mikrobiologii imeni N.F. Gamalei AMN .SSSR i II Moskovskiy meditsinskiy institut imeni N.I. Pirogova.  L 12813-66 Vii 'r(l)/EWA( j )/T/EWA(b -2 JK ACC NR: APS028183 SOURCE CODE: UR/0248/65/000/.009/0039/001163 AUTHOR: Kochemasova, Z. No; Pykhno, M. M.; Prozorovskiy, S. V._; Kassirskaya, G. -Burnistrovich, S. F.; S~4venkova, V,_T.; Shchegolev, A. G.; Starshinova, V. S.. ORG: I Moscow Medical Institute im. I. M. Sechenova KI Moskovskiy meditsinskiy in- stitut); Institute of I logy im. N. r. GaM41ei._AMN SSSR (Institut epidemiologii i mikrobiologii AMN SSSR); II Moscow Medical Institute im. N. 1. Pirogova (II Moskovskiy meditsinskiy instituiT TITLE: L-forms of some types of pathogenic bacteria SOURCE: AMN SSSR. Vestnik, no.,8, 1965, 39-46 TOPIC TAGS: infective disease, bacteriology,.,microbiology ABSTRACT: I. L-fome of coba teria. G"In recent years atypicalforms of mycobac- _ c teria. have frequently been isolated from.tubercular patients. These dif f6r - in'' many significant ways from normal mycobacterial yet are similar enough to be considered as merely atypical strains. One ex'planation for this transformation is that the ,atypical microbes arise from L-forms, which,am themselves formed in response'to the !Card~-1/3 UDC: .576.852.211.095.5  L 12813-66 !ACC NR: APS026183 chemicals used in the treatment of tuberculosis. Several examples of.just such -transformations are noted in the literature. The purpose of the present study was 'to establish the conditions for L-transformation, to study the biological properties, of the L-forms and their possible reversal to the bacterial form. One typical and ,one atypical strain were studied using several concentrations. of dihydrostreptomycin, ~penicillin,' or both as additives to the culture media. Cultures without. antibiotics ;served as controls. The results:(based on examination of live material and on dif- :ferential staining) showed that L-forms are produced in response to both antibiotics, ,:but the optimum conditions for transformation are when both antibiotics are present: together. II. L-forme of the fantily Corynebac zliacae A study of the properties. of the L-form of Corynebacteriacae were undertaken with the hope of shedding some alight on the connection of these bacteria with mycoplasma. Both toxigenic and non-: ~toxigenic cultures of diptheria and dipthroid organisms were used. It. was fourid ;that L-form colonies were formed only 9n media containing 3 % liver agar with 20 :normal horse serum and penicillin. A detailed moiphological. description of the L- 'Colonies is given. It is noted that subculturing resulted in almost total disap- i~h found'initially with some frequen- :p4arance of normal rod-shaped bacteria A were cy. Certain cultures were found to revert to the rod-shaped dietheria organisms without prior removal to a'penicillin.-five medium. The process of transformation Card.2/3-  L 12813-66 ACC NR: AP5028183 into atypical L-colonies is lengthy and requires from 2 weeks to.2-4 months. Other experiments showed that not all members of a given- bacterial population, are ~quakly susceptible to transformation by penicillin in that only 5-7.strains of.a 30-culture sample underwent transformation. Studies ofthe biochemical and cytopathogenic properties of the L-forms showed no consistent variations from thoGP F the arent cultures. III. b-forms of bacteria ivotated from. blood cul.turen Of 11 hoid9K15atienta cuid carriers. It has been established *that L-forms can be isolated frnm a variety of bacterial infections; however, there is insufficient evidence on Ahe. form,ition,of L-forms in active typhoid cases or 6arriers, although such transformations have been observed in this organism under laboratory conditions. To resolve this question defibrinated blood and bile of typhoid patients and carrIers were cultured and exam- 'ined. Of the 17 cases examined one patient and two carriers showed L-form growth in -their blood cultures, while one patienthad a mixture of L-forms and bacterial forms, ,Of par-ticular interest was one patient whose blood originally yielded-only typical S. typhi, but after intensive treatment with antibiotics granular elements of L-n .forms were isolated. This study showed that L-form can inticed be formed in the 'body so now it remains to be deter-mined what role they play,in the deywilopment of .the carrier condition. Orig. art. has: 4 figures.- 'SUB 001E: 06/ SUBM bATE: OlJun6S/ ORIG REF: 002/ OTH REF: 002 jW Card.113-   LUIVATID FLANTS. Fod .. , and I J U 1i REF 7HUR WOLOGIYA, NO. 4 1959 . , scivt- n',:ova . Ye 7--C-Rernigovskaya ~Obl.Sci. Society T17 TE 6erra4alla- In tl-.e- OR "G Pj B Brul sillsko-ospodar. Inform. Chernigiv 0 bl. v1d. t-vn d1ya pbsili-r. polit. i n,3 uk. man 1r 157, No.2, 21_ 23 7'~ ~ -'U C, T , .;~, I-UnFs arn oresented of ex-uerime-Lits o f p ,o,,[Gkava. exneriTental sl~ation and t:~ pr.actice of P;112.ql 6 1 -ta"t i 0 z e- Ssflo"~7111F 'U'Le Ya er, of sevradc-1 Isa over other forat"Fe, cl,op,:-', L at, when ctiltiv,&.teo~ in sandy and .~-arvi Icar-ii Y sbills. "'ne farminix me01--joes, c:iven Ar. coltuj- t i c) ri for seed, for, 1.ay, ensilae(--, fOd- din- ed and ;:reen.fertlli7er. Rese der, pasturiniz . n of i~erradelia ir, fallow fields under vetci-i, pea-bats mixture Is esoecially :effectivebi C A ? D 1/2 98  SkVENKOVA Ye.I.; IIANSUROVSKT,, A.P. Metamorphism In ores --f theZgid lead-zinc deposit. Izv.vys.ucheb., zav.; tsvet.met. 3 -i.2:3-5 160. 15:4): 1.1 Trest,3evkavtsvetmI,trazvedka i Severo-kavkazskiy gornome- tallurgicheskiy imt-i-lut. (VerkhnJ.y Zgid-I.--onferrous metals) (Metamor-Phism.)   VULIFSON. N.S.; SAVENKOVA, Ye.V.; SEITYAVINA, L.B. Claisen-Schmidt reaction with heterocyclic analogs of o-hydroxyacetophenone. Part 1: Condensation of dehydracetic acid with benzaldehyde. Zhur. ob. khim. 34 no.8:2743-2747 Ag 164. (MIRA 17:9) 1,.Institut khimii prirodnykh soyedineniy All SSSR.i Nauchno- issledovatel~skiy institut organicheskikh poluproduktov i krasiteley.  ,A/ L 16306-65 E7Wr(m)/E*9A(d)/T 5~UPWAIWFWS YEN? 11R: AP404565 /013 64/OOOiOO9/0836/0839 AUT11ORj Gavrilov, 0.__Z.; Boyarchinov, V. A.; Sh a l1moy. --A DolLnin. D. P ; J~11~n ;~Kblyas kovam R. 11; S_ovq_q_Qk. L, L. TITLE: Quality of vA=L ball-bearinst steel SOURCE: Stal', no.9, 1964, 836te~q Af TOPIC TAGS: ball bear!ng steel, ShKh 15 ball bearing steel cuum t h g a are malted ShKh 15 s a I i h !grade ShKh 15 steel. Lciprov;Av.61- tin g method ABSTRACT: A study has been-made ito dctetnLne the causes of flaws in cons umable-elect rode vacuum-arc-melted ShKh 15 steel for ball bearings and to find the means 'to' eliminate them. As a result, se-, veral improvements in melting technique have been adopted, so that it now is possible to obtain high-grade-steel for pr4ciaion.and special-purpose ball bearings byt .a single vacuum-are melting of the ShKh 15-stool consumable elactro'des. . The "soot" inhomoganuity of the ingots, formerly the cause bf; 90Z of the rejects, vas fully sli- minated by using symmetrical coaxial current- conductor--and by eli- ccd 1 2  L 16306-65 ACCESSION UR: AP4045659 minatLng nonsymmetrical magnetic masses. Light stringers, or strati-, fied crystallization, were co mpletely eliminated.by automatic control, of the electrode feed. Another type of Lngo~ flaw, bright spots containing 0.04-0.05Z less carbon than the bulk of the metal, was eliminated by improving the electrode holders and by leaving a por- tion of the electrode, 100-200 mm long, unmelted. The ingot pipe, was eliminated by gradually decreasink the arc current from 4.0- 4.4 K4 to 0.8-1.2 Ka during the Iasi 10-15 min of melting. Orig. art. haas 10 figures and 3 tables, iASSOCIATIONt T~NIIChH and ZlatoustovakLy metallurgLcheskiy zavod (Zlatou3t Hetallurmical Plant) SUBHITTEDt 00 ENCLs 00 ~SUB CODEs HH. IZ NO REP SM 000 OTHERs 000 Card 2/2  KHASLIN., G.A.; SFVED, F.I.; DOLD-1111, D.P.; SAIM-IML.Lj- VEKSLER, G.D. Effect of electric conditions on the conditions or metal crystal- lization during vacuum arc remelting.,Izv. vys. uchebo zav.; chern met. 8 no.l.-43-49 165 WMA '18 -1) 1. Zlatoustovskiy metallurgicheskiy zavod i Chelyabinskiy nauchno- issledovatellski~-institut metal-lurgii.  L 11700-66 EwT(m)AwA(d)/Elip(t)/Ewp(t)AWP(b) IJP(c) mjhvjl) A CC il AP6(01683 SOURCE CODE: UR/0148165/000/OLZ/0057/0063 AUTHOR: Dolinin, D. P.; Morbzov, A. _N.; Khasin, G. Shved, F. I.; Sookov, D. A.; Savenok, L, Le ORG: (2telyabinsk Scientific Research Institute of Metallur y (Chelyablnskiy nauchno-. lssiedova,tel'skiy Institut metallurgii); Ziatoust Metallurgical Plant (Zlatoustovskiy metallurgicheskiy zavod) TITLE: Removal of oxygen and 'nitrogen in vacuum arc melting-of ShKhl5 steel SOURCE: IVUZ. Chernaya metallurgiya, no. 12, 1065, 57-63 TOPIC TAGS: steel, chromium steel, ball bearing steel, steel melting, vacuum arc melting,steel refining,.steel degassing, oxygen removal, nitrogen removal/ShKhl5 steel ABSTRACT:' The behavior of oxide and/Linitride77inclusions and the mechanisml~f the removal of oxygen and nitrogen fromNKhl5[AISI E21001 b~J~I-bear~im steel,in vacuum arc refining have been investigated. Steel ingots were melted in a 20-t electriz furnace and forged into consumable electrodes, 180 mm in diameter, whichwere remelted twice in a vacuum of (1---S)-10-2 mm Hg. The first and the second vacuum remelting decreased the oxygen.and nitrogen content from the initial 0.00400 to 0.00110 and 0.0009SCO, and from 0.0084 to 0.0060 and 70.0045% N. , The respective init!~A * content of A1203 and S102 inclusions decreased from 0.00400, and, Card 1/2 UDC: 669,141.247.083.4.054  L 11790-66 AM NRi AP6001683 ,0.00270Z to 0.00060% each after the first remeltingy and.to.0.00051 and 0.00026Z after the second., Oxygen and nitrogen ar removed r the mostIpart an oxide and nitride particles. Hence, a more complet: refiningf"Can be achieved by promoting the formation in the initial metal of inclusions with a low specific weight and a high interphase energy at the metal-inclusion interface. The high-alumina inclu- sions which are fo d b the deoxidation of the Initial metal with an Increased amount of aluminunjoyythese properties-. IRemoval.of nitride Inclusions to pro- motid by lowering to a minims (0.002-0.003%) the content of titanium in the initial