BAZ IPY, SV,.. ateent; STUIMB V. A.P.. professor; PETUXBDVSKIr, A.A., OThe History of Veterinary "icine in the U.S.S.R.* VXXtropov. Reviewed by S,B.B"hanov, A.P.Stmdantsev, A.A.Patukhovskil. Vaterinarlis 33 no-1:83-87 Ja 156. (En 9:4) 1,Xiye,wakiy gosudarstvannyy vsteriaarnyyias~ttut (for Bashenev). 2.K&z&u8k-t:r 11.0 INART PMDICIXXT"'-'!'  dotsont; GIVOLOZEMY, T-Ta., assistent; LITYIN . N.M.$ starskiy laborant, voterinamy vraekL- low nasal an veterinary pbarmsaoloj7 (OVeterinary pharmacoloal. Reviewed 'by S.V. Bazhozov, I.U. Givoloshokit, X.M. Lityin). Voterin It& 33 no.6:88-90 je 156. (XML 9:8) 1. Dafedra farmakologli Uyevskogo gosudaretvonnogo voterluarngp Instituta. (Yeserinary materis, medics, and pharmacy)  BAMENOV. S.T.. doteent. Task@ of veterinary toxicolog7 for the sixth five-year plan. Yeterinarits, 33 ne.9:20-22 8 156. (KLRA 9:10) 1.Klysvskly veterluarMy Institut. (Vaterinary medicine) (PoIssum-Physiological effect)  400.1 1 VyOvlch^,:~., (=IT 1.4 ir I# SeAe, red.; CHMMUA# Z*Veg ~ [Voterimiy toiiooili~rl tateriiamia tokolkologila. UC2.9 impr. I dop. Xaskmg Goo. lzd-" allkhos' lit-as 1958. 392 ~. (Tatertma,toxioOlogy) (Pbloonal (XIU llt9)  34ZMOTp S.T., dots. One bundred and fifty years of adTanced Toterinary training. In the U.S.S.R. (1808-1958). Vaterinariia 35 no.11:74-75 3 158. I* Ukrainskays skadenlys sellskokhosysystyeanykh mauk, (Veterinary madicine-Study and teaching)  W.ZNEMV, S. V. Z4-c"~ " About veterinary biographies and bibliographies." Yeterinariya, voi. 37., No. io, ig6o, p. 83 U-I!k. a-w - .. k. 6j~"  ROVIONOV, P.V.p prof.; A~~# ~SV.~Pprofq SIASTIONP M.L~ dotment ("V) lHadicti rAl pUnts smd their use by the people" by M.A, Nosall I.Me Noul's Reviewed by P.V. RodionovP S,V, Baishenovt M.I. Slastsone Vrache dclo*no*,3s147-U8 Mr 161. (MM 104) ()30TAR s, MWICAL) (NOSAL'j M.A.) (NOSAL't I.H.)  BIZHSNOV, S.V., doteent "Biographical diptionary of workers in natural science and engineering," vols. 1-2. Reviewed by S.V.Bazhanov. Veterinariia 37 no,1003-M 0 160, (KERA 15W 1. Ukrainakaya akademlya sallskokboxyaystyannykh nauk. (Russia-Biobibliography) (Veterinary medicine-Bioblbllograpby)  RAZI-732,CV, S. V., (Professor,, 11ra5*1an Academy of Ag7ricultural Sciences) Valuable work on the history of veterinary medicine. (1) Vaterinariya vol. 38,, no. 9, September 1961., pp. 87 'In "Trudy Vsesoyuznof,,6 institute ckspcrimentallnoi voterinarii,11 Y.-XXIIIJ MOSCOW$ 195p,  KALUGIN, V.I., kandovaterin.naukj: BAZHENOV, S.V.., prof.; KRAPIVIMR, L.M. History of veterinary-medicine. Vaterinariia 40 no.907-82 S '63. (MIRA 17%3.)  BAZHENOV,s S.V.0 prof.1 BORSHOSH, A.V. ... ..... Book reviews and bib3iograpby. Votarinariia 38 no.9:87-89 3 161, (M.IRA 16: 8) 1. Ukminakaya akademila sallokokhosyastvennykh nauk (for Bashenow). 2. Starshiy vaterinaiVy vraoh tresta lZakarpatleav StaniBlavokogo noveta narodnogo khozyay~tva (for Borshooh).  BA-7=OV,, Bergey Vasillyevich [veterinary toxicololyl Vetorlnamia tokaikologila. ltd.3... parer. i dop, Loningradp 11oloss 1964. 375 p. (mm is:n)  RAZMOV. V. - aftwabL, How we arpnised tower orme operptions, Stroltell 2 n004-3i2o Ap-My 156, (MM 1011) (Cransel Perrloks, sto)  B&ZHIWOV, V., Inzh. Simplify the structure of management in the construction Industry. Sots.trud 3 no.3:123-126 Hr '60. (NIRA 13:6) 1. Mel truda I zarabotnoy platy Stalinuadekogo scvnarkhoxa. (Stalingrad construction Industry)  BAZHENOV3, V. "Surgical treatment of pulmonary tuberculosis; a inamial for the , pmticing pbysiciae by [kand.med.nauk) G.S.Levin. Reviewed: W V.Bashanov. Zdrav. Belor. 6 no.4173 Ap 160a (HIPA 3415) (TUBMULOISIS) (LUNGS-4UWRM) (LMN, G.S.)  7ACC Nk: '1/0209/661000/008/0042/0046 SGUICE COD-' U. AUTHOR: Koval's Ae(candidato o .ftechnica:L scionce*s);BazhenoV, V.j Straut., Ye. ORG: none TITIZ: From.modol to lunar vehicle SOURCE: Aviatslya I kosmonavt1ka, no. 8, 1966, 42-46 r.odel TOPIC TAGSt aerospace conference, lunar surface, lunar surface vehicle, scale I ABSTRACT: The authors'discuss the*development of a mobile automatic lunar Fstation (MALS), on the basis of papers presented by Soviet specialists at the first international space -technology conference, held in France in June C 66. L Building stands for perfecting the design elements on full-scale mock-ups will present many difficulties. Therefore, it will be more ements on MALS models under simu]lated efficient to develop the design e1 [lunar conditions. In this way, existing pressure chambers and other equip ment can be used. Not only the lunar landscape but also the lunar surface  ACC NRs AP6028568 should be simulated. Taking the works of professors V. V. Sharonov and V. S. Troitskiy .into consideration, as well as data obtained by Luna-9, it is concluded that the lunar surface has a hw,d structure; from an analysis of Luna-9 data* it is possible to conclude that the strength of the moon' s surface is about I kg/cm2. During its operLNtion Luna-9 increased its inclination 6.50 and turned 3*. Although thereasons for this have not yet been de- termined, it can be assumed thAt the position change was somehow connected .1 with the stoniness of the surface. The lunar surface in the Luna-9 landing area is dotted with numerous stones and clods of various sizes, from several- centimeters to several decimeters. The Luna-9 landed in an 18-m-diameter crater with a depth of about 0.7 m. The presence of several small craters with steep slopes (up to 55P ) was noted. All of these lunar surface details must be taken into consideration in developing a mobile automatic lunar station. The initial scales for modeling are length, modulus of elasticity, :,!materials, and acceleration of gravity. All other scales (i.e., mass density, speed, forces, etc.) needed to develop an MALS model, and to convert the experimental results obtained from the study of an actual scale model of a  ACC NR. W602856,3---- Aunar station, can be deduced from the three main scales mentioned above i~ on the basis of the similarity of conditions. To have similar conditions, it 1,'is necessary that the MALS models an' their undercarriages be made from materials with the same Poisson' s ratio and coefficient of friction as those of -the full-scale design. The gravity scale is determined by the experimental conditions. The final selection of model dimensions and materials is made, ;,taking into account the overall dimensions and capabilities of the testing equipment, pressure chambers. and test ranges. The development of MALS I.- models built to 1/6, 1/3, and Ill scales is discussed. -If the dimensions of a model are'decreased by six times, it is better to make the model from th,e same materials as the full-scale design. For the 1/6 scale model, the line ar spe e d "scale - is equal to 1. Running tests as well as some ope -ri~;', tional tests of a 1/6 scale model can be carried out in a pressure chamber -simulating the lunar vacuum. Due to the small value of the scale of mass, I '',however, the development of a mobile model with such small overall di- mensions, while retaining similarity, can create a number of difficulties. It is considerably simpler to develop an1VALS model on a,scale of h/3 or 1/2.- In developing a full-;scale model, the scale of mass should be six times smaller than full-scale mass.- In this case, a.fuU-scale under- carriage for the model is developed from full-scale materials. The re- Card - 3/4  XMI, U.S. [X=, W.D.J; =I=, O.Go Espliger, H*H.lt-UZMDY. T.A., [translator]; BOMMAM. T.. red.; SURMO, K.AO p. red* TLMTA, N.A., tekbn.red. EPreparation and usam of standard radioactive speolmnal Pri- gotovlanle i.primenanle etalonnykh radioaktivnykh preparatov. Kookwa, Gos.izd-vo lit-ry v oblasti atommoi -uU i tekbn4ki, 1960. 102 p. (KMA 14:3) Wdloactive substanosp-Standards)  LM17-AVE. fl. T rZ v FLUE I BOOK EXPLOITATION SOV/5410 Tashkentskaya konrerent5lya po mirnomu ispol'zovaniyu atomnoy -energli. Ta-.hkcn&v,, 1959. Trudy (.raisactlon3 of the Tachkent Conforence on the Peaceful U:-~s or Atomic Energy) V. 2. Tashkent, Izd-vo AN UzS3R, ig6o. 449 p. Errata slip inserted. 1,500 copies printed. Sponsoring Ageney: Akademiya nauk Uzbekskoy SS'R. Responsibla Ed.; S. V. Starodubtsev, Academician, Academy of Sclence3 Uzbek SSR. Editorial Board: A. A. Abdullayev, Can- eidate of Phyales and flatbpmatiosj D. M. Abduraeulov, Doctor of Medical Sciences; U. A. Arifov, Academician, Acad=4 of Science3 Uzbek SSR; A. A. Borodulina, Candidate of Biological SGiencea; V. N. Ivashev; 0. S. 1kramova; A. Ye. Kiv; Ye. 11. Lobanov, Cand1date of Physics and Mathematics; A. 1. I-11colayev, Candidate of Medical Sciences; D. Hishanov, Candidate of Chc=ieal S:iences; A. S. Sadykov, Corresponding Renter, Academy of Sciences USSR, Academician, Academy of Sciences Uzbek 3SR; Yu. N. Talanin, Card 1A0  176 .,Tranzactions of the Ta2hkent (Cont.) Sov/541o OrAndidate or Physics and Mathoriatics; Ya. IM. Turakulov, Doctor of Biological Sciences. Ed.; R. L Khamidov; Tech, Edo A. 0. Babakhanova. PURITC-SE . The publl,~ation is Intended for scientific workera and :,nei:1alistz employtd in enterprises whRre radioactive isotopes ani nuclear radiation are used for reiearch In chemical, goo- Rgical, and technological fields. COVERUAGE: TME col2ection of 133 articles represents the second volut.e of the Trani4actions of the Tathkent Conference on the Fea~erul Uses of Atomic Fnergy. The Individual art!-%.'en deal with a wide range of problems In the field cf nuclear radiation, inr.ludlng: protiuetion and cherical analyFis of radioactive lsotcpes; Inventigation of the kinetics or chemical reactions by means'of Isotopes; application of spectral analyai3. for the manufacturing of radioactive preparations; radioactive methods for determining the content of elements in the rocks; and an anallysis of methods for obtaining pure substances. Certain Card 2/20  -,Tranaactions of the Tashkent (Cont.) SOV/5410 17L Inatrumonts used, such an automatio regulatorz, flowmeters, level eaurgon, and h1gh-sonsitivity S--=-rclaya, am described. No porsl=litles are mentioned. References follow individual artiolea. TABLE OF CONTENTSt RADIOACTIVE ISOTOPES AND NUCLEAR RADIATION IN MIGIN]Mr.10 AND GEOLIMY Lobanov, Ye. M. [Institut yadernoy fiziki UzSSH - Institute of Nuclear Physics X~i UzSSR]. Application of Radioactive Isotopes and Nuclear Radiation in Uzbekistan Taksar, and V. A. Yanuahkovokiy [Institut flziki All Latv SSR - Inatitute of Physics AS Latvian SSR). Problems of the Typification of Automatio-Control Apparatus Based on tfie U3e of Radloactivq Isotopes card 3A0 7 9  T,rareactione of the Tashkent (Cont,,) SCYV/5410 Crinev, V. S., V. A. or;--zov, and I. A. Korovina Iminiatry of Health UZSRI. Some Applications of Spectral Analysis 377 Tx,jalmanova, Ye. S., and T. S. Afanaslyev [1111nistry of Health TIS~FRI. Use of S,?ecial Xoni=tion Chambers for Measuring the A~.,tjvlty and Controlling the Purity or Radioactive Preparations 382 Analysis of the Shlyagin, K. N. 111inistry of Health USSR). Rallation of Radioactive Preparations 389 Bo--hlcarev, V. V., and V. A. Dazho-nov _111inistry of Health USSR). Xs!thods for Mea3uring beZa-ACTIVO Uses- by Ileans of Countera 96 C4-21,utvina, M. M., V. 1. Lovin, and Ye. A. Tikhomirova J-Unis- try of Health USSR). Obtaining Arsenio-77 Without a Carrier Frc,m germanium Irradleited by Neutrons 402 Livin, V. I., and N. 0. Serebryakov (Ministry of Health, USSR]. Produaing Preparations With Radioactive Isotopes for Radio- thera,r~r 410 card -'8/20  de IV 6V ) MiSE I BOOK EXPLOITATION SOV/6333 Bochkarev. V. V., ed. Tekhnika lzmareniye radioaktivnykh preparatov; aborn1k statey (Teoh- niques for the Measurement of Radioactive Preparstlahaj Collection of Articles) Nosoov, Gosatomizdat, 1962. 46-M ooples printed. Ede.: A. M. Smirnova and M. A. Sm1rn*vj Tooh.'Id.i S. M. Popom PURPOSBi This boolc Is intended for specialints In nuclear instru mentation. COYMU03: The book is a collection of articles on recent developments in 1)"measurement of the activity and 2) analysis o; the oomposi- tion of emissions of radioactive preparations. The methodology and apparatus used in these studles'are described In detail. References are given at the end of each ar~lale. TAZZ OF CONTMM: Card I/Q  41 Techniques for the Measurement (Cont.) SOV/6333 Plgoreva, N. S.', Ye. 0. Solodovnlkova, and V. V. Pokin. Prepara- tion of Samples for Measurement of the Activity of Certain Com-~ pounds Labeled With CU and HS Isotopes 67 Golutvina, M. M., and X. A. L'vova. Preparation of Specimens for Measurement of the Activity From O-Emission 72 Levochkin. F. K. Measurement of the Activity of Thiak 0- Sources 83 Xononenko,.A. M.i V. A. Petrov, and V. Ye. Takhor .,va. Does t str4bution, Along the. Axle of a P-Bld tUW PUns Disk 100 b1bgnoyl VO A,., V. V. DochUrev, and T. ~ N. Sokolom Measure- ment of theiAotIvity of Gaseous Preparations by Means of a Gas-Filled Counter 115 Turkin, A. D. Radlometry of P~-Bmlttlng (lases by Nbans of End- Window Counters 124 Card:3/5  Techniques for the Measurement (Cont.) SOV/6333. Turkin, A. D. Measurement of the Concentration of 0-ftitting Oaaes and the Determination of Their Isotopic Composition by Means of Spherical Ionization Chambers 134 Lavrenchik, V. N. Measurement of the Y- and A-Activity of Aerosols 139 Ivanov, Yu. F., K. N. Shlyagin, and P. K. Fooktintov. Mag- netic A- and y-SpectrometoV- 156 Ivadov, Yu. F., I A. Humer, and K~ N. Shlyagin. Magnetic. Spec- trometer BPP-3 168 (V) Bazhenov B A , Yu. M. Golubev,,K. N. Shlyagin, P.' N. _F"o RTfiovf_a_M Q. V. Yakovlev. Scintillation y-Speotrometor With a Multichannel Analyzer and a Un1t for the Automatic Plotting of Spectra 182 1 11~ Bazhenov, V. A., Yu. M. Golubev, and X. N. Shlyagin. Scintilla- tion Speotr r',Counter WitWAliowaiwe for Dead-Time Effect 202 Card 4/5  PLO fo nit I P. "lit 1511 1% ii SH'sn op r.1 N ~. A on "1 0.11 I . . 1 14 t-1-.PcM i If E 17 1q, 1. A" 4 OA: RM it i i". 0- M -:a--  BAZHENGV, V.A.; BOCFJUJW, V.V. Absolute measta-ement of the activity nf beta-redioactive liquids* limtekb. nool:55-57 Ja 162,- (MIRA 3-40.2) (Radioaetivity--Measurement)  s/113/63/000/002/008/008. E194^155 AUTHORS: Bazhenovt V*A-2 Bochkarev, V.V., and Sokolova, T.N. ..TITLE: Sorption effects in measuring the radioactivity of gases It RIODICAL: lzmaritelinaya takhnika, no.2, 1963, 57-59 iXTs In measuring the radioactivity of gases with gas-filled J~adlatlon counters, the absorption of A-radiatlon by the walls and -effects cause errors which have both been thoroughly discussed, end particularly in the non-Soviet literature. However, there are also two sorption effects: some of the material becomes firmly attached to the walls and remains there after the chamber has been nominally swept free; and some becomes temporarily attached to the walls during measurements, so disturbing them, but is afterwards released and swept out, so that the effect cannot be directly observed. Tests were made to determine the relative importances of these A chamber, filled with a gas tagged with a source of P-radiation, has a thin mica window in one end over which is placedl an end counter. The chamber also contains a layer of material of such a thickness as to absorb p-particles of maximum energy. Card l/ 3  Sorption effects in measuring the ... S/115/63/000/002/008/008 E194/E155 Then if this layer in plAced next to the window without breaking Vacuum, the counter records only p-particles from substances attached to the inner surface of the mica and to the surface of the, layer. It can be confirmed that radiation originating in the gas filling of the chamber is not being counted by withdrawing the layer and inserting an analogous layer between the mica window nd -the counter. This given the background level. After sweeping the" chamber, the background contamination due to irreversible sorption can be determined. The actual experimental chamber, made of duralumin, was 178 mm long and 50 mm diametor with a window of cm2 A disk with 12 positions could be placed at various distances in front of the window so that the material of the layer could be altered without breaking vacuum or changing the gas. The gas used was CS2 tagged with s35 with a specific activity of 25 milliCurie per gram of liquid carbon disulphide. Surface sorption was studied on the following materiii1s: teflon, mica, special lubricant for CS29 brass, aluminium, mothylmethacrylateo .1 polished and unpolished ebonite, rubber mastic and sheet vacuum- rubber. The experimental procedures are described in some detail* The materials were found to fall into two groups: the first Card 2/ 3  s/115/63/000/002/008/008 !Sorption effects in measuring the ... E194/EI5.5 instantaneously acquire a certain surface activity which then 'increases exponentially with time (PVC, ebonite, methylmethacrylate ~The other group includes the remaining materials except the rubb:r ;mastic, in which surface Activity instantaneously reaches a cert value which then remains constant. The relative sorptions of ~samples of the different substances, i.e. the percentage of the radioactivity picked up by 1 CM2 of the given surface to the' activity of I cm3 of the chamber was3 teflon 5; mica 5; brass 6-5; aluminium foil 6-5; m6thylmethacrylate 13; PVC 281 polished ebonite 30; rubber mastic 39; rubber 45; unpolished ebonite 65. For materials of the first group the calculation is .made for an exposure time of 26 hours. From these data it is in particular experiment Ipossible to assess the sorption of CS2 ~equipment. Thus the activity of CS2 sorbed on the walls of th: !measuring chamber filled with radioactive carbon disulphide: was !directly measured. A large proportion of the sorption was ~reversible and so is not revealed by'background measurements after cleaning. The sorption effects are very considerablev and differ ,for different materials., There.are 4 figures, LCard 3/3  BAZRENOV, V.A.; KHARUK, Ye.V. Testing the permeability of pine wood to nitrogen and antiseptic solutions. Trudy Inst. less i drev. 65t20-47 -163. (MIRA 16tlo) I I I  UGOIEV, Boris Naumovich, dots., kand. tekhn. nauk; BAMMOV, V.A., profs# doktor tekhn,naukp retsenzent; SEF.GuvSKrr,-r-.-S.-jP red. [Testing wood and wood materials) Ispytanija dreveriny i dre- vesnykh materialov. Moskvap Lesnaia prou7shl., 19659 250 pe (F'IRA 1824)  L AMk&6 Mfr(l )/E--'i',T(m)/FGG/E'JP(t)/ETI IJP(c) ACC Nits AP6011373 SOURCE CODE: UR/0362/66/002/003/0308/0311 AUTHOR-. Bazhenov, V,_A,; Ivanova, R. N.; Miroshnikov, M. M. ORCr. none TME: Determination of the mass of E~O, C02, and 03 in various layers of the atmosphere SOURCE: AN SSSR. lzvestlya. Flz*a atmonfery I okeana, v. 2, no. 3, 1966, 308-311 TOPIC TAGS: atmospheric moisture, -atmospheric ozone, carbon dioxide. atmospheric optics ABSTRACT: A method Is described for calculating the ma a of absorbing gases (HgO, C02, &M 03) along inclined paths which connect any two points In the atmosphere. The curvature of the earth and refraction are taken Into account. The vertical distribution of the concentration of gues is assumed given. The magnitude of refraction is determined by the height variation of the index of refraction of air. A nomogram Is plotted on the basis of information on the refraction curvature of an optical ray In the atmosphere. The nomogram is used to determine the height of the observer, the height of the radiation source, the zenith angle of observation, the zenith angle of radiation, and the distance between the observer and the radiation source. If any three of these geometric quantities are known, the remaining ones can be determined by using the nomogram. A formula is given for determining the mass of the absorbing gas. After Card 1/2 UDC: 551.510.03:551.593.1  NRo AP6011373 1~3 determining the nma of the absorbing gn on the path of the ray in a given stratum of the atmosphere. the absorption radiation by the stratum Is determined. The author thank B Neporent, Ye. 0. Pedorova, and M. S. Kiseleva for their important comments while per Ing this sU*.'6r-lgart. bias: 2 tables. 4 NiZes. and 3 formulu. SUB CODE: 04/ SUBM DATE: MOM/ ORIG REF: 002/ OTH REF: 006  XCZ - R. A,~7002769 ejG1j*RC'--* CODZ: UR/0039/66/O2l/o62/Oi4i/0142':-- AUTHOR: N?chlcArav, V. V.; C~plubovj Yus M.; ~ovlnp 1. Vs,;, D. OXG: none TITIX: Noasuromonts of activity of radioactive Sasas by moans of spherical Ionization chainbor SOURCE: Atomnaya onarglya, v. 21, no. 2, 1966, 141-142 TOPIC T&GS: ionization chamber, radioactivity measurement ABST13ACT: A spherical, 24-cm Ionization chamber with a copper barrier, filled with air under Atmospheric pressure and operating In the -spectrum enorgy-rant-a (0.15 to 2.20 ~X-v) was uscd fy5lmasgNing the ~Zs activity In experiments with 13~lxo' C02 (labeled with 14C), Xo, Xr. and Ar gasos. The gas activity waG dotcroril nod by means of compensation counters. The order of error was about 2.5%. The results 14C Mr, and 4lAr with simple spectra could be used, while showed that onl) 133XQ and 131XG, with their conversion electrons, could not be used. The average currant magnitudes X p~r particle In the chamber were correlated with ao thaoreti,cai7- values and the results agreed within 25 to 30%. Orig. art. has: I figure and 1 table. CNA-7 SUB CODE: 18 SUBM D&M I9JuI65 ORIG REP: 002 OTH REP& 001 rd 1/1  - - RAZHEWIT, V-A- and v- -Ye.--V "Tbe Moisture Content of Wood In the Trunks of Deciduous Trees" Doklady Akad. Nauk SSSR 60, No- 3, 489-91 (1948) 7 S-,rf ) L. ~,  BAZHENOV,, V. A. PA 165T81 CA Pr6parties of Wood (IJ go' Dashenoy V. P. Koustantinoval b2st Of ftr. ~I'WUI I"t --Of. - Cmtl. Acad Bel TJBBR Ak. Xauk OW Vol LUX, No 2, lop 283-286 vorlatilo;n, Cui~~and sip of th of-.. a &C, &::rt66 Wof, ImItIon of.flezture tue ~Ple%Oblsmt` relative to direction o 'Rubmitted'18 Jan. C I I L 61 6,V. ~;j ,y, Ac~  176736 wInrluonce'of Mmlling Upon Deformation of Pro- pressed Wood," V. A. Bazhmv, Tu. M. Ivawv, Timber :Instp ACad BcIAM "Dok Ak Ikuk SM" Vol 71XT xo 4., pp 663 110 results of investigation into deformation sM also strimM of.dry vood first subjected t9 prasoxwe ~~in dry state and then to syell:ing.in vater vith'sub eloquent &71m .(sogsonlzg)~. . Graphs give defoTIMIation (m) Ys lcid-Tki) for variou species, stros$ d:LreC.; tions, ate. Sulmitted 9 J= -50 by Acad V. N. $uk&-'-, 17*36,  BAMMOT, V.A. -- - -- [Wood perembility to lIqmIds md Its Importance for pr&ctioal pmrposes] Pronltsaenoetl drevealrq shidkostimi I as praktichookoe snaohanis. Kooky&, lzd-vo AkmAsail nxuk SM, 1952. 82 p. (KLRA 6:8) (Wood-Perseabillty)  ~-Tho w,tv, Of wood. A. Bzzbfbov. T, Udy All. 1.134, M01. Tw-m it. d,til. thr- )V) rk-rini-JOWhy (1) of a .10. C-1 W(AAi ((-A, ~,Inz, ":)IV. U11:1 'llit verkmerAl s:jrfxcr -,I te'r 1~ 'to. jj.~S~J, ftt~,l V~Tvinj in 11c;j1h , iroo Lvy,-i td with a,.-. i llpC r.,u ublt rurnitav nk~; I tnd d th: pl."-t %:,~ lig'Kir to u rruaapt-l vertical pliss tuba, tht cohrrCIA tdaccd i'l a tnmxIco.1lM-tcr,~td the vat, Of )A j0 %Apor rvai~,j from the los~cr ciul of thV iest pf"-o -.%.s drtd. bY Fkb,.1k)n)kjr1h ill ;t ~J,11(1. xj)t JoIn. A 111114Y *01M madt Clf d1k: I of GA I-AMAO,-A tAUKINIIiAl CUld r4AJW Cfoh~ $%CIjLloi rtg1tir. 1,0% JW jjr4jCr r, Iflo 110i Ivirths ut Z~.7i (I - tani'vilti-4). 35.44 r&JW',. 341.07, Z'0,0r, 209.6p, 20,7s, 21.ar, WAr, A~d nAIct1l..&1.IGwI~ri(vIsO1u0, 11, -20. -, 21, 18, S. R, 8. 6, mid - days, the 1110 Ir, the llvnplts 11so 2-6.0, S 7 24 0 253 2 1 Z , . . .0, aj.a, .12.2, 2:1.0, 1r,,t 70.0%, the , . , reldtivehucildity p,t If,t: NAlont o,.nA of the mm-le3.3 - 77 ' 77, 11, 77. 77. 77, 77, Anti 77%. mA 1~je I :n r,;6ay 0,077, 0,CW. -. U.004. U03 (~&- -4 sild O.W. UqcW JW dw tto' pAw thm1b AUY 0 Lhc A,40%t s4rrpim, cq thmugh Ix--h or irmple at 11* jl,il 11r,"- Sul", hut &I ps% lla:C,4zh birth und k-mit TLC of I an cortykirreA to bo ijetd. by t~c f4ter- pit)- ff 110 or H20 va~oor cand, O!"m9h u btal)(141d 1%1`1PIt t,t VQt;j). h1j1j Mt 1:1 AV. 1110 rOtYttAt. Vid fi~ ptrmiability kowl tht- Jiibutjois Oj ji,0 rclos.,j t~r 1,,Itgth of t!ic gample under tl-.e tt~t condiUous Otz Ahwe. jat~ lAke Kt;q.  ENO " M719' --W(41 to tilt- "S lit- Ji~ it 1~11  rE 11 SS R JL~ ptnznz,,~, lily wAtjr- un4 1Apd-tr&zppw1ed-p1A*~ wux- w f-t-w-4,iA "Jwims of sodium thl"S. v7A. Trua-Y hist. llexj, Akad. Nouk S.S.S.-Vv. (i. wfAug Aw.-The pcrwabuity U I., I ond 1-h) to salld. NdC1 in cc. per day undcr I!, Jf,O t-,icn( 46 57A and 15.10 for it nf~4 III %I 1, %11-1 n.,Ii,,: I I I. 10P., sample k-upl, 1.5 mm. L had a higheT IqA'1 Bjue-stbilwj 1-5 viz-affin at 150' had wi rwi,:~ of 0.-:.- w and 0.44 cc./day &v. !I,' ;:.,z, 1, -, , I,; itst period. and 0.070, t, (,t the 6Aca4y State for und 31 dayi,  luoittuta coulult of li"I"Ity &M-1 funv-S-Infvctcd n the brAvs of owinr tro.-S. S. 1. ve'Dill, V. A. = 1% 1,. ~Iuwtw. T,Pdy Jm4. fera. AW.- Q. 2!Z,AWYiII53.j.-Diti% ure Xiyrn ou tba- W"Milro, divributfull *ntl tjtgrec ut fvn)pAI -twck at Iftrio-As t)ejlu h0shij in &)-o)-Ycsr-,DA ;tF,-cns (1) id"".,j '"01 but,t) i w,'risdi, and in 40-X)rcir-old o;Lks (11) infcctzd 'With PIX5 dryop"'us, P. :,nd P. pcL-jI9j. I Shl)6%(A tilt! llighktst Of 1120 in tl;c 1-~t take. (A 4 Muck and the it: me 3rd stage; 11 wo rcla Of 11,0 '" d(:&(" Of IttaCk. JAu lAke Kcays   1- 7 Lao w P. .41   A 2 H E-1 /~, 0."0 it tr of WWO at an Ar..4,i:Kut s!, 01V io.m; ch~iiit;,I rt,,I,t i I i.-j V. A. It.q1tellov. Frif-h 11, t, 111C I sib- aml '(4. rill.) i t-I ful a i~G. (4 fiv Icrigill v, it liciffit of mil I IjLMl-' - -A IJLAIJ ~~?,OW ;A :V,`0 1110 tUlUO" 10 ;q'prox. U1,091 at .91,110 1180 T.vl i"-1 "wist. %vith I&WIVa4lix H30 1 rlir,1111, %.Ith lcmp. froul '_,f) to I(W. I for 11 twi uk (glq. 1147 1. aisd il'~j ~1), rVII).; (Ut the S;IlllC .1 3 ',,1 1 C4 .1,43,8m. e(Wrt, -A., Ic. i i, -%ill were 107 1, INK!, (.,; L,",k). gkna y A- if,4 i~ v'" t LL~14ijwcag1h wercO.3WS.  eA1HF1V6VV, A I USSR/ Chemistry of at&-molecular Substances F. Abs Jour : Referat Zhur - Khimiyaj. No 4, 1957, 11927 Author ; -Bazhdnov V.A. Inst : Academy of Sciences USM Title : Piezolectric Properties of Wood and Cellulose-Products Orig Pub : Izv. AN MR, Ser. fiz... 1956., 20, No 2., 226-230 Abst.lact Considerable piezoelectric effects have been detected in all varieties of wood., and the harder varieties have lower values of piezoelectric modulus. The same piezoelectric properties are exhibited by plates of oriented, fibrous wood cellulose, while in unoriented plates a piezoelectric effect is absent. SlIgbtj but well defined piezoelectric properties were found In non-fibrous films of cellulose hydrate and nitrocellulose.. Equal symmetry of piezoelectric texture.,%_1 : 2, in all the investigated samples, provided a basis for theoretical gene- ralization of the experimental results: in an the investi- gated samples it is the cellulose molecules that bring about the piezoelectric-properties. "Grains" of piezoelectric Card 1/2  BAZEMY, T.A. OPrizoiples aid method* of anatomical research in wood.* A.A.Uteasks- Mmelevskil, Reviewed br V.A.Bashonev. Bet.shur.41 se.2t284 7 156. MVIA 9t 7) I.Institut less Akmdsmii zzuk SUR, (wood research) (Utseake-Mmelevskii, A.A.)  17 USSR/Physical Chemistry Crystals. B-5 Abs Jour: Hererat - Zhamal Minim No 2, 1958, 3704. Author V.A. Bez-henov. Inat Title Wood Pulp as Fiezoelectrical Texture. Orig Pub: Krist&Uograriya, 1957, 2, No 1, 108-114. Abstract: The influence of cellulose orientation in cell capsules or vood cells on the piezoelectrical properties or vood pu4 as or apiezoelectrical structure is discussed taking into consideration the form and the laminated structure of cells. card 1/1 -38-  BAZHIMOT, Valariv "AM a- 9 Yu*Ho, profeg otvarede; MUNTGOVA, 7s,B*# red,lsd-va; ASTAFITWA, G., takhn.red. (Piezoelectric properties of vood] Plasoolaktrichaskis avoistva drevesiny. Moskva, lzd-,wo ftd.nauk SWRI 1959. 238 p. (MM 12:12) 1. Cblen-korrespondent Akadamii arkhitaktury i stroitel'stva SSM (f or Ivanov). (Wood-11sotria properties) (Piesoolootriolty)  leri'v llfhfi U-5, v ..! -I- --- - -- -- - -C;-V.LUU "Piezoelectric Effect Of Wood." report to be submitted for the Fifth World Forestry Congress, Seattle, Washington., 29-1o Sep 6o Deputy Director Inst. of Forestry & Wood Processing., Siberian Dept., Acad. of Sciences USSR, Krasnoyarsk.  BAZHENOV, V. A., Doc Tech Sci (dies) -- "The piezoelectric properties of wood- pulp, and the connection between them and Its other physical properties and structure". Moscow, 1960, published by the Aced Sci USSR- 30 PP (Min Higher and Inter Spec Educ RSFM, Moscow Forestry Digineering Inst), 175 copies (KL) NO 10., 1960, ILM  BAZHDOV.--I-I-- doktor tekbn. nauks prof., otv. red.; IDSKMOVA, I.P., red.; SIKLMA, G.S.p tekhn. red. [Studies in the field of chemistry and chemical technology of wood] Iseledovaniia v oblasti khImIJ i kbimichaskoi tekbnologil drevesirW. Moskva., lad-vo AN SSSRO 1963. M P. (MM 16:12) 1. Akademiya nauk SSSR. Institut lose i drevesirq, (Wood-Chemistry)  BAZHENOV, V.A.; XYTHANOV, A.V. Symmetry of the piezoelectric properties of normal. and compressed cellulose. Kristalografila, 8 no-5s791-793 S-0 163. (KIRA 16slO) 1. Institut, lose i drevesiny Sibirskogo ot,deleniya AN SSSR.  0.%ACH, Nikolay A eksandrovich. Prinimal uchastiye KOBU.IUKIN, F.K., xand. fiz.-mat. red. [Permeability and conluctivity of wood] Pronit5aerost' i provodimost' drevesiny. Yjoskva, Lesnaia pror,-jshlennoBtl, 1964. 1F0 p. (MJRA 17;9) 1. Zaveduyushchiy kafedroy fiziki Ukrainskoy sel'skokho- 27aystvennoy 3-kademii (for Kobushkin).  0 0041 BMWW* TAO OdAbUt" buft fm 40jos"d tedft of artkaw MA ustwiduo a - 29 MOT42345 A '0(0s OM 381U)  17 00562-~>& )1W( )lEwp /f )/E~p( ACCESSION NR: AR5014702 TJR/0l24/66/000/005/V070/V070 Ref. W. Mekhaniks Abs. 5V587 SOURCE. AUTHOR:. Bazhenm V.- G.. TITLE: Stress concentrations in turbine disks CITEDSOURCE: 9b.'Vopr. mekhan. I mashinostr. Kiyev, Kiyevsk. un=t,,.J9641 88-9,2 .TOPIC TAGS. Mmetric gas turbine disk, stress concentration, contact point effect say disk, ei-tended disk hub J ~~TRANSIATIOK.- Its author reports the results of an experimental analysis of the stressed istnte'of'A.yeal gas-turtJAq.0tak. The disk is asymmetrio, with a diameter of 146 nun. t -was cast complete with blades aiid'ha&-an. extended hub, -whJ& deseendg Jpto the disk seat in the form of a conical shell. The zneasurementF~ employ*it'rA1n-1?uge resistor se" I - slnr -- -. elements (baue 5 mm, resistance 60 mm), glued witil-BF-Z Wheslyd in radial and fangun~ ps of tracing paper simi- tial patterns, Cumeeting wires were fastened to the disk Wi_tri larly glued on. - The gluing method was reliable at velocities up to 350 m/seo. Wications of each pickup and of the current collector channel corresponding to it were subject to ~..;_correctton defined from differences between readings prior to istarting and Immediatcly car  00562-wO ACCESSION NR; AR5014702 .0 after the disk stopped. This method permitted compene~ of changes in resistance~ of the bridge extension arms attributable to heating darinra rot, g rotd of th disk and the current collector housing, Thte effect of heating in the latter to dic tat= thee accompanying significant Increase in the resistance of thin assembly wires within t. Experimental re - sults were compared with calculated data obtained with conventional methodgwhjch assumei :.symmetry of the profile and Ignore deflection of the disk and possible stress con~.entrationd'-.''w at points of contact (i.e. seat and hub, etc.). It was sho%Yn that actual stresses can excbed 'calculated values to a significant exteft: For example, at points of transition from hub to dIBk seat and at the point of contact between blade and rim, the measured stretuses were 30qi, bigher than calculated values. V. P, Rabinovich --SUB CODE., AS ENCL: 00 7, q  V.G., inzh.; KOZLOV, I~A., kand. tekhn. nauk Using straln gauges for eotcrmllning stressed state in contentration areas, Yashinostroonio no.500L-92 S-0 165. MRA 18:9)  L ~~J-616 --I j IfY65/000/009/1157/1160 ACC NR, AP5024782 SOURCE CODE: UR/002 'AUTHOR: Pzsarenko_, H._SO-PL erWOL'.S~ (Academician AN UkrSSR),-, a - j 0 0 -Bazhenov, V. H/_ Bazh nov a. o ov, I. A. 2f a oflaterials, AN URSR ORG: IMAJiLMSe of tba Xjpb_jjtaj thl SgiRnc (Instytut problem materialotnavst v& AN URSR) TITLEs The stress concentration around eccentric openings in operating turbine and pump disks SOURCE:.AN UkrRSR. Dopovidip no, 9. 19659 1157-1160 .TOPIC TAGS: turbine diskl,"44isk opening, stress concentration, stress calculation, stress ABSTRACTi Theoretical formulas presently used to'calculate the-stre 9_1 concentration around circular openings located in a rotating turbine or a pump disk at a distance from its center are analyzed and compar:d with formulas derived from e:.parimental da ta. Theoretical value 8 of the'strfiss-conceAtratiou factor were as much as 30 34Z lower than the exp trimenta-1 values 9 regardless of the diameter of the openings -or their distance from the disk center or rLm. On the basis of the experimental data,,corrective coefficients for calculating the radial :and tangen.tial stress concentrations were derived which reduced the difference between the thooratic.al and experimental values of the r~A 1 19  ACC NL APS024782 C) stress concentration to 17-30%. Thus even improved for=ulao cannot be used to calculate all'the factors which affect the stresses near an eccentric opening. Thus It can be concluded that in-an operating rotating turbine or pump disk, a maximum stress concentration can appear at any point of an.accentric opening, depending on the location of openings and the effect of various other factors. Orig. art, has: 1 figure and 10 formula*, Ems] SUB CODEs OR91CI SUBM DAM 260ct64/ ORIC REFa 001/ OTH REFs 00 ATD PRESSt ICwd 2 1.2  KOZIXO I*Aojp kand, tekhn, nauk~_--BAZ1MNOV,,-V,,G,, insh. Investigating stress conoentration in rotating disks beyond elastic limit. Vast.. mashinostr. 43 no.12s.15-3.7 D 163. (MIRA 17:8)  KOZWVv I.A., kand.tekhn.nauki BAZHENOV, V.G., inzh. Testing stand for rotating disks of turbomachines. Hashinostroenie no.ls25-28 Ja-F 164. (MIRA 17:7)  KOZLOV, I.A., kand.takhn.nauk; BAZHENOV, V.G., inzh.; LEEFDF.V, I.V., inzh.; MATVF.YEV, V.V., inzh. Effect of stress concentrators on the strength of rotating discs. Energonashinostroonis 10 no.105-37 Ja 164. WRA 17:4)  Apho=94 S/0304/64/00()/001/0025/0028 ACCV>SIoN NR: AUTRORS: Koslovj L A. (Candidate of technical sciences); When". V. 0, T3TLEs Stand for testing rotating turbomachine disks SOUJZGEs Hashinostroyenlyaj, no* 1. 196h., 25-28 TOPIC TAGS: test stand,, turbine wheel stress., destructive testing, generator PN )400, generator FN 290, gonerator A61 4, tachometer lCh6,, osci3_1oE;raph 30 7 ABSTRACT: A stand which permits testing of disks under stress, plastic deformatio4 and destructive stresses at speeds up to 60 000 RPYs is desdribod, The testing installation is compartmented to permit easy changing of the different parts. A schomatic of the installation is shown in Fig, I on the Enclosures* The tested disks are driven by a D,Ce =Dtor.PN-400 throuSh a two-stage gear reduction (4-ratio-... 1:4 and 6 ratio ls3,5) which permits speeds to 90 000 IRPN, although in practice the speeds are restricted by-ball bearing limitations* The test section is connected to the drive through the coupling (9) and. is contained in, a steel testv chamber (16) which limits the.size of thetest disks to less than 2000 xm In  ACCMION NR: AA020094 diameter. The mounting detail of the disk is shown in Fig. 2 on the Enclosures and includep a cooling system for the supporting bearings with compressed air,, water" and oil. The test facility is instrummted, to perodt dynamic stress and temperature measurements* The construction of the test facility permits experi- mental work on a large range of disk sizes and under different stress and temper- ature conditions, Orig, art* hass 2 figures. XSSOCIATION: Institut metallokeramiki i spetseplavov AN 'USSR (Institute of Metal Ceramics and Speoial A4oysj, AN UkrSSR) SUBWTMs 00 DATE ACQt 3DIar64 - ENCLs 03 SUB CCDE: IE NO TW SOV 3, 000 OTISR t. 000 Card  ACCESSION NR 8 APhO2OO9h card 315 To card INCLOSURZ  ACCUSION MR: APII020094 To card 315 zNcLwvRz 02 W 3~ W-4W )A61-4T U I I WEV mz== 0 Fig. 1. Sr-'iematic of test stand for turbine disks, a_ mechanical part, with control oonsolej b- principal electrical pwt. Card 4/5  mmosum 03 Fig. 2. Disk support,* A=SSION NRt AP4020094  ki uri-t, TOPIC TA G S gaB uin-a, -:ta-~bine cilsk, stresS corcen~r-at3c)n, Stalic Le6; -cLzu.'-' an cz state in OT oif V& w0 c,btaL.-ad bir st=dard- nam-thods. The tests i-e-r-8 . stitat-, of cenrnett' 51---- lavov AN i-qzSSP j7~ij ~,enais apd &Deciai Adlays AN -,-SS Z~ Mat SUB CiDDL: PR  I PISARENKO, G.S. [1~rsarenko H.S.), akidemik; BAUIZOV? V.G. i J,*V- KOZLOVS I.A. PAP , Concentration of stresses around eccentric holeo in real turbine discs and plimp discs. Dop. AN URSR no.9:115?-1160 165. (MIRA 18t9) 1. Institut vroblem materialovedeniya AN UkrSSR. 2. AN a-rqSR (for Pisarenio),  ACC NRt 5028882 (,ff AM Monograph UJR/ Kozlov, Igor# Andreyevich;-�IzJW ,12:~dimir Grigorlyevich Limiting carrying capacity of the parts of turbomachines-(Predellnaya nesushchaya sposobnost' elementov iurbomashin) Kii~, iiau6va dumka, 1965. 166 p. iUuo,,, biblio. (At head of title: Akademiya nauk Ukrainskoy SSR. Institut problem materialovedeniya) 1300 copies; printed. TOPIC TAGS: turbine. turbine design, turbine disc PURPOSE AND COVERAGE: This book is Intended for engineers and scientists concerned with the i~~n ~hllf machine parts, as well as for professors and students at technical schools of higher education. Methods, based on experi- mental data, for determining maximum safe load of turbine parts are presented. On the basis of their own experimental data, the authors attempt to analylLe methods for determining load-carrying capacilties and to evaluate the errors resulting from the use of conventional premises and hypotheses for calculating strength. Recommendations, based on the authors' experiments, are offered to enable a more correct determination of the maximum safe load of structural members. Some of the equipment used for conducting the experiments are described. The experiments were carried out at the High-Temperature  IM NR-- AM5028882 Strength Department of the Ins Academy of Sciences USSR. TABLE OF CONTENTS (abridgedl Ch. I. Theoretical methods for determining load-carrying capacity -- 5 Ch. M Experimental methods of investigating load-carrying capacities 32 Ch. U1. Load-carrying capacity of rotating disks -- 60 Ch. IV. Effect of stress concentrations on the load-carrying capacity of structural members -- 115 Ch. V. Load-carrying capacity of pump impellers -- 146 Bibliography -- 164 SUB CODE: 13 09j IOUBM DATE: 08Jan65/ ORIG REF: \ 043/ QTHREF:-017  , NP I A P Dr Wl -4 C, Kiev) . q~ c n 8 TI s 'eformation stres on rl 05 3rt3 7, -1 V E~r S of rei, Cord 1/3  11 5*7052-65 corrospond--n to the ideal plast.Lu the~DU cunre C, tk-;aory of sv.~dl elastic-plastic deformations-) w,.d curve B, to 4xperiments. Theue results shaj that, t aqtilpatts thG ef rutatioms at which plastic defer- atllan sets in for disyB. On tne dr:Zormration theory;, 9 qLf t, e!. r ,zr c c-3rii n~, t ':ie 311y r 1 1 ASSOCLAT103i Institut problem matwi&1ovedeni-ja AM UkrSSR (Inst Ltute for Frotem D-1 studv Of yatari-,"Is k; SU --nm !T i, ED I150ct6L 2 0' 5ji3 I-Card 2/3  NtOi-; --- AP 3L ca 4--t. Fig. i Cc~rd 313  A%A. MKI AP5028983 SOME CODES UR/0122/65/000/009/0009/001 AUMORS8 XD310V* It Ae (Candidate of toobnical sciences); Bazbenov, To 0. (Candidate of te'.4mical soiencos) OROS TITM Failure 0 SOURCES Vestnik sashinostroyaniyap no. 9v 1965, 9-12 TOPIC TAGS: turbine rotorl pump impeller# mechanical failure, material failure ?n"A-K"4 PAIU1141 ABSTRA,Ms~ To determine the relative merits of using the maximum normal stress CT y max (calculated on the basis of elastic deformations) or the average stresses dair mid av t e r (baaed on complete redistributionof stresses) in predicting the failure of rotating disket experiments were performed with flat dicks and with complicated rotor chapes such as shown in Fig. I (turbine wheels) and Fig. 2 (pump impellers). The experiments were performed an the apparatus described previously by the authors (Stand dlya. ispytaniva vrashohayushchikbop diskov turbomashino Sb, Maahinostroyeniyep No 10 ITIp Kiyevq 19 %4) with flat disks of aluminum (AL4-T6)9 out irong zetalloaersaLe~%nd organic glass'pand with complicated rotor shapes of chromium-nickel7iO. Flat disks Card 1/3 UDCt 621-2290001-5153 .9-41  L-ca Figs 2o Pump IMellor shapsio  ACC NRe AP5028983 with ceqtral and eccentric holes were.used. Y4r the lattery -the theoretical a rasa ay at the stream concentrator N. - 3 O-r/a-t) and the effective stress :I k k kef - 1. kT were calculated, The plasticity of the material waa specified by.the residual elongation .8 . The ratios of the above-mentioned stresses (where applicable) to the yield stres's a' bwere tabulated At failure. It was found that: the relative strength Cr Y a' of the turbine rotors (6 - 3-0P was the same (-- 1-43) as that of flat cast LX/ b iron disks (-6 0.25)t indicating the importance of geometry on strength; the high ductility (8 12) of the impellers Lpermitted a much higher value Qz 1.85) when the stress at the stress concentrations was used as LT Y ; the stresa O'ef , calculated max with consideration of the plasti6 properties of the material, agreed well with the yield, stress (d- ef /T, max, b - 1-09 0-95, and 1.11 for aluminum, cast irong and steel, respectively) but this calculation is impractical with complicated shapes; d"y- is MaX exact only for very brittle materials 0), while d- "" or d- "' are good only for t r 4 ductile materials (d ;P 3-4%); stress concentrations must be considered regardless of ductility, Orig. art, hast 4 forwalaeg I tablep and 6 figures, tbB COM 13 1 none/ SM REP& 0061 OTH REPs 001 I Card ~/3 SM MATE  NMU)V, I.A. V kand. tekhn. nauk; V..-G.--p kand. tekhn. nauk Evaluation of the strength of turbine disco, Snargomashinostroanis 11 noo9:28-30 S 165# (Him 18 110)  ALE; NRs ATW8674 -SdUMck CObEt tM/0000/6VOOO/Obqo~ 94/0304 - e3 AUTHORS: 'Calov, I. A- (Kiev); Uzhenov, V. 0. (Kiev); Leshchenko,_Y!_M. (Kiev) ORG: none TITLE; Investigation of the stressed condition and strength of e2 turbine disks- SOURCE: Vaesoyuznoye soveshoban e po voprosam statioheakoy i dinazmicheq~coy __p~ochnosti materiii~Wl-'Woiitruktsl~ ifii 6-~'j 1 pi ...... .4A Termoprochnost' materialov i konstraktaionnykh elemen ov qmT~!ra 1_3 strength of materials and conetruotion elements); materialy soveshebaniya. Kievt Xa.ukova dumkaj 1965, 294-304 TOPIC TAGS: turbine blade.. turbine wheel , gas turbine, stress analysis, fatigue. strength ABSTRACT: The stress conditions and strength Qf -ord -nick-el gas turbine cUgko of complicated profile were experiummtally investigated and compared with theoretical results obtained by dividing the disk into circular sections (G. S. Pisarenko, i dr., Nekotoryye voproV' prochnosti lopatok i diakov gazovykh turbipp Izd-vo AN UkrSSR, 1962). The disks were oaat'integral with the turbine bladeej4Strees profiles were obtained~at 18 000 and 24 000 rpm, and maximum discrepancies of 18% with calculated values were observed (curves of the calculated.and experimental stress profiles are presented) for symetrioal disks, and of 150--160% for conically shaped disks. Stress profiles were also obtained for the two V"s'of disks just prior to failure (at Card 1/2  L 24451-66 ACC NRi AT60013674 44 500 and 54 000 rpm respectivelyl for.196- and 148-1= outside diameter).* It was found that -the maximum stresses at failure were different bY 50% from calculated values.. It is concluded that present theoretioal methods are inadequate for prwUot- ing the strength of cozplicated turbine disks;, Origs art. bast 10 for=Llas and 7 figures. M CODE: 13P 20/ SM DkTRi 19Aug65/ CRIG MWt 011 %.arc ~f cia A. P  _1 24463-66-- WWLE_WPN)LEWPW/EPF(n)- AT6008676 ACC NRi SOUICE CODES uR/oooo/65/000/000/0311/0316 WN/W(M/jf#jCZ)/RM ~' V AUTHORS: P4.yuk, A, D. (Kiev); Bazhenov, V.~' G. (Kiev); Kozlov., ~o A# (Kiev); 77 lj~tyeyqyj Ve V. (Kiev) ORDt none A TITLEt On the investigation of vibration damping of turbine hlada& on rotetiag disks at high temperatures SOURCE: V strongth,of materials and construction elementa)j materialy soveshchaniya. Kievp .Naukova dumka.. lq65.,_3l1_3i6 TOPIC.TAGS: -turbine blade,.turbine rotor, vibration damping$ vilbration stress, high t6mperature effect ABMACT: The experimental apparatus used for studying the damping of turbine.blades on rotating disks at high temperatures is described. 7be disks are mounted on an acceleration stand, as suggested by G. S. Plaarenko, and I. A. Kozlov (0 nesashchey sposobnosti bystrovrashchayushchikhsya diskov, Ukrgostekhisdat, 1962), which has a special electronic speed indi6ator-regulator and which can be heated to 870-970K before starting the test* The damping curves are obtained- on an N-102 oscillograph 1 2  M ACC NRo AT6008676 1; which'raceives signals from special high4paratup resistance strain gages (heat- treatood con3tantarrw:Lre) bonded with L-A cement. V~,The blades are excited by a bullet from a small caliber-gun which can be fired-t7e-ntimes during a run, Circuit diagrams of the speed indicator, gun triggeringp and oscillograph triggering circuits are givenj and a sample trace of free,, damped vibrations of a blade travelling at 3W rad/sec at 570K is presentede Qrig* art* has 1 5 figures* SUB COD93 21., 20/ SUBM DATIt 19Aug65/ ORIG RErs 0051 OTH REPt 001  1 ACC NRI (M) . I - .-I AT7003567 SOME COM UR/i240/66/000/001/0103M071 ,AUTHORS: Bazhenov, V. G.; lCoalov, I. A.; Leshchankop V. X. iORG: Institute for Problems in the Study of Materialst AN UkrSSR (Institut problem !materialovedeniya AN UkrSSR) ITITLE3 Investigation of stressed oondition in rotating disks w.Lth stress concentrators SOURCE: Kharkov. Politekhnichaskiy institut. Energeticheskoye mashinostroyaniye no. Ii 11966. Teploobnen i gazodinskmi (Seat transfer and gas dynamics), 103-107. ITOPIC TAGS: stress concentration, stress distribution, turbine disk ABSTRACT: The stress distribution in a rotating disk with eccentric holes is investi-; gated experimentally. The ocefficient of stress concentration is defined by d get 'Ke =3 where b is the closest distance between holes. 'The investigation is carried out with a tux-bine disk as shown in Fig* 1 e The stresses were estimated by means of strain gauges and plotted graphically as a function of x/ The calculated stresses at the. !three points 1, 2j 3 were found to be 9o25 and 1~% lower then seasured valuesto The ;experimental data show that the highest stress ooncentration occurs at point 2 for 1which Ka 2.65 Card 142  ACC NC--J~fM-561 Orig. art* has' 4 figwes and 3 formul". !SO CODEs 20/ SUBX DATZs am*/ ORIG RUs 002/ OM RIPs 001 Fig@  KOZLOV, Igor' Andreyevich; BAZHENOV Vladimir Grigorlyevicbj I - "YTNIK$ P.K., red. --. - - '- (Limiting carrying capacity of the parts of turbo- mac,rlnee] Prpdollnaia nesushchaia sposobno3t' alementov turbomashin. Kiev,, Naukova, dumka,, 1965o 166 p. (MIRA 18:5)  - BAZMOV.* V.1 - HODESTOVA, T.A., retsenzentj ZAVIYALOVA, A.K., red.; 1.0., tekbn. red. [Guide to textile materials in the clotbing industry; abstracts of lect=-es]Shveinoe materialovedenie; konspekt lektaii, Moskva, Hauabno-metodicbeskil. kabluets Ptsle(Textile fibarolTekstillrye volokna. 1960. 80 p. Pt.2.(Tecbnology of textile manufacture]Tekbnologiia tokstillnogo proizvodstva. 1961. 114 p. (Textile industry) (MIRA 15:9)  BAZIMOV, V. 1. [Study of clothing witerials] 3hveinoe materiallovedenie. Moskva, Vses. zaochrWi tekhnikum legkol prowlshl. Pt.3. (Composition,, 3tructure and properties of textile fabrics) Sostav, stroenie i svoistva tkanei. Izd.2. 1963. 62 p. (M1RA 17:9)  BAZHENOV, Vladimir Ivanovicb-- KOBYLYANSKIY, D.A.j, retsenzent; 1UzdMIAvvA,, A.R.-.7"Refe;nzent; MUMMA, N.A-p retsenzentj KINEIEVA. V,7.. retsenzent: POD"YEMSHCHIMMA. T - V, . re taenzeni ; :GAMA, D.M. , red. (Study of materials used in the clothing industry) Mate- rialovedenis obveinogo prolzvodstya. Moskvao Legkaia Jn- dustrila,. 1964. 374 p. (MIRA 18:4)  BLZH%NOV, V. I. and 11. A. 14IASOEDDI.I. ----------------- Hadiomaiaki. Chest' 1. Moskva, 1935. Title tr.: Radio beacons. Part I. NCF SO: Aeronautical Sciences and Aviation in the Soviet Union, Library of Congress, 1955.  ~V. BAZHENOV, V. 1. Terminologiia, po radiotekhnike na chetyrekh iazykakh. 'Moskva, 1935. 96 P. (TSAai. Tekhnicheskie sametki, nb. 68) Bibliography; p. 96. Title tr..- Nomenclature of radio engineering in four languages. TL570.M6 no. 68 SO: Aeronautical Sciences and Aviation in the Soviet Union, Library of Congress, 1955.  PAMMOV, V. 1. - - MineralogY and formation of the columnar mineralization in the :2) Andreevskoys deposit* rsv. Tpr 9os85-95 158. (MrRA 12 1, Predstavlenp profesaorom doktorom Y.N. ShakhovYme (Mia)cass Autonomous Province-Mineralogy)  Iffect of enclosing rocks on the distribution of columns-of-ors in the Sarala ore deposits. Geol. i geofis. no.2:148-143 160. (KCRA 13:9) 1. Tomskiy politakhnichaskiy institut. (Sarala region-Ore deposits)  BAZEUM V.I. Age relationships of dikes ancl ores in the Sarala ore field (Kuznetsk Ala-Tau). Trudy Imt.gool.i geofiz.Sib.otd.AN SSSR no./+:IU-120 160. (MMA 13: 7) (Swala region-Gold ores) (Dikes (Geology))  BAZHENOV, V. I. Cand Geol-Min Sci - (diss) "Geology and mineralogy of the gold- ore quartz lodes of the Saralinskiy Ore Field." Tomsk, Pub. Tomsk Univ, 1961. 18 pp; (Ministry of Higher and Secondary Specialist Education RSFSRj Tomsk Order of Labor Red Banner Poly- technic Inst imeni S. M. Kirov); 150 copies; price not give.-A; (KL, 6-61 sup, 202)  Ito 'trigger a flip-flop. The poiLtive pulse from this flip-flop is fed to a'synchm- nous detector which Is also supplied with a 87 Hz modulation voltage through a phase inverter and a phase-shifter. A Helmholtz coil and a ZG-10 generator are used for the low frequency modulation of the magnetic field. The signal from the synchronous detec- tor is limited, differentiated and Is used to trigger a flip-flop whose positive pulses are integrated by an RC circuit. As soon as the voltage across the integrating network exceed a certain level, a multivibrator is switched and the contacts of a re- 3AW which feeds the stepping switch are opened, thereby changing the frequency of the autodyne. After 10 markers am obtained, the system returns it to its initial state. Another group of relay contacts closes the input to an electronic recording potentio-. a-ster and calibration markers am recm%ded on the chart. The maximum rate it which the field Is covered Is'determined by the sensitivity and by the reaction time of the system, by the frequency of modulation and by the distance between markere and is ap;- proKimately 1.5 9ec'11. The accuracy of the markers depends on the stability_of the autodyne frequency and Is 1.910-2 cersted wben the stability Ls'5,,16-5* Mw circuit diagram with all, component values Is shown an well as.a typical recording of the elec- tron pWM&grAtio resonance VOCUVM* OriSs Orto baS: 2 figUrQ4* Pon DA721 '"KMZ*5/ ORIC RCF: 002/ OTH MErs 003  RAKHTIUs Ye. A.9 YAMFOISKIYs T. C.$ Insbop BAZHEWVII Vo P, s InShop Vr=V.LWS pop*$ Insh. Vsew~.uzWa Kontora Tipovogo Proyektirovadya 1 TddudehookiM Iseledmay (rM) MirAyazhstroya V6Utl.IY&tOrAYY* QX~~ Page 53 SO: Collection of Ann2tationg of Scientific Research Work on Construction. ccmRleted In 1950. Moscow, 1951