SCIENTIFIC ABSTRACT BYKOVSKIY, G.P. - BYKOWSKI, W.

~MYA=---G-p-,-Au2h. VASINA, I.N., ~Jnzh.; VORONIN, Sff ORTSOV, S G, inzh. - AYN $ -AoD:,,,Ilnzh-,. S112M, I.Tes inzh.; PCLTAKOV, L.L., inzh.; GRICHUMNIKOV, G.A., insh., red. [catalog 'of designs of stands,.construction yards, eqmipment and devices for asking prestr6seed reinforced concrete elemental Allbon-katalog proektow stendov i poligonov,- oboradowanlia i pripposoblemil d1la izgotaTlenlia pradvariteltuo napriashennykh zhelemobetonnyi& konstruktaii. Xoskwa, ?Sentr. biuro tekhI6 infom No.lMh-2. 195?0 118 ps' (WMA 11210) 1; Akademlya. stroitalletya I arkhItektury SSSM. Ikuchno-Issledo- vaiellmkiy Institut tekhalcheekoy pomoshchi mtroitellstru. (Prestressed concrete)  BYKOVSKIY, G. P. Cand Tech Sci --(diss) " Study of rutional methods of 4. A~W444 the manufficture of wire I "Iels for pro~:~~ reinforcea-oonerete structures." Mos, 1958. 14 Dp (Min of Higher Educfttion USSR. 1&s Order of Labor Red Bsnner Construction Engir:oering Inst im V. V. Kuybyshev), 150 copies (KL, 51-58, 101) -46-  BYKOVSKIY, G.P., inzh. Making prentressed reinforced concrete cotapsite beams. Stroi. prom. 36 no,'2-.9-11 7 158. (MIRA 11:?) ,a Orgetroy. (GirdsrsY~  i)n_ ACC NR, Ap7001827 SOURCE CODE: UR/0119/66/000/012/09191 21- AU* THOR: ~yko D. (Engineer); Polyak, M. N. (Engineer) ORG: none I TITLE: Accumulator-typi counter using ferrite cores iSOURCE: Priborostroyeniye, no. 12, 1966,'19-21 TOPIC TAGS: pulse counter, pulse accumulation KBSTRACT: The design of a multilevel flux counter is presented. One stage of this counter is shown in Fig. 1. The principle of operation is as follows: the input core is periodically switched by the input pulses. This in turn switches a fixed quantity of flux-in core C, so that it is completely switched from negative to positivi saturation only after the.application of.the n-th pulse". The C, core is then reset Tor'the next cycle by a biased blocking oscillator circuit. The authors derive for- mulas for permissible deviation of critical parameters including the average incre- riental flux change At, in core C . 'A special test circuit is presented which selects cores Cl according.to parameter It.' A-two-stage pulse counter based on this principle was built'"d tested. The value of ii for each itage was 4, -The'counter utilized 3 UDC: 621,374.32  ~C,-' NR, AP7001827 Wi Input I All wt Ult Tj To wit, dap Fig.* 1. Multilevel flux counter stage*  ACC ~0001827. VT-5 cores (0D,.7 mm; ID, 5m; H, 2mm) and P-16 tiansistors. The repetition fre- quency of the input pulses was 10 kc. Thecounter operated successfully when the 13upply voltage was varied by.no more than 201. Orig. art. has: 8 formulas.jmd 2. figures. JBDI SES CODE:. 09/ SUBM DATE: none/ -ORIG REF:'. 002/ ATD PRESS s SUO C-wd 3/3  16159 SOURCE CODE: U]R/OO58/65/OOO/OWA05O/AO50 AUMOR: Pchellnikay, M. N Wkovj X. P.; Aftovsh&I N. ~ N. TIM: Apparatus for r4diometry of gases and liquids A SOURCE: Ref. zh. Fizika, Abe. IIA41T REF SOURCE: Tr. Soyuzn. n.-i. in-ta priborostr., vyp. 11 ig6k,, 167-181 TOPIC TAGS: radiometry, radioactive contaminationj atmospheric contaminationj radioactive aerosol, nuclear decontamination ABSTRACT: It is noted that the development of the atomic industry., the extensive u&e of radioactive isotopes in the national economy, and tests of atomic and hydrogen wc-apons unavoidably increase the amout of liquid and gaseous radioactive waste In the biosphere. All this has made more acute need for combatting contamination of the bio- sphere. A brief review is presented of the work performed at SNIIP in recent years on the development of procedures and apparatus for the control of radioactive.aerosols G wid water contaminated with radioactive substances. The principal problems cof r;,4io- metric control of air are discussed. Sources and composition of radioactive aerosols .of commercial origin are considered. The main requirements vhich are imp_osed on an aerosol radiometer are formulated. Methods and instruments for intermittent and con- tinuous monitoring of radioactive aerosols in manufacturing areas are described. Specific features of the problem of control of gas waste from radiochemical enter- prises are considered. Instruments and apparatus for the control of contamination of  L 32067-66 ACC NRt AR6oi6l59 air in uranium (thorium) mines and enriching factories are described. Methods and instruments used for radiametry of liquid media are also described. Wsys of Vurther development of these procedures are noted. L. I. (Translation of abstract] suB caDE: 18, o6 ard 2/2  WR6o16489 SOURCE CODE: UR/0272/65/000/012/0105/0105 AUTHOR: Pchellnikov, M. N.; Markov. K. P.; Byko skiy, N. N. TITIE: Equipment for radiometry of gas and liquid media SOURCE: Ref. zh. Metrologiya i izmeritellnaya telchnika, Abs. 12-32.910~ REF SOURCE: Tr. So~mzn, n.-i in-ta priborostr., vyp 1, 1964, 167-181 TOPIC TAGS: Radiometer, radioactive aerosol, air pollution, radio- active substance ABSTRACT: A brief review was made of some works completed at the SKIP In recent years, of the development of methods and equipment for testing adioactive aerosols6and water contaminated with radio- active subs nces. Basle aspec of radiometric testing of the at- mosphere were discussed. The radioactive sources and the composition' of radioactive aerosols of industrial origin were considered. The basic requirements for aerosol radiometers were formulated. The methods and equipment for single and continuous control of radioactive aerosols in industrial buildings were described and specific charac- teristics of the problem of controlling gas waste by radiochemical --A I/P uDc: 189:919.16.07  -4 103 ACC NR: plants were noted. Devices and equipment for controlling air polluti in uranium (thorium) mines and ore processing plants were described. Methods and equipment used for radiometry of liquid media were also described Plan have been outlined for the future developme t of these metLds. fTranslation of abstract] ~FMJ SUB CODE: 18/ hs Card 2/2  BYKOV3FIY, (.'-. L. TROSHICHEV, V. 1-11. - Kliudo.-hnik i, GROI-IOV, V. L. !Wkh., PSHEMICIMIKOVA, 0. S. - Arkh., BUYMOV, IxIch., BAYAR, 0. G. (RulovoditellterV) Kand. Kand. ArkJiitektury, RADIII-VICH, I. L. Arkh., V. G. - Kand. Teldm. Nauk - Kand. Tekh. Nauk, POKIEUS, R. L. - Yu. 'E. - Inzh., BI'KOVSK-Il,- 0. L. - Arkhitektury, IMAYOTINSKIY, M. P. - CHERIKOVER, L. Arkh., A!"IREYEVSK-l" KauchnoisFIedovatellskiy institut stroitellnoy tekhniki Akademii arkhitektury SL'iqq Fredlozheniya po oborudovaniy i otdelke kvartir mno,:oetazhny%h zhil3tin d,mv v noskve (Allbom) Page 67 SO: cojjt~ntj= of Ar*nnt.;,:L,!nn-c% nf Scientific Research I'lork on Conslynicli=9 coMp3pted in 1050. I'lloscolf, 1951  KOTLYARCHUX, Pavel Antonovich; BTIOVSKIY, T., red. , (Workshop in a suimmse..;"Iu"nvyi""t~e"liklhnikI universal machine] Kasterskaia v chemodane; universallnyi stanok IIUnyi takhniks' Xalininskoe knishnoe isd-vo, 1958. 29 po (KIRA 12:2) 1. Slesarl lalininakogo vagonostr6itellnogo savoda (for lotlyarchak). (Woodworking machinery) (Ketalworking machinery)  --- - -------- .1. BYKOVSKIY, V. A. 2. USSR (6oo) 1~. Zinc~ Phosphide Pre-planting treatment of' acorns with zinc phosphide in order to protect them from susliks and other rodents, Dokl. Akad. sellkhoz., 17, No. 12, 1952. 9. Monthl List of Russian Accessions, Library of Congress, April, 1953, uncl.  B,YKOVS]7%IY,. Valorly, podpolkovnik, Geroy Sovetslkogo r kosnonavt SSSIR Toward new space flights. Av. kosm.  FSS_9/8WT(J)JEWL1Jt).2JEWA(d) ITIMOW ACC NRt AP6007296 souRck CODE: uk/olo9/66/000/002/0030/0034 AUTHOR.* Bykov sk,i3,-.__V_.(Lieutenant colonel; Hero of the Soviet Union; Cosmonatilt-pil'o-fj- ORG: none TITLE: Toward neH,_ ~ri a .[Discussion of lunar flights) SOURCE: Aviatat~a i koem6n9LVtika, no. 2, 1966, 30-34 rOPIC TAGS. alt, lunar probe, soft landing spacecraft, manned spaceer hunar landing, lunarflight ABSTRACTi Included in a discussion of the lunar radio-astronomy re- search conducted by scidntists at the Radiophysics Institute of the Corlkiy University Im. Lobachevskiy, the Physics Institute of the USSR Academy of Sciences, and at the Pulkovo Observatory, is informa- tion concerning some Soviet :requirements fox a manned luna lis-pacecraft. A lunar flight will require it multipassenger cf-df-f-ca-p-ab-l-e---df--pTutvn-ge flight. it must be equipped with maneuvering systems capable of not only changing orbital parameters and making trajectory corrections$ but also of p,erforming rendezvouo and docking. Much was done in solving this problem during the twin flights of Soviet cosmonauts in 1962-1963.- In 1962 great"laccuracy was achieved in orbiting spacecraft a short dis- L.Eard 1/2  120676-66 ACC NR, AP6007296 tance from one another. At that time the Yostoks were not equipped wIth maneuvering systems, but their development has been progressing full speed* The flights of the Polet.craft demonstrated the feasi- hility of extensive maneuvering, including multiple orbital changes. Scift landings on Earth were successfully made by the two Voskhod craft using parachutes and rocket-engines. The use of parachutes in a lunar landing is not feasible. Therefore the use of engines of varying thrust would appear to be the most likely method of accomplishing a soft ~dnar landing. By.controlling the magnitude and direction of their thrust,, the spacecraft's commander will be able to..land his ship in a predetermined area. An.analysis of the results obtained from ..astronomical observationsp-the launch of automatic lunar probee'for -hard andsoftlandings, and lunar radar studies will facilitate intro- duoinj final corrections intD the design of a.ship or specialmodule for a lunar 'landing, Thesuccess of Soviet scientists and engineers developing single and imultipassenger spacecraft for a whole series, ,oX scientific and technical purposes makes it possible whope that a ship for a flight. around the-. moon and tV the moon will be built.-* SA] -SIIB,CODEt 22/ SUBM DATE: uone/ ATD PRESH I ~/Z eff  BYKUVSKIY, V.A.. kand.bi ol. naLk-, KRIKUHM, D.Y.,inzh.-mekb-ik Hechunized spot placement of poisoned buits. Zashch.rastoot vred. I bol. 4 no.1:20-21 Ja~P '59. (MA 12:2) 1. Vseson=07 nauchno-iselodovatellskiy Institut sa,ohchity rasteniye (Sualike-Extermination)  qjqy - orc,vich,.,,Iecl-iik,-kosiiioravt SSSII, Geroy Sovetskogo Soyuza; NIKOUNEW-MIESImow, Valentina Vladl.%Jrovna, let~.,hik--4'oor,.onnvt Gero- Sovetskogo Soyuza; N.S., red.; KAMAND N.P., general-leytenant avlatsii, red. (Hello, universe!] Mrawtvul, vselerwta~ Moskva., So- votskaia Possiia, 1964. 212 p. (Ivalu 17:10)  ACCESSION NR: AP4034805" KUTHOR: Delone, N. L.; By!)MxskLy_,_V..F.; Antipov, V. V.; Parfenov, G. P.; Vy*aotskiy, G.i"tudneva, N. A. Vo TITLEt. Effect of Vostok-5 and Vostok-6 paludosd microspores' space flights on Tradescantia~ SOURCE: Kosmicheskiye issledovaniya. v. 2, no. 2. 1964.., 320-329 TOPIC TAGS: space flight, Vostok 5, Vostok 6, microspore, mitosis", vibration, acceleration, weightlessness. Tradescantia ABSTRACT: Exposure of Trandescantia microspores to orbital flight; in Vostok-5 and Vostok-6 spaceships adversely affected the mitotic mechanism. Cytological analysis of the samples revealed five types of abnormalities: Type .1, incomplete mitosis due to nondisjunction of chromosomes; Type 11, "rosette" chromosome alignment on the metaphass, !plate; Type 111, nondisjunction aberrations in spindle orientation (the nuclei in the experimental and in the control spores are located i in different planes); Type IV. nondisjunction of chromosomes or de- layed telophase; Type V, multipolar mitosis leading to the formation ird CC . l/2____ I  ACCESSION NRt AP4034805 lof polynucleated cells. Comparison of experimental and control samples indicated that the~aberrationsdescribed are due to such factors as accelerations and vibrations rather than to veightlessnesso ~It vas concluded that veightlessness has no significant zonstic effect I*vithin time limits of 120 br, Orige arte has: 5 figures and.'6'tablese-~ ASSOCIATION: nonst SUBMITTEDs IlDec63 DATE ACQ: 20May64 ZNCL: 00 SUB CODE: pff, IS NO REF SOV:. 00.1. OTHERs 000 -WrD PR=9 3041 1c, L=  DELONE, N.L.; BYKOVSKIY, V.F.; ANTIPOV) V.V. Development of disturbances in the mitosis mechanism of Tra- descantia paludoss. microspores under the influence of different I flight periods on the Vostok-5 spaceship. Dokl. AN SSSR 159 no.2;439-441 N 164. (MM 17s12) 1. Predstavleno akademikom N.M. Sisakyanom.  BERENSHTLTIT,.A.P.; BYKOVSKIY, V.K. Steffen waste used as feeding stuff. Spirt. prom. 25 no,4:23-25 '59'.- (MIRA 12:7) (Distilling industries-By-products) (Feeds)  ------ BYKCIVSKIY, V. N. Cand. Tech. Sci. Dissertation: "Additions11 Stresses in Joints of Glued Wooden Uonstructions." Moscow Order of the Iabor Red Banner Construction Engineering Inst imeni V. V. Kuybyshev, 3 Feb 1+7.- SO: VechernvaXa Moskva, Feb, 1947 (Project #17836)  Llyl.:()v3j,,,,Iy3 V. 11. 22655 Elerienty Darevyanny1ch KleerWIch Korstnljctsiy v Uslo-viyalf.-Ii loremerinoy i 'l-o-%,yshennjy VI.a,,,bnosti. Sbornik Truldov (Nauch. - Issled. In-t Po Stroit - 11u), 1, 101119~ s. - 103-09. - Bibliour: 5 !Iazv. C. J,., 0 6.1 7A So- I-VTOFTS I'lo. 3h  nyxt"my, V. -".. BYKOVSKIY. V. N. I SOKOLOVSKIY, B. S. 36200 Iseledovanlye mestnogo vmyatlya drevestry poperek volokon. Sbornik trudov (Nauch- Isslad. in-t no strolt-vu). 2. 19499 S. 38-45. 7 P-~ ~ .,4 ,, ..- SO: letopsi'ZhrunRl'Twkh Statey. No. 49. 1949  36042 Rasprc-..deleniye naprya,-heniy v shvnkh klpyenykh pnketov. Sbornik trudov Nauch-is5lcd. in-t po stroit-vv). 2, 10,49, S. 51 SO: Letopis' Zhurrallnykh Statey, Vol. 45, 1949  BYKOVSKIY, V. N., KANO. Tex". NAUO NAUCHNO-13SLEDOVATEL'SKIY INSTITUT PO STROITEL'SIMMIN13TEASTVA STROITEL13TUA PREOPRI,rATIY MASHINOSTROYCNIYA RAZRABOTKA SPOSOBOVRASCHETA DEREVVANNVKH KONSTRUXTSIY PO PRCDEL'NY" SOSTOYANIYAM. PAGC 42 SO: SBORNIx ANNOTAMY NAUCHNO-ISSLEDOVATCL'sKix" RABOT PO STROITELISTVU, M03COW, 1951 Iva 1 1, lla4.~( 11 7 "-Xl 1(,., (51 d  SYKOVSKIY. V. N., KANO. TEX"". NAuK, I GuSEVA K. V.. INZN. NAUCHNO-ISSLEDOVATEL13KOY INSTITUT PO STROOTEL13TVU MINISTERSTVA STROITEOSTVA PRCOPRIVATOY MASHIMOSTROYENIYA ULUCHE"IYC TEKNNOLOGII IZGOTOVLC"kY^ KLEYEHIN" KON3TRuXT3iv. PAQE 42 SO: SBORNIK ANNOTATSiy NAUCHNO-133LEVOYATELISKIK" RANOT PO STROITELISTVU. MOSCow 1951  1. ---3 Y t,!. 2. -LTSSR (600) 4. Constructicn Industry 7. Shortcomim~~s in the work of EL-me constru(-tion trusts. Zn- ekon. m::.t. no. 3. 1952 9. Monthly List of Russian Accessions, Library of Congress,Jr-nuary 1953. Unclassified.  BYKOVSKIY, V.F., kosmonart; TMSHKOVA, V.V., kosmonavt Concise diary of the flight of astronauts Tereshkova. P.riroda 52 no.7:11-13 Jl (Astronauts) V.F.Bykovskii and V.V. 163. (MIRA 16:8)  1. rYKOVSM, V.N. 2. USm (600) 4. Building 7. Time factor in calculations for wooden o-tructures., Stroispromej 30, No.11., 19521 9. M-jnjDk List of Russian Accessions, Library of Congress, February .1953. Unclassified.  _-USSR/Physics-Strength of wood FD-1228 Card 1/1 Pub. 153-12/22 Author : Bykovskiyp V. N. Title : Determination of durability of wood, based on study of fatigue deforma- tion Periodical : Zhur. tekh. fiz., 24, 1631-1635, Sep 1954 Abstract : A continuation of author's previous study (ZhTF, 21, No 10, (1951)) presents a method to compute ordinates of the curve of decreasing strength from experimental data of fatigue deformation. Formulas ex- pressing the stress immediately preceding the breaking point are de- rived. Four references. Institution : Submitted : October 12, 1953  BYKOVSKIY, lidim Nikolayevich, dokior tekhnicheskikh nauk;'DDROAYEV, ROSTOVTWA, M.P., redaktor; PIRSOIJ, M.N., tekh- nicheskiy redaktor [Glue in construction work] Klet v strottellrqkh konstruktsiiakh. Moskva, Goo. izd-vo lit-r7 po stroitellatvu i arkhitekture, 1955. 65 P. (MLRA, 8:6) (Adhosivea)  SOV/124-58-3-3584 Translation from: Referativnyy zhurnal, Mckhanika, 1958, Nr 3, p 138 AUTHOR: Bykovskiy, V. N. TITLE: Application of the Mechanics of Viscoelastic Bodies to the Formulation of a Theory of the Strength of Wood Including Time-factor Considerations (Primeneniye mekhaniki uprugo- vyazkikh tel k postroyeniyu teorii soprotivleniya drevesiny s uchetom faktora vremeni) PERIODICAL: V sb. : Issledovaniya prochnosti i deformativnosti drevesiny. Moscow, Gos. izd-vo lit. po str-vu i arkhitekture, 1956, pp 32-41 ABSTRACT: The author proposes an analytical model consisting of a Iviscoel6sti6 body which is subjected to linear deformation. The following criteria are introduced: A conventional, instantaneous modulus of elasticity; a long-term modulus of elasticity and a period of relaxation which are determined by means of special tension and compression tests of wood and which were found to be practically constant under various stresses. A satisfactory coincidence was demonstrated to exist between the theoretical and the experimental curves of after-effect deformation. Con- Card 1/2 ditions of the transition of the system into the ultimate-stress  SOV/124-58-3-3584 Application of the Mechanics of Viscoelastic Bodies (cont. ) state are examined, and a connection between the ultimate strength of the wood and the time of its destruction is established. It is demonstrated that the rate of loading affects the magnitude of the ultimate tensile strength and the limit of plastic flow; it is established that the ultimate strain remains unaltered in the process. B. N. Ugolev Card 2/2  PHASE I ME MLO =I-ATX0N 731 Doctor of Technical Scie=ea., Profess^Ir Soprotitleniye materialor vo vremeni s uchet= statistdaheskikn faktorov (.1111- Time Element in the Strength of Mater:~als With 00mideretion of Factors) Floscov, Goestroyizdat, 195b. 149 p. 4,000 a-Vies printed.4" Ed. of Publishing House: Tegorova, N. 0.; Teeh. Ed.: Person, M. N. PMOSE: The book is intended for scientific workers, designers and civU engineers doing research in the field of strength of matee-als and stractires. COVERAGE: The book presents a theory of the ori&Ln and development of deformations and failures in materials. Materials are considered as alszt:- viscous,nonhamogeneous media. Changes (nonchemical) in deformations wad in the ultimate strength of materials depending on the mcxle of applicetion -r-Ith respect to time, of loads am explained by phencmena connected with re&-'9tr.*.- bution of molecular forces. Methods of camputing these e:hanges ax-- prane-it5d. The theory developed is supported by experimental data obtained for the Card 1/5  The Tim Element In the Strength (Cont.) 7 1_3 1 mechanical properties of voo& and of similar materiale. The this theory to problems of strength of metals conarate and asbeat:,s ceme..--t Is also shown. The author thank kademician F. P. Belyarkin, ez-1 1. K. Snitko, Candidate of Technical Sciences for help and mentioas the great significance of the vorks of Academieian P. A. Rebinder in reiztf * ora. to the problems treated In this book. Thaere are 68 references of 61 eat Soviet, 4 English; 2 German. TAM OF COMMITS: Foreword SEMION I. FUNDAWITAIS OF STRENGTH W_rM RESPECT TO TDO OF NOMMMOUS MASTO-MCOW MEDIA 3 Ch. I. General Theoretical Premises 5 1. Basic stress-strain xelations with respect to time 5 2. Material as an elasto-viscous dispersion medium 12 Card 2/5  The Tim Element In the Strength (Cont.) 731 Ch. n. Stresses and Deformations in Elasto-viscous Disperdion Media 20 3- Basle differential equations for an elasto-viscous nonstructured dispersion medium under a unlax1al state of strew; 20 4. Basic differential equations for an elasto-viscous structured dispersion medium under a unlaxial state of stress 27 5. Statistics on stress distribution In nonhamopneous, media under nonuniform states of stress 36 Cho 131o Idxdt Strength of 11asto-vIscous Dispersion Media 50' 6. Transition of an elasto-viscous dispersion medium to a plastic state 50 7. Strength of an elasto-viscous dispersion medium in plastic state 59 Ch. IV. Bending Beam YAde of Felato-vlacous Materials 64 8. State of stable strength and conditions for transition into plastic state In banding 64 9. TAn4 Ing state in bending of beems 68 Card 3b  The Tim M nt in the ftrength (Cant.) 731 BECTIOff Ir, WOOD AS AN IMASTO-V313COM 3W ch. v. Features of structure, Chemical Composition and Physical and Mechanical Properties of Wood 72 10. Mcro - and submicrostructure of pure wood and the physical and mechanical properties of Its components 72 3.1. Physical and mechanical nature of pure vood 76 Ch. VI. Investigation of Elasto-viscous Properties of Pinewood Under Compression and Tension Along the Grain in the State of Stable Strength 82 12. Deformations of pinevood, vIth respect to time under constantly Increasing or stepwise prolonged loading 82 13o Deformations of pinewood under pulsating loads 91 14. continuous loads 94 Ch. V17. Elasto-plastic Properties of Wood Under Compression and Thnsion Along the Grain 101 15. Transition of vood under load into the plastic state of strength 101 16. Plastic failure of vood under compression or tension along the grain 320 Card 4/5  The Tim Element in the Strength (Coat.) 731 Ch. VM. Investigation of Elasto-vIscous and Plwtic Properties of Wood Under Imteral Bending 2.16 17. Iateral, bending of vooden beam In the state of stable strength 116 18. Bending a vooden beam in the limit state before failure 1121 SECTION IM ELASTO-VISCOUS AND PLASTIC PRMWMIRS OF VAR"M =GIMMM MAMRIMS Ch. IK, Amorphous and Crystalline Materials 131 19 H&rd plastics and polycrystal system 010tals) 131 20. Concrete and asbestos nt 134 Conclusion Bibliography AVAILAME: Idbrary of Congress 143 145 GO /bod Card 5/5 10-22-58  ., BYKOV kMTj x,.11oprof., doktor tekhn. nauk Using somilogarithmic deformation graphs in determining the limit of durable wood resistance. Nauch. trudy MLTI no.8:50-56 '58. (MIRA 13:3) (Wood) (Strength of materials--Graphic methods)  SERGOVSKIY, P.S.; KIY, V.N.; SAMUYLLO, V.0. Elastic-plastic Properties of wood as related to the strqgpem and deformatio during'Its drying. Der.prm. 10 no.6:3.6 Je 161. (MIU 14:7) 1. Moskovskiy esotekbnicheski institut. 1 (Lumbe~-Drying) (Waad~  K T Y "Investi-ation of the i..-orklnC proca2--~es of in build4n- uo a milron" rit-di-ed. 11 Idi, Tranmr)-Ir, -i*--Xll-'M-Q U3 ldl-Union ~ns~- -,'L Tranax)rt-~-'! clri-e I T)i el_ta tions for Una Da~rec -)f Can,]!,~ata in c i -3 n;- -3 --D: Knizhnav-o 1-et-nnisl Nb. 22', 1956  BYKGVSKIY9 IV.!~S.~kand.tekhn.nauk; KANEVSYIY, A.G., inzh. Use of centralized co-inication systems in the construction of new railroads. Transp,stroi. 11 no-3:1.1-12 I-Ir 161. (MIRA 14:3) (Railroads-Construction)  BYKOVSKIL' V,S.; KANEVSKIY, A.G.; PETROVp A.F.; BIRYUKOV, V.D., inzh., retsenzent; DOBSHITS, M.L., inzh., red. -- (Dispatcher control in railroad construction) Dispetcherskoe upravlenie zheleznodorozhnym stroitel'stvom. Moskva, Trans- zheldorizdat, 1963. 95 P. (MIRA 16:5) (Railroads--Construction) (Railroads--Design and communication systems)  r, "EMIN, Ye.G.; SMITRIYEV, I.A.; STREKALOVSKIY, V.N.; BYKOVSK.TY, V.S. Catalyzed crystallization of a beryllium melt. Izv. IN SSSR. Neorg. mat. 1 no,11%2026-2030 N 165. (MIRA 18:12) 1. Urallskiy politelchnicheskiy institut imeni S.M. Kirova, Sverdlovsk. Submitted June 23, 1965.  7, 7K-ovsK)Y, gretlilly of lowelows to q*gnb (,,, Blisgian.) V, I.- ~ I ,.,ts it, 0411- Wpon`~`, -1 j);jW -kit' of it A a% mail, f t c dPth' i" th, y I Iliamd t 1110 41 .1justfated.  DynTSKIT, Ta.r. . . Conversion of fractiozial columns to operation with reflux. Zak@ i khlm. no-7:3 of cover 856. (MLOA 9:12) 1. Yenaklyevskly kokookhImIcheskly sayod. (Distillation apparatus)  BYXOVSKrY.. YA, L. Bykovskiy, Ya. L., "Test Exploitation of Pulse Meters for Measuring Lines Constructed by this Laboratory" Institute.of lbdio-Beceptiowand Acowtice - SO: Radiotekhnika, No. 4, 1948;~i-27801, 14 Sept. 1953,  BYIJOVSKIY, Ya. L. "Modern High Frequency Conduits for Electric Transmission Lines (Sovremennyye vysokochastotnyye kanaly po liniyam el,ektroperedachi) from the book Telemechanization -in National EconoEZ, pp. 85-96, Iz. AN SSSR, 'w'oscow, 1956 (Given at meeting held in Moscow, 29 Nov to 4 Dee 54 Iz- Inst. of Automatics and Telemechanics AS USSR)  BYKOVSKIY) YA.L.) MIKUTSKIY, G.V., ORLGV, V.N., SIDELNIKOV, V.V. "Characteristics of carrier current channels for teletransmission over power lines." Report to be submitted for the 19th Biennial Session, Intl. Conf. on Large Electric Systems(CIGRF,)) Paris France, 16-26 may 62. BYKOVSKTY, Comm. Lab., All-Union Scientific Research Inst. Electro Power Engineering. MIKUTSKIY, Central Scientific Research Elect. Engineering Lab., Min. of Elect. Power Stations, USSR CIRLOV, Ural Polytechinal Inst. im S.M. Kirov, Sverdlovsk SIDELNIKOV, Chair Automatics and Telemechanics, Leningrad Polytechinal Inst. im M.I. Kalinin  25970 S/539/60/000/031/003/014 5". Li t;7 o o ..4036/9135 AUTHORSt Bundel'9 A,A4v Guretmkaya, Zal.9 and Bykovmkiy, Ye.S. I----------------- TITLZ: The use of fluidized bed method for an interaction of sulphide-selenide luminophors with gaseous substances PERIODICALI Moscow. Khimiko-tekhnoldgichaskiy institut. Trudy, NO-31, 1960, Issledovaniya v oblasti Rhimii i tekhnologii slektrovakuumnykh materialov. pp. 20-28 TEXTs In the majority of cases luminescence of zinc sulphide and zinc sulphide-selenide luminophors in caused by some form of disturbance in the stoichiometry in the main substance of the luminophor - an excess of one of the components of the main substance or incorporation of a foreign element. The character and the degree of disturbance of the stoichiometry depend on the composition of the gaseous phase in contact with the substance during its ignition. In order to provide a good contact between the solid charge andihs gaseous phase of a given composition, the authors applied the above method of heat treatment to an invasti- gation of self-activated zinesulphide and zincoulphideselenide luminophors. The experimental procedure consisted of igniting Card 1/ 3  25970 The use of fluidized bad method for ... 5/539/60/000/031/003/014 9036/E135 10-15 g of an appropriate compound in a silica tube fluidized by a gas of the required composition. The losses of the material with the fluidizing gas wore minimisod by the self granulation of the charge. In the absence of melting, the granulation was done by charging somewhat wet material and fluidizing it before ignition. On drying. the charge forms granules from a few tenths to 1-2 =a in diameter. In the presence of a flux, the granulation taken place during the process of ignition. The composition and intensity of luminescent light of variously treated specimens (ZnO in H2S; ZnS + 29 N&CI in argon; ZnS-Ag 1-10-4 + 2% NaCl in argon; US - ZnSe in argon and hydrogen and the same substances in air) was recorded. The extinction of luminescence of self- activated lumtinophors after their ignition in a stream of an inert San Indicated that their luminescence was caused by volatile activators -'itine and selenium and that the process of extinction is due to the extraction of the activator from the luminophorla; crystals. An ignition in a stream of hydrogen also leads to extinction, but in this caBe it in caused by an inc.ease in the concentration of the activators. The reversibility of the process Card 2/ 3  25970 The uss, of fluidized bed method for... S/539/60/000/031/003/014 2036/9135 of extinction, shown by the restoration of the output and spectral composition of the luminescence after ignition of an extinct specimen in air, indicates the ease of the exchange of the overstoichiometric zinc and selenium between solid and gaseous phases, as well an the existence of equilibrium ratios between the concentrations of zinc and selenium atoms in the solid and gaseous phases. A non-uniform velocity of extinction of zinc and selenium bands on ignition in argon and in hydrogen provea that the spectral curves of luminophors ZnS-ZnSe and ZnS-ZnSe-Ag which possess one maximum and no inflection points on the side branchos, in fact represent a super-impositi6n of two bands - of zinc (respectively silver) and selenium. A.W. Pogorelyy and A.I. Rusanova are mentioned for'their'contribution in the field. There are 12 figures afid 12 referencess 8 Soviet, 2 German, 1 French and 1 Znglish. .The Znglish language reference reads: Ref.lls H.A. Klassens, J. Zlectrochem. Soc.. V.100, 72 (1953). Card 3/3  ~YKDVSKIY' ~V'A- -SUBJECT USSR / PHYSICS CARD 1 / 2 PA - 1434 -AUTHOR KIKOIN,I.K., BYKOVSKIJ,JU.A. TITLE On the Transversal Photomagnetic Effect in n - and p - Germanium. PERIODICAL Dokl.Akad Nauk 109s fasc-4, 735--736 (1956) Issued: ;0 / 11-9-57 reviewed: 10 / 1956 In connection with the usual photomagnetic effect a field strength which is pro- portional to the field strength H occurs in the case of illumination along the Y-axis of a sample arranged in a magnetic field (having the direction of the X-axis) in the direction of the Z-axis. If, howevef, the magnetic field, apart from the component Hxf also has the component H y, an electromotoric force which is proportional to the product HxHy occurs additionally in the X-axis, and this is the transversal photomagnetic effe_~t. The experimental order is discussed in short. The sample under investigation, which has the shape of a plane rectangular plate, must be fixed at an angle a with respect to the direction of the magnetic field. The samples consisted of plane plates of the size 12 x 6 x 0,8 (mm. ?) and were out out from a germanium monoorystal. The specific resistance of the samples was 45 R cm in the case of p-germanium and 40 2 cm in the case of n-germanium. The samples were mounted in a glass tube on a ground carrier (slide) and the tubes with the samples were arranged between the poles of a large electromagnet. By rotating the ground carrier (slide) round its axis it was possible to modify the angle between the plane of the sample and the direction of the magnetic field. As expected the transversal electromotoric force at a = 0 was equal to zero, and at a = ~50 it  Dokl.Akad.Nauk, 109, fasc-4, 735-736 (1956) CARD 2 / 2 PA - 1434 attained its maximum value. A peculiar feature is the dependence of the transver- sal photoelectromotoric force on field strength.2In the case of low field strengths this E, as may be expected, is proportional to H . In the case of strong fields this dependence is essentially influenced by the temperature of the sample.. At room temperature the electromotoric force increases monotonously with an increase of field strength. However, at lower temperatures it attains a maximum, passes through zero, and finally changes its sign. If the direction of the magnetic field changes, the sign of the transversal electromotoric force is conserved in any case. The magnetic field strength that corresponds to the maximum electromotoric force diminishes with a decrease of temnerature. Therefore the temperature dependence of the transversal photomagnetic affect was investigated. In the case of p-.ger- manium, the transversal photomagnetic electromotoric force changes its sign twice, on which occasion it passes through a maximum. In the case of n-germanium no change of signs was found to occur in the temperature range investigated. The transversal photomagnetic effect is apparently produced by deflection of the current carriers moving in the direction of the photomagnetic electromotoric force. INSTITUTION:  u5yKo V--/~~/'Y j, f SUBJECT: USSR/Physics of Magnetic Phenomena 48-6-4/23 AUTHOR: Kikoin, I.K. and Bykovakiy, Yu.A. TITLE: On the Transverse Photomagnstio Effect in n- and p-Germanium (0 poperechnom fotomagnitnom effekto v n- I p-germanii) PERIODICAL: Izvestiya Akademii Nauk SSSR, Seriya Fizicheskaya, 1957, Vol. 21, # 6, p 801 (USSR) ABSTRACT: The so-called transverse photomagnetic effect was investigat- ed in single crystals of germanium. This effect, which arises in semiconductors during their illumination in a. mag- netic fieldp is proportional to the square of the field intensity and depends on the angle between the normal to the plane of.a. sample and the magnetic field direction. A dependence of the transverse photomagnetic e9m.f. on the magnetic field and the temperature was established# It was shown that in p-germanium the transverse photomag- netic e.m.f. reverses its sign at sufficiently intensive fields. Card 1/2  4&6-V23 TITJ,E: On the Transverse Photomagnetic Effect in n- and p-Gert2anium (0 poperechnom fotomagnitnom effekte v n- i p-germanii) The value of field intensity at which sign reversal takes place depends on the intensity of illumination and tem:per- ature. At low temperatures the sign reversal occurs at less in- tensive-fields. No references are cited. ASSOCIATION: Not indicated PICE'SENTED BY: SUBMITTED: No date indicated AVAILABLE: At the Library of Congress Card 2/2  20-3-9/46 AUTHORS x Kiko-in I. K. , Academician, Bykovsltiy, Yu. A. TITLE, On the Anisotropy of the Even (Transverse) Photoma,r-Pctic Bffect in Germanium Monocrystals (0b anizatropii chetnogo (poi:erechroco) U i -erinaniya fotomagnitno-o effekta v monokristal2ak] . PERIOLICAL: Doklady AN SSSR, 1957, Vol- 116, Fr 3, YP. 361 - 384 (USS10 ABSTRACT: The author showed in two preliminary studies (ref. Nr 1 anJ 2) tilat ,iithin semiconductors besides tha ordin.,kr- Photona,',netic effect Y still another photomaSnetic effcct exi5ttlo- otbex c:ffcc'. has been called a transverse photoma_-netic effect. This effect consists of the following: V1itK anillumination of the SaLl,)lC (a olane plate, arranged in a magnetic field, whereb,.,r the direction of the ma.-netic field includes a certain angle with the dircation o f the plate- -plane) there appears in it an electric field (and a corresponding potential difference) which is directed -v(-3~tjcal to the electric field of the ordinary photoriaLnetic effect. The difference of the potentials of the "transverse" photomLgnctic effect does not. modi- fy the sign .,/itb the rovers-al of the field direction. Therefore it is more practical to call this effrt furtber the even photonaC- netic effect. The equation V = AH Fin 21x_ applies to the poten- Card 1/3 tial difference caused by that e-iLn phot am.-_-'n -tic effect. Here de- l  20- '7-9/,,,6 On the Anisotropy of the Even (Transverse) Photoma:iictic Effect in Geriaanium Monocrystals note - 11 the magnetic field :Aror~;th, X -- Via an_rle betweer the direction of the field 11 and the plane of the oample, A - the co- efficient which depends on the light intensity,or the character- istics of the sample, on the condition of the 6urficc, etc. The examination of this effect showed the followir.,g: It conecriis a kind of Hall - (Kholl) - ef'4cet whicla is produced by an odd photo- magnetic current. In -crm-miuri monocrystals iCA~L cv~en photornrtj~nc Ue effect is in many circumstances differ~~rt from that, observed iii polycrystalline copper oyydule. The clep:~ndenae V = ;,H2 sin2ac does not apply to monocrystals. The e~-,ori m;,n tally obt~incd angle dependencefbr -ermanium monocryatals io 8aoum in a dia;,-ralp.. Such a strong angle dependence,, only ~-_n be d~!f_ined by astanapLioll of an essential anistotropy of the effect. `2hei-eforu the authors investigate the anisotropy of the oven r.,hotoma.-netic effect. Prac- tically round targets are uZed for the -Ar-rectiCation. The teeth cut out of the target served _-:3 elcctrodi,~s. The3e 3aLiples -acre brought into a rnagnetic field an d 4 rradJ,,.'ed Jn vertical direction to this field. The carryinj out of Vic L-.periment riarifested an essential dependence of the potential or the an,-le 'T - Here thi.- dependence for a sample of n-.,,er:1mnium is Ceinonstrated Card- 2/3 in a diagram. There is obviously no simple correaltion between the  20-3-9//j6 On the Anisotropy of the Even (Transverse) 1~frcct in Garm:ijium. 'Monlocrystals even and odd photoma,,rnetic offect. Theru arc 4 fi,-,urcs md 4 re- ferences, 3 of which are Slavic. SUBMITTED: -24, -195 7 AVAIIAgLE, Librar of"OR~gr`e`bs- y Card 3/3  BYKOVSKIY, Yu. A. "Investigation of the Photomagnetic Effects in Germanium~' dissertation for the degree of Cand. of Physico-Math. Sci. submitted at Moscow Engineering-Phys. Inst. Moscow, 1957. Metallovedeniye i Obrabotka Metallov, 10,58, No. 5, P. 63.  j'j 38876., -4"WT( lVD8 (M)IW- ( WEET I IJP(c) JD ACC NR,, AP6W~6k -------- SOURCE COD,E. WbIAV66166916661193113903-1 ('~L I AUTHOR: Dykavskiy,, Yu. A.; Yelesin, V. F. ORG:- Moscow Engineering-ftsics InAitute (Makovskiy inzhenerno-fizicheakiy Institut TITIX: On the feasibiiity of the photomagnetic effect on "semilight" holes inter- SOURCE.- Fizika. tverdogo tela, V. 8,, no, 6. 1966P 1931-1933 TOPIC TAGS: germanium semiconductor, semiconductor carrier, photomagnetic effect., absorption coefficient -ABSTRACT: Inasmuch as there are few published data on the holes of the band split off in germanium by spin-orbit interaction (with effective mass m3 = 0.077, called "SemiI'Lght"), the authors have considered the possible realization of the photomag- netic effect (PME) on such holes. It is shown that to realize the PME it war. neces- sary to illuminate doped samples of p-germanium with radiation of energy equal to the energy gap between the heavy and semilight hole bands (AE = 0.37 ev). This produces a "bipolar"*PME wherein, unlike in the "unipolar" one, both the heavy and the semi- light holes participate. It is shown that the magnitude of the effect is proportiona3 to the difference between the mobilities. The maximum FM is obtained when the ab- sorption coefficient for the radiation exceeds the reciprocal of the diffusion length, and the velocity of surface recombination on the illuminated surface is negligible. An e3Tression is obtained for the PME and for the corresponding short-circuit current ^--"I I In  L 3*,~876-66 ACC NRI AP60185& in this case. Orig. art. has: I figure and 4 formulas. SUB CODE: 20/ SUBM DAM 15De65/ ORIG REF: 001/ 07H FW: 004 I & -~] I  BYMVSKIY,)b. N., and KIMIN., 1. K. (Moscow) "On the Transversal Photomagnetic Effect in Germanium," a paper submitted at the International Conference on Physics of Magnetic Phenomena, Sverdlovsk, 23-31 May 56.  AVAKIM, P.A. W!YF3V5KY,A.F. Jlivkovo~iy, '0'.] !'he structure Of intr&~~elliilar- vaz-lula virus. !,t, trJnil, ( Praha) [ Rng. il 8 --c- .612Z.191 --~?39 N t 6-1 1. The Gsiwleya '-nstltute of E-uldomiology and I'lln-roblolof_nT, U.S.S.R. Academy of 'ffed~lrwal  S/179/60/000/006/023/036 E031/E135 AUTHOR: (Voronezh) TITLE: On the Compression of a Plastic Layer by Rigid Wrought Plates, Taking Account of Inertia Forces PERIODICAL: Izvestiya Alcademii naulc SSSR,Otdeleniye tekhnicheskikh nauk, Mekhanika i mashinostroyeniye, 1960, No. 6, pp. 140-142 TEXT;: The plastic layer lies along the x-axis and is compressed in the y-direction by two plates which move together wi.th constant velocity V. The length of the plates is much greater than the thickness of the layer. The equations of state according to the St. Venant-Mises theory are transformed by the introduction of new variables I J a = x/h(t), y/h(t) where! h is the thickness of the layer at time t. It is assumed that the projections of the velocity vector on the y-axis and G (parameter in the Levi relations for the stress components) are functions of P only. Integration of the equations Card 1/2  S/179/60/000/006/023/036 E031/1-:135 On the Compression of a Plastic Layer by Rigid Wrought Plates, Taking Account of Inertia Forces introduces arbitrary functions of P and t: F(P,t), (P(O) and f(t). F(P,t) is assumed to have the form y(p) + Vf(t); y(p) is determined using the condition on 9 and f(t) by assuming incompressibility. The components of velocity and stress can now be found using expressions already given. The pressure on the plates is seen to follow a parabolic law, as opposed to the Prandtl solution which follows a linear law. Various limiting cases are briefly discussed. There are 3 Soviet references. ASSOCIATION: Voronezhskiy Gosuniversitet (Voronezh State University) SUBMI'ITED: June 16, 1960 Card 2/2  E.YKOVTSEVp G#L, (Voronezh)i IVISVp D.D. (Voronozh) Determining critical loading for.bodies presaed in a p.,astic medium, Izv, AN SSSRO Otd., tekh.nauk.Mekh. i mashinostr. no. 1;173-1?4 Ja-F 161. (111RA 14:2) (Plasticity)  BIEKOVTSEV, G.I. (Voronezh) Torsion of prismatic rods mado of an anisotropic totally plastic materiale Izv#AN SSSR.Otd,tekh,n&ukoMekh.i mashinostr. no.3:151- 157 My-.Je 161. (KMA 34:6) (Torsion)  FIKOVTSEV, G.I. (Vorqn.ezh) .... '' Propagation of perturbations in a medium with nonlinear stresv-- deformation linkage. FM7 no-4:102-108 161. OffM 14:10) (Strains and stresses) (Deformations (Mechanics))  BYY,OVTSEV, G.I. (Voronizh) Velocity field created by inserting a flat stamp into a plastic- half-space, Prilcl. mat. i mekb. 25 no-3:552-553 My-Je 161. (MIRA 14.7) (Plasticity) (Deformations (Yechanics))  S/179/62/000/001/019/027 Elll-/El8l AUTHOR: Bykovtsev, G.I. (Voronezh) TITU Drawing of a strip through a curved die under conditions of plane defortila.tion PERIODICAL: Akademiya nauk SSSR. Izvestiya. Otdeleniye tekhnicheskikh nauk, Mekhanika i iiiashinostroyeniye, no.1, 1962, 144-148 TEXT: A solution is proposed which dispenses with the assumption that the material between the planes of entry and exit from the die is wholly in a plastic state. A velocity field is set up which satisfies the boundary conditions of the die surface.and of the elastic-plastic boundary. The problem is posed in the shape of the deternination of a continuous flow -,.rhich will result in forming the strip to the desired profile in its passage through the die. The equations of plastic flow are: converted xo hyperbolic,equations and by considering a friction-free, well lubricated die surface, lines of flow are established. It is assumed that the surface of the strip does Card 1/2  Drawing of a strip through a curved... S/179/62/000/001/019/027 E114/E181 not begin to deform until it touches the die. The solution is not valid if the speed of drawing through the die is such.that a standin g wave of material in a plastic state appears in the strip in front of the die. A network of lines of flow is constructed showing the boundary between the plastic and elastic st7ates. It is noted that the waximum pressure for which it is possible to obtain an analytical solution does not depend on the shape of the die, but on the angle which the surface of the strip makes with the die at the entry. Certain limitations are mentioned about the shape of the die for which it is possible to plot networks of flow lines analytically. This method is also applicable to the rolling of plates and sheet and to deep drawing of a thin-walled cup. There are 2 figures. ASSOCIATION: Voronazhskiy gosudarstvennyy universitet (Voronezh State University) sunNITTE D: july 8, 1961 Card 2/2  1,10028-63 ACCESSICK.BR: AP3ooo88l: s/oi79/63/ooo/oo2/oo66/oo74 _.;kovtsey, G. 1.~(Voronezh) AUI?HCR: By THIE: On the plane deformation of.anisotrapic ideally-plastic bodies SUMCE, AN SSSR. Iz Otd-. tek nauk. Yek ani'-,& i mashinostrcyeniye, ro. 2j 1553, 66-74 TOPIC TAGS. plasticity, pl as- 'Li cdeformtionq plastic art--otropy, pres. -fa.!~ning ")f -metals ABMRACT: The paper exardnes: the plane deformation of ana*.fsotropi~ ideally~plastie bdlies on the premise of the - cond~ticns of plastic yield previously set fcrt~-i by D. D, Ivlev (RI4, v. 21. no. '.6,. 1959).1 V. V Dudukalenko (ibid., v. 24, no. 19 -yan (ibid.,.Iv. 24, no. 60), M. S. Sarkis 6, 1960), et P-1. The rxela:bicn.,~Up s developed in the present papers for the condition of of 9-71 incompressible anisoti~opic ideally-plaztic raterivO coincide with those in the aRtecedent works, if it isa;3sumed that, the yield Iiidts in tension compression are equal. This plasticity conditions is further Vz1alyzed, Ezd th- following interpretation is offered: (1) For any given anisot-ropic Catj 1/2  L 10028-611 AMIESSION INTR: ~AP3000881 11a4- pls:.sti cmaterial there exists a line of limiting tangential stress such IV_ as.soon as the tangeential-stress distribution.touches the line, plastJ c flvw commences withing :the body. Uton comparison.of the expressions for the slp:,e of the area, on which the lim-iting,value of the tangential stress for a gliven yield relationship occurs with,the slope of the area of maximum shear it i -s forwid that the. two coincide., kn:analytical determination is made of the locWtion of i;he line of velocity discontinuities (failure), that is, that line along which the discontinuity ofthe tange~~tial components is constant, whereas the norml component is continuous in trartsiting through thediscontinuity line. The next step is an analysis of the maxJznum. load on a wedge uniformly loaded by a pressure ~alorg one of its sides.. Assuming again anisotropy of characteristics, the construction of,the velocity fileld is performed. '"The author regards it his duty to express his gratiti~dj6 to the: editorial reviewer., A.. I. Ku2netsov for valuable and useful observations." TherlB are 24 numbered equations and 6 figures. ASSO' UATION: none SLJBK 08jan62 DATE:ACQ.-! 12itin63 ENCL: 00 1010 (10 DE: MAJ MD NR REF. SCYV-., .006 OTHER: 002 Card :2/2  B)'KOVTSF,V, G. 1. (Voronezh); MYASNYANK114, Yu. 1-1. (Vorone-zh) Theory of the drawing of a rigid plastic strip through curvilinear dies. Izv. AN =R. Mekh. i mashinostr. no.31113-116 My-Je 164.  ACCESSION NR; AP4043891 S/0179/64/000/004/0068/0076 AUTHOR: By*kovtaev, G. I., Serny0kina, T. D. TITLE:~ Viscous-plastic flow of round plates and shells of revolution SOURCE: AN SSSR. Izvestiya. Me k1kanika i ma8hinostroyenlye, no. 4, 1964, 68-76 TOPIC TAGS: limit design, fluidity, plasticity, viscoplastic flow, round plate, shell Of revolution, rocket design ABSTRACT: The authors consider the behavior of viscoplastic shells of revolution for the initial condition of plasticity assurned by Tresk. Usually, the Bingham model in used I for such investigations, in which the solid remains rigid until the istressed condition -reacher, some limit based on the Mises theory. For purposes of simplicity, however, fragmental linear conditions of plasticity can be assumed. The authors state that the I sti so I a be relationship between the stress tensor and deformation rate for viscop a c 1 d may plotted by analogy to the theory of flow of strengthened plastic materials. When stress" j exist in space the equation of the surface varies as the deformation rate changes: (041, 0 Considering this equation as the poteaktial of the de6rm6l1on rale, we obtdmi 4q, 4 lcwdl/ U -------*--- -------  ACCEIRMON NR; AP4043891 These two ations show the relationship between the deformation rate and stress for a ev -viscoplastic solid. One of the following three combinations Is taken as the basis of the plastic condition: -0j I,= k+ IL MaZi 9a M (3) k + k Equations are also given for the stresses in different zones. (is) uj-4y.-pk+p(2ej+ej Oz IM. go k + IL Res +'61)" (26) a, 0, as-= k + is (2 es +. .(2s) at - 0. as - k + p (2.% + ej I - k+ p (2s, + gj.-us 0" (3a) as - - k + 41J. as*- -0 Cre ; (46) as- -k+p(2h+gl) k+ppel + ej.. a, (5a) u,- Opus- -k+l&(2 (56) 0. all - - k + p (e; - Q (6) As+ vj a, imes. k + a], --k + it (2g, + ej. a. 0 Card _2/0  ACCESSION KR: AP4043891 7be papev - than con'siders shells of revolution under a)dal loads. The final relationships between the streis and strain of the shell: L n p Vi meano "when!'. and Aneans "or" (7) Nz - :F kh (p + q) + ph (2e,g + rij :F JY No m:F kh (q + r) + ph (2e,9 + e,) :F M, yAs ell - ps - 98) + I/IjW (2i, + 'L+ 1114W (2x, + xj N, kh (r - q):F (2ele + :F FI,, -4~18) NI :F kh (p + q) + ph + '/Is jW (2x, + xg) � 01' M, kh, (1/1, -x MI YAI els - )0 - 42) + 1114W (xi me -:E YOW W (10) M, 112kho W - 10) 011, Me :F I/sM9(I/, - r8) - I1,,,LV (r., - to I fps,  NR: AP4043891 kh (q P) _T kh (q+ + + M, :k I/g M' (qs - 10) :E 04, W& + 2xj :F 'fvw ell M, e - le) + Ma - :F'I*W Cls.- e - rl) +.'IiW (xl + 2Q *10, (12), Fj'- phole(p-q+l-n) +phen(q+ 2p. I- 2n) + + "llph'XI (p, - 'e + It9 + VIAS4 W + 2pO - P - 2nt) F f I + 1/gWxl -(I* + W.- 2rl) + 1/11AN (ql - P2 + ml - 12) Ytwha W + 11 + %Allw (11 + 2RI, - + '/4LWx,, (,e - + n* 12) + Vsph% (11 + W - 2pl - Oil - lltW#, (ql + 2rs - P - W) (rl - 99 + mll + + (g' + 20 - P - 2m') + I/sph% (is - + i& Card  --i-ACCEmolim: AP4043891 7he characteristic solutions reached on the basis of all the evolved equations are Illustrated by the bending of round viscoplastic plates under lateral loads. Equations are then given for stress and strain. An example is included of a laminated cylindrical shell The equilibrium of length 2L resting on the faces.under an internal uniform pressure P. equation is dig +n,-p-D* (13)- 1t to then found that: -p+ if wooob Oemptch Of +sin 35hosinplab 08 .(14) W TV- k oust 0 ChIp + sida Is sh, A This meana that the bending rate obtained from the last equition coincides with the one. deflection for an elastic solid. Orig. art. has: 4 figures and 43 equati ASSOCIAVON: none SUBMI D: 04Apr64 ENCL: 00 -SUB CODE: AS NO REF SOV: 007 OTHER: 005 CardS/5  BYKOVTSEV, G.l. (Voronezh); CHLMNYSHOV, A.D. (Voronezh) Viscoplastic flow In noncircular cylinders in the case of pressure drop. PIET no.094~96 Jl-Ag 164. (MIRA 17tlO'j  ~.YY,(-VT-`WJ 0.1. kVo.onO%hj; IVLEV, D.D. (Voronezh); MARTYNOVA, T,N. '. - 1-11 -11-, ), -,~ k) - ' " - ('10 no 7,h) Theory of the &xiaymmetric state of an ideally plastic material. PMTil xio.5A102-108 S-0 1640 -491RA 1814)  I-Ff-L,/'Feb Elf ACCESSIO.N FRj AP5005174 S/O179/64/O00/0O6/0G69/C077 UnGO.Ti. Dykovtoov~_~. 1. (Voronezh) TITLE; On the equilibritm limit of anisotropio plates and shells of rotation k -A, Y ~SOURCE: AF SSSR. Izvestiya. Ifekhanika i mashinostroyeniye, no. 6, 1964, 69-77, TOPIC TAGS- yiJeld point, atreos load, plasticity, anisotropy, shear stress, shell theory IBSITTACT: The equilibrium limit of anisotropic plates and shells of rotation tuider fragmentary -linear conditions of plasticity is studied analytically. in part on~, ar ideal anistropic plastic plate is considered, and a simplified model is f,-Iven tn determine the yield poant in tension and compression. The plasticity conditions of the body eze represented in the deviatoric plane 1 0where E., - rate of plastic deforms- -the 6-dimensional surface tion. Representing the fluid surfixe*by T(a,, becomes nonconcave, and the plastic deformation rate yields act, Cord 1/2  ACCESSION INTR: AP4027593 Under stress or strain tha functions k(oc -) and s(c(i) (where cxi - cosine of angle between stress direction and iyz coordinate axes) are studied analytically to determine the limits of fluidity implied by the Drucker postulate. TbLis leads to . d2k 1* 'A I inequality ............. i - + 3k + 7 ( ')- > 0 : which is true for any 9 , including d4r.2 . 17T - 'pl'ane. 0, and in any body surfade Orig. art. hast 23 equationst 4 figures, and 1 table. ASSOCIAMY: none SUBMITM: 15Nov63 SUB COD3: ME DLTE ACQ.: 2SApr64 NO REP SOVt 001 ENCLs 00 OTMM : 003 CQrd 2/2  E.YKOVTSL?'V Q~;. (Voronezh); DUDUKALINKO, V.V. '~Orcnezh); IVLEV, D.D. zh Amations of loading of.an anisotropically hardening Igastic materia:11,, PrUl. mat. i mekh. 28 no.4:794-797' JI-Ag -W64 Z' (MIPM 17:8)  BIKOVTSEV. 0.I. --t-a+r. ~- -,-I, Anisotropic case hardening of a plastic layer compressed by rough plates. DAL AN SSSR 157 no.1:66-68 J1 164 MU 17:6) 1. Voronezhakiy gosudarstvennyy universitet. Predstavleno akademikom A. Yu. Ishlinskim.  (Voronezh); IVLEV, D.D. (Voronezh); MARTYNOVA, T.N. (Voronezh) Properties of general equations in the theory of an isotropic ideally plastic body with piecewise-linear potentials. Izv. AN SSSR. Mekh. no.1:56-63 Ja-F 165. (MIRA 18:5)  L UiS3-66 EWT(,~ 'F Tjy- ACC NRi AP6013894 SOURCE CODE: UR/0020/66/167/006/126o/1262 'AUTHOR: Bykovtsev, G. I.; Myasnyankln, Yu. M. I(Academiclah) ORG: Voronezh State University Voronezbskiy gosudarstvennyy universitd, Blip surfaces in tbree dimensional rigia plastic bodies AN SSSR. Doklady, 1r. 167, no. 6, 1966, 126o-1262 C TAGS: plastic strength, shear stress BSTRACT: By the slip surface is understood th_p surface at which the aterial experiences the maximum clean sbearA-uTbe article is an attempt o demonstrate mathematically that the surfaces of discontinuity of the elocities and the surfaces of discontinuity of the rate of defonnation oincide with the 'slip surfaces. After an extended mathematical: reatment the article arrives at the relationsbip a [us) gas+ a F - 0 (22) icb defines a system of tbree equations which must be satisfied by the Card 112 UDC: 539.,2,'  L 1 63-83--66 ACC NR. AP6013894 0 discontinuities in the velocities at the slip surface, OrIgo art, bas: 22 formulas. SUB CODE: 11., 20/ SUBM DATE: 16jul.65/ ORIG REF: 0051 OTH REF. 001~ I Card 24V  BTKOVTSEV, N., inzh.; TKAC Te.(Luganak) Our readers' letters. Izobr.i rate. no.12:41 D 158. (MIRA 11:12) 1. Predesdatell Luganskogo oblastnogo soveta Vaesoyusnogo obahchostva izobretateley i ratsionalizatorov. (39fficiency, Industrial)  BYKOWSYI., W. B'YKOWSKI, W. Peef as raw material for production of sausages. p. 14. Role of scientific research institutes of industry in the development of technical progress in%the 5-Year Plan. p. 16. Vol. 8, No. 1, Jan. 1956 GOSPODARKA MIESNA TECHNOLOGY- Warszawa, koland So: East Europeon Accession, Vol. 5, No. 5, May 1956  B'YKCR45KI, W. Objective method of the determination of moisture in meat. p. 9 GOSPODARKA MIESNA. (Polskie Wydawnietwa Gospodarcze) Warrszawa, Poland Vol. 11, no. 11, Nov. 1959 Monthly List of East European Accessions. (EEIA) LC. Vol. 9, no. 1, Jan. 1960 Uncl.  ._PPMKT. 4aie"t-MWINSKI, Jerzy Spectrographic determination of magnesium in cathode nickel. Chem anal 5 no.3:361-367 160. (EM 10:8) 1. Zaklady Wytworcze Iemp glektr7asnych im. Rozy Lukaemburg, Warszawa; Kisrownik Laboratorium:inz. Lech MagajewBki. (Spectrum analysis) (Magnesium) (Nickel)  ,BYKGWSKI, Wojaieoh Spectrographic determination of silicon, iron, aluminum, manganese, and copper in cathode nickel. Chem anal 6 no.2:265-268 161. (EEAI 10:9) I. Zaklady Wytworaze lamp Elektx7cznych im. Rozy Luksembarg, Warszawa. (Silicon) (Iron) (Manganese) (Coprr) (Nickel) (Spectrum analysis) (Aluminum  MOVISKIS, Voj~Aech Spectrographic determination of magnesiur, in the range -f 0,,025-0, 20% in cathode nickel. -Przogl elektroniki 3 no.8:458-464 Ag 162). L Zaklady Wytworeze lamp Blektrynnych.. Warmwa.  -a BYKC',43KI, Wojciech Quantitative determination cf Sil Al, Ym, Cu, Fe in cathcde nickel by means of spectrography. Przegl elektrcniki, 3 no. 5:231-233. MY 1 62 1. ZakIndy 1,~rtworczp Lnmr, Elektryc-mych, Warazawa.