SCIENTIFIC ABSTRACT FILIPPOV, O.A. - FILIPPOV, S.I.

21826 B129YB2o6 Rloao A.TiTHORSt Yudin, M. F. and Filippov, 0. A. ------------------ TITLE: Tissue-equivalent dosimeter for fast neutrons PERIODICAL: Izmeritelinaya tekhnika, no. 4, 1961, 37-42 TEM This study deals with the development of a dosimeter which would permit measuring the 5oses produced by fluxes of fast neutrons of the density of 20-30 n/cm see and above. The dependence of the indications an the neutron energy is also to be investigated. In this group of instruments, the tissue-equivalent ionization chambers by Failla and Rossi and the tisaue-equivalent proportional counter by Hurst have the best characteristics. The difficulty of separating the gamma-ray dose Trom the neutron dose was a drawback of the first type of instruments; -the instruments of the second type do not record the protons, the energy of which lies below the discrimination threshold. The average, soft, 'biological tissue of the composition (C5H40018 if)ncan be represented for the fast neutrons by a material containing, for instance, 10~* by weight of hydrogen and 90% by weight of carbon. This material can be obtained by Card 1/5 S/11 61/000/004/005/010  21826 B/115/61/000/004/005/010 Tissue-equivalent dosimeter... B129/i206 mixing graphite with polyethylene. The tissue-equivalent chambers of the dosimeter are produce'd from pressed,.earefully mixed powder consisting of 2.4 parts by weight of polyethylene and 1 part by weight graphite. The surface is homogeneous and smooth, which is important because of the reduction of adsorption of gases on the chamber walls. The conduction of the material was goodl that of the surface, however, was irregular in various parts of0the chamber. The calibration of the chambers in the field of the Cc gamma'rays showed that this fact was of no noticeable effect on the quantity of the ion current. In order to obtain the radia- tion equilibrium and to excludie the diffusion of the gas through the wall, the latter was made.5-mm thick:, and the volume of the chamber was 953 (Zt 3) cm3. The central electrode of the chamber was made from the same plastic and mounted in the center of the chamber fixed by means of a polished insulator from polystyrene. The leakage currents through it were small compared with the ion currents to be measured. Fig. 1 shows the scheme of the ionization chamber. The body of the chamber consists of two parts which are glued together by a mixture of epoxy resin and polyamine. This mixture polymerized quic1cly at room temperature and was used for Card 2/5  ..21826. S/115/61/000/004/005/010 Tissue-equivalent dosimeter... B129/B206 mounting the inner electrode inthe insulator, and the insulator in the .Dody of the chamber.. A device was provided to produce a vacuum, fill the .::hamber with gases of required composition and seal the content hermetically from the ambient medium. An electric measuring device built 'by the "Etalon" Plant served for measuring the ionization current during irradiation of.the chamber with neutrons. This circuit is shown*in -Fig. 3. It is a quadrant electrometer which is supplied with a stabilized voltage of 300 v. This electrometer was used for measuring either 'the potential at the condenser plates or the potential drop in the resistance* In the Afirst case, the indication was proportional to the total d03e, in the second case, proportional to the power of the dose. The calibration of the instrument, calculation of the current caused by the neutrons and the practical measurement with the instrument described are dealt with next. As a result of the studies, a tissue-equivalent dosimeter for fast neutrons was elaborated, which permits measurements of from 0-5 to some hundredths microrad/sec with art error of 7-12%. There are 10 figures, 2 tables, and 14 references: 4, Soviet-bloc and 10 non-Soviet-bloc.' The four references to English language publications read as follows: Rossi. H. H., Failla G. Nucleonics, 1956, 14 (no.2); Hughes D. J., Card 3/5  ` 1 tl.- ,-6;~-v a g,~ 71~ 22B26 S/115 61/000/004/005/010 Tissue-equivalent dosimeter ... B129 B206 legend to Fig. 1: 1) Body; 2~ insulated electrode; 3 insulation material. Card.4/5 3 7 3 7 Fig. 1 50  _37- T PME I BDOK.EXPLOITATIOM S07/6333' SochkaLrev, V. V.0 ed*, aratov- abornik statey (Tech- Tekhnika izmereniye radicakt; y prep niques for the Measurement cof Ra oactive 6;paratichs; Collection of Articles) 'Hosdowt Goeatomizdit, 1962. 4600 copies printed. Edo.-. A. M. Smirnova and M. k SmIrnov; Tec4.'Sd.- S. M. Popova. Thia'book 1 4 for specialists in nuclear instru- PURPME a intends mentatiori. COVERAGE: The book is a'-collection of artn-.Ies on recent developments in 1)'measurement of the activity and 2)-c..nalysis o; the composi- t1oh-of emibsions of radioactive preparations. The methodology and apparatus usid in these studies'are described In detail. References are given at the end of each article. i -TAMX OF CONTMMs Card 2:.  Techniques. for tba Measurement (Cont.) BOV/6333, Prtfdca 3 Voroblyev,,A. A. Study of a-Emittlmg Preparations With the Aid of a Gridded lonixation Chwaber 0" Bernotas, V. Z.0 V. -A., Clorodyakly, N. X.~.S novas F. Tupitsyn, and 0. A. - MXmz Dire-WW"Ure-M-6-ni-oi ithe Activity of TatiatedOomp RMI-, 41 Bemotas.#,'Y. X., Yu. A. Mogovr and 0 'A M.:Lvvov. Measurement of the ActIvIty,of TrItlatAid Thick.Brikiioll Films .51 L'vova' M. A. Experimentai Zvaluation of the Acpur~oy of a lletKod for Xeasure nt of O-ftdtters by Wans*of Snd~-Wlndow 56 Counters Turkin, A.,D. Measurp*ont of the Activity of.0-Sourcee in 4x- '63 lonlzatlon Chamber* ~j mug MO MWAM "wo "z'  FILIPPOV.,,O.K,.-, YAROSLAVSKrf, B.G. Transmission of lor4l-wavo infrared radiation (40-200A) by heated crystalline and molten quartz. Opt. J. spektr. 15 no./Z,-.'S5&561 0 163- J.. 1~ t-j!e~z -11 ul~ ~E NO R  - ------- -- - ACgj9SSION NR-. AP4020968 S/0051/64/016/003,/0522f/0525 AMTHOR: Filippov, 0. K. Pivovarov, V. M. TITIZ: Radiation of the M-4 mercury discharge tube in the far infrared 8OURCE: Optika i spoktroskopiya, v.16, no.3, 1964, 522-525 TOPIC TAGS, PRK-4 discharge tube,mercury vapor discharge tube, mercury plasma ra- diation, electron density, infroxed SOLtrce, spectroscopy source ABSTRACT: Knowledge of the characteristics of different light sources for spectre-, scopy is important-in many investigations. In the present work there was, studied the spectral distribution in brightness of the PRK-4 mercury-vapor discharge tube in the far infrared, namely in the interval from 33 to 75 cm-1. The measurements were performed with the aid of a spectrometer with small echelette gratings (repli-j cas with d = 0.5 and d = 0.85). The radiation detector was an optico-acoustic OAP-2, detector with a quartx window, The ~*n results are shown in the figure (Enclosur4i- MT 01). Another figure in the text gives the variation in intensity with discharge current. Evaluation of the electron density in the plasma yielded.1016 cm-1. It is concluded that.for the frequency region below 70 cj-l the optimum disekarge currents I/or card ------- - - ~J'  . , -. 1--."I j - -~~ -~~ ., "! gl-"- i-,.e - --, .;,14 -, 5 ", - - - -,.,! Rl,~-.-, - - . - - I ~ ~,% . i - ~ OR ~ ;1 24 - ".  q1q6-66_,,___ZWT ll/F.W(n) `!/ETG/E;WG(M)_ -IJP(o)- AT 76'0B/D032/D032 NR, AR6000114 _Gouda C011ES UP/0058/65/1M SOURCE; Aefe zh MIM Jibs.6 AUMORS: Filippov., 4; VLvoVakov., V. M. .0. P ORG: none lamp in'the -long-wave n-regiol;;----~- _TIM: Radiation:from_tbe pjLdsma,,-of-a:-FRKA1 CITED SOURCE: Tr 9Komisc po,~ spektroskopii* ~ AN SSSR. M. It. 2p vyps 1j 196-4 360-367; 2 11 44, 5 ''TOPIC TAGS: - T11 spectroscopy;,1 plapaw, are, mercury vapor lai-ip, plasma, radiation plasma density) bremsstrahlWig TRAWSIATION: The authors mpsured the energy brightness of the plasma of a high- pressure mercury imem-Win the 33--TT cor 11 region. The radiation of the plasms was iseparsted from that of the wall by means of special energy calibration. The value of the effective plasma temperature was found to be 6000K. In the frequency region 35--65 JL j, the pl"ia radiation is -well described by the Rayleigha- Jeans curve, whereas *in the 65 -77 ce) region a noticeable discrepancy is observed b%-. tween the plasma and black-body radiation. -The electron density of the plasms is calculatea and it in Am that its radiation is of'bremastrahlung origino SUB COM -20 Car4 vl  ---------- L 15937-66 .-EPF(n,),, 2/,EWT,(l)/ETC(f)/8WG(M) lip(c) AT 'ACC NR: AP6005474 SOURCE CODE:-1 UR/0368/66/004/001/0064/0M. AUMOR: Filippov, 0. X.-,1'Pi'vovarov, V. M. IORG: none, TITLE: Use of long-wave Opectral.apalysis, for determining electrical co~ductiVAY_ the rositive column of,:lan are discharge MURCE: Zhurnal prikladntljy.spektroskopii, V. 4, no. 1, 1966,-64 65 ~TOPIC TAGS: arc discharga.,:discharge plasma, electric conductivity, far IR, plasma physics ~ABSTRACT: The authors propose a method for determining the electrical~conductivityl tof a high pressure- arc.disch6rgi3,by--studying.the discharge plasma in tbe-far-infra--' f the spgpl ning the electri -red region0 xqi~._An 'expression is-derived.for-determi resistance of the j19s'Wa:tG" 'term of brightness, electron density and discharge tem-~._ perature. The formula is'applicable only in the transparent region of the plasma. A curve is given showingVhe electrical resistance of the plasma as a function of zcollision frequencyii The-electrical conductivity of the plasma in the mercury arc ;Card 1/2 UDC: 535.35   RASS-'(AZOVP I.D.; MESHCHERYAKOV, L.I.; RAYEVSKIY, N.A.; FILIFIVV, O.N., inzh. Assembling prestressed reinforced concrete beams with the K-451M cranes. Transp. stiroi. 14 no.10sl3-16 0 164. (MIRA 180) 14 Glavnyy J,nzh. Mostostroya No.3 (for Rasskazov). 2. Glavnyy tekhnolog Mostostroya No.3 (for Mashchery-akov). 3. Naelviltnik tekhnicheskogo otdela Mostostroya No.3 (for Rayevskiy)'.  RLIPPOV, P. (Murmansk); KHMSIZVA, V. (Murmansk) They sitat the sea shore and wait for good weaiher. Okhr. truda i sots. strakh. 5 no.9i33-34 S 162. (MMA 160) 1. Spetsiallniry korrespondent zhurnala "Okhrana truda i sotsiallnoye, strakhovaniye" (for Xbmeleva). (MRMVSKL4ISIM~RWN-WDICAL CARE)  FILIPPOV,P.; MELITSER.L.; MIMWS,B. Using kmirled pipes in Amonia condensers. Khol.tekh-32 no.2: 42-44 AP--Te '55. (MLRA 8:10) (Condensers (Vapors anti gases))  IF-- 1 11 11 f r- 7 -1 1 i - ' 7 , - 0 1 Yidip~i' Pe" insh.: IIHMYGITA. A.. inzh. P. - . 1, P.- Making bimetal-lia tube grids for condensers, Dol. tekh. 34 no.41- 34-36 O-D 157.. (Kin ll..l) . . (Condensers (Vapors and gases))  BEREZOVSKIY, Konstantin Ivanovich[Berezovslkri, K.1.1, nauchn. sotr.; ~ILIPPOV, Prolcofty Ananlyevich[Filipov,IP.A.'I; VINNITSKif, S.`P.[Vin*n'itsl~kyiy S.P.1, 'red. (Early vegotables grown outdoors; toratoes, cabbage, cucumbers, eggplants] Ranni ovochi u vidkrytorTa hrunti.; pomidary, Icapysta, ohirky, baklazharq. Odesa, Maiak, 1964. 58 :P. (14111A 18: 1) 1. Odesskaya sell skokhozyayatvennaya issledovatell~Aaya stantsiya (for Berezovskiy). 2. Direktor sovnarkhciza "Druzhba narodov", Odesskava oblast' (for Filippov).  SOV/122-58-7--17/31 AUTHORS: Polovnikov, V.V., Candidate of Technical Sciences and Filippov P.F ngineer TITLE: The Accuracy of Gear Wheels Produced by Hot and By Cold 'Rolling Technique (Tochnost' zubchatykh koles, izgotavlenn,ykh goryachey i kholodnoy prokatkoy) PERIODICAL: Vestnik Mashinostroyaniya, 1958, Nr ?, PP 57-58 (USSR) ABSTRACT: Some r5O gearwheels, 5 mm. module and between 250 and 197 mm dia. were measured directly after hot rolling and a simil&.r number after cold roll-ing the.-'Ar teeth, the teeth having previously been formed either by milling or by hot rolling in the latter case. A further 50 gears were measured after milling and gear shaving the teeth which had been previously formed by hot rolling. The statistical distribution of errors in pitch of the hot rolled gears (without further work on them) is shown in Figure 1, where the percentage of the total number checked is shown against pitch error in microns (.001 mm). Errors in hot rolled gears which had been subsequently milled or shaved (with allowan-le for this of 0.15 - 0.2 mm on the hot rolled gear) are shown in Figure 2. Cardl/2 Taking account of the overall increase in tooth chord  SOV/122-58-7-17/31 The Accuracy of Gear Wheels Produced by Hot and by Cold Rolling Technique resulting from cementation and hardening and the work- hardening effect of cold rolling, it was found desirable to aim for an allowance of -0.3 mm on mean centre distance of gears before these latter operations are effected. Cold-rolled gears were tested with the object of clarifying the possibility of substituting this process for gear shaving. Error in mean'centre dista=e on rotation through one tooth 6 Ya and error on complete rotation 6 0a are shown in Figure 3 for a group of gears which were cold- rolled after forming the teeth by nilling. The contact area and smoothness of the cold-rolled gears was superior to that of the shaved gears, apart from the considerable improvement in profile error 6f and cumulative pitch errol? bty shown in Figure 4 where full lines are for gea-s after milling and broken lines for gears after cold rollIng. Cold rolling redrces profile errors to a tenth of the errors found after milling. There are 4 figures and 2 Soviat references. Card2/2  PHASE I BOOK EIPLOITATICK L C;OV/5688 Polovnikov Viktor lriktorovich,.jt~vel FedorovichJilippov, 11yacheslav Alekeardro- vich Bodazhkov, and Genrikh Gavrilovich SeiT^T-Ov- Izgotavleniye tsilindricheskikh zubehatykh kojes prokatkoy (Rolling or Spur.Gears) ft-'4cmcr, Mashgiz, 1961. 187 P- Errata slip inserted. 8D00 copies:printed. Ed. (Title pege): V.S. Smirnov, Corresponding Member, Academy of Sciences MR. Reviewer: K.S. Gintburg, Engineer; Ed. or Pa'alishing HOI]Be: T.L. Leykina: Tech. Ed.: A.A. Bardina; Managing Ed. for Literature on Machine-Building Technology (Leningrad Department, Mashgiz): Ye&Po Naumov, Engineer* )PURIC6Z., This book Is Intended for process engineers and designers concerned vith the production or toothed gears and the pressworking of metals. CM'MO-. A brief description is given or experiments in the roll forming of gears carried out primarily at the Kharlkavskiy traktorayy zavod (MTZ) nsrlkov Tractor Plant -- and at the Nauchno-isoledovatellskiy institut tokov vysokoy chastcrty (,NIITVCh) -- Scientific Research Institute of High-Frequency Ctu,mrta. Experiments. in the development of roll-forming machines am also Card -at* tz~~ -'zd U-" U:2,~  Rolling of Spur Gears SOV15688 incluk.ed. The falloving are discussed: special features of metal.deform!Ltion and of induction heating during rolling; results of expertmento in canjewIng the q~~&Iity of r6lled and cut gears; calculations of econ,:mic efficiency in gear rolling, and roll-forming processes in Soviet plants. The last item in- t:!Iusder- a discussion of the sequence in the develosment and introduction of combirted hat-%xAP,.,:old rolling, by uhich precision gears cim be obtained with- out m&ch:LnJ.ng. Particular attention is given to the hat-rolling process; cold-rolling is considered only as a finishing oper&tion in the KhTZ-NIIWCh 'r by P.F. rocese. The book was written as follows: Ch. I and Sec. 6 of Ch. IIIP p Till-, TAV; Ch. 12,by V.V. Polaynikov and P.F~ Filippov; Sece. 7 ~md 8 of Ch.11119 arA Ohs. V and VIT, by V.V. Polovnikov and.G.G. Semibratov; Sees. 10 and 11 of Ch. 7, by V.A. Boftshkov; and the remainder aiLd introduction, by V. V. Polov- UlIkOT. There are 1~7 references: 36 Soviet., 4 Czech, 3 English, 2 Hungari~.n, I Germm, and I unidentifted. TABU OF MIMUS (Xbridged]:  SOV/120-.58-4,-8/30 AUTHORS:Medvedeir7M. N.1 Sokolova, Ye. 3.1 1~1~lippovs P. I. and Tsislyak, 0. N. TITLE: Time Characteristics of Photo-M-ultipliers (Vremennyye kharalcteristiki foboumnozhiteley) PERIODICAL: Pribory i tekhni-ka eksperimenta, 1955, Nr 4, PP 37-39 (USSR) ABSTRACT: An investigation was ma,le of the rise times of the leading,edges of pulses from the following photomultipliers developed by N. S, Milebnikov: YEU-lV, YEU-2V, FEU-lB2V., Photomultipliers FEU-lV and FEU-2V have semitransparent photocathodes 40 imi in diameter, and diffor froin each other only in the number of dynodes. The photocathode is mAde of SbCs and. its maximum spectral sensitivity is at 4000 A.- he amplification coefficient for the FEU-IV is about 5 x J and for the FEU-2V about 2-3 x 106. The FEU-lB2V has a larger cathode, namely 80 mm diameter and an amplification coefficient of about 166. The photomultipliers are so con- structed that the electron collection from the photocathode Card 1/2 is 1001A. Experiments have shown that the rise time (0,li~O.,9) -y-ft,  SOV/120-58-4-8/30 Time Characteristics of Photomultipliers of the leading edges of pulses from the 3 2hotpultipliers are 3.5 X 10' for the first two and 4.5 x 10- for the 4~ahird one. The photomultipliers may be used in scintillation ters and Cerenkov counters in fast coincidence circuits, it is necessary to screen the counters from external electro-, magnetic fields by means of appropriate electromagnetic A. Ye. blelamid and A. M. Potapov screens. N. S. Xhlebnikov, are thanked for supplying the photomultipliers and taking part in discussions. There are 4 figures, 4 tables and no references,, ASSOCIATION: Wyedinennyy institut yadernykh issledovaniy (United Institute for Nuclear Studies) SUBMITTED: October 301, 1957. Card 2/2  aff P.I.; MHOKIII, V.'S., otvetstvennyy D-.D-.-~ red.; BLINOV, V.I., red..; VORONOVSKATA, Te.V., red.; GOLOVCHANSKIT, P.M.,red.; ZAVALISHIN, P.A., red.; WSHTNW, M,O., red.; BORKHVARZT, G.K., red.; PAVLOV, V.A., red..; POVALTAYKV, A.V., red.; SIVERS, A.P., red.; ri red.; MISHIN, V.I., red.;'ELIKIN, Te.G.,tekhn.red. [Theoretical bases for the technology of assembling aeronautical instruments] Teoreticheakie oenovy teldinologii sborki aviatsionnykh priborov. Leningrad, 1956. 122 p. (Leningrad. Institut aviAtsionnogo priborostroeniia.. Trudy no.15) (MIRA 10:11) (Aeronautical instruments)  FILIPPOV P I Paleogeography.of the southerm part of the Don and MedveditBa 'diol--itions. Uch. zap. Volga gos. ped. inot. no.10:75- c~-2 159a (MM 14-M) (Don Valley-Paleogeography)  BUT3LOVP M.M.; WDVEDEV, M.N.; FILIPPOV, P.I.; CHUVILO, LV.; S118SHNOV, V.H. Recording of a Vavilov-Cherenkov radiaticn cone from isolated particleo. Atom. energ. 12 no.5i412 Yq 162. (MIRA 15:5) (Cherenkov radiation) gw- Ix M-6 fli  Teplo-i massoobman v m6rzlykh tolAchakh-zemnoy,kory (Heat,and Mass Tmisfer in the Fro-zen Strata of the Saith's- lid-vo AN'SSSR- 1963 '213p_. Reiearch'b~-thi-itifr of"thi'Heat-and MaBs-Transfer Division of the Institute of Permafrost Studyl, Siberian Branq:h.. AS USSR N On' -- thim -Quo -of thi-Posiibility of vanov, Determining the Thermal Conductivity Coefficient for qryogen*ic Media Usinj the Theory of'tbe Regular Thermal Regime 157 An Instrl:lam~~nt for the Determination of --i'lie-'Thermal ConductivEty Coefficient of'Rocks in Boreholes Without Casingo 160 Korenhov, B.I., and V.A. Sav~nov. An Instrument for Measuring che Dielectric Permeability,of Rock Samples 165 Kutasov, I.M. Speed Deterrdination of ThArmal Convection Currents in Boreholef 168 Ivanov, N.S. Interference Method for the Determination of Thermal Currents En Voils and Ro6kd 175 .Ca.rd 5/7  CHUILTN, Sergey Grigorlyevich, doktor tekbn, naukr prof.; ILUMOV-SKIY, V-la- dimir Bergeyeviohp eloktor tekhn. nauk, prof,; MBLITSER,, Leorld Ziwvtye- vichp kand, tekbno rauks dots.; Frini= uchastiye:AtEXSMV, V.P., kand. tekhn, naukj dots.; FITI -MX.".-dots.j CHICHKOV, N.V., red,4 NOPM-41 BRODSKIYO M.P., tekhn. red. (Refrigerating units Kholodillmye ustanovki. MosWa. Gos. A.zd-vo torg, lit-ry., 1961. 1+72 p,, (MIRA 14:12) (Refrigeration and refrigerating machinery)  FI LiPpOV'l inzh. "Repairing refrigerating machines and units,,, by A. M. Zhavoronkov. Reviewed by P, Ke Fil.4Lppov. KhOl. tekh- 38 no-5:67-69 S-o -61. (Refrigeration and refrigerating muchir-erY-Haintenance(MIRA 15:1) (Zhavoronkov, A.M.) -d repair)  Sj~ I fe.:I~-,,~4,1,- FILI!-,P()V PIK dotsent; MOSKOMIENKo v.V.j inzh, . ....... . . Investigating icemaking machInes for layer freezin of block 101es Khol. tekh. i tekh. n0,1:73-76 165. &IM 18:9)  Bottlivc (tiphtheria anit(min. -Polld. I ak-ush. ZZ no.11:63 H '57- (MIPA 11:2) 1. Zaveduyushchty felldoherskim pu&ton poselka Volcbey1m g. Nishniy Tagil, (DIMMMIA-PP11VANTIVE INOCULATION)  BIMAVIT, V.Yu.; PIMISON, Ye.M.; FILIMY P.R.- FMASHIN, N.I. Problema in the amortization of' basic funds in the petroleum refining industry. XhimA tekh,topl.i masel 5 no.8:40-46 Ag 6o. (MIU 10 :8) 1,., GosudaretvenW ruxuohno-issledovatellskiy ekonomicheakiy institut Gooplana,SSS.R I Gilvoneftexavod. (Petroleum industry-Squipment and supplies)  .1"ILUMV, P.-K -3tnrahly prapodnvatel I ~ ~11 Induced thernoelGetromotive force airi the resi.11ence moduhAs of metals. Trudy VSTI no.l:-19-25 162. (MIR! 17:11)  FILIPPOV P,V, Some laws governing connectione in central and parallel projecting. Zap. LGI 36 no.30~6-165 158. (MIRA 1615) (Projection)  , ~- 'T il~-:~ ~~, -~~ ~ - - -, ~ -.IV .,t . "t_! J~ j~ JI-F 7:. - Im , -M ME-N=I - -- m FILIppov, P,V, Conjugate Projections* ZaP. LGI 36 no.3,ril66-183 ~58,, (MM 3,6s* (Projection)' ~ , ~ 5)  -ACC NRt AlIG020786' SOURCECODE: UR/00 02/11168/B168 AUTHOR: Filippov, P. V. TITLE: Graphic analytic method for the solution of the fundamental problem SOURCE.- Ref zh. Matem, Abs. 2BG85 REF SOURCE: Sb. Vopr. teoril I prakt. prilozh. nachert. geometrit, r1sunka I tsvetoved, Dokl. k XXIH Nauchn. 4onforents1i Leningr. inzh. -strolt. In-ta. L., 1965, 15-19 ,.,TOPIC TAGS: linear programing, graphic technique ABSTRACT; A graphic-analytical method for the solution of the basic problem of linear programing with four Independent variables has been proposed. it to based on the vector principle of pattern representation within a four-dimensional space as presented by the author in earlier publications. The possible solutions of the problem are found by graphical means whereas the optimum solution is determined analytically by substituting the obtained permissi- ble solutions Into the equation o4 the linear form. The method is studied on the example of the solution of the Weal transportl-p1roblem of the linear programing reduced to the basic problen [Translation of abotiict 'IV. MOelldna SUB ME: 12 rd 1 1 _UDCt 1618. 3  I----L 446874--x66 ACC NRs AP6005391 SOURCE CODE2 UR/0413/66/000/001/0124/0124 MTHORSt Filippov? F. V.; Pavlov, Ve Ye. ORG: none 0 TITLEt A hydraulic drive of reciprocating motion, Class 47, No, 177731 SOURCE: Izobreteniya, proWshlennyye obraztsy, tovarnyyo znakip no. 1. 1966t l2i'~ TOPIC TAGSi hydraulic device, hydraulic equipment,, hydraulic liquid, clutch ABSTRACTt This Author Certificate presents a hydraulic drive of reciprocating ]W- tion, containing a working cylinder, a jet tube for consecutive feeding of working liquid into the chambers of the hydraulic cylinder) and a mechanical feedback for directing the jet tubeaccording to the position of the piston of hydraulic cylinder (see Fig, 1), To simplify its construction and to increase its productivity, the. feedback mechanism is made in the form of a two-shoulder lever rigidly fixed to the shaft attached to the shank of the jet tube through a friction clutch. One end of the lever is connected to a apring-loaded rod, while the other end is connected to a key-like protrusion formed on the rodp and insuring a passing of the jet tube from one position into another. 1/2' uDG: 621.226  L 44OB4--bf) ACC NRs Ammon -Fig. 1. 1 - two-shoulder lover; 2 and 3 - shafts; 4 - friotion clutchl 5 - rod; 6 - spring; 7 protrusion Orig, art, has: 1 figure6 SUB COM ~-13/, SU13M DATES 30eoO~ i. hs, Card 2/2  SOV/127-58-11-5/16 AUTHORSt Tyrein, S.M. and Filippov, P.Yo., Mining Engineers TITLE. Drainage Works at the Sokolovskoye Deposit,-(Osushitelinyfe raboty na Sokolovakom mestorozHenii) PERIODICAL: Gornyy.z-hurnal, 1958, Hr 11, pp 21 - 24 (USSR) ABSTRACT: The,,Sokolovskoye deposit was to a large extent water logged) and had to be drained before stripping operations could be started. Special bore holes were drilled and pumps of the tapes ATN-14 and 12-AP were installed and operated in con- junction with special drainage ditabes. In seven months the water level in the stripping layers was lowered by 23 m, and 1,220,000 cubic m of sand, which covered the deposit could be stripped. There is 1 table, 1 map and 2 Soviet references. ASSOCIATIONi Sokolovsko-Sarbayakiy gorno-oboEatitellnyy kombinat (Sokoleve- koye - Sarbay Mining and Concentrating Kombinat) Card 1/1 1. Mining engineering--USSR  GRAUR), I.F.; Drainage operations. Gorzhur. no.2;10-34 F 164. (MIRA 1714) 1. Glavnyy-geolog Sokalovskogo-Sarbayskogo kombinata (for Filippov). 'a!~Dl 71,  14(3) SOV/176-58-7-7/17 AUTHOR: Filippov R. Colonel TITLE: ArranSing Cover by Means of an Underground Excavation (Ob ustroystve ukrytiy sposobom pDdkopa) PERIODICAL. Voyenno-iazhenernyy zhurnal, 1958, Nr 7, pp 19-21 (USSR) ABSTRACT: The author describes digging trenches and covers in advanced positions by using entrenching tools, in the event of the enemy using atomic weapons. An examble of a unit commanded by the officer Gall is given. The* cover was built without using timber or other material. Two sketches of covers and underground galleries are* given. A cover was tested by running a tank over it. the layer of earth above it was 110 cm thick and the ceiling arch was no less than 25PIlo of the width of the span. The author refers to the experience of these underground passages during the defence of Stalingrad, There are 2 diagrams. Card 1/1  FILIPPOV, R.D. Stability of saturated sand foundations subjected to dynamic actions, Oan,, fund..i makh. grun. no.2:-14-16 '59. (MIU 12.7) (Soil mechanics) (Foundations) M  FILIPPOVO R-6 -.-'~Ton~ra-f~z~ed~transportation of fish and fish products. Ayt.transp. 32 no.4:84 AP 034. (xLRA ?:6) 1. Direktor avtobazy Koirybkombinata. (7ishas--Transp rtiation) (Transportation, Automotiva) ~Fishqry products-Traneportation)  FIL~PPCV, S. (Leningrad) 1-1~' - --MwwMwwftft-~- .5 159. Unusual turret clock. Znan.ta pratsia no.1:13 117 (,'IRA 12:10) (Astronomical clocks)  NOVOSEWV, K. (Moskva); FILIPPOT. S. (UQnkva) Timing device. Sov.foto 20 no.1:39 Ja 160. (NM 13:5) (Clocke and watches)  FUIPPOV, S. Machine for nylon hosiery repairing. Mest.prom.i khud.promyse 3 no.4:29 AP 162. -(NIRA 150). Zamestitell nachallnika ulwavleniya metalloobrabatyvayushc hey promyshlennosti Mosgorispolkoma. (Hosiery, Nylon--4epairing)  0 0 0 0 0 0 00 we 4w so "ika &,..L A 4 so 00 dc- 00 00 009 0 41 &1 u A . A -A -1-10 .0 "14 -06 .-so 00 "so ~09 00 8 Overrov I"d. B. ~KA"- Ago dII&OSIG on. 00 a SA, y N o ' 1~ VAXJMOVAI Z. Iva. and A. Y O W. n ok Y p Ipbp. Moi AT n, Uus 0 :,r 0 0' 349) v iar~, 41 l on al 4b( I& > "I IT NO ia WAin -. I:m Pb in l uwwis doq~ Ir exanda., - - . g & ei ail & d 0 Soo W o "W be' for iq wk an ing to Ad- zoo sea *0 *wW PWO an Ae Asetmis appam to the nft OM okq* Um "-d- & th f ii =00 C - a us "Mion o , go); t& peams 2W + 29 + O o has no M& Offew ft. 0.50 H il , All-101 OCTALLURGKAL UTINITUNI Ct-$SWKATIQN- "Jul tIV1414wo -- ---- 101040 .41 O"T 441 t .8 u a AV 00 2; I,,; off $IF 94 it 1p, t 'A 194 OT*40 9100:116,606460 Soo*** 696666669 0 * 0 0 0 0 0 * 0 4b 0 0 .k-,0 0 0 0 0 0 0 4j 0 a * :AD 0 Fee has ties nee else woo fu 3 Jadi 000000000000961 0 0 0 0 0 0 0 0 0 0 0 0 0 a 2  FILIPPOV, S.; ZONOV, V, Central Industrial Laboratory of a machinery construction plant. Zav.lab.,27.no.9:11:68-1170 161. (MIRA-14:9) 1. Nachallmik TSentrallnoy.laboratorii mashinostroitellnogo zavoda (fpr Filippov). 2. OtZel.glavnogo m3tanurga Tsentallnoy laboratorii mashinostroitellnog6 zavoda (for Z04ov). (Machinery--Testing) 77-v - MAW 'N" i -!'S, R- 4 I aW,:~ wm!  10000040000000000 06000, 01 MIS. IL a s 0,46 I. 40TO, ~_" 40 0 .1 e. .of I goo ANO 41" 044.1ki ma -7 'I 41' 004 Oom go. q3me pow I Imar 011. 00, jaqll aqj 10 xnw aq[j wwwK -pa 001 aAp a) eCpWlI 00 al 011twirs Olorl qG 4*404" p9w 00, see 00.7 1 -PUCIWO Wit IIH P'PPu "P"d-W a pswivus" Usul -P"A Ol'up ijG(c In -I- 1 00 0 02 WASN" 4114 .01010 00 00 got 109dw-ppumialowlem-nall *AP31101144*11 jy 6 R&I. -IM 901 01 -110 ."m 12 %m P -to I rev 00 -pa (a -Will -PU c up in PLI! c mvw"* on, &W*w 1 44 wr~ Poo ItAq 1040 'JOIVA IlIPA " 041 jo a" 41411 1" III sAu"j o1 qlvq tPAM 9 UO 19" 'WtjftWW 'PU VC-49 00 4,0- I'U" 'ONJI 'PM3 'Itu Ot-99 t" "WA a4l OJL Jalua too q qIYA 1114111 POW6014111 Tp 110111111A "M 19 WMM Wall 00 I'll"'ItIIII'M III lmq `PU 091 -Ml 91 Mi'm WR IMUTP *K fz1vq1#.IIv'IIIUIP "I 1WQ "111IN 11 'T"Mm"Itu (* 111110, Imst goo () q qjIs Aolls - lvj- So Is 941IM24"Um 00. a 11 qv7 IL% Pprosok 'WR -if 'A I a I Soo "I Ap-w- r Ran to "Op"'I'MUmpa c of go 0 0 0 0 go 0 000 g, 91 vo 4 .0000 a Soso* a a 0 6  USSR/General Problems of Pathology - Immunity. Us:,Jhur. Ref,Zhur Biol-, No 5, 1959, 22632 Author Filiippov,.~S A. Inst Military.Nedical Academy Title :. ~The Influence of Pentoxy'l on the Frocecaes of M=mnoge- nesis.' Orig Pub Tr. Voyen.-med. akad.,- 1957, 77, 117-154 Nostract Rabbits (6) were immunized with: 3 subt3utaneous injections o If tetravaceine (TV) and tetanus arotoxin (TA). 'At the same time,'the experimental..animals received each daily 4o mg/kg of pentoxyl (1). In the ijerum of experimental and control animals, the agglutinin titer (AT) of 0,H and Flexner-C and of tetanus antitoxin, was determined as .well as phagocytic,activity (PA) of leucocytes vith the cultures of typhoid and dysentery bacilli and Staphylo- card 1/2 3   MIKHEIEVt M. N. P KUZ? MESO7# 1. A. s TCHIL079 G. S. VED FILIPPOV, S.--R. Magnetic Control of the Depth of the Hardened Layer arA of the Hardness of Steel Tools Hardened by Hith-Frequency Currents A mobile coercivity meter of 14. N. YdIcheyev's design for magnetic control of the depth of the hardened layer, treated by high frequency currents, Is described. ExperLments proved that the depth of the hard- ened layer, its hardness as we'll as that of the core are in constant ratio with the readings of the coercivity meter. WhFiz, No. 8, 1955) Tr. in-ta Fizlki MetAlloy UrAllyk Fil. AN SSSRp No. 14# 1954, 43-47. SO: Sum. 110. 744, 8 Dee 55 - Supplementax7 Survey of Soviet Scientific Abstracts (17)  DOIOMN, G.K.; KOIREMIXUVA, S.A., Inzh*# retsensont; FJL~~. lnzh,, red, 4. V!TMOTA9 G,I(,,, takhn.red. (Painting ma o'hinery for delivery to tropical countries; experience of the Itral Ifeavy Vachinery Plant] Okwaske mahin- uogo oborudavenlia, :postavllaemogo v atrany a tropicheskim klimtom-, is opyta Urallskogo savoda tieshelogg mehinostroaniia. Sverdlovske Uantr.741uro takhn.informataii. 1959. 38 P. Ak" 14:4) 1. Russia (1917- Swerdlovskiy e6nomicheskiY admi- nistrativnyy rsyou~ Sovet narodnogo khospy'stia. (Sverdlovsk-0ainting, Industrial)  EF.LIKH-MELAMED, G.M.j FILIPPOV, S.F. Remote control system for lWted conductor lines of centralized traffic control in unierground mines. Gor.zhur. no.8950-52 Ag 165. IMIRA MIO) 1. Konstruktorskoye ~yuro TSvetmetavtomatika.  FTL',PPC'I.l Filippov. S. F. "Th'! problem of planning the development of young c,:;ttle",, Trudy Kirriz. nauch.-isEled. in-ta ~,hiivotnovodstfa, Issue 9, 1948, p. 161-74 Bibliog: 10 items ,(Animal Husbandry So: U-3566, 15 March 53, (Letopis 'Zhurnal Inykh Statey, No. 13, 19-149)  HuNGARY/Nuclear Physics - Structure.and Properties of Nuclei C_ Abs Jour Ref Zhur Fizika, No 3, 1960, 5329 Author Dav"dov, A.S., Fil 0 Inst Moscow State University. Title Collective Rxcited States of Even-Even Atomic Nuclei Orig Pub Acta phys. Acad. scient. hung., 1958, 9, No 1-2, 169- 176 Abstract The energy of collective excited states is calculated under the assumption that the nuclei have an axial syinietry. Conditions are obtained under vhich the collective excita- tions can be separated into rotational and vibrationa. See also Referat Zhur Fizika, 1958, no 6, 12634 Card 1/1  12(3) AUTHOR: TITLE: PERIODICAL; SOV/127-59-3-5/22 Yermolayev, V.I. and Filippoy,_S.F., Engineers The Remote Control of Electric Locomotives in Places Where Trolleys are Loaded and Unloaded (Distantsionnoye upravleniye elektrovozami v mestakh pogruzki i-razgrdz*ki sostavov ) Gornyy zhurnal,,1959, Nr 3, pp 19-24 (USSR) ABSTRACT: The Konstruktorskoye byuro Tsvetmetavtomatika (Design'Office.'.Tsv'etmetavtoinatika) developed a system for the remote control of electric locomo- tives in mines. Reverse "forward" and "backward" contactors are switched on alternately into a power circuit,,"figure 1) according to the "ordered" move- ment of the locomotive, The "Stop" order is exe- cuted by switching off the previous *ly isolated zone of the contact cable from the contact circuit. The system was developed for electric locomotives 7KR and 10 KR.It works,on voltages from 135 to 300 v and' Card 1/2 at not less than'~3,'000 ohm resistance of the insulat-  SOV/127-59-3-5/22 The Remote Control of Electric Locomotives in Places Where Trolleys are Loaded and Unloaded. ion.of the contact cable. A detailed description of the system is given, It was tried out under industrial conditions in the Degtyarka copper mine, and in 1958 was put into normal exploitation. The Nallchik Plant Tsvetmetpribor is organizing the serial production of the equipment. There is 1 scheme and 2 Soviet references. ASSOCIATION: (Tsvetmetavtomatika) Moscow, Card 2/2 Y-1  ANFILOV, A.A., hizh j BAIUJZYNIK, Ya.M.., inzh.; BIRGER, G.I.,, inzh.,- BRUK, B.S,,p inzh.,- BUROV, A.I.v inzh.; G]21ZBURG, V.L.j inzh. ; ZABELIN, IT.L.,. inzh.; ZAPLECHNYY,, Ye.G., inzh. -ISAYEV, D.V.,, inzh.; KLIHOVITS431, A.M.0 inzh.; KRYUCHKOV, V.V., inzh.; KOTOV~ V.A., inzh.;-nYDJ?ftMAN, A.Ye., xizb.; PODGOYETSKIY, M.L.., inzh.; SAZHAYEV, V.G.p inzh.; SEVIZOIANOV, V.V.,, inzh.; FILIPPOV., S.F., :Inzh.; FROMBERG, A.B., J.nzb.; ShNEYEROV, M.S... -tn-z-h.-,- G. M. , inzh. ; VERKHOV SKIY , B. I., red.; ZUBKOV, G.A., red.; KARKLINA, T.O., red.; OVCHAIMKO, Ye.Ya.,, red.; ANTONOV, B.I.j ved. red. (New means of automatic and centralized control for nonfer- rous metal mines] Novye sredstva avtomwtizatsii i dispetcher- skogo upravleniia dlia rudrdkov tsvetnoi metallurgii. Moskvap Nedra, 1965. 93 P. WIRA 18:4)  KRYUCHKOV, V.V.j,_F~41.P,P,0vO. S.F.; ERLIKE-MELAMED, G.M. Automatic control system for railroad signaling with the control of switches from the cabin of an electric train's engineer. Gor.shure no..8:53-55 Ag 165. (MIRA :L8tlO) 1, KonstruktorsRoye byuro TSvetmetaytomatika.  0 0 4( 0 0 0 a 0 00 "R go, IASI U a Is 4 at 4 a I- -- - _r I - A _-A ile 49 * _09 001 H j 401 MOW "A a Apparatus for Tudag ftelvated 410.9 All & 1. 'Oerlil. Henry Bruteber (Altadena, 04~ SI ni. Front 0 0 Tran MOM 2104. 1048, 0 psgt .4, taya babonsfor(yo Factory Laboratory). v. 009, 12, Nov.-Dee, 1946, p. 033-M. 000 fhwtibez development of a test method and np-. 00 Ij w for passivity of chromium alloys. Dc- =ni Apperetux and procedure In testinx for 00 passivity under conditions of anodic or .,sthodic fixation under a drop of electrolyte. Gives re- and res data vulth corropion tests of chromium =In contact with nitric acid. 1801 A 04LA ANTALLURSIC41. LITERATU14 CLASIMICATON flow WHOM ISM -4811111 M M is &V 1-0 ;419; WD 0 1 'L 11 1 Gd 0 0 9 1 Is a 9 A 4 0 0 0 010 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 04 0 0 0 0 0 0 0 0 0 0 0 0 41~ ilia 0 0 0 0 0 0 * 000 004) 0 0 * *  00 0 0 0 0 0 0 0 0 0 0 11111 0 Iff. I IT I 1. 0 " " 0 wit 6v: 4, utjwd~jre K IL-K U V 1 0 1--L,j AA 0 CC M U. a %r ,I _I I ~ a A.-A _& lAteallsity and roalsbuicul of chrowum d(ofte. B. V. It a Statit and S. 1. Filippow., -SW 7,4139-42(1947).-Passiv. Ity und resietarxi vrem studied by observing the polarim- 00 jim of the alloy under a dmp of 0.1 N NaCI and IINA. 00 spedmen wre prepd. colitc. 4M-11.611% Cr. There weft 2 each Itind.- cot nut snd the oth"_ fon;ed r4 X=041. Ted specittienj were polLilied, de- 06 z mated. etched its enord. IfNO,, rulthni with iffass vetwil, rbuwd, and Affied. 71w measurements iverr ma,l* with a *0 it vpeci*lty awwrabled at-up (dewnbet!). As stimlle jvilAr- 0 tKorntiall C4 five &11.!f ith-tVANd Up th 0 Jae sit which It Inet It ~ pa"iVily *".) Intami in d"Wav?. TIW Frat" the Cr (,Mte"t ths. hitl1wr tht bmlidn" "weitial. I lp to ii'. o? a tunfe 4 ef j!12%) it* Sititcnilal (OW gfudually. It thru evotmViNI CUM Vd to 24r. Cc. when It Jumped! Ircen a pmq. 0.5 xe 1.1 v. and then stain mnalved une anW up I.QATIV074 Cr. C#11todic-pr4dation fund" fINO.) My"aboshowed birsksat the poloolisfilt Whi-.11 passiv- 0 fly tivoke, down, but the value of this potctitiAl prarlically It'd not change with the Cr coatent. Cit. ve vierr ph- It trLhwd Far. the changes of current and fintrittLil with 011110 time. 7Uw curvTO are reprded more rdiaW for itull- exting the transition of the r-r a" Irmn passivated t,)- ittivitIM MaW Curvro of stierlirwho nivrttd by s" Z* 0 V-sidf 61111 awained rith#r by thelm,11 Istall"ent W by Anadic 021dation find halt$, whichmtra taken to ind"to the process of catividic- rieductiotZol' the wilde. Cury"of, li-Mmeas v4salvatex! In HNO. tied no such halts. But tpassIvOlon is provided by a this film of edstrived 0. Dorc the alloys tweAnit activated. i.e. lost their twisivity. the Sala. cuftent attained a Cwtaill value, Itlesuing"I.At- that In aggrrWye tutfillsing wedia the nutlace tit Cr Allflyl be 0 vcrrd with 0, which cvstiftantidii, voln. ZIOO ASQ-$L& ftLTA6LUr.(.K1L With litevAnet purtly cin 'the amt. at 0 ub"Ibnl depend.4 on the Cc "trut III 11loft, ~) - S, V* 0 0 the aliqy. U..qowb 00 U 11t AT 00 it 4 Aft L t I 1W a I IF 111 2 43 a 3 1 v it 19 it It Is 5 R It a It tl~-. -.V, -.51Tt. i Tr * 0 * #4 4 0:0 0 F!  FMIPPOV, -s. J. Stark, B. V., and I'Surface Phencmew~ in the Proceases of Extracting Carbon From Steel." SY40aium? "Properties of Steel." Metallurgizdat, 1949. 7 MMIT-W-0 T-M Mr, M"I ~Z7  One Ir4k steel. 11:"V, Stoark S.S.- Is AUd. 'as SIR., (W. Tokk. Naa~ 5urf*M Icusion of sted indla wim dtW. In an Xkg- Induction fumare bY Pass- Ing N, t It a capWay Inmial In the melt. An in- cream in tnor Owntent Otbe writ decreased the surface tension, indicating that C and 0 viere sw1we-active etc, mmts. Adsorption of C and 0 on (he phase boundaries wAs caled. trims the mdace tens"s datA. %bett C and 0 were in equd. in the melt. the jUrfwe tensim, curve passed a max. vtbtkb correvoodel to equal adsorption of C and 0. An excess of 0 was required in the n3clt for de. carburfation to proceed; this excess was & max. *bra C ad- max.. and at a min when C And 0 Ad- it W- R.ih-nn  nt. Kinetics of the reduction of metal oxides. Sbor.Inst.stali no.31: 5-13 '53. (MMA 9:9) 1.1afedra teorii metallurgicheskikh proteesgovs (Reduction, Chemical) (Chemistry, Metallurgic)  FILIPFOV, Sergey Ivanovich Academic degrree of Doctor of Technical Sciences, based on his defense, 24 qarch 1955, in the Council of the 'Moscow Order of Labor Red Banner Institute of Steel Jjpeni Stalin, of his dissertation entitled: "A Study of the Regularity of the Process of Pecarbonization in Liquid Steel." Academic degroe and/or title: Dodtor of Sciences SO: Decisiohs of VAK, List no. 25, 10 Dec 55, Byulletent MVO SSSRI Uncl. JPRS/NY 548 oqjf il,  YILIPPOV, Sorge I " i h KAZLCHKOV, Ye.A,, radaktor; ZINGIR, S.L., nowaRfflov c : Tellsiva; ?JTROVA, U.S., takhaichookiy redaktor [Theory of the process of steel dacarburization) Teoriia proteassa obazuglarozhivaniia stali. Moskva, Goo. asuchno-takhn. izd-vo lit-ry po chernoi I tsvetnoi metallurgil, 1956. 166 p. (HLRA 9:9) (Steel--Metallurgy)  xf.- Mj n! t is ih~ Prnj!~Ptlfti c! - 11 a . - - , N %-T " ~, - .  )rjLjQjMM&". doktor tekhulcheokikb nauk; IPILIGHKIN, I.F., inzbener; ARMOT. INV, P.P., doteent, kendidat takhnicheskikh nauk; YAKOVIJV, igAn-odog-io'cal obaracteristics of 'besiamer smelting and proportion -;F~or.,Inst._stali n "5:70-101 156. (ICTMA 10t8) of soft steel,. 0 1 1. Kafedra teorii metaiiurgicheskikh proteessov. O%msemer process) (Iteel-Ketallography)  GOKOZOV, L.L. inshener; W"LiT, T.L.. inighener-, YILIPPOT,_ S.I., doktor takhnichaskikh Using, Rod@I-s for t4e study of proc'seven in steel teeming equipinnt, ~I'Ao*35;201-211 156, (KLIRA AorW.- ;opt. ~: qjA 10t8) 10 Wedra teoril Rate. PT ;asgov' and eiRplies) analysis)  F=POT, ARWTYZV-, -P-*P-.----- "Admixtures, Concentration Ratios and Properties of Iron," lActure given at the Fourth Conference on Steelmaking, A.A. Baikov Institute of, Metallurgy, Moscow, July 1-6, 1967  -FILUTOVIS.-I.) YAKCIVI'lm) V.V. "The Laws of Nitrogen Absorption By Liquid Iron," lecture given at the Fourth Conference on 'Steelmaking, A.A. Baikov Institute of I,Jetallurgy, Moscow, July 1-6, 1957  0 v 18(5) PHASE I BOOK EXPLOITATION SOV/2295 Moscow. Institut stall Primeneniye ki8loroda v staleplavtl1nom proizvodstve (Use of Oxygen In Steelmaking)',Moscow, Metallurgizdat, 1957. 418 p. (Series: Itst Sbornik, 37) Errata slip inserted. 3,500 copies printed. Ed.: Ye. A. Borko; Ed. of Publishing Housei Ya. D. Rozenteveyg; Tech. Ed.: Ye. B. Vaynshteyn; Editorial Board of the Insti- tute: -M.A. Glinkov, Doctor, Professor; R.N. Grigorash, Can- didate of Technical Sciences, Docent; N.T. Gudtsov, Academician; V.P. Yelyutinj Doctor ' Professorl A.A. Zhukhovitskiy, Doctor, Professor; I.N. Kidin, (Reap. Ed.) Doctor, Professor; B.G. Livshits, Doctor, Professor; A. P. Lylibimov, Doctor, Professor I.M. Pavlov, Corresponding Member, Academy of Sciences, U,~,SRj K.G. Trubin,. Doctor, Professor; and A. N. Pokhvisnev, Doctor, Professor FURPOSEt This collection of articles is intended for scientific, industrial, chamical, and metallurgical engineers, ph7sicists Card 1/9  Use of Oxygen in Steelmaking SOV/2295 and students. COVERAGE: This book is a collection of scientific research papers on the utilizations of oxygon in steelmaking. The use of oxygen blast for the intensification of fuel combustion and the in- troduction of oxygen into .1.Jquid metal in order to oxidize ad- mixtures are among the topics discussed. The use of oxygen in scrap-ore processes for making steel from pig iron with a high phosphorus content is also discussed. Several articleiB deal with the heating and proces8ing fundamentals of steelmaking in a recirculation steel-melting furnace. Individual aiticles deal with the economics of steelmaking with oxygen-blaot and the optimum conditions for effective utilization of oxygen. No personalities are mentioned. References follow each article. TABLE OF CONTENTS: Filip_ov, S,1. [Professor, Doctor of Technical Sciences]. Kinetics of Oxidation of Elements.'in the Metal Eath During Oxygen Blast 5 The author discusses oxidation of carbon, manganese, silicon., Card 2/9 ",  Use of Oxygen in Steelmaking SOV/2295 and phosphorus, In relation to the rate of introduction of oxygen into the bath, Glinkov, M.A. [Professor,,Doctor of Technical Sciences) and V.I. Mitkalinnyy [Candidate of Technical Sciences]. Thermal Work of Open-hearth Furnaces in the Scrap Process 22 The authors describe modifications made on a furnace to achieve higher efficiency when oxygen blast is introduced, Kuznetsov, N.S. [Docent]. Intensification of the Open-hearth Process by Utilizing Oxygen for Fuel Combufftion 33 The author discusses the relationship between the ratio of oxygen introduced, and the. heat value of the fuel gas. He also makes recommendations-for changes in the refractory lining of furnaces. Kharitonov, A.S. [Candidate of Technical Sciences], and K.G. Turbin octor of Technical Sciences, Professog r . Use of Oxygen for ln~ensiflcation of Decarbonization in the Open-hea:i7th Bath 38 Card 3/9  Use of Oxygen in Steelmaking SOV/2295 The authors study the possibilities of shortening heat time by forced decarbonization, and by reheating metal during the rimming period with oxygen blast. Kornfeld, V,N. [Candidate of Technical Sciences]. Effect of Oxygen Utilization on the Delgasification of Metal During Melting (Open-hearth Scrap Process) 80 This &rticle is a study of the concentration of gases present in metal in the bath at varying rates of oxygen enrichbent of the air and under various conditions of oxygen blast. Orlov, V.I. [Candidate of Technical Sciences], R.M. Ivanov, [Engineer), and Kh. D. Yerinin [Engineer). Gas Content In the Open-hearth Bath 98 The authors discuss the content of oxygen, hydrogen, and nitrogen present in the open-hearth bath at various stages of the heat Bannyy, N.P. [Candidate of Economic Sciences), and V.A. Romenets Card 4/9  Use of Oxygen in Steelmaking $OV/2295 [Candidate of Technical Sciences]. Technical and Economic Efficiency of Oxygen Utilization in Open-hearth'Processes 124 Oyks, G.N. Doctor of Technical Sciences [Professor], Yu. V. [Candidate of Technical Sci' Kryakovskly ences], and V.P. Grigorlyev [Engineer]. Intensifying Open-bearth Conversion of High-phosphorus Pig Iron by Introducing Oxygen Into the Bath 138 Oyks, G.N., Yu, V. Kryakovskly, Ye. A. Kapustin, and V.P. Grigorlyev. Efficiency of Oxygen Utilization for Enriching Air in the Open-hdarth Conversion of High-phosphorous.Fig Iron 152 The author describes comparative industrial tests of different stages of the o,en-hearth process with and with- out the use of oxygen. Oyks, G.N. Selecting the Proper Method for Open-hearth Conversion of High-phosphorus Pig Iron 166 The author suggests a compoeltion of open-hearth charge, which, combined with oxygen blast, is supposedly more efficient in dephosphorization. Card 5/ 9  Use of Oxygen in Steelmaking SOV/2295 Abrosimov, Ye. V. [Candidate of Technical Sciences, Docent]. lntensification of the Open-.hearth Scrap Pr6cess With Oxygen 177 The author discusses the use of oxygen blast for the in- tensification of fuel combustion, for the meltdown, for the direct oxidation of charge elements, and for the duration. of the entire heat. Abrosimov, Ye. V., V.A. Kudrin [Candidate of Technical Scien- ceri I , and G. I. Demin [ Gandidate of Technical Sciences, Docent Materiil and Heat Balances of the Open-hearth Scrap Process With Oxygen Blast. 195 The authors give an account of a comparative experimental inveqtig4tions of heat and material balances.of open-hearth processes with and without oxygen blast. Kudrin, V.A. Temporary OverOXidation of the Open-hearth Bath During Oxygen Blast 214 Abrosimov, Ye. V., and V.Aw Kudrin. Course of Carbon Oxi- dation in the Open-hearth Bath During Oxygen Blast 232 Card 6/ 9  Use of Oxygen in Steelmaking Kudrin, V.A., and Ye. V. Abrosimov. Time of the Rimming Process Proper During Oxygen Blast The author presents a method of 4 to 5 minutes, thus increasing percent SOV/2295 Possibility of Decreasing in the Open-hearth Bath' decreasing rimming time to production by 5 to 10 252 Kryakovskiy$ Yu. V. Dust Formation in the Open-hearth Furnace During the Scrap Process 26o Aleksandrova, A.I. [Candidate of Technical Sciences], G.N. Oyks, and N.P. Bannyy. Making Steel From High-phosphorus Pig Iron 281 The authors discuss production data for the conversion of high-phosphorus pig iron, including heat time, slag forma- tion, and the effect of oxygen on fuel consumption. Glinkov, M.A. Doctor of Technical Sciences [Professor], and N.S. Vavilov [Candidate of Technical Sciences]. Heat Exchange Above the Bath of a Recirculation Steel-melting Furnace 305 Card 7/ 9  Use of Oxygen in Steelmaking SOV/2295 This article deals with the thermal and technical aspects of a 1.0-ton industrial recirculation steel-melting furnace with simultaneous fuel feed from both ends accompanied by the application of oxygen-enriched air. Krivandin, V.A. [Candidateof T;chnical Sciences]. Study of Combustion in the Recirculation Steel-~melting Furnace 330 The author describes an investigattion of the combustion processes, furnace gasess and composition of the exhaust gases, Rekhtman, A. Ya. [Candidate of Technical Sciences, Docent]. Special Characteristics of Gas Fl'ow in a Recirculation Steel- melting Furnace 354 The author discusses investigations made in a model furn- ace for the study of gas flow, the distribution of combus- tinn products,-and tho distribution of pressure on the walls. Demin, G.I. [Docent). Heat Balances of a Recirculation Steel- melting Furh.ace 372 Card 8/ 9  Use of Oxygen in Steelmaking SOV/229r~ Molchanov, N.G. [CandidiLte of Technical Sciences, Docent]. Com- parison of Gaseous Fuel Combustion Processes In Furnaces With Throughand Recirculating Gas Flows 377 Livshits, B.G. [Doctor of Technical Sciences, Professorl, L'.A. Shishko (Candidate of Technical Sciences, Docent], and N.G. Lakhman [Engineer]. Quality of Steel Made In a Recircu- lation Steel-melting Furnace 395 The authors.investig,ate the qualities of recirculation- furnace steels, comparing them wtth ordInary open-hearth steel. AVAILABLE: Library of Congress GO/ec Card 9/9 10-12-59 k" - -~A _~t' 51' - - 7 1 If 41T