SCIENTIFIC ABSTRACT OKHLOPKOV, V.P. - OKHOTIN, M.V.

L 21126-6~i ACUSSION NIS A750D2106 b:rzmvs%TzhIunx, the pbotomultipllsr and %be crystal veto ahl*ldad with 3 na of Iasi and 11 ma of aluminumm extept for the front of the photomultiplisr, which had a conical openial for particle incidence (Aparturs &URI*. W). This counter CATTiSd Out ibniZAtIOM MAA3UT4- nants and PaTtICIS TAXi3tTAt1Vn 2% OZATBY release in the crystal of 45 and 260 kw and 5.4 and 3.5 May.- Both electrons and protons could be raXi3tarad along the first two (45 and 160 Xav) channels. AlozZ the other Iva (5.4 and 3.5 raw) channels, the count'vas me'Inly of pro-1 tonj; at an alactron path perpeadivular to %No crystal surfacer enarxy mes2 of tba ablelting.'.7abli I of tbe.,jacliosure givam the pArzi~l* ateigi as, im'Als fered-ly ttits 481ISS -and, 4 -joribulas;- ASSOCIATIONS none :Card 313_-  I-ACC AUTHOR: 01,chlopkov, V. P. ORG: none TITIZ: Results of cosmic ray studies by the Elektron-2 and Elaktron-4 satellites 'Japar pronwited at the All-Union Y*eting on Physics of'Cosmic Radiation hold in 'Nos", cow frbm 1,5 to 20 November 196f Son CE: AN SSSR. Izvestlya. Seriya fizicheBlitaya, v- 30, no. 11, 19-06, 1824-1826 TOIC TAGS: primary cosmic ray, cosmic ray intensity, cosmic ray measurement , automatic space station, gas discharge counter ABSTRACT: Experimental data are presented on primary cosmic rays obtained by a gas discharge counter with a 2.3 9%cm-e shielding onboard [ '.the~--!Elektron-2 and Elektron-4 satellites. The area of the counter .1 c,arried -4 exceeded by 1.06 that of the counter carried by by Elektron 'Elektron-2. The threshold energy for recording protons by this counter j-L:i-;As 1,18 Mev. The average counting rate of thre gas discharge counter -i*-W~is approximately 20.5 Pulse/see which, over a 20-hr period during which the satellites were outside the radiation belts in each orbit, ,assured a statistical acouracY Of 0.5-1.0% for Elektron-2 and [0.1-0.3% for Elektron-4. Counting rate valueB were obtained for the  ACC i~gs AM 0 period 30 January 1964 to 9 February 1965. There were two typen of I variation in cosmic ray intensity: slow Variations associated with the 11-year cycle of solar activity, and fast variations associated with a period of two weeks. In the first half of 1964 the intensity of primary cosmic rays continued to increase. For the,period February- May this increase was about 10%. At the same time on the IMP-1 sat- ellite 2 15% increase Was observed. For the period February-May the intensity grew at an average rate of 2%, in the period July-August at a rate of 1% per month, and in September and October the Intensity remained constant. This -increase In the Intensity of primary cosmic rays is well correlated with an increase in the intensity-of the neu- tron component. Orig. art. han; 2 figures, IWA-751 PRI SUB CODE: 04/ SUBM DATE:% none/ OR70 NEF: 002/ OTH REF:' 004 Card  v=1,011, S.,?*.; CIIUD.~UKOV, A. Ye.; V.PJILOV, ?.7.; GORCHATTV, Ye."I.; . I- I m: e I * . ?A" -- " I~L - ~ p P.P.; Yu'~T-"12,07;1 ~., ., - !J::Cu-yF-,7 A.G.; 0;-i-' E.N.; ". .t MO ~ 3- 1 F.adiation studies by means of the artificial satelite llrosmoc:--wl-7% Izv. 2, SSSIR Ser. fiz. 28 no.12:2058-2074 D 164 (',flu lc-:12)  t 1552-66 FSC,-2/ga(l)/FS(v)-3/FCC/IWA(d)/FWA(h) TT/GS/GW ACCESSION-MR: -AT5023628 UR/0000/65/0(W/000/0502/0506 AUTHOR: Vernov. S. I.; VakIllov, E. y.~; LoX#chqv, u. Qkh2loRkov, d~ Y, 6T 44, -177~ , '4 ma- TITLE: Pri ry cosmic radiation investigations & el, SOURCEt Voesoyuznaya konferentsiva Po Moscow.! -1965. -iseledovantya koamicheakogo proatranstva (Space research); Itrudy konferentaii, Moscow, lud-vo Nauka, 1965, 502-506 TOPIC TAGS: cosmic ray, cosmic radiation, vrimary g2o%L_c_". Primilry cosmic di 11 11 ra__ istiou, KI!L ljktMM 4 ktron 2, E ABSTRACTv:Experimental data obtained by Eltiktron-2 and -4 on prtma;'~ c0 mi c radial. sented.and interpreted. The data, covering the period 34,1 January to t1L0 191P ge aimn te ra 1 N:W - r"1964# were 'obtained primarily by means of gas-dischar with an averag a frequency of.20 pulaes/sec. The apogee of the natellitsewas 6.3,000 km 1, keeping,them outside the earth's radiation belts most of the time. 13be higher 1 --count-frequehey as the thickness of the screens was.increased, made At posuible to; conclude that the primary radiation did not contain psrticlv~s vithin! I~the 50 to 110 Hav range. Two types of radiation intensity variations were dial-Inguiehed:  _L 15 52-66 ACCESSION NR: ATS023628 0 those connected with the 11-year period of solar activity, and fast: variations, with a period of the order of two weeks. The 11-year period variations grew in intensity at the rate of about 2 percent per month during the first, half of 1964. During the second half of the year the intensity reached a ceiling~and in October indicated L- tendency to decline. lbene data are in fair agreement :with those of the Fo-M Churchill and Deep River observation posts. Certain Indi0ttions of a phase shift betueen the period* of solar activity and-the intensitj~ of coomic rays .-were discerned in thesequence of monthly averages of the intensiq~of cosmic radiation, the relaUve nunber of solar spots, and the solar flux of 10.7-cm radio waves. These observations, however, are not considered conclusive. The short- period variations- of radiation witha 1.5-percent amplitude periodivally ccquire a clearly cyclic character. The same observation was made In April~'1963 Ly the Luna-4 interplanetary station. In general, however, the cyclicity ;is not very regular and the nature of these variations remains obscure, There ire also Indications of a 27-day period in the data for 1964. An attempt was made to correlate these periods with the sun's rotation. A re ular coincidence wa.3 not observed, but in some cases (rotations 1792, 1793, and 1794) there was a f-Air indication of parallelism. The absence.of a conclusive connection vith thu sun's rotation suggests the possibility.that the short-period variations h ave a co mon  L: 1552.;.66 A =' S S 1 ON N AT 5'0'2'3 6' 2'8 origin with the 11-year variations. It is also possible that the Intensification of cosmic radiation during 4ecline of solar activity is not monotonic, but displays UPS and downs stemming from chaAges in the condition of its prop agution or- dimensions of tho region of its effective scattering within tho aolar system. Orig. art. has: 4 figures. [FPI ASSOCIATION: none SUBMITTED: 02Sep65 -ENCL: 00 SUB CODE-:_AA, 3V NO-1nF S(YV: -003 OTHER! 001 ATD PUSS I /~Z>  SHCHMBAXOY.) Igor' Falrovicb; OYJILDPXOV, Ye.D.~, red. [ForeBt re-nourcej3 of 7akutila &,)d their utilization) lesnya resursy lAkutil I ikb isj)oll2ovarAa. lAk-utnk Mmtskoa knizbnoe i2d-vo, 1962. 3.4 P. WIHA 17%51  UBe of the dyni?~ic -in Etwl'yim' the circulati-m o! wiAt.r!- 1r; 11 L,~ke Ladoga. Okeonoloplia I no.6:IC2.5-3033 '(I. ij~ I '.-,: I 1. Laboratoriya o2erovedanlya otdcleniya ge-jloCa-Ceoj!,raficbc-skikY, naulc AN SSSq. (Ladopa, LAe--ilydrology)  OKHLOF.KO-IA, A.N. Wind-generated circulation of waterB in bajs of the rarthwRatern part of Lake Ladoga. Trudy Lab. ozero7ed. 12:1-1.1-127 '61. (MIRA 15:3) (Ladoga, Lake-Hydroloa) 4  . OKHLOPXOVA, T.I. Nev lacquer and paint materials manufactured by the Zagorsk Paint Plant Of the )bBC(YW ROgiVn BCOnCMiC COUnCil. lakokraB.- mat.i ikh prim. no.5iSl 162. (NIRA 16:1) (ZagorBk-Paint industry)  BRAVICHEN, Y.A. %, 'kj XORSAXOV, V.s., tek)m. nauk , dots.) kand. takhn. naul .# prof.y retsenzent; P~W4~DL.A.B., inzh., red.; S&OICRENKO, V.A.y red. izd--7s; LIFUIA., tekbn. red. fHydraulic and pneumatic control devices for nachine tools] Gidraylicheskie I pnevmaticheskie avtomatiziruiushchle ustrolst've, netaalorezhushchikb stankov. Moskva, Izd-vo "Mashinostroyanie.," 1964. 262 p. (MIRA 1?:4)  "-, 7 Z I I- LJ I ~ /-! -r A ;'-! /- '7" - PC'C=/QPtiCs Optical Tcchn-.il,.~Z-y Y,-4 A 13 Jour : Rj~-f V= - Flzik-li) ND 1), 1958, No 9-157 Ailthor :Inpxden, B.S., Oklanan, Gs inst :VhthermtIcs of S-~iences, Warswi, F*Iand Title :OPUZ= Cpti-2al SYStf=3 Orig PUb :Syul. Follskoy All, ctd. 3, 1954, 2, no 6, 275-2BO AbBtract :Deternination of a criter.-Ion that characterizes a system with the best image qmolity. Sy-stems are considered with a~dal symmetry, consisting of bo=Eereryas azd Isotropic nedin. For the, Et-ke of simplicity, objects are takezi, =1 tbe inv~iAiE;ation is carried out in the meridional plane. Me action of an Wtical s2?--ten Is represented, using M%ndellshtum's e:mnple, a% an integral equation that transforms the amp]-Itude in the plane of the object into an amplitude in the plane of the image, the kernel of which deSends only on tleoptical system. It is shoun that. an opLical system havl-ng n o a 'berration is not ideal from the point of view of the wave J. theory of 11E~it. Orly a system satisfying definite conditions viU reprr-duce the object with abaolute similarity. The Card 1/2 ?03~=/OyticB - Optical Te--.hn;)1v&r x-4 Ab; Jour Ref Zhu-- - Fizika, ZID 4, 1958, 110 9157 limits of the feasibility of the above conditions for aber- ratii~= of various r~rders are indicated. Card 2/2  Iomxsflj 14o70# lokl=asbj Men*] Reducing tbv amount of 2abor exponded on t'he fattening of owime. 24vkh, lil. hosp, n noJi6-8 Yor 160, ' OCFA 14:3) 2. Glavnyy inzb.sovkhoza No.6261 Vanillyevskogo rayonal Due.propetrovskoy oblaDtie (Swine-Yesding and foods)  XHARCIOIXO, V.S., In2h.; OPLIVS-H, H.Ie. [Okhmusb, M.Iv.j, inzb. Nnhanizing the procansing of corncobn for cattla feedin Yp-kh. sill. hDsp. 14 no.4:23-25 AP 163. ~~*IIFLI 16: 10)  LYUBl3NSKIY,, Yu.S3 [Liubynslkyi, IU.S.)., Anzh.,- OKSMH, M.Y e. [Oklinush, M.1E.), inzh. ---- - A feed preparation shop for each swine farm. Makh. sil'. hosp. 14 no.8:23-26 Ag 163. (MIRA 17:1)  OMMAN, O.L.j SUMAYEV, L.P. v Spectrophotometric im"Btigation of the action of scti7atzed carbon -Dn alcohols. 12v. 'rya. -acbeb. zav.; pisheb. takh. mo.6:24a-143 363. (MM 17:3) 2. VsemqyuzMy naucbno-iraieaovatel)m)dy InBtitut Termnt- no7 i opirtovoy promyablennoati, khlmiko-te)chnolDglchsm)ca3ra laborstorlya.  1UTHORS. Kheraskova, Te.P.,Okhzaykixo N.A., Provorov, Y.N. 32-7-9/49 TITLE: Method for the Determination of the Unbound Content of Sulphur in Rubber 3ubs'.4,4ne4,ft: ContainIng *ulphurio Catalymors (Metod opredelenlys avobodnoy very v xazinakb, Y sostav kotorykb vkhocVat saxosoderzhashchiye uskoTitall) PERIODICALI Zavodskaya Laborstoriya, 19r,7, Vol. 23, NT 7, PY- 798-600 (USSR) AB5TiUCT: Here the aulphito method Is recommended where the rubber samplen are heated with a sodium sulphito solution. 2ho unbou74d sulphur enters a union with sulphite and becomes ticaulphate which can be determined by a iodometrio titration. The surplus of sulphite re- mained unbound is bound with formalin. In the presence of sulphuric catalyzers this method cannot be used, as the results would be higher. As the other methoda bhown hers - among them also an American method - proved as not very efficient, a now method was suggested. As adsorbonts of the catalyzer and the waste products activated coal of the type (X"), (0U) and W-3) wag recommended. This should lead to the desired results in all cases dealt with here. There are 3 figures- ASiOCIA,TION. Saentiflt Research liaMute for Rubber Consumer Productis (Nauchno- issledovateVskly inatitut razinoyvkh izdeliy shirokogo potrovioniya) AVAILABLE: Library of Congress Card 1/1  OmyIN-OKAYI, 1. 0. Card. lied. -Scl. Dissertatlom "Concerning the SpDntnnaous Secretion of Stonack." 27/4/50 Ic%d. Med. Sci. USSR 80 'v ecneryaya MQ,5kva 4um 71  USM/Human and Animal Fhysioloa - Oic Nervoun System, Abs Jour Ref Zhur Biol., No 3j .19591 13260 Author- Razuwv, W.P. Okhn Osipova, Y.G., Mellnikova,, Koz1ov, L.A., Vakar, N.D. Inst State Scientific Researcb Institute of Labor and Union Hygiene Title Changes in the Migber Nurvous Activity of Patientz vith Silicoeis Orig Pub : Tr. Yubileyn. nauchn. sessil, posvymsbch- 30-letney deynt-sti Goo. n.-i- in-ta giglyeny tTuda i proTzabo- levaniy. L., 1957., 215-221 Abstract : An investigation of tonditioned and unconditionea vascular and static reflexes and a determination of sensitivity of v1sualy auditory) cutaneous, gustatory, and olfactory analysors im patients vith silicoBis Card 1/2 - 120 -  Cfv~~Tpy TUSSR T TEWRY -Ruman aiid Animal Physiology, Circulation -71 Ls. J01.1n. 1959. ;j. 22098 AWrHOR 10khnyRnska'YA, L.C. INS W. Tilmir" :A Few Notations on Methodology in Evaluating Plethlsmo'rnphic Data. oplo. Fu-j. lByul. pksperim. biol. i med., 1957, No. 1, supplemamt, 57--59 Ai?:-ZUC14" A difterent amplitude of oscillations can occu-r vAth different subjects at the same level of water In the reservoir of a Yosso-NovItBky plethi,-r,,mograph. This amplitude will be greatest at an external pressure equal to 'the mean vascDlar pressure. In connectJon with this, the author considers that It Is most correct to perlormt:~e examination at that external pressure at vhIcb the amplitude'of oscillations is greatest. In order to establish a relationghip between the magnitude of displacament of the water level In Card- the conduit of the plethismograph and that shown 1/2 T-52  14, The 91factory-Ituawal reArx in Ic ,a anJ D. A. t 1.11: 0", YI.I. AC.A. Sfrf. Ski , ymial. 2k],Ip. Y N. 36, W.N- III 011ACiory-bummAl rrhri U tirlinrA 3, .,i the chanp W The SO. at-fivity z1blom] first'snOt isolair-I ; I" bearl after Aimulatim with '11tyrr"A or vi vi rusernam r the b"%) is Laken Irtun as nnrmal xub)rcl. then rrr*alrd 7JItr I"halalk-n ast the wIfAttcwy irritAnts), Workers % sib Pb ow. 119 )-~mina Aow rnhmiuvd c4fact"y-buriscral 7vfiez. iv. I the bk"I ar )vity,ow 1, slinju lim. n mor cArl W.Jr" ing- M)y with the rrAvity 84 poimine an') the ?.)I be.Irl 2rof Ahow) a dMraw so ampblOt 31N) lirgurmy Ow )-.A" br.Al. In IrAd ClAk she Ora is ~n op)"sillf tnv)tmx)~ In )is poi~lntvlj usually %be WrAws is 3[rp*I)y Cooling .14 the nz~l inucuma wilb prix-Aint U.&J. tithe irborm. 0. M. Xc~oUpuil  OXWANSXATA t 1.0. . - Studies on conditioned TasoraBpiratory reflex. Yisiol. %h. SSSR '119 to. 5:61o-6i? sept-Det 195). (CIM1 23:4) 2. 16bDratory of Clinical Physiology of the Imatitate of 3abor E7giene and Occ=ational Diseases, XOBCOW.  OSIPOVA, Y.G.; OKWANS"TA, 1.0. Imcitability of the Bmall analyaoT In certain occupational diseases. Gig.i san. no.3:32-)8 Mr 154. (XLRA 7:2) 1. Is Instituta gigiyany truds I Akaaemu meaitainBikh nauk SSBR. (Occupational disbasba) profes3ionallnykh sabolevanly (ServouB system) (Smell)  r1r. DR ICHINA, I.A.; OKMANSIAU,1*0.-, GIMURG, D.I.; HUMM. TO.A.; SAMIRIKOVA,-Y-17, TTRWY-T.-R-Ii. Role of the blpher sections of ibe central nervoua system In the aaveiopmt ana courBe of the patbo2ogical procass in some Intoxi- cations. Truay ANI SSSr 31:9-27 134. Om" 70.10) (Servous system) kluftstrial, toxicology)  OMYANSKATA. 1.G. Olfactometry In mercury and 2eaa intoxIcations. Trudy ANN SSSR 31-.28-33 154. MRA 7:10) ,iSmell) (Meroury-Toxicolo1q) (lead pointing)  -IAZUHCY, V.P., prof essor; OKHNYAIISKATA, 1.,G.; OSIPOYA, Y.G. --I---,- Some data on a study of conditioned and unconditioned reflex aetivitieB in silicoBIB. Bor'ba a ail. 2:270-279 155- Oam 9:5) It Institut gigiyany truda i profsabDIevani7 lkademii meditainakikh nauk SSSR. (LMiGB--DIJST DISMES) (CONDITIOND RESPON53)  H N'j A jI ': p V - ' Subject USSR/Medicine Card 1/1 Pub. 37 - 12/18 AID 2143 Author Okhnyanskaya~ L. D., Kand. of Med. Sci. Title rera)*s on ih_6 -work by B. B. Koyranakly and D. A. Zarzhevskaya "On the Protective Pbysiological Reactions of the Vascular SyBtem during Cooling of the OrganiBm.31 Periodical; Gig. i san.,, 3, -51-52, Mr 1955 Abstract -' 4, critical review of the above work Institution-- Institute of industrial Hygiene and-O'ccmatioral DiseazeB, Acad. of Med. SOi-3 USSR Butmitted N 11, 1954  IlAconditioned and conditioned 'vascular ruflaxeB In 9121oDsis. Zhur. Tys. mery. deist. 5 no-5:66D-664 S-D 155. (XL7U 9: 1) 1. labDratoyiya klinioheskq fislDlogit Institute Sigiyany Tr?ada I profsOoloveziy AM SSSR. (PNIM. conditioned plethymmographic roactions in willocalm.) unconditioned pletkqomcgraphlo reactions In silicosis) NSILICOSIS plWmicloff, pletbysmographic conditioned & unconditioned reactions) (MWETSMODRAFHT, in -various diseases, silicDsis, conditioned & unconditioned reactions)  -T-7A 2 1101 1117 P,- 308). SOME CONCERNING THE METUOD OF APPRAISAL 01.1 PLE- TIlYSMOGRAPHIC DATA lRussinn text) - Okhnyanskava L. G. 1311ILL. ENSPER. BIOL. I MED. 1057, supp7---(U--F--5U) to -?5; ~? The plethysmograph of Mosso-NovitnUi type -was used, Daving regard to the dependence of the magnitude o1`pi)l:-,r o.9cillations nn the relitioll br"twes-.11 tilt. external presmire - ihe 1.111)0 of tht, op1m)-allis - antl the inlernal I'lood pressill-C 11) the )Imb vtnj~"0!N. 9w author recommends that plethysmopraphy t'C cirrled out under condition:3 of a constant physiological level. 'I his reqiiirement is mel by a water level that allows the maximal oscillations for each investigated person. To make the apparatus more responsive the author recommends the use of a tube tilted to 30-40* Instead of a vertical one. The comparative appraisal of the reaction should be made not by recording the amplitude of oscillation-, on the curve but from the diBplacements of the water column in the manometer tube as shown by the callbrafing curve set for each 140hysmograph. To calculate the speed of the vascular reaction the author recommends to record the up and down movements on a curve and not on a straight line. Asymmetry of vascular reactions can be demonstrated only by switching the whole system or parts of It from the Tight arm to The left or vice versa, because it is in practice nenrly Impossible to attain an :equal tensionof the rubber In Marcy's CaPBUleB While 1,0- cording the plethyrnograTrin by means of Iwo plelliyBmorAp 4,913 . C.4 e ,.7 'V-4-5.00 /Vf  GUBAR" A.V., dotB.; XOSITSX37, G.I.; KULIXOVA, V.S.; MALITSEVA, T.A.; MUOYA, A.A.; HILYUT121A, L.A.; UUMUY, F-A.; PETROV, S.I.; CFXSN0X0VA., S.A.; AgU717AIN,, E.A., prDf,,red.; O=ANSKMA, L.G., red.; BUKOVSKAYA, N.A.3, tekhm. red. [YAnual on practical exercises for a course in normal pbyslology] Rukovodstvo k prakticheskim zaniatilam po kursu mDrna-11nod fl2lologli. [13~y) A.V.Gubarl I dr. MD- skva,. hedgiz., 1963. 303 p. (MIRA 17:3) 1. Chlen-karronpondent AN SSSH(for Aeraty1m),  XRR OT, N.A.; ALIYMIZAIZ, X.S.; -AHIROT, Te.H.; AWNSON, R.I.; ARSHNITIT, S.I.; ZAM!kUROY, R.N.; BAGDASAROY, G.A..- :BADANTAM, A.A.; DMIMI- 11", G.N.; 3)22"AROT, A.A.; XAZ , A.S.; XERCBNXSKIT, M.N.; XCb'YU- KHOV, S.I.; ]M=CBATZY, A.7.; XMOTSKIT, I.I.; LALAMOT, G.S.; 1ARIONOT, Te.P.; 1ISnNGARTIN, M,79.; IIVSHITS, 3.L.1 11SIXTAN, X.A.; 1WISOYMUT, V.I.; ITSMOVSKIT, P.S.; XCLCHUDY, G.T.; MAY- MMIX", S.Z.; ROMIMIN, Y.A.; ROSIN, I.I.; RU- =AMOW, 3.X.; SARKISOY, R.T.; MMMIK. P.I.: SOMMY. 3.1.: TJMA- TUTA, R.N.: TYCROGOYI, 1.M.; TAR-GRIGWYAN, I.I.; USACHZT, V.I.; Y.&IN, M.P.; CHICMDY, 1.G.; SWIRD. 2.1.; MMCMJK, Tu.l.; TWDIX, A.A.; ABUGOY, P.M., red.; XMINOYA, M.?., veduBhchiy red.; DAN173- 1TU, A.A*-, TRWIMOY, A.T., takhn.red, jCdl field equipment; In six Tolums] !Jeftlanm oborudo7anie; v shesti tomakh. Moskva, GoB.naucbno-tekhn.I%d--vv neft. I gorno- toplivnoi lit-ry. 701-3. [Petroleum production equipment] Obo- rudovanis I Instrd-zont dlia dobychi nefti. 1960. 183 p. (Oil fields-3qnipment and su-pplies) (XIU 13:4)  AUMR: lkxi-t Cbmmander *f the MYLP 84-58-:i-i6/_32 71mx.. Training in SL-4ae-M2gIw 7aying of the 3a-14 (Cbucbeniya odnomotor- noml poietu ma. ja-34) p=O=aj G=Vans)mya a;vjAtj3j7a3 l9A., Hr 1', N 27-28 (UM) ABSMACT.* !Me article deals vl-bb problem and methods of ta-mining in s1mg1t engine f2ight_, as Yorked out W the Babool of Advanced Pilotsipj, particularly by one of its units beaded by the a-atbor. M3e -training comrse is divided into several Btaps., 'DegImxLIng vith horizontal MS'ht. nereafter tuxw,, tAke--off , --Umb, coming in for 3.anding, c acing the second circle and -vimml and Mgbt are dealt, vith sepmrate17. Gr=od preparation PVMdeB the f2ight e3mrciaeB. Mhe :permissim for this kind of -tisining vas XiTst isBmd for the 1955 term. A Xbotograph, shoving a groV of SM? students in a c3Ass vhieh is studying aircraft lmd-Ing Sears under N. Mekbanov, senior Instructor of the school, accompazLies the text, AVAnAME: library of Congress 1. Pilots - Training 'Card 1/1  U - 7 of blood -a (Nrl-c .0 r.abilty Of 0011()i(is V. G. - "Data on t! , - 0 TrUV C-~- *e:o Ljn. KzLlinima, ':o. 1C), 19143, p. 2313-3, .z -0 -, brace3.10315.," - a ITO. 63 :;tatey, 194P) - 10 Jul.r' 53, (L-tOP;-:; u -3  LATURIN, 31kolay lvanovinh-, iOKHOSHIN, Leonid Ivanovich; 33L'Y-AM3, I*-A-P inzh., red.; ---- [Hand"book for an electrician In railrDad power engineering] Spravocbnik elektromontera energeticbeskogo khosialstys she- lesnykh dorog. Xosk-7s, Gos.tranqp.zhel-dori2r1-vo, 1959. 570 P. (mm, 1):2) (31actric railroads)  OKHOSIIIN, L.Lv inzb. Nev railroads wbere electrification has been carried out. 3119k.1 tePI-tisiP 3 zo.11:4 3 259. (?U.Ra 13:3) (RailroadB-311ectrification)  OKHOSHIN) LoL, inzb,, Electric power supply sypte= along the raiLroad track.. Zhel.dor.tranap, 1+5 iio.n.--47-5i v 16ib OMA 14221) Nilroada-Zlectrifi-cation) (Itural e2e--trification)  1ATUNIN, Nikolay I'vanovich; OKIMS11111, LeoDid, 3vanovlcbj 7ATUCIMI, J.H., lnzh., retnenzent; M1111111, Y.X., kand. tekhn,nauk., red.; USMO, L.A., tekhn. red. [HarAbook for the elactrician of railroad electric power plants] Spra-vochnik elektromontera energetichaskogo kho- 2iaistTa zhe3.ezrgkh doroR. lzd,2,, perer, Moskva3, Trans- zheldorlzdat., 1963. 446 p. (MIRA 17:2)  --, OXHOSHIRY L.I., inzh. Important yet atill unBol-ved problems In the ,electri f I cation of railroads. Zhel. dor. transp. 45 no.505-39 )V 163. OMA 16: 10) 1. Zamestitell nachallnika Glaynogo upravleniya Flektrifikatsid 1 anergeticbeskogo khozyaystva Ministerstva putay zoobshcheniya.  ALEEWZDROVJ I.B.j gormyy inzh.4-OMaU.,_,Ilaj gornyy itzb. Pro9peote for using oonveyer trains, Gor. sbur. no.6:47-49 Jo J 62. (MMA 252n) .1. Gosudaretvonnyy institut po proyoktirovaniyu razrabotki rudnykb.meatorozhdeni-y . yuzbnykh rayonoy SSSR, Khar3kov. (XurBk magnetlo anomaly-Conveying macbiwry)  DKHOTIR, A.; WSAN07, 1. 36Dnoxic problems di3cusBed by the thirteenth session of the United Nations General Assembly [with Xnglish summry Im supplement]. VneBh. torg. 29 ZO.3:22-28 159. (MIRA 12:7) (United Nations) MonomicB)  tike (Beat PrM DIM pnerNims an rowrovis. tmmocauvIes. Imo OTO-4~ evograor mar V~Cauo*4 X.9 w 6~ zi V. ThfA Wli ct4r',Cy I;vv Rtlilr*L~ll Pa6 WX 04st C-f U10 whalt ;IIAV~  2,412700 .667 6 1 A'UTHORS: Saur, V. A., 0kholin, A. S. S/170J59/002/11/004/024 BO14/BO14 TITLE: The Method of Calculating Thermoelectric Solar OvnaTalors Ira PERIODICAL: Inzbenerno-fi2icheskiy %hurnal, 1959, Vol 2,-Nr 11, pp 29-34 (UBSR) MSTRACT: By way of introduction equation (1) is given for the power of a thermoelectric Lmerator~ after which the quantities occurring therein are discussed. Next, the authors 6iscuss the M0MDgrBM shown in figure 1, which was drawn according to formula (1). This nozo- ,gTam illueAzate.9 W influence of the Peltier- and Joulian beat. For the technical calculation the authors give formula (4) for the number of thermocouples and formula (5) for their length. It is notea that the unequal energy distribution of The beat flow in the focus Bhould be taken Into acovuml. Equation (6) describes the distribution of the beat flow In the focus, equation (7) describes the energy dlBlrlbution, and equation (8) Is 'given for the pover of The individual thermocouples. SxperimentB were made with a solar generator in order to verify formula (8). The thermocouples of this generator were set up on concenArio circles. The parabolic reflec- tor had a diameter of 2 n. 'The measurements shown in fiPre 3 in- dicaAe the nonagreemeni between experimental and theoretical curTes. Cari 1/2 (10) gives Abe eorrecled forzula (B) in which The shading of the a  68759 The Xelbod of Calculating Thermoelectric Solar Generators 3/170/59/002/11/004/024 'B014/33014 sunlight by The thermoelectric ,generator in taken into consideration. 'The results obtained from thin formula are in close agreement with ,experimental results (Fig 4). After a 'brief discussion of Abe beat losses The authoreshov that the experimental power is lover than the calculated one. This Is ascril)ed to %be shading. It In :further said Abal the position of the thermoelectric generator on the opti- cal axis bee some influence. In the case of uniform distribution of -the heal flow the Influence exercised by shading is said to be not particularly strong. The pover of the generaior can be increased. In order to obtain such a uniform beat flow it As necessary to modi- fy either Abe reflector or the thermoelectric generator. Further- more, a decrease An uniformity of the beat flov eniails a weight loss of the entire unit. There are 4 figures and 5 Boyiet references. ASSOCIATION: Energaticheskiy institut AN SSSR im. 0. X. Krzhizhanovskogo, g. MoBkYa (Institute of Pover Engineering of the AS USSR imeni G, V Krzhi2baDDVBki , City of Moscow) Card 2/2  OK:~OTAIN, A. 6. Cnnd Tech !;ci -- "Study of the ti~ernoelactric prop~,,rti~'a cf ko-ompolul- B tnllur~,= nnd their effect ui.on the efficiency o1' solnr therrogenerLtors." L~iglnnerim, In.,,t in G. (RL, 1-61, 195) -220-  I p.--A -Kii 1L -1 12 U 34. Si "i .4 3-4 3  3/170/60/003/008/005/014 B019/3054 A11THORS3 Baum, T. A., Moroylkava, R. P., Okbotin, A. S. IV TITLE: An Investigation of the Work of Photoelectric Calls With Intense Light Fluxes PERIODICAL: I=Ienerno-fi2icheskiy zhurnal, 1960, Vol. 3, No- 8P pp. 47-52 TEM The authors report on an investigation of the work of silicon photoelectric calls -with intense light fluxes. It is pointed out that the efficiency of photoelectric cells with Intense light fluxes is coDaiderably reduced by the temperature increare. It ia known that this disadvantage can be avoided by cooling. Cheap silicon calls were used in the expeximentB described here. At the beginning, the authors discuas the modern theory of photoelectric calls, and deal particularly With the voltampere characteristic3- Fig. I shown the experimentally determined ,voltampare characteristics of a photoelectric call in light Irradiation vith a power of from 0.013 to 0-097 watt/cm2. Pig. 2 3howa the dependence of the output power of p-type silicon semiconductors on irradiation. It Card 1/3 T\  An Investigation of the Work of Photoolectxic 3/170J60/003/008/005/014 Cells With Intense Llgbt Fluxes 3019/3054 -was shown that the power only increased up to about 0-5 vatt/cm2 -with increasing irradiation, which is explained by the heating of the photo- *leotric cell. It was attempted to raise thin upper limit of capacity by ,cooling the photoelectric call by means of an experimental arrangement which allowed an Irradiation of the cell up to 15 watt/cM2. The diagram (]?IS- 3) shows that the current of the photoelectric cell considerstly increases with increasing irxadlatlon, particularly with low load resistances. Pig. 4 shows the photocurrent as a function of Irradiation and of load resistances) the good agreement with the results of an equation suggested by V. X. Subashiyov (Ref. 2) 13 pointed out here. Finally, the authors discuss the deviations of the optimum Toltages of the photoelectric call and of the optimum amperage from the theoretical Talues. The diagram (71g. 5) representing the capacity increase of high- and low-resistance ybotoelectTic cells as a function of increase In Irradiation shows that the inbreass in output power of high-resistance calln is not particularly high whereas this increase in power is con- siderable In the case of lov-resistance cells. There are 5 figures and 3 references: 2 SoTiot and I VS. Card 2/3  An Investigation of the Work of Photoelectric S/17 60/003/008/005/014 Calls 'With intense light 3?luxos 3'019Y3054 /I AHOCIATION: Enargeticbe3kly lmztitut im. G. 34. Krzhlzbanovakogo, W g. Mosk-ya ~Institutq of Pover Engineering imem 0. 1. Krzhizbamovakiv, Moscow SUBMITTEDs M-aTob 10, 1960 Card 3/3  j 5/194/62/000/006/1 o2'/?-1i;) 1)288/D308 AUTHORS Baranov, R.Kh. Gukhraan, G.A.0 Okhotin, A*8*p and Eydinova, G.T. TITLE: InvestiCation of thermo-electrical propertles of tellurium compounds PERIODICAL: Referativnyy zhurnal. Avtomatika i radioelektroni'Ka, no. 6, 1962, abstract 6-4-42 a (V sb. Teploenergetika, no# 3. ?)'jroy JAIT. SSSR, 19612 37-5-1) T---.'xT: Thermo-e.m.f. electrical conductivity &, thermal conduc- tivity ;~ and other characteristics of tellurium compounds are in- vestigated* To obt-ain the E(T) dependence, the temperature of cne end of,the specimen was maintained at room ternparazure T., -he other end %,ias heated to T. a T and T were measured by thermocoup- x 9 Its; analogous branches of the latter being used to measure F. dependence was taken at, constant Tx. Graphic differentiation yiel- ded a ='dE/dT. For emall T Tx a was obtained according to a Card 1/4  S/194 62/'000/006/102/252 Investigation Iof thermo-clectrical D288YD308 = E/(T F - T X). The specimen was pressed, by peans of a weight, to a water. cooler. The hot end was heated by a flat 11o heating ele- ment, current bi;ing supplied to it through the nounting bracl~ct. 'To avoid oxidation of the specimens and ensure reliable operation of the hea-ler, the whole equipment was placed in vacuum. h.,aive-1-ons to the Installation were led through the plate by threaded oeal3, evacuation was by a pump PBH-20 (IRUT-20). Pressure was vacuum mezer BWT-1 (VIT-.;l). For Hall effect neasurements a tic field of 6100 oe was appliek'.. The following compoun6s %-iere in- vestigated: PeTe, CoTe, GeTe, ?dTep AgTe, Ag Te Te, InTc, In V3 2f A92 2 Te, SnTe, Sb Te PbTe, Te3. The Te-metal alloys were prcparod 2 39 B'2 at varying Te concentrations - in 10 ~i steps, and in the zone-of Chemical compounds - in.2 % steps. The com'Position, 01, cheri-l"C'al M.- pounds was established by neasuring thermal e.m.f. ?.:easurcnent Irc- sults are given: 1) PbTe. Curves of ;t, (f, a and z vs. T aide for pure PbTe and for PbTe with 0 .05 %; 0.08 %; 0.01 % admixture Cu. /a/ increases with T and does not change much with Cu cont.~nt, a dropv wit'h increasing T. At room tempr-1 ra"W'ures (r changea little Card 2/4  S/194/62/000/006/102/232 lnves-tig,~tion of ther=c-electrical D268/D308 with Cu content and is about 900 ohm-1 cm-1. With increasing ccncen- tration of the admixture the drop of d(T) slows do=. ?,(T) curveo have a minimum in the cases 1, 2, 3 mid n mnxinum in case 4. I'bT-e + + 0.08 Cu is best for therno-olements, in which case Z chanGes little up to 400OCt with a zraaximum z = 2-5-1o-3 1/deg. Fro'l the con- stancy of the sign of the Hall constant an! a it is concluded that. the sign of electrical conductivity (electron conduction) is con- stant. The temperature depend.'~nce of nobility ~(T) is given. Ir, pu- re FbTe at high T, p r\jT-5/2 (2-pho-Iton processes), at low T, ~ -,) T-3/2. Effective mass values, derived from formulas for thermo-e.m. .L .1%, , for different CII conck;..Itration are correspondingly 1.5; 3; 1; 1.1o-7g at T -v 2930K, 2) Bi 2To 30 Curves of z, ce,.;L, and a vs. T are plotted for pure Bi 2T-3 with admixture of CuBr. B12Te 3 + 0. 1 C113'r has z = 1.11-10-3 1/deg. _'Effective mass was derived from formuIas for concentration and Thczwo-o.m.f. taking degeneration into acccunt. 3) A92Te diifers sharnly from other Ag - Te compounds. /a/ inclea- Bes with T, a is small and changes little with T, z increase3 wit1i u T and is 0-5-1o-3 1/deg at 150OCo Destruction of the compound takes Card 3/4  S/194,/62/'000/006/102/23? Investigation of thermo-clectrical ... D288/D308 Dlace at 150 - 2000C, )a ,,.-T-2 4~ SnTe. SnTe + 1 i, J is bei;t fo-., 1hernoelemen"C's, then z = 0.8-;0- 1/de& at 35000. ValueEi of z an,'~ a are stable uP to 3500C, those of 4 and 01- un to 5000C. 5) Sb,To 3' Curve for z has a naximun, at 10000; u 1 T-1 ; a and X increzasc",.,-,,~ c? decreases with rising T. The 5 compoiinds de3cribed are considerel ab most suitable for thermo-elements. All comDounds we're ted.against PbTe as standard. Prom the obtain;d data of z it iS concluded thi.-t the efficiency of a compound in thermo-clements ~, -Is creasaB with riving molecular weight. 1 referenceB. [Abstrac%.:~. note: Complate tranzlation.] Card 4/4  39533 S/196/62/000/015/004/008 6, to 17 0 E194/E155 AUTHORS: Alatyrtsev, G.A., Baum, V.A., Malevskiy, Yu.N., and Okhotin A S~t- TITLE: A solar thermal generator of 10 W output PERIODICAL: Referativnyy zhurnal, Elaktrotekhni]Ka i energetika, no.15, 1962, 212, abstract 15 G 131. (Teploenergetika,' no-3, IM., AN SSSR, 1961, 73-81) TDXT: information is given about a therwo-electric generator using direct solar radiation, with a concentrator area of 1.15 m2, and mirror raflvction factor K = 0.75. The positive and negative thvrmo-elements are made of Sb2Te3 and Bi2Te3, respectively. The absorption factor at their hot junctions is take*n as 0.9. The - equipment consists of a duralumin circle carrying concentric rows of fittings to hold the facets of the concentrator which reflect the direct solar rays onto the hot junctions. During the year the position of the mirror is corrected by an annual deviation screw. During the day the mirror and generator are rotated at constant velocity by a load driven clo;-.k mechanism. 15 illustrations, 8 ref,,~rences. Card 1/1 (Abstractorls note: Complete translation.]  1 29294-66 EXT(M)/ZTC(f)/RWP(t)/ETI jjp~c) PSIRDWIJD /1?1 ACC NR: AP601500 SOURCE CODE: UR/0363/66/002/005/0844/0[)4~ AUTHOR: Vukalovich, H. P.; Fedorov, V. I.; Okbotin, A. S.,, Glazov, V. H. ORG: Moscov Power Institute (Moskovskiy energeticheskiy institut); Moscow Institute of Steel and Alloys (,Moskovskiy Institut stali I splavov) TITIX: Study of the beat conductivity of antimony and bismith tallurira" in the liquid phase I, ~ SOURCE: AN SSSR. Izvestiya. Neorganicheskiye materialy, v. 2, no. 5,1966, 644-849 TOPIC TAGS: bismuth compound, antimony compound, telluride, beat conductivity, 'j J~1,41IX401 AW-a~ electric conductivity, phonon scattering ABSTRACT: A technique was developed for measuring the beat conductivity of liquid semiconductors by dete=ining the radial heat flux in a ring gap with the aid of graphite cylinders which insure reliable and reprodvcible results. Thp tempel-ature dependence of the heat conductivity of antimony and bismuth tellurides was thus measured in the liquid state up to 12000C and Its linear Increase during heating was demonstrated. The electronic component of the beat conductivity was determined in tCard 112 UDC: 546.861241 + 546.871241  1 29794-66 ACC NR: AP6015067 !melts of these compounds on the ba5is of electrical conductivity data. The mecha- ,nism of beat conductivity in liquid BI Te and Sb Te3-tyPe semiconductors was found! 3 .to be due (in aaaItion to the electronic and lattice components) to a third compo- ~nent related to liquid and phonon-liquid scattering. A correlation was noted be- ,Tween the results obtained and the data of physicochemical analysis of the binary ;liquid systems Bi-Te and Sb-Te. Orig. art. has: 6 figures. :SUB CODE: 20/1 SUBM DATE: 24AugBS/ ORIG REF: 015/ OTH FXF: 006 'Card 212  --soukeft -Mai- 119WO)o ACC NM AT7000386 AUTHOR) Xonovalovj A. P.; 0khotInj. A. S.; PDlyakov, Yu. A. ORGi none TITLEi Application of the electric simulation method for the Investigation of thermal and electric processes taking place in a thermoelectric energy converter. SOURCE: Teplo- I masBop2renos, t. 6; Metody rascbeta I modellrovaniya proteessov teplo- I 3nassoobmena (Beat and mass transfer, v. 6: Methods of calculating and modeling beat and vAss transfer processes). Minsk, Nauka I takhnikka, 1966, 473-490 TOPIC TAGS: thermoelecty4e converter, simulation, analog cvmputer , electronic simulation ABSTRACT: As is known, a rigorous solution of the equation describing the thermal field of a thermoelectric energy converter is impossible because of the nonlinear temperature dependence of the thermal conductivity and thermal emf coefficients, and of nonlinear resistivity. Instead of using the available approximate solutions, the authors show bow one can obtain the thermal field by simulating its equation with -the belp of an 2nallog computer. The proposed inethod can be easily applied in the case of the stationary thermal mode, for which case the complete procedure is presented. The investigation of the therwelementla operation in a nonstationary mde presents more complex problems* In particular, it neceBBItateB the splitting of the cont~muoua thermal system into eIrmentary discrete volumes, eacb of which in replaced by an. t Card- 11.2  CC NRi ~AT7000388 equivalent electric circuit; then the thermal properties 91 each Voluw.~ Ore Simulated in such a:way-tbat the voltages at the junction points Of the eq'uivalent electrical scheme cb'rrespond to the temperature of the center of the volumes. Just as In the case-of 'the stationary mode, a structural scheme for the mouBtationary mode is given along vith -the set of differential equations by vhIch it is described. The authors hope that the simulation method they conceived will be used in research -on"therno-1: electric iiiergy-tonvertera and in the planninj; of such devices. Drigo art. has: 14 formulas and 5 ligurea.-.IWA-511 SUB COM- 20/ 'SUBM DATM Dd3un66/ DRIG REF: D041 'OTH P.EF I -0011- L V. Card 212  OXHOTINI I.K. ~Gorlkiy, Xholcdn;rj per., d.121,kv.4) Atypical forzs of a furcticnal ductus arteriosus. Grud. khdr. 2 no.5:33-38 S-0 160. (FIRA 16:5) 1. Is kliniki gospiatlO-ipy khirurgii (sav. - prof. B.A.Koralev) Gor 'kay6kogo peditsinakogo inBtituta na base Gorodskoy klinichoskoy I bollnitBy No-5 (glavnyy vrach - 2nsluzbennyy vrach RSFSR N.L. Pyatnitskly). (DUCTUS ARTERIOSUS) (F-PART-SOUNDS)  - - OXMIN 11,-~ I ligation of a patent ductus artorlmo with simatamecur lobectXM7 -1 J.m a 34-year old woman. Xhirurgiia 36 mo.32117-3-18 Vz 360o (MIRA 13:12) (DUCTUS ANTIMMUS) (NDNCHI=IS:IS) (VJNrS-SMXR7)  XOROLEV, B.A. (Gor'kJy, nub. Zhdanovad 8-21 kv..10)30XHDTJ-wj I.X, Some problems in m=gical treatment of aortic coarctation. Grud. khi,r 5 no.1:73,-77 Ja-7163. 041U 16:71 1. :Ez kliniki gospitallmay khIr=gAl (zav.-prof. B.A.Korole-0 Gorlkovakogo imeditsinskogo instituta, (AORTA-DISEAS ) (AORTA--SUiiGEff )  DY11NIKY I.B.; OKI"XIII12 J.X. Diagnos.-Is of patent, ductus arteriosus with a reverse sh=t b.7 ,selective angiocardiograpby. VSBt. rent. i ral. 28 no.2:14-16 I&-Ap'63. (mila 16:9) 1. 1z klinUd goopitallnoy khIrurgii (ZaV. - 2ABluzhenW dD- yatell nauki prof. B.A.XorolDv) Gorlkovokogo meditBins)cogo in- stitutu I=ni S.H.Ydrova. (DUCTUS IRTERIC61B) (ADGICCARDIOGUM)  NOROLEV2 B.A.3 CKHOTIN I.X.; SMARTS, T.F.; DEMADINA, YEZBDV.A, T.N.i r,r,Tm6,-'I . . I Clinical course of the defects of the intervantricular septun and their surgical treatment under conditions of extracorporeal b1ood circulaZion, Uch, trudy GIC no.19:99-107 165. (MRA 1818) 1. Is klW- kI goapitallnoy khlriirgli Gorlkovokogo gonudantvantiogo meditainskogo InBtituta Imeni S.M.Kirova.  XCIRU-T,13 13J..; OMWAIN, 1.X.; SHVARTS T.14'.*. GOTENY.0, V.1. p y" her~rlt wr.der 1 4 ' :-,-3 Rasult3 of 205 oparatlonz parfomned on a "dj- of surface hypot~emla. Ucii. trudy G)JI no.29:125-136 '65. (14 TIRA 18, 2) 1. Iz klinikl gospital Incjy k1drurgil Gorl~ovckcgo gc~sudqrstv;;rri~-,go m-aditsin5kogo inotituta imon! S.M.Klrova.  t~,:' 0! On the c n he ar und;-ir nc-19'.142-144 2 6 1. a-z klInAM nadi +.r.i nskcigo  XCE0101, B.A., olction"', T.E. Cc,a.-cl,a.licn cf the a,)r*,a; diagnosis, surgical- lata resUltBf Uah. trudy GMI no.19'%WI-169 265, (MIRA 38:8) 1. Tz kliniki goospital2noy k*r,3ri; , ,-1 ryorlkovskcgo gosudarotvennogo 3W I m9ditsinokcgo Instituta lmn~n~ S.M.Y'Arova.  KOROUV) B.A.) OXHOTINY I.K.j BELCUS-07, 7u.V, Surgical treatzwit of patent ductuis artarloBua; result3 cf 320 operstlow. Vcb. trudy GMI no.19il75-194 365._ (MIPA 1818) 1. 1z kliniki gospitallnoy khirurg!i GorikovokcEo gocudarat-va=ogo neditBinsRo,go instituta :L-wni S,P.Kirova.  BELOUS071, O-KHOITIN, I.X. Clinical a3pacts and diagnosla of the patent ductus artaricBuB zyndrcma with a reverse ahunt. Uch. trudy GMI no.19:185-200 165. (MIRA 18: 8) 1. Iz kliniii gmpltallnoy khirurgii Gorlkovskogo gosudarstvannogo meditusinokogo instituta imeni S.M.Kirova.  KOROLEVP B.A.; OKFOTIN, I.K. Surgery of the heart at the .4th European Cardiological '--cngrerz, Uch. trudy GMI no.19,310-315 165. (MmA 2B.'all  G" 1vw7 to &MAWL f) K, PUI"Z-X" A' 0%flolim 1'efkays Prom. 1%3, No 1 2. pp so c Cfieme. 4bjfr4ctj. ^ f= 4 1044). kno.n jtU--- ",nwin- 0 0 Ing " more thAn 01- n(NatO + KtObart irry%lA1lUA- livialf A "IN INI Suits. And lb,-Miar siquirv %"YlrpW )wndbull Aral van Ivevomiml %only m4nually d glAss 44,101trr We I ClystAlfigAlkM 41141 14111M IIISIWI )l1lljl l i OX O S i i h M AI 'to's - r %y,&trus r nt on. z A i s, was vorptall AN- c inv"llgalrd. A11(% l4r. CAO 29 Ik MgO 4SA and N&,O 3 lk', had lou bigh a rate et )be I)jzs rclelfaining SO, -MD, A),[N 1 1011, CuOW,\ MSO.1% It and \a.0-3 10 ;.1he ispl-Y lim4of lzu), ths lli d h 4 l lli t l" l Zo* I was an rz i "1 %iry. rtx f4 ovab a ja R 35p pre mia. The Varking rxul;wTsW% hi- J~A-s *tit vWY SM.). 31A "Orklins tvmjwtAlvjrr VA. 4W blIbm the 1 11111.1 13111 11 J 97"10116.16ffl, ill IAVIVA14r Ifi..)Oly rD ob)"I obc mw id thi% Zia.. Im a T)Grm- AN -will 44 riLlwyl.im.4 lWo. XI... *."u 4"All X W I..), m i d th tlu l W t T) 4i ; vro ir mi w os ins inn e I mwa%urryurn rn nx ]AA111 Ina. Ilmo, Olly, tkill" I., :y1,. 0)1 -0 6 1 1 h a V II-13,6 1. I A % . ; 7"crr t an Oml %ly"IT1 0 k t h l 4 O l t k i l l - rrl l wrtna arAv a moo lw r r- iniv ~ w u-ua v a 1-Y 4-%1 dLinrnitr W0. hjnrG)&snr :N,\ ~SS)Nyp X 7. all,) ' 1 . Changinti the s-smnj%-h Sm 11'.410'M 2., 1 luminglOW 0. a. AlANX1014I.CaU 33to I t 0`40,; of 3hr alkaln tiz , I 11~) .1. Ov CGS AT so As I F I I 1 9 a v JA #p l, r4 1 IN 111 I A 1 A .4 3 D W a 9; Is 0 a It 1 , " SO a n a x a it it 09 0 0 '* * 0 * 0 0 0 *  Iwo"" ow 3 to 10 =3 M,0.1=2 11% XMIA :-MFA~ cm, =rtm,z -?#3rbl*bv" Iwo-. lwd!!rt of g% - camwob" a Md Ufto, is Wbove IND . A samody of the r*ft of cr?vftmm&~ w A-mm 02 okww ibm W be NWM%" Aw Om OwbW*sl batthow, The mat m of glaw" ~F;~tA CIO & U60 & X&*o 9 10 a*d 11 "d A40, & mawoo . 6. a 10,70. to dalis WOW ~ coua;;ali Mfto$ 6 amid 10% and NkO 9% rl SA I I(X)'L "d Lbeir uppo L'sk at CrTmubmwe is SDM l1w , (3900 cmulaik; Me^ 3 6. NW 10% &W XS-O 10" b&- - upper uma cd &bW* 1130% 04 900' they commic"I p uhbk. and at 1000. V II.MM wkh 11 17V ., :: .I upper UMII 01 cryftakatWim b below w = @A low,. 71M glass" M. tboy WV d. lvr~ Mates tsbskg bw jbam 12, %%o vitb 3. 6. ;;a ,, bwdty mitable 1,~r ow in the w0cbm" pmducu- W botticai. The wit win invullp"d comtxinr4 12.13, &ad 14% KsqO. -1 be AIA was "Joed to h1q, The li" ad imakwim of tbru gw- - aw" I at I W. 13. mood M Flaw 3 t 2. 4. add 6%. wkb km tb" and with In 4P. M& CREW Cos- if io live I prodwe- W battle& Ar%I mrin vrotipted CMILipw wswo 139* r4" 11-4. md ibe vwimibim viommu"t w wlbff mklom=, $JCWtW&1.?4,~A"lL.&C-OGU I to It, and UNA I to 3 ". lu VMA*mm of MW Fft0j imWored of the r*CX4v"w cu*pQmitj!rra M, AO. 1. - T. Mqo Z. Mftok d NAjO 13'?e- Tlw P" 1070'. upW neall #A o7sWIlmatkv of i glan tramperstwo d nwimum mts LuLWs w" VW. and ths WARlimura rate of cm=ioo I I nkm p" min. The TIw*dty d this gkm at 1219'. Mg'. and lei, MW 101 014' WMA IIP. =117. Tbc umpevatum of this I b� re eckimt of It"" expauskm -4 1178-10 71-b rom- te"ed an a wmktutmatk &t9W mwh)pc -M e4m. my wen wo pvv a prod-I Of %MdgL This eooposition Is h4rwy "c"I"tom" for is" vitb Autumaik Lymb machints M )I').  -9- 0 A A 'AW. VdOA S-SJ.R., (AW. Tf*k. Nast. IwL A1.4i. A qMdeaqw, _%TwSAc"#d VY%A*"j Z4.dbotm 0 N'jind, ..i C'40,slaj tlf~ abref. Parking. and other Irch. Oa,we 4a total is# 00 I-d) WAS gicid' in SIA LIRPro"d V.LAMViC% Vkmmnrtvr 00 i'les-TOwd). II', amm" Weft 3,M11hawlit *00 0014 M2. W.N tW73. AIM I N CAO 5-11, Nast) 903',- Froln tbtcxptl. data the loiluvrisiS 460 ITIM10119 weft exP"v" &A cur%,m Ica 4, log -con,pn. 0 06.9 1i-mha'fiu) &114 temp.-Compa. at L'Imst. 9. By (wi. Ittledfts CaZI + 31, o( McO u one com"tAt, the result. ooo 'I'm cmitrut4ed on a 44vmPwtnt d6grant an which coo t bv valuts 4 M40 weft plik-rd on the C-&Xk CaO ~ 31--,, 1 coo MgO on the paxis, AIA on the v_oxh. anj temp. on thr I-XiL Tw- W)~ - - ir - 7 - S. The Creffal equation P) t-o~atv system 61 + i1jr + +sfs + 0 0. 'MMUO 4 peskat. U, (rg. yw. s, .t.). 'us (99. A, Its ti'. x f4. 14). And we 011.. A. $4. 4) t-wrespo"Ing to 4 law gla-es cx;~ bv d:awu a hypetbolic sufface. Put 6 Coe i,. t, and j. as the temps. at which the 4 iltuan bl"., &fL-+-t- viwosity e s IOJ poises. the 4 equations with 4 V* o unk.nYons wrrv. ;oi~ with respect to 0 # c is &w f. The values fut dwe cues$. wm foond G'Z';;dtk* .1 so* IM, to-, wA 106'$wbea. The cakd. and e%pd. me 9 o"lated) w*n in vaW acreement. M. Iloselt too .Sww '7- %t4- ""I"V Room 4"v ii-$- ona v 9 3 9 1 _U~ so Ti-i It a YA 0 411 0 0 0 00 0 so 0 see* 111 0 & 00 0 0 a 0 go 0 04 a 00 0 0 0 0 0 0 0 * a 9 : 0 0 0 0 0 *go* 0 00 is a a 0 0 OAAALj  OXHOT M. K. Auraximate Uldculation of 'Wittellsity of Ki 71 1girew L 'Vek"I'll'iya i 'Nerami.. (I I of. 1447, No-T. I'br ltrol)'Y'rd it Lot calcubdilg the temPt-TAtUrP for 'I ron,tallt V;'~-O'ity and iti given gio"', cmil"160A il deflvm from Clilcrillicrital oil viqcotty obtained with two gTotil" of 5-ro~nllnjjent i " glim9es. lit one voup the N;liO Was COTIA;lot 051 '), the. CaO v-,,fird frmn 3 to I I-. and the MgO ind (lie AY-N varied from 0 to 8"0. lit another Crollp the Mgf') ~n~ ;Conltant 01,'r) Na,0 Y-arled front 13 to A"- C-iO froln .5. TIVe5-mnpot:QtgU-t,%' mutitiring 3"; ?.Igf) is reduced to a 4,zoimponent ~Ystrro by colls)(I(ring the CaO + .17o NIgO as one compoly"t. anti Ihe glms,l rt,mpoitlon run be intlicatrd by -.% point ;" piwe by recording the NaP mriterit along the X ali that of Ca() + .1% MgO along the Yaxl~-intj th;it of Al i IlAnng ~tbeZaxls. Tbe peruviAnge of.SiO, will thl." be I(XI - X- y - Z. Int"Aucing the fourth criordinate, T ttcrorwra-i tirre in C), the general equation 1xverneq T - A X +~ fly + CZ + LD. Thii hypriplane pa-A, thro,igh f-3or' !given point-t corresponding to 1,xtr difftrent glass com-1 pa~itionq,since the cclcfdjnatr~ of -ach x1ven point,-,ifisfy the cquation of the hytx-tpl:%ne: -j, - A X, + 11)'t' I (',,L D, TV I -f 11 Y I ) C2 1 1), 7'1 + 1) 1,3 Z o + 1), 1 1 A, + P I CZ i + 1), wlicre T,. TV,; FI. and TV atc Olt Its 'C. at Which Ille-A, Inny gla~%cl have (lie anle vigr(KIty, rhe am-1ge -mliti A -'0 -1 11, C, and P wt-re (Alt.-tined front elperinirritil) Al") --tt squ- th, mcthod of Ii., it" fm vively-3tirs of It)', 3111. ,,1'4 AO'pokm temprmitire for gla%u~ ronLainlor 17, hict) I by 7nrjn-q vl thrfirsterinatirm. content of Af90 in glas,%; (Icsq thsin cmr greatrT thRn 1~~) wj~ ObtAlned P-W(Timentally and also by calcidation, In lhr- I.-IttrT method the original RInsi wilt nDt awd, Init-la, nfluther fla~!t vv-.%,t ti-d which hund thr ~lnve r4mirn'tition N11 cont-iinvil 3'"e hlrf) birt trith a Int.11 4 CMI +. M gO t he ~.ime n' it) the 'niginal 'Mr T-1,-!)] "rA. (an't 'exmiment-A) Tvmtts Were df~r-. the lrlryr'~ in tempmittirr by yul,sfituting ]~~ Cao )or )IQ m,,. lCmind 1. IV Olin),. :knd r4o)'C. for r'1 10', JI.P.And 103 TICIPeCtiWly. F%JCftNiVP 1~%bnlmt~l data nre give" for ririmtq glas" obtained r-xM!o)rn!;1j)r and by calculation. D. Z. X.  js 0. 00909*09**9*00*0 * * 0-0 0 1 # a 41 u u w ti t4 P i 0 M 4 AOL 1-ge .00 Stool. J Keraw. Pr&w. 4. No. 11, S-) 1.90 It. v -low f HwY;%aIwbwI ILM tim for des. dw A-,Wty .06 IMM "Ouxgftme co"tnict"I In AcrMlan" widi the tq=- ,gMod by 0. (C_4 40 22"'). K-b --WAM has ;&73% MSO, temp.. nd Let Rad to dot. tempt. fix '114- Na*O. I the 6" cWtains 3% L-,Djtks 01,101, Olt 10, poks- I ?.(go. do temp. is detd. w4thout aAy correction- Karnicb *gal too #0 R too It It OXIALkV.4KAL wreavas cwtwiwwa A 0 91.j~.jjT % n&I _011dill iw4u. i-16 '19 No a r Ij #A -at It ~f 0 it 'I v is ~b 4 3 s it W M Of it N it N U tt 41 it KO I W-Is 0 40 fo 0 0 * 0 000 0 00000 006600600 0 0 * most* 0 090 0 0 0 0 0 0 0 9 0 0 0 0 04 0 41 a else* 0 . ... . ........  et 0- fi-aoridec. 0,in ef Z. so: 10 ily 53, (L,,toillLO ..Urnovl  DeftrAbafin SUIM visooft of Whom asm~ " A gt...# , f. . gi. WW of temp. fm a 1. wkb I - SWP or I - Cberb mAs M7: w sksm 6dkio that ma be und to Aino. w X.kh  .to lip In XOMMIMM OhTU 51, CA, 44,44W- 44.110474~ A(lempts lodm- On vUcooitv ti) ff-R the roll -d AQw W Alans"t undo action of its own Vt. Aid not pro1we)X0. results, becouve, under Ow action el wdwe lrnakm. lberv WMA ICUM W~orteniagof the Atamal. This drowtack was rhminsiew),bip making Iblo Mt,*hb spban *1 The tuds. A thin quarts Mament was used to reccurd eloosslion. Cakn. vras from -9 - PUSASAI'vbm I Is )cjlslh Vt MpW). mess in CM., 3 Is ares of Cro" Amtkin of SPWUU" In jq. rm.. 'Al b aft"tion of ;CL-1M&:F dMO Is. P 34 load it" Vt. 4 VI vi shm quart ,fikennj). and, Is gravity. B. I X.  A Wasid 1w tM tmPmtw* tOw" ,j WWAW &nw. M. %'. Okbods. V-"Wy A .Nm4 S-5-S.X. TI. PnL*ri C. A. Z0, SWO OW xkdaw aw. Ekspa. i reww. Fos. 6. 251 (19U)) SM diKumod. aibd,tt* coks. of tbtk coftu- I. demommsted tat a Ova r-rwAl so"4kw b&Stf Ivisdow) gum, '71W d"$MWM eakd, Irm thw abow"wt wbx w on ra io linabol's kvwuW jup t. 1S%). and with K=s 9foolke i"IrAr"JA. d6,r,pwwim an obwrved. movaclaR IOUD'. )Aucb man Wbh"GrY + (6/r) X'l" a Omp- in ca" T)w 'm hvm III, Tmwxt=NA$ - Odym. .1 am -km tbm 1% ja )4b" temps. V +uk.)  ZL 4 db-*-&Wm. X V. okbotia. subb f C.A. X ladicsto t6t, Jar t tma.,q, iM temp., a huKtion at NOO corAeot, Is by J - a +,k (I ,whim.liftO iki 46-W% LmW by J - at* wben.NooO )a 2P-=, 18%btftfQ"tkjlw-J 4C-.S3~PvMt&ValN bywt. AW & 11 a wad p we can" Lbe Values of w Aw"t A) Aln"bWalcomnowtrucl ke The J - Icke v cwvv Is deoffftw. Data an V ci Sk of The lanwy system N&Aor-PbSK4-sios bavinA 466um osW*-kdd r. . can" v the'lemp. as a lumilm w The IU) .%~ 4 1 "by 1. when j Is conen. of cWtent NW- 4 M ww a ww 0 we conats. the Yalu" of wh" We "Oven ]or vat 100. IM WW 106 Points. D. 2. 3LUuicb -  Journal of A the mrt"i- Mlied Chendstry 21. i awdl bi Owk NJ- June 1954 (51mia j (i- ret SAO" addition of Indtwtrial 1r the UIA ve Y. Increased to C,,,,,, %01 13.5, 00, t 8,4 the surface on 14 3, try drawl"PlainI the ad at 7 nN.-I claw thest"Utage of a by 3_617~ #Mal dJU7,V"6.',,'Al 0 in tg~ "G A,  OKHOTIN, 3AMBEM-M&MIKOVA, I.G. Surfaco tenBion of glasis In a highly viscouB condition. Staklo I Ieran. 9, No.4, 12-14 '52. (111-1h 5:5) (CA 47 no.18:9582 15))  ONEOTIS, M.Y.; BAZHUUK-H~LIKUTA, LOP N .0"M AMMANW-* Iffect of alumina on surface tenBiDn of glass in hi.gbly TiscDus condition. Steklo I Zeros, 9, 3o.6, 3-4 152. WIRA 5:7) (CA 47 no.IB-.9582 153)  OKEUTIS, M,Y.- TSOT, R.I. 3 3-1~~117~~Zll 7istoBity of sodium-calcium-alumim, -Bilicats glaBses within tho interval Of 10'--3to 10" pDlsep. Staklo I XBram. 9, ND-8, 3-6 152. (Y-L-RA 5!8) ~(CA 47 no.18:9381 '53)  Sur.face Tension Orl ur! I --urfnco D~7~ondenca of 26.) No. 12, 11)521- ''ay 1953. Unclassified- 'in Accessions, Library of Congress, 9. )Aontbl List of RussD  -,3wpVTjVTT sill j2q4l  pv  to 6 ~4-'UIT t?-' IAM PI wl~-L h- 5vt,, Ow luditorr ol tht %wfiA -, Op(l, IA Ow W,41LI rj 0.. hr, ~.l 14, Vt. wt."! f tio- pttw c0 swf.r~ a rl~ Ing 11-1 ~lr k ~11 Sl Nyma, k I  . RI fVYI-64hi --T7tt9IftV d" VMDW~= b ahmm ih*fOs ot TV-MAACIt, RIA lfiftnfift Of MnVttenj ' - h I l f 1 t, 14734 -T e ns m o 40ovt" N mo -i_4~ drppvd.'4tv a the rntc bi uy5m. d PTItste 4140" - ~~ 0 rf [On low 0 c 5 Jqr te j)eA fn'flp Iq givrn fil)!!! %Ii v) Ital y rA41-  r-'Wr At -'r. in---t A i'" up to -.- A. UA .4- ~tt'nv ftafurv ci the t- mu- IV9&Sk~ -.we 04 ---------------  Chemistry Analysis methods 1/1 Pub -104 3/12 Sc., Professor Authoro s 0-Motin, rIS., Dr, of Chem. Title Vi3COSAty of industrial siliante elass determined a coordlar to nomopTRYaB Periodical t Stek. i. ker. 1, 7-11, San 1954 Abstract -t a ax--Vbv+o2~-- tmp- according~ ormula + eraturo; x a. percentage volume of Nn20; y &% pereentar_e Yalume cf CaC-.&- MgO;-z = perastntage voluft - of, Al 0 1 a b c. d. % coef f i0ionte). were _-imteodu-e6d Tor-t-hed tom ~nat-ioiM a - the -viscosity of- industripl, 13ilicate glass in intervals of from lo3 - 10 13 poises. Eyamplov are Civen nhov- ing how these nomotyrams are used in determiniritz the vi!sconity of Two referenceat 1 WP. and 1 U,i-SR (1942-1952), Tables I nomograms. institutions ... I...... Submitted: ..........  Ovollwo it, V. tusR/Ili scel. I anuow. Jnd Card Autbore i Okh at in, M. V. , Dr. c-f h,-m. ,c. 1 --v [11,11 . 1(. Mae I Cry t,% 111 z a t jon o f s I I I ca tf~ gl,,, r r, In ro- t- t Qn ted bv the hp. rd, r.;,i -Periodical r Stvk. I Kt,z-., No. 61 8 - 11, Juno 1954 Astract t The process of cryntallization of silicate glass war ~TIVO[t I -0-~ the hardenLnr method. Thn I fnear rpte of crystfil` ivit ~on i - , tpO-Ed Sl-plL dt'-tumnined a', temner-tiires mnging from SO' r:n-~ M(rher. In the temperabire rnzige rippronchint,- the maximm. 11mit of crystn1lization the determinntlors were mAn evcry 250. TI)o to-~ rirrnngcment and r-,?si11tq obtained nrc doscrUcd. Table, (Ir,tw,nf,,: graphs. Institution  Oki il ~Tl AV ty UM/ Chemistry Glass manufacture CAM 1/1 Pub. 104 - 3/14 Authors sOkhotin, M. V., Dr. Chem. Sni., Prof.; and Levina, R. S. TMA iEffect of increasing the MgO content on the crystallization ~of glass. PeriOWdal- - 9Stek. i ker. 11/11, 6-9, Mov 1954 Abstriat ISevent.esn types of glass are dieconsed, which differ-In conpcoitlon. Mese are divided into six- groups -in -accordanci vith-the maximum-number 011 CrFsLallic tomms. fol- each,, Graphs are presented- which shou -the speed ----- -- -Of ',trytVallization _&r all serventeen-typea - in: accordance- with - the formala Jound that as the proportion of VV3 is invroasO in vub- stitution of 00~ the apeed of crystallization _izo reduced- Grzto.-% -table, Institution: Subedtted: .....  446 if-., c~lqz, ~i;~ 'k ~?Vctfj lit 4  V+"O /t"N -'j, USM,fChemistry - C'neMIC-3-1 tec~,,noiaa Card 1/1. Pub. 147 - 9/27 Authors Okhotin, M.V. Title The effect of visco5ity on the rate of cy7stallization of sili(mtq glass Periodical A Zhur. fiz. khim. 28/2, 254-257, Feb 1954 Abstract The, problem concerning the effect of vlocosity on the crystal Liz ation of silicate glass is analyzed. Data obtained in accordance with Fo-i!iuIAs derived by A.A. Laontyev and the author are given for types of' the compositions of which arc described in one of the tables. llree refemices (1932-1947). Tables. Inatitutiont The Glass Institute, Moscow Submitted, t April 19, 1953  1,01deci of jo4s-pot&A ntixt~re on the cryutalvttlon and --Tu- -M. w. Sh,khi 1954,No.34,3-11; )OSS'N't" Sit T~t nuitthillty of the wmja.r-14~h -ixi ubtab".I; ~1' .1 I'N product. in A40. jwlant~ ~.n ;:I:,,, t Ilt 'Lie, and k, pt for 4 In m .1 14,11,1 .r-. lix c'~ucihje~" it ~ wure ~.vm-l vx.~L-Aly. It %%.i% Ot, -i, j,H211111-L C~IdlXli-l 11, i,~40,- 6 tka .-Lmg z-q. a tht LU'i %44 rAs"j 1, v 41~ fl), A Eh- r-ill! oi il~ Al. ,--ml . ....... 1 7 57,),:~(~ ., ,, t~ ,,, - :-:,--. d  0 K 0-1 T11 N Viscosity 0 cl 'Oklintin and (Shr"i "11. Ifi. Mff~-Wff, 16-105).-Fibra extension tne.~~.ta (565-- JOurnal of Applied Chemistry $02 fz;r 23 are recorded (log q June 1954  tW Chemistry Physical chemiotr7 Caxd 1/1 Pub. 2.47 - 2/21 Authors Okhotin, M,. V. Nriodical 1 ZPur. fiz. khi-m. 29/10, 1751-1754, 0-,t 1955 Abstract I it is s)-own thjt, by using a cert,,O n oxponential forraida tihi(-h riPlation ", w-.er, Y--1g-,os4t,,r and tempernture it is ~o5sitlu U, tmpf-raLurc vi!3co3ity f- r ,ii I-L: -r Ell 1 poise,; t,:"T,e 5 -r, 161 1, Cr 'I. Institution Institute -)r ~%o~ccw Sul=itted My ~1, 1954  U-SZ-R/Che=ic,aI Technology. Chemical Pr,-di--ts and Their Application -- Silicates. Glase. Ceram�cs. BiMers, 1-9 -Ab9t fieferat Zhur - Rdm,vaJv No 2, 1957, 51N9 Authvr: T'ykachirskiy, 1. D., B,-tvfn'-Ir. 0. K., Paneleva, L. I., Levina, R. S., Ok-h-,tf.n, M. V., Rogozhln. Yu. v.,. Syritskayn, Z. IA. LlBtitutls-n: Pone Tit I e: Devel,~-Icent of Aj.kal~-Fr". an! Ix--.-Alkali Glass Conpositionf.. and of the Te:.hnclsgy of The:~r lNelting and Fabrication OT-IginBa. Publicat-?cz: Steklo --! keranika., 1956., vo 6, 1-6 Abstract: PrenentatLoz. of the results of work =v the develolment. of boron-free, alkali-free or Ic-4-alkali glasses, suitable for nechanized rzaiufacture of naBs prc-djct�on articles. Sele--tion of the ccmToDItions was based .%m a ffo%u ~~=p~,,nent system BiO2-AI203-Cao-~%O, and research dealt prinar-;ay with the region of ternary eutectic, of HP 1,2220, hnving the ccnpoaiticn, (in % by weight): S'02 61.9, A1203 18-5, Cao .10.2 and MgO 9.4. To facilitate vnIting ndditiono of MF2, D203, NB20i Cayd 1,12  OXHOTIN.' M.7. DoparAonc4 of the Y144001ty of x IcAto SIA31 on Iti chorlen' corposItion In the Interval of * - 207 p4~yea. Zht=.prlkl.' khim. 29 no.8:1287-1292 Ag 156. WRL 10:10) (Viscosity) (Glass manufacture-Chemistry)  OUQTI)J.J"- , foktor khimizheBk1kb nauk, prDfessor; IZYII:A, B.S.. kandidat tekhn1theDkikh nauk. ComparinE data on the crystall1aation and Tiscosity of the mDst efficient17 compowed imduBtrial glasses used In the vert1cal draving of shoat glass. Trudy V3116takla no-36:3-19 156. (XLLI 9:11) (Glass manufacture)