0! 0 11 It 11 1 IN 11 41 11 11 11 it 00 1-- 71-7-3 - - - - & it to ii #life 1 M, 3 Tj ;S 4 00 1111411111 of 111IIA- 11#116 1--F thr I'SoVint, Of 411wil. 40 *0 It.-M, Vt. V 41 00 .00 00 Z Descrilwo the meth-1 of pr-luctitin uwl sit (h, USSR. Different factors involved and their in- 00 A j 0 0 fluence an the quality of the final product werv - 00 invG-stigated. Optimum chemical componitions and -00 00 condith-ro, of pr-luctimi Url' ifidiCA14-d. Dittll Skr,- z;O 0 I'll'UNNA Drol charted. e0 00 L A M9TALk1JFfKA% 1,1URAIL191 CLAWFICAMN .11 11, 13.c .31111 )V tFou, op* Un Igs plan Ita;KWA I 0 0 go 0!0 0 a 0 0 go 0 go 0 0 : 0 0 0;0 a 0 0 0 0 0 do 0 0 0 0 41 0 41 0 a 0 0 .00 Z0 0 moo too too a Z" to dlil.ll CIA Q.- it, 1-1-4 fw 0 " 0 1 N M 5 0 0 0 go 0 0 6 go 0 0 0 0 6 0 0 Ole 0 4 0 0 * 0 0 4 0 0 9 0 41 0 4 0 *:~  -to 0 e 0 41 1 04 o o 0 A 0 00 00.0 00 1 00 0 0 00 tat 6iWit 7tk 'Pw Pm4actles of Dim" Wkk tat like mtk of a "Awth (MA00. VU, 1'. 11140flnlkl) 411d It ks.'s-.: 0-y 14. 7741,10941Q.-LWA113 chi", Red Amy uwks. Mb a7m, and ccumdag quatitiles are uwd. serrift OS230 bmts In IM-ton. awl 100 beatst -1.81t =9.12! Flow- OwAl 14 Kinra. a. Z. XMIAM". 100 -Go loo too, 106 406 '000, i%O 060 100, %o wo 0 %o "to sa-ta.& v4fAAavv,;KAL L1114AUVE (LAISMICA11CM Off on 849 111 I'l Iwo m 11,1W169,04 3 9 7 00 U 11 IV - III; .0 ; a 0 0 0 0 0 0 0 6 0 0 0 * 0 0 a 0 0 0 0 0 g OT 0 0 0 0  T(",,',7 !I ~ I I ii. K ~ - , I . . it Dinas production for the crouns of ~Iartin furnpees" Ogneupory, No. 2, 1949  I -. ~ . - , 1 4 i . I - - - ~; n __ . , 4 - - . . . 1 5~ . , - . . a A~ w "Dinas produictir)n for the cro,,m.,3 of IL-rtin furnacr-sll 0:7niupory, No. 2, lUA9  T,OMASH, K.K. Reorganization of the Zaporozhlye refractories plant. O'g-,eupory 28 no,10-12 163. (HIRA lf-il) 1. Zaporozhskiy ogneupornyy zavod. (Zaporozhtye-Refractories industry)  fn 't !4 if of vi It is ji ~*m Is ~o; 1 4 11 1) it m 0 m Ir ~tjL--L I WL FL m U a b d I L 4 it JL Is. t 00 4, 4t Pioduction of ninaii for the afth o( opci-hesith luf- 1311CM Yl- I- *.ISI-lklNllll AND K. X I"Al't'll OfMf- 14 ILI -.-. 141 (Ij4jt'jL 64 clurr and qtL%Iity ciptit" at lite Diterithimskil Wit Arany mporks. With crystallinc and crincilling lpWillit, Air utiliml, The stability of the brick was as high its 2:441 a** t,. in lill)-itin ins] up W in leAi-tint furnarvi, A =00 wo to 019 I.: low 0 to how too 1 1 1 L A 1.1 JALtl,9tK*L Llf#XAIU*t CtAIjlf#(4?#CX clog U a A, -0 Iv; 1; Ins it gg 0 0 41 r0 0 0 0 0 0 0 0 0 0 0001 m - - 1 0 0 * 0 0 toot *  1 0 4 & C- Q-- A 1 1 4 1 1,'. ~-I.h i & 4 a Is Is Is 0 it" a 0 It, it I) M J$ 14 it it a V .-& a L it 1, V.. Y-= W-Aff-k 4z IL-Q- Ad- 440 ti t 00 A t, b~v le 06 s ee a 100, 00 A 1741. Productim of Diasis ]Nikko for * the Crownis *I Ir-Ifearth rurnaem R i P d k d 00 8 uss an.) oren o an 5 . 81 U 00 K. Tomash. OpitewpM (Refrac- . forles).-v. IC Feb. 3940. p. 7744. -00 00 E Method of production used In the too VSSP- Different factors Involved *0 j and their Influence an the quality of the final roduct O timum :00 . p p chomical tons Rod condi- onx of p 200 We A* X 00 2 1 00 waif% . x Zl~ l I L A 0,91ALLU1100CAL 1.11116A11491 CLAIMCATIGN Ais'-,M Al/ 141-3~fo -AiT U. Ts A It is I w it, It ot it a is I a its Kutt 91101 a im 5 a 4 3 0 g. 0 T.4 00 0 1,0400 go goo o0wo-0.0-00*0000-000  0 * 0 S, C a A ,'IT A 90 90A.- *OR I I 0OX 00 H 0 EN 111 1ALLUNGICAL LMNAYWRE CLAUW;CATM ~ AMI woo. 06.0v somas -d "41 dat V,U P, '0 "1; D it 0 ais a1, it Ig U a kc at ~46 i 1W a a is 'i v sm a s -a v v 0:1,03, 0*000000*00000004**Ooooa,**Oooe*oo*oo IT.: * to *-: : 00 0 0 0 0.0 0 G 0 0 0 0 0 0-0 0 0 41 * 0 0 0 0 0 %, 0 6 0 0 0 0 0.0 * 0 9 0 0 a 0 0 0 0 * I a I a L A-AL-f-A-K-L-1 U T W CC m,kv 5492* FWDUCTION OT'DIM BUCKS FCR CROM Of OPIS-HUM YMMCSS. 31doranko, Tu.P, and TowAab,.Z.X. (Ogimmpory (Refractories). Fob. 1949, vol. Us 77-U). Dwerlbes the mtbod of production us4d In the MoS.R. DIffawt featwo ionlyed md tbelr influence an ibe qualltly of the flul product war* In"atiggW, Opti~ obealael aompositlom *M conditions of production aro indicated. Data am tabulated and abarted. 00 00 -69 'so Woo ,** 0 1040 go* %0 tloo 00  lee u Ij 64 n 16 _L" - &-it - U a -.9 .1 11. t A wo see D(,w 1w We Anb cd Uw OPM-111"" K T is 000 C%lail- fin in of 1949- 11"Pe- P- 21U)' Wallis it" of r",um auj qwsbty __t" at llo j)zmjjiswjeji 1(4%1 Amy 0 wOrks. With 7-tho brirk ww " hillh roe f Itm 1.4%t- in JAU A J~ sts"I lip t,*i fienw,im. f tgoo WISAIL4f C%AIIWKAIICn too t MOO %aids') it av Get we* 8i&&81 U . I IP IF It at IN it goo a I x. *fi v rw 0 It It of 00 0 & & 9 0 a . . I -i - -,,a a 3 11, 'Ile 71100* "Oat. it ~: 1:1 24 ~.02. 00 00 to  'T RIA 66 _ Edp (j)/ m)A Ace URI AP6005955 (A) SOURCE CODEt UR/0191/66/OW/W2/0067/0068 W; Tomasht ALYMORS t I ~eminp ~V# D.j Filimonanko, L. T. ORG: nono TITIMs The componition of the polymer part of the preliminary polymer obtained in the first, 0~ e__of polymerization in-the- sYnthesiB--of #~~ct-reaista P017- styrene, SOURCE: Plasticheskiye masay, no. 2t 1966, 67-68 TOPIC TAGSi polystyrenra, polymer, polymerization,, graft copolymer, covolymeriza- tion, IR spectrum, IR absorption, turbidineter, impact strength ABSTRAGT: The composition of the polymeric part of the preliminary polymer ob- tained by -two-stage graft copolymerization of styrene and butadiene-styrene rubber is studied, At the end of the stage of preliminary polymerizationg the reacting mass contains 25-30% of polymarj excluding the starting rubber (7- 10%). The composition of,the prepolymer was determined by velective precipita- tion. An-FEK-4/1 photacclorimeter was used for turbidimetric titration. The polymer m-t was precipitated from a benzene solution with methanol. The Cardj UDCz 678.746.22-136.22-134*622   L ~07 97-66 ACC ITRt AP6005955 pigs 1# Infrared spectras a pure poly- - --styrenel b --product of-polymer part from a benzene solution of 00 - At with an acetone-methanol mixture in 10, 20 b f6 12M Orig. art* has, 4 graphs'- SUB CODEIM~07/ SLJBH DAM none/ ORIG REFi 001/ OTH PM s 001  TOYASHo N. V. TOMASHY N. V- "I~vestigatiOn Of the WlbculAr Folywrphism of Orthomethoxy Benzaldshyde." Min Highor Education Ukrainian SSR. Kharl - kov Folytechnic Inst. imehi V. I. Ionin. KharIkavy 1956. (Dissertation for the Degree of Candidate in Chemical Science) So: Knizhnaya Istopis', No. 19, 1956.  -TOMAS11, N.V,;-DJU,'IMIN, V.D.; FILIMONENIKO, L.T. Composition of the polymeric part of the forepolymer obtalned during tho first stage of polymerization in aw. s~nthes.ls of t, shockproof polystyrene. Plast. massy no.2:67-68 166. (141RA 19:2)  11547-66 EWTk'm)/EWP'j' RM ACC NRI AP6000350--- SOURCE--CODE-. UR/0286/65/0()0/021/0047/0047 AUTHORSt Shawayev, G,~ R.; 1~piz, H.-N,; Tomas~,Ar. V.; Drojiln, V. D. ORG: none TITLE: Method for obtaining unsaturated polyesterselltilass 39p No. 176063 bannounced by, Ukrainian Scientific Research Institi for Plastispe (Ulkcra kiy nauchno-isoledovateltakiy institut plasticheskikh -/ 7Y 1~-11'.) Maus) SOURCE: Byulleten' izobrotemiy i tovarnykh znakov, no. 21, 1965t 47 TOPIC TAGS: polymer, polymerization, polyester ABSTRACT.: This Author Certificate presents a method for obtaining unsaturated polyesters on the basis of diethylene &col7or ethylene glycol and moloic anhydride. To render the polyesters insensitive to the Inhibiting effect of the air during the hardening process and to increase the variety of polyesters# eDdomethylene tatra- hydrophthalliLc anhydride and cyclopentadiene are added to the reaction Fu-rO-. SUB cow's 11.1/ SUBH DIM 178op64 Lcwdl - ILAL 6-18.6741410  -47 3/07~ 6'/035/009/010/015 B106YBJ AUTHORS: Vintaykin, Ye. Z., and Tomash, Ya. TITLEs Vapor pressure of pure cobalt PERIODICALi Zhurnal fiziohookoy khimii, V- 35, no. 9, 1961, 2121 - 2122 TEXT: The authors studied the saturation vapor pressure of pure cobalt, since publication data on this subjeOt differ considerably. In Ref. 3 (An. N. Nesmeyanov i Do Dyk Man, Dokl. AN SSSR, j2j, 1064, 19591 Do Dyk Man, Avtoreferat dissertatsii (Author's abstraot of a dissertation)) an important dependence of vapor pressure in a Knudsen vessel on the surface of the effusion opening was found, thus causing in the known formula P - Po oeQloC+ S (1) (where p0 is the saturation vapor pressure; p the actual vapor pressure in the Knudsen vessel; 8 the surface of the effusion opening; q the surface of the specimen;o6 the evaporation coefficient) a great deviation of the coefficient o6 from 1. For determining the vapor pressure the authors used Knudsen's method with radiometric determination of the metal weight on the condensation disks (Ref. 4t Ye. Z. Vintaykin, Dokl. AN SSSR, Li:L, 632, 1957; Be Dyk Man, Avtoreferat dissertataii Card 1/4  - - , Iti - ~ S/076/~1"035/009/010/015 Vapor pressure of pure cobalt B106/B116 (Author's abstract of a dissertation)). Electrolytic cobalt was investi- gated, into which Co 60 was introduced by metallurgical means. The metal in the form of fine filings was entered for measuring into a Knudsen vessel made of tantalum. The radiochemical analysis of the condensation disks 6o was conducted on the basis of A-radiation-of Co . In view of the data in Ref. 3, effusion openings with the surface 0.825 - 10'.2 and 2.25 .10-2 Om2 were used to peimit a determination of the equilibrium vapor pressure and the evaporation coefficient. The cross section of the Knudsen vessel (0-5 cm 2 was assumed as surface of the specimen. The vapor pressure measurements were conducted in the temperature range of 1100 - 12500C. The results obtained are shown in the figure. Each experimental point of the figure represents the mean value of 4 - 10 measurementel the circumference of each point corresponds to the root mean square error of the mean value. As may be seen from the figure, the results for different effusion openings practically coincide. A value between 1 and 0.2 was found forn~ , which does not agree with the data in Ref- 3 (Oe - 3-jo-4). This fact, however, is Df'no great importance, as the evaporation coefficient is no fundamental Card 2/4  s/oi6;61/035/009/010/015 Vapor pressure of pure cobalt Blo6/B110 characteristic of metals but is determined by theaccommod6tion coefficient and the purity of the metal surface. The very low value of the evaporation coof f iciont of Hof - 3 is obviously Aue to a conaidorablo dogroo of oxida- tion of the sample surface. The authors determined the following equation for the saturation vapor pressure of cobalt: log pat - -(21900/T) +7-130. This result deviates from publication data. The figure also shows results of vapor pressure measurements of cobalt over an iron-cobalt alloy with 10-5 atom5/6 cobalt. On the basis of the results obtained, the thermodynamic activity coefficient has approximately the value 1, which agrees with results of thermodynamic investigations (Ref, 52 T. Satow, S. Xachi, K. Jwase, Sci. Rep. Res. In3t. Tohokou Univ., qj 502, 1956), This agreement speaks for the correctness of values obtained for the cobalt vapor pressum. There are 1 figure and 5 referencesg 3 Soviet and 2 no'n-Boviet. The refs*rence to the English-language publication reads as follows: Edwards, Johnston a. Ditmors, J. Amer. Chem. Soo., U0 4729, 1951- ASSOCIATIONt Tsentrallnyy nauchno-issledovatel'skiy institut chernoy metallurgii (Central Scientific Research Institute of Perrous Metallurgy) Card 3/4  VINTAIRKIII, Ya.Z.;- TOMASH, Ya. --------------- Vapor pressure of pure cobalt. Zhur.fiz.khim. 35 no.9:2121-2122 161. (MIRA 14:10) 1. TSentrallnyy nauchno-iiisladovatellskiy institut charnoy metallurgii. (Cobalt) (Vapor pressure)  TOlt4SHAYEVY K. Lithology of the Upper Jurassic carbonate sediments in the Kugitangtau and Ketmeni-Chapty (Turlaaen S.S.R.). Lit. i pol. iskop. no.6:54-66 N-D 165. (MIRA 18:121) 1. Institut geologii Ministorstva geologii SSSR, Ashkhabad. Submitted July 3, 1964.  TOMASHAYEV, K. goundary layers of the carbonate and salt-gypsum series of the upper Jurassic of Kugitang. Izv.AN Turk.SSR.Ser.fiz.-tekh., khim.i geol.nauk no.1:80-83 162. (kRA 16:12) 1. Institut geologii AV Turkmenskoy SSR.  20717 loo 1011,5, 12,"S/ 1141-- S AUTHOR: Tomashchik, A.K. S/120/61/000/001/060/062 E032/Ell4 TITLE: A High-Pressure Bomb for Optical Studies at Low Temperatures PERIODICAL: Pribory I tekhnika eksperimenta, 1961,No.l,pp.193-194 TEXT: A description is given of a high-pressure chamber for studying the optical and photoelectric properties of crystals at low temperatures. The pressure is produced by freezing water in a constant volume bomb. The bomb is slio%vn schematically in Fig.l. The main body 1 is made of beryllium bronze and the windows 2 from methyl methacrylate. The windows are 8 mm in diameter. The specimen is attached to the end of the piston 4 which contains a cylindrical channel through which the water is introduced. The pressure at 20 OK reaches 1750 atm (V.G.Lazarev, Ref.1). The bomb has been used to investigate the absorption spectra of CdS single crystals at 20 OK. It was found that the absorption edge at 2057.1 cm-1 shifts towards shorter wav6lengths by 170 cm-1. This is In agreement with the data reported by I. H'O'hler (Ref.4). Card 1/3  S/120/61/000/001/069/062 9032/E114 A High-Pressure Bomb for Optical Studies at Low Temperatures AcIcnowledgements are expressed to A.F. Prikhot1ko and V.L. Broude for interested advice. There are 2 figures and 5 references: 3 Soviet and 2 non-Soviet. ASSOCIATION: Institut fizikl AN USSR (Physics Institute, AS Ukr.SSR) SUBMITTED: January 8, 1960 Card 2/3  20717 S/l2o/6i/ooo/ooi/o6o/o62 A HiSh Pressure Bomb for Optical ..E032/Ell4 Fix. 1 A Legendl 1 - body 2 - window - obturator 3 4 - piston 5 - 01'stori. screw 6- working volume 7 - methyl methacr~late windows Card 3/3 34  TOMASHCHIK, A.K. [Tomabhchyk, O.K.1 Determining zhe position of absorption bands in defororA UP crystals. Ukr.fiz.zhur. 6 no.6:820-822 4-D 161 iMIRA 16-'5) 1. InStitUt f12iIjL AN UkrSSR, Kiyev. (Cadmium sulfide crystals-Spectra)  BROUDE, V.L.; TOMASHCHIK., A.K. [Tomashchyk, O.K.) Spectral study of thermally stressed crystalline films. Ukr. fiz. zhur. 9 no.108-45 Ja 164. (MIRA 170) 1. Institut fiziki AN UkrSSR, Kiyev.  -.__-TOMASHCRIX, A-.K. -- -- - - - -_ - - -_ --- - -_ High-pressure bomb for optical investigations at low temperatures. Prib. i tekh. eksp. 6 no.1:193-194 Ja_F 161. (MIRA 14:9) 1. Institut Miki AN USSR. (Low temperature research--Equipment and supplies)  F-PIK110"i"K0, A.F.; ~`OSKIN, M.S.; W~MIICHIK, it.f, Measurement of the absomtion spectra slender dellcrued naplithalena cvystals. Opt. i spektr. 16 no. 4:615-618 Ap '64. 0IIRA 1?: 5)  SOV/120-58-2-35/37 AUTHORS:Brandt, N. B. and Tomashchik, A. K. TITLE: The Use of Alcohol-Water Solutions-to Obtain Pressures at Low Temperatures(Ispollzovaniye rastvorov spirt - voda dlya polucheniya davleniy pri nizkikh temperaturakh) PERIODICAL: Pribory i Tekhnika Eksperimenta, 1958, Nr 2, pp 113_11L~ (USSR) ABSTRACT: It is possible to increase considerably the uniformity of the pressure within a "bomb" and to obtain any required pressure (not exceeding 2000 atm) by the use of water solu- tions of ethyl alcohol instead of water. Fig.la shows tho dependence of the relative increase of the v3lume of such solutions on freezing on the concentration of alcohol. Curve 1 shows the resulting change in the volume relative to the initial volume of the solution at a temperature of 200C. Curve 2 shows the change in the volume relative to the volume of the solution at the temperature of freezing. The freezing temperature of alcohol-water solutions is shown in Fig.lb. Fig.2 shows the dependence of the pressure on concentration Card 1/3  SOV/120-58-2-35/37 The Use of Alcohol-Water Solutions to Obtain Pressures at Low Temt)eratures . of alcohol at helium temperatures when the bomb is filled with solutions at 200C. The pressure was measured by the shift in the critical temperature of tin (Ref.1). Results were obtained for a bomb made from unrefined beryllium bronze and having the following dimensions:- 12 x 6 mm, length of inner cavity 50 mm. Experiments on the solid phase of the alcohol-water solutions have shown that the coefficient of internal friction rapidly decreases as the concentration of alcohol increases. Thus, for example, th8 coefficient of internal friction at a tem- perature of -35 0 decreases by a factor of several tens when the concentration of alcohol is increased from 5 to 10%. The use of water solutions of alcohol reduces the nonuniformity of pressure which occurs when specimens are compressed and gives very reproducible results. There are 2 figures, no tables and 5 Soviet references. ASSOCIATION: Fizicheskiy fakul'tet MGU` (Department of Physics of the Moscow State University) Card 2/3  SOV/120-58-2-35/37 The Use of Alcoliol-Water Solut--ons to Obtain Pressures at Low Teweratures. SUBMITTED: July 19, 10,57. 1. Pressure--Temperature factors 2. Etlianol solutions- Applications Card 3/3  ' L~'-' - - -1 W~.. -- -,- I- ACC NRt *6017656 SOURCE CODE: UR/0136/66/000/001/0075/0078 AUTHOR: Raytbarg, L. Kh; Vul'fovich, L. B.; Toma6hohik, Yo. G. ORG: none TITLE: Deformation resistance of aluminum alloys under cold pressing conditions SOURCE: Tsvetnyye metally, no. t3, 1966p 75-78 TOPIC TAGS: cold working, metal pressing, metal deformation, deformation rate, I aluminum alloy I ADI aluminum alloy, DI aluminum alloy I ABSTRACT., Tho-true Aeld strength which is affected by ~hhngee in temperature, ~ rpm degree of deforinatio4 V),)and def rmation rate (w), wail stuc d n two typical aluminum alloys, AM'~soft and Dl\fhard) under cold pressing onditions. In the AM 6' 1- alloy, the most pronounced incr~-ase in S. is observed at w = 0-5-3.0 sec-1 (see Fig. I) In the D1 alloy, the effect ofa tenfold increase in deformation rate (from 0.5 to ; sac-1) is even greater than in ADI (see Fig. 2). This is due to a greater evolution of heat during deformation, and to the resultant heating up of the speolmonp, which causes a more marked decrease of S- This phenomenon is more pronounced the higher the deformation rate. It is concEded that under cold pressing conditions, the deformation rate substantially affects the strength characteristics of aluminum alloysi Crig. art. has: 3 figures. r  ACC NRt AP6017656 Fig. 1* S. va, rate w and tem- perature t 9 OC for AM gUoys SUB CODE://,/,31 SUBM DM: nous/ MM REFI 005 .1#11 Oct see 71, T Fig. 2. Sy vs. rate w and temperature t 1, 6C for M &Uoys b.  KHOMIIK, Tanya, yunnat; KRIKUN, yunnat; TOMASHCHUK, Kolya,,yunnat How we propagate currants. ITJn. nat. no.7:32-;33 Jl 161. (MIn 14:7) (currants)  jig ell  ARNOLIDOV, INA.; GOHTA, T.T. [Honta, T.T.J; ICAT, CHITS', V.V.; HIMMO. 0.1.; MRITIN, Ta.M.; MURZIN, O.K.; SAVICH, D.M.; TOMASHCHUK T D - SHYARSKITT, A.M. (Mwanalk7i, A.M,J; red.; RATTBM, L.. red.; GOMVIEKO. L. LHorkavenko, L.], tekhn.red. (Chemical industry of the Ukraine] Xhimichna promyelovist' Ukrainy. Kyiv. Derzh.vyd-vo takhn.lit-ry URM, 1960. 128 p. (MIRA 1):11) (Ukraine--Chemical industries)  Prt-----nCe Of hVdYCidnn oM-'Af, TC-)PTi- -r-Ar--Q.   i_-_L_oob59-66 ACCESSION NR: AP5021343 UR/0120/65/000/004/0123/0126 539.1.073.2 AUTHOR: Tomashchuk, Yu. F.; Radevich, 1. A. TITLE: High voltage pulse generator with short signal delays for spark- chamber actuation 2,5- S07JRCE: Pribory i tekhnika eksperimenta, no. 4, 1965, 123-126 TOPIC TAGS: spark chamber, spark gap, pulse generator ABSTRACT: The operation of small interelectrode gap (--~l cm) spark chambers depends in an essential way on the delay in arrival of the high voltage pulse f following the instant of passage of the ionizing particle. This article presents and describes two such generators of high voltage pulses whose fronts ~.at loads of 700 pF are not greater than 30 nsec. The maximum delay from the instant of the application of the triggering signal to the instant of generation of the high voltage pulse is not longer than 40 nsec. One of the devices tiv utilizes the VIR-5 vacuum spark relay as a switch. Both use two highly sensi e blocking generators with 6V3S and 6V2P secondary emission,tubes, respectively* The second alternative incorporates an anode-cathode feedback. Lifetime tests 4 of three VIR-5 relays show that they can survive at leaat,5-10 cycles.- "The Cord  L-OOOD-66 .1,ACCESSION NR: AP5021343 authors thank S.T. Frankovskiy for help during the investigation." Orig. art., has, 'ASSOCIATION: Institut eksperimental'noy i teoreticheskoy fiziki GKAE, Moscow (;nstitute of Experimental and Theoretical Phystcs, GKAE) NCLI- 00 J SUBHITrE]):- 13Mqr64 SUB CODE., NP, EE 140 REF SOV. 004 OTHER, 002 Card 2/2  S00GE CODE:- 61-20T [6do/66~N ACC NR, AP6021994 LfRT C6-, 35/0040 AUTHOR: Radkevich, I. A. T .2~hch~ukYu~.~.; Srolyankina, T. 0.1 Sokoiovski,,/. V. V. ORO: institute of Theoretical and ,~.~er.~pentz!l Physics, "k, teoretichoskoy i ekaperimentallnoy flziki 0KAT"'T'__ SM _.Hkf~qav_~Jrwtitut TITM: 2park chambers-fpr slow-particle recording SOURCE: Pribory i tekb!Aka eksperimenta, no. 3, 1966, 35-40 TOPIC TAGS: spark chamber, nuclear particle, particle counting ABSTRACT: Frame-type and "pen-box" type spark chambers with an interelectrode gap of I am are described; each type may have thin and thick electrodes. A device for aluminum foil stretching is shown (a sketch), as well as a system for gas filling and gas purification. A 12-gap frame-type chamber had memory times of 300 and 550 nsec for clearing fields of -600 and -400 v, respectively; the efficiency corresponding to the minimum delay was 0,97. Plots of chamber efficiency vs. pulse delV for various clearing voltages are given. "In conclusion, the authors wish to thank A. 1. Levkov and S. T. Frankovskiy for their help in measurements and also Yu. 1. Oreshkin for his help in building th ham ers.11 Orig. art. hast 8 figures. (031 SUB CODE i IS / SM WE i 201,W65 / ORM REF - 006 / OTH REP: 0041 ATD PPMG: ~J- 0.3 7 Card I I UDC 1 539. 1.  BREVNCV, N.N.; Ta4ASHCHUK, YU.F. Effect of local perturbations of a magnetic field on the confinement of particles in a magnetic adiabatic trap. Atom. energ. 13 no.5:421-428 N 162. (MIRA 15:11) (Magnetic fields) (Plaama (Ionized gases))  34438 S11 8516110061006,101810"30 ~41 77 Od I"/ OSV) D299/D304 AUTHOR: Tomashchyk, O.K. TITLE: Determining the position of absorption bands in de- formed CdS crystals PERIODICAL: Ukrayins1kyy fizychnyy zhurnalp vo 6. no. 6, 1961, 820 - 821 TEXT: A method is proposed for determining the position of absorp- tion bands as a function of the degree of CdS crystals. The method is based on the relation between the absorption bands and photocur- rent variations, as the photocurrent maxima (and minima) can be clearly seen even in the case of deformed crystals, their position being independent of specimen thickness. In studies of CdS photo- conductivity it was established (in the references), that the maxi- ma of the absorption bands may coincide with the maxima or minima of the photocurrent. The proposed method does not require photome.- tering. A high-pressure container was developed for study of ab- sorption- and photoconductivity spectra at low temperatures. The Ca, r d 1 , ~ "  3/185/61/006/006/018/030 Determining the position of D299/D304 pressure, of the order of 1700 atm, was produced through freezing of waters The experimental method was described by the author in an earlier work. The absorption- and photoconductivity spectra of un- deformed- and deformed crystals are shown in two figures (at 77 and 200K respectively). From the photoconductivity spectrum it is clear- ly evident that the absorption band, which corresponds to a minimum of the photoconductivity curve, is shifted towards the shortwave side by 30 A approximately, (the curves corresponding to 770K), Whereas the fine structure of the absor 'ption band of the deformea crystal is not observable even at 200K) without photometering, the photoconductivity curves show that the absorption band which corres- ponds to a photoconductivity minimum, is shifted by approximately 36 Y_ towards short waves. The difference in the magnitude of the shift (at 77 and 200K respectively) is due to the experimental con- ditions. There are 3 figures and 6 Soviet-bloc references. ASSOCIATION: Instytut fizyky AS UkrRSR (Institute of Physics of the UkrSSR), Kyyiv Card 212  ACCESSION NR: AP4012030 S/0185/6-+/009/001/0038/0045 AUTHM: BroudG, V. L.; K TITM Spectral study of thermally stressed crystalline fi3ms SOURCE: Ukrayins1k7*y fizy*cWy zhurnal, v. 9, no. 1, 1964, 38-45 TOPIC TAGS: strain, thin films, absorption spectrum, naphthalene, naphthalene single crystal film. anthracene, phena~throne, whisker crystal ABSTRACT: The absorption spectra of thermally stressed naphthalene singlo crystal films adhering to a quartz support were studied at 200K. A pronounced chan.aa ih these spectra for thin films was correlated with a different mechanical behavior of those Illms. Itwas shown thzat naphthalene crystalls with a thllcknass of 1.5 V. contracted by 4% alonc, the b axis vs. their dime=4 on at room terz-ocra- turo, those 0 k by 0. 9 -5 thic 5p, and those 0.~ Y thick to an infinitely sr~ll oxtonts A bohartor similar to that of naphthalono crystals was ostablishad for anthraceno and phonanthrene crystals. The phenomena observed are cxpl4inod by an exceptional rigidity of very thin single-crystal films, which assume the properties of "whisker" crystals. Orig. art. has.- 3 figures. Cardl/z  ACCESSION VR; AP4032030 ASSOCIATIONs Insty*tut Fizy*ki AN URSR. M. Ky*yiv (Ins.titute of Physics, AN URSR) SUBMITED: 22Jun63 SUB CODE: AP. PH *DATF, ACQ: 14Fob64 NO REF SOV: 007 ENCL: 00 0=-. 000 Card 2/2  L 32225-66 T IJP(c) ACC NRl AP6020842 SOURCO CODEt xUj0006jWWCF/1U---/02-5T/02W' AUTHOR: Tomashegovi6h Zdenko (Doctor; Zagreb) ORG: none 13 TITLE: Reliability of photogrammotrically produced contour lines of wooded areas SWRCE: Geodetski list, no. 10-12, 1965, 259-264 TOPIC TAGS: photogrannotry, error, aerial survey, topography, aerial photography ABSTRACT: On -the basis of rosults of Yugoslav and foreign researchers, the author 1) discusses the general reliability of photograrmtrically produced contour lines of wooded areas; 2) studies various causes and nagnitudes of errors; and 3) recomwnds several measures for the improvemont of aerial photoUap~j4and plotting of contour levels of modod areas* Orig. art& has; 1 formula,and 1 tables LJ-PRgS SUB CODEt 08 SUIRI DATE: none L5 Card 1/1  ,N~ - A  Us. Hon-- Bi--~~ -7 YUGOSLAV'- A Farm Animn V Q Abs Jour: Ref Zhur-Biol., No 3, 1958, 12215 Author Tomashets Ivo Inst Title The Studies of the Effect of Antibiotics on Bees (Issledovaniya deystviya antibiotikov na pchel) Orig Pub: Napr. pchelarstvo, 195T, 14, No 1-2, 10-12 Abstract: Investigational experiments established that by the treatment of European foul brood with antibiotics, the infection of young larvae is prevented and they develop better. Thereafter, the healthy bee families (in the hives and small cells) were fed terramycin, streptomycin and penicillin in sugar syrup and the results were evaluated after 3-4 weeks. Treatment with terramycin (13 families, 0.25 in one 1. of syrup) produced no results. 10 families Card 1/3  YUGOSLAVIA / Farm Animals. Honey Bee Abs Jour: Ref Zhur-Biol., No 3, 1958, 12215 Abstract: were receiving 0.4 g. of streptomycin in 1.5 1. of syrup, and 4 families 0.25 g. in one 1. of syrup. The number of bees after the administration of streptomycin incrcaoed: in the group composed of families, before the experiment, the bees were oc- cu ' the average, 15-1 2 each (controls - JO~ying., on ; there were 24 thousand (control - 28 thousand) cells with offspring, before the experiment, and thereafter 115 and 90 thousand, respectively. The honey crop increased. Less effective was the action of penicillin. The intestinal microflora of the bees in the cells was sharply changed by the anti- biotics. After terramycin (0.021,~v' was fed, the nor- mal flora was absent and the fungi developed abun- dantly. After the administration of stre,)tomycin (0.02%), minute bacteria, particularly Euridyce, Card 2/3 59  YUGOSLAVIA / Farm Animals, Honey-Bees Abs'Jour: Ref Zhur-Biol., No 2, 1958, 7274 Author :-Jvo Tomashets Inst : N ven Title :Essential Principles Of the Fight Against Principal Infectious Diseases Of Bees Orig Pub: Peela, 1957, No 4, 57-61 (Serbo-Khorv.) Abstract: The Nosema disease is widespread in Yugoslavia. "Nosemak" (3 tablets to 3 liters of syrup) is used for the treatment of this disease. Methods of biological control include the elimination of infected bees (an increase in the number of cleansing flights, better collection of honey) and the breeding of a larger number of young bees (a young and efficient queen-bee, balanced supplementary feed). The fight against 11acara- Card 1/2 47  TORASHEV.,-~_-- Decisions are determined by the circumstances. Pozh.delo 7 no-5: 19-21 My 161. (MIRA 14:5) 1. Zamestitell nachallnika Upravleniye pozharnoy okhrany Ministerstva vnutrennikh del RSFSR. (Fire extinction)  < TOML-111N, A.; RTABOV, I.; LTASEMDIKO, M. Ikperimente continue; experiments in fire extinction of lumber piles. Pozh. delo 6 no. 11:20-21 N 160. (MIRA 13:12) 1. Zamestitell nachallnika Upravlenlya pozharnoy okhrary RSFSR (for Tomashev). 2. Zameatitell nanhallnika TSentrallnogo naacbno- iseledovateliskogo iastituta protivopozharnoy oborony (for I~rabov). 3. Nachallnik Upravleniya pozharnoy okhrany Arkhaugell- skogo oblisoolkoma (for Lyashedlko). (Limner yaras-Fires and fire prevention)  Bcoull, K.P.; GSWIMOV, N.S.; GOLUB3V, S.G.; DEMIDOV, P.G.; DSMIYANMO, M.P.; YOVIUSNIN, N.M.; ZERSKIY, H.L; KAIASHNIKOV, K.A.; KONCHATXV, B.I.; KOROM, A.I.; XMHIZHANOVSKIY, P.I.; KULAKOV, G.M.; PCLOSUKHIN, M.N.; ROYTKO, M.Ya.; RUKYANTS3V, V.I.; SIKUSEXIN, B.V.-, SMUROV, A.H.; TARASOT-AGAKOV, N.A.; TLX~ _A.L ~ Semen Tasillevich Xallaev; obituary. Pozh. dalo 4 no.5:29 My 158. (Kaliaev, Semen Vasillevich, 1904-1958) (MIRA 110)  TOMSHEV Jq B.I. (Oral) Establishing the rules of operation of aritbwtical radicals. Yat. v shkole no.3s6O-61 My-je 161. (MIRA 140) (Roots., Nme4ical)  TOKL.W ..Oft~ Solving irrational equations in the 8th class. Kat.v shkole no.1:49- 53 Ja-F '57. (XLRA 10:2) (Equations--Study and teaching)  TOKASHEV,-N.D_.I_;ALITUVSKIT, P.M.;ARAKELOV,A.G. Anodic protection of titanium in ffulphuric acid. Dokl. Ali SSSR 121 no. 5:885-888 Ag 158. (MIRA 11:10) 1. Inatitut fisicheskoy khimii AN SSSR. Predstavleno skademikom P.A.Robinderom. (Titnnium) (Corrosion and anticorrosiveB)  . , .1   TOMASHEV, Nikon Danilovich; CHERNOVA, Gal-ina Prokof lyevna; YEGOROV, 1. r. . red. (Passivity and the protection of metala ageinst corrosion] Passivnost' i zashcbita metallov ot korrozii. Moskva, Nauka, 1965. 207 p. (MIRA 18:8)  TOHASKZV, N.Y. Rqvolving prism. 7is.v shkole no.6:63-64 '53. (XLRA 6:10) 1. Moscow, I:Islorodno-svaroohnyy tekhnikam. (Prisal)  KEDRIN, Ye.; TOMASHLIT9 Z. I Orders for leather footgear should be based on estimates. Sov. torg. 35 no.2:5-7 F 161. - (KTRt, 14:3) (Shoe indus,ry) (Retail t~-adel I -.~  ID3,15:1EP71cif, A. - J;:l T~y.Wn,-11 0" tll,~ 't, .",)Zlzloy S. V . "right 0,,,cratij,-s of' 5-ubria--irles r'bornlik, ~jf r SOQ't 'Fle-et, n 23/24, 109, p. 73-73.  5- L-,j I-TL ~ f~- V LZVGHMO,G.I., admiral, otvetetvennyy red.; DERIN, L.A., dote., kand. geogr, nauk, inzh.-kontr-admiral, glavn3r/ rod.; MIMN, N.S., polkovnik, zaneetitell otvotstvennogo red.; ABANIKIN, P.S., admiral, red.; ALAYMOV, V.A., prof., kand. voenno-morskikh nauk, admiral, red.; ANW11ICH, V.1b., koutr admiral zapasa, red.; ACMCASOV, V.I., kand. istor. nauk, kapitan I ranga, red.; BARANOV, A.N., red.; BELLI. V.A.,'prof., kontr-admiral v otstavka, red.; BESKROVNYY, L.G., prof., doktor istor. nauk, polkovnik zapaea. red.; BOLTIN. YO.A., kand. voen. nauk, general"mayor, red.; VHRSHININ, D.A., kapitan 1 ranga, red.; VITVXR, 3I.A., prof., doktor geogr. n~a*, red.; GSLIPOND, G.M., dots., kand. voenno-morskikh nauk, kapitan 1 ranga, red., GLINKOV, Ye.G., inzh.-kontr-admiral v otstavks, red.; YKUSEYXV, I.-P., vitse-admisal, red.; ZOWLYA, F.V., admiral, red.; ISAKOV. I.S., prof., Admiral Ylota Sovetakogo Soyaza, red.: KAVRA=IT, V.V. [deceased], prof., doktor fiz.-mat. nauk, iuzh.- kontr-admiral v otstavke, red.; KUSSNIK, S.V., red.; kOZLOV, I.A., dots. kaud. voenno-morskikh nauk, kapitan 1 ra-n.-a, red.; KOUROV, A.V., vitae-admiral, red.; =YAVTSW, M.K., general leytenant tekhnicheakikh voyak, red.; LTUSHKOVSKIY. M.V., dots., kand. istor. nauk, polkovaik, red.; MAKSIMOV, S.H., dots., kand. voenno-morskikh nauk, kapitan 1 ranga, red.; OWN', S.B., prof., doktor iator. nauk, red.; CRIM, B.P., prof., doktor geogr. nauk, red.; FAVLOVICH. N.B,, prof., kontr-admiral v otstavke, red.; PAIMBLEYN, Yu.A., admiral, red.; PIT=IY, N.A., kand. voenno-mors'kikh nauk, kontr-admiml, red.; PTATONOV, S.P., gene ral-leytenant, red.; POZNYAK. V.G., dots.,' general ley-tenant, red.; SALISHCHEY, K.k., prof., doktor takhn. nauk, (Continued on next card)  0, G.I.- (continued) Card 2. red.; SIDOROV, A.L.. prof., doeor istor. nw, ., red.; SKORODUMOV, L.A., kontr--admiral, red.; SEMINSKIT, V.Ao,' prof., doktor voenn~-morakikh nauk, inzh.-Impitan 1 ranga, red.: SOLOVOUT, I.N*. dots., kand. voenno-morekikh nauk, kapitan 1 ranga, red.; STA 0. K.A., k6ntr-admiral, red.; STIPANOT, G.A. [deceased], dots., vitse- admiral, red.;,TLO irnS V., prof., doktor voenuo-morskikh KTAMLOH Ae*V otst neuk, kont- Ira v otstav e, red.; TMUTS, V.P., kand. voenno morskikh nauk, admiral. red.; CHEUSMOV, F.I., kontr-admiral, red.; SH7~=, Ye.Ye., Prof. dok-tor voenno-morskikh nauk, kontr-admiral, red.; CHUBMOV, A.I.,,tekhn. red.; VASILIUVA, Z.P., tekhn. red.; VIZIROVA, G.H., tekhn. red.; GCROMOV, V.1., tekhn. red.; GRINIKO, A.M.,.tekhn. red.; KUBLIKOVA, R.M., tekhn. red.; X&LIKO, V.I., telffin. red.; SVID11SXkYA, G'*V., takhn. red.; CEONOGOROVA, L.Poo tekhn. rod.; GURBVICH, I.V., tekhn. red.; BUKHAIT07A, tekhn. red.; NNCLAYRYA, I.No, tekhn. red.; R&DOVILISK&YA, B.O., tekhn. red.; TIKHOKIROVA, A.S., tekhn. red.; ~EWCHKIN, P*Deq tekhn, red.; L07KO* V.I., tekhn. red.; ROMA=, I.G., tekhn. red.; TAROSHNVICH, KITO.: tekhn. red. [Sea atlas] Morskoi atlas. 0tv. red. G.I. Levchenko. Glav. red, L.A. Demin. [Moskva] Izd. Glav. shtabs, Voenno-morskogo flota. Vol-3. [Military and historical. Pt.l. Pages 1-451 loanno-istori- chesk-ti. Zam3stitell otv. red. po III tomu H.S. Frumkin. Pt.l. Listy 1-45. 1958. _ [Military and historical maps, pages 4~-521 (Continued on next card)  LBVCHjkiM, G.I.---(continuad) Card 3. Voenno-istorichaskie karty, listy 46-52. 1957. (MIRA 11:10) 1. Rmesia,(1923- U.S.S.R.) Hiniateretvo obororq. 2. Nach.alinik Glavno&o upravleniya geodezii i kartografii Hinisterstva vnutrennikh dal SSSR (for Ba~.ov). 3r. Chlen-korrespondent Akademii nauk SSSR (for Kalesnik). 4. DeystvitelInyy chlen Almdemii pedagogicteskikh nauk RSM (for Orlov). (ocean-maps)  PHASE I BOOK _-'XPLOITAVION SOV/5259 Tomashevich, Dmitriy Lyudvigovich Konstruktsiya i ekonomika samoleta (Aircraft Design and Economics) Moscow, Oborongiz, 1960. 201 p. Errata slip inserted. 2,600 copies printed. Sponsoring Agency: Ministerstvo vysshego i srednego spetsiallnogo obrazovaniya RSFSR. Ed.: A. A. Goryainov, Candidate of Technical Sciences Ed. of Publishing House: S. I. Vinogradskaya , Tech. Ed.: N. A. Pukhlikova. Managing Ed. of Publishing House: A. S. Zaymovskaya, Engineer. *' PURPOSE: This book is intended for aircraft industry engineers. COVERAGE: The book contains theoretical fundamentals and formulas for evaluating aircraft from the economy point of view. Appli- cation of these formulas will make possible selection of aircraft Card-lY.9"  Aircraft Design and Economics SOV/5259 designs and parameters that minimize production and operation costs and that will safeguard, at the same time, the optimum re- quired characteristics of the aircraft. Chapters 2-9 and 22, and numerical examples are based an data on non-Soviet various- purpose aircraft. The author thanks D. P. Andrianov, I. T. Belyakov, V. V. Boytsov, Yu. M. Brodyanskiy, D. V. Golyayev, B. T. Goroshchenko, B. V. Zaslavskiy, I. B. Kukain, L. M. Kull- berg, K. A. Malkov, V. P. Sokolov, B. N. Tarasevich, Yu. D. Urlapov N N 'Fadeyev. L. S. Chernobrovkin, There are 5 refer- ences, ~ Kviet-(inclu'd'ing 1 translation) and I English. TABLE OF CONTENTS: Foreword Sec, 1. Weight and Aerodynamic Perfection of Aircraft Introduction 3 7 Car~~_  LEBEDEV, Aleksandr Alekwindrovichs doktor tekhn. ncuk, prof.; CHEIRDOBHOVE321, Lev Ser-enovich; TKACMKO, Ya.Ye., retsenzent; TOMASHEUCH, D.L doktor tekhn. nauk., retsenzent; Y ~HFETS, doktor tekhn. nauk, retsenzent; GORMYEVA, N.A., red. izd-va; ROZHIF, V.P., tekhn. red. (Dynamics of the flight of pilotless aircraftlDinanika poleta bespilotrykh letatellpykh apparatov. Pod red. A.A.Lebedeva. Moskva, Oberon iz, 1962. 548 P. (MIRA 15:12) (Aerodyrwiics~ (Guided mianilea)  S E- rtl n: n De s n c A r 3 a: r c c and Cost." tary Red -Z~,! M: e- -,:t-Cjj L Prof, 17. Ye, Zhvkovsk!7, 2-1 Anr 47 SO: llechernyayn Yorl-fr,, A~~r, 1,~47 (Pro.*ect #17-316)  00 ;A Is 16 TIM "A514 bilh 16 It .0 A L 'I U It IT is k r as 1, 4, it V IT M it p0 A a L Is I to. r I- 0 1 1 IT IF _1!_..A iv U.. I Is- -t. C."t as so -00 .00 uulc sulfur ms. Ru- 0 XIGAWS Poly- Suitabl, ('if C11111. .5 -0 00 1%1:1. 1,01yuletallic Sulfur Oro are Coviviifed nto tall pfjj"tj4)n (d StCIUII pjj~ of I part of the S bir the siction of laws c_tg, ~kh nd a sin is V e 0 w J 44 0 00 .00 jj -00 log -,00 _0 0 LO 0 A a - I L A alt.LLtjPrK&L LIURATI.Nt CL-SS1$'KAI1CM 0 if, 91... 'go - - .- . i V U 11 ~V M3 LA a a IN 11 IV It it it a of it it It ev OW I III 0 0 0 0 4 0 0 0 0 4 0 0  TOKASHEVICH G.M. inzhener; UCHASTKINA, Z.V.. kandidat takhnichaskikh ~" nagg, Fluorescence analysis of papero Bmeprom, 30 no.1:15-17 A '55# (Paper-Testing) (MLRA 8:3)  TOMASHEVICH, G.N.; ZERNOVA, A.B. Chemistry and restoration. Priroda 52 no.6:104-106 163. ~ (MDU 16:6) 1. Gosudarstvannaya tsentrallnaya khudozhestvenno-restavratsionnaya masterskaya, Moskva. (Art obJects-Conservation and restoration)  KOVAL', V.G.; TOMASHEVICH, G.S.; KOROVENKOVA, A.I.; AREFIYEVA, L.M. Correcting the norms for alcohol losses during the aging of liqueurs. Trudy Ukr.NIISP no.8:132-136 163. (MIRA 17:3)  0 0 !ffwfln ~.. 0 0 0; III! T"T 01 loll 911011914 H ly 0 to A go ! INCRUSING THR. TAK9-QFF Of SULIPATS QLAW MILL V. V. go Pollyak and L 0. - Tbasshavich. &&ULIAM L LKM. 1 19440 An investigation was made Sol at the Chagodosbabeask plAwt to determine the asua* for *0 the drop In tak*-.orf of molten &us& when a changeover was S "do from oode to sulfate, charge, (ftwosult process). iti t N 30 Th f th lf 92 15 t 79 9 on o e au o a . . e compos e wo a2 , 4 M C&SO 2.62 to 9.19 ftSO, 0.93 to 4.810 and moisture 6.32 ' i i4 3 :Ij to .3". Rsduo to were charcoal (4-30 to &, Ko 04,4 48.83~ moisture and 2.79 to a.82% ash) and brown coal (15.50 to 38.72% moisture and 20,67 to 37.77% ash). By 2 reducing the moisture In the charge prior to feedtP4 to 5 to 10, tha t&*-orf of nol,ton glass was increased from 400 to 550-570 kg./m.2 roduc- per day. It Is essential, that the ins agent be stable and of high quaUtyj the coefficient of reduction should be calculated an the basis of S03 for all L the sulfates instead of for the 902504 only. CLASSIFICATION -40 AS6.11LA ASTALLIMMAL LOIS9~140t ;W : -: -, --- :=.~- - %.-V4 .1. O.t Is, At 00 1 1 v ;- OF AN a Rig ;icrit list won' TINS'", 'MO "1" 0 1 3 9 W dFM m -00 coo V 0 see soel WO 0 too  At? AW mfike -F, G. lotmov types of dcbitmm and screens u"d in g4m driv4n& Unl(mm dmwN condlilom iind bat quithly of products WTm omalmd with double-slil demteum. Experience h" ckaly vxmn thAl the hligher (In WrqK In the Channel, the hWwr ft quialit of tm pm plafam worked, other coaditimis btlni; equal. Itwasalsolburidthatia= tion of &"I coment in tk ttm comp. (expiL unt at far A3 14-6%) has a (votirshk eftl on the wmking. (6 RV~)  W- 'Op 11 a x to r a 0 a a a 42 ts A 400 A 00 .40 SIKP tw 00 00 ~==47kb. lAdOWY 6o"= 1 0 -F Usirismace. only 00 k, an A 9COCC." Lo the t" amber to the swo-f" to a do" lo"b tow"d CIS OW on bo4tOcR tz"Jes ov.. ft., tho tank Sod j; disat beat AVPMX. the twumve Val" .000, the tsai, ad to bmted bv n by the V- see 00 jCt'j be SK r system (W bot Ordloarr ter of woo 00 thi- "V,:k'k no tho M, out,., vi. woo 2! woo %00 iii-si-i ast Oftv Its -40 -~, -At j7' v 17A -1 Ar a v ~v It AT 10 IS: IV C, IT to 4i fs 91 19 It Of It a it cc 13 n *so i0 0 F, 000000000000-MM 0 4.00 00000 0 00  A, 4 A A 64 4 4-6, 6- 11$1111U141114 a L Some ciialts off work wRh the I ISKPI- embl"dicii 6r.- is"*. M.G. Siepsuenkoand 1. (). .31 k, P=.g ,I 22-40OU9,61--caplIku Nei* t,.r r g'. 6 d. "AKP"turnam having glaw-nodting tank 41snensions in emom of 101) ;~. m.. have bcwn con. ul 9464 structed remdy. Gmupa. of a It"" pmitwi SiO3 71.23, RAh 0.5, C&O 7.43. MgO 4A7, N410 10.774. Marshall Sittig woo too to* --mame too I low "la slow w"Inv cmw dri-l- 411111111 ad eko Ho Iasi a I &A IA I s I ad a 0 Of a AIR 4 3 *a AV 10 11 U ~-7 it OK, 10 1$ 16711 4110 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 Is 0 0 0 (lie a a 0'o 0 0 0 e a 0 a 0 0 0 a 0 0 0 0 0 0 0 010 0 ::_M,06: ---------- -- - I I 'A   ail~---tl~~~qtwaA~~~",ULI-17v~l..Tmril~4,17-C~&IM*-;i Tyl I! hole of a float in the praiiUCtion of sh eet N a- Arbilewo xll~TICII ~-Ia "I MR, TwIL 315567-The imp tar -C Of L5 pri),-e.3 w discus'.].   i 7o-,., i 0, ~-~ kt Q, li -11 I~, ( -,"" t  kdg * fe ti-ati- of sheet g-1-411-5 dra" rci~ciily tiAthtittt aebt- YM, 1. D. TVICACRI'M 11 AND 1 0. ToMA-41svicu. Slckl~ i "Wrielice ullih 'edii-tnimitlff dr- ,k- and edge holder. at the L ~o~ Glasx W-k- it P"~Ltdrd- B.Z.K.  -V/CY USSR/ Engineering - Glass drawing Card 1/1 Pub. 104. - 6/9 Authors iTomashevich, 1. 0., and Tykachinskiy, I. D. Title oConstruction of a machine bed for vertical drawing of plate glass Periodical tStek. i ker. 2, 17-21, Feb 1954 Abstract tThe report. presents a generalization of-accumulated experimental data on the adaption of the boatless method for vertical drawing of plate glass. The advantages of this method are listed, as well as the difficulties which have to be ironed out before the method can be put to practical application. The introduction of boatless glass drawing (vertical drawing through a specially desigped machine bed), is considered one of the ma;n contributions to the quality improvement of window and technical glass. Plans for such machine bed arrangement are included. One USSR reference (1952). Diagrams; drawings. -Institution: Submitted:  I(Simpily- the F(I%,t--i of' Sh-t Class in F6xt6, Dr,*i-ril.) Sickin PI vrrtIkil'nr)nj 'It'd lv,.r 1. no. 5. May . r, --*. - - -,- . T.T Incrr%t,gvtl grani%. PIAQ,~,ajld  14 Xtif a 24 0 26 V n Olt 0 1 A -j I- A L-xt-m cc CQ_U _L CREASINQ THE TAKE-OFF UF gg~FATEQLASS 99M V4.L. -To"Mak and Stakal I nayA L 6AMa o. 91 pp. 1-6. - An investigation was made 194~ -at the Chagodoshchansk plant to determine the cause for the drop in take"off of molten glass when a changeover wee made from soda to sulfate charge (Fouraault process), The composition of the eulfdta was N&2S04 79.15 to 92.9# CaSO 2.62 to 9.19 M880 0 93 to 4.81, and moisture 6.32 to ~649%. Reducing age~:tsowera charcoal (1,.30 to 48.83Y, moisture and 2.79 to 8.82$ ash) and brown coal (15.N to 38.72% moisture and 20,67 to.37-77A ash). By reducing the moisture in the charge prior to feeding to 5 to 1OA9 the tak off of molten glues was increased from 400 a- 2 to 530-570 kg./z, per day, It in aseential'that tho r6duc- ing agent be otoble and of high qualityl the coefficient of reduotion ohould be oaloulated on the basis of $03 for all the sulfates inotead of for the Na2S only. DOZAS S LAARTALLUMOICAL LITIRAIURd CLAISIPICAY1011 %A101i Hit Q14V 04f i1i Is L I V CW0 1 1 %1 14 V IT it I? Ir it 194t rcst FIRIt 19091(mn Ila 40 rWW ." IN WI - , J W ~ ~ 1*~' W W W "'. ! ~ ~ ~. - - L W W V  ia wi 7. 1~ ;7, V a PDAMM Oil pefiftfolffil 1"0" rn Ith N Flo 6 lypo ; IV, N I.?', I I m6,_ WWII It WWII., III III I lily ITIP Flat.., lnr!-11.1111111 prsrl~lls I'll a WIP kiIfl!fVFrI:I. III U k1lati fmcchamliq irl whIr. I I Oil I i1jrjil'Iml ImtInill ~ ti'jj~ all i~ 11-tril I)y pli'll;Ilit lv~jl twill Or . a Ily R Aprrnxlnll lit r0frillft- lhm,, 0111h0c III, t F It 4stpul fi'll Ilintf. r-summillim it 14111ii-Ill fit lival. III-1 I' tmiU fimmvp (for tho ~J. IjI;)II firi III-IFY 44111 jp,fIWII1I1 III 11.1i, Inll. It Ij glisuili plyri orpi Iltr olih till [If 11jr. livii.1ro III nnnnV Irm, 1111i11  0 j 0 00 C 00 a 410 a so a 00 81 00J 000 000 004 00U 008 -tersficid of the tm- SKP. G. STaPANIRMCO :14D ? 0-TOKAwly1cm. .10ekto i Mace= e glas. fammilon proccewls In & tank. whik 11 1. ry stag" are tMOSIS-1i to A Shaft fam6amber in Which the chmst movv, domm an hwUntd botions toward the tjutk and le bmted by rWiNt beat fram the tank wW by a =rr portion of the funwe sam. Approltimatteakula- indicate that the SKIP s"tem h- inure economkid utiffution of btat than so ordinary tank furnace Oor the sanw output). In addhiun. this s"tem Ov" greater out- put of the furnace at nortual temperature condititmis. D,Z.K. J'LA~11. 1A SITAL&URGICAL LITERATM CLASSWICAIVY ffl:l .013 it, U 41 b u 9 AV 10 W* I 1A I I a "4 0 14 w O's 0 0 0 '010's a 0 6499 *19 0 0 0 0 0 0 0 0 0 0 0 0 0 0 to 46 40 a 0 to 11 13 w is is v W Nit abidshvilme'l au adpe , f IL_ i~ ~ k Mr ~ -00 *00 190 "0* .00 R SO =00 goo coo too coo coo see wee Lao* 00 UO 0 wee  -TONASHIIVICH, I-VO.; W=Cr.a*b~~ Construction glass without IP 154, TYKUMINSKITO I.D. of the drawing channel for vertical drawing of *host the use of a refractory boat. Stsk.i ker,11 no,2:17-21 (ML" 7si) (01"s manufacture 17  11 4 u a x a IT a I a 14 A.0 PICKISIRs A~ VIC#91112t 1.rJ4 Raidad the Outrd alwhole abooft 41 &" so Ir"Malt maaklare Wksm V*Wg a eavats batch. M. 0. L An:vk-b, and V. V. Zatisnyah. skAYS. 1. Q,_',rq A Ui Irgims.i 1%4 No. 7/8, 1-8- Qftmm. Ab- r f ,.a IM, 102(f. A A.. Omon, Spe. St. -Tbt use of sullste In PLK4 at soda in the OU for window-pant glass occaslomed many poddecdom diAlculties. The MR- Gullies vms particularly scriam ca the Fowrftuk usachine whmtbobgmkxguotsbtetswescmsidembk. Obwm-. tions mt%W that thev* dAmicks sruc emaecittl with a the appe"Unce of larp quantities of aftilles on the sur- romotthensoftenclams. nI the mak within jW mvItWg,a=a pgo"atod the beat fronj penetrating Into The numa,.wherves alluslica on the is W the cooling $one pf""ted this u t h 4 t e n surfam a t nmss front giving uls Its kft% Into the lumace woe. As won at an areuroulation of afkaft was molkeed In the mljLng region and putictilarty to the region between- burners; 3 and 4. meastst" wwa taken immundiately to MOM mi" the temp. smilarty. when " "Vturvalatim of Alkalies appeared In the neck or the channel. the windows rrrv thrown at-n. the theft was adjusted. and Other =019 t"ell to lower the tesup. Thmmorneasor" elintinated the diffixultift and prevented breakage. 6:11L A IdIALUMOCAt, LOIRM41VOR CLA110KAIJOb slow Mai Is -it- Or of a a It 1 60 4 0 1 41 0o0 ~'048 0 Sig 0 0 0 0 0 0 0 6 0 0 * a a x p a a a a a 4 .00 .04 -00 -00 .00 gee s am ow, Mv An a - r- ; 0; - 0 160 0 0 1:1111110 goo zoo Poo no 0 too use  julaing was 'am" = g aKAYA,I.O.Tfiuowjtvicm.Axall.V.ZALIZ14VAK. &44 No. '01K pp. I-&--Tbe use of au Air In place of tinda in the itils fiv., vvilidave-flanst &Liam "n'4AM"I malty It"itfurtissis dift'sillift. This change gin,-i'dir-I the revi-kics and adjustment of iniusy apass- Iion., The dillk-ult" were particul2rly scrioust on The Foust-stilt inwhine viscre tile twftkw ad sheets was M41 sid"ahle. Tlw tst"kaile Wits toantleAly atttitastatife to cither am beating ot avrTrooling of list *Wcvt, and yvt thir trittlictaturm nwistlired at the tMUA1 t4istvil Omited to tw ulte "Ortrull. (Mar"Ittions, revessles! that thirw difticul. tlt* WrIe cvttl~cctcd with the oppearancit of tairge qatintit" of atkalbi an the Sulface of tha vis.1ter gtvuu~ A tayvg %.I stiluilh, on the sufffiscv of the mitit witk a the hiching votte preirruted the beat (com pesittratt"PiU14 the nisisit, sitirms alkah% tat the astitacr ul Itte ttialist in this otalittif toot twe vrotc,,I tkiq iiui~ front givtng tip Iti hem litto the Inmate sone. (it the tho %&w the gun Is too rDid; in the isecond illsombritted, fit The plautdistrubtieJ thesituallon %it, anyawalct! Isy the fact that no tictsitruselt were used. Their pgrecive it--tivilly -Atopi, the alkali,% atilt Inevvittis limit fists v into the suiddle Channel. Tito A the traust Instwitineniv, did not -uftkv tin lituniounsing she" diftultirs. and other awthud. bait to be used. A- soort a- an in the nwit- Ing region and pairticulaily in the trilion tvtwvrn burvers:1 and 4. inewuret were taken briumliatrly to raise the tell%. petaitirr. Shnilatly. wisvit out arzistrisuiWitso of alkaliti atq"#-t in this arck or [be ch"nel. We "Iddiet viric thmvvit open, the draft was Willard. and other nwa*urm stele tAkess to faster she lemp~vature. Ttww astrasture. glindual.) the dift-ult" and girtwilted breaks  1- -0 a 1 C. a a 0 008 OA :0 8 00,3 000 004 Fri 8, 9 0 it 12 t) th a 4 v M to a I I I L a it a a x 4 a v a v a a a at t2ar"Oft the take-ad of -gdffd* meltV :K' . Cron' Jr.. as '9. Toma&ifcqrlclg. % 7 I - '.9`1-6- P=NM; .10. Ceram. Sk-'Sj, No: 1).-An investigation was Qlade the Chgpdosbehensk phot to det. the cause for the in t&k" of molten Sim wbtm a CbUVQM vral film soda to sulfate CUM (F-ult Pt-)- n. empa. of the sugatt wu NafS04 79-13 to 92.9. 0. 2.a2 to qjq. MgSO. 0.93 to 4.8t. and moisture 6.32 to 40,N%. Reducing a4pasts were chatcoal (4.10 to 48,83% wrilstum' and 2-79 to n, aA) and bro" w4l (15.X) to 3&7n molature and 47 to 37.77% Ssh) - By fed a moiStnit fis the char prior to feeding to Ift"take-aff of molten glass was hNscased frown to 10%. 5,W-570kg./sqjm.pwdAY. Itis tint that the 400 to reducing tA staw aims of blo q-Uty; the coce. of reduction, =Ikt be eased. an the basia of SOu (or all the Ulfatts instead of for the N*Xo only. W P. R. If, A 09TALLMCAL LITIfRATedt CLAWICAT" a lam IVIS1614 talc" to 0.. *at sAwneat filial 40 earv all 01 in I a of a It a I w a S a 0 2 6 1 it 1K it it K I 'a' 0 0 0-0 0 0 0 0 of 0-0 0 O's 0000 0 0 0 0 * 0 0 0 0 0 0 0 0 410 0 zoo 41$0 0041 coo 690 too Ves boo aloe  'V,'!L'-TOMASEWITSCH,, K.W., RAMMp G.S.) SCROYA, G.M. :,jGTI TiDli. "LIT-i-E CF JIUBLICATIVI; 'W Messimg des Hoehreneinga swiderstandes mit Hilfe einer I*ssleitung by PAKI, G.S., SCROKAp G.M., und TOVASEWITSCH, K.W., (Radiotechnik), Bd- 5 (1950) Nr. 3 RF-M-lu'W;: Mapzine borrowed from Library of CongreBs CamPletr cupy r.4' ptitlAcation or paper. AbstruCt of rub'A.--C*tlm or Paper. Flur-Jxer x-tierertev for --n- pa~j---r~ -U 6 A Van r! FITLE: NACBRICHM TECHMIK November 1953  - -- - - - - -F.-..-- - TORASEVICH, K. V., qAMM, G. S. and 1`30'10KA, F. It. "Measurement of the Input Resistances of Tubes -1.1ith the Help of a Line", Radio, No. 3, P 5, 1950.  PHASE I BOOK EXPLOITATION 421 Leningrad. Tsentrallnyy institut prognozov Voprosy sinopticheskoy meteorologii (Problems in Synoptical Meteorology) Moscow, Gidrometeoizdat Mookovskoye otdelniye, 1957. 129 p . (Its: Trudy, vyp. 61~ 1,300 copies printed. Ed. (title page): Uspenskiy, B.D.; Ed. (inside book): Sadovskiy, V.N.; Tech. Ed.: Zarkh, I.M. PURPOSE: The collection of articles is intended for specialists working in the field of weather forecasting. COVERAGE: The collection discusses the relationship between atmo8pheric pressure and weather forecasting. TABLE OF CONTENTS: Vetlov, I.P. Analysis of Conditions of the Development of Cyclones and Anticyclones Near the Earth's Surface The article examines a series of problems which might possibly offer some exp3anation as to the evolution of cyclones and Card 1/7  Problems in Synoptical Meteorology 421 and anticyclones; these problems are still unsolved, despite the abundance of theoretcial and empirical. data. One of these problems is the effect of thermobaric field structures on the origin of the cyclone and anticyclone, and also on the process of cooling and warming air by advection. The author analyzes the results of 110 observed cyclones and 82 anticyclones and discusses: (1) The geostrophic wind velocity along the isobaric levels of 700, 500, and 300 millibars and the horizontal temperature gradients at the 500 millibar level in the area of cyclones and anticyclones over theffeentral, cold, and warm sections; (2) the advection of vortices at 700,500,and 300 mb Isobaric levels and advective changes of temperature in the 500-1000 mb-layers over the central section of cyclones and anticyclones; (3) the changes in the turbulent air movement and their dependence on elevation in the near-surface layer of the cyclonic area; (4) the changes in the mean temperature at 500-1000, 300-500, and 200-300 mb levels in the process of development of cyclones and anticyclones; and firA.1- ly (5) the changes in baric.pressures observed during a 12-hour Interval. All the points casidered may facilitate forecasting. Card 2/7  Problems in Synoptical Meteorology 421 There are 15 tables, 3 drawings, and 8 Soviet references. Tomashevich L.M. Cyclone Regeneration and the Effects of Veruc5l Rikents on Thermobaric Field 56 The author analyzes the process and the effect of the penetration of air masses,mostly of cold air, into a cyclone area; such an injection (intrusion) represents a new source of energy capable of reviving a dying cyclone. The regeneration of a cyclone is linked with the deepening of the cyclone area; new fronts are created, the upward movement is intensified, the former direction of the cyclone movement is changed, and the precipitation is increased. Since a regenerated cyclone causes considerable shift in the prevailing weather conditions, these conditions can be predicted from some of the symptoms of the regeneration occurring. The author explains the nature of the regenerated cyclone and describes the principal changes which occur atA7OO (absolute topography at 700 millibar level). The explanation is theoretical Card 3/7  Problems in Synoptical Meteorology 421 and is based on the selected coefficients of vorticity; in this connection, reference is made to V.A. Bugayev who worked out a mathematical solucion of the problem of vorticity. Statistical data are derived from observations conducted between 1947 and 1951. Two pages of the author's own conclusions contain data on the distribution of velocities for primary and regenerated cyclones in various stages of their development and on the accompanying temperature behavior. The essential indications for the regeneration of a cyclone are given. There are 11 drawings, 5 tables., and 8 Soviet references. Leonov, N.G. Cyclone Displacements Due to the Structure of the Baric Field in the Atmosphere 82 The author examines the rule of the leading jet in predicting the possible direction of a cyclone. This rule implies that cyclones move at 700-500 millibar levels with the direction of the wind above the cyclone area. However, since information on such winds is difficult to obtain, the author discusses and evaluates the possibility of using the data on the geostrophic Card 4/7  Problems in Synoptical Meteorology 421 wind present over cyclonic areas. The author arrives at the conclusion that displacements of cyclones are affected by factors other than the winds alone. There are 29 tables, 3 figures, and no references. Shishkova, I.A. Methode of Calculating Local Accelerations The author reviews the problem of deviation of local winds from the geostrophic wind and offers an empirical rule for determining the direction of any such deviation through an analysis of local accelerations. Of particular importance in such cases is whether or not the wind -*In question deviates toward a low pressure or a high pressure area and at what velocity it moves. The mathematical solution, suggested by the author, results in 76-78 percent correct predicitions as to the direction of the wind. The author concludes that no connection exists between variations in the velocity of the wind and the direction it takes. An increase (or decrease) in wind intensity within 12 hours can occur with deviations toward either the high or low pressure areas. There are 2 figures and 3 Soviet references. ~3ard 5/7  Problems in Synoptical Meteorology 421 Glazova, O.P. Determination of Maximum Daily Air Temperature by Vertical Sounding of the Atmosphere 120 The author recapitulates the standard method of evaluting the radiation balance for the Interval of time between sunrise and the moment of maximum daily temperature, including the determination of the latter. Reference is made to the efforts of N.I. Bellskiy and Ye. Golld which were directed to this end. The American meteorologist T. Williams is also mentioned in this connection, but his technique is rejected as not applicable to conditions in the European USSR. Bellskiyls version is accepted by the author and explained in detail. Elaborating on Bellskiyls methad, the author of the article considers the following meteorological factors essential for the determination of maximum temperature: the flow of solar radiation, the dynamic turbulence, and the horizontal displacement of the air caused by the temperature gradient. The mathematical method reduces to defining the value of what is called by the author "an elementary square," a quadrangle enclosed between isobars with a 10 mb spread and isotherms 10 apart. This area Card 6/7