SCIENTIFIC ABSTRACT VASKO, M.G. - VASKOVSKA, E.

VASIYD. H.G. Protect acrnper chnins of conveyers. Bezop.truds v nrom. 2 no.4:37 Ap 158. (MIRA 11:4) 1. Uchnatkovyy ins-pektor Vostochnoy rAyonno,,/ gornotekhnichaskoy inapektaii Pachorskopo okruga GORgortekhnndzorn SSSR. (Goal-hAndling machinery)  VASIKCP O.P. Effect of prolonged u.7e of tiatxisld on F.-antot-io.-nic acld metatol.E7-- 1r. experimental tuberculosis. Vop.mod.khim. 10 nc.2:197-201 mr-AF 164. (MIRA 18:1) 1. Ukrainakiy nauchno-iEsledovateliskiy inotitut tuberkulem i grudnoy khirurgii imeni akademika F.G.Yanovskogo, KJ.yf,,,,r.  l!*,-,:f of rl-) 6 Jn ~-I: n,!a tub. nr-~.2.70-'75 165. (WiL,% j8i32) :-a i nc-v -1r wi t-,, 1v it, ~,tLi til % t :Jtw~, r~:-",Ieza ri-urlno.v khimirl.-fli. 1w,,r! dol.strif. A.~ Kiy~.,v.  VASKO. T "Signal, noise and resloution in nuclear amplifiers" by Authur Blackley Gillespie. Reviewed by T. Vasko. Jaderna energis 6 no.7: 227 JI 160,  -VASKO, T a ----------- Development of the control of the Belgian BR2 mwlear reactor. Jaderna energie 8 no.12:442-"5 162.  VASKO, Tiborl inz. A conference of the United Nations Organization on new sources of energy. Tech praca, 14 no.5:359-361 My 162. 1. Statni komise pro rozvoj a koordinaci vedy a techniky, Praha.  V,f-~;K(jp Tibor, inz. Survey of --lectroche=ical fuel --elements available todzy. -"-' cbzc-. ~-I r-0.4:187-189 Ap 162.  VA.-~KO, I'l 6or Remarks cn the r!)ot hodograph mel"hod. SlaIrproudy c)tz.-~r 25 no.4:24.f~-241 Ap 14S4.  VASKO, Tibor, inz. Rassegna International Congress on Electronics. Slabo-proudy obzor 24 no.12s734-737 D163.  1 2A., A. Ti,brjr , Tho 1964. fla3negna Conference -,r, '~- =-tr-n :~;l t, %l :-, , - -, a b :; -, r ~: . ~, -, 1. 16C ~Izor 26 nc.ItE,2-61, Ja -  VASIKO, T.P.; PMAKO, Ye.A.. spetered.; PUKS, V,K., red.; TAROV, N.M., -'relBii. red. [use of spent ain in yeast prodacts; practioes of the Kiev Yeast ractoryflopolozovanie bardianoi zolki v dr02hzhavom proizvodetve; iz opyta Xievskogo drozhzhevogo zavoda, Koskya, Pishchapromizdat, 1956. 22 pheast) (mm 11.-q)  BUBLIK, P.Ye.; MARDER, A.TS.; VASIKO, T.P.; BAKUSHINSKAYA, O.A., spetered.; VASILIYEVA, G.H., red.; CHEBYSHEVA, Te.A., tekhn.red. [Purifying feed molasms using clarifiers; practices of yeast enterprises of the Ukraine] Osvetlenie korzoovoi patoki a pri- meneniem klarifikatorov; opyt c1rozhzhavykh predpriiatii Ukrainy. Moskva, rishchepromizdat, 1957. 15 P. (MIRA 12:5) (Ukraine--Kolasses) (Yeast) (separators (Machines))  VASIKOY T.P. Cultivation of fodder yeasts of molasues waste. Spirt.prom. 27 no.2334-39 161. (MA 14:4) (Yeast)  FLEYSWIl. L.Ye.; LISIGHENOK, V.S.; VAS'KO, T.F.; i'SALOM, P.G. Piloduction of sugar and yeast from feed molasses. Sakh. ~prom. 35 no.8:11-16 Ag 161. M J.71. fi. 14:8) 1. TSentrallnyy nauchno-isslodovatel ,nkiy institut sakharnoy promyshlonnocti (for Fleyuhman, Lisich-3nol). 2. Ukrainskiy nauchno-issledovatellskiy institut spirtovoy promynlileruiosti (for Vaslko, Psalm). , (Sugar =ufacture) (Yeast) - (14olasses)  JASIKO, T.P.; ZABRODSKIY, A.0 (Zabrodslkyi, A.H.]; PSALOM, P.G. -. _"_____[Psa1om, P.H.) Improving the separation sections of the yeast shops in alcohol distilleries. Khar.prom. no.101-35 Ja-Mr 162. (MIRA 15:8) 1. Ukrainskiy nauchno-isaledovatellskiy institut spirtovoy i likero-vodochnoy promyshlennosti. (Distilleries-By-products) (Yeast)  ZkBRODSKIY, A.G,; VASIKO, T.P.; PARKHOMHUK, M.A. Use of molasses' distillery wastes for the production of feed concentrates. Izv.vys.ucheb.zav.; pishch.takh. no-3:66-70 162. (MIRA 15-.7) 1. Ukrainskiy nauchno-.issledovateliskiy institut spirtovoy i likerovodochnoy promyshleanosti,, laboratoriya spirtovogo i drozhzhevogo ,Toizvodstva. (Feed (Distilling industries--By-products)  ZABRODSKIY, A.G.; VASIKO, T.P.; PARKHOMMUK, M.A.j POGRLVNAYA, V.1% Production of yeast feeds in molasses distilleries of the U~xainian S.S.R. Trudy Ukr.ITIISP no.8:3-15 163. (14IRA 17: 3)  PARKHCMCIfUK, M.A.; ZABRODSKIY, A.G.; VASIKO, T,P. Intensification of the process of feed yeast grovL-ig. Spi-r'.. prom. 29 no.8:15-21 163. (MI RA 17:2) 1. Ukrainskiy nauchno-issledovateliskiy institut spirtovoy i likero-vodochnoy promyshlennosti.  , " ".I,. . - , . '': :-:~ '' " . *"'-.--'', .. , .~;, - . . i , -~- .; 1 r, , , --' c I * -,, -~ - -.- i. I ,,I , * , '. , r - , - I I - 11 1 - .., , -!. I ~ . , ., .1 ". ': , : ; 1: " - on r! , ! 1 , ~. .I 1 3, ~ :, , i - 1 ~ J : :- .., ~ I: -,;., -Ji. .- ! -r)o I -_.;, . I ( .!-, T,:. I " : lo)  VAS 110 1 V. I - WrMlf!lvi-olrii-councils do for us. Sov.profmoiuzy 1. Predsedatell komitata profsoyuza prokatnogo teekha. (Works council@) (Rolling (Ketalwork)) no.10:23-23 0 '56 (ma gaij  ONISHCHENKO~ A.M.; VASIKO) V.N. ; GOLOVNYAK, I F, , red.; Kli)KIIANOVSKAYA, j-- --------- - - . -~i- T.I., tekhn - (Handbook for tralning In geologicAl mnpping) Rukovodotvo k provedenliu uchobnoi prmktiki po geologicheakomu kartirova- nilu. Kiev, Izd-vo Kievskogo univ., 1962. 78 p. (MIRA 16:7) (Geology--14aps)  XHODAX, P.A.; _TASIKO. Y.Y. Recovery of monoethanolamine after the purification of coke-oven gas. lhim. prom. no. 6:511 0 160. (KRA 13:11) 1. Gorlovskiy azotno-tukovyy zavod. Olthanol) (Coke-oven gas)   VA8K(V, P. Albuirdn in modem cattle feee~ing. P. 31. (Socijalisticko 2emjodelstvo, Vol. 3, no. 10, Oct* 1956. Yugoslavia) SD: Monthly List of Fast Furopean Accessions (HAL) LC, Vol. 6) no. 7, July 1957. Uncl.  Yugoslavia/Farm Animals swine. Q-5 Abs Jour Ref Zhur Biol., No 1, 1958, 261o Author B.__ja~ S. Popev Inst Title The Effect of "Promiks-l" on the Growth of Pigs. Ori g Pub Abstract The addition of Promiks-1, a penicillin-procaine compound, in the amount of 450 gram to one ton of feed, increased and accelerated the growth of pigs. In the first experi- mental group of pigs, the average weight of the animals which had received the compound was by 2-97 kilo&Tams, or by 13.62 percent greater than the veioit of pigs in the control group. In the second group (pigs re ved from suckling), the average weidit was by 15-93% greater, and in the third group of under-developped pigs the wei&t was by 6-55% greater than that of the control group. Card 1/1  EFREMCOV, G.;-.'VASKGV, B.; H.; All , ". Separation of huzan with etarrh geI aluminiiim oxide chromutographq and ce',bulooe chrouattography. I. Technics and results of' the study of adult and fetal hemcglo- bins. Acta med. Iugosl. 17 no-3:252-262 163. 1. Katedra za stocarstvo Foljoprivredno-sumarskog fWculteta -1 v!J.- nika za decje bolesti 14edicinskog fakulteta, u Skoplju.  22333 H 0 12P 72, S/191/61/000/005/001/003 5_0 L B124/B218 AUTHOR: Vas1kov, B. S. TITLEz Creep of tubular specimens of high-pressure polyethylene at room temperature PERIODICALs Plasticheskiye massy, no- 5, 1961, 30 - 34 TEXTs The results of long-time creep tests of polyethylene tubes under tensile stress and internal pressure are presented. Results of analogous short-time tests are given for comparison. Tubular specimens made of high-pressure polyethylene 7r.4 -500 (PE-500) with a viscosity coefficient of, 1 were tested. The short-time tensile tests were made with a 1-5-ton VY lever machine operating at a constant speed of the guide clamp of 25 mm/M" In these short-time tests, the use of a special device excluded longitudi- nal deformation of the specimen. In each test of that kind, the limit of internal pressure and the increase in the tube diameter were determined at the moment of destruction. An almost steady increase of the internal pressure ( 1 atm/min) was applied. In the long-time tensile tests, the specimens were directly loaded by weights, the load remaining the same for Card  22333 S/191/61/000/005/001/003 Creep of tubular specimens ... B124/B218 the whole test time.0 Air temperature in the room was 20 0C (measured with an accuracy of + '0-5 C). Creep deformation was measured with an accuracy of 0.1 mm. The-results obtained are evaluated in the form of creep curves plotted in the coordinates:relative deformation - time. The same devices as applied for short-time tests, with the exception of additional air-control devices (Fig. 1)were used in long-time tests. By wateg circulation, the temperature in chamber 1 was kept constant at 20 C (+0.5$4 The diameters of the specimens were measured at certain time intervalg (accuracy of + 0.1 mm), and the creep curve was plotted in the same coordinates a; above. The maximum duration of tensile tests was 11 months (8,000 hr) and that of internal pressure tests about 3 months(2,000 hr). The creep curves are shown in Pig. 2 (tensile tests) and Fig. 3 (internal pressure tests). The figures on the curves indicate the stresses. For tensile tests, they refer to the cross sections and for internal pressure tests, to the longitudinal sections. Four stages are discernible in the creep of polyethylenet 1) loading, 2) unsteady creep, the rate of creep being variable and decreasing, 3) steady creep, the rate of creep being constant, and 4) accelerated creep resulting in destruction of the speci- men. In short-time tensile tests, a marked local reduction of the cross Card 2/1-0-'-(  22333 S/191/61/000/005/001/003 Creep Of tubular specimen3... B124/B218 section occurs after uniform deformation, which gradually expands over the entire length of the specimen. After that, cracks occur on the sur- face, which quickly lead to destruction. Fig. 6 shows the time t 0 (after which the creep in polyethylene ceases) as a function of stress . There exists a limiting stress under which the creep comes to a complete stand- still after a certain time. This Press, also termed static limiting resistance, is about 55 - 60 kg/cm and amounts to 58% of the temporary resistance of the same polyethylene in short-time tensile tests, and to about 67% of the limiting stress in short-time internal pressure tests. There is an almost linear' relation between the time t (from the beginning of loading until the beginning of steady creep) and Areas. Based on tensile tests for creep, the relation between the rate of steady creep v sc and stress a at 58 and 70 kg/cm 2 may be determined from the linear equation Vso - A-a - B. Fig. 9 presents a diagram of the static resistance under tensile stress,. plotted in the coordinates (11 & (f--denoting de- fOIL~4t,!UII). ine curve is constructed on the basis of data obtained in tensile tests at a = 14, 251 37, and 51 kg/CM2 (Fig. 2). For comparison, the ordinary tensile diagram is also shown in Fig. 9. The curve Di Card 3/tG- -/'  22333 S/191/61/000/005/001/003 Creep of tubular specimens..* B124/B218 represents the short-time tensile tests of polyethylene at a deformation rate of 25 mm/min, while A is the tensile curve obtained at a deformation rate of zero, i. e., the static-resistance curve of polyethylene. The curve A may be ap 3roximately calculated from the equation of a parabola 6' - 676 E 2140 E, (1 ), f or 0 ~~ 6 & 0 - 15, or f rom the equation of a hyperbola 6' 7251-/0+6.3c) (2), and,finally, also from the equation of two straight lines: 6 = 542t-for 0, -20 C corresponds to plastic material, at ,67, at 450C: ata>l 33, 0 2 z C: a ta :>23 kg/cm The static diagrams of the dependence between E 0 at 65 (maximum relative deformation by stress during creep), and a t (stress caused by load) are approximately expressed by hyperbolic equations: (T = 200C): 6 ta ~ 2650C PI + 37Fo ) with 0.~F, 0