SCIENTIFIC ABSTRACT ULYANOVSKIY, R.A. - ULYBYSHEVA, Z.G.

BATALOT, Anatoliy Leoaidovich. IY RIA otv.red.; YUREVIGH. L.I., red.izd-vB; TAZWTSKAYA, Z.Sh., tek)m.red. (Transportation in modern India] Transport v sovremennoi Indii. Kosk7a, Izd-vo vostochnoi lit-ry, 1961. 229 p. (MM 14:4) (India--Transportation)  LUKIYAN M.I.9 otv. red.; ULIYANOVSKIY R.A., otv. red.; KAZAKLMCH9 I.S.q.red.; KOTOVSKIY~-G.-~.7.9,-,re~d~.~';-.~y IbHv L.I.9 red. izd-va; BEWLAVSKAYAp L.Sh.t tekhn, red. (Agrarian reforms in the Orient] Agrarnye reformy v stranakh Vostoka. Moskva, Izd-vo vostochnoi lit-ry, 1961, 234 P. (MIRA 14:9) 1. Akademiya. nauk SSSR. Institut narodov Azii, (Asia-Land tenure)  KLI111KO, Grigoriy Nikiforovich; LLTANUVSKU.,..R,A., prof., otv. red.; LIOZNOVO A.G.,, red. [Agrarian problems of independent Burma] Agrarnye problemy nezavisimoi Birmy. Moskva., Izd-yo "Nauka," 1964. 230 p. (MIRA 17:6)  A C CF~S S I 01~ t-l R A P 0 n r) C4 1 ri nn to L 7 CE' JVUZ.- ~4.alctekhnlka, -V. 8, no. 1) 1965, ?6,16 TOPIC TAGS: phase AFG noise immunity A BST P-A. Cr - ~,4e a ri ns- t F~~ a', d : ff,-: 7-cnc c, of tc- p ~L,, A C SyC,-' -:v- ijy --rjt~an~ oj a counter is b,-i.cflv descr'bcd, Thf, e r ror of niL~aaii rnmon- i -q ~IAIT~~rl fn A noise ctiode was as a qu,-i e :)f r1o., zse. A pir't (J frequer.cy vs 11j,'fEi ~i~. filter baseri v-priatnr~z ql,l AF- Orig. art. !--as: -' Lgurep Lad 4 L ~3 ASSOCUTION: none SUBNUTTEID: 18Jun63 ENCL: 00 SUB CODE: EC FNOIAE:~- 60-Y.. 00Z OTI-M: 000 ATD PRESS: 4004 C.M 1/1- TOM - TITM-r~ 11-1 FTM-P rm~T= 7 7 VM  MITELIMAN, M., brigadir; GLEBOV, B., inzh.p istorik; ULIYANSKIY IVANOV, G.A., red.; KALAUSHIVA, K.Ye.p red.f-PTO-TOPOPOV, M.I.0 red.; ROZMIOV, M.D.., red.; BACHILO., Lj, red.; VINOGRADOV, V.., mladshiy red.; MOSKVDIAp R.p takhn. red. (History of the Kirov (formerly Putilov)Metallurgical and Machinery Plant in Leningrad) Istoriia Kirovskogo (byv. Putilov- skogo) metallurgichaskogo i mashinostroitellnogo zavoda v Lenin- grade. Moskva, Izd-vo sotsiallno-okon. lit-ry. Vol.l. [History of the Putilov Plant 1801-19173 Istorila Putilovskogo Z&voda, 1801-1917, Izd.3. 1961. 719 p. (MBA 15:2) 1. Leningrad. Institut istorii partii. (Leningrad--Machinery industr7)  ROMANCH". Vasiliy Vasillyevich; ULYAVLSBV. P.S., red.; PULIN, L.I., tekhn. red. [For high crop yields; an account of Valentine Gaganovais followers in the agriculture of Tula Province] K vysokim urozheiam; ocherk o pervykh gaganovtsekh Tullskoi derevni. Tula, Tullskoe knishnoe izd-vo, 1959. 15 p. WRA 14:5) (Tula Province--Agriculture)  SMIRNOV 9 Nikolay Aleksandrovich; UL I YMITSEV 9 P. S. 0 red. ; FUIMIv L * 1. 9 tekbn. red. . . ..... 1~ -------- [Essential link;-ikethh about Aleksei Baranovt a member of the Com- munist Youth'Leagdb and A leading promoter of meobanized corn cultiva- tion] Oanonoe zveno; ocherk o paredovom tullskom mekhanizatore kukuru- zovodstva komoomolltse Aleksoe Baranove. Tula, Tullskoe knizbnoe izd- vo, 1960. 34 P. (MIRA 14:7) (Corn '%-Maize))  -- -- -- ---- --- ---- POPOTA, Anastaelya IvanovnBe knnd.ekon.uauk;,UL'IANTSBT# P.S., red.; PULIN, L.I., takhn.red. [Development of the concept of collective farm property] Pati razvitiia kolkhoznoi sobstvennosti. Tula, Tullskoe knizhnoe izd-vo, 1960. 46 p. .04MA 140) (Collective farms) (Property)  'z ly Ij S-' as ,V.W/ tf UL'YAITSKIY, S.V., professor, doktor tekhnicheskikh naukj TSIRG, I.P., ~.J~"Ayushchiy obyazannosti starshego nauchnogo sotrudnika. Problem of scale-models in studying operation of ventilation systems. Tinudy Stroi.inst. Mosgorispolkoma no.4:6-8 153. (Ventilation) (MLRL 8:3)  OSIPCHM, Takov Narkovich; ULITANSIT, P.S., red.; PULIX, L.I., tekhn.red. Dootechnician in obarge of a ovine farm] Svinoformol zavedust sootekhnik. Tula, Tallskoe knishnoo izd-vo,, 1960. 31 p. (MIRA 14s12) (Swine)  ULITAY-PSEV, Petr Stepanovich. TUPIKOV, A.I., red.; PULIN, L.I., tem. (The Moscow Basin yesterday, today. and tomorrow; popular study of the coal industry in the Moscow region, its development in the period between the 20th and the 21st Congresses of the CPSIJ. and its future development in the seven-year plan] Mosbass vabera. segodula, savtra-, populiernyi ocherk podmoskovnoi ugollnoi promyshlennosti, as razvitiia v period meshdu IX I XXI s"andami KPSS i perspektiv v semiletke. Tula, Tul'skoe knizhnos izd-vol 196o. 286 p. (HrRA 13:12) (Moscow Basin--Coal mines and mining)  Orekhovo Ivan Mikhaylovieb; UWYANTSEV.. P.S.j red.; PULIN, L.I., tokhn. red. [Fulfilling the sevgn_ye&r plan] V ritme semiletki. Tula., Tullskoe Imizhnoe izd-vo) 1961. 22 p. (MIRA 14:12) (Rovotullskiy-Steelworks)  UL'TAMYCHEVA-YUDINTSEVA, M.P. - -- Sensitivity to penicillin and strentomycin in sick and healthy children as determined by a drop-type skin test. Top.okh.mat. i dot. .4 no-3:63-67 147-J8 '59- (MIRA 12-8) 1. Iz Gor'kovskogo pediatrichaskogo nanchno-iseledovatellskogo instituto, (dir..A.A.Prokoflyeva, nauchnyy rukovoditel' N.I. Nozin) Ministerstva zdravookhranoniya RSFSR. (PROCILLIN) (STRMOKWIN)  UL4YASHCHFMO, V., inzh. Unjustified fears. Pozh-delo 7 no-8:5 Ag 161. (MIRA 14: 8) - (Safety lamp)  KIR EV, M. 1. ; DZRALAWV, Ye.M. ; UL 'YASHCRENXU.XjO,, -, VESEWV. A. I.; 7 PROSHCHIN. Ya.A.; SEM Y71rV'9'V.%. Discussion on the use of PPV wire. Prom.energ. 11 no.7:19-27 11-156. (MLRA 9110) 1. Gosenergonadzor Ministerstva alektroBtantail (for Kireyev) 2. Glaynoys upravlenlye pozharnoy okhrany Ministeretva vnutreanikh del SSSR (for Dobalalov) 3. TSentrallnyy nauchan-iseledovatellskiy inatitut protivopozbarnoy oborony (for Ullyashchanko, Veseloy) 4. TS@ntroolaktromontazh (for Proshchin) 5. Treat "Moselaktromontazh-l" (for Berebryakov). (Electric wire, Insulated)  inzhener: RAKOVICH, 1.0.. redaktor; VINOKMOVA, Ye.B.. redaktor izdatelletva; PHTROVSKAYA. Ye.S., takhnicheskiy redaktor Lfire prevention measures for electrical equipment in installations subject to fire and explosionsj Foxharno-takhaichaskie trabovanita k alektrooborudovaniiu pozharno-yzryvoopasnykh pomeshchenti i narushnykh ustanovok. Moskva, Izd-vo K-ve kommun.khos, RSYSR, 1957. 88 p. (MIRA 10:7) 09lactric machinery--Safety measures) Qire prevention)  8(2) SOV/112-59-2-2297 Translation from; Referativnyy zhurnal. Elektrotekhnika, 1959, Nr Z, p 4 (USSR) AUTHOR: Ullyashchenko, V.& .. TITLE: lnii~-~tigati~onof Explosion - Hazardous Properties of Electrical Equipment (Issledovaniye vzryvoopasnosti elektrooborudovaniya) PERIODICAL- Pozharnoye delo, 1957, p 9 ABSTRACT: Bibliographic entry. Card I I I  UL'YASHOMKO, V.Ye. Remarks on P.M.Tarasankov's article. 'Anarg.biul.no.9:26-27 S '57. (MIRA 10:10) (1xplosivii-Safety mea-a-urii)- (Tarasenkov, P.M.)  L11YASHCHE&O, V.. intbener. Checking explosion safety of electric equipment. Pozh.delo 3 96.6:9 Je 157. (MLRA 10:7) (Electric Engineering--Safety Measures)  TIL'YASHCHEITKO., V, Ye.: MA.,?,.er Tach Sci (alea) -- "investigation of the F,-Y--Dlo- sionproofness of electrical equimient, in various explosive media". Moscaw, 1T,58. 19 prp (Min Higher Eauc USSR, moacov Mining. Inst im I. V. Stalin), 150 copies (KL, m 6, 1959, 1=6)  ULfyAjjjg;JJWA,V.I inzh. The PGF2-VZG portable explosion proof gas wializer. Pozb.delo L& nn.8:6-7 Ag 158. (KIRL 11:9) ( %,diometer)  SOV/110-58-9-17/2U AUMURS: Kravchenko, V.S. (Doctor of Technical Science) and Ullyashchenko, V.Z. (Engineer) TITLE: L-Stu-a-y-cf--b-x-14~e6ion-proof Electrical Equipment in an Atmosphere of Explosive Gas (Vzryvobezopasnost' olektrooborudovarliya v atmosforo vzryvchatykh ,,,,-azov) PERIODICAL: Vestnik Elektropromyshlonnosti)1958,Nr 9 pp 69-74 (USSR) 1.24 ABSTRACTS fleavy-current electrical equipment is Yupsually made flame- roof by the provision of an explosion-proof casin,g gaving flanges with gaps of such dimen3ions that gases, expelled to relieve the internal pressure formed when an explosion occurs, are cooled down before reaching the surroundin.- explosive atmosphere. Recent Soviet work has clarified the mechanism of flame-extinction in narrow gaps and some new properties of explosion-proof casings have been discovered. The critical gap between infinite planes at which flame ro agation ceases depends primarily on the properties of t9e turning mixture, particularly the energy of activation, the maximum flame temperature, the thermal conductivity of the gas ani the rate of propagation of the -d 1/6 flame relative to the products of combustion. Theoretical Cal equations for the critical gap are written, but they give  SOV/110-~8-9-17/2-'j A Study of Explosion-proof Electrical Equipment in an Atmos,~:here of Explosive Gas only the order of magnitude for different gases. It is clear that the reason why the material nature of the flange has little effect on the flame-suppressing efficiency is that the heat-transfer is mainly governed by the thermal conductivity of the gas. The effects are more complicated in the closed casings not in practice than they are in the theoretical infinite caps. There are considerable increases of pressure and tomperature inside the casing, so that the gaps must be smaller. In experimental work on explosion- proof gaps the variability of the effect of explosion propagation is important. A special test rigwas made up, as schematically illustrated in Fic, 3, and consists of a special spherical casing of 2.5 litres for determining safe gaps, with a controlled gap between the flanges. This was filled with an explosive-mixture and placed in a large (220 litres) explosion chamber containing the same explosive mixture. The mixture inside the sphere was ignited by a Card 2/6 magneto spark. It was found that for a given sot of conditions an explosion,could occur only occasionally, for  soV1llu-58-(,~-_'712U A Study of Explosion-proof Electrical Equipment in an Atmos.,here of Explosive Gas example, only once in 60 tests, and in one case only once in 167 tests. It is usually considered that a gap is safe if no explosion occurs in a certain number of tests. In practice a safety factor of 2-. ;V or so was allowed in gap length. Tests made in t e T3NIPO served as a basis for a more reliable method of determining safe gaps. An attempt was first made to establish a relation- ship between the probability of an explosion being transmitted and a factor governing the intensity of the source of ignition, such as the size of the flange gap. Similar work was recently done in England by Bruce, but later tests were not in accordance with the lip-ear relationship that he established. Our tests were made in hydrogen, acetylene and propane. Onl a 1'mited number of tests could be made and we had to ~c satisfied with 3 - 5 positive results in about 300 tests. It will be seen from the rosults given in Fi-r L~ that a reliable U -.3 u rela-"ionship was nevertheless obtained. The tests con- Card 3/6 firmed the validity of the law of probability of ignition for ignition sources of unstable intonsity. The  SOV/110-58-9-17/20 'Wi A Study of Explosion-proof Blectrical Equipment- in an At-osphiere of F,-. 1) 1 os, i V eGas relationship between the statistical )robab-ility of transmission of explosion and the size of the flanro gap is given in Fig 5 and the corresponding formula in equation (5). This relationship forms a basis for a now method of determiningn, the safe gap. A method is given of determining the relationship between the probability of explosion transmission: and the lex.1gth of gap from experi- mental data. A procedure is then offered for finding a value of gap length that corresponds to a given low value C3 of explosion probability. The relevant calculations were made by L.N. Bol'shev at the Malthematical Institute im-eni Steklov of the Academy of Science of the USSR. Formula (8) give3 the value of the safe gap. Values of the magnitude t that enters into this formula are given in Table 1. The procedure was used to determine safe flange gaps foi very dangerous mixtures of air with hydrogen and acatyleno, also with propane. The most explosive concentrations of these gases in air are given in Fig 6. The safe gaps were Card V6 u 0 calculated by means of formula (8) for an explosion  SOV/110-58-9-17/2U A Study of Explosion-proof Electrical Equipment in an Atmosphere of Explosive Gas probability of 10-6 and gave the dimensions recorded it, Table 2. The corresponding results of explosion tests are given also. It will be seen that even if the safety factor of 2 is allowed in the gap len.-th, it is practicable to manufacture some kinds of explosion-proo.-L' oquipmont for hydrogen/air mixtures. Explosion-proof enclosures can also be made for acetylene atriospheres, provided the volume is not greater than 0.25 litres. On the basis of this work the Blektrosila Works has developed and put into series production an explosion-proof lightinrr fitting for hydrogen/air atmospheres and has developed an inflammable-gas indicator for hydrogen and acetylene atmospheres. Previous authors have pointed out that explosion-proof equipment may become unsafe if prolonged power-arcs occur inside it. The way in which this happens is discussed7 leading to the conclusion that the Problem cannot be solved mere3y by suitable design of Card 5/6 the casing but requires that appropriate electrical  SOV/110-58-9-17/20 A Study of Explosion-proof Electrical Equipmerit in an Atmosphere of Explosive Gas protective equipment be used to cut off the supply quickly in such cases. Additional safety measures are the use of are-resistii, Insulation, increased clearances between live parts and periodical checking of Insulation resistance. There are 2 tables, 6 figures,, and 6 referenceej 5 of which are Soviet. SUBMITTED: February 17, 1958 1. Electrical equipment--Performance 2.' Explosive gases--Safety measures 3. Electrical equipment--Test methods 4. Electrical equipment--Safety measures Card 6/6  GELIFER) Gesell Ayzikovich; IVANOVl, Aleksandr Vladimirovich; MEDVEDEV, Yakov Grigorlyevich;,UL'YASHCMXO, V.Ye.,, red.j DOWATOV, P.S.., ved. red. $ FRUMKIN, P. 5-* , t4khn-.-red. - (Explosionproof electric equipmontj handbook for workers in the petroleum refining and gas industries] Vzryvozashchiahchennoe alektrooborudovania; sprawchnik dlia rabotnikov neftepererabaty- vaiuslichei i gazovoi promyshlennosti. Leningrad, Gostoptekhizdat, 1960. 328 p. WRA 15: 5) (Petroleum industry-Electric equipment) (Electric machinery-Safoty appliancoo)  UL'YASHCMIKO, V., kand.teklin.nauk Automatic cutouts instead of fuses. Pozh.delo 6 no.2:13 7 160. (MLU 13--5) (Zlectric cutouts)  CHERKASSOV, Vladimir Nikolayevich; UL'YASHCRENKO, Vasilly Yevgenlyevich; GLAZKOV, A.N., red. [Fire prevention in electrical systems] Pozharnaia profilak- tika elektroustanovok. Moskva, Izd-vo M---.ra kommun.khoz. RSFSR, 1963. 199 p. (MIRA 17:8)  ULYASHK AA~~ ~ Hov ve organize exchange of vork experience. Vent. eviazi 17 no.7.' 26-27 -TI 157. (KrMA 10:8) 1. Zamestitell nachallnika Tomskogo oblastnogo upravleniya evyazi, (Tomsk Province-Telecormmication)  ULTASHKIN V N Increase the labor productivity of mail carriers. Vent. sviazi 20 no,9:21-2? S160. (KM 13: 10) 1. 7amestitell nachallnika Tomskogo oblastnogo upravleniya ffTya2i. (Postal service--Letter oax-riers)  ULYASIIOVA, R.M. Microflora of the gravel culture of tomatoes. Priroda 54 no.3.-120-121 Mr 165. (MIPA 18:4) 1. Ukrainskiy nauchno-isaledovatellskiy institut zemlede',Iiya, Kiyev.  SOV/129-59-4-10/17 AUTHORS: Minkevich A.11. (Candidate of Teekinical Sciences) and Ulybin.,G.J. (Engineer) TITLE: CNr-omating and Borating of Steel, Applying High Frequency Heating (Ehromirovaniye i borirovaniye stali pri nagreve t.v.ch.) PERIODICAL: Metallovedeni e i Termicheskaya Obrabotka MetailoV3 1959, Nr 1+, pp ~8_51 (uSSR) ABSTRACT: The authors investigated processes of chromatin,- and borating steel by means of chromium and boron-containing pastes and high-frequency heating. The experiments were carried out with 12 mm diameter specimens of the steels 20 7 1+5 and U 10. The heating was effected with current supplied by a 60 kW7 350 kc/sec tube oscillator. The constancy of the temperature was ensured by means of a photo-electric pyrometer; the distance between the single turn inductor and the surface of the paste was about 1 - 2.5 mm. The paste consisted of a chromium or boron- containing powder and a fluxing medium. The following conclusions are arrived ats 1) For chromating, by means of high frequency heating for a duration of 2 - 3 minutes Card 1/3 at 1050 - 12000C a paste consisting of 75% chromium powder or ferro-chromium and 25% cryolite with a hydrolized  SOV/129.-59-4-10/17 Chromating and Borating of Steel, Applying High Frequency Heating ethyl-silicate as a binder, is suitable. A chromated layer 0.10 mm deep will be obtained by means of this method for steel 20, heated to 12000C for 2 minutes, as compared to 8 - 10 hours' heating to 10500C required in the case of the current method of chromating. However, the surface of the specimens is not always as good for this new method of chromating as it is for the ordinary method. 2) For borating of steels by high frequency heating at 12000C for 2 - 3 minutes, a ast is sui--able consisting of 50% boron carbide and 50%pcryelite ZI hydrolised ethyl-silicate as a binder. Borating by means of this method of steels45 and U-10 brings about the formation of a layer up to 0.12 mm thick with a hardness of about 1000 Hvio. In the surface zone of the borated layer, borides of iron and boron carbide were detected by X-ray analysis. A layer of an equal depth (of a slightly different st,.-Ucturo and of a slightly greater hardness) can be obtained voy means of electrolysis at 9500C for 2 hours. Borating by means Card 2/3 of the here-described method can be applied for  SOV/129-59-'+-10/17 Frequency -Heating Chromating and Borating of Steel, Applying High improving wear resistance of components. 3) The here-described method can also be used for other processes of chemical - heat treatment of steels and alloys. There are 3 figures, 2 tables and 9 references, 5 of which are Soviet, 2 Engi-ish and 2 Polish. Card 3/3  L 454119-66 E-,Ti-(d)/EWT(m)/-WP(w)/EWP(v)/T-2/tvp(k)[i-,Idll(h)/ELJP(l) Tjp(c) ACC NR- AR6022391 (N) SOURCE: CODE! I JR/0398/66/000/003/AO17/AO17 AUTHOR: Ulyashinskiy, V. A. ORG: none TITLE: Selection of permissible elastic imbilance-of elastic coupling boxes,tn marine shafts SOURCE: Ref. zh. Vodnyy transport, Abs. 3A100 REF SOURCE: Tr. Leningr. in-ta vodn. trans ., vyp. 82, 1965, 117-120 TOPIC TAGS: screw propeller, centrifugal force, coupling box, elastic imbalance) ~07)40143F- .1 %7#0)r7' ABSTRACT: A formula is derived for determining the imbalance reaction and establishing a tolerance for the elastic imbalance of air elastic coupling box in relaitor to the unbalanced centrifugal force of an optimal screw pj2peller and the weight of the coupling box. Bibliography of 1 title. [Translation] [AM] SUB CODE: 13/ Card  L 47461-66- E-HT ~ I) GN NRI AT6032031' SOURCE CODE: UR/3225/64/ooo/olo/ooo4/OO34G' AUMOR: Landyreva. N. S. (Group leader); K!~rRova, T. B.--. Safonova, A. X.; Ul'yashina, V. A.- ORG: none TITLE: Seismology\ bulletin of the network of permanent seismological stations of the USSR SOURCE: AN SSSR. Institut fiziki Zemli. Seysmologicheskiy byulleten' seti opornykh seysmicheskikh atantsiy SSSR, no. 10 , Oct . 1964. moscov, 1965, 4-34 TOPIC TAGS: seismology, earthquake, seismologic station,epicenter, origin time, seismicity, seismographic record ABSTRACT: The present bulletin provides the data on earthquakes recorded by permanent seismological stations in the Soviet Union during October 1964. It has been pre- pared by the Seismology Service Department of the Institute of Ehj _!ics of the Earth of the Academy of Sciences USSR. The bulletin consists of of which is sub di_1r_raWa_fn_fo_ -ou-b-s-dictions a and b. The data in subsections Is, and Ib include the origin time of the earthquakes (C7eenwich time), the epicenter, class of accuracy (for class A and class B earthquakes the error in daterminingtbe epicenter does not exceed 25 and 50 km, reapectively), the magnitude determined from the  L 47461-66 ACC"-NR,-- AT&3-jO--jj- surface waves, and the region where the earthquake occurred. Subsections Ib and IIb contain the detailed data on the earthquakes: wave arrival time at the various permanent seismological stations, direction of displacement, i.e., compression or rarefaction, maximum amplitudes of ground vibration and the corresponding period and the distance to the epicenter. Section Ia contains data on earthquakes within the USSR, excluding the Soviet Far East, with M 2 4, and the data on earthquakes in the Soviet Far East and the regions bordering.the Soviet Union (up to 200 km f 'rom the border) with M > 5.5. Subsection Ib contains the data on earthquakes within the USSR, excluding the Soviet Far East, with M > h-5 and the data for Soviet Far East, regions bordering the Soviet Union, and the iurile-Kamchatka are with M 2 5.5. Sectk II contains the data on distant earthquakes. Subsection Ha contains the data on earthquakes in Europe and Asia with M > 5 and the data on earthquakes in the rest of the world with M 2 5-5. Subsection IIb contains more detailed data on earthquakes in Europe and Asia with M a 5.5 and the data on earthquakes in the rest of the world with M z 6. A list of permanent seismological stations, the data from which were used in the bulletin, includes their geograpbic location, type of instruments used, and the addresses of the institutes; it is published twice a year in issues number 1 and 7. A special issue published annually contains detailed data on parameters and frequency-emp3Atude characteristics of the instruments. Orig. art. has; 4 tables [BAI SUB COIDE: OB/ SUBM DATE: none Card  L 474b'-1-66 a"T ( I 1' 06 ACC NR, AT6032032 SOURCE CODE: UR/3225/N/00 if/oboVm~-- ,AUTHOR: Landyreva, X. S. (Group leader); K!~Uqva, T. _B_. , Saf onavat A. ~i.; Ullyashina, V. A ORG: none TITLE: q.~ ~moloff bulletin of the network of permanent seismological stations of the USSR SOURCE: AN SSSR. Institut fiziki Zemli. SeysmologicheBkiy byulleten' seti opornykh seysmicheskikh stantsiy SSSR, no. 11, Nav-, 1964. moscow, 1965, 4-30 TOPIC TAGS: seismolog5r, earthquake, seismologic etation,epicenter, origin time, seismicity, seismographic record ABSTRACT: The present bulletin provides the data on earthquake3recorded by permaneni- seismological stations in the Soviet Union during November 1.9614.. It has been pre- pared by the Seismology Service Department of the Institute of Physics of the Earth of the Academy of Sciences USSR. The bulletin consists of _se-Z`t`1`8n-sT and II, each of which--rs--s-u-bWiv-i-de-a-fn-t6 subsections a and b. The data in subsections Is, and 1b; include the origin time of the earthquakes (Greenwich time), the epicenter, class of accuracy (for class A and class B earth uakes the error in determiningthe epicentel do"-not exceed 25.and 50 kmo respectivelyl, the magnitude determined from the  L 47462-66 AT6032039 surface waves, and the region where the earthquake occurred. Subsections Ib and Ilb contain the detailed data on the earthquakes: wave arrival time at the various permanent seismological stations, direction of displacement, i.e., compression or rarefaction, maximum amplitudes of ground vibration and the corresponding period and the distance to the epicenter. Section Ia contains data on earthquakes within the USSR, excluding the Soviet Far East, with M 2 It, -and the data on earthquakes in the Soviet Far East and the regions bordering.,the Soviet Union (up to 200 km from the Subsection Ib contains the data on earthquakes within -the border) with M > 5.5. USSR, excluding the Soviet Far East, with M > 4-5 and the data for Soviet Far East, regions bordering the Soviet Union, and the iurile-~Kamchatka are with M 21 5.5. Sectim II contains the data on distant earthquakes. Subsection Ha contains the data on earthquakes in Europe and Asia with M ~ 5 and the data on earthquakes in the rest of the world with M 2 5.5. Subsection Ilb contains more detailed data on earthquakes I in Europe and Asia with M 4 5.5 and the data on earthquakes in the rest of the world with M z 6. A list of permanent seismological atations, the data from which were used in the bulletin, includes their geographic location, type of instruments used, and the addresses of the institutes; it is published twice a year in issues number 1 and 7. A special issue published anLuaUy contains detailed data on parameters and frequency-amplitude characteristics of the instruments. Orig. art. has: 4 tables. [BA) SUB COIE: 08/ SUBM DATE., none/ Card 2/2  L 4745,1=~ft G~J(1) Cm ... Doom-_:. ACC NRt AT&32033 SOURCE CODE: UR/3225/64/000/012/000 AUTHOR: Landyreva, N. S. (Group leader); Karpova_, Safonova, A. M.- 31 Ullyashina, V. A. A6~11 ORG: none TITLE: Seismology bulletin of the network of permanent seismological stations of the USSR SOURCE: All SSSR. Institut fiziki Zemli. Seysmologicheskiy byulle'en' seti opornykh 6 seysmicheskikh stantsiy SSSR, no. 12, Dec. 1964. Moscov, 1965, 4-25 TOPIC TAGS: seismology, earthquake, seismologic station,epicenter, origin time, seismicity, seismographic record ABSTRACT: The present bulletin provides the data on earthquakes recorded by permanerit seismological stations in the Soviet Union during December 190. It has been pre- pared by the Seismology Service Department of the of the Academy of Sciences USSR. The bulletin consists of sections I and II, each of vh3_C_E_1_S_WMTV-1-de-a_Tn_fj -subsections a and b. The data in subsections Ls and Ib include the origin time of the earthquakes (Greenwich time), the epicenter, class of accuracy (for class A and class B earthquakes the error in determiningtbe epiceLte: does not exceed 25 and 50 km, respectively), the magnitude determined from the Card  L ACC NRt XT06032033 surface waves, and the region where the earthquake occurred. Subsections Ib and Hb contain the detailed data on the earthquakes: wave arrival time at the various permanent seismological stations, direction of displacement, i.e., compression or rarefaction, maximum amplitudes of ground vibration and the corresponding period and the distance to the epicenter. Section Ia contains data on earthquakes within the USSR, excluding the Soviet Far East, with M > It, and the data on earthquakes in the Soviet Far East and the regions bordering.the Soviet Union (up to 200 km from the border) with M > 5.5. Subsection Ib contains the data on earthquakes within the USSR, excluding the Soviet Far East, with M > 4.5 and the data for Soviet Far East, regions bordering the Soviet Union, and the Rurile -Kamchatka arc with M z 5.5. Section II contains the data on distant earthquakes. Subsection IIa contains the data on earthquakes in Europe and Asia with M > 5 and the data on earthquakes in the rest of the world with M 2 5.5. Subsection H~ contains more detailed data on earthquakes in Europe and Asia with M a 5.5 and the data on earthquakes in the rest of -the world with M z 6. A list of permanent seismological stations, the data from which were used in the bulletin, includes their geographic location, type of instruments used, and the addresses of the institutes; it is published twice a year in issues number 1 and 7. A special Issue published annually contains detailed data on parameters and frequency-amplitude characteristics of the instruments. Orig. art. has: 4 tables. [BA] SUB CODE: 08/ SUBM DATE: none. Card 212  ACC N R1 AR6034724 (I'VI SOURCE CODE: UR/0124/66/000/008/A023/A0213 AUTHOR:~ Ulyashinskiy, V. A. %Q --- -.-VINOMM~ - - __, TITLE, - Investigation of the elastic nonequilibrium in an elastic clutch of a ship's drive shaft SOURCE: Ref. zh. Mekhanika, Abs. 8A177 RUF SOURCE; Sb. Ekon. i organiz. perevozok. Sudostr. i sudoremont. M. - L. , Transport, 1965, 97-103 TOPIC TAGS: elasticity, clutch, vibration, probability theory, nonequilibrium ABSTRACT: This study determines the probable value of an elastic nonequilibrium reaction to the torque of an elastic clutch of a ship's drive shaft under load. The nonequilibrium occurs as a result of errors incurred in manufacture of sections oti the drive and driven part of the half clutch, namely the errors in the central segment angle, errors in angles of rotation of blades in both (drive and driven) half-clutch, and by uneven elasticity properties of the segment. An expression is obtained for the elasticity reaction as a function of these values. Since the errors Card 1 / 2,  ACC NR- AR6034724 represent random values, the probability theory was used to conduct the investfiga- tion. It is shown that the distribution of the values followed a well-known pattern. Formulas for expressing mathematical expectation, the root-m ean- square deviation, and the probable value of the elastic reaction were established. The mathematical expectation due to error symmetry is equal to zero. Analysis of the formula for the probable reaction value shows that this reaction, while changing its spatial distribution with shaft rotation speed, produces an additional cyclic load on the shaft and engine bearings, and appears to be the source of engine forced vibrations whose frequency is substantially lower than the natural vibration of the engine on shock absorbers. The nonequilibrium reaction may increase to such an extent that it may transmit to the ship's hull. Theoretical conclusions were confirmed by experiments. (KPI SUBI-CODE: 13/ C,,d 2 / 2  .L, . -'I -:~ N_ !. - t, -OA. I ZIF~j'-- Mc : :.i. -n , ~- ,I-- , ;.~ ~ - - ~-z:. T~ --- I - .-.' - - I f-S . I , :"a - 1. % -,f r RA- --, 8 3 9 1  15394-66 M'(M)/EWP(j)/M' RM ACC NRs AP6000968 SOURCE COIZI UR/0286/63/000/022/0053/0054 AUTHORS: Chukhtn, A. A. KaMtin, G, Y, ORG: none TITLE: A press for njqAniz announced UW rubber products* Class 39,, No. 176382 by All-Union Scientific-Research Institute of Rub~M=Jgilxu"L im-Mesoymnyy nauchno-isaledovatel'skiy- institut rezino-tekhnioheakogo ma7sinostroyeniya)_7 SOURCE: Byulletan' izobreteniy i tovarnykh znakov, no. 22, 1965v 53-54 TOPIC TAGS: drivep rubber technology,, rubber vulcanization, pressure apparatus, manufacturing facilityp manufacturing method ABSTRACT: This Author Cartificate_presents a press for vulcanizing rubber products$ for example, rubtser-motal skets.1-5 The press includes devices for the withdrawal and opening of the dies (see Fig. 1). These devices are made in the form of hori- zontally positioned guides fastened to the plates of the press. The guides carry a sliding die which,travels with the help of a cylinder. The upper rotating part of the die is connected to the base of the press by hinged arms. The design in intended to increase the prc-oductivity of labor. The prose contains mechanisms for loading the stock material and removing the finished products. These mechanisms are in the form of a vacuum cartridge connected by a hinge joint to the cylinder and are -.,,1 1/3 - UDC: 678.058.39  ACC AP6000968 a,L Fig. 1. :1 - Vacuum cartridge; 2 cylinder; 3 carriage; 4 support; 5 - screw couple; 6 - spindle magazine; 7 - conveyer; 8 - conveyer belt of specified length; 9 - middle part ofdie; 10 - projections on the middle section; 11 - catches; 12 - guides of the press. rigidly connected by coupled screws to the carriage moving on the guides of the support. To automate the processes of loading the stock materials and removing the finished product,.opindle magazines for the stock materials are used in the press* These magazintis are mounted on the frames. 'The press also uses conveyers, along the loops of which are fastened conveyer belts of a specified length, The Card 2/3  L 15394~bb ACC NRt AP6000968 dies of.the press consist of three hinge-fantened parts, The middle sections of these dies are made with projections which interact with the catches fastened to the guides of the prens. Orig. art. has: 1 figure# SUB GODEt 1W SUBH IWEt' 22Aug63  KORM-TSKAYAs Ye.A.; BQRISOVA, A.N.; BESSCHASTNAYA, V.M.; ULYBIN, N.G. I Heat treatment of thin X40IMM alloy wire. Biul. TSIICM4 no.2: 47 161. (MIRA 14:9) - (AUOY13-Heat treatment)  qtvn'~ 5., Efftciency, Tndustrial Advanced work methods for all workers. V :3om. -)rofaktivu 13 NO. 12, 1952. 4 9. Monthly List of Russian Accessions, Library of Congress, Aum,,+ 19P. Unclassified.  ULYBIN, S. The shop committee on labor protection. Soy,profsoiusy 2 no.5t6i-62 My 15 4. (MMA 7:6) 1. Instruktor Penzenskogo oblastnugo soveta profsoyuzov. (Industrial safety)  h ULYBT~l S.A. kand- tek rauk; t7 -rit f r Ef of' th,9 t-he TAIT-1- 0 C ~ ]"--,g-"-c;n 0 f k, Of tb, - jo energetika 1.2 nc,.6:70-72' 1. g,skc-ru~~.Y sn-zrgGti-""ookl-Y  ;1(4) PHASX I BOOK KZPLj0rrATMR 3CV/2583 International Conference an the Peaceful Uses or Atomic tattr97. . 2ndv Gonevap 1958. Dakledy movetakikU uchanyiMl y"orn"t reaktory I YA4orftAYA emr- Aptiks (Reports of Soviet Scientists; Nuclear Reactors and . nuclear ?owar) Moscowo Atoaltdato 1952. 707 P. (Serlest 1"t T rod7v vol. 2) Irrats, slip inserted. ti.000 acpLas printed. General gdx.s N.A. Dollexhal, Corresponding Member. USSR Academy Of Scis"Oss A.X~ Mrssins Doctor of Physical and Mathematical 3clonaos , I.X. Laypunskly, Member, Ukrainian SSR Academy of Science*, I.I. NovikuT. Corresponding Members USSR Academy of SolAnOsMs and V-3. Pursov. Doctor of Physical and MathomatiaAl Sciences; Xd. r A.F. Alyoblyovj Toch. Sd.s To. 1. Xazel-. FORM=% This book In Intended for salentiata and engineers engag*d In reactor designing# as well an for prorossors and students of bigbor technical schools where reactor design is taught. COVIMass ThWC"-".ood votoes or a __oo b "rut - JL~ - " a on, The six vi iuaoi catitein tbi irts pre- ropa 4n 's 'T d*nted by 30, t n ant lots at the 3eooW Xmteroattonal Conference Oft P"Osrul Uses Or Atomic Rnsrgy, held from September I to 13. 190 In Geneva. Volume 2 consists of three parts. The first jjj devoted to atomic power plants under construction In the Soviet UhIOnJ the second to exWerimental and research reactorax the ex. Parlosents carried out an thomp and the work to laWrova them; and ttM tblrd. Iftlob to Predominantly theoretical, to problems 0 nuclear reactor physics and construction engineering. Tu. If NOrYakin to the science editor of this volume. See 3OV/2061 for title* of all volumes or the not. nererencem appear the doA,aZ-Zhs articles. Vostovoy. V.I., V.S. Dikarev, M.B. YGgIzArQv, SAltykOv- Neutron Spectra in Or-lum Water Lattices (Report i M easur ng 546 go. 2152) JCraaln, A.Y- D .0. DubOv8k1Y, M-X- L&ntBOV, TQ,Tu, alazkov, R.T_ donongov, A.V. Kamayev, L.A.. Goraseva, V-V- VKvIlQv- To. 1. Inyutin, and A.?. Sonchankov. Studying the Phyfilcal, Characteristics 0f-& Bdryllium~wodsrxtor Reactor (Report NO. 2146), " Okanio, A.D., S.A. Nondrovakara, A.?. RQd1k, Tu. 0. Abov, V.Y. bolkin, and ?.A. Krupchitukly. Critical Z"riment on an Xzporl- mental Aamv7-water Reactor (Report No. 2036) 570 Marebuk, 0.1., V. To. Pupko, To. 1. Pogudallna,.V.V- Smolov, I.P. Tyuterov, S.T. Platonova. and G.I. DruzhInIna. Certain Pro- bless 2A Mucleir Reactor Physics and Methods of Calculating thou (Report No. 2151) 5" SInrutin, O.Y. and V.M. Somenov. Dotornino.41on or Control Rod grf*OtIvenese in a Cylindrical Reactor (Report go. 2469) 613 001-rand, X.X.1.3.R. Yoynberg, A.S. Frolovo and X.N. Cbwntsov. VoLas the Monte Carlo Xothod of Random Sampling for Solving the Kinetic Squation (Report go. 2141) 628 Aaletin, R.I. Neutron Distribution in a ffeterogampous Medium (11oport No. 2189) 634 K"arnovsklys X.V.9 A.V. Stopsnov, and P.L. Shapiro. Neutron Thermalization and Diffusion in Heavy Podia (Report Mo. 2148) 651 Veynik, A.I., V.S. YormAkov, and A.V. Lykov. Using tbL* Onsager Theory for.Studying Neutron -Difrusion In the Absorbing Media or Nuclear Reactors (Report No. 2224) 668 bra"r. D.L., S.A. Lirkin, A.A. Matutov, V.V. Levin, and V.V. Orlov. Studying the Spatial and Inergy Distribution or Neutrons In Difer*nt Media (Report No. 2147) 674 D"trl"v A.D. Boron Ionization Chamb*ro for Work in Muelowl- Reactors lRaport No. 2084) 690 and S,.~~Zxp:rlmontsl Determination or Kirillin, V.A Specific Vol an of Heavy Water In Wide Tesporature and ft**s- j sure Range (Report No. '471) 696  ULYBIN, S. A., Cand of Tech Scl -- (dies) "Invutitl6utlon ol' Lne ~~poclflc Gravity of Common and heavy Water In a Wide Ran6e of Temperatures and of 1 1959, 18 PP (MoscowPower EnglneerinjE InstituE,4 Pressures) ,,'o S c:)';';FL (KL, 2-60. 115)  L14 Y6 //T1 /'5 96-11-9/24 AUTHORS: Kirillin, V.A.. Corrcspondinn- Member of the Ac.Sc.U.SSR and Ulybin S.A., Bnr-ineer. TPITLI,i': An experimental investigation into the compressibility of water and viater vapour at tempera-Lures close to the critical. (Eksperimentallnoye issledovaniye szhi-mayemosti vody i vodyano .-o para pri teiaperaturakh blizkikh. It 4.3 kriticheskoy). PERIODICAL: Teploenergetika, 10,53, No.4, PP. 53-54 (USSR). ADSTRACT: In view of the high accui-acy needed in tables of the thermodynaiziic properties of viater and steam, special attention has recently boon paid -to correlation of caloric and thermal parw,leters. An attempt was made to calculate the enthalpy of steam from experimental determinations of specific heat and frorm experimental data on compressibility. Discrepancies in the results %-.rere probably due to errors in the experimental data. It appeared most likely that errors were4resent near to the critical point, where zaany measurement 0come unreliable. It was therefore decided to repeat investigations on the compressibility of viater and steam at temperatures close to the critical, paying special attention to experimental procedure. This time Card 1/3the experimental procedure was modified. It had been  06-4-c/24 An experimental investigation into -the compressibility of water and water vapour at temperatures close -to the crit-i-cal. assumed that the volume of the differential manometer did not change with pressure, but in fact it does. Care was taken to make accurate temperature measurements. The pressure was measured luith the piston-type manometer system of M. K. Zhokhovskiy, calibrated at the All-Union Scientific Research Institute of Standard Measures and Eleasuring Instruments. The tests w8ro maAe on the isotherms 368 82~ 400.00 and 410.00 0. oveT the pressure range of 103.;2 - 493.96 at-as. Twenty-nine experimental values of specific volume were obtain8d -and are Siven in Tables 1 - 3, On the isotherm 368.82 C over the entire pressure ranoe used in the present work -the specific volume was wi8hin 0.2% of the value previously obtained. On the 400.00 C isotheni, there is one point which is 0.35% hiSher than a value obtained by interpolation from the previous.riork. It is concluded that experim,~ntal values of specific volumes of water and steam obtained in the previous viork are quite reliable0within the limits of accuracy given' except on the 410 C isotherm in the pressure range 450 - 500 atas. Additional data obtained Card 2/3 in the present work will help in the fcrraulation of more  96-11-9/24 An experimental investigation into the compres-,ibility of b-later and vater vapour at tc=pcratures close to the critical. accurate tables of the thenuodynanic properties of ,-iater and steam, and in particular will oonduce to better agreement between ther-i'Aal and caloric values. There are 3 tables and 3 Russian references. ASSOCIATION; Moscow Power Institute. (Ivloskovskiy Enerr--eticheskiy Institut). AVAILABLE.. Library of Congress. Card 3/3  KIRILLIN, V.A.; ULTBIN, S.A., Insib. ~xparlmental Investigation of ipecific volumes of water and water vapor In the region of In Englieb], Teploonergatiks, 6 no.1:62-65 Ja 159.. (MIRA 1221) Ldhian-korrespondent AN SSSR (for Kirillin). 2. %skovskiy anargaticheski-y institut, (water) (water vapor) Wigb temperatures)  OOV/96-59-4-131/21 AURHORS: Kirilling V.A., Corresponding Member of the Ac.Sc.USSR Ulybih~ S.A., Engineer TITIE: An Experimental Determination of the Specific Volumes of Heavy Water (Eksperimentall 6 opredeleniye UdelInykh o'zIIYeM-'Vtyazheloy -,,rcdy PERIODICAL:Teploanergetika, 19599 Nr 49 pp 67-72 (USSR) ABSTRACT: Knowledge of the properties of heavy water is required for atomic power engineering but so far these properties have been studied. over only a very narrow range of temperature and p-ressure. The experimental equipment used was the same as had. already been used to determine the thermc-dynamic properties of water and steam at high pressures and. temperatures and which has previously been described fox! example, in Teploenergetika, 1958, Nr 4. Heavy water is hygroscopic and. is apt to take up ordinary water from the atmosphere, contamination with even 2% of ordinary water would alter the measured value of the specific volume by about 0.2% and, therefore, special precautions had to be taken to prevent suah contamination. Care was also taken to avoid contamination from the Card 1/4 aluminium. containers in which the hea-.y water is kept.  SOV/96-59-4-13/21 An hxperimental Determination Of the Specific Volumes of Heavy Water other special corrections that were made are described. As a result of this investigation determinations were made of the specifia volume of 0heavy water over a temperature range from 250-5-00 C on 11 isotherms at preessu-res ranging approximately from 100-500 kg/sq am. A large number of values of specific volume were obtained for both liquid and vapoux phases and. are given in talile 1. A p--v diagram for heavy water for the press-are range of 150-500 kg/sq cam and for specific volumes up to 10 cm.3/g is given in Fig.!. Most of the experimental values relate to the region close to the critical point of the heavy water and to the liquid pha-se region, in which the greatest difference should be expected between the properties of ordin ry and heavy waters. A diagram of P,-Y/RT against I/v for heavy water a~ temperatures above 3500C and densities up to 0.25 g/cm. is given in Fig.2. The experimental values for specific volume obtained in the present work cannot be compared directly with other published data because the range of the experiments is Card 2/4 not paralleled elsewhere. The experimental data obtained  BOV/96-59-4-13/21 U An Experimental Detennination of 'he Specific Volumes of Heavy Water ia the work has been used to determine the sataration pressure of heavy water at temperatures of 300, 350, 3609 369 and 37lvC (see table 2). These results are compared with other published data and it is claimed that agreement is good. The presence of a short horizontal section in the diagram on the isotherm at a temperature of 3710C shows that the critical t6mperature of heavy water is near to 3710C - probably 0.2-0.30C above this value. This is in good agreement with otI-ier published data. Unfortunately, the data obtained in the present work does not uniquely determine the criti~;al pressure,2 though it is evident that this is approximately 223 kg/cm . This is somewhat lower than published values but nevertheless appew~s to be right. The present work Card 3/4  SOV/96-59-4-13/21 An Experimental Determination of the Specific Volumes of Heavy Water confirms that the critical conditions of heavy water are different from those of ordinary water. There are 3 figures, 2 tables and 5 references of which 2 are Soviet, 2 English and. 1 German. ASSOCIATION:Moskovskiy energeti--heskiy institut (Moscow Power Institute) Card 4/4  KIRILLIN. 7.A.; ULYBIN,.S.A., inzh. Thermod7namic properties of ordinar7 and heav7 water. Teploenergetika 6 no.12:77-80 D 159. (MIRA 13:3) 1.9oskovski7 Znjrgetioheskly institut. 2.Chlen-korrespondent AN SSSR (for Kir 1 in). (Thermodymamice) (Water) (Deuterium oxide)  SOV/96-59-8--19/27 AUTHORS: Kirillin, V.A., Corresponding Member of the Academy of Sciences USSR and Ulybin, S.A., Engineer TITLE: An Experimental Determination of the Specific Volumes of Steam at High Temperatures and Pressures PERIODICAL: TeDloenergetika 1959, Nr 8, pp 71-73 (USSR) ABSTRACT: A need was felt to determine the specific volumes of steam at temperatures above 5000C. The work now reported was carried out on the rig of the Moscow Power Institute, which was described in a previous article by the same author. The experimental proceduxe has also been described. The tests were made on isotherms at temperatures of 500, 520, 550, 570, 600 and 6200C. Altogether 70 new experimental values of specific volumes were determined and are tabulated, The results were arranged to overlap with previously published work by the same authors, and agreement is good within the overlap. It is concluded that any effect asso- ciated with hydrogen formation by interaction between the steam and the equipment was not important. The differences between the present results and those of Holser and Kennedy Card 1/3 are, however, mush greater. A direct comparison can only  SOV/96--59-8-19/27 An Experimental Det-ermination off the Specific Volumes of Stem, at High Temperatures and Pressures be made on four isotherms and agreement; Is best at the higher temporatures. For example, at 6200C the greatest difference is about 0.111'o' as indioated in Table 2. At lower temperatures the difference is greater; for Instance at 5000C and 700 kg/cm2 it is about 0,5~~. At the lower temperatures the new experimental data for speeifio volumes and the rounded values given by Holser and Kennedy differ systematically by 0.3 to 0.35% at all pressures up to 700 kg/cm~. Analysis of the experimental procedure and the results Indi-lates that at temperatures of 500 to 6000C the values given in the present work are more reliable than those of Holser and Kennedy. Measurements were also made of the specific volumes of water and steam at a tem*-- perature of 38800. This was necessary ber~ause in the previous work by the same author the results on this isotherm were not in good agreement with the results for other temperatures. The tests covered the pressure range of 130 to 500 kg/cm.2; 10 new e)r-DerJ.mental values for Card 2/3 specific volumes were obtained aad are given in Table 1.  SOV96-59-8-19/27 An Experimental Determination of the Specific Volumes of Steam at High Temperatures and Pressures There is a systematic difference of 0.8% between these values and the previously published results, the former being somewhat higher. It is considered that the new values for specific volumes at 3880C are the more accurate. There are 2 Tables and 4 references, 3 of which are Soviet and 1 English. ASSOCIATION: Moskovskiy Energetioheskiy Institut (The Moscow Power Institute) Card 3/3  I SOV/96-59-9-1/22 AUTHORS: Kirillin, V.A. (Corresponding Member of Ac,Sc, UOSSR), and Ulybin, S.A . ngineer) TITLE: Analysis of the Accuracy of the Experimental Values of Specific Volumes of Water and Steam Obtained in the Moscow Power Institute, with Reference to the Unified Tables PERIODICAL: Teploenergetika, 1959, Nr 97 Pp 3-7 (USSR) ABSTRACT: At the 1958 Moscow meeting of the co-ordinating committee of the International Conference on the properties of steam, attention was drawn to the need for a careful analysis of available experimental data on the thermo-dynamic properties of water and steam, to ensure that the most reliable experimental data is used in drawing up the unified international steam tables. Therefore, an analysis was made of the experimental data on specific volumes of water and steam obtained in the Moscow Power Institute during the period 1950 to 1959. This article briefly describes the methods and results of this analysis. The aceuracy of the experimental data on C d 1/3 specific volumes was analysed both by comparing the data ar of different Investigators and by consideration of the  sov/96-r,~9-9-1/22 Analysis of the Ac-:~urac;y of the Experimental Values of' Specific- 0 -- Volumes of Water and Steam Obtained in the Moscow Powei Inst-lt-utej with Reference to the Unified Tables , differences between experimental values and Interpolated curves based on extensive experimental material. The differences betdeen experimental values and interpolated curves were analysed by three different methods developed respectively by the Moscow Power Institute~ the All-Union Thermo-Te~~hnical Instittite and the Odessa Institute of Marine Engineers. The first two of these methods are graphical and they are briefly described. Some slight Inaccuracy may be introduced by the absence of mathemati~:al treatment, particularly where -the results of different investigators are not in good agreement. Flom this point of view the gzaphical-analytical method of the Odessa Marine Engineers Institute is an improvement ` and it is briefly explained. Experimental values were considered sufficiently ae,-curate and reliable when they differed from the interpolation curves by not more than 0.3%. The results analysed were those published by Kirillin, Rumyantsev, Zubarev and others, as noted in Card 2/3 literature references (2) to 112). It is explained, with reasons, which of the results are considered reliable and  SOV/96-59-9-1/22 Analysis of the Accuracy of the Experimental Values of Specific Volumes of Water and Steam Obtained in the Moscow Power Institute, with Reference to the Unified Tables which unreliable. The results of the analysis of experimental values of specific volumes are given in Tables 1 and 2. Table 1 includes all the values that are considered reliable: Table 2 gives the values of specific volume which are considered insufficiently reliable and which should be excluded from further consideration. In all cases the specific volumes are rounded off to the nearest four significant figures. Card 3/3 There are 2 tables and 13 references, of which 12 are Soviet and 1 English.  UL 66555 SOV96-59-12-14/20 AUTHORS: Kirillin, V. A., Corresponding Member Academy of Sciences USSR.and Ulybin, S. A., Engineer TITLE: The Therm-6-TY-namieproperties of Ordinary and Heavy Water PERIODICAL: Teploenergetika, 1959, Nr 12, pp ??~*80 (USSR) ABSTRACT: As the thermo-dynamic. properties of heavy water have not been sufficiently studied, calculations involving its use are commonly based on tables of the thermo- dynamic properties of ordinary water. Corrections are made for the difference in molecular weight, it being tacitly assumed that the thermo-dynamic properties of ordinary and heavy water are comparable. This is considered permissible because their critical parameters are similar and only small differences have been observed at points remote from the critical region. Abundant experimental material is-available--on -the vapour pressure of heavy water for temperatures below 2500C, and the pressure/temperature relationship is probably sufficiently understood up to the critical region. At temperatures Card 1/4 below 2250C the saturated vapour pressure of ordinar 4_-~  66555 SOV/96-59-12-14/20 The Thermo-Dynamic Properties of Ordinary and Heavy Water water is higher than that of heavy water, for example at 500C the saturated vapour pressure of ordinary water is 0.126 kg/cm and that of heavy water 0.11 kg/ Icm2. At about 2250C the vapour pressures of both materials are the same. At higher temperatures the vapour pressure of heavy water is greater than that of ordiiAary water, and at 3?OOC the difference is almost 4 kg/cm4. The critical temperature of heavy water is 2-50C lower than that of ordinary water and the critical pressure is almost 3 kg/cm2 less. The relationship between the critical volumes of ordinary and heavy water may be obtained from the data plotted in Fig 1. American and German published data indicates that the critical volume of heavy water related to a mole is much less than that of ordinary water; these data are evidently erroneous. Work published by the present authors in Teploenergetika 1?59, Nr 4, gives a specific critical volume of 2955 cm /g. It is interesting to make a direct comparison between the specific volume of ordinary and heavy water at the same temperatures and pressures. Card 2/4 For this purpose there is plotted in Fig 2 the LK  66555 SOV/96-59-12-14/20 The Thermo-Dynamic Properties of Ordinary and Heavy Water relationship between the specific volumes of the two materials as a function of temperature and pressure. The curves are based on the authors' previously published experimental data. It will be seen that -the ratio of the specific volumes does not remain constant. It varies considerably, depending on the conditions at any given temperature. The change in this ratio is the greater the nearer the pressure is to the critical value. As the temperature is increased the pressure that corresponds to the minimum value of the ratio is displaced upwards. Interesting results are observed on comparing the isochores of heavy and ordinary water in the p-t diagram in Fig 3. The figures therein denote the values of the specific volumes for the corresponding isochores of ordinary water. The diagram indicates that the character of the isochores of ordinary and heavy water are quite analogous,both in the steam and the Card 3/4..", 4iquid phases. Analysis of the p-t diagram clearl  66555 SOV/96-59-12-14/20 The Thermo-Dynamic Properties of Ordinary and Heavy Water demonstrates the similarity between the changes in the thermal properties of ordinary and heavy water. There are 3 figures and 5 references, 2 of which are Soviet, 2 German and 1 English. ASSOCIATION: MoskovskL7 energeticheskiy institut (Mo8cow Power Institute) Card 4/4  ULYBINs., P4 9, j,- kande teldmonauk Temperature dependence of the viscogsity of rarefied gas mixttwes. Teploenergetika 9 ro.8:93-94 Ag 162. (MIRA 15:7) (Viscosity) (Ganes)  ;ACCESSION NRI AP4044526 5/0294/64/002/0()4/0583/0561 MORI Uly*bint S. A. AL efied gas mixtures On the temperature dependence of the viscosity of rar Toplofizika vy4sokikh tunperatur, v. 2, no- 4F 19641 583-587 TOPIC TAGS: viscosity, rarefied gasq gas mixture 1ABSTRACTs Previously existing methods for establishing the viscosity of rarefied ,gas mixtures for wide ranges of temperature are cited as inexact, complicated, and jimited in application. Research by the author indicates that simplifications are .produced by considering the component gas Viscosity as well as the mixture viscosity ;at a certain temperature. On such a basis a formula is presented, giving the ,temperature dependence of rarefied gas viscosity with high accuracy. The formula In is III C Vincm Nj where 'qt cm is the viscosity of the mixture for tempera-. Z (1101) 0 iture is the viscosity of the given mixture for t C, 4 t C, _)? ocm 00 ti. and '~oi are :the viscosities of the i-,~h components of the mixture corresponding to temperatures' and to respectively, and N in the mole fraction of the i-th component. The Card 1/2  !ACCESSION NRt AP4044526 iauthor performed experiments to confirm the formula's reliability. Fifteen teeparate gas mixtures in varying concentrationa were tooted for a temperature range: 125-300C. Binary and trinary mixtures were evaluated and toot rcuulto are pro- ;oontod. Further results are shown for mixtures of up to six components. Tabula- ,tion included toot readings and formula calculations of viscosity and the ipercentage deviation between the two. Orig. art. hao, 5 tables and I formulas J%L;,jVVIATIONj Mookovokiy energetioheBkiy institut (Moscow Power Engineering .Institute) ;SUBMITTEDt 230ot63 ENCLI 00; MIB CODE t ME NO REP SOVg 002 005 :Card 2/2,_  ULYBIN, S.A., kand.tokhn.nauk; NALYVEHENKO, S.P., inz~j. -l'. --- -.- Distribution of the denaity of materials along the containtris height near the critical point. Teploenergetika 12 no.IiM,81 Ja 165, (MIRA 18-4- 1. Moskovskiy, energetichenkiy Inatitut.  T. 43635-65 ACCESSION NR, A.P5006299 S/0096/65/000/0-03/0059/0061 ~AUTF.Ok. -Ulybin, S. A.~(Candidatc of tec:,%. ica. scienc.!sJ, X-iysher.,ro, iTITLE: Taking account of the hydrostatic effect in me-asuring the density of'sub- I ,stances close to the critical point SOURCE: Teploenergetika, no. 3, 1965, St3-61 MPIC TAGS- hydrostatic pressure, dens--ty determtnatior, criticall, state variabbi ABSTRACT: Hydrostatic pressure is studied with respect to its efffect 0.) F-le-asur-'sig the density of materials when state variables are close to criticiil. The forTr-,-1i,s 'd s et r,a U 1 ain cx;~ r:- im r, a 1 v as f pp- c i f i c w(- i g h t f r o m e si i Cal a Z 8 -A f-e i.~ d' ,studied ex-periments, are conducted c-lose to the critica-L poinx eter), the density. of the material varies with height. In rA-.is oiase, the l b,-tween -hi mean specific ~feigh-' and the true specific sreight dep,~nds on the Way the ~density is dis-'ribl'-Ite" An i? qpri~~ s -,~r (derived for the critical isotherms. -~C-rd  A Cl Crd 2/2 9OPMOTMOmmyow-mm mynom ~~-  A.; MALY-SHENKO, S. P. IlInfluence of gravitational effects on the density of substances near t;'.e cr.-ILticall point." - paper accepted for presentation at 3rd Symp on Thermophysical Properties, Lafayette, Ind, 22-26 Mar 65. Inst of High Temperatures, Moscow Power Inst, Krasnoksarmennya 14, Moscow, E-250-  L 05o62-67 aT(m)/ajF(t)/ETI __ IJP(c) JDIVdIJGI'.qB ACC NRI AM6013188 Monograph UR/ Ulybin, Sergey Arkhipovich Coolant for nucleax~ power plants e (T plonositeli energeti- cheskikh yadern-yRl-ustanovok) Moscow$ Izd-vo "Energlya",1966. 271 P illus., biblio. 3000 copies printed. Errata slip inserted. TOPIC TAGS: nuclear reactor nuclear, power reacton reactor coolanttliq- uid metal cooled reactor, organic oookd nuclear reactor, liquid cooled reacto PURPOSE AND COVERAGE: The special features of coolants used in nuclear power reactors are presented. The effect of nuclear radiation on the properties of coolants and the corrosion of construction materials in described, and aPfroximate methods for calculating coolant radio- activity are given* A detailed description is given of the thermo- physical,Sorrosive'~%nd other properties of water-, organic-gliquid- metal- and gas-coolants used in nuclear power engineering. The characteristics of design and use of reactors which are influenced by the type of coolant are discussed. The book is intended for students of institute@ specializing in the design and use of nuclear power stations. It can be also useful for engineering-technical personnel working in industry and design organizations connected vith nuclear eng ineering. 1/4 UDC: 662.98Tt621.311.25  ACC Nit, AM60131 TABLE OF CONTENTS: Foreword -- 3 Introduction MI. General Production.of Coolants 1. Some data on construction and operation of nuclear power rose- Bibliography 2j, 2..Characteriatice of heat conversion in nuclear pover plants -23 Bibliography -- 48 3. Interaction of neutrons with the nuclei of coolant .- 49 Bibliography -_ 62 4. Thermophysical properties __ 62 2/4  L O~~2-67 ACd_N_R:_AM 0131 Bibliography -- 91 5. Corrosive properties -- 91 Bibliography .- 119 0 6a The effect of radiation on coolant properties and corrosion 120 Bibliography -- 139 T. Coolant radioactivity.-- 140 Chell, Individual proper.ties of Coolants 8, Water 161 Bibliography 187 9. Organic coolants 187 Bibliography __ 204 10. Liquid-metal coolants -- 205  ACC NRt AM60131 Bibliography -- 251 11. Gaseous coolants -- 252 Bibliography 272 S-UB,CODE: 18/ SUBM DATE: 27Jan66/ Cord 4 14 0 ORIG REFs 054/- OTH REF: 005  : VIL /X111/im L 23274-66 - EVIT(m) .1 ACC NRt AP6012677 SOURCE CODEs UR/0170/66/010/004/0482/04116 AUTHOR:. Shteynberg~ A. E.; UjXk!nq V. B-,' Barzykin,, V, V,,; He,=hanom 'At Go ORG: Branch of-the Institute of Chemical Physics.,__AN SSSR,_ Hoscow Oblast (Filial IasS4tuta khimicheskoy fiziki AN SSSR) _j&nition'of condensed substances at a constant surface. ,TIT LE: temperature SOURCEt Inzhenerno-.fizicheakiy zhurnalf v, 10, no, 4. 19669 482-486- TOPIC TAGS: ignition delay, condensed explosive, surface temperature# pyroxylin ABSTRAM To.verify the previously postulated theory of the ignition .of condensed explosives (Averson, A. E., Barzykin, V, V., Herzhanovq .A. G. IFZh, 9,'No. 2, 1965), the ignition of p ro 11charges xmxisa_H24_~ having a constant initial surface temperature (Ti - 255-369K) by con- .tact with an aluminum block with a varying temperature (T. ~ 485-525K) wa studied Iexperimentally using a specially developed experimental unit (see Fig. 1). The-initial temperature of the pyroxylin was set by a thermostat-g-atid,the temperature ofthe igniter was set by a current control system, -The-.-Jgnition delay- ti--; was,visually observed 536.46) I Card 14 UDC%  L 23-274-66 -kc-C AP60126W_7~ 12 Fig. 1. Experimental unit for 2 studying the ignition of con- explosives by a hot Tr body -220 V 7 1 Aluminum block (igniter); Pt resistance thermometer; 12 5 14 3 heating element; 4 Pt- TPt-Rh thermocouple; 5 thermo ;Stat; 6 - steel*cylindero t7 - jacket with heat transfer It, ;agent; 8 - charge; -9 - texto jite plate; 10 --~'lifting.device Ill - ebobLts sleeve; 12-,, 13, 114 - current control systems, - transformer. jTr .-Card 2/4  L 23274-66 ACC NR, AP6012677 rer, 2 2.4 120 160 200 Z40 70-Ti is zX Ix. Fig, 2. Dependence of the igni- Fig. 3, Dependence of the tion delay time on the initial igniti;n delay time on the temperature temperatuie of the igniter (t. in seel T6-Tj in OK; To 489K) Explosive charge 12 mm in diame-ter; 2 - charge 18 mm in dLameter; (tz In sec; To In *Kj Tj 293-298K) Card 34  --- L-23274-66 -ACCNRz-----AP60l26 77 and recorded usLng a stopwatch. Thetemperature of the ignition block was varied to obtain an ignition delay of 3 "20 sec. The experimental data were treated by an equation derived by mathematical transformation of the published theoretical equation for tzo The graphed results (see Fig. 2 and Fig. 3) show satisfactory agreement between the theoretical and the experimental data. The activation energy calculatk from the graphs was found to be 200 kj/mole. The authors thank -B, M, Dmitriyev and 0, Ao')Kochetov for their assistance in settLng*up the apparatuai orig, art. has: Igures and 3 formulas. (PSI SUB CODE: 19/ SUBM DATEI 3lAug65/* ORIG REF s 004/ ATD PRESS:Y,2jjt' Card 4/40v~.  VLYBIN, YU. X. AuWors Mybint Yu.- Titlet Toward the collective Stachanov methods. -(Kollektivnoi stalkhanvokoi rabote.) 21 p. 4 Citys: Penza Publiahert Penza local Publishing Ifouse Datel 1950 Aranableo Library of Congress Source& Monthly JAst of RusUan AccessionD., V. No. 2., I~a7 1951, p. 103. Call Not T6102O.U49 Subjectz I*' Xuznetskaia obuvnais..Cabxika kuznotsk- 2,. Stakhanov mvers-ant.  UU1;L-A, I .H. - "'ilia oonoaction UIC, v-00tative 2orip~icral nouroll wid Lho contral nervour, c;ystem.l' baningr.~id, Acad Sci U"J.1, inst of imeni 1. .1 Pavlov. ( Di o s e r tu a t i , n s f :~r d e, e e 0 f C a r-d i,~. t;a laf r, SO: Kri-:).Zlina- a lotopislj, lio Vi. 2b- Homitor jl,i'55, rio-Wolvol.  PAMAZANSKAYA, L.P.; ULYDIM, I.N. Activity of the phosphataves of the brain in rats after whole body X-ray'irradlation. Nauch. ooob. Inot. fiziol, AN SSSR no,1: 172-17/t 159. (MIRA 14--10) 1. Laboratoriya radiobiologii (zav. - D.A.Chetverikov) Instituta fiziologii imeni Pavlova AN SSSR. (X-RAYS-PHIBIOLOGICAL EFFECT) (PHOSPHATASES)  GASTEVA, 8.7,; KAMNOVSKIT, 0,V,; POKAUNSKAYA, L.P.; uLnrNA, i.w.; OMMMIKOVA, D.A. t Iffect of ionizing radiation on certain aspects of the phosphorus metabolism of the brain. Trudy Inst.fiziol. 81533-542 159. (Km 13:5) 1. Laboratoriya radiobiologii (zaveduyushchiy - D*A* Chatyerikov) Instituta, fiziologii im. I.P. Pavlova AN SSSR (PROMORUS MITABOLISK) !Builo (X RATS--PHYSIOLOGICAL 27731M)  CJ!ETV.P11(XV1)-D. A.-; UOPIDTA, "The influence of hypoxia on the histoche-mical d-istribut-i-On of nervous cells of rats." report submitted for 2nd Intl Cong, Histochemistry & Cytochemistry, Frankfurt, 16-21 Aug 64. Pavlov's Inst of Fhysioloay, AS USSR, Nab. Makarova 6, Leningrad,  ULYBINA, IoNo Use of Nile blue sulfate for determining phospholipids in the central nervous system cells. TSitologiia 7 no.6t764-766 N-D 165. (MIRA 1911) 1. Laboratoriya regulyatsil metabolizma mozga Instituta fiziologii AN SSSR, Leningrad. Submitted October 5, 1964.  ULYBYSHEV) is Let us mechanize work which takes too much time and human energy. Tr. from the Russian. p. 21. Vol.6. no* 10, Oct- 1955 MASHINIZIRANO ZEMEDELIE Oofiya, Bulgaria Sol Eastern i~~ean Accession Vol. 5 No. 1 Jan. 1956  US,m#-'arra Doc Abs Jbiw Author LaybynhQV P.V. X.A. 'Pit Titlo 1lc,L;boC.,3 o,:' Obtair.-inr; I[IJI, lf,)ncy Yiclda in Tx~fbovsllnya Obl--s'U- 4 Orig Pub X~!:l. En~,It. in, il.-.:,. Ti!-LLry,-zc,,rl-, 1.957; -.-Yi)- j-01, 2y 311-314. A73stract IJ.I)crration of q(D bc;c in ci wocdL~n 'Zo,-sc "C., took placo favor.-Ably.  ~Jll,~,~;,)~-',!~- %- '- ~f I ~ .~l " .", ~ : . -. , . ~.. : _; I i . ... -0 UIMYSI-WIA, -~:- A- screbrallny,.fa razopa ii 'Orl sYlJnO'--' -tife' Uclen. za~lslld 21+381 ljI:LBY31lIEVA,-l,-',--A. T - t - (Odos. Goo. nauch.-isolled Psil-chonevrol. Il!-T), TLI. 1, 1949, S. 177-~-~!- SO: Lotopis, "o. "2, r)4r).  ' " r -- '%, f- '- e .".1 1- 7 . r- I ~ cx , - - - 'r - - - , ULYBYSMVji, M.A., kand.med.nauk Rosistance of the skin capillaries in cerebrel va---,ular h7per- and hypotension. Vrach. delo ao.12:1291-1295 D '57. (MIFA 11:2) 1. Odeaskiy nauchno-issleclova tell skiy, paikhortevrologicheskiy institut. (CAPILLARIES) (BRAI14--BLOOD SUPPLY)  BILTAYBY, I.T., assistant; ULYBYSHEVA, Z G., vrach Result of postgraduate training of obstetricians and gynecologists through short courses* Sov*zdray. 16 no.4:27-28 Ap '57. (MIRA 10:8) 1. Iz kafedry akusherstva i ginekologii (zav. prof. I.D.Arist) r-helyabinakogo meditsinskogo institute (GTNECOIA)GY, education. postgraftate in Russia (Rus)) (OBSTBTRICS. education, same)