SCIENTIFIC ABSTRACT LURYE, L.M. - LURYE, M.I.

LURIYE, L.M. Metasomatic zoning of aureoles in the Zambarak deposit. Geol.- rud.mestoroah. 5 no.1:17-33 Ja-F 163. (MDU 16:3) 1. Institut geologii rudTWkh mestorozhdenty, petrografii, mineralogil i geokhimii AN SSSR, Moskva. (Kara-Mazar Mountains-Metasomatism)  LURIYE, L.M. Drying of a pyrite concentrate in an enlarged laborator7 tube drier. Sbor. nauch. trud. Gintsvetmeta no.19.-484-492 162. (MIRA 16:7) (Pyrites) (Ore dressing)  LURIYE, L.M. Some phenomena of ore metamorphism in the Zambarak deposit (eastern Karamazar Mountains, Central Asia). Geol. rud. mestorozh, 5 no.6:93-95 N-D'63. (M--LPA 17-,51) 1. Institut geologii rudnykh mestorozhdeniy, petrografil, mincralogli i geokhimij. AN SSISR, Moskva.  LURIYE,-L& Me . . I I. 1. - "Data on the Characteristics of the 14crpholcZy and Imunology cf an Ey- perimental Dysentery Infection (Shiga)." Sub 3 May 51, ficad Med Sci USSR. Dissertations presented for science and engineering degrees in Moscow during 1951. SO: Sum. No. 480, 9 May 55.  IISSR/Siology - Microbiology, Vitamins Mar/APr 52 "Significance of Thiamin for the Formation of Ace- tome by the Smooth and Vane-Shaped Varieties of Bac. acetoethylicus," N. D. Yerusalimskiy, L. M. Lurye, Biol Soil Sci Res Inst, Moscow State U imeni 14L V. Lomonosov "K:Lkrobiol" Vol XXI, No 2, PP 155-150, The smooth variety of Bac. acetoethylicus (1) forms more acetone,than the vane-shaped variety (Il).~ I does not require thiamin for the formation of acetone, while II does. Thiamin plays a specific role in the formation of acetone, but not that of UM/Biology - Microbiology, Vitamins Mar/Or 52 (Contd) alc: Both I and II form alc equally well independ- ently of the dosage of thiamin. One must ass that I has a better developed capacity for the in- dependent synthesis of thiamin than II. 210T1.1 C  y T e rl -7,~Ctjveness of I C_ Letc)-ds I cr :;o. 2),~ j,,  zlV 4J~Z- - %7~ oduntlon of md1dacif7cs (za 11TAmliov, V.A.GotaTtsava, 1. Z. M- 11 ~ k4va, L.M.Lur'e, N. A, Kiw~chccv,amd.A- 1-4. ~T'C'rlashcva. Att.'Watiki I NQ 4 ~"led'-am M's b- deVtIOW ZCh LA a Inla. 8 CC:;Z"t, SUMCICnt tO allOW !ht S is -,ni In he KjtUWtIOfl Of MOre Lban N"' Df 010 , (.4 SO'- J, t nutrient for tho b1my-mbf- lq of pen-killin. The prowts =dr It pomible tG Prq-,3rm p~nidufn, ccnt#. labcltd 814), with r. rsdlk6icd-y4-' of 5-a ;;-i, c.1g. (Cf. CA, 48,-  LIVITOVO N.M.; GIRKASOVA, K.L; TOVAROVA, I.I.; BYCHKOVA, N.M.; LURIYE, L.M.; Munymov, P. S. Physiological characteristics of various strains of Penicillium chrysogenum; effect of the composition of the medium and of fer- mentation conditions on penicillin synthesis by strains Rev Type 24, E[ybrid-31 and B-51-20. Antibiotiki 3 no.2:3-7 Mr-Ap 158. (KIRA 12:11) 1. Vsesojuznyy nauchno-iesledovatellakly institut antibiotikov. (PZNICILLIUM. culture, chrysogenum, eff. of medium composition & fermentation on penicillin synthesis by various strains (Rue))  LURIYEg L.M.y kand.meditainakikh nauk Protein metabolism in tuberculosis under experimental conditions. Azerb. med. zhur. no. 8:19-25 Ag 160. (KIRL 23:8) 1. Iz Respublikanskogo..naiichno-issledovatellskogo *stituta tuberkuleza (direktor - kand.medktainsklkh nauk A.D. Nurmamedovs nauchnyy rukovoditell - prof. A.Ye. Ter-Gazarov). (PROTEIN METABOLISM) (TUBERCULOSIS)  LLVITOV, M.14.; LURIU, L.M,; ZAVIUYSKAYA, G.F. Role of precursors in the biosynthesis of penicillin. Antibiotiki 6 no.l2slO58-1063 D 161. (MIRA 15:2) 1. Vsesoyuznyy nauchno-issledovatell(3kiy institut, antibiotikov. (PENICILLIN)  LURIYE, L.M.- ALIKHANYAN, S.I. Formation of penicillin through uninterrupted fedding of carbohydrates into fermentation media. Antibiotiki 7 no.1:31-16 Ja 162. (MIRA 15:2) 1. Vsesoyu .nauchno-isoledavatellskiy inatitut antibiotikov. M7 ICTI.I.T ) (GARBOHYDRATES)  I. L.URIYE, L.M.; IEVITCV, Penicillin biosynthesis by highly product-i-ie strairj rjf Penicil.'11am. chrysogen# on tradia with different carbohydrates. Antibiotiki 9 no.g., 677-683 Ag 163- (MIFLA, 17; 5) 1. Vaesoyuznyy nauchno-Issledovatel'sklLy institut anzibiottkov.  LURIYE, L.M..;~ILLMt~,-..k.m. -pes of perjl,~-Jllin by active stre-Ins Formation of diffdrent ty of.Peni,ailllum clirjsogenum. Mikrobiologiia 32 no.2-.308-3-15 Mr-Ap 163. MERA li-,g' 1. Vs.esoynnyy nauchno-issledovatellskiy inatitut antibiotikov.  IURIYE, L.S. , kand.tekhu.nauk; TER-SIMONYAN, L.G. Possibilities of using gamna. rays for disinfecting soils and controlling clubroot inBrassicaceas. Dak-I.Akad.sel'l-bon. 24 no.6:28-29 159. (MIRA 12:9) 1. Vaesoyu%Wy nauchno-iseledevatellakly institut elaktrifibq, - toil sel'okogo khozyayetva i nauchno-issledovatellakly institut nvoshchnogo khozyaystva. Prodstavlena akademikom H.G.Yevreinovyw. (Brasuicaceae-Diseases and pests) (Gamma rays) (Soil disinfection)  USSR/Electricity- Trazsmission Systems Jan 51 Power, Apparent "Apparent Power of Three-Phase Systems," L. S. Lurlye, Cand Tech Sci, Moscov "Elektrichestvo" No 1, pp 47-53 Examd apparent power of 3-phase syst, defined as max active power which may be transmitted for given voltages and line losses. EstabliskLed relationship between apparent power of 3-phase syst and active and reactive powers. Introduces 1811*30_ USSR/Electricity - Transmission Systeme -Jan 51 (Contd) IL new criterion of asymmetry -- power of as tr YMMe- .Y.v which determines directly losses in the S.YSt caused by asy=etry at receiving end. Sub- mitted 18 Apr 50. 181T30  S. USSR/Electricity - Distribution Systems Mar 52 'Tower Factor for an Unbalanced Load on a Three-Phase Network," Cand Tech Sci L. S. Lur'ye, All-Union Inst for Electrification of Agriculture "Elektrichestvo" No 3, PP 52-58 Fimmintis existing methods for detg power factor. Power factor of an arbitrary load on 3-phase net- work is defined as ratio of effective to apparent power of 3-phase system. Demonstrates expediency of representing power factor as product of unbalance and phase difference coeffs. Submitted 27 Sep 51. 24~  YUR)(11 > L. S. Electric En!~ineerim-g u ~ I L I I - I L, I Problems in the analysis and calculation of irre-ular of no-..rark 1 1.0 With the utilization of power fro;.,i non-a.nuimetury, Enpr-. 'u-i-al. 77 . 2., 1'J5.3. 9. Monthly List of Russian Accessions, Library of Congress, May -1953. Unclassified.  KITZiKU. A.Y.; KARMA. 1.A., inshenar-, LURIYX L.S. kandidat takhnicheakikh nauk; RMIXOT, G.R., doteent. kundTVffeZ29--TcIwskikh nauk; KrAzIg-S&O, Z.I., dotsout,-kandidAt takhmicheakikh nauk. Remarks on the textbook on theoretical electric engineering for higher schools. Blektriohestvo, zo.12:70-72 D 133. (MLHA 6:11) 1. Ivanovskiy energetichookly Institut im. Unina (for Metalkin and Xarpova). 2. VaesoyusW nauchno-iseledovatel'skiy institut elektrifikatsil sel'skoge khoxyvst7a (for Iurlyo). 3. Sradneasiatskiy politakhalchookly institut (for Rakhtmov). 4. Axerbaydshanskly industrial'W institut im. Azlzbekova (for Kyaziin-Ude). (Zlectric engineering-Taxtbooks)  AID F - 788 Subject USSR/Electricity Card 1/1 Pub. 28 - 3/5 Author : Lurlye, L. S. Title : Determination of power factor of a non-symmetric receiver constituting part of the load of a three-phase circuit Periodical : Energ. byul. #2, 15-25, F 1954 Abstract Graphical and analytical determination of power factor is given for a non-symmetric load circuit connected to a balanced three-phase line. 6 vector dia$rams, 2 merical examples and 2 Russian references (1948-1951). Institution : None Submitted : No date  TAVROVI Y.M., kandidat tekhnicheekikh nauk; PMMXALIN. M.A.. professor; LTJRIYJK, L.S., kandidat tekhnichookikh nauk. Remarks on B.A.Teleshev's article "Necessity of making terminology concerning the measurement of reactive power more precise.* Xlektrichestvo no.4:77-80 Ap 154. (MMA 7:5) 1, Kookovskly elektrotekhnicheskiy institut ovyuzi (for Lavrov). 2. Moskovskiy energetichaskiy institut im. Holotova (for Perekalin). 3. Vsesoyuzuyy nauchno-iseledovatellakiy inotitut elaktrifikatsii sel'skogo khozyaystva (for Lurlys). 4. Kookovskly Inzhenerno-ekonomi- cheskiy institut im. Ordzhonikidze (for [professor] Talashav) (Electric engineering--Terminology) (Teleshav, B.A.)  ~-Vfiil',F-I 4-15. VORONOV, R.A.. professor, doktor tekhnichookikh nauk; PMMOV, G.Ye., doteent, doktor tokhaichaskikh mmau ; LURIYE, L.S., kandidat takhnichookikh nauk. ~ Aoarent capacity of an electric circuit. Slaktrichostvo no.4:81 Im '54. (MM A 7: 5) (Blectric circuits)  BALITAK, R.Kh., inzhsner; LUR07E, L.S., kandidat tokhnicheakikh nauk. Terminology of theoretical electric engineering. Ilaktrichastyo no.5: 84-85 M~- v54. KRA 7:6) 1. Zavod im. Kalinina MEP (for Ballyan). 2. Vaesoyuznyy nauchno-iseledo- vatel9shly institut elektrifikatsil sel'skogo khozysystva (for Lurlye). (NIectria engineering--Terminology)  GLEBOVIGR,.A.A., kand.takhu.nauk; LURIYE, L.S., kand.tekhn.nauk Regulating the excitation of generators of rural hydroelectric power stations. Mekh. i elek. sots. seltkhoz. 16 no.3:39-42 #58. WRA 11:6) (Electric generators)  LURIYEP L.6., KHRUSIMUN, V.G.; YELISEYIEV, V.S.; KU7,NETSOV, S.V. Irradiation plants at the All.-Uni-,n Scientific Research Institute for the Electrifi(,ation of Agriculture. Atom. energ. 19 no.2:212-216 Ag 165. (111RA 18:9)  ARKIIIPOV, V.V.; LURIYE, L.S.; IIROKOF'Yh;V, N.S.; KHFULISHCHEV, V,G, Prospects for the une of radiation 3terilization in 7eterinary medicine. Veterinariia 42 no.32;82-84 D 165. (IMIRA 19-1)  -W, ACC NIZI AP6009888 SOURCE CODE! uR/0413/66/000/004/008010081 INVENTOR: Gerasimov.-A. Yo.; Khrushchey, V. V." L!jCyL!., L. Z.; Shtartm, Yu. P.; Ivanov V. V., ALn..~A 1jqk ORG: none TITLE: Device for the display of voltage curves on the screen of a cathode-ray oscilloscope. Class 42, No. 179019 [announced by the __EgLo_rLt_aja__SPA (Spetsial'noye Konstruktorskoye byuro AN Estonskoy SSR)j SOURCE: Izobreteniya, promyshlennyye boraztsy, tovarnyye znaki, no. 4, 1966, 80-81 TOPIC TAGS: oscilloscope, data display, visual signal, display device ABSTRACT: The Author Certificate introduces a device for displaying voltage curves o Ian oscilloscope screen. For enhanced speed and occuracy, the electronic switches are fitted with elements which correct the characteristics of the pickups and the tubes. A contactless ring distributor of rectangular pulses is included; it is-synchronized by the voltage of the generator which feeds the pickups. In order to move the cali- Card 1/2 UDC: 681.14  T. >;)4m -66 CC NR. AP6009888 7 13 Fig. 1. Display device 1 - Electronic switches; 2 pickups; - oscilloscope; 4 - calibration 3 picku p; 5 delay unit. bration pickup is connected to the electronic switch through a controlled delay unit, (see Fig. 1). Orig.,art. has: 1 figure. (DW) SUB CODE: 09/ SUBM DATE: 12Aug64/ ard 2/2 A&d  LURIYE, Leonid Zinovl,)~ech; SERGEYEV, I.V., red.; SEDOVA, Z.D., red. ------- ~- ~z-va; ~SHIB~KOVA, MYe., tekhn. red. (New methods for butting lumber]Novye metody tortsovki piloma- terialov. Moskva, Goslesbumizdat, 1962. 32 p. (mia 16:3) (Woodworking machinery)  -LUROYE M. insh.; AMIRDZEANOV, S., inzh. 17~~ Industrial method used in pipe laying for cold storage installations. Khol.tekh. 37 noo4:42-44 JI-Ag 160. (MIRA 13?11) 1. Orgproyekttekhmontazh Ministerstva stroitellstva RSM (for Lurlye). 2. Tsesoyuznyy nauch=Pissledovatellskiy institut zholeznodorozhnogo transporta (for Amirdzhanov); (Cold storage warehouses)  LURIYE, M.A. Constructicn Industry- Finance Imnrove the system of financing constructi(n. Gor. khoz. I-losk.,26,no. 7, 152. Monthly List of Russian Accessions, Library of Congress, Octobir 1952. UNCLASSIFIED.  LURIYE2 M.A.; VEYKHER9 A.A.; MAKEYEVp V.I. 9 red. isd-va,- IYERIJSALIMSKAYA9 p tekbn. red. [Quality required by industry in mineral raw materials; a bandbook for geologists] Trebovaniia proavahlennosti k kachestvu minerallnogo syrlia; spravochnik dlia geologov. Moskva, Gos. nanchno-tekhn. izd- vo lit-ry po geol. i okbrane nedr. No.7. [Quartzite, sandstone and vein quartz] Kvartsitq peschanik i mbilInyi kvarts. Nauobn. red. A.A.Veikher. 1961, 38 p. (MIRA 14:8) 1. Moscow. VsesoyuzxWy naucbno-issledovatellskiy institut minerallnogo syr1ya. (mineralogy)  IXRIYZ,'M.A.1 I.INDEKANq G.V. --------------- Trunk pests of the Daburian larch in Transbaikalia. Izv.Sib.4td. AN SSSR no.2:13.&-120 161. (MA 14:3) lo 5-ya Mookovskaya aerofotolesoustroitellnaya ekspedithiya. (Tranobaikal-ia-Iarch-Miseases and pests)  LUR I YE, 14.A. *,,-~_- Bark b'attlen (Ipidae) of Kemerovo and Novoaibirsk Provinces. Izv. Sib.ntd.Alf SSSR no.4:119-124 159. (HIRk 12110) 1. 5-ya Moskovokaya ae4afotolesoustroitelInaya ekspaditsiya. (Kenerovo Province--Bark beetles) (Novosibirsk Province--Bark beetles)  __ . "Bark and timber beetles infesting elms in Stalingrad Province, Ent. oboz. 37 no. 2: 294-307 158o (MIRA 11:7) 1. Kafedra entomologil Moskovskogo gosudaretvennogo universitata, Moskva. (Stalingrad Province--Borers(Insects)) (Elms--Diseases and pests)  TISHCEMO, I.T.; SHOGARZEZVWATA, Ta.M.; SOFITANED. I.Ta.; KDRSTANTINOTA, A.A,-.. LURIYJ, K.A, Ob the problem of the etiology and epidemiology of intestinal dysfunctiois induced by pathogenic Moberiobia coll. Zhur. mikrobiol.,.epid.i imman. 30 no-12tI15-117 D-159. (MM 13:5) 1. Iz KIMskoy worodskoy annitarno-epidemiologicheelcoy stantaii.. (IISCTMR IL COLI rKMTIM in inf. & child)  * 0 & 0 0 * 0 0 0 0 a 0 * 01 *:::*Ooooooooooo 6 00 0 . -1 4 1 t I - ~ 000 0*'* 0 0 4 0 0 1. ~ I I . ~ . 11 U n A 0 If AI AD $1 v u M 44 11 410 A v A 1. -A-J~J it r a II VT AA 00 OC 90 Uit W411 1 (_6 0 00 1. 1 D fl go 00 00 so go 0 00 -WYlt lot F0lYM4XfUdW of Win _y1 (butadjone) famed by VIMYRS ' Of ~trd#m ftSCtIOQ5 d V I M A k Si h 0 A K L 1 00 - t an . . . . . aw. ow( ut gnatyu u 1 32. P No 12-141 3 i Ade ti f th d i i j j b -00 , - scr on o me s o lt on r . ut Wymel ut,liene rml)lnvr,l by p 00 00 the U. S. S. R. synthetic rubber Industry. For ixaynwrization of Insts,lieur flan III, 00 t I(Xj* t Is W d l toti a an utu 't atm. Pressure with stirting. For polymetizAtiou of bwi- t l b fi f l h f 11 011 lli N i l IN - ut rwi viv i o 1 sucta c a y pyru ys i emp oyed u a catalyst and the " ii carried out at 60--tio anti 4 atm. pressure. James Soritt =#6 of 00 0 r. o o 00, coo 49 0 4 00 S 0 0 go vdl go 00 00 ;%0o Of Coo 00 00 1 LITF0411411 CL&SUPKATION 00 1 7-. too 00 It 1,11'A, %few0 1 a IM Isa 1 1. a n to ty o 0 0 o 0 0 0 0 0 00 0 0 6 0 0 0 0 9 0 0 0 0 0 4 000 o o 4 00 0 0 * 0 0 0 0 0 000 -0-0 0 0000 000 000 &0 00 0 00  0 0 10 * * * * * * * * * :11: 16 0 000 00 0 see q 0 0 n A A ft m & I IAAN%to ti h b '00 A The status of the juvatlun of the tichnIcal synthelds of -00 blact. %I. A. Imi -J. helm. JNJ 01--) 1011. o. 400 St W 0, tit 0 tie 0 A S 0 -L A MIIALkUNCKAL LITIOAT&dt CLOSIVICATION 9 9141, #,)-A'- we 0 go&W do -0.. is. An 14 'A u t U is A, ft it dc I if or Lo a I 0 0 0 0 s4'4 0 0 0 00000 00 000 0 0  o4 ooO O1:' O:::::* 0 0 0 0 0 0 O # O 4 1 , 0 , IIIA S A I 1 9 It it 1) U 14 M1 117 "a 114 11 211 NXII U0 , 'k "t I 8 00 . 1 0 11 U . A - F I I , IF . 0 ALA L -1 _6 - JL-J A--k Is M . . . 1 0 1, YA-M a cc a It 0 , t It .. 00 CIA a chloride and dientni. M. A. Lur'e, %I. N. compol-or Irom ine mist. oa the coi pol. with thr liquid n 0 Clustov and %I. X'"IMWn"wrt. Sintet. 0 V 3,,xeum contir lion of the bivinyl in soin. One g. Cu.Cl, In 0o C, . . , No. 1;, 13 IM1934); Che,". Zen$,. 1933, 1. Kauckuk J satd. C. water. 37 g. Ntf.Cl, 3t) S. euCh) all 1 0 . -Tho, darm in the literaturr tin the one of curcl. writhed W- cc. or M mg. of bivinyl at rown ternp. arlid . l and purifying of dictur ,,fnjxI4., especially For 11M. Vtglrx normal prevalne and IN1.4 cc. at S . The addit. of c~em :: i ~ l! CthCh in the soln. of the Wt in NII.Cl soln. inctrawol f "t'ing. 7W', Invulyl in 8414111. 1'. p-lid.01,111trit-fir A can ltli%l the amt. o abnowbrol havinvi. In pure aq. vuspenjitirt the -00 00 4 . St. Illude its all Ot.%Ut alip. a %,&it], " ric For 1111. V%Jlti hivinyl is Mostly ahsorbont: however. poractildly 1 1,4. 11 & . Aq. CACI, (11-11) water. 441 Cacti. IWJJ'Cl'j 1- of ~UXI- in rillf of hivinyl is abuirbed by I moI. of CutCh in such a case. 4 .00 00 . If TIC NH4CI therefore only accelerated the reaction. Mae,- gee served as absorbent. At room temp. the soln. absorbed over, air-dried CuICIs powder ainciehil lAvinyl with rise I I. temp. and encrurtai ion of I Ile malis. (hie 1. of water at I n I =00 b-p- 72 vub. % of the gas mixt.; with repeated nor the a f abarichil I&I cor.. 1 1, of Alk. ah"Ils I., I ~ of I N 1300 During the course o live capacity gladually decres". C41-foOlfatinoths4AII.olbivinyl. It itirrorummendrd that the abwrptkm their is formed a light yellow cryst. ppt the liquid "vents for CuItUll he reptal-ed by wAid juriefs. ate 00 a Ch.C.ffi. The absorption capacity of of The compri. Cu f as pumice strine. Orientation invesfigatimm are reported 7 too 00 the cum, MAri. in general decreasins with de"case o and also with decrease as mist rt in The bi j l I on the absorinign of poperylene and rred'apentadlene by th CuC1 (1 NII h i hi h 0 a . . conci v g ,he ay III the CIhCI, cmicn. of the soln. N&CI or NH4CI can be e so n w l.. c , , prits. of the MmpIr% Cu coni are likmiw formed. one g. of olitl CurCI, 2 sr* 00 X iused in place od the C&CI, in the prrpo. of the CUXI, ir alitiortm Ill cc. 10,11., 74 cv. C,11, ¬ I:N cc. vinylao,,ty- :gas. The ratio CuM,-.NH#Cl is essentially ituptirtant. Iffic. .4 00 00 1 The greiller be am,. of CuICIt in relation to the I%'H4CI 1 the "Irr The amt. of complex Cu ctxnpds. formed and to 93' amres complete selin. of the tAvinYl tin Il see ~ it. a 1 Ca g III: sign. The action of various Salts and bases- 8-9 8*0 ~ do :1 ; CACI,. KBr. FeC16. CuICI, and pyridific. N&CI, NH.Cl. we t f of the complex CIA compol. Ile produm dmimpri. --00 I c.9 either from the. solill d.ouble hivirso cask bc diotd. . "TALLURSKAk LITCOATURE CLASSIFICATION 9-2- &it 4-t UsAV to 11 axw Fruit n 4 0 a a I Air a 0 arrow" 114 3 0 0 :0 to 10 0 0 : 0 0 0 0 0 0 0 0000 * 0 0 to ~ 00000000000000*00000000000000000 : 00 00000 0  P r. is s I v Y me cc UP It A The separation of 1.3-butaidlionle tmm with tht- help of the Oibbs phase rule. It a as shown that 00 drwarbous througb dw forawflou of door beginning, r. to., with a Kaq "inig. 30% C.11. the shom p. C b(thec lIV = th"l ll 00 l o i l butdollplair W N. %I,&, ' PICIely Alvell Ip doolain in drem"Im S A h t J rk 00 2: . .1 us 6 usirl . filiell.w. s v am St. Pit. Mends , 14 ('him. lent? 1933. 11, S; 27, air not millsol.h. Is" Ilse vot-11,1k,ul Ill, Nis. it 00 64 , c(. plecTifillot atisil.- covic'". of the butatfictiv III Irtun ' Pfrwlxv W VIRYLI(etirleur Ilb ill Ilse xAKN tit pemilruin .0 as the saws of petroleum pyrislv%in pfrwn1% t"t-oh-fable IMAYsi-6 1114k" the ivshotion tit I dift-ult hm-mile thi, 00 difficulty. I f.wioi% a emiptrit evirvirid. with Color which coonlid. likrwic mijobilim will, Cu,Cl,. In Nit, MAn%. ti -046 00 Z; has, the c4mipii. CoXh.C.16.411,0 it CIICl,.C,11, ar.1 I_ cu,cl, com"It 11 (mill. A difIficuilly .4. yell- 1,1,1. -00 , cordons oil the cim(fitumn tit the resictism. The tractitmi I* w hich (Irvolillmes ISIM)n locating; in e"Il"I MAIIN ill 00 : 00 E ; . . 2,Nff.CuCl, * C.11. CtjClt.C.11. I- 2NII.Cl. The Cu.Cl. 11 does not foot,, a ppl. hot lxv=lies Lopped in the go jf~ . reparlorm is revrimisle; the (lc)tihk- compd. i% dermsolid. 1)v 010 ther liquor whik- butallicne-CujoCis spips out In this - *0 . . I Ilse actlim of Nll,cl. Fm Illio fea.m lite vehicily 4 .. '14-clespiw% 4. lite bov Yit ix.4--ible (is %,I)- the2hydr,warboliq Wh to I I W the .1."1144' vinulwi lio f . ormsi n hydrok-al I Kill 111111'.mr, allivior. of 1.1 dr? 111"In 40CUICII, 11 h4v%%-vvr * ' rsavl6vo CI M N11 60 e . , 4 %efv well al-11xil hy dw L ,j.L J,, If A o,jht, .I jtAm_l% a Very well It ei,-- ~41.1 C11.0, 1, is, tile ... ... It Wilt, wat 1k,11. M . I the "llivo, 11.110, 1, mill"vir'l I., so'l ... I ! NII.CUCI, .1 that thitstish Ilse ftibi. if ths, CuiCiv the Ilse -1111 clist'l. 11 14 fil'A "Illy it) it vrly %light dealer - ' i, nIA11111141411 At 0 C011.1t. IrVrI. I'lic, CuCI of NII Of 4 nins n. , , File purrm 1. tlicteflisr, i4 tljAt W111,11 ILA, I)rvn alj,jw1.,I 1. ( l y , dimble i. 0 ImIv lit-Wor jN)w.Ivr muellitill faint trdct Woo 11 1 he Wild 0I.Cl. Ill I he %alkll (..Ill %I I. %I _11110 00 , 0 0 ~ . U Is liKirt" will, ss -habily -,im,kv flause piml i. iml , ,. plK.1"I I-V livalmol. toe. Dur conslid. vall I.- .00 _ : : kept Indetitlilt-tv lot a vh~f vrcwl. It i. bv .*0 00 irmoom air. When treated with cooled. NILCI or alkali 1 *0 chkoride *phth.. I is vv,4vvvJ. It can tor kept under 0-frev ~41110 water. It readily dissociates cm hearing. Prout a study ~-* 0 00 tit the tfirm%-u. of the double comilid. in rviaticiii in the 00 troop. a viduc lot -+ 1.5,714 coll./mill. w2% obtained fix the reaction fix tile (twitiallort of the cittuble Cu cimilid. at *0 tempt. (point I)' tip 14.7*. The temp. of (Irvarolin. at 7tk) point. Its in The conitid. it fornivil also froon I and dry Cu,Cl,. I + Cu%Cl,. * CUICII C4114 + IVAN cal. The course of tire reaction with solid Cuc), was examd. * 111') so m t K it 1, :1 1 0 0 * Ole 0 0 111 0 0 0 0 0 0 0 0 0 0 0 0 0, 0 0 0 0 0 0 0 0 0 9 0 0 0 * 0 4 0 a 0 0 0 0 0 0 0 0 0 0 0 0 0 0  j e Fellbuts" having mUmr-like pireputies. M. Lun's (Kauchuk i krijiu, luto, No. u, 10-0; lmm.. 194s. its, 73).- Polybuirlic, range in Oft-A-lency (ruin bil-like liquid% I., mlid plamic PlyalerN. l7wir pro )cf K~ a c lc%lewed. 'M I6%tic tubber-IlLe ImlynteM a:e 4 V41UAIWIC FaW 111AIrlild it)[ 111C FULber indu%tty. The Skwirl i4l and lullulA 1:11, in'lu,tly Immill,V4 lulge Volunk" A lostrue. Tht IK-lynirtibutiou of buirne and it. uc in tire synthetic rubbirr indu,try are 3S21M  It 40 0 0 0 0 0000 u I It a "- L Y- - X-L- - i~ !tL-bL-1A1 T1111 A IT kup 1010-149tti- uu a ** A 00 00 -90 00 : -,*g vcisrvi~if isw smate"als tar o 06 dou of rabbw9he subsbuicupp. M. t 1=4; Xhiox, go -L AWLI 9W) dhMM "I -00 . . mut-, con. P diflow = 4 of and therutal d Pa. for the produc. Ot "Ou Of =s- awtf- Of bivinYt. 6OPrene, propykne, etbyl. cm. cyclVenta4kne ctc. the eae f i O . . n o act n vadon for the vniow mutims &W am st*bWtks of the 00 : PrOdueb. Chew. convasAons u by chlariastim-de. 4300 o chkPrinatim or by ethancol or CH, we Caniolered as well the Prefteilon of makiWs for cblor~ jbb-. roo go* goo i 400 voo 0 0 in-ILA acTALLWGCAL L"1001011 CLASWK&- of 0: 0: llew OIVINIAVOI gloom 4041"V p sojoso loat Qmv Got visial aw G-T all t - - 00 S" go w 0 of A 1 0 WA AIR ;It 0000 0 0 00 0 0 0 0 0 000000 00 0006 00 0 too 00 0 0 0 41 0 0 * 0 0 0 0 0 0 0 0 0 0 0 * 0 0 0 0 0  of-Mors Aftp 'a"Isms lot I I(Ijorstp,ti. 9. 44. 10411 'File KhAlkliv IfiNtIlIll" 'it hill Sarint out -A clilisuinpil4m tot lvttai lotirn in the U S,S It, Willi A Vie *U=iflg T.111WAV itAMIX)ft Isy redistnbuting Me 11LIM11.4ftlil" Of %IWIAI w (t$ 31 rrfracimi" atul I~v,-tllrr onram%. see .00 400 see so* 00 !!!!~LMICAL U111141444 CLAIIWICAII" 00 is u It- 4-9 IIII&Mwo 00 0 1$ Tilry I - - 0 Soso* li--m --94 0 0  c a v 0a loon a 31,31 ax AV 0 is top ..v at" O"W"t F, SOMPS aft last) I ft IR so. 646 04 *S4 MM =2 A.. Ilse 00 Poe Pee Pee J? 0.0 009 00 see $00 r 00  LIM' U,_ Mikhail_gqjcoan :i~oyich; TSBNDLER, A.A., profeesor, doktur, rateen;ent; --- -.1- -.- _ ~ .4 GlEBOV, S.To, profeasor, ratoenzent; FAVZNNR, R.L., redaktor; XLIKIRD. L.K., redaktor izdatellstva; RRRWY. A.P.. tekhnicheskI7 radektor [Rafractory materials in nonferrous metallurg7l Ogneupory v tovetnoi metallurgii, Moskva, Goo. nauchno-tekhn. izd-vo lit-ry po chernoi i tsvetnoi metallurgii. 1956. 149 p. (MIRA 9:12) (Refraatory materials)  sov/81-59-9-32088 Translation from: Referativnyy zhurnal. Khimiya, 1959, Nr 9, p 358 (USSR) AUTHORS: Kukolev, G.V., Kivin, D.I., Zelenskaya, A.T., LRIX~ M.A. Min~~ Ya.M. TITLE: Magnesite-Dolomite Highly-Refractory Products PERIODICAL: Sb. nauchn. tr. Vses. n.-I. in-ta ogneuporov, 1958, Nr 2 (49), pp 277 - 296 ABSTRACT- The manufacture of magnesite-dolomite products from clinkers with various content of dolomite (D) and magnesite (M) in the raw material mixture of the clinker has been studied. Satka M and Karagay D served as raw material; for binding CaO, crystalline quartzite and iron scale were introduced; for the stabilization of ~ -2CaO - S'02 an addition of phosphorite ore was introduced. The composition of the magnesite- dolomite charge was so calculated that a high (- 1) coefficient of saturation with lime was obtained. Four charges were prepared: I - the ratio of M to D - 1:1; IF - the same with an increased content of scale, II and III with the ratio M to D - 1:2 and 2:1, respectively. Dried Card 1/2 briquets from charges I, IF and II were burnt in the rotating furnace  Magnesite-Dolomite Highly-Refractory Products SOV/81-59-9-32088 at 1,710 - 1,7600C and from charge III in the periodic furnace at 1,600OC; the burnt briquets were ground and from the powders (the grain composition is cited) products, were formed and burnt: from charges I, IF and II at 1, 4300C, from charge III at 1,4600C. A part of the raw bricks were left for hydraulic hardening for ob- taining bricks without burning. The bricks from all the charges, in spite of the low burning temperature, have a high density (porosity 8.12 - 14.1%), high mechanical resistance (6co 1JO050-1 310 kg/cm2) and a high temperature of deformation under load (the beginn of softening in I, IF and II takes place at 1,670, 1,540, 1,6300C, respectively, in III at 1,7000C softening did not begin). The oontent of highly-re- fractory phases was 86 - 88%. After a storing of 75 days, bricks without burning have also a high deformation temperature (in III there was no deformation at 1,7000C). The test of magnesite-dolomite bricks carried out in the laying of columns of the front wall of 30-t open-hearth furnaces has shown that these bricks are a completely suitable refractory material for them. V. Zlochevskiy Card 2/2  SOV/81-59-16-57775 Translation from: Referativnyy zhurnal. Khimiya, 1959, Nr 16, P 300 (USSR) AUTHOR: Lurtye, M.A. TITLE: Economic Data on the Production of Magnesium Oxide From the Brine of Crimean Lakes PERIODICAL: V sb.: Kompleksn. ispoltzovaniye solyan. resursov Sivasha, i Perekopsk. ozer. Kiyev, AN UkrSSR, 1958, pp 161-167 ABSTRAGT: The expediency of organizing the industrial production of magnesium oxide from brine for the manufacture of refractories is considered. G. Gerashchenko. Card Vi  15 1- 58 -6 -8/14 'AffTHORS: kolev, G. V., Kivin, D. I., Zelenskaya, A. T., Lurlye K. A. Kiii,'iy, Ya. M. TITLE: Water-Ti,-t Magnesite-Doloraite Brick (Vodoustoychivyy magnezito- dolomitovy4 kirpich~ PERIODICAL: Oigneupory, 1958, Nr 4, pp. 270 - 274 (USSR) ABSTRACT: The investigations carried (ut by the Institute for Refractory Products showed that by comlining magnesite and dolomite in the raw mixture for clinkers it is possible to obtain products of high quality, which was prived in the papers by G. V. Kukolev and D. I. Kivin (Refere-,ce 1). In carryinE out the present work clinkers Nyere produced by means of burning a calculated and controlled finely ground mixture of dolomite, magnesite, quartzite and phosphorite. The finely ground mixtures were produced --ccor- dina to the vet process. In table 1 some results of the labora- tory investigations are nentioned. In the VNIIO experimental works several tons of synthetic water-tight magne3it-dolomite clinkers were produced and of it burned and unburned bricks vrere Card 1/3 made. Furthermore the production of the masses is described in  Water- Tight Lla'-.iesite-Dolomitc Brick 1711. 58 -"-j114 det-,il. The investi,~;ation of the samples after bur.--;:-.,-- (tables 2 and 3) showed that the bricks of all mas3es showed a high density and mechanical strenZ;th notwithstanding the relatively low burning temperature. In testing the magnesite-dolomite as well as the ustial maonesite bricks in practice the former proved to be of better quality. Thanks to the hydraulic hardening the unburned bricks showed after one day of storing a resistan e to 1)res:iure of 63--83 kg/cM2, after one month 294-340 1,`Vcm~, and after 3 months 53o-67o kg/CM2, having Eood properties with all this. Furthermore -a scheme for tle production of magnesite-do- lomite bricks is recommended and described in detail. The possi- bili-'I,-y and usefulness of vacuum filtering of the slip is proved by the work of G. Z. Dolgina (Reference 2). Unburned big magne- site-dolomite blocks can be produced of burned clinker powders in the villaLes where they are needed. For the metallurgy in the South, Siberia and other districts the production of bricks can be based on the mixture of dolomite and caustic magnesite with additions. These methods are also to be made use for saying nagnesite and chromite ores. The production of unburned fire- Card 2/3 proof magnesite-dolomite products is to be organiszed in the works  Water-Ti,-1-ht Mao-tesite-Dolomite Brick 131- 58.6-8/14 departments for refractory products in the Ural mountains, on the condition that the ready na-nesite-dolomite powder of the "MaGnesit" will be supplied. Their production of the same burned and unburned products is to be organized in the Nikitovka dolo- mite Kombinat of dolomite and caustic magnesite with additions. The staff of editors of the periodical remarks on this in refer- ence 3 that first of all a testing of these products of a great industrially produced amount of ouch bricks would be necessary. There are 3 tables and 2 reforence5, 2 of which zre Soviet. ASSOCIATION: Vsesoyuzn:rj nauchDo-issledovatellskiy institut oi-neuporov (All-Union Scientific Research Institute for Refractories) 1. Refractory materials--Production 2. Refractory materials--Ana2,ysis 3. Refractory materials--Test results Card 3/3  WROYA, M.A. Anlarged session of the Scientific Council In the Ukrainian Refractories Research Institute on the technology and life of ladle firebricks. qgneupor7 23 no.12:569-571 158. f (KIRA 11:12) 1.Ukrainskly nauchno-iseladevatellskiy institut ogneuporov. (Ukrains-~Research, Industrial) (Firebrick-Testing)  Lj~~IYE.. M.A.; KAMENETSKIY., Yu.L. Use of mathematical methods to calculate consumption standards of refractories for steel casting equipment. Ogneupory 27 no.,9:429-1+32 162. (HEU 15:8) le Ukrainskiy nauchm-isoledovateltakiy institut opeuporov. (Steel ingots) (Refactory materials)  ,LURIYE, M.A.; KAMFMTSKIY, Yu.L.; V014BENOK, M.Kh. -... .. ...- Eoonomic efficiency of ln~roducing new eqzApmbnt in the manufacture of refractories. Ogneupory 2EYno.10:433 163. (MIRA 16:11) 1. Ukrainskiy nauchno.-isoledovatellskik institut ogneuporov.  GINDIPy Ye.Z.; LEYKIN, G.A.; L07,IFSKIYV A.M.; -LURlly--M.A.; MASEVICHp A.G.; SEVERNIAYA, O.A.; SEITTSOVA, Yu.Ye.; SLOVOKHOTOVAq N.P.; TOLISKAYA,v V.A.; TSITOVICHP V.V. Brief report of the Astronomical Council of the Academy of Sciences of the U.S.S.R. on visual and photographic observations of artifical earth satellites in 1957-1959. Biul* sta. opt, nabil. JBk., sput. Zem. no. 6:1-33 160. (MIRA 14:2) (Artificial oatellitea--Tracking)-  LURIYE, M.A. Comparison of the number of passages of artificial earth satellites observed at the stations of the Soviet Union. Biul.sta.opt.nab1.-- isk.sput.Zem. no.10:23-27 160. (MIRA 14:11) 1. Astronomicheskiy sovet Ali SSSR. (krtificial satellites--Tracking)  431017 - S/026/62/000/012/005/007 D036/Dl14 AUTHOR: Lurlye, M.A. (moscow) TITLE: Photographic methodsof observing artificial satellites PERIODICAL: Priroda, no. 12, 1962, 99-103 TEXT: A conference was held.by the Astronomichaskiy Sovet AN SSSR (Astronomical Council of the AS USSR) in Riga at the end of June i962 to discuss perfection of photoUraphic methods of observing artificial Earth satellites, automation of the data processing, and scientific exploitation of the observation reoult5. Among topics discussed were: the use of high- precision photographic observations for geodesy-and navigation; the proposed launching of a geodetic satellite in the USA; the ~Iay 1962 session of COSPAR; results of observations of the "Transit" satellites; the possibilities for establishing the exact time from satellite observations.. Synchronous ob- servations of tho "'Scho-l" satellite made in Nikolayev, Pulkovo, Tashkent and Khar1kov ahowed that reoCraphical coordinates can be detprmined with an accuracy of 1 50 m by thin method. The TAyo -M-75 (TAPO-AL-75) camera, Card 1/2  S/026/62/000/012/1005/C,07 Photographic methods of observing ... D036/Dll4 designed in Rigga.and installed at the satellite observation station at "he Latviyskiy josudarstvcnny- univrrsitet (Latvian State University), and an Ix automatic electronic devicc for measuring and processin- the negatives, were demonstated at the confercace. The caimera photographs the. satellite by means of a cassette which oscillates alonS the direction of the satellite's motion, so that the sntellitc- i,-.,-Lr-e is built u-n. The s~,Alellite 'rail is fixed in the for;.i of separato T)c)irt-- corrosponding to the moments of tine when the casootto mar-, movin[; in tho r7amo -,Py as the z;abr-llite ira.-c. 71 i t h this method satollites -.-.-ith a stellar maCnitlidc of 9M. - c9m.5 can be photo- Craphed. In T,-rtu ;1. trackinE; camera is being Planned.for photographing artificial Earth satellitos lhriChtor than the 7th stellar rnaf,-nitudc. Reports C, 17s 'I ITAFA ~ I were also deliv,.Ired on experience Eained with the H'AqA 3 /25 0 - / 5) camera and the Knn(xF--,) moving-film canera, and on further improvenents. Card 2/2 '  4~41 ~An zir. 972-3T 21 VOY PHOTOGRAPHIC OBSERVATIONS OF ARTIFICIAL EARTH, SATELLITES (USSR) -Lur'v-e. M. A. Prjro 1963, 107-109. S/026/63'000/004/0051005 da, no. 4, A conference of Soviet-bloc countries was held in Leningrad late in 1962 to discuss questions dealing with photographicobservations of satellites. - In East Germany ob Iservations of bridlit. satellites. are made in Rodewisch, Eulenberg, and Potsdam with Tessar cameras (1 : 3.5, F = 250 mm). In Jena a small camera with telescopic lens is used to determine the exact posi- tion (accuracy: 1-2" in position and 0.00f in time) of satellites up to the 4th stellar magnitude-, - A camera with tracking system is reportedly being de- velo.ped in Ilmenau to observe faint satellites. Nine observational stations are op6rating in Polarid.- In Pozran' an automatic camera with Tessar lens (1 : 4.5; F = 360 mm) with a parallactic mounting has been designed to determine the position (accuracy: � 0.2~in position; � 0.60EP ~h time) of satellites brighter Ch a ri the, 3rd stellar magnitude. A Kodak aerial camera using an Aero Ektar Card 1/2  -AID Yir.. 972-37 21 May nOTOGRAMC OBSMATIONS (Contd) lens (1 2.5; P vs mm) is used in Warsaw to determine the position (accu- racy - 0.0lin position; 0.013 in time) of satellites brighter than stellar mag- nitude 3.5. In Czechoslovakia aerial cameras employing a louvered shutter and movable plate are used. Stations in China use Zeiss refractors (F = 150 mm). Stations in Bulgaria, China, and Rumania u a e MA -3c/2 5 cameras (1 ; 2.5; F = 250 mm). In Hungary (Baja, Budapest) and East Germany 113 a la t z e n, Rod ewisch)'synchronous visual observations are made to deterwine changes in the height of orbital perigee -in a short period of time with an accuracy of JDM] Card 2/2  WRIYE, M.A. (Hook;ra) Photographic -methods for satellite obser7ationse Pzdroda 51 no.l2t99-100 D 162o (Artificial satellites-Tracking) (MMA 3.5tl2)  I.URIYE9 M.A. (Moskva) Photographic observations of artificial earth satellites* Pr"a 52 no.4sl(77-109 163. (KM 16W (Artificial satellites-Tracking)  I(V)- EECA6- M(dlhAEt(   YV P IM -tio-r-L-be --artma Orva on- or. .6 h6- ovidt uni&~-~ _4 SOURCE i 1ably4do'n''iya izkud3tvanzW_kb: sput~ikdV Ze'M1ij 110. It 3.957-1962. Moscow, 1962# Byulletent st~ntsiy opticheskago naiblyudeniya iskusstvannykh sputnikov A Zemli- spetsialtiVy. vypusk, 83-,93 TOPIC TAGS:' -artificial sa~Tte lilte;~,Oq'ra(tollite tracking AT -1 telescope, ITAFA .3s/251 i T-1 t,. 2 camera K11,14 1 -midr6sdapet cone, Ural I computer F MSTYUCT: 1hia! work,~ is. ~Ilh er Otiotv the Actron=icheskiy sovet (Astro e nomical Counc-A)L.-_ SVEtio'nz' :have been set up at~universitios, teaching institute;j, and astronomical. o~qO*Ltcriea, and,tha trmCber is being expanded. More than !OjOOO indiVidualo'have'participated in visual obs~-,rvation of satellites in the T last five Yea * 4*: ln~'1962 75 stations in the So r viet Union operated in the net,- work. ri thG:Iast 5 150 000 observatiow, hwre been made of 39 7ears COO passages of about 100 different satellites and rockets. Visual observation is made I chiefly with AT-1 telescopes. A-21 stations are now equipped with all-wave radio Card  2~ 77T f, 'H~ -7 -R A CC= ZON? AT5PO349, reception, chronomet~rd,' and quartz chron6grapha, When observations must be made aRainst a background of few stars., coordinates of the satellite are deter- mined Lrom orientatiol'i ot the telescope. The telescope is equipped with graduated!! rdinate determination, k number of stations have used camera circles for such coo attachments to record the notting, of the telescope during observation of a satel- lite. Humorous. techniques have been worked out for fixing time of observation particularly for making the time determination automatic more precisely, 4 A n=,ber of automatic devices for observation itself have also been devised. Re- I ! . sults of all, Azar7atiow ard telegraphed to the computing center Kosmos for cal- i L I culation of ephemerides and all orbital alezwnts. Cooperation is maintained among all stations and all countries includingr the Smithsonian Institute of the i U.S.A. Marq Soviet stations have displayed a precision in visual observation generally within 0,&-.- jhetograp observations are made at a network of sta- j tions, chiefly with the standard 5 ca. cm, f 25 cm)' ?__Vpe ID 10 e- -3 and UIM-21 microscopes are used for Quartz clocks ar :.used for, tim rg, and KIII measuring the -ndgdtims I 4~'-'!Thia network consists of 23 stations. In 5 years, 4 15 000 phevo&aphia - prmiit-ohave ~,ba6,n obfAlAed, about, 70% of which have been suit- zaW by, t&ecise zgathi~d 4.' The Kiselov method is chiefJv used for able for Proce I determizjation of- p:ointa: (giving an accuracy of + 43 for position and + (0.003- 1 O.&OAseconds for-time). Detitachp Turner., and Iffahlesinger methods of-computation 2/3  ACCFSS MIT' are also used* Computati6na are generally riade on a Ural-I computerl distortion -by: rma ybe determine. progoming, Programs are being set up for automatic mesa- urenonts- and comp~etation__of equatorial coordinates of satellites. The use of mov-~ng film has increased precision of location and gathering power (up to 7th star mgnitude)& Tablqs'_Iiat the satellites and rockets observed and the nmber of obser-.rationa observations are also being made. Results are published in the %vull6ten' stantsii opticheakogo nablyudeniya IDZ (Bulletin of Stations four Optical Observation of Lrtificial Earth Satellites). Many papers in this bulletin discuss.pariod of reflactivity change, orientatica of rotational axis of the catellitay.and mthads of photometric observation. Prig. art. has: 4 tables. ASSOCIATION: , Astronomicheakiy sovat Mi SSSR (Latronomical Council All KSJR  _'0_4/Pe-:5/Pq-4/Pi~'4/Pae-2 TT/GW ACCESSION MRS AR5005)(M 8 P/0-3131/4-4 /OW/009/OOW/OW8 SMCE- Ref. rA. Issledovaniye kosmicheakago prostrazwtva. Otd. vyp., Abs. 9.62.53 AMORS t Lur I Fe M. A. to Shlwl'nikava a X. L TITM Estimate of the accuracy of the visAal cbsemtl=s of the 1960 t at- 1 3 a elLite made by the S881 stations - CITED BQUM~-B su- otlebw nablradealLy& ialmstv, xputnikov Zemmlit no- 35t 1562 (3-963) 34 A'/ observation e-ccuracyp satellite position, I Tome Um latinite observation'. vatellite Vnition. deviation/ Bpsilon mlb 3 TRIAUMATIONt An estimte of the quality of visual dbner~mtions of tha cabin of the firist syme ably (1960 t3) by Soviet statione in 1961 was carried out re- lLtive to the deriatiom of the observed positions of the object from thos4t -al- . - ~ - - ,f- - - - ___ _. - - _. 1_4 , .  /* ~CCT& dn w  Card 2/2  '~Fn-4/P~~,/-ii-,-4/Pq-4/Pas-2/P-P,-4/Pk-4/1PI-4 NAM ACCESSION URt AT500417i S/3126/63/000/002/0135/0141 AUTHOIRSt Illenko, M. L; Lurlya, M. A. TITLE: Optical observations of artificial earth satellites in the SSSR 50UROBt Nably-udeniya iskues-tve=qkh sputrLikov Zemli, no. 2, 1963. Warsaw, PAN, ;1963, 135-141 TWIC TAGS: artificial satellitei satellite tradki -AT I telescope, TZK telescope; ABSTPAM Seventy stations for visual and 24 for photographic observations were manned in 1965. Observations were made an 71 rockets and satellites. Each of these objects is listed in a table (with the number of observations made on it). From 1 October 1962 to I October 1963# 52000 observations were made, and more than 500- photographs were taken at Soviet stations. These were supplemented by about 16000 at foreign stations. The data were used by the Institute of Theoretical AstronopW for computing orbital elements. Deviation of observed position from mean orbit wao also computed. Soviet stations participated in the first international program-- INTERMS-of synchxronous visual observation. This program is coordinated by Dr. M. Ill of ffixngaz7. LT-I tubes were generally used because of greater convenience, but IAIIZK tubes were also employed. Computations show that the radius vector of a satel- 111ts -I- this satak maq-b~a termined-, with- an accuraZ7 of I k.- Synchronous Card 1/2  :71, cz4l -,~- Photographie obser-4ati= were Made at 24 stations, including one each in Polando East GermwWt Rumania, and Czechoslovakia. These permit cosmic triangulation and :direct application to geodesy. Pb-otwetrio obseryations, w aiso ore made at.a number --jwqdese6 --at -io.f stations, -AII-Idati ere the.Kosmo6:oenter* The'Astronomioal f ~-th Gus -A'0iotoCrPphic observatiorts. ligh -re6ults0 0 vi I 'Twelve bulletias of "Results of Observing Artificial Earth Satellites" were ;published; aix'Wlietina~of individual stations appeared: and tho fi-z+  A_ ~il_~- TASSOCIATIONI none 7, -,t 1: y T70 !00 EUCLt 00 YTRRR (A)O -4a-s-o --appear.ed- in ~-'l 965 SITB SV, DC :_Oro.  KACINENTO., T,V,: LITIFE, M.A. i~l -- -'.'.,;'n ". ~ - ~~ ConferGno-a cf the abae-n-irs of arttficial earth V,~gt.Alll SSSR 35 noo6i94 J-z 165, (141R.4 18t9)  LUR'YE, M.A. [deceas d) Groups of fir trunk pests in the southern taiga subzone of the European part of the U.S.S.R. Zool.zhur. 44 no.10:1473-1484 165. (IRRA 18:11) 1. Mbskovskiy lesotekhnicheskiy institut.  [deceased] Some 1ittle-known stem pests of the Norway spruce, Zool.zhur. 44 no.11:1726-1727 165. (KRA 18:12) 1. Moskovskiy lesotekhnicheskiy institut.  I;URIYS, M.G., inzh.; TSIPERMAN, L.A., inzh. - - WAUMNOM Concerning 1F.S.Dremiatskil and T.Y.Narpor.'s "Handbook for electrical engineers of dwellings and public buildings.R Svetotekhnika 6 no.8:28-29 Ag 160,, (MIRA 13:11) (Electric lighting--Tables, calculations, eta.) (Dremiatskii, N.S.) (Tarpov., V.V.).  LURIYE, HOG-, Inzhe - Servicing of lighting fixtures in shops of commercial enterprises. Svetotakhaika 6 noell:l~-7 N 160* (KU 13.. 11) 1. GosudAretyannyy proyektW in" titut "Tyazhpromelektroproyakt.8 (Electric lighting)  I - i ALIZADE, F.M.; LURIYE, MoLt professor, nauchnyy rixkovoditell. Cases of people contracting rabies following rat-bites and saliva coatami- nation by herbivorous animals; author's abstract. Zhur.miL-robiol.epid.i immun. no.2:65 7 153. (MMA 6:5 ) 1. Bakinskiy institut apidemiologii i mikrobiologii Ministerstva zdravo- okhraneniya SSSR. (Hydrophobia)  LURIYE, M.I. Simplified method for detecting enteric bacteria. Lab.delo no.4: 30-31 JY-Ag '55. (KT.RA 8:8) 1. Is infektsionnogo otdela (zav. N. Ta. Sofiyanko) laboratorii (zav. P.A. D'Tachanko) gorodskoy manitarno-apidemialogichaskoy stantaii. (gl&VW vrach F. I. Tuvshenko, Kiyev) (BACTERIA, enteric, deter., simplified technic) (GASTROIBMTIM SYSTEN. bacteriology, enteric bact., determ. simplified technic)  ~Zulnk metbre fr?r 14ontifying intestinal bacteria. !Ab.'Ielo fxy-.Te i. Iz laboratnrit (Zqv. P.A*Dlyachenko) Kiyevskoy porodsk"y sani t a rno-o-,13- ientologichookoy stentsit  %\,, LURIYII, M.I. --,:- -Diagnosis of Neveastles bacillus. lab.delo, 5 no.6:40 N-D 159. (MIRA 13:3) (SHIGELLA PARADTSENERIAN)  LURIYEP M.I.; DADASHEVA, L.E. Effect of the conditions of cultIvation on tho variability of typhoid fever bacteria. Izv. AIN Azerb. SSR. Ser. biol. i med. nauk no.5:139-145 160. (NIA 14:9) (F,BF,RT'IELLA TYPHOSA)  MEWHIDOV, B.F., doktor zed. nauk, prof.; LURIYE, V.I., prof. [Bacterial dysentery; materials from the Azerbaijan S.S.R.] Bakteriallnaia dizenteriia; po materialm Azerbaidzhanskoi SSR. Bakup Azerbaidzhanskoe gos. izd- vo, 1964. 257 p. (MIRA 17:12)  L~PE, 1-1. 1. Cfnd Tech Sci -- (diss) "Study of the dynamics and econonrj 4t\. ~ r - of 11~ oceleratii% automobiles by the method of stand tests." Uos, 1958. 13 pp (Min of Hi&ter EducAion USSR. Mos Motor Vehicle p.Lnd Road Inst), 150 copies (KL, 36-58, 112) -33-  AUTHOR: Lurlye, M.I. 113-58-6-11/16 TITLE: The Determination of the Coefficient of Rotatory Masses of the Automobile by the Method of Test Stand Trials kopredeleniye koeffitsiyenta uchbta vrashchayushchikhsya mass avtomobilya metodom stendovykh ispytaniy) PERIODICAL: Avtomobillnaya promyshlennost', 1958, Nr 6, pp 32-34 (USSR) ABSTRACTt In the analysis of the construction of a newly built car, as in the capacity rating, it is necessary to know the inertia moments of rotatory masses of the engine Jm and of the wheels Jk , whereby the determination of the coefficient for rotatory masses S can be found and which strongly influences the in- tensity and fuel economy of the acceleration of the car, Until now these masses were calculated approximately by a formula proposed by Academician Ye.A. Chudakov', 2 1.03 + 0.051k where ik is the transmission ratio of the gear box. This formula, being purely empirical, does not allow for the features of construction and cannot be used for modern cars. Card 1/2 The author proposes a method 17or the c~,lculation of the rotatory  113-58-6-11/16 The Determination of the Coefficient of Rotatory 114asses of the Automobile by the Method of Test Stand Trials masses. The method is described in detail. There are 2 tables, 2 figures and 1 Soviet reference. ASSOCIATION: Moskovskiy avtodorozhnyy institut (The Moscow Auto-Road In- stitute) Card 2/2 1. Autcmobile industry--USSR 2. Rotation-Masses--Determ:Lnatio-Ti  AUtHORt Lurlye, M.I. SOV-113-58-8-7/21 TITLE: Obtaining Acceleration Characteristics of an Engine by Mleans of Stand Tests of the Car (Polucheniye razgonnoy kharakter- istiki dvigatelya putem stendovykh ispytaniy avtomobilya), PERIODICAL: Avtomobillnaya promyshlennost', 1958, Dr 8, pp 22-25 (USSR) ABSTRACT: The author gives a theoretical description of the method for determining the acceleration characteristics of the oar-en- gine by means of stand tests. This method is based on the works of the following researchers: B.S. Fallkevich, D.A., Rubets, V.M. Arkhangellskiy, etc. During the stand tests5 an electrodynamometer designed by M.I. Briskin and L.I. Kra- sillshchik, as well as a device,designed by V.A. Ulasevich, for tracing the fuel consumption before the float chamber were utilized. The cars utilized for these stand tests were the small displacement passenger cars of the "Yoskvich-402" and "Volkswagen" types. These two car-types had al,-,eady been Card 112 compared during road tests. It has been stated that, for the  SOV-113-58-8-7/21 Obtaining Acceleration Characteristics of an Engine by Years of Stand Tests of the Car same specific power, the acceleration characteristic and the fuel efficiency of the "Volkswagen" type were higher than those of the "Moskvich-402" type. For improving the acce- leration characteristic of the "Moskvich-40211 engine, its standard carburetor of the "K-44" type was rebuilt according to details given in the article. There are 3 graphs, 1 sche- matic diagram and 1 table. ASSOCIATIONt The Moskovskiy avtodorozhnyy institut (Moscow Highway In- stitute) 1. Automobile industry--USSR 2. Engines--Test methods 3. Engines--Performance 4. Dynamoitieters--Applications Card 2/2  SOV/110-158-9-11/20 AUTHORS: Lozanovskiy~ A.L. and LurlyeoM.I. (En'gineers) TITLE. Calculation of the Curre`ntn~e~ir-.Uits of Transitional Reactors (of transformer tap-changers) for A.C. Rectifier Locomotives (K raschetu toka v tsepi perekhodnogo drosselya vypryamitellnylch elektrovozov peremennogo toka) PERIODICAL: Vestnik rllektropromyshlennosti,1958,Nr 9;pp 47-50(USSR) ABSTRACT: In alternating-current locomotives type NO, the voltage is controlled by altering the connections of the trans- former secondary winding, as shown in Fig 1. During transition from one position to another the appropriate terminals are connected across reactors, which serve to limit the current during the transition. It was found on test that when the reactors are connected, current surges occur that damage the switchgear and transformer windings. It was, therefore, necessary to calculate the current in the circuit consisting of the reactor and the transformer winding. The transitional reactor consists of two coils on a common laminated core with an air-gap; Card 1/3 the magnetization characteristic is given in Fig 2. A formula is derived for the current/flux relationship.  SOV/110-58-9-11/20 Calculation of the Current in the Circuits of Transitional Reactors (of Transformer Tap-changers) for a.c. Rectifier Locomotives The basic equation required in the calculations is first derived and a method of solution by successive approxi- mations is given. The conditions under which current surges are likely to be greatest are given; this simplifies the calculations. Formulae are written for evaluating the error in the determination of surge current. It is concluded that the proposed method of calculating the surge current gives the magnitude and wave-shape of the current when the transitional reactor is switchedg allowance being made for saturation and active resistance. The procedure can be applied to the design of any alternating-current magnetic system under Card 2/3  SOV/110-58-9-11/20 Calculations of the Current in the Circuits of Transitional Reactors (of Transformer Tap-changers) for a.c. Rectifier Locomotives transient conditions, subject to minor limitations. A numerical calculation of a.particular case is then given; the calculated and experimental values are compared in Table 2, with good agreement. There are 2 tables, 2 figures 3 Soviet references. SUBMITTED: September 30, 1957, .1 1. Saturable reactors--Electricla properties 2. Transformers --Eq4pment 3. Electric current--Mathematical analysis 4. Transfer switches--Circuits Card 3/3  12(2) SOV/113-59-4-9/19 AUTHOR- Lurlye, M.I. TITLE: A More Precise Method of Calculating Dynamics and Fuel Econo- my During the Acceleration of an Automobile PERIODICAL: Avtomobillnaya promyshlennost', 1959, Nr 4, pp 21-24 (USOR) ABSTUCT: The author suggests a more precise calculation method for the dynamics and the fuel economy factors of an automobile during acceleration. This method provides a greater accuracy in de- terming the acceleration parameters of an automobile, among them the Anstantaneous power balance under consideration of th peculiarities -' the enrine operation during acceleration. The method' may be used for projecting when the engine accele- ration characteristic is given, and particularly during the tests of an exDerinental automobile. Usually, 'the engine speed characteristic is used for the dynamic calculation. This characteristic is obtained during engine operation under stead- state conditions. Hoaever, the enl-line power is not only a function of the revolutions but .1 so of the angular Card 1/3 speed of the crankshaft. In the majority of cajcs, the en,-ine  SOV/11 3- 59-4 -9,/1 "1 !r j A Mlore Precise ?.'ethod of Calculatinr, Dynamics and Fuel 7~'conomy )urin[- 'he Acceleration of an Automobile worho less efficiently durin.- acceleration than under stet3dy state conditions. This causes increased fuel consumDtion and reduced power during acceleration. The conventional dynamic calculations do not take this factor into consideration. Con- sequently, the error in determini:ig 6the acceleration path of an automobile may attain a magnitude of 15-20%o, especially during acceleration in low gear. The conventional dynamic calculation method should be used only for preliminary eva- luation when planning the design of a new automobile. The author states that problems concerning fuel economy calculat- ion during the acceleration of an automobile and calculations of the instantaneous power balance have not yet been fully solved. The instantaneous power balance and the fuel econo- my during the acceleration may be determined by more accurate calculations based on initial data of the engine acceleration characteristic obtained durine test stand experiments. For the acceleration of an automobile on an even road, the author Card 2/3 presents the followinC equation of the instantaneous power  SOV/113-50-4-9/19 A More, Precise 'Jethod of Calculating Dynamicr, and Fuel Economy During the Acceleration of an Automobile. balance; X a /V- + NoanA + A/ K, + AIr + N-f ~8 5~A W do- where ly;,D-actual engine power during acceleration; #54t_ power spent for the acceleration of the rotating masses of the engine; 110cr1_0 - power losses in the transmission; IYYK - power spent for the acceleration of the rotating masses of the ,.Yheelsi;//,c, - power spent for overcoming rolling and air re- sistance; Xia- - power spent fo- the acceleration of the for- ward. moving mas:3es of the automobile. There are 4 graphs and 2 Soviet references. ASSOCIATION: NAT,,II Card 3/3  12(2) SOV/113-59-7-8/19 AUTHOR: Candidate of Technical Sciences TITLE: The Selection of Transmission Gear Ratios for Auto- mobiles With Low Engine Displacement PERIODICAL: Avtomobillnaya promyshlennost', 1959, Nr 7, pp 22-26 (USSR) ABSTRACT: At NAMI, a method was developed for determining the transmission gear ratio of automobiles with low en- gine displacements. The inertia of-rotating masses, pick-up speed for passing trucks and the grip of the driven wheels were considered. In "The Theo of the Automobile" by G.V. Zimilev /Reference 15 the influence of the inertia o2 the i~otating masZes was not considered. In N.K. Kulikov's paper /-Reference 2 7 the influence of the rotating masses 7vas con- Card 1/3 slidered, but the influence of this parameter on the  SOV/113-59-7-8/19 The Selection of Transmission Gear Ratios for Automobiles With Low Engine Displacement dynamics of an automobile was neglected. The author uses the NAMI method for a comparative analysis of the transmission gear ratios of the "Moskvich-40211, "Moskvich-407" and the German "Volkswagen". The author states that the "Moskvich-402" has a too high moment of the inertia of rotating masses J m compared to the German "Volkswagen". He presents the follow- ing conclusions 1) Automobiles with low engine dis- placement should have four-speed transmissions. 2~ The fourth speed should be.preferably direct. 3 The gear ratio of the final drive should be selected in such a manner that the rpm number corresponding to maximum power is not exceeded by more than 5% at ma- ximum speed. 4) The gear ratio of the first speed Card 2/3 should provide a moment to the speed which is about  SOV/113-59-7-8/19 The Selection of Transmission Gear Ratios for Automobiles With Low Engine Displacement 25% of-the maximum, i.e. it should exceed by appro- ximately 4 times the gear ratio of the fourth speed. 5) The gear ratio of the third speed should provide an intensive moment up to a speed of 80 km/h, which is used for safe passing of trucks. 7) For a four- stroke engine, the value of the inertia moment of the rotating masses should be selected in such a way that it would amount to about 0.006 of the maximum torque developed by one engine cylinder. ASSOCIATION: NAMI Card 3/3  LURIYR. 14.1., kw4.tekbn.nauk; ALRSHIN, T-V.; SYTIN, K.Yu. Device for recording Instantaneous fuel consumption. Avt. prom. no.1:35-36 Ja 160. (MIRA 13:5) 1. Gasudaretvannyy soyuzrqy ordens. Trudavogo Krasnogo Znameni nauchno-iseledovatellskiy avtomobillrqy i avtomotornyy institut. (Automobiles--Fuel consumption--14sasurenent)  LURITE, M., kand.tekhn.nauk; TOMILIN, N.M. Using the method of chalk prints for determining the rolling radius of an automobile wheel* Avtoprome no-3:37 Mr 16o. (MIRA 13:6) 1. Gosudarstvenny7 soyuznyy ordens, Trudovogo Krasnogo Znameni nauchno-iseledovateliskiy avtomobillnyy institut. (Automobiles-Wheels)  KUROCHKA, Aleksandr Leontlyevich, kand.tekhn.nauk, nauchnyy sotrudnik; YRITE, Marat Iosifovich, nauchnyy sotrudnik Calculating trasient processes of electric locomotive circaits on digitalIcomputers* Izvovve.ucheb.zav.; elektromekh- 3 uo.2: 38-51 60. (MIPA 13:7) 1. Novocherkasski7 nauchno-issledovateltsk~r institut elektrovozostroyeniya. (Electronic digital computers)