SCIENTIFIC ABSTRACT LURYE, G.O. - LURYE, L.M.

__~URIYEO G.O. Some problems of the use of rheography in a surgical clinic. Trudy I-go MW 33:409-413 164. 0-'-IRA -18:3)  V - ~ UjI tj!, 11 -1 6. E. RIElectric conductivity of aqueous solutions of sodium thlcrantim~,nite G.-- , Lur'e, S. I. Sklyarenko, and G, F. Kaplan. tP. 1554) j 3 If - (Zhurnal Obshchei Khimii' 1950, Val 20, No 9. SO: Journal-of General Chemist j  , - radaktor; LURIYE, H.S., tekhai- KARAMIYARTS, H.Kh.; LURIYJJ.,,~ , cheskiy reduktor. [Ikamples and problems in chemical thermodynamics] Primery i. za- dachi po khimichaskoi termodinamike. Izd. 2-e. Moskva, Gon.nauch- no-takhn. izd-vo khIm. lit-ry, 1953. 335 P. [Hicrofilm](MIMA 7:10) (Thermochamistry)  X-UR'YZ,G.E., redaktor; BCRNSKOV,G.K., redaktor; NABER'EVjDrM,X.Ye., ~"--Vddfiltor; PSHEZHETSKIT,S.Ya., redaktor; SLINIKO,M.G., redaktor; TEMKIN,M.I., redaktor; CHKMNICHBNKO.V.M., redaktor; SHPAK,Ye.G., tekbnicheaki.v redaktor (Heterogeneous catalysis in the chemical industry; papers from the All-Union Conference, 1953] Geterogennyi kataliz v khimicheakoi promyshlennosti; materialy VBesoluznogo soveshchaniin 1953 goda. Moskva, Gos. nauchno-tekhn. izd-vo Mim. lit-ry, 1955. 494 p. (HLRA 9.2) 1. Russia (1923- U.S.S.R.) Ministeretvo khimichegkcy promyehlen- noBti. (catalysis)  KBRYIV, Valentin Alakewidrovich; JAMIYB,G.Ye., radaktor; SAKHAROV,V-M-, radaktor; LURIYE.U.S.. tekFn-I'cE5"dVFrGdaktor (Gourse in physical chomistry] Kura fizicheskol, khimil. Moskva. Gos. sailchno-takhn. izd-vo khimichaskoi, lit-ry, 1955. 832 p. (KIRA 9:3) (Ohemistry, Physical and theoretical)  1135KEYABOY, An.N.; BAWOV. V.I.; ZABORMO, K.B.; RUDEHO, N.P.; FRISMUOV. YU.A.; LURIYX, G.Ye.. redaktor; SHPAK, Ye.G., takhai- cheakiy redaktor ft"15"Mmow. LFractical handbook of radiochemistry) Prakticheskoe rukovodstvo po radiokhimii. Hoekva. Goo. nauchno-tekhn. izd-vo khim. lit-ry, 1956. 397 P. I (HI2A 9:8) (Radiochemistry)  SHCHEPOTIYEVA, Ye.S.; ARDASHNIKOV S.N.- LlM'YEj_"Xs.4 RAKHMANOTA, T.B.; I I -- EMS, L.Xh., red.; ZUY,-VA, H.K:7---te--;hn.red. [Oxygen effect in the action of ionizing radiations] Kislorodnyi effekt pri deistvii ioniziruiushchikh izluchenii. MoBkva, Goo. izd.-vo mod.lit-ry, Madgiz, 1959. 184 p. (MIRA 12:12) (RADIATION-PHYSIOLOGIM ZYPEO) (OXYMN)  KRYUKOVA, Tatlysua Aleksandroyne; SIHYAKOVA, Soflys Illinichna; AWWIYNVA, Tatlyana Vasillyevna;j-2~~~red.; SUAK, Ye.G.. tekha.red. (Polarographic asalyais] Pollarograficheskii analiz. Koskya, Goe.nauchno-tekha.ixd-vo khim.lit-ry, 1959. 772 p. (MIRA 12:10) (Polarograph and polarography)  SHCHF.POTIYEVA, Ye.S.; ARDASHNIKOVp S.N.._LLUR'YE, G-Ye.,- RAKMWOVA, T.B. Specificity of the manifestation of oxygen effect under the action of alpba -jxyv. Izv. All SSSR. Ser. biol. no.4:642-652 JI-Ag 16.1, (KMA 14: 9) 1. TSentralinyy institut kurortologii i fizioterapii. (ALPHA RAYS-PHYSIOLOGICAL EFFECT) (PHYSIOLOGICAL CHEMISTRY)  GERASIMOV, Yakov Ivanovich, prof.; DREVING, Vladimir Petrovich; YEREMIN, Yevgeniy Nikolayevich; KISELEV, Andrey Vladimiravich; LEBEDEV, Vladimir Petrovich; PAJICHENKOV, Georgly Mitrofanovich; SHLYGO, Aleksandr Ivanovich; NIKOLISKIY, B.P., prof., retsenzent; SHUSHUNGV, V.A., prof., retsenzent; kURIYE, G.Ye.j, red.; SHFAK, Ye.G., tekhn. red. [Course in physical chemistry] Kurs fizichev".toi khimii. [Byll IA.I.Gerasimov i dr. Moskva, Goskhimizdat, ?63* Vol.l. 624 p. 11.~URA 17: 1) 1. Chlen-korrespondent AN SSSR (for Gerasimov, Nikollskiy). 2. Kafedra phizicheskoy khimii Leningradskogo gosudarstvennogo universiteta (for Nikol'skiy, Shushunov).  I- (/ /~fY-r-') T - 1) - 137-58-5-10063 Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 5, p 168 (USSR) A UT14OR: Lur'ye, I.A. TITLE., Liquid Carburizing in Cyanide-free Salts (Zhidkostnaya tsemen- tatsiya v bestsianistykh solyakh) PERIODICAL: Radiotekhn. proiz-vo, 1957, Nr 8, pp 36-39 ABSTRACT: Work has been done in the introduction of liquid carburizing (C) of steels: electrolytic carburizing in fused carbonates and C in fused salt baths, of which the former has not found industrial application. Experiments in liquid C were also performed with pulverized carborundum. The optimum composition of the car- burizer is, in %, Na2CO3 75-85, NaCl 10-15, SiG 6-10. The process occurring in a carburizing bath with formation of slag that protects the surface of the bath against heat loss, evapora- tion,and intensive oxidation may be expressed by the following reaction: 2Na2CO31 SiC -.,-Na2SiO3r' NaZO~ ZCo f c. slag Ca rd 112  137-58-5-10063 Liquid Carburizing in Cyanide-free Salts A study of the effect of temperatures and holding time on the depth of the .1 carburized layer (CL) and the microstructure established that liquid carbur- izing, because of the shorter period required for heating (5 hrs) and the lower process temperature (8500C) creates conditions less favorable to grain growth, and this makes it possible to perform hardening along with the carburizing heating. This reduces the number of technical operations, improves the quality of the diffusion layer (cementite lattice is absent), and reduces deformation of the part to a minimum. A.B. 1. Steel--Hardening 2. Cyanides--Applications Card Z/z  PHJM I BDOK =PLOITATION SOV/15303 Nauctstso-tekhnichookoye aoveshchanlya pa dempfiroveniyu kolebanly. KIT&T. 1958- Truez Rauchno-takhnichaokogo sovoBhchanlya po dompfirovanlyu 1c*IabaniY. 17 - 19 dekabrya 1958 9. (Transactions of the 3el- entific and Technical Conference on the Damping of Vibrations, NOIA 17 - 19 December, 1958) XIYev, Izd-vo AN UkrSSR, 1960. 278 p. 2,000 copies p rInted. 3pol-ring Agency: Akademiya nauk Ukrainakoy SSR. Institut metal- Ickeramm I spetolallmy" oplavoy. WItorial Boards 1. N. Frentsevich, 0. S. Pia&renko (Reap !d.')' Q. V. Samsonov, V. V. Grigorlyevs. and A. P. Yakovlov; id PublImbing House: 1. V. Mains; Tech. Ed.: A. A. Matvoy COVERWI: The book contains 27 articles do&llnZ with principal re- smIts of theoretical and omperiscontal investigations of *norgy dissipation In meehnnical vIbrationa carried out in the Soviet Union from 1956 to 1958. Problems of onargy dissipation In!ca- tarILIA and factors Lffecting it are discussed. Puxportedly zow Methods or experimental investigation of d&=PinZ of vjbm- t1cas aris presented. Attention is &Ivan to the recently do- v%1OPG4 nonlinear the.r7 of calculating vibrations in elastic mystinuo taking energy diasipation into account. Atto-,pts to Analizo Internal energy dissipation In materials using m8thods Of anathinaatical statistics a" discussed. Some articles deal with .. rIns proble= in dYnAlmics. in which da=plrg to claired to 9 substantial part. Aspirant 11. 1. Mukhin, of the XI"v Polytechnic Institute, Is mentioned. References aoce=passy 80=0 of the articles. TANZ OF 003FTINTS: a . 3. Survey of Studlei~ Rade In Klyev, of Damping It one XOT11-v. N. V. On &orgy Dissipation In Heat-Resistant Alloys at High Temperatures 130 "'h"'PhOvsklY, V. V. On Effect of L*w Temperatures an Ehorgy _DCAMEPatIOU isi-a-Waterial Vibrating Traneversally 134 Xrizhtal, N. A., and S. A, 0cloy1n. Special Features of TW=PMA~-dr-Vibrations Specimens Being Tested 140 ShLAbIcy. V. I., EC"admta of Technical Sciences]. On the Duping Properties and Some Strength Characteristics of Carbon Steel 143 Deb--IvrVT, X. To., EAasistant). Research on the Duping of In Wire Cables 145 Bmf=z*. Ya. A., [Assistant), and 0. S. Pia&renko. Research _Z'3th_e_D4V1Lg of Vibrations in Bundles of Rods 151 Gay=, V. V. Investigation of Vibrational Stability of Having Cylindrical Sprissgs Forced to Vibrate Loce tudlaolly 160 Babas"T, W- N., S. I. DOPOfayuk, and V. G. lAntyakov. On 18WIS-tances-In a Vibrating Shipla Hull--- 164 A r' On, Internal c,n- in ,,Issn*dX4,1~~ the Role of r. . ~. 3hIP'8 Shaft Casings ra 0 onance Vibrations In IT1 Ovz'Tcmkc- 0- K- On Effect Of Elastic Vibrations of IL Bolt 20MEXT-ar-tWi-holt'a r4oaenipg IT6 AVAILABEXI LIbrery of Congress  ISTMIN) Pavel Aleksandrovich; ITAYDE1.11''0, O.K.,, kand.ekhn. nauk,, dots., retsenzent; IURIYE, LA.p kand. tekhn. nauk,, starshiy nauchnyy sotr., retsenzent; PETROV, P.P.., naucbryy red.; VASILIYEVA, N.N., red.; KOROVMIKO, Yu.N.,, tekhn. red. (Kinematics and dynamics of piston-type internal combustion engines with combined cycles; generalized method for analyzing crankgears of engines] Kinematika i dinamika, porshnevykh DVS s kombinirovannymi skhemami; obobshchennyi metod analiza krivo- shipno-shatunnykh mekhanizinov dvigatelei. Leningrad, Gos. soiuznoe izd-vo sudostroit. promyshl., 1961, 303 p. (IIIIIIA 15-.2) (Gas and oil engines) (Cranks and crankshafts)  NAYDEIIK0, oleg Konstantinovich; PETROV, Pavel Petrovich; IVANCHENK0, N.N.9 kand. tekhn. nauk., retsenzent- LWYE) I.A.,, kand. tekhn. naukj, retsenzent; MUM , 1.1.2 Qc IKITINAp R.D., redo; KOROVERKO, Yu.N.,, tekhn. red. [Amortization of marine engines and mechaniamB]Amortizatsiia sudovykh dvigatelei i u-ekhanizmov. Leningrad, Sudpromgizq 1962. 287 p. (MIRA 15:11) (Marine engines) (Amortization)  LUR I TIC, I. G. Tree Planting Replacing thinning with the planting of clipped overgrown seedlings; Bad 1 09. no. 2. 1952. 9. Monthl List of Russian Accessions, Library of Congress, x" -1952, Uncl.  VARVAROV, V.K., inzh.; LUR'YE, I.G., inzh.; LIIIIANOVICII, I.M., inzh. Experimental operation of a tube dryer with two successive exhaust fans. Ugol' 36 no.9:48-49 S '61. (MIR, 14:9) (Coal preparation plants--Equipment and supplies) (Drying apparatus)  LURITZ. I.I.; KAFKA, B.V., prof.. spetsred. [Latest achievements in the technical and chemical control of caramel production; rapid method for determining the amount of moisture in the caramel mass] Novoe v tekhnokhimkontrole keramollnogo proizvodstva; eksprese-metod oprodelenila koli- chestva vlagi v karamellnoi masse. Moskva, GOSINTI, 1958. 9 p. (MIRA 13:6) (Caramel)  LOKE-ANIN, A.K. . inzh. ; POGOSTIN, V.M- , inzh. ; Prinimali uchastiye: ".,;RGSKh--`. , L.M., laborant; UJI"YE, I.i.: -,n,-:Ii. Cal.ruaation of the capacitanre of high-voltage trar~-- ,irmers Windings. Ele'rctrotaklixilka 35 no.7:36-38 164. (MIPLA 17:11)  ACC-NR't---`AF16a48-d~ CAT S6UIICF,~CODF-:~U�R/o~413/l~T/000 ~/001~j/0142/~l i~i !INVENTOR: Lur ye, 1. 1.; Galayba, 1. N. :ORG: None ;TITLE: A hydraulic amplifier built into the steering mechanism of a transportation !vehicle: Class 63, No. 190226 I SOURCE: Izobretenlya, promyshlennyye obraztsy, tovarnyye znaki, no. 1, 1967, 142 ;TOPIC TAGS: hydraulic device, mechanical power transmission device, vehicle component ABSTRACT: This Author's Certificate ifitroduces a by draulic amplifier built into the )steering mechanism of a transportation vehicle. The unit contains a housing with I . !p1pe fittings for connecting the delivery and overflow.lineu and the cap. A piston iinside the housing has teeth which mesh vith a gear segment, drainage holes beginning lat the ends and emerging at.the overflow cavity and a discharge opening passing Ithrough the piston parallel to its axis. The discharge opening is connected in the :central section to a pressurized chamber formed by a recess in the piston. The steer- ling cclluran passes through the piston and is held in bearings in the end caps. On both !sides of the threaded section of the steering column are nuts equipped with pins to Ikeep them stationary v:ith respect to 'the piston. The distance between the inner faces J !of the nuts is greater than the distance between the ends of the piston where the 'drainage holes begin.- A hydraulic distributor is located in an opening in the piston .11.o14.  ACC NR: AP7oo48O2 -land is turned by the nuts during rotation of the steering column. This distributor !is equipped with a cylindrical slide valve loaded at both ends by springs resting on 'the inner faces of the nuts to simplify construction and increase the speed of the 1hydraulic amplifier. A 2--caps; 3--piston; 4--gear segment; 5--steering column; 6-nuts; 7--Pins; ical slide valve; 9-springs; a, b---drainage holes; c, d--discharge open- ings. SUB CODE: 13/ SUBM DATE: 2ODec62  LMITB, I.L., kandidat takhnichaskikh nauk; TIMOSHRMW, N.M., kandidat nank. The use of sponge and refined cast iron in smelting high-grade steels and special alloys. Stall 15 no.12:1135-110 D 155. (MLRA 9:2) l.TSentra1lW7 nauchno-iseledovatellskiy institut chernoy me- tallurgii. (smelting)  POLYAKOV, Alskoandr Yul'yevich- LURIYE. IL.,,,Xpnd.tekhn.zsuk, retsenzent; L - A - KAURAKH, K.A., kand.te0g:na~i.`~;r~'e_4.; UViT, Ye.I., red,izd-va; ISLWITHVA, P.G., tekhn.red, (Principles of vanadium metallurgy) Oenovy metallurgii vanadiia. Moskva, Gos.nauchno-tekhn.12d-vo lit-ry po chernoi i tsvetnoi metallurgii. 1959. 137 P. (MIRA 12:10) (Vanadium--Metallurgy)  15(2) AUTHORS: Lurlye I. L., Knyazev, V. F.p SOV/131-59-4-7/16 -Va_2_u_r5`v,A. V. TITLE: The Operation of the Lining of a Rotary Refining Furnace (Sluzhba futerovki vrashchayushcheysya krichnoy pechi) PERIODICAL: Ogneupory, 1959, Nr 4, pp 168-171 (USSR) ABSTRACT- In the experimental industrial department of the Orsko- Khalilovskiy metallurgical Kombinat (OKhMK) a rotary refining furnace has operated since 1955 by means of which the techno- logy of the refining process of chromium-nickel-iron ores of the Khalilovskiy rayon is being investigated. Also practical data on the working of the fire-proof lining are available. The operational conditions of the lining of a rotary refining furnace: The furnace is continuously charged with a mixture of brown iron ore and fine coke. The furnac is divided into three zones: The preparation 0zone up to 700 the regenera- tion zone from 700 UR to 1100 and the refining zone from 1100 up to 1300-1350 , which has most difficult operational conditions. Further the equipment of the furnace lining is described: The preparation and regeneration zone is lined Card 1/3 with bricks with a high content of fire-clay of the Semiluki I  The Operation of the Lining of a Rotary SOVII 31 -59-4-7/16 Refining Furnace plant (COST 1598-53) and the refining zone with highl aluminous bricks of the Podol'sk works (ChMTU 3207-52~. The lining is performed according to figure 1. The furnace operates in campaigns of various duration. The causes of the interruptions are given in the table. Also the repair work is listed and the lining of the refining zone was carried out according to figure 2. Conclusions: The most considerable wear and tear of the lining of the rotation furnace OKhMK was observed in the beginning of the refining zone which is due to the influence of slags with an increased content of iron oxides. Highly aluminous bricks with an Al 0 -content of more than 75%, which were recommended by the UNII6 3and produced by the Podol'sk works of refractories, exhibit a good stability. Large lumps which are formed on the melting of the scums exert a detri- mental influence upon the working of the lining in the regeneration zone. There are 2 figures, I table, and 4 refer- ences, 3 of which are Soviet. ASSOCIATION: TsNIIChERMET Card 2/3  The Operation of the Lining of a Rotary SOV/131-59-4-7/16 Refining Furnace Orsko-Khalilovskiy metallurgicheskl~ kombinat (Orsko- Khalilovskiy Metallurgical Kombinat Card 3/3  MMOZIYAN, V.; SUKIASYAN, A.; XMINYAN., S, Organization-of the production of steel and alloys for the el.ectric industries in Armenia. Prom.Arin. 5 no.3:10.-14 Mr 162. MM 15:4) 1, Mentrallnyy naucbno-isoledovateliskiy institut, chernoy metallurgii im. I.R.Bardina (forjurlye). 2. Nauchno-issledo- vatel'skiy gorno"etallurgicheskiy institut Sovnarkhoza Armyawkoy SSR (for Kurginyan). (Amenie,-Steel-industry)  S/180/62/000/005/001/011 E075/E435 AUTHORS: Nasonov, P.Ya., Vasillyev, Ye.N., Lurlye I.L., Knyazev, V.F. (Moscow) TITLE: The reduction of iron oxides with hydrogen in a fluidized bed at an elevated pressure PERIODICAL: Akademiya nauk SSSR. Izvestiya.* Otdeleniye tekhnicheskikh nauk.. MetallurgiyA i toplivo, no.5, 196~, 29-36 TEXT: The reduction of mill scale and~a Krivoy Rog ore/-fines with hydrogen in a fluidized bed at elevated pressures and low temperatures was investigated in order to elucidate the influence of pressure, the rate of feeding reducing-gas, particle size of the starting material and temperature on the reduction process.. The experiments were carried out in a laboratory apparatus made from stainless steel with a fluidized bed reactor- operating intermittently with 300 g samples. Experimental conditions: temperature from 490 to 650*C; pressure from 3 to 30 atm-gaugei. two rates of feeding hydrogen - 2-5 and 4.5 litre/sec. The process'of reduction was controlled by measuring the decrease in Card 1/3  S/180/62/000/005/001/011 The reduction of iron ... E075/E435 the amount of hydrogen in the gas holder. In the lower pressure range (up to about 9 atm) an increase in pressure was found to lead to an intensification of the process, even without an increase in the rate of supply of hydrogen to the reactor. An increase in pressure from 3 to 4 atm had a considerably higher effect than an increase from 4 to 5 or from 5 to 6 atm (the corresponding increases in the consumption of hydrogen read from the graph were about 36, 14 and 13V9 respectively). In the higher pressure range the increase in the rate of reduction is due to an increase in the supply of hydrogen to the reactor which can be made without increasing dust losses. Optimal reduction temperatures at a pressure of the gaseou's phase of 30 atm and a hydrogen feed rate of 0.3 litre/sec per 1 CM2 of the free cross- sectional area of the reactor are: to obtain 70 to 75% reduction 500 to 5209C; to complete the reduction process - 550 to 5600C, Under the above temperature conditions neither sintering of ore particles nor sticking of particles to the walls of the reactor was observed. For reducing scale the maximum temperature of the process can be raised to 650*C. Within the range of 0-3 to Card 2/3  5/180/62/000/005/001/011 The reduction of iron ... E075/E435 0.10 mm the particle size of the scale has no influence on the reduction process. The iron powder produced is pyrophoric. The minimum annealing temperature of the iron powder necessary to remove its pyrophoricity without soaking and with a 30 minute soaking was found to be 780 and 7500C respe6tively. There are 4 figures. SUBMITTED: March 15, 1962 Card 3/3  Ah 1010 A H 0 a 0 0 0 a 5168. REDUCTION OF RUXTRIC PWR CONSLWTION OF ELOCTRICAL RESISTANCE MNACES BY INCREASING THEIR EMCIENCY. Kostanys, K. A. and Lurts, 1. M. (FroWshlennaya ~~srgetika (Industr. Pwr)j Aug. 1949, 4-0-1. 6, 10-n). Indicates Possibility of accomplishing the above by shortening the heating coils. Production data indicate 50% increase of produr, tivity Ath 25% reduction of power consumption. However, the method is soplicable only If the furnace operates at temperature not ex- ceeding 800-850%C. (L). ~%#-ILA 89TALLUOIGMAL L11111471411 CLASUPK47009 via.. NO.Lnv SOODO -A I %via" Mir 0.1 dog U U V to MAR& 114140 **IN"$ OF cr a t; W,J 11 its, IIM V `2001 Net* woo  TIKHOMIROV, I.D.; LURIYE, I.M., starshiy inzh. Every invention should be filed. Izobr.i rats. no.6:1-2 Je 162. (MA 15:6) 1. Zamestitell zaveduyushchego otdelam registratsii nauchno- issledovatel'skikh rabot Komiteta po delrm izotreteniy i otkry-tiy (for Tikhomirov). 2. Otdal registratsii nauchno-issledovateliskikh rabot Kom:Lteta po delam izobreteniy i otkrytiy (for Lurlye). (Inventions)  -LURIYE I N LIPSKIY., M.P. and KARNAIJKHOV, M.M. I'Shop with 500-Ton Open-Hearth Fumaces,, Soviet Metallur , No 3., 1937.  I LM, L~ ~Eli - J i._ "Modern Steel-Smelting Shops of Gipromez Projects" Gipromez Stall No 2, 1956, pp 215-135 Translation M-3,053,059, 4 Jon 57  LUR'YZ, I.N., inzhener. Modern steel melting plant among the plans of the state Institute for the Planning of Metallurgical Plants. Stall 16 no.2:125-135 F 56. (MLRA 9:5) 1. Gipromez. (Smelting furnaces) (Metallurgical plant@)  IVRIYN, I.N., referent. t1.- , I - ~ "-'II:'.-"-' I--'-.'.' Modern ?homas steel plant, Riul. TSNIICHM no.15:47-55 157. (Ageoemer process) (Metallurgical plants) (MM 11:5)  LaRlYR, I.N., referent. 1: ?ho 550 ton capacity open-hearth furnace. Blul. TSNIIGHK no.16:53 '37s (United Statoo-Open-hearth furnaces) (NM 1195)  4 t I R I" Yk ) _r A-1, I LURIYE, I.N., referent. ' Using shaped charges ,to open the tapping hole in open-hearth furnaces (from "Stahl-.und Eisen" no.9, 1957). Biul. TSHIICHM I..no.23:47 '57. (MIRA 11: 2) (Germany, West-Open-hearth furnaces)  \ LTJR1YE, I.N., referent .*, - Open-hearth furnace with two stacks and artificial draft (from "Stahl und Risen" no. 24,1957). Biul. TSNIICHM no.7:50-53 158. (MIRA 11:6) (German.v, West--Open-hearth furnaces)  LURMI IINI$ inzhl --- Open.--hearth furnace production in the United States. Biul. TSIICIU4 no.9:7-16 160. (MMA .15:4) (United States-Open-hearth furnaces)  ~Ich--;OYHS' Grigofty Ndimovi h, prof,q doktor T)MIN Konitiatin dai~~glp' tekhn.,-iibak; CMW=MDi.K!1'hhll Avksentlyv~ich; IJJRIYB 1.7a Itaumoviob; TRUBETSKC*l KVchail Miklia ad VESEIJWVI ylovicli deow VAGIN'A.A., red, izd-va; MIKMLOVA, Y*.V.0 tekhnivreds [Metailullw 6f.--*gtebli,--tbo"open;-bear46'proce~s~;, design ~nd eqaipm3ut of open~~dtth: - f 9!' plijrtsl MetaUuAziia stalit martenovskii a, t teno bfiA protoeooj'konbtkWdbii-i'bboi-Wovar4o m r "."iskikh bei i tsekhov. Hookvap Goo, -nauchn"kbrij. izd-vo,'li+ po chernoi tavetnoi me- 61- tallurgli 19 (mm 143 8) 10;;n-hoarth hirnaces-Design. and c.on.simction)  T7 Pt" 7.7c, :,m ,II I - 4 -i t I  At A Rt Mo. A' OR Ova v SO wit I 35'. is, ri I -d N12  LURIYEI I.N., referent State of open-hearth furnace production in the German Federal Republic (from "Stahl und Eisen," no. 11, 19601. Biul. TSIICIR4 no.2:1+9-51 161. (MIRA 11+: 9) - (Germany, West-Open-hearth furnaces)  FRONTINSKIY, Boris Vladimirovich; LUR.'Y-E- I.N. red.; IANOVSKAYA, red. izd-va; KARASE ~ ~.. M.R.1 V.9 . ~te~~.~ red. (Output of open-heart furnaces] Proizvoditellnost' martenovskil-h pechei. Moskva, Metallurgizdat, 1962. 159 P. (MIPU4 15:7) (Open-hearth furnaces)  LUR I rE, 1. N, Converter operations -Ath top oxygen blow in foreign countrie:3 (from foreign journals). Stall 22 no.9-8,2-807 S 162. WIRA 15:11) (Converters)  LURIYE, I*N* Expanion of steel molting equipment and plants in the U.S.S.R. Stall 22 no.11:983-993 N 062. (JaRA 15:11) (Open-hearth furnaces--Design and construction) ldb- (Steel-Bleotorowtallurgy)  LURIYE, I.N., ~nzh. ...... "Tilting open-hearth furnaces" by V.V.Leporslcii, E.A.Kapustin, G.M.Glinkov, and V.A.Makovskii. Reviewed by I.N.Lurte. Stall 23 no.W18-719 Ag 163. (NIRA 16:9) (Open-hearth furnaces) (Leporskii, V.V.) (Kapustin, Z.A.) (Glinkov, G.M.) (Makovskii, V.A.)  LURIXEv I.N., inzh. r---. Using oxygen in open-hearth furnace practice in the United States. Stall 23 no.10005-9017 0 163. (MIRA 16:11)  LUR'YE,_.j.,.N, [O.xygen-blown converter processes of steel production; review of foreign patents] Kislorodno-konverternye protsessy proizvodstva stah; obzor inostronrqkh patentov. Moskva, TSentr. nauchno-issl. in-t patentnoi informatsii i tekbniko-ekon. issledovanii, 1964. 39 P. (MIRA l816)  LURIYE.-I.A.-; MABLOV,, V. 1. Incr!ae~ the ser7ice time of winter roads; based on materials collected in the Komi A.S.S.R.# MerzL isal. no.1031&329 161. (MIRA 16: 1) S~r~kap region-Forest roads) Sytyvkar region-Roads, Ice) ~       L 21OD5-65: EN I   FREYNON, -a ~j 30  LURIYEP K.A. Diffraction of a flat electromagnetic wave on an ideal2y conducting round disk, Zhur.tekh,fiz* 29 no.12:1421-1433 D 159. (MIRA 14:6) lo Fizik6-tekhnicheakiy institut AN SSSR. I (Electromagnetic waves-Diffraction)  - LURIYE, K.A. One class of plane problems in magnotobydrodynamics. Zhur. tekhne fiz. 30 no.6:736-738 Je 160. (KMA 13:8) 1. Fiziko-takhatcheekly institut AN SSSR, Leningrad. (Magnet olwdrodynamics)  3/057/60/030/00Q//005/021 Jq6- /00 B013/B054 AUTHOR: Lurlye, K. A., TITLE: The Plane Pro em of Solids Around Which There Flows an CncompresBible Liquid of Finite Conductivity in the Presence of a Magnetic Field Perpendicular to the Flow PERIODICAL: Zhurnal tekhnicheskoy fiziki, 1960, Vol. 30, No. 9, PP. 1035-1040 TEXT: The author had earlier suggested a method of solving the problem mentioned in the title (Ref. 1). With the use of results obtained therej the author investigates here the flow of an ideal liquid of finite con- ductivity around a symmetrical smooth profile in a magnetic field per- pendicular to the flow. First, he considers a parabolic cylinder (Fig. 1) around which there flows an incompressible liquid of the conductivity 0. He introduces a complex flow potential, and then shows how to derive relations for t1,? magnetic field, and also for the electric field, from the induction equations and the boundary conditions used here (see Ref.1). Next, he studies the problem in the plane of the complex potential, and investigates the whole problem by the method suggested by G. A. Grinberg Card 1/2  The Plane Problem of Solids Around Which There Flows 3/057/060/0300~bO54b2l an Incompressible Liquid of Finite Conductivity B019/BO54 in the Presence of a Magnetic Field Perpendicular to the Flow (Ref. 2). In this connection, he investigates, however, Lhe limiting case of a similar problem-in which the parabolic cylinder is replaced by a cir- cular region (Fig. 3). Finally, he passes over from the mathematical planes to the physical planej and obtains an asymptotic expression for the field. Prom this expression, the author concludes that the magnetic field decreases exponentially with increasing distance. This gives evi- dence of a convergence of the integral for the magnetic energy in infinity, and a usable calculation of the Joulean losses is rendered possible. The author thanks Professor G. A. Grinberg and Yu. V. Vandakurov for their interest and advice. There are 3 figures and 3 Soviet references. ASSOCIATION: Fiziko-tekhnicheskiy institut AN SSSR, Leningrad (Ins#~tute of Physics and Technology of the AS USSR, Leningrad) SUBMITTED: April 18, 1960 Card 2/2  61/637665TM, 20 5105 B104;B205 AUTHOR: Lurlye, K. A. TITLE: SofUt*1on of. equations for the one-dimensional motion of a compressible gh-s-of-finite conductivity*in transverse electric and magnetic.fields 5*teady?-q~ate case) PERIODICAL: Zhurnal tekhnicheskoy fiziki, v- 31, no-**5', 1961, 623-627 TEXTt In a book by F. A..Baump S. A. Kaplan, and Ki P. Stanyukovich (qvedeniye v kosmicheskuyu gazodinamiki. Fizmatgiz,.'261, 1958),-the iagnetogaadynamic equat.ions for the on6-dimensiohal~motion of a com- pressible gas in electric and magnetic fields were transformed into quadratures. A paper by I. -B. Chekmarev (P104, XXIV; 2, 382, 1960) contains a solution to the parti6ular case'where an electric field is absent. The present author has derived a solution to the steady-state problem in the, presence of-an electric-field. The solutio-n is given in the form of closed formulas containing.elliptic functions. The equations are set up on the. assumption that V - (V11090), (O"E,O), H -.(O,O,Hl)l,and that no heat is gene ted.. Viscosity and thermal conducti it zlected. !X: y are ne Z~ Card 1/5 22787  F4~ -5/057 'bl/'U51/'UU5/Ulb/U2C' S-olution of equattions.- B104YB205 2, if, __~ The reduced variatles -P=Ll 7' V=ll H=RO' X-:L w cE P0. PO -V0 H,2 L and the parametert 4 B= const, M02 j. T CP (2) W, wo 1P0 P02 02 , 0 are introduc'ed and, thus, one obtains -the system dv d PV IM01 2 d d.,,rV=O,. JH y-=R.[vH-B], P=PT' d T] SB L= 0. Pv 2 Q - IM) dx For x 0 it -is supposed that q p T 'a v - H 1. From this the sol~tione v -4- P -4-!E H2 h 1 -4-S (9) 2 WO, Card 2/5 (10) f3) (4) (5) (6) (7)  Solution of.Fequations.,.. B104/B205 P. =T=pv =TM02 [hv-V2-~.EvH'j T O~ (12) IV SV 2T 2T '21= are derived. Using (5) and (12) it is possible to represent the velocity v and the magnetid field H as functions of x. For this purpose, the new variable z - VH (13) is introduced inio E'qs. (5) and (12);mith' 2h( rS)2/3 the aid of. the functions"I 2z-2B (16) and TS 3v 2 3 (r+ (17), the equation;u .4t - 92-q - g3 (18),,is derived, where g2 and-g, are given.by the relations ./I S/ f =1 I ISILM - I - 1 -1 S 3 and g3-4 [h 27S 3S 7 1 2T 2 B3 B (20) 7 1. ~x The substitution f(t) and -6(t) (21), 'where ~(t) is an)elliptic function'with the real invariants and batisfies Eq. Oa The 92 Card 3/5  1/057/61/031/005/018/020 f Solution equa ons... B104/B205 of equation Mjz - BI (14) detefmines x as afunction of t,*and, dx v using (16), (17),' and.(21), one obtains the solution, Rx 2 (t) -+- 2B 10'(t)-La -2 Y3 OP (t) 4hy -+-2 2B -4- const. .23) [v (t) L j 3 J1 1) Using the notations a=-2h 1S) "' 7, =2B 7 1, T, -2B 28 (24), the integral appearing fn (23) can bd represented in the form. dt (25) 2- 13 V" (P (1) a FF(0 7212 The representatibn (P.Q 28 (1) - L"j L - 2 407 Card 4/5 L V 7 3 (7 Ili  �/057/61/031/005/018/020 Solution of equations ... B104/B2O5 -4- 1 T YS I Q2t(t)- Q21(P)-+- Q22(tY_Q22Q)'_4_ (Q11 (t) - Q,j (p) -4- Q1., (t) - Qt2*(p)]j (28) is finally obtained for.(23). There are 2 Soviet-bloc references. ASSOCIATION: Fiziko -tekhnicheskiy institut im. A. F. loffe AN SSSR Leningrad (Ins~titute of Physics and Technology imeni A AS USSR, Leningrad) SUBMITTED: December 6, 1960 Card 5/5 4  10.2-000 '74AII AUTHOR: Lurlyep K.A. (Leningrad) 31242 3/207/61/000/005/001/U15 D237 D303 TITLE: One-dimensional model of a magnetic gas-dynamic energy converter PERIODICAL: Zhurnal prikladnoy mekhaniki i tekhnicheskoy fiziki, no. 5, 1961, 3 - 9 TEXTs When a compressiblep conducting gas moves between two para%r lel conducting plates in the x-direction (Fig. 1) in presence of magnetic field H 0 in the z-directionp an electric current flows in the y-directiona Conversely, application of an external emf. to the plates results in an additional pr sure gradient in the x-di- rectionp depending on the magnetic fietd.'The acceleration action of the pressure gradient corresponds to absorption of energy, while the retarding one corresponds to emission of energy. It is assumed that '7' = ~Hl V i 9 H = H + H H i , j rot H = - --L _ 1 X 0 1 z 44Y 43Y dxz y Card 1/4  One dimensional model of a 31242 S/207/6-L/000/005/001/015 D237/D303 and E = B y. Then the equations of magnetic gas-dynamics are _L [Y2 + pv p = pT9 + SBH] 0 (1.2) dx 2 )m2 0 2 4_:~dLv where M2 = Povo 9 !RV S B = A-P Rm 0 cv 2P VOHO c2 Irpovo Prom the latter, together with 2 M v1 = (I~vl)~2 v1 (2.1) a1 Tpl _VyRT 1 and r, = vH, (2.6) the author deduces that the point ~: = B divides the interval (-0o' co) of possible values of ~ into two regions with no stablep con- tinuo#e transition between them. The second characteristic point is Card 2/4  1z4z /11 S 201/61/000/005/001/015 One-dimensional model of a ... D237/D303 - ( 2 2 B(I - 1)/yp where 1~ - 1)dp = Of, i.e. either Ml .= 1 or d-O = 0, with both cases possible. The work.done is then considered#.It can assume the following aspectst If JH 1-< 0, then the gas emits ener- gy, work is done against the field and ponderomotive forces retard- th& gast while for JH ---- 0, work is done on the gas by ponderomo- tive forces# the gas ibsorbs energy with resulting acceleration. Four formaltases are discussedf namely JH1 -< 0 9 j B ---- 0 (3 .1)' where the gas generates energy which is absorbed by the field# JH1 7~-- 09 JB :-- 0 (3.2) where the gas absorbs energy from the fieldp jHl 0 P j B > 0 (3-3) where both field and gas release energy which is converted into heat, and jH1 " Of JB 0 (3-4) which is physically meaninglesso It is shown that the transition Card 3/4  31242 S,/207/61/000/005/001/'015 One-dimensional model of a D237/11303 (Eq. 3.2) --!~ (Eq. 3-3) is possible# but that the converse is not true. There ai-e 4.figures and 7 references: 6 Soviet-bloc and 1 non -Soviet-bloc. ASSOCIATION: Piziko-tekhnicheskiy institut im. Ioffe, AN SSSR (Phy- 5ico-Technical*Institute im. Ioffev AS USSR) SUBMITTBDi July 22, 1961 Fig. 1. I ti ow FO Card 4/4  38089 ~/040/62/026/003/012/020 D407/D3O1 AUTHOR: Lurlye, K.A. (Leningrad) TITLE: On the propaGation of disturbances iii systems with nonlinear boundary-conditions PERIODICAL: Prikladnaya matematika i mekhanika, v. 26, no. 3, 1962, 503 - 510 TEXT: A general ra~ethod is proposed for solving the one-dimensional wave equation, which is'not based on the d'Alembert representation or any specific type of initial- and boundary conditions. In the second part of the article, the oscillations are analyzed of a sys- tem, consist.ing of a Dipe line and a stop valve equipped with a non- linear spring, The wave equation uIr T ~_Uxx (T = at) (1.1) is considered. It is require& to solve it under initial and 16ounda- ry conditions ahich contain a nonlinear function P. The solution is expressed as the sum of 2 functions f 1 and f2& A nonlinear differen- .Card 1/3.,  3/040/62/026/003/0-12/020 On the propagation of disturbances D407/D301 tial-difference equation is obtained. The function f2 cannot be exactly determined by integration. Thereupon the nroblem is solved by another method: It is assumed that the value 0~ u(x, T) at x = 0, is a knovin function of timep denoted by v(T). This problem leads to the-nonlinear differential-difference equation 00 V'(-c) + 2 Yj v'(-r - 2nl) + F (V (-r)] V(T) + T (-r) (1.20) % n-1 - , which is integrated for the initial condition V(O) = ce(O). This me- thod is not based on the d'Alembert reDresentation of the general solution of the origina]L equation. Thus, for the one-dimensionall via- ve equation, one obtains (insiead of AEq, (1.20)) the int'earo-diffe- rential equation 00 2 1 v, (,r - 2ni) - cV (T.- 0) (-0) A - 0 (1.22) c0 Y, ~ V(,r-6) I, (C A + F (V (D, + T n-1 2M .Card 2/3  S/04 62/026/003/012/020 On the propagation of disturbances D407%301 Further, the oscillations in the system pipeline-valve-nonlinear spring, are considered. The length of the channel is denoted by 1 and the mass of ihe spring by I.I. As a result of the pressure D 9 a U 1 .0 fluid 1"'lows through the channel. Small deviations from the stationa- ry state are considered, due to sudden pressure variations at the end x = 0 ot' t1ne channel. The equations of motion and boundary condi- tvions are set up. Dir.-lensionless variables are introduced. k second- order differential-difference equation is obtained for the arbitrary flanction F(T). This is solved by methodso given in the references. After transformationsp one obtains a functional equation which is solved graphically. Periodic solutions are obtained and their stabi- lity is investigated. There are 2 figures. 0 SUBM.ITTED: December 13, 1961 Card 3/3-  L, ACCESSION TIR: AP4015970 S/0040/63/027/005/0842/0833 AUMCR: Lurlye K. Ao'.(Leningrad) TITID: Mayer Bolza problem for multiple integrals and optimization of the behavior of systems with distributed parameters SOPCE: Prikl. matem. i mekhane, ve 2"(, no. 5, 1963, 842-853 TO1111C TAM: Mayer Bolzr- problem., mu2.tipl.(-- integral-, optimization, optimal behari.ro, distributed parameters, dynmdc programing, Pmtryagin maximun Irinciple.. integral relation, partial differential equation, ordinary differential equation, calculus of variations ABSMACT: The problem of optimization of systems mith distributed par=eters has been studied fron various points of vieir,- such as Bellman's dyn=ic pro3raning., Pm"bryagin's mwdm= principle., and intc~;ral relations. In the present work the author obtains necessary conditions for optimality by using the methods of clas- sical calculus of variations. He fo=ulates the problem as a I-layer Bolza problem for multiple integrals with constraints given as both psxtial and ordinary Card 1/2  ACCESSION NR: AP4015970 differential equations. He obtains necessary conditions for stationarity and the necessary Weierstrass condition; fran the latter he derives an analog of the ma:cimum principle.. and for simplicity he works irith two independent variables. He studies optimization of systems with distributed par&meters in the fromeirork of studying solutions of the correspmding cancnical systems. For acccmplishing, the proper vaxiational approach to the logical scheme, it is necessary to investigate problems related to the optimality principle of BeIlTnan (in& the Hamiltoa-Jacobi equatIon. 0371g. ext. has; 62 fc=u3zLs and I diagrme ASSOCMION: ncne SLMI.UTM: 17MAY63 DATE ACQ: 2INov63 EICL: 00 SIM CME: W4 Norm sav: oo6 CZM: 005 Card  Acassiw NF.: AFW34269 3/0207/64/000/0W/0029/0039 AUTHOR; Lurlyej, K. A. (Leningrad) TITLEE: The problem of optimal distribution of conductivity for a fluid moving in an exterior magnetic field SOURCZ.- Zhurnal prikladnoy mekhaniki i takhnichaskoy fiziki., no. 2, 1964,0 29-39 'TOPIC TAGS: fluid conductivity, plane channel, dielectric wall, ideal coruluctor,, joule heat,, optimal control,, magnetic field ABSTRACT: A conductivu fluid whose conductivity is restricted to the interval ..) moves with constant velocity v(V.,O.,O) in a plane channel of width 2 ((rmin, a: 6. The wa.Us of the channel are everywhere dielectric with the exception of two por-, tions of equal length 2A on walls directly opposite each other and consisting of ideally conductive material* The conductive p rt ons are joined by a load R. With applicetion of an exterior magnetic fieldOBNO)-B(z)) across the load chain there flows an electric current A S. V (xv 6) dz W. Card 1/3  ACCESSION NR: Ap4o34269 and in the Uuid,, joule heat is distinguished 00 Q P lwr + wrl dxdy M'. The assumption V - const is justified in the case of small values of the magnetic Reynolds number; the induced field can be neglected, and the current distribution J(9 1,92) and the electric field potential zi are described by azIL az, -PV +ED, -?C2)+ 'PC, 0* C ax a ass !, - - C". 21' + #1' -0 ~ax Oy where z2 is the flow function,, and P l1d is the specific resistance of the fluid. The author studies the problem of choosing,, among Ithe piecewisa-continuous functions p (x,y) satisfying PM1n