SCIENTIFIC ABSTRACT LEV, YE.S. - LEVCHIK, S.P.

LV,Ye S. kandidat, tokhuicheskikh nauk; PITROY.B.A.; MM.N.V. Detection of defects In metals In ship repairing yards. Rech. transpe 14 no.7.2?-29 J1 '55- (KRA 8:10) (metals--Defects) (VAguetic testing)  LEV, Ye. S.) "Filtration of a Gas Through a Layer of Free-flowing Material (State of the Problem), p. 241, Aerodynamic and Heat Transfer Problems in Boiler and Furnace Processes; A Collection of Articles) Moscow, GosenergoizdatMoscav, 1958. 329 p. Purpose: The book is intended for engineers and combustion specialists concerned with the design and operation of heating equipment and it is also for scientific workers and students of vtuzes. "Aerodynamic Resistance of a layer of Crushed Material, p. 298.  68270 /0' a 1900 SOV/81-59-10-35105 Translation fromt Referativnyy zhurnal. XhImiya, 1959, Nr 10, p 253 (USSR) AUTHOR: Lev, Ye.S. The Aerodynamic Resistance'of a Layer of Granulated Material PERIODICAL: V ab.s Vopr. aerodinamiki i teploperedachi v kotelIno-topochn. protses- sakh. Moscow - Leningrad, Gosenergoizdat', 195B, pp 298-312 ABSTRACT., Experiments were carried out in a 600-mm high column with a cross section of 150 x 150 mm with blowing of air through layers of anthracite and cork particles as well as proso millet and mustard seeds with a size of 1.6 - - 10.4 mmi the characteristic of the layers: height 40 - 200 m, apparent specific gravity UT - 1.580 kg/m3; porosity 0.396 - 0.70. In the experi- ments Re varied within the range of 2 - 2.400. It has been established that with an increase in the air speed beyond a certain value (resistance limit) the change of the layer resistance ceases to obey the quadrate law. The concept of the criterion of resistance has been introduced, at which the layer stability is perturbed.2 Yt _ (,:Aplim + hdyn. lim. )/(H lay -r sat), Card 1/2 where Aplim In the hydraulic resistance of the layer, h dyn. lim. is the ~r  PHASEaI BOOK EXPIDMTION SOV/3994 Leyj Yevgeniy Semenovich Cmd1date of Tlecbnical Sciences, and Marlen Vlad- Primeneniye radioaktinykh izotopav d1ya kontrolya kschestva ovamykh shvov stal.i malykh tolshchin (Using Radioactive Isotopes For Quality Control of Welded Joints Between Thin Steel Sheets) Ianingrad, 1959- 40 P- (Series: Ianingradskiy dom nauchno-tekhnicheskoy propagLndy. Obmen peredovym opytom. Seriya: Kontroll kschestya produktoii,, vyp. 12/13). 6.,5oo copies printed. Sponsoring Agencies: Leaingradskiy dom naiachno-tekhzilcheskoy propagandy; Obshchestvo po rasprostraneniyu politicheakikh I nauchnykh znaniy RSFSR- Ed.: S. T. Tyumeneva, Itinit-In er; Tech. Ed.: V. L. Gvirts. PURPOW: This booklet to intended for metallurgists., skilled metalworkers, physicists, structural engineers., and other persons Interested In the strength of materials. Card 1/3  Using Radioactive Isotopes (Coat.) SOV/3994 COVERAM: The booklet examl a the technical possibility and economic ex- pediency of using soft and medium go- radiation in the quality control of welded joints between steel sheets 1-15 mm thick. Methodsj materialej, and technical data are reviewed. The data were compiled by personnel of the LIVT Defectoscopy laboratory to establish criteria for selecting suit- able p- radiation sources to replace less convenient (and often inac- cessible)x-my equipment. ~o personalities are mentioned. Mere am 16 figures, 19 tables,# and 45 references: 40 Soviet,, and 5 English. Thm OF COMEM: Introduction 3 I. Fundamentals and Preliminary Choice of Isotopes for Gomm- Radiography 4 Sensitivity of control 4 The energy spectrum of rs&Ation 6 Characteristics of radioactive isotopes 9 II. Determination of Technical Phrameters for Gomm-Radiography 14 Activity of gamma-radiation-sourees 14 The range of Jgamm-] translucent thicknesses 20 Sensitivity of a gu=Lgraph 21 Card 2/23  Using Fadioactive Isotopes (Coat.) SOV139CA Photographic technique 24 Exposure during ganow-radiography 25 The service 3ife of Isotopes 26 Thickness of lead shielding to ensure a limited allowable dosage of radiation 29 131. Economic Iffectiveness of the Proposed Isotopes. Computing the Cost of Gena-Fhdiography 31 The -radiographic process 33 Comparison of the not cost of gamma-radiogrephy with the net cost of other methods of control 36 IV. Conclusions and He nd Ions 36 Bib3 iography 40 AVAILk=: Library of Congress JA/m/faa 5f8l6b Car4 313  OUSXV, Kikhail Hikoloyevich, prepoftystell; ZILIST, Petr Sigismundovich, prepodavatell- LXY Taygeniy Some ovtqh, prepodavatell; LOPTM, Nikolay Iliriii-o-:vlc-b-,--ii;p-o-,d-a-v-a,ielI KARMINSKIT. Vladimir Pro- koplyevich, propodavatell; NMMOV, Petr Petrovich$ prepodavatell; IMTIN, Gennadiy Ifikhaylovich, propodavatell; SWZCMMO, T.M., doteent, kandotekhn.nauk, retsenzent; BILOV. NX. insh.. reteen- sent; 0010VANOT, N.V., red.; TOLCHOK, K.M.. tekhn.red. [Technology of marine engineering and ship repairs] Tekhnologiia sudovogo mashinostroonlia i sudoremonta. Pod obshchal. red. M.N. Guqeva. Leningrad, Ixd-vo Machnol transport.* Laningr.otd-nis. Pt.2- ETechnology of ship repairs] Takhnologiia sudoremonta. ig6o. 47o p. (KMA 13:4) 1. Kafedra takhnologil sudoetroyanlya i'sudoremonta Leningradekogo instituta vodnogo transport& (for Ousev, Zillst, Lev, Lopyrov, Mardenakiy, Remkov, Ifikitin). (Ships-Maintenance and repair)  S/032/60/026/011/034/035 B015/BO66 AUTHORS: Levyj Yea~ 8_# and Bruk, Ms V. TITLE. Technical-economic Foundation of an Effective Application of Isotopes With Soft Radiation for the Quality Control cf Weld Seams PERIODICAL, Zavodskaya laboratoriya, 1960, Vnl. 26, Ho. 11, Pp. 1320-1322 TEXT: The authors calculated the efficiency and the prime cost in the quality control by means of gamgla- sdiozraphi y using the following 75 127 155 170 192 60 isotopes; Se Te Eu Tu JL~L Cc s well as X-rays. The efficiency dG_P_1W~sW1t1hRe t e _;Mll is r4 r the preparative work and the control work itself (Table 3). The valuation of efficiency and the calculation of the costs of gamma-radiography with the above isotopes made by the authors, as well as practical work led to the conclusion %bat for thicknesses of 1 - 15 mm the beat results are obtained with su'55, that, Card 1/3  Technical-economic Foundation of an S/03 60/026/011/034/035 ,Effective Application of Isotopes With Soft m5ym66 Radiation for the Quality Control of Weld Seams however, this isotope is still rather expensive. The isotopea Tu170 and Te 127 have the disadvantage of a short lifetime, but may be recommendel for measurements. The gamma-radiographs obtained with Se75 are less sensitive than those of the former isotcpes. IrI92 may be used instead Gf Se75 and for thicknesses of 8-20 mm qualitatively good radiographs are obtained. Here, the sensitivity is 2-5 - 3 and the radiograph is 2.9 to 3-5 times less expensive than that with Se15. For thiaknesses cf 1 -'5 Mm the sensitivity obtained with Ir192 is tco low and the radiation source has a comparatively short lifetime. The use of the isctopes ascording ts Table 5 is recommended to obtain the maximum sensitivity with Jifferent thicknesses of the material. There are 5 tables and 1 Soviet reference. ASSOCIATION: Leningradskiy institut vodnogo transporta (Leningrad Institute of Water Transportation) Card 2/3  roa;4os n U30 UN!"bKoCM6, oeanuic 4 UP Kopp4ecima envusics a roA n9v scoutpome PSACAVA IafiRPHOR I HSOTOW 6 AA 11MM to 2tn'*_ Ift%L. 1720 1 f0 f840 1810 , &TS 3070 2840 2700 2520 1410 f290 1230 1000 _ Tell' FW t750 500 7230 ICO 290 1230 1000 Ell - 9W_ 1750 M T230 1410 1 _"n 1230 JW) TuM - - - RW_ _550 TSM T230 I 1690 1660 16W 1530 '2640 i520 i4OO ZW 1400 1400 1380 co## i660 T060 19M 'a $INCxWTe.A* AAHM ~ A"Oro OnepAyars. a ILPOM Opt PAGOn SHAMUSTUO -Opt Ole ARYX Q"CPSTr- pas. 'S1032J6010261oillO341035 B015/BO66- LeGand to Table 3 - Output per year in gamma-radiogzaphy, I - isotopes, 2 number of radiographs taken per year in the control of articles of the thickness: (mm), 3 .'the numerator contains the data for the work of one operator, the dennminator those for two operators. Table 5 - Isotopes recommenddd, I 1',fetal thickness in mm, 2 - isotopes recommended,'3 - possible exchange, 4 exchanCe less recommendable Card 313  IZVp Us$ shturman ............................- Determining the morit probable position of the ship from three radio bearings taking into consideration the power of radio beacons and their distance from the ship. Vor. flot 24 no*2:22-23 F 164. (MIRA 18:12)  AUTHORSt Mazurin, 0. Yet Favlova, 0. A., 57-12-3/19 Levq Ye. Ya., Leko, Ye. K. TITLEs An Inve stigation of Silicate Glasses with Electronic Conductivity (Silikatnyys, stekla. a elektronnoy proyodimostW) PERIODICALs Zhurnal Tekhnioheskoy Fiziki, 1957, Vol. 27, Nr 12, pp. 2702 -2703 (USSR) ABSTRAM In the investigations of alkali-free silicate glass conducted here special regard was given to the anomalously high electric conductivity of glass with iron oxydes. The electric conductivity of such glass proved to be higher than that of analoguous glass, which contained a corresponding amount of sodium oxyae instead of iron oxyde. The measurements were conducted with graphite electrodes according to the usual method (reference 7). The character of the conductivity was determined aocordinj; to the "Tuband- method". Three glass samples, anode, a medium (control) and cathode samples were carefully ground to fit together and mounted between metal disks. A constant voltage was applied Card 1/3 to the disks. A measured amount of ourrent was passed through  An Investigation of Silicate Glasses with Electronic 57-12-3/19 Conductivity. the samples (at about 6000 C), which beforehand were weighed. A judgement can be given on the character of the conductivity by means of the change in weight. The results showed, that in the glass under investigation a practically pure electronic conductivity (experimental error 1 + 2 ~) is met with, the magnitude of which is strongly dependent on the Fe 203 content and on the composition of the glass. It is shown, that although the glaaP sample no. 2 contained only 5 % of Fe 203 it displayed a pure electron conductivity. From this it appearst that the lattice of amorphous boron-aluminium silicate reRresents no insurmountable obstacle for the electrons. kGlass sample number 2s 45 molar percent of SiO 29 10 molar percent B 2031 10 molar percent of Al 2039, 30 molar percent of CaOt 5 molar percent of Pe 20 3). It is conjectured, that probably, a partial or total electron conductivity is also characteristic for many silicate and borate glass types free from alkaline contents with a high resistance. There are 1 figure, 2 tables, and 12 references, 7 of which are Card 2/3 Slavic.  An Investigation of Silicate Glasses with Electronic 57-12-3/19 Conductivity. ASSOCIATION3 lovaingftd,11stittits of Tecbnology Inmi Lensoiet (Leningradskiy tekhnologicheskiy inst. im. Lensoveta). SUBMITTEDs April 24, 1957. AVAILkBLEt Library of Congress Card 3/3  s/139/6o/ooo/o3/007/045 AUTHORS: Mazurin. O.V. andlev.181POP5 TITLE: The Influence of Alka i-metal Oxide Additions on the Electrical Proj2erties~of Alkali-free Glasses PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy, Fizika, 1960, no 3, pp 43 - 51 (USSR) ABSTRACT: This is a continuation of earlier work (Ref 1) - a study of alkali-free glasses - in which the effect of aluminium oxide on the electrical properties was investigated. It is important to know the effect of alkali-metal impurities in these glasses to estimate the required purity of the raw materials and the possibility of deliberate inclusions of alkali-metal oxide in the recipe to reduce the smelting temperature of the glass and improve its properties (mechanical, thermal, etc)., A study of the literature (Refs 1-10) gives a basis for assuming a special form of interaction of lead silicates with alkali oxides leading to an increased electrical resistance. Electrical resistance of the glasses studied was meai-ured Cardl/2 1~y the method described in an earlier paper (Ref 11).  5/139/60/000/03/007/045 The Influence of Alkall-opotal Oxide ARAWRPon the Electrical Properties of Alkali-free Glasses It was found that borate glasses always have higher resistance than silicate, while borosilicates are intermediate. Introduction of aluminium into alkali- free glasses increases their resistance but the opposite effect occurs with borate glasses. A calcium-borate glass had the highest resistance, appreciably exceeding that of fused quartz. Up to about 5-8 mol.% the addition of alkali-metal oxides has practically no effect on the resistance, after which the resistance drops rapidly. It is assumed that at low concentrations the conduction mechanism remains that of alkall-free glass, while above the critical concentration the conduction mechanism is that of alkall-glass. There are 3 figures, 1 table and 20 references, 15 of which are Soviet and 5 English. ASSOCIATION% Leningradskiy tekhnologicheakiy Institut imeni Lensoveta (Leningrad Technological Institute imeni Lensove ) SUBMITTED: April 10, 1959 Card2/2  20M ADTHORSt TITLEs PERIODICALs 8/181/61/003/003/015/030 B102/B205 Brach, B. Ya., Zhdanova, V. V., and Lev, Ye. Ya. Thermoelectric properties of the system HgSe - HgTe Fizika tverdogo tela, v. 3, no. 3, 1961, 786-769 TEXTt The system RgSe - HgTe, which has very interesting thermoelectric properties, has so far been Investigated very insufficiently, and the pub- lished data are contradictory because the system probably contained also free Rg. A very detailed study has now been made of the thermoelectrlo properties of verf carefully prepared samples which contained no unreazted Rg any long;r,g Hg of the type P-1 (R-1) with a purity of 99.999%, So with a purity cf 9 . 9% produced by the factory "Kraonyy khitik", and bidistilled To were used for the synthesis. The latter contained Al and Pb Impuritlea which had been detected by spectrum analVis. The pure elements werfi fusid in quartz ampoules (HgTe--6�0 tp HgSe-790 C). To obtain a complete reaction, the melts were kept at 500 0 for 100 hr, after which no free Hg was found any longer*, Specimens of a size of, 0.8 - 0.9 cm2 , 25 mm were subjected to a homogenizing heat treatment (200 C, 200 - 300 hours). Subsequently, they Card 1/5  S/18111003/003/015/030 Thermoslootrio properties ... B102/B205 were subjected to X-ray and miorostruotural analyses. The electrical con- duativity 0, the thermo-omfof, and the Hall constant R of these specimentl at room temperature were measured. Resultst A study of the dependence of OJ on the composition of the system has shown that e has a broai maximum at a concentration of 5000. ix was foVnd to be a liaear function of the concen- tration; It changes from -95,"v/wC (HgSe) to -115 av/00 (HgTe). This low value of ct indicates either a nearly stoichiometric composition or degener- acy. A study of the deviation of the curve 01w f(log n) from the theoretioAl one shows that there exists a partial degeneracy. Taking the lutter into accounts the authors calculated the carrier concentration (n) from the Hall constant. Fig. 4 illustrates the dependence of carrier concentration and carrier mobility (u) on the composition. u had been calculated from R andc. Whereas n is almost equal for both pure HgSs and pure HgTe, u is 20,000 for pure HgSsp and 22t9OO OM2/V-seo for pure HgTe. Thi absence of a ~-polnt is indicative of the absence of a hyperstructure. Many specimens which had not been subjected to heat treatmen , showed anomalously high values of n (at n-3.1-3-9-1ol7em-3)i 28,000 cmi/v,see for 93% HgSe + 7% NgTe, 31,000 cm2/v.seo for 80% HgSo + 20% HgTe, 32,000 om2/v-sec for 30% HgSe 70% HgTe. Fig. 5 shows u a f(log n) for specimens of different compositions. Card 2/5  20790 S/181J61/003/003/015/030 Thermoelectric properties B102/B205 The anomalous course of curves 2 and 5 can be ascribed either to a nearly stoiohiometrio com p6sition or to the effect of impurities. It in known that the effective carrier masses for HgBe and HgTe are very small. The values calculated for different compositions (1) in mole's are listed in a table. -The authors thank A* R. Regal' for his interest in the work, and L. S. Stilt. bans and B. P. Mitrenin for discussions. Ye. 1. Nikol'skaya is mentioned. A. I. Zaslavskiy and T. B. Zhukova carried out the X-ray structural analyses.' There are 5 figures, I table, and 17 referenoesi 10 Soviet-bloc and 7 non- Soviet-bloc. ASSOCIATIONt Institut poluprovodnikov AN SSSR Leningrad (Institute of Semioonductoral AS USSR# Leningrad) _j, SUBMITTEDs July 8, 1960 Card-3/5  KOLOMIETSP N.V.; LW, ICU.; SYSOUVA, L.M. Nature of curvent carriers Iii Ge're. Fiz. tver. tela 5 no.10: 2871-2876 0 163, (MIRA 16:11) 1. Institut poluprovodaiJcov All SSSIIp Leningrad.  +i ACCZ== NRS AAM9827 8/MW6WW6/003/07O6/0W I.. A No VTHONt Xolomoyete, He Vol Lero Ye*, Taej 2MBs Blectrical properties and a model of the valence band of germwdum, to2lu- ride SOUWZt Fisika. tyardop telap v,~ 69 no* 3P 1964,9 706-723 TOPIC TAWs density states semiconductor band structurs,, Fermi level., semicomfuc- tor carriers Impurity cono.entration ADSM=s The authors have noted anomalies in the concentration and temperature dependence of the basic electrical properties (tbermelectromotIve force, all H concentrations mobility# and electrical conductivity) of Gas, On the basis of a model aingle-band p the anomalies =7 be agwociated with chanees in effective mase With state and twiperatures But the authors suggest a more likely model, ra- the complex struature W: the valance band* This model ooneists of two fle*ting subsonse within the bandp disy2aced relative to each otbers and ha" differeft density statese The sohems of thU model Is Illusbr" in Me 3. on the xw2aw sure* On the basis of this model i1b is 9W to exWein quantitatively the  ACCESSION NRs APl;Oi9827---' anomalies indicated@ The first eepontp in which the electrical properties have normal dependence on stateg corresponds to the Fermi level in subzone 1j when carriers of but a single kind participate in current transfer, The second segment corresponds to a p4ition of the Fermi level when high-mobility holes are aocompanied by low-mobility holes from subzone 2j which has a high density state, A change in To content in this region is accompanied by a change in concentrations of high-mobility and low-qwbility holess and this in manifested in the anomalous dependence of electrical properties on state* QuantitRtive determinations of the basic parameters of the subsone appear reasonabloo Orige arts has: 6 figures and 6 rormaue ASSOGIATIONo Institut, poluprovodnikov AN SSSRj Leningrad (Institute of Somiconduc-~ tore AN SM) ==TED s 29ju163 DATE ACQ 1 32mar64. ERCM 01 SUB CODE t Wo 89 NO PJW BOVI on OTHERI 003 ciao  AP4019827 . - t~t.% To Fig. I* Diammousbic skaboh of th~ Nalowe bond In getuanim tellurJAG* Card 313'  k!.DRZ.YVI, A, A. y ~,f '--' IDf L.M, - If',? I -rt,.,Ya. cc ",;:.1 0, , ", . -?:" .j . , ;; A- th-,, -i f,-:-! -, ~-.v;xrtl a a 1%;-- G tAllia--Ido. 7 nc),21:652-653 F 165o pI kr!:RA 18:8) IS 7natit"A ATI, 5~`!Rl Licl.-grad.  --L 2203-667-.-EWT(1)/EWT(m)/ETC/gWG(m)/T/EWP~t)/EWP(b) AM== mRs A&170 26----- AMOR t a hm -fe. IFAS; Nolomay 1,F No VO N 0 TMES on the energr*aruii Of tern In germaniva +,ellintide SOUME: Mika tyerdogo telap ve 71 no. 7 TOPIC.-TAGOt -forbidden .bandp spectral energy distribution,, electric conductivityp Hall effect,, . germanium conipound,, telluride ABSTPAM'' This Is's, continuation or .earlier workby the authors on the electric -properties. of, gamfinim telluride (M T, 6,, 706t 19&)- In the present Investi- gation,, both polyarystalline and single-crystal. samples were studied* and the con- centratIce Interval was bToodened frm Is 6 X 102o to 3L,8 X 1021 Ce3. plots Were obtain" for the Fall carrier density against the concentration or the introduced ocyW:atonsp and or the thermal aff against the Hall carrier density@ The fact that the electric properties exhibited a clear-cut dependence an the concentration has made It possible. to -calculate more accurately the pwTameters of the eubbwAs at Z taWmtv"# neas' the energy gap between the subbands M 0 (0.23 1 0-03) evs the'effeatt" mass of the heavy holes m* a (4.0 1 0.5) MA the effective h 1 0 mass of the light,hous 0, = 1#35YO* The twoversture varilons of the various electric parametwo an discussed,, The fact that the thermal ae decreases at Card 1/2  L 2 0 -66 high temperstures'Aile the electric and thermal couftictivity increase indicates that carriers of opposite sign appearo 2he use of sanles with lower carrier density'has made It possible to deteraine more accurstelv the width of the for- bidden bands 0 k 0*03 ey at absolute zeros for four concentrations In + :27 ' JOW ~ Cjr3. Orig. art , h" t 9 figures and 2 formulase ,the interva 6 3 x ASSOC=Off: Im,rtitut. poluprovodnikor AN SSSRp raningrad (ZndItVje of Sendeon- SUMNITM OlDec" IMLS 00 CMI as IM MIr BOVt 002, 07M 1 Card 2/2  L 8164-66 1JP(e) "W/jD ACMSSICH NRs- APS01 -9892 UR/0l8l/65/G07/009/2S58/25S9- AUIHORt Andreyevo, L. A.; Sysoyevas L. Ht Lev, Ye prak.- TITIZ., Temperature dependence of the Hall.effect and electric conductivitY in pmadum teUuride SW= I - Fizika, tvft-dW telas v. 7 9 io. 8, 19659 2558-2569 -RIP tiq~ 7MC 'TAGS t niurn ound telluriosillectric condWtiVity, Ha.U effect theximl wd a4 9.4 Q20F~ MST?=: Th explain grim anomalies observed in the behavior of the electrie con- axtivity and therml emf of germmium tellurides the authors wasured the Hall wefficient in the interval from zocx temperature to SOOC fbr three samples of GeTe with different carrier densities (2 * 5 9 6 9 and 11 x 10 20 cd-3). 7he samples Wth 20 cli-3 was a ain&U mystal. The measurements were made with altenuwUng 11 x 10 current and the measuriment aocuxNuy was -o3%. The results axe shown in Figure 1 Of the Enclasum, Me twp decrease in the HaU constant in the 300 - 400C m- gion correlates Wth the phase tzensition. In GeTe. Measurements of the twpamtum k- L-- of the ebmtrCC OWAUCtivity k=Vases r malting and that the liquid a positive tum ooefficient. This can interpr4ted as a result of 2/3   L 3164-- 66--- Acmsioi 16(1. -3 C-10-- 6--URE-P 0- -1 of  7 3-M ____ EWT( m)/ETC(f)JEWP(t)/L?I - IJP.(c)- -,--RPW/JP m7w.---AP6012 SOURCE CODE: UR/0181/6UO-O6-/6-6i~/i2-f~-/i-:~f6-" 487 AUTHORS: Sysoyeva, L. M.; Lev, Ye._Ya.; Kolomoyets, N. V. - _-_- ~ ' 6 0 ORG: Inatitute of Semiconductors AN SSSR. leningra (Institut poluprov6anikov AN SSSR) TITIZ: Mechanism Of carrier scattering in germanium telluride SOURCE: Fizika tv~rdogo tela, 8, no. 4, 1966, 1212- 1216 TOPIC TAGS: germanium compound, telluride, carrier scattering, hole mobility, carrier d6nsity, crystal defect, temperature dependence ABSTRACT: Continuing their earlier work on this subject (M V. 7, 223s 1965 and v. 6, 706, 1964), the authors discuss the experimentally ob- served anomalous dependence of the carrier mobility In germanium tellur- ide on the temperature and on the density, and conclude that although the mobilities of the light and heavy holes have the came temperature variation (., T-3/~, the difference in the effective masses of the two types of holes (by approximately one order of magnitude) gives rise to different temperature dependences of the mobilities and differences in the dependence of the mobility on the true carrier density. The anoma- lies are caused by the facts that at different densities the relative 6rd 1/2 -card  C low N i AP6033552 SOURCE CODE: UR/Ol~1/1~~~/~008~/01OT2~i572~ig" ;%u~,HOR: Kolomoyets, N. V. ; Vinogradova, M* No;, Levt Ye. Ya. ; Sycoyeva, L, M. ORG: Institute of Semiconductors, JVI SSSR, Leningrad (Institut poluprovodnikov AN SSSR) TITIZ: Hall effect in semiconductors with two types of carrier SOURCE: Fizika tverdogo tela, v, 8, no. 10, 1966, 2925-2928 IOPIC TAGS; Hall effect, semlconductor carrier, carrier den ity, temperature de- pendence, semiconductor band structure, CM4U_j__ c6l_j_~ ABSTRACT: The purpose of the paper is to clariPf the influence of the presence of two types of current carrier of the same polarity on the Hall coefficient when accoun is taken of the variation of the energy gap AE with temperature, and to compare the calculated data with the experimental ones for p-type PbTe and for GeTe. The change in. the Hall coefficient with decreasing fraction n2 of the heavier carriers (holes), due to the change in the temperature and oimultaneous decrease in the gap AE between the sub-bands is calculate for several carrier mobility ratios (5, 10, 20). The calcu- lation shows that the Hall coefficient R should go through a maximum at a definite ratio n /n1, amounting to 0.95 and 0.92 for GeTe and PbTe respectivelyo R increases 2 1 x with increasing temperature (corresponding to an increase in n2/nl) , in agreement with! Pb the experimental datap but at temperatures above 570K for GeTe and 400-450K for To Card -1/2  FACC NR, AP6033552 its experimental values begin to lecrease, although theoretically it should reach a maximum at higher temperatures. rhe discrepancy is attributed to the appearance of carriers of opposite polarity, to a change in the overall carrier density due to the change in solubility of the dopini; metal, and to inaccuracies in the determination of the band Parawtere # Origs art, I ass 2 figures and 5 formulas SUB COLE: 20/ SUBM DAMS 15Feb66/ ORIG REFt 005/ MH IMF: 006 Card 2/2  ACC NRs jp6036782 SOURCZ COWS UR/0363/66/002/011/1923/1929 ,AU7HCR: Lov. Yo. la. Sysoyeva. L. )L Xolomoyota, N. V. ORG: Institute for Semiconductors AN SSSR (Institut poluprovidnikov AN SSSR) !TIT=-.- Sffect of impurities on the concentration of current carriers and on the ;'thermal resistance of the germaniumtonuride lattice 1SOURCE: AN SSSR. Izvestiya. Neorganicheskiye materialy, ve 2, no* 11, 1966, 1 '1925-1929 1 !TOPIC TAGS: germanium compound, telluride, current carrier, heat resistance, germanium semiconductor ABSMACT: The article reports the results of an investigation of density as a function ,of the composition and concentration of current carriers. and of the effect of 'additions of certain group 1, 111, and V elements on the concentration of current ;carriers and the thermal resistance of gerzunium telluride. 7he measurements of Idensity were carried out in water and toluene on monocry3talline samples containing Idifferent amounts of e eas tellurium and -ghich had a concentration of current !carriers from 3.0 x 10 to 14.0 x 1010 eel. The error in an individual measurement ~Was + gram/am ; to eliminate random errors, measurements were made on a series of 'samples with the same compositione 7he &vorimental results are given in a series  ACC N9, Ap6036782 of curves. On the basis of the data, the following conclusions were drawn: 1) based on measurements of the density of samples of known composition, it was found possible to determino.directly the number of er7=ium vacancies and to determine the true c6n-,ce,ntration of current carriers; 25 it was established that in very dilute solutions th-e~;i6lution of impurities takes place only in the vacancies of the cat'-:%-. lattice; ~)~I~~e'solubility of impurities in the vacancies is limited, and is always less than ;concentration of vacancies; 4) in the presence of~free vacancies, there U the !'~dssibility of solution of Cu, Sb, and Bi impurities in considerable AMOunt43, by the !displacement of germanium in the occupied places In the lattice; 4) the effect of limDurities on the thermal resistance of the lattice can be explained from the point of view of the existence of a limited solubility of the impurities in the vacancies, and by the formation of now dissemination centers which subsequently replace the germanium Orige arts bass 4 figurese SUB CODES 11, 20/ SMK DATEs. 23Xov63/ CRIG REFS 004/ OTH REFS 003  o 17*WT*C , 00 A 00 So 'A 00,41 004 *0 A 00 of 0 41 a So 00 it 00000010000 a p6sts. R. V%-, Low .Wormajod I Krfdou Prow'. 4:4161PRAWWAS dipped with one lank AMI '"or, MIN& of &Mt Fourrault 111"to eq two, three, am live mmbbm. ForThe foolfro, and mouthroarr" mms of the suvW Union. whom the demand We wintlow c6m 1- not as great as in the Bumpran section. the asoof advantagemi plant from a viewpalml Is TWO with five 0 tank with Three morblove of next locos. BZ V. jl mx joq TOM AN40 is mistso . _ well i 000 -00 000 400 30411411 too see .00 too 400 41001 too AffALLWISICA LtlitAtitt CLAUMPICATON It I- w0 too it its' 0 0 0 Is -i-4 W-W 0 0 1 0 -i- 0 In i -AM-1 o It 0 0 0 0 0 0 01 0 0 0 0 0 0 111 0 0 0 0 0 0 0 -0- 0-0-0 0-0-0 0 0 0 -- 000000000:00000#00000*ooooooooo  LEV., Ye.Yu.; SHHEYEROY, S Reorganizing ibe 8u 7 of raw materials Ii an urpat problem of the glass industry, Stek, i ker. 18 no, 31l-3 Ur 161. 1 (MW 3.415) (Glass manufactuxe) i  Andreavi"A. A.; vag L. M*j Uiii-yi-.-w. AUTHORSi LYS= TITLE: Effect of high pressurAn the electric properties of germcinium telluride 7- 'raFfC-TA0-S-; -eleeff(d ~'~dtictlvlfy - themml emf, 141gil constnnL, effective mass, carrier mobility ABSTRACT- Th electric conductivity, the thermal emf, and tho Hal constant were measured in single cE4tol germanium telluride at pressures up tqjo,()00 ko,/cm 1he carrier density in-Me investigated crystals fluctuated between 9 x 10,cu and 1. 2 x 1021 cm-3, The pressure dependence of Oie electric conductivity was measured both of room temperature and at higher temperatures up to 29W, and the conductivity increased linearly with the pressure in the entire temperature interval. No temperature dependence of the effect was observed within an Gccuracy of 5%. The increase in electric con4uctivity p-ir 1000 kq/cm2 was 2.5 and 3.0% for anneoled and unanneafed samples, respectively. The Half constant was measured In only one sample, accurate to 10-15%, and remained Independent of the pressure within this ac- curqcy. _Thq thermal emf decreased with increasing pressure, at approximately -1.0% per 1000 kq./cm'. The resilts are interpreted as the con"uence of the Yariation of the effective mass with pressure, using a theoretical procedure proposed bry the authors earlier (FrT v. 6, Card 1/2  L 380445 ACCESSION NR: APS005321 706, 1964). The "effective man of the state density" Ir, shovm to decrease at a rate of approx- imatoly_:-7j.0%- pp~-1000_kg,_owInq to th6 change In the gap between it.# conduction and vaterv--e ba rds kfait th -4 6arve in -the variation of mobIlity with (Wes- sure from the electric-canducttvity data, an-1 +,e result (3.2% per low kg/cmZ) i's In satis- factory agreement with the experimental value. "The authors thank_&,A. AyerkiD_and Ye, G, 5tijQf,chep~2 for continuous interest in the w-rk and for a discumion of the results. " Orig. art. has: I figure and 3 fannufas. ASSOCIATION: Institut poluprovodnikov AN SSSR, Leningrad (Institute of SemicanducIzon SUBMITTED: 04JuI64 E NCL: 00 SUB CODE: SS NR REF SOV: 002 OTHER: 000 Card V2  LEVI Yu., shturman Method of navigating witi-i the ship's course directed tcward a ra-4.10 station. Mar. flot 24 no.9,il8-19 3 164. (MIRA 18 t 5)  LEV--Yu., shturman Sow apprcximate methods of determining the ship's position. Mor. flot 25 no-3:19-20 Mr 165, (MIRA 1814)  JEVI,)~41# shturman Some methods of navigating narrows. Mor. flot. 25 no. 12: 18-19 D 165o (MIRA 18:12)  ACC NRi jLp7()007j&., SOURCE (:O])E:--UR[0308/66tUOUtOIZ/GMN021 AUTHOR: I..., Yu. (Navigator) ORG: none TITLE: Selection of optimum methods for locating a ship's position by the use of radar SOURCE: Morskoy flot, no. 120 1966, 20-21 TOPIC TAGS: radar observation, radar navigation, shipborne radar, mean square errcro error measurement ABSTRACT: *The accuracy in finding a ship's position with radar depends an the errors in direction-finding and in measuring distances. If the mean square error in direction-finding Mn exceeds the mean square error In measuring distances Ma .(Mn > N), the second method is more precise, and vice versa. The selection of optimum methods is illustrated by monograms for particular observed cases at given mean square errors Mn - tl.D* and Md - t0.25 cable lengths 11 cable length - 608 feet The monograms are plotted from formulas based on equating the mean square errors In measuring distances to two orienting points and in direction-fihding. The case of three.orienting points is discussed. The proposed methods proved their high effectiv ness. Orig. art * has: 3 figures and 2 formulas. SUB CODE: 17/ GUBH DATEI none/  V. A. Breskins As YU U171 D. P. Xillnan) "on cor4~res.,,ion of the fre.juency spe_qtrum -of binary r!ess.ai-,t~4.qy,.usinc,i~,dynanic ccrj-.uniratJcn charrel." 5--lentiflic Session Devoted to IlRadio Dayff, lidy 1958, TrudreL_rvi..,_;iat, Moscows 9 Sei- 56 Binary messages) I* so, messages containing two fixed levels (telegraphic., facsimile, wire photoj limited speech, etc.) are analyzed. Starting from the relations Of C. SHANN014$ the possible degree of spectrum compression of such messages is determindd In principle when they are transmitted over comiaunication channels. The gain is computed which can be obtained., in principle,, when transmitting binary messaces by using a dynamic long-distance communica#on channel bank. A method is proposedAo increase the effectiveness of using communication channels to transmit binary mes:jages with low probability of one of the states by transforming the frequency spectrum in the dynamic bank. The quantity of levels necessary to use this method is decreased at the cost of discarding certain slightly probable combinations of binary symt>ols and the possibility of start- stop tranamitter-receiver oynchronization is achieved.  ley-teiant UsIng radio englnc,~nr-g cq-,;liment lln r.~i-iigatlcn. Y-r. sbor. 4,0, no.1160-63 Ja 165. (MIRA 18;4)  LEV, Yu.D., starshiy lBytonant Methodg of finding the most probahle poeltion of a ship by !!everal observations .Aleln Into accotant computation data. Mor. sbor. 46 no. 503-55 My '63. 011'1~h 17:1)  LLPV, Yu.D., starshty leytenant Calculation of hydrologic factors in using sonar in navi ation. mar. sbor.' 47 no,lt64-67 A 164. IMIRA 180)  .7 - Y-0 -C- AP6018903 CIV) SOURCE CODE: UR/0375/66/000/002/0063/0065 AUTHOR: Lev, Yu. D. (Senior Lieutenant) ORG% none TITLE! Methods of increasing the accuracy for determining the location of a ship by moans of radar SOURA: Morskoy ;bornik, no. 2, 1966, 63-65 TOPIC TAGS: radar tracking, ship, tracking radar ABSTRAM If the location of a ship S is determined with respect to two radar- distances Dl and D2 up to orienting points A and B, the magnitude of the mpan square error M. at the obtained location can be calculated by the formula M. E -/i- sin 0 where E is the mean square error in measuring the distance and 0 is the an;le of-intersection of the position lines. Using the some orienting points A aad B., the position of the ship can be determined as the most probable of two independ- ent positions 01 and 02 obtained from bearings and distances up to the  L o7399-67 ACC NR, AP6018903 orienting points. The moat probable position in this case is found at segment 01 and 02 at point 0 which divides the segment into parts inversely proportional to the values of the squares of the mean square errors of positions 0 and 0 2 in this case the mean square of positions 01 and 02 is calculated by he'formula Am- � IfEl + M'D Ifni (2) where m mb arc 10 (mb is the mean square error in determining the radar bearing) The value of the mean square error of the most probable position of the ship 0 is determined from the expression M.M 11;4 ~+Ml (3) This method of determining the position of a ship by means of radar is called the mean position method. It.is aestAtied that D - D and Dz SD where D is the smaller of the two distances and S is a positive number. Th;n S - D2 ~Dl. If''Eq. (3) is set U~p with this consideration, its right'side is equated to that of Eq.(I)o and the-derived equation is solved relative to S, then Card 2/3-  ACA; NKs AP6018903 Et (4-sInie)+(2-sInI0) Cal sInIO I +.a'-D,l -2 (4) where S Cal is the coefficient at which Mo ki analysis shows that if S - Scals then Ho - Map i.e., the accuracy of determining the position of the ship with respect 'to two distances and by the mean poiLtion. method is identicall S > S then H. > M , i.e., the position of tha ship is mora.accurately cTne'd tw distLees; S < S then H < MI, i.e., the position of the determ by o ^Olt 0 ship is more accurately detarmined-69 the mean position mothod..Orig. art. hass. 7 formulas and 3 figures. SUB CODES l3ol7/,'SUBK DATE:' none [C,,d 3/3  LEVA, Peters inzo Cemented metals and powder metallurgy; discussion. Stroj vyr 10 no.3-1: 571 162, 1. Kablop n.po, Bratislava.  L-,,VA 0 R. YU - "The Synthesis of Olefinic and Faraffinic Hydrocarbons of forked stm cture. L-he reaction between the Hydrobromide of 2,4-Direthylppntsdicne and Alkyl-Ya---n Flun, i-r-,Ijldes.1' by R. Ya.-Leva and S A. Egorova (p. 821.) SO: J-gurnal of General Chemistry (Zhurnal Ckrhchri KhlrAi) 1~46, Vclump, 16, No. 6  RADUN, D.V., kand.tekbn.nauk; LIVACHXV, A.G,. Inzh. - -, - Regulating the concentration of alkalies# Isyevys,uo'!db,sav. enerjo no.8:73-81 Ag 158. (VII.A li~111) 1. Mnskovskly ordena Lenina, onergeticbeskiy institut. (Alkalies)  25(5) 06224 AUTHORSs Hadun, D. V., Candidate of Technical BOT/64-59-6-16/28 Sciencest Levache-, A. G., Chistyakov# Vo So, Topers Ii. Ye., Lurda, A014 TITLEs Automatic Control of the Work of Evaporating Apparatus for Electrolytic Lyes PERIODICALt Xhimicheskaya promyshlennost', 1959, Nr 6, PP 516 521 (USSR) ABSTRACTs An automatic control of the lye level in all evaporators, the removal of the lye and caustics by means of a pump with an automatic concentration control, and the salt so W ation by means of automatic centrifuges of the type "AG" permit continuous evaporation and the full automation of the evapora- tor. The lye concentration-can be measured and controlled by determining the temperature of depression, 1. 9. the temperature difference between the b9iling solution and the steam. The temperature of the boiling lye should be measured in an apparatus with forced circulation in the discharge flow, in apparatus with natural circulation and a susponsion chamber Card 1/2 between chamber and apparatus wallq and where the lye is  06224 Automatic Control of the Work of Evaporating Apparatus SOV/64-59-6-16/28 for Electrolytic Lyes continuously pumped off from the pipes outside the apparatus. The temperature of the saturated steam should be best measured in special chambers (with adequate steam separation) contained In the evaporator unite (Pigs 394)- In controlling the con- oentration it is recommended to adopt automatic control also for the pumping off of the pulp, which can be controlled by means of signals emitted by the concentration motors. An electric system (Fig 8) is recommended for the control of the evaporators. It makes use of electronic controls of the system VT1 as well as of electromotive controls, or of a turning valve operated b th paratus IDU-1. Inter alia, Y(,,,e a temperature metxaurpments g 21 obtained by means of an electronic brides of the type EMP-209 are given. Mention is also made of a concentration meter operating on the basis of automatic electronic bridges of the type RMD-2121 differential manometers of type DK-630, electronic controls VTI(f#&SR-111.54~ pumps of types YaNZA&5 wA AR-60, liquid level controls of type BUTs-365, and pneumatic controls of the system AUS. Further- more, reference in made to a scheme (Fig 6) for concentration Card 2/2 control used in one of the plants.There are 9 f igms and I table*  4DUN, D.WfS.SA'i-R.)-; LEVAGO A G. (Levachev, A.G.] (S.S.S.R.); LOMAKIN, LLS (S.S.O.RY-, Automation of an evaporation plant for elsotrolytic lye. Chem pr= 12 no.ns390w-597 N 162.  RADUNt D.V.t kand. takhn. naukj 1,ZVACHEV,,.A.G., kand. takhno nauk; PETROaENKO, Yu.N.,, aspirant Automation of the evaporator stations of chlorine pLmta, Trudy WI no,4801-43 163, (MIRA 17t6) 'j, r , -- ...'s w~ ... ;--  KLIMOVA, T.K.; ;!qAC4Vj, - I.A.; STAROSTINA, A.V.; VITEZEVA, K.A. Some data on tularemia in Archangel Province. Zhur. mikroblol., epid. i immun. 40 no.6j48-54 Je 163. (MIRA 17t6) 1. Iz Leningradskoy protivochumnoy portovoy 1 gorodskoy nablyudatellnoy stanteii.  LEVACHEV, M.M.; MISHUKOVA, Ye.A.; SIVKOVA, V.G.; SKULACHEV, V.P. - ~ Energy metabolism in a pigeon under aelf-heating after hypothermia. BiokhImIla 30 no.4:864-874 JI-Ag 165. (MM 18SB) 1. Kafedra biokhWi zhovitnykh Gosudarstvennogo universiteta 1meni M.V. Lomonosova, Moskva.  BEMWAlY, A.I.; XUAGIN, P.t3.; SVIRIDOV, V.A.; LEVCHENKOV, A.T.; T-ITARFXKO, N. Kho ~ -. R. , -Hr-*- 1-1- v Foam damper on an orgnnosilleone base for clay muds. &-renie no*3:16-17 164. (MIRA 38;5) 1. Vkrainskiy fillal Vaf-soyijznogo nouchno-ir-sledovatellskoro institute prirodnogo gnza i treat IPoltevanPftPgnzrazvedka".  "-Vfj-HKbKUv, B. D.; k'nYsician "reservation of Indications of the Point of :-:ntry on the Skin and CInthinp. Under Corditions of -Extern*'Ll Influer.,-n3 Ir V!e Cns,! o,"a CF,,;nq%ot WQ,;nd.n Thesis for def.-ree of 0~~nn- ~cl. Sib 3--1 Cet 49, Z~3eond yosg,cw State Medical Inst imeni 1, V, Stalin, Summary 82, 18 Dee 52, Dissertations Presented For Dep-Tees in Science and Enr-ineering - ,In Moscow 11) 124_2. From vechernyaa Rofikyr, J~n-lWc 19490  LSYCHMMOT, B.Deto ACMMW, NeN. (Moskva) Yatal wound from an air Can, Bud,-med,ekspert. 2 no.2147 Jp- Js #59o (MIRA 13W (An WKS)  FMMOVSKIT* V.I.; rJMHMOV, B.D. -15- - - Soviet forens miilclt~~ fi the seven-year plan. Bad.-ued.ekspert. 3 no.43-8 Ja-Ur 160. (MA 13:5) J/ 1, lbuohno-ineledovatelinkly lustitut sudebuoy meditsiny (dlr. Prof. V,I. Frosorovskly) Ministerstra sdravookhransuiya 9382. (KOICAL JURISMUD*02)  PROZOROVSKIY, V.I.; AG N.N.; LEVCHENKOV9 B.D. Functional evaluation of the results of a forensic quantitative determination of 41cohol in the blood of live persons and corpses. Sud.-4wd.. ekspert. no. 10-7 Ja~Mr 161, (MIRA 1414) is Nauchno-ioaledovateltakiy-lnstitut sudebnoy meditainy (dir.- Prof. V.I. Prozorovskiy) Ministerstva. zdra'vookhraneniya SSSR, (CIMUSTRYP LOW (ALCOHOL IN THE BODY)  -I~QHM=Vp -B&Ds. , Review of A.KaTumanov's book "Madicolegal examination of material evidence.*- Sud.med. ekspert. 6 no.3:58-59 J1-8163. (KMA 16 t1o) (MEDICAL MISPRUVENCE) (nRWOV, A.K.) I  PIOZOROVSKIY., V.I,; LL*VGLWXOV, B.D. Medicolegal evaluation of intraoranial hemorrhages. Sudem3de ekeper. 'I no.1:38-A.4 Ja-Pt-164 (MIRA' 17W 1. Na4chno-lssledovatellskiy Institut audetrioy meditainy (dir.,- prof. V.I*Prozorovskiy) Miniaterst-m zdravookhrema- niya If SR.  PROZOROVSKIY, V.I.; _=mmul Once again about intracranial hemorrhngos. llad.-med.ekspert. 7 no. 200-54 Ap-Je 164. (MIRA l7s7) 1. lfauchno-issledo-tellskiy in3titUt sudebnoy meditsiny Ministerstva zdravockhranenipt SSSR, Moskva.  IF,VCIIF,N';i()V, B,11. Abstracts. Jio,med. ek3i-ert. 7 noe, 2157-61 Ap-J's '64. OfIRA 17:7'j,  CAa; a !:.-nversa~lon with Nba maJ I col "rol'cssor ...reraro Director r;l Tnotitute of Xndlcal Jur.'s-prudence in Favana. Su~.-r,id. ckzjpf~rt. 7 no.3:31-32 (,',I ,It miAltsin! Hir. I Frof. V.1. ?r,zorov8kLy) Mtni.-Lerstva USSR .  LEVCHENKOV, B.D. Abstracts. Sud.-mod. ekspert. 7 no-3:59-62 JI-S 164. (MIRA 17:10)  LEVCMKOVN B.D. Abstracts. -Qud.-wmed. ekspert. 7 no.4t55-58 (*-D 164 (MIRA 18i1)  LEVCHENKOV,, B.D. Review of the traneaotlona of th-- Chief Bureau of Modicolegal Ekpartise and the Department of Forensic Medicine of the Erivan Medical Institute. Bud.-mod. ekspert., 8 no.2t45-46 Ap-Jo 165. (MIRA 180)  ALEKSEYEVt G.P.j ANDONIYEV, V.S.; ARNGOLID, A.V.; BASKIN, S.M.; BASHMAKOV, N.A.; BEREZIN, V.D.; BERMAN, V.A.; BIYANOV, T.F.; GORBACHKV, V.N.; GRECHKO, I.A.; GRINBUKHp G.S.; GHO?CVv H.F.j GUSEV, A.I.; DEMMIYEV, N.S.; DMITRIYXV,, V.P.- DULIKIN, V.Ya.; ZVANSKIY, M.I.; ZENKEVICH, D.K.; IVANOV, B.V.; INYAKIN, A.Ya.; ISAYENXOp P.I.; KIPRIYANOVt I.A.; XITASHOVj I.S.1 KOZHEVNIKOVI N.N.; KOWYAGIN, B.V.; KROKHINf S.A.; KUDOYAHOVj L.I.; KUDRYAVTSEV, G.N.; LARIN, S.G.; IEB=V , V.P.; LE~YCHENKOV, EJL I LEMZIXOVq A.K.; LIPGART, B.K.; LOPAREV, A.T.; MALYGINt G.F.; MILOVIDOVA, S.A.; HIRONOV, P.I.1 MIEWLOV, B.V., kand. tekhn. nauk; MUSTAFIN, Xh.Sh., kand. tekhn. nauk; NAZINDV, A.D.; NEFEDOV, D.Ye.; NIKIFOHOVv I.V.; NIKULIN, I.A.; OKOROCHKOV, V.P.; PAVLENKO, I.R.; PODHOBINNIK, G.M.; POLYAKOf, G.Ya.; PUTILINg V.S.; RUDNIK, A.G.; RlWANTSEV, Yu.S.; SAZONOV, U.N.; SAZONOV, N.F.; SAULIDI, I.P.; SDOBNIKOV, D.V.; SEMENOV, N.A.; SKRIPCHINSKIY, I.I.; SOKOLOV, N.F.; STZPANOV, P.P.; TARAKANOV9 V.S.; TREGUBOV, A.I.: TRIGER). N.L.; TROITSKIY, A.D.; FOXIN, F.F.1 TSAREV, B.F.; TSVrSULIN, N.A.; CHUBDV, V.Ye., kand. tekhn. nauk; ENGEL, F.F.j YUROVSKIY, Ya.G.j YAKUBOVSKIY, B.Ya., prof.; YASTREBOV, M.P.; KAMIN, I.V.Jq .prof., glav. red.; MALYSHEV, N.A.,, zam. glav. red.; MEWNIKOV, A.M., sam, glav. red.; RAZIN, N.V.,, zam. glav. red. i red. tome; VARPAKHOVICH, A.F.f red.; PETROV, G.D.9 -ed.; SARKISOVt M.A., prof., red.; SARUKHANOV, G.L., red.; SEVASTIYANOV, V.I., red.; SMIRNOV, K.I.t red.; GOTMAN, T.P., red.; BULIDYAYEV, N.A., tekhn. red. (Continued on next card)  ALEXSEYEV, O.P.-(continued). Card 2. (Volga Hydroelectric Power Station; a technical report on the design and construction of the Volga Hydroelectric Power Sta- tion (Lenin), 1950-1958] Volzhskaia gidroolektrostantaiia; tokhnichaskii otchet o proektirovanii i stroitel'stve Volzhakoi GES imeni V.I.Lenina, 1950-1958 99. V dvukh tomakh. Moskva, Gosenergoizdat. Vol.2.[Organization and execution of conetrution and assembly work) Organizatatia i proizvodetvo stroitellno- montazhnykh rabot. Red. toma: N.V.Razin, A.V.Arn lid, N.L. Triger. 1962. 591 p. MRA 16s2) 1. DeystvitelInyy chlen Akademii stroitelistva i arkhitektury WSR (for Razin). (Volga Hydroelectric Power Station (Lenin)-Design and construction)  TOPELIEERGt D.G., kapitan dallnegc) plavaniya; IKONNIKOV, D.N.0 dote., reteenzent; DOKUCHAYEV, A.N., kand. tekhn. nauk, dots., red ;-L&WJffXUws"., kand. fiz.-matsu.nauk, dote., red: j red.lzd-va; SHPAX, Ye.G.j tekhn. red. (Electrical navigation instruments] Elektronavigatsionnye pribory. Moskva, Izd-vo "Morskoi transport," 1950. 428 p. (MIRA 16:8) (Electricity on ships) (Nautical instruments)  DEMIDOVIGII, V.N.;_2N~,~!YIYAJ, Y.A.; MAZIN, P.N. Use of an electroluminescent matrix screen. Geofiz. prib. no* 12 1 IM-112 162. (MM 17: 1j) 1, VMOIA.  I=HEV, B. Frouchvane i proektirane na nat-oitelnite sistemi. Sofiia, Zemizdat., 1953. L23 P. (Studying and planning irrigation ByOteMS# bibl., diagra., table3) So. Eaat European Accesaions List Vol. 5, No. 9 September, 1956  LEVCHLV.. B. Utilizing the water ofthe Danube River for irrigation. p. 33 KHlDROTEKBNIKA I YELIORATSII, Softiaq Bulgara., Vol. h, no. 2s 1959. Monthly Liat of East European (EEAI) LC, Vol. 6, No. lo, oct. 1959 Uncl.  LLMIEVP B., inzh. - ------ The be3t possible utilization-of the 1)ewage water of Sofia. Kiddrotekh i malior 6 no.7:213-.214.  KANAZIRSKI, Petur; DRICHEV, V.;ILEVCT~R_ _V. ~ Anticoagulant prevention of postoperative thrombo-embolic complica- tions. Suvrem mad.,, Sofia no.4/5:87-95 161. 1. Is SAnatoriwa Iskrats na Sofiiskia gradski naroden euvet. (Gl. lekar I. Popov) SURGFM OPEUTIVE compl) ANTICOAGULANTS ther) THROMBOIMOLISM prov & control) ~   ,O,eveHIA~ 9, P CHU, A. USTINNIZOV, B.Ao;-IZV P ;_PCHIPOUNKO, AoA. Vat grinding of grain in hammer wills. Spirt. prom. 24 no.1:34-35 (KIRA 11:3) (Distilling Industries) (Grain-milling machinery)  IXVCHII, A.?.. Rational utilization of waste heat. Spirt. prom. 25 no,7:39-40 '59. (min 13 % 2) (Distilleries-Zquipment and supplies) (Waste heat)  Fri ~~Tj, t'.Ov) A, 5. p k--', ` .'I d ~ t-.' ":-,. ~,.. 13 !DCRENU I ticn and With ari curzuf, 31L Is-5 2.4t~3-59 R-A 18 lo)  YAROVEWO, V.L.; USTINNIKOV, B.A.; LEVCHIK, A.P.t I&CHIPOUVIO) A.A. Processing of sugar beets in a mixture with grain and potato raw materials and molasses* Ferme i spirtt prom. 31 no.6:37-40 165. (MIRA 18t9) 1. Vsesoyuznyy nauchno-issledovatellskiy institut fermentnoy i spirtovoy promyshlennosti (for Yarovenko, Ustinnikov). 2. Michurinskiy spirtozavod (for Lavchik, Nechiporenko).  ALUMDROVt Alsksandr Petrovichj KU2iETSOV- Alakney Tak(t1evich; WZELI p NoP*l iuzh*t red.;-LEVCEUp L.P.# r:d.; LI~Ap'L&Vep teklms red. - -- [Practices of the construction of'the'Stal-ingrad Hydroelectxic GES. Moskva, Orgenergostroit 1960. 57 p. (MIRA 14%7) (Stalingrad Bydroeleotric Power Station)  )QUVOSEEIV, Dr-itrly Ivanovich; MUM, V.P.,, inzb.,, red.; L-r.VC-lt-IK-,-- L.P.,, red.; LEEDEDEVA, L.V., takhn. red. ["r-lence In the InDtallatlon of 150 Mv. turbogenerators] Iz opyta montazha turboagregatov moshchnoottiu 150 Mvt. Vlo- akva, Orgenergostrol, 1962. 36 p. (MIRA 15111) (Electric power planto) (Turbogonamtors)  TSULUXIDZE, Petr Platonovich VAINSHTM, G.M., insh., red.; LEVCHI L.P., red.; LEBEDUA, L.V., tekhn. red. [Quality control of concrete work in construction of the arch dam of the Ladzhanuri Hydroelectric Swer Station]Kontroll ka- chestva betonnykh rabot pri soorusbanii arochnoi plotiny Lad- xhanurokoi GES. Moskva,, Orgenergostroi, 1962. 52 p. (MIRA 15tlA) 1. Vasaoyusnyy institut po proyektirovaniyu organizataii snarge- ticheakogo stroitelletva *Orgenergostroi". -I%- (Ladzhanurl Hydroolectrio Powsr Station-Dam) (Ladzhanuri Hydroelectric Power StatIon-Concrete construction)  BEWV, Georgiy Vasillyevich; RAYKH, I.Ya.', inth., red.; IZVCHIK, L.P., red.1 LZBEMA, L.V., tekhn. red. I (Installation of 500 kv. air owitch]Montash vozdushnogo vykliu- chatelia napriasheniom 500 kv. Moskva., Orgenergostroi., 1962. 51 p. (Electric cutouts) (Electric lines--Overhead) (MIRA 15:12)  DULIKIN, Vladimir Yakovlevich; ULESOV, Aleksey Alskoandrovich; MARITANSKIT, L.P., inzh., red.;_qVqHIK, -L.P., red.; VELITSYN, B.L., tekhn. red. - (Submerged are welding of reinforcements] Vannaia elektro- dugovaia evarka armatury. Moskva, orgenergostroi, 1962. 53 P. (Electric welding) (MIRA 16:9)  GALOCHKIN N.P.; VOLIFBERG, D.B., inzh., red.; LECH 9 - . UX red.; SOWVIYEVA, A.I., tekhn. red. [Electric power engineering and war plant construction in the Co=onwealth of AustraliarElektroenergetika i energeticheakoe stroitel'stvo Avstralliskogo Soiuza. Mo- skva, Orgenergostroi, 1963. 75 p. (MIRA 16:11) (Australia-Electric power)  LIVCHIK, S.P., referent. Borehole charging vith the aid of pneumatic charging apparatus; from foreign publications (ONize and Qaarrjr Nngineerine Jam 1955). Gorexhur.jxo*12:29-33 D 155. (RIBA 9: 4) (Sweden--Mining engineering) (Pneumatic tools)  LIVCHII, S.P., goruyy inzhoner. Now machinery for open-,pit mining, (From foreign publications). Gor.shur.to.4:40-43 Ap.151~. (KM 917) (Baring machinery)  LEVCH eferent, gornyy inzhener. =Awwpwq~ Delayed-action blasting in strip mining (from Ofte Xxploolves Zaginser.2 no.5, 1954). Gor.zhur.no.11:55-58 N 156. (MIRA 10:1) (United States-Mining engineering)  ISVCHIK, S.P., referent, gorn" Insh. '~ ~UWAWOW"="Io~act "ve dynamite for safe mining (from OThe Canadian Hinlag and Metallurgical Bulletin* 1957). Gor.shur. no.3:60-6z Mr 158. (Mining engineering-Safety measures) (MIRA 11:3) (Radicisotopes-Industrial applications)  --IJWCHIK. $.P. Results of tests of explosives with varying shatter effect at the 'MMS-Knorush'apmine. Isv.Ur. i Koll.fil.Al SSSR no.3sl29-136 1.58. (MIRA llil2) 1. Laboratori a vsryvnykh rabot Instituta gornogo dela. AN OSSR. Iplosives-Testing) (Blasting)  BARONt Iazarl Izrailevicht prof.9 doktor tekhn. nauk; ROSMv Borin Dco- mini oviobj LXVCMKv Stanislav Petrovich; ILOINSKAYAp G.M., tokbn. red, (Shattering properties of exp2oolves for mining) Drobiashahaia sposdbnost* voryv hatykh veshcheatv dlia gorrqkh rabot. HoWcvpt Gge, nauabno-telow. izd-vo 3.it-ry po gornomu delut 1960, 1n P. ('ExploBives). (Mining engineoring) (MIRA 340)  BMNI L.I., doktor tekhnnauky prof.; LEVCIJIK S.F., gornyy inzh. Photo-planimetric determination of the grain-s.'-ze distribution of a-rock mass loaded into wagons. Vzryv. rah. no.4-.57-67 160. (MIRA, 15:1) 1. Institut gornogo dela AN SSSR. (Particle size determination)  BARON. L.I#, prof,doktor tekhn.nauk; LZVCHIK, E.,P.# gornry insh.; TIMMMKOV, M.K., gornyl in2h. Investigating the shattering and propellant effect of explosives* Vzr.rv.delo no.44/1:158-166 160. (9IRA 13--7) (3xplosives-Blant effect)  BARONP L.I., prof.., doktor tokhn.nauk; LEVCHIK, S.P., gornyy inzhener Criteria of the shatterine action of blasting. Vzryv. delo no.50/7:7-16 162. (MRA 15:9) 1, Inatitut gornogo dela imeni A.A. lkochinakogo. (2-1 "Ouiver) ~: v)  .LEVCHIK,-,�.,P. .(Moskva); SEINOV, N.P. (Moskva) Effeot of explosions in solid media. Izv. AN SSSR. Otd. tekh. nauk. Met. i gor. delo, no.3tl?0-174 Yq-Je 163. (MIU 4t7) (Blast affect)