SCIENTIFIC ABSTRACT LEVCHENKO, B. - LEVCHENKO, G.V.

ACC MRs AMM9319 .0 :the Po and'T& derivatives by aftromatographyg because the Ef Values !of the two compounds were practically the same* For the separation A "of the other derivativeag distribution chromatography on p~Lper-.-- WSW U61.nj; ou.Itable mixtures of solvents. Th lpha.-aotl-, .Vity of P011-0 and the beta and gamm-aotivities of ToW were then .determined on the ohromatograms, Bromination and lodination of -Te to prepare the d1halides Te(Po)(p-MaC H i lpo)(P-K8C6H4)2 6 4)W2' Nas carried out by means of To(p-MeC H ) Hal (Hal ..Br. 1) In a 6 ,benzene solution; treatment o 0 with Br2 f To(P I!MOC6H4)2 or 12 "resulted in.an Impoverishment of crystals of the mixed compound .."in the organosetallic derivative of Po because of the low tandenoy-i! .of the latter to orystal.lize, To convert To(Po)(p'-xeC6H4)2 to the Aifluioride,.Bi(p M00694)3F2 was applied In an analogous remotion, I IThe value of every Po and To compound prepared was determined...' 'for to 4olvents - used In the OhLOMOO hio analysis6'orig, art. hags 8-0-3 f ftwaas I ara I -table 0 LJPW grap -SUB CWS 107. 18f SMDATSt 15KV,64 CIRIGREFt 002 OTH REJ?: Oo2 J,~ fj k4 J,  t1c, h e 1UTHOR: Levehenkot B.t Senior Master 27-58-3-8/17 TITLEs Bolling Press Workers Learn a Second Profession (Valltsov- shchiki izuchayut vtoruyu profeaBiyu) PERIODICAL: Professionallnoye Tekhnicheskoye Obrazovanlye, 1958, # 3, page 18 (USSR) ABSTRACTs The work being done by graduates of Labor Reserve Education- al Institutions often includes the repair of machine tools and devices. Therefore, "training in repair brigades" was added to the teaching program, in order to instruct rolling press operators in basic fitting operations. Information is given on experiences in this field by the Industrial School of Metallurgists # 47 of the Sverdlovsk Oblast'. There were some difficulties due to the lack of skilled master-instructors. Seminars were organized to train rolling press masters in special courses in fitting. A 192 hour course of instruction is now being given in workshops, during which time the apprentices are trained in basic fitting operations so that they are able to carry out equipment repair Card 1/2 work. 'Rolling Press Workers Learn a Second Profession 27-58-3-8/17 -ASSOCIATION8 Rgmegiennoys uchilishche metallurgov # 47, Sverdlovskaya oblast' (The Industrial School of Metallurgists # 47, Sverdlovsk Oblasti) AVAILABLE# Library of Congress Card 2/2  ACC NRs AT6013U2 (ff.$ A) SOUIL;E CODSt UR/0000/65/000/000/0075/0081 AUTHORSt Levchenkoj Be A.; Danilov, V. V.; Shekhovtsov., A. F.; Petikov, U. F. ORGt Khartkov Polytechnic Institute (Khar'khovskiy politekhnicheskiy institut) TITLEt Effect of the water now character In a cooling system of a tractor engine block on the temperature field of its lower plate SOURCEt Dvigateli vnutrennego sgoraniya (Internal combustion engines).. no. 1, Khark led-vo Xluwlk. univ., 1965, 75-81 ov~ TOPIC TAGSs diesel engine# thermodynamics, cooling systemp engine cooling/ SM-7 engine,, SM-14 engine ABSTRACTs A transparent model of the block and cylinder head of an SM engine was created for the purpose of establishing the nature of the flow of water in the .cooling system. The head parts and water jacket of the engine were designed to be separable, This permitted the study of the effect of the construction of elements of the water jacket on the thermal condition of the block. A combined method of visual and photographic observations was used in studying the nature of the water flow. Thermometric instrumentation and methods were those of D. A. Levchenko (Temperaturnoye soutayaniye golovki dvigatelya SMD-7. Trudy KhPI, t. h0, vyp. 2, Izd-vo KhGU, 1962)o System loads were defined in terms of the water circulation cycling rate# Test  ACC NRz AT0013442 measurements included the variation of the thermal state of the engine block and cylinder head with the system load, temperature drop along the perimeter of the valve seats# as well as the block temperature variation as a function of the efficiency of the water pump. Three diesel engines,, the SM-7 test models an SMD-7 production.model, and an SM-14 model,, are compared in a relatively wide operating range& Ci*rtain recommendations for improving cooling system effectiveness are includeds".*Origa art. hast 5 figureej 1 table, and 2 equations. SUB CODM;A~,21/ SUBH DATEs 2OApr65/ ORIG Rh7s 001 Ca'rtf" 2/2 _Zn&Z-App-LICat ofa 0.3-1 mai layer of enamel with a thermal conductivity coefficient of 0.2-0.7 kcal/m-hr-deg reduces the temperature in the zone of the upper piston ring Card 1/2 -------------  iIACC NRt AT7008328 ~by 6-23%. This results in an increase in the energy of exhaust gases, thus Improving Ithe efficiency of turbosupercharging. Calculations for exhaust valves in the 510-7 jengine show analogous results. Tests of valves coated with a 0.4 m layer of enamel 1with a thermal conductivity coefficient of 0.39 kcal/m,hr-deg shoved a temperature re- !duction by 490c in the center of the valve under rated operating conditions. On the ;basis of the results, the following optimum parameters are recommended for enamel coating of components in diesel engines of the SMD type: enamel thermal conductivity- 0.2-0.7 kcal/m-hrodeg; enamel thickness-0.5-1.0 MM- Further work is needed to de- velop enamels with a low coefficient of thermal conductivity vhich adhere well to the alloys used for pistons and valves in tractor diesel engineq. Orig. art. has: 4 figures, 12 formulas. SUB CODE: F.13,L2J1 SM DATE: None/ OHIO REF: 005 ILcard 2/2 LEVCHEKKOY B.D. Plenary session of the Directive Board of thG Med!ao-Iegal Society. Sud.-med. ekspert. 8 no.2:55 Ap-Je 165. (MIRA 181P)  XJMHMMO, B,D#, kand.med,nauk "Yorensic obstetrics" [in German] by H. laujoks. Reviewed by B.Do Levchenko. Akush.1 gin, 35 no,4%125-127 JI-Ag 159, (MIRA 12:11) (OPST 103) (ItAUJOKS, H. )  I:'- (~" c rt F- N k , "L, - t IXVCHNNKO, B.L., Inzhener. Work on speeding up steam turbine starting.-Inargonashinostreenis 3 no.9:8 S '57. (MIRA 10:10) (Steam turbines)  TRILTITAKOV. P.G., kand.takhn.nauk; LIVCHWO, BA.. inzh. Studl7ing heat conditions in turbine canings with heatod parts. Inargonsehinnstroanie 5 no-3:1-7 Mr'59. (MIRL 12:3) (Steam turbines)  P4AS2 1 W%!' =?1A:TAT!'P: 57J/4017 %%Vol. otle., t4chnitiveskey tnrormststi I g1t..v7kh turban I overrkm kvmpros- SCT-3v (Lm.-StIt f t" Cvp,.onts Of Stv&,n and Gas Turhlneb W4 Y~W-. WAAhSit 1,91-50. 4M p. (Sort*ai :tst 6) m-rata al-P 1--irt-1: J.200 eoplos rrint-d. IMM. *~mmmlchesidy &I-drdstra- tl-ayy kl~-XY3,;!!tya. 7,prmvl~.~Vr Y.Z.101-go 1U. t A.3. caoiuaat., or Tocn.-Acsi 3*t*nc*o, WAS. or rut:.!ff-_.-4 ;.?. 71"t-31-ya m-'I r..'. W.~rovx),_-Y; Toch. 7.7. !~_*.,j!r~g Ed. for :Atvratur* on t.~e NsjCn Lt%t:.qo - F*11- -Rion (til"ll 1" - ACT. ~r- %: N 2rl a' 3*rlosv A.3. Zil'be.-An. Can- Ud,,6t. fr ~tl 3c'~#sj X.M. Karon-, M%gineors V.X. Mr-,ov. C vmll. U t , 0: TW.-144 321-r".4si anl- I.-t. Milbalov, Zr4i"vr. ef artlcl.v ls Intsn6~4 for " 6 ,.71 orin W_' c_r#czxri or t-Arhino-ci.-Atructiat, c to am UZA W also 'w -_7 Ongl".,ro lord tec_h~ ;Z,~.tfi *ZZP!0Ylr4 St-TAM %" &%R -0t.tsar.4 43 Mort* which Trosent the xhst-w.~~s mt --r-Its 5f a.' t.%4 v*rVlr.0 pro~*sa ALM: th. o'4tiCl L.7.: 1,- ~.l ~ a t?'.- or. Of t4rb---W and *ff1*1Ll-n!:~ e-4r*?L- r Also des-rlbol a" test zft.4,%, dvTic~s, a,:- -m rira- pirt or the con.c- J,a C*L:g Wtth t'.- u,_1;~ly-Ar_*4v Or t"-blim &M compresoar cOvv*r*,.-v. t- mem-ers of the ae-.dr-~Alo. comfr4osor. IRMA 10-rt'~rlo* toOA P"t V'W VolA; D.X. rlbohot'ka. V.I. Z.-dy&-JJd7. T-.A. ttta tochrle-lans T.Yx. Nlranova. V.Z. X.Z1. 11,qar~,.-, am! Im-c"tors 14.r. I-Ata"v. &.1d X.Z. t.r P-cind p%rt of -he consists or "_V22-S vash, that Pon of the work of the lAborawry (Control L&W-Ltory of the Dwolgn WrIcs for St*m and Gas Tur- bir" of t?A L.-Irg"d N'ta.1 naht) con-t-TWS with the study Of Of V-rtlnex %ml thfIr ta,--Vonents. partlctaarly tl-* b:AA*a. Mrs ra;l-ving vemb-:-v or the vibr&tL*n la"ratcry parue.-p4tts La %ho VQ.*t L-Wtftlors I.D. rovLkora, G.L. t7vlln. w4 T.' . simlez' 4eva, to~hrl~l%zx mrA varkers A.P. Krssherarn* kov. V.I. Poi.r. K"Irk;v. and U.P. U'arravToov. The thlr~3 part 4 wllh Th. 3LI~AILUOh, ah4 exper'-soarital stuST the isromat-ions or vixurm ecrocroms. ---As V--% "P !-7 U.4 Turt-V-o-Cmponent ZAborstary. Person- Lutlss Mortlon, I rv hm! or tm- a I%toratury X.M_ K4rtn'. J-4. &r! 1.V. 'Mrl-roon. tochiatlans, sz-A workers 3.p. 3et-h-niu, MM, Z.K. Slul 61n. -.0 last part contains Art%- eltN Lrst:wxer..s tsi, and toot owtupp. At 41.tt! -~ "th~tx rc~~ pro-tucire, rotating part$ vj znroxs~r. xw proson.3. ?&rs:n- aaltits &.r. Ln. or the shop or the laborjktar7 1.31. proll-ra 16nd a.?. 11111r.--l-va. the leading innavators Y*.V. I )N-72-1-74, Vt V.?. Refemness are, to ba r--4r- 1 .11 or t,.v 43 a-mic:0 i_: wsire-r. or the state or Stress Lim 9 *Ator 3%LJ6!qs Of SIOLS or! "s t%rt--%Qs 335 X%Qv:_1*UO. &I.. Nagimoor. 7-1matigatla'a at the Self-COMP". sistl" af rplng on No4sle 362 ZMA2zakav G.. Candidate of Te:?Mt*al 3--lancre. ZnTestise- , P UAS-or Air-44A Insulation for Gas rl;,.r4 3T3 F-G- Candliato Of Tochmilema 3clon-2ov. Tootlng of als UporlAwflt4a OLZ Cooler 382 CW4 B/U  LIVMMO, P. L. , Insho SimulatIng stressed state of the bindivig of moving h2ades of steam and ges turbi"es. (Trudy] LXZ no.6:355-361 160. (MIRA 23:12) (Bwes)  IZVCHMO, B.L., insho ................. Inves.ti4sting the self-compersattan of piping by model testo [Trudy) IKZ "o.6062-3?2 160. (MIRA 13%12) (Steam pipes-Testing)  83328 S/096/60/000/010/002/022 /"2 0 B194/3184 AUTHORSs Tretlyakov7 P.G. (Candidate of Te3hnical Sciences) and Levchenko, B.L. (Engineer) TITLRt Temperature tests -on a high-.pressure turbine of the Leningrad Metal Works PEBIODICALs Teploenergetika, 19609 No 10, pp 2e''_'.-27 TEXT: In order to cut down the time required to start up turbInes from the cold it Is necessary to study the temperature distribution In the stator and rotor during steady state and tran- sient conditions. Accordingly, the works laboratory has been testing turbines since 1953) paying particular attention to temperature distribution. Considerable experience has been gained of the temperature distribution In turbines during starting-up and cooling. The tests may be considered in two stages; the first was study of the main relationship3 of temperature change In turbines durIng starting and stopping, and the second was the application of various methods of altering the temperature distribution so as to control the heating and cooling of turbines. The test equipment used 13 desf~ribed, parttaulaTlY the general construction of the thermocouples used. Thermocouples were Installed on the rotors and statois, a Card IA OK  83328 S/096/60/000/010/002/022 slgl+/zl8k+ Temperature Tests on a, High-Pressure Turbine of the Leningrad Metal Works considerable proportion of them being of the flanged joints. In the first stages of the tests between 300 and 4,00 thermocouples were used on the turbine, but later this number was reduced and it Is now considered sufficient to make measurements at about 100 points on the stator and 50 on the rotor. The method of measuring clearances inside the turbine is briefly explained. Tests have been made after overnight shutdown for 6-8 hours, and week-end shutdown of 30-36 hours and also from the cold. The factory starting instructions were obeyed at first and then accelerated starts were made. The test results are reviewed; most of them have been previously published in this journal in the last two or three years. A cold turbine does not heat up much whilst the barring gear is In use and a hot one even cools down. Therefore, this period should be reduced as far as possible. The period during which the load is raised from 5 to 50% is-,particularly Important as it Is then that the greatest temperature differences occur. When the forward glands are shrunk onto the turbine shaft the most dangerous temperature difference is that between the glands and the shaft underneath them. If this Card 2//, ~K  63328 8/096/60/000/010/002,/022 Bigif/S184 Temperature Tests on a High-Pressure Turbine of the Leningrad Metal Works exceeds 70 OC damage to the turbine may result. In general, the rotor heats up faster than the stator and so expands more, particularly If the stator Is not well lagged,, In this respect the relative masses of rotor and stator are most Important and where this ratio has been upset, as in a turbine with very heavy flanges., operating difficulties have been experienced. As a result of the work accelerated starting conditions were developed which greatly reduced the starting times of the turbines. It was shown that further acceleration of the starting could not be achieved without using some other construction than shrinking on for the labyrinth glandsq and this construction has been avoided in new designs. The main difficulties of starting are then transferred from the rotor to the stator and in particular thermal stresses are set up In the flanges and studs. However slow the start, the inside 3urfaces of the flanges always heat up faster than the outside and accordingly it was decided to heat the outsides of the flanges. Various arrangements for steam and electric heating of the flanges and studs are illustrated schematically in Fig 1. Graphs of changes in Card 3A' ~e  83328 8/096/60/000/010/002/022 Big)+/3181+ Temperature Tests an a High-pressure Turbine of the Leningrad Metal Works temperature and temperature differences over the width of the flange during identical starts with and without heating are plotted in Fig 2. and it will be seen that heating is a very effective means of equalising the temperature distribution. By heating the flanges the starting time of one type of turbine could be reduced by a factor of 2-3 (see Fig 3). In the light of this work modern turbines are rovided with heating of flanges and studs as a matter of course see Fig 4). Electrical heating has also been tried: it is simple f and easy to control and can more readily be applied to existIng turbines than steam heating; though electrical heating is effective in reducing temperature differences It is not quite so good as steam Ias will be seen from the temperature difference curves plotted in Fig 5. Study of turbine cooling showed that during shutdown the lover part of the frame cools the most rapidly so that a temperature difference is set up between the upper and lower parts, causing temperature strains (see Fig 6). If It is necessary to start the turbine whilst it Is in this conditions it may be damaged. Accordingly) arrangements were made to heat the lower part of the Card 4/6 4111"  83328 810461601000101010021022 Big /9184 Temperature Tests on a High-Pressure Turbine of the Leningrad Metal Works frame electrically, and tests have shown that when such electrical. heating Is used it is possible to prevent the rapid cooling of the lower part of the frame (see P-19 7) and consequently to avoid the temperature strains. More uniform cooling Is also achieved by improving the thermal Insulation of the lower part. Analysis of test results has shown that there are a number of places at which temperature measurements can be made which will give good general guidance about the temperature condition of the turbine as a whole. Consequently, arrangements are now made to make measurements of this kind and to provide readings on the control panel. Now methods of measuring stresses and clearances are being developed which will improve the effectiveness of the tests. The extensive experimental material available should make it possible to develop theoretical methods of calculating the heating and cooling of the turbines. It is first important to determine limiting conditions directly from experiment and to apply these in conjunctlon with modern t-,omputing techniques to assess temperature effects during the design stage of tarbines. Card 5/6  13M=0, B.L., Inch. Testing the VI-50-3 turbine under operating conditions. Energo- mashinoetroenle 6 no.4:30 Ap 160. (KIM 13:8) (Steam turbines-Testing)  THSTIUKOV, F.G.0 kand.tekhn.nauk; WPIUMQ0, inzh. Temparature testing of high-pressure turbines marnifactured by the Leningrad Metalworking Plant. Teploonergetika 7 no.10: 22-27 0 160, (NIRA 14:9) 1. Loningradakiy metallicheakiy zavod. (Leningrad-Turbines-Testing)  I.ZVCHENKOR BeLop inzh. fr Variations in the steam temperature and load in the operation of steam tubinea. Elek. sta. 31 no.12:37-41 D 160. (KIRA 14:.5) (Steam turbines)  - - IEVCIIEIIKO j B. L. , inzh. Temperature field of the casing of an electrically heated high-pressure turbine. Energamaohinastroenie 7 no.7:24-27 n 161. (MIRA 14:8) (Turbines)  S/114/62/000/009/002/003 E194/E435 AUT11OR: Levchenko, B.L., Engineer TITLE: The use of carborundum heaters in tightening large flange-bolts on turbines PER10DICAL: Energomasiiinostroyeniye, no.9, 1962, 34 TEXT: The process of tighteniiig holding-down bolts of 140 and 165 mm diameter in flanged joints of steam turbines is facilitated by heating the bolts. The Laboratoriya paravykh turbin (Steam Turbine Laboratory) of the LMZ has developed heaters which can be made up at a power station from carborundum rods type KHMe-25 (KNMV-25) heated by a supply from a welding transform6r.. The heater in inserted into the bore of the bolt, which is specially enlarged to 35 mm diameter. The heater temperature rises to 12000C but the temperature of the bolt bore, which is heated by radiation, does not exceed 550OC- A bolt type M165 can be heated in 25 minutes, M140 in 20 minutes and M120 in 12 minutes, the rate of heating in limited by the temperature stresses in the bolt bore approaching the yield point. By using a number of heaters on groups of bolts a large turbine cylinder joint can be loosened or tightened in 2 to 3 hours. Card 1/1  LEVCHERK09 BeL., inzho Study of the starting operation of the VK-50-3 turbine. Elek. sta. 33 no.5:14~19 My 162. (II-ERA 15: 7 ) (Steam turbines)  ~L~ih- Start of steam turbines. Energomaishinostroenle 8 na.12~44-46 D 162, (MIRA 16:1) (Staam turbinev)  S/096/63/000/004/0011010 E194/F.455 AUTHOR., Le anko,-R.", Engineer TITLEj Starting tests on turbine type K-100-90 PERIODICALs Toploonergotika# no.4, 19631 2-7 TEXT: Starting tests-were made on turbine type X-100-90 (100 MWI 90 atm, 5350C. 3000 rpm) because it had certain novel constructional features, notably redesigned hot-and labyrinth gland, single-row regulating stage, use of new types of steel and use or semi-flexible .,coupling between hp and 1p, cylinders instead of the usual spring- type couplings., Both steam and electrical heating of flanges and holding-down bolts are provided. Tests were made from hot, warm and cold conditions (corresponding shut-down times being 11, 42 and over 65 hours respectively). Numerous thermocouples were fitted and expansion measurements were made. A cooling curve was first plottedand differences in the rates of cooling of dirforent parts .of the turbine were measured. In tests from the cold all parts of the turbine warmed up whilst running up to speed and running light. rho main stop-valve and regulating valves heat up very quickly (6 and 9*C/min respectively)'i- The turbine rotor goes on expanding during light running.. The.~_Wrhi no is heated intensively on Card 1/3  s/oq6/63/ooo/oo4/noi/oio Starting tests on turbine ... E194/E455 loading up to 20 MW, with considerable temperature differences in Aip cylinder flange.joints. Since the temperature difference in the metal is greatest at 20 MW, this load should be picked up gradually with some delay in the 5 to 10 MW range. Beyond 20 W, the rate of application of load.may be increased and beyond 60 MW it may be accelerated still further. in starting from the warm condition, the stop and regulating valves heat up at 4.2 and 80C per min respectively. The hp cylinder began to heat up only after 2400 rpm had been reached; its rate of beating did not exceed 1.5*C per minute and temperature differences started to appear in the flanges. It in concluded that the rate of picking-up speed is governed by.henting of the stop and regulating valves; the turbine should not be kept running light because the consequence after about 20 minutes is that the rate of heating of the stop and regulating valves drops. The fastest starts were made from the hot condition after the turbine had been shut down for 7.25 hours when the maximum stop valve temperature was 400*C and thAt of the turbine flanges 383*C. Speed was picked up in 15 minutes; in a further 10 minut .es the machine was synchronized and 40 minutes Card 2/3  s/o96/63/000/004/001/010 Starting tests on turbine see 2194/E435 later loaded to 100 MW. On the basis of the test results recommondations are made concerning starting-up speed and may be summarized as followaS After shut-down of up to 2 hours, pick up speed and synchronize in 20 minutes, reach full-load after 1 hour. In starting from the hot condition, pick up speed and synchronize in 40 minutes, reach full load after 2 hours. From the warm condition, synchronize at 1 hour and pick up load gradually at ,first, reaching full-load in 3.75 hours. From the cold, run up to speed gradually in 80 minutes, synchronize at 90 minutes, pick up -load very gradually at first and accelerate later to reach full load in 5 hours. These times could be cut by providing additional heating for the flanges. There are 7 figures and 2 tables. ASSOCIATIONs Leningradskiy metallicheskiy.zavod (Leningrad Metal Works) Card 3/3  LF-VCHEIIKO, MAKHOVYO, Yu.Yo., inzh. -- ----- Tubular heaters for tightening largo threaded Joints. Energorzashi- nostroanis 9 no.11333-34 N 163. 04IRA 17:2)  LEVCHERKO, B.L., inzh.; SHVETS, V.N., inzh. Start of a 50 M2. block by steam vith sliding parameters. Teploenergetika 10 no,lt2-8 A 163. (KRA 16tl) 1. LeningradakLy mttallicheskiy savod imeni Stalina i Yuahnoye otdoloniye Gosudarstvennogo trests, po organisataii i rataionalizataii rayonnykh elektrostantsiy I setey. (Eldotric pover plants)  IZVCHEW, B.L.,-inzh. . Trail'runs of t~e X-1006-90 turbine. ToplatawSatika 10 no.4:2-7 Ap 163. (WRA 16.3) 1. Leningradskiy meta.Uicheakiy zavod. (Steam turbines-Te sting) I-  LEVCHENKO, B.L., insh.; ROMANCHIK, K.K., inzh. Tightening of large threadod units of steam turbines using carborandm heatare. Elsk. sta. 34 no.lls35*~8 M 163. (KRA 17:2) 1  S.A., in:;h.- ntttk; M.ik, kand telklirl inzh. 1n0-6 turbine diiring 1t5 ChanZe of the axial gaps of the VK--- I operation. Teplaenargetika 11 no.3i6l..66 Mr '()-'+- WrRA 17-6) teklinIcheskiy 1. VseooyII%nyy nau2tino-'sel-mova tell bMAY tepic) Im -kXII s"P-~ZIR Institut 1 Len,-n?,radsk'-y me"U".UZ:1.~eskly Z&VOd  LFVCHENKO, B.L., lnzh.; MKHAYLOV, A.A., lnzh. Start of PVK-200-1 turbines in hot state. Teploenergetlka 11 no.5:2-5 Mr'64. (MHU 170) 1. Leningradskly metallicheskiy zavod Imeni XXII s"yezda Kommunisticheskoy partii SovetaXogo Soyuza.  LEVCHENKO, B,L,, lnzh,; NEKHENUZI, Ye.Yu., inzh.; R(MAICHIK, K.K., in2h.; KHASINA, E.A., inzb. Study of tightening stresses In turbine pins using high- temperature tenslometers. Energomashinontroenia 10 no-53-37- 39 My 164. (MIRA 17:8)  IZVCHENKOI B.L., in2h.1 LISTVINSKIT, G.Kh. Stresse.a in the walls of steam turbine units durIng hosting. Energamashinostroonle 10 no.l2r34-37 D 164. (MTRA 18t2)  D295/D30) ic)~~: llizyuk, L.Ya., Golld,,-eltor, V.I. and Le,.rchenko, D.G. ------------------------ T ITL E: Follow-up type phar~e-ohifter devices for obtainin7y un assigned shift over a frequency barv, ;,kade;',iya nauk S76jR. bibirskoye otdeleniye. Tngti*Ut avtom.atiki i.elektroLnetrii. Avtomaticheskiy 'Kontroll i elektricheckiye iznereriya, no. 2, 1960, 21 53 The wide-band features of existinj phase-shiftinC devices are reviewed and are shown to be inadequate for use in nea3ur- ingr networks. The adoption of follow-up techniques-is sur-custed, where- by the phasen of the output and input signals of a phase-shiftiziC de vice are compared by a phase indicator, whose o'utput voltare provide;, for a departure of the phase shift from its assioned value, an error sii;mtI. After tir.,plification and processine, the error signal actf. or, L control parameter of the phase ahifter in such a nner as to reduce the phase shift to the value required. The prirxi~ e is illustrated by the example of a quadrature phase-shifting device consisting of a briaf;e Card 1/2  51'L691601C'C'01'~V-21co I /Cc, Pollow-up tyl;e phase-shifter devices ... D295/D509 circuit, whose control element is a photo-reuiztor. The er.-or feeds the filament of a lamp illuminating the photo-resistor. formulas for such a system are worked out in detail by proceedinF fro:. the characteristic of the photo-resistor and ending up with an exprt--ss- ion for the residual phase shift error. The band covered,(a frequency ratio of about 6 ) is further extended by frequency-Controlled jump- wise variations of the capacitance in another arm of the bridre Iro- totype, covering the frequency intervals 100 - 600 and 500 - 5C;O-%/s' has been assembled and tested giving 4 0.5 0 Phase error, 5 % output- voltai.;e error, ;t 20 % permissible mains-voltage variation and < 2 see. transient duration. The extension to wide-band phase-shiftinE devices with adjustable phase shift is discussed. There are 7 fig-urea. Card 2/2 '  LFVCHENYO, D.G. hr,!)Ug- passage of twc) harmonIc ql-Fnale Wtb IT.-U,11.4ple freq.--ie:,'V ', net-wo-k. Truly 119t. avtom. R nonllnear actlive shyee-rerminitl (j4jRA 18:8) ;65. i elektromotr. SO AN no.10.-0-55  LEVCMIKOt D.G.; KOTYUK, A.F., kand. tekhn. nauk, otv. red.; SHALINA, L.V., rod. (Two-frequency inductive electric prospecting apparatus] Apparatura dvukhchastotnol Induktivnoi elektrorazvedki. Novosibirsk$ Red.-izdatellskil otdel Sibirskogo otd-niia AN SWRI 1964. 92 p. (FI.L?A 18; 3)  ALAXOZp A.K.; GOLIDGEFTER, V.1.4-j9nHENKO,_ D.G. Semiconductor eleOTothermometer for temperature measurement in a Bubmembranous apace. Mod. prom. 14 no.8147-49 Ag 160. (KIM 1318) (THFMOPMRS AND THERKWRrp MEDIGAL)  .LLEVCMIKOI D.G.1 PASINO, I.V.; $11TAMMMKI G.A.,- KOTYUK., A.Fx P VYALYNH, A.Y., tekhn. red. 2APParaTaD ltm waviel -electric prospecting using the laJiM411 lor4,, cable methodjJpparatura bl~Lzi m-m%1.4eKro-- razved)rl wtoaam '6esktv&chn(3 dlimogo )OboUt., Otmet. red. K.B.Xaranaeev. YlovouiMvsk., tzd-,v47,9jWr&v t, got Ot-niie, Mt, SSSR) 1962. 78 p. MMh 15-6 S 1. Chlen-korrespondent Akademii nauk SSSR (for Karendeyev). (Electric prospecting-Equipment and supplies) (Aeronautics In geology) w7m M'" 7-- ~,-  GLOVATSKIY, G.G.0 Inzb.; IXVCHEBKOO D.G,.O inzh.; NIKOIAXEV, N.A., kand. tekhn.nauk, doteent- - - Device for analyzing overvoltages in windings. Izv.vys.ucheb. zav.,- energ. 5 no*5:2&-34 MY 162. (MIRA 15:5) 1. Livovskiy politakhnicheokiy inotitut. Predstavlena, kafedroy elektricheakikb atantsiyp eatey i sistem. (Electric machinery-Windings) (Electronic measurements)  WZYUK, L.Ya.1 GOLIDGEFTEa, V.I.; LEVCHENKC, D.G. -- -- -- - - -- I Servo-type phase shifting devices for obtaining a given shift in a frequency band, Avtom. kont. i elek. i=. no.2:21-34 '60. (MIRA 15:3) (Phase converters) (Electric controllers)  Mcab(Ku, 1).G. ; klosuv-, V.14. HeasurIng api,aratu.9 for Wi>-frequency IndoctIve elactrIc ~, t1 r , A proope _. GeOl.i 940fiz. no.12134-1)6 163, (MnA 16*-4)' 1. Institut avtouttlki I tilektrometi-li Sibirskoga otdeleniya All 3,;'S?, Novosibirsk. (ElecLi-ic prospoetb4p,)  LUCHENNO, D.G.; XOTYUK, A.F. Induction tM tranilducers of limited nize for 3eaviring weak isapetic fields of audio frequoncy. Izv. AN S39R. Ser. georiz. no.lltl684-1690 N 163. (MRA 16:12) 1. Inatitut aytomatiki ielektrometrit 31birskogo otdoleniya AN SSSR.  LUCHMO. D. 0. ; KOTrUK 0 As PO Induction pickup of given dimensions for neasuring weak audio-frequency magnetic fields. BY. AN SSSR. Ser. geofiz. no.2:247-253 7 164. (MM 170) 2. Institut avtomatW i elektrometrii AN SSSR.  L 56486a65 KiT(1)/szo4/EwA(j,) PmA/Peb ACCESSION MR: AP5017806 UR/0286/65/000/011/0040/0040 621.374 AUTHOR: Mizy&., L. Ya.; Golldgefter, V. I.; Levchenko D. G. TITLE: A phase shifter f a fixed 900 phase shift. Class 21, No. 171434 1 SOURCE: Byulleten' izabretenly i tovarnykh znakov, no. 11, 1965, 40 TOPIC TAGS, phase shifter, photoconductive cell, cathode follower ABSTRACT: This Auth6r's Certificate introduces a phase shifter for a fixed 900 phase shift. T)ie device contains input and output decoupling cathode followers, an incandescent lamp, a photoconductive cell, and two converters. One of the con- verters is connected to the input cathode follower and to the input of the phase shifting network which contains capacitance, while the other converter is connected to '.he input of the output cathode follower ;3nd to the output of the phase shifting network. The unit is designed for automatically maintaining the phase shift in a wide frequency range. ror this purpose it contains an additional incandescent lamp, three photoconductive cells connected between the capacitors of the phase shifting network and a common point, and a comparison circuit with a modulator and power Card 1/2  L 56486-65 .ACCESSION NR: AP5017606 amplifier. The power amplifier is loaded simultaneously by both incandescent lamps, .each of which is placed just before the corresponding pair of photoconductIve cells. 'The input of the comparlson circuit Is connected to the output of the convertor-a. 'ASSOCIATXON% none ISUBMITTED: 29DecS8 ENCLi 00 SUB CODE: EC ~NO REF SOV: 000 OTHEM. 000 V2  YAKOVENKOV G.Z.,- LEVCHEITKO, D.I.1 LEYKIN, Ye.R. Production and testing of non-icnic, F-S-59 de;;;;~-'fiers- G~.drt-'7- i lesokbim.prom. 15 no.2117-29 162. (MIRA 1.  0 0 00 0 00 a 0 1104 0-1111-04 a 0 : : 0 -- 0 e 0 0 0 0 0 41 0 # 0 0 6 0,111 0 0 0 1C oulopLas ova jk~l T.Ur AS If At a Ad a AS 9 a 0 4 41 a a 1-40 --- t -1 t do 0 P It as 1.4 V. 0 Off; w efe C, I 1, jgl I :Fps arritpod"M 10111111,211 1 - o W (wo-w .06 . I lip at low WWI "11" PMWFJ OR 0 ' A iupoal;z 2; W4 O UP PONO R pl&LA3 bMUS All )0 lAAA p o -dusai pug If m 1z) paw t $31 jaltv q (1) "CWH I row m ) l vjq~! tocu$ paaq !=j"Ifial q newill. O I sless"k, 00 N I 1 99 00 00" ti. 00 *41- f ir 00 4.. %1411~10. T--w o300 an to ova IIR got an If* 4itwavirwica &O's" a a 411 u ft V a 11 a G I 1 0 0 1 0 00.  0 1 0 I ol$ TW 6, 6 *-2 SOC 60916 ALSS Oft TI A A L .~ IFIF UT-1. 660%W$ so 4.8-0 BVIR"llaull Iv""119011 sell 00* go, 00 00, : 00, UUAII 'S A ne I"IV3 Jjdwrb)o jual- JIliq W if$ liam P) sug4l.12j) JU."VU J I A A coo 0, pmu imout " q q UJI rini 144tPul orv )a aq onj fm - d - oA A d d "00 -q n jo q p a juinbagns put 111N q3j, gj.1j" :: I, . O -Oins 4RI DI 0019 & 0 r 41 Ul put %asnomoaad AivoWiD i 1- n A g p i L)Ij q g- n2 [.)If Aq ~"m IOUP44 "I"Plooona 041 UO'sOlks lot &mjA v Iwo pilim.) 6 00 I 90111MA) 6"1" Pm-q-1 1-0 UdA "41 ., 4- 1-M r #00 I 1 4 s*114.1 0 ASIA.40 Ol Moil, "I - I *IW 1: 04 101411 ,.Vz Iff '61 -ON *cot ';p-pul ' - 0..j 'qUjq-- w IV 0 0 ee in lo I m (I Imm sps"o "141 s mps pefflo 00 00. of. 00- - tole@, .4o e 0 l t x w 1 5 F F 0 'air r I 0- o 0 0 0 a 9 6 0 A dio 0 e 0 , -0 goo  0 0-0-9 to 0 * e 0 VA., 0 0 * 0 0 0 # of* 0 0 ft it 1; 11 If Nj ,, "MMA I * I- P 0 u Rej I -- "tq4w sm"tt"S so It larkhmat ad ISM pboad fmcdoo of by ftwdmd extirstdom with elk". D Tray lesssefis top, so. 19, I A , N 41411 00 mr. I d. C. A. 36. 2791 .-Pbnwg# ' 0w " - . gh aftau from the arm Ws of the fractia of the It IM na, with at - - , - t (.I. % .= c aft tkonat sr Fre C -00 4x1n. of phenole from the ere" fraction enriches the It( traction of phenob with 411ai" (30~1w)% Aruawcol arvord - h me 0 t e inet"I 00.). but no cryst. guaiwal was Ob. F i Zee 00- ract onal decornpo. of phwenolmite with witts don not Incremw the content of gualacol In the dUffirmt frac- lions, =g"Jacolfrown pest Pbeftolsbyrneansof How it is to obtain concentrates cantS. up to M of quakwol, but no cryst. i" is obtained. The utedma re uires ha sruts f % C I zoo 00 . or . .- w i . C. q " colate. W. R. Hron AA.! fee Zoe so 1 so Ott wee 9 - . - -00 - a t a . I L A041 4.L%':A&k L1104101 OC% t 00 U it IT so Is, I -W-0 Is v I w a -j 1 t o I ~ NA 1611 o!* ft ro 090 0 0 000 00 0 0 0 0 ~ 111 $11112 a t 96 SO 0 0 010 010 0 0 0000400000 0 0 e , dr.4 ~ 0 V , a 00 40411140 0 6 041100 000 so* 00 00 0 so 0 0 so 0 0 0 0 00 0 9  see 0000 6 a 0 to's* o"# * *0`67-011041100 *0 0 0 0* 0 see 0 a 0000*00*606090909*6 16 **Joe* ***go 000000 90099 64. .. , .", V !i 091 0:3 , 'X'IJWI 441, "1 JvnIm,4j ;rp in SuipA.ui qj!m aua" 1mv aulp.VX *111-A ON Min -min-As ArInum.L in unftjm,30.. aq, A.,, J,Aloot- JAI I --p V (~Omrq .1 Assir Alpml AI-JJqft --1131AIIIII-11 I, 91!A% '1 .111 111 ^11141 2111111A 3,11 oil 002 it's Is IV41 IN 3181IJOY" IJJAh UIJJPUU (ISAI JIM of I its I pm lip Aluriqloarp q.nqm -,,uA.mqjqw All j2ru-vq?j ouq ost MJVUJDJV in vURVwj.I aqj "llsafassor Allpff ' 11PI~JFM %R2 1-413421-V )11 loorisl3mij .1uojAdujd. vuukijd a p) o,iq,v Ix4s jilim-) -ra to %4KC so AplarjuLk ixqgjwj q.wj put, 31`joo~j pnolool JqI JI9ifjmI3 ul -CIII P, "931 Al-iw WX.,t^r q so- Ilmoovaisp tooo loomt-'es; 3pwqTRdqw3j w Road ou -'J'Atral o*_ Sol Iwo Imotil-ir 1-11 'trat b"Pa" 'M'ql '01"Ink-3 jqi;l1-"v * 00. 11 wr -4 Ilelloos I- -Dqw :" -mrlasomps ARdwiftl -SqJ Aq 'Ppp IV 'PM A-Uqn IRS 01110 "A Inn-A tim.21 (1, 99) sion1w.3i v in 'Udaoftl~ _0 't -14(p.mo, If Oise Soo: 00 0 f uf a00 00 00 C. go C. 00 00 00 *0 P.- in -x fovy 00 so- 11-1, -IN IU*F'V 'N '"I'll open Supowmad P SIDAL ZJj x IF 0 (I to -iia 0 0 -0-0-0 0 0' -0-2 -0-0 Got- Oo 40 C IS 0 1 - -  LZ fl I  S/o65/60/000/004/oo6/017 E071/E435 k0 U.N., Kh drakova A.D.. Kslitamt."~_ eva, A.S. Levchen nd Cn~ ~grey* ~'%, AUTHORS: 2_!~hIOV3 V.I. a W-Te- A" Kfi 4 i FRY =i 'fa ; ~t. --i .e-Active Substances isions TITLES Non-lonogonic Sl~~~~~~ De-Emulsifying Agents for Pe ro Bel, 1960. N0.4. PERIODICALS Khiff-iYa i tekhnologiYa topliv j ma pp.24-29 and testing of non-ionogenif- surfase.- Results Of gynthesis t8) from fractions of TEXT% (de-emulsifying agen production of an active substances by-product in the alkylphenols, obtained as a sol (DBPK) are e 2,6-ditertiarybutylparacre noalkylcresol antioxidant additiv al for the synthesis mO production given. As a starting materi nd residue from the (126 to 142*C at 20 mm Hg) 8 g taken. The fraction nd their mixtures and oxyethylene wer il. Specimens Of of DBPK a dure is described in some deta experimental proce tained were tested on 0petroleum emulsions as alkyleneglYcOlO ob rface tensi no of their aqueOus de-emulsifying agents and Bu tions Were tested (Fig-l)- By Solutions of various concentra products containing ethylatiOn process It was found varying the duration of OXY were obtained. various numbers of oxyethylene groups Card 1/2 Non-lonogenic S/065/60/000/004/006/ol7 Surf&c~-Active E071/E435 for Petroleum Emulsions Substances - De-amuls that Compounds containing less than 10 groups ifYing Agents proportions of these Of oxyethylene were not completely soluble in water, while compounds containing larger of compounds groups were well soluble. The surface tension containing fro, 14 to 32 groups varied little. Particularly at up to 4o and aboviOw concentrations. With increasing number of groups ev the surface active properties of the compounds deteriorate. The beat results were obtained with substances containing between 25 to 30 of oxyethylene groups. The latter type Of compounds was named VNII NP-58. Its de-emulsifying activity was compared with other reagents used at present in the petroleum industry (table) and was found to be superior to that of other reagents. The consumption of this agent for the de~emulsification of Bashkirian crudes amounts to 0.005 - 0.01% and on thermochemical desalting of the Romashk crude - 0.03%. It is concluded that oxyethylation of by-products obtained during the production cf DBPK should be introduced into the industry. There are 2 ftgurea, I table and 6 Soviet references. ASSOCIATIONj VNII NP Card 2/2  BZRffADYUJr, Z.A.; LJWCHMM, D.P.; PUSBUM, V.P.; GHIRIYA: OV, P.A.; EWH, KOTALMO, N.Y. Petroleum desaltIng in slactro-desalting units in the presence of the OP-10 nonionogenle demulaigying compound. Khim.i. tekh.topl.i masel 5 no.9:31-37 S '60. (MIRA 13:9) 1. Novo-Gorlkovskiy neftepererabatyvayushchiy zavod i Veesoyuznyy nauenno-iseladovatellekly Inatitut po pererabotke neftl i poltiche- ni,vu iskuBstvennogo zkidkogo topliva. (Patroleumpr-Ref ining-Desalting)  LEVCHENKO, D.N. KNUDMOVA A.D.; GAVRILOVA, N.D. p Determination of nonicnizing aLrface active substances in aqueouB solutions. Zav. lab. 27 no. 41408-409 161, (HIPA 14:4) 1. Vaesoyuznyy nauchn,-.issledovatel'skiy institut po pererabotke nefti i gaza i polucheniyu iskusstvennogo zhidkogo topliva. (Surface active agents)  FEYGIN, S.A.; BUCHINA, L.I.; LEVCHENKO, D.N Prospects for the use of new di=ilsilr7ing agents. Khim.i tekh-topl. i masel 6 no.12S27-33 D 161. OGRA 15:1) 1. Voesoyuznyy. naucpw-isoledavatellakiy irwtitut po peretabotke xwfti~L gaza i polucheniyu lskunstvemogo zhidkoFo topliva. (Petroleum-Refining-Doaalting) (Surkace-active agents)  LEVCHEHKO, D.N.; YERMIWV, A*S.; TEPLYKif, G.A.; VOLOBUYEV, N.K. Use of ultrasound for deemulsifying stable petroleum emulsions. Prim. ulltraakust. k issl. veshch. no.14:337-343 161. (MIRA 14:12) (Ultrasonic waves--Industrial applications) (Emulsions)  L 3 t~VT (T) 2got-66 -JJ--2-4z-'N1: ACC NRt AR6023809 SOURC& WY~" t u1 j; oi;~ AIM1011: JAvchonko, D. 3, ORG: none TITW-: Analysis of the performance of apparatus for dosalinization of oil. in uaaLorn' refineries, prospoots for intensifying t1ho processes# and production and use of now deaLUifiers BOURCE1 Ror. ch. Khimkya (,,L. 2), Aba. 1P108 RZF SOURCE: Pati intonsifike ounovn. prot-sessav nefteparorab. prom-3ti. v owlazi a Porspoktivavi yeye ranitiya. He, 196)f, 18-32 TOPIC TAGSi po trochomistry, petroloun refining, lubricant domLlsifior, chomical synthesis, condensation reaction/OP-10 lubricant domalsifior, OZhK lubricant do,-.il- sifier, 44U lubricant domalsifior, 4422 lubricant donalsifior ABSTIUCT: The performance of app. for dosalinization of oil in eastern rofinorios was analyzods In most refineries desalinization i= satisfactOZ7 duo to the I-ack of an effective domlsifior and admission of poorly dollvdratod oils from the fiold3. In an pxporim-ntal run of an oloctro-de.-alAnization apparatus, non-ioniodamulsifiers (0P-1 ', OZhK',' and L-Vorted disolvan, 4411t, arA 442-211woro hi6i1j, offoctivot at a consurapt"Yo--nof 20-50 g./ton the rosid-ual salt content In tho oll was 20-JW nZ./l. Card  L 32905-66 NRs AR6023809 Results of long tosto with the iq)ort demLlsifiars 4411 and 44p.,~wd in the laboratory and oxperimental-industrial lots of 04M (product 6f-i~y;I~Wation of synthetic hidi molecular waiGht fatty acids ) CZO). as wall as the doMa31fior OS (Shebinskii hydroxyotlVlatod alcae) are Givon. Tho most effective, econortIcal, and practical for com-wrcial production was 022iX. In addition to the above doi,-41sifiers, compounds of the plyuronik typo (a aurractant obtainod by condensation of propylo-0- glycol with propylono oxide, followcA Ixj 171roxyotIvlation) and totranik typo (pr~IC4. of liydroxypropylation of ethylonodiadno folloirod Irj hydrorjothylation) of difforant molecular weights, synthesized by the IGOP were also laboratory tested; thoy ttero quite effective, Results of an analysis of different imort deadWiers are riven. Types of electrodehydrators for desalinization of oils are briefly oxArzined. SUB CODE: 11, 07 / SUBM DATE: none  LEVCOM.-D.B.; NINUMM, 1;.V.; KHUDYAKOVA, A.D. Use of block copolymers of propylene and ethylene oxides for the breaking of petroleum emulsions. Khim. i tekh. topl. i masel 9 no.3:36-40 Kr'64 (HIPA 17:7) 1. Vsesoyuznyy naucImc-issledovatellskiy institut po perera- botke nefti I gazov i poluchenlyu iskusstvennogo shidkogo topliva.  NIXOIAYEVAI N.M.) LEVCHMO, D.N. Dependende of the demulsifying Activity of surfaotants on their struetwe. Xhim. I takh. top!. i masil 9 no.9.26-29 s 164. (MIRA l7ilo *, 1. Vseeoyuzrqy nauchno-Issledovatellskiy Inat!tut po perersbc,-.ke nefti i gait i poluoheniyu Iskusetvannogo zhidkogo topliva.  khoz. 42 no.12t26-34 D 164 (MIRA 18:2)  UMIR-A nefti J tcTilva, 18:5)  C.11/&KA(d ~/T PC -4 LTIV0286/65/000/0 1 *054/0054 "ACUS5161f R. AP5016742 AUTHOM: Lavcherike, D. N. I M.; Mi.zuch, K. G.-, Gellfer, To. M. TTM-F.i A method for dehydrating and denalinating 21, 110-171065 SOU.12: Dyulleten' izobretenly i,to-varnykh zrutkovt nf,. 100- 1965t 54 TOPIP TAGS: petrole=, delVdrationp dwsalination, active sub3tancep eater 0 5 71 A172- This Author Certificate preaento a mothod Afor dehydrzting ruld dona.linating of petroloum by introduoinp, nonionogenic ourfaf,~ aotive cubstances into the petroleum emilaion. To accelerate tho procesu of dehyd-ration and decalinationf col esters of poly or its dorivatives, with a moleoular weight of 2500-10 000 are, uned an tho fonionogenic surface active c-Libalance.g. JUS0,11ATION, bone SUBMIMM; IqFeb64 MICLI 00 SUB CODEs FPO GC )10 Rlw SOV3 000 OTHER 1 000 C6rd i  66 Mj /T 'I. I A I-, 4r, -,AT6013184 I lkx- -SOURCE GOLE:- UR/0000/61/000-/000/0337/0343--I Avri=St Levchonko, D. fi.; Yermil ov, A. S.; Toplykh, G. A.; Volobuyev, 11. K. ORG: none TITLEs Application of ultrasound in do-emulsification of stable oil emulsions SOURCE: _!~~ ~Lastnoy pedagogichoskiy inntitut.,Primeneniyo ulltraakuntiki k isoledovaniyu veshchestva, no. 14, 1%1, 137-343 TOPIC TAGSt ultrasound, omulsion, ultrasonic equipment, ultrasonic petroleum puri- fication, ultrasonic vibration emitter, barium titanato / OP-10 do-amulsirior, VNII NP-58 de-emulsifier, KS-59 do-eiru1sifier ABSTRACTs Do-emulsifIcation by means of ultrasound was studied on stable, aged, .oil-water emulsions from traps and storehouses of the Moscow'refinerion. Three ~ultrasound generators '(3.2 and 0.6 kilowatt capacities) and -vibrators (marynotostriq- -.tive, haritm titanato, flat, and focusing) were employed In the study. The dogree 'of do-emulsification was determined as a function of the hoiGht of the sonicatod emulsion Irayer, sonication timej and ultrasound field intensity. It was established that the investigated emulsions can to destroyed when treated with ultrasound with a-frequoncy of 20-750 kHz. The do--cmulsification degree increases with increased ultrasotmd field intennity and time of treatment, and decreases with increased e=1- sion layer. The sound frequency is inversely proportional to the optimal thIckne34 Card 1/2  L h2209-66 ACC NRs AT6013184 of the destroyed omulsion. The moot promising vibrators are barium titan4to pipes and hydrodynamic vibrators used in conjunction with do-emulsifiers qV VII IJIP-,58,~ qP--1 and KS-59.//Orlg. art. has: 2 tables and 8 figuros. SUB CODEs 07l 20., Il/ SUBM DATE: 2ZApr61 Card 2/2 af  BOWSLAVSKIT, I.Ya., starshiy nauchnyy notrudnik, ; BUCHARGY. Tu. U.. mladshiy nauchnyy sotrudnLk,; YXWTOV. 0.1., sladshiy nauchnyy notrudnik,; ZHIVAGO, V.I., aladahly nanchnyy sotrodnik,; XHITSUN, T.N., inzh.; BUBLIK. V.I.. in2h.; otv. red.; AVRMKAYA. R.F., red. 12d-TS.: MIKAAYLOYA's V.Y., takhn. red.; ZVOSON, I.M., tekhn. red. (Consolidated time norms for machining standard ports; unit and small-scale production] Ukrapnennys normy vremeni no tokarnuiu obrabotiq tipovykh detalsi; individuallnos i malkoseriinoo proizvodbtvo. Moskva, Goa. nauchno-takhn. izd-vo lit-ry po chernoi tsvetnoi astallurgii. 1958. 445 p . (MIRA 11:12) 1. Vassoyuznyy nauchno-iseledovatellskly Institut organizataii proizvodstva i truda chernoy metallurgii. (Turning--Production standards) (Time study)  BOGUSIAVSKIT, Issak Takovlevich; BOCHAROV, Turiy Grigorlyevich; LIVCHXIIKO, DmitrLy Vasillyevich; PORTNOY, Moisey Tevoeyevich; KMOV. S.M.. red.; AVMSKAYA, R.F., red.izd-va; IMMIUVA, P.G.. takhn.red. (Betablishing norms and the work organization for the repair of metallurgical furnaces] Takhnicheskoe normirovanie i organizataiia truda na remontakh metallurgicheskikh peohel. Moskva, Gos.nauchno- takhn.isd-vo lit-ry po chernoi i tsvetnoi metallurgii, 1960. 316 p. (MIRA 13:10) (Metallurgical furnaces--Maintenance and repair)  BOGUSLAVSXIY. I.Ya.. starshly nauchuyy motradulk; BOCHAROy, YU.G*' sladshir nauebiVy sotrudnik; YBITOT, O.I.g mladshly uauchzq7 sotra4ulkS B=14 V.I,, lush,;, GOLOYANOTA, I.M., insh.,* XHITWN, T.1,1, lush,; SIXEMWO V.I., lush4j SHMEMIT, 3.8., lush.; LIRVC 0- D-V' oty.rod,'; CHMILIS, x,i,, r*d,; PIUGIJF I.I., red.isd-va; ISLJNTIYVA,, P.G., tokbn.red. 0 [Aularged machining and time norms for planing and slotting,, place and small lot production] Ukrupusunp normy I normativy vremeal na. strogallays I dolb9zhzWe rabotyl ludividuallooe I malkoserilmos proisvodatvo. Moskva, Gos,uauohuo-t*khn.Lzd-vo lit-ry po obernol i tsTatnoi matallurgil, 1961. 408 p. (MIRA 14112) I" 1harkov. VessoyusVy nauchno-lonledovatellekly luBtitat organizatell prolsvodstva i truda cheruoy metallurgil. (Natal cutting)  BOGUSIAVSKU, I.Ya., starshiy nauchwjy sotr.; BOCHAROV, Yu.G... rilad. nauchnyy sotr.,* TENTOV, 0.1., mlad. naychrWy sotr.; BUBLIK, V.I., inzh.; GOUNANOVA, I.N., inzh.; 131ITM, VX., inzh.; SEKENENKO, V.I., inzh.; SWED-41K, S.S., inzh.; 1ZVCF-'-2iKG D.V., otv. red.; BURSRTEY 1, A.I., red. izd--va; ISMTIYEVA, F.G., tekhn. red. (Consolidated norms and time norms for boring work; piece and small lot production] Ukrupnennye norry i normativy vremeni na rastochgre raboty; Individuallnoe i melkoseriinoe proizvodstvo. Moskva, Metallurgizdat, 1962. 407 p. (MIRA 15:3) 1. Kharkov. Voesoyuznyy nauchno-isaledovatellsk-ty institut or- ganizatsii proizvodstva i truda chernoy metallur ii. (Drilling and boring-ProducUou standardof  lw 14 1. T(,,Plr  h-- POLINUMNK(K, ~-., WICIIEN-K,), Z-, V. ~,oben axo per f i)-=LM lixttl"'. M~r. t. -', 25 tv,., -- ~ ' ~., - (~.-Iru l8ilo J.. OT-upp.;rq tolekt.rmekhmik Ball.178k,:,v If f~,.7 P&*1l7voh,-ak&v). 0'.. Tk I).! eiVIuA "I ~.-,tntslvj I'ity,2 (r'.- -*A i. ..)It ry,"; . N  POPOV, Yu.I.; SLIZKIT, P.I.; YELINSON, I.M.; LITCHWO, V.A.; KALASIMKOV, Tu.T.; KISIM, M.N., redakTV~,- ~,. ~.. Inshener. redaktor; RUDINSKIT, Ta.T., takhnicbeekly redaktor (Model Igh 4114 walking excavator] Shagalushchil okskavator ISh 4/40. Pod red. N.H.Kigeleva. Ilev. Gos.naucbno-tekhn.izck-vo washinostrottellnot lit-ry Ukrainskos otd-als, 1955. 152 p. (Zxcavating machinery) (KLRA 8:10)  ALITSHULXR, Y.Ye., prof.;LXVCfMKO, F.P.,aspirant Method for housing cattle which can be mpplied to the entire sorie. Zhivotnoyodatvo 20 no. 10:28-102 0 156. (MIRA 11:10) 1, Tadshikekly eel' skokhozynystyannyy institnt. (TaJikintan-Cattle) I  IEVCILENKO, G. Sblp anchorage under stormy weather conditions. Mor.flot 21 no#2:22-23 F 161# (MIRA 14:6) 1. Starshiy shturman SRT-1038 N.Aleyek" Upravleniya aktivonogo morskogo rybolovetval g, Nakhodka. (Anchorage)  1. 'IF-MLISR, S.; J.EvCH7.'IY.O, G. 2. USSR (600) 4. Chernitse-Felokanite Region - ChE-'k 7. Report on the prospecting for chalk deposlts in the Cbernitse-FolckanIts rE.gion of the Villnius District of the Lithuanian S. S. R. for 194)., ~Abstraq_~7 Izv. Glav. upr. geol. fon., No. 2p 1947. 9. Monthl List of Russian Accessions, Library of Congress, &Tch, 1953. LInclassifled.  LEVC1011KO., q.A. Some problems of the control of agricultural traur-tism. S-7. zdrav. Kir. no.4/5299-103 Jl-0163 (MIRA 17:1) 1. Iz kafedry organizatsii zdrwrookhraneniya i Istorii meditsiny Kirgizakogo meditainakogo InstItuta (zav. - prof. A.A. Aydaraliyev) i khirurgicheskogo otdeleniya Alamedinskoy rayonnoy bollnitsy (glavnyy vrach - N.S. Sologub).  RISPOPOVp I.V.; LUXASHOVO G.G.; PLISXANOVSKIY, S.T.; ARTYUKHOV, B.N.; TARASOV, D.A.; ARIMAYEV, V.V.; Prinimall uchastiyes ZENYUKOV, V.P.; NEMOV, N.S.; GODtZV.VIY, A.I.; VVCWKO UTT DROTYAREVA, Z.I.; GORLACH, A.A.; YAKUSMH , .I.- Intensifying the sintering process by air preheating and by improving the performance of exhaust fans. Stall 23 no.8: 679-682 Ag 163. OURA 16:9) 1. Zhdanovskiy metallurgicheskiy institut i metallurgicheakiy zavod "Azovstall." (Sintering)  LEVCRMMO,G.I,, admiral, otvetstvennyy red.; DMN, L.A., dots.. kand. geogr. iuzh.-kontr-admiral, glavnyy red., MHKIN, Y.S., polkovulk, ,,m;titell otvetstve=ogo red.; AW'KIN, P.S., adn1ral, -ad,; AJA7MOVe V*Ae, profs, kand. voenno-morskikh nauk, adzdral, red.: AWIICH, VA., kontr admiral sapasa, red.; AGMUSOV. 7J.' )MMS istor. nauk, kapitan I ranga, red.; BARASOV, A.N., red.; BELLI# V.A., prof., kontr-admiral v otatatka. red.; BASKROTNYY. L.G., prof., doktor istor. nauk, polkovnik zapasa, red.; BOLTIN, Te.A., kand. voen. nauk, general-mayor, red.; VIRSHININ, D.A., kapitan 1 ranga, red.; VITVXR. N.A., prof., doktor geogr. nauk. red.: GALIPM, G.R., dots., kand. voenno-worskikh nauk, kapitan I ranga, red., GLINKOV, Te.G., luzh.-kontr-admiral v otatavke, red.; TILISHM, I.D., vitae-admiral, red.; ZOZULYA, Y.Vs, admiral. red.; IMOV, I.S., prof., Admiral Flota Sovetskogo So7uza, red.: XAVRAYSKIT, V.V. (deceased], prof., doktor fiz.-Mt. nauk, inzh.- kontr-admiral v otstafte. red.; KALISNIX. S.T., red.; KOZLOV, I.A., dots. kand. voenno-morskikh nauk, kapitan 1 ranga, red.; KOW07, A.V,, vitae-admiral, red.; KUMYAVTSU, M.K., general leytenant tekhaicheakikh vo7sk, red.; LTUSHKOV.'XIY, M.V., dote., kand. later. nauk, polkovuik, red.; MAKSIMOV, S.N., dote., kand. voenuo-morskikh nauk, kapitan 1 ranga, red.; OWN, S.B., prof., doktor istor. nauk, red.; CRLOV, B.P., prof., doktor geogr. nauk, red.; PAVLOVICH. M., prof., kontr-admiral v otstavke. red.; PANTZMM, Tu.A., admiral, red.; PlTZLSKIY, N.A., kand. voenno-morskikh nauk, lcontr-admiral, red.; PLATONOV, S*F., general-loytenant, red.; PMNTAK, V.G., dote., general leytenant, red.; SALISHCHIT, K.A., prof., doktor takhn. nauk, (Continued on next card)  LIVOMMO, G.I.--(continued) Card 2. red.; SrDCMV, A.L.. prof., doktor istor. -k,-, red.; Sra&aXWV. L.A., kontr--admiral, red.; SKCDFIMIT, V.A.e prof., daktor voonno-morskikh nauk, inzh.-kapitan I ranga, red.; SOWVIUT, I.E., dote., kand. voenno-morskikh uauk, kapitan 1 ranga, red.; STA 0, K.A., kontr-admiral, red.; STXPANOV, G.A. (deceased], dots., vitse- admiral, red.; TOK&SHETICH, A.V., prof., doktor voonno-morskikh muk, kontr-admiral v otstafts, red.; TM3WTS, V.F., kand. voenno- morskikh nauk, admiral, red.; CHXRNMOV, F.I., kontr-admiral, red.; SHV=. Te.Te., Prof. doktor voenno-morskikh nauk, kontr-admiral, red.1 CRUEUKOV, A.I.,,takhn. red.; VASILITIVA, Z.P., takhn. red.-, VIZIROVA, G.N., telft. red.; GORCEMM, V.I., tektm. red.; GRINIKO, A.M., tekhn. red.; KUBLIKOVA, RX, teldm. red.; M&LINED, V.I., tekhn, red,; STIDWSXATA, GeV*, tekhn. red.; CH3RNOGOROVA*O L.P., tekhn. red.; GMWICH.'I.V., tekhn. red.; BUKUNOYA, N.IO, tekhn, red.; NXCMATMA, I.N., tekan. red.; RADOVILISX&YA, Neo., takhn. red.; TIXHCKIROVA, A.S.. tekhn. red.; BRLDCHKIN, PaDet takhn, red.; LOIKO. V.I., tekhn. red.; ROMANYUK. I.G., tekhn. red.; TAROMWICH, Ir.Te., tekhn. red. [Sea atlas] Horskoi atlas. 0tv. red. G.I. Ievchenko. Glav. red. L.A. Demin. [Hookwal Izd. Glav. shtaba Voenno-mor8kogo flota. Vol-3. (Military and historical. Pt.l. Pages 1-451 Voonno-istori- cheek-It. Zameatitell otv. red. po III tomu N.S. Prumkin. Ft.l. Listy 1-45. 1958. _ [14ilitary and historical mpe, pages 46-521 (Contim3ed on next card)  WCHAMD, G.I.-(continued) Card 3. Voenno-istoricheskie larty, Usty 46-52. 1957. (Nm litio) I. Russia '(1923- U.S.S.R.) Ministerstvo obororo,. 2. Nachallnik Glavnogo upravleniya qeodazii i kartografii Hinisterstva rmtrannikh dal SSSR (for Baranov). 3. Chlon-korrespondant Akadenii nauk SSM (for Kalesnik). 4. Daystvitellnyy chlen Akadendi pedagogicheskikh nauk RS7SR (for Orlov). (Ocean,--maps)  SURMELI, D.D., kand.tekhn.nauk; MAR, Ch.D.1 inzh.; LLVCHENKO, G.I., inzh.; YRYIX., I.F., inzh.; LESNYYIJ, M-V., inzh. "Poroizol" is a material for,'packing joints. Stroi. mat. 7 no.9: 31-32 s 61. (MIRA 14:11) "//tubber, Synthetic)  BUT, A.I. inzh.; SUMOVA, L.A., kand.tekhn.naukj_IZVCIIZNKO, G.I., inzh. fdocoaaed] Method of electric dehydration of roofing paper. Stroi. mat. 8 no.5:20-21 My 162. (MIRA 15:7) (Roofing) I ~.~ ~.'- . -  LEVCHENMOO G.M. Appraximate.c&lculation.af torsional vibrations of a system with pandulumtype vibration dampers, Vent. mashinontr, 45 no.7s27-29 J1 165. (MIRA Milo)  BERGt S.L., polkovnik; VOROBIYEV, V.I., kapitan pervogo ranga; GILIW, G.M., kapitan pervogo ranga; A!,'A11C11LNKO, A.A.; RALAK-SHINA, 3WIVIKOV, B.S., k-apitan vtorogo ranga; BAIMINA, G.F.; BMEi:,SH'1,AJ41 N.V.; HUTYRINA, N.Ya.; VOROBIYEV, V.I., kapitan pervogo ranga; GASS, I.P.; G331BYSH, N.S.; GLADINj D.F.j polkovnik; GOLOVA1.10VA, L.G., kand. ist. nauk; GOLJJIEVA, Z.D., kand. filol. nauk; GOI;CHA.',OVA, A.I.; ZAIJADVOLOVA, R.N.; IVANOVA, N.G.; KAIWIZIB, G.B.; KOVALICHUK, A.S.; It KRODIDOVA, V.A.; LITOVA) Ye.I.; VIOLCHANOVA) T.I.; OKUNj L.S.; POCHEBUT, A.F.; RAYTSES, V.I.; SAVINOVA, G.N.; SOUCHKINA, T.I.; SKRYUNIKOV, R.G., kand. ist. nauk; FURAYEVA, I.I.; CHIZHOVA, N.N.; YASINSKAYA, L.F.; GLADD, D.F.,, polkovnik; LAEETSKIY, Ye.F., pod- polkovnik; LEWMEVj S.M., kapitan pervogo ranga; ORDITISKIY, N.I., kapitan pervogo ranga; PADVODSKrY, V.Ye., podpolkovnik; DEMIN, L.A., inzh.-kontr-a&,iral, glav. red.; FRUIKIN, N.Seq polkovnik, zare otva redj1_LEVCMKOL G.I., admiralo red.; BAKHTINA, G.F., tekhn. red. [Naval atlas) Morskoi atlas. n.p. Izd. Glavnogo Shtaba Voonno- Horsk 0 Flota Vol.3. (Faval history] Voenno-istorichookii. Pt.i.OfText fo; the maps] Opisaniia k kartwn. 1959. Y-xii; 1942 p. (KIRA 15:5) 1. Itucsia (1923- U.S.S.R.) Mininterstvo obororW. (Naval history)  LIVCHEIIKO, G.P. Legal possibilities for collective farmers to control their managorial personnel. Uch.%ap.IW no.274:125-139 '59. (HIRA, 1315) (Collective farms--Officials and employees)  0 to 0 0 q 0 0 0 0 0 0 Ak # * * 0 0 0 F p x upm- A4 0 N 0 16 (A a L -00 A C-ItOWWft Of 998 111111116108, 1 dAU lot bi"" a" sw"q sWzftfs~ al ONt"So. MUft" &" IA, ok"400- 14~ ~ "Oe 9 0 a Cqw,alm,11,111, - .4 4:11.. N, 01-111, -.1, sl~id. t , . "1% " 41 1401 7111 alm. 't isal.fvj. 'A - ZZ 0 0 . hr data at. v&l6j&,jAjjY I, list rqualbol " 0 0 ~Wf IN(PjWd 1py Ki"tTAII 111141 k41AfI",V1&jl 4 1 0o roe Cos o E ~ 21 in 0 Iwo roe ' a it is m ct n I, a I ta 11 ! ~ 1 ~ 0 0 0 0 0 0 A6 0 4 !* 9 i 0 0 0 0 0 v 0 0 0 go, 0 0 0 e1  #-4 0 0 o 0 0 0 0-0 -0 0 - I - -1 s ;;0 " " * * M Apt. A L EV r, CW=nUM Of XMW MD XWMAU-NOU KnOW A? ' HIM TROMrim w PRESARM. 14"Movskiij, 7. 3. sad JA g ' - ot 0. 1. (J. Phys. Chem. (U.S.O.R.) 19 380-21 U.OOP4 ROSS 4AID6 44a ' Abstr. 23 Feb. 1946v jU~ 28) The comp asibility of methane Mader pressures of $6.6 to 1400 sta. was determined at W and 3W C., The data at 2000C# agree well with those observed at law pressures 1W KVILInts and aaddy,, while game discrepancies were observed at 250 end 3009 'we for determination of the compressibility of mothans-emmania mixtures the method of Nichols was wed.t. The binary mixtures ocatalood reagnotively 32-84,p 39.58# 53,65 and 55.72 per cent ammmia. The pressures used ranged frm 82 to 1675 atm. and the temperature@ from P O, The ismtrIc graphs of the binary nixtures are t 150 to 300 stpught lines within a wide interval of temperatures and prossures, 4Ltch allow reliable s3arapolation of those data to bigber t d e taWeratures. The data obtained are quite satisfactorily represen by theloquation of state for binary gaseous mixtures derived by Krichevskii, and KazamovWLU. .'T .0 is IL 1 0 k.o so Os, give $&a $691, 6600 Stisilks oeo~, , O"O'e'l eq os, :00 .,,0* .1 00 9*0 X00 00 WoO, h" of 00 IN  I I fly I's 11,11. 14,1 4 a A, If is 16 If w #T A I ArA 00 A so 09 -69 00 "rtkes of coc"rvema CH. Tbannodynantic i 0 , ")by, Cum 111.14SK.11LIM ITITTT -1, for j.640 we u-1 t0 I-Ak. .00 best ~ltent. eflirtilly. (rtv ell"gir still incernAl 4; of Cit. imtw%" ;v Soft ~Nju' d(Ul hasern If$ Acs-I ?(Not stm. -00 Cos 4, 00 600 coo M 0 0 Ai- t% 4 00, 4 0 L ro u n A, : - 2 A 0 - 1 1 a 0 - 1p Z "a It It or a a it A 4 . . . 1, . dmo . 6 000 0 0 69 00 0 0 0 91 0 0 0 0000 0 0 0 0 0 0 0 I 0: 0 00 000 00 00 0 4110 9~41111 0 0 0_0 0 060 0 48 0 4 0 Q0 0  LEVGIIENKO, G. T. KRICIEVSKIYI, I. R., KA7ARNOVSKIYI, YA. S., and LEVCHENKO, G. T. (Nitrogen Inst. Moscow) J. Phys. Chem. (USSR) 12, 31/.~22 (1945) Thermodynamic properties of campressed nitrogen- hydrogen mixtures.  LF-VGFEN-K`O, G. T., (15-enlor ol' G"Ap) Cand. Chem. ;'-Jcl. .1 V., Dissertation: "Compressibility of' Uas Mixtures." W~ci lies Urder if* tho Labor Red Banner Physicochemic6l Inst imeni L. Ya. Karpov, 2) jan 47. SO: Vechernyaya Moskva, Jan, 1947 (Project #17836)  L:V '11 20K 0 --', . T . and P 0 T J'H A-'07 P-. Ye. . Surface Tension at the Boundary Uquid-Gas at High ?re3sures," G03. n. -1. i proyektn. ki-ta azot, proci-sti, No 1, 1952 (1953), pp 30-42 Method and equipment used are described. The surface t-nsion of water, methane, benzene, lubricants, liquid annonium, and other liquids was measured in pressfire of various gases at pressures froin 1 to 30) atm. (Ra,.Fiz, Ho 7, 1955) SO: j=.No. 713, 9 N 1 ov 55  LICVCHENKO G T kand.l,.hlm.nauk: BOLIMAKOV, P.Ts. Applying Antonny's rule to the s7sten liquid - gas under high pressure. Part 5. Trudy GIAP no.7:38-41 '57. (KIRA 12--9) (Surface tension) (Phann rule and equilihrium)  IBVCHBNKO~ G,T,9 kands kh1m, nauk godified law of corresponding states. Trudy GIAP no#8:38-57 '57. OCIRA 12:9) (Zquation of state)  KONTORMICH, L.H.; SOIA)VIYZVA, I.G.; LZVCHZIIKO. G.T., kand.khim. nauk - - - - I Determining the nitrogen content of ammonium salts by the formalin method. Trudy GIAP no.8:243-245 '57. (KIRA 1219) (Ammonium ealts) (Formaldehyde)  KORTOROVICH, L.M - IXVCH1NW9 G.T., kand. khim. nauk Use of infrared rays for desiccation In determining the moisture content and insoluble residue of malts. Trudy GUY no,8:246-247 '57. (MIRA 12:8) (salts) (Infrared rays)  IVANOVSKIY, F.P.pkand. tekhn. nauk, red.; FUFYAN, M.S., doktor khim.nauk, red.; SAMARIN, B.P., red.; 1QiIC1!EVSKIY,I.i'., prof.., doktor khim. nauk., red.; GOLUEV, I.F., doktor tekhn.nauk,red.; KRASILISHCHIKOV,A.I., doktor khim. nauk, red.; UEEVKE, V.A.p kand. tekhn. nauk, red.; LEVCIE-IKO, G.T.p kand. khirr,. naukpred.; GELIP&iIn, I.I., kand. tokhn. nauk, red.; O'YSTRAKH, M.L., red.; KREYSBERGp A.Ya,,, red.; TSUKE,'M, A.M., red.; KOGAII, V.V.p tekhn. red. (Chemistry and technology of the products of organic synthesis; intermediate products for the synthesis of polyarides) Khimiia i tekhnologiia produktov organicheskogo sinteza; poluprodukty dlia sinteza poliamidov. Moskva, Goskhimizdat, 1963. 255 p. (MIRA 17:3) 1. Moscow, Gosudarstvennyy nauchno-iseledovatellskiy i proyekt- nyy institut azotnoy prosy shlennosti. 2.Zamestitell diraktora Cosudarstvennogo nauchno-issledovatellskogo i proyektnogo instituta azotnoy prosyshlennosti (for Ivanovskiy). 3. Zamestitell direktora po nauchnoy chasti Gosudarstvennogo nauchno-issledovatellskogci pro- Yektuago instituta azotnoy promyshlennosti (for Furman). 4. GlavrjYy inzhener Goaudarstvennogo nauchno-issledovatellskogo i proyektnogo instituta azotnoy promyshlennosti (for Samarin). -  KONTOROVICH, L.M.; IOGAISEN, A.V.; LEVCHEIIKO,, G.T.; SEMIKA, G.N.; BOBROVA, V.P.j SITFANOVA,, V.A. Chromatographic analysis of acetylenic hydrocarbons. Zav.lab. 28 no.2tl46-148 162. Ualt:l 15:3) 1. Gosuderstvennyy rluchno-ioBledovateltakiy i proyektayy institut azotnoy promyohlonnosti i produktov orGanichookogo Ointezaa (Hydrocarbons) (Chromatographic analysis) db  TZODOROVICHI O.X., kand.tekhn.nauk; IEVCIEHKO, G.V., insh. Performance of contac,~Qrs made from netalloceramic preparations with a tungsten base in large electric cutouts. Elektrichestvo no.2:64-68 F 162. (MIRA 15:2) 1. Institut metal.1okeramiki i spetsep3ava All USSR, Kiyev. (Electric cutouts)