SCIENTIFIC ABSTRACT YAKIMENKO, L.B. - YAKIMENKO. YE.V.

 .8 (0) BOY/112-57-5-9748 Translation from. Referativnyy zhurnal. Elektrotekhnika, 1957, Nr 5, p 13 (USSR) AUTHOR: Yakimenko, L. B. TITLE- Behavior of Fiberglass Insulation at Very High Temperatures (Povedeniye steklovoloknistoy izolyatsii pri osobo vysokoy temperature) PERIODICAL: Sb. statey nauch.-stud. o-va Mosk. energ. in-ta, 1956, Nr 9, pp 148-151, ABSTRACT- Type PSD (glyptal -varnish treated) and type PSDK (silicon -varnish treated) electxic. conductors were held at 5000C for a long time. After 65 hour's at the above temperature, the,PSD conductor had an insulation resistance of 0'. 0058, while its initial insulation resistance had been 203 Mohm/km. A fafrly high e143jrptric -strength still remained under the above conditions. 500 v f9r PSD and 700 v for PSDK. With higher temperatures, an electric -type breakdown occurs (rather than thermal type) because glass permittivity increases rapidly with temperature while,air permittivity F_ remains equal to Card 1/2  SOV/M--57-5-9748 Behavior of Fiberglass Insulation at Very High Temperatures unity; hence, -the voltage. gradient in the air will be &,, times higher than that in the glass, and the breakdown will occur in the air layer. To ensure higher electric strength, fiberglass insulation is usually varnish-impregnated. 3000 However, at . -4000C, the varnish burns out and leaves air inclusions which reduce the electric strength of fiberglass-air composition. For this reason, impregnation -of conductors intended for operation at the above temperatures makes no sense; the use of such conductors is limited by a low mechanical strength of the fiberglass. In designing conductors for operating temperature up to 5000C, it is necessary to make allowance for wire- resistance increase both from the high temperature and from a rapid oxidation of copper. It is recommended that silver wire be substituted for the copper jne the pFincipal material wire. It is stated that precisely glass should bec~o for insulating conductors with particularfy high heat resistance. P. I. Z. Card 212   s/126/62/013/002/017/019 E039/EI35 AUTHORS- Vasyutinskiy, B.M.1 Kogan, V.S., Kartmazov, G.N., 41nd Yakimenko, L. F. TITLE: The*formation of tex ured layers of nitride on chromium obtained by condensation in vacuum from the vapour phase PERIODICAL:. Fizika metallov i metallovedeniye, v-13, no.2, 1962, TEXT; It is shown that the skin formed on the surface of chromium when heated in air or oxygen consista of two layevs: an external layer of,rhombic Cr203 and an internal layer of hexagonal Cr2N. This was discovered by means of X-ray diffraction measurements. The structure of the skin formed on chromium when -heated in air and in nitrogen up to 1300 OC was examined for two different samples:. onewas chromium cast and rolled in vacuum, and the other a' sample of chromium obtained by,condensation from the vapour phase. This condensation was carried out at a pressure of:lo-3-mm Hg on to a molybdenum plate over a period of Card 1/2  The formation of textured layers S/lz6/62/013/002/017/019 E039/EI35 10-15 hoursformingla layer 300-500 iL thick. This layer wais then annealed in air for 450 hours. The skin formed was studied by means of,X-ray diffraction using K.-Cr radiation to improve definition..., Maximum reflection from the (110) plane WaS obtained with the sample placed at 560 to the incident beam, indicating that the nitride is orientated with the (110) plane parallel to the surface. In the case of chromium cast and rolled in a vacuum at a temperature of 1100 OC no structure corresponding to the nitride layer was discovered; similarly, chromium cast and rolled in air and in nitrogen at a temperature of 900-1200 OC showed no structure. It is observed that the-structured layer of nitride on the chromium condensed from the vapour phase is much more firmly bonded to the outer oxide.layer than in the case of the structureless nitride.on cast chromium from which the oxide layer is easily separated. ASSOCIATION'O, Fiziko-tekhnicheskly.institut AN URrSSR (Phystcotechnidal Institufe, AS UkrSSR) SUBMITTED blay 22, 1961 Card'2/2'  AMaSSION IM: AP5,.) 6/0181/65/007/003/f--4352/0857 A.V510R.- Bulatov, A. S.; K'ogan, V. S.; YOdimenko, L. V. TopIC TAGS.* J*rdrogen, ai~-qn condensed layer, layez structure, low tempei'mturc -AMTRACT: Unlike earlier investigations of orientstion in layers obtaln4d by con- densation from. the vapor phase, which were devoted principally to metalli- conden- sates, the object of investigation In this work veie enrsta-'s --'Ith tcr~_-es, hplrc,~-n and :~Por '_`:P q-- V1,34 r.-j'-es v"- I i qu! d Along iF04~T!^ mIxt'l-S -f' -f ~ -( -C the form of a ber-jEAm plate of thiclmes3 0.4 wnich colild be set at. different angles -,a the pri-aswry beam of x-ra~rs used for the ftructural mmlysis- Tbe re- i., Cd.rd.2  ACCESSION HR: AF5)o689~ sults have shown the Dresence of texture in the Dorers. Protiumn has a texture with axes IL001) of the hexagonal lattice oriented eit-e-. perpendicilar to the sub- strate (Condensation -vdth substrate temperature - 1.8K) or pexaLlel to it (conden- sation at 4.2K). Leuterium has a te--ture -with [0011 axee -pe-z-pendicular to the Pot" C S nt () 1,4, ~,z sift)stratt in the cci,iax k:.. $4 f-c",irp wl,~h rj 1, 1of the, c-u~,!c lattice perpendicular to ~'5 00 1A 7 T Institnt A_N SSIR, Miarlkov (Requirotechnical Ins-tit I-zt e SLIP CODF- m rm: 1-o-!"i "C' SS, rD NR PXF WI: 00h OMER 1 000 Card 212  Q/WT IJP(c) JD/JG SOURCE CODE: UR/0126/66/021/006/0828/0832 -7W_THOR- K .. n. V. S. THOR: Kogan, V. S.: Lazarev. B. G.: Matsakova ~A- A~. Ovcharenko.-O. N. ,Yakimen~o L F 14* 16' ORG: Physicotechnical Institute,AN UkrSSR (Fiziko-'tekhnicheskiy institut AN UkrS TITLE: The width of the homogeneity region,of intermetallic phases in the Nb-Sn and, V-Ga systems SOURCE~~ Fizika metallov i m Ietallovedeniy'e, v6 21, n- o 6, 1966, 828-832 TOPIC TAGS: superconducting compound, niobium alloy,~binary,alloy, tin containing alloy, vanadium alloy', gallium containing alloyi, intermetallic compound, compound oil .homogeneity reg ion- e ABSTRACT:- Experiments have bs,~:de to determine the width of the homogeneity region of intermetallic ~phase 0 ed in the Nb-Sn.and V-G a systems, i.e., systems whose components have wfd-elydifferent melting tem .peratures. Nb 3Sn and V3Ga intermetallic,compounds were obtained.by,,diffusion of Nb3Sn by hblding an Nb specimen for several hours.in molten tin at.1000C, and V3Ga by'holding a vanadium specimen wetted with-gallium ina~lvacuum at'about 1200C." X-ray diffraction patterns of the diffusion layer on' adi6m sho g llium �nd the -van wed thatthe surface layer contacting a inner layer adjacent to vanadium had equal Ilattice parameters, 4.819 t 0.002 A. The temperature of* -,transition, to .,the superconductivity state of V,3Ga was found to be 7ard 1/2 UDC: --,548,._53  L 32037-66- ACC NRt AP6018939 .-.14.44K with a transition zone width of 0.2K. These data confirmed that the diffusior' -zone consisted only of V 3Ga compound of stoichiometric composition. Similar results were obtained for Nb3Sn compound. The layep adjacent to Sn and Nb had the same lattice parameters, equal to 5.288 ' 0.001 A, which showed that the homogeneity region of Nb3Sn compound is also very narrow. A wide homogeneity region. reported in .,some earlier works for the refractory metal-rich phases in alloys whose components have widely different melting temperatures is presumably a result of tested alloys being in nonequilibrium state owing to a low diffusion rate of these phases. Orig. ..art. has: 3 figures. IMS] ~SIUB CODE: ll/ SUBM DATE: 26Jul65/ ORIG REF.- 004/ OTR REF:~ 005/ ATD PRESS ICard 2/2 !a  i C6j: UR/0056/66/051/00 R AP6037060 ACCN _:Y akimenk0_1,,'_ B. G.', 1AUTHOR: Koganj V. 5-; Lazarev, hnichcokiy of Sciences UkrSSR (Fiziko-tek ORG: Physicotechnical institutep Academy institut Akademii nauk UkrSSR) -base superconducting lysis of the structure of niobium TITLE: X-raydiffraction. ana alloys 5 no. 5v 1966, SOURCE: Zhurnal eksperimentallnoy i teoretichesUoy fiziki, v. 1328-1331 TOPIC TAGS: niobium base alloy, zirconium containing alloy, titanium containing alloy, superconducting alloy9 alloy structure ABSTRAM. A series of niobium-zirconium-titanium alloys containing 5-50% zirconium ted. It was found that all the as-cast speci- and 10-20% titanium has been investiga hase. Annealing of.specimens .mens had the structure of a high-temperature cubic O-P ~q up to 107. zirconium at,temperatures up to 600C did not cause structural 1containing ndicated that the 6-phase was in equilibrium. Annealing of the alloys 'changes, which i f the R-phase. In nt~ining 20% zirconium at 550-600C caused a decomposition o ealing at co ntaining 30% zirconium the decomposition began at 450C, and ann 110 s c0 I Orig. art. has: la Y oduced an equilibrium structure consisting of-$- and a-phases. 5,60C pr ETD] 4 figures and I table. SUB CODE: ll/ SUBM DATE% 08JW66/ ORIG REF: 001/ OTH REF: 003/ ATD PRESS: 5109 Card  -rof.; MATOKIIINY Vladildr PavlOvichp Valentin josifo-vich., p vi SHVIDMO, . R~,JRNOv, AlekseY YUkh&Y30 cb dots.) kand. tekhn. nauk; FOKOV, Rostislav 1,7ano)richg kand* dots.. kand. tekhn.nauk) .erg - Fedorovichp dotookand.tekhn. tekhn: Ilauk) CMWYSM) 8 ey n1juk) mdo m1tistorf induatria! 14ontazh mnOgO- (Asserably of artkovp 17A-vo Kharikov- etazhnzrkh proVahlerMkh Idanii, Kh (MIRA 180) 6447 142 pe Okogo, univs# 19  4117~~-~i.ta~g~lt,~k",r.:,~iv7,F,F?r.":~Lj:71~~~-~llp~~'..I"-:4:1~~,!rq 1103IMP941, 1. .. ';-~7 gem. gem= SITENKO, AlekseY GrigOrlyevich; SHESTOpALOV, V.P. prof., red.; YAKIMIENKO,.L.I.., red. [Electromagnetic fluctuations in a plasma] ElektromagnitVe Kharikov, IZA-VO.Khartkovskogo univat fluktuatsii v PlazmO- (MIRA -18:5) 1965. 184 P-  97 009 0097 ODE: UR T 07448-67 '35M 11. Donet De tkin 1~1_ I Done~.4 yu. D*; Yakimanko L. / ~ 1. Safonavs e, V. I AUTHOR. Lub -A. M. none oRG: no. 187215 Class 30, cardiac activi~t-Yj- -Device for studying TITLE 20, 1966, 97 arnyye znaki, no- braztsY9 tOv, shlennyye o SOURCE: izobreteniya, promy trumen .tation TOPIC TAGS: h Iuman physiology, cardiovascular system, bioins for studying cardiac en issued for a device RACT: An Author Certificate has be piezoelectric sensor with con- A BST. is ting of an ultrasonic generator, a activity call' activity e for studying cardiac 7 8 Fig. 1. A devic FD791 sensor, generator; 2 piezoelectric Ultrasonic i tit- 4 - receiving unit; 3 - transmitting ur, I - aInnulargap; 6.- ultrasonic receiver; 5 7- filters; recorders. ~UDc- 615.47:612.171.1 Card 1/2    .'~t.-ACCESSION NR: AP4012535 S/0056/64/046/001/0148/0152 AUTHORS: Kogan,.,V. S.;-Bulatov,' A. S.; Yakimenko, ~L. F." ~~-_TITLE: Texture in layers of 'hydrogen isotopes condensed in a cooled~ 1~substrate i~ SOURCE: Zhurnai eksper.,-i.teoret. fiz.,9 v.,46, no. 1, 1964, 148-152z~ !-TOPIC TAGS: hydrogen isotopes, protium, deuterium, tritium, x ray structure, condensed hydrogen isot~?pe, lc~yer texture, protium crys- tal structure, deuterium crystal structure, tritium crystal, struc- ture, texture.effect A13STRACT: To ascertain whether the difference between the x-ray t_,-diffraction patterns of condensed deuterium and protium is due to ,...the presence-of.atexture, in contradiction to the earlier assump- -.tion by the authors (ZhETF v. 37, 678, 1939) that-the difference is .due-to differences in ext:inction rules,, the earlier experimental Card r  ACCESSION UR: 44012535 ;procedure was modified.. - X-ray photographs were taken with the hy- i :.drogen isotopes condensed in one qse-inside a beryllium tube and in the other on ~he surface of a copper rod. Comparison of the ,~,photographs showq thatthe latter qpecim4~ns have a texture which is. not the same forp~rotium layers.asxfor depterium. Preliminary. data 'were also obtained for tritium. A.'re-evaluation of the previous ~structure data.i~ Ught of the existence-of this texture leads to the conclusion that both isotopes, have a hexagonal structure with '~,somewhat-different axial ratios CA- ,For,protium,thd coppdr-radia- 0 0 ,tion lines Are (100), .(002)1, and (101) with, 6-. 6.6 -A and a 3.78 A Ic/a = 11.63). The corresponding lines,for deuterium are (100)~, (002)181. a nd 0 7(c/a - 1.67.). "The authors (101) with a 3.54 A. and c ~1.91 A .express.their gr4titude to Academician.AN UkrSSR B. G. Lazarev for adiscussion of I.;he results.", Orig-,,i art..,has: 3 figures. ~ASSOCIATION-.''Fi.iik6-tekhnicheskiy institut AN UkrSSR (Physicotech- knical Institute, -AN.-UkrSSR) Ca~d 2/,41-11 jj~ 7  0 ow o 0-0'6-6 0*9-0 0 0 a g, 0 0 0 wo; 0 4-W 9 w w w VA, 0 000000*000*00 'a -0-0 -0094 0 0 f P6 36 r Api, 'go A1 4 w AW ------------- - -- - 00 Do '-06 SO 001 go 00 00~ -00 40 04 -;00 constt"o 50", PF 400 (wails. oil0 kr go* CEO 0 goo !!00 tse: REVALLUROCAL LITINAIURE CLASUPICAY1011 U via.$ 83.1my --------- ~~4211310.ei 411131 " 041 ill ZA ftd a N R I N IN 2 a 4 3 a t" 16, ;'l KI~K Kan it at r 11 1 0 0 0 0 0 0 0 a 0 0 0 0 0 0 9 0 0 0 0 0 0 0 0 0 0 0 0 02 0 00 1,00 '401 00 o of *00 00 00000 0 00 41 * 0 0 0 00 0 o600 0 4 6 0 6 * 0 0   --V 0 -TI r UB~I/Physical Chemistry Fadjochemistry, Isotopes. B-7 Abs Jour: Refermt. Zhurnal Wmiya., NO 31 1958, 7097. Author A.I. Shatenshteyn, L.M. Yakimenko, V.R. F-linnab nk Ye-A. Yakovleva. T1.4.1e :P%Waration of Deuterium Oxideand Determination of Its Denzity. Orig Ptfb.: Zh. neorgan. kbizou., 1957, 2., Ito 5,985-994- Abst--.-.6 at: An installation for the preparation of D-:0 was constracted and deuterium oxide of a high degree isotope purity was pre- 0 pared. The density of D20 vas measured at 25, 30, 40 and 50 Card   AUTHORS: Yakimenko# L. M., Volkov,, G. I. _!SOY/64-- 58- 5-15/21 TITLE; News in the Production of Chlorine and Caustic Potash According to the Mercury Method (Novoye v proizvodstve khlora i kaustika po rtutnotitu metodu) PERIODICAL: Khimicheskaya promyshlennostig 1958, Nr 5, PP-315 32o (USSR) ABSTRACT: This paper is based on the data obtained from the Review of H.A.Sommers, Chem.Eng.Progr., 539 Nr 9, 409 (1957)- Its production of a purer and cheaper product is given as the reason for the preferred development of the mercury method as opposed to the diaphragm electrolysis. The authors give -types as well an a table of the electrio Indices of some tank a number of,figures which demonstrate the type of construction. Among the types mentioned in the tables the tanks according to Matiyeson~ Solivei Udea? the BASP and the De-Nora are da-, -scribed, Various individual.data a-' ell as advantages and -types-ar,--mentioned and explained~ It disadvantag~eq, of the.tank is found that- the most :ef f a ot i-ve increase of the amperage load of the tank ia obtained by an increase of the current density~ Card 1/2 In plantts with high output or low-Yoltage rectifiers it is  News in the Production* c.,,f Chlorine and Caustic Potash SOV/64-58-5-f5/21 According to the Mercury Ilethod useful to carry out the amperage load of the tank also at the expensa of an 4ncrease in dimensions. The vertical scrubber analyzers of amal.-am have no advanta~tres over the horizontal ones. T,,-e constriotions without passage are especially vorth mentioning. Arrangements with sciparate sh-antIng ovatchea at the tanks orove to be unn ecessary. The vertical. 4-anks will have a specilai advantage over the horizol'ital tanks until it becomes possible for the approach Qf the elecL- i -rodes according to the deEree of consumption f-f the anodes. There are 17 L figures and 4 tables. 'hl *ne-Pt.-c-duati-on 2. "potassium 3. 4. Card 2/2  50),5(2) AUTHORS: Martynov, Yu. M.., Ygk' M. SOV/64-58-7-9/18 Furman, A. A.9 Maiveyev, M. A. TITLE: The Technology.of.the Production and Use of.Magnesium Chlorate for Defoliation (Tekhnologiya proizvodetva i primoneniye khlorat-magniyevykh defoliantov) 'PE-RIODICALs Xhimicheakaya promyshlennost', 1958, Nr 7, Pp 420-423 (USSR) ABSTRACT: Mainly calcium cyanamide is used for artificial dofoliation, In the cotton districts of the USSR irregular results were, however, obtained as -the use of this substance depends on certain meteorological conditions. Among several preparations investigated the best resats were.obtained with magnesium chlorate. A comparative table of the experimental results with calcium cyanamide and mar,-nesium chlorate for defoliation of cotton plants demonstrates that the effect of magnesium chlorate depends to a much lesser degree on temperature and meteorological norditions. The production possibilities of magnesium chlorate were studiedg and it was found that favorable results are obtained,after the reaction 2 NaClO + MgCl ---)Mg(ClO +2NaCl 3 2 3)2 Card 1/2  The Technology of the Production and Use of SOV/64-58-7-9/18 M gfiesium Chlorate for Defoliation if carried out in acetone. The purity of the product obtained depends on the amount of water present in the bfgCl2. A further method that already can be used industrially consists in the faot that sodium chlorate is added.to the fused MgC12 * 6H20 (Ref 12); thus a solid crystalline product is obtained. The temperature is maintained at 110-1200 and special melting crucibles are used. To obtain a reaction product with a minimum melting-point of 450 the ratio between magnesium chloride and sodium chlorate must be 1.3 - 1-4 . To produce one ton with 58% Mg(C103)2 - 6H20 0-44 tons of sodium chlorate and 0-56 tons of MgCI 9 6H G are required. 2 2 There are 2 figures, 4 tables, and 12 references, 3 of which are Soviet. Card 21/2  i 04 9 . I w t4 f 0 ~w Z~- rg 2 liq I If I e 1 1 H fo i '11 ra6 Ir ORD off 18; leg a Erg I ; Erg p I t2 gg;.J. tr H L6W~~Y:jr Is JEFIRa j U R 'I S. is i0 sr- r. HN" Er. 7 'F4 ~v fit   .1 ~111~1: 1Z " --- , ., . - v;; , - 'n "I *~~ 6, :~!w~g,', - -- ;gg~ , ?a~~ -r "i, f+ ~i~pt~g . -~ - -~X;L -Wwjiqrr   3/844/62/000/000/069/129 D204/D307 iWTHORS: Yakimenko L. 1-1. Dzhagatspanyan, R V. Zetkin, V. I., '7n 3 ~A.L Maksimov, M. P 11o ~deceased) TITLE: Chlorine, exchange between hexachlorocyclohexane (1),and carbon tetrachloride, under the detion of radiation SOURCE: Trudy II Vsesoyuznogo soveshchaniya. po radiatsionnoy khi- inii. Ed. by L. ~i. Polak. Moscow, Izd-vo AN SSSR, 11)62, 398-402 TEXT: The behavior was studied,of purified(X- 8-1 ~--, and ~-iso- 36 mdrs of I, with CCl 4 labelled With Cl under the action ofrir- radiation at 120 r/sec over I - 15 hours, at -30 OC. The mixtures consisted of 250 mg of 1, 8 ml of OC1 , and 1 ml of labelled C01., 4 and the chlorine exchange was assessed by the change in 'lie acfi- u vi-ty of I (dissolved in 2.5 ml of benzene). No transfer of c136 took place in the absence of irradiation. The activity of a-I and rose to a constant value of,,\-l% (arbitrary units) after 5 6 Card 112  S/844/62/000/000/06q/`j! 2,4 Chlo ine oxchang r between ;... D204/D307 hours, whilst that of picreased to a constarit -0.6P after 8 10.hours. The activity* of 6-1 was L).51,:'; after 6.hours. "'A compi-Ira- tively low do~;e3 of irradiation the processes involved are chiefly the chlorination of I and Cl-exchange, whilst further irradintion allows a '5rd reaction, loas of HCI by I (to form pentachlorocyclo- hexene), to proceed. The rise of the activity of I might be aser bed to a dynamic cquilibriqm between these processes, but is more probably dUe to: 1 ) radiolysis of CC1 to CC1 and Cl, -Vormation 4 3 :L A- of 0 Wid C1 and recombination to CCI (2) RC1 + CI - HCI 2Q16 ox 4 + ~'Cl' It-Cl + U1 R'Cl, H'Cl + Ccl ---~ R"Cl, RICI + CGl RC! 3 + Cci 3; ( j) RCL + Cl RIE (eXchange reaction); (4 ) Rcl'--;~ LICI + RII'Cl (dehydrohalogenation.). Reaction (4) and chlorimation re- action (.") lare in u-s,rcerient with the observed consider~ibje evolu- LI .tion of HCI. 'There are 2 figures and 1 tabie. ASSOCIATION: NIII Goo,ra),miteta, ltjoVeta ~JijjiatroV S3SR I)o 111-;;:1-i fol, Chet-nistry of the 6tate Committee, COUncil of !'I j. - nioters oi' the USSR) Card 2/2      ."ACC OR% AT6022484 SOURCE CODE., UR/0000/65/000/000/0338/0341 AUTHOR: Zaretski-v, S. A.; Suchkov. V. N.; aasse~-M-chukas, V. B.; Kisel'gofp Yue So; Yakimenko, L. M.;Alabyshev, A. F. none TITLE: On the preparation of chlorine, caustic sodas, and alkali metals by electrolysis of fused media with aliquid lead cathode SOURCE: Vsesoyuznoye soveshchaniya po fizicheskoy khimii rasplavlennykh soley. 2d, Kiev, 1963- FizichesRaya khiTalya rasplavlennykh soley (Physical chemistry of fused salts); trudy soveshchaniya. Moscow, Izd-vo Metallurgiyap 1965, 338-341 TOPIC TAGS: electrolysis, alkali metal) lead, liquid metal, chlorinep sodium hydroxide ABSTRAM, In.recent years, a new method of producing alkali metals has been in use in the Soviet Union: the metals are distilled out of a lead-alkali alloy prepared by ele trolysis on a liquid lead cathode. 111owovor, theprocoss is oharacterized by azocur-,~ ring decrease of.current efficiencies, particularly at high cath die current densities.- 1he article reviews studies made for the purpos,, f improving t method. It is shown that the, electrolysis of alkali metal chloridesPIT molten saltscsth a circulating Ii--, quid lead cathode and distillation of t e metal has many adv ages over the electrol- ysis of aqueous solutionsp namely. (a) ur-. a sodium metal can be obtained at high c rent efficiencies, and pure caustic soda s *hus produced without the necessity of us~ ing expensive mercury; (b) it is,no longer necessary to build evaporation units and  ACC R' ACC NR, AT60224,84 _ ts f 'units for melting caustic soda; (c) the process is carried out at current densit es t tt ar that are 30-35 times higher than in diaphragm electrolysis, and 6 1 1 -7 times higher than inme rc in mercury electrolysis. Orig. art. has: 5 figures. F SUB CODE: 07/ SihM DATE: 23Aug65/ ORIG REF; 007 Card  ------------- YA-FIRENKC11 L.M.; SMITSYN, V.I.; UYASKE-1, -B-T lu.11,001"lorLmitlion of kerosine find synt,~irit!, 14.1 nj,4:7-11 Av 165. ?.S:8)  ACC NRs AP6029717 SOURCE CODE: UR/0089/66/020/001/0084/0085 AUTHOR-. Yakimenko, L. M.: Kuznets, E. D.; Tsionskiy, V. M. ORG: ndn-e- -TITLE: Tritium'Lgontent in atmospheric-fall-out ver Moscow during 1962-1963 :,SOU[RCE:-Tt-omnaya energiya, v. 200 no.'I, 1966t 84-85 TOPIC TAGSs tritiump radioactive falloutj flaoion product,'atmosphoric precipitation radioactivity measurement ABSTRACT., Natural tritium is oxidized and usually found on the ground as the :radioactive component of rainwatq, amounting to several T units kl T unit is defined as 1 tritium atom per 10' hydrogen atoms). As the result of the ..atmospheric thermonuclear tests, the T level increased by 2 orders of magnitude and at times it reached 7, veral thousands of T units. The factors that affect the T level of rainwate~linclude the distance of the point from the site of the explosion, the distance from largeoceanic masses, geographic location, and meteoro- logical conditions. Fission products may reside long periods in the upper layers of the atmosphere. The T level of precipitations collected in Moscow was systematically determined, staring in December 1961. The samples were first enriched by a three- stage alectrolytic process, the deuterium content determined by the drop method, and the tritium determined by its activity in hydrogen, obtained by decomposing the water in vacuum over Mg amalgam. The reporducibility of the method was ascertained by analyzing the same tap water samples repeatedly. The error of the measurements was -+lC% and its sensitivity was 20 t 10 T units. The tritium content of collected snow and rainwater samples increased from 523 in December 1961 to 5890 in July 3 S%s be ween 618 and 1125 T units in December 1963. Orig. art. 96 e2.9hini, vaY Card 9Y9 WaY65 OTH 006 UDG: 55 1.577.7 1 Age  ACC NRt AP6015121 SOURGE cobN: EVb6&1.1&160016O51Qa61boi JIMA110i'l: Dzhaa~t 1. G Sinitain, V. 11~lipj y, "L Glo-&;v~,_,L. I.; Zotkinj_V. I. ORG: none TI TLERadiation chlorination of kerosano SOURCE:' Khimichoskaya.promyshlonnostt, no- 51 1966, 18-20 TOPIC TAGS: kcrosene,.91ona radiation, chlorination, photochemistry, ABSTIVWT: Groznyy kerosene, from which.tho Iaromatic and unnaturated compounds wore ~A~11 I eliminated by extrAction with liquid SO wa3 used during chlorination initiated by adiation of Coo'j made in the appara?US described by the author"s previously (!Qiiia. ~ promo no* 4, 247, 1965). After purification the kerosene had a molecular weight of 177. Chlorine was passed at the ratue of 0.469 g/min in tho reactor set into a thermo- 0 stat with a controllod'given temperature. The radiation source was introduced after 15 minutes. The chlorination products were pur-Jified from Cl and IiCl by passing a flow 2 of nitrogen. The densities and refractive indexes were measured and the degree of chlorinatiofi was determined from the graphs, plotted experimentally.. showing the do- pendence of density d~8 and the refractory indoxes n20 of the chlorinated products on their chlorine content. Kinetic curves (content of chlorine vs time in min) wore Cori 1/2 UDC: 665.634-4 66.o94.4o3-O85.3 J  ACC NR; AP6015121 G plotted at various temperatures of chlorination (T '10, 40, and 60C) and at various ddsed of radiation (P = 26.1, 7.31 1.8, and 0.81 rad/sec). The dependence of the radiation-chemical efficiency coefficient G (number of atoms bound with carbon per 100 equivalent)on the radiation dose P was plotted from kinetic curves. The expression Ll*+.5.7r% well deccribes the results 6btained. (Dis- GI= 1,22 - I We- ( T.jr2 I C11 ) P-0,47 dgreement of experijaental and calculated values averaged 4 10.8'.) This equation car.-be used for designing a reactor for a temperature range of 0-1000, a radiation dose of 1-50 rad/sec, and a chlorine content of 5-6o%. The apparentenergy of activation was detomined as 3200 cal/molo. The results of radiation chlorination were compared with those of photochemical chlorination and chlorination initiated by azo-bis-isobiftyronitryl. It was shown that the same degree of chlorination was achieved more rapidly during radiation chlorination. At~ T = 20C and P = 26 rad/sec, the product containing Cl> 60% was obtained in 90 minutes during radiation chlorination. It took 23 and 21 hours to obtain the same product by photo- cheamical chlorination and chlorination initiated by azo-bis-isobutyronitryl, respect- ivoly. Radiation chlorination also ha3 other advantages: it depends little on temper- aturo and is controlled by the radiation dose (easily controllable rate of chlorin- ation), the rate of the radiation process does not depend on.the color of the react- ing mixture, and there is a much smaller danger of resinification because of an absence of local overheatinge Orig. art* has; 3 fig,P 4 formulas,, and 1 table. SUB CO DE ~07/ SUBMDATE& nono/ ORIG REF1 001/ OTH RWj 001 Cord ?/2  BELYA)EV, V.P.; KALINACHEI-IM, V.R.; YUZ~IIIIN, N.M.; -YAKDJUKO, L.14,,_ ARIP! -il,"l-1,11 I SFBvkljll, I.G.; SHKLOVER, L.T, Z.~''IIEIIYDIA, M.A.; 'T, V.S TRAPITSYTI, N.F.; USTINOVA, V.I,: ISIJDIIIIA~ G.F.; EIRELSh a HULAIO', Exchange of Lmporience. Zav.labo 28 no.6:685-687 162. (KIRA 15 5) 1. Khimil-cheskily zavod imoni Voykova (for Shklover). 2. Urallskiy nauchno-issledo*vateliskiy institut cherny-kh metallov (for Buravlev, Perepelkina2 Ustinow., NeuYmina). 3. Kirgizskiy gosudarstvannyy-universitet (for Engellsht. Trapitsyn, Bulanov). (Spectrum analy-sisi  BARILENKO, L.M.[translatorl; FRIDMAN, V.Ya.[translator],- TSYPKIN, Ya.Z., doktor tekhn. nauk, red.; MIKHAIEVSKIY, B.N.p kando ekons nauk,, red.; YAKDOIKO, L.P.,, red.; PRIDARTSEVA, S.V,, tekhno red* [control processes in the models of economic systems] Protsessy regulirovaniia v modeliakh ekonomicheskikh sistem; sbornik sta- tel. Mosk7a. Izd-vo inostr. lit-ry, 1961. 292 p. (MIRA 15:3) Translated articles. (Eqo,nomics, Mathematical) (Economics-Electromechanical analogies) (Economico-Electronic data processing)  G-2 USSR/Electricity - DiolLctrics Abs Jour Rof Zhur Fizilcal No 5, 1,057, No OSQ112 Author Yak-imenko, L.V, Title Behavior of Fiberglass Insulation at Very M& Temperatures. Orig Pub Sv. statey nauch.-stud, O-va Mosk. onerg. in-ta~ 1956, vyp. 9, 148-151 Ab6iiixZ:t--. The high dielectric strength. of fiber lass has boon estab lished in the temperature range from tOO to 5000. Re- COL-Tiondations Pro made concerning the use of fiberglass in the menufacture of Wires with very high heat endurance. Card 1  YAKINFENKO, L.V., Cand Med Sci (diss) lization A I ~.1 up~ Vill of,,,permanent electric current for the creation of the advantageous accujulation of artific6lly radioactive isotopes in tumors." Len 1958, 12 pp (Central Sci lies of X-ray Radiology Inst of fdn.of Health U55R) 150 Copies (KL, 28-58, 112) 115-   YAKIMENKOP L.V. Use of direct electric current to achieve the accinmil tion of artificially radioactive isotopes mainly in tumors. Uch zap. KRROI 7:128-136161. , (IURA 16:8) (CANCER RESEARCH) (ELECTROPHORESIS) (RADJOISOTOFES-THERAPEUTIC USE)~  S110146210bO100010041008 BI 3 100 AUTHORS:, Gagin, Ye. N., Xaminir,:L. B., Molobanov, S. 3 Orlovskiy, 0. It., Picarey, V. -C. Pyahkin, 2. 1., A. Fedotov, [TITLE. System for.eleot1ron injection into the chamber of the 680 May synchrotron SOURCE: Uskoritell elektronov na 680 ldei;- abornik atatey. Ed. by 62- 41-49 Z. D. indroyenko. Moooowl Goaatomixdet, 19 "TEXT: The method is the same as in the Dubna 10 Bev proton synchrotron. dfield of the. ~Farticles of constant energy are injected Into the magnati Iinjoatib in first quadrant almost at right angles to the magnet radius stopped on reaching the. equilibrium orbit of the chamber center and the i.aacelerating field In switched on'diroot injection Is Impo Bibl; M td the esign of the.acdolerator magnet and the high-voltage njector njd (i eotio~.inergy 0.6 Nei).' Tho,olootron beam from the Van de Graaff firsi difle~ted by 'a magnetic 600 sootorliold and'thel generatorlis D ~6f of injeotad'ij~thrie pairs ~d leation plates for a total deflection' f 7 Cardj -112 a  K S/908J62/000/000/004/008 ~Syotem for electron injection ... B163/BIPQ 300 into the synchrotron chamber. Bet-aeon the Van de Oraaff exit and t - 0, the magnetic deflector there is a magnetic corrector consisting;of two a,ra I of magnetio.polopiecea to correct the eccentricity of the! p accelerated beam' vith respect to the geometrical axis. Dir eatlyi, behind the magnetic deflector Is a 1.5 kv electric deflector which can be used to select short pulses of 1 p sec. When switched off, the beam 'passes through a horizontal alit. diaphragm. The alignment can be checked on two fluorescent screens. A double electrostatic corrector and two a ,apacitore adjust the position and angle of the boum in the deflectors of the injector, which are in ane of the straicht sections of the accel4rator. Each-plate can be separately adjusted by translation and rotation from outaide.without doetroyingAhe vaouum.i The radius of curvature 6f the orbit in this deflection eystela is 60 o"m. The voltage across ea4hl pair of platev can be contrplled separatelyj A rough esti at e obowe Lt an instabilityiof 2 -10-2 ra4 in the radial and'.5 -3 '10 red., I. th"Til, component of the izijoction~angle produ6e an intensity lose~of'204_ me Instabilities of the'suppi~ sources are of the order of 0.01 to 1.06%. Circuit-diagr me are giventor tbo-d.c. amplifier -and the.reatif the reforence,voltage. Thor@ cre, 5 figures and 1 table. J*r for. Card 2/2 ..... .. A  Yfi~'/'(/ M-1~~V.Ko /V? 08 8/908/62/000/000/005/0 B163/B180 AUTHORS: Kaminir, L# B., Molchanov, S. S., Orlovakly, G. N., shkin, B. X. Fedotov, A. P., Y !PY akimonko, 4. X. TITLE: Radioteohnical system of the 680 Hev accelerator SOURGE., Uskoritell elektronov na 600 Novi abornik statey. Ed. by Z. D. Andreyenko. Moscow, Gosatomlzdat, 1962- 50-57 TEXT: In 1he first acceleration stage, when the electron velocity is Still low, a broid-bandlaccolerating -Jevioe is used consisting of a 55 cm drift tube and alsecti o of coaxial line, whose input conductance compensates the cap'scitance of the tube. The equivalent oscillatory circuit has a wave resistance of 65ohm- -The circuit is shunted by a resistance to broaden the tranamission band. The acceleration per orbit in 250 v, the UP power 2jkw; in the first 10 maeothe frequency increases from 1, 19.2 -'20-4 Maps- In the second stags, acceleration occurs with a con-: stant frequency of 20-4,MOPN, using a toroidal resonator rith a Q-faotor of 2000, and wave resistance 6 ohm. Acceleration per orbit isiI5 kvv am HY power'dissipation 201kv.- The radiation lose in the final stage in Pard. A JJ   L h9b2-66 EW(d)/FBDASS-2A4(l)/kW(k)-2/~WA(d)/r-,' GW/WS-2/WR, ACC MM AP3CQ5696 SOI[ki COLES..tR/0286/65/000/01$/GW/0%4 AUTHORSt Brodovskiv. V. IN.; VvedereMy, V A, Ygrtipip, t&R~~Gvt L L; S9mqnov-'.-Tu. N jalLime k H. ORGs none 03 TITLEt A device for controlling a radio telescope in azimuthal mounting. Class of the state Committeq for Defense Engi, 21, 174669 ~Cannounced by iLr&aA~z naering S&M ( 9pganizatsiya gosudaroiWii~To~o koilti 7tA po oboronnoy teiGiia SOURCEa Byullaten' isobroteniy i tovnr~y)A xmkov, no. 18, 1963, t 9 MPIC TAGSs. azimuth, "~'Melsacoplc equipment, tracking telescope, jnjLd imso tracking syst4a, tracking, tracking- coMater ABSTRACT3 ThlAuthor Certificate pre3onts *.device for controlling a radio telescope Iii an azimuthal mounting. The device contains an input unit for the reference data in the equitorial coordinate eysten and electric following drives. for ttwning the-radio telescope in azi-th and elevation angles. The reliability and precision of tracking are increased., The utit coutains a digital computer# q iThe output of the elevation angle and azimuth anFalar mismatch a" connected via ard-L/2- UDOo 621-M.53022661  -L 49h2-66 ACC NRI APW25696 memory registors and groups of amplifiers to the input of code-to-voltage con- verters. The second input of those converters, via a second group of uMlifiers and orrodponding memory registers, in connected to the outputs of the azimuth and levation angle data apoodo of the digital computer. The third input. of the 'coav rtero is connected to tachogonerat~Drs. These tachogeneratore are mechanics conn oted to the azimuth and elevation angle ~xes-of the radio telescope. 'To broa an the operating range of the azimuth angle pickup whon the radio telescope pass a from the clearly defined range, the 4y4tput of an asinut1h code correction solo is connected to the digital computere' This avinuth code correction selayn is mechanically commooted to the azimuth axis and is vounUd an the turning, cirolp, increasing,the operating range of tho radio - toelesoope, SUB GOWt'WpI,GP1" SWX D=t 2 5j" -7    1AAMMMU, Be, radlat 017MBkava ODIaOt - 1. Carrybig out the decisions of general meetings. Soy. profsoiuzzyy no 3:7, -73 Mr 158. (KIW. 110 1. Prodesdatel komiteta prof soMa Arishintsevskogo rybozavoda. (Crimea--Trade unions)  BOGOLYLTOV) B. P., prof.; YUMATOV, B. F., doteent; KHODINOV, A. S., gornrf inzhener; GRIGORYABTS, E. A., inzh.; KORGWI, I. K., inzho; KURKOV, P. A., inzh.; YAKIWIKO 11 D Determination of the thickneaB of roofs in open-cut mining of areas where there are old underground.,workingso Goro zhuro no.11:21-23 N 162. (MIRA 15-10) 1. Moskovekiy institut stall i splavov (for_Bogolyubov,, Yumatov., Khodinov). 2. Norillskiy gorno-metallurgichoskiy kombinat (for Grigoryanta, Korgun, Kurkovj Yakinenko). (Nikopoll region-Mining engineering)   5 AP6(M868. ACG~:HR 2 anne 8 re Fig', 1 1 oting oh 42 ton 3 Fit follower on chaidber pi :pi Ff. e q 6. and -7 pneim, ic iLnd vers A A i r~ levers 8 vertical.-- conneotion 0 moird~ie waii. A~t f igure i orig.~ jirf,*~ has. SUB CODE i 1 gNo*64'; Oar d 2/2   LO, I.A..kandidat ekonomichnikh nauk, vidpovidallniy redaktor: YLKIMENKO, H.K.,redaktor-,' ZHUKOVSIKIY, A.D.,tekhredaktor [Irrigation system of the upper Ingulets River; organization and economy of water use] Verkhnloinhulatalka zroshuvallna systema; organizataiia i ekonomika vodokorystuvannia. Kyiv, 1956. .101 P. (14LRA 10: 5)  WO-0 *--o-oo-O 0 A 6-0-0 0 0 0-4-0--o- 0-0-0--s-o X- ?I a it -v a 11 -is- u -16 0 -45 a a aa4-40 it 11 0 0. K "-AL -t-A --L-, fl- 14t, fit &No 149 10 ---- lip 00 r :,so sell ..Go can" "'k-& K M- rft~ -00 A m im 0( dw -00 4f WVA mw OMW Im.r. so JIV: 41111110i"d for the am 0( an &MOWN mm r" do vw antmi 0( a ww, ON" 1 ~~ al) is tw Ipw Ot roiww. 1.000 5611141111Y f" dw cOntrof OfatidUtIm o(a pmmtor. Sol, CUFFAK Of a VOLAW proponjorW 004 toitk*A&AMquandw. mooparmimWeQuakm am *WIaWd mad *xmW; WWW ONWdm 2see UkaftW bjr a nu--W O_uWk for &MpU_ *MO(4kWrKW4. IL H. *0 use .-so Igoe 0 AV 10 0 4c K a x a 1114 11 4 3 1 o IPT411 0:00   SOVAT59-1-15/23 ' N N t R . en . era y&, *' V.S., Alforova. I.S., rOn*y&l'Dv, V, laroboc1akin 1. rgach, A.Ts. and s i . . Taximacitc, r Seamless Tubes from High- o OLzrodetva i I YA Pr Q6 alloy Stools Alloyed with Boron (Tokbm0 b9s&hOVnykh trob is v"okolegirov- kh otaley a boron) PWO=CALt -Stal'. 1959. Or 1. PP 68 - 73 (USSR) ABSTRACEI ItCforts me" in 1956 to produce seamless tubes from Uth-, 0 gave and 3177 alloy stools coutiining boron 11769 some c =~:Mtmve results but in 1957 after houses In the technology ox amelt._" the metal, satisfactory -results ' bstantial changes 4 zu were Obtain d although there war* t. la the chemical compositlon of the metal (%, numerator dato. for 1957, denominator - for 1956)s C Si NA Cr Ni W Ti 3 0.08 a 2.6 1~-2 15-7 0-81 0,009 9- -am VM W 9 1 . " : a- Xrn0(M0LFNM)0.08 0_51 1.58 13_2 D.2 2_34 0,81 O_QO25 0.08 0.56 1-90 14.2 19.4 2.10 0.69 0.0026 7 7. SOV/133-59-1-15/23 The T9c1bMOIO97 Of PToductio,2 of Seamless Tubes from High-allo: Stools Allayed with Boron Ths -MID Characteristics of the technology of am*lti, tal in 1956 and 1957 differed as followst a) in 1156, as a malting was 4arzied out in a 2o-ton art lurneas from a m antainlag 40-479 Of stainless scrap (the razaining- a and fresh forroalloys); 027gon,was used duri r L . and oxidLaing period (500 - 700 m par heat)l . MMA MW%&I were deoxidised before the addition of forro- chromium and with the addition Of ferrotit-lum onto the metal froad from slAg 15-20 min before tapping; b) , In 1957 smelting was carried out In n 4.5-tou are furnace from AL fresh Charge containing from 55 to 78% armco Iran &ad corresponding fax-roalloys without utilisarion of scrap and oxygen; ret'n'" under a w4ito OI&S -.ith Cho addition or forrotitezium attar the recaval of slag B-10 =:in before tapping. I= both cases the Octal was cast in 500-iCg ingots., The quality of tube billets 85 = in diameter in 1957 was hisher than in 19%. The aicrostructure of metal in both cimes consisted of austenito with fine Intermatallic 1=1usionn, stretched in the form of lines along the direction at rolling. Piercing ability at the stool a Card2/5 tested an comica.1 specimens (Bar 3). The determizat plasticity &ad structure of stee;s Was carried out within A temperature razz6o 950 - 1 300 C. Both stools were to~Jftd to possess a comparatively hlg~ plasticity in the temperature range 995 - I M C (Figures I and 2), highsr than for stool 1rh1AU9T. However, the plasticity of the ]Attar Stool IMCMA404 with increasing te=porsture while for U769 and 770 it sharply decreases, In hot torsion tests kFiguras 3 and 4) the differences in rho plaaziai%y 09 the OZP$rizezt&l Bttelb was more pronounced. TLe resistance to deforzation of both stools is disil- (Figure 4) but at all tozzperatur e iml higher than for IUIS149T steel. g , Iz hot torsion toots 10 54 Of Plasticity Of the experi-' "UtAl stools was .206: pronounced than in piercing tests. . Zm thaafLrat case, 10 of plasticity was observed at 1 300 C And 14 the second c s t 1 250 OC o a e a . n the basis of the above inv4atiguticn the folloving piercing practice for the Industrial conditions was pgoposed. Cho temperature of billets before t84 mill 960-960 C, piercirg tompors. turS 1 100 1 1200 Ot in &4ditiOU PifrCIZ9 at 1 140 i500 Card3/5 104 1 ISO 1 200 C was tested. Hot rolling of tubes  SOV/133 r" Ifeah'nology :Z production Of r)*anj#j%x Tubes from Righ-alloy Steels Alloyed ith Boron under industrial conditions Is described In 80=0 detal. I 2b4 results, obtained are gly*zL In Table 1. The ing' ction of tubas. after pickling Indicated that for steel 31~16190the ' 100 - 1 120 C) proposed tiorcing practice (temperature 1 -s ale rolling of tubes A l c arge gave the set results. from this Steel yielded 90% cT good-quality produits. Rolling at tub from steel Z1770 was tried at four different teap:rture ranges (temperature beforeopiercing: d 1 040-1 050 1 040 1 000 1 020 - an 920-9801.9W- 1 Table 2). Optimum rosti;ts were obtained st a tei r.'.rg lub*a wag before plarcUg of 950 C. 95% of good-quality obtained. Moch-1cal propertias of bot-11ollod tubes before and after 1-daning are givem. in 3able 3., Hardening of tubes was carried out Iron I U)O C. The depand*n e of the o mets., COUsAmption, of energy, power and beating-up of the during. pierming,on, the temperature of the metal b o!o :f , t lierolng La shown in Irigure 6. Z%; in conclude at. boron-contal W - steelm, of austenitic class 31769 and 31770 possess a lowered temperature at the beginat, of incipient jultLrAg of grain boundaries; their optimum Carde/5 plasticity is shl-t-ed- towards lower temperatures; they "Is b1zh'"xistance to detormation and boat up asivol,* carxzg =:;- ==12tat- t. d.ro~ MN nation of these steel$ is higher them of MChlSN9T steel b k i b l T la s& e& the r piercing more difficu t, particularly that with inareasimg temperature their Plasticity decrease& (unlike =28M steel). The developed methods Of rolling those'Wtowls, give-quality bot-rolled. tubes from 31? a'? steel without repairs and fro& 31770 steel with rep r3 which are usually permitted for high-alloy tubes providing the metal is produced from f -*sb charges by the lz;rov d - (1957) technology. The results of measurements a r f pow: consumption. and heatilup can be uti2ised for an approx_ isate evaluation 09 t a parameters during piercing Of Other isustonitic steels. There are 6 figures, 3 tables and 6 Soviet references. Card5/5 N  I .1  AMOVA Ye.F.; RUDDY V.S. FMCHENKO L 2 p .9 N.; NESTEROVA, II.N.; Prinimali uchastiye: VASIIMFKO, S.I.; WEV, I.I.; VILIYANS., O.S.,; IAGUTIIU y R.V.; FIGACH., A.Ya.,-: KITA.101FID., V.Pi; KWALIDZE, 11.5,; YAK334ENKO 11 B. SAYMENKO V. 'it). Effect of the method of.manufaa,.uring EIEV+7 steel on the Quality of tubes. Stall 21 no.12ill33-LIU D 161. WIRA 14:221 1. Mcrains~iy nauchno-is'sledov-atellskiy trubnyy institut (for Akimova, Rudoy., Shevchenko,,Nesterova). 2. Nikopollskiy yuzhnotrubnyy zavod (for Vasilenko, Zuyev, Villyams, lagutina, Dergachg Kitanenko, Kirva'JJdze,,-Yaiim6nko,, Samoylenko). (Steel.-S-tainless-.Electrometallurgy) (Pipe mills-Quality control)      BARANOT) AG.F., kand.zed.nauk; IIAROCHKINA, I.A., vrach; KONOPIKHINA, T.A.y 'KO, 0 vrach,; KOLOKOIDVA, N.V.,, kand.med.nauk;_19,.U.V_x V., kand. med.nauk; PANOVJ~, L.Ms., kandsmed.naWk. Treatment of onychomycosas with kautolytic and fungicidal plastem Vest.derm.i Yens no.l-.65-67 '64 (MIRA 15:1) 1. Mikologicbkoye otdelecaiye Moskovskoy gorodskoy bollnitsy No.23 imeni Medsantrud,(Cor Marocbkina,-Kononikhina).'2. Poli- klinika No.1 Ministerotvi adravookhranoniya RUSH (for Kolokolova), 3. T.Santrallnaya polikl:Laika No.1 Ministerstva oborony S9.9R (for Yakimenko). 4. TSentrallna7a poliklinika No.1 Ministerstva zdravookhraneniya FZSFSR (for Panova). (DERKATOMYCOSIS) (NAILS . (ANATOMY) -DISEASES) (:PLASTERS (PHARMACY))     YAKIM19M, T 7 mportance of exotoxin and. allorgen of the hemolvtic streptococcus in the.pathogenesis.of-searlet fever [with summarY in Anglishl- Pediatriia 36 noolo.32-38-0 '513 (MIRA 11:11), 1. Iz kafedry infekteioWkh.])olezney detBkogo vozrasta (zav -dotsent M.G. Stepina).i kAfecb.-y mikrobiologii (zav. - prof. ;.me Minervin) Odesakogo meditainskogo instituta, imeni R.I. Pirogova (dire zaslyzhenyv_deyatel'. nauki prof. I*Ya. D~7neka)e (SCARIM FEVER, etiol. & pathogen* hemolytic atreptococcus exotoxin & allergen (RUB)) e-P 2 -ytes.was Investigate In III children with:' h ocyt. activity o blood 17 d eucoc scarlet ever. 'Chang-es in phagocytic ictivity Indicated a definite.ro'leof the exo-, toxin In the pathogenesis of the earls ;eridd of scarlet fever.- whereas the sig- nificance ofthe allergen which istheaermostabile fraction of the toxin was es- tabliished in the 2nd period of the disease., The phagocytic Index (to Dick 11 strepto- coccus) and the Dick reaction Indicated that the antitoxic Immunity was less in. children treated with penicillin than in the non-treateJ. I ~ _Anjgs!,O~_- lve~ston. I   YAKIMENKO. T.M. [IAkymanko, T.M.); KOBZEVA, M.G. [Kobzieva, M.H.) Combined hemolytic action of Proteus hemotoxins, and some representatives of the microflors. of the intestines. Mikrobiol. zhur. 27 no.5:63-67 165. (MIRA 18:10) 1. Ceesskiy meditsinskiy institut im. Pirogova.  t) I, T -JEWRICU t 39M,66 C -L __Lz -0/002/001, AETCRN AP6018101. SOURCE CODEi W036j/ AUTHOR: Sharnin,,A- A Balandina, L. I.; Yakimenko T. R. ORG: Ural-Sgien ~ildy nauchno-lssledcrratelt- c Resegrch n1 Tng!,= '6T skiy khimicheskiy insititut) TITLE: Corrosion-of certain metaI4 and alloys in molten almaimim ublfate SOURCE; -4-m- Mcca me=0%;"' V.7j-no. 1, 1966, im_uo TOPIC TAGS: aluxa!Lnum compound, alloy, corrosicn, aluminum, copper, lead, Iron, ti- tanium, steel, bronze, co.Vrosion resistant niett'll, corrosion resistanco/AD aluirdnwrn, MI copper,,AZhg-4 bronz6.1"OF6.6o.15 bronze, S-1c. lead. VT-1 tit~tnlum, IKhlBNgT steel, ;-El-~448 steel, E1_0_2steel, El-943 steel 1-7 -,;7 ABSTRACT: To find a corrosion-resisting material for making crystallizers which are rely.corrodect in productioni tests were conducted to determine the rate of cor- seve osion of various matal� and alloys in molten aluminum sulfate. Plate specimens were tpflon suprorts. Jhe tef3ted i washed Trith a soda 1-polution and- alcohol and susponded,q ~; cad, -ay materials were AD _4 ~Ad or6.6-o.15 Y 5-1 Ki luminum MI opper, bronzes AZhq .a _a:Lc iron, Vr-1 ti-~anium, and steels M18119T nd I the rost re- 1-41 P ~' ~K701_ Fs ar~t of t�" tested materials, steel, Mi_9tj _a~o;j copperAR41 were te, wn-d to determine sist J" -corrosion resistance of weld joints. Specimens 6f steel El-943 were welded with el- ectrodes from the same grade of steel (nominal composition of welding rod in 14: _~~-29, Cu 2 06 .5-3.5, Ma o.6 si..L-to.6, S _e- 0.2j.,L;~j 0 03)Gr and, Ti Ca key. 4 1 Welding copper specimens was done -with copper electrodes. Sur- n wl th the base metal. lbe corrosion sistanc.) faces of'the,weld joints were ground eve re of weld joints of steel EI-94-1 is approximately the same as the base m,)ttl. For Opp they.corrodeat a significantly higher rate than the base metal. Weld joints of copper and steel BI-943, heat-affected zones and all remaining.surfaces of the specimens wera~2. Card 112 UDCs 620.1--  IL 39854-66 '--~ACC.N.Rs Ap6018103. r, wld 0 ts J,h J in corroded.Irdformly. According to.the corrosion scale of weld JoLnts, of steel El-943 are in the category of the sufficiently resistant, Vallo joints-of J-J F Copper are in the category of relatively resistant. Orig. art. haLs., 2 tables --R-s7    I E0, 11-D- KEZIENKOWA, M.A.; YiiKIMEL High-teirperaturn dilatome*lor for ne-psuring the shrinkaar, during 8intaring. Porosh. met. 5 no.9i76-90 S 165. (MIRA 18:9) U UkrSSR. 1. Tn.stitut problem materialovcdeniya m,  RYZHKOVP .5. V.; ROSTOV, M. L.; RGUNOV, V-  % 'A P, I , " -/ -"i,I USSR/Ferin Animals. Cattle Q-2 Abs Jour t Rof Zhur - Bi.oI.j No 8j,19%, No 35628 Author t Yak-Inenico Vil, Inst s Vot von Title The Dairy OattlL~ Breeding ef the Northern Districts of the Crash, Oblastf end the Measures Froposod for Its Further Dovel- op-mont. Orig Fub Tr. Novosib. s.-kh. inOte, b. g., 11, 66-74 Abstrect No abstract  31t06 S/057162/032/02/oO6/022- B104/B102 AUTHM Yakimenkog V. L. es of ions oBcil-lations of a cold plasma with two tYP TITLE: 1962, .168-179 fizikig V.-32, no. ZY zhurnal tekhniche6koy pERIODICAL: consisting Of electrons and A homoge .neous cylinder of cold plasma magnetic field directed TEXT xternal homogeneous sipative s in an e is is studied* Collisions and other dis two types of iOn parallel to '.the.eylinder ax iieglected. If the pressure.in the plasma is zerox the processes are i tion have the form: linearized equations of mo /at q 4 B c V B 40]) + /a m Ve iq M q 01) ;e Aere v.. of the electrons and ions of the type q- are the velocities -,e iq~ kz + by + wt. I~,-E~--B j9 and vdepend on z,T and t as exp(iy)t where Card.1/4   342o6 6/057/62/032/002/006/022 Oscillations of a cold plasma ... 13104/13102 the expression A102 (41 -'P, - 61) 01112 0 IP92 co~2 01% N2 -wj 011, 0) (10) for the refractive index are obtained from (5) and.the Maxwell equations. k, .A.Cos 0, A r = Asin 9. This dispersion equation has the same form as that for plane waves. It holds for waves propagating in any direction t6 the magnetic field. in a detailed study of the zeros and the singularities of the refractive index it is demonstrated that a new frequency with anomalous dispersion occurs between two ion cyclotron frequencies. In a ptudy.of the oscillation amplitudes of the particle velocities it is demonstrated that for ordinary waves for which the refractive index has singularities at'the ion cyclotron frequencies, in-the ordinary wave both types df ions move in antiphase. They always are in -1-hase in the extraordinary wave. The author thanks D. A.,Frank-Kam1_netskiy for his help. There are 3 figu'refj and 9 references: 3 Soviet and 6 non-Soviet. The three references to Engliah-language-publioations read as follows: To H. Stix. Phys. Rev. 106, 1146, ~ 1957; P. L. Auer) It. Hurwitz, It. Do Miller. Phys. Fluids, 501, 1958; So J. Buchsbaum. Phys. Fluids, 410, Card 3/4   An Nr. 980-12 31 ATTENUATION OF MAGNETOACOUSTIC WAVES IN PLASMA (USSR) Demidov, V. P. , D. A. Frank-Kamenetskiy, and V. L. Yakimenko. Zhurnal tekhnicheskoy fiziki, v. 33, no. 4, Apr 1963, 398-405. S/057/63/033/004/005/021 'In an in esit t v jitl on of absorption processes of magnetoacoustic wavcs propaga:t- ing.at,an angle to the constant magnetic field with frequencies higher than ion- cyclotron and much lower than electron- cyclotron (wi < w