SCIENTIFIC ABSTRACT YEMLIN. G. - YENALEYEVA, D.SH.

TENLIN, G. lowering the cost of adnints- Improving the 079ten of manage-,ont anJ tration. Huk.-Olov,prome 25 no.3:9-10 Hr '59 jxIIIA 12:6) 1. otaoi truda I zarabotnOY' Plat7 14inisterstva 1,bleboproduktov Ukrainsk,07 tracle)  YrIp Z/V 81999 S/12o/60/000/03/039/055 E032/E314 AUTHORS: Bondar'. A.D.. Yemlyaninov, A.S., Klyucharev,--A.P., Lishenko, V. d 0. Ye. Shalayeva TITLEt Preparation of Metal Foils from Pure Isotopes 10 PERIODICAL: Pribory i tekhnika eksperimenta, 1960, No 3, pp 134 -136 ABSTRACT: A summary is given of the various methods which can be used to prepare metal foils of Ni, Cu, Zn, Cd, Cos Mn, Fe, Ag, Cr, Pb, Be, Ge and Zr suitable for use as targets in nuclear scattering experiments. The authors have used three methods for obtaining thin (0.1-10,~i) foils, namely, electrolytic deposition, direct evaporation in vacuumland thermal dissociation. In any of these methods it is important to choose a suitable base which can then be removed, since the foils must frequently be used on their own. The apparatus used in the electrolytic method is shown in Fig 1. In the latter figure 1 is the anode Card 1/3 (platinum), 2 is a perspex cylinder, 3 is a copper  pa 81999 s/12o/60/000/03/039/055 E032/E514 Preparation of Metal Foils from Pure IBtopes packing, 4 is the cathode, 5 is a copper contact for the cathode and 6 is the base (Perspex). This device was used to obtain free foils of Nit Cut Zn, Cd, Fe, Pb, Cot Mn, Ag and Cr. The first six of these were obtained both from naturally occurring elemenis nnd elothents ofiriched with stable isotopes. The various electrolytes used to obtain the foils are shown in column 3 of the table on p, 135. In order to obtain thin foils of Ge isotopea,available in samples of a few tens of mg, the graphite evaporator shown in Fig 2 was employed. The evaporator was mounted directly on the copper leads (2). A tantalum plate 0.1 mm thick was placed above the evaporator at a distance of about 3 cm. In this way a Ge layer 3 to 4 ii thick was obtained from 15 to 20 mg of -the isotope. The film was separated from the base by bending the latter. In order to prevent damaging the Ge film, it was covered with a thin layer of varnish. In order to obtain thin foils of Be, a beryllium oxide heater was used, as described by Sinellnikov in Ref 8. 1 to 2 ji thick Be foils could be Card 2/3 obtained in this way. Zr foils 5 to 10 11 thick were  111999 S/120/60/000/;3/039/055 E032/E514 Preparation of Metal Foils from Pure Isotopes obtained by the thermal dissociation method. The sample was in the form of ZrI4 placed in a special sealed ampoule. The compound was dissociated at a hot molybdenum base. The iol%dine was pumped off and removed by a cold trap, while the Zr was deposited on the molybdenum base. The molybdenum base was then dissolved in nitric acid. The amount of Zr necessary was 30 to 40 mg. The metal films obtained by the above methods were found to be stable during experiments with 5-5, 6.8 and 20 MeV protons. There are 2 figures, 1 table and 10 references, 8 of which are Soviet and 2 English. ASSOCIATION: Fiziko-tekhnicheskiy institut AN UkrSSR (Physico-Technical Institute, Ac.Sc., UkrSSR) SUBMITTED: May 22, 1959 Card 3/3  B/040/60/024/007/011/011 B019/BO60 AUTHORS,. Bondarlj A. Do Temly Klyucharev, A.-P.-- f aninov-,- Ao --So# Lishenko, L. Go, Medyanik, V. No, Nikolaychuk, A. Do, Shalayeva, 0. Ye. TITLE: The Production of Isotope Targets for Nuclear Research PERIODICAL: Izvestiya Akademii nauk SSSR. Seriya fizicheskaya, 1960, V/ Vol. 24P No. 7, pp. 929-933 TEXT: This article is the reproduction of a lecture delivered at the IDIh All-Union Conference on Nuclear Spectroscopy held in Moscow from January 19 to 27, 1960. Methods of preparing foils from 16 elements are discussed. The authors used three methods for the preparation of free foils: electro- lytic deposition, evaporation in vacuum by heating, and thermal dissociation. The principal characteristics of the three methods are briefly outlined. In the case of the electrolytic depositionp e.g., the selection of the right electrolyte is extremely important, the working conditions play agreat part and so does the regeneration of the isotope. In the method of thermal dis- sociation, an important factor is the selection of the chemical compound Card 1/3  The Production of isotope Targets for Nuclear S/04SJ60/024/007/011/011 Research B019/Bo6o and the temperature conditions, and as for the evaporation method, material and construction of the vaporizer are very important. Table 1 gives data for the preparation of foils from the elements Ni, Cu, Co, Zn, Cd, Mn, Fe, Ag, Cr, Sn by the electrolytic procedure, and specifies the compositions of electrolytes and the operational conditions in electrolysis. The lead foils were prepared by using 30 - 50 mg of lead, the electrolyte was 25~ perchloric acid with an addition of gelatin. In order to obtain a homo- geneous Pb deposition, the anode was rotated eccentrically. The preparation of Ge and Be foils by the evaporation method has been described a number of times, but the large isotope losses have never been avoided. With a view to reducing these losses the authors made use of a graphite crucible (Fig. 2), out of which Ge and Be were evaporated onto tantalum. The pre- paration of foils from other elGments by this method is briefly dealt with. Foils of Zr, Ti, and Cr were prepared by thermal dissociation. This method involves the use of volatile compounds of these metals; the apparatus shown in Fig. 3 for the preparation of Zr and Ti iodides is accurately described. To prepare chromium iodide, the authors developed a new procedure. They prepared a paste-like silver chromium amalgam and thence obtained chromium iodide sealed in an ampul with the device shown in Fig. 4 at a temperature Card 2/3  J~ The Production of Isotope Targets for Nuclear 5/048/60/024/007/011/011 Research B019/BO60 of 3000C. The ampul was broken under toluene and the chromium iodide was poured into a crucible (Fig. 5) together with the toluene. The crucible was then evacuated in a vacuum chamber, the toluene was evaporat- ed, and the iodide was then heated to 8000C. The evaporating iodide was passed over a heated base, where it decomposed. The chromium deposited an the base, while the iodine was intercepted. The targete prepared by the methods described exhibit good properties. There are 5 figures, 1 table, and 10 references: 9 Soviet and I US. ASSOCIATION: Fiziko-tekhnicheskiy institut Akademii nauk USSR (Institute of Pusics and Technology of the Academy of Sciences UkrSSR) Card 3/3  BONDARI., A.D.; YEMLYANIVOV, A.S.; KLYUCHARF.V., A.P.; LISHENKO, L.G.; A.D.; SHALAYEVA, O.Ye. Making metal films of isotopes. Prib. I takh. eksp. no.3:134-136 My-Je 160. (MIRA 1,4:10) 1. Fiziko-tekhnichaskiy institut Ali USSR. (Metallic films)  Z4~~ - - -i-- - ----------- 7 - -- - -- - -- --- - -- - -- -- - --- - - UMI A. [Emmap A.]., kand. biolog. nAug ........... Riddle of heredity, Znana ta. pratsia no.6:16-17 Ja 062. t, (NMA 16:7) (ftalsic aoids)  YXAKOY, YN (and others) USSR/Electronics Receivers Oct 53 Microphones ."Defects in Ra dio Broadcasting Equipment," Ye. Yemnav and others. Radio, No 10, pp 23-24 Article consists of brief criticisms by 8 writers of the following receivers and other apparatus; "Hir" (produced by VEF plant), "Riga-611, vv-662, xw-io, MOSRTU-100, MGSRTU-100m., VE-2, PTS-47, and SDM microphone. 2M'23  YEMOKHOVICH, M. D., Engineer "XinemBtie and Dybszid Investigation of the aarriage Mnchanism of the AT 100 Loos, Manufactured by the Klimov Xachine-Building Plant, by the Vector Method of Descriptive Geometry." Thesis for degree of Cand. Technical Sci. Sub I Jul 50, Moscow Textile Inst Summary 71, 4 Sep 52. Dissertations presegted JW Deersee n Science and Engineering IL Moscow n 1950 From Vechernylga Moskva. Jon-Doc 1950  1i 38117-66 ZWTW/EWP(Q/F.TI IJP(c) JD/WW/JG ACC NR, ACC NRj AP6014142 SOURCE CODE: UR/0075/65/020/012/1336/1340 UTHO A R AUTHOR: Yemolayev, N. P,; Kovalenkop G. S.; Krot, N. N.; Blokhin, V. I. f ORG: none TITLE: Photometric determination of neptunium using xylenol orange SOURCE: Zhurnal analitiobeakoy kbimii, v. 20s no, 12# 1336-1340 TOPIC TAGS: quantitative analysis, neptunium, photometric analysis ABSTRACT: The tests were carried out with hydrochloric acid solutions of neptunium (IV). Tbo optical dTnsity was measured with a Model ''DU" Beckman spectrometer and a ERK-MIRbotooolorimeteroultb a green light d filter. The acidity of Pe solution was contr-Med with a type LP-5-pv lamp-type Potentionmeter1witb a glass electrode, The results indicate that the absorption spFetra of weekly acid solutions of xylenol orange and its complexes with neptunium (IV) are very different, In the long wave region, in which the absorption of complexes is bighp the intensity of the color o'f the reagent is very slight, The maximum value of the molar coefficient of absorption of the products of the reaepion between neptunium (IV) and xylenol orange is approximately 5.5 x 104/ cm-mole- The article proceeds to the description of a method for the determinatim  L 38117-66 ACC NRs AP6014142 f< is of neptunium in solutions containing Impurities of other elements. I Experimental results are given in a table. The time required for determination by this method is 3 bourso and the error is + 1 microgram* Orig, art, bast 3 figures and 1 tables SUB.CODE: 20/ SUBM DATE: 03Feb64/ ORIG REF: 0051 OTH REF: 007 6  YERY,OLAYEV9 V.I., inzh.j ZAPLECHNYY9 Ye.O., inzh. Modernization of the romote control equipment for mine electric locomotives. Gor. zhur. no.6s46-48 Je 161. (MIRA 14W ls TSvetmetavtomatika, Moskva. (Mine railroads) (Remote control)  YE -ussi/Xiocellancous - Conferences card 1/1 Pub. 89 - 5/33 Authors Barsukov, S.; Yesmshakov, I;.;, and Denting G, Title j Amateur radio operators honor the 20th Convention of the Comunist Party of the Soviet Union Periodical i Radio 2, 8-9, Feb 56 'Abstraot. o Various amateur radio organizations promote contestG in honor of the 20th ---Convention-of the Comunisf, Party of the Soviet Union. I32ustration.  EMSHANOVp A. ---------- Transport i Bviazl v 1934 g. Lfransportation and cormunicationa in 19347. (Planovoe khoz-vos 1934., no. 4-5-s p. 136-31+7). DLCs H0331.P52 Us S2= IlA?IS99=IqL &M CMNICAI s A D292MIly, Library Of Cmgress Reference Departments Washington; 1952, Unclassified.  Y9151191OVI L A. Using the controlled dt.-e---tional aens"tivity rre*,hcl I'm P..irk- menistan. Trudy MRIKHiGP no.509.67-?l 26.1. (MINA 38c2) Concerning the evaluation of the rouelinems of sel.=17; refte-,,11tig boundarles. lbid.clOO-109 Using the effective period of rough-nezo in tbe rei-~ognlt!:;n of' wave -167pes. Tbid.MO-118 Combined ray diagraw and a refle-.~.,Ion isochron for preting data obtained by the controlled dire-,tionel. Pen3itilrity method. lbid. -119-1-22  Y,InISTOV, I. V.G.$ KAZDOVIN, A.S.sGELIVII, IZX., NOVIKOV, 2. USSR (660) 4. Reservoirs 7. Cleaning water supply reservoirs at sugar factories. Sakh.prom. 26, no. 12, 1952 f Russian Accessions, Library of Congress, February -1953. Unclassified. 9. Monthly 1,1st of  GORKWVA., N.D.; DIM, P.P. GRETSKAYA, O.P.; TWHANOVA, A.V. Content of 3,4--benzopyrene in sprat Bmaked with tho f4jetion smoke generator or the PSH smoke generator of the All-%ion Scientific Research Institute of Marine Fisherie's ,aftd 06eano- graphy. Vop. onk. 9 no.8&77-86 163 (MIRA 17W 1. 1z laboratorii eksperimental 'noy onkologii ( zav, zaalu- zhermyy do-yatell nau~i- prof. N.Y.,Lazarev) Inatituta mkol -o0i AMN SSSR (dir. - daystvitellnyy ahlan A101 SSSR prof. A *Is . . Sere'brov) i tekbnologicheako-y laboratorii ( zav. - N.A.- Semenov) NaAcIno-issledovatel'skogo, instituta mekhanizataii rybnoy pro-, myshlonnonti ( dir..- P*Ao Kuraptney). Adreo avtorovs IAMingpd'. P-129 14ptitut an logii AMN SSSR ( for Gorelavaq DlkWi); TAln- grads.. prospekt Molsvinoy,, Inatitut mokhanizatbii r-ybnoy promysh- lennosti. (for Gretskayaq Yemahanova).  KORELTAKO, A.S.; KhRAE24SHTEY11, L.I.; PEIROVSKIY, S.D.; OVSIYENKO, G.M.; BAIMANOV, V.Ye.; Prinizal uchastiye IVANOVI A.P., prof., retnenzent [Preparation of a course project on the theory of imcha- nisms and machines] Rursovoe proektlrovanie po teorli w- khanizmov i -mashin. [By] A.S.Koreniako i dr. Izd.4., Pe- rar. I-.o.;kva., Leningrad, 1964. 324 p. (MIRA 17:9)  , 13. T. , IMclneer I .' '"Hydraulic Amlysis and Calculation of Blocking a River Bed With Sones Duriar the Erection of a 4droelectric Power Station.* Sub 21 Doe 51, Hoscow Order of lenin Power Engineering Inst imeni V. N. Molotov Dissertations presented for science and engineering degreau In Moscow during 1951. SO: Sum. No. 480, 9 maq 55  ynmzV, B.T., kandidat tokhnicheakikh nauk; 3]6=KIY, P.H., inzhener. I Calculating the Junction of the upper and lower-water level beyond a spill- .way dam with a ledge. Gidr.stroi, 22 no.8:IW-43 Ag '53- (HUIA 6:8) (Dame )  YMSEV.B.T., kandidat tekhnicheskikh nau~7 Stability of the slope of a rock-fill dam in a streez. Trudy 911 no.12:14o-152 '54. (91AA 8:10) 1. Irafedra gidravliki ORES)  / -.- !it I- e: II ; 11 IZBASH, S.V.. doktor takhnichaskikh tauk, professor;(13MTZIL-B.T., kandidat takhzAcheakikh nauk, doteent; SLISUIT, P.M.,RMIMI- takhnichookikh nauk, doteent. Bnergy interpretation of the copeept of pressure in a liquid. TtWy-.MNI no.19:110-116 156. (MMA 10:1) 1. Kafedra gidrayliki. (Hydraulics) (Pressure (Physics)) I  SOV/1 24-57-3- 3557 Translation from: Referativnyy zhurnal. Mekhanika, 1957, Nr 3, p 135 (USSR) AUTHOR- Yemtsev, B. T. -------------------- TITLE: Experimental Study of the Effect of the Intensity of Packing on the Formation of Rocky Debris in a Stream (Eks pe rime ntallnoye izuche- niye vliyaniya lntensivnosti nabroski na formirovaniye kamennoy otsypi v potoke) PERIODICAL: Tr. Mosk. energ. in-ta, 1956, Nr 19, pp 116-124 ABSTRACT, Bibliographic entry Card 1/1  IENTSW, B.Tekandldat tekhn1cheskIkh nmuk. Hydrmlic calculation ff the process of daming rivers by rock fill In the,stroam. Gidr. stroi. 25 no*5:10-15 Js 156. (mw 9:9) (Dame)  Y~idb.~Vj B.T,l dot.-arltj ~Lrd-.tokhn.::a%'k Concernin., LCLIC :-.cc*.-k.ni-u-.,u of flvr in, %. nonprium~tic cl;Lnrcl. lzv. V.-jus vehok.-. z~-v.; w;riori;. 3 no. 1l.:14-,)-106 D I~k. (:M~l 14:2) 11 Notikovuldy ordona Ler-ina onerGatiolicakiy inzti.Lt. Predstavlono, 1:,Soelrdy 1;-4drLvliki. (Hydrad~7,,amics)  YLMTSEN, B4T., ~and.tekhn.rwwk "lcu a*4ng nonunt"' rm -notion of ODen c-~.,,rren~s fn Method for ca -1 - 10 prismatic canals. Trudy W1 no-46:171-205 163. (MIRA 18z3') 1. Karadra g1dravIlB Xookovs~cgj ot-darin LI)rAlln. instituta.  YEMrSEV, B.T. (Poskva) Use of the gas dYnamic and hydrodynamic analogies in modeling open vatar streams. Izv. AN SSSR.Energ. I transp. no.ltll3-121 J&-F 65. (MIRA 18W  -YEWS-EV,,~J., kand. tekhn. nauk,, dotsent Effect of the degree of nonprismaticity of a channel on the conversion of the hydraulic parameters of a flow. Izv. vys. ucheb. zav.; energ. 7 no.9:61-66 s 64. (MIRA 17: 11) 1. Moskovskiy ordena Lenina onergeticheakiy Institut. Predstavlena kafedroy gidravliki.  ALEKSAMROV., Yu.; PILIPUSHKO, 1-; MOVED, V.; SEIMMOV, 1.1 LIMAfO;KOV,L; UPIKOVI G.; UJCS--V, I.; KUKHAREVy N.; SHCHEKDTOVICH, P.; BOBGVICH,V.; CHEREPANOV, G, They are raising the level of their qualifications. Ushcharst. ot vredA bol. 7 no'.5s6l My 162, OM 15:11) (Plants) Protection of-Study and teaching)  yzHTSEV, M.. inzh.; PARNOV. Ye., inzh. ChemistrYls cballenge for future developments. Zaan. sila "I 35 no. 12:14-15 D 160. (MIRL 13:12, (Fluorocarbons) (plastics)  YUNTSEV, M. T. Plastic coal mass onn the basis of concepts on the physical chemistry of high po-tjmra. I~rudy IGI 20-.86-91 163. (MIFLA 17.. 8)  TjWtsv, tI.To ---------- Production of shaped metallurgical f\,eld fron %mazian And Polish low-sintering ooal,b)r the method of continuous coking. Nauoh. dokl. vVe. shkoly; energe noi,l-.175-187 158. (MIIU 11: 10) (Briquets (Fuel)) (Metallurgical furnaces)  U M tamorphosed 14W Preparation or shapad astallurgic&l fuel from 00 lics. found in the Russni&n and rolish keoPlOt' Repub coking Coale (IGRA 12:12) Trudy IGI 10:80-92 159. --Coal) (coke) kRuMrja_.COal) kPoland  TANTSIV, M.T.; )MICHKO, A,A$ TrudT IGI lo:i55-163 Liquid products in the continuous coking process- tMIRA 12:12) ,59. ke.kq industry-BY products)  tell) RUBW I -ZIW,dx &A, 0-ya-j, pA,RNOV, -yeremeY judo,jeh YE24TSZV- ll.p., doktor geogr- nauk' otv. re red. t on natulre jEt ahead; on rAture and cli- fp, great assaul 'hanging theml Vporcdi volikii f c mate and posSible wa'Ys 0 . i vozmozhrrjkh puti,kh 1y; o prirode i klimate 3.964. 138 P- shturm prirol rad, Gjdromet6Oizdat RA 18:1) ikh izmeneniia- Lening  ob i o r(jt;f::1-4L .-?I !~L: T 7 7 V.T. f 4A (;.roc) rjr 2(3 114)  MTSF,'Vo We LonshiPs b8tv8sn Clostridium pasteria= and ,Symbiotic relatl Bacillug clostercidess Mikrobiologiia 29 no. 41529-535 J2-Ag (MIRA 13,10) l6o. dovatel'OkV institut zemledeliys tsentrallnykh 1. Isuobn*45016 rayon6v nechernozemnoy Polosys (010TRIDIUM) (RHIZOSPMZ MICROBIOLOGY)  YEMTSEV, V.T.--, of cultures of micro- Selectionp variability and preservation fertilizers. Izv- organisms used for the production of bacterial . (MIRA 15:10) AN SSSR.Ser.biol. no.51732-739 S-0 162. 1 The Timir-la-sev Agricultural Academy, Moscow. SIG, N.ITROGEN-FIXING) (6AWA RAYS-PHYSIOLOGICAL EMCT)(MIcRo-ORGANI t  cular nitrogen of the atmosphere by the butyric Fi-,Mtion of mole I Agrobiologiia no.5: 749- acid bacteria of the gelo.~,q ClIoawleium- (14IRA 1/, . 10) 761 s-o .161, 1. Veesoyuzny y nauchn.0-issiedovatellskiy institut sellskokhoz- yaystvennoy,mikrobiologiip g. Leningrad. (Butyric acid bacteria) (Nitrogen-ftmtion)  VMSU V.T Sources of carbon nutrition for nitrogen-fixing microorganisms from the Gonus Clostridium. Mikrobiologiia 31 no.1:18-23 Ja-F 162. P (111W, 15:3) 1. Vse:3oyuznrl nauchno-itisledovatellskiy institut sell-skok'o- ~-~zyaystvennoy mikrobiologii, Leningrad. (GUISTRIDITIM) (CARBON GOHPOUNDS)  DOROSINSKIYO L*M.; UZARVAP "*M';ly-8-'-4T-S3Vj VoT. Role of mdule bezteria in the nitrogen nutrition of lopm1nous 3) pl=to. Mkrobiologija 31 no.6tlO61-1066 li-D '6'0 (miRA 16 1,, Voesoyuzn3,7 nauchnO-is8led0vatel'ok'y 'notitut oelsokokho- zyaystvemnoy mik-robiologily Leningrad* (LUPINE) (MICRO-ORGANMM . llrMMM-pjXjllG)  SHILINIKOVA, V.K.) miadebiy bi,olog. nauk, dotsent; adsbiy nauOhnyy sotrudnik ,,,4TSEV,_Y._,T,, kande ryO Ye.P.9 Ml nau~6YY 00trudnik; GROMY , )ean plants In rage bean and kidney,1 ation of fOl -64 63- (MIFA 17--l) Natural in0cul soils. Izv . TsKHA no.4%55 turf-podzolic mookovskaYs. ordena Lenina mikrobiologii AN SSSR- 2*1 K.A. Timiryazeva (for 1 Institut stvennaya kademiYa Imen S;l'skokhOzYay Shillnikova)e  yEMSF.v VT.._. I t- 8 Clostridi= Biojog7 of nitrogen-fixing bacteria of the genu . no.3.11 to. Trudy Inst- mikrobiol and the nutrition of 'Plan (ml 1011) 91-jol t6l sollokogo kho2ryayotva 1. Hauchno-i8fliedovatel'SkV inst'tut zonys t,gentralln-ykh rayonov nechemozemOY I  "I",, Spore formation In Clostridium pastaurianura. Mikrobiologiia 32 no.3t434-438 My-Je'63 (MIRA 1713) 1. 146skovskaya sellskolkhozyaystvennaya akademiya imeni K.A. Timiryazeva.  Vaevolod Tikhonovich kand. biol. nauk, SORO .KO, Ya.l., tekhn. red. red.-O AT as masters of soil fertility; recent [microorganisms developments in the use of "biological" nitrogen in agri-. culture] Mi~roby - masters plodorodiia; novoe ob ispolizovanii "biologicheskogo" izota v 001'skom khozialstva. Hoskvap Izd-vo "Znapie"p 1963.- ~O P- (Novoe v zhiini, naukeq tekhnike. V Seriia: (~n RA 16:6) Sel'skoe khbziaistvoj no.11) (Agricultural microbiology) (Nitrogen)  YEMTSOV, M., inzh.; PAIUIOV, Ye.0 inzh. ?Ilfot" atoms. Znan.sila 36 no.8:9-13 Ag 161. (Mj.RA 14:8) (Radioactive substances)  ACOISSSION NR: AP4011979 6416~010011010210106 S/0073/ AUTHORS: Volkova, A.I.; Get'man, T.Ye.; Yemtsova,.'A4.- Determination of titanium in metallic alumintun in the form of a ternary titaniim-salicylate-quinine complex SOUROB: Ukrainakiy khimicheskiy zhurnal, V. 30t no. It 1964p 102-106,!~ TOPIC TAGS: metallic aluminum, ternary titanium ealicylate quinine complex, titanium determination, sodium salioylate ABSTRACT: An earlier study was made of.the salicylatd complexes of titanium and the ternary salicylate complexes of titanium with py- ridine, quinine and pyramidon. (A.K. Babko and A.I. Volkova, D. AN URSRt 12, (1959 1336); Zh. Anal, kh. 5 (1960 587) Ternary oom-W' plexes were used to determine titanium in steel. Continuing this work, the ternary complex being formed during the reaction of titanium-salicylate acid with quinine was studied. This complex differs in that it has greater stability and Is more intensively colored than ealicylate complexes of titanium with other organic bases (pyridine, pyramidon ate.). The method for determining 1/3 Card  -AOO ESSION NR: AP4011979 A; titanium is based on the formation of a colored ternary titanium- f! salicylate-quinine complex, which Is extracted in a wide pH inter- ~.; ;val from 2.5 to 4. In studying the relationship of titanium extrac- tion to quinine ooncent;ationg solutions with a constant opnoontra- ;6 x 10-D mole/liter and Z-HaHSall = 2xlO-r- mole/ tion of T1014 5 liter were p epared. Overall quinine congentration in the aqueous jhase was varied from 4 x lo-5 to 5 x 10-4 mole/liter. Maximum 'titanium extraction was observed stairting with a quinine concentra- tion of 2 x 10- mole/liter, This Indicates a high extraction fao- ~tor of the ternary Ti complex because a one and one-half to twofold -:quinine surplus relative to Ti I,., adequate for a full extraction 'Solutions containing 5.6 x lo-5 mole/liter of TIM and 1.6 x 10-4 4 ~Mole/liter of quinine were prepared for studying the relationship' of titanium extraction to-salicylia acid concent:ration, and jhe 't to 6 x 10--71 mole/ salicylate concentration was varied from 2 x 10 liter. The maximum extraction was observed with a thirty4fold sur- Card 2/3  ACCESSION NR: AP4011979 plus of sodium salicylate. The extraction-photometric method was developed for determination of ti anium in metallic aluminum. Sen- sitivity of the method is,l x 10- Orig. art. has: 4 figures, 2 tables. ASSOCIATION,. Institut obahchey i neorganicheakoy khimll AN MWSSR (Institute of general and inorganic chemistr7, AN ukrssR) SUBMITTEI~: 2ODTar63 DATE ACQ: 14Feb64 ENCL: 00 ~'SUB CODE: CH2 EL NO REF SOV: oo4 OTHER: 000 Card  YM(MVARI, BtV,; SBRMTAKOV, L.1h. Sorylaing privately ownod cars. Gor. khos.Mook. 29 no.10:25-27 '0 155. (NIaA 9:2) (Moscow-Soryloo otations)  TIMUSHOT SEV, G. 14. The shape ofhard allay cutters. Stan. (Cutting tools) i instr. 26 no4:35 AP '55. (MIMA 8:6)  YINTASHEV, S ' .91 Freight servicing of small consumers. Avt. transp. 37 n0-2:8-10 Y 159- (MIRA 13:1) l.Monavtotreat No.3- (Transportation, Automotive) (Kindergartens)  A T-INTASHEVp A. V. : 4tr Tech Sci (dIse) -- I'Vacutun melting of MI-5?P, ani 18MVA steels and cast refractory alloy based on nickel". ~Joscov, 1958. 16 pp, (Main Designing Gosplan USSR, Central Sai Res Inat of Forroun Metnllurpy), 110 copies (KL, No 5P 1959, 149)  1011m~ YE M YA 5*~ V V. Akadadya nauk SSSR, PHASE I BOOK EXPLOITATION Institut metallurgii 533 Primenenlye vakuuma v metallurgii; trudy soveshchaniya po primeneni7u vakuums v chernoy metallurgii (Use of Vacuum in Metallurgy; Transactions of a Con- ference on the Use of Vacuum in Ferrous Meta-Ili, gy) Moscow, Izd-vo AN SSSR, 1958. 165 p. 4,000 copies printed. Reap. Ed.: Samerin, A.M., Corresponding Member of the USSR AcadaW of Sciences; Ed. of Publishing House: Bankvitser,, A, L.; Tech. r1.: Polyakova, T# V& PURE10SE: This publication is intended to familiarize metallurgists,, engineers, and other scientific and industrial personnel with the processes and advantages of vacum metallurgy and with its state of development in the Soviet W.Ion, COVERWE: The transactions are grouped into three main sections: vacuum melting of steel and alloys., vacuum treatment of molten steel and ferroalloys in the ladle and in the ingot mold, and extraction of metals and alloys from ores in .vacuum. In a brief introductory section., A*M. Samarin., Corr4sponding Member of the Academy of Sciences., USSR, concisely covers much of the basic material presented in more detailed form in the individual articles. A resolution adopted by the conference, which appears at the end of Part III,, embodies Card 1/A  Use of Vacuum In Metallurgy (Cont.) 533 recommendations for expanding the use of vacuum metallurgy in theUSSR. The conference took place in 1956. For references and further coverage, see Table of Contents. TAKE OF CONEMM: Samarin, A. M. Problem of Using Vacuum in Metallurgy 3 The author begins by discussing the important advantages of the vacuum-melting of steel, Chief smong these are (1) assurance of a minlan- content of oxygen, nitrogen and hydrogen, as vell as of nonmetallic inclusions; (21 the possi- bility of deoxidizing the steel by carbon alonevith consequent absence of oxide inclusions; (3) protection against reoxidation during teeming, Turning to Problems,, Samok-In states, first of all, that Soviet induction vacuum-melting furnaces are of unsatisfactory design, and that Soviet metallurgists should carefully study foreign furnaces of more advanced design, Another important task is the investigation of refractory materials suitable for the construction of vacuum-furnace crucibles, Further, the problem of controlling the temperature and composition of molten metal during the melting process must be solved, Though there has been considerable expansion of vacuum melting In the USSR In recent years., Smarin states Card 2/1# Use Of Vacuum in Metallurgy, (Cont.) 533 that annual Outputs of tens or hundreds of thousands of tons of vacu=_ melted steel cannot be expected as yet because of the cost and complexity Of new equlPment and the very hlgb commmption Of electric paver. A suggested partial solution is to subject ordinary liquid steel (not w-ZUUM-melted) to vacuum treatment to eliminate the gases. For this pur- S'Wep the steel may be treated elther In the ladle or during the pouring Of the IngOtoo These procedures have been industrially tested with d results goo * There are 9 references Of 1&ich 7 are Soviet l German. 't 1 Englishp and I. VACUUM ME:LTING OF STM, AND ALI= Garnyk.. G.A. and Samarlnx A,,M* Vacuum Melting of Transformer Steel 1h The authors have established the folloving factst 1. In vaom_ melted transformer steel .v power losses are 15-20 percent lover than in Ordinary transformer steelp and magnetic permeability and p tic itY are greater. 2. las Use of the vacuum technique makes it possible to organize the Production Of cold-rolled transformer steel with a high silicon content. 3. The electromagnetic Properties of vacuum- melted transformer steel are superior because of a low content of harmful impurities like carbon., oxygen, and mill'ure 49 The vamm method Increases the deoxidizing capacity of carbon by about loo Card 31%  Use of Vacuum in Metallurgy (cont.) 533 times., resulting in a steel very low in carbon and oxygen. 5. 5. IAngthening the period during which the liquid me-'~al is kept under vacuum after ferrOsillcon has been added is conducive to very low sulfur content. Bel7akOv., P.S. Effect of the Melting Method on the Properties of Stainless Steel 35 Author's conclusions: 1, Chrome-niekel stainless steel which is not subject to intergranular corrosion can be made in an induction vaaUUM-melting furnace with a residual pressure of up to 20 mm. of mercury, without the addition of stabilizing elements and without the loss of much chrcme from the stalnless-steel scrap additions in the charge. 2. Steel with a carbon content not exceeding 0.02 percent can be made by keeping the molten metal under vacuum for 30-40 minutes. 3. Vacuum-melted chrome-nickel stainless steel is more resistant to attack by boiling nitric acid (than non-vamm- melted] because of low carbon content and total absence of titanium. There are 11 Soviet references. Card 4/14  Use of Vacuum In Metallurgy- (Cont.) 533 Kamenetskaya,, D,S, Some Theoretical Questions of Vacu= Mertsllurgy 49 Authorts conclusions: 1. In the Yacv= melting of metals and alloys, there must exist over the metal a pressure somewhat exceeding the vapor pressure of the metal at the triple point. At a lover pressure., the metal volatilizes, When the vapor pressure of the metal is less than 0.01 m. of mercury,, the [required] pressure is created by the vapors themselves; at higher vapor pressuresv-0,1 nn. and above-it is necessary to increase the external pressure,,et&J, by the use of an inert gas. 2. The degree of vacuum, or purity of gas, necessary for degasifying the-metal and for vainlymm reaction with the gases remaining in the furnace depends on the vapor pressure of the metal: the lower the vapor pressure,, the higber the vacuum., or the purer the Inert gas,, mt1st be. The vapors over the metal, provided their pressure is high enougb (0,01 w. and above) form a protective envelopej, vb1ch plays an important part in the melting of the metal if the vapors react with the gas. 3. In selecting materials for crucibles,, protective covers for thermocouples., stoppers, graphite parts, etc,, it is necessary to take into consideration the vapor and dissocilati'an pressures of these materials, and also their possible reactions with the metal and with each other, accompanied by the liber- ation bf volatile matter, 4o It is most advisable to conduct the Card 5/*  Use of Vacuum in Metallurgy (Cont.) 533 vacuum refining of metal vith the aid of substances like carbon and hydrogen., vhich form volatile compounds vith certain addition agents. There are 6 references, of vb1ch 4 are Soviet., 1 is English and 1 Germitn. _=~hev Some Notes on the Technology of the Vacuum Melting of s and MM (Experience Gained in the Operation of a Vacuum Furnwe for Refractory Metals) The article is divided Into the following sections: Brief descriytion of the OKB-264A furnace; Operation of the furnace; Tmperature meaffurement* Taking metal samples during the melting period.; Method of preventing hanging of the charge. There is one English reference. Stroyev.. A.S.,, Ivwov,, A.M. and Ovaepyan,, Ye,S, Vacuum Melting of Molyb- denum in an Electric Are Furnace 62 Authors' conclusions: 1, High-vacuum melting of molybdemm in an electric are furnace is feasible and yields metal of high purity. 2. Ingots of molybdenum melted in a vamnm of the order of 0.003 am. of mercury and vith proper deoxidation are free of defects In the central zone,, regardless of the speed. of cooling after melting. Card 61*  Use of Vacum in Ylatanura - (cont.) J33 3, ftese ingots.. thanks to a rather fine-grained structure and distinctness of grain boundaries., can be plastically deformed by any method,, including smith forging', provided correct regimes of heating and degree of compression are observed. 4. Plastically deformed molybdenum exhibits satisfactory plasticity ebaracteristies at room temperature. Savinskiy,, KjA. High-vacinza Pumps and Equipment 66 This is a discussion of the basis for selecting higb-vacum pmQs and related equipment for use in vacuum metallurgy, It is shown nathe- matically that asystem of large conductive capacity is essential for satisfactory performance in hi&-vacuum melting, There are 3 referen- ces., all Soviet. Ourevich,, Yu.G. (Address) V Ourevich describes experiments conducted at the Zlatoufft Metallu gical Plant in 1952., vhich show that ingots of 1Khl8N9I! steel that have been melted in a Vacum or in a protective atmosphere have a dense structure and good surface quality. Card 7/ *  SOV/133-58-6-15/33 AUTHORS: Bokshitskiy, Ya.11., Yemyashev, A.V., Zubko, A.M. ar-d Filippycheva, M.M. TITLE: The Influence of 'Vacuum Meltin& on the Quality of Steel (Vliyaniye vakuumnoy vyplavki na kachestvo stali) PERIODICAL: Stall, 1958,~"vr 6, PP 520 - 525 (USSR). ABSTRACT: An investigation of the influence of vacuum, melting on the quality of Kh2? and l8Kh.NVA steels is(bscribed. Vacuum melting was carried out in a 12 k9 furnace Previously des- cribed (Ref 5). The conditions of melting and heating of liquid metal, teeming temperature and the time of retention in the final vacuo were the same for 611 melts. As a charge, mild steel ingots smelted in the usual -manner in a 30-kg high- frequency furnace were used. 'Tye pressures used viere: 1 mm and 1/10 of a metre, 5-816 10 mm and 5- 10-5 mm - The results or chemical gas analysis and impact strength of steel Kh2? smelted under normal pressure and in vacuo - Table 1. The impact strength of forged and hardened-in-water from 900 OC metal from all heats was low. In order to find factors determining the impact strength of Kh2/ oteoll a aeries of vacuo heats using electrolytic materials wime carried out. The results obtained showed that apparently the main element Cardl/4 determining the impact strength is carbon. The influence of  SOV/133-58-6-15/33 The Influenoe of Vacuum Melting on the Quality of Steel the depth of vacuo on the composition of metal, the gas content and the content of admixtures in steel is shown in Tables 2 and 3 and Fi6ure 1, respectively. The influence of depth of vacuo on the mechanical properties of forged and thermilly treated Kh2? steel - Table 4; the dependence of impact strength of the steel smelted in vacuo on the carbon content - Figure 2 and on the gas content - Figure 3- It is concluded that: 1) valcuum meltinad Kh2? steel is accompanied by some changes in its chemical composition due to the evaporation of such elements as Planganese and silicon md due to reactions forming gaseous products; 2) The change in chemical composition depends on the depth of vacuo; 3) Valcuum melting Cives the following effects: a) the reaction between oxygen and carbon is more efficient the content of carbon Cacreases to thousandths of parts of i%o; the reaction of sulphur with oxygen is also more intensive; b) the content of gas in the deoxidised metal decreases by a factor of 3~ c) it has no influence on the structure of the metal. 4 On walcuum melting of steel Kh2? with its subsequent heat treatment, its impact strength can be considerably increased (30-60 times); the highest effect on the impact strength has the content of carbon; Cajd2/4  . SOV/133-58-6-15/33 The Influence of 'Vacuum Melting on the Quality of steel when the latter is below 0.01%, the impact strength of steel reaches 15 - 18 kg/cm2; 5) on valcuum neitirg from electro- lytic materials, the technological properties of steel K1127 depend on the content of carbon and silicon. Steel LSKh.NVA was made from a steel (C 0.19-0.2(Ylo) smelted from Sulinsk sponge iron. The experimental heats viere carried out under normal pressure and a vacuo of 0.5 - 1 ram and 1.10-4 =. The composition of steel %: C 0.14-0.21 Si 0.17-0-37; Mn 0.25-0-55; P, S < 0.035; W 0-80-1.20; Cr 1.35-1.65; Ni 4.00-4-50%. The gas content of metal from experimental heats in cast (nominator) and forged ~denominator) state - Table 5; the amount of non-metallic inclusions - Table 6; mean indices of mechanical properties of longitudinal specimens from the experimental heats - Table 7. It is con- cluded: 1) That vacuum melting of 18Kh.NVA steel decreases the content of nitrogen ana oxygen in steel: a) heats made at a vacuo of 10-4 mm contained'many times less nitrogen (0.0020 - 0-005(r1o) than heats made under normal pressure (0.0030 - 0.0109%); the influence of the depth of vacuo on nitrogen content was not detected; b) the content of oxygen in vacuo Card3/4  SOV/133-58-6-15/33 The Influence of Vacuum Melting on the Quality of Steel heats at a pressure of 10-2 mm. was on average 5 times smaller ko.0010 - 0.00287o) than in metal from heats made under normal pressure (0-0051 - 0.0140,11o); further decrease of pressure to 10-3 - 10-4 Lrm lead to a further decrease in the oxygen content (up to U.0003 - 0.0005,06). 2) Metal from vacuo heats contained 5-10 times less of non-metallic inclusions (0.0012 - 0.00580/0 than the usual heats from industrial are furnaces (0.0168 - o.02817o) and possessed hiCher values for relative elon�ation (approximately by 40%) and impict strength ~by ? kc/cm ). There are 3 figures, 7 tables and 5 references, 3 of which are Soviet, 1 French and 1 English. ASSOCIATIO11: Ts.NIIChN Card 4/4 1. Vacuum furnaces--Effectiveness 2. Steel--Production 3. Steel--Mechanical properties  18(a) POSE I DOCK EXPWITATION 3OV/2125 Tocutral'nyy nauchno-loolodovatel'skiy InstItut chernoy motallurgil. Inst1tut XotallovedonLyto I rizLki metallov Problemy watallovedonlys. I flalki metallov (Problems In Physical "Otallum and Notallophysics) Moscow Notallurgizdat. 1-%9. 540 p. (Seriest Its: 3borvAk trd.v. 4) Zrrata lip ImsertA4. 3.600 copies printed. Additional Spoo- r1og Agenoys LWR. Oosudaretwenna" Placova kcalsalya Rd. or Publishing Smoot U.N. Berlin; Tech. Zd.: P.C. Islool:i*V011 Wltorial bo&Mt D.3. Komenetakeya. D.Ya. Lyubov (R**P. 2 . Ye.Z. 3pektar, Z~X. Ut*vsldy. E~A. Shyartam". and V.I. Malkin. PURPOUt This book to Intended for metallurgists, metallurgical engineers. and specialists In the physics of metals. COVZRAQZt The papers in thlaXll"tlon present the results of Investigations conducted twoon 1954 and IVA. 3ubjects Card IAS methods or Influencing the processes of crystallization, problems In the physical aboolstry of metallurgical processes, development or I:* now methods-aW *qulpwnt for Lnvestizatirs metals. and Production control. Refere=es follow each article. TARIM OF CoNr=31 LAL s Zubko, Candidate or rhysleal and Matbestaticai d vj~xi.ruark. On the Irf*ct of Vacuum Melting and Tossing cu%t&I Properties and Ingot Qux1ity 169 Zolanav, A.S., and D.S. Xamonetskaya. Xfrect or inert a" Pressure In the Purtutce on Gas Content In the Metal Is? The content of nitrogen and hydrogen in metal melted in am 91310sphtro or argon at a pressure or 1-45o am. Me has 1--ttle relationsh1p to the pressure of the argon " I@ consld&r-uy lower than In the original charge. The inert gas must be purified of ajwgen jr a pressure to used at which the per-_-&, 0 press r oJ786A would exceed 0.01 mg. Rg. The same to nitrogen contained In the Inert &&a. provided the n1trugsu Meets with the metal. Gorbatenko. A.K.. and B.S. lomenotakaya. On the Shop* or rium Curves of Bln&rT Alloys b 191  S/137/62/000/003/018/191 A0061AI01 AUTHORS: Yemyashev, A. V., Zubko, A. M., Neymark, V. Ye. TITLE: On the problem of the effect of vacuum melting and teeming upon the meta: properties and the ingot quality PERIODICAL: Referativnyy zhurnal, Metallurgiya, no. 3, 1962, 41, abstract 3V258 ("Sb. tr. In-t metalloved. i fiz. metallov Tsentr, n.-i. in-ta chernoy metallurgii", 1959, v. 6, 169-186) TEXV: At a TsNIICherMET pilot plant magnetically soft Fe-Co alloyl(50~12 (K5OF2) was melted in a high-frequency vacuum furnace; the alloy contains in %: 0.05 C; :~' 0.2 Si; ~> 0.2 Mn, 49 - 51 Co; 1.5 - 2 V; > 0.5 Ni, ;,- 0.025 S and P, the rest Fe. Tn the furnace space in cold state a vacuum was produced,of the order of 1 - 10-3 mm Hg. The heats were produced in Zr02 crucibles which were manufactured directly on the furnace. One crucible withstands -> 40 heats. The melted ingots weigh 30 - 45 kg. In the vacuum-melted metal, the 'Content of lo, gas, non-metallic impurities and magnetic properties were determined. It was established that the melting of K5OF2 alloy in a vacuum of 500 - 50 mm Ng was not accompanied by changes in the chemical composition of the alloy, except Si, whose Card 1/2  S/137/62/ooo/bo3/b18/iql On the problem of the effect ... Aoo6/Aioi amount decreased by 50%. The, content of Iddo in the' metal varies from 10 to 20 m1/100 g, instead of 60 ml/100 g -wit"t MM-lin metal that was melted by con- ventional technology. The amount of tioti2tir;kTillia Impurities in the alloy decreas- ed substanzially, and its magnetic propertJ.P.% are improved. Studies of the effect of vacuum melting and teeming of lAu2qarbon nickel steel, containing 0.1 - 0,15% C and 2 - 3% Ni, on the frLrrvA.Mn*.of bubbles in the ingot, have shown that gas bubbles are formed during the teeming into vacuum molds of steel that had been subjected to short-timevacuum .Dreatment in the ladle at 30 - 40 mm I g pressure. Therefore teeming of metal 1MMI had been vacuum-treated in the ladle should be carried out in inert ;1MTMrsjMe. G. Lyubimova [Abstracter's note: Complete translation] Card 2/2 1, RIP M T 71111 1 ,  YEKWHEVO A.V., kand.tekhn.nauk; ZUBKOp A.M.., kand.fiziko-matematioheakikh Effect of vacuum smelting on the composition afid properties of metals and alloys. Probl.metalloved.i.fiz.met. no.7s450-471 162. (KERA 15: 5) (Vacuum metallurgy) 0  MAGDIM.. R.R.; MHABRIMO, N,I,;,.IZUYEVAp Tej,; ARUTYUNOVAp A.A., YKMYASHF,VAO..Z.I,e; STIMLINIKOVA9 G.A. ; ABUNAGIMDVO Kh.Z. Exp4rienoe in the organization of tasniarhynchoois control direated at its liquidation, Mad. paraz. i partz. bol. 34 no.2:133-139 Mr-4p 165. (MIRA 18:11) 1. Uzbekskiy institut eksperimentalluoy meditsinskoy parazitwologii i gollnintologii,, g. Samarkand,, i Gorodskaya bollnitsas, RayonrAya sanitarno-spidemLialogichaskaya stantmiya,, g, Katta-Kurgana.  STEPANYANTS, S.A.; MORDASHOV, V.N-; ISHCHUK., Yu.L.; SMOM. D.A.; R.?,j-X0VAKOV, G.Kh. Continuous process of paraffin oxidation in the liquid-foam state aimed at the production of synthetic fatty acids. Trudy BONK no.1:20-25 163. (MIRA 16:6) (Paraffins) (Oxidation) (Paidev Fatty)  STEPANYANTS, S. A., inzb.; MORDASHOV, V-N.'. inzh.j ISHCHUK, Yu.L., inzh.; SThOM, D.A., inzh.; YENA, B.P., inzh.; NOVAKOVI G.M.1 inzh,, Continuous process for paraffin oxidation in a liquid foamed state. Masl.-zhir. prom. 29 no,3:21-23 Mr 163. (MIRA 1614) 1. Berdyanskly opytnyy neftemaelozavod. (Paraffins) (Oxidation)  4%lql-~L~4f,!;,~%44'~~A-Ittn"AIN331 LEM tekhn.red. [Medicinal plants; thetreelection and preparation) F.17-Ntvennye rasteniia; sbor I sagotovka. Pod red.M.G.Ina. Kiev, IM-med. izd-vo USSR, 1957. 279 (MIRA 10:12) (BOTANY, MEDICAL) -I DO A 'l ! u - 'V ~MU9 w ~V In m - - - ~  YMA, M. Work of assistants in -Pharmac7 No;24 in Kiev. Apt.delo 7 no 6*31 N-D 158 (KIRA U;12) 1. Camestitell nachallnika Glavnogo aptechnogo upravleniya Ministerstva zdravookhraneniya USSRO (IM-MARNP)  - Ym, M.G. Ybdiolual supplies for the Ukrainian S.S.R. Apt.delo 8 no.6:8-14 :4) T,7D 159, (KM 13. 1. Zam. nachallnika Glavnogo aptechnogo upravleniya Hinisteretva zdravookhraneniya Ukrainskoy SSR. (UKRAIM~--MIQLL SUPPLIRS)  UNA. Mikhail Gordayevich LIEns, H.H.1; MINIOTICH, 1.0., red.; GITSWUMI, A.D., tekhred. (Manual for managerm of drugstores] Posibnft dlia saviduiuchykh aptechnyW punktamy. Xyiv, Derzh.med.vyd-vo URSR, 1960- 3C? P- (PHARMACT) (KM 13:5)  Y,--NA M G IEna, 14. H. Work of pharmacy no. 208 in Stalino. Farmatsev. zhur. 3.5 n0.6: 68-73 160. (MIRA 14:11) 1. Glavnoye aptechnoye upravleniye. (DOMMK-DRUGSTOW)  ula~ M.G. [IE~a, H.U.) Ifew- medicines's Farmatsev. zhur. 15 no.6:82-497 160. (MM 14.- 3-1) (DRUGS)  YENAP M.G. [ISna, M.11.1 Bee vonom, Farmatsev. zhur. 16 no. 2:84-90 161. (HIRA 14:4) . (VEN014-THERUEUTIC USE) j f  Y9NAj M.G. [IEna., M.H.] Ifew medical -ezeiiies. Farmatsev. zhur. 16 o0-5:85-192 16-1. 17:10) hil- an 019  IWIA. M.G. [IFna,, M.11.j Now drugs. Farmatsev. zhur. 16 no.6:74,80 161. (MM 15-*5) (DRUGS) V.,  MATUMS P.T.; X~IIALM.G. (Kiyov) Wical induatry Of the Ukr&inian S-S-R- in the oeven-70ar plan. Vrach. delo no.8.992-96 Ag'63 (~= 16:9) (UMUNE--HMICI~M) 0  YENA, M.G..[IEna, M.F..] Development of the chemopharmacoutical industry in the Ukrainian S.S.R. Report No. 3. Farmatsev. zhur. 20 no-5: 69-74 165. (MIRA 18:11) 1. Gosplan UkrSSR. I  F- - --- --- - YE-NAI- M.G.- [-IEna, M.H.] Development of chemopharraceutical industry in the Ukrainian S.S.R. Farmatsev.zhur. 20 no.6352-56 165. (MIRA 19tl) 1. Gosplan UkrSSR. Submitted January 5, 1965.  YFNA, M.G. Medical Indlintrl in %ranian Sfill ~nt Ine, I Famatsev. zhur. 17 no.50-8 162. A 1'.1 1. Otdol zdrav(joMir-anomiyn i modi Uin:4.oy Goiplann UkrSSR,  w6rKI'mKII, M,Ie.; ItrIA, V. Studying the nature of 'the Crimean Peninsula during the Soviet regime. Izv. Krym. otd. Geog. ob-va no.5:51-82 158. (YJRA 14:9) (Crimea..;-Physical geography)  YBNA, V.G# (Simferopol'). Now Fossil oncoliteo In the Crimea. Prirods 46 noAM7 Ac 157. (CrIzq&-P&loobot&ny) (KM 1089)  Q WAMAWW4,91"M A UIVOR: Yens, V.0, (Simferopol') TITLE: On the Absence of Forest on the Yayla Masnifs of the ',:ain Crimean Ridge (0 bezlesii Yaylinskikh massivov Glavnoy Kryms- koy gryady) PERIODICAL: Priroda, l958,,1Nr 12, PP 103 - 105 (USSR) ABSTRACT: The importance of forests to the water economy of a mountain area and the adjacent plains cannot be overestimated. This holds true for the Yayla ?,!assifs of the Main Crimean Ridge. According to data collected in the thirties, only 2,400 out of 31,560 hectares of the Yayla Massifs were covered with forests. The conspicuous absence of forests there is ex- plained by Ye.V. Vullf and G,I. Poplavskaya as due to care- less cutting of trees by man, while U1.1. Poplavskaya and other botanists hold that the trees have only reached their natural climatic limit. I.L, Yrylova suggest that this dubious question cannot be settled by mere theoretical con- siderations, but only by on-the-spot examination of the natural timberline. This was done by '-or between the lower and upper plateaus of the Dag and by other researchers along the entire south slope of the mountain Ay- Card 1/2 Petri, Chatyr-Dag, Demerdzhi, and Tyrke in 1955 and Yarabi  9OV/26-59-12-22/44 Ridg,~ On the Absence of Forest on the Yayla o'assifs of the ','ain Crimean in 1956. The results permit the conclusion that the beech tree Fagus taurica Popl. is stopped by its natural climatic border, while the numerous occurrencesof pine-trees Pinus silvestris var. hamata Sosn. and en-suinp juniper shrubs of Juniperus depressa and Juniperus saitna point to the possi- bility of a successful natural reforestation which would entail large economic benefits. rbere are 2 photos and 2 Soviet references. Card 2/2  .,~Y- MIG, .---I--, ization Of the Crimean ]Peninsula* vast. Physicogelogrephical rceio'nal -~j- jqr~-Ap 160. (MIRA 13:9) Moak un. Ser.5: Geogs 1_5 no*Z',33 . - - SM MoskovskOgO universiteta. 1. xaf edra f izicheskoy 980graf ii ograpby (Crimea-Phpieal ge'  IJENA V,G. Crimean Iledelweiss." Friroda 50. noXIW4,LI5 N t61. (IURA .14:10) 1, Krymskiy gosudarstvennyy pedagogicheskiy institut im. M.V.Frunse, Simferopol'. (Crimean Mountains-Chickweed)  YENA, V. G.. Takyr of the Criw&n Sivash regions Vast. Mook, uns Sere 5: ()00g. 18 no.5173 &.0 163o (mM 3.6111) I  YENA, v.G. Some characteristics Of natural territorial cOMPlexes in the GrJD~ean Mountains. Geog.sbor. L'vov-otdeGeo9i0b-va SSSR (MIRA 180) noossA,9-53 164. m  YENA, Vasiliy,Georglyovicb~ kand. j,,eogr. nauk; BAYEV) YOvgep red. .Land~orm monuments] Landshaftnye pamiatniki. simforopoll, izd-vo "Krym)" 1964. 74 p. (MIRA 17:10)  :BUT"GkIlik :Chwlaal Teclmologri. Chemical Products (Part 3)-l Food Industry "%~ r-7- 1f0 7, 25140 f Zhu 1,1n, 195c.' Author Yenak, R. Inutitut. T It lrj U-qe of Infrarod Irradiatio2i in tho Food industry! of the rr3nnan Democratic llopublic Country Gntor~,)ry ~ba, j. ur. orJ3, Pub. i0iranit. proza-st, 19,55, 7, No 1. 15-18 Abstr-net Wo abstract. Clnrd: 1/1  M9 k Vf-~ (C~ H ) USSR/General Section - Problems of TeachinK. Abs Jour Ref Zhur - Fizika, No 4, 1957, 8248 Author Yenakhorich Inst Title Fixplanatinn of the Materials of the Sixth Five Year Plan in Physics Lessons. Orig Pub Sovetskaya shkala, 1956, No 4., 50-55 Abstract No abstract. Card 1/1  B3ZNIK, A.Ye., doteent; BATTARYAKOVA, II.R., assistant; OIBLEVSKkYA, U.N., assistant; FFJ)O=IKOm F-H-m assistant; DAVYDOV, V.Ta., assistant: ordinator; GRIJITIS, L.P., ordinat Ior; R"I KOVA, K.A., ordinator; IBRAGIHOVA, A.M. Clinical f eatures of the inf luenza, outbreak in Eazan in October 1957. Kaz.med.zhur. 40 no.1:34-37 Ja-y '59- (MIRA 12:10) 1. Iz kliniki infektsionnykh bolezney (zav. - dRtsent A.Te. . Roznik) Kazanakogo meditsinskogo instituta. (K& W --INFLUNuzk)  T.&WAYNA, D.bh., assistant; DAVYDOV, V.YA. 1-1~ Three cases of leukopenia vith agranuloc7tosis of varied etlolog7. Iraz.med.zhur. 40 iDo.3:64-67 Ky-Je 159. (MIRA 12: 11) 1. Ix kafedry infektsiom7kh bolezney (zav. - dotuent A.Ye. Reznik) Kazanakogo meditsinskogo inatituta; na b..ze 1-y infektalonnoy bollnitsy (glavvrach - D.P.Patrov). (IJMOPMIA) (AGR.41MU)CYTOSIS)  YENALEYEIIA,-D.Sh., assistent Ocidation-reduotion processes and respiratory fimation of t~e body in epidemic hepatitis. Kaz. med. zhur. no.5134-37 S-0163 (KM 16:12)  TLNALV-YLVAJP D.Sh. Characterlstic-1; of oxlAa' respiratory function of the bcd-.,, Jil hartitl' tis with predrdsolone. Sov. red. 28 n:~.9:!,8-52 S 165. X1 W~ 18:9) 1 Klinika infektsionnykh bnji~zj,.,-,y erLl~ent A.'Yo. hemik) ;;zanskogo maditsirzkogo 1-nutitaul,