SCIENTIFIC ABSTRACT KISLYUK, N. - KISLYY, P.S.

%b. I vn - bdwh6@ Was appr -  LOW  NDSKALZXKO, B.I.; WOVICH, H.S.; BACHINSKIT, YU.T.; TOWL11I.A.T... XXDMXV. P.M.; WXAJUVA, N.M.; OOWMT. F.D.; GATMXDV. O.Z.; ALITEKDY, T.T.: STIVIS, N.D.: MIBDIDTA. Y.T.- BEATIATMA, U.S.; TSYNSIMSKIT. Sp@.; MICHIPOM, P.: KOBZARI. V.I.: BURNOVA. U.S.; PIUMN1=11Y. Y.N.; GORDIMCHUX. V.I.: SEKOLIGOo V.I.; KIS MI, N. Fifty years In to sugar Industry. Sakh.pron. 33 no.W8 7 159. (MA 2223) (Shtepen, Goorgil Vlachoolayovich, 1888- )  f"no--rrCelus ti@64 kmittime method USIDC IldtAtIon Ustes F@n twi- "Yets,n nutomtxc ro)oilsory marbirm. Iar,. prom. 17 (r,pttirw mphiram) (Hostery ludustry) (KIJA  BROVMAN, M.Ya.; VYDRIN, V.N.; YF.9.-MHIN, F.K.1 KISLVKj V.A.; KRAINOV, V.1.1 LEVINTOV, S.D.; RIMEN, V.Kh.1 SMEHRYAKOV, A.N.; -B.E. @Iethod of controlling the tension in continuous rilling mills. Stall 25 no.7:629-631 Jl 165. (MIRA 180)  WOW 43 ACCESSION NR: ATS023743 UR/0000165/000/000/0040/0049 4< cc @< Kuroyanove, A. 11. AUTHORt G!Y!ilov 1. V.; Duma A# S. # 9 1 44 TITLE: Selenocentric coordinates of 160 base points on the lunvr..s4r(*cC SOURCE: AN UkrSSR. Figurs i dvizheniye Luny (Shape and motion of the Moon), Kiev, Naukovs dumka, 1965, 40-49 TOPIC TAGS: lunar surface, moon, selenography ABSTRACT: Measurements of the space coordinates of craters contained Ln the Schrutka-Rechtenetam catalog (Schrutka-Rechtenstam, G., Mitteilungtn der Universitatosternwarte, Wien$ 1958, 9, 17, 251-303) were made at the GAO AN Ukr. SSR. The results together with the data of Schrutka-Rechtenstasm aid R. a. said*1 win (Baldwin, R. B., The Measure of the Moon. University of Chicago Press, Chicago, 1963), served as the basis for the cumulative catalog of spitce coordin- ates of 160 base points presented in the article. Initial results o'! a w1ution. of a concrete selenodexic problem are presented, and their accuracy to dis- Cussed, Calculations show that the center of mass of the moon is lo-:ated somewhat, to the northeast of the accepted c-enter of V. figure* "In core--lusbin, the authors thank Y. A, Vasilanko and calculators L, 11, Zinina ana S.- At. taslayak"a -1 Card 1/2  L 3422-66 ACCESSION NR: AT5023143 the romputations." Orig. art. Not 4 figures, 4 tablost and for assistance in 15 formulas, ASSOCIATION None SUBMITTED: 1ZHay65 EMLt 00 SUB CODIt AA NO REP SOV3 001 OrMERt 003 i Card 2/2  X1 armil I V Rural hydroelectric povnr station built of precast reinforced concretto Sol'. strot. 13 no*6:'A5 Je 058. MaA MO 1.5tacshiy inshonar Itrovelcogo treat& OS"Velektrostroy.0 (Kirov Provinco-Hydroelectric povnr stations) (Precast concrete construction)  nn;sf!hnyZ iotrijInik Yello, pear r,-Ptln Inanet Quadraspild' 10 till, pyri. 7Amhch. rest. ot vrfid. i tot. 10 no.601-32 105. MRA 180) 1. Vaesoynanyy notacYinc~-iq.-jlpdov^tml$nV-ly institut vinodellya i vinogrAdnirstvei *Mngarat-h", YRIta.  KISMV AsAds -A-A110 Splioing of r-a-.Il lengths fbr curved i%6c'.ions. Put' I putoidxt* 9 no,609-41 to".* OCITIA 1816) 1. Putayapi miahiqna@m Bi.antslyn No.121, stAnts.lys U-tilyany, lugo..Zspadnoy +,rce.,  )IM011. A.D., lushossr-mokhaulk; NOTONIRUIT, B-P., inshnner-miekh"IkS =Ism No L?., bricadir: SHCHMINSKIY, A.I., kombarner, Gervir Desslausti- cheakags truda.- be kombaya*ro Gorey notlelallstlebookseo truda; TABILICHIKO, 0- O*roy sollsialletichoftse# tpW&l JOYMO, Vp;.; POWYAN. To# koxb&mro Please think about It. Zmm. all& 32 u9.1t6-7 J& 157, (MU JoS4) 1. Direktor Asovskoy ordonAL lieftlas. Ykehinno-traktorner staxtell (f$r Namych). 2. Sametitell direktors Asovskogo uchilishohis mokbaalutsit sel"skogo khosymystva. No.2. (for Xovomirskir). 3. 20-ya traktorn3ra brigo," Asovskoy ordema Loalma Ykehinno-traktomer otoatell (for Dom n1seks), 4, Anevolmya MRshlass-tAktormaya stamtelya (for Moberibla- ekly, Kiel", Vasilloboake). 5. Nastor prolsvodetvonnsgo obuohonlya Asovsksge Industriallmogo takhaikum trudevykh resorrov (for Auteske). 6, Uohambehlyoya gimppy perspWotoyki brigadlrov traktoreykh brW Asevskege twhilishcha, viekkanizateit met'skoge kbosyaystva, Samrakey Nlashlaao-traktornoW stantsil (for PoItWam), (Combines (Aericultural machinery))  KISLrY IZ-A.-aspirant ;=Z= Methods for estimating the effectiveness of insecticides. Zeshch. rast. ot vred, i bol. 8 no.5s46 My 163. (MRA 160) le Nikitakiy botanichaskly sad, Yalta. (Insooticides-Testirg)  TIKHONOVAI N.A.j.WLYX, A.Top mladonly nauctiyy notrLdnik L:footive wthod for controning grarawy peste, Zaohcho ramto c.t vred. i bol- 4 no.2t26 Mr-Ap 159. (MIM 16:5) l. Zaveduyushchiy otdalam zashchity rastaniy Ya-y:wkoy obl"tnoy gosWaretvannoy aellskokhospystvamoy opytnoy otahtsil (for Tikhonova). (Crima-Cranaries-Diainfecti on)  KISLYY, G., mladshiy nauchnyy aotrudnik Specific manifastations of loosc s=t. Zashch. rant. ot, vred. i bol. 10 no.3t4O 165. (Km 1911) 1. Ukrainakiy institut rantonlyevodaiva, nalektall I genattkit Kharlkov.  XISLTr, I-s kandetekhnonauk (C.11761) Mapping underground wmolpal comunleations, wator-supply and @over systems, Zhile-kov. khose 10 U001112@ 160. (MIRA 1)tll) (Xmp draving) Underground construction) raine-Mmicipal services) W  KISLTUX, 1. 14. Notes on the anatour of wood In Araucariacesmo Bot.shuro 44 no.11:1624-1631 1 '59- (MIR& 13:4) 1. Leningradskly gnsn4arstvmnzWy ordana Lanins linivereltut in. A.A.Zhdanove. (Arsuoartaceao) (Wood--Anatony)  KI-JLYY, 1. F.. KISLYYp I. M.x "Morphographic-mrphometric chameteristice of the earth's aurface in the Ukraine near the seA or Azov." Min HiCher Education Ukrainian SSR. Kharikov Order of Labor Red Bwuwr Agricultural Inst imerd V. V. Dokuchayev. Chair of Geodray. Kharlkovp 1956. (Disserta- tion for the Degree of Candidate In Technical Science). Sources Xrdzhnay4 letopias No. 28 1956 Moscow  KISLTY, I.m., kandstnkhn.naiik C Cnnfnrencn on thm coordinntion of rmtinnrch In the field of pno4otic nnginnering In tba IP,,ralniun S.S.R. 1zv.vys.uch.4b. 2nv.: pnnd,l anrof. r-.5il7q-180 1 58. (MIRIL 11112) (Ukrainn-rmodeny)  KISLTT, I.M. [Kyelyi, I.M.] characteristics of the surface of tt.s Azov region of the Ukraine. Dop. AV URSR no.6:669--670 '58. (MIRA 11:9) I.Nauchno-lesledovatellsk-ly institut gorodskogo atrottelletva akadeall r strottellstva i arkhitakt USSR, Predstayll akademik AN USSR T.G. 'Uj Bondarchuk CV.H. Bondaroh (Azov region--Topography)  26-58-5-1,9/57 AUTIIOII( i kls-@Yy, I.M.9 Candidate of .'echnical -lulences (Kiyev) TITLEs The i,ast of the LysoL;or River (kronhloye reki Lysogor) +1, PERIODICAL: Prirodal 1950, Nr 5, pl) 112 - 115 (Uj@;Iq ABj,n A.RACTi A short report is given on conditions of the Lyno,;or River of the Ukraineg C.,,ornil;ov Oblast'. AVAILABLEs Librarjv of Coneress Card 1/1 1. Lysogor Rivar - History  22(l) SOV/3-59-3-35/48 AUTHOR: K'Lslyyl I.M. Candidate of Technical. :;clenc,;n ------- TITLE: ....... - Coordination of Research in the Field @)f Engineering Veodesy in the UkrSSR (Koordinatsi a Issledovaniy v oblasti inzhenernoy geodezii v USSR@ PERIODICAL: Vestn1k vysshey shkoly, 1959, 11"r 3, p 70 (USSR) ABSTRACT: The basic problem of the First Republizan ConfLrence on Questions of Engineering Geodesy thit took place in Kiyev wan to coordinate the research work conducted in tile Ukralne. Over 300 specialists from scientific- research institutes and vuzes, design and production organizations of the Ukraine and the R"JIFSR participa- te in discussing these problems. Engineering geo- desy is, first of -all, geodesy in the building trade. The reports delivered by A.M. Kns'yanov, Director of the Nauchno-issledovatellskiy inntltut f7radostroitel' stva i arkhitektury USSR (AcY.'@r'-.- o' llui! linf@, im] Architecture U`krSSR) and Corresponlini-, Mmber )f the Card 1/11 Academy, and by D:)ctor of Technical .,cienc,:.,.-,, Fro-  SOV/3-59-3-35/48 Coordination of Research in the Field of Engineerirg Geodesy in the UkrSSR fessor N.G. Viduyev (of the game institute) - "The Present State and Problems of Scientific Research in the Field of Engineering Geodesy" were the mont important of the Conference. Over 20 persons deliver- ed reports to the Conference. The--- reporto were de- livered by Docent V.Yu. Voiseyev (Kiy"ekiy Inzhenerno- stroitel ,nyy institut - Kiyev Engineering and Construct- ion In3titute) on "Application of New Engineering Me- thods in Surveying and ExamJning Underground Construct- ions", Engineer G.D. Onar (KLyevmetrostroy) - "Geodetic- Surveying Work at Building Sit.es of Timnels nrid Sub- ways", Engineer M.A* Brozin (K1yeY=trostrqy) - "Geo- detic Worlr in 'Bridgebuilding", Profesnor V.G. Leon- tovich (Kiyevskiy khudozhostvennyy ins-Atut -KiM In- stitute or Art) - "Instruments, Requized for Carrying Out Work in Engineering Geodesy", and others. The orators welcomed the openinm of a Depirtment for En- gineering Geodesy at the KI"Y Engineering and Con- Card 2/4 struction Institute, and -the astabli3hing of a  Coordination of Research in the Field of Engineering GeodeGy in the UkrSSR Section of Engineering Geodesy at the UkrSSR Academy of Building and Architecture. The conference resolu- t.,.on indicated the basic problems of engincerinr geo- dusy science for the next 7 years. These include: solving problems of geodetic electrcnics, of engi- neering-geodetic planning and its tt.eory, the theory of engineering geodesy, and taking of large-scale aerial photographs. It is intended to make devices for range finding, for town geodetic work, geodetic observations of deformations in constructionsq geode- tic work at building sites, for hydrotechnical con- struction, ro3d construction, and for underground com- munication surveys. The conference material will be published in a special collection by the Academy of Card 3/4 Building and Architecture of the Uk--SSR.  SOV/3-59-3-35/48 Coordination of Research in the Field of Engineering Geodesy in the UkrSSR ASSOCIATfON: Nauchno-isaledovatellakly institut gradostroitel'stva Akademii stroitel'stva i arkhitektury 'USSR (Scien- tific Institute of Town Building of the UkrSSR Aca- demy of Building and Architecture). Card 4/4 Ir  30) SOY/154-59-3-4/19 AUTHORt Xislyy, 1. V., Candidate of Technicsl Sciences TITLEt Results of the Work of the Scientific-technical Seminar for the Leading Workers in the Field of Applied Geodesy for 1957- 1958 and the Plans for 1958 - 1959 (Itogi raboty nauchnogo takh- n1oheekogo seminars, rukoyodyashchikh rabotnikov Y oblasti Inzhenernoy geodazii za 1957 - 58 9. 1 plan raboty na 1958-59 9.) PERIODICALt Izventiya vysshikh uchebnykh zavedeniy. Ceodeziya I serofotos"- yemka, 1959# Nr 3t P 143 (USSR) ABSTRAM The scientific-technical seminar for leading workers In the field of applied gendeny was or8anized by the Chair of Geodesy of the Kiyevskiy In:shenerno-stroitellwy Institut (Kiyev CIT11 Engineering Institu+e), by the Department of Applied Geodesy of the Sauchno-issiedovatellskiy institut gradostroltellat7a Akademii stroitel'stva I arkhitektury Ukrainakoy SSH (scientific Research Institute of Town-building of the Academy of Building Engineering and Architecture of theUkr6SR), and finally, by the KO VAGO. The seminar is already in its second year. Its aims ares Betterment of qualifications, exchas-zge cf experience made in Card 1/3 productiono advice on operations of applied goodesy. The following  Results of the Work of the Soientific-technical Seminar SOV/154-59-3-14/19 for the Leading Workers in the Field of Applied Geodesy for 1957-1958 and the Plans for 1950-1959 participate in the seminari Ukrainskoye aerogeodezicheakoye prodpriyatiye (Ukraine Aerogeodetical Lnterprise),Geotopos"yetkap VTIZ, Glaykiyevetroy, Ukrgiproshakht, Ukrgiprosakhar, Gipro- zdrav, Ukrgiprogaz, Kiyevgiprotrans, Giprorechtranst et4e . Following suggestions made by these organizations, the follosing problems were dealt with in the sonli;art large-scale aerial photography of cities (Giprograd)l clectronic rethods in the surveying of subterranean constractions (Ukraantakhzontazh); new methods of pegging in industrial and civil constructions "Promatroyproyekt, 01"kiyevetroy)l application of light locating .j,vatolokatelya) in 3urvoying (Giprotechl.rans)l principles of radiogeodeny (Ukrgeologiya); now geodetic instruments and apparatusl application of hygroscopic Instruments for the orion- tation of subterranean production @Kiyevmetrostroy)j application of aerial photography and of the echo sounder in hydrographic operations (Glaynoye "prayleniye Dnt:provokogo rechnogo parakhod- sty& - gain Idministration of the Dnepr River Navigation)# municipal geodetic frame networks (Geotopoe"Yemkah practice of Card 2/3 radiogeodetic surveying (Ukrneftegeorizika) From Septezber  Results of the Work of the Scientific-technicsl Seminar SOV/154-59-3-i4/19 for the Leading Workers in the Field of Applied Geodesy for 1957-1958 and the Plans for 1950-10,59 1957 to May 1958 the seminar was regulirly held twice a month. 20 lectures were deliveredl from 70 to 500 persons were assembled each time. The following lectures were heard in the course of the new years A. K. Golyahey, head of the department of state geodetic supervision of the KVD USSR (Ministry of Internal Affairs of the UkrSSR) "Survey of Geodetic Works of the Official Organizations of the 11krainskaya SSRHI Professor 1. 0. Viduyev, Doctor of Technijal Soiences,"The Present State of the Error Theory in Geodetic Measureme.nta"I Profeisor N. 1. Toystoles, Doctor of Technical Soiences."Experimental Aerial Photography for the Technical Investigation of Auto-highways". Twenty more lectures are provided. ASSOCIATIONs Nauchno-inaledoystelinkiy institut gradistroitelletya AS i A Ukrainskoy SSH (Scientific Research Institite for City Building of the Academy of Building Engineering and Architecture of the Ukrainakays. SSR) Card 3/3  KISLTY, I.N.. kand.fakht.nauk Leveling rods mnufactured by the Kalinin Soonolic Coumil. Good* I karts nool:76 J& 16o. (IURA 1316) (Buryoring-Instruments)  KISLYY. I.M. Slop,ja and elevations of drainage basins in the northern part of the region of the See of Azov. Sbor. rob. po 01rol. no 2tl44,- la 961. i)(IU 15 t 2) 1. Nauchno-issledovatellskiy institut gradontrottellstva Akademii stroitellotva i arkbitaktury USM. (Azov Sea region-Valleys)  KISLYY, I.M. (Kyslyi, I.M.) Studying the influence of the scale of a topographic map upon the socuracy of determining morphometrical Indices. Geog. zbIr, no.61l52-156 162. (HIRA 150) (Topographic maps)  18M 3OV121-59-1-12126 AUTHORS: Samsonov, G.V. wbd"@Kislyyl P.S. TITLE: A New Method of Making Pipes and Rods Of ifeat-Re- SiBtant Powder Metals and Their Compounds (Novyy sposob izgotovIeLlya trub i sterzhney iz poroBhkov tugoplavkikh metailov I 1kh soyedineniy) P&MDICAL: Dopovidi Akademii nav-k Ukrainslkol R,'--')R, 1959, 11r 1, pp 46-48 (USSR) ABSTRACT: This new method of making pipes or solid (without hole) bodies of heac-resistant and non-plantic metal powders or their compounds such as carbides, nitrides, borides, silicides, or sulfides, consists in pressing them in a mold, with the use of a punch with a central rod (for making pipes) or withcut such a central rod (for making solid bodies). The metal powder is mixed with 2-4% starch paste, which Is the best plasticizer for this purpose. The pressed bodies are sintered Ca.rd 112  SOV/21-59-1-12/26 A New Method of Making Pipes and Rods of Heat-Resistant Powder Metals and Their Compounds in an electric resistance oven at 600-7000 C, for 112 hour, and are then heated to a clinkering temperature for 5-10 hours, whereupon th8 furaace and works are cooled gradually to 900-1000 C. 3hrinkage averages 12-20%. Porosity changes from 5 --,o 12;j. There are 1 diagram and 5 Soviet references. ASSOCIATION: Institut metallokeramiki ispetsspLavov AN UkrSO"R (ln- stitute of Metal-Ceramics and Spe-.1al Alloys of AS Ukr SSR). PRESENTED: September 27, 1958, by V.N. Ovechaikov, Member of the AS UkrSSR Card 212  15 (2), 15 (6) ll"HOR": 1jeshpor, V. .3. , Kinly, 30031-59-5 A A v, P. S. -9/12 TITLE: Not Prqnning of Chromic BorfAe Powder nni Some Pronartins of the Jinterad 'Jaterlnl (Gor-Inchoye preanovanlya poroahkrt borlda khromn i nokotor?ye evoystvn spechonnowo m:iterinla) ("an,:uporys 1959, Or 5, PP 231-23; (W'30 A" "MI! In the prqsent paper, the authors investigqtb the 3intoring, conlitions of the chromic boride powder which is obtninad by the reaction of chromic oxide and boron carbile. The che-icq! compocition. of chromic bortlo to givfn in table 1. The ninterine of the chromic boride powicr was Iona by hot pr@--asin6 by means of -i laboratory lever proan (Fig 1). !t a te-npernture of 2000 ! 500, a pressini- effect of V10 I-r/ nm2nni a 3 'I intoring tLne of 10-12 min, it w.%x poenible to obtnin namples vvith the minimira porosity of 3"? (Pig 2). The molting tomper9ture of the CrB 2 nacertainei by thq authors In 2200 f 50 0 which comon nonr the t-impernture nscort."Inel by .nr1rovokiy (Ref 3). Figure 3 nhowa Vv? -relative ch-nge in 0 stimplen reInted to I ci2 Cari 1/3 nolf@-ht at 1200 of the CrB 2 surfAce  Hot Proniing of Chromic 3orida Powder ond Some zov/1 Properties of the Sintered Uaterial and figure I roprosanto tho curve of the change in welpht. This change In weight In n function of the time of oxidation. The oxidation stnbility cf the boriden n9certainol by Kotollnikov (ior i.q correnponrl.-; to the one In the prenent pnpor. The coefficients of :,xplinsinn of three aFimplos with different nirosition at 5000, an well is the reniatnnce to preanure ind rupturn of chronic borido samples with different porosities, are further irdicated. Some proportion of the chromic boride nre given in table 2. Concerning the otability of the chromic boriele agpinst the action of notive reagents, the nuthors of this article refer to the papers by Kotelinikov (Ref 14) and "flodylevsknya (Rof 22). The indicated properties of the chrcmic borile permit its use as a constituent of heat-renintont alloys. A shortcoming to its brittleness which cin be reluco4 by cementing the borido grains v1th a metal binling tgent. The cemented chromic borile can be used for the :snufacture of nozzlen for spraying fused metals, of cruciblec ani copts of therno- elements for the tomParr-ture t;ieanurcment in metn1lurgicnI Card ?/3 furnaces. There are -t rigures, 2 trillei, an-1 ;19 references,  Hot Prnvilng of Chromic Doride Powder -ind 13omo 3011/131-59-5-9/12 Proportion of the Sintorod Material 17 of which are 3oviot. AS'3OCTATIOIN Institut metallokoramtki i aretninlInYO, snlavov A'I USIq (Institute of Povior Iotnllurry -0 Specinl f3loyn of the A3 Ukz-333) Cari 5/13  11300 67835 SOV/180-59-' 20/31 AUTHORSt Kislyyj P98*1 and Samsonov, G.V. (XIYOV) TITL3t Hi'gh.-'1'91'm.-p.'e-.r'-a'M!;re Semiconductor Thermocou 149 PERIODICALs Izvestiya Akademii nauk SSSR Otdeleniye takhnichasklkh nauk, Metallurgiya i toplivo,1459,Nr 6,pp 133-137 (USSR) ABSTRAM The authors classify service conditions for high- temperature thermocouples and discuss suitable materials with a view to extending the present range of temperature and composition conditions. "Mey give 9.m.f. vs temperature curves (Fig 1) for the following alloys (mol Ps 20 MOSi2 + 80 B4C; 20 TiC + 80 CrS12; 20 TiC + 80 E4C. The highest e.m.f. is obtained with systems of titanium or zirconium borides. with boron carbide the temperature dependence of which is linear above 360 OG9 and these systems are stable. The authors propose a thermocouple design in which molybdenum silicide or titanium or zirconium boride or carbide or similar material forms the sheath. The sheath at the same time is one electrode of the couple, the other being Card a rod of e.g. boron carbide located Lnside the sheath. 1/3 The junction is formed at the tip of thG sheath by welding. Fig 3 shows the calibration curves for  67838 SOV180-59-6-20/31 High-Temperature Semiconductor Thermocouples TiB2 - B - 0; ZrB2 - B - C; HoS12 - B - C. Leads are attached either by soldering to a silver-paste deposit or with the aid of copper clips. Laboratory tests of couples for 150 hours at 1600 OC showed their stability to equal that of platinum/platimm-rhodium couples tested at 120000 but under otherwise similar conditions; production tests were carried out at the Alchevskly metal- lurgicheakly zavcA Imal Vor*shiloya (Alche"k setallurgeal vorks In. Voroshilov)j measuring bpen-hearth furnaae waste-gas temperature Showed their suitability for temperatures of41800-19000C under oxidizing conditions. The authors maintain that by suitable choice of materials a very wide range of requirements can be covered.,/ For example a sories of couples of borided graphitawwith borides are suitable Card for vacuum inert or reducing atmospheres up to 2/3 2330-2300 4C the e m f. rising linearly up to 90-120 mV from 5-6 at 300-400,06. There are 3 figures and 16 references, of which 13 are Ul Soviet, 2 German and I is English*  67838 SOV/180-59-6-20/31 High-Temperature Semiconductor Thermocouples ASSOCIATION: Institut metallokeramiki i spetsiallnykh splavov USSR, AN Kiyev (Institute of Metallo-CeraLiOS .@ I SUEMITTED: June 29, 1959 and Special AllOY32 Ki@@4) @K Card 3/3  15(2) AUTHORSi Samsonov, 0. V., Xislyy, P. S. SOT/131-59.6-9/i5 TITLEs Tsohnology'of Producing-Tu'"s and Rods of Molybdenum Disilicide (Tokhnologiya izgotovleniya trub i sterzhn*y iz disilitsida molibdena) PERIODICALs Ognsupory, 1959, Nr 6, pp 276-278 (USSR) ABSTRACTe For the production of tubes and rods of HoS12 a mold is used in which the mass is pressed through a nozzlt/as is shown In figure 1. The unworked tubes and rods were dried for I - 2 days at room temperature and then sinte-"d In Taman furnace* in a hydrogen medium. 1n doing no, the unworked 0 pieces were at first heated up to a temporature of 600 - 700 halting time 30 minutes# and then the sintering process was finished at a temperature of 1950 0, halting time 5 - 10 minutes. After that the products together with the furnace 0 were cooled down to 900 - 1000 . A deficiency is the high electrical conductivity of the hosting ele=ontR onds of molybdenum diellicids, 1xperiments intivdacIng silicon- Card -aluminum- and zirconium oxide In the layer were made to  Technology of Producing Tubes and Bodo of Molybdenum Disilicid* increase the electric resistance. Tubules of molybdenum disilicide can b? used for the production of electrodes for semi-conductor thermocouples. V. S. Sinellnikova took part in this work (footnote 1). Figure 3 shows the characteristics of such a thermocouple. There are 5 figurest I table, and 4 Soviet references. ASSOCIATIONs Institut metallokeramiki i spetsiallnykt. splavov AN USSR (Institute of Powder Metallurgy and Special Alloys of the AS VkrSSR) Card 2/2  18 AUTHORi TITLEj SOV/21-59-8-12/26 Samonov, H.V., 9yue11jiAv-r& V.e,.p Kysl@rs'p P. 0. (sameonov, 0. V#t '@':Yllnikova, V. P. 8.) . A. Alloys of the Boron Carbide - Molybdenum Disilicide Systea PERIODICALi Dopovidi Akademil nauk Ukrainalkoi HSR, 1959, Nr 8, pp 066 - 860 (USSR) ABSTRACTt The alloys of boron carbide with molytdonum disilictd* posses a high and 9table themal e. o. f. which is used when creating high-temperature thermocouples [Ref. V. The boron carbide, however, ig,at its high resistance to heat, (Ref. 27 not yet sufficiently resistant to oxidation at high temperatures. This calls forth the necessity to add components to the alloy which avert or stop its oxidation. In connection with this, the properties of boron carbide - molybdenum disilicide alloys were subjected to investigat- ions based upon the method of metallography, X-ray patterns, conductivity and thermal e. m. f. Formation of the quadri- partite phase Mo (B 1c,, Si) is f,3uni. It has a very wide homogeneous region across which (from 10 to 150 mol.% MoSt Card 112 in alloys with bor3n carbide) electrical resistance  jOV121-'9-8-12126 Alloys of the Boron Carbide - Molybdenum Disilicide .;ystem increases and thermal 9. m. f. decreasits, in accordance vith the degree of defectiveness of the lat'.ice of this phase. The investigation of alloys in view of their resistance to oxidation has shown (Photo 2), that an alloy which accord- ing to Ito composition ccrresponds app:oximately to the quadripartite chemical tcmpound, possoisen the highest resistance to oxidation. Additions of disilicide of love than 50 mole% decrease the resistance .)f alloys to oxidation. There Is one set of photos, 1 diagram ind 5 references, 3 of which are Soviet, 1 American and 1 German. ASSOCIATIONt Institut metallokeramiki i spetsiallnyth splavov AN USSR (Institute of Povder Hetalltirgy and Speciil Alloys of the AS of UkrSSR) PERIODICALt By V. M. Svechnikov, Member of AS Ukx33R SUBMITTEDt December 22, 1958 Card 2/2  8/18 1 /,30/002/000/007/045 B006/BI)70 AUTHORS; Samspnov, G. V TITLE: The Diffusion of Boron in Carbon PERIODICAL: Ftzika tvardogo tola. 1960, Vol. 2, No. 8. Pp. 1729-1732 TEXT: The authore heve already performed preliminary etperimente on the diffusion of boron in graphite and investigations of thst properties of the tWX=.qALDjUAobtained in this way. It Is found 'he*, by the diffusion of boron in graphite alloys are obtained whic'i show greater solidity and lower brittleness than boron carbide obtained by compression under heat. These alloys have semiconductor properties. and can be utilized for the preparation of high temperature thermo:ouples. By the diffusion of boron into the surface of graphite samples, thpir corrosion resistance becomes noticeably higher, particularly at higher tozperalures (Refs, 1-5). The purpose of 'the present work was to invastigate th9 mechahism of diffusion and to determine its parameters. The objert 01 investigated was a cylindrical sample of spectroscopically pure FZ!,phit* Card 1/3  829p,e The Diffusion of Boron in Carbon S/18 (0/002/008/007/045 B006YDC-70 onto whose surface a 2 mm thick layer of a paste of amorphous boron was applied. After the samples had been dried at 15000, thej- were enclosed In a graphite shell and preheated in an atmosphere of hydrogen (700 - 8000C. 60 - 80 m1n), After this treatment the samples were sub,@ected to metallographic, chemical, and X-ray analyses. Further, fhe reverse process of diffusion of carbon in boron was inveatigated. For this purpose, boron samples of a porosity of 36% were employod. They were prepared by,compresslon of boron powder and sintering a% 1900 C. In this case there resulted a saturation of the carbon samples isith carbon In 30 minutes in a vacuum oven at 19400C. Experimenta showed ihat In similar conditions the boron penetrates deeper in carbon 0.4 - 1.6 mm) than carbon does in boron (0.6 - 0.8 mm). Thie indicateo a r-imaricably higher mobility of boron atoms. The diffusio coefficients wer-) calculated to be 6.2-10-6cm2/see (B--9C) and 1.8.10-gem2/seo (C--*B). N-imerical data for LX two samples showing boron content at different dept)-.9 of the carbon sample (chemical analysis) are given In Table 1. Th*Ir ?raphical representation Is given In Fig. 2. The boron concentration diminishes exponentially with depth. That a solid solution is formed due to Card 2/3  82988 The Diffusion of Boron in Carbon S/181/60/002/006/007/045 B006/BC70 diVusion, is shown by an X-ray analysis. Here the tnterplanar spacings of -raphite lattice are measured an function of boron ccncentration (Fic. 3). Further, the temperature dependence of diffusion of boron In gralhite Is Inveatigated (Fig. 4). D - 3.02 exp(-26625/1') in found to hold. Numerical values are given in Table 2. There are t, figures, 2 tables, and 6 Soviet references. ASSOCIATION: Isistitut metallokeramiki I spetairAlinykh nplavoy AN USSR (InatitUte of Powder MetallurgZ and Specittl Alloys of the AS UkrSSR) SUBMITTED: October 20, 1959 Card 3/3  ko 1 11(of 5 '9971 S/15-1/51/000/002/001/OC2 B 105/32b6 AUTHORS: Samsonov, 0. V. , rislyjy S. . Panaayuk. A. D. . Strellchenka, A. G., Khavrunyak,-'I. G.. Serikova. G. 11. TITLE. Shield tubes from zirconium bortle for immersion thermocouples PERIODICALi Ogneupory, no. 2, 1961, 72-74 TEXT: The article describes experiments and studlea eading to the manifacture of shield tubes from zirconium boride whl,@h have a high thermal resiutivity. Shle'Ad tubes produced from zirc.)nium dioxide, *hIch w1thstand immersion into molten steel at 1650-17200C for a short time, %ere elaborated at the Leningradakiy takhnologicheakij inatitut imeni Lerscveta (Leningrad Technological Institute imeni Lensoret). Studies cf thqir stability In colten cast iron and stool, made at the laboratorlya .'uKoplA.vkikh materialov (Laboratory for H'Agh-melting Materials) of the JW;itut metallokeramiki I spetsiallnykh splavov AN USSR (Institute of PC*d-!; Metallurgy and Spealal Alloyn AS UkrSSR), ahaved that zirconiuz bczlde ZrB to of extremely high thermal resistivity and thus %ell suit#d Card 1/,#@  89M Shio'd tube6 frcm zirconium boride ... 3/151/61/000/002/011/002 M5/vo6 f@,.- shield tubes of thermocouples. Suc+ a shield tube to schematically ..O@uvn in Fig. 1. The blanks of the shield tube are driol and einterod in an electric furnace at a temperature of 2050-22000C. The aintered &hl#ld tubes have a fine-grained fracture and a porosity of 5-12%. Shield tubes with an outer diameter of 11 and 16 mm ard an Inner diameter 4 and 11 mm were made. They were tested at the folloving metallurgical plants: zavod "Zaporozhstall" ("uporozhatall" Plant), zavcd im. D@vrzhinjrkogo (Plant Imeni DzerzhInakly), Alchevskly tayod (Alcheyekly Plant). as well an the Xlyev plants! zavod "BollshevJk" ("Dolsheylk" Plar,%) and zavod "Leninskaya kuznitsa" ("Leninskaya kLznitea" Plant). 1rhen test!Lg the shield tubes in molten cast iron at 1400 io 14500C In a Kr,),ptel furnace. it was found that they are only sliglAly covered by elag and Pot cor:-oded, and that they maintain their initial structure. Whon tested duriig tapping of cast iron in a blast furnace, they withstand 15 @appings with a total stay of 10 hr 53 min In aoltvn metal, In ar. ,,@ptn lioarth furnace with basic lining, shield tubes tire corrodee. by baslo slqo@6 and destroyed after 30-40 min. The outer diameter of the shield 'tire3 is riot reduced during Immersion In molten steel and a stay of Card 2/5  @.;- @-' I Shield tuben from 7Arconium boride ... 3/151/(,1/000/002/001/002 B105/B,'06 40 45 min. In small open-hearth furnaces, shield tubeii withstood the total malting time (2 hr) without any damage. Their thermal resistivity Is determined by the number of immersions Into the tank of the open- hearth furnace and is at least 15 to 20 Immersions, permitting the temperature of the steel to be regulated luring the "n ;ire heating-up pqrt,@d. At the Kiyevskiy armaturno-mekhanicheskiy zavol (Kiyev Plant for Fittings and Mechanical Equipment), zirconium borlde shield tubes with- nt-;od 86 hr in molten brass at 850 1 500C without any lamago. At the "Leninakaya kuznitsa" Plant, the same results sere obtaineJ during a twat In mol *en bronze of the type AMU@ -10-2 (AUTs-10-2). B,isides the authors, A. G. ;etrenko, Ya. S. Gayvoronskiy, N. M. Tenishov, V, G. Tishchenko, I. R, Krichker, G. G. Bespalyy, G. A. Yasinskaya, an wtll ao collabora- tcra of %he plants mentioned participated In this studj. Shield tubes Arom 911toon nitride (S13N4) also show high stability In molten brass at 850@'C. The high stability of zirconium boride shield tubes in molten -Eitiels and cast iron makes It possible to use them in tanks of open- hearth furnaces. blast-furnace channelo, nnd steel ladles, Z'Aroonium btrHo shield tubes showed high stability In molten br:@nzes and brass. Cor@tlnuous t9mrerature measurement of metals in melting furnaces can be Card @/5  89M Shiell tube!3 from zirconium boride ... S/131/t;1/000/002/001/002 B105/B.!06 made vith their aid. There are 5 figures and 6 Soviet-bloc references. ASSOCIATION; Institut metallokeramiki i opetsiallnykhoplayov AN USSR (Institute of Povder Metallurgy and Special Alloys AS UkrSSR) Samsonov, G. V.. K18IYy, P. 3., Panasyuk, A. D.1 Institut avtomatiki Gcoplana USSR (Institute of Automation c,f the Gosplan of the UkrSSR) Strel'ohenko, A. G., Khavrunyak, I. G., Serikova, G. N. Card 4/,,,  . KISLYY,,.LLj LAKH, V.I.; SAMSONOV, G.V.1 STADPIYX, B.I.; XHWYKOj R.F.; CHEXHOVICH, A.B. Thermoelectric characteristics of high-temperature thermocouples vith refractory electrodes, Itm.takh. no.5:21-23 My 161, (MIRA 1415) (Thermocouples) .-0  2LI 30316 I I./(, 1 /4 Io (I/o I O/of I VOO i-(P7'5/Vr, -,r, j t1i 0 - I; v I IS arid Vaotaakvlik t I I t, t. I olle I- ti opt 1) 1t hv T mo r oit Is I e a W I t to It I vh me It i tig po i is I-I d P I vc I roole% 11VU 100 1 CA V: I vitict I to, I 'nayn trkh"t kit , no It) I 9b 112-34 *1, @, x,r ZrC ond Iris,, have I he Invotirnhi 4* ( toinbs tint ton ot' hi gh strength Jow electric pood tiovi-mal condiactivtty moderate coefficlents 4)1* therta,11 expitn-4ion Mod A high resistance ngainAt. the ef*fect of' agicre-4si%4- nt--diA, incitiding molten metals avid slags, The authors deAcritit- the ro-stilis of' investigatiotis of the thermoelectric pronert ies of" tiier-mocourOes with electrodox rfl,, 11,,j I(J"in made of these materials. :z electrode compositions wer-o llqe-d 1) virtualiv s4tisichiomi-tric Zr-H with a free carbon admixture of' approximaiely u.4--,. .!) zi-C cogttining 85.1% Zr, 12.8;1@ C tota I ( 1. b2% f rep C ) , Aoid 0.05,@ Fe*and 3) ZrC of the dtamp compositton as above af*tct- -eparation of the free carbon by mr.,11141 nt, a -Ronp sollitiots. From these materials thermoelectrode :-pecimetin prepared a"d cotipled with platinum, fhetr thermal v.m I . was di-cervivined af'ter treolmerst f'or 10 and 20 hours at high i -%rd 1/2  30316 iti.-t nooet vc t its proviert, ters or @S/l 11311411141(jOloluloorl,10011 M)71/F"@55 temperatut tks let 11., '111(1 CO 4 11, 1114 - A I $a fho- pus-o #it s- (it' I I ve carbon "tint-ol v nt I I,(, t - tlo@ ntAbj I I tV f;1' I 1w I lit-ronal v rro I oil' /rc 1.1vt virmination (of tfic vArint.ims wi Ih I elng,t-I it (111-c- lot t top t lie I wl -.m. f . of Zt It,, wid /o-C t4howcol that on a thermotntild v wj tit /rC tvr A v - i I., e I I. c I 1, 4 1 0: #4 -1 % ti-twolly Jim-ar- r-r-lAtionship exi-mtqq betwern I urniterature mid thermn I 0-M. I t^- 7 @41-0 lburmoctotiplem Iw%,.f1 mi theso mat ey P-or I -q havo- -it I v I I vht therma i Ir I" I I Iuc fit-.- A 0 it.-% I I'llf, tbt-,$ 'llcomfill. W.101 callitratod -Ignin-41 '11111ther thermo- t1uIlle tit tilt raoi.e @_,U to 1:@,ws i- an-1 b, m--an,- ,t- .4n t-?' I I t 'I I I'v I offoi. f I- t oto I It C. I vIntl 0. r @1 Iits f. tik)fl 1 41 A irr-11411 1 4. tw'-ft $-1 0 1 it dellsfull whicil i It I I IwALvated tit the tAlj#,r %.,s% 11.4vA 1 h i N o-miti I vo u ;I I i liva t i a* ii it,, t n @okivo`(' , I lie stalso I a t %, o - f I ho caltbrats,-ri cstt-i- i. -, checkud lov hol#iotix the, lit-imocooortle -it thmCc a -it -)(A) I w I 1t)q) ;11111 '.!UOO' C t bit t .1 t, :,4100 i- 111 v 61.4 it a 1, d I f!0 1 1, V . tj i . I t os f t lie rip do- or - f I itel-f. a I.*. I C I V. 1) 1 1 v it nd to 1- 4- 1 o- i vit c e -4 : It Sol%- i et It pill I non et . L a I - I 1 '.1 /  IAKHp V.I.j PRMORENKO, V.Ya.,- UMBUKH, L.S.; -XISLTY, --?-S.; PANZYUKo A.D.; SAMSONOVp G.V. Tempemture menouremMt or the atmosphere of an allumbum electrolysis can. TSvet. met. 34 no.808-40 A 161. (HIRA Us9) (Alunimus-ZlectromstalluO  S/226/1-2/000j'00Z'004j0I0 1003/1:03 AUTHOR: K@IyLLS,, Panasyuk, A. D. and SArnsonov. G. V. TITLE Activated sintering of nioFum carbide PERIODICAL: Poroshkovays metallurSiya, no. 2 I%Z 38-43 TEXT: Niobiurn carbide is used in construction or high-temperature resistance funtaces and ror high temperature thermocouples. Sintering of niobium carbide should be done at lempersiures up to 30DO"C which are, however, difficult to attain. This work investigates the possibilities or lo%crint sintering tempera. tures of niobium carbide poweders by activating the sinwing process. Since additiors or r ickei rail to activate the process to any submantial extent, the authors used 270 mesh niobium carbide powdrr containing 98.31Y. of Nb and I I % or c with an addition of I % of Fe and 2 % of CoCII. Physicochernical properties Are given or powders sintered in resistance furnaces at temperatures ranging from 1700 to 2600'(-' in an atmosphere of hydrogen. Their lower porosity as compared with that of niobium carbide powders sintered v6ithout any activating additions is stressed. There are 3 figure& and 3 tables. ASSOCIATION: Institut mciallokeramiki i spctsial'nykhspI&vuvAN USSR (Institute of Powder Metallurgy and Special Alloys AS UkrSSR) SUBMITTED: June 11, 1961 Card 1/1  S/2261'621=1=1007/010 1003/120) AUTHOR: KLslyy. P. S. TITLE: A device for measuring the shrinkage and the electric resistance of p)wders during the sintering process PERIODICAL: Poroshkoveya mctallurgiya, ro. 2 1%2. 74-76 TEXT: Because sintering is the last significant stage in the production or metal powders, it requires a process control, such As provided in the present article. This devioe permits direct measurements or shrinkage and electric resistance which properties reveal any faults in the micro. and inacrostrucuire of the sintered material. The device consists or an original dilatorricter or high-grade graphite. which also mcasum the electric resistance of the sample. It was first calibrated on copper and quattj,. samploes. ind a comparative measurement of electric resistance of copper showed that the maximum error of the dc%ice is There are 2 figures. ASSOCIATION: Institut mctsllokeramiki i spetsial'nykh splayov AN USSR (Initituteof Powder Metallurgy and Special Alloys AS UkfSSR) SUBMITTED: September 12, 1%1 Card 1/1  16 oo 39927 S[226/62M00,1001'005/014 1003/1203 AUTHOR Ki!1.yy.-P-S-&n44Gmsonov. G. V. TITLE Extrusion die-forrning of pipes and rods from refractory metal powders PERIODICAL Poir oshkovaya metallurgiya, no. 3, 1962, 3148 TFXI Me article deals with the problem of extrusion die-rorming of mixtures or rcrractory compounds with plasticizers, outlines the technological vocess or ma-Wacture by a method never before used rot refractory metal powders The initial conditions of the powders, the method or preparation or the mixtures. initial grain size, the type. amount. and method of introduction of the plasticizer. applied pressure and bufridity of the powder and their effects on the properties of the finished products are discussed. T%cr-- arc 15 figures and 2 tables ASSOCIATIOW Institut metallokeramiki i spctsial*nykh rplavov AN USSR (Institute of Powder Metat lurgy and Special Alloys AS UkrSSR) SUBMITTED January 4. 1961 Catil 1,11  .)/,. 2"A21WOlOW10O."I'01 2 IW311M AMWdj: LIVOV, J.44., ifu"WICIL.O. Va.. KislyY. P.S., ver,')@Jyudova, T.S. WAA 40691SPOVIA, - ----- TIT": J@lvctriu propertiua of ooilwas. carbidev, and nitri-es of chro=lum Pzd"U'UICAL: Poroshkovuya wutulluriya, uo.4, lj62, 20-25 rl 'hile electric pxop@..Ctiuj of thu &--ova co@powxia have not b,er. -"I'Icluhtly )L:1vestij;au:,A. In tliv Rcosicut work tho electric resistivity, the Rau ef.ect, th, therual amf t4u thu-imal coefficioat of electric resistivity - ar" tj@c coerriclujit a; jjuut cjtiAuctivity h of all borides, arA nitridas of chromj= were invoutigated at rooQ temperature. The 2mfluis" of car@oon, boro:2, " nitrogen uh the eluctric properties of their co6pour4s with chrouium is In good agree- wont with the re&larities dialilkyed ky tau boridesicarbiuas, and nitride* of all iroup 1V-V1 trimuitlun L-etals- ihere are 3 i4-uras *rA 1 table. A@"gWlult: Asrsonakiy i;oaudarntveuAyv podagogichoskiy lualitut La. N.K* krupsicoi i Dwtitut "etallokemdAi i spetsial'jiYkh SplavoY AA2 UJ.;R  W98 w22q,.2/"/"AV7/012 y Thu )ruu,jcutu 'ur ut..izizc reractory co@poums for -.he manufacture oi' tAmmocuupies Poroahkovayn j-t@tallux@;-qa , i-o.4, 1)62, 5C-55 Alz.AT: T.-.u fv.'&owij%; t,Aer-.-ocou,,Ic-,u were i)z-*?axod; hoSi i@Si for temperature &it aaurcLe4;I*a An oxidialsk; wedia up to ' .7th?C, C/4rb Vor &.es 4oenia of the teii.peraturo Of LOlter, "otals, atecla a--u u1841 a;.d qTiC for &Lcajurezei.ts in reduciiq,, &.d ii& otr.ojilziik: -..alia a. %e-kcrat-ca uo to 2S.OU C. Tho to-tinZ ot the aime and o:' thi LrB 4zC tl.er-ocapleu ;." vur-u-is showed that their =f chatijed after 155 @..;P-.Ar er tcstij@a b;( values pcra-u@.ble accordi-@ to techrAcal specificationz. "he productim Of Ldt&I powLer themociuples uiti tho sz;e e:.f versus te2perat"re values is ratlior difLicult as theas valu@3u are a*r-jr4aly influenced by even the r-811- cat chafj;08 ;.Ii the pk-cArut.@uti Lau i- the a-riterini; uf the @Actal powder wires. Timrt are 4 fifiures aad 2 taLolus.  KISLIls Sintering of blm*o by co"ating high-WIting ompounds in dyes. Porosh.mt. 2 no.5t7O-78 S-0 162. ()aRA 15 t 11) 1. Institut wtallokova*W L qmtsiallnykh splavov AN UkrSM. (Powder wt&Uurgy)  KISLYI 0 t.S!; LIVOV, S.N.; NtXHZMp V.F.; SAMOHOV, G.V. Physical proportion of the borids phasom of chroaiun, Foroob, set, 2 no.6t5G-53 N-D 162, (MIRA 1511k) I* Khersonakiy gosudarst"anyy pedagogicbeakiy institut, ineal N.K.Krupokoy i Institut astallokeranUt i spetsialfuykh splavoT AN UkrSSR., (Chromium boride.-Testing)  _LI8556-6 R EWT 1 /M TC/A$D --3 -9EJ _(j --h-A--WW 'Om"" IRI AP3W4262 8/0131/63/00)Ac@ A11THORt S&UMOYA of let %Lfi=.-Pd -I MAlffs 1. RAJ Tr=t Torming protective therecoolylop" SOUMS orneup""t see =-312 k TCKC TAGS# proUative cap ibervaemple, prf@sep earbide 0 borlde 9 si.21eiis! alwdma oxidej siraordu *3dde ABSTRAfft A press has been de"loped for formirg one-Visa* protective eas fbr i'thermooonples used in steel and iron amelting. To form a cap, plutto material in placed in cylinder (5) (see InaloonrO and pressed with p1=g*r'j9) Into the armults between the centered bollow risedle (4) and the interchangeable inset (2) The bead of the cap Is formed In the bus (12), To allow for passing -of air# a steel rod (8) In removed from the bollqw needle. Using this press, the mtboro rideal &LI ideap alwdzum oxi Sir prepare# protective caps of 2Vjjfts7% do, and eoniud-bxide. Orig. art. hast I diagram. ,,j !ASSOCIATION- Institut metallokeramtki i spets1a11nykh4;71&vov#AN1t3 IR titute I of Metal Caramlea And SWial A11MM, Acadigmy gf Sclonces. Ukrii-j--i& I SUBHMW 00 DATS ACQ: 20Aug63 LNCL: 01 SU13 CODS: KA ML NO RIF, SOV 1 001 Card 1[49/ OTPER- 000 ic  KOCHO) V.S., doktor takhn.nauk; LAPITSUY, V.I., doktor takhn.n&uk. PATZANSKIY, L.D.; RESHETNYAK, Yu.S.; RUBINSKIY, P.S.; DRYSHL M 0 VAI KISLYYt P.So - Measuring the temperature of the metal during the process o! smelting in a converter with a top oxygen blow. Met. I gwnorud. prom. no. 2t28-31 Mr-Ap 164. (MIRA l7t9f  BOOK Samsonov. Crtgarl* Velentiffavich", 66 T,igh-temper sttire non-va,atallt, r o 1 c a ;in d E i v k f UL-p a r tt, rrtvva nemet&l I t 0@ vr terntivarT t n4konecftn-ki) K I Is v 4 U Lv I I link I" t 0 4,1 7.L A heat transfer metallic tliermoroupip, rionmetAi Ic ther- C TT, r, UVI C v h @ a t h r -ro m_it o u n d , t I, r m , , c, u p 1, c, ,t Alf D COVERAGE: Tfile book In Intended for octencir-t# aw-4 an- r; Conducting research in the field of physics and et gifidef"t aufomattcn@.,'n metallurgy: it mav also be useful per- P a nt a h o r i :nd t 0 11@jderit 6 An d I I"I an Of, a I a r &;'KOO nr d P 1, etpowe r a fi jjine r n r, e IL for prodlic, ng rm n e e r i s era t tv n I n t F4 6 0 . a n d a a h f v3 9 4 r F W e n t one d rh a r e rr 2 2 min I dn t t a d A n d Cord 1 3 t@@M-  M.Yli -A H 1 4 0 1 $ 02, C TY, HTri 6 b r I d go d ra raw r- T- i, oirr-trIc pro;ertles f@f refrertor-'r ---P@ondgj 17 n i r a z:UUP Lan CS CIb TV. Themocouptow %tith tharwastactrodes imade of refrect*ry compounds -- 97 Ch V, Sheathir.g ot sotaLlte tharnotaupIve N( , k  IN @v ,@ I RIM poh C-aff? is M 9 Ws Eta am - I  norig M".DITATION o T" r trn i , -i I --n, P" I -.v, I or. Pr fl-uii.. r %T1 g "C' E,  i I I bt bilo. , tables. 2000 copies printed r--Itf,7-z-,U5 temper-Stw" me as t . apwrr- fs-- ax-@h 1@ vz@ - P 7- --n r cation L2jn rY,,v;-,t4LY a h- o-- a ate-a --*----A- r t f-- I f e 1 EL bx1p, e (fintmIling and WmaurLax in-ntr-um,n" rod tuil. A -a-P-ys, @11.' '-di 71  L 039@-5-415 W., f) enginerring @c-cmnr@@,r. It ll-n@-@ vP1, h r ",u rr. n @r -,rt; ut I m- 1,;. t-@ft. 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