SCIENTIFIC ABSTRACT TSAREVA, YU.S. - TSAREVSKIY, G.S.

L 32832-66 ACC NR- AT6008666 results of the study show that the distance between two averaged standards for the majority of symbols Is much greater than the sum dispersion of the symbols. The quality of recognition decreases with field overlapping of the symbols. Dispersion of straight symbols such as H or T Is 1. 5 to 2 times lower than for round letters. The fragment methods are discussed. The fragment method used can be improved by the addition of several thresholds, up to 5, and several gradations In weight, up to 10. This will result in increasing the reliability of recogn] tfon. OrIg. art. has: 7 figures, 2 tables, and 6 formulas. SUB CODE: 09,12 / SUIBM DATE: 09Sepb6 / ORIG REF.- 005 / OTH REF: 005 L~ 2 2 Card  Gt skidl sobw ft"Wow" to I" WOW 0d A. T- V 1w. M Abd- 0.0 and 0'*BW b.L "vaglwdlbo' p.A,*tjun in wo dolori dam O,J, in a few tOrdW I, KCS -lu"On a Jwly (10 M'n-)' e&et- A=JNO, 8DWi- but It h- ouver oIqCjodd.-& A. th" Of XCIC mimiler -. . .  so* 0 410 0 0000t ot-44"O efor*?0*610 00010410 '7 A sop -00 00 A **P 001 004 Mectel-li'milat -Mrihmi fw Determination of Ad. o*., K.1vil v of Eirefrodepo*11s. (tit Itu-i4o ) it. T. %'age.#. "00 00 111~4!11 1111 Yu. S, B.Absely Akadrimi Suu4 -00 SSSR 'Ieports of deiny tit sclent" of th.- 2590 USSR), " W.C.. V. 74, Sq*. 11, 19m, P. .1013a5. ::00 00 Dcu-nim's the- AMR. triertheld, ba" tm dcleterninsticycl J file ii1or (if valhorfic plarizatim during the coo 000 4,14.011MIrlit"ithin prixral .11MI r0ablistillient of A 004 reutomellop lielvil-111 tile soloiloom Rif LW)h4tw- --00 Will felt file .,Oat* of'J" Absolutely pull- cletfrol)j'. and coo OOW %ery clean tmhodr sutfatr. anti sdhrrrn(-r of dw 1, tit dAtil frool tile henefing 14'.1 11 fit TWW c"- aarersocrit. J100 JLR-9j 1300 AL" KNEM.- age 0 I i.. tLA IFITA4.1,41tCKAR. LITERATURES CL&SISPICAINW. too Impbuipi "it came cat 431111("g si-I-If'I -*a RW ""4E C 17 _V_t 0 It IF An A I am, u a if 00 LIF9 ; JI Ic Rw a 1 $11 * a & dc K a 900j6*1099066*000600006 0000000000000060006 0 0 & 0 0 0 * 0 0 0 0 0 0 0 99 0 0 0 * 9 0 0 0  W&Sk/ Chemistry - Physical chemistry 09rd 1/1 Pub. 22 - 29/47 Authors t Vagramyan, A. T., and Tsareva. Yu. S. Title Internal stresses of electrolytic nickel depositions and their porosity Periodical : Dok. AN SSSR 98/5, 807-809, Oct 11, 1954 Abstract : The effect of surface-active substances and alternating current on the in- ternal stresses and porosity of electrolytic coatings was investigated. The effect of 2,6 - 2,7-naphthalindisulfonic acid and paracresol, on the porosity of an electrolytic Ili-deposition, in explained. The extent to which the value of internal stresses is affected by the addition of the above mention- ed substances is discussed. The parallelism between the effect of surface- active substances and variable current on the internal stresses indicates that the porosity of electrolytic depositions its due mostly to the stresses in the5e depositions. Two U3SR references (1951 and 1952). Graphs. Institution : ... : ed by i Academician A. N. Frumkin, May 21, 1954 "F0,  U611-R/Chemistry Electrolysis Card 1/2 Pub, :L47 - 2o/26 Authors I Teareva, Yu. S.; Sololchina, V. G.; Kudryvtsev, N:-T.; and Vagramyan, A. T. Title I EFiect of' surface active substances on the mechanical properties of electrolytic Cu-depositiolis Periodical t Zhur. fiz. khiia. 29A, 166,173, Jan 1955 Abstraot I It was established experimentally that surface active substances added some times to an acid copper sulfate solution for copper plating produce different effects on the mechanical properties of the deposit. It was found that surface active substances can cause internal con- traction and expansion stresses depending upon the nature and concen- tration of the substance and the current density. Institution Academy of Sciences USSR) Institute of Physical Chemistry, Moscow Submitted June 9. 1954  Periodical : Zhur. fiz. kh1m. 29/1, n6-173, Jan 1955 Card 2/2 Pub. 147 - 20/26 Abstract I It was established that coppor dapositjobtained from electrolytes containing thiourea and naphthalindisulfonic acid possess sufficient plasticity, high micro-hardness and small internal stresses. An instrument is described which records automatically any changes in internal stresses of electrolytic deposit in electrolysis processes. Nine USSR references (1935-1951). Table; graphs; drawing.  q USS-U/Chemistry Electrolysis Card 1/2 Pub. 147 22/26 Authors I Vagramyan, A. T., and , -La. U Title I Internal stresses of electrolytic metal deposit roriodical i Zhur. fiz khim. 29/1, 185-193, Jan 1955 Abstract I The basic factors resulting in internal stresses in electrolytic metal deposit were found to be: changes in lattice parameters, changes in the distances between the deposition crystals, amalgamation or orlargemont of deposition drystals and the formation of chemical compounds between the metal and the admixtures included in it. A thorough study of the internal stresses of electrolytic metal de- positions showed a parallelism between the internal stresses origin- ating in the deposit-ion and overstrain. Institution Academy of Sciences USSR, Institute of Physical Chemistry, MoscV.4 June 9, 1954  Periodical Zhur. fiz. khlff,. 29/1., 185-193, Jan 1955 Card 2/2 Pub. 147 - 22/26 Abstract The electrolysis concLitions and the composition of the electrolyte were found to have a definite effect on the internal stresses. Eleven referencesi 6 USSR; 3 German and 2 USA (1922-1954)o Tables; graphs.  KA'!TTC77`7, T. ^jh. y 7. Y- Clothin~, Trade j,,Ijjtj,)je :,tyle, ijroce-3:9 on a non a v~t-hanized conv~,yer. L,!i,. prnr.~- 1Z t.r). 4: ~'-9 .;) 1,,52. I 9. Monthly List of Russian Accessions, Library of Congress, July -1956. Unclassified. 2  GAPOVENK0. H.JFO-. TSAREVA, Z.Ta. Subcutaneous rupture of the retroperitoneal duodenum. caused b7 inJury. Khirur&iia 33 no.4:145-146 Ap '57. (MIRA 10:7) 1. Iz khirurgichaskogo otdelenive (zav. M.Y.Gaponenko) Shchelkavsko7 bollnitsy. (DUODEM--WOUNDS AND INJURIES)  I -~ I-- t % I . Z. i~ ii  15-57-7-10356 Translation from: Referativny zhurnal, Geologiya, 1957, Nr 7, p 252 (USSR~ AUTHORS: Tsarevich, K. A., Kuranov, 1. F. TITLE: Computing the Production of Central Drill Hole in a Circular Distribution Worked by Buoyant M'ethod (Raschet debitov tsentrallnoy skvazhiny v krugovom plaste pri uprugom rezhime) PERIODICAL: Tr. Vses. neftegaz. n.-i. in-t, 1956, Nr 8, pp 9-34 ABSTRACT: Bibliographic entry Card 1/1  TSAREVICH, K. A. - . V, I. F. ComputIng, the flow of the central well of a round-sbaped oil pool In the case of elastic drive. Trudy VITH no-8:9-34 156. (MLRA 9:12) (Fluid dynamics) (Petroleum engineering)  ,r,- ~ -,X~ - V A - , iTT- ) 'I . - . Fue Is T ~ , : 4 I I". z-, ~ -lu ---2- So~e Il-P-  L MAMMA, NO) inzho Effectiveness of capital Investments in coal mining, Min delo 17 no.31:42-44 262. 1* M+=o-geolozhki inatitut,  TSAREVSKA, N.P. .410M~ Certain problems in the methods of detarmining economic effect of capital investments in coal mining, Godishnik Min gaol inst 7:503-510 t60/161 (Publ. 1621.  SITNITSIKA, I.G. [Sytnytolka, I.H.], kand.med.nauk.;TSAR.EVSKA, P.M. Clinical picture of celiac disease. Ped., akusk. i gin. 25 no.lt22-23 163. (KIRA 16:5) 11 Drugs, likarnya Moskovolkogo ra7onu m. Kiyeva(golovniy likar A.O"Rudik (A.O.Radyk]). (CELIAC DISEASE)  KRASIL15HCH,IKOV, L.B.; TSAREVSKA'fi,, A.A. Apparatus for meanurirq! roflection IndIcatrisea In the region of the spectrum. 1rudy GOO no.100:131-132 160. (MIRA 13:6) (Reflection (Optics))  M L 00837-67 EWr(m)1Er(j-j RIA ACC -NRI AP6027779 SOURCE CODE: UR/0190/66/008/008/1455/1458 AUTHOR.,* Kargin, V. A. Tsarevskaya, 1. Yu. ORG: Institute of Petrochemical �ynthesis, ANSSSROnatitutneftekhiriiicheakogo sinteza AN SSSR) TITLE: Deformation of crystalline po utylene SOURCE: Vysokomolekulyarnyye soyedineniya, v. 8, no. 8, 1966, 1455-1458 TOPIC TIAGS: spherulite, polybutylene, crystalline polybutylene, material deformation, elastic deformation, structure degradation A13STRACT: Deformation of crystalline polybutylene was studied. It was shown that polybutylene obtains high reversible deformations in the limits of the state. Crystalline formations (spheruliterg) behave as a homogeneous substance the deformation of which corresponds to the deformation of the whole sample. Thus, the elastic deformation without a structure degradation could reach some 10%. Orig; art. has: 7 figures. [Based on authors' abstract] INT1 SUB CODE: 07/ SUBM DATE: lOJul65/ ORIG REF: 005/ ird 1/1 hs UDC': 678.01-.53+678.742  ACCESSION NR: AT4020711' S/0000/63/000/000/0219/0223 AUTHOR: Kargin, V. A.; Tsarevskaya, 1. Yu. TITLE: Mechanical properties of polybutylene SOURCE: Karbotsepn Y111ye vy*sokomolakulyarnyleye soyedineniya (Carbon-chain macro- molecular compounds),, sbornik statey. Moscow, lzd-vo AN SSSR, 1963, 219-223 TOPIC TAGS: polybutylene, opticeil property, x-ray diffraction, thermornechanics, dynamometry, polyolefin, crystalline polyolefin, turbidimetry, vitrification ABSTRACT: Two polymer modifications were obtained by the fractionation (rapid cooling) of benzene solutions of polybutylene originally prepared using TIC14 + Al (isobutyl)3 as a catalyst. It was shown by optical, x-ray, thermomechanical and dynamometric investigations of these polybutylene fractions that fraction I is a typical crystalline polyolefin with a vitrification temperature of -35C and a melting point of iOOC, while fraction 11, under the usual conditions of the cry- stal)ine state, shows elastomeric properties under the Influence of mechanical stress. This phenomenon can be explained by the rapid destruction and re-forma- tion of the crystallinia structure. The turbidimetric titration curve for un- fractionated polybutylene is also given. This polymer can be looked upon as a re crdinforced plastic material, in which the elasticity is furnished by fraction 11 1/2  ACCESSION NR: AT4020711 and the strength by fraction 1. This combination of properties is of-great interest for producing highly elastic crystalline plastics. Orig. art. has: 10 figures. ASSOCIATION: Institut neftekhimicheskogo sinteza AN SSSR (institute of ~etro- chemical Synthesis, AN SSSR) suamiTTED: o4ju162 DATE ACQ: 2OMar64 ENCL: 00 SUB CODE: OC, KT NO REF SOV: 003 OTHER: 001 Card  IZKAYLOV, N.A.; TSUEVSNAU'VAILF-4- Physicochemical analysis in solutionsp and calculation of the yield of the reaction, Part 4: Reaction of amines vith butyl alcoholp acetonep and acetic acid (from cryoscopic data). Ukr, khim. zhur. 26 no.6s688-696 160. (MIR& 14:1) 1. Kharlkovskiy gosuniversitet im. A.M. Gorlkogo i Luganskiy sellskokbozyaystvennyy inatitut. (Aminea) (Acetone) (Acetic acid)  IZMAYLGV,, N.A. [deceased]; TSAREVSKAYA, M.N. PbYsicochemical analysio in solutions and calculation of the reaction yield. Part 5. Reactions of acetic acid and its chlorine-substituted derivatives with aromatic AmInes studied by cryoscopic data. Ukr. khim. zhur. 28 no.1:101-108 162. (MIRA 16:8) 1. Kharlkovsk-"y gosudar.-itvenn3rj universitet im. A.M. Gortkogo i Luganskiy sel'skokhozyaystvennyy institut.  IZMAYLC-V, N.A.; TSAREVSKjtYA. M.rj. Physicochemical analysis in solutions ~tnd calculation of the reaction yield.. Part 6: Reaction -.)f acetic acid and its ebloro-substitUted derivatives with aromatic amines (from electric conductivity data). Ukr, khim. zhur. 27 no.4:437-442 161. (MIRA 14:7) 1. Kharlkovskiy Fosudar.9tvennyy universitet im. AsM.Gorlkogo i Luganskiy sel'skokhozyaystvennyy Institut. (Acetic acid) (Amines)  MAKIN, A.I.j NIKITINO BA.; TSAMVSKAYAp N.P. Using rare earths for tinting glass. Stek. i ker. 18 no. 3:33-34 mr 161. (KMA 14:5) (Rare earths) (GlaospColored)  SHAFMIMY11, I-Ya.; TSAUVSKATA, Te.A. ComPlexometric determination of calcium and magnesium. Izv. Otd. est. nauk AN TAdzh. SSR no.1:81-87 158. (NDU 12: 1) l.Kafedra khimii Tadzhikskogo sell sk*kho;7*ystvennegq instituta. (Calcium--Analysis) O(weslum-Analysis)  SHLYZOHMN. I.Ya.-,BDNDLRI. V.V.; MALAKHOVA. S.I.; KHMATOVA, A.T.; TSMVSKAYA,,Ye.A. Hew method for the determination of nitrates. Dckl. AN Tadzh. SSR 1. no.21:11-15 '58. (MIRA 12: 1) l.Tadzhikskly sel'skokhozva"tveuny7 institut. Predstavleno ak-Ademi- kom AN Tadzhiksko;r SSR S.Yusupavor. (Soil4--Analysis) (Nitrates)  TSAPSKI, Petur, lnzh. FormJng the water soale and otabilizing cooling warer by sodium phoophato in thermeloctric plants. Mektroonergiia 15 no.8s 9-12 Kr t64  S/03 621028100910091009 B104YB102 AUTHORS: Zaytsev, 1. F., and Taarevskiy TITLEs A portable vibration viscometer with numerical reading Pk,HIODlCAI,s Zavodskaya laboratoriya, v. 28, rio. 9, 1962, 1135 - 1137 TEXT: A device for industrial measurements of viscosity is described. It meastires the numbpr of vibrations-of a light disc in the liquid to be investigated, the disc being attached to the arm of an electromagnetic vibrator. The device consists of two electromagnetic systems and one electronic semiconductor switch. The immersed measuring disc, (1) fixed at the anchor (2 of a vibrator, is set in vibration-by the electromagnetic system I (Fig . 1~. The frequency of vibration depends on the viscosity. The number of vibrations counted is transferred through the trigger io the electromagnetic system II which works the ratchet mechanism (3) of the numerical indicator. Temperature fluctuations of 2 - 30C do not affect the accuracy of measurement, but greater fluctuations necessitate corrections. There are 3 figures. Card 1/2  5/032/62/028/009j'OG',~/1-0',, A portable vibration viscometer ... B100102 ASSOCIATIONt Ukrainakiy proycktno-konstruktorskiy I nauchno-is.-jrdo- vatellskiy institut po obogashcheniyu i briketirov~iriya ugley (Ukrainian Design and Planning and 5cientific Research Institute of Coal Enrichment and Briquetiniz) Fig. 1. Schematic diagrain of the viscomett:r. Card 2/2  TSAREVS-Y-1Y, A. F. VOPROSY EYOIIDIIl Fl.F(,TzlGE!;:-:RGII IIA UGLEOBOGATITELIIIYYII FABRIUKII Z- PF,()'.3- LE-2 OF ECONO.Tl OF ELEMIC FG4E.-M IN COAL PRO','ES31!'rj PLANS, BY,7 A. SUDEINK0 I SUDENKO, AI-F]KSEY MIKHAYLOVICH. MOSUA, UGIr-,rE?.-HIZDAT, 1956. 70, Z- 22 P. DIAGRS., TAUES. R932q3 "LITERATURAII: P. 71  SUDMIAO, Aleksay Mikhaylovich; TSARBYSKIY. Anatolly Fedorovich; SILISIEM, A.B., otvetstvennyy re"ktor; GAMIR, ANDRIM, G.G., takhnichaskiy redaktor; rL'IHSKAYA, G.X., takhnicheakiy redaktor [Problems of economizing electric power in coal preparation plants] Voprosy ekoaomil elektroeaergii na. ugleobogatitallnvkh fabrikakh. Hoskva, Ugletekhizdat. 1956. 70 P- (MLRA 9:9) (Coal preparation) (Xlectric power) .. 1,  TSAUVSKIY, A.K.; OGORODNIXOV, S.F., lush. Using injectors In auction pipes of dredgar~. G'Idr. I wel. 9 no.10: 50-56 0 '57. V (KLRA 10rll) 1. Chlen-korrewpondent Tsevoy=noy akadmmij eel I skokhozyayetvonnykh nauk in. T.I. Imnins (for TShrevskiy). (Dredging mohinery-Attachments)  TSARZVSKIT, A.M. Ifork of the All-Union Scientific Research Institute of Hydraulic Inginsering and Reclamation in the field of hydromechanization. Makh.stroi. 14 no.3124-25 Mr '57. (MIRA 10:4) 1. Chlen-korrikepondent Vaesoyuznoy ordens, 6enina akademil sel'sko- khozyaystvannykh nauk imeni V.1.1enina. (Dredging machinery) (Dams)  i,,. 27226 TUSAREVSKIYY A. llurspiollftiw .1 Gidromellhanizatnii Zemlyaziykii habot Ponsj-jjo-~ Nizme.,ir,osti.Llc,,pros.r Osusidt. ~Ielioratsf i -~-a ) . V sb: K Vo-)rosu *' I Razvitiya Froizvodltlu. -lil Polesll;a~ Vinj`y, 19119, r,.2C6-13. SO: Letopis' Zhtiriialfnykh Statey, Vol. 36, 190  ZAYTSEV., I.F.; TSAREVSKrr, A.F. Portable vibrational viscosimeter vith a digital(congmter reading. Zav. lab. 287no.9:1135-1-137 162. KIRA 16W 1. Ukrainakiy proyektno-;-k6nstrLAtorskiy i nauchno-isslado- vatellBkiy institut po otogashchanivu i briketirovanlyu ugley. (ViBcosimeter)  176T USSR/Rydrology - Excavators Feb 51 "New Type of Floating Excavating Pump," A. M. Ts&rev- skiy, B. I. Pugavko "Gidrotekh I Meliorat!'Vol III, No 2, pp 69-79 Min of Water Econ Uzbek SSR constructs series of mech irrigetional and soil excavating machines PZU- VNIIG and M-2, expected to be used in constr of hy- dro-generators in regionis of Kuybyshev, Stalingrad, Main Turkmen Canal, Kakhovka on Dnepr, South-Ukraine and North-Crimea canals. Description and diagrams of machines. 4M 176T57  11 Men=,-L-4; PUGAVKO, B. 1. E~lg. 2. UssR (600) 4o Dredginir, Machinery 7* Cl"njnf; of irrigation 6 no.9, 1952 systems bY means of kydrO-Mchanization. ITekh- TMd. rab. 9 Xalhl Ist 2- ' ~ Ll- f Russian AC -c-e-S-SI-Ons, Library of Congress - -------- ~1953- Unclassified.  I ri. A!.) MU POPOV, V. 1.) AIUONIOVA~ M. E., PAVLOVICII, L. A., "aam,"A' R.-M. and-001-MMEVA) T. Ya. "About infectious nature of atrophicol liog rldnftlri." Veterinarlya, Vol- 37, No. 4, ig6o, p. 38 S c~ - I - ~ o-6. p S C'N-JAI~o - A, , ~ AILL i~"U* k ~ ~ R~ f~ j0 - %-~ 0-tiku"a., m s k~j  TSARRaMMIY, V.A., kand.tekhn-nuuk Selecting diesel lubricating, oils and estimating their quality during the operation of diesel locomotives. Trudy TSIIII I'TS no.180:43-78 159- (Kft 13:4) (Dingsl locomotives--Lubrication)  T _!.~ 1 "' VIV I Y , r't . ! 1 . Dra i na 17c Results of scientific vork in the f,i,Id of lard reclamation and its int-O'luctlon intc productJon (Work of the All-Union Sci(2ntific Research Institute of Hydraulic Ingincering and Reelramation) . Dost. sellkhoz. no. ", 1952. Monthly List of Russian Acc~ssions, Librar-,- of Congress, Nov(.,mb#7.r 1)'j2 UP-1CLA3:31FIED  T-l"WuChiYe. Floa t it] I irl 1'i rld I'c c I ar-'L or 0, .,)1! j Y. Tj~,n--Vukiy (i dri) 10 F. 'I I ILI  ZAYTSEV, I.F.; DUBROV, 11.9 ZMIMOVICH, Tu.P.; MAWHITS, G.I. Autcmation of thr- prr--ess f-;r det-3rmining the molsl~-;re of the charge. Koks i khIm. no.8-16-17 162. (~MIA 17-2) 1. Ukrainskiy proyektnc-konstruktorskiy i nauchnn-issla,i.1wit,31 I -,- kiy institut po obognshcherilyu i briketirovaniyu ugley (!'.)r ZAY- tsev, Dubrov, Tgarevaldy). 2. Vcnimuiarsky koksokhimicheskiy zavod (for Zasimovich, Mamchits).  TSAREVSKIY, A.M.. laureat Stalinskoy premii, kandidat tekhnioheskikh nauk; V.- 4, . -" ItEmotm, Ij-L., inshener. Filling earth dame in river beds without first cutting off the current with a stone barrier. Gidr.i mel. 5 no.12:)0-42 D '53. (MLRA 6:11) (Dams )  TS SKTY- A-M-- kandidat tekhnichookikh nauki PUGAVKO, B. I., lnzhmner Small-R12ed KZU dredge. Kekh. trud. rab. 10 no.8:41-42 Ag 156. (KA 9: 10) (Dredging machinery)  TSARICVSKIY, A.M., kandidat tekhnicheekikh nauk; HJUVO, B.L. inzhener. ---* Suction dredge for cleaning ponds. Nauka I shisn' 20 no.10:38 0 153. (MI2A 6:10) (Dredging machinery) (Ponds) . ::-,- 41 - - . - ~- i - - _i. '.- -- ~ I . - - ~I , -, -1- - . . 'i  TSARMKITI Aleksey Mikhaylovich, kandidat tekhnichaskikh nauk-, ZHILKOV_ on lob, kandidAt tekhnicheskikh nauk; PUGAYKO, Bo- ris Yullanovich, inshener-konstruktor; XOROZ. I.I., redaktor; ISILMITIVA, P.G., tekhniabeakly redaktor. (Minor hydraulic engineering equipment; now machines for the dredging of lakes, canals and small rivers] Xalala gidromekhanizatstia; novye mashiny d1la ochiatki prudov, kanalov i malykh rek. Moskva, Izd-vo *Znanie,s 1954. 31 P. (Vs.esoiuznoe obahchestvo po rasprostraneniiu. politicbeskikh I nauobnykh znanli, Ser. 4, no.23) [Microfilm] (Dredging machinery) (VIRA 7:11)  KILAKUT. David Iazarevich: KOBYLUKOY.L.K.o redaktor: PXY V.I., te!dmi- cheskiy redaktor; TSARIVSKIT A.M. rodaktor; PATIAWA,x.m.. tek2mi- cheakiy redaktor Z-~~ [Damming rivers by hydromechanical means] Perakrytio rok Sposobom gidromekhanizataii. Koskva,.Goo.izd-vo selkhox.lit-ry, 1935. 151 p. (Dams) MRA 9:3)  S07/25-59-1-21/51. AUTHOR: Tsarevskiy, A.M., Director of the Institute TITLE: The Irrigation of the Golodnaya Step' (oroshenive rolodnoy stepi) PERIODICAL: Nauka i zhiznl, 1959, Nr 1, PP 35-37 (USSR ABSTRACT: The article deals with a new irrigation method for the Go- lodnaya steplpcomprising millions of hectars in the 3 Cen- tral Asian Republics - Uzbekistan, Kazakhstan and Tadjiki- stan. The Vaesoyuznyy nauchno-issledovatellskiy institut gidrotekhniki j. melioratsii (All-Union Scientific Research Institut of Hydraulic Engineering and Melioration) developed two types of sprinkling machins which have both been tested in the area concerned. The tractor-mounted 'IDDA-100,11" e.g. Card 1/2 has the ability of sprinkling 100 liters of water per se-  The Irrigation of the Golodnays, Step' SOY/25-59-1-21/51 cond, and thus irrigates 15-16 hectars in 24 hours. This unit consists of an intake valve and 2 long vanes similar to the wings of an aeroplane. There is 1 photoand I drawing. ASSOCIATIONt Vsesoyuznyy nauchno-issledovatelfskiy inatitut P,'idrotekhniki i melioratsii (All-Union Scientific Research Institute of Hydraulic Enpineering and Melioration) Card 2/2  F~_ Ly 1 17, M 300) 7",7/09-50- 1 r-7/1, 1 AUTHOR; 'Dorozhko, P.K., Engineer TITLE: Extra-mural Session of the Scientific Council of the 11MIGIM at the "Pakhta-Aral" Sovkhoz PERIODICAL: Gidrotekhnika i melioratsiya, 1959, TTr 10p PP 58-60 (ITS . T~) ABSTRACT: The Extra-mural Session of the ITchennyy sovet Vsesoyuz- nogo nauchno-issledovatellskogo instituta gidrotekhni- ki i melioratsii imeni A~'T. Kostyakova (Scientific Council of the All-Union Resenrch Institute for Fy- draulic Fngrineering and ~Telioration imeni A.TT,P7ost-,ra- kov) ,-ias held from 15-17 July 1959 nt tl~ 'e "'Pakhta- Aral" sovkhoz (Kazakh ~75T~) and was devoted to t- e in- troduction and further development of sprinkling and other methods of mechanized watering in cotton-gro,~,- ing districts. The Session was attended by represent- tives of 76 research, planning, construction nnd ope- rating organizations connected with the water economy Card 1/7 of the Kazakh, Uzbek, Turkmen, Tadzhik, Yirgiz, A.zer-  Extra-mural Session of the O)cientific Council of the VITTT"I" ~t the "Pakhta-Aral" Sovkhoz baydzhan, Georgian, Armenian, "oldavian and Ukrainian republics, and also by representatives of cotton nov- khozes and kolkhozes in the Golodnaya step' region, The Session heard V~e following papers: Director of VITITGi!,, Corresponding T'ember of 1,-T~e VA-'IVhTTT!., 4_2.1~ Tsarevskiy on "The Tntroduction of T'ew Trrigation '~'_ qu. pment in Cotton-gro-,,.,ingll; t'~e Director of tine a kn - ta-Aral" sovkho.- V,':~'T. Fulikov on "The Pesults and Prospects of Using Sprinkling Inuipment on the "Pakh- ta-Aral" 'Oovkhoz"; Senior Agronomist of the "Pakhta- Aral" sovkhoz A,V. Paradiyev on "The lystem of Agro- meliorative Iffeasures on the "Pakhta-Aral" Sovkhoz in Trrigating, Cotton with '~prinklersll; Candidate of Ppri- cultural 7ciences P.S. Dymarl of the V?'TIGi`,R on "The Scientific and Practical Pesultn of 'tu,lier of Cotton Sprinkling"; Candidate of Fngjneeri!~p 17ciences II.N. Pukov of the VITIT(,,i!,I on "The Technicnj rind Pco- Card 2/7 nomic Tndices of "prinkling "a( .hine.911; Cnndid,-,te of  Extra-mural qession of the "cientific Council of tl--e !r"TT,!i- at the "Pakhta-Arallf Sovkhoz Engineering -sciences IT.TT. 'Techayev of tl-e Uz-ekska a do7bdevallnaya stantsiya (Uzbek f7prinkling I'tation~ on'r,,xperience From the Introduction of Sprinkling in the Uzbek Candidate of Agricultural Sciences V.1.1. Romanov of the VITITIP1 and TT.F. Despalov of the Pakhta-Arallskaya op tnaya stantsiya (Pakhta-Aral 'Fxperimental. Stations on "Cotton-watering 7outines With Sprinklers"; Candidate of Agricultural 9ciences Pfl.V. Preobrazhenskaya of the VITTICTV1 on "The Course of the Water-Salt Cycle in. Soils With Sprinkling"; Candi- date of Agricultural Sciences A.T. Orlov of t~ie T-TTT- Giil.' on "The Economic Efficacy of Trrigating Cotton With Sprinklers"; Engineer Kh. G. Ibragimov of Vie VITTIGiT" on "The Experience of Organizing Planned Vfa- ter Utilization in .1,prinkling Cotton Over Targe Areas"; Candidate of Fngineering Sciences IT.A. rri- Card 3/7 Coryan of the V?TI1GV' on "The Experience of TTSing  Extra-mural Session of the 7cientific Council of t,,e at the "Pakhta-Aral" Sovkhoz 11 Sprinkling !:Iachines on the " Tlakh la- Aral" ",ovkhoz" Candidate of Pngineering qcierces ~T.F. '7amsonove- o-P the V?TTTri" on "Teveling Trrigable Areas With Long- Framed L.evelers"; Fingineer T.T. Velichko of t~e VT,TIlGi!l on "The Irrigation of Cotton and nther Agri- culti;ral Crops With a "Iaterir.~7 Trstallatl-on "ale of Flexible Pipes", In the discussion on pnints rnir,,,~ in the Papers t'-e participaled: the -enior 'rn,-ineir of the ~'Pakhta-Aralll sovkho- ",Va. Tolpado, enior Hydraulic Technician of tl-e rovkllo7 V . ?T ,vurlyev, 17e- nior Agronomist of t'~e qovkhoz imeni vominterna D,17. Yozlov, a mechanic of the section imeni Dzernhinskiy Terzi, rcientific personnel - ~7h. Tlustafayev of the Azerbaydzhanskaya dozldeval'naya stantsiya (Azerbayd- vlian Sprinkling 9tation), T.'~). Popov,) of the 'Inkhtq.- Aral Fxperimental ')tation, P.T. I.Ioskallts,)v of the -2sentrallnaya opytno-meliorativnayn stantsiya (Central Card 4/7 Experimental rqelior,,itive F~tation) !,A. Peresypkin  Extra-mural Session of the scientific Council of the V-,!T,'TiM at the "Pakhta-Aral" Sovkhoz and Yaslennikov of the Uzbek Sprinkling 9tatior, '%'T. Samarkin of the Turkmenskiy nauchno-issledovatellski y institut zemledeliya (Turkmen Penenrch Tnntitute for Agriculture), D.1% 1~ervalishvili of the Georgian ITITGVq, Said-Vhodzhayev of the Ak-Kavakskaya opytnaya stants'Lya (AK-Yavakskaym Experimental Station), F.7. Tebe- dev of the VIMOT,~, T.D, Panenko of the 7oldavskiy institut oroshayemogo zemledeliya (Yoldavian Institute for Irrigation Agriculture), V.P. Nemkova of the Yuzhno-Yazakhstanskoye oblsellkhoz-upravleniye (Southern Kazakhstan Oblast Ag-icultural Poard),Pngi- neers IT.K. VozhE-,ill of the Ukrgriprovoffl,71,oz, V.P. Shi- lovtsev of the A.zgiprovodkhoz, P.T. Denisov of the Gosstroy of the USSR, etc. The Session discussed the promising results from the use of sprinklers and wa- tering installations of flexible pipes in the irri- gation of cotton-growing areas, quoting the increased Card 5/7 cotton yields from cotton farms where these had been  C. r r Extra-mural Session of the ~~',cientific Council of t,I)e V' ',T(~-Lm at the "Pakhta-Aral" Sovkhoz adopted. The D-DA-100" sprinkler (desi,-,ned by the VJITT(7~ip.l) had given good service on the 117alkl,ta-Arrillf sovkhoz but the "Iession criticized t'~e Tashirmash Plant for producing defective and poor-quality nprink- lers and other meliorative machinery. To help exterd the use of watering equipment on cotton farms intens-i- , e k~_ fied research on such equipment is required. The TT7b skaya akademiya sel,skokhozyaystvenn,rkh nauk (Uzbek Academy of Agricultural !sciences) should encourafTe and equip the Uzbekskaya dozhdeval'naya stantsiya (T.Tzbek Sprinkling 'tation) and organize a chain of sun- porting centers to introduce watering equipment in t7re Golodnaya 9tepl and Yhorezm region,, A supporting cen- ter of the Fazakhskiy institut vodnoro khozyaystva (Kazakh Tnstitute of Water 7conomy) sholld be orpanized at one of the sections of the 11"akh+a-Aral" sov- khoz and a Sprinkling Taboratory at tl,e "uj-anska,,,a Card 6/7 opytno-meliorativnaya stantsiya Experintrital  -7/9 9- 0-1 r'-7 /1 Extra-mural Session of the r')cientific Council of the V'TTTqiP.' at the "Pakhta-Arnl" 3ovkhoz Melioration Station) to cnver the Azerl,nydzhan The Session fell that Vae Tashirmash T'Dint should in- crease its output of PT-4A leveling machines to co- ver the needs of Vie cotton-growing, reeion~-, since leveling greatly increasecthe efficacy of sprinkling,,, The Session also advises research and practical .,.,ork for the improvement Pnd wider use of -,vaterir.- instal- lations of flexible pipes, Card 7/7  T5ARFV.'-)KIY, A.M.9 kFind.tekhri.rinuk; VATKO'l."MY) K.A., In-,,h.; HFUSTALFV, M.I., flydrocyclonp, its usp Pnd hydrAulle calcuIntions. Gldr. I r-pl. 17 no.4:1.1-20 Ap 065. (MIRA 18:5) 1. Vseooyuznyy nauckmo-isOpdavatejIskly institut gidrrt(,khniki i mf-liorptslt imeni A..N.Xcst~iikc~vq (for TSnrevsk~ly, Vntkc-vsk!y). .1 Ir, 1 IsMy institlit trrrspcrtnogo --7-77-7  MELAMUT, David Lazarevich, kand. teklin. nauk; NIKOLAYEV, Vas1liy Mikhaylovich, kand. tekhn. nauk.; TSAREVSKIY A M retsenzent; AFANASIYEV, B.P., red. iza4-v'a; RLDIONOVA, V:M.-, tek-hn. red. (Hydraulic filling of nerrow-proflle (Inma and small dams in agricultural construction work' Namyv uzkoprofillnykh damb i malykh plotin v sellskom stroitellstve. MoskTa, Gosstrolizdat, 1963. 241 p. (MIRA 16.7) 1, Vsesoyuznaya ekademiya sellskokhozyaystvennykh nauk imeni V.1,Lenina (for TSarevskiy). (Dams)  TSAREVSKIY, Al-e.ksey-Mikhaylovich; YELIZAVETSKAYA, G.V., red.; DEYEVA, V.M., tekhn. red. (Hydraulic mechanization of land improvement work] Gidro- mekhanizataiia meliorativnykh rabot. Izd.2., dop. i ispr. Moskva, Sellkhozizdat, 438 p, (MIRA 16:7) (Hydraulic engineering)  M TSAREVSKIYJ, A.M.; MKOLAIEV, V-1 -, inzh. Hydraulic-fill construction of dama of a narrow ~:ross Section. Gidr. i mel. 13 no.11:22-35 1; '61. (1 14: 10;' 1. Chlon-korrespondent Vaesoyuznoy akademii sel'skokhozyaystvenn- ykh nauk imeni V.I. Lenina (for TSarevskiy). (Dams)  TSAREVSKIY, A.M.; PUGAVKO, B.I., inzh.; FOMMO, V.11., inzh., Excavating pumps witb vew working parts. Gidr. i nel. 13 no.2: 51-56 F '61. (KIR;~ 14:9) 1. Chlen-korrespondent Ilsespyuznoy akademii sellskokhozyaystven- nykh nauk imeni II.I.Lenina (for TSarevskiy). (Excavating machinery)  -TSAMSKjy, A.M.; MEJAM. D.'L., Itand.teklin.nauk One-sided hydraulic-fill construction of dans vithout Protective facing of the upstream slope. Gidr. J. Mel. 12 no.9:23-28 S 160. WRA 13:9) 1. Chlen-korrespondent Vsesoyuznoy akademli 9el'ekokho%Yaystvonnykh nauk im. Ienina (for TSarevskiy). (Tedzhen Reservoir-Dams)  p0pFf,', 5.1. (Svordlovsk); S)MITIOV, L.A. 'Sverfilov~ik); T3A::iEV-S-Klf# (Sworillov,A); DZIF,M111W, N.K. (3vordl(,v!ik); I'A:;'['IJKIICJV, A.I. (,;V,~rll . Erfcct or vrinidtum -.)n the donnity lind surf"ICO! jWGjPrt.lwi W 11,11ill ir- r:. Izv. AN SSSR. Met. no.1:62-67 Ja-F 165. (MIllil, 181-5)  ACC NP%t 16160351412 GOUI)'CE GOD!.,: AUTi0ji: Popell, S. I.; Sheratobitov, 1S. A.; Tuarevukiy, B. V. TITLE. Determination of the speed of penetration of molten oxides in capillal-.1- poroui3 materials SOUBCL. Ref. zh. Xetallurgiya, Aba. 9A70 REF. SOURCE: Sb. Poverkhnostn. yavleniya v rasplavakh i voznikayushchik-h iz nikh tvcrd. fuzakh. Nal'chik, 1965, 550-557 TOPIC TAGS: poroGity, metal surface impregnation, powder metallura, refractory oxide! ALSTRACT: 11he authors determined the rate of impregnation of pressed samples of I powders of fused magnesium by iron-silicate melts at 1220 -- 1420'. For the inves- tigaled compositions, the height L of the impregnated part grew with time parabol- ically, like Z2 = kT, where k in a constant. It in established that k decreases with increasing fraction of S'O in the melt and increases exponentially- with increasing 1 2 temperature. As the grain dimension increases from 0.10 to 0.60 mm, the value of k increaGes ut 13450 from 0.31 to 1.28 =2/oce. The influence of the temperature on the.- rate of impreGTation is due to the chaage in the viscosity and the contact angle. 3 illustrations. Bibliography, 15 titles. D. Kashayeva. (Translation of abstract] L SUB CODE: 20, 11 i LC.rd 1/i- ___ - -# UDC: 669.046.587j666-764.1  I ~ " _Ign ~.J*114-' ,_"'i ~j - ",-: 4~-~ ;e S-N-1 ~gn ia, g r, PA NO,   ORLYA,11SKIY, Ya.G.; TSARLVSKIY,, B.V.; POPEL' 3.1. Effect of deoxidizers on the suface finish of carbon steel cas- tings. Lit. proizv. no.10t4,5 0 163. (MIRA 16:12)  FOPELI~ S,I,j TSAREVSKIYj B.V.j DZHEMILEV, N.K. Isotherms of den,sity and surface tonsion of iron and zanganf.~se malts. Fix. met. i metalloyed. 18 nojs468-470 S 164. (MIR- 17ill) 1. Urallskiy politekhnioheskLy institut imoni Kirov&.  SHERSTOBTTOV, M,A.; POPELI, S.I.; TSAREVSKIY, B.V. Methods of determining the rate of penetration of melts Into capillary porous materials. Porosh. met. 5 no.8:50-54 Ag 165. (MIRA 18j9) 1. Urallskly politekhnicheskly institut Imeni Klro7a,   A C Q ilf' T . . . . . . . . . ...  AUTHORS; Popell, (Sverdlovsk) s/i6o/62/000/006/003/022 E071/E151 S.I., and Lazarev, L.L. TITLEs The penetration of iron alloys into packed sand PERIODICALI Alcademiya nauk SSSR. Izvestiya." Otdeloniye tekhnicheskikh nauk. Metallurg~ya i toplivo, no.6, 1962, 49-54 TEXT: The pressure (pk) at which cast iron, steel and Fe-C-Si penetrate into pores between rounded grains of quartz sand of known size distribution was determined. Using the determined values of Pk, a (surface tension of the'alloys) and 0 (wetting angle), the effective mean radius of the pores was calculated. The experimental procedure and apparatus used are described in some detail. Sand specimens (20.2 mm diameter, 23 mm in helght) were made by compression under a standard load (3-5 kg) of mixtures of washed quartz sand with 4% of bentonite and 5~2* of water and subsequent drying at 200 *C. The reproducibility of the results was about IW~. The mean radius of pores for a majority of sand fractions tested was found to be 0-31 - 0.41 of the radius of Card 1/2  The penetration of iron alloys ... s/18o/62/ooo/oo6/003/022 E071/EI51 sand grains. With increasing temperature from 1380 OC the penetration pressure of an iron alloy containing It.65 carbon showed a slight local decrease at about 1615 OC and then followed a sharp increase on approaching 1700 *C. These changes are related to the surface melting of sand grains and their subsequeht sintering. With increasing concentration of carbon and silicon in iron the penetration pressure decreases comparatively uniformly from 338 to 250 mm Hg (at 4,6,j,' c) or to 264 mm 119,(at 3.6% SO. Sulphur causes a more'marked decrease in the penetration pressure. lncreasing the sulphur concentration from 0.004 to o.136% causes the value Of Pk t .o decrease from 245 to 107 mm Hg- There are 4 figures and 3 tables. SUBMITTED. April 10, 1962 Card 2/2  23617 14 E-t4/ 11) 45' S11491601000101,210021020 AUTHORS: Tsarevskiy, B. V., and Popell, S. I. TITLE: The effect of alloying element--. on the surface properties of iron PERIODICALa Izvestiya vysshikh uchebnukh zavedenly. Chernaya metallurgiya, no. 12, ig6o, 12 - i6 TEXT: The data existing in literature are contradictory. The purpose of the described investigation was the simultaneous measurement of the sur- face tension and the angle of contact and an evaluation of the adhesion oil iron alloys in liquid state to aluminum oxide by the obtained 6 and & value& The test equipment and techniques had been de?cribed previously by B. V. Tsarevskiy, S. 1. Popell (Ref. 10: Izv. vyssh. uoh. zav. Chern, metallurgi- ya, 1960, no. 8) in coniaecAion with.a study of the surface properties of Fe-C alloys. The 6 and 0 at 1,596ob were determined by the "method of im- mobile drop", in argon. Carbonyl foron purified from C and 0 was used for solvent; all-oys were prepared wi-,.h high-purity S1 ~_nd electrolytic. Ni, Mn and Cr, 'he latter in the form of preliminarily prepared alloy with 26.7% Card 1/6  23617 S/1, 4P- /60/000/0 1 2,~002/020 1 ZY The effect of alloying elemento on the- A161/A ".) rr. The alloyina elements viere held in hot dried hydrogt~n and subuequenfly uegazoed in the vacuum at 8000C. The backin,--3 viere r,-~ad~,- ~,f Al')03~ The den- sity valueo of iron and the most part of alloy5 wQr,o det,-~rminf~d ~;:~,Ine the handbook of G. Mellor (Ref. 11: Comprehensive Treatise of Inorganic and Theoretical Chemistry, 14, 2. 1934) and extrapolaticn; 'he density -of n'-I--' by data of P.. Kozakevitch, G. Urbain (Ref. 5t Journal of Irnn and Steel Inst., '86, 2, i67~ 1957); the surface tension by the 6raphs in the work of S. 1. Popell, N. N. Krasnovskiy, 0. A. Yes1n., Yu. P Niki'~'n (Ref. 12. Trudy Urallskogo politekhnicheskogo institula, sb- 49, 76, Metallu-rgizdat, ;954)., The detexmination error of 6 was and cf 0 -k5' "'he results are given in a table and 3 graphs (Fig. 1, 2 and 3). Increase of Si content to 5-15 (weight) in iron caused 6 decrease to 1,615 erg/=2; Mn reduced the surface tension even more, and e in alloy with 12.2cio' Mn was only 1,365 erg/ cm2; N1 increases the surface tension, to 1,790 erg/CM2 at 19.8~o' content; pure nickel had 6 = 1,810 erg/CM2. The ratio of 6 to the Ni-content war expressed by a straight line (Fig. 2, curve 1); Cr rontent to 27% redu,~ed 6 to 1,600 erg/CM2 (Fig.. 2, curve 2). The much higher effec* of Ni and Cr on emay be duck to the content of canillar.,,-act ive impuri tie-:' in other in- Card 2/6  23 b17 S,/1;48/60/000/012/0021020 The effect of alloying elements on the. V64/A1,73 vestigations, particularly of S. Oxygen which proved to have the highest effect - 0-0761i'fo 0 caused 6 drop in Fe-O to 1,235 erg/C=2 (Fig. 3), and these results are close to already available data. It was evident that an addi- tion of Sit Niv Cr and C changed the bond forces insignificantly - at 105 (at) Si or 12~j,.' (at) Cr the cohesion dropped Z, and at 12'p' (at) Lin the drop exceeded 20cio'.- It is not excluded that the effoct of Mri will be lo-Ver in complete absence of oxygen and sulfur. The higher cohesion of melts con- taining Mn or 0 with oxide surfaces obviously makes the liberation of solid inclusions from metal into slag more difficul4., It seems to be one of the reasons for the sticking of manganese steel and oxidated low-carbon steel to refractories. Conclusionst The adhesion of iron alloys to solid alu- minum oxide is not high in systems Fe-Si, Fe-11t, and Fe-Cr, and amounts to 7 _: 2etl, of the iron cohesion. It raises with raising Si and Ni content:and drops when Cr is added. Addition of Mn and oxygen into iron increases the adhesion, and at 12", Mn or 0-076cia' 0 It, equals !,065 and 1,235 erg/cr2 /Q , re- gDo-%tively. There is 1 table, 3-figures and 14 references: 9 Soviet-blo,:t and 5 nou-Soviet-bloc, The four references to EnClish-langua6e publications read as follow9t P, Kozakevich, G. Urbain. J. of Iron and Sleol Inot., 186, 2., i67, 1,957; P,, A.. 11alden, W. D. Kizq.,~ery. J_ of Phyjical Chemistry, 59, Ca rd 31/6  23617 S11 4 8 1601000,10' 22 /00 2 1020 A. The effect of alloyin-- elements on 'he... A! 577, 1955; G.. Mellor (mentioned in text) , '934; Kengery. J Am, e rCeramJc Soc- 37, 2, 42, 1954. - ASSOCIATIOIT: Urallskiy politekhnicheakiy institut, (Ural Poly tec!.z.i Insti- t1ite) SUBMITTED: April 28, 1960 Card 416  IT nd r lilt 0-r* fit, U e,  -rel 01-t Z' t T r it! I,  CMUIOGGROV9 Pavel Vasillyevich; VASIllp Yuriy Petrovioh; WZINf P.G.j inzh.j retsenzent; TSAREVSKIY B V inzh., reteenzent; SIDORMIKOp R.A., kand. tekbn. tekhn. red. (Making castings with a wwoth surface] Poluchenie otlivok s chistoi poverkbnostliu. Moskva, Gos. izd-vo mashinastroit. 3.it-ryp 1961. 143 p. (MIRA 14:7) (Founding)  TSAK-VSKIY. B.V.; POPELY, S.I. , "W.aw Liquid Fe and Ferm alloys to solid oxides. report submitted for the 5th Physical Chemical Conference on Steel Production. IV, G S C 0 w .-- - 1 3'~ ~ 1 -, 0 U -1, 1  ~,--TUMSKIY, B.Y. - POPW, S- L Surface properties of iron-carbon alloys. 1zv* as uchebe zav. chern. met. no.8:15-21 16o. ZY (HLU 13:9) 1. Urallakiy politekhnichoakiy institute (Iron alloys) (Surface tension)  3/1 V01 ('~ If, f A16t./Ao2g AUTHORS. TsarevSkty, B.V.; TITLE-. Surface Propertips of Iron-Carlion A'Ll,,v~~ PERIODICAL~ Izvestlya vysshikh uchebnykh zavedenly. - Chernaya mo-,allurglya. 1960, No. 8, pp. 15 - ?I TEM The exisung data on the sArface tenslon of I.ron-carbon alloys belng different and contradictory (Refs. 1~2,7), the des~rlbed Invest1gation has been carried out to obtain more accurate data on the effect of carbon on eturface ten- sion ~f iron and to determine the wettability of aluralnum oxide and molren rnagne- sia by iron-carbon alloys, The value of surfa--e te nsAon arid contait angles was used as a criterion of adhesion to the liquid and solid phase. Th-e "imobile drop method" was employed for eimultaneous determinatIon. of' ourfase tension and contact angles. The experimentaI Installation Is briefly des,~rlberd and shown in a diagram (Fig. 2). Fe-C alloy was placed into a ronmdese t~-,ibp ('2") inaerte~- into a corundum tube ("3") and vilth it, into the carbon tube of the installation fumace, with a 911ght inallne; the wbe w-Itb the sample was rinsed wIth pure argon before switching on the furnN~e and brought, Inl.o horizontal position when the sample bezame brightly lumine9cen-, al. i,ioo - i,2ooOl 1.n trak,? tho drop (FIgs. Card 1/3  S/ 1 48/6Q/000'10018.11) 13/0 18/)9 Surface Properties of Tron-Carbon Alloys A16i/AO29 2~ "4") symmetrical and prevent flowi.ng. The drop was heated to 1-5000-1. held for 12 - 15 mJ.n and photQgraphed on supercontrast diapositive plates. The follow- Ing, facts have been observed, 1) With a C content. Increase to 4.1% at, 1,50-500C and o.oo4% s the effect of C on the surfa,~e tention of' Iron drops from 1,710 to 1,620 erg/cm saturation of the surfa:e layer wit-b C is not reached a!~ a -4 C .;ontent. 2) Addition of C produces a more Intensive drop of the surface tension in alloys containing 0.026 - 0.03% S. This Is caused by additional adsorption of sulfur, the activity of whirih grovis with growing carbon content. 3) With the carbon content in pure carbonyl 4-ror. rallsed -,o 4.1%, the contact angles on a lin- ing of aluminum oxide are reduc-ed from 141 t.:; !3-20~ 4) With the carbon content in pure Iron raised to 4.1%, its adhesion lo aluminum oxide Increases from 380 to 540 erg/cm2, The adhesion of cowerci&I Iron to molten magnesia Is of 660 erg/CM2; at 3.15% C it increases to 890 erw/cm2. There are 4 fiLvires, 2 tables and 13 references4 10 Soviet, 2 Engli.-ah and 'A. Frencti. ASSOCIATION. Urallskly po1!1ekhn1,-,heskiy (Ural Polyt,echntcal lnstltut-o) SUMMED., Mar,:h 7, 1960 Card 2/3  Surface Properties of.Iron-Carbon Alloys A161/AO29 Figure 2:' Diagram of the Installation for Determining the Surface Tension and the Contact Angles. P Ar Card 3/3  S/126/6o/o1o/oo6/012/022 19,11S-0 E193/E483 AUTHORS: Sidorenko, R,A. TITLE: The Effect of Sulphur on the Surface Properties and Structure of the Nickel-Carbon Alloys PERIODICAL: Fizilca metallov i metallovedeniye, 1960., Vol,10, No 6 pp.866-872 TEXT: The object of the present investigation was to study the relationship between the surface properties of alloys formed with carbon by the elements of the iron sub-group and the form in which graphite is precipitated in these alloys, To this end, the effect of sulphur on the surface tension of nickel-carbon alloys. and on the contact angle subtended by these alloys on solid graphite, was determined; these data having been correlated with the structure of the alloys with particular reference to the form of precipitated graphite, The starting nickel-carbon alloys contained 2.4% C, 0.002% S, o.ooo4% 0 and 3.35 cm3/100 g 1j, The sulphur content was increased by addition of a inaster alloy containing 0.8% C and 1.43% S. The measurements of the surface tension and contact angle were carried out at 13600C on polished graphite plates. The following conclusions were reached. Card 1/3  S/126/60/010/006/012/022 E193/E483 The Effect of Sulphur on the Surface Properties and Structure of the Nickel-Carbon Alloys (1) Sulphur present in the alloys studied displays high surfacc. active properties and causes a considerable reduction ill the interfacial tension at the alloy-gas and alloy.-graphite interfac'~.- A noticeable decrease in the contact angle begins when the sulphij, content exceeds 0.07%. (2) With increasing sulphur content in th- alloy, the quantity of sulphur adsorbed on the graphite surface increases, reaching the saturation point at the sulphur content of 0.06%. The distribution of the sulphur ions in the adsorbed layer is similar to the configuration of these ions in the (110) plane of N'3S2. (3) Sulphur affects directly the form in which graphite is precipitated in nickel-carbon alloys, inhibiting the formation of spheroidal graphite and promotIng the precipitation of lamellar graphite. (4) In contrast to the Fe-C alloys. in which increasing the sulphur content above a fraction of a percent leads., to refining of the lamellar graphite, increasing the sulphur content in the Ni-C alloys brings about an increase in the size of the graphite laniellae. (5) The affect of sulphur on the structux- Card 2/3  s/126/6o/olO/006/012/022 E193/E483 The Effect of Sulphur on the Surface Properties and Structure of the Nickel-Carbon Alloys of the alloys studied is associated with its surface-active characteristics and can be explained on the basis of a hypothesis. according to which sulphur is preferentially adsorbed on the (0001) planes of the graphite nuclei. Acknowledgments are macip to Docent S.I.Popel for valuable advice. There are 4 figures. 2 tables and 22 references: 12 Soviet and 10 non-Soviet, ASSOCIATION: Urallskiy politelihnicheskiy institut imeni S.M.Kirova (Ural Polytechnical InBtitute imeni S.M.Kirov) SUBMITTED: April 25, 1960 Card 3/3  TSAREVSAIX,,,.-B.V.; POPELI, S.I. Steel adhesion to vario-us refractory materials. Izv. vys uclipb. zav.; chern. met. 6 no.12:9-13 163. (MIRA 17:1~ 1. Urallskiy politekhnicheskiy institut,  CHECHULIN, V.A.; KS_AREVSK4x. _B-V,_ Gas reactions in the foundry mold. Lit,proizv. no.7:38-41 JI 161- (PIM .14:7) (~blding (Founding)) (Gases in metalsY  S11 37/6 P,/6w/oo4/oo4/2o i A0061AI01 AUTHORS: Tsarevskiy, B. V., Popel', S. I. T=-: Adhesion of liquid iron and ferroalloys to solid oxides FMIODIGAL: Referativnyy zhurnal, Mletallurgiya, no. It, 1962, 8, abstract 4A37 (V sb. "Fizrkhim. osnovy proiz-va stall", Moscow, AN 333R, 1961, 97 - 105) TEM The authors determined simultaneously surface tension of melts aand of contact angles 6; from these values adhesion was determined. 6and e were determined by taking photographs.of a lying drop in purlfi6d argon atmosphere. Either corundize backings (pressed at a pressure of 600 kg/cm2 from chemically pure A1~03 powder, roasted at 1,6000C and polished) or magnesite backings, made of compact melted magnesium lumps, were used. The initial metals were purified carbonyl or technically pure Fe, Si of 99.95% purity and electroly-tic Mn. Ll~of Fe containing (in %) C 0.037 - o.o7, s o.oo4, o oxo42, P 0.006, Cr 0.01, traces of Si, Mn and2Ni, was 1,710 erg/cm2; & on a A1,0 plate was 1410, and adhesion was 380 erg/cm . The weak effect of C and Si on P- and 0 was established. With a Fe Card 1/2  Adhesion of liquid iron and... S/137/62/COO/0014/OOV201 A006/A101 concentration of C realsed up to 4.1% and Si to 5.1%, the magnitude of O'decreases 2, - decreases by 80 - 150 7 erg/cm2. to 1,625 erg/cm 6 , and adhesion increases to 51 The authors confirmed high capillary activity of 0 in Fe on the boundary with gas and solid Al oxide. Adhesion of Fe-C and Fe-Si alloys to solid oxides is small. It is 12 - 20%j of the metal cohesion, smoothly decreasing with a higher C and Si content. The introduction of 0 in Fe increases adhesion very strongly. At 0.076% 0 concentration, adhesion attains 1,235 erg/cm2. The authors confirm a greater reduction of C from the introduction of C and Si in Fe of technical purity, which is presumably explained by high S concentration whose activity increases from C and Si addition. Adhesion of commercial alloys to oxides is higher than that of pure Fe. T. Kolesnikova [Abstracter's note: Complete translation] Card 2/2  3/081/62/000/008/013/10-7 3!66/B-,O-, AUTHORS: Tsarevskiy, B. V., Popell, S. I. TITL:',- The adhesion of liouid iron and ferroalloys to solid oxides P -4-11 Q) DI. C A LReferativnyy zhurnal. Khimiya, no. L!, 1962, 72, ab.31.~-;Ict 8B516 (Sb. "Fiz.-khim. osnovy proiz-va otalill. I.1., AN ISSSR, 1961, 97-105) TEXT: The surface tension 0 and the contact angles 0 of iron alloyed with 0 C and Si or, oxide backings were determined simultane-,usly. The rerults o~t'ained are used to calculate the adhesion of liquid iron to solid oxides. counts to 1710 erg 2, il The (I of the iron stud4ed am S/cm the 9 on a plate made 2 from Al 203 are 1410, and the adhesion is 360 eres/cm . It is established that C and Si have * a slight i.-;flue'nce on a and 0. lncreasin~; the concentra-.- tion 017 C to 4.1 ~- and Si to 5.1 ~-~ -educes the maaf.,nitude of a to 10625 ergs/cm 2 and 9 decrease 16Y Bvl5o- High capillary activity of 0 n 2 iron on its interface with a Eas and with solid aluminum oxide is Card 1/2  S/Oel//62.11'000/00 6/0 1 The adhesion of liouid, iror.... 3; c or, -fi r.,.- a d .It is established that the adhesion of iron-carbcn and iron- sillLcor, alloys to so-Lid oxides is small, amounting to 12-20 of the cohesion of the metal and decreasin~c. smoothly wit-, increa-se in the 0 and Si content. The introduction of 0 2 into iror, 6ives an extremely s-arp ! 0 incre-~se in adhesion. 'Wlth a concentration of 0.076 /~ 2 the adhesic% reac'-es 12'2 2. -med that a more 4--lanse reduc'-Gn ~n 5 er6slclm Lt is confi. .1 6 - - a results from the introduction of C and Si into commerciall-y pure iron. This intensification is apparently brought about by the high concentration of sulfur, whose activity is increas-ed by the introduction of C and Si. The adhesion of the coramercial alloys to oxides is higher than that of pure iron. [Abstracter's note; Complete translation.] Card 2112  TSAMMM -B. Vs- (Sverdlovak); POPELI I S. I. (Sverdla7sk); IAZAREVY L. L. (Sverdlovsk) FlOnetration of iron alloys into packed eand. Izv. AN SSSR. Otd. takh. nauk. Met. i topl. no.6:49-54 N-D 162 (MIRA 1~:l) (Porous materials) (Liquid metals)  DZIIEMILEV, N.K.,, IVIII, S.I.; VjAIIEVSKIY, D.V. Inotherim of' derrilty and. aur&race tension of wngar,,~s,- and silicon melts. Poroah. met. 5 no.1001-74 0 165. (MIRA 18ill) 1. Urallskly politekhnicheskly Institut imeni Kirova.  TSARVSKIY. G.S. (Odessa, Mayski) xy qasojopejae - a cepheld with a varying period. Astron.teir. no.205-.20-21 0 '59. (MIRA 13:6) (Cepheido)  TERLIMSOVA, Me.; LANGE, G.A., PWYA, N.B.; SATANOYA, B.A.; KHOWPOV, P.N.; TSAREVSKIY, G.S. QX Cassiopoiae. Astron. tair. no.201:12 Ap $59. (MIRA 13:2) 1,Institut astrofisiki J.N Tadsh. SSR. Odesskaya. astronomichaskeya observatoriya, GosudarstronVy antronomlohaskiv institut in. P.x* Shternbarga i Astronomicheakir sovat AN SSSR. (Stars, Variable)  TSARUSK 1 aoplrant Variable atars and stlellar evo-1-iticn. Ze--.4. voel. 1 V--tz 165. cxal Ia.-8)