SCIENTIFIC ABSTRACT SHURBANOV, VL. -

S-Fu~;LBAIIOV.S vi. Vivid interest for chemistry and is applica.4-on in everyday life. Kh-im i industriia 36 no.6:232 164.  SHURBANOY Vi., Inzh. The nation-wide scientific tachnolo*al conference an silicate industry. Khim i industriia 34 no.6:~36-237 162.  SHURBANOV I Vi. . inzh. A mq~~* ow -the exim~. #f--AXpWtAW",~~JV tjw.-~food ands tobacco industries. Tekh dele 501-. 2-- 30 N 163. ?q  511UREA'I~OV, V7- scisnttifi~~ technical corference at. The Works9 sofia. Khim i industri-la '36 no.10:32013 '64.  C, A 'S H L) R C 0 t L 0 ~ R C-,- . p"**Rtmm,t *I-stw moraces Fier a mom-d- a Seladmoms emmuLdwas.. ~ A. 0. Sburchilov u,S.S.R. 69.991, Dm. 31, 194-4. ;, Is trea t witif a dil. iniswal acid and then with an alk. "a. M. Ilowh /7  ~V -V Pilarsiame,3, P.I~ ; SHURDUMOVY GVK. LiquiquB of the ternary reciprocal system consisting of rubidium and strontium nitrites and nitratels. Zhur.noorgakhim. 7 no.7.-1644,1647 J1 :62. (MIM 1623) 1. Rostovskiy-na~Do= gdsudarstvennyy uhiversitet. (Rubidium compounds) (Strontium compounds) (Systems (Chemistry))  PROTSENKO, P.I.; SHURDUMOV, G.K. Fusibility of the reciprocal system Cs, Sr N N02, N03- Izv.vys.ucheb. zav.;khim.i khim.tekh. 6 no.5:707-71-1 163. (MJRA 16:12) 1. Rost ovskiy-na-Donu gosudarstvennyy universitet, kafedra obshchey neorganiche3koy khimii.  SHURDUMOV, G.K.; FROTSENKO, P.I. Properties of solutions in the systems0NaN02 - Sr(N02)'2 - H20 and KN02 - Sr(f'02)2 - H20 at 25 C. Zhur. neorg. khim. 9 no.5:1237-1241 My 164. (MIRIA 17~9) 1. Fostovskiy gosudarstvennyy universitet.  ffe 5f~nt,,,- 1, ~Iihorma I ~---naly-qi q of bJ na-r- rm .7 ays'ems fo ed 'trf ,alkal f r-~ fps and strontlum. 6.iu-. neorg. kh-.'rn. 9 no,7!,1692.-~695- ii 164- (I-ffFA 17.9) I.. iinstovsk'iv --.-)sudargtvenily-y universitet.  --,FROTSENFO, P.T.- SifURDITMOV~ G.K. 16- - , . - - PhyE~izochezp-lcal prc-pisr-ties of the syst~-m!~. RbV02 - Sz'kx()2'j2 - H20 and GsNCZ ~ Sr (No 1 2)2 - H2G at 251C. Yhur. fiz. khim. 39 no.3r613-616 Yx 165. (MIRA 18t7) 1. Rostovskly-na-Donu gonadarstveni-tyy iiniversitet.  and density In the ,~~,ju!iljty, ejqctrocoTje.,jcT,' RbV.0- CsZ~: - Sr(NO-1)2 aT. 250'n, e k 2112 - -'120,s B20 -"hur, necrg, 10 no.2r480-48-'- F '65. (MIFLO, 18-131.) 1 - - Sulmitted - Rostovskiy~na-T'onu gc6udarsLvennyy univers-tet., 2, 1963~  LAGUNOV, V.; SHUREMOV, A..; TROFIIAOV, M.; KOSTYKOV, I., slesar'; FERULEV-. A. In organizations of our society. Izobr.i rats. no.10: 16-17 0 159. (MIRA 13:2) 1. Predeedatelt Yakutakogo oblastnogo soveta Ysesoy-uznogo obahchestva izobretateley i ratolonalizatorov (for Uxgunov). 2. Starshiy inzhener byuro takhnicheskoy informataii i lzobrotatell- stva, L'vov (for Shuremov). 3. Predsedatell soveta Vsesoyuznogo obahchestva izobratateley i ratsionalizatorov Vel'giyskoy bumazhnoy fabriki, g.Borovichi (for Trofimov). 4. Zavod "Soyuz.11 prodsedatell soveta Vsesoy-uznogo obsbehestva izobrotateley i ratsionalizatorov, Leningrad (for Kostykov). 5. Prodsedatell zavodskoy organizataii Vaesoyuznogo obshchestva izobrotatelay i ratsionalizatorov LyB'venskogo metallurgicheskogo zavoda, e,.L.vs'va, Perms1coy oblasti (for Ferulev). (Efficiency, Industrial)  EY.C1z,RPTA YEDICA 5ec 7 Vol 13/1 Pediatrics Jan 59 "(17. TlII-: DIA(-INOSIS 01"TOXOPI-ASMOSIS 1WHING AND POS-1 (Rus-sian text) - Sit u r (- n k -~ va A ._.I . - Zf)I1 A VOOKI 11". TADZII. Iff"561 5 (11-13) In the diagnosis of hurnan toxop!astnosis during i,re specine sci.0iogical l.t.;ictiolls arf- tised, Viz.: the (lye Lest of Sabin-VvIdinan and the CFT. In the actite iniLull period of the disease there is it high Litre to the dye test and after 2-3 weeks the - CFT is positive. If at this stage the titre to the dye test is not falling, .ve may assert the toxoplasmic aetiology of an acute fpbi-~Ie or cerebral disease. If III(, (lye test is positive on both occasions btit. the CFT negative, then we shoul(I think of residual antibodies from -a previous iilnes.9 and look foi- some other. actiology. The most convincing proof of toxoplasmic aetiology is detection of the single-evIl mos' often founel in Ole centrifuge deposit of CSF in parasite Toxoplasma gondii, needle biopsy of lymph. glands and in smearE from the tissue biopsy. In the post- mortem diagnosis it is easiest to find the parasites in smear impressions of pieces of organs, stained with Lhe Romanowsky-giemsa inethod. (S)  USQ- / Zooparasitology. General Problems. G-1 Abs Jour: Ref Zhur-Biol., No 20, 1958, 90Q68 Author ;-Zhu32~e~kova, A. i. Inst : Not give-ft--- Title : Certain Findings in the Study of Huitan Parasitic Diseases in Tadzhikstan Ori- Pub: Zdravo-khr. TadzhJkistana, 1957, No 6, 23-30 Abstract: No abotract Card 1/1  KOMAROV., Ye.V.; PUSHLENKOV, M.F. ; SHURENKOVA, M.Ye. Factors determining the distribution of inorganic acids between aqueous and organic phases. Trady Kom.anal.-khim. 14:47-58 163. WIRA .16:11 )  . V. S . F "The Co.,.,,--)arative Ch~--racteristica of the Clinical Manlfe-vtatirns of Ty.,,',joid .- ever, 1--na-atyp'noid Fever A, and P,-Iratyphoid B in Adults." Cand -ed ~'ci , LIvov Me!Acal Inst, LIvov, (KI., No 15, Apr 5') 3 SO: Sum. No. 704, 2 Nov 55 - Survey of Scientific ami Technical Dissertations Defended at USSR fli-aher Educational Instituticns (16).  5 " I ~7111-1~1'--"T--'~' '~'. ". Growth - S'-.udir and TenarhLmg Teaching th.-,, subi-ect "Ph-,vsiological charac lllz~ ris tics of the i,ro-.-Jing organispi" (G'Vn grade' - k, :~st. v shl~ole I!o. 2, 1952. i 9. Monthly List 2f Russian Accessions, Library of Congress, july uncl.  AU T H OR Shuxgal`ak~v. E. F.. EnGineer SOV119-58-10-3/19 TITLE: The Operation of Valves "Wi-th Rubber Packings (Rabotia klapanov s reziro,4-jm uplotneniyem) PERIODICAL. Pribarostroyeniye, -1958, i1rr 10- Pp T-111 (USSR) ABSTRACT- Air--crew masks, oxygen masks and pneumatic regulators must have vallres that close perfectly. The conditions for a per- feet o-peration of the valve packings are derived theoreti- cally and experimentally or are investigated, respectively. This investigation covevs the t~wo valve systems: a) Valve with direct action, -as. pressure "under the vaiv b) Nonrel-urn valv6, gas pressure "on the valvel Especially the sealin g forces are-derived. The correct operation of the valves is checked experimentally. especially usefill For the.production of the valve seat an ' shane is -iven. The Lidin attention has t(i be paid to the smoothness of the seat.face (7:~-V~ 9 or vvvv 10). The relative pressiixe on the packing material which has to be applied to the unit of length of the valve seat to secure an absolute Card 1/2 tightness is measured. (It is expressed by a'in kg/cm). The  The Operation of Valves With Rubber Packings SOV/119-51a-10-3/19 a-values are determined ffor the fo'lowing diar~Bt~ers of the valve L seats~ 6,-'4; t4ra.,2; 2z9 and 2-2 mm, with rubber of the t e y-_p V-14 - 2 rnun thisk (hardness according to Shcrru 80 - 82), and of the type N-~4, C_-;roup ;G -- '3,4 = thick (hardness ar-m. cordirg t(*, Sho7-,j = 68 - 74) being used. The dependence measured between the sealing force and the --as prensure t~, b.e controlled takes a linear course. Also the in~;.rease of the seal-ina force was experimentally determined in the oase that the sealing valve is tilted by I dearee to the lialve seat,, From the graph obtained may be concluded that the increase of the sealing force is linearly proportional to the diameter of the valve seat and that it practically does not depend on the thickness and the hardness of the rubbers There are 7 figures and 7 references, 7 of which are Soviet. Card 2/2  SHURGALISKIY, E.F. Performance of the rubber and metal valves. Kauch. i rez. 22 no.8tlJ*-18 Ag 163. (MIR& 16:10) 1. Moskovskiy institut khimicheakogo m;Ashirostroyeniya.  --i SHURGANOV.. Ya. -1, K- 1. U-9eful practice. Avltzansp. 40 no-5:55 My 162. (I'JFI 15:5) . . , (Transportation, Automotive)  IECHK9R, M.I., SHURGAYA, Sh.l. Study of the vectoreardiogram in healthy subjects, Klinemed; 36 no-8:87-93 Ag 158 (Mm 11:9) 1. Iz pervoy kafedry terapii (zav. - deystvitellnyy chlen AMN SSSR prof. M.S. Vovsi), TSentrallnogo instituta usovershenstvovaniya vrachey. (VECTOROARDIOGRAPHYP in healthy subjects (Rus))  SHMIN New 1541-type open-side boring and turning lathe. Stan. i instr. 28 no.11:19-21 N '57 (Lathes) (MIRA 10:12)  PHASE I BOOK EXPLOITATION SOV/4753 Safronovich, A.A., M.V. Bulatov, and A.M. Shurgin Karusellnvve stanki; konstruktsiya i ekspluatatsiya (Vertical Boring Mills: Con- r,"metion and Operation) Moscow, Mashgiz, 1960. 174 P. 8,000 copies printed. Managing Ed. for Literature on Metal Workifig and Machine-Tool Making (Mashgiz): V.I. Mitin, Engineer; Ed. of Publishing House: W.A. Ivanova; Tech, Ed.- T.D. ElIkind. 1URPOSE: This book is intended for technical personnel concerned Vith the operation of vertical boring mills at factories and for operators interested in improving their skills. It may also be used by students at schools of higher technical education as supplementary material for the course an "Metal-Cutting Machine Tools." COWMG-E: The authors describe the construction of Soviet and non-Soviet vertical boring mills. The book contains information on basic subassemblies, special constructional features,, and modern constructions of these mills. Vertical boring mills are classified according to standard size and purpose. Trends in  Vertical Boring Mills (Cont.) SOV/4753 the construction of modern vertical mills are discussed and instructions are given for servicing and operating these mills. No personalities are mentioned. There are 30 references, all Soviet. TABLE OF CONTERTS: The Purpose and Standard Sizes of Vertical Boring Mills 3 Description of the Constructions of Vertical Boring Mills 5 Non-Soviet Vertical Boring Mills Description of the Construction of Vertical Boring-Mill 28 Subassemblies 32 Frames for single-column mills 32 Portal-type frames 34 Beds and tables 35 Cressralls 51 Tool heads 58 Speed drive 75 Cq~F'A.;a/4'.  The s--.-).~rsonic flow of c:as past crDnical bodies re-)resert--In,- a delta ha E and a fuselac-e 'he sta'--Idliser of a 1-,Iissile, a fiiselai:e wit . a delta-s ped w~n c with a sta 4liser are investi-ated in this paper. The t,,.~i--ckness of the 'cody and -1. E7 i-he -4nclinat*,,-)i-. an-les relative to the incident flow are ass-med as ',-ein ently small. Formilae aro Civen determ-ininf- the 1--i-istriblition of tne pres-~,ire alon,- tI-e -,odies and of the aerad,,namic coefficients c 3c c c c y x z m m 1n an appendia t1lese coefficient's are calculated. (1~'irst -ou,.I-Tshed in 1~L9). z c Jes, ,y~mposinm of Theoret.-cal Work on Aerodynamics, Oboron~- , 1~57, 3,000 Op- ~,'entral tc-,o-ltydrod.~,rnamics inst. Lmeni Irof. N. Ye. -hiE-:ovs'-i3r  Flo -.,I t -.- rl~-~: -.1, t'-~ ;-~2J a t C 3,.:;: ~`s The flow past ailerons of a supersonic [-as flow is considered in orc-sence of a wing located under a zero incidence- ancle. it is ass-.med that the thickness of the !,.-ing: and of the a4-lerons and the angles of deflection cif the ailerons -are suff.-Iciently small. Seven fundamental cas s az-(-.- considered depending on tie shape of the vi-4'nr and the ailerons and on the PL-ich number of the incident flow. For each case ormulae are F-1ven for calculatinr the pressilre distribution (para. 2). ln :)ara. 3 the Cormul.---ie are -.1erived Ifor deterraininj the aerodynamic characteristics of the aileron for 'Llhe first case. i'he resi)lts obtained in this --aPer can also be ~itiijzed for the ;aerod,,-na-:ic calculation of other control orl-ans of aircraft. Pui-lisned in 1949). 'D'ymp sium of Theoretical "Ilork an 2terodynamics, Cyboronf--iz, 1957, 3,000 copies, Gc.ntral ~iero-flydrodynamics Inst. imeni erof. N. Ye. -,'hukovskiy.    KUDRIN, V.S.; KUDRINA, M.A.; GINZBURG, - A.I.,. glavnyy red.; AFELITSIN, F.R.8, zamea-titell glaVnogo redaktora; CHERNYSIIEVA, L*V., red.; BEUS, A.A..,.red.; GREKULOVA, L.Ai, red.; , GRIGCR"YEV, V.M,,,red.; ZABOLOTNAYA.. N.P., red.; MATIAS, V.V., red.; POKALOV,'V.T., red.; RODIONCV, G.G.,, red.; STEPANOV, I.S., red.; CHERNOSVITCV., Yu.L., red.; SBMANENKCV, I.V., red. Nare-metal metasc'matia'formations associatedwith subalkaline granitoids.) Redkcmetallnye metasomaticheskie'obrazovaniia, sviazannye s subshchelochnymi granitoidami. Moskva, Nedra, 1965. 145 P. (Geologiia mestorozhdenii redkikh elementovp no.25) (MIRA 18:8)  EX~7P.OPTA ' r,-DI-,A See 6 Vol 13/? Internal 1-'.ed. jiily 5Q 3860. TREATMENT OF THYROTOXIC CASKS WITH POTASSIUM PERCIILORA TE (KC104) (Russian text) - S h u r i_g* i n D. Y a. - KLIN. MED. (Mosk.) 1958, 36/3 (87-93)'Iables I - Most of the 25 patients were sufficiently improved. K perchlorate acts somewhat more slowly than methylthlouracil. Side effects (goitre and leucopenia) were slighter than those of thiourea derivatives.  GUREVIGH, Boris Samsonovich; x4KHOTINA, Nina Grigorlye+m; SPRIX. R4khil Hlyukomvna; BORISOVA, G.A., red.; SUMAK, D.N., tekhn. red. [Yur articles, sheepskin coats, knit goods, sundries, perfume and cosmetics-, student mnual for wrchandise departments of Institutes of Soviet commerce] Tovar:~:- Ptwhno-mekhov7s, ovehinno'- shubi7s, trik6tashiWe, galanteretays, parfiumerno-kossaticheekle; uchebuos posable dlia toyarovednykh otdelenii takhnikumov sovetskol torgovli. Moskva, Goo. izd-vo torg. lit-ry, 1957. 288 p. (Commercial i3roducts) (KIRA 11:7)    Sn'Rin.IW, G. I-% Shurikhina, G. M. "Exchan~_e adsorption on cellulose materials," --In table of contents third author: T. I. SIMRIKHINA --- Materialy Tsentr. nauch.-issled. in-ta bumazh. Drom-sti, Issue' 37, 1948, p. 83-106 --- Bibliog: n. 10~_06 SO; U-3566, 15 March 53, (Letopis 'Zhurnal Inykh Statey, No. 13., 1949)  I TA 7 f  SOV/ 137-57-11-22236 D Translation from: Referativnyy zhurnal, Metallurgiya, 1957, Nr 11, p 225 (USSR) AUTHOR: ShH.~~_, TITLE: Phase Diagrams of the Iron-Arsenic and the Iron-Carbon- Arsenic Systems (Diagramma sistemy zhelezo-mysh'yak i sistemy zhelezo-uglerod-mysh'yak) ABSTRACT: Bibliographic entry on the Author's dissertation for the de- gree of Candidate of Technical Sciences, presented to the In-t chernoy metallurgii AN USSR (Institute of Ferrous Metallurgy, 0 -At..a.demy:of Sciences.- UkrSSR)Dnepropretrovsk, 1957 ASSOCIATION: In-t chernoy metallurgii AN USSR (Institute of Ferrous Metallurgy, UkrSSR), Dnepropetrousk., Card 1/1   SHURIN, A.K.; SVYECIINIKOV, V.M., akadf-mik. Investigation of the equilibrium diagram of an Fe-C-Ae system In the region of iron-rich alloys. Dop. AN URSR no. 2:138-140 157. (W-RA 10:5) 1. Akademlya nauk URSR (for Svyechnikov). 2. Inatitut metalofiziki AN URSR. (Iron alloys--Metallography)  137-58-5-10520 Translation from Referativnyy zhurnal. Metallurgiya. 1958, Nr 5. P 234 IUSSR) AUTHORS. Svechnikov, V.N., Shurin, A.K. TITLE- The Iron-arsenic Phase Diagram (Diagramma sostoyaniy zhelezo-mysh'yak) PERIODICAL. Sb. nauchn. rabot Iti-ta metallofiz. AN UkrSSR, 1957 Nr 8, pp 51-57 ABSTRACT.- The alloys were made in a Tammann furnace in a curren, of Ar with electrolytic Fe and an As alloying compound, the la.!Ter being produced by briquetting of 30% powdered As and 70% elec- trolytic Fe. The liquidus line was determined by thermal analysis in a Kurnakov pyrometer. Homogenizing of the alloys -,vA-s per- formed at 800-12000C. The investigation was by the study of the quenched microstructure. In alloys with Fe', As forms an enclosed a- field. The concentrations of solid ovand e1' solutions in equilib- rium at 11500, in which the S- loop is of maximum extent, -ere found to be 1.75 and 4.2% respectively. The eutectic transforma- tion temperature was found to be 8400. The maximum 5olubililty of As in 1~>(Fe, determined by X-ray analysis of the structure. is Card 1/1 12.476 and 8400 and 5% at room temperature. L. V. 1. Arsenic-iron alloys--Phase studies  137-58-6-13258 Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 6, p 298 (USSR) AUTHORS: Shurin, A.K., Svechnikov, V.N. TITLE: The Iron-carbon-arsenic Alloys (Sistema zhelezo-uglerod- mysh'yak) PERIODICAL: Sb. nauchn. rabot In-ta metallofiz. AN UkrSSR, 1957, Nr 8, pp 58-64 ABSTRACT: The alloys were smelt~,!d ,of metallic As (96016), Armco Fe, electrolytic Fe, and an a'116y~ containing ev501o C in a Tammann furnace. Homogenization was done at 900-12000C during 6-8 hr, which fully eliminated dendritic liquation of As. Investiga- tion was conducted by the methods of differential dilatometric analysis and by microstructural methods of measuring of re- sistivity during heating. Four cross sections were constructed for constant As contents: 0.8, 1.4, 2.8, and 4.5%. As was above points Al and A3. At 1.75% As th~ _" 0(+ (r and S-t-,r regions unite. At 2.4% As the C< and 6 regions unite. The temperature of the solidus drops sharply with an increase in As content (by 220-3200 depending on C content.) The temperature Card 1/2 of the eutectic transformation L + Fe3C with 4.5% As  137-58-6-13Z58 The Iron-carbon-arsenic Alloys decreases to 9600. In Fe-G-As alloys As is fully dissolved in ferrite. A structural abnorrnality was detected: hypoeutectoid cast alloys contain more ferrite than annealed ones, while both cast and annealed hypereutectoid alloys contain structurally free ferrite. A.V. 1. Arsenic-carbon-iron alloys--Properties 2. Arsenic-carbon-iron alloys--Micro- structure 3. A-rsenic-carbon-iron alloys--Temperature factors Card 2/2  SVECf[NIKOV, V-11-; KOCHr"RZf'1'4SKIY, Yu.A.: PAN, V.M.; SHURIN, A.K. Investigating chromium-niobium-vanadium alloys. Issl. po zharopr. SPlav. 3:168-177 1 58r I (MIRA 11:11) (Cbromium-ni0biuW-vanadiwn alloys-Metallography) (Pbase rule and equilibrium)  &UTHOR: Svochnikov, V.N., Pan, V.M. ~5~~A. ~K. Effe~at of Phosphorus and ArsGnic on th* latti~~a -Parvxleter and Hardness of od, -Iron (V1iyaaiye fasfora i R7:3'1'.~aka na parametr kristallicheskoy reahet-k-L-i t-%-aa_'dc-,st1 allfa-zhel:eza) PERIODICAL:Fi.zika Metallov i Metallovedeniyep 1()58, Val 6, Nr 49 pp 662-664 (USSR) 1,BSTRACT: High purity electrolytic iron was used. for the preparation of the exI)erimotntal Fa--P and Fei-,As allc--ys malted in vacuum (10-4" ma H,- ir- the forza~r, ax-d ix- argon in the latter case. The alloying elenr_nta .,vera int.roduced in -the form of master alloys of uhe eiatidotic composition (10.5% P or- -300/a As) prepared by powdered Metallur methods (sIntered in evacuated quaj-,+-,z ampoules5y. No losses of the alloying elements accLLimid on smelting, and the carbon content, of the Fe-P and Fe-As alloys was 0.004 - 0,010?o' and 0,01-0 - Caiq 1/4 respectively. To remove the segregation eff*,.;t-q 1;.'rao  -13/34 of Phospnorus and Axsen-Jc on tac lattice Pam-ameter and Hardne s s of d~ -Iron alloys were- --ubjected to a hoaugenising d1ffusiaa an-ne-a-1.Lng treatment in the single ( o( or L( ) phase -t~ompe:ratui-- region. The powder specimans foor the X-:~&T pared by filing were annealed. for 2 hrs analysis pre L. at 800-10,900C, i.e. in the a4, -phase rej~;Lon, and cooled For determining the macro and. YL,-icro-hardness numbers, the Vic1mrs hardness testing machine (5 or 20 kg load) and a PMT-3 micro-hardness tester "'15 or 30 g load) wore used. The results of the X-r-a- U y measurements reproduced graphically show that the lattice parem ter of cA, -iron is decreased b- Dho--Dhorus (Fig.1) and increased by arsenic addition (.~ig.2)7. Deviation from the additivity law, negative in the former and positive in the latter cas*, was obser d. ,Talues of the lattico parameter of ths ok --phaa& in alloys annealed in the two-phase region are also Fivln. (The Fe-P alloys were annealed at 4009 6509 835 ancL 10000C for 150, 45, 3 and 1-5 hrs respectivtly, tha "lard 2/4. annealing conditions for the Fa-kb alloys b&ing 11-50, 65,  SOV/126-6 - 4-713/34 IvEffect of llhosohoriLq and Axsenic ca i.-he Lat,-,ic;e Parar4vsr and hardness of c< -iron 45 and 10 hrs at 400, 500, 650 and 81000) From thesa dEita solidt solubilit-i of P and As im Y,,,-iron at various temperatures was 6xyte rained. Tha sol-i-11 solubility curve of phosphoras in d, -irozi i& shovin ou Pig.3, that sliowing solubility of arsenic in -4, -iron is r~5produced in another arbicle (Ref,12). Both Phos-Phorus and arsenic wara found to -Ancrease hax-Inejs of cf~ -iron. The m:Lcro and- cu--vcs "graghs a and b) for the Fc--P 3.*--As k1loys are shown on Fig.4 and The diffoxyince betwoen t1)6- values of -~-t-A Tin:~,ro-hanL-*_3s art a t, 'i ri b ut a d `&J-. o t h e f a o. t - lv,'aa - r, i: j2.,4 f f-- r me,, r wa s d! t ~- 1, M Ine d.  SOV/126-4-4-1..3/34 Effect of Phosphorus and Arsenic on the Lattice Parameter and Hardness of c~ -Iron on cold-worked and the latter on annealed specimens. There are 5 figures and 12 references of which 2 are Soviet, 4 English, 3 German, 1 Ukrainian and 2 Norwegian. ASSOCIATION: Institut Metallofiziki AN USSR ODI (Institute of Metal Physics, AS Ul~rSWAJ SUBMITTED: 26th September 195?. Card 4/4  18(4,7); 25(l) PHASE I BOOK EXPLOITATION BOV/2306 Akadamiya nauk Ukrainakoy SSR. Institut metall0fIZikI Voproay fLzIkj metallov I metallovedeniya (Problems in the Physics -11 of Metals and Metallography) Klyev. Izda-vo AN Ukraln3kly SSR, 1959. (Series; Its: Sbornik nauchnykh rabot, Nr 9) Errata slip inserted. 3,000 copies printed. Ed. of Publishing House: V.L. Shkurko; Tech. Ed.i M.I. Yofimova,, - Editorial Boards V.N. Svechnikov, Academician, Academy of Sciences Ukrainian SSR (Reap. Ed.); S.D. Gort3riken, Doctor or Physical and Mathematical Sciences; and I.Ya. Dekhtyar, Doctor of Technical Saiances. PURPOSIs This collection of articles is Intended for scientific aspirants, and engineers in the fields of the physics workers , Of metals, metallography, and metallurgy. It may also be useful to students of advanced courses In metallurgical and physical facultles. COVIRAC13i This collection of' articles deals with the following -7-top a3$ so 0 -spee hoitijij; heat treatment, deforms Op a3$ ; , and crystallization conditions on phase transformation tions , structures, and properties of metals and alloys, the effect of additional alloying components on volumdzric and InterarystallIne diffusion in alloys; and the effect of repeated quench hardening and radioactive and ultrasonic treatment on the physical proper- f alloys. No personalities are mentioned. References --wirloe "veral*df the articles. :!YASh0lk-0Y-V-J-, and A.T . Sgectur. Invoutlgation of Transformations LA-tha Solid State of Cobalt-rLah CO-Cr Alloys 105, Changes in 0abAlt-baae solid solutions and a more precise datormination of phase ranges in equilibri= diagrams of the C-Cr system are investigated. The kicro3tructure of alloy.samplea 13 discussed. ' Sveohnikov, V.N., YU.A. KO c0 er re str Y*-Ye t j lht ~ - d A.K.M Tn- ;Y Mr l the r. -V V.P. Pan of h on 03ti6;ftt1!On a ~r V - , K. ~a t y3y. 120 Constitution diagrams And microstructures or various binary mid ternary alloys were Investigated. Changes or hardness with changes of temperature are shown. Ldanlk A.0., and Displacement of - WWr- -C ves Of hases i the P i4aiffbf9 Cu All r n e r oy p 0j System Due to Prolonged High- temperature Heating of the khaso 133 Electrolytic chromium and iron were used for making the M11015. Spiral a-mples, 20mm. long, were heated in & vacuum (10' =- Hg)o and electrical resistivity was measured, The drop or resistivity at the A,1 transformation Is discussed. y 6- A- Anisotropy In the Diffusion In Cu.hu Alloys whA ,ring 139 l h" calculation of diffusion coefficients for a ljoye uzd4rgOlng ordering is -do analytically by the method of Egan energies and by the 'conrLguretion method.. n P I hnlkov~ Invogtig&t ion of ; a Volumstrio Dirru ' n of Iron in Alloy, 147 Alloys composed of ?a + 0.27 perc ant Al, and F. - 009 percent I, w A or Investigated. a S "Pl8m, 10 x 15 x 2.3m~., I r wore do armed annealed. 0 mean grain size ((). 5 to lem. did not change after diffusion soling (770 to 12500C). The Polished surrac0a or the sampled Were coated with radio- active Iran (I to 2 microns thick). The depth of the diffus. Ion layer.(300 to .150 micronsl varied with toppere,turg and time at' annealtng. Garteriken, S.D., T K Yatfienko and L F SlaatnLkove. In_ s`-;- ~- F-3T%Tj t1 t1 f Di v , on o o ga f( 'ra t ad IOng r In "Oundarion ,p Cobalt, Nickel, and Iron 154 The absolute values or diffusion coefficients for co-co, - C "' Co-Fal Pff-Pal and PO-NI, 1-d-, di ffuBLon with o r a rd to time and temperature of annealing, were obtained g for grain-boundary diffusion and volumetric diffusion. The relationship between coefficients ror both dIffuslons In discussed.  18(7) PHASE I BOOK EXPLOITATION SOV/3355 Akademlys nauk SSSR. Inatitut mdtallurgil. Nauchnyy aovet po probleme zharoprochnykh splavov Issledovanlya po zharoprochnym 5plavam, t. IV (Studles on Heat-ri- slatant Alloys , vol. 4), Moscow, lzd-vo A-N SSSR, 1959. 400 p. Errata ellp Inserted. 2,200 copies printed. Ed. of Publishing House: V. A. Klimov; Tech. Ed.: A. P, Gu3eva; Edit.orlal.Board; 1. P. Bardin, Academician; 0. V. Kurdyu=ov. Academician; N. V. Ageyev; Correaponding Xember, USSR Academy of 71~ Sciences; 1. A. Oding, I. M. Favlov, and 1. P. 2udin, Candidate of Technical Sciences. concerned with PURPOM This book Is Intended for metallurgists . the structural metallurgy or alloys. COVERAM This In a collection of specialized studies of various roblems In the structural metallurgy of heat-reslatant alloys. e are concerned with theoretical prnciple*, some with de3- M criptions of new equipment and methods, Othe" with properties pherlo=ens occurring under 0 specific materials. Varlou : d p*eifiad conditions are studi and reported on. ?or details, so Table of Contents. The articles are accompw.!6d by a num- : ber Of references.. both SQvis t ands noa-Savlat. Studies (Cont.) SOV/~355 aany6v- A. P, , and 1. V. Chernanko. Effect of plastic Deformation at Low -T - --- -j----- em Gr& urea a th H n e eat-v egl3tant - Proportion of Type l8 ,TI A g usten. tIc Steel 214 S&T'tskly, TO. X. # and M~A-Tylklra, -ReOiystallIzatiOn of kh~_'tarFa`FtOrY M-tali TLt ~716 l7 an z fnjum s Tantalum. Rhardum, and Tungsten, and Their Allo y 218 Orldnev, V. X., Trorlio cn-'PljFgjj~fi ~_vofand A. X. Butyjanko. Effect ty Chrom I ,j ---- 226 V. and V. A. Trapeznikov. Production of 1,u r$ Chromium 237 SvechnIko,v._Y,X. , ju.. A, XOCher-hinik.1y, v. PI-Fan.- T07TO Ma stre k - a Y o, d A- K- Shurin. __.~ Sf~dY of the Chibilium-Xioblum-V sdI an um Syst02 248 (1rum"QrZhImaylO_x_7" 4n4__D_I.__prgkgf,'yev. Diagram Of the Ternary System ChrOml _ Conatitutlon =-Tii_n 3ten-M 1 bd G ,,,,. g y 257 Card 8/12  SVECHNIKOV, V.14.-, KOMMMENSUY, Yu.A.-. PAN, Y.M.; KhTSTRENX0, Ta.Ya.; SIRTRIN, A.K. Investigating tho chromium - nlobium - vanadium ayeten. Isol. po zharopr.splav. 4:248-246 '59. (MIPJ, 13:5) (Chromium-niobium-vanadium alloys)  SVECEINIKOV, V.N.; KOCHERZHINSKIY, Yu.A.; MAYSTRENKO, Ye.Ye.; PAN, V.M.; Investigating the Cr - ITb - V system. Sbor. nauch. rab. Ins' metallofiz. AN URSIR no.9:120-132 '59. . (VIRL 12:95' (Chromium-niobium-vanadium alloys--Metallography) (Phase rule and equilibrium)  SVEGM41KOV, V.N.; SHMIN, _A Combined effect of manganese and arsenic on transformations in iron- carbon alloys. Sbor. nauch..rab. Inst. metallofiz. AN URZR no.11:53- 60. l6o. (MI]RA 13: 11) (Iron alloys--Metallography) (Faase rule and equJ3ibrium)  25858 S/020/61/139/004/018/025 B103/B206 AUTHORS# Svechnikov, V. N., Academician AS UkrSSR, and Shurin, A. X. TITLE% The phase diagram iron - hafnium PEaIODICAL: Akademiya nauk SSSR. Doklady, v. 139, no. 4, 1961, 895-898 TEXTt The authors investigated the system Fe-Hf and drew up its phase diagram (Fig- 3). The properties of Ef have been investigated insufficiently';.the authors were unable to find publications on the Fe - Hf phase diagram. This is explained by the fact that so far Hf could not be produced without large amounts of impurities. Its malting point has not been established either, nor the temperature of the allotropic transformation existing in Hf. The authors prepared most of the alloys on the basis of electrolytic 'iron which was annealed in hydrogen and then in vacuo. Carbonyl iron was used for part of the alloys. After purification, the iron contained a maximum of 0.01% C, Si, Mn, S, P, or N each. The metallic h.fnium iodide used contained 0.5~o Zr and 0.2% Mo. The 25 alloys prepared were remelted in the arc furnace 5 to 6 times in pure argon. The apparatus used for the thermai Card 116  25858 S/020/61/139/004/018/025 The phase diagram iron - hafnium B103/B206 analysis was described previously (V. N. Sve-hnikov & al.,Ref. 12s Mashinostroyeniye, No 5, 76 (1960)). Tungsten-iridium, thermocouples and BP5/20 (VR 5/20) ~W + 5% Re - W + 20% Re) were used. The dilatometer is also described in Ref. 12. The phase components of the alloys were determined by X-ray structural analysis. A filtered cobalt Kq-radiatior. in a cylindrical camera was used. The Curie point of the alloys was- determined with the anisometer by Akulov [Abstracter,s notet Anisometer not stated7 (methodS3 V. G. Permyakov & al. , Zav. lab. 21 No-6,695'1 955)). The authors established that in alloys with less than 45A Hf four trans- formations take place in the solid state; Two magnetic ones ino"--iron and in the intermetallide. a third which is linked with the trans- formation of o(-iron into t~-iron, and a fourth which corresponds to the transformation of r-iron into d-iron. The heat of transformation for c4_---~rwas determined dilatometrically at a heating rate of UP to 0.5 deg/min. Thec-4--4y'transformation took place in the initial iron (C- content up to 0.01%) at a heating rate of 0.2-0.3 deg/min between 894 and 905 VC. The heating and cooling dilatograms do not permit the distinction between the transformationo~+E----)Y-+E and &--tr. The greatest solubility of Hf in o(-Fe (peritectic point) amounts to 0.2%. It wao Card 2/6  2-5858 S/020/61/139/004/018/025 The phase diagram iron - hafnium B103/B206 determined on the basis of the intersection point of the peritectic horizontal with the extrapolated curve of theok---9-r transformation. Characteristi c features were a) the temperature increase of the trans- formation oWL C with increasing Hf content in alloys, and b) the spreading of the transformation over a considerable temperature interval. For this reasori-, the above temperature which amounts to 935150C, was determined from the dilatogram of the two-phase alloy (o(+E), whose composition lies closest to the peritectic point. The transformation /+-[ i:/takes place on the basis of a eutectic reaction at 1330�50C. The eutectic alloy contains 2.8% Elf. At 1330'C, the maximum Hf solubility in r-Fe is 1.6%. In alloys with 70 - 9VS Hf, two transformations take place in the solid statet 1) magnetic transformation of the intermetallide; the coefficient of thermal expansion is strongly changed herei 2) eutectic transformation at 1235tlOOC according to the reactiont E+O'Hff %f + E. 2) is accompanied by a noticeable thermal effect and a considerable volume increase (during heating). From this, the authors conclude that the Card 3A  25858 S/020/61/139/004/018/025 The phase diagram iron - hafnium B103/B206 solubility of Fe in Hf is low (certainly below 1%). The fusibility diagram was drawn up only on the basis of a differential thermal analysis. The authors established two eutectic transformations in the system Fe - Hf% A) L;~-_~ PHf + r- at 130011 OOC and B) L7,-,f+ E at 1 350tl O'C. The Hf content in the eutectic alloys is 85 and 21.5%, respectively. The crystal lattice of the alloys containing the intermetallide P92HF (g'-phase) was determined by X-ray structural analysis as being hexagonal and of the MgZn2 type. The parameters of this lattice were not the same in alloys of various compositions. From this, the authors conclude that a considerable range of homogeneity of the E-phase exists in some alloys. The boundaries of the mono-phase range were found at 12000C by direct determination of the hafnium content in the ~-phase. I. D. Marchukova (Institut metallurgii AN SSSR - Institute of Metallurgy, AS USSR) made the caemicai anaiysis of this phase by X-ray structural analysis with the "PCALU-2 (_RS_'Sh-2)sppazatus. In the E-phase of alloy no. 18, 501k Hf were formed, and in no. 21 64%. Since Fe2Hf is ferromagnetic, the Curie point of the C-phase was determined Gard 4/6  25858 S/020/61/139/004/018/025 The phase diagram iron hafnium B10.1,[B206 in several alloys, i. e., for.varioua'compositions of the E-pha e. In 0 this way,,it was proved that the Curie point drops from 405 to 145 C *i.th an increase of the HAI content in the intermet~Lllide from 50 to 64%. The 1 composition of the*~_-phase in the allois was changed owing to long annealing (over 100 hr). The Curie point dropped in alloy.no.'18 from 0 405 to 3770C, and in no. 21 it increased from 145 to 170 C. The boundaries of the mono-phase range of the intermetallide were determined in'this way. The hardness of the intermetallid'e (determined with the 2 Vickers device) is 650 kg/mm , and its melting pbint is 1810t200C (for stoichiometric Fe H-0, which is much higher than that mentioned.by R..-P. 2 The Elliot, W. Rostocker (Trans. Am. Soc. Metals, 50, 617 (1958 authors thank I. B. Borovskiy for making the spectral analysis in his laboratory. There are I table, and 13 referencesi 2,Solie 3 figures, bloc and 11 non-Soviet-bloc. The two importaht'references to English- P. Duwes (Ref. 51 J. A;PPl- Pbyf3. language publications read as follows: 22, No. 9, 1174 (1951); H.'-K. Adenstedt (Ref. 2". Trans. Am. Soc. Metals, -4-4-, 949 (1952) The third-one see in the body of the abstract.- Card 5/6  .25858 S/020,/61/139/004/018/q25 The phase diagram iron'- hafnium 131 03/B206 ASSOCIATION: Institut metallofiziki Akadeiaii nauk USSR (Insti,tutie of Physics of Metals of the Academy of Sciences UkrSSR SUBMITTED: April 18, 1961 Fig- Fig. 3: Phase diagram o the system Fe-Hf. Legends Z, 1.4 1 N-S. 150L7 a) by weight. JD' A ) 94Y 100 Card 6/6 4pu so  s/6o3_/62/ooo/o3.6/oi6/o29'_ B192/E382 ALIT HOR-S: Svechnikov, VWN. and S hurIn i' A.K.' C TITLE: onstitution diagram of the Fe-C-Hf system SOURCE: Akademiya nauk-Ulcrayins'loyi RSR. Intsytut met alo- fyzyky. Sbornik nauchnykh rabot. no. 16. Kiyev 1962. Voprosy fizik:L inetallov 1 metallovedenlya* 1211. -127 -work, (DAN SSSR, TMU: In continuation of their earlier ho. 4, 895-898, ig6i) on the Fe-Hf system the authors stud� ed the Fe corner oEthe Fe-Hf-C constitution diagram, embracing alloys with up to 1.70% C and 200f0' Hf. Hlgh-purlty materials were us ed for the, preparation of experimental alloys'. whose constitution' was determined 'with the aid 'of-thermal and X-ray diffraction analyses, dilatoinetri on, Ic measurement's andlmetallographlc examinatl of'specl-nens quenched from various temperatures. Some.of the- results are reproduced in:Fig. 1 showing' vertical sections through'i the Fe-C-Hf system at 0.9, 10, and 201j1/1) Hf. The vertical, sections nd 1.6500 C are shownin Fig. 2. It has -been,_.1L at 0.25, 0.55t 1915-a as est.-*%blished that the carbide formed in the Fe-Hf-C alloys h .ms Car-& 1/3   s/6o1/62/Ooo/oi6/016/02 9 Constitution diagram of F,193/F,383 Fig. 1: 4 56 HI 0, 9 YO HI t. Oc T+E-X 900 t y*K. 8 T 00 vct.y#/( 735 E CKTIX~'~ 735 700 iffI(K MKILI COK 600 11.5 L35 1"O 1,5 0 015 110 Ca c. 20,'e HI C, lox HI t. ec rE 900 Y# a- E Y-MOU qoo 7 5 OaM 3 6DOP 700 0 0,5..'~- ./,0 1,5,; 0 L15- !,0 ~,5 2.0 2,5 c, &  s/6ol/62/Ooo/oi6/029/O29 Elll/E451 AUTHORS: Svechnikov, V.N Nocherihinskly' Yu. A Shujt~in, A . K.' Pan, V.N., Spekiolrl A.Ts.,.Kobzenko, G.F., Bojrko, Yu.~*, TITLE: Equipment for the physico-chemical investigations on, high-melting chemically active metals SOURCE: Akademlya nauk Ukrayins1koyi:RSR. Instytut-.me talfyiyky.~ Sborn1k nauchnykh.~rabot. no.16. Kiev, 1962. Voprosy fizik:L metallov I metallovedeniya. 220 230. en developed over several. TEXT. The following equipment has be years in the Otdel metalloveden:Lya,.(Department of Science of A Metals) of Institut metallofizik! AN UkrSSR (Institute of'PhysIcs''.: of Metals AS UkrS SR) for studying alloys such as chromlum-nlobium- ium: 1) Arc fur includin casting facilities in which vanad nacel, 10-2 of argon to a-,, P evacuation to ~_mm is followed by,admission pressure of 0.2 atm.' [Abstracter's note: 10-2 mm is a very poor vacuum and the equipment would not-work as described The argon -nace by a mo.1te .1s 'then purified in the fux n t!tan�txm Settex A rotary arrangement enables:a clean section of the lnspection~ window to be moved into position without breaking the vacuum. 2) Argon purification plant in which air and moisture are removed Cavd 1/2   ACCESSION NR: AT4042839 S/2601/64/000/018/0170/0174 AUTHOR: Shurin, A. K.; Dmitriyeva,.G. P. TITLE: Chromium-ruthenium phase diagram SOURCE: AN UkrSSR. Institut metallofiziki. Sbornik nauchny*kh rabot, no. 18, 1964. Voprosy* fiziki metallov i metallovedeniya (Problems in the physics of metals and physical metallurgy)', 170-174 TOPIC TACS: chromium ruthenium system, chromium ruthenium alloyp alloy phase diagram, alloy composition, alloy solid solution ABSTRACT: Chromium-ruthenium alloys containing from 2.0 to 58.1 atz Ru were prepared by melting electrolytic 99.9% pure Cr and a powder of 99.86Z pure metallic Ru in a nonconsumable electrode-are furnace in an argon atmosphere.' The alloys were annealed at 1500C for 25 hr., 1300C for 130 hr in argon, or at 900C for 150 hr and 800C for 100 hr in a vacuum, and water quenched. The phase diagram of the Gr-Ru system (see Fig. 1 of the Enclosure) was plotted on the basis of the differential thermal analysis. The a + 0 eutect1c, where a and 0 are the solid solutions of Ru in Cr and of Cr in Ru, respectively, is' Card 'A/3  ACCESSION NR: AT4042839 formed at 1610 �10C and contains 37.5 at% Ru. An intermetallic compound RuCr2 (0-phase) formed with a peritectaid a + 8 reaction at about 1580C, has a homogeneity range of -2 at% Ru (from 35.5 to 37.5 at% Ru). The solubility of Ru in Cr varies from 34 at% at 1600C to 19 at% at 800C. The solubility of Cr in Ru varies from 52.5 at% at 1600C to 46 at% at 900C. Alloys with 20.2 to 31.4 at% Ru annealed at 800 and 900C contain a RuCr3 compound (cubic lattice of the 0-14 type) and a RuCr4 compound, the latter probably formed Afrom the supercooled a-phase containing 18-20 at% Ru. With the decomposition of the RuCr3 compound at 780C into a mixture of the a and a phases the alloy expands. The hardness of the a-phase increases from 1519 Mn/m2 for pure Cr to 8820 Mn/m2 for the maximum saturated solid solution. The a-phase has a hardness of 10,388 Mn/m2, and the maximum saturated 8-phase has a hardness of 2040 Mnlmz. Orig. art. has: 5 figures and 1 table. ASSOCIATION: AN UkrSSR) SUBMITTEDt institut metallofiziki AN UkrSSR (Institute of Physics of Metals, 20Jan63 ATD PRESS: 3085 003 ENCL: 01 SUB CODES MM NO REF SOV: Cardb 2/3 OTHER: 002  ACCESSION NRi AT4042839 Wtx Itu 10 ;'Qj PVQ JO OQ 7q 00 YV t.-C. I e l 2M X- loco ------------ 500 0 0 20 40 ho. 80 no at% Ru Fig. 1. Cr-Ru phase diagram ENCLOSURE 1 01  ACCL--SION NR: AT4042840 5/2601/64/000101810175/0177 AUTHOR: Shurin, A. K.; Dmitriyeva, G. P. TITLE: Niobium-cobalt phase diagram SOURCE: AN UkrSSR. Ingtitut metallofiziki. Sbornik.nauchny*kh rabot, no. 18, 19.64. Voprooy* fiziki'metallov i metallovedeniya (Problems in the physics of metals and physical metallurgy), 175-177 TOPIC TAGS: niobium cobalt system, niobium cobalt phase diagram ABSTRACT: Thirty niobium-cobalt alloys containing from 14.4 to 99.2 at% Nb were prepared by melting electrolytic cobalt and 99.4% pure niobium in a nonconsumable tungsten electrode-arc furnace in an argon atmosphere. The alloys were annealed in either argon or in vacuum at a temperature ranging from 1300 to 700C for periods vArying from 50 to 435 hours. The phase composition was determined by metallographic and x-ray structural analyses, and a phase diagram of the Nb-Co system, based on data from the.differential thermal analysis, was plotted (see Fig. 1 of the Enclosure). The inte 'rmetallic com- pound NbC03 Of the a + NbCG3 eutectic at 700-IOOOC is homogeneous -at an N13. concentration of 28 to 33 atu/,, and has a melting 1/ 3  ACCESSION NR: AT4042840 temperature of 1540 �10C. The alloys annealed at 700, 1000, or llOOC had only the a and NbC02 phases. The intermetallic compound B is formed during crystallization at 1440 �10C and decomposed with the eutectoid reaction 0 -4 NbCo2.+ NbCo at 1225 �20C. Decomposition of the 8-phase at 1200C and its formation from the NbC02 + NbCo mixture can be achieved with 50-hr annealing. The NbCo intermetallic compound is homogeneous in the 700-1250C range at a Nb content of 45 to 54 at%.. The solubility of Co in Nb, determined at 1250C, was about 1.57.at% (I wt%). Two-phase (NbCo + y) alloys contained no other phases. Orig. art. has: 2 figures and 1 tables ASSOCIATION: Institut metallofiziki AN UkrSSR (Institute of Phyqics of Metals, AN UkrSSR) SUBMITTED: 20Feb63 ATD PRESS.- 3088 ENCL: 01 SUB CODE: MM IiO REF SOV: 001 OTHER: 006 rnrfJ '2 1  ACCESSION NRi AT4042840 to 70 30 40 ~Z 70 60 80 90 95 f. ,c 1700 IJ40 M00 1ma edc goo . trans I -T I 700 a 10 Zo 3o, 40 50. 60 90 foo 70 80 c0 at% -Nb - N6 Fig. 1. Niobium-cobalt phase diagram ENCLOSURES 01 Card 3/3  ACC:-MION Ni: AP4037443 S/0021/64/000/005/0600/0603 AUTHOR: Kuzlma, Yu. B.; Shurin, A. K.; Dmv*triyeva, G. P. (Dmitriyeva, G. P.); Glady*shevs1ky*y, Ye. Ir. (Gladyifshev6kiy, Ye. 1.) TTTLE: Crystal structure of the beta-phase of the niobium-cobalt system and the solubility of silicon in it SGUME: AN UkrPSR. Dopovidi, n6. 5, 1964, 6oo-603 TOPIC TAGS: niobium-cobolt system, beta-phase, beta-phase stabilization, x-ray analysis, space group D sup 4 sub 6h, space group P6 sub 3/mc, 1~gZn sub 21 structure, niobium-cobalt-silicon system ABS'iFUCTT: X-ray analysis was used to establish that the beta-phase of the C has the n~olium-cobalt system, existing over the ttemperature interval 1440-1225 1-TopZr structure (space group F6 -2 3/mac -- 1)9h ) with lattice parameters a - (4.834 0.002) A, c - (7-853 � 0.004) A, c/a - 1.624 for the aloy containing 35.1 - atormle cm" Nb. The beta-phase had been studied 6arlier by two of the authors, Card 1/2  ACCF,SSION NR: AP4037443 A. K. Sh. and G. P. D. (Voprosy* fiziki metallov i metallovedeniya, no. 18, 1963, P. 175). The other authors, Yu. B. K. and Y. I. G. had previously established 0 the e:~dstence of the composition Nb Co3Si at 800 Cu. Si structure) in the 2 C (M92 3 ternary hb-Co-Si system. The purpose of this study was to see whether this ternary alloy is a solid solution based on the beta-phase. The results'showied the answer to be in the affirmative. They also indicated that the beta-phase of bhe Nrb-Co can dissolve up to 251% atomic % Si, and that the addition of Si can utabilize the beta phase down to 800 C. Orig. art. has one table and one figure. 'ASSOCIATION: Llvivslky*y derzhavny*y universy*tet, Insty*tut metalofizy*ky* AN UkrSSR (L' vov State University, Institute of Metal Pbysics, AN UkrSSR) SUBMITTED; 03May63 DATE ACQx 03Jun64 ENCL: 00 SUB CODE: MM,SS xo w sov: oo4 owmt oo4 Cacd 2/2     w  SHURIN, A~K.. DMITRIYEVA, G.P. Constitutional diag--am cf the uhroutium-nitheaium alloy. Sbor. nauch. rab. Inst. metaUlol"iz. AN URSRno.I8eI7C--174 '6-1+ (Ia-~A 17:8) Gbnstitutional diagrain of the n.-Lobium-cobalt alloy. Ibid.,.175- 1-0;7.    SIIIMRIN. A.K. Differential highly sensit---ve di-latometer with heating in an Lnert atmosphere. Sbor. nauch. rab. Inst. metallo-fim. AN UFSR no.18-.222-22,5 t64 OMIRA 17.-8)    E7 M Ell E74 _IL1260-6 E'oiT(m)/EliP(w)/EPF(c)/EPF(n)-2/E74P(V)/T/ P(b)/ A i-1_4 NP(c) JD/JG/WB ACCESSION URt AT5008875 S/2601/64/000/020/010810124 AUTHORt Alfintseva, R. A ; Dmitriyeva, G. P.; Korobeynikova, V. G.; Pan, V. M.; Shurin, A. K , Svechnikov, V. 11. (Academician An UkrSSR) X7 TITLE: Investigation of chromium-iron-molybdenum and chromium-iron-! tungsten alloys .7/ SOURCEt AN UkrSSR. Xnatitut metallofiziki. Sbornik nauchnykh i trudov, no. 20, 1964. Voprosy fiziki matallov i metallovedeniya (Problems in the physics of metals and physical metallurRy), 108-124 TOPIC TAGSz chromium alloy, iron containing alloy, molybdenum containing alloy, tungsten containing alloy. allo structure alloy ~ot hardnas!~4 alloy oxidation,,tesistance ABSTRACTs ~ha following alloys have been investigated to.dat~7rmine which ternary Cr-Fe-Mo or Cr-Fe-W alloy would provide the optimum combination of the heat resistance of Ho or W and the ductility. of Cr. binary chromium-iron alloys containing 45-90% Cr, chromium- molybdenum alloys containing 10-30% Ho, chromium-tungeten alloys containing 10-30% W, and ternary alloys containing up to 55X Fe ead Card 1/3  ACCESSION UR i AT5008675 U -50% Cr, additions p to 30% Ito or W. In Cr-Fe-Mo alloys containing 45 of up to 6% Ho do not improve hot hardness or oxidation rir'sistance. Increasing Ito content leads to the formation of a brittle[to-phase which has a very low oxidation resistance in air at 1100C and lowers the oxidation resistance of the ternary Cr-Fe-Mo alloys in direct proportion to its content in the alloys. In Cr-Fe-W alloys, the single phase a-region extends to about 32% W. but it tapers off at about',1275C. At high temperature (1450C), the single-phase region of a-solid solution with a b.c.c. lattice increases substantially, so that all the investigated alloys, except for an alloy containing 40% Fe and 30% W, became single-phase alloys at a more or less high temperature. A single-phase structure and a satisfactory ductility is readily preserved in all but three of theme alLoys by oil quench-1. ing from 1450C. Tungsten additions increase somewhat the malting temperature of Cr-Fe a lloys , a. g. 9 30% 9 increases the -sol idus tem- porature by 100 and 150C in alloys with 40 and 5OZ Fe. respectively. Tungsten also increases the hardness of Cr-Fe-W alloys at both room z and high temperature and does not impair their oxidation resistance. Orig. art. has: 8 figures and 3 tables. IMS) Card 2 /~3  L 4156o-65 ACCESSION NR: AT5008875 ASSOCIATIONS Institut metilllliziki AN UkrSSR (Institute of Metal Physics, AN UkrSSR) SUBHITTED*# 13mar64 ZHCLt 00 SUB CODEt MM So REY SOVs 003 OTHIRs 007 ATD PRI955 13234 card 3/3  6010590 SOURCE CODE: UR/0000/65/000/000/0159/0162 AUTHOR: Svechnikov, V. N. (Academician AN UkrSSR); Shurin, A. K.; Dmitriyeva, G. P. tk*,- ' ORG: Institute of Metal Physics, AN UkrSSR (Institut metallofiziki AN UkA TITLE: The hafnium -chromium phase diagram C/4 _4 ;P,7 SOURCE: AN UkrSSR. Fazovyye prevrashcheniya v metallakh i splavakh (Phase transforma- tions in metals and alloys). Kiev, Naukova dumka, 1965, 159-162 TOPIC TAGS: hafnium alloy, chromium alloy, alloy phase diagram ABSTRACT: The Hf-Cr system was investigated by metallographic and x-ray phase analysis of Hf-Cr alloys prepared in an are furnace and subjected to various annealing treatments. Differential thermal analysis was used to determine the temperatures of the start and end of fusion. The phase equilibrium diagram obtained is shown in Fig. 1. The eutectoid equili- brium 6-�, ct+ Y was observed in Hf-rich alloys at 1300 � 10C. Metallographic analysis of alloys annealed at 1500, 1200, and 1000C showed that alloys containing from 70 to 99. 9 at.% Cr consist of two phases, and those with 99. 95 and 99. 97 at.% Cr have a single-phase struc- ture. Thus., the solubility of hafnium in chromium was found to be 0. 05 - 0. 1 at. %; it re - mains practically unchanged as the temperature is lowered. Metallographic analysis of Spec- imens annealed at 1200 and 1000C established that the solubility of chromium in hafnium does not exceed 2 at.% at these temperatures. The temperature of the polymorphous transforma- tion in the compound HfCr2 was found to be 1325 � 20C. Orig. art. has: 1 figure and 1 table. 1/2  31568-66 ACC NRt AT6010590 90. IT 2100 L 137 0!.d A- 17W 1300 or Vb f - H T T - - z A i spa a A7 'IV 30 4 9 V _~M d _ do M som NI (Cr - at; Fig. 1. Phase diagram of the hafnium -chromium system. SUB CODE: 11 SUBM DATE: 30Dec6,4 OIUG REF: 001 OTH REF- 002 2/2  T I  L 2451 1-66 EV1T(d)/EWP(h)/EWP(1) ACC NRAP6007696 SOURCE CODE: UR/0413/66/OW7003/OOT5/0075 AUTHOR: -Kr61iovetskiy-Kbcherzhinskiy, Yu. A.; Shurin, A. K. ORG: none institute TITLE: String-tn>e dilatoineter class 42, No. 178530 [Announced by the of Physics of Metals AN UkrSSRAInstitut metallofiziki AN 'USSR) SOURCE: Izobreteniya, promyehlennM obraztey, tovarnyye znaki, no. 3, 1966, 75 TOPIC TAGS: dilatometer, string dilatometer, elongation measurement,, elongation ABSTRACT: An Author Certificate has been Issued for a otring-type dilatometer for measuring the elongations of specimens of very small dimensionsjWTo Improve the accuracy and simplify the measurement procedure, the Indicator wtrings are positioned crosswise, and their poit of intersection is within the visual field of reading microscope (see Fig. 1). ILD]- CardL/01 UDC: 536/413/2/002/56  ---L--24513 ACC NRt I SUB CODE: ICard 2/2  Name: SHURIN, A T. bissertation: Degree: Af+I++&44,Qn: Degemse Date, Place: Benthonic fauna of the Gulf of Riga Cand Biol Sci Acad Sci USSRI Zoological Inst Acad Sci USSRI Academic Council 1956, Leningrad Source: Knizhnaya Letopis., No 51, 1956  SIILMIJ~ A.T., kand. biologicliesklkh nauk --N- 3ottom fauna of the Gulf of Riga and factors governing its distribution. Trudy vNim 42:37-6o t6o. (MIRA 13:9) (Riga, Gulf of--Benthos)  :Z I il_ ~, r,T Shurin, L. - ~,Jn L.~-,e "--;s'uDry of to:~chnology), illustratued by . T. , P. ~-IL, i. Yanitskiy, -,naniya--s-;la, 19L,9, No. ,, I I ISO: L-L,110, 17 July 53, (Letopis 'Zhurnal Inykh St;iLtey, i". ig, 1)L.9).  SIMIIT, P.S. , inzh. Specialization and cooperation in the electrical industry. Vest. elaktroprom. 31 no-3:75-76 Mr '60. OURA 13:6) 1. Glavny-y tekhnolog Novosibirskogo Giproenergoproma. (2lectric engineering) 4  SHURIN, S.N. Technical progress in -;eraent plants in Etovorossiysk. Mement 27 no-5.-7-9 S--O 161. (1,11MA 1.4,12) 1. Pervyy sekreta-r' Novorossiyskogo Gbrkoina Konuunisticheskoy partii Sorvetskogo Soyu EL. (Novoroasiyvk-~ement indua~ries)  LtSR / Human and Imimal Physiology. TUood Circulation. T -4 Abs Jour :Ref Zhur - Biologiya, Nu 1, 19_59, No- 3398 Author :Shurin., S. P. i'hirar-149dical Institute InBt Title Some Data on the Role of the Central Nervous System in the Process of Formation and Development of Experi- mental Endozyocarditides. Preliminary Report Orig Pub :Tr. Novosibirskogo med. in-ta, 1957, 27, 74-94 Abstract :Studies were conducted on 104 normal non-sensitized rabbits. When the carotid artery of 10 rabbits was infected with blood taken from a patient with rheum- atism. and processed with hyaluronidase, infla-rustory changes appeared in the cardiac muscle more often than when other inodes of administration were used. Upon introduction into the carotid artery of a hyalaronidase- treated extract from the valves and myocardium of a Card 1/3  ZTALRSSKIY. G.D.. prof., VOROBOYEVA. N.N., prof., PIROGOVA. 0.1., q.F, KM-AGEKM, V.P., YAVCROVSKAYA, B-Ye., YMOROV, A.I., MOSOLOV, A.H. Specific agent inducing rheumatic fever. Report No.l: Some data on a filtrable virus Isolated in rheumatic fever. Terap. arkh. 30 no.5:3-15 MY 158 (tnu 11:6) 1. Iz Movosibirskogo meditainskogo inatituta. (RHEUKATIC YSM, microbiology, isolntion & infect. of animals with specific virus (Rus)) (VIRUSES, isolation & infect. of animals with sDecific rheum. virus (Rus))  SHURIN, S.P. Some data on the role of the lymphogenic spread of infection in the pathogenesis of experimental endomyocnrditis. Terap.arkhe 30 no-5:15-21 My 158 (MIRA 11:6) 1. Iz kafedry fakulftetskoy tern-pii (zav. - -orof. G.D. Zalesskiy) Novosibirskogo meditsinskogo instituta. (RHEUMATIC HEART DISRASE, experimental lymphatic spreading of infect. (Rus)) (LTMPHATIC SYSTEM, physiology-, spreading of infect. in exDer. rheum. heart dis. (Rus ) )  +/. ~3HURIN 3. P.9 CAND %IED SCA "EXPERIMENTAL ON REPRODUCTION OF RHEUMATIC CARDITIS IN RABBITS." Nov.osi- BIRSK, 1959. (~JOVO81BIRSK STATE MED INST). (KL-DVt 11-61, 231).  DREYZIN, R.S.- YAVOROVSKAYAj V-ye . BALANDINA, A.M.- SHURIN S.F- V64WIEVA, N.N.; MWOLOV;PA.N.; ZJUZSSKIY,'G~ ~; ~ , V. M. Group of new virus strains, the so-called R virus. Vop virus. 6 no.5:521-532 S-0 161. T, - ?NIRA .15:1) 1. Institut virusolokii imoni D,I.Ivanovskogo AM 85-SR, Moskva i Novosibirskiy maditainaki in titut, Novosibirsk. (VIKUtg)  SHURINY S.P.; YAVORSKAYA, V.Ye.; LOZGVOY, V.P. Detection of the virus isolated from patients with rheunntic fever in a culture of fibroblasts with the aid of label-led fluorescent serum. Vop.virus. 7 no-3:273-276 It-Je 161. (MIRA 14:7) 1. Iz kafedry fakulltetskoy terapii i revmatologicheskoy laboratorii Novosibir6kogo meditsinskogo instituta. (RHEUMATIC FEVER) (VIRUSES)