SCIENTIFIC ABSTRACT ZASHKVARA, V.V. - ZASLAVSKAYA, F.V.

ACCE HS 10~ NR: AP4042605 8/0057/64/034/007/1285/1292 ALrnlort: V*V#; Korsupskty, U.I. ITITLC: Experimental Iniestigatiod of the electron optical-properties,of.an electron Ang electr !static analyzer with a linear distribution.of potential an the def lect so V'.34p no.7, '1964, 1285-1291.1" URCE: Zhurnal tekhnicheskoy fizikl TOPTC TAGSt olactron' optico, eliectro statio,analyzer !ABSTRACT; An',electrostatic anal~zor of the type dindussed earlier.(V.V.Zash,kvara .MiB40-847,1962) was coApfructeei and tested. In this type and M.1.Korsunskiy,ZhW of analyzer the potential on each cylindrical deflector falls linearly..from .a maxi-I mum on the central are to a minimum at each edge. With auch an instrucsa~nt'it is Do Joible separately to adjust the :first 'Order electron optical properties (focusand dispersion) and the socond.order properties (aberrations) by altering the potentiki distribution on the deflectors. The analyzer employed 1800 deflection by cylindri- I cal-alectrode surfaces of 96I.and.10.9 cm radius.'Each deflector coullisted of a stack of 17 platen, Oj4l.~'M'thick and.ot.s4.1~table shape, saparated'byj mm glass.'ia- sulatorv.o.The platca of each deflector wart) connected together in VaLre (tho two Card  ACCESS ZOWNR AP4042005~-' outermost, the two next outermost, etc.) ind fed from &,stabilized power supply 6 jthrough a voltage divider. An 0.1 mm diameter hot tungeten.wire served,as the*ob- Jeot for the electron optical experimonts.'The.electrona were accelerated to 1000 1 eV by a 6 mm d-iameter* 25 mm long, cylindrical electroda with an'0.5'mm slot. Ibis e.LOCrron source was placed 35 cu. from the entra6ce to the anal'yzer, Eind the angulari 10-3,in the horizontal plane a~d jj x 10-2 in the,,' -i Veam divergence was limited to 3 x ::vertical plane. The image was photographed at 4 cm from the analyzpr.'B properly ::1 1 y ..adjusting'tho potential distributOYk on the deflectors, it was possible to achieve ;!'a dispersion greater by a factor'S.3 thiin that which would be obtalnod v1ith a Gimi- lar analyzer employing equipotential detleetion olectricdes* This incress'e'in din-6 parsion was accompanied. by saw. deterioration 61~ the ixogo, but the resolving V6!ror 1r: was increased by a &Actor,. 3;13 -.9rig. ar't km:, 26 formulAng,4 figures and 1. table. AS."JOCINTION.- Khartkovok ,Ly Oolltekhnichoskiy'institut 116.WLIAnini. (Rharlkov- Poly-, tecimic Institute) .., .. -I' I , - " , ~ 7'. - -, - , :~ 11. I-. . _ I .A 4 SUMITTO: 15JunS3 -ENCLi 00 SUB CODE i SC NP arm: Ooo Card  . . 11  MCM' -,wT 77-7- = N Ah m-4a m~p".id f, IQ t r I 1~~ it tc f. s(i F b t ly inn Z~15rd fi, tt-,, ~-Vftw v'15 pav~,- .1V ".h4R, - 2A ~ i, i,:: X, ..-t -d -v-c~   TITLE-. Arm4ser of charged particles by their kirgatic anargies. Clastj 21t Hq~, -7-7- 7- Ryullate'n, Jubreteni-Y i tovarn-fth makovf no'i 202".1965t 44 -:Earticl a -TOPIC TAOS# -detector# parti ale physicop kiiiatic energy ABSTMU, s This Author Certificate presents an analyzer of charged particles by their kineliic energies. The analyzer contains two electrcdes and a recijiver (im Fig. I). '.-,*o inarease the sensitivity, the elor-trodea have the forn of wo coaltial cylimers. The outer cyliader car2les a charge of the sane, sign as Uie charge of the particles, The internal cylixider Nis two annular slits located bettioen the, aource of Che partiole5 and the receiver. Tho source, and the raceiTer, in turn,  CC' (Rs A 8471- - ----- Fig, 1, 1 =d 2 - 91wstrod"; 3 and 4 elite; 5 - particle source; receiver. are placod, on the axis of the CY11rderso OrIgs art* hast I figures  twm f0138 G/Oja/001/01M ZR6hkvara,V.V,; Korzun3kLy,MOI*; kos'111a,chev, 04# nond v -is tcs~of,an e ectr6tatic-A roi!_ -with ~F66iLtsinf; character i I ir a cylliArical field SPURM Zhurnal tekhnicheskoy f Utki v. 36, no. 1, ISGG, 132-138 -TOPW TAGS: electron 'optics mass .,spectrometry alectrinteitic field eleat~odov -pp~t,ntialt-ch~r'ged-p'artielb, ion energy MOTRAM., Tha authors,..(Ifscuss~ 1.0cu.s.ing,of. ch-crged particles -by.the electrostatIc f feld -originato in a bq~t.'ArCen: tWq, conxial cylindrical. electrodes T1 6 long are: asstmed to point source-, on -the -611ommon _4kis rak the clactroclas and to enter and leave the Later- r a ele'c't oJ rcgion through circular slots In the inner electrcd6. Charged particles Witt . a cortain, energy'l depending an their charge' anti maso # the pOltentLal Offorance tetvaue Via 616;trodas, the radii of tho eloctrodes, tho distance t"tween the slots in the Ituier aLectrode, and the position ot the source, will he brisught to a focus on the axis It ia proposed to employ such a system of electrodes to record the energy spectrun Of charged particles by keeping fixe4i the positions of the sou r'ce and detector and varyiog_~_,~ ;Ptentlaton the..olectrodes. TW-focusing conditiona gko derived. It Is showii tkat ;I no:, onl,r first o,i-der, but stlao aecord order focustrAt Occurd if the angle between 7 e nilial trijedtory and the &x1s is 42o 201. The authore, also calculated the second iL.3    ZASIADIKO, A.F. Ugollnaia rromyshlennost' zapadnylk,h mionov US SSR v pos~evoennoi stalihskoi piatiletk,,,; stenogr4 publ. lektsii, pro~:hitannoi v Moskve. Mo3kva, ravd2a, 19,'.8. 28 p. DLC: RD9555.R8',1.3 SO: L3, Soviet 'Geography, Part 1, 1951, Uncl.    gz~ OV,SITJM, D.Te.: ZASIMCMX, I.I. Wfect, of mosOc strm.-ture on zinc diffusion in single alwinum crystals. 7iz. met. i metallove.d. 10 no.5:743-749 ff 160. I WIRA 14: 1) 1. Institut metalloftsiki. AS USSR, (Aluminum, 4:rystals) (Diffusion)  S/126/60/010/005/017/030 E021/sW AUTHORS*.~' OvAiyenko, D.Ye. and Zasimchuk, I.K. TITLE:' The Effect of tho.'Degree of Polygonization on the, Diffusion of Zinc in an Aluminium.piLngle,Crystal PERIODICAL: Fizika metallov L'.metallovedeniye, 3.9601 V01.10, No.!;, IPP-743-749:- TEXT:. The'investigationa,were Zarried out on flat single crystals of 99.995% aluminium, grownfrom -,the- Molt. Different degrees of mosaic structur-e-were obtained by che .nges in the rate- of movement of,the furnace from 0.5 to 6 mm/min~with a temperature gradient of 209/ cm. . In all the Samples the, (200): plane was parallel to the surface. . The:dimensions of the crystallites and the miiximum misorientation..between them were determined by X-ray crystallography. ~ Zinc was precipitated'on an electropolished surface of the aluminium using a zinc sulphate /sulphuric acid/ sodiwa fluoride- bath with it current deinsity of 0,05 A/cm2 and a voltage of 4 V. The samples were heated at.various temperaturom in argonk,~_ Layers 5 to 10 microns thick were then removed electrolytically and the activity *nr t-he -zinc determine d-~---,-ThusF-th-e-d:Uf ru-sian- -ok zinc could be followed. Card 1/3  5/126/60/011.0/005/017/030 Eogi/EO6 The Effect of the Degree of,11olygonizationlon. the Diffusion of Zinc in an Aluminium Single Crystal The results showed that the mosaic structure had a marked effect on the-characterand the rette of diffusion. In the more perfect. crystals with crystallites'of about ()-2 cm and-angle-of misor;ientation 15 'to 201 the- -zinc obeyed the laws of volume diffuision in the region 327 to 37.50C. The temperature relationship wa s .208 1. 00 D 1.4 e Inthe.lesis perfect crystals with crystallites of about 10-3 CM and angle of misorientation '50 to 500, the boundaries between the crystallites played an important role in diffusion, Thits was shown by,a change inthe character of the fall in specific activity with depth, by an Increase in depth of,penetration and by an increase in the effective coefficient of diffusion Acknowledgments are expressed to S.D.Gartariken stn. M.P.Pryanishnikov for.particiliating,in and evaluation of the work. Card 2/3  Card 3/3  1~j 7j IFQ; _j gli 66WICE CODE: uR/0020/66/168/001/0686/0082 I A%A~ Nks 015-088 AUTHOR: Zasimchuk 1. K,-'Ovoiyenkol D. Ye# ORG: Institute of PhysIcs of Met 1s ances UkrSSR (Institut metano-, Academr o fiziki Akademii nauk UkrSSR) TITLE: Sffect of_SAdmium Ampurity. concentration on the substructure of zinc siWe SOURCE: AN SSSR. DAlady, v. 168, no. 1, 1966, 80-82 TOPICTAIGS: cadmium, crystal structure, zinc, single crystal, crystal impurity, metal grain structure, crystal dislocation ABSTRACT: Various highly sensitiZe methods are used to atuOy the effect of impurity concentration on the.dislocation tructure of single crystals. The work was done on zinc single crystals with cadmium concentrations .of.1,10-3, 2-10-4, 3.*10-2 and 2,10 at.%. The stbatructure ofthe cryntals was stuiUed by x-ray.diffraction topography of the crystal surface and by taki.ng reflection curves using the double-crystal Bpec- trometer.principli while rotati.ng the specimen. The crystals with the two highest cadmium concentrations were studied by dislocation etchi,ng. The eWrimental results show C0]3siderable variations in dislocation structure as the impurity concentration is changed. Phctomicro aphs show that the subgradne are stretched out along the axis of gr W&I 540.4-j  -----L--3' O&W ACC N1h -AP6015088 growth. The orientation of the ou 'bgranular boundaries in the specimens with the two lo-weat concentrations of cadmium tends to deviate with equal probability toward both sides from the axis of groyth, vh1le the oubgranular bound r1es In crystals with con- centrationu of.0.03 and 0.2 atJ Cd follow the axis of grL15th very closely. The aver~age diameter of the dubgrain decreases froin approximately 1 = for the lowest cad:adlmi co-acentration to approximately 0.13 = for the h 'ighest impurity concentration. The purest opecimens show a fine.Lstructure in -the fom of enall dark. spots, streaks and lines :~d.ng in rows or randcidy distributed. The results of eVeriments on de- Z the single cr-istalB st4;gest that this structw~e is due to dialocatLono foritiation o, for VhLch the Burgera vector,has a component normal to platte (1013). Topogrami for the pureetzinc specimens show a dislocation density of 105-5#105 linee/cm4. Isolated dislocations are usually not observed in zinc single MatiLls with cadmium impurities, althpugh specimens-with a concentration of 0.2 at.% Cd show a block structure within the subgrains with elements measuring 40-100 )A, and a diso:.Aentation of less than 11 between adjacent elements., This type of structure is much less pronounced in er7stals with 0.03 at.% Cd. No barded structure was observed in highly pure specimens, which may be due to insufficient dislocation density or to the high mobility of the vubgran- ular boundexice at temper 'atures close to the melting point. An impurity (calliamr) 13tl'Ucture is formed with an increase in cadmium concentration to 0.03 at.%, which changes tho direction of the boundaries in the dislocation aubstructure and reduces the size ol? the structure while simultaneously preventi *ng the formation of subgranular boundexies with high disorientation. A further increase In cadmium conventration to Card 2/1  EAU . I - ~ E~, 'i ~,, ~ 0 -4i, ~ 2F4- - ~~ 41~k7.~CXM,,, Z ~'. %~-- . .- - I. , . - I- ...~ , Z. ".ql. ~ :. -. . . I -t=,, R -- g"; ili~ :!~ . rP4 ~ : KIT~~ :   SOV/2-1-59-1-11/26 AUMOM Zas moh Ye,.F, and Larikov, L. W. S: i uk TITLE: The Linear Rate of the Growth of Recrystallization Centers in Heavily Deformed Nickel and Iron.(Liney- naya skorost'rosta tsentrov rokri,stallizatsii v sil no deformirovannykh nikele i,zhel.eze) PERIODICAL: Dopovidi. Akademii nauk Ukrainslkcii RSR, 1959, Nr 1, pp 42-45 (USSR) ABSTRACT: It has been demonstrated in the work of L.N, Larikov Z~l J that the time1C until the e.,ppearance of the first recry'stallized-grains (size L) in heavily-deformed metals is basically determined by the linear speed .(G) of the growth of the recrystallizat Lon centers, and can be expressed by the equationTO__;5_,_ . The authors of this paper have established ""7 the way of determining the temperature-dependence of G by measuringr and L in several temperatures, in the here- Oard*1/3  SOV/21-59-1-11/26 The Linear Rate of the Growth of Recrystallization Centers in Heavily Deformed Nickeland Iron, SOV/21-59-1-11/26 described radiometallographic experiments with iron and nickel deformed by compression to 80%. The-data in- cludes the pre-exponential factor G and the activation energy QG Of the proces8 for electr8lytic nickel (99.990/6) forged at 1000 C,.the same nickel remelted in a vacuum, armeo iron (99.88.9/6)'and electrolytic iSon (99.97'Q refined by annealing in H current in 1200 C and subsequently remelted and soELk3d in avacuum for 12 hours. The results show that slight impurities lead to a perceptible change of G ani-a. considerable in- crease of q , In the case o? very pure, -vacuum-re- melted nickal, the () value approaches the activation menergy of boundary 2~ffusion. There are 2 graphs, 1 table, and 5 references, 3 of which are Soviet, 1 German Card 2/3   -1 7) -16131. BOV/48-23-5, At'THORS:- Zasimchuk9 Too, .5. 0Kurdyumovi G*- Voi Larikorp L.- If. TITLE; The Influenoeof Alloy Elements on the Kinetics of Peorystal- lization of the Alloys With-Niokel Basis (Vliyaniye legi- ruyushchikh elementov na kinetikii rekristallizataii aplavov na 'nikelevoy,oonove) PIIRIODICALa. Izvestlya Akademii nauk SSSR* Seriya fizicheakayap 1959# Vol 23, mr-5, pp 615-619 (USSR) ABSTRA.CT: The introduction to thapresent paper contains a table accurately describing theanalyses of 27 alloys. Each of these alloys was convert6d.- to the monophase condition by thermal treatment and subsequently deformed at room tempera- ture up to 8014. The samples were then annealed from 5 minutes to 10 hours in the temperaAure range of 28 0-900 0Cp and the etate of recryetallization was investigated.,The time was measured after which the primtry center of recrystallization attained the magnitude of 10-2 om at a given temperature. The results obtained from various measurements of the alloya in question are summarized in four diagrame; the logarithm of time -rf elapsing --until -the-Appearance- and -growing of the Card '1 /2 first rearystalliza.tion center a upto a magnitudo of 10-30m)  SOVAB-23-5-16131 The Influence of Alloy Elements on the Kinetics of Recrystallization of the Alloys Wiih. Nickel Basis -1 3 Is plotted on the ordinate, and the valuo T .10 is plottod on the abscissay with T e_qualling -the r-boolute annealing tem- RT .parature; It holds 7 1- As I ite. the-meaauring values of each individual alloy lie on a straight lineq each alloy possessing its own characteristics. The energy activating recrystallization -is determined fromAhe 7elocity at which reeryotallization taken place, These~values are summarized in table 2 and are.indicalied in koal/g-atom. Two further diagrams (Figs 5o 6) show the values of the activating energy, of the diffusion coefficient and of the modulus of elasticity of nickel alloys with chromium and molytdenum. Finally, conclu- sions are drawn from the results concerning the mobility of the atoms in the metal lattice, the concentration ratios in the-boundaries of the growing recrysiallization centerst and .concerning the dependence of the surface tension on concentra- tion.-There are 6 figures, 2 tablest and 11 references, 9 of which are Soviet. ASSOCIATION- In6titut metallofiziki Akadem Institute of Metal il nauk USSR Card 2/2 Physics of the Academy,of Sciences, UkrSSR~  k, ~-4t~ 1: -4 ~ 'r mi .., ~ ~~4 ~q I I i ~: al, '~ %I' ~-' - ~ .. I t~ ~- t,~ -1. r ~, V. ~ - . , - u J I  S/180/62/000/003/010/016 AUTHORS: Zasimchuk Ye.E., Kurdyumovj G.V*$ and Larikov, L~N* R2 - ~e TITLE: Influence of aluminium and titanium on the linear rate of growth of recrystallization nuclei in deformed nickel and.nichrome PERIODICAL: Akademiya nauk SSSR. Izvestiya,'Ot~eleniye tekhnicheskikh nauk. Metallurgiya i toplivo, no,-3v-i962, 85-87 TEXT: The effect of.0-16.6 %,at. Al and 0-12-5 % at. Ti, pres6iit separately, on the linear rate of groulth of recrystallization nuclei in 80% deformed nickel and nicbrome Apecinjons, was studied. Recrystallization annealing was effected at 200-800 OC with holding time of 5 minutes to 10 hours. The measure of recrystallization rate was the tim(l' required for the formation and growth of the first nuclei to a certain size. .This time was determined by the,X-ray method using Cr radiation (Ref-5: Zasimchuk, Ye.E.1 Larikov, L.N. DAN URSRI no,l, 1959, 42). Card 1/2  Influence of aluminium and titanium... 511801621000100310101016 Elll/E152 The rate of growth was found to follow the usual exponential law, Theterm, characterising the temperature dependence of the rate, rises from 48 1 2 kcal/g.atom for pure nick.,vl,to 82 1 3 when I % at. Al, and to 88 � 3 when 1 % at. Ti are added.. Further additions of Alor Ti have no effect. The mechanism causing the lowering of the linear rate of growth of the recrystallization,,. centres on passing into the-two-phase region was attributed to theieffect of the precipitation of the dispersed particles of the second phase andwas studied by.one of the auibors,(Ref.121 Larikov, L.N Izd. AN USSR, no.11, 1960, 61).:' There are 2 iigures and I table. SUBMITTED: March'28, 1961 Card 2/2  $16011621000101510061010 A QD4/A127 AUTHORSt' Za6imchuk,.Ye.E., Larikovi, L.N.. Investigating the temperature and concentration depend-ince of TITLEt the 'effect of chromium and molybdenum on thq growth rate of recrystalli- zation nuclei in nickel SOUROC,~ji: Akademiya nauk Ukralrinalkoyi RSR.. Instytut nmitalofyzyky.' Sbornik nauchnykh r6bot. no-15. Kiev, 19162. Voproojy fiziki metallov-i .147 151 metd1jove..deniya, TEXTs The results- of - the present work of investigating binary nickel alloys with chromium and vrolybdenitm, containing up to 28 Atomic % Cr and up to 20.6 ato- mic % Mo were presented at the V1 Vsesoyuznoye ao'veshchani3re po primenenlyu rent- genovsRikh luchey k.issl6dovaniyu materialov (VI All-Unlon Conference on-the Ap- plication of x-rays in the Testing of Materials) convened Ut 1,eningrad from June 23 'to 28, 1958. Most of the alloys tested belonged to the range of homogeneous Solld.nolutlons. Only alloys containing 17-3 atomic % and 20.6 atomic % Mo had a biphasty structure in the annealed state. The measure of the reorystallization Caid 1/2  S/601/62/000/015/006/010 Investigating the temperature and,acneentration A004/A127 rate at a given temperature T was time It, necessary for th3 origination and growth of the first recrystallization nuclei up to dimension L. The results of the present investigation show that, within the tested temperature and annealing- -time rangep all alloys are subject to the ordinary exponential functiont G G6 e EF The values of constants in this equation expressing the teMperature dependence of the linear growth,rate of the-recrystallization nuclei for 'the alloys test3d are given in a table. ,The authors emphasize the strong effect Of small'additions of ~-*chromiuin and molybde'num.on the,temperatur.e'dependence'of magnitude 0. With high or Cr.And Mo-contents only comparatively inaignificant,changes are observed both. in the.grbwth rate of,the recrystalltzation nuclei and in il;s.temperature dapen-' dence. 'There are' 2figures and 2 tables. SUBM11VIO: May 6, 1961 Card 21/2  rA S102116210QOIO0610081013 D250308. AUTIHORS; Larikovp L:N.t and Za9ftohukp Ye.E, ..TITLE: Investigating the kinetic of primary rpcrystallization in iron and nickel of.high-degree purity PE'RIODICAL; Akademiya nauk Ukrayinalkoyi R3R. Dopovidil no. 6p 1962, 771 773 TEXT: The authors have previously shown that the presence of.even quite small impurities has a considerable effect on the kinetics of primary recrystallization especially on the linear velocity of the growth of thexecrystallization centers in highly deformed. iron and nickel. In the present work a study is made of the temperature de- IX pendence of the linear velocity of the growth of the recrystalliza- tion centers in carbonyl,,nickel and iron.of high purity (99,99 ~~), The principal impurities in the iron,were C, Mn and Si and'also tra- ces of Nip Mop and Cu. The principal impurities in the carbonyl nickel were 01 Pep S, Cu, Si. The metale were remelted in a vacuum and deformed by 80 compression at room temperatures, The anneal- ing was-carried out in the -temperature range 240 - 3700C from 25 Card .1/2  S/021/62/000/006/008/013 -Investigating the kinetic of D251/D308 min, to 10 hours. The velocity of recrystallization is measured by the time of appearance ofthe first center of r6cryslallization of dimension L# using the*X-ray'method (DAN URSR, 42 /1959/). The ap- proximate relationship t/2G is introduced from Larikov's work (UFZh? V. 3, 665 /1958/). The experimental results are well dtscri- bed by G 3.5 X 10 ex]) (47 ~ ').m.sec-' RT for carbonyl nickel and. 10 G 1.6 x 10 exp 49 I)CM.See-1 RT ~for Iron,, Thus the rate of grovith of the.centers of recryetalliza- tion is approximately 20 times greater in carbo)ayl nickel ""han In iron for the.same nominal degree of purity, It followed that the ra- te for carbonyl nickel is about 4 times greater than Thai for elec- trolytic nickel under the same conditions. There is I figure. ASSOCIATION: Instyt.ut metalofizyky AN URSR (Ini~tituto of Metal Physics ofthe AS UkrSSR) BY: H.V. Kurdyumovo,llember of the AS UkrSSR SUBMITTED: November 21 1961' 0ard 2/2  'r ~ -! -5,.~ " 7L i~ V~ "I'llfi M I,. IM -N~- I -~ 0 7TIIZ;K-Vlr~~ IV~Al!f~q     "ACCESSION NR; AT4013948 S/2659/i;3/010/000/0190/0193 huk Ye. E. AUTHOR. Larikov, L. N.; Zasimi. TITLE: Kinatics of the collective -reorystallization ot pure nickel and of &ckel with- tantalum and molybdenum admixtures AN SSSR. Institut metallurgii. Issledovanlya po zharoprochny*m spLawam, v. 10, 1P631 190-193 ~TOPIC TAOS: - metal recrystallization, alloy-recryabillization,' nickel, --tantalum. molybdenum, nickel alloy, tantalum containing alloy, molybdenum containing alloy ins ra tal th dmixtur' :ABSTRACT.-, Under unifr-rmannea.ling conditions, the gra of e s wi a es . are generally smaller than in pure metals. --However, quantitative. data -on the- influence of admixtures on the rate of grain growth are still limited. The authors have investigated the buluence of small admixtures (1%) of tantalum and molybdenum on the collective re- crystallization kinetics of pure nickel. It was found that In pure nickel U = 34 Cal/g , atom; while for nickel with molybdenum U.= 40- Cal/g atom and for nickel with tanMIMn U = 66 CalAr - atom. For pure nickel, U is near the activation energy of nickel self- diffits ion (26 Cal/g - atom), and the grain size distribution Is an shown in the Enclosure. Card 1/3  A ?5", N Uf6   Ye E LARIKOV, L.N.; ZAS]14CHUK? Experimental methods of studying the kinetics of recrystallization in metals. Sbor.nauch.trud. Inst. metallofiz. All URSR no.19:219-231 (MIRA 18:5) ~~ ME  v^ tf-r% L 32609-66 W76'510587 SOURCE CODE: UR/0000~6W606/00.0/0118/0126 AUTHOR: Larikov, L. N. Zasimchuk, Ye. E. Semenenko, M.N., ORG: Instittlite'of Metal Physics, AN UkrSSR (Institut metallofiziki AIN UkrSSR) TITLE: Recrystallization kinetics in highly deformed nickel and nioblum s!!WLIe crystals SOURCE: AN UkrSSR. Fazovyye prevrashchenlya, v metallakh- I splavakh (Phase transforma- tions in metals and alloys).. Kiev, Naukova. dumka..' 1965, 118-126 TOPIC TAGS: niobium, nicke 11 met al recryst allization, meWMeformation -ABSTRACT; Recrystallization k1nefice were studied in a nickel single crystal 60% deformed by rolling In the plane and in a niobium singld crystal 90% deformed by rolling in a plane closo to In the case of nickel, recrystallization anneals were carried out at 288~ 313, and 334C during 20 min to 6 hr. The rate of formation of recryetallization centers 14 W,'Ls determined by differentiating the dependence N + I(T), 'where N is the number of re- crystallization grains per unit area of the polished specimen. The dependence of the maximuw size.of recrystallized grains on-the annealing time and the-teniperature dependoncevt the grovith rate G of the grains were determined. The recrystallization anneals of the niobium crystal were carried out at 966, 1005, and 1040C. In niobium, the recrystallization centers etch to the same extent as the single -crystal matrix. The parameters governing the gener- ation of recrys-tallization. centers were measured. The growth of these centers is Card 1/2   L 244 47-Uo Ea,(m)/SVP(w F -r- So R -)/jL,r Xp(t) lip A(1.C N R, AT6010582 '(N) 70 00/65/000/000/016110165 k; A; JT H(~ R: irl kor, 111i rv, il zas i!x huk, Ye. E - Vo 1 kc MG-: insi itute of Physir-s of -~tjZAY_UkrSSR (Inatitut rp--tallofizlki AiN UKr"SR T';?i I"rLIVh, !tal-e Plan-ning MN11ThASh pri Gosplaric SSSR) of -hr- --fnj- -h-rge r,,r V and --Iring condition:i have i a nd _~poD - r.'I s e, i 6 SOURCE: M Ukv,3SR. Mekhanizn, plasticheskoy deformatsii vietallov. Otechaiiism -3f the piast ic dt.~fon-nation of metals). Kiev, Nau,,ova dumka, 196',, 161-.A.65 TOPIC: TAG~';: nickel base alloy, iron base alloy, refractory alloy, metal recrystal- ILzatiOn , high temperature atrength t~ A11,TRACT- The authors study the effect of Duriftcation (byj~~lt n&. n vaqutim and ter-alb pef`ned by on it~!,- rate of f~m-itll of -,ecrys- 7!-1 n --ntprs and tha rp~ra-rnrv nroperties of mui~:icomponent allo-ys~ rhe austeril,p ii~ '--' '--is e -)n (0 05% C, : 'A Card 1/3  1. 24447-66 !ACC NR: A.T6010582 and 3% Flo) and nickel (0.05% C, Cr, 6% Mo, 6% W, 6% Co) containing no titanium 31,1minum, i.-_. i-he o,jantity of excess, hardening phases was at a minimum. The al- loys were rnlted aiid teemed uneer various conditions: 1. in air from commercial2y =,e (IN an-I !ZY, where " i-,Ili-ates a n,*ckell-hased allov and 7h an imn-hased alloy); 2. in a deep vacuu m mm Hg) from commerciaiiv pure netils (2N and 27-h); 3. in a deep vacuum from me_-~als previously remelted in a vacuum 3N and 3W. Specimen.-; measuring 5x;,xlO =n were cut from the ingots an~ for ind then -Jef~C-ruw-d c RO'i 1--), _niaxial rcmpress~on A-, :--).c,rr. tempera- nea! In" ~ qw4~ r~ t I-P nc3ij~-er !P.~ -r j7_,jrjOn -ar 114, Wd.5 -ie. i _1 ~~Oliti V cu i LI U1 ul a lrdii;mc~ter was r-onio-ed by at,Lhing ~,na r e g i a(nickel alloys" a:% .3 1 7o -  24447-66 A'611110582 throuj-hout the entire range of 1:eq)eratures and annealing times atudied, alth~iglh a tendlency f,r acceleraTion of recrystali,~'za-inn was obsorved i,i -,igh--y A] Z_vririca' Jf~crfuxLLau are gi-ven -for determining the rate of gmwth in recrystall" zation centers for nickei and iron alloys. Orig. art. has: I figu-ne, 3 f0 1-mu I as. SUB CCDE: II/ SUBM MTE, 16Sep6L ORIC FEY: 006/ OTH REF~ 005 Card 3/3d~al ~kff TTT U-1 ~7__  AT03033: -Arrdm g' Idrikov. L. No; Zasimchuk, Ye. 9.1 Katikhina, Zho Ya.t Semenanko, 11. ORGI; noro TITM: Mechanism of softening of refractory metals Sotm6ii:' AN S83R. Inatitut metallargUo Svoyabra i primeneniyo zharoprochnykh splavov' (Properties and application of heat resistant alloys), Moscow, lzd-vo Nsukap 2W j, 244? .-TOPIC:-TAGS., -metal softening, refractory metal, elect ron radiation ABSTRACT; The article gives the results of a study of the kinetics and mechanism of the-goftoning of doformed single crystals -of rhenium, tungsten, and molybdenum. The siviglW crystals, obtained by the electron radiation method, were deformod by rolling along, the slip planes. Rhonium and molybdonum wore rolled at room temperature, and, -tungaton ata temperature of approximately ZOOOC# Rhonium, and tungsten veto annealed tompratures of 2100 +'200 and 1600 + 100 (74), and =3,ybdanum at 1070 1: 50G. Mie goftening.of tho'crystals during annealing was estimated by the change In the midro6ardnoss. Based on the experimental data,-a figure shows thg4epondence, of the microh4rdnoss of'rhenium, tungsten and molybdenum on theduration of isoviermal The difference in the behavior of rhenium-and the othor refractory mcitala  cannot be connected with differencos"in the-molting points, vinco the molting point of! rhonii~ is intormodiate between the molting points of molybdenum wA twigston. Tie mechanism of the softening.of doformed crystals is dotorminod to a aignificant, dogroo by tho type of their crystal lattice. In the softening of mata3s with a densely packed lattice, roorystallization plays a largo role, Katala with a body-contoral cubic lattice are weakened to a large degree-before rocrystallization wW, under partioular rocrystallization conditions do not recrystallize at alle It is shown that and alloying elements exert an influence not only on the ratup but also on the role-of the different physical processes in the softening of metals vA alloyme -Orig arti hant 2 figures.,: SUB =Et II/ SUEM'DkEs IOJun66/ bRIG REFs 012/ OML R&S 002 L!~qrd 2 /Z  0Vj._ ACC NR' AP7005754 SOURCE CODE; UR/0126/67/023/001/0101/0105 AUTHOR: -13clyakova, M. N.;, Borlmskaya, S. T. Zasimchuk, Yo. E.; Larikov,, L. N., ORG: Institute of Metal Physics, AN UkrSSR (Institut metallo.fissiki AN UkrSSR TITLE: - Kinotics of primary,' cumulative and secondary redrystallization in molybdonian foil SOURCE: Mika metalldv I metallovcdonlye, v. 23, no. 1, 1967, 101-105 TOPIC TAGS; metal rocry6tallization, metal deformation, molybdenum, x ray diffraction analysis, crystal orientation SRS typo scintillation counter s erformed on Mo foil containing -0. 5% TI and subject ABSTRACT: The investigation wa p ed to prior 80% deformation by rolling. The pole figure of the foil in deformed state (Fig. 1) was subjected.to x-ray diffraction analysis, with hard radiation being recorded by means ofa SRS type scintillation counter. Structure of the foil was examined with the aid of electr3po- lishing in a mixture of methyl alcohol and sulfuric acid in-the presence of a current density of_6_a/cm2_with s e nhing of the surface -with a solution consisting nf 1 part IM3 + sub equent t,-. j_Th__ j__ _df, the'defdrined ' foll* Is chleflydescribed bythe orIeLtatlon I HC , a exture- (100) 011] as woll as (112) 1101. with rotation through 4-6*, with respeta to the direction of rolling card UDC*. 669.28:548.5    ACC NRj AP7005754 greatly resembles the kinetics of formation and growth of nuclei of primary recrystallization in polycrystilline material. The texture of secondary recrystallization Is described by the orientation (100) [ 001) - or (110) 1601] depending on the annealing atmosphere. The shape of the anomalous grains arising on annealing of molybdenum foil Is evidently associated with the ori- ginal metallographic texture of the deformed foil and with the characteristic distribution 0i im- purities along the boundaries of the extended grains, such that grain growth in the direction perpendicular to the direction of rolling Is impeded. In thicker specimens which had not been subjected to prior deformation by.rolling the shape of anomalous grains was equiaxial. i Orig. art.- has: 7 figures-,, 4 formulas- SUB CODE: 20,9/ SUBM DATE:'20Apr66/ ORIG REF:. 008/ OTH REF: 008 4/4    WIN! M`F R "NAM, - 5-M~-- I; - IHI.1211,2 F', 'ot 1MV In  , 14 T IN 1, Ile-  zm IRM F  ;7-4 'U~'~~ 55 --ZASIHOVI-Mikol-ay, F---atitrohly -alenar'; "GIN, MAG; SHILIMP ASAOI Klt5ijw" Val.; LYSVKII, R.I. Working da7 of sevon hours. 191ek.i tepl.tiaga 14 no.3.,29 Mr 160 01M 13: 7) 1. Diself-agregatrAya brigada zagotovitelfwAp beekh& depo Likhobory gookovskoy dorogiv (Nishni7e ldkhobor7-Pailroad workerc) (Hours of labor) Mal-TianykBas il M, ~ 4 ~F~  dep.) L4kfirzbj-~'y ~ff~.r   ZAYTSEV, I.F.1 DUBROV, 11,S., TSAPEVS.KlY, A.J,,~- USIMOTITCH, ru,,P.; MAMHITS, G.I. Automation of the proceso for determining the zoisture of the charge. Koks i khim. noAtI6-17 162. OU Wk 17: 2) 1. Ukrainakiy propVtno-konstruktors kiy i nauchno-I s sled ovate kiy institut poobogashchenlyu i briketirovaniyu ugley (for Zay-,. tsev, Dubrov, TSarevsliy). 2. Kommunarskiy koksolthimicheskiy zavod (for Zasimovich, Mamc'hits).  .4i Besic Conditim In the KAMLfacturdl of High-Orade SUOI with PgrUcular wo Fteforence to C=Aitionsi In RungaT. - Y."zUk. (Dwywizatt as Kohassiti, LepcWto 1950, vol. 5, Fab.-PAr., pp. 193-198i . b'HungarW3. The author d-sals wIVA 4 '.he influence of the qu&j.Ity of the raw r4terIala, t..o preparation of the charge arth process, the-absorption of hydivgen bir the melt uA its ellmLvw- Go the open-he rIM cQutrol, tappings and canting. According to a RusslLn -641 404 T OAAhorp pl&t;;WpLj;t~jAwt-rhodLum themoccuples, In a quarts tub* axe cvrrentlr also 00-4 usM in tte U.3.3.R. for temperature during the maltlr% processii, 800 and ccm-plats, slag wtlysls is carried out five times for sach salting cycks. God 0. 3%iler t-4a Investigatad the influence of ths sulphkAr content o! the heatIng dev I &a* on the s-alphw In this steel produced, using producer gas with 10-14 g./cru. a. of sulptmr, sulptuir-fres carburized blast-furnace gas, and a Saixild gas Coe -ur. the first of thane three fuels Imoduced 34--g./cu,si.of sulpt ti~ iftdpharl . there, init little difference In the sulptmr eiratgnts icoo With the other,two t"Is. go,, sea -ILA 4646bkkik LINROM C4414UPOT" (too Noal -41191111-91111, 94V Sill I@ AV 00 ASI; ior U is Ojw 4S 0 0 0 a 0 0 0 0 0 a 0 0 el a a 0 0 0 0 0 0 0 0 a 41 0 0 all 41 so lei -WVMMZ5~11 ~N~       tt' ;i n~' ifl~' SHOTSOV, Alaksandr Alektayevich;.,1;44,Ip..:,4yubovI Hisonovas; FAARMSTOT, 14*Av p prof.# otv.red.; PASHCHINSMA, r,a*dl.'. TROYMMO, A.S., tekb"d, (Halminthe and heliduthiases of domestic vater fowl) Ge'Llminty L .gallmintozy domalshilikh vodoplavalushchikh ptitz. Xharikov, lzd--Vo Khorikovskogo gon.unive im. A.M.Gorikogos 196o* 444 pe (MIRA 13 -.7) (Worms, Intestinal and parasitic) (Parasites-Ducks) (Parasites--Geese)    , , V~ i - 1 i ~ . i , i. .. - 1. !, ~ 1~ ~ I - , c - i : - 1. - :.. - : , y v  am pt~f 0 u EA 0", 0 r 0 IF W3 Sol) r4 via Io t. p"Ou" 41 0.'0 14 04 91? " Nu .0 's t-t 46.9 a ags 3.2 A 0 A 11 It jjg a hop $ r. A-2- -3 's p bou IN ca 41 I- 'So `o. P. to a Vw got C. -,q mc, 14 ?!I in 0: IA r 2 o3a A .9- 3 -j tot. wgv? ". VZ I U. c vo E4 bi: 11 " 1. 9 a u 0 A - UO 0 .4-. v "'s 13 a'" 14 at '04 A OP44  Is' A 13 jo AS 41 I iq! 11 5 s oil, V "J 19 9 1 r .12 H11, 'k b :-.: 1, 1 1 - , , .51 ajkri, 194i v j , , . - A A1011 oil jj4., L- Az it'll I A 0 AM 2,v01 s IV 0    a  XORTUROT, Alakney girillovich; ZEMOOTICHO Worgly Tyachaislavovioh; GCROWTSKIT, Tladimir Xvanovich;-U=I,,,Yo-odo4jy Afanaelyevich; KLINUSMo Aleksandr Mikhayloviahl UWARK, 'T~~,'veduzhch y G. red.; ;PWSINA, A.S. 0 takhn. red. (Gas pipeline in Canada; construction and 6xploitatioid Gazovaia magistrall Kanady; stroltelletvo Iekqpluatatatia. Pod red. A.K. Kortunova. moskvif G*9.nauahna-tekhn.i%d-vo neft. L gorno-toplivnoi lit-ry, 1960. 08 V. (MIRA 13:5) (Canada-0as, Hatural--ftyallnes)  VORNOVITSKlYt I.N.j. inzh.; MAZELI, A.G.p kand. tekhn, nauk; inzh, j BLAGOVESHCRENIMAYA, V.V., inzh. The,VSTa-1 cellulose~-coated electrodes for the welding of pir- lines. Svar, proizv, noOsIS-20 Mr t64, (MIRIt 18:9 1, Voesoyuznyy nauchno-issledovatel'skly inatitut po stroitellot%v magistrallnykh trubopravodov (for Vornt)vitakiy,, Mazel'). 2. Gosudarstvennyy -nroizvodstvennyy kamitet po gazovoy promyshlen- nosti SSSR (for Usko). 3. Leni.ngradsk:Ly zavod im Zhdanova kfor Blagoveshchenskaytt).  ZABIKO, V.114 Some classes of univalent functions In h-connected donainso h1r. v3r9*ueheb*zav*; mat. n0'.1:116-122 160. (MIRA 13-.6) I.-Xiyevoki7 politekhnicheekiy institut. (Functional maysim) I-M ~-M      -USKURSKI, Jerzy, inzo. Ieoting the atability of forked-lift trucks on a tilting plattor~nf P~xagi moch 21 no.16t4.89494 . 25 Ag 1624 1, Centralne Biuro Konstrukoji Budowlanychp Warszawa.      M. ZASLAVo (Designing industrial enterprises) Proyeitirovaniye promyshlennyj& predpriyatly tury -poatroitell.stvu i Arkhitq!cture~ 1952, mc, s kva.1 Gos. Izd-vo Liters. 198 p. Illus., diagro.9 tables.. I lav, V, N. Zlatolinskiy, A. E. Levinson, T, G. Petrova, l, head of title; M, L.~ Zas A G,. N. Ufimtsevy P, M. Frenkel, N15 ?4   I , s. ~: ~  ZASLAVNOV,_.P.L,, gornyy in,-,h.,, YARABANOV, M.G., goyn37 lpzh.; ?RRYU L' SKIT, gornyy inzh.; GRIGORIYAN, Xh.M. Results of testing the BK-2 cutter-loader. Ugoll 38 n0-8:41-45 Ag 163, .(MIRA 31.7: 11) I.Sh%khtinskiy nauchno-inaledavatellakly i proyektno-konatruk- torskiy ugolinyy institut (for 7aslavnovt Kerabanov, Zhigullskiy). 2, Gosudaretvennyy proyektno-konstruktorskiy 1. eksperimentallnyy inst~tut ugoltnogo mashinostroyeniya (for Grigorlyan).  ZASLAYNOV,-D.100 gorryy insh.; GRIGORIYAN, th. M., gorwjy lash, X-60 cutter-loader. Rekh. trud, rabo 12 no,10:7-9 0 158. (MIRA 11:11) (Coal mining machinery)  USSR /Physical Chemistry. Crystals. B-5 Abs Jour Ref Zhur Khimiya, No 8, 1957, 25881 Auth or iK.B. Tolpigo, I.G. Z&OLAW4 Title A Spectrum of Eigenbacillations of H&01 Taking Ion Defor- mation into Consideration. Orig Pub t'Ukr. fiz. zh., 1956, No 1, No 3, 226 -244. Abstract :.The eigenfrequencies and normalized.vibration amplitudes of the N&Cl lattice were computedon the basis of a. lat- tice with deforming ions.  WAVOtt-D-14 $ in*-,,- KARABA-NOV.. kLG., inzhi; ZHIGULISKIY., I..P*., ilash.  SOV-118-50-10-2/16 .AUTHORSt Zao1avnovp.D.1. and Grigorlyan# Kh.M., Mining Hnginoe.re TITLE-., Th~eCoa~offivine K-60 (Ugollnyy Kombayn K-60) PERIODICAL: Mekhanizatsiya trudoydmki,kh i tvazhdlykh rabott; 1958, Wr 10, PP 7 -.9 (USSR) ABSTRACT: The -new coal cutting and loading combine K-60 is at present undergoing trials at the mine "Yuzhnayall nr 1 6f the Shakh- tantratsit trust. Ito us3 will mechanize the extraction and loading of the coal on the conveyor belt from slanting coal layers, 0.9 to 1.6 m thick. Its productivity is 90- 160 tons/h, and its cutting speed -~3008 M/Seod Some of its parts are taken from the previous "Donbass 111 combine, but it differs in its hydraulic feeder and its powerful electriemotor adapted for.long continuous operation. The operation of the combine,.is described in detail. The Lu- gansk Sovnarkhoz is starting production of a revised ver- sion of the LGD-1 combine designed by the Giprouglemaoh. There are 2 tables, 1 diagram and 1 photo. Coal--Production 2. Coal--Handling Card 1/1    FWCC NRs SOURCE CODE:, UR/0l69/66/000/003/B043/BO43 AR022460 AMOR: Zaslavdtaya, F. V.'; Ifavrotskaya,-V. S.; Tolmacheva, 1. A.',N!eA\,c.8e_v,G-A. 771 TITLE: Aerological patterns of foohns as observed in the Rion Valley OGMr expedition 4uring September-Octuber of 1962 Ref. zho Geofiz, Abs. 3B270 �OURCE: REr SouRm. Meteorol., kllmatoli gidro.l. Mezhvod.nauchn., vyp. 1, .1965, 17-22 TOPIC TAGS; woather forecasti S, weather station,*met' rvation 60rologic obso ~-i-XTWISLATIOIIT: An account is given of the results of investigation of'the wind and tem- patterns in the atmosphere, which was conducted by members of this expedition The purpose of the expedition was to investigate the foehn winds on the Surah Pass i4hich rises to 2242 m above sea leval near the Mta-Sabueti station.,' The in-iestigation lasted from September 19 to. October 12. Supplementary data were obtained from Kutaisi 7bilissi and other points In the TransCaucasus, At Kutaisi the easterly wind, having a velocity of 5 in/see, lowerorthe:relative humidity to 50% in come 80% of t'he cases. Such wind could.be classed'as foehn. However, the fo~hn characteristics ars seldan observe d and its velocityis usua lly.less than 5 M/sec. The relaticaship between the, temperature and -the air humidity cm one hand and wind -velocity on the other was fowA to. be caVlex. As the vind velocity increases, the~relative humidity decreases and UDC: 651.555.3(479.4. Card 112