a joint children's (MIRA 14:4), 1 1  j ~ i ; ~ I't 411;;-~ -1 '! I V- : 4 i~ li I - - . , ' ll . Ii % L. i~ -?` ~Jrlmj~-,Jj!:j I I i , ~ : , ~, I I HIM ~Ili ill I I. N; ~!~N f( I I I! I:,fR H i Is - r 1 .1 !-~ ; n :  A 11:1 1'.. i AT! .1  r -  I* *-*-* 0 0 46110 0 0 0 0- a-*- - 0 Oe q 0 0 *v 0,04.:* -As is S'I "If" W - .* U. - III imp ail my JWJN~b W A a a ad aa . 11~ I It ~Mj. X, ~,_.l _T ~_-A. 'A I I L P.- AA-M-M-Mg, jLJ-A-A__A A C~ "-T is . , . -4 . -1 1 oAd e. If 01n .00 tit* 61 an as 111114i0 ;~,, we otacived wi,th CU-81-161113-re Z Zhmudskg. J. Etr. =pAo. shifts to kittger 1, p,) and Cu-Sb-111 (W% lca~tfrm&-72(194 1J.- . wave bactu x .7% 51 IA)O% ]Wits, WK U higinith i's an ca- -00 0 0 -A of the Kai and Kin x-fty cmb&6i% HIM 401 cm WQVqS1W a, wave ths If Shifts to WaW 16 forjastio". tired on a series of Cu &DOM with an I" L~ojw. In eutectics, no shut .04 x lug to 0 01, U. and a an of 0105 x for ThS ,Wit,& of The shifts dm cot 0 4111 1. 0.61 to U.W X. U., 'with a js;0; ~,d oj~ 4' 441 I e. vj. The domblet p*n. K- 8 X. Mlmm. The alloys Inv"Itgated wtrv;. Ca444owkb r . tr.). The failure of Other INUUMS -40 V.8% Z4 (stitid onlit. a), no shift of 4 as V wM Is ton C". N I. Cu is IL-W-ribed 10 00-6 a Isum Cts (within 0AM5 X. U.). C&t-Ztk with 4&A% Ze to fin't U of ,I. haufficirlit spMrawy tit ptryienip wave kngth tim-Akwre- .90 I I tit- P-Pbase. . CU-Zil ~ with 09.44% Zu (Misl~ 0 mots. -.3;W shift 1;q) 1-jimiry A in Chem, cor"POU. SIMI 000 ~00 4hilt to awter Is to to fimes greater th" the dxptL ww.~ )!iotaic Phu" explained is)- the dMirwr In the CwAt with 6% so At ("Ist soln. a). & shifted to ladder allonsi In 41w,tystal 4 ults and thr dix. =00 wav" by 0.19 X. U. (0,90 e. v.). 0010 11.6% At (solid gain. a + a little Cu-Al with 10A and I tome of the kins ("t altomO hi the ti"al lattire sit the j): the shift to 1=gw A metal. The tfkct found in *Aid usloss. 6 dm to he shf- a* 0 islessusarlmd. Cu-AIwitbI4.1 Altrilcheciarphaft): lemix of the radii aA the atoms Alhiyed with Cu anti the k is ablited to shorter waves. . Cu- with 40J%. At at. radius 4 Cu. N. Than (ir + AlsCul. Shut to shorter waves. -The shut In A frow - the 8% Al siguy to th*'40.2%- alloy is 0.32 X. U. (1.61 OO,x I . I %_, -~ C~u-Mcwfth7.I%?Ax(=MwJniw).Ab Uji c- 1,: to kwvr~wsvfti~- LU-MS with 21.2% ME jcmtff~ iqterw a. mirtallic plasists) slidu to shorter k. Cu-Su with ILI% so (WW low. with vvy little 0). shift to 104Pt L ' The ~.~:qww AULwWobarilred with Cu.At with 17.7% As (Solid "a, st)., The eutectic mixt. Cu-111 does not sww, SO 0 Any shif M& VI ted. :The, 6ift of 0.38 e_v. to longer wi an olor yorith 10% Al. is fitertmad to now 40 ~J# e- 441 Distill"_. 6 1 "imt ~4.- Ali .7 it U U-AT PO L$ I- to- q I W so S ins a 3-9 1 09 4 K U it. It Of 40 Is 1 194 *so 0 a 0_0 0 0 So 0 6 00 0 e 111 0 0 0 0 0 0 so 0 0  . ;a; - " i; - '1 '411. i dl z~,i 11"I I:: Ph   ;- ;,:. 'i ~ .t . I I i " :,: :: I ; I I ~', r, I ;r jj r. I I .. I - "'! ~~, - I , -' - llflj~ I M. "' L i i, I i A' ~ F:10'1~ III " 1 11- t . I i !, 4 , : : "r, i- 1 1, !~ ... ; Z- . 4 P. i~ . . .  (Tables of-constants of the crystal lattice of Iron. alumimm, copper.and their alloys] Tablitay postoiannykh kristallicheakoi re-shetki Malaga, aliuminiia, ineai i Ikh splavoy. (Kiev] Izd-vo ~,u   s--Strue a "t&110gr 'Phy As Jo.ur Ref Zhur Fizika,, No 1,,p 1937, No 1079 Atithor nrnid kiv, AA. Title X-ray Struetural~,Ans~,lysis Up#g Large Distances and AWidely Divergent Beam -.,Orig Pub Nauk. zap. KyyivsIk. un-t, 1955, 14, No 8, 65-82 ~Abstract The advantages of using b~,ckvard photography at large distaaces,with a iri4el;~ divergent b6amare noted. Stxch ph6t6graphy-increases both thqk4is- -'And-. - Tersi6xi Ahe',radoluft Ahit loh6.- width.' dotstb Ancrease noticO%bly even _t '_ ~ _;., ~ . -,Pt: fi 'bfii~i r4iviigtlice- ~Uglii - o , , P, f , 6 primary, a ~is a f 2.5 .. At la_"gidile~ 6 ons, th, vh6n'the'live wicl on-'the photogiaph-ig 'dons16Able., a tl6e focus -that 'its com- 'A-'dh&ft of tlie'x-ray m~fistiiate'with the line width gLv6i optbftUij`kegul`t6' 6trdl 1 1 NI-CO ines-of and R:was ob6erv~d in defociWed bhotokraphys lin~_shift is en*lad~ed by'the'author as-djt~A6 the Ostr"U"etural mass" of the lines and. tlieir I&,~ymmetry' caused b Iy .the detocusing.., 4suming th~at the Idii- pucemtht .1c Or -the inUrferencering I to-ii;! .reme - y aa'am-~ atisez diimet ~ * of b ouat" 1~Al to the ji~tul~al line vidft -the 'auU6r 'obtains a value of 0.54X for eq ') the natural.width of the Cu-F* line from his data.  . I- .7 I ;I   1 :1 , ~~ i~ 1 - ". I Z , -!I ~ijq 11 Fifdlll~.!I; !- , t oll h I q ;, , I , , 11 :1 . : F k F.- I . I I I : ~ I! I   MR/Transformation in Solid Bodies. E-6 :Abs Jour :-,Referat Zhur Fizika, No 5, 1957, 11752 Mak Zhmudskiy A.Z ..-,--:Author simyuk,.P.A., Init -Title X- 0 'ray Dif fraction Investigation f the Effect of Nickel on -the. Decomposition'' -of Aluminum-Copper -Alloys, -Nauk. povedomlennya Kiivalk. un-tu, 19 Orig Pub 56, vyp- 1) 38-39, Abstract An inveetigationwas made:of-supe--saturated solid solutions of copper in aluminium.with a constant content of copper (2.7%) and a.variable-c.onceatration of nickel (0 -- 2%), molten in, graphite crucibles:aDI annealed for 15 hours at Thespecimens were quenched from a temperature of and aged at 300P4_ It. is shovn1that the.lines on the X-ray patterns, obtained from the alloy without nickel) are point-like, and wheln,0.4 -- 0.5% of nickel is introdu-   MIME, NO- Oll MR '-ell R, BNO H I t a ffil 1111 WE im  ;, ~ I;V ii 1; . R f 1 7.--Iiflli 1 jp iq'4 i ;: 1 ! '.f, J~~ ~ 1,~ " ~-- , I : L f ~. - I T ~ f ~: , , . I - . i I " $1 li~` "ll'i INt , i ~ ; i I . I ': i 4 1 1 ; I ~ t - ;,  JR.P.1 Oil HIMIN ImIllifill   il' :~:gj ~~ .I, t ! . . I! a - ~ I 1~ I ,I I i i , " I !, t v j, ?; i. ~ ,~ ~ i - ": I;- L !,.*-7 1 AR1113'I'T i 6 .; I I'll . I P~ ; I :: a . i I 1; 11 i *~ .; , 'j. I , ~  lv:  t I at t : -,F  129-58-8-7/16 AUTHORS: Zhmudskiy 'A Z,, Professor and Maksimyuk, P. A.,, Engineer. TITLE:~ luence.o Nickel Additions on the Phase Transformations in Aluminium-'Copper Alloys During Long Duration High Temperature Annealin (Vliyaniye dobavok nikelya na fazovyye prevrashcheniya v splavakh Al-Cu ri dlitellnykh vysokotemperaturnykh otzhigah-h5 ~PERIODICAL: Mietallovedeniye,i Obrabotka Metallov, 1958, Nr 8,~ , Pp, 34-37 (USSR) AIBSTRA.CT: 'The-aim ofthe work described in the paper was to:study. - n' the influence.of additidn:of ickel on the phase Al-Cu alloys held for long durations at elevated.temperatures. In the investigations X-ray Two analysis and a-method of micro-hardness were used, series-of alloys were prepared and in each of these the copper content was maintained constant (2-7 and 4% respectively),~whllst the nickel content was varied etween 0 and~2.wt The first six alloys.were.prepared b ~.. .from chemically pure components, whilst.the alloys 40S - 7-13 were prepared from almainium, copper and nickel of high purity.(99.995%). The first series of alloys Card 1/3: were fused.in graphite crucibles, under a flux, and the 1~ --tj irFt-  129-58-8-7/1 6 Influence of Nickel Additions on the Phase Transformations in Aluminium'-Copper Alloys During Long Duration High Temperature Annealing second series were produced in an induction furnace i t nside~a protective argon atmosphere. After smel ing and homogenisation annealing,spectral analysis was carrv- Ied . out.and the results are given in the Table, P.34. for~X-ray analysis were cut from wire specimensvhich were originally used for measuring .,internal friction and:were manufactured by draiving rod material ;nto 0.8,mm wire with intermediate hardening.from 525 C. -The specimens for measuring.the mi.cro,-hardness were in the form of plpe-parallel plates 5.to romm. thick and about 1 to 1.5 cm. cross section. The specimens.of the first series were hargened from:, .5,250C, those of the second series from 51W C; annealing 00 for various durations up to 100 hours, was effected at:300 ..The obtained'results inUcate that introduction of nickel impedes diffusion processes in Al-Cu-Ni~alloys ..at.elevated temperatures:. 'This slows down the.,process of ag6ing,-theboagulat:~6n of the separating out ()-phase Card 2/3a.nd.also the growth ofthe grain and, therefore, brings    PHASE I.BOOY. EXPLOITATION 880 Zhmu.dakiy,.Aleksandr Zakharovich vysokodispersionnoye rentgenografirovaniye bol'shoy svetosily i strukturnost' spektral'nykh liniy (High-dispersion and High- intensity X-ray Analysis and the Structure of Spectrum Lines) Kiyev, Izd-vo Kiyevskogo.univ-ta, 1958. 149 p. 2,000 copies n printed. Sponsoring Agency: K,iyevi Uhiversitet.: Ed.: Orlik, Ye.L.; Tech. Ed,: Khokhanovskaya, T.I. PURPOSE: Thelbook is int.ended:for sicentists using X-ray analysis in their research, and for engineers studying the structure of metals and alloys at plant laboratories. It can also be used as a textbook for X-ray courses it universities and technical schools, Card 1/4  High-dispersion and High-intensity (Cont.) ~880 COVERAGE: The author' describes the method of high-dispersion and high-intensity X-ray analysis. The use of this method Is precise measurement of periods of crystal lattices and in the:study of any process occurring.in matter, especially in metals.and alloys, is demonstrated both experimentally and theoretically. The author also explains ways of obtaining two photographs on-one film, thus making it possible to'obtain absolute measurements of stable crys- tal lattices. In individua cases precision in measurement ap proaches 0.02 x, or~3-4.10- percent of the measured value. The method makes it possible ot obtain reliable results from x-ray analysis of samples of anyshape or size. The structure of and lines is discussed..along with its importance to the physics of X-ra -ray analysis. There are 72 ys and the practical use of X references~of which 61 are Soviet. TABLE OF CONTENTS: Introduction .3 Ch.' I. Dispersion.and Intensity 10 Card 2/4 P]WH -~jllf  High-dispersion and High-intensity (Cont.) 880 1. - Dis.persiomand res .olving power 10 On.intensity in X-ray analysis (to' obtain short exposure times] 3.' High-dispersion and highintensity apparatus 32. Ch. 11. High-dispersion X-ray Analysis of Polycrystal Line. Samples 41 :1. Fundamental possibilities of X-ray analysis at a great distance in a wide-angle beam 41 2., Obtaining two photographs from two distances on one film 50 3. Divergence.of thebeam, the width of the line and the dia- tribution of intensity in it 55 4. Examples of the use of high-dispersion X-ray analysis 71 5.~ Tables of stable crystal lattice of iron, aluminum, copper and other elements and their alloys 82 'Ch. 111.,~ Natural Width OUX-ray Spectral Lines and Electron Energy Levels in an Atom, 85 Card 3/4  High-dispersion and High-intensity (Cont.) 880 Distribution of.electrons in an atom 85 The'problem ofthe.-width ot.X-ray spectral lines 20 89 - 3. Calculating the'width'of X-ray spectral lines 4. Calculating the energy widths of electron levels of an atom 102 Ch. IV, The Structure, Spectral Lines and its Qf Discovery 1. Shift.of theline with defocused asymetric exposure 105. spectral lines -Basis of the structure of. Kaj 3KoLl 112 . 3. Precision X-ray analysis of samples with arbitrary sur- face shapes 131 ~Conclusion 140 Bibliography~ 148 AVAILABLE. Library of Congress Card 4/4 BK/,sfm IZ 5-58 ~jf  25(6) PHA39 I'DOOK ZiPLOITATION 307/2555 Nauchno.taIMMaheakoya obahchest Iva prlboroatrolt*ll AOY PrOmy-IOn- nosti. Mmainskays respublikaftakoya pr&VI4n1YO Now3te-matody kontrolYa I deratictaskapil.w manihinootroyeali I prl - barostroyeall 14oklady RespublikansUor kanferentaUl (New Nathodis at Inspection and Flaw Detention In the Machinery and InstrmcOn-, nee 3014 at KI"V, manufacturing ZrAustries lReports or the Canters 19561) K%yev, 0o&t%khIzd%t,U33R. 195B. 264 p., 4.TW copies jprlnt*4~ Sponsoring Agencri AkadsmL7& nauk V=-- Zd.t.-A. Asslin; Tach. Z4.2 P. Patsal Iyuk; Editorial Board: 1.1, Graben's BiD. Grozin, k.z. Vasidakly, G.N. Savin (Reap. Rd.). I.D. fflaynaram Deq.'Reep. 94.), and A.k. 'hiablovejeLy. PURPOSex Tb~Ix boo.It I& int*nded'for engine ers# a .clent ifle worl cars, and technicians dtollng wLtLh problems of Inap"tion and flaw detect Ion. ".Mw- collectlon of-l"lleatirla papers presented at a cOnf4r0oCQ sPonsamd by tho'Anademy or Sciences, UlarSSR. and the NaUChno-tekhalchesko" 6bahchestva priborostroltolInzy pronj VOraluska" pravlenl7b (Ulmsinlan Branch, Salentine and -manufacturing Industry) Tgcbnl*&l 30cioty or the: Dastrumear . , ThO 1, Paper* deal with modern methods or inspection and new detention used In th4 machinery- aid Industries, The subjects discussed Include the use of electron mleroacopets In the Invest1gatian or at%&, surfaces. X-ray, Samm&-ray, lund=t*a- cones, magnqtlo, and ultrasonic mothoda air fla* dettetlan; use Or radtoactIve isotopes; X-ray diffraction methods of metal analysis; and the us* or Interfarometers for measurtne length and "Itkneas and detoralining the coefficient of linear tharmax expenslan. Ila personalltles are mentioned. ReVerencea rollow several of the papers. C&ndU&te Of Te chnIcAl Sclenceis, Novoch&-kAsakjy Mr Z kly Inctitut (NOvocherkaseilt ftlytechntcrAl Mr4t%tut*)_ 301#Ctlan or MadtO-tl- SOuPc*a for measuring gq%Up=nt 2S of T6Ch.1 Cal Sciences, Inatitut atlaic- %vLrkI imanil YO.O. Paton&, "W (ZlYev glectrlc Welding atlt"* Iment YO-0- Paton). trips or Radioactive Isotopes zm_ Detection or i'laws in Welds In the 41 DOCtcr Of Techalcia Sclenc#s, Professor, G*Ntml- Shavehanko). X-Uraeyv"'bD*Lnr~r-r-~tXl'-Oyev (Xty*v State UnLveral-tY :a*nI Parts n Method at Inspecting nnlshod 50 Card 319 Okly, &.-z -wvdLjL han1n. 6ndidat't of~fttyalaax mad Wathazat -AL ft -Vin, A . N't, I k - Iz -SQIAUC*&, I y Univers=7 I"nV Sh*wtheaka Problems of Phyalcal. Strength Cr*ck Formatlen In CAse-hardene Parts  ~ E i ~ t I ilj!~; ~ I , ! i'l 119 11"11 li I'li., ! -. - i I - '4111 ii: ~, ii I , 111 ~ .1, 'i 1 e .1 1,q I . -t ~'; - " ` I ii. . i , I I , I " % . ; , i H ~ I , I ,; : ~!, J a ; i I I . : ; - 1: 1, 1 . - L ~~ . , If 1, t : I ': . -   lp"M Si. st 9v 9 a It i MO. . A - ; . -, OM 6 g Nj a lid, q I'tj IMA Id 4,mt Hu 1. ea I's u1 c Ev Ito ZJIF 1V gill H ob j.-A, 74 fill WE,  Wig  g person At t-mdsd the Cw&raaaq or, ttlo St&t ite .ir the rArKy kgoncy, United Flattems Raad"uAarq, lwz Dr. A. z. zhmd4l, Professor at Kiev Uni"raltY   il- '. ~'. 1'j , f,:. . I I i . .17 1~'l ~~. il ~. 1, - I ll'~ -1 -, r---- 1 !- ~ : i I.. iAl"i"Ni Ir ! . " I . w o ~ wi . Alt ifil 1 : IS 11, f Irl r t ':  'W"~ N  3,1950 S/181J62/004/005/052/055 AM M63/B138 01 AUTHORS: Xucherov, I. Ya., Zhmudskiy., A. Z., and Shiyanovskiy, V. 1. TITLE:, Some special, features of the dark conductivity of CdS photoresistors PSIZIODICAL: Fizika tverdogo tela., v - 4~, no. 5, -1962, 1376-1378 TEXT: -A slow' increase in current with time is observed in some CdS photoresistors with gallium electrodes produced by the Institut fizik3*. All U85R (Institute of Physics AS UkrSSR). This slow increLise is especially noticeable with specimens of:relatively low resistance. Fig.-1 showsthe variation in current with time for one specimen under different voltages. if the voltage is cut off for a short-time and switched on again, the current is quickly,restored to the,original value. On the other hand$ if the voltaee is cut off for about 30 hours or more the current timed variation will have the original shape, as shown in Fig. 1. Similar effects have been found before with 8b S single crystals, by Lyasheako and 2 3 Skubenko (UFZh. 6y 2, ig6ij 202). The increase in current with time can, Card 1/0 z V  S/18Y62/004/005/052/055 Some special features of the ... B163 B138 bo'considerably delayed by passing a current through the photoresistor in-oppouite direction. Ifp beforehand,a sufficient time ze-g- 36 hours) has elap'sed after the passage of the inverse ourrent,this effect.-i's ho...'Joneer observed. From these results it is concluded that the rise in current.with time is due to slow diffusion processes at the surface or inside the semiconductor. The explanation given by Lyashenko an& Skubenko (1.c.), that the carrier concentration 13 increased with time die to electrolysis of their trapping centers, is not thought to be sufficient to explain the rapid increase incurrent observed in the CdS photore31Stors. It is thought that ions from impurities and adsorbed gas, diffusing in the applied field$ create a space-charge and potential drop at the electrodes. in this local strong field electrons may be set free from traps occupied at room temperature, and electron multiplication may also be caused by impact ionization. The delay effect of inverse current is attributed to- positive ions concentrating near the cathode, and emptying the trap levels.- Th4s, if the applied field is reversedt it will take some time beforethe, ions are removed and'the traps filled again. There are 2 figures. ASSOCIATION; Kiyevskiy gosudaretvennyy universitet Im. T. G. Shevchenko (Kiyev State University imeni T. G. Shevchenko) Card 2 fl4 ]i T  s/181/62/004/005/052/055 some special features of the B163/BI38 SUBMITTED: octlober:26, 1961 ( initially) February~.10, 1962 (after revision), Fig..1. Variation in.dark current with time for different voltages applied to P- CdS photoresistor. 1 .,- V W 1.4 v (E - 14-v/cm)l 2 2.6 by 3 - 5-4 V, 4 - 10.2 vi 5. -15.5 v. ~Abscisea: Time in minutes. Ordinate: Current, in 10-1 ampaq Card 310 111119-1  35:118 :3/18 5/6 2/007/0 0 2/U 1 2PQ 1 G D299/D302 Zhmudslkyv, OZ.t Prohrushchenkot 0,V., and AUTHO C175-tvlorkinaq R-Ye. TITLE: Some peculiarfeatures of the K-state of nicicel- chro- mium alloys with titanium PERIODICAL: Ukrayins1kyy-fizychnyy zhurnalf v 7, no, 2, 19620 212 216 TEXT: Tile resistivity,density and crystalline structure of Ni-Cr- Ti alloys viere studied.as.a.function of Ti-concentrationt blastic degorwation.'and heat treatment Thealloya were prepared in an alec- tric-arc furInIace witCh tungsten electrodes (in an argon atmosphere). 'The'alloys contained 23.atom-~, Cr and 1# 2.5 and 4 atom ctS Ti, re- opectively.'In order to study the resistivity in a s-vrongly defor- ;.med state',:,specimens of mm diameter were draym through holes of smallerdiameter. The degree,of deformation was determined from the ratio ZD/Do, where. ~~ND Do Dn (Do being the initiai specimen- diameter and Dn the diameter after deformation). The resistivity 'Card 1/3- p rq F r  S/185/62/007/002/012/016 Some peculiar features of the JJ299/D302 was calculated by the formula p R m where is the density, 2 o^ of the alloy. It was found that the.density decreases with increas- ing Ti-concentration. In the case of pure Nip a 70 I/S-defornation led to a 0.2 ~j decrease in densityi whercas a 60 r/6-deformation. to a 0.8 ~ decrease. A figure:shows the resistivity versus dogree- of-deformation curves ' The.resistivity decreased from 111.4, 119.3 ..and 123t5 ji ohmoemp before the deformation, to 14.7, 16.3 and 15.9 )x ohm--cm after the deformation (for.the 3 aDecimens containing 1, 2-5 and 4 atom:% Tit respectively), A 60 C' 111-aeformation completely destroys the K-state in all-3 sDecimens. In order to study the tem- perature dependence of, the resistivity? specimens wit-h 0.41 m--i dia- meter, were used; 60 % deformed specimens were heated to 100000, and then cooled. The resistivity of all the alloys decreased anoma- lously at temperatures above 5500C. The shape of one of the tempe- rature le heat -dependence curves can be explained by assuming -chat T'h ing lead6 to the dissolution of an e - type phase (N13Ti). This was L confirmed by X-rayinvestigations, which also showed -that all the alloys have face-cent6red cubic,structure, The following lattice- Card 2/3  S/185/62/007/002/012/016 Some peculiar features of the D299/D302 paraneter values were obtained.-, 3.5478; 3.5551 and 3.5r-1196 for 17 1 - Cr-Ti.alloys wit-h a Ti-concentration of 1p 2.5 and 4 atom respec- tively. The resistivity of a nure Ni-ur alloy with 23 atom Cr is 15*5 r1f) ereater than that of a 60, %-deformed alloy. un adding Ti to the alloy, its K-state charges, its resistivity increases,' the ter,.- -:-e of existence of the X-state.increasest and the mini- perature rang mum of tile temperature curves, is shifued towards higher temperatu- res. There are 4 figures, 1 table and 12 references- 10 Soviet-bloc and 2 non-Soviet-bloo. The references to the Englis~L-languare pub- lications read as follows: R. Nordheim and N.Grant, J. me-tUals, 6, no. 2, 1954; A. Taylor, J4, 14etals, 81 no. 10P 1955,, ASSOCIATION: Kyyivsl.kyy derzhuniversyt-et im. T.H. 6hevchewca (Kyyiv ,State University iM. T.11. Shevchenk-o); Ilykolayivslkyy korablebudivnyy instytut. im. S.O. Makarova (T,,Iykolayiv 6hip-Building Institute im. ts.0. L!akarov) SUBMITTED: May 22, 1961 Card 3/3 1 H' , 711  ROGRUSHO HE INA -IG-. Ye-;-- t;- I  L 110773-6~ 71iP (M),, HDS-AFF:'~;, AdD-M ACMMTDN MRs MOM378 Vmudsqh A. Z.; t?Eruah nko V.; Chetveri:ina Ye. ATMORs ___qhe _1 TITM Some chwacteristics of the 6-sUte in nickel-cttrcniurs !dl--ys ad-' -- e4- b 7 allmaimm SOMM TVUZ, Chernays netallurrLya, no* 5,, 1963, 142-U-5 TMC TLGSs specific electrical resistance, density, capt-al structure, nickel- chraze-almninum alloys, plastic deformation, heat treatmeiit, K"state ABSTRAM Specific electrical resistance, dennity and ir"tal titrunture af nickel- chrome-aluminum alloys were studied as a fumtion of Ll -.ontent, piastic deformatior (to 60%) and heat treatz=te In analyzing deforitation and temperature curms, authors concluded that large additions of aluminum to pure nickel chrome &1loy led to more abrupt manifestation of the Tr-state and to widening of the tmperature inte--7-d.1 for I.ts mcistenci. The preaence of a buige an the curve of the alioy contalaing '~A V (at "W dogries) la explained as the heterogeneous phase :if th1a a-'ay. Cana tabl,ef and 1.) references. ASSOCIATIO14: Kiev State University Card 1/s, ............ ------ ........ ....... .... ---------- di  INK Millial Ill IfIllil"ll I "r~  L 44183-66 ACC NRl AP6022997 SOURCE CODE, 0185/66/011/004/0389/0394 AUTHOR! Zhmuds'kyy, 0. Z. -Zhmudskig, A. Z. Kucheroy, I. Ya,:-- Shyyanovsl kyy, V. 1. -Sniyanovffmy-,, V. 1. ORG: Kiev State University im._ G. Shevchenko (Kyyivsl skyy derzhuniversytet) TITILE: Investigation of slow changes in the, dark conductivitX f cadmium sulfide 'single crystals SOURCE: Ukrayins kyy fizychnyy zhurnal, v. 11, no. 4, 1966, 389-394 TOPIC TAGS: crystal surface, electric field, conductivity, electrode,: cadmium sulfide, single crystal,. dark conductivity ABSTRArT-. An Investigation has been carried out on the effect of various contacts (AI~1Aujlnllnd In-Ga loys). the value of th6 voltage (V) applied to.the SamIle' L . P. and of the transverse electric field on the kinetics of dark conductivity of CdS single crystals. It is shown that slowly Increasing relaxation of theconductivity is observ- Card .1/2  ACC NRs AP6022997 ed only In samples with.1n and In-Ga electrodes. Voltage and the electric field have a great effect on the.kinetics of dark conductivity. The increase of voltage to, a certai n value results Jn a decrease In of the process; with a fui-the'r increase of voltage V, the conductivity decreases, which can be described by an equation of the form I =.A + B In,t, typical of many surf, ce effects in semiconductors. . The view is discussed that a slow increase in the dark conductivity with time at V = const. is due to the redistribution of electrons injected into the crystal between the bulk and. the surface. Orig. arL has: 5 figures, 4.formulas, and I table. [Based on authors' abstract) INT) or SUB COM' 20 SUBM DATE:, 24Sep6 5 ORIG REM 008/ OTH REF: 005/ 6rd 2/2  TOPIC TAGS: cadmium sulfide, electric conductivity, si ngle crystal, annealing, electrometer, illumination effect ABSTRACTs Tk .ansient proces ses.o f.61ectrical con uctivity in 0 d dS n g_&~t and the effect of annealing and 43111mj --tio, sticffed-lw-7.!~ I ; "~ n -on those cryatela vere order to determine the- es of these transient . About 40 US single cr-jetala cauo a vith a dark resiotance of i6*12-1614.a wore studied with the aid of an electrom- eter amplifier, The change in current with time is ahown in rig, 1 on the-Enclo- Isure. The presence of a threshold potential difference at vb1ah a alov increase in current with t1w In observed and a strong dependence of resistiTity 1Uj*n Card 113    il:-:. . . % ;' 1 . .1, .. i : I,,  tf, ~ ~k, i ;~ ~` i I., IR !, -.  I ; ll~ :-, i. "' I I . - P".11 ~ 1: ',1 :~i~ . F, , U~:!; I II I ~ it I. !~:,: I IR, .1 Fril, -I'1 I 'JIFTir -7111, : I  ZZIMSIM; D.A. Zhnudskiy, D. A. E-117"No   A 1 - , , ; - 1 1 . I !:.: R I !` ~ I I lllk 1H, ~~: Will ;' ~' All - , 4 T. , I I - " ; i- 1~ ,l ~ 4 L ; .'% ': - : i I ~ : il "I . ; - 1 ;I ii -, ; If I " ~    SrXRCE, R.Lh. Metallurgiya. Abs. 5i:L61 AW o ;~'amuds'kiyy,, 0 Progrushchen-ko, 3. E. ,tra c t e r i !it I as of the (- s '~ a r a CITED 30UPXEi Viony*K_~y!yiy3lk~_.un-tu, no. ser. astran., fiz. ta khimiyi, rj-p. 1, 66-70 TQPIC T,',6-': c1hromium-nickol alloy, K-state, plastic deformation, mo1yhd-)n= alloying agent .'L -'N: '-:; -u--loys with 23 at .% Cr P-trid a lArge concentration of Ho, the 60,"' -jf?)rmatlbn entirely J, s it~ i,.igher tenperaturq~. C ~ - -1. .--- . -~r- .~O -Ate in dloys wl!-. A sm an alloy WIth Lu at 4?7 ioo-~ nr~' : r-3 -f' C139 of 6Vi plastic dqfo~nationj'S % now phase''is dotee'ted in the a.Uoy viT-u a Mv eot,- tration of 8 at Accoiting to summary. i can DATE jCQ.- 21 Jun 63 SUB CODE: ML alcL: 00   S1137162100010051081VI50 A0061AI01 AP /a AUTHORS: Zhmudskiy, 0. Z.,P Maksimyuk,.P. 0. TITLE:. The effect of,nickel admixtures on the process of dispersion ~hardening of aluminum-copper alloys PEhIODICAL, Referativnyy zhurnal, Metallurgiya, no. 5, 1962; 25, abstract.51145 ("Visnyk iWjydk.. un-tull, 1958, no, 1, ser. fiz.. ta khimJyi, no. 1, 51-56, UkrainiAn; Russian summary) TEXT: Radiographical investigations were carried out of the effect of Ni admixtures upon the aging process of Al-Cu alloys. Microhardness and hot hardnesi of these,alloys'were also measured, The experimental results show.that N1- admixture promotes the preservation of a fine-grained structure of the alloys, reduces the degree of decomposition of the solid solution, and 'inhibits the 6oagulation process of'the~singled-out phase. It follows from the radiographlcal'- investigations,and from hot-hardness measurements, that-Ni-admixtures raise the heat-resistance of Al-Cu alloys.:,A considerable increase in heat-resistance is.observed at,.a content, of Ni From the authors' summary, [Abstracterls~note: Complete translation] '_-Card J/1_  , ~ 1! i ", jO.lf! I ! ; p !, ~ 44*., . . 1 P, t , -., i-, ; - 1 - . a 11 ~,j I If 1! 1 ! f.. : ;~ 'l, , , I I - h m I -, 1i ~ I I ~ *"I I I I I 111 1 , -,, " L I ; 1 1 t ~ i i . 1 P , : , I ,; ~ ~ E ! ;~fl ~U, I . . I ::! *- I ~ 4 a ! " E - i I ~1- , !   I a k.", i- i, i ~ v , , 1 1z I- - f I . ~ -. ~ A I ~ I f T  CC_N1t._A-R7000g-4 SOURCE CODE: - UR/0058/6610001009/DO22/DO22 AUTHOR: Zhmuds1kyyp'O.:_Z. TITLE:~ Effectof very strong magnetic fields produced by near-optical electrons bombarding the atom 'A SOURCEi Ref, ~,zhd- Fizika, bs 9D146 REF SOURCE:.Vis k Kyyivs1k-un-tu,,.Ser fiz. taAhim. no. 6, 1966, 31-9 ma ne lc ft Id t c fi eld, electron bombardment, TOPIC TAGS g t e strong magne I ~rnl~gfii)tia effaet,' spectroscopy,. ABSTRACT: It:is showh.that superstrong magnetic fields displace and-split electron levels, which arecomb.7ed with quantum states, into 2i + 1 sublevels. As-the structure of electron levels- gains 11 in complexity, satellite structure also becomes more complex.. -The hypothesis is proposed that the splitting of emission lines displaced by superstrong magnetic fields Is a functionlof x-ray spectra. [Translation,of abstract) ISP) SUB CODE: -201 66M 1/1    91 FIT -.1"I I if lit  .;, 4415~-&E, Acc NRt AP6022997 SOURCE CODE:' IJR/0185/66/011/004/0-380/0394 AUTHOR- Zhmuds' k 0 Z Zhmudskiy, A. Z. Kucherov, 1. Ya. Shyyanovs, -~~Eatnoav skly,: V. L ORG: Kiev State University im. T. G. Shevchenko (Kyyivsl skyy derzhunivers yte4 TIT LE Investigation of slow. changes -in the, dark conductivity of cadmium sulfide single crystals ~SOURCE: Ukrayins' kyy fizychnyy zhurnal, v. 11, no. 4, 1966, 389-394 -TOPIC TAGS: crystal surface, electric field, conductivity, electrode, cadmium sulfide, single crystal dark conductivity ABSTRAIQT: An I stf tion has be .. en carried out on the effect of various contacts nve (Al Au7,'&n ilndln~-Ga%loyO the valub of thd voltage (V) applied to-the Sarnpl~e- jj _ , P -, and,,df the transverse electric field on -the kinetics of dark conductivity of CdS single crystals. It Is shown that slowly increasing relaxation of the conductivity I s observ- _"T: Card: 1/2   SOV/115-59-5-11 -AT JTHORS--: V..P. j_Zhmur,, A.S. and Lyapin, G.L. -Acc erome iezoe etrie e1 ters -PERIODICALs Izmeritelfna ,Tekhnika 1959, Nr 51 pp 17-19 (USSR) ABSTRACT: piezo quartzmeteris designed to indirate sudden accelerations jt, has,a cylindrical shape and a thread on the bottom to fix it to the object'which.is' to be measured.,The upper part has ft hexa-, .gon shape'. Figeli The ins.trun;ent has an inner channel, which is sa plug insulating the piezo quartz plates pressed into a plexigla . , . from the steel housting. To achieve a better distribution of , pressure, a hardened plate ground against test glass Is laid under eado' Between the piezo quartz platesq an Intermediate plate i a fixed to:serveas a "via inertiae". Both sides ofthe surface are also edged with 'test The article now gives the theore-, glass. , , 'tical conditions-for smooth functioning. If the conditions are, met, accelerations of 20 to 20,000 g can be measured. The sens,i- tivity is steady. To raise the sensitivity Ti-Ba plates can be card 1/2 used. They can however, only be used in the laboratory, because Alv  I U  ABSTRACT:' -The article.describes-the acci 1) 44;0,;;-!-~    I . - 7 ~ - ~'4  4 222 L A- Sdi=. k A W441-221 --,tar-  FAI IA I "'t" m a a 'r, I  ALEX TO.K. 0 insh. IZOURg R.K., lush.; LYM, Te.P., lush.; NIKO- LAINTSK T. Tb.-T&,O lush.; PIRMV, A.N., lush.; RODIONOVA# R.G,, inzh.; TOYBIR, V.A. lush.; 7EMLIN,.G.M.:, lush.; XIMYUPINAg A#K,R,insh,j CHIRNOV, D.L.* insh.; EYMMINAMTj L.B., ingh.; :N ~..insh., retsensent; MOLYUKOVs G.A., insh.,.red.; TIKHANOTO z a* 0 ~e)jdmo'rede lp.roduct.ion and installation of pipe, systems; referenos -nual Isgotovlenie Imontash takhnologichookikh truboprovodov; spra- vochnoe posobies Moskyat Gos.nauchno-takhnalsd-vo mashinostroit,  '. 1 1 i" I ; ! 2 - ; f i .- I ~ 1, Nl.~ i I -. ;I I .:: i ~ I I .. if ; ~ : :1, m-. 11 II!V:,,11l!TlHPll I :.~ -1 . 1 I I: I  fill  . '.., ; 1: . ~j -, - : i ~: ; , 4 . , i 1. ; V 1. -, : ! i , I 'i 4 11' 1 1 '* 'I'lli'l 1 41 Iv, i, I ,, ! 1 , "; i -: I T -I ~ : I . ! I : I * . I -I.i Ili~ 1 9 - t : 1 ,  j., - ; 7~ ! ~ j - , I . . : ~: 41 ; [ 'j,' $ i, ~ !., ! ;~] - ! !- "' : 4 " 1 .4 :i; , ! , . . 1. 11gi?: - 11!1!~i~ :ill I' i i~ i" I ~i,i ~ !" ,: i . ;t I ~ ~ a -; " . :. 11!: co, ;, - . i ; " : ; i J~ i 4 'i , ; ! -  I F. Mm 41,11 -131 IN  j ~,. ; ; :P :1 i v I i i , .1 i IfI i , , r ~ i - a 1 ; : . 1 5 , , V,J: !~:j : 5 j . 1 , I i I . I . I . . . I ; I I . ,  `I -fl;~ I, .:: - , it!, 11 ;~'. '. 1;..v i . ~ I; P I'lill ;% :,I - 7: . i ~ . f I .j i . .   ; I - - -lp i - ~p-, -,, i ; ti~ I i,m 1!, 111 i -q 11: 1 i ~ r, 11 -.f , : - Z ~ , 1 ,; ~ r iii, ~-:fiI I * j 1 .1 * . i , - ., , , . , : 1.4 1 - .- *. - -,    ; !.I J, . I , I -' ~IF W I I lif h 1111 ` V, .11-', ! k ~, I N . .: ~ : I Z I I  JAI 11 , ~, . 9 .. . 9 ~ A 1': 1 T I A - 77.! ~ - - Tr I - F - - '.. --~ ~ i22. W f;iL324id t i . ; . ~ 't I ;I . L . , , :; I F" 12 I Ur I , I r . ! I 'I "I" : ; . : ~[ i F I I i-:: : - t- , . : ,. I t 1; 1  "'LillUit, V.A., prof. (Ifookva) DiaipooWof Intra-auricular turwro and tumorllke formations. Klin.mode P 'ncr,7i27-,34 Jl 159. (HIM 12: 10) 11 Is filloAlt"tokoy,khirurgichookpy klinflcl (dir. akademik tl.ilp~Liallov),II.I(ookovokogo meditaltickogo Instituta imeni V.I. PirOj-,OVU1 Inatituta &udnoy khtrurgii AMT SUSH (direktor -  qE : , _- I , .I ~ , k! : .44 IT,- , . p ~ I , - I I -- Jill .I z ,, F : ~ t P" !:t,. p, . ~ f " i: " .: . , !I .  --BABSKIYO Ye.B. --(Mos)c*a,- Zh-172,- -Katellnicheokaya nab. d.2,5/8, kv,,72); ZMM, V.A.; X37UNI, 8XI., Alectroencepbalogmphy,in a surgical clinic. Vest. khir. 82 no.5s 48-38, Vq ~.1590' (MIRA 12:7) 1, Is.fakulftetskoy khirurgichaskoy kliniki im. S. I. Spasokukotskogo (dir. -'.prof.-A.H. Makulev) 2-go.Moskovskogo meditsinskogo instituta im. ff.,I.I~irogova i laboratorii klinicheskoy fiziologii (zave - prof. V- M M T--444--4-. 4 04-4-1--44