SCIENTIFIC ABSTRACT YUPKO, L. D. - YURASHEK, A.

  AeCESSION NR; AT4010700 S/2601/63/000/017/0209/0210 AUTHOM Kocherzhi-Alkly, Yu., A,j,~Mb2anko, 0, ?*1 PAnj V* Mel evirldanka, V. tt,j Yup~o, L. M. TITLE: Calibration of the YR-5/20 thermocouple according to critical points up to 3000C. Determination of the malting points of vanadium and nloblum of high purity SOURCE: AN UkrRSR. )nsty*tut meta)ofizy*ky*. Sbornlk nauchny*kh trudov, no. 17, 1963. Voprosy* fizlki metallov I metallovedenlya, 209-210 TOPIC TAGS: thermocouple, M-5/20--thermocouphs, thermocouple calibration. __mJ -Ii -lobium malting point, tungsten rhenium 0n:'adlum,,n1oblum, vanadium 61ting po nto n alloy ABSTFAC7:_ After calibration studies using the melting points of silver, gold, iroyi, nickel, palladium, platinumY chromium, molybdenumand tantalum had shown that the VR-5120 thermocouple (consisting of electrodes made of tungsten alloys containing 5 and 20% rhenlum, respectively') could be used for the accurate de- termination of temperatures up to 3000C, the authors applied the technique of V. S. Mikheyev to the determinat!on of the malting points of vanadium 11950C and nloblum (2520C). "in conclusion, the authors would like to thank A. M. Gurevich and Ye. 1. Pavlova for making the thermocouple available." Orig. art. Card 1/2  .111. .- .,,SUB,MITTED: 00, DATE ACQ: 3)jan64 , ENCL: 00 I SUB'CODE: ML NO REF SOY: 003 ~ OTHER: 001  F-  AWTRACT: On the basis of the tung3te-,j rhejiti, phAt5e distinguish three types of thermocouples v~,ich car, re system: (1) thermocouples from nia soiij coli;tionz; such thermocouples from the pure coikponente (VR-0.1100), and 7ure tungsten and a solid aolution Of rLheni 3 rL Cer content (they are used for t1he ',measurement eir-It -r~ t 0 lit - Ir 3100-3200C, and are designated VR-0-1-3, ~VA~0155, and VR-  L 2362o-65 ACCESSION 9R: AT5002785 calibration graph (thcrmo-emf versus temperature) cf v;,,:, the latter trpe, the VR-5/20, which they ploz ~ ed :-;-. thu points of pure metals and tiansition points of zror, -~n heating. Tbe VR-5120 therwcouple may be usL-j --c, measiz-,- 3000C and has a satisfactory senpitivity, "The tior. it) A-h-_G= K, Pt~nisqji v ~ki- =d Y-~, couples supplied for the study." Or--. art. hki- 1 liz ASSOCLMIGN: None S M 1TTZ 'D :05Aug64 &N-CL. 00 NO REF SOV: CIO 5 TRMR: 001 VR_8 VR- - - I GO Card 2/  IeWU P AT6036i77 SOURCE- COD.E~_IJR[00001 661000 /000/ 0 05 30 0 5 5 A.; Yupko, L. M. OR. SvechoilkovprV. N.; Kocherzhinskiy, YU OR G'r ln-stitute~of Physics of Metalsp AN UkrSSR,(Institut metallofizikip All UkrSSR)i M-TLR." Phase diagram of the CrS12,-HoS io-system 1.7 SOURCP,'-;. AN UkrSSR Struktura meNllicheskikh splavov (Structure of metal alloys). V.Iev-', Izd-vo Naukova du.mk,a, 1966, 53-55 T~OPIC, TAGS: chromium dislnld'--L~-e all yj molybdenum d4ei44e4de containing alloy, M", AB Fiev of .43 chromium disilicioe-molybdenum disilicide alloys have been~investigated.. The alloys were meltedifrom sintered molybdenum, electrolytic and commercial or semiconducting silicon. Twenty-one of the alloys -Contained semiconducting silicone 0z the basis -of the data obtained by various :..'~=Irfivfv-of physicochemical analysiss, a phase diagram of CrS12-HOS:L2 system was plotted (sea,Fig. 1).' The diaBram is of a peritectic type with peritectic tempera- .1j2   14, /_1 A'z Z;r.-983-~5 5 'Ttme BIXCTRIC AND-THERMOELECTRIC PROPERTIES OF SILICIDES OF tP LANSITION METALS (L Neshpor, V. S., and V. -L. -Yupko. Poroshkovaya.metallurgiya, no. 2, Max_;Aprl963, 55-59, S/226/63/000100210081014 The ta.-.-p_a.ratura depend-,.-ce of electric resistivity (in the 20-10000C range) and of th-_:_: am-f !%--*,--- ~"-ha 2044'WC ranae) of silicides of V (15. 9, 25. 2, and 51.570 Si), Win '.Z-B. 4, 23. 0, and 51. 07a SO, and Fe (14. 20 33, 1, and 50. 87o Si) and of - (19. 1% SO, ZrSi2 (38. 5% Co3S' 170 Si) - I CoSi2 (4 8 - 970 Si) INi3~i (13' 570 S'), Ni2P' SO, (23. 9% Si), Re3Si, and R'eSi, has been studied at the Institute of Powder Metallu~_-gy alld Special Alloys of the Ukrainian Academy of Sciences. Silicides were obia-ined by the synthesis of components; the sintered specimens were pre- pared by hot compacting, examination and the x-ray diffraction pat- terns showed t:re sillicides to have a single-phase structure. except for Co3Si, Ny3i'! h":-Si, and Re Si, which had- inclusions- of a second phase concentrated along grain boundaries. The nature of the temperature dependence of the elec- tric resistivity of MnSi2, Mn.5%, and ReSi showed these -silicides to be semicon- ductors. The FeSi and Co Si appeared* to be ferromagnetic semimetals. The temperature dependence of 1he electric resistivity of all other silicides studied Cexd :L/2  A15 Nr.' 983-5 5 June ELECTRIC AND TEMOMMILEGMT-0 IMOMRTIES [Cont'd] B/226/63/000/002/008/014 was- characteristic for.metallic conductors. the increase of resistivity with tem- iperature was linear in V-3Si, ~ Ni;?Si, and CoSi2, but nonlinear in all other silicides. he nbsolute magnitude of thermal em'f and its temperature dependence for most silicides.'studied were characteristic for compounds with metallic conductivity. In general, the temperature dependence of thermal emf was nonlinear and had ma:,dma, which indicates the presence of positive and negative current carriers. .7be temperature dependence of thermal eMf in FeSi2, MnSi2'. and ReSi2 was characteristic for doped semiconductor$.-. In general, with increasing relative content of Si in the intermediate phases of Me-Si systems, the absolute values of thermal emf increased and the nature of their. temperature dependence became more complex. This probably was. caused by an increasing share of covalent bond in -silicides and -by their electron. energy spectrum becoming more complex with. increasing.Si content. Tof-RYi the thermal emf in the entire range of tem- peratures tested was found to be zero, - which makes this silicide a prospective =aterial.for high-temperature thermocouples., (MS Card 2/2  ACCMICU yi~ Apy)oq 7,~ AUTHOR: sxRCR: pr rAC-5, e a bar FPz-' ond Y RZA -la P- - a :-e5 S Cc.  qi(; AP '-h io r. p r Lmar Lly  L '16904-65 :KWP( CtT/A D/ D f A"A tz AVU-MSTON fiRt AY4041r,877 TYf I LUPO' Andrey-,%ra, T. V,; G TITLE: SWi-v z~f gom p4.7rjjG&j SOW&-. Tepl*Nzika vyOwAIM, ttmrtrntur, ~Lt# T allml-r.1m, Dltrlda, i3pee-Ific 10FIG TAM, livity, alemal Oxp-wial a COC*ffi""Ont' rlif-:51eatflm: APJ "hermocoupla, duata-unt'er/ Ole 0" I~yram,34-er, t- i-MSTRACTi The ta-mpor-atm-,;~ dap---nd.-ance QiGat of thar-anal conductivity,  ence of the di6l(sctrj-~ constAinits n"i tlle- 'lave bOOD irlvostipted. ,,OrOs'tY Of 10-20%, obtuim~d by Phere rX rAtrognm at 2113K. Tho o-,o-M., sel3ro zedo it a t~rmp*ra-jy-o p!).rggo j, 73 X 12-15 hig-ho usLug an njM--/ We decrease mionbtoniouI17 fram 2.25 x I a t6  L 16gro4-6- 11M.: The thermal aon-dmtivity waz -measti-red in t~m parattwv the? --.Vtod dd*scrjV%3A br.7 ~,. 5, -,:.! 1 , r" 11 Zh. F.0. 1q 1963) was UGOd, emd or ~16fftr--- flustovalov (Zavodsksya Iab~)rat*r'C,',.j,, mensm-ed byp pyramester of Ute -01T 0" ~f CObdUOtiV,-Itj MUE OLXZSOT~-C-d im thi-~ 2 trio emsta-i-t afA, the dielectr'.c IZI kilocycles to 20 mg4eyelleg. IMO ot about ~00 k-Uc-avolea, aad Incrf~;-, m1se.z. d'Ll a tome txa-r. Tha wman intiJuo of C ','ho gpf~aUnowi were  "p; A.L:qW4 VILA tzo Q.L WilL, vt."S -Ll A ~-lll 1. Op!6ci=a vetre pi-e I YA ro,- -hy t., Tile CC ULT, ION I Ir-Stittit pr*b--'em to f.!-, r., 'Awl t,-la ta r a cir '71 CODE mm an M., ME M--A I'S -7 jO .NiN  ant: lo~ "a" a 7 u e 1 n r* i a,i as DA i  -L-21877-6 4PTr nl~N/c~r-r 77int /.TD M G 7 WAWNR(e Ar-Z: MR, A 601355~8 VA 7 -07600/6/060/600/0199/020-, IAUTHOR: Paderno, Yu. B.,; Barantseva, I. G.; Yupko, V. L. 67-/ ORG: Institute of Materials Science Problems, All UkrSSR (Institut probjj~Tjpaterialo- i vedeniya All MrSSR-J- TITLE: Determination of thermal conductivity and electrical resistance of ZrC, HfC, NbC, and TaC a, nigh temperatures SOURCE: AN UkrSSR. Institut problem materialovedeniya. Vysokotemperaturnyye neorgani- cheskiye soydeineniya (High temperatureinorganic compounds). Kiev, Naukova dumka, 1965, 199-204 TOPIC TAGS: zirconium, haftium, niobium, tantalum, carbide ABSTRACT: The.thermal conductivit-V nd the electrical resistance of ZrC, HfC, NbC, and TaC were determined in the 13700-322)00K ranee. The measurements were made with an apparatus shown in figure 1. The samples were 8 um in diameter and 15 -18 mm in length. The hole depths were 3.5-3.7 and.1.8-2.0 ohm, their diameter was 0.9 mm, the distance separating them was appr6ximately 5 mm,. and the - distance between the potential zones was 7-7#5 w. The coefficlenv of thermal conductivity (A) was calculated from the formula 1u R3 Zrl Car  ACC NR, AT6013558- igbere I is,Tbe current in the aample,..V Is the potential difference an the sample por- vian of 1: lu length 0 R bi the rmplo radlw, I to diotatice bttwou pottntial z0fits bt,- ed in potential diffexvnce determination, r a and rb are radii,fiTrY.-T a is the ten- paraturediffer-ence. The electrical resistance p was calculated from the formula U %R2 -P T The carbide samples composition is shown in a table. Orig. art. has: 4 figures, 2 tables,_ 2 formulas.. I (a) 4 5 v --vacuum valve; 3-- Fig. I., 1--electrical lead; 2 (a) vacuum tubes; 4--leak; 5--chamber housing; 6--front 7 cap-flange; 7--visier; 8--visier glass protection plate;_9--sample. a-water-; b--to pr-evacuum and diffusion pump; (a). c-to'prevacuum line 0 (b) C SUB CODE: -3..IP?07/ SUBM DATE: 03Ju.165/ OR IG REF: ~0081 OTH REF: 007 Cwd 2/2  L ~26ZJ-66 -WT(I J ACC NR, AT6013567 M)/6WPktj/E1-1 io, r ~ C.) A V4- , J, J A) SOURCE CODE: AMOR: Pederno. lu, B. Dt3dnik Ye. No Andre-yeva , To V. Barantseva, 1. G. Yupko, V. Loll DRG:~ Institute'of Material Science Problems, AN UkrSS (Institut problem mAterialove- deniya ANAArSSR) TITLE'r, 'Heas'urmaht of tb .ethermal expa;n"sion coefficients of ZrC, HfC, KbC, and TaC at -te UkrSSR. Institut problem materialovedeniyao Vysokotemperaturnyye neorgani- chesk"iye-soyedineniya (High temperature irsorganic compounds). Kiev, Naukova dumka, 1.9651 -293~295 TOPIC TAM zirconium carbide hafnim conpound, tantalum compound, niobi= ccopound, hent~ exiazz ABsTRAM. The thema expansionof zircon!Lum!,'?hafniuT~,,i)Xobium, and tantalum carbides was. 1700K range. The object of the work was to-Fr1r-7a p a gap in the literature The-tbermal expansion was measured in a vacuum chamber (10-2 Mn Hg) inubich"carMe samples (S mn in diameter and 15-18 um in length) were heated'electri- ~~y -The -zarbide samples wers prepared by hot-pressing technique and the temperature was -measurt d with an - OPH-113 miS2kaMeter. The individual carbide samples had the FCard-  A; 3t6j5_6& N~% ': .:A?6013SS7 U foll.wimS -porosities: ZrC-19 to 24%, H:FC-22 to 28%, NbC-13 to 18%, and TaC-27%. The deppudence.of the relative thermal expansion (61/Z) of the carbide samples upon I t~emperatwt IIs gripbed. A table gives the average values of the tbermal expansion coj efflciehts~_:(G) for various carbides. Orig. art. has: 2 figures, 2 tables. 1~~ SUBM DATE: 03Jul65/ OTH FM 003 7,  L 053-MI IJPW~ JD GIATA~11-- (A) ACC NR: AP6013341 SOURCE CODE: UR/0363/66/002/004/6626/0629 AUTHOR: Paderno, Yu. B. Yupko, V. L.; Rud, B. M.; Makaren1w, G. N. ORG: Institute of Materials Science Problems, Academy of Sciences UkrSSR (Institut problem materiMovedenlya Akademli nauk ukr ssf TITLE: Physical properties of certain rare earthkil Icarbides SOURCE: AN SSSR. Izvestiya. NeorgaWcheBkiy materinly, v. 2, no. 4, 1966, 626-629 TOPIC TAGS: rare earth metal, carbide, electric property, Hall constant, thermoelec- tromotive force ABSTRACT: The temperature depend nee of the electrical resistance In the 20 - 1300C e temperature range, the coefficient of absolute thermoemf, the'Hall coefficient at room temperature, and the melting point were measured on the same samples of Y, La, Ce, Pr, and Nd dicarbides. From these measurements, the charge carrier concentrations and mobilities were calculated. An anomalous temperature dependence of the electrical resistance.was observed around 1000C. The high effective carrier concentration in CeCZ as compared to the other dicarbides studied is explained on the basis of the electronic Card 1/2 UDC: 546.661261  '!. . ~ - f, . CaTd 2/2 .. - 1, _L_9 - . . I.. I. - I , _len . I . -- - -1. ... t, "."# - .., . .-I - 1. 1 -j. I I - I  A Cc NJR;APTOO8551.~ SO I MCI., CODE: UPVO 6 3 /67 /0 0 3 /0 0 2 /0 /0 3 "t Aurt"HOR: - paderno., ,Yu. B.; Yup1lco, V. L.; Rud' ,B. N.; Xvas, F.; Malltareilko, G. N. 0.-x:1*. Ins....il-ute of Rateria"I Science' Problems' AN Mrss ills ti t- Ut c problem ma't erialovedeniye AN Uk-,SSR) TITLE: 4ectropilysiclal properties of Gd, Th4 Dy, Erp Tu dicarbid(i3 SOURCE: AH "ISSR, Izvestiya, Neorr,,anicheskiye materialy, v. 3, no. 2, 3.967, _`95.39 TOPIC 12AGS: gadolinium terbium dysprosimin ,.erbim thuliura dicarbidetF:~- carbide, resistivity, Hall effect,:carrier density ABSTIMOT; The resul*'Us - .1)re, presented of an experimental detemination J C Z of~ -.-he eleeL-,rophysical:-propei,'$.-.ies cl' Gd, Th Dy, Ex, ahd Tu dicarlb7les, Initial rowder. carbldes were obtained by the reduction Of Metal OxIdes '02' with, carbon invacmta at 18000C f. 25~6C..iAn. The carbide poviders v;ere' corqoact;ed. and --vintered in a:ogoon alu-. 17Q0 18000C for 15 min under a 2 4. 1-~&- pre.Fsure of 100 I;S/cm..; the poroslt~r of sintered compacts was 5- 3P, ftnished specimens led at 16500C for 8 hr. It was found that L were annea A. I I, carbide rcsistivity chan,-,ed from 30 -p ohm. a. for GdC2 to 515 V shm. cm I-or Cbml/2 JW:,- 546.$-51261:541.12.03  ta'A -P /P  AP7008532 SOURCE CODP,?,: DR/0363/67/003/002/0398/0400 AUTHCR; radurno, TU. B_. UkrSSR (Institut OR.0 Institute of YAt .0 rivas Science. Problems& Acadexy of Sciences2 -problom 711aterialovocleniYa 14=3034ii muk UkrS,$R) TITLES Nature,oP the,change~of the otion-of curroret carriers in a -effective concentra e h dicaTb des SOURM: AN SSSR. lzvostiya. Neorganicheskiyezaterialy, v. 39 no. 23, 1967 40 398- 0 TOPIO TAGS: carbidvp~rara earth vpnpound carrier donsityp electron structump transition probr-bility "JOSMOT.1 An Attempt is,.nads to provide a qualitative explanation for the variation ,1 : inAh o - oxporimentA waubs- -6f, -th 0 -6~ffc 1. c1tivo-concentresion of carriers n* in a series -1 of rare earth dicarbides from the. standpoint of the probability of z~ppearaance of 6 ztatos'ini tho Metal atoms and. the energetic stability of the f enerpy ste%,os of rare earth atoms for given dogroes a their M3.ing. The qualitative depondence of the appearance 0' the 5-a statey no in the series of rare carth netals is givan in L $ Fig, I., This dependence is shown to be ver7 similar to the nature of the chanze in the -experimentai'values 'of. &. (soo Table 1). 1"his similarity indirectly confirms an earlier hypotthasis that the 'conduction in these raro earth dicarbides is acconplished Mainly I-rith 5d electrons. The chanse in n* and resistivity of the corresponding ctmd. . 1/2 wo.- 546.65,z6l.-341.12.03   11. V* on the Boya.r Te Ylim, IT. V.: tTest cultivatim of ni nes achino and F. lesk~oz.0 Kiiev~ 1955- .!i:,-*n Higher Education Ukrainian SSP. Ukarainian Order of labor Red Banner Agricultur-al'Academy. (Dissertation for the Degree of 'Candidate of A ricultural Sciences) z _hna,;La Letopis to 47, lq November 1955. 1,116scow. SO: KUi  YURA17i'AVICHUS, B. Yii. Cand Tech Sci (diss) ",(/9t-nd.v. OpeEating Parts of D'acinines for the and ul~ Vegetable Crops 1--p-41ze Conditzions of the Lithuanian SSR. Kaunas,- 1957. 20 pp with diagrams, 22 cm. (Li-ithuanian Agricull-ural Academy), 100 capies (KL, 18-57, 96) 36i -  P%&ND General Biology, Individu~ai Development. B-4 Abs Jour s Ref thur Biol., No 2, 19,58, No 4918 Author 2 y1ma Inst Not given Title Controversy on Entodarm in Insiats ori 9Rib Rosmois (F~Aska)v 19560 A5, No 4. 493-W Abstract v.A review of the literature on.the contr oversial question of sources of formation of the middle intestine (VI) in insects. Dorn (.1866),,Byuohli (1870), Maier (1876), Tikhomirov (1879) and others maintained that-insect HI develops from yolk cells, the aggregate of, which they accepted as entoderm. Kovalovskiy (1871) and Grassi (1684) maintained that LU is formed from the lower embz7o-layer, the separation of v&ioh Kovalevskly compared with gastrulation. Vytlachil (1884), Card POUND General Biology. Individual Development B-4 Abs Jour Ref Zhur - Biol.,'No 2, 1958, No 4918 Felltskov (1889) and Golizons ('1895) cam, to the conclusion that MI develops from eotoderm (from stomodeal and procto- deal cavities) and that the entoderm serves to form vitello- phages. Chuprova (1906) agreed with G-eimons, -while Esherikh (1900), Noak (1901), Shrangart (1904) and espenially Nusbaum and Fulinskiy (1906) sided with a somewhat modified point of view of Kovalevakiy. During the next 50 yeara the discussion on this theme continued; the appearance of contradictory observations is explained by tebhuical difficulties, an un- certain ttrmirolo; rA different interpretation of similar faota. -Thu% a~:cnrdir:?, to Tikhomirov the HI in Calandra gra- rmri% for-_% from yolk calln; aocording to Inkman (1953) from ,~nlj la-x*r lpx~-,ar, b-.4t w_-cording to Sheinert (1933) from the cb!la of ftnd middle intestines, The author con- which attempted to resolve the _Card--- T 21  ~NATOL_ PHASE I BOOK EXPLOITATION SOV/3735 Hurlyev.._Dnytro-Stepanovych,-and A.T. Yura Do.vidnyk po elektronnykh pryladakh (Reference Book on Electronic Devices-)~Kyyiv,, Derzh. vya-vo tekhn. lit-ry, 1959. 344 p. 10)000 copies printed. Ed,: Yu.E. Korsak; Tech. Ed.: K. Husarov. PURPOSE: This reference book is intended primarily for radio amateurs, interested in the construction, adjustment, and train- t6nance of various radio and television equipment. It may-also be of interest to the general reader. COVERAGE: The book.gives information-on characteristics, electr1c .4ata., typical diagrams., and applications of the most common electrop tubes used in amateur radio. Some data on semiconductors (transistors) are also given. 'No personalities are mentioned. V-74 There are no references. TABLE OF CONTENTS: Card :L/14 N --2; N , ,- MR 01 -  Refe;eence Book (Cont.) SOV/3735 OMMUL INMMATION 5 Basic Tabe Parameters 'Diodes 7 Triodes 8 Beam tetrodes 8 PentodeB 9 converters and heterodynes 12 - Cathode-ray.tubes 12 Barretters, 1.3 voltage.regulators 13 Semiconductor devices 14 Some recommendations for the construction of radio equipment 17 ELECTRONIC AND SEMICONDUCTOR DEVICES Recelvin and Amplifying.Tubes h 19 Mzh (aadio-frequeh 'ey pentode) 19 O.6P2B (audio-frequency entode) t d n t 1 AIP (h 3 21 24 e-co ver o er ep Card 2/14  He ference Book (cont.) lA2P helptode-convert6r) IBIP diode-pentode) IB2P diode-pen ode) NhA sharp-cutoff ftdio-frequency pentode) B IKIP remote-cutoff radio-frequency pentode IK2V remote-cutoff radio-frequency pentode~ 1N5S output twin triode) IF2B. - a~udio-frequ6hey output pent9de) IM audio-frequency out t entode) I ITSIS (high-voltage re-ctipiuer ITsllP 'high-voltage' rectifier), 2Zhl5B Marp-cutoff radio-frequendy pentode) 2FIF .(output beana tetrod 2P2P (output beam tetrod:~ .2Ts2S higb-voltage rectifier/ 5Ts3S full-wave high-vol-t~ige rectifier)- 3T84S ~full-wave high-voltage rectifier) 6A2P (he'tod p e c9nverter _6A7. ptodeconverter) 50V/3735 2a 29 34 36 38 41 42 44 47 49 51 52 53 55 60 61 63 65 66 68 Card,3/14  ReferenceBook,(Cont. SOV/3735 6A2F r&motb-cutoff-ra.dio'frequency diode-pentode) 6BUltwin diode-pentode) 6G2 (twin diode-triode) 6G3P (triple diode-triode with.separate cathodes) 6G7 (twin diode~-triode) ftelP .1 athode-ray tuning indi"tor) 6Zh3.B sharp-cutoff rgdio-frequency pentode) 6Zh2B shai~p-cutoff radio-frequencypentode) 6ZMP~ sharp-catoff radio-frequency . pentode 6Zh2P sharp%;-cutoff radio-frequency pentode) 6M.(sharp-cutoff radio-frequency pentode 6Zh3P .(radio-frequency tetrode with pentode characteristic) 6Zh4 (sharp-cutoff radio-frequency pentode) fthO (sharp_6utoff radio-frequency pentode) 6Zh5.P tsharp-cutoff radio-frequency beam tetrode) 6Zh7 I:harp-cutoff radio-frequency pentode) 6Zh8 harp-cutoff radio-frequency pentode) 6Zh9P (sharp-cutoff radio-frequency pentode) 6ZhIlP (sharp-cutoff radio-frequency pentode) Card 4/3.4 73 75 81 84 86 89 93 95 97 99 102 105 108 112 114 116 120 124 126  Reference'Book~(Conf.) .80V/3735 613.P'(tilod6-heptode) ,(remote-c 6KIP t f ff di t d 127 . o- u o ra o requetley pen e) 130 6K3 ( remote-cutoff rAdio-frequency pentode) 13~ 6K4 ( remote~-cutbff radio-frequency pent -ode) 136 6K4P remote-cutoff radio-frequency pentode) 139 6K7 ( r6mota-cutoff radio-fre quency-pentod ' e) 140 _ 6NIP _ twin trlo de with separate cat d o ) 142 6N2P twifi triode with separate'c :: =ho d I 144 6N3P ' -twin triode with separate cathodes) . 146 6N5P. twin triode with separatecathodes 149 6N6P twin.triode with.separate cathodesi 153 WS twin tri.ode with common cathode). - 155 WS twin triode.with separate cathodes) 158 6NgS twin,triode with sbparate,cathodes) - 163 6N!4P (twin triode with separate cathodes) 167 6Nl5P ( radio-frequency,twin triode with common cathode) 169 6PlP output~beam power triode)* 172 6P3S output beam power tetrode , fl I 5 WS, output beam power tetrod Z 1 2 Card 5/14  Refereind.6 Book '(Cont.) -6P7S'(outpIUt,6eam power.tetrode) ~.6n (w de-ban-d output 15ower pentode) 6P13S (output beam.power tetrrode, 6Pl4P (output beam power tetrode) 6P15P (wide-band output beam power tetrode) ~6SIP riode) 6S2P- triode friode -6S3B, triode .,6S3P :Low-)iu*m radio-froq4ency triode) '685S ~triode triode ~6S7B triodbi 6FIP riode-pentode) 6Xh2P Win-diode with separate cathodes 6XhO twin diode.with.separate cathodes 6Kh7B twin diode) OTs4P full-wave high-voltage rectifier) 6TB5S Ifull-wave high-voltage rectifier) 6TslOP (full-wave high-voltage rectifier) SOV/3735 186 188 194 196 199 200 203 204 207 209 210 l IL 2i'6 218 221 223 226 227 229 231 ,CArd 6/14  Reference Book (Cdnt,) .6E5P (radio-frequency tetrode). Oscillator Tubes G-807 oscilljitor beam.tetrode GU-13 oscillator bes~m'tetrode GU-15 oscillator beam tetrodel..- ~GU 29 oscillator-beam twin tetrod6 GU-32 oscillator be'M twin tetrode -50 oscillator beam tetrode) OU GU; 80 oscillator pentode) -Osexlloscope Tubvs.and.Wlevision Picture Tubes 5LO38 (cathqde-ray-tube. 8LO29 ( athode ray tubei IOLK2B projector kinescope) 13LO36, cithode-ray~tube with laminance delay) 13LO37 cathode-ray tube) AtMq kines6op e). AfX5B--~ kinescope with ion trap) 231MB',Ikinesdope) dard 7/14- SOV/3735 232 235 237 239 241 243 245 248 25P 252 254 255 258 26o 262 263  'Reference Book (Cont.) SOV/3735 31LK2B kinescope with ion trap) 26 35LK2B kinescope wlth'rectangu.lar screen') 2N 40LKlB kinescope with.,round. sareen) 268 43LK2B kinescope with rec n ore ff :' : 269 43LK3,B kiriescope n with rebtangu c r re 271 53M2R, kinescope ' with rectangular screen * 272 53LK3B kine secipe with' re 6 t a ngtaar s cr46n 273 Voltage Regulators 275 Sup 276 SG2S 277 -;303S 278 279 280 Bafieiteris . 281 Silicon Modes DK-Vl ( reabiving diode) 283 Card .8/14  Reference BD.pk (Cont. SOV/3735 DK-V2 receiving diode witb increased.sensitivity) -283 DK-V31 rebeiving diod') e 284 `DX-V4 r6ceivtIng dio4e witb Increised sensitivity) 285 DX-!.V5. , low-resistance receiving diode)..- 285 bX-V6.j higb-resistance receivipg di qe) 0 ~86 DK-V7~ ~eceivifig.66de 2a7- DK-11 m eae diode ~ 28 %.'DK-12 6eibiiilng diode - 41 DK mixer' di6de) i 28a . D~X-W mixer diode with ineredeed.sensitivity) 289 :DX-S iode) mixer. d 290, Gemaniurn Mixer Diodes DG-S1 O mixer diode) 291. DG-S mixei diode of increased sensitivity,) 292 DG-813 imixer-diode) 293 DG-S mixer diode ofAncreased sensitivity) 293 DaTs Type Point-Contact Gemanium Diodes DG-TS1 294 Card 9/14 1 10 1 mil S- 1  SOV/3735 295 296 .296 297 297 298 298 295 299 300 300 301 301 301 302 302  Reference Book (Cont.) SOV/3735 Junction Germanium Diodes for Rectifying.Alternatingllturrent DG-Ts2l.D7A DG-Ts22.D7B DG-Ts23.DTV DG-TsA.M, DO-T62507D DG-Ts26.DTYe DG_Ts27*D7Zh Point-Contact Germanium Triodes SIB.S3P SlV.S3V SlG S3G SlD:83D SlYeiMe S2A.84A ~M.'S4B S2V.S4V S20'.~40 Card :il/14 303 304 304 304 305 30-5 305 306 307 308 308- 309 310 311 311 312 313 "Mi ME` 401 IN, -1 MI III Oz 21 M M I  Reference Book (Cont.) SOV/3735 .PI Type Junction Germanium Voltage-Amplifier Triodes PlA PlB PIV FIG PID P.M PIZh P11 P~ Type Junction Germanium Audio-Power-Amplifier Triodes P2A_ P213 P3.,Ty'pe Junction Germanium Audio-Power Amplifier Triodes P3A P3B P4 Type Junction Germanium, Audio-Power-Amplifi&r Triodes Card 12/14 314 315 316 316 317 318 319 321 321 323 323 324  Reference Book (Cont.) Audio-Power Amplifier.Triodies P4A P4B P4V PO AD P5*Pe Junction Germanium Voltage-Amplifier TrIodes P5A P5B P5V P5G P5D P6 Type Junction Germanium Voltage-Amplifier Triodes r6A r6B P6V P6G P6D Card i~/14 SOV/3735 325 326 32 321 328 329 330 331 331 332 333 '334 335 336 337  Reference Book (Cont.) P7 Type Junction Gemanium Triode P13.Type.Junction Germaniwa Triodies P13 P13A P13B P14 Type Junction .0erlmmium Triode P15 Type Junction Oamanium Triode AVAILABLE, Libraa7 of Copgress Card 1,4/14 SOV/3735 338 340 340 341 341 JP/jb 6-9--61D    ACC Nq: A T-) 0 27 ~ 5 4 A~'T!!OR. Yjz-a2__S.-- Jura, S. MIG, Re-seirch 1npbtutA- of ',ac~jnes, mat,ematichesLu'kh -nashi-i! Y1 T 1, F ~xfj~.1P~ vv, sk;l :~Kafli- v z ku rT ZPi_,i!lovajil P;torm~~icl, no. T07 IC TAGS r.,,,Vnei(, uqA~ ;".,wt~ ;;,-oer tap A BS TR A C T -Pl.z; p-l-E.1cr (o-i!:-~-._;!~ i!, of Lhe -t -)i lisherl em-Ht- na ~:Tlfor: 11 ; Jiscu.--,se& Lhe pr!,,,IcipAt. of c-Itecl-rc,~~...!;r., -tirt-stol -tt and I)rak(,s for )nth ;ind UlpeS. start-stop sysU.,m USA p-,.zv!j. um h! r C)ctoher 1,467, sLarling ,)r stopl-rig, :):-i mt, -Card  --66 ACC 'Np; d (- te r 77,1 i nef-J. Ile cl~sr,-aSses also Contrr~jjz-,~;' te rn Q. 'Pie article cclnclude!~ -Aith oi i Ils' of advuntage8 arxJ tviortcorn!,,Igs )f the and 15 firures. SUB COUTIF. EK. 1E. DIP / Sl'!ibtl DATF. 16 T-,,-6.3    L 194.77-63 EWT(.I)/BDS .-AFFM1ASp1jjP(G)_ ACCESSION NR- AT3002219 03 SIM116310011000101~01o_ AUTHURS; Ka1abukhov, N* F,3 Xurachkovskiy,_pt A,_ 2 TITLE: .. Effect- of hardening on abso 3tion spectra of x-rayed KC1 crystals SOURCE: Optika i spektroskopiya,- sbornik statey V. -Lyun nt z I a. inostsev ly Moscow, Izd-vo AN SSSR, 1963, 190-193 TOPIC TAGS: temperature hardening, absorption' spectra, coloration, V-bard ..ABSMACT: The authors have traced the effects of hardenina on the absorption spoctra after x-ray excitation. They also studied the characteristics o~ the resulting photochemical transformations in color cert-ers. It is shown Liaa% :r addition to the enhancement in coloration intensity, x-ray excitation ent,24-1-- change in the V-absorption band. On the nardened crystal the V 2 -band 2~_ shows a mch sharper resolution than the* -band (7L - 215 ). The authors contend V3 that this phenomenon could be explained qualitativel:y by tte Varli model for V-centers. (Dzh. Varli. Sb. Tsontry* 6kraski, IL, M., 305, 1958). According to the Varli assumption the V2- and V - centers are formyl by the doublo ioniLt ian of the negative halogen o 'Zormore, it is shown that the number of".'-' i n Fur CoM  L 19477-63 ACC=ION 1"R: -AT3PO2219 !-centers compared to the quantity of F-centers, created by x-rays or F-irradiation of the x-rayed crystali are less in' the hardened KC1 crystals (quenched in water after heating to 50C below melting point) than in the specimen prepared by slo,,~ cooling(O-7C per min. in the furnace). In the irradiation process 12:-~ ~-7 the F-band the increase of P,-baM- a is more strongly apparent in the hardnne~- crystal. Orig. art. has$ 3 figuees. 'ASSDCIATIONi none SUMITTED- 09Apr62 SUB CODE- PH DATE ACQ: 19114ay63 i;NEL- D\- NO REF SM 001 OMER: 003 Card 2/2    37223 S/051/62/012/CO4/010/015 E039/9485 AUTHORS: Nalabukhov, N.P., YurachicovsRiy, P.A. ------------------------ TITLE: On the ultraviolet absorption of X-rayed KCI crystals PERIODICAL: Optika i spektroskopiya, v.12, no.4, 1962, 523-524 TEXT: Samples prepared from specially purified crystals of KC1 and X-rayed at room temperature for 1 hour (50 kV, 9 mA, coppor anodeT were used for this investigation. Absorption*spectra ivere also measured at room temperature of a 0-4 (SF-4) type spectrophotometer. The characteristic V3 (218 miiflc) band was observed and a relatively weak band with a maximum at about 260 m-,r&. There is also a strong F band' at about 550 mmk and a weak M band at about 830 mmll-. The absence'of the V2 bands was unexpected and is usually characteristic of crystals containing a significant-concentration of Ca, Sr or Ba. It is not thought that, the 260 mmk band depends-on.any new type.bf V -centre. The experiments- of'Dorendorf shoure 'd.that.for X-raycdcrystals of KC1'.there-is a- V4 absorption band.with a maximum at about 255 mmk at.- 18o ac. Calculations-I:on-the possible temperature displacement of the absorption bands sho-vi, that the 260 mnk band Card 1/2   /Er Fir A AT of tempe-ruTt, rn, C or" ~ie 3, ABSTRACT Cc r "I ljre a tudl "S  ACC IVR :Ay F, SpeCimen i4as we ak -band is formed at 2 ation by Ff-l;ght. HOwever, a.Dove 2500K. ur. VP -5 f -r frl 1' tem,:cr~~ture for case oll F-4rr pe*- f,~r the -4 Tom ur -R M,  ~-ai*cl j/0  V~ AP6028714 SOURCE CODE: UR/0185/66/011/008/0917/0918 J-AUTHOR: Bohdanoach, S.; Ivzhe*o~ M. A.. Koval lov, V. K. Sy~orq~~.L Yu. A.; Yur achldvslkyy, P. 0.; Bghynets', V. P. ORG: Kiev Polytechnical Institute (Kyyivsfkyy politekhnichrWy instytut) Nb TITLE: Dislocations and V-centers -in KCI or ystals SOURCE: Ukrayinelkyy fizychnyy zhurnal, v. 11, no. 8, 1966, 917-918 TOPIC TAGS: potassium chloride, crystal lattice, dislocation, x-ray coloring, color center, crystal absorption spectrum ABSTRACT: This article endeavors to explain the role of dislocations in. ere, ting V-centers a in KCI crystals, subjected to x-rays. sit room tcmporatures. Four crystals of "pure" KCI -grown fy.om. a melt by the Kyropoulos method (two each with dislocation density of 5. 106 and 104 cm-2) were colored by x-rays at room temperature and their absorption spectra were 5 . then photospectrometrically measured. Comparison of graphs plotted from the results of "hard" and "soft" coloring showed that (1), other. coloring conditions being equal, the crystals with more dislocations chiefly formed V3-centers (218 MA), while those with fewer disloca- tions gave only V2-centers (2,30 mp), and (2) the spectral makeup of V-absorption does not  L 45587,,66 AP602~ff4 depend on "hardness" of crystal coloration, not only refuting the view that "bard" and "soft" x-rays create V3- and V2-centers, respectively, but also suggesting that V3-centers are de- fects formed either in or near the dislocations themselves, while V2-mnters form in the lat- tice far from them and require, lattice vacancies. Further studies showed that the preceding assumption is true and that the V2- to V3-center ratio Is stipulated by dislocation density and the number of "frozen" thermal vacancies in the crystal. In conclusion the authors thank Prof. M. P. KaMbukhoy for interest in the work and useful discussions. Orig. art.. has: 2 figures,- [261 SUB CODE: 20/ SUBM DATE: 05Mar66/ ORIG REF: 002/ OTH REP: 007 ATD PRESS 5082 Card 2/2   -CZEMUSLrVAKIA/Organio-Chemi8tr-y.--B~nthetic Organic Chemistry. G-2 Abs Jour: Ref Zhur-Khim-, No A, 1958, 81508. Author Yuracka P., Zvoner V. Inst Title Synthesis of Organic Peroxiies. Orig Pub: Chem. pramysl. 1957, 7, No 4, 192. Abstract: It is possible to have explosions during the preparation of peroxides acccrding to Zwakha's r;ethcd (Ref. Zhur- KhimiYa, 1958, 61842). The danger of explosion can be eliminated by adding dimethyl-dibutyl phthalate (I) or tricresyl phosphate to the reaction:nixture. Thus) a phlegmatized peroxide is obtained in liquid form or as a paste, which is used in p-Dlymerizations; for instance a 50% solution of CH3CCOCCOC6H5 or the peroxide Card 1/2 2  CZECHOSLOVAKIA/Orgmic Chemistry. Synthetic Crganic Cbem-istry. G-2 Abs Jour: Ref Zhur-Khim., uo 24, 1958, 815o8. of nethylethyl ketone in 1, a 66cp4 paste of the peroxide bis (1-oxycyclohexyl) in 1. card 2/2 ON W-1, M,   SOV/44-58-4-3200 Translation from: Referativnyy zlrmmal., Plateniatika., 1958, Nr 42 p 121 (USSR) AUTHOR. Yuran., Vo Yxie TITLEv,--AAlTnpfbrma-ti0h of Conjugate Projections and Their Application.-for the-Mechanization-of Construction of Axonometrio and PerspecjLpi,~,re-Reproseritations of Objects (.Preobrazovaniye sopryazhi:ar;nykh proyektsiy i ikh -primeneniye dlya mekhanilzatsAl postroyentya alcsonometri- chesldkh i perapektivVkh lzobrazheniy oblyektov) PERIODICAL: Zinatn& rakst . Latv. univo..Uch, zap* Latvo un-ta, 19571, Nr.10~, pp, 191-214 ~ABSTRACT: The..work is divided into two'parts. In the first part a study- is- made, of two methads of, transforming conjugate projections The combination of a perspective and orthogonal projection of objects on the projecting plane is called a conjugate projection. -'ard -.1/2_: .......  SOV/44-58-4-3200 A Transformation of Canjugate Projee-Z.-iozis (Cont.) Such A transformation-isimplifies t2,Le solutionboth for position andmetric problems., The second pavt deals with a method of supplementary projection* ItAa applied in the solution of prc- blems on Intersectione Its-ansenee is the fact that given ob- jeots are projected in a parallel manner on the projecting plane In such a direction.that a parallel projection of the u-n- Imown elements is obtained.-and then their conjugate projections. Li the second part are given Vhe geomat#~_c foundations and kine- ratio Boheme of a device (axo-perspective-graph) by means of whic'n are constructed perspee"t'live.wnd axonometric representations of objects by-their orthogonal projections and projections with numericaa,-referenceos The conubraotloi of the device is based on a simple system of const'ructing vislual representations derived or. the basis of conjugate projections. Constb'ruet'ions of perspectives on vertical and InelLned Planes and also special forms of oblique and orthogonal axonometry are examf-ned. V.N. Zhuravleva Card Q/2  Id "Tr4invformation of V. Yuo Cerad Tech S(.-I (dloc) on f-r the me and their ut i li at~ chanization of constritollon of )errspeotive and axonometric of objects*" Lon, 1958. 12 pp with (Idn of Higher Education USSR. Len Order of Lnbor Red Baraier Construction Digineerinr, Insto., 150 copies (KL, 52-53, 104)  a yu, [juranek, sing a Test qw-erations in Czechoslovakia u reservoir 30mbustion source. Neft. khoz, 43 no*2171,-'15 F 165. (IIIRA 18-.4)  A"Y YURANVI, A. F*- .-Amanual on swine diseases, Ist and 2nd editions. (91920's-or 1930's or later) Is used as,a current (1947) textbook for veterina and zootechnical specialists as viell as for dirce.tors of state farms (Sovkhoze7s,- presidents of agricUtural artels., - ----- and Veterinariya, Vol. 24, No. 12, Dec- 19147 PP 13-15  TURAWV, A. Viroscopic exardnation in foot-and-mouth disease in cattle. Veterinarila, 35 no.10:69~-73. 0 158. (MM U: 10) 1.1notitut opidemiologii i mikrobiologit im9ni Gamleya. Uoot-and-mouth disease) (Micioscopy-Technique)  153.-58-1-6/29 AUTHORS: Komissarova, L. N.t Plyushchev, V. Ye., Yuranova, L. I. TITLE: An Investigation of the Thermal.Stability of Zirconium- Sulfate-TetrahydrAte (Izucheniye termicheskoy ustoychivosti l tetragidrata sul fata tsirkoniya PERIODICAL: Izvestiya,vysshikh uchebnykh zavedeniy. Khimiya i khimichaskaya tekhnologiya,,1958, Nr 1, PP- 37 -42 (USSR) ABSTRACT: The abova-mentioned sulfate-tetrahydrate is of great impor- tance amongst the other zirconium-sulfates. Its method of production is given and the crystalline form is mentioned fr9m publications (Reference 1). A survey of the publications on the problem referred to in the title, is given. Details on the condition of the material used for the tests and on the methods applied, are given in the experimental part. The results are summarii~ed in tables,1 and 2. A thermogram covering the range between 2oOC and 1,1000C is given in figure 1. It shows 3 clear endothermic effects: the two first one between 13o0 and 2150Cr which correspond to the separation of the water of crystallizatiofifthe 3rd effect (700 to 74000 characterizes Cara 1/3 a complete decay of the..sulfate with the separation of SO 3  An Investigation of the Thermal Stability of Zirconium-Sulfate-Tetrahy- drate. 3,33--58-1-6/29 fligure 2).This figure shows the curve of the change of *eight of the tetrahydrate which confirmrs and accurately defines the destructive character of this salt6 The results of investigation of the dehydration- and decompos~ition- processes obtained by the methods described here, are com pared-in table 39 Conclusions: I)The last mentioned processes of dehydration and decomposition of zirconii2m-sulfate-tetrahydrate were investigated by means of a) Heating in air up to the attaining of a constant weight at varioustemperatures, b) Pyrometer by N. S. lurnakov, and c) a continuous balance. 2) According to the velocity of heating, the dehydration of the tetrahy- drate.takeB place either in 2 or 3 stages. In all cases, 3 watgr molecules within the range of 100 to 16ooC are-cracked at "a time. One watir molecule# on the other hand, is retained more vigorously and escapes slowly at graduate heating; at 19oo to 2150C half of the quantity of the water gets lost 0 up to the complete dehydration taking place at 3oo to 340 C. Card 2/3 3) The decomposition of the zirconium sulfate is accompanied  An Investigation of the Thermal. Stability of Zirconium-Sulfate-Tetra- hydrate: 3.53-58-1-6/29 by an ps,cape of 50 and is gradually completed between 3 450 to 6000C. 4) The special solidity of the bond of wa- ter molecule points to the fact that the properties of tetrabydrate are, more-correotly expressed by the coordination- formulaft ZrO(SO4 /o3H_ 0. There are 2 figures, 3 tables, and 8 TeRrences f wGoh are Sovlot. 0 ASSOCIATION: Moskovsklyinstitut tonkoy khimicheekoy tekhnologii im. M. V. Lomonosova.Kafedrii-tekhnologii redkikh i rasseyannykh ele- (Moscow Institute for Fine Chemical Technology imeni M. V. Lomomosov, Professorial Chair for Rare and Dispersed Elements) SUBMITTED: 'September 16p 1957 Card  89961 S106 31 /0 0 5/0 11 A 3/60/0C5/00 -12- ---AO51 029-- /A 041, ill a, AUTHORSs Yaremova, L.I., Komissarova,,L.N., Plyushchev, V.Ye. TITIX8 On the Formation of Rexahydrates of Zi.roonium and Hafaium Oxyniti%ltes PERIODICAL: Zhurnal Vsesoyuznogo Khinicheskogo Obahchestva im. D.I. Mendeleyevap 1960, Vol. 5, No- 3, P. 346 TEXTR The authors,recently conducted a study on a new method for synthesiz- ing Zr0(NO ) -2H2O and a similar compound of.Hafnium, i.e., the dihydrates of zirooniWand hafnium oxynitrates. It is possible to obtain individual zirconium and hafnium oxynitrates free of admixtures of any other nitrates. The results could be successfully reprodu,,:ed several times. Numerous ex... periments showed that both substances crystallize in a wide range of Hilo con--entrations and of the zirconium and hafnium concentration, as well under -7arious temperature -,,onditione. While studying the system Card 114  89961 S/063/60/005/003/005/011/xx ~AOWA029 On the Formation eif,Rexahydrates of Zirconium and Hafn~um ftynit"raters ZrO -H 0 -E[ 0 at 25'C by the physir,,o-ohemiaal method of analysis, the ex.'st- 2 2 5 K exahydrate of zil- ence --if another --nompound was established-9 v,' zthe h Oclni= oxynitrate. with the compositiont Zro(io'~ - 6H 0. The compc-uad 3 12 t % Zro C,,ryetallizoo from Solutions containing.from 21.3~ we 9b 2 and 1~93 weight % of N 0 to 4-50 weight % of Zro and 40-00 weight % of'N 0 . The 5h 2 2 9 hexabydrats 9f afnium oxynitrate can be formed in the eame way.- Th8 formation of the latter two Oompounds also takes place when a srall excese of ZrO(FO 3)2 0 2H20 and HfO(HO 2H 0 Is introduced imte a satursAad go- I'a-tion ef these conpoutdav D.'by Oing the dl.hydrate of ziroonium and haffnium oxynitrates wilth a gizen. amount of vatez* which is insuffioient the txmplete dissolution of the initial salts (4,he moleoular ratio of the water and the dihydrates ohanged from 2al to Ssi). In the fl--st saes, the erystallization.of thi hexahydrates, carried out ir. glass containeze for otudying the solubility,,oontinuad for 8-10 hours in the entire volume of the sAution, so that a eompletely solidified mass was obtained, which ;?>-s Cerd 2/4  U.,961 S/06~5/60/005/003/005/011/7-f A051/AO29 on the Formation of Eexahydrates of Zirconium and Hafnium Oxynitrates difficult to crush and whichresembled magnesiuu cement. In the aec;cnd base mixtures were obtained.in the~form of a gruelp which after a certain. time hardened lUnto a non-trunsperent, white, enamel-like mase. The obtained pre- parations we.re thoroughly ground,. dried in air to a constant weight and were aInalyzed for ReO 2, N20 and HLO contort.. The ReO9 content was determined by he Cor i2pondir.2 hydrate's to Ego at 9000C. The Devard method Cal 4nating t - 9 2 Vas zsed for determining H 0,0 'The amount of water was ealculated from the diff ezer-ce. The results Othe analysis axe given in the table and repro. sant theL average -val-ie;q of 5 determinaticne. 114 is pointed out thSA in rt~- peated. experlments the results were systematically and favorably reproduced. Thus, '.be composition of the --o-btained-Lc~omoo7ands-is--expre~!3sbd--Vk-t ZrO(110,~)2 ray findings were also obtained, whioh '10 - 2 at2on of2new - firmed -the form I phaees. The hexahydrates were,found to b6 well 4- soltble in water and statle in air. Their densities at 20-C were estimaved pyanographically and found to be 2.08tO.02 ard 2.66to.02, respeotively. There ~s 1 table and non-Soviet referenoes. card 'AA  On the Formation of Heynhydrates of Uromium and Hafnium Oxynitrat-~e ASSOCIATIONR Noskov6kiy institut, tonkoy khimicheakoy CIO tekhnologii im. - ~H.V. Lomr,-nosova (Moscow Institute cf Fine Technology, 4m. N.V. Lomonosov) SUBMITTEDa Deoember 289 Tables coatp &jLh M~jlar ratio NO N 0 2 5 H 0 2 NO zu 0 8H 0 2- 2 5 - 2 - - - - zirconiun nit-rate 36~30 31,85 31-85 1~0.~1-02?6.1 !,-affnium nitrate 50~CO 25-11 24-89 1,00~98F5-9 kla:7-" 4/4  1020J61/136/002/020/034 B016/B060 ATITHORS: Komibearoval Le Ile, Yuranovap L, lot and Plyushchev, V* Yee ----------------- TITLEs Synthesis and Thermal Stability of Dihydrates of Oxy- nitrates of Zirconium and Rafnium PERIODICALs Doklady Akademi i naui SSB.Ry 1961t Vol. 136, Ho. 2, pp. 350-353 TEXTS Astudy _hwi -been iitide---bf,,th-e-s~xtbe,s-ii3-6f-z:tr-coriium, and -hafnium ~oxy-nitrate dihydrates and their thermal stability.-While data available the literature on_t~e-_former dibydrate are insufficient and contra- dictory, tha.latteT:'ia as yet undeso-ribodo Zirconium (hafnium-) ox~'- chloride octohydrats,.which contains alconstant amount of crystal.1datert has proved to be the only usable initial a-Libstance for the synthes'is of these compounds. A weighed-in portion of these salts was treated with IODA HBO3 (He02 s IM02 - 1 3 to I 1 6)- 1 1 4-5 was fowid as the optimum ratio..Air was blown,through the solutions until the yellow color disappeared, and at 6000 they were vaporized. On the baks of the analysia, Card 1/2  Synthesis and Thermal Stability of Dihydrates SI/020/61/1.36/002/020/034 of Oxy-nitrates of Zirconium and Hafnium BO16/BO60 the following formulas are ascribed to the compounds synthesizedi ZrIO(NO 3)2-2H20 andIHfO(.NO 3)2'~ 2H20.. They are white crystalline substances. .The data obtained for equilibrium displayed certain differences between :the zirconium and hafnium compounds regarding the stability and do- composition on heat treatment. They Are, however, both thermally unstable ~:and_decompose.completely at 4000C~ when monoolinic ZrO results from 2 zirconium oxy-nitrate dihydrate with a 54-1% lose of weight. The hafnium _:compound die layq a greater thermal stiabilityl especially the monohydrato p forming in between. Both substances decompose stepwise (the stages are less marked in the zirconium compound). There are 2 figures, 2 tables, and 9 non-Soviet referencess 3 French, I Britisho and 4 German. ASSOCIATIONs Hoskovskiy institut.tonkoy,khimicheskoy tekhnologii im. M. V. Lomonosova, (Moscow Institute of Pine Chemical Technology imeni M* V, Lomonosov) PRESENTEDt June 24, 1960t by V. 1. Spitsyn, Academician, SUBMITTEN June 22, 1960 Card, 2/2  29018 3/020/61/140/004/019/023 BI 061B1 10 AUTHORS: :Yuranova, L, I., Komissarova, L. N., and Plyushchev, V. Ye. TITLE: New data onithe behavior of zirconium and hafnium oxynitrates in aqueous solutions andorganic solvents PERIODICAL: Akademiya nauk SSSR. Doklady, v. 140, no. 4, 1961, 855-b5fj TEXT: Almost all studies described in the literature with regard to the chemlstry of zirconium nitrate solutions concerned microquantities of zirconium and highly diluted solutions (Ref. 3: V. I. Paramonova, ZhNKh, 1905 (1956); Refs. 4-6, see belov). In practice, the-behavior of zirconium and hafnium oxynitrates in more concentrated solutions is interesting, particularly when studying extraction methods for separating tzirconium, from--hafnium. Therefore, the authors inve5tigated the dependence of pH value, specific electrical conductivity, density, and viscosity of zirconium and,hafnium oxynitrate solutions on the concentra- tions of these compound in aqueous solutions. Moreover, the solubility of oxynitrates in oreanic solvents was studied, The compounds ZrO(T;O ),,,211.,0, Zr6(140,),,,611.0, tAnd lifo(vo )"'611.-,0 woi-u 3 Card 1/'h?'  29M8 S/020/61/140/004/019/023 .New data on the behavior of ... Blo6[Bilo tested.- Figs.- 1.and 2 show results.obtained for pH value and specific electrical conductivity of aqueous solutions of these compounds. Since the hydrolysis of oxynitrates decreases with increasing concentration, the decrease of the pH value is only due to the increasing absolute quantiv of dissolved salts. Hydrolysis of zirconium and hafnium oxynitrates in ..,aqueous solutions was found to. depend on time. The state of equilibrium is attained only two weeks after the solutions have been prepared. A rise in temperature effects stronger hydrolysis. As expected, oxynitrates of'hafnium. proved to be stronger bases than those of zirconium. The density and viscosity values measured for aqueous -solutions -of ~ii-iiit-r-a-t-es---o-o--n-ce-r-ned are shown in Figs~ 3 and 4. 15 organic compounds of different classes were selected to study the Isolubility of zirconium and hafnium oxyr4trates in organic solvents. Measurements were made at 20 and 300C ; temperature fluctuations were + 0.10. In All cases, solution e4uilibrium was established only after a_'week, .Results are shown in Table-5- It is evident' that zirconium and hafnium oxynitrates dissolve X/ only slightly, or not at all, in slightly polar or nonpolarorganic solvents. The compounds studied are unsoluble in aceto henone, dibutyl p and benzyl ethers, chloroform, carbon tetrachloride, and dichloro ethane. The solubility of oxynitrates decreases with increasing chain length and Card 2A-3  29018- -8/020/61/140/004/019/023 Hev.data on- the behaviorof B106~BIIO branching of the saturated alcohols used as solvents.. Under equal oxynitrates of zirconium are better soluble in organic solvents than those of hafnium. There areA figures, 5 tables,and 7 refer- ences: A Soviet and 3 non-Soviet. The three references to English- language publications read as follows: Ref. 4: B. Lister, L. McDonald, J. Chem. Soc;, 1952, 4315, Ref. 5: R. Connick, W. McVey, J. Am. Chem. Soo., 71t 31 2 (1949); Ref. 6: R. Connick, N.VcVey, J. Am. Chem. Soc., 1171 (1951)- ASS,OCIATION: Moskovskiy institut tonkoy khimicheskoy tekhnologii im. M. V. Lomonosova (Moscow Institute of Fine Chemical Tech-. nology imeni M. V. Lomonosov) PRESENTED: April 25, 1961, by V. I. Spitsyn, Academician SUMTITTED.- April 22, 1961 .-Card M-M    KHMITONOV , YU-Ya-,* PLYUSHCFEV, V-ye, PERVYKH, V.G. Infrared absorption sppctre of zirconi-um (IV) and hPfAim (rVi nitrate eompomds. Zhur.nporg.khim. 10 no-4:741-744 Ap 165. (MIRA 18:6) L Institut obshchpy i nPo: nialieskoy 1,himij All SSSR imp rga ni Hurnakove i~bskovskiy institut tonkoy khimicht-skoy tekhnologi--; imeni Lomonosova.  Laboratory -Diasnosis of Tnf3uenza.,Q_ _A. A. EmorwUrstmv., H. a. Klytch~oo l~ T* Ta. Lu A 'A. Mrozenk6 1o. S. SMU-nav 1. "'. lumaj, V. P. Korotkova, Div of I I vywdPRO-, f.- A Yirolosyp'166V of _Bxptl Had, Aead,.Med S61 USSM; Inat of _1~pldcmlol ImorA Pastear Zbur 21Ur4>b1D1,A3pid*4oli.,i 2=wtiol" _P VSM_-__ U6, antigmic~ Ammtrwe -of A!, Isolated -during, 9-_pa~ot_ nliar it.-is neceusarv. to mAp nt crous-nautrallzatkn of -Uhtmdies zttbrding to a nw.4 taethod dwvalopad by the aut hol-0. 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