VBTCHIWMj-S4;j SOKUIDV, N.D. CUlculation of the s7stem Hee b7 meana of the Talence strbclAwe mothod. Zhur. fiz. khim. 3!i no.7:1645-1647 Jl 16L (MIRk 14:7) L J~-SSS, Institut, khJmJ(.-hamko7 fisiki, (Heliibi bydride)  VETCHINKIfl'p S.1.1 SOKOLOV, N.D. Calculation of molecular integrals in quantLm chemistry. Zhur.fiz. khim. 36 no.8sl754-1756 Ag 162. (MM l5s8) 1. Inatitut khimicheskoy fizik:L AN SSSR i Moskovskiy gosudarstvennyy universitet fizicheskiy fakalltet. (Quintum chemistry)  ALEKSANDROV, I.V.; VETCHINKIN, S.I.; KARYAGIN9 S.V. Theory of superfine splitting anisotropy in electron pars- magnetic resonance spectra of free radicals. Dokl. AN SSSR 143 n0-4:890-893 Ap 162. . (MIRA 15:3) 1. Institut khimicheskoy fiziki AN SSSR. Predstavleno ekademikom V.N.Kondratlyevym. (Radicals (Chemistry)-Spectra)  S/020/62/147/006/013/034 B104/B1180 AUTHOR:: TITLE. Method-of determining optimum wave functions for approximating matrix elegant's .1962 1326-1331 !PERIODICAL; Akadediya nauk,SSSRW Doklady, v-~147, not 6t llkff: -The matrix 'ele6ents j1D of any,operator other than DAB f Bdr -'Jhe- Hamiltonian: have fio extreme properties with respect to variation of t1le,wive functions., Slight pprturbLitions of the wave funotio a may therefore c Iause. considerable-changes in the 'Any extension of the -DAB*- class of wave functions only improven the'averagii of %the engrgy--lyaluos -'.while the transition probabilities calculated on this basis may either become- closer to, or further fromf the exact value.,.The choice of variation wa*e' function in calculating D is thus not only determined by the AB requirement of an extreme'energy value. Here 'thV(oonditiovs are studied' which ohould satisfy the approximated wave fuActions e6 theit D is not AB Card 113  S/020/62/147/006/013/034 Method of determining optimum: ... B404/B180 F I -.-~.dependent on exteneion of the class of variatioFi wal:e functions for states A ana B. The constaAt,s, or unknown funoti,?na of the coordinates a and b in tho approximale~d wave functions k k9 K VA TA + YJ qA (H E OA A VA jTn + bt, (H E,,)* fpsl , (2) are assumed to vary slowly in certain regions of space. The problem is to'find whether, with these"restrictionb on the properties.of ak (b 1 an; k) exact solution of the SchrBdipger equation'can be represented in form (1) (or (2)), by appropriate choice of Y.. (or If the function can be YB) expande& in.a definite, finite but arbitrarily large number of eigenfunc- tions 7 n of the SchrUdinger:equation, any of these eigenfunctions can be represented,in %he form of series (1) with constant coefficients Card 2/3  S/020/62/147/006/013/034 Method of determining optimum ... B104/B180 'ASSOCIATION: Inatitut khimicheskoy fiziki Akademii nauk USSR (Institute.. of Chemical Physics of the Academy of Sciendes USSR) PRESENTED: June 4 1962, by V. NO-Kondratlyevo Academician SUBMITTED: .'May 24, 1962. Card 3/3  S/051/63/ol4/oo3/Gol/oi9 &0,39/9 120 AUTHOR: Votchinkin, 3.1. TITLE: Approximate calculation of J.he probabilities of dipole transitions. The lithium atom PSRIODICALt Optika i spektroskopiya# v.)A, rto.3o 196~, 317-521 !rEXT i ~The c(inditions are axamined for tho se),ection of the itnum -a ppro -apt' ximate wave function for t", calculation of the non- diagonal matrix eLement, operator of a dipole moment. It is shown that takkng into account the necessary tymmetry of the electron wave functions tho simplest and most essential of these requirements is not fulfilled, Gither for the flartres function or for the Hartroo-Fock function. Nevertheless inwany cases for the Hartree- Fock function thene conditions are able to be taken fully into -account (to a sufl'icient degree of accuracy). It is suggested that for erimilar problums any approximate wave functions (and not only Hartree-Fock) which decay exponentially to infinity and posae'sa the necessary number of terms, lead to a satisfactory value of the dtpole strength. The resuits are compared trith vaLues calculatod Card 1/2 P  S/051/63/oilt,(003/001/019 'Approximate calculation of the E039/E.120 A by the self-conaLstent field method with and without exchange. The values found for the dir.4--le etrerig-h ahow bqttcr agreamiant with experimantal valuen than thQ rae-u.~Cr. obt&A1rkcvd frkui tho muro laborious numerical solutiona of the Hurtree-Fock equations, hence coafirra-ing -the oariler suggezt-n. Gp_1cu1&tiorz are irada of the dipole.strongth of the 2s np ja 2, 3, 4) transitions of the Li atom vaAency electrons. ThAr-e -is 1 table. SUBMITTED: June 12, 1962 Card 2/2  :-V1910/63/003/01-/01 :Ad& 2M AT4041501 07/0118 UrHOIL Vztchinkin, S. L b.TITLE: -Approximate calculxtions of dipole transition probability and conditions for the optimum choice of a6pproximate wave functions SOURCE: AN IAtSSR. IAtovskiy fizicheskiy sbornik, v. 3, me. 1-2, 1963, 107-118 I TOPIC TAGS: quantum mechanics, wave function, approximate wave -function," wave 11unction selection, dipole transition, dipole transition probability, Hartree Fock function, electron shell, lithium atom A33STRACT: When. '?A and 'fB are two approximate wave functions corresponding to states A and B (discrete spectrum) then, in order to obrtain a m6re accurate value of th6 element of the transition matrix, it is necessary to find corrections for -P A and _f B based on energy extremums. For the matrix element DAB of the dipole moment operator D it is possible to limit the choice of 'PA and YB so as to make DAB independent of any corrections. The author shows that if the function p can be expanded into an arbitrary (finite) nurAber of (discrete spectrum) Schroedinger eigonfunctions,Yn, corresponding to energy states E no tien any Y. can be expressed in terms of a r, e d 1/3  ACCESSION NR: R174041501 X ak w-E)kp t where H is the Hamiltonian of the system and vGk are constants wh1ch can be., chosen so as to make the exact solution of Schroedinger's equation expressible In terms of P. Applying this ieasoning to and using the notation = T A * ~L YB d le, it is YA and 'fB shown that If EY - A (2) Ek B r Is independent of the unknown inaccuracies in the element DAB IYA*D YBd YA and fB within tl:~e first order appro;dmation. The theory is then generalized to the re- quirement that concurrence must exist between the time* derivatives of the rnatrix elernent DAB and the matrix elements of time derivatives of operator D. It is shown that a satis- factory value of the matrix element of transition between two lowest states of different Symmetry is obtained when k + e = I conditions, analogous to (2j, are satisfied. When the symmetry of the electron wave functions is considered, none of these conditions are trictly satisfied for Hartree or Hartree - Fock functions. For Hartree-Fock functions s can be neglected. For these casei, discrepancies are small (in some cases) and -Card 2/3  ~71 ACCESSION'NR: AT4041501 ay exponentially to zero at infinity and -arbitrary approximate wave functions which dm possess the required number of nodal,points give satisfactory answers for dipole strengths, provided that they satisfy at least two of the derived conditions. Ills statement is &up- ported by computation of dipole strengths of the 2S ---) 2p, 2s -4 Sp and 2s -4 4p transi- tions of the valence electron of the U atom. "In conclusion, the author exptesses gratitude to Prof. N. D. Sokolo4 for a numbpr of valuable comments and to A. A. Ivanov for per- f forming the numerical cpmputations. Orig. art. has: 1 table and 27 eqLtatiods. ASSOCIATION: Institut khimicheakoy fizild, AN SSSR,* Moscow (Institute of Chemical Physics, AN SSSR) SOBMITTED: 00 ENCL. 00 fUB CODE: GP NO REF BOV; 004 OTHER: 003 '3/3 Car-CP  VETCHINK.IN, S.I. Approximate method for calculating the hyperfine interaction constant. Opt,, i spektr. 18 no.1:10-15 Ja 165, (MIRA 18:4)  ERM  ---- --- ----- -- ON!  Cord 2.12 -IL -7 RF, NETCHINKIN S.I. YdnWzation of the mean square error of the approximate wave function and the caloulation of matrix elezento# Opts i spektr. 15 noOMI-277 S 063. (MIRA IWO  1 0 1 0 v if tr I) w41 to ull trx-~Jzlv sun *van tell .10 Its k1l, NX44 4f afilm at ~.A- IL -9 f -I-- -I --- a9 .0p,03 -law 00 00 is "Mdons with bides &MMI for waflot !:~,bft,vctcwAwn Ond K. M. and ddas. B. Cowructioo details. got :0 .3 Rum. W.M. I)vc. 31, 19V 000 CAP 00 j *0 00 x 00 too 00 =to Poo .200 1=00 zo 0 90,1. 00 ti,. U a AV 00 A% it iz " VP IV (I 'V 611 9 d It 0 K d It0 0 0 0 0 0 0  U S.i. CiH i1T L 0 V Dimwaika pole:tov. JM,,,skva, 1927. 258 p., tables, 6iaprs, WEAC-31. T?-,;,jy, no. 26) Summary in Enelish. Title tr.: Dynamics of flig'rit. QA911. M65 no. 26 SO. Aeronautical Science and AviaLion in the Soviet Union. LiLrary of Congress, l'!55.  114-TCHINKTIV, Metody priblizhennogo i chislennogo integrirovanlya obyknovennykh differentsialInykh uravneniy. Novyye formuly mekhanicheskikh kvadratur. M., Voyenno-vold. jLkad. lm. Zhukovskogo, vyp. 1 (1932), 1-104. ChiBlovyye metody resheniya nelineynykh integrallnykh uravneniy. Trudy ti3agi, vyp. 192. Rukovodstvo po priblizhennym vychisleniyam. Trudy Tsagi, vyp. 210. Novyye formuly 1 tablitsy ellipticheskikh integral ov i funktsiy s prilozhenlyern sokrashch ennykh semiznachnykh logarifmov uise:L I trigo-nometricheskikh velichin. M. Voyennovozd. Akad. 20 (1935), 1-47. Uislennyye motody resheniya nelineynykh integrallnykh uravneniy. L., Trudy vtorogo Vsesoyuzn. Matem. Vezda, T. 2 (1936), 410-4~14- Elementarnyye sposoby chislennogo integrirovaniyo obyknovennykh differentsia-llnykh uravneniy vysshikh iooryadkov i ikh siutem. 'A-urly TsAGI, 273, 11-13 (1936), 13-56. Sbornik stately po ..-hislonnomu integrirovaniyu differentaiallnykh uravneniy. Trudy TsAGI, 309 (1937), 1-51- SO: Mathematics in the USSR, 1917-1947 edited by Kurosh, A.G., Markushevich, A.I., Rashevskiy, P.K. 14oscow-Leniniprad, 1948  VETCHINKIN, VJ-dilIKIR PETROVICH. ,nie. C~-astlj i Ch stIII. 2 1 dop. JzfJ- Dinamika samoleta. ij,.redr, ,Oskva, rosmashnetizdat, 19.1-3. 1100 P- Title tr.: Dyna.,rdes of airplanes. KCF ,rid AvIstiori Jr) the S- i t U i n. Librani of SO, 0ronoutical "doilce, r (,v 0 Concress, 1955.  VETCHWINj IVLADDM-P9TRGVM.----- --- --- --- - - - - Method of simultaneous coual az:L-ruths for determining latitude and time correction. Moskva, Glav. rEd. tekhn.-teoret. lit-ry, 1937. 87 P. (49-55361) QB201.V4  VI' TCHINKIN, VLA.IoINIR Acrodinamika. (Akaderiiia Nauk SS, ?. Welenie matenatic;ieskikh i este--t- vennykh nauk. Matematika J estestvozoarzie v SSSR. Moskva, 1938. P. 121-138) Title tr.: Aerodynamics. CO. Aeronautical Science and.Aviation in the Soviet Union. Library of Congress, 1-;55.  MCHIUKII Visdimir Petrovich; PYSHNOY, V.S., otvatetvannyy rodattor; U.& AIABNIXOY# Y.H., redektor Isdatel'stval SINKINA, Y*,W*# t4-khat- oheskiy redaktor [Selected works] lzbrannys trudy, Moskva,, lzd-vo Akademli nauk SSSR. Volals [Dynamics of aircraft] Dinamika samoleta. 1956. 422 p. (KLVA 9:11) (Aeronautics) (Tatohinkint Vladimir Petrovichs 1888-1950)  TATORMIN, V.P.; KOGAN, 7.K,,# KALAMSKIT, Y.A,, reds; SMOYTSVA, K*JD*g z E-mre&. ENew formulas of numerical quadratures] Novye formuly chislennykh kvadrat,4r. Koskva. Gos.izd-vo tekhniko-teoret,lit-ry# 194. 71 p. (Kin 13:8) (Numerical calculations) (Curves-Rectification and quadrature)  - - --- -IM, M - --- - -- --- ---- - - - --- --- - - - --- - IKIN, V. P. i.'MASr VETCHIN 1~ 9 see ILC  ZEMELIMANP V.B.,- KOGANp A.M.; VETCHINKIN, II.Ye. Method for determining relations batveen the parameters of a revolving furnace. Xhim. prom. no.10:776-7.79 0 t63. (MIRA l7t6)  V 1-- Y\Ul' T " IV, PMROV. B A prof soor, predeedatell; DORC. "ENT. V.I.@ sekretar'; KLYNCHIX# V.I.: *LZANS'eKIY, V.L. professor; BAN'Jii~, A.U.. professor; LWIT. V.S., prof;ssor; ITTROVSKIY, B.V., professor; PZCHATNIKOVA, Z.A.; SOWV'71V, A.Te., professor; KAKHOV, H.I.9 dotonet; TEIANSKIT. N.Y. professor; PIDTKIH, P.M... professor; VISMIEVSKIY, A.A., professor; VETCHINKIH. Yu.m.; GURZVIGH, X!L, professor; OSIPOV, B.K., professor; TIKHON-OVA'- '_ CA.; ZHIKH, A.N.0professor; ZWAVSKIY, B.A,; TTMOVSKIY, S.D., professor. Minutes of the session of the Surgical Society of Moscow and Moscow Province of October 10, 1952. Khirurgiia no.4:92-95 Ap 153. (MLRA 6:6) 1. Xhirargicheskoye obshchestvo MoskY7 i Moskovokoy OblastL (7&opha&nis--Surgery) (Ileophagua--Cancer) (Rectum--Diseases)  SurgiciLl therapy of broucho-divertit.-ula-esuphagoal fistml&. XhlrurgiU, Moskva no.5t3l-34 May 1953. -(cm 25:1) 1. Profesiaor for Oslpov.  A "LIT  StUUTT71,D.- 0 GO! E GG Gc-  WTC~HI~VKA jyq OBUICIOVAp L,K* Qmef,ijative det6rmination 2p6-di-tort-but7l-4-mothylphenoI (ionoll, Zbur. anal. khim. 20 no.8:860..863 165. OURA 18: 10) L Izwtitut khimichesko7 fizild AN SSSRp Moskva*  66 XM-M-AP601~9(k (A) SOURCE CODE: UR/0076/66/040/04/0762/070 AUTHOR: Vetchinkina,_Y. N.; Mavzus, . K.; EmiMuell. N. M ORG: Institute of Cher(lical Physics, Academy of Sciences,�SSR ( stitut khimicheskoy fizild Akadi nauk SSSR) TITLE: The radical mechanism of 2 ~enol conversion In a hydrocarbon medium SOURCE: Zhurnal fizicheskoy khImil, v. 40, no. 4, 1966, 762-766 TOPIC TAGS; phenol, hydrocarbon, reaction meebanism, oxidation Inhibitor ABSTRACT: Phenol dissolved in n-decane was heated at 140C in a stream of nitrogen pre- liminarily purified of oxygen traces, In an attempt to clarify if consumption of the inhibitor without participation of R02 radicals Is related to oxidation of the inhibitor or represents a parallel reaction requiring no oxygen. Results indicate that the consumption of phenol heatk in an oxygen-free hydrocarbon environment Is accompanied by the formation of free radicals, The radical formation rate constant for phenol In n-decane is given as k-9. 6, 10-r3 1/mol, see at 140C. The low efficiency of phenol as an inhibitor of the oxidation of the hydrocarbon discussed is ascribed to an Interaction between the two. Orig. art. has: 2 formulas and 4 figures. SUB CQDE:-07/ SUBW DATE: 05Jul65/ ORIG REF: 094/ OTH RM 003  TERESHCMMKO, I.P.; MOSKVIN, 0.1.; DARAGAN M.V.[Darahan,, M V.1; ANISIMOV, V P.- YARIVOLINSM, M.R.tlArroolyns1kyip M:R. ; BULGAKOV, P:S (Bulbakov, F.S.); VIS, VA.; KASEEFUR A.Y.; VASUMKO, G.L[Vasylenko, H.K.1; KUKOLEV, V.D.[Xuko'liev, V.D.]; SIGOV, S.G.[Sihov,, S.H. deceased]; NAGNUTYAK P.A. [Nahirniak, P.A )- VETCHBOV [Vietch3mov LA I; ZADOROMYY1 V.i.'-_='TSL!K~AYA, LL_.f7.Trosovs'L) L:I.]; SHKIT321A I It. L ; PROSHCHMOV p 0 14. - MOKIYENKO I B. F. [Mokiionko, B F:h GOLOVACH, A:V.[Holovach, A.V.1; IVANIT.13KIYO I:V Ivanytolkyis I.V.]; KOZAK, V.Ye.; BORYAKIN, V.M., red.izd-va; NESTIMKO, 0.0., glav. red.; DAMO, Yu.B., tekhrA. red. National inco?zo of the Ukrainian S.S.R. during the period of the large-scale building of commism) Natsionallr7i dokhod Ukrainstkoi RSK v period rozhornutoho budivnytetva konrunlzmu. Red.kol., O.O.Nesterenko ta inshi. Kyiv, Vyd- vo AN URSR, 1963. 333 P. (MIRA 16-12) 1. AkEAemiya nauk URM, Kiev. Inotytut ekonomiky. (Ukraine-Income)  ;arly-tishchi, Hookovokaya oblastil) Ifficlioncy promoters of the competition of the Office of Municilml Sanitation in Krtishchl. Zhil.-kom. khos. 9 no.4: 18-19 '59. (KIR& 12:7) 1.Nachalluik kontory sanitarnoy ochiatki. (N.rtishchi--Streat cleaning)  VETCHINOV, M. *Secrejp* of achievements. Za besop.dvizh. 5 no.10:2-3 0 162, (MLU 15:12) 1. Instruktor MosWoretokogo rayonnogo komiteta Kn-nistichookoy partii Sovetskogo So'yuzao I (Moscov.-Traffic oafetr)i  WWAlp I*Iep. 231URMV, Study of orientation and crystallization of caprone fibers by infrared microscopy. Report presentAid at the 13th Conference cn Vigh-molecular compounds Moscow, 8-3.1 Oct 62  Medicine Ofthopedic stowitolo&i. Pod obshch. red. B. 11. Bynina Izd. 2. ispr i dop. fwbskva, Medgiz, 1951. Monthi.v List of Russian Accessions, Library of Congress August 1952. Unclassified.  Diatri LIM 6116i ironi fire eirigm. k Vete ka, and r. m--a V, r0 a , I um rud, ,Z' &I 1 11 1C.SkV. Ckem. Cpm m nx. 24, 1(44- i 'rrp"ativemidimalytical p. c( X VeIromCe.1-a,Pr, Nd, Sin. &nd Y w-xnc%uTlrdmtbypa.%s- Ing a soln. of the chlorkles cJ the above chirm1h in BN IICI through a cabimn ccatg. ml. of OAL quaternary aulon exchanger, grAn dhans. rit OX2-0.231 min. The turc earths pAi*i thrmigh the cOut--irl; 1,*cC;, h adtotix-d and crut ~e tva3hed wit with water. To ilct. Fe la mormi;t-- conec-n- ttatc3 fu5t tlic inineral with (it NvajOl. dig"t the an cuess Pl3td. hydroxides vvith water to neutral reswtion, dissolve tile X; 1) t. In 11 N 0j, t r c at tin Mi citi ot w it h N I 1~0 11, wash t he-p pt d. M roxii1cs with hot ivater, filter, dis"ve the ppt. In hot A cined. I[Cl, CCrrjI, t1je si,ln. thrre.I&J, thi! m1urn, wash, , with 8N110, nud wash uut thc retained Will) M - lludli' k . .Ii HO. 16th Zrj wf   OOU11TR1 Czecioslovakia L-2 CiVUEGOR7L Amlytical Chemistry - knalysis of inorganic Substancea ABS. JOUR. : RZKhim., No. 2L i959, 11',o. 8(043 AUTHOR : Kre-el'ka, J.H.; Vete'ska K - Viazacek, J. I ii -S T . ' T IT L :.Sepa-"atim of A" ron fror., Hare-Larth Ller-Ents ORIG. FPUB. Collect. Czec hsl. Chem. Cormuns, 1C.59, 24, No 1, 1c8_202 ABSTRACT :Thp possibility has been ascertained of a * lemcnts (REL) by means separation of Fe from ra.-u-earth e of strongl,,.- barle anionite Ok'iL (anionite particle size 0.52-0.211; mmi; column 1 cu, in dian eter, bolding capacity 20-25 ml). In model-study experiments on investigation of sorption ofTeC13 and chlorides of HLE, depending on the conceritrat.lon of 1; .Cl~ the arilonlte-containinZ column was washcd witb a 'soluttor, of KI (100 nil) of tle surie concen- tration as that of the solutions being analyzed; thc latte: were prepared by dissolving 30 mr, of oxides of 1.41E (obtAlrkd by fracrionation of monazite concentrate) and 40 mg Fe203 in 50 .7,1 hC1 of different concentration. The analyzed CARD: 1/3 C)  COUNTRY Czechoslovakia L-2 ~CATEGORY ADS. JOUR. : RZXhim- , R0- 1959, ioe 86043 AUTHOR !NST6 TITLE ORIG. PUB. : uhrough the anionite ABSTRACT : solutions were passed 4 colmn at a rate of 0.5 ml/minut.0, and filtrate fructions of 5 ml were taken for'analysis. Presence of RLE was &-terminc-6. by precipitation with 2~, solutiun tal-LOH and staining of precipitates with Alizarin 8; for qtvintvitativc estimation the pMcipites were calcined and wEighed. Fe. .,-is dctermined p:hotometrically with KSCN. It wets found that In the interval of HC1 concentraticn. 0.1-c) N, no sorption of Ce, La, 1r, NO-7 LEM, and Y is talking place. Ratio of 1"he eluation constants shows that separation of Fe from RLE !by mcans of arlonite OAL, can be.effected In a medlum of japproxima-.ely 8 DI FC1. Under these conditions Fe is CARD: 2/3  GoIUTLIM,Y~ Czechoslovakia E-2 ABS. JOUIR. RM 3n. , No. 1959, 110. 86043 AUTHOR IMST. T IT LT. ORIG. PUB. ABSTRACT quantitatively retuined by the anionite, while ILE nass in the filtrate. The anion-exchange method is applicable for determination of Fe im monazite concen- trate. In :3,.,cb a case Zr as well as Fe undergoes sorption on anionite, but it does not interfere with det(-rmination of Fe; Th passes in the filtrate together with RLE . On analysis o~ a nuiriber of synthetic samples and of natural minerals good.resuits were obtained. Vladimir Kostka. CARD: 3/3 81  VBTEJSKAS Karel Toxic properties of rare and less current metals. Gbem listy 57 zio.7011-722 n 163. 1, Ustav pro vyzkum rud) Praha,  VEMM s K. Chemical processing of uranium ores. p. 239. RLDY. (Ministeiwtvo butniho prmVelu a rudnych dolu) Praha,, Czechoslovakia, Vol- ?i No- ?p JUIY 1959- YAn" List of Fast European Accessions (EMI) W, Vol. 8, No. 11, November 1959. Unel.  IIEIEJSKA.- Karel- ---- - ---- - --- -- ---- --- - -- -- - --- "Hafnium," Prague, Chemicke Lis , No. 11, Nov 60, p. 1123. Affiliation: Institute for Ore Research) Prw~ue.  VF.TEJSKA,, K. "Rare earth elembnts," P. 474 (chemie, vol. 10, no. 6, June 1958, Praha., Czechoslovakia) Monthly Index of East European Aoceeaione (BRAI) LC, Vol* 7, noo 9, September 1?58  - - - - : - - -- - - -- -- VVMSKL.. X. ___ SeparatIon of tborlum from rare earths by wass of 71 cation exchwWr. Coll Ca Chem 25 io.7:1895-1900 j1 t6o. (EuI 10: 9) 1. Imptitut fur Ersforsebungy Prag. I (Thorium) (Earths.. Rare) (Cations) (ion exchange)  Vt'T9J3KA,, K.; MAZACEEK., J.; KREP21KAp J. "Separation of iron from rare earths" In Garman, p, 198. COLLECTION OF CV;CHOSLOVAK CHEEMICAL COT4UNICATIONS., P11aha, Czech., Vol. 24, No. 1, Jm . 1959. Monthly List of East European Ass-eccions (1-7,EAI), LC, Vol. 8, No, 6, Sept. 59 Unclassified  VETEJSKA, K.; HAMS, V. Determination of lithium in lithium micas using a f1me photometer. P& 487* (Hutnicke Listy, Vol. 11, no. 8, Auguat 1956. Brno, Czechoslovakia) SO: Monthly List of East European Accessions. (EEAL) LC. Vol. 6, No. 6, June 1957. Uncl.  VETEJM, Karol, Soc. "Aare mtalsw by EDrt 1mg.) W. Sebreitero Reviewed by Karel VoteJelmo lady 11 no&6&206 Jo 1463* 1, Ustav pro vyzkum rudo  S/001 /62/000/010/016/059 B,44/Ble6 AUTHORSs PelikAn, Jirij Maz&Sekj'Janp Vetejskaj Karel TITLEt Method of separating gallium from aluminum and zinc by usingi an anion exchanger PERIODICALs Referativnyy zhurnal, Khimiya, no* 18, 19621 124P abstract ISDI55 (Czeohooloyak'patent 97806# December 15# 1960) TEXTs A'simple method is suggested for t~e concentration of Ga and its simultaneous purification from Al and Zn in the processing of bauxites and Zn ores* The method is based on the different sorption of Ga, Al and*Zn chlorides dissolved in HC1 on high-alkaline anionites OAL and L which contain quaternary $. In 7 N HClj Ga is'strongly adsorbed on the anionite and Al. passes into the filtrate: Ga is elutriated from tho anionite by HC1 solution'(< 2 N). In the presence of Zn instead of Al, the separation is effected in 2 N HC1. With such,#n acidity, Zn is ad- sorbed by the anionite and Ca passes into the filtrate. In order to separste Ga from Al the alkaline bauxite extract is neutralized with ECI solution. The separated Ga and Al hydroxides are filtered off, wAshed Card 1/2 Q r  5/08-1/62/000/018/016/059 Method of so arating gallidm... B144/B186 with water,11dissolved in N Hcl, whereupon the solution obtained is passed through a column cofttaining anionite L, which has previously been washed with N H01 solution. Thenthe column is washed with 7 N HCl solu- tion and Galia elutriated'from the anionite by < 2IN HC1 solution. If the initial-bolution contitins Ga, Al, and Zn the b;bparation is done in two stages.!In the first. .stage, Ga together with In is separated from Al as described above. S ,iparation of Ga.from Zn is obtained by flushing the column with 2 N HC19 Ga being washed out and Zn being strongly ad- Sorbed on the anionite. The method suggested enables Ga to be separated from considerable amounts of Al and Zn. [Abstracter's notes Complete translation-3 Card 2/2 L--,  Yqy�~~j promovany chemlk, (So, New trmds in bydromstallury. Rudy 12 no.?/9:328-330 il-4164 (MIRA 1703 1. Institute of Ore Rajearnl~q Frague.  VETEJSKA, Karel, CSc. `1- '' ~. - I I , !I.--. . . . Colloquy on the metallurgy of rare and trace meta.' 9 in the German Democratic RepliblIc. Phudy 12 no.4sl.14-1315 Ap 164.  VETEJSKA Karel promavany chemik., C.Sc. Renearch on dresaing of the skarn magnetite ore from Buiec area. Rudy 10 no.2sSuppl. 7-11 F 162. 1. Ustav pro vpskum rud, Praha. ,  IVETEJSKA, Karel, C.Sc. Contribution to the problem of barite refining; the effect of the remnants of flotation reagents on the leaching of iron. 'Rudy 10 no,7sSupploPrace vyzk ust no,6t4l--I,4 J1 162. 1. Ustav pro vyzkum rud, Praha.  Z/008/60/054/011/001/005 E112/E453 AUTHOR- Vetejvska, Karel TITLE: Hafnium-V PERIODICAL: Chemickeo listy, 1960, Vol-54, No.11, pp.1123-1132 TEXT. This paper is a review and deals with occurence, physical and chemical properties, separation and potential uses of hafnium. Main sources of hafnium are zirconium ores and the ratios of Hf:Zr in different types of rocks are tabulated. In terms of geochemistry hafnium is more common than, for instance, mercury, bismuth or cadmium. Physical properties are listed and atomic weights and percentage contents of eleven isotopes are given. The chemical properties are very similar to those of zirconium, resulting from very similar atomic radii. Great similarity exists also in the arrangement of the valency electrons. The main difficulty in producing pure hafnium is its separation from zirconium. No differential chemical reactions for both these elements are known. Methods used for the separation of zirconium from zirconium ores will also separate simultaneously hafnium. Fractionating processes are then required for the isolation of hafnium and theso are described at some length in the present paper. They are based on Card 1/3  z/oo8/60/054/011/001/005 E112/E453 Hafnium the following principles: a) Fractional crystallization of the double fluorides of hafnium and zirconium. Solubilities in water and N-hydrofluoric acid are tabulated. The solubilities of the oxychlorides of hafnium and zirconium in N-hydrochloric acid are listed. Separation can be also achieved by fractional crystallization of the double oxalates of these elements with potassium or ammonium. b) Fractional precipitation of the phosphates. This is achieved by rapid addition of phosphoric acid to a solution of the sulphates of zirconium and hafnium. After seven repeated operations the hafnium contents can be increased from 13 to 93%. c) Fractional decomposition of some complex compounds of both elements. These methods are based on the fact that some complex coordination compoundslin which hafnium is the central atom are less stable than those with zirconium. The effectiveness of the method is also increased by the fact that the separatod hafnium compounds have lower solubilities than those of zirconium,. d) Fractional distillation of the complex volatile compoluids of the tetrahalides with phosphorous oxychloride; Differences in boiling points of the two elements are 5"C, e) Extraction methods with Card 2/3  Voo8/60/054/011/001/005 E112/E453 Hafnium organic solvents. A list of potential solvents is given. A Czechoslovak method, described at a Symposium for Inorganic Chemistry, Bratislava, 1959, by L.Divig, is based on extraction with methylcyclohexanone containing thlocyanic acid and 10% butyl acetate. An eight step extraction gave a product containing 92% hafnium, and 5% zirconium. f) Separation based on the use of ion-exchange resins. g) Separation basec.on fractional absorptions Methanolic solutions of the chlorides of both elements are absorbed on silica gel colunms and eluted with sulphuric acid. The first eluents are richer in zirconium. Potential uses for hafnium are ,outlined. There are 3 figures (including extraction scherne), 5 tables and 50 references: 32 English, 10 German, 3 Soviet, 2 Czech, 2 French and 1 Italian. ASSOCIATION: 6stav pro vyzkum rud, Praha (Institute for tho Study of Ores, Prague) Card 3/3  .Vrpzp j., nr.; 7yj%,,Yo,vi)r-; MksPAR, z. Huc. ...' W i ~ ~ ~A;-i I I. I Irperionces with IMhogmpbW. Rozh1. chir. 37 no.2:94-97 Yeb 58, 1, 1. ohirurgicka klinlka v Brne, prednosta. profi, Dr. Jo PodIsba. J. T., Brno, Pekarska 53. (IYMMTIG SISTZK, radiograpby technio & diag. value (Cs))  VZTEF, L.; DLCST, Z. ML- National Conference of the Alumina Industi7p Almsfuzito, July 1-1-12, 1958. P-389 YOWSZATI LAPOY. (1-faaar Barysszati es Kohnszati Egyeaulet) DW.Apost, IbmLyary Vol. 13, no.8. Aug. 1958 Monthly L13t Of Fast EuropeRn Accessions (EEAT) 1L., Vol. 8, no.7, July 1959 Uncl.  - - ~i~- ~ o. , , ~~ 7- - 1 -- - . * '. f~ ~ .. : . I , ., -.. 1 1-1 - I.- - - - .- . . - - -- - ---- - -- - - - - - - - - - -- - - -- - - ---- - - VETER. L ZhPKhj 1940s 13v 132'139 L. g. CHRISTEVA,  VETIER, 1. 1. L. A. KHRISTEVA, ZhPKh, 13, 132-9, 1940 f,  VEM, V. V. (last. Physicts, AS USM, in Krasnoyarsk) "The Deteimination Of the Width of the Domain Boundary" work carried out with L. V. Klrenskiy; the methodhad been suggested by G. S. Krinchik. paper presentoA at the AU-Wou wetilag cc Magnetto Structure (it lerromagnetlas June 1958, In IranooMak. Meeting sponscred by Tjxt. of Pbysice,, Acad. Sai. USSI, and Com. for Napetlsm,, bopt Phys-Math Sci, AS MM,  (t h2 5 AP5024553 UR/0070/65/010/005/OGEIA/0692 50.4-538.65 AUTHOR: Chcbotkevtch, L, 10 1 /0- TITLE: Motion of diolocationE, under the influence of SOURCE: KrIstallogi,aftya, V. ~0, no. 5, 1965, 038-692' TOPIC TAGS: crystal dislocaUon, iron, magnettzation, magnetostriction -ABSTRACT: --The motion of dtalocations- in a ferro-magnetic (filamentary iron crystals grown by reducing FeCI2 in hydrogen) was caused by placing the sa m-ple In aImagnetic field. - The dislocations were revealed by etching in a mixture of picric and nitric acid. Fresh disloca- -tions were obtained bydeform:.'ng with the tip of a diamond pyramid. The domain structure was observed by the standardpowder method. Magnetization causes the Motion oJ'dislocations In - their slip plane; this motion may be due both to a direct interaction of the doniatn bondary and dislocation (magnetoclastic Interaction) and to the )nfluence of magnetostriction, I. c., elastic stresses arising In the sample -as a result of repeated magnetization. The effects of these two factore cotild not lie separated, p valuable comments and to 1. P. Kuslinir foe providing the samples of iron whlgker~: I art. has: 3 figures. Card  f  S/139/60/000/004/023/033 E201/E591 AUTHORS: Kiren.skiy, L. and Veter, VOV, TITLE., Investigation of Domain Boundaries in Ferromagnetics PERIODICAL: Izvestiya vyashikh uchebnykh zavedeniy, Fizika, 19609 No.4, pp*183-189 10 TEXT: The magnetooptical Karr effect was used to study domain boundaries in monocrystals of silicon iron containing 3% Si. The possibility of using the Kerr effect in domain-boundary studies was pointed out by G. S. Krinchik (Ref.3). The basis of the method is the rotation of the plane of polarization on reflection of polarized light from a sample magnetized at right- angles to the surface. The coefficient of proportionality between the angle of rotation and the magnetization intensity dependr; on the wwelength of the light and cn -die temperature. The boundary-layer width is found by measuring the change in the light flux productid by rotation of the plane of polarization. The apparatus used in6luded-a-aii6roscooe W11-6, a polarizer and an analyser und a j5hotomultipli6i-FEU-18. The method employed gave the thickness of the domain boundary and its polarity directly, without the use of Card 1/2  5/139/60/000/004/023/033 E201/E591 Investigation of Domain Boundaries in Perromagnatics magnetic powders which distort the boundaries. It was found that the polarity of the domain boundaries in silicon iron with 3% Si was variable and that the boundary layer widths were unstable: for 180* boundaries they ranged from 0.513 to o.08 0. There are 2 figures and 4 referencest I Soviet, I German and 2 English. ASSOCIATION: Institut fiziki Akademii nauk SSSR (Physics Institute, Academy of Sciences, USSR) SUBMITTED: April 9, 1959 .Card 2/2  .- KIRMISKIY, L,V. ;_LXTER, V-V ------ Investigating intardomain boundaries in ferromagnetics. lzv. v7s. ucheb. Sam.; fis. no.4:183-189 160. (HIPA 13:9) 1. Inetitut fiziki Akademii nauk SSSR. (lFerromagnstism)  V. v - PHASE I BOOK MLOITATION SOV/5526 Vsezbyuzrjoye sovenhehanlye po =gnItnoy strukture ferromagnetilrov, Krasnoyarsk, 1958. Magnitnaya struktura ferroiragnetikov; materialy Voesoyu-nogo ya, 10 - 16 Iyunya 1958 g., Krasnoyarsk (14agnetic soveshchani Structum of Ferromagnetic Substances; Materials of the All-Union Confe:7ence on the MaF;netic Structure of Forromagnetic Substances, Held In Krasnvjar3k 10 16 June, 1958) Novonibir,:k, Izd-vo Sibiriskogo, otd. AN SSSR 1960. 249 p. Errata slip Inserted. 1,50U copies printed. SponsorLng Agency; Akademiya nauk 3.33R. Institut fiziki Sibirakoao otdeleniya. Koxisslya po magnatlzmu pri InstItute fiziki metallov OF". Feap. Ed.: L. V. Kirenskly, Doctor of Physical and Kathematical Sciences; Ed.: R. L. Dudnik, Tech. Ed.: A. F. Mazurova. PURPOSE: Vile collection of articles In Intended for researchers in farrcmagnetism and for metal scientists. Card 1/3.1  Magnetic Structure (Cont.) SOV/5526 COVERAGE: The collection contains 38 scientific articles presented at the All-Union Conference on the Hignatic Structure of Ferro- ma&metic Substances, held In Krasnoyarsk in June 1958. The na-- terial contains data on the ragnetle structure of ferrona.-netic materials and on the dynamics of the structure in relation to magnetic field changes, elastic strC33CS, and temperature. Ac- cording to the Forc*aord the study of ferrozagnetic; =aterials had a successful beginning in the Soviet Union In the 1930's, was subsequently discontinued for many years, and was resumed in the 195013. No per3cnalities are mentioned. References accompany individual articles. TABLE OF Wrl MITS: Foreword 3 Shur, Ya. (Insritut fiziki metallov AN SSSR Institute or Physics of Metals, 1,S USSR, Sverdlovsk). On the Magnetic Structure of Forro=gnctio Subutancou 5 Card 2/11  Magnetic Sti%,:cturo (Cont.) S0715~26 Kircnskiy, L, V., and V. V. Voter (Institute of Physics, --Zrnrffo--y-a1~skj. Measuring the Siberian Branch AS USSR, Width of the Boundary Layer Between Domains in Ferro- magnetic Subatances 53 Startseva, L Ye., and Ya. S. Shur (Institute of Phynics of Metals *AS USSR, Sverdlovsk]. 1,11ag-netie, Structure of a Forromagne-tia Material of Residual INiasgnetiZation and Its Change Under the Effect of a Variable Magnetic Field 59 .Kirenskly, L. V., N. 1. Sudakov, and L. 1. 31obodskoy [Inatitut fi:iiki 80 A3 SSSR, pedagogiche:jkiy Institut Institnte of Physics, Siberian Branch AS USSR, Teachers In3,tltute, Krasnoyarsk]. Tc7npcratu.-e Dependence of Hyatere3ls LDs3n3 in Rotating Magnttic Flelda In Iron Silieldo Cry3ta13 61' Sudovtsov, A. I., and Ye. Ye. Semenenico [Flziko- tekhnichlskT7 In-t JL4 UkrSSR Physlcote,~hnlcal Institute AS U1crSSR, Knartkov]. Eff*ect of Domain Structure on the Card 5/11  2,1.0) AU, T 1.10 R S Kirenskiy, L. V. Veter, V. V. TITLE: The Measurement of the Width of the Boundniry 7- ay e the Domnins in Ferromarnetios (Izmorenivv clliiriny sloyn mezltdu domenami v ferramagnetik.stlkh' P12HIODICAL: noklidy Alzademii nauk SSSR, 1959, ',701 1`5~ ';r 'A. Tj.-) 521--,,-~- U SIM) ABSTRACT: The present papor deals with the determination of th-,, viiet*h of' the boundary layer (by me--no of the magneto-optical Kqrr effect) of 180-degreo proximities in monocrystals of fc!rrdsilier)n of 3 -12f Si. rirat, the the,-)ry undlerjy4nv suc- me!asurements is discussed in short. The author3 then the instruments used for theso measuroment3: 1 ) The microscope MBI-6 with"polaroids" and -,-3. special alit which is placed in '.he plane of the field diapbrar,,n. 2:1 The ph+.,>toelectronic multiplier PEU-IFI (shiel(W in n special manner fram the external magnetic field), -.-;h-;ch consists of a condenser of 1-awn capiicity, of a reo-Intor and of a compensating PUlSe-SpOCtrO:3COpC1 37-1 the main which is --.e' of the instrumt~nt. The Ozlicsl Card 1/ 3 scheme of the instrumen'. J-:, :~`%own in a figure. Anoth-az,'  The-Meariuroment of' the Width of the 3oundoxy 7 -1 Layer Between the Domain3 in Ferromagrictics f igt.ra ohowo'the intogrnl-br~-lanca scheme of the system, The next paragraph of the pipor Joals with the carrying out of the exporim-.?nt, that is, with the measurement of,6it rindal &!JOonotna tha %,:,~rtntion of tho light flux in tho re-flootion fron the boundary layer, and inL4 - ilia varietion of the lirlit flux coming from the part of the sample which is riagnetized per:pendiculanrly to its surface. The results of these measuremento per.-:1it the following conclusion: The width of the boundary layer for 180-degrea proximities in monocrystalo of ferrosilicon in not. n stablo quantity. As to -the first (in which the boundaries between the domains run throuz-,h the whole monocrystal), the boundary layer has a b7eadt.'i of 0.1~9, In the same sample, a nolarity of boundaries ~:oljld b,3 observed. The breadth of the boundary layer of th-? sncon~, sample (in which the domain structure had not a i-iEalar shape of the layors) amounted to 0.64~Lt. There are 7, f1t~ure:i aM 7 referenn,.!s, 4 of which are So-,riot. Card 2/3  The I'leasurament of. the Width of the -125- 14,/ Layer Between the Domaine in Ferronirn~tics ASSOCIATIO~T: Institut fiziki AkAdemii nauk SSSR, Fm3noyarsk (In3titutc of Physica of t'iu Loaderay of Scluncc~3 USS~, Krnnnoyarsk) Pla ',-: .3 11 i T 7,M Decenber 29, 1956, by A. V. Shubnikov, Acpdo:Actan S'J BY"ITTIM: july 21, 1958 Carl 3/3  ZIUNSKlYp L#Tjj-MXRq~V*V,- Nmuremout of the width of A ~owdW lay*r In f *rrongutics by mosuil of the Kerr Wguet6optical effects 9hure skops I tsars fig. 33 ACOM9 6 138. (141RA 12o3) 1#01binkoye otdoler4yo AT 6001l lustitut flolkis (Forromanstla POOMuces) (Magnotoopticil)  24(3) SOV/56-35-3-5c:/61 AUTHORS: Kirenskiy, L. V., Veler, T. V. TITLE: The Variation of the Breadth of the Boundary Layer in Ferro- magnetiev by Means of the Mauneto~Optical Kerr-Effect (Izmeneniye shiriny granichnogo sloya v ferromarnatikakh a pomoshchlyu ma.anetoopticheskogo effekta Kerra) PERIODICAL: Zburnal eksperimentallnoy i teoreticheskoy fiziki, 1958, 'to' 35, Hr 3, PP 819-815 (USSR) ABSTRACT: In the present paper the method developed by Krinchik (Ref 2) ic, in principle, employed, which is based upon the applica- tion of the polar magneto-optical Kerr-effect. This permits direct measurement of the breadth of the boundary layer. It ia possible to show that for the mean value of the normal component of the magnetization of th.,4 boundary layer the expression 2J /n applies, where J a denotes the saturation- magnetization of the ferromagnetic domain. The variation of the light current on a boundary layer as a result of the ro- tition of the polarization plane and the variati(in of the light current in the investigated part of the ferromagnetic Card 1/3 domain were measured by means of the photoelectronic multi-  SOV/56-35-3-5!1/61 The Variation of the Breadth of the Boundar7 Layer in Ferromagneties by 'Means of the Magnetb-Optical Kerr-Effect plier ~W- -18. The direct proportionality between the quantities'leads to the relation A 4)/A(D I , ld/S1. Here L4) denotes the variation of the light flux emanating from the boundary layer, AV- vie variation of the li.,-:,ht flux eL-tanatinC from the :Lnvestigated part of the sample (which was normally magnetized up to the value of 2JS/n, I - the length of the ~cundary"!_ayer, d - the breath of the boundary layer, S' - the area of the investigated part of the sample. Thus, d is determined by aomparison of the light fluxes and surface areas. The breadth of the boundary layer was determined for mono- orystale of iron oilicide (3 % Si). Repeated mcusureniento resulted in the value 0,8 4 for this breadth. There are 4 reiferencea, 3 of which are Soviet. ASSOCIATION:, Stbirakoya otdeleniye Akadenii nauk SSSR (Siberian Department of the Academy of Sciencen, USSR),Institut fiziki (Institute of Physics) SUBMITTED; JillY '11, 1958 Card 2/3  L ~.~~6 6 SCU PC OCr2 CC NRs AF6011*10625 E CODE: UR/0104/65AW056V 4/C % Yu. A. (F_ig1=.eer1 AUTHOR: Rozental', A. Y-~.. (Engineer): Veterov, ORG: none J TITLE: Expeerinet-ital runt; of TGV-200 turbogenerators SOURCE: Elektri-.heskiye stantsii, no. 9p 1965P 24-26 TOPIC TAGS: electric pmrer plant, electri-. generator, turbine AWTRACT: TGV-200 turbogenerators produced by the Khartkov f.ao- -torY "Elektrdtyazhmash" Im. V. I. Lenin arehowadays In use at numerous domestic and foreign electric power stations. The paper presents data concernihg the operation of these machines at one of the electric stations of Kharwkovenergo from their In- troduction In 1960 to the present time. Accumulated results shown In the form of tables indicate thatt 1) these turbogene- ,rators are reasonably reliable:and the actual characteristics agree with those on the rating plates; 2) the machines have a favorable distribution of the Journal bearings within the end panels of the generator, a convenient stator suspension on spe- eial springs,: and a convenient placing of the rotor best rings at a single location; -3) the "Elekt:rotyazhmash"_and its research Institute should improve the hydroien seals# study the effeot of ard. 1/2 UMI 621,313,32; L-C(  77777777~7 L 22436-66 ACC NRs AP6013623 -stray-ourrenta on end- portions- of the machinegand provide It ;with an ton excitation system thus Increasing Its reliability; 4) Zaporozhakiy elektroapparatnyy zarod (Zaporog'faotory Car telectrical equipment) should drastically Improve the quality of. -,Its Ionic rectifiers; the "Uralelektrotyazhmash" factory ~should reconsider Its design of the rast anode disconnecting switch until they beaome fully reliable- and 6) the thermal tests of the IIGV-200 turbogenerators give grounds for expeota- --tions that an InoreaueAn excess pressure by 3.5 to~ 5 atm-may 'inorease: their power by 10%# I.e.# the oapaoity oan be inoreased,, to 220 W. Orig. ak has: 3 tables# [J_ S.UB CODE 110 SUBM DATEt none 2/2  L 22112-M ACC NRs AP6012982 SOURCE CODE% UR/0091/65/000/009/0003/0006 AUTHOR: Vet Yu. A. (Engineer); Lazarevt G. Be (Engineer) ORG: none TITIE iIonic isolf-excitation device of th) TM-200 turbogenerator of the Zmiyevokaya hydroolectria power station SOURCE: Energetik, no. 9, 1965v 3-6 TOPIC TAGS: ion source, hydroelectric pmier plant, power generating station, circuit design -ABSTRACT: - - -Ionic -exeltation devIcon (basio-syetems for generator excitation) have been constructed for the 200 W TGV-200 turbo- generators of the Zmiyevskaya hydroelectric power station (GRES), The article presents the 01roult dlagram of the Ionic self-exal- tation device, Its power supply eircult diagramp describes in considerable detail the operation of the device, and reports on the performance of the device during continuous commerolal opera- -The nystems responded satisfaotorily-to various cases-of short-circuit Ing* -They A3 .~efastr need low -oontrol powert- and "0 able f__ In most cases to - supp 1y -,-the -- needed ex6itation boosting during brief short circuitso Orig. art. bast 3 figures. [JPRSJ SUB CODE: 10P 09 SUBM DATE: none Card 1/1- VW; 0  11 vmSHiINI $.I. 2. USSR (600) 4. Moscow - Buildings 7, Construction of high buildings in Moscow. Gig. i Ban. 17, no. 9, 1952. 9. Mojqt)i 1"s X. Russian Accessioag, Library of Congress, Februs. 1553. Unclassified.  1. nm'smifl" 3.1. 2. USSR (600) 4. Buildings-mbscow 7. Construction of high buildings in Koscowo, Gigsi sanej 17, INO-9) 1~1~52 9. Monthly List of Russian Accessions, Library of Congress, Unclassified.  KARDEVAN, Andar, dr.; V-ETFSI, Ferene., dr. Waxy degeneration of akeleta _M"U'scles in partrfdgea. Y-W allatorv lap 19 no.2s63-65 F 164. 1. Mqir of Pathological Anatonyp Univarsity of Veterinary Med'iPIM (Head of Chairt University profesoor fr. Gyula Salyl ,, Buda)est corresponding member, Hungarlan Anademy of Sjelencoa%  HUNGARY KARDEVAN, Jt. and Chair of Pathological Anatomy at the University for Veterinary Sciences [original-language version not Sivenj in Budapest (Head: SALYI, Gy.., Professor). "On the Generalized Aspergillosis in Horses" Budapest, Acta Veterinaria Academiae Scientiarum Hungaricae Vol 16, No 2, 27 Jun 1966, pp 193-205. Abstract: (German article] A detailed report is presented on an outbreak observed in a combine [location not given] during which the horses showed excessive salivation and high fever. The fungus responsible for this out- break was identified as Aspergillus fumigatus. The fodder was found to be contaminated by mould; the weakened state of the horses made them suscep- tible to the effects of Bacterium pyosepticum (viscosum) . The findings were to described in detail. 33 references, including 2 Hungarian, 3 Russian, I Czechoslovak, 12 German, and 15 Western. (Manuscript received 1 Nov 1965).  VE MXHOSLOVAKIA/Optics Photometry. Colorimetry K-12 Abs Jour Ref Zhur Fizikaj No 11 1959) No 2267 Author Tremko J.., Vetesnik M. Inst Title Spectral Sensitivity of the Photoelectric Photomater of the University Observatory at Brno Orig Pub Byal. astron. in-tov chekhoslovakii) 1958p 9) No 3Y 105-107 Abstract Doijeription of results of measurements of the spectral son- sitivity of the electron multiplior and of the photometer, both with filters and without, and a datermination of the effective wavelengths. Card 1/1 93  VETF'sm' M. Frequency of stare; in the vicinity of the sun according to the integral of enerj7. In English. p. 81. BULLETIN OF THE &3TRONOMICAL INSTITUTES OF CZIXEUSLOVAKIA. (Ceskoslovenska akademie ved. Astronomicky ustav) Praha, Czechoslovakia, Vol. 10, no. 3, May 1959 Monthly List of East European Accessions (EUI), LC, Vol. 8, no. 11, Nov. 1959 Uncl.  Monthly Ust of East European Accessions (EEAI), Ir,., Vol. 8, no. 5, May 1959, Unclass.  KLICNAR, Jiri; KOSEK, Frantinek; JATIUSUIA, Sona; VETES-NIKI Pavel Preparation and electric condurtivity of 6-nitroquinaxaline methyl derivatives. Sbor VSChl -2ardubice.no.1:103-110 164. 1. Chair of Organic Chemistry and Chair of Physics of the Higher School of Chemical Technology, Pardubice. Submitted October 19, 1963.  VEMSNIV" V. Economical design of heaters for air-conditionthg.ACquipment opioratinly In p-lacas w1th very heavy he %ting load O~en during the winter season. Wravot tech 7 no. 3,-134-135 164. 1. Strojtzx National Enterprise, Dolni Bousov.  PARFENOVp A,P.,, inzh.; NIFANTIM, A,D,,, inzh.; Yqg;gp V,A. , inzh, ~~Ov $ Wiciont method of pipeline assembly in horizontal and inclined workings. Shakht. stroi. 8 no,8:428 Ag 164. (M-A 17:9) l,, Korkinskoye stroitellao-montazhnoye upravloniye tre3ta Soyuzhsal-hto, spets=ntazh (for Parfenov). 2, Shakhta No.47 tresta Kopeylskukoll (for Nifantlyev$ Veretermikov).,  Uist;r; 42,2c Phidut" d pro mite of bet Ill from clecbOVIO., vskito taw mistddaln. K. Ve, all -RIO -V.on Atudiedthepssibil-: ape) 8, 1 W). at oducing pure Be salts from domestic raw m c it Altrial's couVa. they used the modified method cf C,3paux- ICALWOcki Owitis NaFeOe and melting BcO with ad%of I C&(OH)j, Thed pn, by the liat method takes a ut 14. at IWI, AW a cfest ex.-Css of KxWtOo (sbour 600%): Is neemicy, 7M d4oocopn, by tht 2nd method takes 2~ CA, hn. at ICOOI, ud the same excess of C%(OHN is nemury.. i For tbA extu. of Ba(011 h a great eyxtsa of IISSO, Is to be used. Twel"e, the ]:It MCOW MMS to be ecmgnkally salable.  T EXT g For the analysis of ti-Le halgh-volocity pressing methods for rolds of high strength, accurate iffiane and smooth s:_-rface, tests were 1-.~ade bj utili.GlnS blasting power. The tes-i apparatus, constructed by A. Vetishka, Doienzt, Cand.4- date of Technical Sciencos, sand Shuneyder, Engineer, represented in a figure, 'Lea- -tures a ram head that is activated by the 61.ast of a 12-mm smohelesi; shotgur, cartridge. The motion ol.' the ram head was recorded by Zeiss "Penta.-et" slow-mo- 'Lion cameras, producing 3,000 frames per s-~cond. Th,~ kinetic energy of the im- pact was determiaed for charges of 3, 2.5, ard 1.5 g for four kinds c-fL mixtures. Mixt-are no. 4 has a very high degree of liquidity (90.5%) as comparrd to mixture no. 3 (2.256 liquIdity). The tests covered various relations betweer density, strength, gas-pe~mtrveability and hardness of the samples, and the specific kinetic energy a," pressing and U%e properties of the miyture. Investigation of the be- Card 1/2  Hien-velocity Priessing oT molds by explosiDn A054/A120' UA bavior of the m-Old when .,ontaining the p-attern showed t-at the d_'Lstx4jb-u1Aon Of foree-s in bla-st aow_prass~~on is zimillar to "at of 1.,;io conoventional process. A' thou "P17t* gh the apparatus for blast conmression Is very simple and has a high out it is not yet definitely established to which extent it can be used, neither is its tochnology determilne-.1. However-, so rrucb can be said that the ri-iold ,.-iix used must have a moisture con-~ent below 2 - 31%, a compression strength Of 0-3 0.4 L n kg,,'c,-,.2 and the s:)eci ic power of the ran. 'nead must be about 3 - 10 V, CM T..t, -Pill- d-- V- -- -1-y-d- -or -the -diniensions --o:r the I.-old and pat- Wpac -:pb. - p iferw7a~ 6 til n.te Y eperids tern and their r-31ationship. Simi ar effe-As as o tained with b asting can also be produced by high-speed pnetmiatic pressr-, such as the DUPARAK type. 7nt? '.ests were carried out in cooperation with the D,,partlrent of Foundry lndiastr-i, Brno, CSSR, and the Moskovskiy avtomaticheskiy :'Ljis,,.itut, SSSR (Moscow insti-,ute of Au- tornatics, USSR). There Exe 8 figures and !5 i4bles. Card 2/2  NOUw1wt AUTHOR: Vetioka -A. (Docent; Engineer; Doctor); Setnickay Re (Eng1wer); Roffkam, A (Engims Yr i"r" ORds ff6t's6-7VVT, Brno;. rsetncicka. Hoffumj CKD, Blansko - -.q Y, ~' Ir 7 T TITIEs Checking The wohanical properties of large cast blades of Kaplan turbims SOURM Strojirenstvi, ve no 0 2 .1965 130 143 TOPIC TAGS: turbdne blade, metal cssting,~UAALI property. solid mchaideal property. mechanical ongimering ABSMACTs The mdhmdcal pro, Portia of-.l&rVv-c&st.b1adas for Kaplan turbines can be checked by wasuri the - attenuation of ultrAsorde signals in the casti-M.1 Math& described rev-e--~~ thanical-prop)rt -or the cistiiic-efilFiot jur-those of a sample cut out of a riser; samples from ris3ra do not provide rellable informatim because thare is a-different, crystallization process in then* This work was present* by Dr. Js Rusickas Orig. 4xte hast 10 figures, 6 tables* LIMS SUB COMI 130 21 SUBM DATEs none M10 REFs 003 M RZFt 002  VET i -S K. 0, 24(6) EWE I BOOK EXPWTrATION CZE("ff/;~,3;60 PiYek, Frantigek~ Academician,,,.Aleg Veti9ka- Doctor Engincer; JITi 9karek, Engineer (Pait 1); Karel Cih&-;-EngIneerPMartin ~ernoh,.,)rsky, Doctor; and Dalibor Rulit~ka, Engineer (Part 2) lqauka o, materialu. 11. 1. svazek; 2 s6zek tThe Science of Materials. 1161 11. rart 1 and Part 2) Fraha, Nakladatelstv' CESIMBlovensRe 0ademie VM 1 .1 1959. Part 1, 658 ~p., Part 2,669 p. Errata slip inserted. 4250 copies printed. Sponsoring Agency: desItoslovenag Akudemte Vv"d. techrilckd. Scientific Ed.: Ladislav JenAek., Professor, Engineer, Doctor; Revienrers: Jaroslav Ngnec, Professorp Engineery roctor, Joser Shon, Engineer, Vladimir Hajdovsk~,, Doctor., MilO Roubal, Engireer, Josef Vodzeikek, Fq,-In,2er; Zdenik Miniotr, Engineer, and Pttonin Fingerland; Reap. Ed. LadL~,lrw Hrdina; Tech. Ed.: Jaroslav Hrdb�. PURPOSE: This book is for engineers and technicians in the field o;' mechanical engineeringp specializing in the strength, of materials. This is tho secotA volum of in ovIinuEitA-m~ vork of Card 1/41  z/o56/63/020/003/003/005 APTHOHSj Orlov, G.M., and VatijgIca, T ~T LF, 3 Explosive forming of foundry moulds PERIODICALi Hutnictvi a strojirenstvi. Prehled technick6 a hcispodAi~iik6 literatury, v.20# no.3, 1963, 142, abstract tis 63-1732. (Sl~vcirenstvl, V*100 Ila# lot 1962, 36";-37o) TEXT.- The article describes an explosive forming machine forfoundry-.walds, ratit.5 also the mclds used -in-explosive forming* -The forming mixture *mat have a low hunidity (2 to 3% wator). A high upsetting velocity can be obtained either by usin-g-_- explosive powders or pneumatica-Uy- by -as-to- ave a high impact h fDy-a&park_I"-_ qwLPMOAV-Conxtrut~ted so =--energy, 16 figures. I referent:e. [Abstract*erls uotes (,om.plete translation.] Card 1/1  VFTISKA, Ales 11 Pongibiliti~.,s of improving gray ca5t irgn qualit7 b7 vibration. 316varonjtvi 13 n().4:128-133 AP 165. 1. Ohnir of Foundry of the Higher School of Technology, Brno.  VETISKA, A., doe. imiz. dr.; IT-MICKA, R., Ins.j HOFFMANN, A., Ina. Testing the mechanical properties of Kaplan turbire blades. Stro,firenetvi. 15 no.2:138-143 F 165. 1. TLgher School of Toohnology, Brno (For Votiska). 2. Ceakomoravska- Kolixin-Danak National Enterprine, Blansko (for Satniaka and Hof fmann) .  VETISKA, A. ProW.ex of the education of foundry engineers. Slevarenst7i 11 no.2., 8&8() F 163. -  VETISK&,,,Alos; ljkQASRK,, ;gor ---- .1- The p.roblem of Art castings. Slevarenstvi .11 no.3tlO4-:LOS Mr 163. 1. lyooke uceni technicke., katedr~ alevarenstvi.. Brmo.