SCIENTIFIC ABSTRACT VEKKER, L.M. - VEKMAN, I.N.

. VXMM, L.M. Approach to the problem of will. TOP. Pskikhol. 3 no.2:31-42 JIr-Ap '57. ~ - -,., (XLRA 10:6) 1. Vil'arusekly pedagagichesitty institut. (will)  VEKM, L.M.; LAPEP YU.P. Building a tactile image. Vop. psikhol. 7 no-5:143-153 S-0 161. (NIFiA 15:1) 1. Lepingradskiy universitet (for Vekker). 2. Viltnyusskiy universitet (for Lape). (PERCEPTION)  TEK UR . L.M. (Leningrad) 0~ "Problem of deteminlim in the psychophysiology of the 19th cen- turY"by X.G.IAroshevskii. Reviewed by L.M.Vokker. Vop. paikhol. no.6tl42-147 N-D 162. (MIR& 16:2) (Psyebology, Physiological) (Free will and deteminiAzi) (IArophevokii, M.G.)  VEMR, L.M. (Wingrad) - Comparative anlysis of tangible performance and control operations. Vop.psikhol. 9 no.2217-29 Mr-Ap, 863. (MM 16:4) (Human engineering)  S S 1 C, A ~,D 1 ITLE - C01311) A F, I L I V E2 i_ I I.-I I I n .: a s SOURGE benirigrad. LIT)iversi,.LuL, ll-he*lerllov Lenfngrad, 1964, 109-i19 TO P 1 C A, GS - ,-I, w 1 COn t rO 1 .5 PT'.~, IQK) LO Y c opipc f-.~ T) IiI A BSTRACT , 71~ic~ ior. ol- tl~e hlim.ii~ -,)Prator -.q variouq automated systemis w.-15 Z, i tr,-Iff~c contr. tested and analyzed in Lhe ci,-~ o w E-7,e c ir-le, L i I e un u 1 i;j T,, (4 1, 5 Card 1/2  L 21-36-52-6~ ACCESSION NR: A15UUji6i the investigations point to the P-0stence of two operational control ieveis, se%- sorv and The vi stia IRchern& of the task, in this case train routing, C~ T ii c r i e qr r operat~-ional thinking. Orll~. ASSOCIATION: None S M41 T= : 07Sep64 EN C 0 0 SUB CODE: Ph, GO NO REF SOV: 001 OTHER: 000 Card 212  . VEKKER.1 M.I,'.,- NR4Jff)V5KIT, J . Y~,, ,r)ev--' I -il- I v ca for the d'apilacm-eit cf ma 'In,3 ton'-, M~.tEh'nostroj tell no.405 Ap'64 ( m I at, 1,I tr" )  - -1 __ - ~. i i b ur T C P IC 7, A ~;S ~fevrl"'e -::rp Mgmc!-il hv7_t-nesis Iccp' fey-ri-te -head, electronic test ; " ~n~ ., -   TEI'TM'OTIIKO~ A. Eiec~'ric i Combinatim elec-,ric measurin- ijnstr=-ent for novix; napair ai-~; ;' i*~."!'~-"-t~.'.-tll~~ik I No. 1, 1953- 9. Monthly List of Russian Accessions, Library of Congress, 1 1953, Unclassified.  VZOMKO, A. Where and when the soundheud lens of the projector should be adjusted. Kinomakhanik no.7:29-32 Jl '53. OaU 6.-8) (Moving-picture projectors)  VF4L--22,0, A. F. ffAudibility of Distortions of the Mutual Modulation Type". 3cientific Hescarch ~inephotoi,,ra!-Ylic Institute A report delivered at a con.gerence on Uectro-acoustics held b-- the Acoustic Commission, the Acoustic Institute of the Academy of Sciences USal, and the Kiev Order of Lenin Polytechnic Inst., from 1-5 JulY 3955 in Kiev. SO: Sum 728, 28 Nov 1955.  VEKLENKO,,.A,.f.,.,, kand.tekhn. nauk; RIMSKIY-,,KORSAKOV, A.V., doktor fiz.- matem.nauk, prof.; RUSAKOV, IAj ., kand. fiz.-matem. nauk; FTADUYEV, V.V., doktor tekhn. nauk, prof.; ASPKENAZI, E.L., red.; SHXLYAR, S.Ya., tekhn. red. (International electrotechnical vocabulary] Mezhdunarodnyi elektrotekhnicheskii slovar'. Izd.2. MoBkvu, Glav. red. inostr. nauchno-takhn.slovarei Fizmatgiza. Group 08.[Electro- acoustics] Elektroakuotika. 1963. 140 p. (MIRA 17:2) 1. International Blectrotechnical Commission. 2. Deystvitell- nyy chlen AkaderLii stroitel'stva i arkhitektury SSSR (for Furduyev).  - V=TKO, A.F.; BKMII, 3.G. New types of notion pictures. Teldi.kino i telev. 4 no.6:19~!-27 Jo l6o. '%MM 13:7) 1. Voesoyuznyy nauchno-isslodovatel'skiy kinofotoinatitut. (Motion pictures)  vim" 0 .- -SPASSICIT9 K.S.; KMMLCHNVO A.A. . - New stationary motion-picture projector for the showing of narrow- width films. Trudy NIXrI no-7.-199-207 147. (KIIU nt6) 1, Laboratorlya zvukovosproisvedeniya Hauchno-issledovateliskogo kino-foto-instituta, Moskva@' (Motion-picture projection-Iquipment and supplies)  VXXLENKO, B.A. Joint diffusion of photons and excited atoms. Izv.v7s.ucheb.zav.; fiz. no.2:64-74 160. (MM 13:8) 1. Moskovski7 energetioheekiy institut. (Photons) (Atome)  VEKLENKO, B.A.; STAROSTIN, A.N. Optimal system of basis functions in the theory of collisions between electrons and atoms. Zhu-r. eksp. i teor. fiz. 45 no.2-.263-267 Ag 163. (MIRA 16:9) 1. Moskovskiy energeticheskiy institut. (Gollisions (Nuclear physics))  BIBERMAN, L.M.; VMENKO. B.A. Application of the theory of random processes to radiation transfer phenomena. Zhur. eksp. i teor. fiz. 31 no.2:341- 342 Ag '56. (MMA 9:11) 1. Moskovskiy energeticheakiy institut. (Photons) 11~1  VEKLENKO, B.A. Theory of particle scattering Irf a center of force. Izv.vys.ucheb. zav.;fiz. no.1:10-18 162. (MIRA 15:6) 1. Moskovskiy energeticheskiy institut. (Scattering (Physics)) (Particles (Nuclear physics))  0 VEKM14KO, b.A. On the theory of electron - atom collisicna- Izv- VY8- ucheb. zav.; fiz. no*5:100-107 962. (MIRA 15:12) 1. Moskovskiy energeticheskiy institut. (Collisions (Nuclear physics)) ~w  VEYLLYIIKO, b.A~_;_N0VL)bWUT2JEV, I.V. Single-electron approximation in collision theory. Zhur. ekap. i teor. fiz, 43 no.3;919-926 162. (14IRA 15:10) 1. Moskovski.y energeticheskiy institut. (Electa,ons-Scattering) (Collisions (Nuclear p~fics))  8473-4 S/056/60/039/001/034/041/XX 19/00 B006/BO56 AUTHORS: Biberman, L. M., Veklenko, B. A. TITLE: A Generalized Reciprocity Principle PERIODICAL: Zhurnal eksperimentallnoy i teoreticheskoy fiziki, 1960, Vol. 39, No. 1(7), pp. 88-93 TEXT: The reciprocity principle is fo d to be very useful for the devel- opment of a radiation transfer theorycd the solution of concrete prob- lems in this field. The principle-Fa-srepeatedly been mathematically formulated (Refs-1-6), but such formulation was in all cases incomplete, above all because it vas assumed that the radiation frequency does not change during the transfer process. Already in an earlier paper the authors showed (Ref. 7) that the application of the theory of random processes to the phenomena of the radiation transfer leads to two systems of equation, which correspond to the Kolmogorov-Feller equations. From toe coexistence of both systems of equation, a generalized reciprocity principle may be obtained, and the limits of its applicability may be determined. The oase is investigated, in which the radiation frequency changes during a transfer Card 1/2  04 i -b-1 A Generalized Reciprocity Principle S/056/60/039/001/034/041/XX Boo6/BO56 process. The relations obtained contain the mathematical formulations of other authors as special cases. Some of these cases are discussed, thus the case of pure scattering, of radiation transfer in a scattering and absorbing medium (B. B. Kadomtsev) and of a special case treated by V. V. Sobolev of radiation transfer in a plane-.parallel scattering gas. In order that the generalized reciprocity principle be satisfied it is not necessary that thermodynamic equilibrium exists. If, however.. an equilibrium distribution exists with respect to all energy states, the generalized reciprocity principle is guaranteed for any kind of change.- mechanism of radiation frequency, including transitions between different energy levels. There are 13 references: 9 Soviet and 1 German. ASSOCIATION: Moskovskiy energeticheskiy institut (Moscow Institute of Power Engineering) SUBMITTED: December 24, 1959 Card 2/2  BIBIRMAN, L.H.; VEMAO, B.A. Generalized principle of reciprocity. Zhar. eksp. i teor. fiz. 39 no. 1:8B-93 Jl 160. (KIRA 13:12) 1. Hoskovskiy onergeticheekty institut. (Radia-Aion)  VEKLR,j'KO, B. A. Cand TP-ch SSFA -- (dizzi "Certo-t-'r. of the no.---tt;tiona-r,/ migration. of radiation, ingtoses." Mos, 195-3. 8 pp (Min of Higher Nalu,-tition USSR. Mos Order of Lenin Power Engineering Inst), 150 coAes (KL, 101) -48-  10(6), 100) SOV/56-37-1-26/64 AUTHORS: Biberman, L. If., Veklenko, B. A. TITLE: On Radiation Processes in Front of a Shock Wave (0 radiatsion- nykh protsessakh pered frontom udarnoy volny) PERIODICAL: Zhurnal eksperimentallnoy i teoreticheakoy fiziki, 1959, Vol 37, Nr 10), pp 164-169 (USSR) ABSTRACT: The present paper deals with the absorption of a radiation which causes the excitation of atoms or molecules. The sub- sequent process of unsteady diffusion of the radiation is also considered. It is shown that a wave of excited atoms or molecules is formed in front of the shock wave. The first part of the paper is concerned with the initial equation and its approximate solut:-on. A plane shock wave with the temperature T is assumed to move at the velocity v in the direction of the x-axis. The authors then set up the equation for the distribution of the excited atoms in space and time. They are only interested in the concentration of the atoms excited up to the resonance level, and.they.also consider the poisibility of extinction by kinetic processes. For the concentration n (x,t) of the excited atoms in front of Card 1/3 the shock wave rateer a long equation is written down. The  On Radiation Processes in Front of a Shock Iffave SOV/56-37-1-26/64 solution of this integrodifferontial equation involves great mathematical difficulties, and can hardly be attained in a general form. L. M. Biberman (Ref 3) showed that in integral equations with a kernel indicated here good results are attained by a method of approximation (which is reduced to the introduction of the term of effective life of the excited state of the atom). The corresponding solution is explicitly written downv and discussed in the second part of the paper. If there is no extinction in cold gas in front of the shock wave, a wave of excited atoms is gradually formed with a con- centration equal to Boltzmann's concentration (at the tempera- ture T). This result holds for any velocity v, because in the exciting radiation there is a quantity of photons which corresponds to the I'vings" of the absorption line. The last part deals with the propagation of the shock wave in an atomic gas. In an atomic gas, the interaction of the radiation with the atoms is characterized by the absorption line, the course of which usually de;ends on the superposition of a Doppler effect and a shock- or resonance interaction. The authors then estimate the distribution of the excited atoms in front of the shock wave in argon. A diagram illustrates the concen- Card 2/3 tration of argon atoms in the state 3p5(2 P01/2)4s as a function  On Radiation Processes in Front of a Shook Wave SOV/56-37-1-26/64 of the distance from the wave front. At distances x < 1 cm, the extinction by electrons predominates.. Theme-are.1 fi e, gur . and 7 referencesp 4 of which are Soviet. ASSOCIATION: Moskovskiy energeticheskiy institut (Moscow Power Engineering Institute) SUBMITTED: January 29, 1959 Card 3/3  AUTHOR VekleAko_~~ ~,OV/51-6-2-34/39 TITLE.- On the Problem of Simultaneous Diffusion of Photons and Particles (K voprosu o sovmestnoy diffuzii fotonov i chastits) PERIOUIGAL: Optika i SpektroskoDiya, 1959, Vol 6, Nr 2, pp 263-265 (USSR) ABSTRACT; The author (Ref 1) found earlier the Green's function of the integral equation which described the distribution of radiating atoms in an infinite space. Biberman and Holstein (Refs 2, 3) assumed in their work that the velocity of radiating atoms is equal to zero. On the other hand Fabrikant (Ref 4) assumed that the optical lifetime of the metastable state of atoms is infinite. In actual physical processes the conditions are inte=ediate betwean those assumed by these workers. In order to approach more closely real conditions the autnor discusses simultaneous diffusion of photons and atoms and finds a criterion which makes it possible to detjymino the conditions under which transport of photons or transport of atoms can be neglected. The paper is entirely Ca rd 1/2  SOV61-6-2-3'i/39 On the Problem of Simultaneous Diffte'Lon of Phot-.na and Particles theoretical. AcItnowledgments are made to L.M. Biberman vho directed this work. There are 1 figgare and 5 references, 4 of which are Soviet and 1 English. SUEMTTEDs September 16, 1958 card 2/2  VRKLMM, B-.A. Simultaneous diffusion of photons and particles. Opt. i spektr. 6 no.2:263-265 F '59. (MIRA 12:4) (Photons) (Particles, Alementary) (Diffusion)  24(5) AUTHOR: Veklenko, B. A. SOV/,56-36-1-27/62 TITLE: n of the Diffusion Equation of Resonance Radiation (0 funktsii Grina urayneniya diffuzii rezonansnogo izlucheniya) PERIODICAL: Zhurnal eksperimentallnoy i taoreticheskoy fiziki, 1959, Vol 36, Nr 1, pp 204-211 (USSR) ABSTRACT2 The theory of resonance radiation leads to a Fredholm (Fredgolim) integral equation of the second kind with respect to the ooncentration of the excited atoms. L. M. Biberman ~ef 1) set this equation up for steady problems. The present paper shows the followings on the basis of Biberman'B assumptions , and when investigating the diffusion of radiation in an irfinite homogeneous medium, it is possible for a given problem to determine an analytical expression for Green's (Grin) function f(~4, t). The function f(-Y4, t)dV in this case makes it probable that, at the point of time t, the excited atom will be in the vicinity of point-i~, if at the beginning (t = 0) only one excited atom (at the point-:~ = 0) existed in the space. The integral equation for Green's function Card 1/3 is written down. The second part of the present papar,deals  On the Green Function of the Mlffusior, -,f -2 7/62 Resonance Radiation with the solution of the diffusion equation of radiation. The expression thus found oupplies the complete eolution of the problem for any shape of the spectral line. The first summand ir, this expressioa takes the diffusion part of the solution into account. 'Me diffusion of a monochromatic radiation is in first approximation analogous to the diffusion of particles. In the third and fourfin part the diffusion of photons for the depression-and Dopri-er form respectively of the spectral line are calculated. The most important numerical characteristic:s of photon diffusioxi are (like in the case of all distributions), mathematical expectation and dispersion. Mathematical expectation becomes equal to zero because of the symmetry of the function f(r, t). The root mean square error r2 makes it possible to form a Judgement concerning the mean distance observed by a photon during the time t. The last chapter gives a short repcrt on uteady solutions. The author thanks L. M. Biberman, who supervised this work. There are 8 references, 4 of which are So7iet. Card 2/3  On the Green Function of the Difffusion Equation of BOV56-36-1-27/6-2 Resonance Radiation ASSOCIATION: Moskovskiy energeticheskiy institut (Moscow Power Engineering Institute) SUBMITTEDs June 30, 1958 Card 3/3  le, /v, 56-3-51/59 AUTHOR: Veklenko, B.A. TITLE: On Green's Function of the Equation of the Diffusion of Radia- tion (0 funktsii Crina uraveneniya. diffuzii izlucheniya) (Letter to the Editor) PERIODICAL: Zhurnal Eksperim. i Teoret. Fiziki, 1957, Vol. 33, Nr 3 (9), Pp. 817 - 819 (USSR) ABSTRACT: L.M. Bibermann (Zhurnal Eksperim. i Teoret. Fiziki, 1947, Vol- 17, pp. 416) proposed a theory of the diffusion of resonance radiation which takes into account the possible modification of the frequency of the photon at each action of radiation. It is here presumed that the free time of flight of the photon is small compared to the life of the excited state. The present paper now shows the following: Retaining the just mentioned assumptions, an analytical expression for Green's function f(_Y~`, t) for the given problem can be obtained when investigating thd diffus-.ion of the radiation in an infinite medium. The func tion f(r, t) dV here represents the probability that the atom at the point of time t stays in the neighborhood of point 1. f(?, t) - f(r, t) is true for a homogeneous medium, where r de- Card 1/2' notes the modulus of the vector 73. An equation is given for the  56-3-51/50, On Green's Function of the Equation of the Diffus ion of Radiation required Green's function. This equation is then transformed and solved by means of a Fourier transformation. The final re- sult for f(r, t) thus obtained is written down. This expression has to be numerically exploited,but an asymptotic expression for f(r, t) is easily obtained. In this case the diffusion of the radiation in first approximation is analogous to the dif- fusion of the particles. As a further example the case impor- tant for spectroscopy of the form of dispersion of the ectral lines is given: k k0-2-2---- 'k ko -);I- 1 + ty - -.a, ) / ~- Also the corresponding asymptotic expression is written down. There are 4 references, 2 of which are Slavic. ASSOCIATIONt Mosco"I Institute of' Energet,ics (Moakovskiy energeticheakiy inattut) SUBMITTEDt June 20, 1957 AVAILAUNi hibri%VY ot, QongVE111fj Card 2/2  24(4), 24t3) SOV/51-6-5-26/34 AUTHOR- Veklenko, BA. TITLE% On the Theory of the Resonance Emission by a Gaseous Discharl~-,o (K teoril rezonananogo iz11;choniya gazovogo -,-izryada) a FEM 00 10 AL Optika i Spektrosicopiya, 19,59, Vol 6, Nr 5, po 70.5-707 (TJ 3 SIR A B S T RA C TThe theory of the resonance emission by a gaseous discharge IEads to an integral expression for the distribution of the excited-itom donsity na(r); this expression J-s given by Eq (1) where Ya(r) = na(r)/nO, no is the excited-atom density under themodynaLmic equilibrium conditions V is the photon frequency, 6. and kv give the form of the amission and absorption lines. The is given by /5(r) = ton,(r) , where ne(r) is the electron density ( a 11axwellian velocity distribution is assumed for electrons) , t is the mean lifetime of the excited states of the atoms and 6 is the probability of a damDing collision, calculated per each excited atom per unit time. Eq (1) was given by Biber2tan in 1947 (Ref 1). Until now its solution was obtained by numerical nothods. The present note shows that it is possible to obtain tho soi-ation of Biberman's equation by finding the extremal functional for 1.q (111 . Su.-h a functional has alread,dr bean used by '1,arsliaic and Su Shu-Having k`efs 4 and 5) - The author apgliad his method of solving Eq (1) to a Sasecus Card 1/2  ,:.OV51-6-5-28/34 On the Theory of the Resonance Emission by a Gaseous Discharge discharge between two parallel planes a distance L apart tit was assumed that broadening of spectral lines Is due to the Doppler effect) He found that his value of t (the mean time necessary for photons emitted in a volume V to reach the boundaries of this volume) is identical with the effective excited-state lifetime deduced by Biberman (Ref 6). If A(O) -W 0. then the expression for ~ may be given in the form of Bq (7) 'Which, for e(x) = 1 - x2' becomes identical with the expression obtained by liolstain (Ref 3). Urhe paper is entirely theoretical.] Acknowledgment is made to L.M. Biborman for his advice. There are 6 references, 2 of 'Whicn are Soviet and 4 English. SUBMI,ITSD: December 31, 1958 Card 2/2  VEKLMM, B.A- Green's function for the diffusion equation of the resonance radi- ation (with summary in Tinglish]. Zhur.eksp. i teor-fiz- 36 no.I: 2o4-211 da, '59- (MIRA 12:2) 1. Mookovskiy energetlcheskl~y institut. (Potential. Theory of) (Radiation)  Green's functions used in equations describing the diffusion of radiation. Zhur. eksp. I teor. fiz. 33 no.3:817-819 5 157. (KUU 10:11) 1, Moskovskly energeticheskiy institut. (Photons)   s/i39/62/000/OO5/Oo8/ol5 E032/F,314 AUTHOR: Veklenko, B.A. TITLE: On the theory of electron-atom collisions PERIODICAL: Izvestiya vysshikh uchebnykh.zavedeniv, Fizika, no- 5, 1962, 100 - 107 TEXT: It is noted that the self-consistent field method le6ding to the Hartree-Fock equations has not b-een as widely used in the theory of electron-atom scattering as in bound-state problems. This is due to the fact that there has been no successful attempt at taking into account the effect or the electron on the atom within the framework of the Hartree-Fock equations. It is shown in the present paper that this difficulty'is not of a fundamental nature and may be obviated by suitable generalization of the - 5elf-consistent field method. In order to simplify the analysis, the discussion is confined to the case of elastic scattering of a .blow electron by an N-electron atom. A variational procedure is described whereby polarization of the target by the scattered electron is taken into account within the framework of the Hartree-Fock method. Card 1/2  S/139/62/000/005/Oo8/015 On the theory of .... E032/E314 ASSOCIATION: Moskovskiy energeticheskiy institut . I (Moscow Power-engineering Institute) SUBMIT*T ED: March 10, 1961 1 ~ Card 2/2  '1/058/60/(>00/006/038/040 AO05/A0O1 Translation from: Referativnyy zhurnal, Fizika, 1960, No. 6, P. 36o, # 15:547 AUTHORS: Biberman, L.M., Veklenko, B.A. TFj'U: Radiation Diffusion in the Discharge of Cylindric Configuration PERIOD.TCAL: Fiz. sb. L'vovsk. un-t, 1958, No. 4, (9), pp. 99-102 TEXT- The Biberman theory developed earlier (Zh. eksperim. i teor. fiz., 1947, Vol. 17, # 416), which takes into account the variation in the photon fre- quency, is applied to the calculation of the diffusion of radiation from the dis- charge of cylindric configuration, which is of considerable practical significance. The equation obtained Is solved by the Bogolyubov method. Besides this solution, the solution is considered which was obtained by the more approximate method propos ed by Biberman (Dokl. AN SSSR, 1948, Vol. 59, p. 659). The discrepancy between the computational values and the values obtained experimentally lies withlln the limits of the experimental accuracy. ASSOCIATION: Mosk. energetich. in-t (Moscow Power Engineering Institute) K.S. Vul'fson Trarslator's note: This is the full translation of the original Russian abstract. Card 1/1  (l)/f3DS/EEC(b)_2/ES(v)-2 AFFTC/APDASD-3/AFW;/SP .1-15938 EWT ka:--- :W3MM7 --- k F'. ON AUTHCR: Vekienko. B. A.; Starostin, A. N. 7 j a an TITIS ' Cptimal system of bazi a functions in the theory of collision b twe electrons and atoms SOLRCE: Zhur. eksper. i teoret. fiz., V,.45, no. 2, 1963, 260-267 I.TCPIC TAG3: electron atom collision-,, solution expansion., optimal basis 1runati on-, inelastic process A33TRACT: It is shown that the solution obtained for the integro-difforential collision equations by expanding the syotem of integgro-dif fereatLa equations into a set of cigenfunctions of the fiiamiltonian of t1w unrarturbod atoa is not Opt:bnal ,ence of the series. A systea of equalions from, thB point of view of rapid convarg is obtained def ining an optimal set of basis functions for arbitrai-I values of the electron enerZ7 smaller than the ionization potential of the atom. iLU tha :A possible inelastic processes are taken into account. Specific phase shift cal- culations are made for the elastic scattering of an ele c-;'jron of low onermr by a !,hydrogen atm, with the extension to any other atom entailing no principal dif- _lCard- _l/  il,1693".3 ~ACMSIONI IM: AP3005277 Bibernm md G. E. liculties. 30 consider it our pLe as ant duty to thank L, L ;Nornm for a discusdon of the re3UltS cxf the work." Orig. art. has-20 fonculas and 1 able. ASSOCIA'd 011; 14.oskovsldy onorgeticheskiy institut (Moscm Power Institute) SUMITTED: 25v'an63 DATE XZ: 06SOP63 ENCL: 00 ISUB CCDzE:- PH NO Ra 501: 003 CTLMR: 013  B/056j62/043/003/028/063 B102/B104 AUT!iqRS:. Vekl6nlo, B. A., ITovobrantsev, 1. V. TITLE:,~ Single-electron approximation in collision theory ;Li(IOD 1, 11 Z hu r n1eksperi'entallnoy i teoreticheakoy.fiziki, V. 43, ~no. 3(g), 1 1962,M919-926 ince 'the aingle-electron approximation is of no value in Varia- Ttiona alculations many authors have abandoned it (Pr*oc. Roy. Soo. A205, 485, 19 1; A241, 522,1957; Phys. Rev. 108, 7.16, 1957; 119, 1283, 1960). Tile pre 'ent authors now prove its applicability for studying electron - 9 ~at dtom co lioions and show that this approximation can be of great use in 0 calcul-ations of electron scattering from many-electron atoms when the wave funcliori-of the sys~tem depends. on many variables. This is demonstrated in the example of an infinitely slow electron colliding with'an N-electronic atom. I~xchange and polarization effects are taken into account. The equation-obtained for the energy of the system agrees with the classical Hartree,-Fock equation for bound electrons. As a concrete problem, the scatt ri L, og a zero-energy electron from a hydrogen atom is calculated; Ca4d ~/2~  B/056/62/043/003/028/063 Single-electron approximation in ... B102/B104 ASSOCIATION: Moskovskiy energeticheskiy institut (Moscow Institute of Power Engineering) SUBMITTED: March 15, 1962 21/2  A 17'~" 10 R T P" LE s/159/62/000/001/002/032 E032/Eii4 Vekleiiko. B.A. On the theory of scatteving of particles by a centre of force PI-AllUDICAL: jzvestiya Vys.-d-iii0i 11chebliY101 zavederliY' Fizika, no. 1, 196'.,, lo-18 TEXT: It is pointed out that the problem of the scattering of slow particles by a spherical symmetric centre of force cannot be solved in a closed form. Existing analytical methods can only be used to determine the partial-.wave phase shifts and do not give the wave functions. In practice such methods lead to considerable computational difficulties because the wave function for the scattered particles must be found by numerical integration of tha Schroedinger equation, i.e. a second order differential equation having an oscillatory solution. In the present paper the author introduces auxilliary functions Tle(r) (1e = 0, 1,-) whIch sat-isfy first order differential equations and can be used to obtain the solution of the Schroedinger Card 1/2  On the theory of scattering of ... S/139/62/000/001/002/032 E032/E114 equation in an explicit form. For these functions become identical with the corrospozidiny,partial-wave phase shifts. The final differential equation for ~f(r) is of the form d 2iTj? (r d I p (kr) + lie y (kr) e log k (5-5) 2 where ~eofand u,uare certain functions which can be expressed- in terms the s tions of the radial equation u? (r) + k2 (r) + 1) ue(r) = 0 (1.6) r 2 1 ASSOCIATION: ~Joskovskiy energeticheskiy institut (Moscow Power Engineering Institute) SUBM11TTED: December 12, 1960 Card 2/2  ACCESSION NR: AT4o42291 S/OOOO/63/OO3/OOO/Oi37/OI52 AUTHOR: Bushman, A. K.; Veklenko, 1. A.; Klyavin', Ya. Ya.; Llyel'peter, Ya. Yat TITLE: Design development of electromagnetic induction pumps at the Physics Institute of the Academy of Sciences of the Latvian SSR SOURCE: Soveshchanlye po teoretlcheskoy I prikladnoy magnitnoy gidrodinamike. 3d Riga. 1962, Voprosy* magnitnoy gidrodinamiki (Problems in magnetic hydrodynamics); doklady* soveshchaniya, v. 3. Riga, lzd-vo AN LatSSR, 1963, 137-152 TOPIC TAGS: hydromagnetics, electromagnetic induction PUMP, cylindrical induction pump, spiral induction pump, straight line purip, liquid metal pump, ifIdUCtiOn PUMP de5ign, induction PUMP C001ill~j SY5Lcm, flow channcl insulaLlon, flo-vi channel con- figuration, maqneLic circuit design, pump IN-1, pump *M-11, pump IN-8., pullip IN-9, PUMP IN-10, PUITI~-) IN-11, pump IN-14, pump SiN-), pump SIN'-3 a A35TRACT: The report presents a brief survey Of e) ItUmber of designs developed at the Institut fiziki AN Latviyskoy SSR (Physics Institute of the Latvian Academy of Sciences) in recent years; specificiations and performance characteristics are tabulated. The designs included straight line, spiral and cylindrical electro- magnetic induction pumps designed for the transfer of Na, 119, NaK, Pb and InCa In the liquid state, operating at temperatures of 50 (Hg) to 650C (Na) and line fre- I'Card  ACCESSION NR: AT4042291 quencies of 50 cycles/sec., and employing liquid or natural convection cooling systems. General discussion topics include the preselection of basic design charao- teristics in relation to the overriding operational requirements, the configuration and construction materials of channels, methods of mounting magnetic circuits, and fhe selection of cooling systems and heat insulating materials for the flow chan- nel. Orig. art. has: 10 figures and 4 tables. ASSOCIATION: Institut fiziki AN Latviyskoy SSR (Physics Institute, AN Latvian SSR) SUBMI.*-,ED:?- o4Dec63 ENCL: 00 SUB CODE: ME NO REF SOV: 002 OTHER: 001 Card 2/2  L 4 37 8 - 6 6 /!M/ZWP(k) TjP~c ACC NRs Ap603o635 SOURCE CODE: UR/0413/66/000/oi6/ol38/0138 JD1'e11d1JG1MVDJ INVENTOR: -Katunin, V. M.; Veklenko 1. A. ORG: none TITLE: Linear induction pump for trans1brring liquid metals. Class 59, No. 185209. SOURCE: Izabreteniya,'promjshlennyye obraztsy, tovarnyye znaki, no. 16, 1966, 138 TOPIC TAGS: induction pump, liquid metal transfer, liquid metal pumping,liquid metal pump , 4./4)0)0 t7-)V_r.9A- ABSTRACT: This Author Certificate introduces an induction jeump for liquid metals which includes conduit and inductors. To use the pump as a dosing device, it is designed as free-floating with inductors enclosed in an air-tight jacket, which are placed in such a way that the pump center of gravity is below the center of the displaced volume.- (ND] SUB CODE: 13/ SUBM DATE: oBju163/ ATD PRESS: 5076 Card 1/1 '01 UDC: 621.689-837:669-154  EW Boris Alelrsa-udrov ck, kand.tek~tn.nauk; MILYLITIN, Aleksey Areenlye- vich, kand.tekhn.nauk; MARKHR, Venda FKlmundovna, in-zh.; SIDOROVA, Yelens Konstantinovna, kand.tekhn.nauk; KRAVCE3NKO, S.F., inzh., retsenzent; SOLNTS&VA, N.V., inzh., spetared.; PRITYKINA, L.A., red.; KISINA, Te.I.. takhn.red. [Control in industrial chemistry and accounting in potato starch and airup production] Tekhnokhimicheakii kontroll i uchet karto- felekrakhmlo-patochnogo proizvodstva. Moskva, Pishchepromizdat, 196o. 245 p. (MIRA 13:11) (Starch industry) (Production control)  USSR/Cultivated Plants. Ornamental. L-9 Abs Jour : Ref Zhur - Biologiya, No 16, 25 AuFust 1957, 69470 Author zVeklenko-Dudik, N.M. Title :Cultivation of Chrysanthemums. Orig Pub :Sad i oForod, 1956, No P, 72-73. Abstract gAn experiment of the botanical gardens of the Academy of Sciences Ukrainian SSR (Kiev), which has a collection of more than 50 varieties of open ground chrysanthemums, and methods for their reproduction are described, by grafts, by plant division and by seeds. Card 1/1  VSKLENKO, N.M. History of chrysanthemum cultivation. Trudy Bot.eada AN URSE 3;141-145 '55. (Chrysanthemums) WaL 10:8)  VEKLEUNKOI V. Moving-Picture Frojectors Valuable textbook. Kinomekhanik No. 2, 1953. - Unclassified. Yonthly List of Rusalan-Acc2asions, Library of Congress, J-u-U 1953.  TSUYXXIMAN, S.I.; VEKLENKO, V.D. Semiautomatic equiMent for feeding the molding mixture to the flasks. Lit. proizv. no.12:32 D 161. (MIRA 14:12) (Molding (Founding)) (Feed mechanisms)  GROBOV, A.G..podpolkovnik administrativnoy sluzhby; IGNATOVIGH, Y.O.,kapitan meditsinskoy sluzhby; ---r-TQ7Q -&aw%Mgjavnyy starshina. Using the boiler of an automatic shower installation for making DDT and benzene hexachloride emulsions. Voen-med. zhur. no.1:89-90 ja 156 (MLRA 10:5) (OT(INSECTICIDE)) (B:MZM HYJACHLORIDE)  'Ll,L7' - -3ROB10,V, A. G. ENKO, Y-U. T., IGNiAT-OVI"i-, 1. 0. and The Use of a Truck Shower Boiler Installation for the Preparation of DDT and Hexachlorane Emulsion. VOYE1VO-MEDITSIN,%1Y ZHURNAL No. 1. January 1956 pp 89  VMICH, M.F, ......... Now datn on the ndneral corposition of loess soils of the second terraem of the mlain of several rivers in the western Ukrainso' Dop"AN UM no,3:171-1731054; (MLU 8:4) 1. Institut geologichnikh nauk AN tM. Predstavleno deygtvitell- nym chlenom Akademii nauk USSR V.G.Bondarchuk-or,. (Ukraine-Loess)  VMIGH,K.F.; RADZIYBVSIKIT.V.I.; ROKCDAN(NA,A.P. On some so-called terminal moraines in Zhitomir Province. Dop. AN URSR no-3:283-286 155 (KLRA 8:11) 1. Inatitut geologichnikh nauk Andemit notuk URSH. Prodatsiviv diyoni.v chlen Akademii nauk UM Y.O.Bondarchuk (Zhitomir Province--Koraines)  VEKLICH, M.F.; ROMODANOVA, A.P. Now data on the pre-Cretaceous and Cretaceous deposits in Zhitomir Province. Dop.AH URSR no.4:394-396 155. (NLRA 9:2) l.Inatitat geologichnikh nank AN URSR. Predstaviv diyeniy chlen AN URSR V.Q.Bondarchuk. (Zhitomir Province--Geology, Stratigraphic)  YRUIGH, M.F. ~ " 1 On the water-glacier valleys of the Roo River basin. Dop. AN URSR no.5: 494-499 155. (MLRA 9:3) 1. Institut geologichnikh nauk AN IMSR. Predataviv diyoniy chlon AN URSR V.G. Bondarchuk. (Roo Valloy--Goology, Structural)  VZUICH, M.P. Geomorpholeg7 of the valleys of the RW River system. Dop. UN URSR no.4:380-383 156. (KUU 9: 12 ) 1e Institut goologichnikh nauk Akademii nauk URSR. Frodstavlano WoRdemikom Akademii nauk USSR V,G. Bondarchukon. (Real Valler4GOolegy, Structural)  VEEMIGIT", Mj,;, KONDNDV, Yu,V. ~'-,,,;~~,..~'I:y .~ -0, Characteristics of alluvial deposit-gabbrold rocks of the Novo-Mirgorod massif. Dop. AN URSR no-5:485-488 156. (MLEA 10:2) 1. Institut geologichnikh nauk Akademii muk UM. Predstavleno akademikom Akademii nauk USSR V.G. Bondarchukom. (Ukraine--Alluvium)  VEKLICH, N.Y. --1_1 . I....-ii~id:w6ik of the department of geomorphology and geotectonics of the Institute of Geological Sciences of the Academy of Science f (MA 139 the Ukrainian S.S.R. Geol.zhur. 16 no.1:92-94 '56. 9 ) (Ukraine--Geology)  USSR / Soil Science. Soil Genesis and Geography. Abs lour: Ref Zhur-Bicl., Nj 2, 1959, 6026. Author Veklich, Inst :-'! itute-of'Ge'61ogical Sciences, Academy of Sciences Ukrainian SSR. Title i Loess Rocks in the Eastern Part of Pravober- ezhna a Elevation fThe Right Bank of the Dnepr River Orig Pubi Tr. In-ta geol. nauk AN USSR, Ser. geomorfol. i chetvertich chetvertichn. geol., 1957, vyp. 1, 46-58. Abstract: Within the limits of Pravoberezhlye ff-he land along the right ban:j of the Dnepr River, the glacial and near-glacial regions are disting- uished in the loess rcck distributed in super- morainic and submorainic deposits. The submor- Card 1/2  VIKLIGH, M.Y. Age of socondar7 kaolins in the central part of Zhitomir Proviwe. [with sunuvary in English]. Dop. AN URSR DO-1:55-57 '57. (MIRL 10:4) lo Institut geologiohnIkh nauk AN URsR. predst&vlv Rkademik AN UIRSR Ve G. Bondarcht*. (ZhItomir FrovInae-Kaolin)  VEKLICH, M.F. -, KONOMV, Yu.V. lime-nlte placars in the vicinity, of the Koroun-Sovomirgorodsiq Plutontan. Dop. All UM no.2:169-171 '57. (MLRA 10-5) 1. Institut geologichnikh nauk AN URSR. Predstaviv akademik AN URSR V.G. Bondarchuk. (Novomirgorod--Geolog7, Stratigraphic)  F V F 1UTHOR i Voklycht M.F. 21-4-18/24 TITLE: Genetic Type@ and Stratigraphy of Ilmenite Placers in the Re- gion of the Volynak Gabbro-Labradorits Massif (Henet'ichni typy ta stratyhrafiya rossypyshch illmenitu rayonu Volynalkoho habro- labradorytovoho masyvu). PERIODICALt Dopovidi Akademii Nauk Ukrainalkoi RSR, 1957, #4, PP 391-393 (USSR) ABSTRACTt The ilmenite placers in the region of the Volynak gabbro- labradorite massif are of different age and vary genetically. They are divided into: 1. Continentalt a. alluvial Upper Jurassic - Lower Cretaceous, Early Quaternary# Middle Quaternary and Moderal b. deluvial and alluvial-deluvial Upper Jurassic - Lower Cretaceousl C. fluvio-glacial Middle Quaternaryl d. continental Tertiary. Card 1/2 2. Marine Upper Cretaceous.  21-4-18/24 TITLEs Genetic Types and Stratigraphy of Ilm*nite Placers in the Re- gion of the Volynek Gabbro-Labradorits Massif (Henetichni typy ta stratyhrafiya rozeypyshch illmenitu rayonu Volyns1koho habro-labradorytovoho masyvu). There are 4 Slavic references INSTITUTIONi Institute of Geological Sciences of the Ukrainian Academy of Sciences. PRESENTED BYtBondarchuk, V.H., Member of the Ukrainian Academy of Sciences SUBMITTED& 31 October 1956 AVAILABLE: At the Library of Congress Card 2/2  AUTHOR: Vek/lich (Veklych), M.F. 21-6-13/22 TITLE: New Data On Quaternary Mollusks from a Moraine of the Dne,-r Glacier Tongue (Novyye dannyye o chetvertichnykh mollyuskakh iz moreny Dneprovskogo lednikovogo yazyka) PERIODICAL: Dopovidi Akademii Nauk Ukrainalkoi RSR, 1957, No 6, PP 587- 590 (USSR) ABSTRACT: Twenty five species and varieties of Quaternary mollusks were collected and identified in a moraine of the Dnepr glacier tongue. Land species prevail in the moraine of the Dnepr high- land, -while freshwater species prevail in the Dnepr valley. By their compo8itior~ the latter are akin to the mollusks from the submoraine sediments of these regions. No malacostracan fauna remnants have been discovered either in the moraine or in the underlying sediments of the Poleslye lowland. It is most probable that mollusk shells found their way into the moraine in the same manner as the coarsely clastic material of hard rocks, that is, they were captured by the ice together with the fauna-bearing sediments which underlay the glaoial blanket. 0830"0* The article contains 1 table and 9 Slavic reverences. J_X~. jyz-oz. 14~5 61wlir  VEKLICH, M.F. [Veklych, M.F.1; DYADCHENKO, M.G. [Diadchenk;, M.H.]; ---TAXMT. P.K. [Zamoryi, P.K.1; ROVIODANOVA, A.P.; KHATUIRSEVA, A.Ya. [Khatuntseva, A.I.A.17 Principal characteristics of the geology of Ukrainian placers. Geol. zhur. 17 no.3-40-47 157. (MIRA 11:2) (Ukraine--Ore deposits)  . -4aAsdarovich-14eklych, M.F.1; qOKOLOVSUT, I.L. [Sokolovalkvi, VMMIGII,,9WQ ~ I'L.1, kand.geologo-mineralog.nauk, red.; SIPT 'KAN, I.F., red.; SiVAOMMO, Te.K.ISivajohenko, tekhn.red. [quaternary sediments along the western shore of the middle Daieper] Chatvertynni vidklhdy pravobarezhzhin seredn'oho DnilJra. Kyiv, Vyd-vo Akad.nim* URSR, 1958. 197 p. (MIRA 12:2) (Dnieper Valley--Geology, Stratigraphic)  VEKLICII,_jj4kqimjJ,d orqv ic-h-, F.1; SOKOLOVSKIY, 1.L. [Sokolovalkyl, ~~Jja . _~~qklych, M 'MAN, I.F.,red.lzd-va; I.L.], geol.-mineral.nauk,otv.red.; SHTUL SIVACH&M, Ye.K. [Sivachenko, IE.K.I,teldin.red. ght bank of the middle Dnieper] [(quaternary sediments in the rip Chetvertynni vidklady pravoberezhzhia seredn'oho Dn4~pra. Kyiv. Vyd-vo AN MR- 1956. 197 P. (Akademlia nauk MR. Kiev. Instytut p,eologichnykh nauk. Trudy. Seriia geomorfologii i chetvertichnoi geologii, no-3) (MIRA 12:5) (Dnieper Valley--Sediments (Geology))  VECLICH, M.F. Eveklych, 14.1p.] !--`TCwOYZi"W_ on the mollusks in Zhitomir loess. Geol.zhur. 18 no-3:99-103 ! 58. (Zhitomir District--Mollusks) (ICRA 11;11)  AUTHORS: 3ondarchuk. V.G., Academician, AS UkrSS.-LZ;. ic 1 _!~.F..- Romodanoval) A.-.,::.; and So1,-.olov-'.-iy, 1. L. E TITLE: Georaornhologica-1 lq:-:~7,ionalizatio- of' th, U'.:- and L'oldavian SSR PERIODICAL: Dopovidi Akademi.i- nauk Ukrainslkoi 3 Z ) I Or--) IT S 406-411 (US R) A-BSTRACT: The inadequacies and reiati-~e obsolescence of avail- able gcomorplliolo:~-ical re r-ional -J.:at -Lon schcr.-,os of LD small scales of t1lo two republ]Los named in '.hc compiled by P.A. Tutkovs -1 -4y 1952). B.L. L4chl-o-,- (192-0), M.I. Dmitriyev (10,36), D,1.7, Sobolev B.F. Dobrynin (1946), described in "GeomerlpholoGic.al Zer tion USSR" (1047) an,7! of arse -cales com- I ,ionaliza iled by V.G. Bondarchuk (1949) and S.S. -jobolev M79), induced the authors to compile a nc-1-r schem e presented in this article. The aut-~ors subdivi,de the above named republics into areas- A) L'he po- Card 1/2 ly-enous plain of the platf3rmic character and B)  SO V12-1-500 -4-1 ~~:;/27 Geomorphologic a l Re-ion a 1i-,.- at- ion o -[- the I= a SSR the mountaneous structures of the Geosyncline re- gions of the Carpathians Lind the C-ririnea,. They con- sist of geomorphological re-ions and districts dif- fering in geological structure. af~-e, mo~,'_e of forma- tion and trend of relief development. 1],L~ch arca'.3 Perrions differ in the correlation of geological fea- tures, each region's district differs by the nature of the Quaternary cover, the degree of disjunction and the presence of specific forms of the surface. The first area has 6 regions and 45 districts, the second has 2 re~3ions and 9 dislyricts. There is 1 geomorphological map. AS) 3`0 C I AT I Oil InstiLut r,eoloFjcj1(,sj':iI-h nauk AN Uh-r-33R of GooloGical Sciences of the AS' SUB'I.:,I'LTED: January 20. 1959 Card 21~  BOUBAHURUK, V.G. EBondarchuk, V.H.J; VEKLICHI-M.F. [Voklych, X.F.1; HOHOMNOV.A., A.P.; SOKoLovsx:i~?'--r.--t.~-tg6k-6f~vslkyi, I.L.j Faleogeographical and depositional conditions in the Ukrainian S.S.R. during the (~mternary period. Geol. zhur. 19 no.2:6-16 '59. (MIRA 12:7) (Ukraine--Geolog7, Stratigraphic) (Ukraine--Paleogeography)  vRnICH, :~ k ych, M.F.j Conference an matallegenetic and prognostic maps on the Ukrainian S.S.R. Gaol. zhtw~,..19 ne.2:80 159. (MIRA 12:?) (Ukraine--Ore deposits-Maps)  AYZMTMG, D.Ye. [Aizenver,-, D.IE.1; BARANOVA, N.M.; VEUICH M F GOLYAK, L.H. [Hollale, L.M.]; WUXI S.V. (Horak, S.V.J; DIDKOVSLIY, V.ys- LDidkovalkyi, T.IA.]; ZELINSEAU, V.0. (Zelinalka, V.0.1; ZKWWSKIY, B.F. (Zernotalkyi, B.F.1; KAPTAR.ENKO-CHKEOUSOVA, O.K.; KRAYEVA, Ye.Ya. [Kraieva. IR.IA.1; KRASMINNIKOVA, O.V.; KUTSIBA, A.M.; r.MHIK, T.Yu.; KAKARENKO, D.Ye.; MCLYAVKO, G.I. [Mollovko, H.I.J; MULIKA, A.M.; PASTMUIAK, S.I.; PEAMYAKOV, V.V.; ROMODANOVA, A.P.; ROTKAN, R.N.; 54AVIN, V.I.; SCKOLOVSKIY, I.L.; SOROCHAN, O.A., SYABRYAY, V.T.; TKAGMNKO, T.O.; SHULOGA, P.L. (Shulths, P.L.], doktor geol.-raineral.nauk; YAMNICHENKO, ,I.M. ClAmnyobanko,J.H.1; 13ONDARCMM, V.G. [Bondarchuk, V.H,-J, akade- mik, otv.red., [.Atlas of paleogeographical. maps of the Ukrainian and Moldavian S.S.R. with lithofacies elenents. Scale 1:2,500,0001 Atlas paleo- geografichnyk-h kart Ukrainslkoi i Moldavslkoi RSR z elementamy litofatsii. Masshtab 1:2,500,000. Sklely D.IE. Aizenverg i dr. Za zahallnvm kerivnytstvom 'i".N.Bondarchuke. Kyiv, 1960. xvi p., 78 col.maps. (HULA 13:12) 1. Akademiya nauk USSR, Kiy(;v. Institut geologicheakikh nauk. 2. Institut geologichaskikh nauk AN USSR (for all, except Bondarchuk, Pasternak, Slavin). 3. Instytut geologii korysnykh kopalyn AN URSR (for Pasternak). 4. Moskovskiy gosudaretvennyy universitat im. Lomonasova (for Slavin). (Ukraine--Paleogeography--Maps) (Koldavia--raleogeography--Maps)  VEKLICH, M. F. Doe Geol-Min Sci ---"Quaternary deposits of the right-Icank region of the middle Peachee-of Dnepr." Len, 1961 (Len Order of Lenin State Univ im A. A. Zhdanov). M, 4-61, 189) _95-  VEKLICH, M.F.- -, Stratigraphy7of loess in the Wkraine. Sov. geol. 2 n0.6: 35-53 Je 165. (MIRA 18:8) 1. Institut geologicheskikh nauk AN UkrS,')R.  f ; "f y i Qua I: e rna.-~ llu~ 'c 4 1 i% i 1 i L Sorednlotc; Drlir'ra. c e !.-,i !a riauk. UR.S.R. -'ri.~,fvLut. "rudy. S-2-!Ia -stratyerafii  VEKLICH) M.F. [Veklych, M.F.] Methods for studying the geological key oec-cna - I ~;f of the Ukrainian S.S.R. Dop. AN URZR ,.5:643-646 (MIFIi 18:5) 1. Institut geologicheskikh. nauk AN UkrSSR. -1 f  KSENZUK, F.A., inzh.; KHUDAS, A.L., inzh.; TROSHCHENKOV, N.A., inzh.; GAMERSHTEYN, V.A., inzh.; AKIMOV, E.P., inzh.; IOFFE, M.M.J. inzh.; VEKLIGH M.I., inzh.; AINTIFEENKO, V.G.J inzh.; TILIK, V.T., in7h.; inzh. (deceased]; BORISENKO, V.G., inzh. At the "Zaporozhstall" plant. Stall 23 no.6:554, 562, 572, 575 Je 163. (MIRA 16:10)  AUTHMS! Tarasevich. K. I_ loffe, M, PODOV, S.M., Vek j--h-77-7 Drausai~, V. Dikovs=4,-, -T,Teir~~I-_uiov, V,, G~ and Arno' B~ E~' TITLE- Increasins the Output of Hood-type Electric Furnaces with Economy of Electric Power (Ekonomiya elektroener~~ii Z%. i uvelichen4ve prolizvoditel'no--ti kolDr,_k-o,,,ykh elektropechey) PERIODICAL; Promyshlennaya ;~ner6otika,. 19531, Nr 6., pp 20-21 (133r3R) ABSTRACT: This sug6estion was awarded third prize in ~ui All-Union Power Economy Competition. In the manufacture of transformer steel hi6h te:aperature annealing; is carried otit under vacuum at r- teciiperature of -1180'C., This oi)eration io carried out in special vacutui hood-t.vP,1 eiectric furnaces, The chleet" steel in t-he furnace i~; -Drotected by ia-uffles .-.-hich in their t-urn ar~ c~:,v_-_-ed by the hood which contaIns electric he*aters and water- cooled vacuum seal, Tho annealin,' period includes a coolinL: tivie j.,hich reduce-, the output of ~hc furnace avd, increa-es the povier output beczjuse the heaU in the hood Is -wasted _L u The furnaces were recons4-ruct,ed in such a Tij ay I I tC ' I- T U t _u ..hen the boatinS period. is over the 'hot hood is quik,,kly Card 1/2  Increasin6 tlie Output of Hood-type Electric F-urnaces of Electric Povver replaced by a cold one and transferred to t1he next furnace that requires heatirib. Inert ,,US I.I. used to protect Wi~., sheet steel during the short period iii which the Nr.ICUUIII is broken, Cooling is now wore rapid than before and less povier is used, Card 2/2  VEKLICH, P.,_~.SLIVINSKIY, I.G.; TURKOV. L.F. Heating furnace for cathode ray tube glass parts. Stek.1 ker. 23 no.10:411-45 0 '58. (MIRA 11:11) (Glass manufacture) (Cathode ray tubos) (Furnaces, Jfpat treating)  VEKLICH P M ; OSIICHII-KOV, F.P.i FROLOV, V.K.; NILENDER, it.A., prof.,, red.j YENYUMI, V.V., red.; BORUNOV, N.L., tekhn. red. [manufacture of glass for electronic vacuum devices] Teklmo- logiia elektrovakuumnogo stekla. Pod obshchei rnd. H.A.Nilen- dera. Moskva, Gos.energ.izd-vo, 1961. 261 p. (MA 15:1) (Glass manufacture) (Electron tubes)  SOV/"12-5P--1 0-14' /13 AUTHORS: Veklich, P. M., SlivinskiLy, I. G., Yurkov, L. -7. TITLE: Heating Stove for Glass Parts of Electronic Fluorescent Tubes (Nagrevatellnaya pechl dlya steklyannykh detaley elektronno-luchevyl"-h trubok) PERIODICAL: Steklo i keramika, 1958, TTr 10, PP 44-45 (USSR) ABSTRACT: The authors of this article constructed some gas stoves for these parts at the 11oskovskiy elektrolampovyy zavod (Moscovi Incandescent Bulb Factory). The stoves were built for the heatin- of cones and shades prior to their welding. Such a stove (Fig 1) has two muffle channels, a lower and an upper one, The heating surfaces of the muffle channels are produced of carborundum plates of 'he dimensions 303 x 343 mm. The construction makes it possible to heat 'he parts to be welded sufficiently quickly, and also to carry out repair work of the muffle without putting the stove to pieces. The waste gases from the lower muffle are directed into 'he upper one; they heat the latter and then are sucked off by a fan. To improve the temperature control the muffle chan- Card 1/2 nels aro soparated into 5 individual oections by walls.  SOV/72-58-10-14/18 Heating Stove for Glass Parts of Electronic Fluorescent Tubes The nartsto be heated move continuously in the operation cham- ber of the stove on a conveyer belt. The heating c'ycle may be adjusted within 10 to 30 minutes at a length of the operation chamber of the stove of 10 m; this is doneby con- trolling the velocity of.the conveyer belt. The stove tem-, perature conditions are controlled by means of thermo- couples. From figure 2 the course of the temperature in the stove may be seen. This simple construction makes it pos-- sible to the glass factories to produce then by themselves. There are 2 figures. ASSOCIATION: Moskovskiy elektrolampovyy zavod (Moscow Incandescent Bulb Factory) Card 2/2  ---VEKLIOZ~L,,D,_I,_i_SOSIIINSKIY, Yu.I. Replacement- of the charging arrangements on 2000-ton capacity blast furnaces. Metallurg 9 no.2: &10 F 164, WIRA 17:3)  7=40, I. N. The PO-5 press for high-speed veneering. Biul.tekb.--akoninform no.3.1:25-27 160. (MIRA 13:11) (Veneers and veneering)  VIKKAN, 1:hPA-0#4 - "Glues and putties used in woodwork" b7 N.T. Romanov. Reviewed by I.N.Vekman. Der. prom. 8 no.5:26-27 M3r '59. (MIRA 12:7) (Glue) (Patt7)  BAKLUSHIN, I.L., inzh.; VNKSIH, I.N., insh.; GlUM11K. V.H., kand.tekhn.naWC, dotsent; LYULZNKOY,,-YvI&'v---1nzh*; SABANTSEV, V.P.. inzh.; SOKOLOV, L.D., doktor teldm.nauk, prof.; SHIJ1OK0V, Y.N., prof. Equipment for use with resistance wire transducers. Izv.vys. uchob.zav.;.chern.met. no.6:149-156 Je '58. (MIRA 12:8) 1. Sibirskiy metallurgicheakiy inatitut. Rekomendovano kELfeclroy mekhanicheskogo oborudovaniya metallurgicheakikh zavodov Sibir- skogo metallurgic-heakogo inatituta. (Metallurgical plants-Equipment and supplies) (14achiner7--Testing) (Transiucers)  VXKXAN, 1.11., inzh. Hooklet on ures. gluing resins (OU~~& gluing resins for the use of furniture indusW by R.Z. Tesidna, G.P. Plotnikova, R.A. Mirkovich. Reviewed by I.N. Vskman). Der. Prom. 8 no-11;29 H '59, (MIRA 13:3) (Veneer and veneering) (Glue)  VXKMAN. I.. N. Semiautomatic bending machine. Biul.tekh.-okon.info=.no.2:42-44 '59- (MIRA 12:3) (Woodworking machinery)  VEKKAN, I.N.,.,inzh. NomogramB for cal-=Latir~g hoses usm, in oneu-natle pressin- - 4 eauipment# Doro Prom. 7 no. 5:24 My 158. (111RA 11:7) 1. TSentrallnoye mobellnoye konstruktornkoye byuro. (Woodworking machinory) (Hose)