SCIENTIFIC ABSTRACT ZELENSKIY, YE.A. - ZELENTSOV, V.V.

 ZELENSKIY~ Ye.P., inzh.; TAUBIN, M.G., inzh,-- Telpher -lines with addressing systems. Hekh.i avtom.proizv. 18 no.3:29-30 Mr 164. (KnU 17:4)   (Plastics)  ~ I - - , , .: , *"Q   4r Z/, lavmzhiroszkoye Dvizhuniye Ua.-A holdort-.dat, 10,7. Poolmi, Tranr7 164 1'. Illuo., IA4x,'4-, TobllcL, 755.3 Y/5 55. 7 ~ 3 755.75 N/5 755.75 1/1 755.1 IV5 755.1 1/1    Passenger railroad transportation in t-h3 United States. 910-dor. transp. 42 no.8:84-87 Ag 160. (KM 13:8) -1. Zamestitell nachallnika Glavnogo pasnazhirskogo upravlenlya Ministerstva putey soobshcheaiya.., (United States-Rai;roads'-Fassenger traffic) On -0 M amm mmam  MSHCHEVA, N.I... kand. tekhn~~iftauk; RCUMVDj V.Ye.t prof,, retsenteutj ZEIBMKIY, Yu.I., iA.,, retsenzent; ChERNUVSKIY, Y.Ya., inzh,, red&; _u=WS_t;t_- teUn. red. dibMftl "ftigorodnoo dvizhenie na elektrifitsirova=ykh.iiniiakh. -Moskva,, Vaes. Watel I sko-poligr. ~n;abftdinenie H-va putei soobstichenlia, 1961. 371 p. (Moscow. Vsesoium VA nauchno-issledovatel-10kii inatitutisheleznodorozhnogo .,transporta. Trudy) no*W4 (MIRA 15: 5) (Electric railrbads-Commuting traffic)     VOSHORININ, A.I., kandidat takhnicheakikh naWC; ZMNXIYI Yu.S., inshener. Annular-grinders for construction materials. Kekh.stroi. 4 no.4: 16-21 Ap 147. OC= 9:3) troitell- 1. Vessoyuznyy nauchno~-isoledovatell.,skiy-institiut-otdela no,!o- dorozhnogvmashInostroyeniya.- (Killing machinery)     ACCESSION NR: AT4033998 s/oooo/63/COO/000/0139/0144 AUTHOR: Fedotova, O..Ya., Shtillman, M. I.; Losev, 1. P& (Deceased); Oc9danova, V. JAt.; Zel je~ entska Synthesis and conversion of*po)yam1de~''poIynitrHes* 1. Synthesis of - T ITLE,.~- ated, polyarnido G,~ier6tiOn 0. vyvsoko~jol eku yarny ;.~so~t i6nlya-,(Heterochain ma ro vy y*ly .1 - ' - - ' . 7- _. . I ~~ 1. di) 4;.y ~Ikaiuka... 1963 m0 I etu In, compoun sbornlk~statdyi~--_Moscow, I z' 1.39-144, TOPIC 7AGS: polymer, polyamide, cyanoethylation, cyapoethylated polyamid6f solutior,'polycondensation, Interphase polycondensation, aromatic diamine, aliphatic il.diamine, dicyanoethylated aromatic diamine, adipic acid, dicarboxylic acid, poly- nitrile ,;'-ABSTRACT., The authors-claim origina" synthesis of N-cyanoethylated polyamides by I solution or interphase polycondens-ation of NINI-G;i-(13-eyanoethyl)-p-p~,en7lene diamine or IN,NI-di-0-cyanoethyl)-l 6-hexamethylene diamine with adipi.; acid or its dichloroanhydride. Solution reactions lasted 7-10 hours (5 hrs. in 0 purified N flow, 2-5 Vour:; In a vacuum) at 160-220C, interphase reactions 30 min. at 180- 240C. It was established that N-cynnoothylated polyamides with a predetermined 's f. nitrile roup cl7nterit can be derived at polyconden ation solution temperatures not Card   PIM 114 KROKRM, N.G~~-~; Studying the process of rectification at lowered pressures. Trudy VINUDY no.2:1?-7-129 1,54. OURI 10: 7) (Plate towera) (Distillation, Fraotional) (V&Cor pressure)  KROXHIN. N,G "M Studying the eficient operation of,distiliqtion apparAtus. Trudy VNIMIN no.,~:129-134 154.- 1 MR1. in..?) (Distillation apparatus)   AUTHORt Zelentsovp A.f Colonel SOV/107-58-2-5/32 TITLE: The Gloriou, Road of Combat (Slavnyy boyevoy put PMIODICALj Radio, 1958t Nr 2v~ p 10 11 and pago 2 of covor (USSR) on the occasion of the 40th anniversary of the USSR Armed Forces, the author reviews historical.events connected with Soviet communication units since 1918, and discusseaq by giving numerous exampleaq thetraining of Soviet military radio operators. There are six photos. 1. Armed forces--USSR 2. Military communications Oard 1/1  L--- 3114 ACC NR, -T% _21D JDIJG----- _-FdT(mVFrC(f'rb 'rij WG(m) EWP N A(h) 'MW AP6012143 SOURCE CODE: UR/0413/66/000/007/0060/0060 INVENTOR, Zelentsov, A..A. ORG: none SOURCE: Izabreteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 7, 1966, 60 TITLE: A method of meeting alloys of refractory metals with low-melting metals. Class 40, No. 180348 TOPIC TAGS: v.Acuum melting, refractory metal, r-afractory metal alloy,,low melting metal, alloy !jelting ABSTRACT; is Author.Certificate introduces a method of melting.alloys of refrac- torY metaloN,-ith low-melting metals in vacuum. In order to eliminate the losses of volatile components and ensure a correct alloy composItionv the furnace Is evacuated after the initial charge hai been put into the crucible. Then the furnace is dis- connected from the vacuum system and the charge is melted. [WW] SUB CODE: 11, 13/ SUBM DATE: 24Sep62/ ATD PRES8:q2i(/ UDC: 669.046.512: C.'a Y,- 6 rit4o AIA Ar..LAAG MA 1341   ljw, L~I- Al- -1  ACCESSION NR: AP4040459 51010S/64/019/006/0040/0044 AUTHOR: Romanov, A. K.; Zelentsov, B. P. TITLE: Generation of functions SOURCE: Radiotekhnika, v. 19, no. 6, 196,40'40-44 TOPIC TAGS: function generation,-function oscillator, pulse filter, delay element, multiplying,unit, adder, ferrite core, rectangular hysteresis loop, autocorrelation function, cross.correlation function ABSTRACTz A method of reproducing mathematical functions in the form -of electrical signals,.which -is based o-i the utilization of a pulse, filter, is dtscussed The block diagram of the filter is shown in Fig. I of tho. Enclosure. It consists of a series of delay elements each of which.delays for time T the voltage applied to filter input. The output voltage of each 'delay element is transmitted to the multi- plyil,g unit where it is~mult~.plied.by constant coefficient a -From the 9L~tputs of the multiplying units-the voltages pass to the adder, foTmil.'& the sum U out. 1/31-  YA V. 4- ACCESSION NR: AP4040459 where Uout is the output voltage of the pulse filter. A detailed de- scriptioa of one of the pos~ible'variants of the functional oscillator which in designed on the basis of such a pulse filter and which utili- zon ferrite cords with ajactAnaular hysteresis loop, leadn'the. au- thors to the following conclunionat 1) tho functional oacil~Ator do- -scribed can be used for'the simulation of perturbation effeets and -variable coefficients in the solution of differential and difference equations; 2) amplitude-modulated pulses obtained at oscillator output can be used in investigations of automatic control and PAM systems; 3) in the presence of a regulated time shift between their output voltages, two oscillators can be used for the calculation of-auto- and cross-correlation functions; 4) in investigations of filters, the oscillator can be used for obtaining f (-;t)-type functions. Orig. art. has: 6 figures and ~3 formulas. ASSOCIATION: none SUBMITTED:, 19jul6Z, DATE ACQ: 06Jul64 ENCL: 01 SUB CODE: NO-REF~SOV: 008 OTHER: 003 Cord2  mum ZELOTSOV, B.P.; SAMOSHIN, A.T. Analyzing the reliability of systems with elementa IvivLng two kinda of failures. lov, SO AN SSSH no, 10# 3or. -tekh, nauk no. 3t42-48 165 (MIRA 19:1.) 1v Thatitut avtomatiki i elaktrometrii Sibirskogo otdolonlya AN SSSR, Novosibirsk.,Sulmitted December 3, 1964. Inn  L )1!~"C-A6 ~xT -Vi + ACCESSION NR: AP5021074 UR/0288/65/000/002/0044/0048 I/ 62-50 AUTHOR; Zelenteov, B. P. TITIE: A method for system reliability analysis SOURCE: AN SSSR. Sibirskoye otdeleniye. Izveetiya. Seriya takhnicheskikh nauk, Ino. 2, 1965, 44-48 TOPIC TAGS. system reliability, circuit failure, automatic zonrcol syntcm .,k -ei het:~O_ rk::_the7_-Mdg4# Markov finite number of states. The first approach requires the establish- ment of a large number of differential equations while the second often demands the application of high order matrices. The present author proposes a new clore direct method which, after relatively calculations, yields the average time for the rettoration of the system into its stationary state. It is based on a solution proposed earlier by Einhorn (S. J. Einhorn, Reliability prediction for repairable redundant systems. Proc. IEEE, 1963, vol. 51, no. 2) for the case of one kind of elerrent with identical reliability indexes. The author assumes that- 1) the Lime of flawless operation and the time of element restoration.follov the rd 1/2  ~ACCESSION M AP5021074 exponentialdistribution; 2) tw1functions.,and repairs of the system are mutually ifidepevilent; 3) all elements which are in good order are under "hot" operating !conditions while the fail Ing, elements are out af. operation; and 4), at a single J.indtzintof time there can occur only-single transitions of an element from its .operating state irkto a nw. I funct too trig state and vice vertid. The aidthod in Ll- lustrated by aii a-aluation of a two-element system with four available statea. Re",~C_ sults show 11hat Oug. tiev method is fuater than I ei~_exjsting- methods,-Origj- art-i-Tz- k. -th -7 has-t~, _16ttvu at gurc*4-.. 4'. ~Eoma, -"eirom-ett-W-Aih re ng,6 idt e efiLys M S --A4 S Or- I ATION 7_11iatiiii" t Novosibirsk (lnstftutA,~~f, Automation and Electrow-,-tryi:..Siberian-Bran--,hj AN SSSR) 1SUBMIMD1 07:t.164 ENCL: 00 SUB CODE: 1E NO REF SOV, 002 OTHER! 002 Card 2/ 2-k  T 31532=6 MR(c I M -, 'A197W iWSZ4 lm AFM M, 1_199227 -----SOURCE COI)E----UR/0000/66/000/060/9058/0065 AUTHOR: ___,,,j4.(Novosfb1rB4; Beznosov, G. P. (NovosibirBk) 6_1 'ORG- ~-no66 $4_ ~TITLE: Tho use of redundancy for the cons truction- -of reliable Intormation pXstoms SOURCE: Vtjosoyuznaya konferentstya po avtomatichookomu kontrolyu I metodam elektri- cheakilth lzmerenly, Sth. Avtomatichookly kontroll i motody clektrichookikh izmorcniy; trudy konferentall, t. 2: lzmeritel'nyye Informatsionnyye sistemy. Ustroystva avtomaticheskogo, kantrolya, Elektrichesklye tzmereniya neelektricheskikh velichin (Automatic control and electrical measuring technigHes-, transactions of the conf Aren9p,_y. 2: Information measure- ment systems. Automatic control devices. Electrical measurements of nonelectrical quan- tities). Novosibirsk, Izd-vo Nauka, 1966, 58-65 TOPIC TAGS: information processing, lo c circuit', circuit reliability, computer component gi ABSTRACT: This Is a short survey of the vaklous 'methods for Improvement of rellabil!!Y 1~~ of information systems by utilizing redundancy. The article is based on 1 Soviet -and 16 U. so references, and it also reports on results obtained by.various-U. S. authors concerning the reliability of threshold elements when used for the reilization.of logical functions. Orig. art. has: 8 formulas and 9 figures. SUB CODE: 09 SUIBM DATE- 29Nov65 ORIG REF-.. 001 OTH REF: 016 1/1 C!qr  93,99 6 i~~) -7;M_7_7P SOURM CODE: NR 6009907 AUTHOR., Beznosov, G. P. Zelantsov, B. P.; Samoshin, A. V. ORG.- none TITIX: An analog-digital convertor. Class 42, No. 179092 [announced by the Insti'-'--te of Automat on SQ nstitut avtomatiki I elektrometrii SO AN ---SOURCE:--~ 7--Izobreteniya --- proar)ahl "n3~*e-cb e zn no 4, 1966, 105 ra-z"y tqvqrn~rj aki TOPIC TAGS: analog digital converter, binary code, ferrite core memory ---------- to- parjl-- -::This- uthor!s of-compar son for periodic readout of the numerical equivalent from the precoded information. The converter usco ferrito cores with rec- tangular hystoresia loop. Tito convorsion range is oxpanded by using threshold elemental based on two cores, each of which contains a magnetizing winding, Input winding, I 11search" current winding and output winding. The output windings which correspond to identical digito In the binary code area connected in series. UDC: 601.142.07 1/2  A ~- t-~ , L j L L L I  ACC M AR7008652 SOURCE - C.ODE uR[0'3'(2~/06/6-od/6i2/GOSiIG631 ,AUTHOR: Zelentsov, B. P. ITITLE: On analyzing the reliability of large systems .'SOURCE: Ref. zh. Kibernetika, Abs. 12G195 :REF SOURCE: Izv. Leningr. clektrotekhn. in-ta, vyp. 56, ch. 2, 1966, 1118-150 7UPIC IAGS: system reliability, reliability theory, i ndustrial automation ABSTRACT: A method is proposed for calculating the reliability of systems with re- covery. The procedure is based on separation of the elements-of the system into several series-connected groups so t 'hat elements designed for garrying out the same function fall into a single group, the recovery equipment for each group being con- nected only to the group serviced.by this equipment. The coefficients of readiness and idle standing for each group are determined together with the limiting values of the average time between failures, the average recovery time and frequency of failures, and these quantities are used for finding the corresponding reliability indices of the system. L. Sh. [Translation of abstract] SUB CODE: 13 UDC; 62-507.019#3   MIA AGRANOVSKIY I.; ARANOVICH, B.; RELYAYEVA, V.; BOLISHAKOV, A.; GRUZDEV, V.; DICH, S.; ZELENTSOV,.,I.; KONKIN, A.; LEVIT, R.; MIKHAYLOAI, H.; MOGILEVSKIY~-Yii.; SERKOV, A.; SMELK()VO G.; SNFTYOV, It.; SOROKIN, Ya.; SHMIN, L. In memory of Vladimir Sorgeevich Smurov, 1897-1965., Kbim. volok. no.208 165. (KRA 1816)   ZAMIAHOV, Y,6.j ZKY-IMOV, I,G,l PAKSILVIRt A,B. Studying the Virmation process of viscose cord fiber. lhir.,rolok. 7io.5:34-35 159. (XM 13:4) 11 Kalinins~dy filial Vsesoymnogo nauchno-issledovatellskogo inOtituta i,3kusstvennogo volokna (VITIIV). (Rayon) I-IF.M."HIMMUSIMEW  S118316010001003101010161XX B004/BO67 AUTHORS: Zakharov, V. S., Zelentsov, I. G., and.Pakshver, A. B. TITLE: Diffusion of the Components-of the-Prooipitating Bath Into the Viacoae.li er During Spinning PERIODICAL: Khimicheski e volokna, 1960,-N0. 3, pp. 28-30 TEXT: The authors deal with the dependence of the spinning process of viscose fiber (coagulation, decomposition of the zanthogenate, desulfuri- zation, etc.) on the rate of diffusion of the acid, the salts, and other components of the precipitating bath into the fiber. They attempted to find conditions under which a fiber of homogeneous structure is obtained. In this case, the difference between the rate of diffusion of the com- ponents of the precipituting bath and the saponification rate of the xanthogenate should be a minimum. The-authors studied the effect of the composition of the precipitating bath on the diffusion rate under practical conditions.'In order tointerrupt theformation prooean rapidly, the f1ber spun in an experimental apparatus was passed through a neutralizing bi- carbonate salt solution which was at a distance of 15, 30, 45, 60, or 90cm Card 1/4  DiMinion of tho Componanto of the I 6b Bath Into tho Vincooo Fiber DUrin Sp inni Ili, 0041' e~' D B067 from the spinneret. Tho fiber was wound onto the godet wheel with a speed of 39 m/min. The thvead diameter was 0.018 mm. Proceeding from the equa- tions Mt/MOo -K Y'T" (Mt- amount of the substance diffused into the fiber 9Co = the same for the case of equilibrium, K - coefficient# T - duration of diffusion in sec.),and K = (41r)-VD-177 (D - diffusion coefficient, r radius of the fiber), D was experimentally determined. The following was found in dependence on the composition of the bath and its tempera- ture: Card 214  Result 1) The rate of formation of the viscose fiber depends on Zn 04 5 Na2S04 + Zn2+ the-co centration of the H 138 33 50 50 I 0.5 and SO ions in the precipitating 4 13V 138 33 33 350 350 50 6 6 0.61 0.92 bath, as well as on its tempera- 138 '13 315U 72 1.0 ture and the rate of diffusion or, 116 148 28 28 206 296 60 60- 'G7 0 ions. 2) With rising temperature 160 - 28 296 60 1.1 13 of the prooipita-ting bath, tho 200 28 296 60 :.2"t diffusion of ions into the fiber 135 135 20 35 22 1 231 55 55 1,15 0.86 increases bnly to a certain value. 135. 58 231 55 .0167 A further increase in temperature 135 138 78 33 231 350 .55 66 0 7 does not accelerate diffusion. 0:86 138 60 350 66 2+ 0,67 3) Rising concentration of Zn 138 80 350 ' 66 0 6 ions (up to 80 g/l of ZnSO ) de- 135 80 235 _ 240 45 0:43 4 135 -80 235-240 56 0.7. lays the decomposition of the 135 80 235-240 64 ' .1.0 235-240 74 xanthogenate. With ZnSO concen- 1.5 trations above 30 -'l, however,  of 1he CoLipdnents:of the. Precipitatl- S/163 60/ Diff46ion 000/003/010/016/xx, V067, ind ath Into:,the ~Viscose. Fiber During Spinning-- the diffusion. of H ions is no longer influenced by ZnSO 4) Rising con- 4 cent~ation ofH so accelerateo the procesoon, butAelays the ion difru- 2 4 sion~into the fiber, since an e%ternal layer ic formed on the fiber. Hence',~/ in -SO withlising H cohoentration, D increases to a maximum value, and then 2 again! The authors mention Ye. Mogilevskiy, D. 11. Arkhangell- okly and V. A. Kargin. Thoro are 0 fi~-nirwq, 1 tablet and 6 refaroncov.;' 5 Soviiet and 1 German, ASSO~IATIOIT: Kalininskiy filial VINIIV (Kalinin Branch of the All-Union Scientific Research Institute of Synthetic FibersT Car Id j 4/4   811831611000100610011002 Blot/Bilo AUTHORS: Zelentsov, I. G., Zubov, L9 N. , Fikhman, V. D. TITLE: Properties of polyvinyl chloride fibers PERIODICAL: Khimicheskiye volokna, no. 6, 1961, 9-10 ~TEXT: A det ailed report o4 the -roperties of polyvinyl chloride fibers manufactured .in western couutri--)'is given on:thebasis of westem publ ics- tion-data, In~ tha:-USSR a p I -pilot, lant wil d such~fibers in the pro uce near future.- The re are 1 figure9 2 tables$ and 12 non-Soviet references. ASSOCIATION: VXIISV  nonA U UU9 Utt. ri   -1. . _; - , -.11 --. --t !~- t ~ !r'~'re I . ,a - - I - -,,- , Al ,-, 1- ~k it f r in a ii ran,3 1 --,, , yv- - , - - - - 1-1.1-17. a-y-_ w T .. - ~ , ~ 7. m I - ~ z.-- .- --- ~q - . " -.',-'7 - 11 loll"W- MM M.- ~'~ .11 1...I-- ---- 1 1 4 4 - - ~; I -, ~. ~ - I r i-11-- . - ~ ,- , , --l - -:-. -.- I,.- I- - - -r... -3-- -1. .1. -1,1. - -- ~ ~ -.;----l--- ~- 1. 1-1---"...., ~11-- . - I- I - 1-1.1 -- ~ ?~ - I - -, . - ." - , .~ ...  ~ ZELENTSOV9 P.A. Z"LEt'T'"' P'A U13R (~o U53R (600) -Th so of Rever iThe Use of Reverse Vhen Cutting Threads on -Lathes," Stanki i Instrument, 10, lJo_ U No. 9. 1939. 9o-1939. Report U 1 0 IM Report U-1505, 4 Oct 1951  MOMMO rM.-MOR 777-7, Hicroscepic investigation sf transparent objects using a metallegraphic microscope. Zav.lab.21 no.11:1388-1389 '55. (KIaA 9: 2) LIskitimakiy ketellao-rediaterW zavod. (microscopy) (SMA)  S/126/60/000,/003/005/007 A105/A133 AUTHORt Zelentsov, P. N. TITLE: Melting in cupolas without lining PERIODICAL: Liteynoye proizvodstva, no. 3, 1960, 27 TEXT: The experience with cupolas cooled by a compact water-jacket proved that already after some hours of melting the sweating of the lining reaches the jacket and melting takes place on the thin layer of hardened olag, Thin indicated the possibility of working without lining in the melt- ing 4one, At the JakitImakly kotallno-radiatornyy z4vod (Iskitim Boiler and Radiator Plant) the cupola with a j4ekot 1p900 mm in diamator ham boenoon- vortod to melting without lining. For this purpose a water-cooling ring (Fig,l) of 120 x 45 min interior section hau boon oonotruotod. For compar- ison, another similar water-cooled cupola was riot reconstructed and tho lin- ing of the melting zone was reduced to half a brick, which had to be recon- ditioned after each melt. Both cupolas worked under the same conditions; 14 hours a day, air was fed from the same blower and common airduct. Indices for comparison were'productivity, fuel consumption, temperature of molten met- Card 1/5  S/12 60/000/003/005/007 Melting in cupolas without lining A105X133 al and down-time because of shortage of metal. The productivity was rated by the quantity of castings. The total weight of castings was divided into ac- tual working time of the conveyor and output per hour of the cupola. The tem- peratures of 42 double shift meltings were measured every 30 minutes by an optical va-porimeter. The cast iron temperature of the test-cupola was higher than that of the lined.oupola which may be explained by a 22% higher coke ccn- aumption in -the test cupola. The down-time of the tout cupola iq.twice an high as that of the lined cupola because of a violation of the ahaft-profilo. The results of those toots differ from the experience of Roatoollmash. Thaw are 4 figures and 3 Soviet-bloc references. Card 2/3  r M~m -Ilw~--~M~~ - t ~ - -,- - --- . 1: - - - ~ 1 7~ 7~..:: - --- -- -. -- f~ ~ - ~`, 'T.- , ~- -- ~,~ , ~ , - - . - . . . !- I , r , 'W~- --.-V :rl~.- -, , -..- I ~,-- ~,i - ~  . , . - - - I - - - . - '4- , -~-- ~,', ; -, :- ~ - - I . . I I I : : . ~: , '~ - ~ -, &- - .1 ~. j7-,' ~ . I - ; ; -  ZnDITSOV, P.N. the time needed for changing the composition of granular materials in a closed system. 14t. proizv. no.10:38-39 0 160. (MIRA 13110) (Band, Foundry) ff!~? rl.n zus   ABSTRAM To datermine the extent to which a clAdding layer of OM113 steal pro- tects 20K stael from hydrogen corrosion, clad 2nd unclad samples ware tested under identical conditions. The hydrogttn composition was 92% H 1 0 10-0 20% cop 2~0-2.8% GH4, 5.0-7.0% N . A layer of OKhl3 steal 1.4-2= ihicko was'found to T)%,ovide good corrosion pr action at hydxvgen preasures of 300,, 2000 and 100 atm. and temperatures of 400, 4500 and 500C. Under these conditions, the unclad steel samples are decarburized. Experiments showed that the decrease in the .12~6dro en permeability of the clad samples and hence, the desirable protective prop.e s of the cladding layer are due to a hindering of the di-ffusion of Card V2   5a CCDEI Cl  a r... ;;. ~~r I c . -_. _: 1, ~ .. -,II I T     2L-- VII ... ... a 'j, -0i M-2  TOPIC TAGS: metal melting, electron metal melting, electron alloy melting. electron melting unit, electron melting furnace, vacuum equipment PURPOSE AND COVERAGE: This book is intended for engineering personnel of electro- metallurgical plants and machine wor", scientific workers of research institutes, and students of metallurgical and engineering schools of higher education. The book presents copious information on electron-beam malting units, vacuuu installations, focusing of ~_'Lactron 4aaa-m, and the properties of metals obtained by electron-bean, melting.1 The theory of physicochemical proceasea invalved in electron-me-T-tIn-gar also discussed. TABLE OF,CONTENTS:_ 'Forewor d Card-1/4. UDC; 621.3.032.269.1  L 10404-M ACC UR: AM5025342 Introduction -- 7 Ch. 1. Basic conception of electron optic and some elements of calculation 1. Principle of electron heating anA melting of metals 14 2. Electrons and their propertieqy-- lo 4. The-r-m-oejectron. emission 18 i,~Seconu -t-- arye1kc -ron-l.,e- On-:7-.  --ACC:NR., AM5025342_~ 3 'nits of second group (with nonmelting anode) 76 4: \~Foundsx electron units -- 102 5. Electron guns of melting units 108 (b, 111, Vacuum--system of.electron melting, furnaces. - A_ 6 -eva ation- -rate ftom the operating- The metho& of eterkiiing 'the ga .- cu chambe rof an electron-beam melting installation 137 3. Vacuum equipment used with electron furnaces 140 4. Vacuum pumps with oil packing -- 143 5. Booster pumps -- 147 i 6. Diffusion pumps -- 157 7. Vacuum units and thn%l lementq, -- 158 SRecial-high-vacuum quipment'-L 163 8. 9. Sorptid-n-lon vacuu-M pumps 172 10. Measurement of a ve-cuum in electron melting installation 174 11. Methods of detecting leakage in vacuum systems -- 181 .Ch. IV. Electric Oower supply to electron melting furnaces 1. Direct current -- 1.87 2. Alternating current 191 Card 3/4  L 104-04-.66 V7 ACC NR: AH5025342 3. Power selection 193 4. Efficiency of electron furnaces 195 5. Automation of electron melting units -- 197 Ch. V.\~~ Theory of physicochemical processes in electron melting 1. hermodynamics of evaporation processes in a one-component system 204 2. Thermodynamics of evaporation processes in two-component systems 209 3. 'rhe kinetics of evaporation of metals -- 215 4. The separation of metals by melting in electron furnaces -- 222 5. Metal purification Yy removing of gas impurities -- 231 Ch. V1. Investigation o%etals obtained by electron bombardment 246 1. Obtaining ingots of Ure metals 2. Alloy melting 269 q i-,_- jCh..VI1., Accident prevention 282 iReferences 287 S~a-?DE MM/ SUBM DATE: 18Dec64/ ORIG REFi 067/ OT11 RE F: 064 da-r-d-44  1 L 41~- A I MUTGOV, V.-t- uohanik -9 --- - kl 90 Roca - Birds in winter. Iun.nat. n0.1:9-10 Ja (MIRA 10:12) 1. Chlen yunatakoy sektaii Obalicheetva okhrany pr1rody Tullakogo oblastnogo otdolenlya, Tullskava oblast'. Koaogorskiy rayon, derevuya. Staro-Basovo. (Birds) amml 11 oil 11,11 ml I I I Mll  '(g;--I(amyshin. Stalingradelcaya o --Z~RETSOY blast Key woAmrs of ram"hin. Okhr. truda, i sots. strakh. no.1:14-16 JI '58. (Kamyshin--Induetrial Bafety) (MIRA 11:32)  Mom- tT-SbV- -V-.CS taringra-d Forge of communal services workers. Zhil-kom. khoz. 8 no-5:12-14 158. (miRA 11:6) (Stalingrad--Technical education)  ME    ZELENTSOV, Volo Exhib,Lt of devices and equipment for agroahamical zcml 1--boratoriee, ?rib-Orostroonie no.111.29-30 N 164. (,MJRA 28,,:!)    i1xUAll ~r ',4 -'n Mm K(Zlm$ n.v,j marsay, V*A, Soviet rwrmwiiT iwtru=ea at the mchibition in Sokollnikit --.0 44 F-I  v GIBBOVA, I.LiCtranslator); jU'a;jTSOV V.A, [tranulator); IVANOV, V-V- '7" [translator); HORDVIIIdv'~ . ~.rbnslatorl; IIIXULIU, H.I. [translator]; SHILTOVA, A.?. [translator]; THIMIN. Y., red.; DANTLIKA, A., tekhn. red. [Progress in the reetoration of the national economy of the Democratic Republic of Vietnam, 1955-19561 Uspekhi vosatanovleniia narodnogo khoziaistva Demokraticheakoi Respubliki Vfetnam (1955-1956 gg). Hoskva, Goo. izd-vo polit. lit-ry, 1958. 271 P, (MIRA 11:5) (Vietnam, North-Economic conditions)    ytonnnt V. 71%-t starshiy to',c." ni%da, 11ow to- prevent the foi-mation of ice cr,-zta-ls in fuel. Vest. FTotiN-Ovzd. obor. no.1:38-42 A.161, (I-IrA 14. (Airplwics-Icc --ro-voo-ti (Airplan-os-Fuel sy:;U=) on) PP.  AID P - 5436 Subject UM/Aeronautics, - maintenance Card 1/1 Pub. 135 - 13/31 Author Zelentsov, V. M., Technician-U. ---------------- Title The use of the fuel system of aircraft in winter Periodical Vest. vozd. flota, 1, 61-631 Ja 1957 Abstract What measures should.be taken during the refueling of aircraft in winter in order to prevent the formation of ice crystals and the condensation of water in the fuel tanks and in the fuel system of aircraft is described in this article. The article is of informative value. Institution None Submitted No date    -ZELENTsovi--L~vi-~--SPITSYN-,-V-.-is Of and SA CH~ I. A. "S~mthesis of a Number of Schiff Bases Derive-d From 2-Hydroxy- - 1-naphtt~lii1efiyde -exxd by I.-- 1.-'Savich, V. V. Zel- entsov, &ad V *I Spitsyn, Chair of Inorganic Chemistry, Mosww State University, Vestnik Moskovskogo Universitetal Vol No 1, Jan-Feb 57, pp 233-237 The article describes methods for the preparation of and the proper- ties of 11 newly synthesized, hitherto unknown Schiff bases derived from 2-bydroVa-l-naphthaldehyde and some aroma-tic smines - The qualitative reactions of the bases with cations of Al., Pb, Cd, Co, Ni, Fe (ferric and.f~rrous), Rg, Cu, Ma, and Cr were i-nvestigated. [Comment:_ Methods for the precipitation and analytical- determinaa-__: tion. of cadmium are of - iMortance U connectioix with nuclear energy work SIum 1258  &_,',U-_TSCjV, V.V., Cnand Clhem, Sc! ~inid r_,tcri-;ochrj.A,_,try of Ml;,T-,lox co~npouu&! of ci raoh-bdenun -11 0 1 bir 19 nnd itraniurn vath or[-: ic ub. c s. -or, 56 7 m lXm Q-rde-r of LiCnin f_~nd (_~rdnr of E-.bor R, 0- nd Btmer St- t eU V. Lomonosov. Chcfnical Facult"r. Cvflair Of illonganic ~hc.,;d~;try)j 100 co,~%ics yc'i 83- 53, 110 2  AUTHORS 'V* Vs~ Savich, 1. A, Spitoyn, SOV 156 '56-1-14/46 Viki. I. TITLE: The Intra-Complex Com-~=ds of the Hexavalent Molybdenum With Several Schiff Bases kVnutrikomplekanyye Iuoyedineniya ahestiva- lentnogo molibdena s nekotorymi shiffovymi osnovaniyami) PERIODICAL: Nauchnyye doklady vysshey shkoly, Khimiya i khimicheskaya tekhnologiya, 1958, Nr 1, PP. 54 - 58 (USSR) ABSTRACT: After a survey of publicati N a (Refs 1-5) the authors say that all elements of the VI side-subgroup of the periodic law of D.I.Mendeloyev are able to form oxy-compounds which ,e02+ -radical. Owing to the similarity of the contain a 11 2 structure and several properties of the oxychlorides of chromium$ molybdenum, tungsten, and uranium it may be assured that thic oubgroup of elementn is able to form complexes with Schiff (Shiff) bases. Preliminary experiments have shown that the intra-complex compounds may be obtained only by means of molybdenum oxychloride. 8-oxyquinoline and several of its 2- Card 113 derivatives form stable intra-complex compounds with the MoO 4  The Intra-Complex Compounds of the Rexavalent sov/156-58-1-14/4,6 Molybdenum With Seve-ral Schiff Bases ion, as is known. These compounds are used to a great extent in analytical practice. However, compounds like those montiored in the title have never been produced. in the case of the method described in the present paper ab;3olute-vt-her and the solutions of corresponding Schiff (Shiff) bases are used which were formed by salicyl-, 2-oxy-1--naphthoe aldehyde and by a number of -romatic amineo. The production methoda of the molybdenum oxychloride and the Schiff bases are described in an experimental part. Furthermore the production of the intra-complex molybdenum compounds is described: I)M6lybdenyl- salicylal-anilinate. 2) 'Uiolybdenyl-salicylal-p-nit,--,oanilinate. 3) tiolybdenyl...r3alic,,,,I,,-~l-..,,,troanilin-te- 4) Molybdonyl--2-oxy-l- nauhthal-anilinate. 5) 2--(.,-xy-1--naptit~ial-p--niti~oanilitiate (11molybdenyll' is :--A-scing in the original, the reviewer). 6) Molybdenyl-2-oxy-'-naDhthal-D-a-ii-sidi-nate. 7)Molybdenyl- 2--oxy-1--naphthal--p-tol'aidinate. Some properties of the above mentioned synthetized substances are described. There are 9 references, ij of which are Soviet. Card 2/3  --- ------- - -- The Intra-Complex Compounds of the Hexavalent SOT 1-56 56-1-14/46' Molybdenum With Several Schiff Bases ASSOCIATION: Kafedra neorganicheskoy khimii Moskovskogo gosudarstvennago universiteta im.74.V.Lomonosova (Chair of Inorganic Chemistry of the Moscow State University imeni M.V. Lomononov) SUB'MITTED: 'September 25t 1957 Card 3/3  AUTHORS: TITLE- PERIODICAL: ABSTRACT: Zelentsov. V. V. Nesmeyanovv An. N.s SOV -156 -58-1-15/-.16 5avloh? 1. A. The Inotopic Exchange ini Some Intra-Complex Compounds of 11exavalent Molybdenum (1zotomy obman v nnkotorykh vnutri- kompleksnyk,h soyedineniyakh shestivalentnogo molibdena) Nauchnyye doklady vysshey shkoly, Khimiya i 1-.himicheskaya tekhnologiya, 1958, Nr 1, PP- 59 - 61 (USSR) The authors proved already earlier that the Schiff bases which develop from the condensation of o-oxy aldehydes with aromatic amines2 may form intra-complex compounds with a molybdenyl ion.. Some of their properties are given in short. In order to explain the structure of the compounds discussed it was necessary to determine the character of the bond between the central complex forming group MOO 2+ and the organic radicals. The authors assume that the 2 iaotopic exchange in of the criteria which make possible one the further investigation of the naid bond. The difference Card 113 between the jjo02+ -ion in the complex compound (bottom phase) 2  The Isotopic Exchange in Some Int-ra-Complex Compounds sovA56-58-1-15.146 of flexavalent Molybdenum and the same ion which forms a soluble molybdenyl salt in the solution is to be investigated here. A lacking exchange would speak in favor of a covalent character of the bond. If an exchange takes place, the bond has a more or less ionic character. The authors investigated the exchange degree and the exchange velocity of the group M0021of the dicyclical intra- 2 complex compounds. Absolute ether was chosen as medium, though the exchange velocity was much reduced by it. The production method of the used molybdenum oxychloride is described. The active intra-complex compounds were produced by the action of a corresponding Schiff banoon the molybdenum oxychloride, Table I shows the molybdenum content in the produced prop,,rations. The results of the measurerientq of the exchange rea:2tionr; of the intra-complex salts are given in tables 2 and 3. Table 7j shows that-the exchange -.-eloCil-,,,- 4~ gr-adually reduced with the prolongation of the contact duration. This may be explained by the low diffusion velocity in the solid phase. In consequence of this the specific activity of the surface layers of the solid phase is reduced and -~.pproaches the specific activity Card 2/3 of the solution. The existiln,~ exchange shows that the bond of  'Ina frWim-MU121- [H~ OEM The Isotopic Exchange in Some Intra-Complex Compounds SOVA56 -58-1-15/46 of Hexavalent Molybdenum the ion TAoO 2+ in the complexes has a mainly ionic character. 2 The difference of the exchange velocity is explained apparently by the different solubility of the complexes here. There are 3 tables and SoViet reference. ASSOCIATION: Kafedra neorganichoskoy 1-himii,Uoskoval-ogo gosudarst-nrogo universiteta im. Y. V. Lomonosova (Chair of Inorganic Chemistry .~f the 1,11oscow State Uhi-v,6rsity imeni 14.V.. LownPsav) SUB1,11TTED: September 29, 195', Card 3/3  SOV1156-56-3-15152 AUTHORS: Zolentoov, V. V#fl Savicht L A., Yovdokimov, .1. B. TITLE: The Investigation of the Jagnetic Susceptibility of Internal Complex Salts of Copper With o-Oxy Aldehydes and Their Azo- meiine Deriv6,tives (Izucheniye magnitnoy vospriimchivosti vnutrikomplekenykh soley medi a o-oksialldegidami i ikh azometinovymi proizvodnymi) PI-3110DICAL-, Hauchnyye doklady vysahey shkolyt Khimiya i khimicheskaya tekhnologiya, 1958, ITT,3, PP. 465_469 (USSR) ABSTRACT: Ten new complexes of copper were produced and some of their properties are described, In table 1 the formula, the external prop,erties,and the content of,,copper and nitrogen (found and calculated) are given. Three of the 13 described complexes Alere synthesized according to the method of Pfeiffer (Ref 1). The -magnetic SUSCeDtibility of the .13 copper complex com- pounds was measured; the results are given in table 2. The effootivo magnetic momont of thono compoundo io botwoon 1,73 and 2j08 Bohr's magnetone; this agrees well with the theoreti- Card 1,12 cal value of 1,73, as the latter was calculated by taking  SOV/!.156-58-3-15/52 The Investigation of the Magnetic Susceptibility of Internal Complex Salts of Cppper '11ith o-Oxy Aldehydes and Their Azometine.Derivatives only the spin into account. Considering the magnitude of the magnetic moment the authors assumo that a)-1 the complex compounds of copper they invosti- gated have the name structure with sp2d bonds. The magnetic susceptibility was determined by Faraday's method tieing a magnetic toraion balance. The latter was constructed at the Laboratorylbr Catalynic and the Electro- ch'emistry of Gasea of Moscow State University (Laboratoriya kataliza i gazovoy elektrokhimii MGU). There are 2 tables and 13 reforencea, 1 of which is Soviet. AS30CIATION: Kafedxa riaorganicheakoy khimii lioskovskogo p-o.,iucturstvenno.vo universiteta imeni M, V. Lomonosova (Chair of' Inorganle Chomintry at Maticow Stato Univoralty Imeni M, V. Lomonooov) SUBMITTED: March 3, 1958 Card 2/2  P.M.; FOW4,OSHITAF N.A. 'Comparison of the atructure.or crystals of Inner-COMPlex compounds of nicke%~and cobalt group 9-01,. Zhur.strukt.khim. 4 no.3t455-458 t 6) (K= 16t6) 1. Moskovskiy osudarstvennyy universitet imeni. Lomonosovao fNickel c0impolands) (Cobalt-compouzid6) (Crystallog~apby)   AUTIiORS: '-OV/156-58-'-15/49 A., TITbk;. The Magnetic Suoceptibility of the Innor Complex Salts of Nickel Na-nitnaya vos-riinchivoat' vnatri1komplekanykh ooley nikelya) FORIODICALt Nriuohnyye doklady vjaahej shkoly. Khimiya i khimicheskaya tekhriologlyal 19)0, Nr 4t I)P 672-075 (US010 ABSTRACT: In the present paper the change of the magnetic properties, and the structure of the inner complex salts of nickel in denendence on the nature of the addenda was investiaated. An inner complex salt of nickel was synthesized with an o-oxy- aldehyde for the first,time. These compounds possess tetra- hedral structure and are paramagnetic. All complex compounds of nickel with Schiffts bases are eithcr paramagnetic or diamagnetic. It was shown that the differences of paramagnetic and diamagnetic propertie-- of complex compounds.are. liot always characterized undoubtedly by colors. The addenda do not exert any decisive influence upon the magnetic properties and coloring. There are 2 tables and 7 references,,2 of ihich are Card 1/2 'Soviet.  JAIN= The Hagmetic Susceptibility of the Inner Cmnplex Salts of SOV/1 56-58-4-15/49 Nickel ASSOCIATION: Kafedra neorganizheakoy khimii t1onkovnkogo go3udarutvennogo universiteta im. M. V. Lomonosova (Chair of InorgaiLic Chemistry at the Moscow State University imeni M. V. Lomonosov) SUBMITTED: April 23, 1958 Card 2/2