SCIENTIFIC ABSTRACT KOVALENKO, V. A. - KOVALENKO, V. G.

 L 8191 66 1 'S.- IU i lid CO' D L.', 'URjJ13Y64/00 01 004 kCC Nks ~AVIP022295.1i kv~)- j0j: 1053.0601/0, 4011S S Ye. L; Busol, F. 1. AtITHOR: Yuf brovt, vo B.; kjm%le~ i Co V. A. Skibenko Acnevs !~ji ftsic -rSSF of Se otechnital Institute (Akademiya neWc LA ~riziko- I-ekhnrtWCk-Ly inst itut) T!, TITLE:, Sups:tsonic tgdztg an st Allm in a Vacuum SOURCE: AN 1*rSSR. Fimiko-tekhtlicheski Ansti-tut. Doklady no. 053/P-012, 1964 "verkh ov4ya stru Jvroda'i'v vakwzie, 1-4 z ~~Wc -ya vc, cle: ~69am,. krdrogen plasma, plasma heailrg XOPIC TAGS: suvei-ionic f low., 1~iki A o~:!:th~'nea ind means.of ucing superso nic hy- MSTRAC;": . brief dikusApn. _prod drogen ilitremi by means of new crtrogfrilEi ec niquis.is presented. The apparatus and experinvintal conditions- al-,e d;S-C1,iAbed iii.earlitir papers by the authors. nie critical problem 'is the . amount of 4eat - tt't'~ M~sf er from the gas to the helium-cooled walls of tbe charpel; it Is onto orler.:h4j1her' thaii~ tha,t measured in othar experiments withar- A;;on and.,C02.--~ It was found, that:!I:he pre:ssure in the. flow was not detemined by the -low coi4itions, alone~but the &Uo by Urge.tinapprature dif fer4ence between liquid liellum iiind the vwfa6iia 11 c6ntillat Withlbe strega. These supersonic streams can be Cue si!!uUy,used for the chargfi:~exchaqje schevies used with intense ion beams needed ces -or iie -oduction (if hot planmas. Orig. art. has: I Wral Iiijectdon techniquev: in the pr WB CoDr~z .2v/ aUBM DA-M.- it:!~00/ ORIG'.REri oos/ OTH FEN 001 CIMA 1W  KCVALENKO, V.A., in7h.; YAVITS, S.N., inzh. Results of the fiold tests of moments acting on the blades of the gate appare,tus of a reversible-blade hydraulic turbine. Energomashino- stroen.if) 1C no.W.2-14 Ag 164. (MIRA 17:11)  insh. AROIZION, A.Ys,.,, lmmd. tolitm. nuakIL KI Ztudy o!:' the v2brational reliability e the runners or the Ijydr:auI:..c turflime of U-se Kraompyarsk Hydroelectric Power Station, [Trtji~yl LMZ no.1301:0--195 064. OMA 18:12)  AROISOIN, A.Ya., Rand. tekhn. nauki KOVALFNKO, V.A., I:izh.; YMILEVSKAYA, M.A., An!~,h. ::_l - Stud), of the vibralUon of the ruziner of P- turbine of Une 1~ Prat,lk llidrc--.)Iectxlc Power Statlom. (Trudyl L14Z ric.1f.''' 161-168 164. 18:32)  mt~~Imil- ffmlmpmll~mmm~~ 1 11 ~ - , t -_ - . - 11 - ,. r .~- , - ~ - 'I- --~ ~ -I - : , : ~ ., : ~ 1~ ~. 1 L - -.. . , ::~ :- , -, ~ d - - -1 ~ -~ ; I ~ !'I -.: . :: t ~:1. ~1. , .  A~TA (W) 21M PIF( i) /ZlIP (t' FA)" t i1V UR/00ti7/65/035/008/1522/1523 ACM31ON R R AP5020744 C10 -A.; Skibankos AIMICIR.1 Yq1ferovL_X. 11.; Koval-4nko, V, Ye. 1.1 Busol, Fe L Title t Superson drqen n a VOW= SOURCS: Viurnal tokhnic! ~es:ko~it, fizilci, v. 35,: no* Bi 1965, 1522-1523 Tom TAGS C gas Jet,~Sujlerso'fitc flow, Aiydrogen,~'vacuum particle accelerator tar- get, charge exchange lit r0 AMTt.Wrt. ~'The ~autho:rs hi ive pi ~Wuce& and -Investigated supernoni. jets in vaout:i Inp zus.Lng the sonic ii)jOnrai-AS, 'and tCC141q uOS that they and collaborators linve Proviolmly employed to pi,oduc4i;7ufid invostiltato CO~2 , Ar, andI N~-) jets (ZhTF1 33, No. 8, 1S'33*_Sb rizi)(h plasl:iy i upralilynyomogo term. nintezin", vol. 3, p. emy 294..Izd. AN WSR Kiyev;..: 196'i ZhTF 34 No.. 12, 196,1; ZhIrlt, 33, 100, 1963). Tile exper Luienti-3 were under t a] -on W 4:t aus e of Ithe uiefulnesn of hydrogen Jots ari charge excheage targets ~or proi:uclnp-~;high eimrg' nautral atom beams for injection into thern-DriuclDar devices. idifieulties arise frOm the low heat of vaporization I tb mov th liquiJ hollum that mus I Ie usgd to re a 0. hydrogen. With a hydrogen Iltm of 6 CO/S60 t4a pre Issure In' the Ourge enhanq5o'climber was approximat6ly 7 x 10-5 W Hg. it is believed that' by W'jiroving the tharmal insulation of the condenser it Card   ACI: NR,, ATC008842 ME CODE. UR/0000i65/000/000/0040/0044 AUTHOR: Boravik-, Ye. 1 ~ko V. A.;-.Ik benko,.Ye. Yuferov, V. B. 1:2 ORG: no ae TITLX: Ionization of fast ky"'11'-n -a-toms in a,strong magnetic field SOURCE: AN, UkrSSRS ftgwitRilye l0rushki Wagnetic traps). Kiev, Naukova dumka, 1965, 40-44 -TOPiC TA:;S: - magnet it- fiej!d j., hydrwen plasma gas ionization, charge exchange,, plasma p~~Ysic!:, j atom favit part Lcle a are gi- C%om pi ialiminary exp ariments on determining the f raction of ABSTRACT: Dar, iven ct-hydrog-11n atoms with an eni:irgy.02 30 kev ionized by the Lorentz force in a magnetic fie ld vi th an intensity of , op to; 60 kev. In ntrast to Sweetian's experiments M.R. Sweatmafi,i Nuclear rusion Suppl. 1,4162, part 11 P -279) where the quantity a was evaluat- ed: from Tiihe. strlewn of fast atoms; generated during charge exchange between trapped ions th!:i authors. of this priper tjoasured directly the number of ions formed when a bean of -.:Ieutr~:ahydrogen atrois pi0ses through a magnetic field. A strong magnetic field waii produced by two ci,.ipper solenoids with internal and external diameters of 5 and 22 ci re .s),-)ectively. Tbo solqnoids were CODIed to low temperatures and supplied Cord  L 24047- 6.6 ACF_NTR_~.iT_6068842 by -a bai 1:~ery -of cIapacitorso The;!,b:uildup tine -:for a maximum field intensity of about 60. kilogiuss in -the center ~i),f tho!: gap between the coils.was 0.26 seconds. There was a 4'.596 r:lduction in-the fie-L& at;:Ii radius, of 2i. 5 cm. from the axis. The beam of neu--, tral:hydm charge exchange between an ion beam and a super- gen atoms was pr6 luced ~by sorldc e I; -of ~:,,arbon dioxide fr6zq t-j% on ~ a. surface cooled by liquid hydrogen. The charge exchange targat was 0.9 Mei.ars fiun'the axin:bf the magnetic system. The fraction of thc part icles ionized. in .thq cenj:i'al region of the field (with a radius of about 2.2 cm)! vas Aeter-Uned by simul taneol. mly measur,Lng~ the equivalent "current" of the neutral atces ani-the ion current t'IkvugL the central collector (see figure) situated with re- speict to1he ~I>eam and. to. th 6 tiiol'Dther collectors (input and output) in auch a way DiM,ram showing the location of the ion collectors in the magnetic field: 1--beam of hydrogen atoms; 2--diaphragm; 3--. c tra ~n Iregion of Oe field; 4--input collect- :1 or; 5--central.collector; 6--output collector ~tbikt allions formed in thl~ 1*0 pu are Incident on the central collector due to azi- Card 2/  L 24047-t 6 ACC NRs AT600842 0 mutbal drift in the nonho;ao-teneolo''field only ~For the case of fields exceedinj 2 kilogauss. In the dase of 14eaker 'fields, same ~ of the ions fr4mi the central region 01-C incident on the input and a--.itput j~ollectors ant] when the fields are still weaker (be- 1 low 12-15 kilogauss) not one of the particles ionized in this region of the field can rea,'ch the centval collectol". A ciirve is given.showing the fraction of atoms ionized .in them ce~atral region of th,o fiell as~:a function of field intensity. A comparison be- tween this curve and the da ta in J:he . literabm-.~- on ionization thresholds and regions for! indii1dual levels of thwi hydrpgen atom with a given principal quantum number n shcws that atoins with it 9 are i6nized in magnetic fields ranging from approximately 32 to 51 kilogauss. Ionization oi,,-,,atoms, with 11 = 8 takes place in still stronger fields. , Zven in extremely :Arong! fields, a continues to grow rapidly with an increase inIH.. In'some experiments':,,he':cuii~,ent tbrougli~thevutput collector was much greater then coul,j hava been eicpept:~d for%~'X_"idual gas's ionization. This shows that a consi- d6rable nipber of ogew~itoms,vay have.beenfoxcited to levels.which allowed.them a -mean f-me path ~of seveiral orntimetpra in strong magnetic fields without ionization. Orig. art,. has.' 3 figure114'. SUB. CODE: 20/ - SUM DVEt' :20Dct65/ ORIG BEr: 004/ OTH REF: 005 Cord .3/3  77 7,7 77:77- 4. ACC NRII 1%T60013849 !GS/jT/%PCE! CODU Ult/0000/65/000A00/011-3/0115 1j) C) Pufeiniv V. B~; Kolalenk0ii~~, AUTHOR: ),_: V. A.; Skibenko Ye. I.; Bu0*1 F. I, ORG; nonn TITIE: A s el:"onic, !!Ekk4 O~' jet 'a vacuum UP I ieV V` Haukova dumka, SOME: IN -UkrSSR. ME40itn ~~t , (Mag netic traps) K -TOPI.C. TAOI;~: y I ~Sq;l plaw"a ?r ics"01ASMIjett plasma phys 014 ~:Gjl n 'are '-,ABS,RACT:,; 1 4 -b6" Ohl ~~idn the;use pi Ai6nttl of enic t 'phn ques for-genera, e M s urso-h c -of similar tech-- :ing a 0 w hithe basis-6f the succA - ssful 3e use - - : , !0 ni, eriting supei -je-tG Of CO 2 2 ques i;-k6n ~Vcj dc-gpii`,~, Ar and N . Thf, problem is.complex - - atec RUZ z 7 since INF ft-CM I I standpoint surface on which the hydro&n condenses must be cooled by liquid Wiwi. Pr Aimin; ,~ry ~ experimen to heive shown that a hydrogen jet may , , be generated under condition i vheziii7 the thamal load on the cooled surface is 10-3- 2 'the t S ~-10 w/cu. I hus evett when.. vDal loads are high, heat transfer between the ed I ion. It was establish liquid helium and the vall 1~ sufficient for hydrogen evacuat that' the cptimum target: thidmess Vor a hydrogen ion energy of 25 kev is reached at a hydrogen I low rate of 45-50 A Cuirre is given sboving the pressure in the charge exchange chumber as a funetton of the hydrogen flow rate. The pressure for it CCWd, 1/2  L 24*51-W 7 C. NR AC ! hydrogen, Jet Is more tban em r ~'bf ix~nkttoe higher than In the case of carbon di- di] oxide and , uson jets specla neal lurewnts, Aimed that I the reavon for this Is the e cons iderab 1e teoperatme. OM i 46, the iq ibet~, jL v4d hellwand the surface of-the Conden. ser. The ?xper Ivental 4ata I thow t! 4i a ~ suptbralonic bydrogen jet may- be used for chame excbame cF Intense iml wbere a hot plasm is generated bylu- jection of fast neutreJ7~W'__~_ it;. Aeuterilse atcns. OrIg. art. has: I figure. Sev.0 SUB COE: 26.1 StVLlAl t4-5/ wo sErt, oov,,: m REru.on -StAd  L 47037-16 ~IuT (m)~ ow~(t)/gjj '~i~36) AT/JD ACC NRs AP6%,98ol SOURCE-CODE: -tjR/0089/66/021/002/0130/0131 AUTHOR:1 B0 B. (deceased); Busol, F. I.; Glasov, B. V.; Kovalenko, V. A.; rovi Ye Skibenk,:i, Ye. 1. Yixrer6v, V. B. OX: n*ne TITLE: VG1;-C"!- cryogenic via,3net c trap SOURCE: Atormaya energiya, Y. 21, no. 2, 1966, 130-131 T) A CT A.I.F 17 C. TOPIC TAGS: Amagnetic tray', hydrogen plasma, deuterium, plasma beating, plasma in- jection, cryogenic liquid coolinil/VGL-2 magnetic trap Of-Vivre- ABSTRAC.:': Since one of the meanij of prodiLcing a hot plasma is to inject intense beams o-." fast neutral hydrogen or deuterium atoms into a magnetic field, where they can be :' onize'd, the authors describe the processes accompanying the filling of a sma~ magnetic trap in which a alrongmagnetic field is produced. (Fig. 1) The trap dif- fers frcm earlier designs in thaL the strong magnet* field up to (105 kG) is pro- duced by a copper coil cooled wiLh liquid nitrogen~lwhich is also used to cool the outside of the vacuum chamber ana thus periTts a vacuum as low as 5 x 10-10 Torr to be mainlained in it. An A-rdenne type source is used for the hydrogen-ion beam, the charge (!xcharige beirig in a super:,onic C02 stream condensed on a surface cooled to 20.4K. The fraction of th-t neut.ral beam ionized in the vording region of the chamber Caid 1/3 UDC: 533.9 Al  L 0037'('66 ACC NRt Ap6vaqfti Fig. 1. Diagram of VGL-2 trap. a- section along boam, axis, b - alonp field axis; 1 - ion soix:-ce, 2 - charge exchange chamber, 3 msgnetii~ system, 4 - vacu,,m JaF*et, 5 - beam 4 alet, 6 to PUMP, T - h(Ii vbondensation IIUM ;en pump. nitrogen screen pump, 8 ~Kc~. ,aid 2 LC 7 -2  L 0037-66 i.CC,--N'R'-., ---- -,- -- AP60;29801 %ras of the order of i x j..,)-5. 'j,'he plasraa density was determined from the intensity of flux of fast atomo learing the plasma as it result of charge exchange between the ions and the residual gas, and IL1130 frora the value of the i8jected current in the trap. The valuer obtained were lu (3-4) x 107 and -- 3 x. 10 cm73, respectively, the difference being due to a small redistribution or the ion velocities in the plasma. Orig. art. has: 2 figureu and 2 formulas [02] SUB COLE: 20/ SUM DATM O3-AI)r66/ ORIG RIX: 003/ OTH REF: 003 / ATD PRESS: 5089 rard 3/.,  ACC INIK. ARG034630 SOURCE '-'ODE: TJR;/02701'66/000/008/0()07/00()7 AUTHOR: Kovalenko V A~ TITLE: D,~terndnation of an approximate azimuth from two observations of the same star SOURCE: Ref. zh. Gcodezi3 a, AW. 8. 52. 56 REF SOURCE: Geod. , Icartogr. i ,;.erofotos"3rem Ica. Mezhvoc]. resp. nauchno- teklin. sb., vyp, 2, 1965, li,-23 TOPIC TA13S: theodolite, geodesy, azimuth, star, stellar observation ABSTRAC".: A method is dcscribed which consists of usinrr a simple theodolite to rrake 1,A o alt-,"J.-udinal-azimuthal observations of an arbitrarily selected star before and after- it crosses t-.ie mer-idian over aeriod of I to 1. 1/2 hr. No astronorni,:al yearbook or wi;tch is required, anI it is sufficient to know ';,c latitude only approximately. The principle underlying the rnethod, the sequence of o",)serva~;ions, and the computati:in formulas are presentea and discussed. An example i., igiven 6f observatl ion pr:,cessingt arid aziraut~'-, comput:,Uilon. The pro- 7 j)C: Zord 1 / 2 5'-;:1. 283  jACIC NR.- ij-p. ;0 posed rnetiiod makes it possible to determine the azimuth a terrc~s'r-al obiect within an arror of [Tr~.nslation of abstract] SLT13 CODj~-: OS,. 08/ -4 C,.,d 2 2 - - - - - - - - - - speaking formui~ (1~ :[a not prec-"ise* Tho f 'Vi t omotric h at effect cvnsistu of twD parta: a) a negativ; abso"rption effect,, charac- torizing the docay and absorption of the aeldar7 component of cosmic ra7a in t-he atnosphere; b). a posilAvo effect! caused by the change of the Caro 1/2 UDC: 523.165  ACC NR- AP7008936 genera:tion of the second-u7 canponent. In Soneralo th4 quantitative relation of theze effoct3 chanj;es with a change of h,X The barometric coeffi~,;ient ~j is a functLon of h and is dotanxined b the expression dI/Lih /.I (h). it ro2lows From with the bound,Lr7 cordition lih ho .0 h' exp ~kp (h)dh ho 11!;ing (h) (3) ccui be vscd for computing tho anticipated 6ian.-,e3 1/1, for dif foren'Z. gutoff rigldities R when he 7.60 wm Hgo 'rhesa results for 1.1 - 3, 4-5`4 6.4 and q.5 BeV are given in; /a tablq. For comparison the sax,) table give.-i the prodic'""ed changes ~jflo for 3BcV, on the bazis of for)=14 (1) with const for h,,- ho. The errors in this c as e Ad'O 1' -00 mm.Kr,- are 0.1,, 0.2.. 0.1~, 0,7P 6 h XO, 20, 3C, 40, 1.4 and 2.1%. 'Irtiose errors are :rather in comparison with the accuraq,r of MaQrdirig tho neutron compononil, ty modern instnimentso Orig. azt. has 1 3 figuiva and I table. IRS: 3806  ACC NRiAT1,016819 SOURCE CODE: UR/0000/65/000/000/0148/0151 AUTHOR: Glebov, I. A.; ~~cj 6. 1.; Kovalenko, V. B.; Vadaturskiy, V. M. _S.inov, ORG: none TITLE: Resalts of an investfig-.ttion of a contactless synchronous motor with rotating serniconduct(Jr rectifiers SOURCE: AN SSSR. Institut e.ektroinekhaniki. Teoriya, raschet i isoledovaniye vysokoispol',-;ovannykh elektr icheskil:h mashin (Theory, design, and research of electri.cal machine-ry in constwit use). Moscow, Izd-vo Nauka, 1965, 148-151 TOPIC TAGES: synchronous motor, ci)ntactless synchronous motor, ABSTRACT: A contactless.exc-itatior. system intended for a 1000-kw, 6-kv, 113-amp, 750 -rpm syn'_-hronous motor (%;,hose field winding would ba supplied by rotating semi- conductor re ~-tifiers) (see figu:ve) wais tested by IEM and TsKBKEM_instituteo. The fundamental difficiilty with rectifier I reakdown by overv~fi~'g'e_s_a_rising during the induction-vale starting was overcom(! by introducizig protective "tervit" resistors or silicon. thyrif~tors. During the starting period, the positive -half -cycle rotor current  ACC Mi ATOiWiq a C ee* 1~4 CD 4.2 ~ -V I n I dt. I. 0 Erl 0 OBD 8 CA] M Aj .44 ontactlesa aynchronous rnoto:r.' with rotating serniconductor reclk,'iers flows through the rectifiers and the negative- half -cycle current, through the thyristors. The motor behavior under such starting conditions was tested on an actual 1000-kw synchronous motor. Alai), the exciter short-circuit through the thyristors at each negative half -cycle, during the pull-in period, was investigated and steps against this short-circuit were developed. A blueprint for the above special exciter was compiled. Orig. art. has: 1 figure and I -table. CODE. 09 / SUBMDATI'a 04A--'Ig65 OIUG-REF: 002  L_45519-56 EWT(l) GD 'ACC NR: AT60168ZO 30URCE CODE: UR/0000/65/000/000/0152/0161 'AUTHOR.: Glebov, I. A.; Brilliaitov, L. B.; Vadaturskiy, V. M.; Kovaleako, V. B. ORG: nc ne ,TITLE: Induction starting of contactless synchronous motors with rotating semi- 'conductor rectifiers SOURCE: AN SSSR. Instimt ele~tromekhaniki. Teoriya, raschet i iBsledovaniye VYsokois?ol'zovannykh ele:rtr:1che 91cikh mashin (Theory, design, and research of lelectricaL machinery in constant -.ise). Moscow, Izd-vo Nauka, 1965, 152-161 :TOPIC TAGS: synchron s motor, contactless synchronous motor Ac+,;~c -,-4- ABSTRACT: As consider;4ble ovcrvoltages arise across rectifiers during p ,induction star-Ling (M. P. 3arret, RGE, 1961, no. 9), two methods are suggested Permanent shunting of the rotor winding by a for limiting these overvoltages: linear or nonlinear resistor; the values of an ohmic resistor and a "tervit" va.ristor and losses incurred by t,'iem are calculated for a Soviet-made SDN-1000- 750 synchronous motor; ('16) Permanent shunting by thyristors (G. M. Rose Lberry rd -1 /2.  1 45519-66 ~AGG'NR:'_ AT6016820 Applic. 3nd Ind. , 1960, n-j. 49); this method was experimentally tested on an exciter model. driven by a 30-IcNv synchronous motor ("Engineer L. M. Vay sman took part; in the tests"). ~t is fot-.nd that the second method has substantia advantages. However, thii thyri,;tors suffer overloads as a result of short-circuit' conditioi,s during the pull-in perod. This necessitates some measures for Jimiting the short-circuit currents (such as reducing the exciter magnetic flux, -inserting resistors into tlkyriSt03 circuits, etc.). If the synchronous motor is started v;ith the exciter fi~~ld-circuit closed, the motor starting torque will be lower in the first method -)r the pull-in torque: will be lower in the second method. Orig. axt. has: 4 figures and 6 ;'ormulas. SUB CODE: 09 SUBMDATE: 04Aug65 ORIG REF: 004 OTH REF: 00 . Card..' Z/?  4- AUTHOR. Kovalenko, V.D. 3' 2-1-4-330/67 TITLE: --me-tpeot: al Ana:lysis of Coppe:,--Mangares~! Alloys (Spektral' nyy anal-."Lz ma~_ncmaqfintsevykh ligatur) PERIODICAL: Zavodska~ys Labor,-tor' ya, 1958, Vol. 24, Nr 4, pp. 1+55-457 (USSR) ABSTRPAM Investigalions wire carried out with the assistance of the labor- atory woA(er R.F,Shlekhina. The possibility of app'.1ying an electric arc.- as vm1l as ~i. spark-producing light source was iwvestigated and in both case.i the me Lhod of three standard samples with a ISP-,12 spectroj),mph with spheriiDal conaenser was used. In manga- nese analyUs it was f owia that the alternating curreent electric aro has an insuf:'icieut ooncentration sensitivity and that manga~- nese exerclses c()nsiderable in:fluence upon the iron spectral line. The excitalUon oj' a spark- exci ting spectrum if a copper electroae is usea re,paires at least 3-3-5 amperes, whereas in the ca-ge of iron.- or -.mickel i-lectroacs stability of di3chare_ is attained also at amperalpis of less than 2 aq)eres. As with an increase of manga- nese aonotmitratic~n the intensity of 1-_'ne.,3 in oVper diminishes, a Card IP nic&el eleutrode k~ras w9ed and vrork was carried out with 2 amperes.  The Spectral Analysis of '4'oppex%-U&ngar_,eze Alli-Ts 32-2)+-4-30/67 In mangane re concentrations of abo-at 40% it wan obser-tea that a turning pe::-iod ol' 10 minutues izi 1-1he optimm, whereas for aetermina- tion of irx_ or-3.3 I miau'.:e was riec-essary. Bxpo;3~_r-; lastp.3 40 s...c. The speotni were photometrizzed on a MF -2 m~craplhotometer. No in- f_2~aenna mj- found to 'be exerc.".s by mangariese op- the determination of ii-on. F:,Dm a gLven talsla -the aifferenct! of reiult-,,t obtained by aetene-nat:.ons ca~rr4,ed out by thte spectral- an] by the ch-.mlcal metho;;] my be seen. This is iv,~sumf.-J to be oat;,ged by the insufficient accuracy cii' the ].:Mer method in. which, Aen determining manganeser a aifferenne of 1~1'1 ms fctuid in three samples a-rd of 0.4% in the cast of izim. The aerila4liorts cf the 16vio met'~ods a-.-, hom, ver, with- in Vm perni-itted !rr,-lr limitZ. The method describea has beer. emoloy-ed ic_ indu3,;ry for 2 yearB withott ary faulty analyses being noticad. Vera ar!t 2 figurea and I table. ASSOCIATION: Kallvzh~Wv t-urbi=yy zavo3 (Kallv,%~, Tur"bine Plant) l.' Copper-nvinrranes~l alloys-Spectrographic analysis 3. Electric t~ discharkes-.-Peffornance 2 Card 21 ..  280) 05735 AUTHORS: (1) Petrov, I. K., (2) Yovalenko, V, D" BOV/32-25-10-24/63 TITLE: News in Bri.-if PERIODICAht Zavodskaya Laboratoriya, 1959, Vol 25, Nr 10, p 1215 (USSR) ABSTRACT: (1) The aut.'Ior su,rgests a method of determining the surface moisture wh1ch is based on a reduction of buoyancy of the sample in water. 1' on d:.pping the sample into water the whole moisture passes over into --.he wator, the buoyancy will only depend on the weight of the sam,,~le itself (without surface moisture). Two variants of deternination - a hydrometer method and a balance method - arii desc:,ibed. (2) The author re:)orts on the preparation of standard samples of the Mts..',' allo:,. The spectrum analysis is similar to the one described int V. D. Kovalenko, Spectrographic Analysis of Bronze AZh 9-4, AlVe 9-2, OF 10-1 and of Nickel Silver NMts 65-20, Material of the Ttientrallniy byuro nauchno-tokhnicheskoy informateii tyazht-logo mashinostroyeniya (Central Bureau of Scientific--iecbni(:al Information of Heavy-duty Machine Construction) whi(;h paper is in the press now. The chemical Card 1/2  News in B:~,ief o5735 SOV/32-25-10-24/63 analysis of the st;andard samples is given (Table). The mean arithmetic tirror )f determination is 7';fo for 119, 8% for Si, and 2.5% f,:)]- Ili. There are 1 table and 1 Soviet reference. A330CIATI(II: 1) Kutaisa~oye konstruktorskoye byuro "Proyektpribor" Kutaii;i Dnign 0:'fice "Proyoktpribor") ~2) Kaluzhi3bAy tui~binnyy zavod (Kaluga Turbine Works) Card 2/2  T Ire, DIXIZER, A.A.; DZ YTJB 1, M.L..; BLINOV, I.F.- kandidat sellskokhozyayst'rennvkh nauk; BOLD' TV, N.:'. It kandida~ pecLigogicheekikh nauk; GAT-GULIKA, Z.S. GRUDEV, D.I., kand!.dat 9el0skcikh,Dzyaystvennykh nauk; DUBROV, Ya.G., profewior; K0;VNj&.LAft ;1MYSINA, 0.1.; KURKO, V.I.; LEVI N.Y., kandidut d 0u'F;.r-9-Fv-e!nnyich nauk; MORDKOVICH, M.S.; POPOV, I.?. kandidut bio'i.ogichi,akikh nEuk;SAGA10VICH, Ye.N,, agronom; SILIN. V.N, zootaklinikt, ' 1, 1 TYPdISKIY. I.L., vrach; SUSHKOVA-LYAKROVICH, M.L., I TRL )mndidut wd"Asinallkh nauka, SHOOVALOV, YaJa., kancliaat sellsko- khozyaystvejn,iykh nuit; SHENIMURSICIT, E.I., kandidat seliskokhozyay- stvennyir,h nwik; YAUMLI, A.Yu., Icandidat meditsinskikh nawks RODINA, P.I., redal-tor; YUriOVITSKIT, To.l., redaktor-FErg,=., V.I., tekhni- che8ki), redallor. Dlome econom:i.cg] Demovodstvo. Moskva, Gos.izd-vo sellkhos.lit-ry-. 1956. 479 1-o' - (MLRA 10:5) (Rome sconomicis  KOVALENKO, V.D. C- Photoelectric method for determining the rate of flow of underground waters toward separate wells. Geol.zhur. 22 no.2:109-111 '62. (MIRA 15:4) 1. Trest "Ukrgeofizrozvidka". Nater, Underground) (Photoelectric measurements)  KOVAUMO., V.D. Phc)toelectri(,, rsasurawnts in borqbolea, Geofiz. sbor. no.3:73-80 162. (I-MU 15 - 9) (Photoe:Lec tric measurements) Water,, Underground)  LIZAPIEUGHO L.P,,, d-itsent; SHAPOSHNIKOV, Ye,A.; V.D.; 1031FIDI, I.A. Dutoationt wrvice for woi-Vora of the Krasivxlur iWorsted and Cloth Combine frequently suffer',;,j fl-cim angina. Nnuch. Lrudy Kub. g0s. .xed., infit. ~9:19-2E 162. (NIRA I S) 1. lz kafed-j bolezney ukha, nosa L gcrl-,i (zavedu~~mhchiy prol'. V.K. ;uprunov) i kafedry ob~-YicliDv eir' ]..viny (:~avedupishchiy zas'L. ftyabill naulci Kirgizslcoy SSH p-l'Or. F.S. O~olvv) Xubannl~ogo gosud.rix,stveiaiogc maditiinr-logo instituta.  _L 21822-i6 1W~WLVtW/ETQ('mj_6/r TXPW MAW/Gs ACC NRt AT6006253 G06ii'E CODM UR/0000/65/000/000/0132/0136 ALTMOR: 'knelt ohenko. ~5. 1. Prizj~ H. N.;. Shamravev. G. M. Zhadan.j, N. S. ...... Kovalenkoi S! ;;ntw*y, 'T. 0. J, ORG: wie 40Y ~ITITLE: 11hangee bi physicc chanAikal.propertlLes of PNTs resins and glass textolites lbased on PNTs duelto us of the atuosphere inf I n~ SOURCE - AN MwSSR. M(xUf3katsiya '~svoystv polimerov i polimernykh materialov (Hodi-, fication of the pimTertiee of po~jrmers and polymeric materials). Kiev, Naukova d,z*a, D65, 132-136 TOPIC TACS: g3.,Iss textolil e, pol~aer, solid mechm-tical property, synthetic material' structural pUstic ABSTRACT: Th~, chweii in- Pysic~iiecfianicnl properties of unsaturated polyester I P1tTs-2E-U- anti. PNTs-21M-6 resine'tind glass textolites based on these resins were ivestigated duF111-811 wir aging , 1, ti natural a6d artificial atmoapheres. The PHTs- _2E-6 reiiin ii~ baned cm el hylene t lyI mid the PHTs-2ED-6 resin is a mixture of c0 -------- ---   KTLA',jE,W,."~.,,kand, tekhn, nauk Effioien~l meUod of reducing the heat resistance of 1-rustations In nea-oater evaporators. Trudy TSNIIYS no.6004-87 154. (MIRA 18s4)  KOVALENK01 V.P. (Ylyel-) S-7-udy of the cc.ntrol sy-item cT cc-nsumers for incre&sing ths sta-- b1lity of a po-,er System. Avtomatyka 9 no,E;t6Q-63 '64. (MIRA 18,,,!)  S/162/60/000/011/001/016 IGIA02~ AUTHORS-, Perevozciikov, Kovalenko, V,F. TITIF~,, Selectica of lAtional Hot 'Sltampir- Technclogy for Bevel Gears PERIODICAIJ~ Kuz.-iechro-slitiiinpovochnoyi~~ pro-Azvodstvo, 1960, No. 11, pp,1-6 TEXI~ The ENTYAASh has carried out experiments to select a avitable technology for automatic msnufacture of bevel gears at a rate of '00.000 pieces anrually, Tt is emr)hasazed that the results cannot be applied io any other type and size of bevel gears than the type for which the inve!itllgation ha.6 been undertaken, namfil -y the driven gear of the rA3-5i (GA(~--51) automobile jear a:Oe drive (Fiu, 1 The following conditions had to lie corisidered~ 1 usin.r latest eqaipment (universal if possible); 2) foripings must nave p-elimi:%arily formed teoth; 3) the metal surplus on the for1ri.ngs must 'be uo 11aced as to make the gripping ea.,q in the automatic transfer in the die mpresji-ons; 4) max=um possable automation (between- ope:,ations transportt-tion, including automati-c transfer from one impression to z--.noth-3r) .7 was not possible to experiment with -real-size forgings and the model blanks were ;!..86 tiiiMS L311FAII,~!T. The est)ecially designed and Card 1/  S.,/182/ 0-0/000/011/001/016 A 16 .11-P 029 seloction of liationa- Hot 'Itamping Terhaology for Bevel Gears mado die set (Fiir, 3' has -A bad plate ( 1) , Lin exnhan~reahla bed die (3) atti-4ohed to the bed plate oith a clamp ring a ro,~ary disk (4) attaohed to Uin 'lop plate and i,earlng three jjunchaa,- The diak Is rotated by hand wiVi a lever inserte(. into a hole and fixed with the pin (5). The stay (6) fixes the disk. a( 'ditiorially during stamping, The punches move rapidly and the blank rt--jmain!i in ut)e bed die The toolhed punchas were made with a master tool on a v~o6fr. (.K8623) press., A set of in:3erts with exchange- abl:1 and mobile elements waa prepared fc-)r 'the final cholce of the geomet- ric die impressaon 9-~ape (PIg. 4' Lind lead was uaed for blank material. The comFensator spa(.e for surplus metal, selected finally is shown (Fig. 4,a.1, The work eff;-,)-,to ne.,*essary J'or real-vize forgings were determined by ~.alculation in ai.-~ordan-,.,a with the known law of similarity in the de- formation of reomet:r..e-,a-lly similar bodies.. Calculated maximum efforts for )ing pii.sses are shown in approximately for the 2nd and 3rd stain . gears 184,.7 mm in dlitmeter made from 18,XVI- (ILIKhOT) steel. The efforts 4. wer,:,b measured all Tsl;:ITMA"h during tests of hot crank pre3ses, (The table Carl 2/  S11821601000101110011016 A161/-AO29 Selcotion of Rational Hot :3tamping 'reohnology for Bevel Gearn includes presoures ftr leail), The effect of unoven metal distribution in rouj;hing die impresuiono (Vie to inuccurute placement of the blanks was a1sc. investigated and. a spocial. devico (Fi6 7) was designed for fixing the blank in accurate poL-ition until it enters the tapered. impressions in the upseAting blocks (2), The device is attached to the die with stays (4). The gripj (6) are s iing-loaded with tension springs (2) in axial direction p 1~ and compression sprilga (3. in vertical direction. The springs (3) work firEt in the upsettir~g prooess and the bushing (5) slides down together with the gripts and the ble,nk un,J_1 the blank enters -into the taper in the bottom b2ock, Now th !! ups(~tting begins and the grips (6) spread pulling the springs (2), Ups3t bli~nks were removed from the device by hand. The device w,:j.s designed having in view future automatic application. The 6,300-ton crank press KFW"-(1KGShP) proved suitable for stamping the gears. It is recommended to heat Ilia bille" metal for cutting to 60000 in an in- duction furnace; to heat t( forging temperature in a three-groove high- frequency induction h.aaterl to use high annealing for heat treatment util- izing the forging heat(to lace the hot forgings immediately after stamping Card 3/9  S11821601000101110011016 A)(.'/A029 Sele3tion of Rational Hot Stamping TeohnoloeW for Bevel Gears into a furnace with 6.:)0_63Vc and to )iD).d for 2-2,5 ho-urs and then to cool in aJ.r); and to remov;t scalo by shot blasting, The following conclusions are --trawn., Stamping ;)f large forgings of similar shap-i can be recommended for applioation using foiir panses (see Fig. 2Ni 1) upaetting (with the blan,!*. fixod and. soppo!,ted io described device)l 2) rou,;,rh stamping; 3) finul stampirsg6 punch!.ng thit hole,, The best shapes fo.- the die sort inserts aret 1) for up.-ettin.--,,, - a Lapered impa-easion ir the punch and a tapered cavi-;y in the bed die for t.,ie fixing p?.o*rusion, 2~ -for rough stamping - a piuich shape that onliures iistribution of the major metal mass on the periphery with unrest:,icted flow upward of the forging "rim"; 3) for final stamI.Ang - a punch sh.j.pe thit insures complete forming of the forging with- out a periphery burr, the mi~tal flowing into a central compensation cavity that has to be geomet:-icullj similar to the cavltv cho[ien in experiments. It iii mentioned that ii, stam.-,ing proceso for real-size gears has been devel- oped after the experii%ents and decisions have been taken for an automatic procc,ss project, The follo-ving persons took- part in the works the engi- neerpPj. Strukov; I_'.. Fuk,3, P,A., Petrov; F..S, Shteyn; T.I. Protopopova Card 4/ 9  S/182/60/000/01i/ooi/oi6 A161/AO29 SeLeotion of Rationml Hot Stamping Technology for Bevel Gears an(I the laboratory, iYorker A.V, Fursov. There are 7 figures. W-71 L Fig-,ire 1-, Card 5/ 9  S/182/60/000/011/010/016 A161/AO29 AUTHORS,,, Kovalenko, V,F., Sannikov, S.S., Strukov, P.I. TITLE, Calibrating a 4,000-Ton 11K,'~_~ (NUIZ) Crank Hot-Stamping Press by the Crashitrs Method PEFIODICALt Xuznec',Ino-sh-;ampovochnoye proizvodstvo, 1960, No. 11, pp-35-37 TEXTs Some f3reign firms,as well as some Soviet plants have begun prcducing hot stamj)Lng prisses of the crank type fitted with effort meters (the NIGIZ in Kramat;')rRk, I lie ZTNIP works Jn Voronezh).. The meters have to be calibrated on site aftfr installation of the press, A 4,000-ton press prcluced by the VE117, has I-een calibrated at the Gor,kovskiy avtozavod (Gor'kiy- Automobile! Plant: with the assistance of ENIKMASh,. Two NKMZ-made effort meters are pLaced ca the front, one on each column. They are scale instruments (Fig.. 1.1' reooiding the strain in the press stand that is directly proportional to Ilie applied effort, The stand elongation is determined in a 466-mm section by an indicator (8) with 0.003 mm scale divisions and 0.,05 7nm mea.,urement range, When the press is under load, the deformation in the stand julls the rcd (7) which is fixed in the top Card 1/B  S/182/60/000/011/010/016 A161/AO29 Calibrating a 4,000-Ton HkH3 (NKMZ') Crank Hot-Stamping Press by the Crashers Method. plank (5) and slideis in a bore in -the! frame (11)). The screw stop (12) on the rod (7) exerts pressuro on the measuring leg of the indicator and makes the hand swing. Tfie brake (9) of thet leg (110) is loaded with a spring set on the rod (4) and adjusted. by the plug (3). The brake holds the indicator hani on the scale 6!ivision reached under load on the press, The brake y the r(-.,d (4) must be retracted b to put the indicator to zero. Efforts corresponding to the indicitor readings are given on the plate (1). As no loading device with 4jOOO--.on effort Was available at the Gorlkiy Automo- bil,a Plant, the p~;Ieqs had to be calitrated using the Imatod kresherov" (crashers methcdI'l., I'Abstractorgs notei The term 11kresher" suggests English "crashing"j, A I'crasher~l is illustrated in Fig. 2 and is a block of '45" steel cf cylindric:il shape, The blocks were calculated for 500- ton pressure.. They were placed on especially prepared die inserts (Fig. 4 The calibration resilts ari given in Table 2, A diAgZam has been plotted from these data. (Fj-~, 5)u (it can. be seen in the table that the left ind:Lcator gave lower readi,igs, which was probably due to uneven tightening Card 2/ 8  S/182/60/000/011/010/016 A161/AO29 Calibrating a 4,000-Ton HI~M (NKIIZ) Crank Hot-Stamping Press by the Cra,shers Method of the tie bolts o,i the Icft and right press stand side. The diagram was set up using the vitan rea(l.ings of two indicators). The arithmetic mean 4 of the indicator i-tadings had to be -taken to determine the corresponding work prc!jsure in Vie diagram. The. data were filled into the table (1). It is mentioned th-tt it wculd be better to use a diagram engraved on a metal sheet- and th,it calilration must be repeated after retightening of the bolts. Some d-tsign deficiencies iver-3 revealed in the NMZ indicators. An improved indica.-,;or desIgn has been developed at ENIIQdASh under super- vision by Engineer L.P. Shipanov. [.kbstractorls'note: The ne-;,, design is not described]. There arc- 5 fiCures. Card 3/8  S/182/60/000/011/010/016 A161/AO29 Calibrating a 4,000-Ton R03 (NXIIZ) C,rank Hot-Stamping Press by the Crashers Method Card 4/8 Fig. 1 Effort indicator I- slyz  S/182/60/000/0!1/010/016 A161/~029 Calibrating a 4 1000-Tor. HKM3 (-'IIKMZ) Crank Hot-Stamping Press by the Crushers Method Fig. 2 A "crasher" Card 1*V6  511821601000101110101016 A161/~029 Calibrating a 4,000-T,)n 14KM.. (NICAZ) Crank Hot-Stamping Press by the Crasbars Mothod Fig- 3 Calibration diagram of the "crashers" ji hNN 12.8 f2.2 100 -ZOO '300 foo PM, Card-. 6/8  S/182/60/000/011/010/016 A161IA029 Callbrating a 4,000-Ton WE (NMZ),Crunk Hot-Stamping Press by the Cra:,-hers Method FiiK. 4 1- hold-down; 2-top insert; 3-bottom insert; 3 4-retaining rim; 5-crELshers NON~\ Card 7/3  S11821601000101110101016 A161/iO29 Cal:Lbra:t:lng a 4,000--~on HR43 (IIK'MZ) Crank'Hot-Stamping Press by the Cru:~hers Method 79 Jo .10 0 Fig- 5 Diagram for determining efforts 1000 24900 J'71`0 +0,70p,/7 Card 8/8  3/182/62/000/002/005/006 D038/D112 WHOM: Sannikov, S.;,.S. and Kovalenko, V.F. TITLE: An automatec die i,ith a swing punch head for pressure forging PERIOD FCAL: Kuznechno-si-tampovochnoye proiz-vodstvo, no, 2, '11.962, 34-37 TEXT: The authors descr-'be the dc,-I;.gn and operation rode of an automatic die with a swing punch head which can be used in a 4000-ton hot ::camping press for pressing Circular forgings, requiiing nct more than four transfers in a single female die. The automatic die was deieloped by the ENT!'MNSh and built at the Gortkovski3r avtomobiltn-Fy zavod (C-or'kiy Automobile tilant). Low-burr stamping using this dit, was described in an arti(le by B.S. Perevozc1likov, S.S. Sannikov and A.l. Pasmanil, publis)ed in 11Kuznechno-~htampcYochnoye proizvods,-vic", no. b, 1961. The die has a swirvy disc equipped wilh three built-in punch holders which can swing through an an-'Le of 1200, thus e'liminating n1anual transfer from one die impression to another. The press can 1e opezated automatically, semi-autaiaatically and ill t",0 s g 0 01 0 ,tages , when the press i.~ operated by a pedal and the disc swin is c ntr .1 d by a buttan. The die was tEsted trider idle conditions and under load only by the Card 1/2  I 3/1 82/62/000/002/0C -5/000 1) 0 3 6/1) 112" An autoillated die wi th latter method, due to a defect in the contrel system of the pressi in the cc!~tF 21 driv. of the rel-ir a-Ue of the"VolgaRand rA3-51 autoi-,,obAcs were f-.;,Fft&f The test!; were satisfactory and only minor defe,7.ts- ~vcre i-Cwaied. They &~izwed that the ups(tting die blocl-,s could be dispenscJ within a three-pass press :ipera-rion and th.Lt the upsetting operation could be cransferred into tLe main f-male die by installing the upsetting die block in the third free position of the disc and improving, the removal of scale from the main female die. After industrial tests and debu.gging, tile new die can be recommended for mechanization Dressune forging on 4000, G300, and 8000-ton. presse.-- for forgings weilhing up to 50 kg. B.S. Perevozch ";kcv, V.F, Kovalenko, A.M_ Korostelev, G.Ye. Werdovskaya-, V.P. S:ilov ;uid P.L. Strul'ov participated in desigiiing the die. B.S. Perevozchillcov, S.S. SLrLiiik,:)v and T.I. Protoporova from, the EN1101,M)i*, and A.I. Pasiiilanik, Yu.A. Bollsh:ikov, V,O. Korolev, G.N. Trostyanitser, G.A. Troitski)- and I.T. Velryatov from tie Go---Ikiy Automobile Plant took part in the toolin,, and tcszw- of the die. -:here are 3 fjgure~ and I Soviet.-bloc reference. Card 2/2  0 PEREVOZORK 13.3q, 3301 !aatii~h W4 wrImmatialijit preas forging operations. Kuz.-shtam. proizv. 5 no*.409-4) Ag 1163., (MIRA 16:9) 115.  K0V;!.Uli'.'Kcj if. F M V I ngiwt-ony. Mos'.o*u, SovAskoe -radio,, 1950. Titl(:! tr,: lagm- rons. SO: Aeronautical Sci.:nces and Aviation in thc Soviet Ujdon,Lilcrary of Conl;ress, 195j.  KOVALE,"K'O. V.117. Vved emic v clekl.: oniku verkhvyso:,ik.h chastot. Tom I. 11oskwa, Sovetskoe radio,, 195C. Inclia6es bil:11-o[p aphies, Title tr. : Int- duction to super-high-frequency electroni-cs. TY7872.V3K(5 SO: Acrona-iitic;,il 5(,.:,ences iind Avistion in the Soviet of Corq~ress, 1955,  KOVALENKOP V. r. VVed(!niye v Elektronikii Sverkivysokikh Chastot, 2, Publ. "Sovetskoye Radio.", 124 pp., Moscow, lq!i~...  KOUSIXIN, A.A.. redaktor; X'CRUZBV. B-N.o 101A L1W,'QO - V ,~ -_. ~ ~'r BUY'relmitur [Introduction ot sup)rhigh frequencV in electronics] Vvedenie olektroniku s1rerkhvy*&okikh chastot. Izd. 2-oe. Moskva. lzd-vo "SovetokoD raiLio.11 IP55. 343 p.Cliderofilml (MIRA 10:3) (Zlect*~oa tub's)  )lr:~ T -7 1 0 (V'") K 7','A I.Y!"' UIT ~,'F JX PET: T,"'~LAG TE'7771 19571 369 P. TT T,'Jl I A Ct-, M, OFIGI"AL 7.1-TEIST-VI: W ITIA:.;TOT. F I PI .7 C IIF A P I F 362-,i66. ir I T-1 UTFU SV--r T-YYSC-. ~fl iTV-17 -EKH Kj Ft  KARMTSKIY, F.H.;K1*AAIL1WKO, V.Y.;YA)MBOVSKIY, Yu.- V. Two-frecp:iency induction electric logging. Izv. vys. ucheb. zav.; geol. i razvo; 2 n0-7:99-107 J1 159 (MIRA 13:3) 1. Moskovskly geologorasvedoohnyy inetitut im. S, Ordshonikidse, (Bleatrio prospect inS)  TAKUB.)VSKIY, Yu.V.; NAISMO, A.A.; 4VALMIX0, Y.F. Fossibility of uoing the 'Induction constant electromag-f netio field method in prospecting for highly conductive ore bodies. Izv.vyu.ucheb.2aV,,; geol.i razv. no-3: 119-128 My 160. (MLU 13:7) - 4,- 1. Mookovskty geoloC,;orazvodoohnyy Institut im. B.Ordzhonikldze. (jilectric prospecting) 4  UIENET3KIY, F.I.I.;_LqV ;.31valuation of the duration of primaryfie2d impulooo during excitation cf nonstationary eddir currents in prospecting for highly conductive oxes. Izv* vyt;i. uchebo zave; geol, i razv, .3 no.6.-92-94. Ja 160, (MIRA 14;7) 1. lloskovslfiy geologorazvedochayy inatitut imeni S. Ordzhoni (11.1ectric prospecting) (Ore deposits)  KOVALFNKO, V.P. R ,ecording transitional processes in pyrite deposit of the (MIRA 14.-6) clouthern UrElls. Sov.geol. 4 no.6:89LI01 -Te 161. L Moslcovsldy geolcgPrazvedoabnyy institut imeni S. Ordzbonikidze. (Ura"l MountaJn region-Pyrites) (Electric prospecting)  S/169/62/000/007/074/149 K D228/D3071' AUTHOPS: Kamenetskiy, F. M. and Kovalenko,*V. F. TITLE. Quck-Acting contactor to an electric prospecting statioa for operations by the method of transients PBRIOI)ICAL: Referativnyy zhurnal, Geofizika, no. 7, 1962, 33, ab-- stract-7A216 (V sb. Razved. i pr6mysi., geofiz., no. 42, M 1961, 48-54) TEXT: The rate of breaking ~he current in the loop is of great signif;'icance in invastigal;ions of ore deposits by the method of field formation. The authors suggest that the electromechanical. switcl-i controlled by the 17elay unit should be modernized in order to increase the ccntactor a operating rate when the currents are high '50 amperes). The modernized switch's main fea-0"ures are the incrO:ASed track over which the movable contacts run and the eli- mination of the arLtagonis,L'ic clamp springs. The suggested device accel!?rates the process o. r breaking the current in the circuit by /-Abstr[Lcter's note: Complete translation. times. -7 Card 1/1     lfl~.RNMIMM Isom Ditmertation defond,lid for 1-he degree oJ-.' Candidate of Technical Sciences at the Institute of Earth Physic imeno 0. Yu. Shmidt in 1962: ""Development of Ale.-trical Prospective of Pyritic Ores Using the Method of Transient Proces-3es Und,pr the Geoelectrical Conditions of the South Urals." Vost. Akad. Nauk SS';R. Xo. 4, Moscow, 1963s pages 119-145  6 6 S/1 3/000/001/057/062 D21 %307 AJTHCNRS Kami~netskty, P.M. ar4.1Covalgp-kq TITLN; Nwviteady eddy currents in conducting covering deposits PERIODICAL: Refc-rativnyy zhurnAl, Geofizika, no, 11 1963'1 30 6 Geol abs*,~:ract LD1 7 (Izv. vyssh. uchebn. zavedeniy. 1962, no. 4, 105-112) TEXT-: In order I:o estimate: the effect of conducting cover ogging involving the ob- ing deposits on the resull:s of electrical 1 servation of transii:!nts 0 modification of inductive electrical loge-: ging), an analysis was maile of eddy currents induced in an inf inite A th6oretical calcu- plate by a loop awl an infinitely long cable. lation was completed and experiments were carried out on models as found that 115-6-msea after a step change in the primary f lds It W 4ue to the eddy currents reached 1% of,its the magnetic f ield maxixtum value, i.e. practically disappeared. Oatracter a note:- Ca~4ilete translation Card 1/1  4 MMENETSKIY P.14.j KOVAilfla V.P. Slupprerialni? the no."Lso ot a comblercial rreqiiency whon roc6rding nonotationa* elootrompotib fialdo. Razvod,, i prom, goorlo. (MIRA 17111)  L 2272,,j-~~, BVIT (1) 3 ACC NRs "AP6002916 SOURCE COM UR 286/65/0DO/04/6682/608V AUTHOES t ArA G. A. j Kovalsh~o4 V.F.., K ORO: al TITM Device for detei, e of underwater surfaces of bydrotechnic ~i -mining'~the slop 'atructuxess class 421. YO- 177,102 )y State Design Construction and L !.-Lfta Tram nil 14 ktr; Scientific RSgpvmh--Xn MFRI proye -(Q-bWir-s6v-enrWy proyekt'no-kon0truktorskiy J. nauchno-isoledovatel Rdy-1hatitut, morskcgo trarmporba "So-LimmorUdProyekt"Y SDURCI;s Bplletenl izot~rete4)- i tovarn)ich znakovo no. 24, 1965p 82 moasurinit devicep gordometer.. transducer TOPIC TAGS t attitude -pendulumj, rotor., ABSTRJ"JT-. This Author Cartifiltate presents-a device for.determining the slope of underm ational -ater surfaces of hydrotei,,hnical structures., which includes gravit pendulums nounted insidi',i a hemlietically a"Ledbody and attached to the rotor axes of ani'le of rotation tn-.nsduce!~M. To increime the measuring accuracy, the at 90P -to each other on a suppo ng platfom atiopg %re mo4inted. rti perpersdicul ar to their I 1"Lanes. i Pf rotation* 1 The Inside of the hermetically sealed ;'F body is Mled with a &jmping !rluide OgApr64 MB MYSt 1311 cara UM s ~532*291s626.022   ACCESSSION NR: AP4029218 S/0114164/000/00410033/4036 AUTHOR: Toger, Ya. J-,. (Engineer); Kov&lenko, V. F. (DiLgineer) TITLE: Deep hole drill:jag in fioat-resist&nt -steel parts SOURCE: It'.nergoinaahi.,.,.kostrol,aniye, no. 4, 1964, 33-36 TOPIC TAGS: steel, htat resistant steel., drilling, hole drilling, heat resistant steel drilling ABSTF1,AGT: A new prccess for drilling 20-30-mm-diameter and up to 2,000-mm. deep holes In ateam-ttu bine-hmsing studs made from austenitic steels or heat- resistant alloys is desc,ribed. A special 2--c tting-edge internal -chip -removal drill (,see Enclosure 1) was developed. The Irill and its extension boring bars (up to 500 -mm long each) axe conixected by double -thread unions. An interrupted drill feed is performed by a specia:. '%all vibrator" which backs the work down frbm the drill ovary Z400, tl-;ao bre,itking the chip, A "Loewe" drilling machine was, Cord 113  ACCESSION NR: AP402.9218 modernized by equipping it with the "vibrator, 11 drill water-cooling system, and a spring chuck for suppofting thi!i boring bar. Successful drilling is reported at cutting rates depending Dn the rree chip removal from the boring-bar hollow and on the weight of the woj k. Orl.g. art. has: 6 figures and I table. ASSOCIATION: Kharlkovekiy Itirbinny*y za,vod im. S. M. Kirova, (Khar'kov Turbirte Plant) SUBMUTED: 00 DATE ACQ: 0IMay64 ENCL: 0 1 SUB CODE: PRPI3 NO REF SOV.- 000 OTHER: 000 Card 2/3  ACCESSION )IRt AP4029218 ZNCLOSURZ r Thread Chi -breaking r LY Card Two-ed,am dr.13.1 with internal chip removal  KOVALENKO V.F., in-,;h. Jt-~ 1 ShBkbt. Ifoisting macliinery fir use in the sinking of deep sh&fts. Btroi. 8 no. L1: 3-8 1-1 164, (MIRA 183.1) I. Dongiprowglemash.  KOVALENY.O, V.F., itzh. Covered de: ign of cablos for mine hoisting machinery. Ugoll Ukr, 5 no.7;26-27 JI '61. (MIRA 15;2) I.. Dongiprouglemash, (Hoisting machinery)  LC~VA,ILD PROTOPOPOVA, T.J., inzh. Hydroblust cloaning .->f Ingots fr(nP SCILIC. trudyl ENJKMSha Y;tlO.3-411' 165. (WRA 18.- 6)  ip'. CN A IL"A Z""C I - l'Inw ;Li~,aticn of l -a-~ion o~' Dari- -V a- + ',--e Gmz no arjora~nrs ssert - . . - t.-*ons fc.- iii :3ci,: -~ce ant3 'Alf onril Ins t-'-'lui. I-olls ), 0-4" -a ,Iytc SC: LcLot,f.sl :0. U2 Jun For Dof~rae of Cnndidat4,, in Tec"inical Scioncim  124-11-12836 Translation from: Refer2tivnyy Zhurnal, Mekhanika, 1957,Nr. 11, p. 76 (USSR) AUTHOR: Kovalenko, 7. F. TITLE: Data on the ,-Ieat Transter durin the Boiling of Watery Solutions of Sodium Chloride and Sea WaterNekotoryye dannyyepo issledovaniyu teplootdachi pri kipenii vodnykh rastvorov khloristogo natriya i mor- skoy vody) PERIODICAL: Nauch. tr, Odessk. vyssh. morckhodn. uch-shcha, 1956, Nr 2, pp 57-66 ABSTRACT: Bibliograph-.c entry. Card 1/1  96-58-2-16/23 AUTHOR: -Kovalenko, V~.F., Candidate of Technical ;5clences TITLE: An Experinental Investigation of the Influence of Vibration on He at Transfe.r During Boiling (Opytnoye issledovaniye vli,yarLiy,i vibral;sii na teplootdachu pri kipenii) PERIODICAL: Teploenerge'Ulika, 1958, No.2, pp. 76-?? (USSR) ABSTRACT: The irfluen3e on heat transfer of vibration of the heating surface during the boiling of water at low and medium loads was in-vestigated experimentally. The equipment, illus- trated dia&~amiati-3ally in Fig.1, includes a heating tube 250 mm long and 38 mm diameterl vibrated by an electric motor. Provisions Nvere maie for measuring heat transfer. The first series of tests was made on distilled water with the: heating surface stationary. A graph relating the heat-transfea coefficient to the thermal loading of the heating surface app- ears in Fig., 2, Curve 1. Tests with a vibrating heating eurface were r,~ade in the vibration frequency range of 700 - 3 0002Per minute and with thermal loadings of 4 000 - 25 000 kcal/m hour. The amplitude of vibrations ranged from 0.15 to 0.35 mm, depending on the frequency. The relationship between the heat- transfer coefficieat and the thermal loading of the vibrating heating surface is plotted in Fig.2, Curve 2. Visual obser- vations of bciling viere also made. Although vibration made Card 1/2  96-~.8.2-16/23 An Experimental Investigation of the influence Of Vibration on Heat Transfer During Boiling some initial difference to the release of bubbles from the heating surftce at low thermal loads, no dffference could be observed with and without vibration at higher thermal loadings. The heat-transfer measurements gave much the same results and showed that -ibration had no effect on the rate of heat transfer at -.;hermeA loading13 higher than those necessary to cause modera,;e boiling. There are 2 ,'igures. ,-herSehool of/Wavigati n ASSOCIATION: Odesna Hie VCFResskoye vXssheye morelzhodnc:ye uchilishche) AVAILABLE: Library of UongPess Card 2/2 1. licating olements-Vibration 2. Water-Boiling-Heat transfer  NOVALUX0, V., kand. akhn.nauk, dots. tatting condeinsers on the steamship "Ilikolai Pirogov." Hor. flot 18 ~io. 6:17-19 Je 158. (MIRA 11:7) 1. Odeaskoyn ryssheya morekbodnoyi uchilishchn. (Condensers(S  KOVAIRM, V., kand,.-tekhn,'nauk, dots. ciroiLlatiug-vacuum evaporators. Mor. flot 18 no-9:15-16 S '58. (MIRA 11:10) l.OdesBko,r;) voyeimo-iwhonarnoya morskoye uchilishche. (Boilers, Marine) -  I:OVAIJ9;KOO V. F. "History, of +,)to Dev,slopment of the b;lectron-Ray, Talies for Microwaves." Iz. Ak, Nauk &';SR. Stir. Fi-a.,, 4., No-31 194o  ROVAL-INKO.-V.F., karl. tellm. nauk; LUKIN, G.Ya., kand. -teklm. nauk; HOGAIEV, B,M., inzh.; MABITlYMIOVA, 1.Ya., red. [1-later-sof toning equipment. on seagoing ships] Vodo- opresnitellnye u!tanovki morskikh sudov. Mloskva Transport, 1964. 302 p. (MU 18-1~  KII-Al".."Zilffi), V. ji, 6j In '11. Pxieuiijatl,~; fevice Vor gr-inding, stoam turbino valve soati:.. Fnergo- maj,hinooi-x )oni(.- Ag 164.. RA 1'7: 11)  KOVALEN'90, V.F., im-h. Device for slabilizimg loading polyspasts. Stroi. i dor. mash. 10 no.2:24 F 1( 5. (MIRA -18:3)  KOVALICIZO V bami Materials oa the visnomousness of desert vipers. Trudy Inst.zool. AN Kazakh.SSR 3:1611-180 155. (MLFA 9..12) (Xazakhitan-Serpents)  KO.VA',.,F,NKO, Y.G. Die-casting riold for molding plasU3 parts. Mashinostroitell no.?: 29 JI 163. (IAIRA 16:9) (Plastics-Molding)  KOVALENKO, V.G. Semiautoratic machine for olwq) bending. Kuz.-~Bhtam. prroizv. 5 no.9-4~~-44 S 163. (MIRA 16:11)  PALISHAU, M.V., Ictxndl6'qt taktmicheakikh nank.;KOVALENKO, V.G., assistant. Determining i',)Fe inertia moment of asynchronous engine rotors by means of *running (nt" method. Hauch. trudy NPI 26-363-367 155. (MLRA 9'12) (Blectrio malvors, Induction)  I BRIEEMN I I 1~-M moor Am M IN )~oVi;LFA:-k ~.rk-r3 of cc---=Izt lal~lr. CCr.M=: Th,- rltlf-~eted eperient. of 1?-ur-ko~ t=:-Lorpriaes I. tb.- -b~lzm- tion, "t~tio' -A I. ~ '~Moift of is FemarzAlzed. conaidomd and attention Is g1wo to uwly establiabed enterprises, atd to the Introduction of telecch&cjcs in the Xbar-k" gna-systen -come-tt. By Incluling coverete e-pl- and f--t., ttbe -th.-D of the ~Icux articles Att-Pt to dewnstr~tc the of ub. 12mrlk~ lmd=trial consplex In fulrilling the resolutiono of tb~ Jmne j1959) "A July 71--, or ti., Ntq~!- -ac ~r =W No yer.onali~les are sientionel. There &~t no references. TAEZ OF CO??rE"S: 5b-.1emko-Sbubin, L.A. (Carre.pondlng Y-bor of tbe Acadc=y of Sciences of the UkrOMp Cider Dc.lemcr of the Khmr-b-kly turtl=yy zavol -- nar'kow Turbl~ Plant). Th- P.~Ilop~nt of Stt=-Ttirbl~ ftil-IIAC at the n-r1kov Turldm plant imal Kirov 79 Bereciz, S.I. (Chief Enaireer or the KL"-k~ T~.rblm ?I--% ~ml XL~J. "I V.A. Xoskov [Deputy Chief P~-csz tcCincer). liq-1ence Iz Yzcb=imtiou and Autca~tion 101 lxyd-wv~ V.X. (CbLIef Ere4mccr of th- Mmr'~-%Mj elrk-r-cktarlc~ skly saved -- Mir'kov Vlect~chxzLIcs! Pl=tl, a-! 1. Ya. F~lllsxhly IDe.;uty Chief Pl~nt Engineer). hLLl mr.1 A-t~tloa at tb,-- Ima-Z 117 Mechanization ~l Autoemtioz- (C=t.) SC7/5452 Zellrywiskly# Y.B., m.nd X.G. (EnC'-r~j. The SxlvrLwnt.1 X~ekl Shop or the KhArlko~.kly p~UMS:1kc,7y (r-lrlk~, Beari.6 pl--.t) ;.26 Stepmn~, S.F. (Dc;vty Chief Engtrarr air -.*uc M, lk~skly stP=kz".d - r~-Ikc,, K-hi--T~l Pl-t), -d I.T. jCh.f 1>cs-gcrj. Aut~~tlc and Sc=;I%ut~ttc Grl=,Urg Machines 2Aa Xna-yazov$ D.M_ S. Te. Sh~rtc-c, "A X.M- Ztllberlcre (Z.61-ers). Aut=stlc Unit-Ser.1- YEschine Tools 158 X.og-bII V.A., -4 T.C. '.ba-. 1. A-pli.hed at --he ZglektroatZ~t~- 174 Morkbov, F.K. [Chief rjWImcr or the Xh=- Au--stIc jFm1j=tion) Lima for St~opimg Stntor ~d Hotor Sl-tm L81 Zll't~r, A.G. [Chief Proc- rrZln~tr of tb~, 66~t ah^kbt~mO FUnt]. For Wch-ft.ti- 1. Coal YW~.G 3.97 C-1 4/8  KOVAMI-10, V~G,, Dies for t~dmdng flats and dirking slots and holes. Mashinostrc--enie nci.1:104-105 Ja-F 162. (MIP.i 15:2) (Dies (Metalworking))  KWAIMIK0.0 V.G. Use of plastles in I;he manufacture of electric devices. 14whino.- stroitel2 no-5:14-0 Mq 162, (MIRA 15.5) (Kharkw-Blectrio instrtmenta) (Plastics)  KOVALWO, V, G, Efficient mo 1tal la-,ruat. MashinostroitelO no.10:28 0 162. I (MIRA 19:10) (LayLng aut(Machino-ahop practice))  f KOVAMNKO V. G. Unit for prepiring imter-emulsion varnisb. Mashinostroitell no.22:22 D IS2. (MIRA .16:1) I'larniah and varnlohing)  KOVA.LENKD V.G. 2-- 1 Automatic staiiping peess for manirfact IiWlhg rings Of a strip& Vlaahinostroitlell no.3318 Mr 163. v I . AKIRA 16k) j9heet-metal work)