SCIENTIFIC ABSTRACT RUDNOVA, M.YA. - RUDNYTSKYY, YU.S.

0     - - -1. .: --- ~7 -:-v ~. .--, - I. - -:;"--    0 C 07 ~07 ~:*! 1 4 1 4 . " . . A A L D I 1--A- 1--J. A- A. IL A 1- -L- 10 Y A [ A Recry"llution of bismuth. Cauchralski and -0 :0 Rudny. Wi4domoki INJI. MeratAirt. Mrtjjkys~ 3, ~ aterial coni n d f Di was clarti a m . o g. Rvcryitn. o liklg) less thin 0.014% of impuriti" (0,101% Fe, less than -00 material for 0 lirs. at 2()t)' it was obtained in a fine)) -00 cryst. form. Cubic test minple, cut out of this ulaterijAl c .00 41 j. then were cold-worktd, their height dirciva,%ing 5 ;u t 6h 2 W L iff 06 : - a er crtnt temps. t ). they were heated to d 8 0 the rtMit4f. samples were cut through lparalki to the UPWIttint direction, the crols section* were IMAJ111rd, rtched 0 by means of concti. 11N0, and the grain we was 111c4%. zoo 0 ured. The results of thew mcasurvinents were given in a zoo diagram which shows an entirely normal course. 041 Hdward A. Ackcrutann go* 41 so* coo so A, Ct -ETALLUPIK.L LITtOATOE CLASSIFICATICW too I jog It a., 4.1 ALL II CIA 1, MILIA, I s PC a tt I[ Is An 1 $ 9 04 0 09 9 1 it of 1 Kw n I ! ZA 3 It I A A 0 0 0 0 0 a 0 : : : : 0 0 : :  Xib ft A IT v .-L A 'The Rsmstallinficu DlACMM Of IUMV131- 11,34. b. 42 55 to -It With lit I 911111111"q%j Thr V% .-Illisfitilig 4111111%, ,( fi'migh pt'. twettim-git, I lit- stilms"Islis *a. 1"w"I I.- I., A-1,13irA4 to 'wrintil twt Amis 's kitil, 41 so X c.. ;m, h Is to bo ellwct"l it 1461MIll, JAA& a I-int at thitt 9 wmi--ritturr so im m--t-A hv 0i1- =09 COO 0 0 00 coo 0 0 04 0 see 0 0 'Coo 0 0 400 0 0 .00 NO CIO* A 4. St. AbRTALkUPrKAL 011SAILij CLAj%jPKATtQ* 1.00, i5i u a AT Os An A 0 lit a a rw 0 4 9 1 N & C ; ft cr ft itK No to 0 0 0 0 0 O~ 0 0 0 0 0 e 0 00 * 0 0 00 0 40 0 0 0 0 0 0 0 4.0 0 0 0 0 0 0 0 01"*~ * to i: * 0 ;i 1-0-0-0 0 OiO 0 0 0 0 0 0 0 0 0 0 0 0 *1* 0 0 0 0.0 0 0 0 0 a * 0 0 0 0,0 0 Oj~  RUDMYA, P.G., subordinator Neurofibromatosis in otiatrics. Vest.oto-rin. 18 no.5:113-114 S-0 156. (WRA 9:11) 1. Iz kliniki boleznay ukha, gorla i noea (dir. - daysty.itallnyy chlen Akademli maditsinskikh nauk SSSR prof. B.S.Preobrazhenskiy) lachebnogo falcullteta II Moskovskogo meditsinskogo institate imeal I.Y.Stalina. (N=OPOBRP.ATPSOS. case reports larynx) (L&HM, die neurof ibroma t os 13)  ACCESF17.-Z UR: "4043728 s/0021/64/000/008/1047/1050 AUMOR: Rudnyfts,lky* ,y, V* P. (Rudnitakiy, V. P.) TITLE: Travel-time graph for refracted waves in a tvo-layer medium bounded by a sloping discontinuity SOURCE: All UkrRSR. Dopovidi# no. 8,, 1964.. 1047-1050 TOPIC TAGS: minimum travel time graph, velocity determination ABSTRACT: The equation of the travel-time graph for refracted waves in a tuo-layer medium bounded by a sloping discontinuity is considered an an example of seismic logging. The author propose using the co-ordinate of the minimum of the travel-time graph for the determination, of the velocity and the slope discontinuity. ASSOCIATICUs Insty*tut Geofizy*ky* All URSR (Geophysics Institut of the AN UkrSSR) SUBMITM: 290ct63 ENCL- 00 SUB CCDE; GPI Es~ NO M7 Sovt 000 OMER i 0100 Card  28(l) S/028/60/000/05/004/027 D044/DO06 AUTHOM RudrVY, N.M. TME: The Unification of,Parameters In Pickup With Electrical output PERIDDIEAL: Standartizatelya, 1960., Nr 5s, pp 15~47 (USSR) ABSTRACT: The article dealo with the unification of parameters in pickups with electrical output. Since measuring pickups with electrical output mostly work in combination with electric mefforing devices, they must answer the requirements of the GOST 3%5-69"-standard ("Electric Measuring Instruments. General Technical Requirements"). A voltage of 1.5 v is called for pickups fed by galvanic elements or storage batteries; one of 50 v - for selsyn transmissions; one of 6., 12., 14., 24., and 110 v - for pickups fed from a d, aa network; one of 6.39 12.61 25y 1V1 220, and 400 (380) v - for pickups fed from an a.c. network of 50 cycles/sec; one of 100 v - for feeding pickups via voltage transformers. The article tbhn discusses the unification of the most common pickup types and states In conclu- card V2 sion that the introduction of an intermediate, unified parameter -   AFANASITHV, I.D.; GADASKINA, N.70.: H-EMIZ, Te.K.; RUDKOVSKIYI D.M. Esters obtaiaed froa Products oll oxos7nthesis and other products of t~ie chemical procesaing oi nydrocArbons. Khim.1 tekh.toplA masa'! no.6:16-25 je '57, (KLU 10: 7) ty institut. Olydro--arbona) (Ssters)   ,IUDJY, I. "Scientific Conf erence of the Czecholslovak Acaderiy of Agriculture." P. 1150 (1-ia-zhduna Rodnyi Selskokcnoziaist-vennyi Zhurnal, Vol. 2, 11o. 2, 1958.1 Sofia. Bulglria) MontiAy -index of East European AcreSsions (,,;E.AI) LC, Vol. 7, 'No. 12, Dec.        RUDNY) W.     RUDIIYEEV, 1,L,.. 0 _[~udpiev, I.M.), dotsent; KRIZHNAtiAT;V"j147zbxapT.O.1,      BLIIIOVSKIY, A.A.; BUSLOVA, N.A.; YEROKHOY, II.F.; IYANOT, K.A.; KITAYETA, G.V.; LBYBOSHITS, L.M.; NERELTAYEV, I.A.; PALLADIYEVA, K.Y.; PZVZNM, L.M.; PET OVA, Te.D.; ROGOVSKIT, H.M ; RUDNYT, MIC S INOV, B.F.; MISOVA, I.S., red.; RAKOV, S I . red. [Through our land; tourist sites And itineraries of the Moscow Interprovince Tour Administration of the All-Union Central Council of.Trade Unions] Po rodnot zemle; turistakie bazy i marshruty Moskovskogo mezhoblastnogo turistako-ekskursionnogo unrayleniia VTsSPS. Moskva, Izd-vo VTsSPS Profizdat, 1959. 154 P. (MIRA 13:4) 1. Moskovskoye mezhobleatnoye turistako-ekskursionnoye upravleniye Vsen=ogo tsentral'nogo soveta profsoyuzov (for all, except Dan 9 kov). (Tourism) (Steamboat lines)   SHILOMSOV, M.A.,; RUNTT, N.M., kandidat takhnichaskikh nauk, retmen- -11- STUDNITSYN, B.F., zent; 3MUKTAIMMOV, r., dotsent,.radaktor; redaktor; DUGINA, N.A., takhnicheakiy redaktor [Elactric control and neasuring instrwments; repair and testingi Blektricheskie kontrollno-imeritelInVe pribory: remont i Inpytanila. lzd.2-m, Isprav. i dop*Mosk-va.Gos.nauchno-tekhn. tzd-vo mambinnstrolt.lit-ry, 1955. 404 P. 04LRA 8:10) (Electric measurements) (Electric controllers)   AID P 4913 Subject USSR/Electronics, Card 1/1 Pub. 90 7/10 Author Rudnyy, V. M. Title Determination of the velocity of change of the current impulse at the moment of switching on the circuit. Periodical Radiotekhnika, 6, 63-65, Je 1956 Abstract The author presents a method of determining the velocity of change of the current or voltage impulses at the moment of switching on the current source or of discharging a previously charged installation. He develops formulae for a composite electric scheme consisting of linear elements which he breaks into -,Ib circuits. Three diagrams, 2 Soviet references (1945, 1954). Institution None Submitted Ja 20, 1956  112-3-6146 Translation from: Referativnyy Zhurnal, Elektrotekhnika, 1957, Nr 3, P- 158 (USSR) AUTHOR: Bulanova., A.I., Veksler, A.Z., Rudnyy, N.M. TITLE: Investigation of the Wattmeter Method of Measuring Losses: in Simultaneous Magnetization of Electric Steel by Static and Dynamic Fields (Issledovardye vattmetrovogo metoda izmereniya pote.-'prl odnovremennom namagnichivanii elektro- tekhnicheskoy stali postoyannym. i peremennym polyami) PERIODICAL: Tr. Vses. n.-I. in-ta metrol.-T-1956, Nr 29 (89), pp. 127- 138 in ABSTRACT: By using the wattmeter method/investigating installations'. for determining losses in double magnetization, using ' individual feed circuits for the sample under test and a common winding for direct and alternating currents, it was established that the common winding gave the smallest errors in measuring losses. The variable component of. field intensity is, measured by a special electrodynamic Card 1/2 ammeter with a compensating winding, through which passes  112-3-6146 Investigation of the Wattmeter Method of Measuring Losses in Simultaneous Magnetization of Electric Steel by Static and Dynamic Fields (Cont.) direct current equal in magnitude, and opposite in direc- tion, to the constant component of magnetizing current, in the basic ammeter circuit. This obviates the necessity of conversion, as Is the case when other ammeters are used. Investigations of the method showed that the maximum error in measuring losses in the frequency range of 200 - 2,000 cps does not exceed 3.5%. The losses can be divided into components due to hysteresis and to eddy currents with practically the same results both by the frequency variation method and the form factor variation method G.L:G. Card 2/2  112-3-6144 Translation from: Referativnyy Zhurnal, Elektrotekhnika, 1957, Nr 3, P. 157 (USSR) AUTHOR: Yagola, GaKe, Rudnyy., N.M. TITLE: Highly Sensitive Wattmeter for Measuring Losses in Magnetic Sheet Materials (VysokochUV3tVitellnyy vattmetr dlya izmereniya poter' v listovykh magnitnykh materialakh) PERIODICAL: Tr. Vses. n.-i. in-ta metrolp, 1956, Nr 29,09), PP-139-149 ABSTRACT: The construction of an electrodynamic low power-fac.tor wattmeter with a voltage measuring range of 30-75-150 v Card 112 and a current measuring range of 2.5 - 5 a is described. The 30-v range is not an auxiliari range, as in' other wattmeters, but is used in normal operation'.. The rated power'factor is 0.1. The accuracy limit is 0.5. The ihstrumentmeasures losses in an induction range of 0.5 to 1.7&'G /m2 in samples weighing.1-2 and 10 kg at, a frequency of 50 cps. The wattmeter is provided with a luminous Indicator. 'The shielding employed is effective in keeping the error caused by external magnetic fields,  112-3-6144 Highly Sensitive Wattmeter for Measuring Losses in Magnetic Sheet Materials (Cont.). with an intensity of up to 0.5 oersteds below 0.05% of the upper limit of measurement. Research has shown that under normal conditions electromagnetic interaction of the movable part of the instrument and the field of the stationary coils (due to the presence of traces of ferro- magnetle substances,in the components of the movable part) causes a deflection of the latter not exceeding 0.1% of the scale length. For calibrating the wattmeter or for d-c measurements, the current must be one-tenth of the rated current, since the wattmeter is designed for cir, y = 0.1; in this case, the error due to residual magnetization of the shield by the field of the stationary coils does not exceed 0.05%. The error due to Inductance of the movable coil Is kept below 0.5% by a compensating circuit. The error due to mutual inductance of the,coils is not greater than 0.13%. The wattmeter Is suitable for measuring losses in samples of sheet steel used in the electrical industry. Card 2/2 G.L.G.  112-3-61115 TY-anslation from: Referativnyy Zhurnal, Elektrotekhnika, 1957, Nr 3, P. 158 (USSR) AUTHOR: Rudnyy, N.M. TITIE: Wattmeter Method of Measuring Hysteresis and Eddy-curz%ent Losses at Higher.Fre4ueneies (Vattmetrovyy metod izmere-niya. poter' na isterezis I vllkhrevyye.~eki pri povyshennykh chastotakhl PERIODICAL: Tr. Vseo. n.-i. in-ta metrol., 1956, Nr 29 (89), PP-150-171 ABSTRACT: A low poyer-factor electrodynamic wattmeter.has been designed and constructed for measuring losses in accurate checking or normal samples of steels used in the electrical industry, for frequencies up to 4,000 cps. The.error due to mutual inductance of the coils is made negligible by the high resistance.of the parallel circuit and the right- angle position of the coils at the time of measurement, for which purpose a torsion head is used. As little metal as possible is used In the instrument. The voltage Card 1/3 limits are 30 - 75 v, the current limits 1.25 - 2.5 a; COS 0.2. For d-c and a-c industrial  112-3-6145 Wattmeter Method of Measuring Hysteresis and Eddy-current Losses at Higher Frequencies (cont.) frequency, the instrument has an accuracy limit of 0.5. There is an auxiliary voltage limit of 3 v for frequencies up to 200 cps. The parallel circuit in the wattmeter is designed to operate at a voltage 2.5 times greater than the rated, which permits a considerable decrease in error at higher frequencies. Tests have shown that the great- est obstacle to extending the frequency range is capaci- tance effects, which cause errors that are considerable and inconstant in magnitude and sign. Circuits and methods for taking these errors Into account are suggested, and also methods for decreasing them to + 0.5% at frequencies up to 10,000.cps. On the basis of waftmeter tests at. higher frequencies, a technique is suLTgested for determining and reducing the phase errox bo below 0. 5% at frequencies up to 5,000 cps and a power factor of from 1 to 0.1, for an inductive or capacitive load. The basic circuit of the wattmeter unit is the same as for measuring at industrial frequenoy. The unit is fed by an audiofreqliency oscillator. Card 2/3 The frequency is establ.ished by a reference quartz-arystal  112-3-6145 Wattmeter Method of Measuring Hysteresis and Eddy-current loosses at Higher Frequencies (Cont.) oscillator. The measurement of losses in three radically, different samples has shown that, with the proper selec- tion of samples and number of ooil turns, the errors In measuring losses with magnetic induction of 0.1 to I 1 M2 and frequencies up to 4,000 cps do not exceed + 3 - It is suggested that the losses In samples from Individual packs be measured at frequencies'up to 1,000 cps. To decrease distortion of the voltage wave parallel with the portion of the circuit consisting of the wattmeter series winding and the magnetizing winding of the sample, a capacitor box should be connected in order to obtain current resonance. The wattmeter installation is used in checking normal samples of B4 7 type electrical steels and for quality control in plants producing these steels. G.L.G. Card 3/3   AUTHORS: Rudnyy, H.M., and Chukhlantsev, A.A. 115-5-25/44 TITLE: Increasing the Accuracy of Low Resistance Measurements (Povy- sheniye tochnosti mer malogo soprotivleniya) PERIODICAL- "Izmeritellnaya Tekhnika", No 5, Sep-Oct 1957, PP 56-59 (USSR) ABSTRACT: A method of measuring the resistance of low-resistance refer- ence coils is suggested in view of inadequacy of the present- ly practiced method of check-up on weak currents, since in work the coils are often used on strong currents. The magni- tude of error occurring in this way is calculated on an ex- ample of checking of 0,0001 ohm reference coils on a dual bridge and a 0.001 ohm coil with a 30 amp current, and the use of 0.0001 ohm coils with 500 amp current. Despite the need for precise measurements of strong direct currents of several thousand amp, the industry supplies only shunts of class O~5, and even such accuracy is not always guaranteed. Such errors can reach the magnitude of several per cent. A mathematical analysis of these causes is made. The suggested method of checking low-resistance coils consists in connect- ing the reference coils into parallel groups. The authors derived an equation for evaluation of the systematic and of Card 112 the largest possible occasional error in measured resistance  Increasing the Accuracy of Low Resistance Measurements 115-5-25/44 of a parallel group at given resistances of single measuring r coils. They conclude that the load characteristics of low- resistance reference measuring coils have to be determined on a nominal current with the use of a parallel-group of re- ference resistance coils, the potential-terminals of'which are connected by special "equalizing" resistance coils (con- ductors), the resistances of which have to be in proportion with the resistance values of corresponding low-resistance measuring coils. For raising the accuracy of shunts for strong currents it is suggested to apply a pair of potential- terminals on every section of such a shunt and to connect them with conductors, the resistance of which is in pro- portion with the resistance of the corresponding shunt scotions. The article contains 2 electrical circuit diagrams and one Russian reference. AVAILABLE: Library of Congress Card 212  28-5-17/30 AUTHORt Druzhinin, V.V., Candidate of Physico-Mathematical Sciences, and Rudnyy, N.M., Candidate of Technical Sciences TITLE: What Is Required of the Standard for Electrotechnical Sheet Steel (Trebovaniya k standartu na listovuyu. elektrotechni- cheskuyu stall) PERIODICALt Standartizatsiya, 1957, # 5, P 71-72 (USSR) ABSTRACT: The standard"rOCT 802-54'will be revised, and the Central Scientific Research Institute for Ferrous Metallurgy (Tsentrall- nyy nauchno-issledovatel'Bkiy institut chernoy metallurgii) has worked out the project for the new state standard for electro- technical steel. Last May, a scientific-technical conference on this matter was organized by the Sverdlovsk branch of the All-Union Scien- tific Research Institute for Metrology imeni D.I. Mendeleyev (Vsesoyuznyy nauchno-issledovatellskiy institut metrologii imeni D.I. Mendeleyeva, or VNIIM), the Commission for Magnetibm of the Urals branch of the Acaddmy of Sciences (Ural-skiy filial Akademli nauk) and the Urals House of Technique (Ural'- Card 1/4 skiy.dom tekhniki).  28-5-17/30 What- Is Required of the Standard for Electrotechnical Sheet Steel The authors point out some inadequacies in the standard project and suggest complements which would improve the ac- ceptance rules and test methods. The denotations ly figures and letters are in some instancee too complex (for,instance, one grade with guaranteed specific, losses is denoted by eight signs). The experience of the Verkh-Isetak Metallurgical Plant in sampling, in accordance with the old standard, shows that the method is fully satisfactory, The scientific-technical conference was particularly con- cerned with the problems of testing electrotechnical steel, but the differential Epshteyn-Lonkitsen apparatus is left in, the project as the basic method of evaluating specific losses at 50 cps and 25-300 ampere-turns per cm, whereas testing of steel with specific losses of P 10/50 less than 1 w/kg requires particular care. A test apparatus for evaluation of magnetic. propetties of electrotechnical steel sheets was tested at,the Verkh-Iaetsk Metallurgical Plant, and the results were satis- factory. This apparatus can be used for final evaluation of Card 214 steel quality. Repeated annealing of specimens (if it will be  2F-5-17/30 What Is Required of the Standard for Electrotechnical Sheet Steel included into the standard) will have to be strictly regulated and the temperature will have to be decreased to 680 _700 0 C. The absolute wattmeter method for evaluating specific losses at higher frequencies (400 cps), according to"rOOT 8M-54"has, proved completely satisfactory and will be kept. Paragraph 37 of "FOCT 802-54" and its complement do not keep In view all of the conditions guaranteeing repetition of test results in evaluating.magnetic induction in weak and medium magnetic fields by the ballistic method. The consumers of electrotechnical steel do not need separate indications of properties, as are prescribedby the ,roCT 802-54" (as well as in all standards), but typical curves showing the dependence of the specific losses on induction, the induction on the magnetic field intensity, etc. It is the opinion of the participants of the scientific-tech- nical conference that it is necessary to compose test instructions for attestation of normal specimens, for application of the dif- ferential method, evaluation of magnetic properties in sheets, evaluation of losses at higher frequencies, testing in weak Card 3/4 magnetic fields, etc.  28-5-17/30 What Is Required of the Standard for Electrotechnical Sheet Steel The conference recommended including these instructions into the plans for research and experiments at the Sverdlovsk branch of the VNIIM and the Verkh-Isetsk Metallurgical Plant. ASSOCIATION: Verkh-Iset' VetallurgicAl Plant (Verkh-Isetskiy metallurgi- cheskiy zavod) and Sverdlovsk Branch Of the VNI114 (Sverdlovskiy Mial VNIIK) AVAItABLE: Librwy of Congress Card AV4  24(0); 5(4); 6(2) PHASE I BOOK EXPLDITATION 3OVV2'5 Vzonoyuznyy nauchno-looledavatel-akly Institut metrologil iment D.I. Mendeleyeva Hereracy nauchno-lasledovalellsklkh robot, 3born_- k N0.2 (Sclenlifl_ Researeft Abstracts; Collection or Articles, Nr 2) Moscow. StandartgIz, 1953, 139 p. 1,00C copies printed. Additional Sponsoring Agency; USSR. Komitet standartov, mar I lzmerltellnykh priboroy. Ed.: S. V. Reshetln4; Tech. Ed.. M. A. Kondrat'YOVL. PURPOSE: These reports are Intended for scientists, researchers, and engineers engaged In developing atandardso measures, an*: gages for the various Industries. COVLRAQE: The volume contains 125 reports on standards or mvds~.~- ment and control. The reports were prepared by scientists of institutes or the KomItot stanclartov, mer I _-=ortt.l'nykh priborov pri Sovete Ministrov SSSR (C-M1331on on Standards Meaaur:s')&nd Measuring Instruments under the USSR Counou of I Min at ra . The participating Institutes are: VN11M - Va*ooyu.-nyy nauchno-133ledovatellakly metrologil Iment D,J. Mendeleyeva (All-UnIm Scientific Research institut. or met- rology Iment D. L. Mend. le~Lv) in Eeningrad; Sverdlovsk branor or ".43 Inat.-U-0; V.411K - V:eso7uzrrt nauchro-lsslednvjlte113~ly In3titut KomIt:ta stand4rtov, mar I IzmerIZel'nyk.% prloor,ov (Al 1-UnI on Sci ntiric Research Institute of the Ccr=Inalon on Standards, Measures, and Xaasuring instruments), cr.At.0 rrom MOIXIP - M03kovskly gosudarstvennyy ins,-*tut mar I I=oritellnykh priborov (Moscow State institute or measures and Measuring Instruments) October 1. 1955, %'N11PTHl - Vuenoyuznyy nauchno-1131ecOVAtel'skly Institut rI.-.-ko-taihn4_ On k1kh I radlotekhniche3kikh izmorenly (All-Union Scientific R= h Institute or Phystcotecrinical and Radio-enginoorlng Measarroments) In Moncowi,KhOIKIP - KharlkoVokly go3udaraLverryy Instit t m:r =:rItel1nykh priborov (Khar1kov State lnst_-t~-e or Meau.r. .Idl M. surlng Instrumanta); and NGIMIP - Noveat. bIr.., go..da,,.tvenyy Inst1tut mar I lzmertrelInykni pribor-ov (Novosibirsk State Inctltut* or Measures and Measuring In&-ru_ z~eet~q), Nu pernonal.4ti4es are mentioned. Tnere are no 'raglarer-3. Puduy-H-h- A.Z. V*~Glcr, A.A, Chuktaanthev, and R.G. Abel-* Bridge for Checking Shunts and'Low-rg'- alstance Oagas . 96 fNmyant5qvj__A.S., and Ye__?~Dubcv~lk (VUXIM), and A_A_Chukh~ Ianjjicv_-(Sveid1ov*k Branch of VNIlm). Developing Methods and Standard Apparatus ror Tasting Direct-Current Transtormera Type 1-58 Under Operating Conditions at 70 Kiloampares 1~'2 Ltzge4k._X.S.. and Ye._Ye, B.gatyr.vkKhazmiP). -W-VelopIng and Studying Apparatus for Mcasitring Magnetic Fields by the Nuclear Magnetic Resonanco Method lc~ Rudn . N M Z_Vokalcr. and A.i.-Bulanova (sverdlovbk 11rancn 01 V film): %Ath.od or measuring Hysteresis L45fied and Eddy Currents in Doable Magnetization Card 20/27 sand A.I. Bulan0va (Sverdlovsk Branch or VNXIM). Steel and Eddy currents in Electrical 105 4'.T. BuIon yA.. and A.Z. Vaknler (Sverdlovsk Branch =-VNZ.Lxj;-- Study"4_ a Effect Or_Wi_SZA-tfi_rIn6 Current on Irrars In Measuring Losses and on the Main Magnetization Curve 106 Optical Measurements and Photometry (Romanova, M.P., Editor, Professor)      ACC NRz AT6017661 SOUKE CODE: UR/3162/65/000/002/0180/0183 AUTH ,;AUTHOR: Klimenko, A. P. (Engineer); Rudnyy, 11. M, (Candidate of technical sciences), ORG- !ORG- none ITITLE: Photoelectric device with a modulated light source for measuring flow of v .iAS~ 1cou liquids 61 PM 1.'..~'CE: Ukraine. Hinisterstvo vysshego i srednego spetsiallnogo obrazovaniya. Khimi-11 Icheskoye mashinostroyeniye, no. 2, 1965. Protsessy, mashiny, apparaty i avtomatizatsly lkhimicheskikh proizvodstv (Processes, machines, apparatus and automation of chemical ..plants), 180-183 TOPIC TAGS: flow measurement, measuring device, flow meter, viscous flow ABSTRACT: The device (based on a 5w T11-03 neon tube and an ac power source) was deve- loped in view of the fact that the sensing elements of contact-type devices either weam out or become fouled. The important feature of this neon lamp is that it is used as a light source modulation and also as a compensator of light source. By correctly select- ing a balance resistor, connected in series with this tube, the voltage across the laup- electrodes and the magnitude of the light source remain stable in the face of voltage source fluctuation over a broad range. A schematic diagram of the photoelectric de-, vice is shown and the functions of each electronic component and the neon lamp is ex- ~ C,rd 1/2  L 36952-66 1 1 ACC NRs AT6017661  66 -9WT-(mY/T/EWP(JY 1,TP(0 ~ RK ACC NRt 017662 SOURCE CODE: UR/3162/65/000/002/0184/0189 AUTHOR: Rudnyy, N. M. (Candidate of technical sciences); Klimenko, A. P. (Engineer)~q/ ORG: none TITLE: Photoelectric de fluctuations In caprone fibers SOURCE: Ukraine. Ministerstva vysshego i arednego soctsiallnogo obrazovaniya. Xhimi- cheskoye inashinostroyeniye, no. 2, 1965. Protsessy, mashiny, apparaty I avtomatizatelya khimicheskikh proizvodstv (Processes, machines, apparatus and automation of chemical. plants), 164-189 TOPIC TAGS: photoelectric method, photoelectric cell, measuring apparatus ABSTRACT: The device (model ATM-l' is based on light reflected by the illuminated cap. rone fiber. The reflection in fed to the input of the photoelectric cell. Tests, 1, showed that the output current of the photoelectric device modulated by the reflecting light was directly proportional to the thickness of the fiber. A graph shows that the relationship between the photocurrent and the thread thickness Is linear. A wiring diagram of the device is given. Light intensity and temperatur* of the measuring de- vice are compensated by a differential,detection method. The advantage of this method over existing methods is that it measures the diameter, of the fiber instead of its mass. orig. art. has: 5 figures. SUB CODE: -70-g-alL SUBM DATE: Done     a   ACCESSION NR: AP4046113.' a armatures-8 are hold, by-lever-3--fast6he to-A t 10, the- att r*serves o Closing nt o u o t' 12 Is i r d cing. function, f A*(t)_ as-4.7speed, ~gnetld shun placi& between 3 and side surface. 11 oi-'Jhtlf-'_ 4'16'd-c suppiii'df riom sourew.- disk Co 7 154 ---- The a - c -component across con, 4 is-isolated f e'd -.to -shaping, "lifier ~46 and, "d to 6 ixiiteir 26- -,A conta the- latt0kr'is gqare a age thence to stepping motor 17-18, -A laboiato -10 stepping-mo or is used.-- r-r-modeLof_the.:_ nstrumej P,ShDa ssfullfpasae'd aill reported- to -have succe -tests.:. Oeig 2 figure 6*1ormulas, and Itable6., W~ -A n SSOCIATION: onp,' ENGL- -0 '00 SUBMITTED: SUB CODE:,,]M,, 60' OTHER: 33, 2/3   ACCESSIONNR: AP4020318 S/0302/64/000/00110045/0047 AUTHOR: Vereshchagin, L. A.; Rudny*y, N. M. (Candidate of technical sciences) TITLE: Potential logical inverter without switching elements SOURCE: Avtomatika i priborostroyenlye, no. 1, 19641 4S-47 TOPIC TAGS: logical inverter, NOT circuit, OR circuit, AND circuit, contactless motor control, switchless motor control ABSTRACT: A simple equal-arm bridge circuit (see Enclosure 1) is suggested as a logical inverter. If Uo = U, , the output voltage is zero; if U, r 0. the out- put voltage is U, /2; the circuit then functions as a logical NOT scheme. If two input voltages are applied to both diagonals, the circuit functions as an OR gate. By reversing the polarity of one of the input voltages, the circuit can be turned Into an inverted AND gate. Simplicity.. reliability, and high speed (suitability for Card  ACCESSION NR: AP4020318 h-f operation) are seen as advantages of the circuit. The dynamic braking of an electric motor is suggested as one of its possible uses. It is claimed that an EDG-1 type motor (loaded with a synchronous generator) was. decelerated by the. above NOT circuit, from 2,730 rpm to zero, in 3 revolutions or 0. 14 sec, while the same motor made 90 revolutions in 6.7 sec in stopping without the NOT circuit. Orig. art. has: 2 figures. ASSOCIATION: none SUBMITTED: 00 DATE ACQ: 3lMar64, ENCL:. 01 SUB CODE: CG, EE NO REF SOV: 000 OTHER: 000 Card z/V-  V';'I':EDIKTOV, H.V., red.;,FECHUK, V.I., red.; NECHAYEV, G.K., kand. tekhn. nauk) red.; RUDMYY, N.M., r~'-d.; RUDNAYA, A.I., kand. tekhn. nauk, red.; KUDRYAVTSEVA, R.G., otv. za vyp.; PAVI.MKO, V.11., red.; BUREYEV, A.L., tekhn. red. [Industrial control, equipment and the means of automatic control] Pribory pror,-,yshlennogo kontrolia i sredstva avto- matiki; doklady i soobshcheniia. Kiev., Gos.izd-vo tekhn. lit-:7 USSR, 1963. 370 p. (MIRA 16:12) 1. I-lauchno-tokhnicheskaya konferentsiya po priboram pro- n~~rshlennogo kontrolya i sredstvam avtomatiki. 2. Institut avtoratiki Gosplana Ukr.SSR (for Bechayev). (Automatic control)   I RULD III YY I I'll M I F IMAS I olsy. I y , --, .-T, ,    68314 S/l10/60/0Oo/oo6/OO7/OO7 00 E073/0135 AUTHORS: Kolomiyets, A.R., Engineer and Rudnyy, N.M.. Engineer TITLE: On Measuring the Temperature of Rotating Parts of Large Electrical Machinery PERIODICAL:, Vestnik elektropromysftlennosti, 1960, No.6, pp.64-65 TEXT: A description is given of a system used for measuring the temperature of the armature windjx~gs of a rolling mill motor. It consists of a 430 kc/s oscillator whose output is modulated by pulses with a repetition frequency Pf 300 to 1400 cps that depends on the resistance of a thermistor. The mo4i~lated output is directionally beamed from.the.rotating part by means of a ferrite antenna. The oscillations are receiyjed and amplified by means,of a UHF amplifier. After passing through a detector, the pulses are amplified by a LF amplifier and Afed into equipment supplying pulses of a constant amplitude and duration with the same "following" frequency. The pulses are integrated and the measured results, whichare proportional to the freqLVency, are read off a pointer xnstrument. The starting and integrating blocks can be replaced by a frequency meter which is appropriately calibrated. The circuit Card 1/4  s/no/6o/ooo/o06/OO7/OO7 E073/E435 On Measuring the Temperature of Rotating parts of Large Electrical Machinery diagram of the apparatus is shown in Fig.2. A 100 kohm thermistor R, a capacitance Cl (0-015 1W) and triodes form the loop of the relaxation oscillator. From the 0.5 kohm load resistance. RJL' the positive polarity pulses are fed to the input of the high- frequency oscillator (R2 = 2 kohm, C2 = 0.1 ILF). By appropriate selection of the currentin R3, the operating points of the output triodes are pushed onto the non-working part of the characteristicst so that in the absence of a modulating pulse no HF oscillations will be generated. The receiving part consists of a receiver with an ordinary straight amplifier; the shape of the pulse at the low-frequency output does not affect the accuracy since it is intended only for triggering the starting equipment. In view of the fact that the ratio of the frequencies corresponding to the maximum and minimum temperatures is not large, integratioh of the square-topped pulses can be carried out with an accuracy not exceeding 0.5%; the currentsupply toAhe star.:ting equipment must be stabilized. Experiments have shown that the LA) Card 2/4  8331h S/110/60/000/006/007/007 E073/E535 On 'Measuring ~the Temperature of Rotating Parts of Large Electrical Machinery apparatus is sufficiently stable against electromagnetic effects,and has a high directional effect - ~ . the relation between the pulse frequency and the temperature isalmost linear in.the range of 20 to 1001C. The signals can be reliably received up to distances of IL M'I wh4~;n can be increased still further,by using a superhetero- dvne circuit. The apparatus can be operated by any curr ent source supplying over long periods a voltage of 9-10 V, the consumption does not exceed 10-12 mA. The transmitter dimensions are 100 x 60 x 20 mm, the receiver dimensions are 200 x 250 x.200.mm., The apparatus was tested under the most'unfavourable conditions in rolling mills during the summer with an ambient temperature of 25-300C. The noise.level did not exceed 30% of the level ofthe signals. The individual noise pulses of considerable magnitude 's-rere received -with periods not less,than 3-5 sec, Which did not greatly affect the accuracy. The stability of the thermist.ors and the accuracy of the integration of the pulses are the main factors deLermining the accuracy.of th .e apparatus; the total errorofthe .telemetering system sIhould not exceed.2-2-554. There are 3 figures Card 3/4    86876 S/105/61/000/001/003/007 ,2 ~//.3 YJ 11ge, 1/ 6 B012/BO59 AUTHORS: Veksler, A. Z., and Bulanova, A. I. TITLE: Measurement of the Losses in Ferromagnetic Materials Simultaneously Magnetized by Fields of Various Frequencies PERIODICAL: Elektrichestva, 1961, No. 1, PP. 48-51 TEXT: In the present paper the method of loss measuring which was worked out by the authors is given for the most general case of a combined magnetization where the frequencies of the various field components are not multiple and not zero. It is shown that the method chosen in the case of combined magnetization for loss measurement should guarantee the measurement of the mean power, whereas the measuring.instrument.should be sufficiently inert not to respond to fluctuations of the measured quantity. The conditions an rhich losses can be measured may be given in various ways. The most expedient ones are; 1) frequencies f 11f2 etc. and the.amplitudes Bmj, B m2 etc. of the respective components of magnetic induction are given; Card 1/5  86876 Measurement of the Lo3ses in Ferromagnetic S/105/61/000/001/003/007 Materials Simultaneously Magnetized by B012/BO59 Fields of Various Frequencies 2) f and f and f fl), highest and mean field stren gth amplitude, 1 2 (or f1 2- and mean value of the induction amplitude are given. The first way is more, universal, the second one, however, the most agreeable in the case of magnetization by means of a modulated current. The device for loss measurement in the case of combined magnetization is based.on the method of watt-meter operation. Fig. 2 illustrate6 the basic layout of this device. The low-frequency voltage component (up to 200 cps) can be measured by means of this instrument. A phase-sensitive voltmeter with . two valves (Fig. 3) is used for measuring the Voltage components of higher frequency. The device described here was used for measuring the losses . I in the cases of combined and of ordinary magnetization. It was found that the errors in loss measuring in the case of combined magnetization are greate-.- than the errors in loss measurement by means of the'watt-meter method 'In the case of raised frequencies and ordinary magnetization (Ref. 3). They.amount to � 5%. They are due toerrors in the measuremen t , of-the secondary voltage by means of the phase-sensitive voltmeter. Card 2/5  86876 .:---~iSurement of the Locses in Ferromagnetic 3/10-/61/000/001/003/007 '.:aterials Simultaneously ,Iagnetized by B012/BO59 .7-4elds of Various Freauencies :here are d figurec anil referenk:es: 2 Soviet. ASSOCIATION: Sverdlovs.'-..~Y filial nauchno-issledovatellsko-o instituta C, metro-1 Q,'-4~ (Sverdlovsk branch of the Scientific Research Institute of Metrology imeni Mendeleyev) SU5,~',ITTED: February 2, 1960 Cc-rd  86876 .;S/105/61/000/001/003/007 B012/3059 RV MR YX Lejend to Fig. 2: Basic diagram of the device for-loss measuring with -taneous magmetization by means of fields of various,frequencies. 1) So~ '-nd generator, 2) sound generator, 3) amplifier,,4) phase shiftler, Dl~ase shif , 7)~ ter, 6) phase-sensitivc voltmeter voltmeter, 8) watt- 9) amplifier, 10) wattmeter, ;1) voltmeter, 12) investigated Card A,/5  86876 S/105/61/000/001/003/007 B012/BO59 sample, 13) lever switch. Legend to Fig. 3: Connection of the phase-sensitive voltmeter for 10 volts.: R1 = 6 kiloohms, R2 0-5 kiloohms, R 3 6 kiloohms, R4 1210 ohms, 1) control-voltage.   its Faret icF on Y) M 7 18-72 1 Mr '65. 1'. 0)-lichey L neorganicheskoy k7al.-nii im-ini Furnakova AN      -C4 77 -f7  Subject USSR/Electricity AID P - 447 Card 1/1 Pub. 27 - 10/34 Authors AkQ~isv M. M., Dr. of Tech. Sci., Brill, M. V. Eng., Rudnyy, V. M., Eng., and Khirvonenp Kh. P., Eng.. Title Study of Reliable Ionic Valve Action of Gas-Filled Tubes _Ln an Experimental Circuit Periodical Elektrichestvo, 7, 52-56, J1 19511 Abstract Experiments were made with cathode-ray oscillographer In. order to determine the moment of back-fire, the value of inverse voltage, and the moment of rupture. The depend- ence of valve action of the 1-50/5000 Ignitron from the rate of growth of inverse voltage is presented. 8 dia- grams, 3 tables and 6 Russian references (1940-53). Institution Ural Polytechnical Institute im. Kirov ,.Submitted Mr 6, 1954  SOV/112-59-5-8975 Translation from: Referativnyy zhurnal. Elektrotekhnika, 1959, Nr 5, p 78 (USSR) AUTHOR: Rudnyy, V. M. TITLE: Experimental Irives tigation of the Influence of Synchronization Accuracy Upon Results of Arc-interrupter Testing in Synthetic Circuits PERIODICAL: Izv. vyssh. uchebn. zavedeniy. Energetika, 1958, Nr 5, pp 54-59. ABSTRACT: In testing the interrupting capacity of arc interrupters, the object under test is first subjected to the effect of the working -cur r ent source, and after the arc interruption, to the effect of the recovery-voltage source. The value of such tests depends on the timing of the recovery-voltage application. Two types of synthetic schemes are known: with the recovery7voItage application before and after the working-current zero. Considering the deionization conditions Of the arc gap, it would seem, that a delay in applying the recovery voltage creates lighter conditions for restoration of the electric strength of tho arc gap in both schemes. Experimental verification of the influence of synchronization accuracy was conducted on RTV-35 ex-P Ulsion tubes interrupting a 2-karnp current. In testing the first circuit with a 0-800 Card 1/2  SOV/IIZ-59-5-8975 Experimental Investigation of the Influence of Synchronization Accuracy Upon . . . microsec delay in the recovery-voltage application with regard to optimum conditions, it was found that the highest voltage withstood by the tubes decreases as the delay increases. This effect can be explained by a reduced gassing in the tube during the conduction of a small high-frequency current. The experiments staged with a tube equipped with an additional air chamber showed that, other things being equal, the value of the recovery voltage with- stood by the tube was practically constant. In testing the second circuit with a 0-300 microsec delay in the recovery-voltage application, it was found that the maximum voltage withstood by the tube is practically constant within 0-250 microsec. Deviation of the moment of recovery -voltage application from the optimum, i. e. , when the synthetic circuit reproduces most completely the testing conditions in the real power circuit, can result not only in relieving but also in aggravating the testing conditions which depend on the construction and operation peculiarities of the apparatus being tested. Bibliography:, I item. I. P. Shch. Card 2/2  30499. 9, Y/ JZ) S/194/61/000/008/048/092 3, ?,q 0 D201/U304 AUTHORS: Khirvonen, Kh.P. and.Rudnyy, V.M. TITLE: Experimental study of an artificial arrangement for testing gas-filled rectifiers PERIODICAL: Referativnyy zhurnal. Avtomatika i radioelektronika, no, 8, 1961, 29, abstract 8 G232 (Tr. Urallskogo politelchn. in-ta, 1960, v. 77, 87-98) TEXT: The experimental installation developed by the Ural Polytechnic Institute for testing gas-filled rectifiers utilizes thyratrons and consists of 2 circuits - of a current circuit of 50 ISA and of an oscillating circuit fed by a 10 kVA transformer. The, experiments were carried out with rectifiers working ina 3-phase bridge circuit, max. rectified current 120 A. max. reverse voltage 7-8 kV. The rectifier under test was A type Tr-120/15000 (TG-12 15000) thyratron. The experimental tests of the installation provj-- ded some material on the rectifier reliability. The power consumed Card 1/2       L 23476-66 gw(M)lEwp(w) IJP(c) E14 CC NR: AP6008798 3U A SOURCE CODE: UR/0021/65/000/010/1298/1 AUTHOR: Rudnytstkyy, Yu. S..;-_Rudnitskiy,,Yu. S.~ ORG: Kiev Polytechnic Institut (Kyyivs1kyy politekhnichn Yi Y instytut) TITLE: Quasistationary therm'oelas~ic stresses in a ring cooled in a medium with constant temperature SOURCE: AN UkrRSR. Dopovidil no. 10, 1298-1303 TOPIC TAGS: thermoelasticity, beat stress, elastic stress, - boundary value problem., heat conduction, stress distribution, temperature distribution., Laplace transfor'M,,cooling ABSTRACT: The authors analyze the stresses whichoccur in a ring cooled in a center at a constant temperature. At the initial, In7 stant of time the ring Is.beated along its external.contour, and at soffile instanil- gr~eater than zero the source of, beat Is suddenly re- moved from the contour and the rIng is cooled to the temperaLlire Card 1/2