SCIENTIFIC ABSTRACT SAATCHYAN, G.G. - SABAJ, S.

         . I I :, I . I ~ 1- ..~ -. ~~,k T!Trm~lll  .7~ V- .1,     SHAKHUNYANTS, Georgiy Mildmylovich, doktor tekhn. nauk; AbIELIN, S,V., prof., retsenzent; KONSTANTINOV, V.N.,,dots.,,. retsenzent;,EMIRNOV, M.P., retsenzent; YAKOVIEVi V.F.3 retsenzent; BOCHRIKOV, M.S., kand.tekhn. nauk, retsenzent; BROMBERG, Ye.M., retsenzent; YERSHKOV, O.P., re- tsenzent; ZVEREV, B.N., retsenzent; ZOLOTARSKIY, A.F.Jq retsenzent; IVASHCHENK0. G.I.. retsenzent; LDIEV, S.A., retsenzent; MARKARIYAN,-M.A., retsenzent; POPOV IV.V. , ret sex, zent; POPOV, S. N. , retsenzent; SE-P-I`rI-'0PNIKOV,V.V., retsenzent; SIIAFfWTOVSKT-Y,A~l~~,re-tsenzcnt, IIOVITSK1Y,G.I.2inzh.Yretsen-. zent; VlKTOROV, I.I., kand.tekhn.nauk9 retsenzent; VYSOTSKIY, A.F., kand.tekhn.nauk, retsenzent; SAATCHYMI"G.G. kand.tekbnonauk, re- 1 .9 tsenzent; YAKOVLEVA, Ye.A.,, Rand.tekhn.nauk,,retsenzent; TITOV, V.P., kand.tekhn.nauk, retsenzent;.GRUSHEVOY, N.G..9 inzh.., re&; BROMBERG, Ye.M., kand.tekbn.naukq red.; KHITROV. P.A..,.tekhn, red, [Railroad tracks) Zheleznodorozhnyi.put'. Moskva, Vses.izdatellsko-, poligr.oblledinenie M-va putei soobshcheniia, 1961. 615 P. - (MIRA 14:12) 1. Kafedra.IIZheleznodorozIuI7y putt" Leningradskogo instituta inzhene- .,rov zheleznodcrozhnogo transporta (for Amelin, Konstantinov, Sm:Lrnov, Yakovlev). 2.,Vsesoyuznyy nauchno-issledovatellskiy institut zhelezno- dorozhnogo transporta. (for Bochenkov, Bromberg, Yershkov, Zverev, Zo- lotarskiy, Ivashchenko, Linev, Narkarlyan, Popov, V.V., Popov, S.N., Serebrennikcrv, Shafranovskiy, Nov:Ltskiy)63.Vsesoyuznyy nauchno-issledo- vatellskiy institut transportnogo stroitellstva(for,Viktorov, Vysotskiy, Saatchyan,.Yakavleva, Titov) (Railroads-Track) (Railroad engineerin'g)        ... - , ; W~` -~ - . -'I- ~ ;:, -, , .  IVANOV, Yevgeniy Sergeyevich; MORUSHKIN, Georgiy Vasillyevich; SAATCHAN, Sergey AlekSAndrovich; GOWBEVA, T.M., Ired. TELYASHOV, R.Kh., redAzd-va; CURTS, V.L., tekhri.red. [Mechanization experiments at the Khalturina Furniture Factory] Opyt mekhanizatsii na mebellnoi fabrike.im. Khalturina. Leningrad, 1963. 15 P. (Leningradskii dom nauchno-tekhnicheskoi propagandy. Obmen peredovym opytom. Seriia: Derevoobrabatyvaiushchaia promyshlen- nost', no.4) (MIRA 16:10) (Leningrad--Furniture industry--Equipment and supplies)      --- , , . . 7gq;,- ;, ~T"    . 1-1- ;, - .. ;. , . ;, , , 'i ~ ~-', "-I -: ~ F . , S,, , . I , - -, M I ~ I-R. z~ - *z ~e, - - a m ., I -, :, , . ;-~, ,- , .- . W          I 0     . .;: V 7, ~. '. ; ~ . - I - ~~ ;I I -;, - .: ~--.1 -. , -- _ ..:c,.; - ~ -:;:- r. -L - ~, - ; .. . I ~: :e ;~    - ~ ~~ ~ k f ~ ~' I ~- 7 ", , - ~.~ ; , - p~ ~ .~ -1 1, ` - q~f 1, - - . .. .1 . - lr , ~ 21 -~,? ~: -~ ~ 7.1; 7 %-   - I -. w -- - M,I      . - - - - f " . , .. . . I . i. - : '.. 11 .. - . ~- ; -- -"Z ~ -` ~, i- "~4 q~ ~: c- ~ ~~ ~J;z _, Rv, -  V.R.; SABADASH, Ye.V. Dv-ataics of the content of s=e trace elernent-- In the blood o' patients with microbial eezem, and o-i.-c-,umscribed,neuroder,-ati- t.iq. Vest. derm. i vr--n. tio.2:9-13 '(--,4. (,4IT 17: 11) 1. !I~Lf(.-Ara kozr~nykh J, venericherskikh zaboievaniy (zav. - prof. I'rosuyeO Donefskogo Instituta imeni A M., L k  m     L21L6j2L, 6b EWT(l)/EWTW/EWP(w) IJP(c) 'Wd /E M ACC M AR6000721, SOURCE CODE: UR/0124/65/000/009/VO14/VO14 AUTHOR: Saatov,- Ya, U. TITLE: Numerical solution of the problem of the propagation of elastic radLal2L_ transverse waves SOURCE: Ref. zh. 14ekhanika, Abs. 9V103 REF SOURCE: Sb. Vopr. vychisl. matem. i tekhn. Vyp. 3, Tashkent, 1964, 30-48 TOPIC TAGS: elastic wave, wave propagation, numeric solution, nonlinear differential -R,9,V,75VFte5r- wove equation, ordinary differential equation, difference equation 7 propagation of radially transverse wirves (Kh. A. ABSTRACT: The problem of the ' Rakhmatulin and Yu. A. Demlyanov. Prochnost' pri intensivnykh kratkovremennykh ' nagruzkakh. M., Fizmatgiz, 1961) is considered, and a numerical method for its. solution is described in detail The problem, which is reduced to the integration of a system of two nonlinear or;inary differential equations, is solved with the help of the method of reduction to finite-difference equations. A computer program is compiled for the solution. Ye. I. Shenyakin ZTranslation of abstrac-t7 SUB CODE: 20 C rd  CZECHOSLOVAKIA _,iABAXAj-V,,, DRAHOTk, Z.,,HAHN, P; institute of Care fb rMother and Child, Physiological Institute, Czechoslovak Academy of:..~ Sciences (Ustav: pro Peci o Matka a Dite, Pysiologicky Ustav CSAV),.- Prague. "Values of Acetoacetic Acid and Total Ketone Substances in Mother and Newborn Child. Prague, Ceskos-lovenska 1,"ysiologie, Vol 15, No 2,,Feb 66, PP 9P-93 Abstract: In the blood of mothers 0.10 -,nicromoles/ml of aceto- acetic acid and 0-47 micromoles/ml of total ketone substances was found; the blooct of newborn children contained about Of these'amounts. The two values are in proportion to each other;l.'r-1v: retus does not accumulate or produce these substances. it seems that these substances do not influence metabolism of the fetus. 1 Figure 1 Western.reference., Submitted at "16 Days of Physiology" at Kosice, 29,Sep 65.              /71 SABADASHEV, V. P. "The' Develo pment and Study of Contactless Magnetic Elerrents Designed for Certain Telemechanical Devices of Industrial Enterprises," pp 83-119, ill, 7 ref Abst: A series of narrow-band phase-sensitive circuits, as well as con- tactless relays, are examined with an aim of utilizing them in certain tele- mechanical devices with AC power supply from 'a line. SCOW: Trudy Novocherkasskog Politekhn, In-ta im, S. Cjd honikidze MV0 SSSR (`W'orks of the Novocherkasskiy Polytechnic Institute imeni S. Orizhonikidze of the Ministry of Higher F.-Jucation USSR), Volume 48/62, Works of the Electromechanical Faculty in Connection With the 50th Anniversary of the Institute (10,07-1957), TaEanrog, 1957 Sum 1854  S A E1 A D'I.IS14EV, VP. "A -'crvo 5:, stem Using Noncontact Magnetic Elements, pp 121-126) ill Abst: Description of a follow-up system and its individual.components (data units, phase inverters and phase-sensitive circuits) 15 given. The device is intended for use in copying lathes which machine parts with smooth profiles, as well as for many other cases. The basic peculiarities of the system (absence of electronic tubes, movable contacts, etc.) are discussed. SOURCE: Trudy kiovocherkasskogo Politekhn, In-ta im. S; Ordzhonikidze EVO SS ~SR(Works of the Novocherkasskiy Polytechnic Institute imeni S. Crdzhonikidze of the Ministry of Higher Education USSR), Volume 48/62, Works of the Electromechanical Faculty in Connection With, the 50th Anniversary of the Institute (1907-1957), Taganrog, 1957 Sur, 1854  SOV/144-58-10-10/17 AUTHORS: Sabadashev V.P., Candidate;of Technical Sciences,Assistant Ge Usff~o~, V. Assistant TITLE: 'A Contactless, Magnetic.Device for Automatic and.Semi- Automatic Self-Synchronisation of Synchronous Generators (Besicontab,.tnoye-magaitnoye.ustroystvo.dlya avtomaticheskoy i poluavtomaticheskoy samosinkhronizatsii sinkh onnykh generatorov) PERIODICAL:Izvestiya Vysshikh.,Uchebnykh Zavedeniy, Elektrome_L:Jaanika.. 10580 Nr 10, pp 104-114 (USSR) ABSTRACT: Existing circuits for automatic and semi-automatic self-synchronisation have a number of contacts and- tend to be unreliable. This article suggests for the purpose the use of contactless magnetic elements. The arrangement consists of a phase sensitive circuit (which has been investigated theoretically and experimentally by A.D.Drozdov) (Ref 4), a magnetic amplifier with- feed-back for even harmonies and automatic equipment that serves to.connect the generator to the circuit and to deliver field currents. The frequency comparison Card 1/5 device consists of a phase sensitive circuit and an  SOV/144-58-10-10/17 A Contactless Magnetic Device for Automatic and Semi-Mr-bomatic elf-Synchronisation of Syn hronous Generators c ampliayne. The phase sensitive circuit consists of two peaking transformerse When the generatords nearing:- synchronous speed the voltage vectors of the system and of. the generator to be connected to it coincide long enough for the ~relay to operate and connect the.generator to the system provided that conditions are suitableo The processes that take place, in the phase,sensitive circuit during paralleling arethen described. As the voltage phase of one saturating transformer alters relative to the other,"uhe.mean emf in their-secondary circuit varies-as shown graphically in Fig 2 * It is shown that the load characteris tic of the protection depends on the wave shaT)e of the secondary current impulses of the saturating transformers. Formulae are given for calculation.of the relay.current. IFinally, f o rmula (15 ) i s de rive d f o r the, 1 oa d curre nt ~ of : the protective system, this formula givres the effective value of the~load current in the secondary circuit of the saturated transformers of the phase sensitive system Card 2/5 whe n the current impulses of the.saturated transformers  SOV/144-58-10-10/17 A Contactless Idagnetic Device for Automatic and Sema'--Automatic Self-Synchronisation of Synchronous Generators are of triangular wave shape as will occur in the operation of the system. Experimental and.:calculated values of mean and effective current. are compared-in Tables 1 and 2 and the maximum error that results from calculating thelcurrents by formulae (?) an&(q) does not exceed lWo which is qaite acceptable. Fig 7 givas test and calculated load characteristics of-the phase sensitive circuit and it will be seen that formula (15) is sufficiently accurate over the range considered. Further analysis.is given of the conditions under which, the relay will operate. The conditions under which synchronisation is possible are discussed.. One of these devices for automatic and semi-automatic self- synchronisation of alternators was made and tested in~ the NovoGherkassk Polytechnical Institute,, The design and.construction of the components is briefly.described. The test results are briefly,des,cribed. An oscillogram of the process.:.of,operation of-the synchronising device Card 3/5 when the speed of the generator is very, different from  SOVAL.4-58-10-10/17 A Contactless IAagi-etic Device for Autuomatic and Sem i-automiat lic, Self-Synchronisation of Synchronous Generators the o-yncl.Lronous speed is given in Fig 12 and a similar oscillogram is given in Fig 13 for the case, when the alternator is runningat synchronous speed. This latter oscillogram shows that the generator was connected in.parallel with the system. . It is concluded that the contactless magnetic synchronising device is reliable and will not need much adjustment in operation*-. Variations in supply voltage have no influence on the -operation of the device. The system frequency also has no.influence on~tha operation of the device. When the difference between frequencies of the system and -generator is 1 to 2 c/s the self-jUnchronising device operates reliably at accelerations of 0.45,to.2 c/s per, U second, which is better than with other frequency relays~ now used for self-synchronisation. By using an amplidyne with feed-back of even harmonics it was ~possible to use a phase sensittive circuit without rectifiers with beneficial effects on the sensitivity .ard 4/5   13, Y-00 0 68132 S k4_1,_2_,,~ c i V/51 r1 c OJ9 AUTHORS: ~rozd4~~A.R. Doctor of Techni a ciences, es sor Candidate of Technical Sciences, D ean S;~kjka 'Senior.Lecturer and Vege a Yu.A., Scientific Worker TITLE: Phase-selective Device with Impulsive Alternating Current for.Remote Control PERIODICAL: Izvestiya vysshikh uchenbykh zavedeniy, Elektromekhanika, 1959, Nr 2. pp 90 93 (USSR)' ABSTRAM Thecircuit shown in..Figure.1 works on the principle of adding and-subtracting pulses. Two separate load resistances T and R are shown. Mina practical 2 application these would be substituted-by the control windings ofadifferential nagnetic amplifier.,.The operation of.the circuithas already been considered., in some detail in Refs 1 and 3,, where analytical expressions were found for the instantaneous (e) average E and.effective (E) values of the voltage -:n the load circuit. The magnetization curve for~the core is represented by a hyperbolic sine as in Eq (1) Card 1/3  SOV/144-59-2-11/19 .Phase-selective- Device with Impulsive Alternating Current for Remote Control The formula for, e is Eq-(4). In'the ~present application there,is an additional pairof Input terminals and the modified express-ion is-Eq (5),. The separate outputs are e whare the pulses add (Eq (6)) and e where 2 they subtract.(Eq~7), Depending on the phase ielationships at the inputs three important cases arise: 1) In R th e phas e of one s et of input puls,es coincides with the supplyj the separate outputs are Eqs (9) and (10) and the differential output is Eq (11). 0 2) The phase of the input pulses shifts 180 compared, with the previous case; the differential output is now- Eq (12). 3) The phaserelations are more,general. and.the phase response is Figure 2. The corresponding waveforms are In Figure 3. There are 3 figures and 3 Soviet references. Card.2/3-   qO00 68!33 SOV/144-59-2-12/19 AUPHORS-, Sabadashev. V.P. Candidate of Technical Sciences Senior -Lecturer ~nd_7`eg-era. Yu.A. , Scientific Worker TITLE: Contactless,High-speed.Remote-controI Phase Device Using Impulsive Alternating Current i.~PERIODICAL. Izvestiya vysshikh uchebnykli zavedeniy, Elektromekhanika,. 1959, Nr 2, PP194 .-,104 SSR) ,ABSTRACT: An,equipment.the U-TS.. 1~as, been developed which is- faster, less susceptible to.supply fluctuations and more reliable than comparable devices at the present time. For a 3-phase system using zeros,the relation between. the number of.symbols. n and the'number of codes is , . which is valid f 0 r 6o > N 15 - When, f or gr eat er Eq (41~ reliability, zeros are excluded, Eq (5) is relevant; in which case the range of validity is, 12 >N >3 In e arrangement described pulse trains are used with 2--phase. pulses. The number of possible symbols is 60, enabling 30 binary devices to be controlled. Figure 1 is a simplified diagram of the equipment. This consists of two sub-,sets. The sub-set attheldespatching point Card 1/4 looks after--the coding ofthe pulses, their transmission  68133 sov/144-59-2-12/19 Cont,actless High-speed Remote-control Phase Device Using Impulsive Alternating Current and the control of the transm4ssion line;g The two ,saturated transformers UT-1 and UT-2 are used.~to generate the puls*es. ~Operating switches - V and 0 select the transmission line. A 4' the r ac eiving point there are 6 phase-sensitive detectors and differential magneticampliflers controlling individual relays. The primary ifindings.of the.rece:Lv:Lng transformers are connected to the appropriate supply phases according to ic Table 1. , The connections between the relays and magnet amnlifters are listed In Table 2. In the decoderthe -relay used is the polarized type TRIN Ther I t' el~xon between codes and,supply phases is given in.Tab.' r The operation ofall.switches and relays is desiribed for the.particular case of selecting object Nr 1. Exp eriments have been carried out on a mock-up of the system in the.. NPI,laborato Iries. Figures,2 Iand 5 are oscillograms of line currents, ampl.ifier.and relay currents when receivIng the orders llswit:c~h on Nr I" and "switch off Nr 1", Card2/4  661.33 SOV11114-59-2-1 I Contactless High-speed Remote-control Phase Device sing Impulsive Alternating Current respectively. Thedecoder takes about,001.see,to operate, the majority' of.the delay being in the.amplifier., The sending time for 11switch-on" is ~0.11 seicand, for "switch- off", 0.06 sec. .' Figures 11,5 and 6 show the effect of system deterioration on performance. In the first tliro diagrams the line resistance has increased to 7 000 4Z The maximum resistance permitted would be 6 000 St In Figure 6the line capacitance is twice the,perm:Ltted value of 0.25 ILF., The supply voltage.can be changed, 150% without ill effects. The transmission, distance is intended to.be not.greater than 15 Im., Disadvantages of-the system are the use of allarge numberlof.rectifiers and the fact that both ends of the system must be within reach of an electrical supply network.. There are 6 figums, 4 tables and 1 Soviet reference... Card 3/4   sov/144--59-8-8/14 AUTHORS: Slalh&diu ha%(~ ~V.P.,(Cand.Tech.Sci', Docent) and Zagorodnyuk, Y.T..(Assistant) TITLE., Design of a Phase-sensitive Circuit with Variconds., PERIODICAL; Izvestiy-a vysshikh uchebnykh zavedeniY9 Elektromel-hanika, 1959 8 1 (USSR) Nr 8, pp 79- 5 ABSTRACT: Variconds arecapacitors with slegnette-ceramic dielectrio. In the circuit of.Fig'l, which works on the principle.of acting type VKI-B devices are .adding and subtr. pulses, used. The load resistance rH is assumed to be much less than the reactance of either capacitor, The effective ~ralue of the load c; ren', as, a function of the phase UI shift.between.the capacibor currents is EQ (4). The instantaneous values of the currents may be found uising~ a re" tion wean %harge and voltage as the approximat la bet suggested in Ref 1. The coefficients m and in, this relation (Eq (5)) are given in Tab-le 2. for three types of -for capacitorcurrent ",~'ar_icond_ These ara. expressions are Eqs (8) and (9~ and~the square of the load current is Eq (11) The -three terms of this equatior- whic;h must be Card 1/3 integratedg are prccessed In differpnt ways. The:first- -suffers a change of variable Y tariz andis then  Design of a Phase-a-sensitive, Circuit w-!th Variconds treated as a rational Panction, Eq (14) The second is e-,7alua ted by the approxima Lion giv an in Ref Th e third -is treated like the firsts Eq (15). The final 106) . Charge-;oltage expression fat load cum.rent is Eq ourves for several tyy,--s of capacitor are given in Fig 21 while Fig 3 compares (~alz~ulated (cur-i-e '-'I and measured (Qurve 2) values of t~apa-,iltc,::~ -I-Urverull- Versus phase angle.- Table ~, -kzT-.-s -values of the fanot-Lon XJ.(6) wh_-_-h appears in Eq (16). The. phase-rietect.-i-on, oharaut~ ,aristics for ';a-:b units at -~.Tai!_irjU3 i*oltaages are in Fig j., , the discrepancy between theory and experiment bei-rig about 1-2 a - ty Analogous results ford V1, P-d 'M-3 uni "s are - i Table ~3~ wha-~e th4 qrvc-s are ~,_- . The svmmar:LZ9,_ !% dataction characterilstics (lepead ca tba pea b---. -~wr? ants. in Card the capa2itors and diffe-,! fzom lk:L6 ~34.,rfusoidalI curves 2/3 descAbed in Raf 3 fo--., linsar      L 07073-67 ACC NRt AP6019231 SOURCE CODE: UR/0l44/66/boq/bo2/Ol8l/bi86 JAUTHOR: Denisov, A. A.; Sabadash&v, V. P. ~46 ORG: None TITLE: Magnetic switch and its application in, remote control systems SOURCE: IVUZ. Blektromekhanika, no..~, 1966, 181-186 TOPIG TAGS; electric switch, remote control system, telemetry system ABSTRACT: A magnetic switch consisting ofa contactless cyclic distributor is des-. cribed. Magnetic contacts replace electrical ones. A steel armature in secured to a rotating shaft, around the circumference of which are transformers with open magnetic circuits and two windings.-, The primary windings of all elements areconnected in series to an AC power supply.. As the shaft rotates it opens and closes the magnetic circuits of the working 4~lement secondaries. The primary advantages of a telemechan- ics aystem with a am4;n*tic switch are almost- unlimited :aervic* life of magnetic con- tacts; pulse durations long enough to operate an electromechanical relayl AC at cam- mercial.frequency can be used for switching; all elements are contactless. Orig. art* has: 3 formulas and 7 figures. -SUB CODE: 09/SUBN DATZ: 13Feb64/oRiG-REr: ool Card uDc: 62i-N6.3462i.397     -IFIRF S STATT"F17, ing.; DILACOITU, T., ing.; ZAI SCU, M., ing.; ABADUS, LET IG YF TIM -L, V., tehn.; IRI , V. Dynamics of' sugar-beet growing and sugar ri=unulation ir I nd alim 16 no.3:134-137 Mr 165. L. Food Rqsearch Institute, Bucharest (for Stat-cencu, Diaconu, &,jnI,.-Lrescu). 2. Central I-Ifeteorological- Instit 1~e 'for iianu, 3. Timiscara Sugar Plant (for Sabadus), 4. Tirgu 1,11ares Sugar Planr, (for Lengyel),   gkou '68..0f -sup-piy,