SCIENTIFIC ABSTRACT KATUSHKIN, V.P. - KATYSHEV, YU.V.

MINSTERP V.Sh#; PITINOIVA, L.V.; BAROCHINA, B.Ya.; DIU4# PANOVA, L.N.; TRUSOVA, T.N. Testing of a unit for the recovery of carbon disulfide. Xhim. volok. no.4:69-73 163. (MIRA l6t8) 1. Voesoyuznvy nauchno-issledavatellskiy institut iBkusst- vennogo volokna (for Barochina, Katushkinp Minster). 2. Kalininskiy kombinat iskusstvennogo volokna (for Pitinova, Panova, Trusova).   KATUSHKINA. I.F.; KOLGHINSKATA, L.M.; FISHMAN, K.Te. *------- Operation of the continuous Tolymerizing and spinning unit. Khim.volok. no.6;68-73 '59. (MIRA 13:5) 1. Kiyevoldy kombinat. (Nylon)  I XA7USTIK-DTA,, V. 17.". , V. X. Katushkina, in a paper, "'."ethodrs of iovier Addition in T.I.1-trashort- 'Have "ransmitters" considered a nethod of power addition nalkin~ iise of ilie principle of a balanced brid,,-e, composed of segments of a concentric line. Presented at the Eleventh Scientific and Technical Session of the 'Leningrad Section IMIRiE (Scientific and Technical Societ-y for Radio and Electricity) imeni A. S. Popov, dedicated to U~e celebration of Radio Day, Leningrad, 16-2h Apr 56. (IMA10tenuilm, NO-7, 1956)  KAWSHKDA, V. 1-1. Vo M, Katushkina, and Zo 1. Model', "Bridge method of adding powers of several generatorsn Sal-antific Session Devoted to ItRadio Day". May 1958, Trudrozervizdat, Moscow, 9 Sep 58* Thi bridge method of adding powers can be extended to the case of adding the powers of 2n -'eneratorse In practice, howevert addition of power of an arbitrary number of genera.,-(,a without loss is required, This problem can be solved by using symmetric multitt*16~nal bridges and an iterated network method based on the principle of successive power h -1 Id-up. Analysis shows that the energy indices of all bridge 'systems are identi- cal for a change in the generator regions. It follows from an experimental investigation of multiterminal USW bridges that the most suitable variation is a bridge constructed by coupling aquare bridges. Iter,ated network circuits gave positive results when completed in the USW band as square bridges and as slit waveguide bridges in the microwave band.  pyo:,m 11 0 Hop CM& Tsoh Sol.--(dU*) 'PrImlylbe of CODStruOtica I rk I for oceining tbg pmer from s*pjLrStqjy-emted of lbriap circuits (Min cxf Higber Iducation USM. pneratorse imm. 3"8 w 15o copies (IL, 49-58,, 123) Len Polytoobuic Imt in M. I. Ullnin).,  9(0) SOV11112-59-2-3783 Translation from: Ref erativnyy zhurnal. Elektrotekhnika, 19 59, Nr 2, pp 223-224 (USSR) AUTHOR: Katushkina, V. M. TITLE: Bridge Circuits for Combining the Powers of MW Oscillators (Mostovyye skhemy slozheniya moshchnostey UKV-generatorov) PERIODICAL-. Tr. Leningr. politekhn. in-ta, 1958. Nr 194, pp 54-68 ABSTRACT- Peculiarities of bridge circuits with distributed-constant lines suitable for meter and decimeter waves are considered. Schemes of combining both symmetrical and asymmetrical oscillators are examined. Six versions of ring-type circuits consisting of lines of any type are considered. It is noted that the best frequency-response characteristics of the ring circuits are availablewhen the ratio of the wave impedance to the load impedance is \r-z. Frequency response characteristics are presented that allow for matching quarter-wave pots and transformer; it,is stated that the quarter-wave pots Card 1/2  SOV/112-59-2-3783 Bridge Circuits for Combining the Powers of MW Oscillators affect the characteristic but little; major impairment to the characteristic comes from the quarter -wave. transformer. A modification of the bridge circuit is examined: a rectangular bridge convenient for constructional realization that does not require arm bending; connection of generators and loads to it does not cause appreciable inhomogeneities. It is shown by analysis that a slit circuit is suitable for combining wide-band oscillators, The following is noted: (1) all above circuits permit addition of oscillator powers with weak couplings between the oscillators; .(2) the efficiency is fairly high if a certain ratio between the oscillator voltages is maintained. Symmetrical schemes whose balance is independent of frequency are recommended for combining wide-band oscillators. Bibliography: 6 items. V. M. L. Card 212  AUTHORS: Katushkina, V.-',Z. and Model', 2PM/io6-59-7-3/i6 TITLE: __B_ri_Cse -Methods of Combining' the Powers of any Numberof U.S.W. Generators and Transmitters PERIODICAL: ElektrosvyazI, 1959, Nr 7, pp 17 - 25 (USSR) ABSTRACT: In practice, it is sometimes necessary to combIne the powers of several U.S.W. generators. For this purpose, a method in which the powers are combined in pairs, as shown in Figure 1, is described in the technical literature This method enables the powers to be combined without loss in balanced impedances but only for N = 2 n genera- tors (where n is any whole nm-iber) and the number of the bridges will be N-1 . Apart from its awkwardness, this method is not suitable for combining the powers of any arbitrary number of generators. It is therefore of Interest to consider the problem of combining the powers of any given number of h.f. generators while preserving tho advantages of the bridge method: absence of coupling between the generators and absonco of losset in the balanced impedances. This probleni can be solved in two Cardl/6 ways: multi-terminal bridge circuits and chai bridge  sov/lo6-5' ~-7-3/i6 c Bridge Methods of Combining the Powers of any Num er of U.S.W. Generators and Transmitters circuits. A multi-terminal bridge circuit takes the form of a single symmetrical device with the number of inputs equal to the number of corabine-d generztors. Such a bridge, constructed with lu:.ilp~d c(ri.stants, was described by Z.1. Model' and A.A. Llvovi;~!,, ('Zcf 1). Ti,.is bridge, which is a develop,-,-,arit Ox, a Cir-rait, can be used for medium and shorz uavnz. Tiif-, chain principle proposed by V.11. Katushkina is based 031 the use of bridges which enable unequal Dowers of two generators to be combined. The povrers of two generators can be combined in one bridge section, in the following section, the combinedpower of the first two generators can be combined with the power of a third, and so on (Figure 2). Combinations of both principles are also possible. In the design of any particular bridge circuit, its parameters must be chosen to meet the conditions for Card2/6 balance and to obtain a given input impedance. Since in  SoVio6-59-7-3/i6 Bridge Methods of Combining the Powers of any Number of U.S.W. Generators and Transmitters operation it should be possible to switch out one or more of the generators, it is necessary to Imow what will be the losses in the balanced impedances in this case and also what the losses will be when the amplitude and phase of the generator voltages change. It is also of interest to Imow how the bridge device will operate when the load impedance changes relative to its nominal value. The authors analyse these problems for bridge circuits which combine the powers of N u.ssif* oscillators (or transmitters) with independent excitation. The Y-form multi-terminal bridge (Figures 4 and 5) was investigated experimentally at 70 cin wavelength. The outputs of three generators were combined and the load and input resistances were 75 S1 Experience with the model revealed some disadvantages of this type of bridge: 1) The impossibility of earthing the ballast impedances complicated the screening 2) Due to slots at the piaces where the ballast resistances -were connected to the arms, some mutual Card3/6 coupling occurred between the generators.  soVio6-59-7-3/i6 Bridge Methods of Combining the Powers of any Number of U.S.W. Generators and Transmitters To.overe-ome these disadvantages, an additional type of cXrc.uit consisting of a double square (Figure 6) was designed. This bridge is completely symmetrical relative to the load impedance, the ballast circuit was divided into two parts and each impedancs was earth-ed. The different current paths between the inputs 1 and 2 are either equal or differ by X/2 , which gives the necessary phase relationships for balance. Taking CUD -,~irtuit as a atartIng point, a multi-terminal bridge can be constructed by combining squares (Ref 2). Suoh a bridge is analysed and its construction shown.in Figures 7 and 8. Although the circuits examined are, theoretically, balanced at one frequency only, calculations of the frequency characteristics showed that the frequency band of the combIned square type is approximately twice as wide as the band of the Y-form bridge. Results obtained from an sxperimental model accorded well with the calculated results. The field of application of Card4/6 these circuits is, however, limited in the number of  SOV/106-59-7-3/16 Bridge Methods of Combining the Powers of any Number of U.S.W. Generators and Transmitters generators, their powers and their wavelengths which can be handled and consequently development of multi-terminal circuits is not a complete answer to the problems of com- bining the powers of uosowo generators# The shortcomings of multi-terminal bridge circuits can be overcome by using the chain principle. Different u.s.w. bridge circizits can be used: ring; Y-form; slotted waveguide, ate. (Ref 5). For metric and decimetric waves, sections having the square bridge form (Figure 10) are most promising. A chain circuit using square bridge sections was checked experimentally for combining the outputs of five generators and there was very little mutual coupling over 20% of the frequency-band. For waveguide bridge sections, the most promising are slotted bridges. Card5/6  I sov/lo6-59-7-3/16 Bridge Methods of Combining the Powers of any Number of U.S.W. Genorato,rs and Transmitters There are 11 figures and 5 Soviet references. SUBMITTED: January 16, 1959 Card 616  L 4~8?8-66 EWT(d)/EWT(I)/E',IT(~i)/tWP(w)/EWP(v)/T/El~n-(t)Z ETI/DWrp 00 N ACC NR, AP603o635 A, d) SOURCE CODE: UR/0413/66/000/016/0138/0138 JD/WW/JG/E M/D INVENTOR: ,Katunin, V. M.; Veklenko, I. A. ORG: none TITLE: Linear induction pump for tmdtrring liquid metals Class 59, No. '165209. 1W I SOURCE: Izobreteniya, pronyshlennyye obraztsy, tovarnyye znaki, no. 16, 1966, 138 TOPIC TAGS: induction pump, liquid metal transfer, liquiC. metal pumping, liquid metal pump d-/dpo;o mr-r4d- ABSTRACT: This Author Certificate introduces an inductionDump for liquid Metals which includes conduit and inductors. To use the pump as a dosing device, it is designed as free-floatIng with inductors enclosed in an air-tight : jacket, which are placed in such a way that the pump center of gravity is below the center of the displaced volume.- [ND] SUB CODE: 13/ SUBM DATE: O8Jul63/ ATD PRESS 5076 Card 1/1 blg UDC: 62-1.689-837:669-154  15BA!!q W~J)/Ewwkm) KM SOURCE CODEs fM--Tdi9-i AUTHORt Ostryakovj 1. A. - Mikulint A... . I Katusavit, V. Ko; Bykoro Ao S& MLE., Now restrictive properties of electric and semiconducFm 29~Mer znateriqlsl~ SOURCE: Ref. rh. Elektroniks I energetika, Abs. 6B3O REP SOURCE: Nauchno, livaled, try Vegas n.-I. in4a Dlenok i iskusstv MAIO sb'. 161 19650 132-135 .1 TOPIC TAGS: semiconducting polymer, pressure transducer, electric field, resistant temperature ABSTRACT: Conchicting polymers (CP) are used in the production of electric heaters, pressu sensors, heating elements for special clothing, incubator radiators, etc. The electrostatic charges accumulating on the aircraft surfaces and vehicle bodies may be removed by the CP. Cond,acting polymers with specific resistance temperature coefficients were made. The poly~- mer conductivity was obtained by using specific filler materials jAmanufacturing procedures, and additives. The CP exhibit restrictive properties which depend on the pressure applied to the aluminum contacts, The tested samples wore shaped as 50xlOxl nu-n plates. Their com- position (by weight) was.- acetylene black, 100; caoutchouo SKN-40 rubber, 33; )EKhV resin . /-.f, ' V-J.   ,0.3,i L ACC A 3328 81/66/000/014/SO83/SO83- R603 SOURCE CODE: TJR/00 AUTIHOR: Ostryakov, I. A. Mikulin, A. A. ; Katusova, V. K. ; Bykov, A. S. TITLE: New rectifying properties of electroconductive and semiconductive polymer materials SOURCE: Ref. zh. M-Amiya, Part II, Abs. 14S580 REF SOURCE: Nauchno -is sled. tr. Vses. n. -i. in-t plenok i iskusstv. kozhi, sb. 16, 1965, 132.135 TOPIC TAGS: semiconducting polymer, electric conductivity, electric field, pressure measuring instrument, rectification C~ A13STRACT: El ec tro conductive polymers exhibit rectifying properties, depending on the pressure of the aluminum contact. For test purposes, film samples 50 x 10 x I xnrn were i1sed coppisting of (parts by weight): 100 acetylene black, 31 3 SX N - 43 3 :E~V I~h The electric conductivity of the ,r33 PA."'and I stearic acid. M, ased by increasing the pressure. It is noted ' at the rectifying proper- , ms incre th ties of film samples increase by decreasing the contact pressure. A method has: been developed for changing the temperature coefficient of resistance and other So_~d 1/2  L 09432-67 1ACC NR: AR6033328 electrical parameters of curr ent- conducting polymer materials by the interaction with an electric field. This makes it possible to Pcrease the accuracy of readings of the polymer pressure-measuripA instruments I'6d other products of current- Iconducting polymer materials, L. Yamanova. [Translation of abstract] SUB CODE; 11 2/2  - - -- - I I KATUS2MISKI, Zypunt - .8:475e-476 Refom of labor productivity standards. Frzem chem 40 no Ag 161.  ME  KAT * YANOV'V.- LWI A.; PHODMKO., I".; SHARITOVY S.", !"Willi"'llerulyy achitel. -'-i)!7c~~i~criBobrazovwiiya Tafthik-iltoy SSH Newe from schools. Prof .,-.tekh.obr. 19 no.4:32 Ap 162. (MR& 15,.4) 1. Direktor uchilishoba mekha-nizatsii t..allskogo khozyaystva 1b.3, Yus2vinskiy rayon Permakoy oblasti (for Katlyanov). (Vocational education)  KATYK, M. - -- . Interesting features of the type of dwelling found in Slovakia. p. 114. KRASY SLOVENSKA. Bratislava. Vol- 31, no. 4, Apr. 1954. SOURCE: East European Aocessions List. (EEAL) Library of Congress. Vol. 5, No. 8, August 1956.  - --------- KUM, S. I. ---------- KZD and IZN seaming machines. Kona. i ov. prom. 13 no.12:15-16 1) 158. (MIRA n: 12) 1.5imferopol'skly mashincetroitel'Wy zavod Imeni Kvybysheva. (Canning industry-Equipmant and supplies)  -- - -- - - - -- -- - -- - --- I B.S.; K~TiW S. V-K.; FEOKTISTOV, A.I. DZHELEPGVP &.L..,; MAYDANYUK, 164 Spectrum of internal corwersion electrons ex-itted in Re ecay, Izv. AN SSSR. Ser. fiz. 27 no.11:1394-1401 K 163. (MM 16:11)  ROGACHEV, I.M.; CHECHEVP V.p.; WTYMIN, 0.51 P64ransition in Pb?-10 decay. Vest. LGU 18 no.22t92-96 163. (MIn 17: 1) I  J_ S/048/62/026/008/012/028 B100102 AUTHORS: Dzhelepov, B S ~at kh~in, G~.S. ~~aydanyuk, V. K., and Fooktistovt TITLE: The spectrum of internal oorrersion electrona and positrons emitted in the Re184 decay PERIODICAL: Akademiya nauk SSSR. Izvestiya. SeriyA fizicheskaya, v. 261 1962, 1030 - 1034 no. B, TEXT: This spectrum was studied on the ketron of Kiyev University, using a spectrometer with a particularly weak background. The source was separat- ed from a tungsten foil irradiated with 13.6-Mov deut4rons. The K763 1-kev line detected by B. Harmatz et al. (Phys, Rev., 123, 1758 (1961)) was not found in the hard part of the spectrum (Fig. 2) because of in- sufficient resolution. On the other hand the K788 line wa3 found, which is absent from the Harmatz spectrum because of insufficient intensity. Bar- matz observed the K 1106 line, but not K 1098 which has about the same intensity as the first-mentioned. The weak continuous electron spectrum anDears distinctly in the range of 300 - 600 kev and disappears at 900 kev. Card.1/  12/028 S/048/62/026/008/0 B104/BiO2 The BpsIotrum of internal conversion ... 184 into 08 1640 originate durin g the decay of,Re at abOut -The sp ctrum is assumed to 0 found. Its end-point energy is There e rum was als than 1320 kev. Aweak positron sPeOt .s5umea to be greater energy-is a 1500 kev. The decay are 4 figures and 1 table- Card_2/1  DZUELEPOV, B.S.; KATYKHINI G.S.; MAYDANYUKp V.K.j FEOKTISTOV,, A.I. Spectra of internal conversion electrons and pos:Ltrons emitted in Rel84 decay. Izv. AN SM. Ser-.' fis. 26 n4io.8slO30-1034 Ag 162. (NM 15:11) (Rhanium-Docay) (Electrons--Spectra)  AUTHORS: Dzhelepov, B. S.,_,KolykhirL,-G-,~,llaydanyuk~, V. K., and Fe~,ktistovl A. 1. 96 TITLE: The spectrum of To and To conversion electrons PERIODICAL: Akademiya nauk SSSH. Sariya fiziche '-aya, V. 27, no. 2, 19631 172-176 TEXT The :~~e -tv --decay- o -0, ~0 ~nv - -'em 64 ay o I lum- "-7- iihnivii,~aik-7 ~ketron,o the_ Ki3revski 'K yev. 10 T46-,Aeahaet um-'obta re _b -in ve- sitef ( i-- ~vivsrsity) i"' i Y irrsAiat 9 ~Joils_ witi I m0 bdeAum eu 6 50-ne d' t was radiochemically separated --&na Th T _deposited onto Al loile.- 5"oonversitun electron spectrum and he ;ransition -energies are given in table 1. With these data and pith ;-those- of J. Unik and J. Rasmussen (Ref - .4 -Phys. Rev., '115, 1687 (1959)) the decay scheme shown In Fig. 2 is obtained, The spoctrum vras studied 40-60 days after stopping irradiation. Tables 4 and 5 give results for 96 Tc for which no decay scheme could be constructed. 7here are Pard 1/5  S/046/63/027/002/002/023 95 -:.;!',The apectrum of Tc B104/B180 ~3 figures and 5 tables. h 95' Fig.-* Docay.sc eme of To nd; 6' L e 0 days n Tr-ble 1. Transitio ~.energies_ ~~d-.iei4tfv,e 5 -intens 9 -itio Conversion of PC.- e ectroxis. Legend.-: intens -wilative Ities ~results; (3b) Results of Ref--- ~ 4- Table 4- Transition energieB, an.d relative Intensitios of conveirsion lines /---radiation- Legend (1) E kov; (2) Relative intensities of conversion lines; -of-,.7 -int A-3)--R8lRtivo. Intensities -wad P .-sioh- :Internal convo coe c onts iii : a JK- hell) and multipole type 96 t :,of ranvitions in UO Legend: E, kevj (2) bi Toosi., O~ Multipole typ 0 C  :I _11050-63 EWX (R)/BPS-AF AW"M A=SSION a. AP30631 V069/63/014/005/0493/0494 AUTHORs -Pildtin, M. KO, Ka!g2'jjL E ni G, S, THIS St $0, no -15~ J=i Atoiamyn- energlA, 7OFIG TAGS; ton e~ohaage, )W* 4(uozic acid,: RaD, RkE, polonium, separation of radioactive elements ABSTMGT*,~ By, usin e - by K. kraus and F. Nelson (Chemistry of the nethod d scribed misdat,_ 1956, Page 353), the auilors have determined the dis- nuclear fuels, Goskhi tribution coefficients (in equUibrium) of K sub d - lead (RaD) and bimnuth (RaE) :Ln the AV-17.%14 anionite. The resUts are presented in a diagram. Based on infor- nation thus obtainedi the authors suggest a method of' separation of RaD, RaE and polonium. It,cortalsts. of using:,an-ion. -exchange colurAn, with a subsequent analysis 6f the Beta:-spectra of. the obtained spec3nens, using a Beta spectrometer vith ac- caleratich and magnetic 14�n-. Orig. art. has: 2 fi&n-es. -----A=GIA-T-ION:-- -none Card  Q ACCE3SION 11R.: AP4024458 5/0054/64/0()0/001/0053/0059. AWHOR~: Antonlyevat U.; Katy*khin, 0. S. 125 TITLE: Sb radiation SOMCB- Leningrad. Univorsitet. Vostnik. Seriya fiziki i khimii, no. 1, 19641 '53-59 ~TOPIC TAGS: conversion electron, maMetio speotrometor, magnetic speotrograph, ~ncutron irradiation, multiple order trwisition, beta spectrum 12 jABSTIUCT: The /2-spectrum and the sPectrum of conversion electrons of Sb 5 have been studied vrith the help of a magnetic spectrometer type "Ketron" (B. S. Dzhelepov and A. A. Bashilov. Izv. AN SSSRI ser. fiz. 14, 263, 1950) with 0-5~ resolving, power and a magnetic spectrograph with 0.1%') resolution. investigation was conducted on a single source Tj3oimenj chemically separated and neutron irradiated. Among the various Sb measurements conducted were; the A -spectrum X and L conve % on,speotra, -i-raaiation enerisy, multipole order transitions, and the G-b125 -Te decay process where more precise data, were obtained than hitherto possible for the energy of 1459 321.3 and 463.1 kev levels. "The authors are grateful to V. I. Perrimondp A. A; Zhdanov, X. Stegalkina, L. Koluy*kova and Card 1/2  'ACCESSION NR: AP4024458 Iyu. Golubev for their assistance." Orii! Iformula. art- has: 5 figur 4 tables, and 1 eat 4 1ASSOCIATION& nonel ISUBMITTED: 151TOV42 DATE ACQ: 16Apr64 ENCL: 00 SUB CODE: PH ~-SOV: 006 NO M -OTHER: 008: Card 2& - ---------------  r 1, i M. n,~,plonc.-v. AN 00 f R b SOURCE: !,.N SSSR. Doki,ady, v - L 'D o - S rnd4_aetivn d9cav. 7iiaqnetiC spectrc---3t--V- en e, Card 1/3  rl 1, 100 A'.Id 100 20.8b 100 --79- Pd Rh %.ip r f4 (13 r~ n t i f -1 e dC'~ T F1 e~ 1- 3 11 L b r,rpsp,- ted or ),a ;,rt Card 2/3  sMmirmb- 269epG4 SUB CODE: NP NR RRP 31/3 ROV ook 7P ~NRKM_v 51010 Q  KATYKHINI G.Se Use of column partition chromatography for separating inorganic substances (a survey), Zhur.enal.khim. 20 no.5:615-624 165. (KRA 18:12) 1. Laningradskiy gosudarstvennyy universitet imeni A.A. Zhdanova. Submitted May 15# 1964t  R,  W.- U-57.' --------- 14- ii -  I I  rATYMY, A.Ye.; KAIMTSAV. N.V.;XOZWYBKIT. A.L. dolctor sell skokhozvayst van- IRASIKOV. Z.D., dotssnt, kandidat sell skolchozyVetvenzWkh nauk; SGBOIATSUU, N.A.;' LIZOV. H.8., redaktor; LISINA, T.M., tekhnicheskiV redaktor Efterienoe in cultivating corn,, based on conference] qyt vozdelyvanita kukumsy; konferentsil LNovosibirsk] Novotibirskoe 1. Novosibirokiy sel skokhosvaystvanuff (Corn (Kaize);. papers at a province po materialam oblastnoi kn-vo, 1956. 226*po (MM, 9j12) institut (for Krasikov)   Y-S 123 -.1 - 253 Translation from: Referativnyy Zhurnal., Mashinostroyeniye.. 195T, Nr 1., p. 43 (USSR)' AUTHOR: Katys, G.P. TITLE., Research in Kinematics and.Dynamios of Spatial Crank- gear (Issiedovaniye kinematiki I dinamiki prostranstvennogo krivo'shipnogo mekhanizma) PERIODICAL: Dvigatpli wiutrennego sgoraniya. Sbornik. Moscow,, Mashglz, 1955, pp. 251-265 ABSTRACT: Theoretical research on'the kinematics and-dynamics of a mechanism In which the axis of the cylinder.is 6 the axis of the crankshaft is presented. parallel t 1 it is.stated.that use ofthis mechanism in.piston engines instead of the conventiona~l cranksha 'ft and connecting rods assembly may result in higher effioiecy, and a reduction of engine operation costs. The ob- tained theoretical correlations were experimentally checked on.a, test model unit. It is stated in con- elusion that the mechanism in question has kinematic and dynamic characteristics and that it fully meets the requirements of piston engines. Card 1/1 Q.Ye.M.  -~~M 9 I'l _ _ . ~~VXI~. I -  ' 10o'll AM - I M MMARN  a -P- - I ~~ I ~ . - Instrwwnts for simultaneous wasurementm of relative distribution of radiation Intensity along a line& Ism. tekh. n0-3:-5-9 MY-JO '57. (Pyrometers) (Electronic instrumuts) (KLRA 10:8)  7 (6), 24 (4 ) -28 (5) PHASE I BOOK EXPLOITATION 80V/3304 Katys, Georgiy Petrovich Optichesklye datchiki temperatury (Optical Temperature-Sensing Devices) Moscow, Gosenergoizdat 1959- 109 p. (Series; Biblioteka po avtomatike, vyp. 61 15,000 copiee printed. Ed.; M. A, Llvov; Tech. Ed.; P. M. Asanov; Editorial Board of Series: I. V. Antik, S. N. Veshenevskiy, V, S. Kulebakin, A. D. Smirnov, B..S. Sotskov, Ye. P. Stefani, and N. N. Shumilovskiy. PURPOSE: The bookiet is intended for engineers and technicians coneerned with problems,.of automatic checking and regulation of temperature; COVERAGE: The author briefly outlines the basic problems of optical pyrometry and the principles of operation of various types of pyrometers (xadiation, brightness and color pyrometers, and also special optical devices) which can be used as optical temperature pickups in qystems of automatic checking and of automatic regu-- lation., Ue examines their basic technical characteristics and 'Card 1/3  Optical Temperature (Cont.) ~OV/3304 circuit diagrams. In the final chapters the author examines briefly some special photoelectric devices intended for measuring temperatures inhigh-temperature flames and ga.,;eous 14edia. Finally, he'examines optical temperature scanning pickups (surface- scanning pyrometers, infxared devices, etc.) which can be used for checking temperatures in objects having transient tempera-'UuM surfaces. The author thanks Professor B. S.. Sotskov, Doctor of Technical Sciences, and Docent A. Ye. Kadyshevich, Candidate of Physical ai~d Mathematical Sciences, for their help in reviewing the manuscript. There are 59 references: 39 Soviet, 17 English, 2 French and 1 German. TABLE OF CONfi NTS'*k Foreword 3 1. -ODtico-elbetrical Systems for the Measurement of Transient Temperatures 5 2. Radiation Pyrometers 29 Card 2/3 90- Optical Temperature (cont.) ISOV/3304 3. Photoelectric Pyrom6 .ters With Partial Radiation 37 4. Brightness Pyrometers 45 5. Color Pyrometers 59 6* Special Optical Devices for the Measurement of Tempera- tures 76 7& Scanning Optioal Temperature Piokups 92 Bibliography 108 AVAILABLE: Library of Congress JP/mh Card 3/3 3-8-6o  PHASE I BOOK EXPLOITATION SOV/3625 Katys, Georgiy Petrqvich Elementy sistem avtomaticheskdgo kontrolya nestatsionernykh potokov (Elements of the Automatic Control System for Unsteady Flows) Moscow, Izd-vo AN SSSR, 1959. 201 P. WOO copies printed. Sponsoring Agency: Akademiya nauk SSSR. Institut aviOMAtiki i telemekhaniki. Ed.: N.N. Shumilovskiy, Doctor of Technical Sciences, Professor; Ed. of Pub- lishing House: V.A. Kotov; Tech. Ed.: I.N. Guseva. PURPOSE; This book is intended for engineering, technical and scientific workers concerned with the measuring of unsteady rate of flow and velocity of fluids. The book may also be useful to students specializing in control and measuring instruments. COVERAGE: The book describes modern methods and instrumonts for measuring the un- steady flow of fluids. Various methods of automatic control of unsteady flow and flow velocity are compared. Some dynamic problems of the measurement of Card 115 LK NO  Elements of the Automatic (Cont.) SOV/3625 unsteady parameters are systematically analyzed and generalized in view of the growing requirements for modern measuring instruments. The author thanks Professors B.S. Sotskov and N.N. Shumilove4y, Doctcrs of Technical Science, G.G. Yarmollchuk and N.A. L'vov, Candidates of Technical Sciences, and Engineer A.L. Malyy. There are 141 references: 76 English, 57 Soviet) 7 French, and one Polish. TABLE OF CONTENTS- Introduction 3 Ch. I. Problems of the Dynamics of Unsteady Flow Control 5 1. Dynamic properties of automatic control systems for unsteady flows 5 2. Frequency characteristin of automatic control systems for unsteady flows 18 3. Precision of the measurement of unsteady flows 22 4. Calibration of automatic control systems for unsteady flows 26 Card 2/5  Elements of the Automatic (Cont.) SOY/3625 Ch. II. Automatic Control Systems for Mass Rate of Flow 5. Automatic control systems for mass rate of flow by Coriolis force Automatic systems of controlling the rate of flow with measurement of Coriolis force on a rotating sensitive element Automatic systems of controlling the rate of flow with measurement of Coriolis force on a vibrating sensitive element 6. Gyroscopic automatic systems of 6onti-blling the mass rate of flow Gyroscopic flowdietbrs. with a rotating sensitive element Gyroscopic flowm~tdrs:,with an oscillating sensitive element Gyroscopic flowmeters-.with sensitive elements having nonrestricted motion 7. Turbine-type flowmeters 8. Comparison of mass flOWMet6rs Ch. III. Automatic System of Controlling Volume Rate of Flow 89 9. Automatic flow control systems with primary flow sensors 89 Turbomagnetic flowmet6rs.- 90 Turbo-optic flowmeters 96 Turbine-type flowmeters measuring the rate of rotor revolutions by radiation 101 Card 3/5  Elements of the Automatic (Cont.) SOV/3625 Turb.ine-type flowmetdrs.~ with direct modulation of electric signals 10; Dynamic properties of automatic turbine systems of controlling the rate of flow M Turbine-type flowmeters with feedback measuring device ill 10. Ultrasonic automatic control systems for unsteady rates of flow '112( Ultrasonic flowmeters 12( Ultrasonic anemometers 13; 11. Induction automatic control systems for unsteady rates of flow 13J 12. Thermal automatic control systems for unsteady rates of flow 14~ Thermoanemometers 15( CgUrimetric flowmeters 16' 13. Automatic oofftrol systems with continuous ionization of the flow 16( Flowmeters with continuous ionization of the flow by radioactive irradiation 16( Ionization anemometers with glowing discharge 17( 14. gethoda of discrete measurement of unsteady rates of flow with the help of different markers of the flow 17, Card 4/5  OFFICIAL USE ONLY Elements of the Automatic (Cont.) SOV/3625 15. Instruments measuring the rate of flow according to the velocity head of the flow 185 Conclusions 194 Bibliography 204 AVAILABLE: Library of Congress Card 515 AC/-sb 6-1 L6  28(5) Pim I Boox upwrwron SOV/3122 Candidate of %chnical lKenees Metodj~ i pribory d.'Lya'1zmerenAya parame.irov nestatsionarnyM tepiovykh protseavy; .temperstura, dAvleniye, raskhod (H)tbodsand Instruments for Measuring %rametere of Ubstmdy-state Therval Processes,* Tempera- ture, Pnssure, and Flow Rate)' Moscow, Mashgiz, 1959. 217 P. Errata slip inserted. 5,000 copies printed. Reviewerki: N. N. Shumilovskiy, Doctor of Thchnical Sciences, Professor, and A. L. PAW, Engineer; Ed.: M. A. Llvov, Candillate of TL-chnical Sciences; Ed. of Fqblishing Houm: M. S. Yqliseyev; Tach. Ed.: V. D. 911kind; M*ging Ed. for Literature on Machinery and Instrument Constritetion: N. V. Pbkro.vskiy, Engineer. PURPOSS: -qhivb~oo~ is intended for.tec-hnieal personnel dealing with the measuredeij~ of unsteady-stata parkmeters of tbarmal processes. It my also be of use to students-in related fields. Card 1/7  ~28 (5) SOV/115-59-3-26/29 AUTHOR: Katys, G.P. TITLE: The Dynamic Properties of Instruments for Measuring Nonstationary Temperatures (0 dinamicheskikh kache- stvakh priborov dlya izmeren.iya nestatsionarnykh temperatur) PERIODICAL: Izmeritellnaya tekhnika, 1959, Nr 3, pp 58-62 (USSR) ABSTRACT: The author reviews optical devices used for measur- ing temperatures of nonstationary flames and gaseous media. He bases his review on nine Soviet sources and nine English language publications. The author does not consider methodic problems of measuring nonstationary temperatures which are ale ately 1 ':3~u covered in the literature cited ZR-ef . He has the opinion that the accuracy of measurements of rapidly changing temperatures depends to a consider-- able degree on the dynamic properties of the photo- electric systems which are applied in such devices, However, when designing and-Kscussing such equipment, Card 1/3 these dynamic properties are not considered. There-  SOV,/115-59-3-26./29 The Dynamic Properties'of Instruments for bleat3uring Nonstationary Temperaturee fore dynamic errors may attain values commensurable with those of methodic errors and eventually exceed the latter. The author established four groups of pyrometers, whereby he evaluates the dynamic proper- ties of the different types comprised in them. He begins his review with five types of brightness pyrometers and five types of color pyrometers, whose principal systems are shown by figurcal and 2. The third group comprises three high-speed systems em- ploying spectral lines of an alkali metal which is introduced into the flame CRef 13-147. The fourth group comprises systems where the temperature is determined by the intensity of the central part of a saturated spectral line of some alkali metal, for example sodium which is introduced into the flame, with the application of an interferometer. Figure 4 shows the systems of two devices of this typ2 Z~-_Ref Card 2/3 1, 3, 17, 18, 197. The Kharll:ovskiy gosudarstvenryy  SOV /115-59-3-26/29 The Dynamic Properties of Instruments for Measuring Nonstationary Temperatures institut mer i izmeritellnykh priborov (Kharlkov State Institute for Measures and Measuring Instru- ments) is mentioned in this connection for having developed a modulation method for a photoelectric receiver which permits to measure the intensity of a spectral line under consideration of its back- ground noise created by the flame. There are 4 dia- g.rams and 19 references, 9 of which are Soviet, 9 English and*l French. Card 3/3  Katys, Georgiy Petrovich PHASE I BOOK EXPLOITATION SOV/4484 Nekotoryye voprosy avtomatichookogo kontrolya nestatsionarnykh poley (Certain Problems in the Automatic Inspection of Nonstationary Fields) Moscow, Izd-vo AN SSSR, 1960. 222 p. Errata slip inserted. 5,01)0 copies printed. Sponsoring Agencyt. Akademiya nauk SSSR. Institut avivomatiki i telemekhaniki. Reap. Ed.t B.N. Petrov,, Corresponding Member, AcadeNr of Sciences USSR; Ed. of Publishing Houset V.A. Kotov; Tech. Ed.: O.M. Guolkova. PURPOSEt This book is intended for scientific and teohnieal personnel working in the field of automatic inspection of nonstationary fields. COVERAGE: The book is described as the first attempt in either Soviet or non-Soviet literatittre to present in a generalized and systematic way methods and systems of automatic inspection of nonstationary parametric fields, with emphasis on pyro- metric scanning systems. Optical scanning systems and systems with complex pick- up cot-mections are reviewed. Television systems which carry out the functional generation of transmitted parametric field images exe examined, as well as prob- lems connected with the determination of scanning system parameters in relation CaFA~  Certain Problems (Cont.) SOV/4484 to field properties. The author sumnarizes the results of investigations on automatic scanning used in field inspection which he began in 1953, and dis- cusses several problems of automatic selection of optimalizing parameters of scanning devices. The author thanks B.N. Petrov, Corresponding Member, Academy of Sciences USSR; B.S. Sotskiy and G.M. Ulanov, DoetorB of Technical Sciences; and M.A. L'vovj Candidate of Technical Sciences. There are 99 referencest 58 Soviet, 37 English, 3 German and I French. TABLE OF CONTENTSs Foreword 3 Introduction 5 SECTION I. AUTOMATIC INSPECTION OF NONSTATIONARY FIELDS BT IMEARS OF OPTICAL SCANNING 1. Optical s~annimg of temperature fields 17 2. Theoretical problems of optical field scanning 24 3. Optical methods of temperature measurement used in scanning pyrometers 46 4. Opticomechanioal scanning of temperature fields 52  KATYS, Georgiy ~~p ftro ~; PSTROV, B.N., alademik, otv.red,; KOTOV, V.A,, - PAUSAKOVA, T.A., tokhu.red.; GOLUB, S.F., takht.red. [Automatic control of nonstationary parameters and parametric fields] Avtomatichoskii kontroll nestatsionarufth parametrov i parametricheakikh polei. MDskva, Izd-vo Akad.nauk SSS33~ 1962. 471 p. (MIRA 15SO (Antomatic control)  KATYSI 0. P. Dissertation defended fit UO Institute of Autcmation and Telemechanics for-the academic degrGe of Voctor of Technical Sciences: "Automatic Control of Nonstationary Fields." Vestnik Akad Nauk, No. 4, 1963, pp. n9-145  -!AW20392 DOCK MLFWITATIM S/ Methods and systems for automatic control of nonstatio=7 parameters and paraw metric fields (Ustody* L eleteuW* avtmatlcheBkogc) kontrolya nestatsionn". ny*kh parametroy i parametricheakikh poley) Moacov,,, MaehgIs, 1963. 358 pe ilUa,, biblio* 370D copies printede Edited byt Petrov, Be No (Academi- I &ian)l Usnaging editors Pakrovsklyp N. Ve (Suginser)l editor of the publishing ficuset Baranova, t. S. (ftgimer)j Technical editurs Sokoiova., To Fol Proofreaders Bakut4u*cra,, As Pe MCP30 TAGSz automatic control, scanning..,display,, functional Image transformaw 'tionp scanning beam., point pickupp UmperaUtre field scanning, Infrared,, radar.. ultrasonic scanning,, pyrousterej, presuare coutrol# automatic flow control PURPCSE AND COV=Ms This book In intended for scientific persoawl,, engineersp and technicians In the field of.autwatic control of nonstatiocary parazeters wA parametric for readers *t9rested In proUe= of Doming wd CqrdA  #314QP392 displar In'sutomatic contrple It nay be useful also for students U corresponding specialties. Methods of automatic control*of thermal-tochnical parameters (temly.Irature,, pressurs,, and consumption) #ad the pertinent autowtic.-control systems are analyzed* Problems of optimum perception of information concern ing "o state of the parametri field and of pptimm presentation of the rosiults of ana2yeis of the state of the field are analyzed In the first part of the back* Here, the method of selecting -the optinna trajectmT of survey (Scanning) Of the field developed by the am"__,ur mid the method of functional transformation of the image of the controllAblo #92d a" cutlinede The pr:Liclple of conptructing oys. tome that achieve outomati trol of f:!~lda with the aid of a scanning con b"a discernible by a senOlng *3~asnt Is outWed and sweral wmmples of such systems are analysed in the seeondpaxte Ths, thl~d part Is dinreted to point PICIMPO am elements of systems*, lkah;af the work presented In thlLs book vaa d*no at the gaflA 4N SSMLI Inatitut Axtwatlki I T410"kh TABIZ CP Comm$ For4ward 3 Cprd 2/6  UCHKIII, Illya III-Jeh; V.Ye., retcen,,lorit,; 01'111~OV, L.L., .retsenzent; KATY.,~', G.P., doktor tekhn. nai;,.k, red.; K.U.,', P.M.) red. [Transducers in marine remote control systems] Datchiki su- dovyk' sistem distantsionnogo kontrolia. 1.'o!;k-va, Izd-vo "TranLport, 1964. 209 p. (MIRA 17:F.)  KATYS, Georrriy Petrovich; PETROV, B.N., akademik, etv. red. 11,-;Z7,~,r~"- - I k [Photoelectric scanning devices for search and tracking ,11 systems] Skandiruiushchie fotoelektricheskie --atroistva polska i slezheniia. Moskva, "Nauka," 1964. 249 P. (MIRA 17:6)  AVEN, O.A.; DVORETSKIY, V.M.; DOMANITSKIY, S.M.; ZALMANZON, L.A.; KRASSOV, I.M.; KRUG, Ye.K.; TALI, A.A.; KHOTOLOV, V.A.; BULGAKOV, A.A.; DEMIDENKO, Ye.D.; BERNSHTEYN, S.I.; YEWLIYANOV, S.V.; LERNER, A.Ya.; MEYEROV, M.V.; PERELIMAN, I.I., FITSNER, L.N.; CHELYUSTKIN, A.B.; ZHOZHIKASHVILI, V.A.; TLIIN, V.A.; AGEYKINP D.I.; GUSHCHIN, Yu V. - U~~. - DELI TTSER, L.V.; PARKHOMENKO, P.P.; MIKHAYL6~, *I.; FITS19R, L.N.; PARKHONENKO, P.P.; ROZENBLAT, M.A.; SOTSKOV, B.S.; VASILIYEVA, N.P.; PRANGISHVILI, I.V.; POLONNIKOV, D.Ye.; VOROBtYEVA, T.M.; DEXABRUN, I.Ye. Work on the development of systems and principles of automatic control at the Institute of Automatic and Remote Control during 1939-1964. Avtom. i telem. 25 no. 638:07-851 Je 164. (KRA 17:7)  KATYS.Geo ty., tujaqb;_JL'INSKIY,V.M... red. 2A [Mass flowmeters] Massovye raskhodomery. Moskva, P-nergiia, 1965. 87 p. (Bibliotaka po avtol-iatikep no.124) (1-UMA 18:4)  UTYS,,.Georgiy-Fetro.vichl TEMNIKOV, F.Ye., doktor tckln. nauk., ro senzent; STRELINIKOV j Yu.V. , inzb. , red.; TIETROV,B ,". pakad. rek (Information scanninp, -Cfstems) Informatsionryt iusbehie sistemy. red. B.W.Petrova. NOSJni5fMhashlnv- stroenie, 1965., .4'47 p. (I. -LA 18:12)  KATY B.N.,, otv. red. [SYstems for the automatic control of velocity fields. and expenditures] Si.stemy av-tonaticheskogo kontrol.i.n polei skorostel i raskhodov. Moskva,, Nauk-R, 1961,. ~63 p. (1-11R], 19: 1)   100 Ims, AP6009894 A 21. Figo is- I Pek han, prism$ an, i--!setsof- point-oonta6t::ph6t6resistances; 4:-:0athode ray tlibee ji~ Orig. art* hase. I diagram&' w SU ODDEt 20/ SM DkTB I 1MV64  ~Acc NR: "6oo6276 :Monograph UR/'. Katyst Goorgiy Petrovich 'Automatic monitoring systems forvelocity and flow rate (Siotew avtomaticheakogdt--~ kontrolya poley skorostey i raokhodov) Moscowt Izd-vo "Nauka", 65-' 0463 pe illus., biblio. (At head of title: Akademiya nauk SSSR. MiniBterstvo, priborostroyeniye, srodatv avtomatizataii i eistem upravieniya SS51t. Institut. a i avtomatiki i telemekhaniki /tekhnicheakoy kibernetik /) 3f200 copies printed* IOPIC TAGS: automatic can-trol system, automatic control deeigay floyr ratey flow measurement, gas flow, liquid flow, flow velocity, flow Dieter TURPOSE AND COVERAGE: Automatic velocity monitoring syatemsp the elements of such ,systems, and various methods of scan and probe monitoring of velocities and flow rates are considered. Various methods and devices for automatic monitoring of non- :stationary liquid and gas flow rates are invostigated~ masal turbines ultraconict 'induction, thermal, and other flow metere being considered. The range of optimal :utilization of these devices and their measurement accuracy are detexmined. The 'prospective trends in the development of such systems are indicated. Now mass flow ,motors developed by the author at the Institute of Automation and Remote Control AN ;SSSR are considered, Computation mothodo are prosentod and design retoommondationo 50]  :ACC NR: AM6006276 fare given for a majority of the considered classes of flow meters. The author ithanks academician B. N. Petrov for a number of valuable comments made while !reviewing the manuscript. The author also thanks V. M. Illinskiy and Yu. D. 1liamikonov for help in the development, preparation, and experimental investigation !of a number of new flow meters considered in the book and-in collecting and proces !ing the bibliographic material and L. A. 11anokhina for help in preparing materials Ifor the book. The book is intended for scientific and technical engineering works: ioccupied with problems in velocity and flow rate monitoring mid gas and liquid flo, It will also be useful for students and technicians of the corresponding specialtifi TABLE OF CONTENTS Cabridgel7t jIntroduction - - 3 IPart 1. Scanning systems for automatic monitoring of velocity- and flow rate - iCh. 1. Methods for automatic monitoring of velocity by probing the flow -'- 13 !Ch. 2, Methods for automatic monitoring of velocity using special devices combining the functions of velocity detectors and scanning elements - - 20 ICh- 3. Methods for automatic monitoring of velocity with the motion of isolated I particles (markers) in a moving or stationary medium - - 26 Ich. 4. Photographic methods for recording and investigation of flow'and velocity 43 J [Card-9/4  -ACC NR: AM6006276 Ch- 5- Methods for automatic monitoring of velocity using a set of rigidly Mounted scanning detectors - - 54 Ch. 6. Some problems in constructing optimal seaming systems for'monitoring flow 62 'Part 2. Automatic monitoring of nonetationary flow - 73 'Section A. Mass flow meters with flow drive of rotors - 75. ICh- 7. Automatic monitoring of mass flow rate - - 75 iCh. 8. Turbine flow meters with flow drive of rotore 79. Xh. 9. Coriolis flow meters with elastically coupled rotors - 122 ,Section B. Mass flow meters with electric drive of rotors - 126 'Ch. 10. Turbine flow meters 126 Xh. 11* Coriolis flow motors 179 ;Ch' 12. Gyroscopic flow meters - 205 ICh: 13. Mass flow meters based on the viscous circulation effect 215 Ich- 14- Comparison of mass flow meters 220 iSection C. Devices determining the volume flow rate or flow velocity - -.231 ICh. 15. Flow meters with impeller-tachometer primary traneducers 233 Ch. 16. Volume flow meters 297 Ch* 17, Ultrasonic flow meters - - 303 Ch* 18. Flow vibration flow motors - - 343  cc NR, A%oo6276 Ch. 19.1 Induction flow meters 347 Ch. 20.' Nuclear magnetic resonance flow meters - 379 [Ch. 21. Continuous ionization flow meters 385 Ch. 22. Thermal flow meters.- - 391 Ch. 23. Devices for discrete monitoring of nonatationary~flow,using various'flow' markera 418 ibliography 451 SMCOM 20# 13/ OWBATE, 140ot65/ ORIG REF: 146/ OTH RRFs~ 125 I CQ~awr d  ACC NR;AM6015022 Monograph UR Katys, Georgiy Petrovich (infomatsionnyye skaniruyushchiye sistemy) Mo4cow, Izd-vo "Mashinostroyeniye", 1965- 447 P- illus', biblio. 2560 copies printed. TOPIC TAGS: Information storage and retrieval, information processingo quantum oscillator,.scanning system, tracking sysien PURPOSE AND CWERAGE,6 This book is intended forlengineers and technicians concerned with the design of scanning systems. It may also be used by students of corresponding specialties in schools of higher technical education. The book deals with problems of the efficient structural design of optical scanning systems for the examination of a controlled field with the aim of retrieving infor- mation on its condition. The theoretical problems of designing optimal scanning systems,, taking into account the probable properties of controlled fields, are discussed. Methods for determining the parameters of these systems, derived from various optimality criteria are described, The principle of the operation design characteristics and methods of calculating some elements of optical scanning systems and thoir block diagrams are given as well as the basic 4DC; 62-1,397- 3  ACC NRAm60l5O22 characteristics of scanning systems intended for the automation and control of manufacturing processes in various areas of Industry. Numerous scanning systems developed by the author are described In the book, No personalities are mentioned, There dre 211 references: 79 Soviet and 132 non-Soviet. TABLE OF CONTENT& Foreword -- 3 Introduction -- 5 Part One Several Problems of Information-Scanning-System Theory Ch.l. Scanning Systems (General Statement) -- 13 Ch.II. Analysis and Design of Information Scanning Systems -- 28 1. Scanning trajectory*types -- 28 2. Application of information theory to the determination of optimal-parameter relations of scanning systems -- 30  ACC NR.m16015022 3. Criteria of scanning-system efficienoy 36 4. Optimal information retrieval from a controlled field and optimality criteria -- 41 5. ;Search by sequential scanning 46 6. Optimallacanning of a field consisting of a number of concentric ring areas -- 52 Part Two Elements of Scanning Systems Section X Sensitive Elements -- 79 Ch.111. Photoelectric and Thermoelectric Sensitive Elements 80 1, 0eneral. characteristics -- 80 2. Thermoeleetric. sensitive elements -- 83 3. Sensitive elements with external photoelectric effect 86 4- Sensitive elements with Internal photoelectric effect (photo resistance) _- 88 Photodiodes and phototriodes -.- 96 Sensitive elements with photomagnetI6 effect --:98 Ch,IV. Quantum-mechanical Oscillators and Amplifiers -- 101 Section B. Elements of Searching/Soanning Mechano-optical and Photo-  ACC NRt electric Systems -- 107 Ch.V. Mechano-optical Scanning Devices -- 108 1, Devices using optical reflectors in scanning elements -- 108 2. Devices which scan by means of refractive elements -- 120 3. Devices which scan by means of the changing refraction factor of certain materials) 129 4. Stationary (shielded ield-scanning device -- 13Z.- Ch.V1. Photoelectric Scanning Devices -- 138- 1, Devices:which are Intended for image analysis and decomposi- tion -- 138 2. Data representation devices -- 156. Ch.VII. Electrolumineacent and Semiconductor Scanning Devices -- 163 1, Transmitters -- 163 2. Eleetrolumineseent devices for Image reproduction and function conversion -- 171 Ch-VIII. Scanning Devices Based*on Optical-ftber Elements -- 185 i. Principles of building up optical-fiber elements -- 185 2. Optical-fiber scanning devices -- 188  ACC WAM 015022 Section C. Elements of Tracking Photoelectric and Meehano-optical Scanning Systems -- 195 Ch.111, Mechano-Oplical Devices for Determining a Mismatch Botwpen the Direction Toward a Radiation Source and the Optical Axis of the System.- 196 1. Devieds using interruption of luminous flux -- 196 2, Devices accomplishing a division of luminous flux -- 242 Ch.X, Photoelectric Devicea for Determining a Mismatch Between the Direction Toward a Radiation Source and '%6#he Optical Axis of the System -- 254 Ch,X1. Devices which Track an Object According to Velocity and Direction of Its Movement -- 287 Part Three Scanning Systems Section D. Circular-Zearoh-Scanning systems 293 Ch.111. Parametric-Field Control Systems -- 293- 1. Thermal-field-scanning analyzer -- 294 Ccwd 5/8  ACC N1MOU0UL-'L' 2, Scanning analyzers of the radiation-field intensity of an actual radiator -- 299 3. Scanning system Intended for searching definite field sectors -- 301 Systems for the visualization of object' thermal images , s 4 without linear analysis -- 309 6.=., System for Accomplishing the Functional Conversion of Images -- 312 - 1. Systems for determining the isoporometric. lines*of an Image 313 2. Systems for forming a single complex Image from two Initial ones -- 328 3. Funational converters for resolving the most dynamic zones of an image -- 330 4, Multiparametric Image converters -- 333 5, Systems for accomplishing geometric conversions of an Image 335 Section E, Analysing and Cybernetic Scanning S stems 337 Ch,XIT, Automatic Scanning Microscopes 339 .Ord  cc NR-Am6015022 Ch,xv. Scanning Systems Intended for Analysing Trajectories of BlementarY-Particle Trails -- 344 Ch.XVI. Scanning Systems for Accomplishing Dimensional Control, Machining According to Drawings, and for the Reproduction of Graphs 352 1 1, Rolled-iron dimension-control system -- 352. 2. Systems designed for controlling the dimensions of cylindrical and complex-form details -- 358 3. Systems Intended for machining according to drawings -- 361 4. Graph-'to-electric signal-conversion systems -- 364 Section F, Special Mobile-Object Searching-and-Tracking Scanning Systems -- 369 - Ch.XVI'. Tracking Scanning Systems 370 I., Astronomical tracking systems 371 2. Mechano-optical tracking systems -- 378- 3. Location tracking systems with photoelectric scanning -- 382 4. Three-dimensional indicator - 388 5. Searming systems vith homing attachments -- 390  AM HRAM6015022 Ch.XVIII. Navigation and Orientation Based on the Use of Scanning Devices -- 396 1, Navigation and orientation methods'---396 2. Navigation scanning systems'-- 398 3, Horizon and vertical sensors -- 411 Ch.=.-Scanning Systems for Aerial Reconnaissance and the Study of of Terrain and Atmosphere -- 421 1. Aircraft scanning systems -- 421 2. Research and reconnaissance scanning systems Installed aboard artificial Earth satellites 431 Bibliography -- 438 AVAILABM Librairy of Congreiss SUB CODE: 09, 11/ SUBM DILTZ: 15Sep65/ ORIG PXX-. 083/ OTH REF: 128  SRAPOVALOVp A,, inzh,I.KATrSHEV, A.; FILIKIN, I.; IIOVOVOY, D.; VASIMNKOV, N... oleoarl - Exchange of experience. Avt. transP. 41 no.8t52-54 Ag 16j. (NIRA 16:11) 1. Kharlkovskiy avtotrest (for Shapovalov).  " I.- . .I r e., ~, I - I - - ~ - "N - 1- -J- : -~- -- , '. - r-,A , /,~ - . .- ---- -- 7 ~ I -- - - -- - -  n,, d as r t v e n t  Y,ATYSHEV,--A. M. I DRIM, S. M. Use of the now tnve of vyntbetic plaoticisero in.the manu- faoture of artifidal leather. Kosh. obuv. prom. 4 no.10:31+-15 0 162. (MIRA 15ilo) (Leather, Artlfioial) (Plastileizers)  --- ------ - ___ - - __ - ___ - - ___ - - __ __ - __ - - KATYSIMV, I.M. Maintenance of electric substations by mechanics on duty at home. Ble'k.i tepl,,tiaga 5 no,12:15-16 D 161. (MIRA 15:1) 1. dlaynyy inzh. 5-go uchas,~ka energoenabzhenlya Yuzhno-Urallakoy dorogi.- (Electric railroads--Substations) (Remote control)  INTS -W, Irks y tapanovich; ZATM. AVRUTSXAYA. R.?., red.izd-va; DUSUZHINi"YA -.1 V, t' e -, n-.red. (Iron inclistry of the U.S.S.R. on a new upswing] Chernaia metal- lurglia SSSR na novom podmeme. Moskva, Goa. nauchno-tekbn. izd-vo lit-ry po chernoi i tovetnoi,metallurgii, 1958. 72 p:5) (Iron industry) (MIRA 11.  KATYSHEV, NoF,, inzho Drive for the rolls of the M-lzhP-150-IB maohins from a direct current "tore Svar. proizv. no.7332 A 163. (MIRA 17:2)  ANDREYEV, Viktor Fedorovi*.I=d. ekon. naukj BANNYT, Nikolay. .Pavlovioh, dots.,v-kands ekon. naukj GOPSLIK, Iosif Grigorlyevloho dota.,.kand. ekon. nauk [deoeased].1 KATYSBELjiktPvJAAwi4ov-iahj OBLOMSKIY, Yakov Antwiavich, kand.' ekou.~ iu*l FEKELISO Isay BorisoviP-4---, JINEGINO Ivan Ivanoviobl PRIYMAK, Ivan Androyevioh, prof., doktor takhn. nauk [deceased]; ROYTBURD,.Lazarl Nisonovich, prof., doktor 4kon. naukj ROMANOVICH, Nikolay Dmitriyevioh; BORDIN, M.M., retsenzwtj BRYUKHANKNKO, B.A., dots., kand, ekon. nauk, retsenzent; KHUTORSKAYA, Ye.S., red.iad-val KARASEVp A.I.v takhn. red. --roje ~-X (Economics of ferrous metallurgy In the U.S.S.R.] Ekonomika chernoi metallurgii SSSR. [BY] V.F.Andreev i dr. Pod red. L.N.Roitburda I N.P.Bannogo. Moskva.. Metallur issdit, 1963. 384 p. fm'~IR'A'16: 5) (Iron industry) (Steel industry)  66363 a h6-3 00 SOV/120-59-5-6/46 AUTHORS: Golovin, B. M., Dzhelepov, V. P., Katyshev, Yu. V., Konin, A.D. and Medved', S.V. TITLE: A Ring Target Apparatus for Studying High-energy Small- angle Neutron Scattering PERIODICAL: Pribory i tekhnika eksperimental 1959, Nr 5, PP 33-35 (USSR) ABSTRACT: The authors have measured n,p cross-sections in the small-angle range (350 - 50 centre of mass system) at ,---600 MeV (Ref 1). The method used consists in the following. To begin with a high-energy neutron beam is produced with the aid of an annular brass collimator, as show-a on the left-hand side of Fig 1. The beam is then incident on a toroidal circular target whose central axis coincides with the longitudinal axis of the beam. The neutron detector is in the form of a neutron telescope and can be moved along the symmetry axis of the apparatus. The use of a ring target means that it is possible to use a larger amount of scattering material than in the usual targets. The neutrons are produced by 680 MeV protons at an internal target of the synchrocyclotron of the. Cardl/2 Laboratory for Nuclear Problems of the Joint Institute for ~K  AMMORS: x4tyahev, To. T., Ionia, A. D., Wood-, 3. T. ------------------------ TITLII fte 3catt.ring of Neutron. by Protons In the 114CiOn Of SCA11 Angles at Isatrom thergles of 590 Nov (Ims.eyanlye zeytronov prota"ol v ablaott "lirkh aglor prl on*rcil asytronor 590 lul) YXIMICALt Zb.rbal oksporisont;!7-toy(I toor.Uche.key rislki, 1959, To, 36. ar 3. vp 73 )a C"2) IMUCT s ?be authors Investigated the differential crams section of mi-p-oc4ttaring at an awarmeS neutron #..rCT of 590 1!., in 'the angular range of 5 - ~5 1 for this 7urposo a special 7!~ device with an ocular mostUrtr won amve%opod. which has %1- ready been described In on* of tho autbvrol earlier papers and this paper (rLg 1). x4mult.: Be.tILtascranigle Relative "our,% or a-p-s-.ttaritut crams M-p-statioring crovs 0.01ion in section Cm,2/otoradlaa 5 2 7ZLO.4 10 ! 1.5 6 'Sj iara Sh 11.5 1.7.tD.2 9 23 1.240.1 4:3 :5 35 3 ~7;0 2 Determination of coefficients in the anslito qaAt%a,% or powslorize x ilt a- a )n 1 2 .,.)(.2.) 1. possible by 6(., 02T) sea" of experibental Investigations. ts holds that 6p- **) - I-P - 101' - IA12 W2 mc, 184(6 - e) - kot(4-, -here k donates the --I* -ab.r If the Incident :Oct.=. It b014. that 0* - 02) - 0*)] 2 --V1 61" 41, and by wol., '.he ..Pmrimatal R0 $"Its btaln*J by the author, it SA founj that 'p 01126 -00 ) - [Iow up (4 - 00)12 rigurv 2 obo.s the anorgy 4.,_.donc. of JA.A - 00) for "*Idea-dualvaA Intoraction LA the state$ ill% Loatc;it Card 2/3 971. T - 0 and T - I with " accuracy of ~;art :re= a Thu Scaltort" of xqntrouff by Protons in tho losses Of"Zzall AcCl.o at Neutron ftergime of 530 Uvv Ir nC Inc"&&# Of crams s.etlaus with - d*croasiag cat%*r. Ing O:~Ilo 'bar* Is a prodcalcanum or forward scattering :rose GoottODS Over backward scol-.rux crams -#Ctlana. A 06PArieva Of the results Otaln.4 by ... no of the optical th-or.o @has, that It to doubtful IQtt6.r nueI 44 t;m`lfW at~600 Nov can be describ.4 an th* basis or th:to goo ~Ocloft .0dox. Thar* arm 2 ftegr.s, 2 table.. am tl refdreac*q. I of 'bl'.., &r. ASSOCIATIVIZ Ob- T.Ji, WY -,slut rejormykh JOlOt In-ttfuto for Nuclear I ... kre~..) SUZXMKDt 3*Pltoab.r ~, 1954 csrd~ 315  B/05 60/03'80"2/17/061 c~9 IA 0 0 m6yni i AUTHORS: Van Gan-chan. Van Tsu-tszenp Din Da-tsao, Ivanov, Vb Go, Kat-y-ahev, Xul Y.9 Kladnitskaya, Ye. N.) Kulyukina, L. A., _#guyen Din T , Nikitin, A. V., Otyinovskiy, S_ Z~# Solov'yev, M._I t Sosnovskiy, Rp, Shafranov, M.-D. TITLE: Investigation of the Elastic Soattgri 17 f n--Meaons With a Momentum of 6.8 Bev/c on Protons by Means of a Propane Bubble Chamber PERIODICAL: Zhurnal eksperimentallnoy i teoreticheskoy fiziki, ig6o, Vol. 38, No. 2, pp 426-431 TEXT: For the purpose of making a contribution to the problems of proton structureI the authors investigated the scattering of negative 6.8-Bev/0 pions on protons (wave length X - 0.112,lo-13cm) in a 24-liter propane bubble chamber placed in a magnetic field of 13,700 oe. The experimental setup is shown in Fig. 1, The momentum distribution of %--mesons was de- termined from 112 investigated tracks, and is shown in Fig. 2. The mea'i momentum was (6.8+0.6) Bev/c. A total of 3500 frames was interpretod, and )K Card 1/4  Investigation of the Elastic Scattering of n--Mesons With a Momentum of 6.6 Bev/o on Protons by Means of a Propane Bubble Chamber 82oi6. S/056/60/038/02/17/061 B006/BO11 550 events were selected from all two-pronged stars. The measured values were processed by an electronic computer. The root mean-square error in the angular determination was AG R = 261 and AIDp : 1014', The correction for track curvature did not exceed 201. The elastic 'n-p-scattering events were identified by the criteria discussed here; Coplanarity (Fig. 3); angular correlation (Fig- 4)j recoil proton range. Among the 550 events investigated, 218 were regarded as being elastic. Fig. 5 shows the distri- bution of these 218 events along the chamber axis, In the so-oalled ef- feotive region of the chamber (43 om with a total length of 55 em), 213 out of the 218 events were recorded. The distribution of these 213 events according to the azimuthal angle of the recoil proton is shown in Fig. 6. In 113 cases the recoil proton track was on top, in 100 it was below, in 115 at the left, in 98 at the right. An estimation of the percentage of quasielastic scattering events in the total number of elastic ones 6%. The cross section of the reaction investigated was found to be Card 2/4  82)16 Investigation of the Elastic Scattering S/056/ 02/17/061 of n--Mesons With a Momentum of 6.8 Bev/o B006/Boll on Protons by Means of a Propane Bubble Chamber Cr ' > 60) - 3-75 +0.25 el(Q, \ -0-55 mb, by taking into account a g- admixture of (5�2)%, with a total %- traft length of 1-15-106 o Iis the soattering A angle ir, the center-of-mass system. The total n-poiNeraction cross section was est:lmated as being (30,t5) mb. The final part of the present paper offers an analysis of experimental results on the basis of the optical model, *;th the proton being regarded as a homogeneous, sharply bounded sphere with a radius R - 1-05 io-13 m. The nucleonic absorption coefficient K is assumed to be K - 0-71-1;13om-7. Results are compared with those yielded by experiment3 (Table, Figs- 798). The authors finally thank Academician V. I. Veksler and I. V. Chuvilo for their discussions, N. A. Smirnov, Ye. K. Kuryatnikov, ju. 1. Makarov, M. A. Samarin, L. Yao Ivanova, ani ir assistance. There are 6 rigures, I table and 8 references: 2 Soviet and 6 American. Card 3/4  Investigation of the Elastic Scattering of n--Mesons With a Momentum of 6#8 Bev/0 on Protons by Means of a Propane Bubble Chamber 82 16 S/05 60/038 02/17/061 B006YB011 ASSOCIATION: Ob"yedinennyy institut yadernykh issledovaniy (Joint Institute of Nuclear Research) SUBMITTED: August 28, 1959 a( Card 4/4  BIRGER N-Ge- WANG KANG-CHSANG; WANG TSIU-TSENGI TING TA-TSIAO; KATYSM 'U-Y' KIADHITSKAYA, Ye.N.;KOPYLOVA, D.K.; LYUBDIOVi Y-Bi-ti, ~ft iD5- 77;* PIKITIN2 A.V.j PODGORETSM, M.I.; SOIDVIYEVI M.I* [Inelastic interaction of 6.8 BeV/S JT--MOBons and nucleons] Neuprugie vzaimodeistviiaSr- -mezonov s imipullsom 628 Bev/s a neuklonami . Dubna, Ob"edinenigi in-t iadernykh isal.p 1961. 30 P. (MIU 14:11) (mesons) (Nucleons)  BIRGER, B.G.; VAN QU-CHAN [Wang Kang-chOangj; VAN TSU-TSZEN [Wang TS'u-ts;ngjl 'DIN DA-TSAO [Ting Ta-tslao]; AT gff,-L61~; rJADRITSKAYA, Ye.N.; KOPYLOVA, D.K.; LYUBIMOV, V.B.; RGUYEN DIN TY; NIKITIN) A.V.; PODGORF,TSKIY.. M.I.; SMORODIN, Yu.A...- SOLOWYEV, M.I.; TREA, Z. Inelastic interactions of 6.8 Bev./c -r-meeons with nucleonab Zbur. eksp. i teor. fiz. 41 no.5*.1461-1474 N 961. (MIRA 14:12) 1. Ob"yedinennyy iwtitut~"y!sdernykh--ionledovani (Collisions (Ntw3j3ar physicsT (Mesons) (Nucleons)