SUKHANOV, N.I., inzhener; YEDOTOV, I.?., inzhener; KOGNOVITSKIT, N.I., -redAktor; ORWV, Te. I., redaktor; KOROVMOVA. Z.A., tekhnicheskiy redaktw . [Operator of a portable crane in shifting railway tracks In quarries] Mashinist rellsovogo krana na peredvizhke putei v karlerakh. Moskva, Ugletekhizdat, 1954. 171 P. (KLU 7:11) (Granes, derricks, ate.) (Railroads--Track) (Quarries and quarrying)  ;;UJUIANOV, Nikolay Ivanovich; CHIMtILOVICII, L.M., rod.; I.OVALEVSKIY, IOVSF . , . zd--va-;- O!AJKH AYA, G.P., tekhn. red. [How to organize business accounting in workshops and brigades]Kak organizovat' khoziaistvenrqi raschet v tse- khakh i brigadukh. Moskva, Metallurgizdat, 1962. 55 (MIRA 15:14, (Steel industry)  MJKWWuJ.,X".-_kund. Bel Iskokhozyaystvenrqkh nauk, dots. Renewing the blood of herds and establishing the structure of the red Tambov cattle [with summar7 in Inglish]. 1xv. TSKhA no,2:193-220 158. (MIRL 11:6) (Cattle breediz~,-)  U)BANOV. P.P., BF621RIEV, D.D., ROSTOVTSEV. N.F., POPOV, I.S., NIKOLAnV. A.I.. SMETNEV, S.I., BURLAKOV, N.M., ARZUMANYAN. Te.A., BARTSIRMOV, P.A., BELTAYEV. U.N.. BLOMKVIST, K.S., BORISP.IKO, Te.Ta., BURDEUCY. T.P., BYCHKOV. N.P.. VSYAKIKH, A.S., DAVIDOYD R.B., Kujj YAVTSEV, P.N., KUSffl4ZR.Kh.F., M. ANTIN, D.L., ROYIKOV. Te.A., OUROV, A.Y., STARTSEV, D.I., SUKHANOV.N.P.. SHVABE, A.K.. YURMALIAT, A.P.,[Ju.rmalietis. A.P.J-. In memory of Academician Efim ?edotovich Llskun. Zhivotnovodstvo 20 no. 7:84-85 -Tl 158. (Liskun, Efim Fedotovich, 1873-1958)  nd ,i-l-t. Sci -- (di-s) "Hydrolyz.--~d nutric-l-it 10 d, f a: c7i wii~. L-,ri.,-,t .1,-.d c, i ir r. -Dr ctive." Crcnburc, 15 1-1,~ T) .An of it cr ~-,::vy,.bia) 203 corji,~:~ ;SR. , ~l 10-6)  A C- electric WILL t-s JON -A rM  "!~, pl;.F Q()~, ~'In 1 ( , ; 1! 1., 1, ~mli, 1 t 11-1 1-1 - :! ~ ~ g'. r, "N' -Tpa - p i 'N R -19MMMORM ir~~  DUJrYREV, A.K., inzI.; SUIUWIOVp O.A., aspirant Current distribution between the brush holders of d.c. machinery. Vest. TSNII WS 23 no.6:9.-13.--161+. (,,.au 17: 10)  SUKHANOV, O.A. I irl"'h. Selection of -33 current supp-, 0' 165.  SUKHANOV, P., inzhener; PROKHOROV. V., inzhener. --7-- .. Construction and calculation of stone walls of humid shops Miss. ind, SSSR 24 no-5:35-39 '53. (MLRA ~:12) 1. Rosmyasomolproyekt. (walls)  SUKHANOV, P.S. - - - - - -- - - I - ~ Demands and utilization of the law of obligatory correspondence of production relations to the character of productiTS forces under socialism. Trudy SAGU no-75:3-26 '55. (.KLRA 10:5) (Economics)  DEKHTYLRI, A.I., inzh.; SUKHANOV, P.S., inzh.; VYZHIGIN, G.V.,, inzh. New construction decisions on multistory Industrial buildings. Prom. stroi. 41 no.2:2-6 F '64- ONIRA 17:3)  SU191ANGV, S. Investigation of balanced modulators in multiplex telephmq bwwd on the Hall effect. iIzv.AN TtLrk*S&.Ser.fiz.-tekh*, khim.i geol.nauk no.3:3-9 161. MU 3.4-.7) 1. Fiziko-tekhnicheskiy institut AN SSSR. (Telephone) (Modulation (Electronics)) (Hall effect)  SUKHANOV, S. Investigating the possibility of various frequency signal amplification babed on the Hall effect. Izv.AN Turk.SSR.Ser.fiz.-tekh., khim.i geol. nauk no.3:10-16 161. (MIRA 14:7) 1. Fiziko-tekhaicheskiy institut AN Turlmenskoy SSR. (Hall effect) (Amplifiers (Electronicq))  AUTHOR: Sukhanov, 22 3 2/6 1/too/W6/001/1004 Aoo6/A io 1 TITLEt Measuring weak constant and variable magnetic fields with InAs and InSb Hall generators using concentrators PERIODICAL! Akademiya nauk Turkmenskoy SSR, Izvestiya, 3eriya fiziko_tekhni:!hes_ kikh, khimicheskikh i geologicheskikh nauk, no. 6, 1961, 29 - 32 TEXT- Experiments show that the electric pare-iaters of a Hall generator (as e.g. non-equipotentiality of Hall electrodes etc.), affect considerably the sensitivity when measuring the strength of a magnetic field. When high-sensi- tive accurate devices are used to measure the output signal, and conctrrtrators with optimum parameters are employed to amplify the weak magnetic fields, sensi- tivity of measuring weak magnetic fields can be raised up to 10-6 oersted. Hall generators with concentratorp were designed operating on a-c and registering con- stant magnetic fields of 10-0 oersted, and operating on d-c and registering vari- able magnetic fields of the same strength. The devices are illustrated. They are made of InAs and InSb and have the following electric characteristics of crystals (at room temperature): for InSb, mobility u = 50,000-70,000 cm2__ Card 1/ 2 V.Sec  3C~22 -3120216 1.100,01006100 j/`004 Measuring weak constant A006/AIGI concentration of admixtures n - 2 i 4.10-6 cm-_5j 5pec-ific canduc-livitv 61 20O_- 300 ohm'I m-*I. For InAs u = 11:000 _. 25,000 .2ML-_ n = -1016 _. 101'7" G_ = 80 -ical dimensi ns of f16S90:1 generator are.-. ! 250 ohm-1 cm:1, The geometr 0 al engi.h 1 = 6 L 10 mm, width b = 2 ri -! 5 ffn ana thickness for TnSb d - 0,08 t 0.02 Mai for ias d = 0,15 0.3 mm' 1he magnetic field is amplified with mainetic ma-teri- ale such as Armco, Permendur, PermallaV and ferrits. A special device made of brass and tungsten plate, is employed -to clamp the concentrok )r rn-dE. The acou- racy of relative measurements of field strength, obtained with the aid.of the described Instrument, Is determined by the acouraey of relative ntasuraments of the controlling current and the vxx value, the constancy of external cond'-tions, and the quality of the transmitter. There are 3 tables, 2 figarss and 7 refer- ences. I Sovie-!;-blcc and 2 non-Soviet bloc, ASSOCIAT.70N! Fiz1Xo--ek1mtc.ne5kiy Akademil na~.ik SSSR (Physicc-Technical insti~.ute, AS USSR), Fizako-tekhnicheskiy in5titut AN -Tjrkmenskcy SSR (Physioo-Technical ln:it!~,ute, AS Turkmenian SSRj' SUBMIT'IED,., October 7, 196! Card 2/2  44374 6/202/62/000/006/001/002 E192/E382 AUTHOR: Sukhanov, S. TITLE: Insertion loss of it frequency-changer based on the Hall effect PERIODICAL: Akademiya nauk Turkmenskoy SSR. Izvestiya. ~eriya fizilco-telchniclics1cilch., khimicheskikh i geologicheskikh nauk. no. 6, 1962, 3 - 8 TrXT: A frequency-changer based on the Hall effect can take the form of the circuit shown in Fig. 2. This consists of three separate units: I.- current circuit; II.- magnetic circuit and III - Hall. circuit. Current of frequency f flows in the H magnetic circuit while current of frequency f passes between- e the current electrodes of the Hall generator. It is concluded by analyzing the circuit of Fig. 2 that the best operating conditions are achieved if R = 0 and c a 0 , i.e. during the 2 voltage resonance. Under those conditions it is possible to achieve a' maximum current in the coil producing the magnetic fie 'Id in the air gap of the electromagnet. The author has derived in an Card 173  L 1852"3 EW (1)1W (q)A%T (m)/BDS AmcASDASD-3 JD/JG ACCESSION NR: AP3005879 S/0202/63/000/004/0009/0015 AUTHOR: Sukhanov, S.; Agayev, Y .; Arustemova, M. V 631, 611 TITLE: Hall transducers made of 41A 4,1 4 SOMICE: AN TurkmSSR. izvestiYa. N-r. flziko-tekhn., khimicheak. i geolOgi- cheskikh nauk, no. 4, 1963, 9-15 TOPIC TAGS: indium arsenide-indium phosphide Hall transducer, indium arsenide, indixm phosphide,,Hall transducer, HaU-transducer sensitivity, Hall-transducer temperature stability, transducer sensitivity, transducer temperature stability ABSTRACT: A study of the basic parameters of Hall transducers made of the 41nAs-InP alloy has been conducted. Experimental specimens were 0.15 to 0.5 mm thick, 2 to 5 mm wide, and 4.5 to 12 mm long. The ohmic contacts were made by alLoying In with an alloy conzisting of In and 5% Ag. After polishinSli all specimens were subjected to etching in a 2% boiling solution of HC1. Ex- perimental data were obtained on the temperature dependence of electrical con- ductivity and the Hall constant, the resistance between input and Han elec- trodesi, the sensitivity, the Hall constant and the dependence of Hall voltage Card 1/2  ACCESSION NR: AP4037555 S/0202/64/000/002/0008/0014 AUTHOR: Sukhanov, S.; Arustamova, M. V. TIME: Investigation of the characteristic magnetic field of a Hall generator SOURCE: AN TurkmSSR. Izv. Seriya fiziko-tokhnicheakikh, khimicheskikh i geologicheskikh nauk, no. 2, 1964, 8-14 TOPIC TAGS: Hall generator, magnetometer ABSTRACT: The purpose of this paper was to examine the characteristic constant and variable magnetic fields created by controlling and Hall currents. Studies were made to 1) determine the approximate magnitude of the magnetic field, 2) to under- stand the effect of this field on the magnetometer probe compensator, 3) to select the optimum magnitude of the controlling current in order to measure various weak magnetic fields, and 4) to eliminate technological deficiencies which contribute to the growth of the interfering magnetic field. Astatic magnetometers and Hall generators without concentrators were used to measure the magnetic fields. An a re- sult of the investigation, the authors found that the Hall generator magnetic fields vary within a range which far exceeds the sensitivity of a magnetometer for veak fields. It is therefore essential that magnetometers for the measurement of very Cord 1/2  Ma EvE7 MIT-7 _47  j~117  Fljl~ -17p 1-110 i"OrIff-i-  ~ I ` ~ . I ~ _j - ~ - - - . - - - - - 4 - _ - --41,7g~ , R~l *,:;~ ~~ ~~ .2~~ " -- - ,f; f, -?I , 2.5 :29~ L~. , b". ; j~~ . V~ , -!% "MM, -il , M -,- - " - --i4t - ~~ ;~~- ~- i , W, 'm WoRmAl' , " N "! ; it ~ ~L " ~-~ IVON iTno-av, kM AgMa2N, - Vil Or ~,~ K " -11~~'~'Nl,-~ id ,7~  " ,I,- - ,  --. - "O"REAMIMMAIM , :n , 4  RM RON -  Z~6  E4 rn mm,  -,m romm a imma  1~1  L 2hUl-66 EWT(1)/FCC GW ACC NRs AT60011291 SOURCE CODE t UR/J1?5X5/000/096/0015/0Ca9 MMORs Arustamovs, He V,j ptt jpov, V, kj sukh4jnov,_S,- ;ORGs none ITIEs Hae-etomatar for Wasuing weak z&PAt4R.A91ds based an tho UAII affdat 1A In3b IM SOURCEs USSR. GosudarstvenMy goologichosidy komitet, Osoboys konstruktorsko-ye byuro. Gd-oflffaw-skaya apparatura, no* 26, 19650 15-19 TOPIC TAGS: weak magnetic field. Hall generator, Hall effect, indi-am, antj=iW, magnotowter, circuit design, electrode, electron tube, magnetAa permeability, electric transformer, electric generator ABSTRACT: Although &'numbor'of recent studios have been devoted to the problem of masuring weak magnatic fields with In5b and InAs Hall genoratord, a practical Hall-offect'instrumnt has not been devissde The article reviewed below proposes a compact magnotomoter based on the Hall effect in InSb with a sensitivity of the order of 6.54 x 10' oo$*' It has no rotating or vibrating parts and provides s. ple means of continuous measurements under both sUady-stAte ard nonsteady-sUte conditions, 14b9 principle oirouit diagram of the maLmatomster is shown in thel Card 1/4 - ---- --  L 241il-.66 Acc NR: A T6oo4,291 r--------------- Fig. 1. Hall-effect magnetometer Card 2/4  L 241ia,-66 ACC NM AT6004293. The sensitivity of the ma-giletometer depends not only on the voltbLge Sensitivity of the Hall generator but also on the sensitivity of the output :indicator, which, in turn, is determined chiefly by parameters of the input stage and the compensation quality of total parasitic voltages on the Hall electrodes. The low output resistance of the generator (2 otmis for a 70-M thickness) allows for a tube-type output indicator with a sensitivity in the ~neighborhood of 10- 10 v. To achieve such sensitivity, the amplifier tube !in the input st-9[ge must have a low equivalent noise for a high transcon- :ductance at the operating frequency, and the stage must have high input and low output resistance for the smallest value of noise. The low input resistance of the Hall generator permits the use of a kith .noiseless transformer a large transmission coefficient (750-2500), depending on the number of turns of the primary and secondary windings. The core is made of 79 NM Permalloy with a magnetic permeability co- efficient of 130, 000 g/oe. The transformer has three windings: w1, 7 turns; w 9 turns; , 7500 turns. Power supply for the Hall generator is from W2 a I-kc electronic generator. Card 3/4  L 24111-.66- ACC NR: AT6oowql The input unit, together with some of the other-units, is carefully screened Both the screening and the use of a synchronous detector in the electronic section of 1;he magnetometer have made it possibIg to increase its sensitivity to 0.008,uv,, Weak magnetic fields of the order of 10 oe, can be measured with great accuracyo A further :increase in the sensitivity can be obtained by Increasing the magnetic field concentration and by improving the output indioator circmLt, Orig, art, hass 1 figure, 2 tables, and 1 formilas 53B: v. 2, no. SUB CODE: 09, 20 SUEM DATE: none ORIG REFs 003 OTH REFt .002 Card 4/4.1~~'-,~e  ACC NR: AP6011418 SOURCE CODE: UR/0202/66/000/002/0035/0039 AUTHOR: Sukhanov, S.; Arustamova, M. V., Syrkina, V. F. ORG: Physico -Technical Institute, AN TurkmSSR (Fiziko-tekhnicheskiy institut Turkmenskoy SSR) TITLE: InSb magnetoresistiye sensors SOURCE: AN TurkmSSR. Izvestiya. Seriya fiziko-tekhnicheakikh, khimicheskikh' i geologiche6kikh nauk, no. 2, 1966, 35-39 TOPIC TAGS: magnetoresistance, sensor, transducer ABSTRACT: The results of an experimental investigation of five InSb magneto- resistive sensors of various sizes and shapes (disk, square, rectangle) are reported; temperature range -f- 20 + 10OC; supply, ac 1000 cps. A 6T JD,:, a I (H) plot shows that the Carbineau disk has maximum resistance variation. A plot of Card 1/2 UDC: 621.382.2  AP6011418 4~IT, vs. temperature Is also shown. Some results are held doubtful because of possible specimen contamination in the course of the raster-making operation. It is proven that a rectangular sensor has maximum sensitivity and that the sensitivity increases with (a) better suppression of E, by the raster, (b) smaller' raster interval, and (c) sharper raster face. Magnetoresistive sensors are held suitable for use in magnetometers, level gages, pressure gages, encoders, etc. Orig. art. has: 3 figures and I table. SUB CODE: 09 / SUBM DATE: 03Dec65 / ORIG REF: 003 / OTH REF: 00 1 Card Z/2  'EIiiiZA) I.S.; "IUMIELIF.0, Y.S.; HRAGA~ V.G.; ALEKSEYEVO B.A.; GORBACHEV, j1J'KJW:0V., 1) S , NUEDOV, D.I., inzh.-polkovnik zapasap F. A. L :- - .- --l- _~ f. ~A 9 red.; VYZVIIX.(,, S.A., inzh.-kapitan 2 ranga., re& SOID140111K,, R.L., tokhn. red. [P.anual for an aircr,,St technician] Spravochnik aviatsionnogo tekdmika. Voskva, Voen. izd-vo 11-va nbor. BSSR, 1961. 510 P. (MIRA 15:3) (Airplanes)  )/FA/D,'A(d)/EWP( d /AS(mp)-2/AF-rrH/AFT('(&) XdAtET/JDAIK/Mv, A('r&S~TCN NR AM049546 n" F F:yFlr-ITATTrW S/ Y,ur.-.a _1. S.; Shevell ko, P. S.; Rray#,_Y, Alekseyev, P., A., rorbac~,ev, F. Sukhanov, S. S. Handi-enk for an aircraft technician ('pravfchnik aviatsionnoro tekhnika), 2c! ed. rev., Moscow It' VOYeni-lat, V10%, 510 p. illus., Index. 35,000 copies printed. TOPIC TAG~: aircriift ntriiettire, aircraft material, aviation ruel, aviation lubricant, aircraft radio eyiipment, thernodyn_ _c Paadynamics, aviation enFine PITPPC-rE AN[) CQVFRACE: This manual is Intended forlaircraft technicians with sec- ondary reneral or avintion technical edijeation. Tt can also be usefol for flipht mechanics in the Air Force and other aviation specialists. The hnndhcok contains brief information on the reneral disciplines,-- physics, thermodynaniC3, Paso- dviiamics, electrical enrinporinp, radio eqincerinr and the special di3ciplines -- strenp,th of riaterialn, av.i.ation material3raArcraft atrenpth, aerodynhmice, Avia- tion enpines, aviation Jucls An0-.Lub19cNAt,9~t TABLE OF CONTEMS [abricivedl: Foreword -- 3 Card 1/2  L 20088-65 ACCESSION NR A%1,o1,Qc5146 Foreword to the seccrd f-dit-rn -- Ch. 1. Physics Ch. TI. Electri-al enpineerinF -- 56 Ch. M. Radio enrincerinr -- 7)4 Ch. 17. Mechanics -- ill Ch. V. Strenpth of mat-rials -- 130 Ch. VI. Aviation materials -- 163 Ch. VII. Aerodynamics -- 224 Cil . V111. Aircraft strenrth -- 310-~.' Ch. IX. Aviation engines -- 343 Ch. X. Aviation f))els and lubricants 414 Ch. X1. General handbook information 456 SUB ~^--')Ft AG SUBMITTEDi 05Kar64 NH RKF SOVt 055 OVERs 000 Card 212  SUMANOV, T. - KUDRYA, V. DANILOV, A. Moving-picture Projectors Shortcomings of the KPS projectors. Kinomekhanik no. 11, 1952 9. Monthly List of Russian Accessions, Library of Congress, L4a~y -1953, Uncl.  ---- SUKHANOV,__Y. (g.Artem, Primorskiy kray) The future belongs to these brigades. Pozh.delo 8 no.8:20 Ag ,62. (MIRA 15:8) (Maritime Territory-Lumbering) (Fire prevention-Societies, etc.)  82194 S/107/60/000/07/002/004 9192/E482 AUTHORS: -Sukhanovy V. and Kireyev, A.- TITLE*. Tubes with Electron-Optical Focusing (The Principle of Operation and Construction) PERIODICALs Radio? 196oo No-7., PP~34-38 TEXT: The tubes described are directly heated and are characterized by the absence of helically wound grids. These are replaced by a system of rod electrodes. Consequently, the tubes are referred to as the rod-type tubes?y The principle of construction of a tube of this type is illustrated in Fig.2. The overall effect produced by the rod electrodes is the same as that of the grids in a normal tube, but their operational principle is different. This is illustrated in Fig.3, where the first figure shows the distribution of the electric field between the electrodes of a tube at various voltages applied to the control electrode. The second graph in Fig.3 shows the equipotential lines in a rod-type tube in which the control grid is kept at zero voltage. The third (lowest) diagram of Fig-3 shows the equipotential lines for the case of the control grid being at -5 V. It is seen that the field lines in the tube form electron Card 1/3  82194 S/107/6o/oOO/07/002/004 9192/E482 Tubes with Eloctron-OptJcal Focusing (The Principle of operation and Construction) lenses. One of these is situated in the region between the control and screen rods; the second lens is situated between the suppressor rods and the anode, When a negative potential is applied to the control electrode the electron cloud formed by the electrons emitted from the cathode is kept in the vicinity of the cathode by the control electrodes, The space charge round the cathode filament has the form of a compressed ellipse (see Fig.4). Consequently, the emitting area of the space charge is reduced and the cathode current of the tube decreases, By applying a suitable negative potential to the control electrodes the cathcde current can be completely cut off. On the other hand, when a small positive potential is applied to the control'electrodes, a situation is reached at which the anode current remains constant. Under normal operating conditions the portion of the current flowing to the anode is as much as 95% of the cathode current; this is much higher than that observed in normal tubes where the anode current is not greater than 85% of the cathode current. Though the screen grid current in the rod,type tubes is quite lowv the Card 2/3  1'kOL -1 0 (114-5" /'0 0.3, 1 / -3 s/lo7/6o/ooO/OlO/OO3/003 E192/E482 ATJTHORSg Sukhanov, V. and KireyQv, A. TITLEI~ Rod-TYPC Tubee5(Applications) PERIODICAL,. Radio, 1960, No.10, pp.49-52 TEXT& The constructional details and electrical parameters of a number of subminiature vacuum tubes of the so-called rod-type construction were described in No.7, 196o issue of the journal. These tubes can operate at high fre(iuencies and are particularly useful in miniaturized portable equipment. A number of very high frequency circuits suitable for radio equipment are disct~ssed in this artic.le, First, a radio frequency tuned amplifier-Zis considered. Th is is shown in Fig. 1. The tubes suitable f&o the amplifier are 174e,176, I)R186, and 1*24E,; (%1_Z_h1_7B" lZhl8B and lZh24B).'A5 The anode voltage of the amplifiei'__N__W_V, the screen- grid voltage is 35 to 45 V and the grid bias voltage can be zero, if the input signals are very small. The amplifier can operate at frequencies up to 100 mc/s and higher. The tube type lZhl7B can also be used as a frequency changer. The circuit suitable for frequency changing is shoim in Fig.2. Here, the signal is applied to the control grid, while the local oscillator frequency is fed to Card 1/3  .-) UZ-1r,,I .- - Some data on the Pre-ice arc flora in nort-itern Siberia. Trudy tool kvzeya Akrid Nauk Vol. 4 j 141, 1910 So: Trudy Arktiche6kof-o Nauchr:o-js sled ovatel I skogo Instituta, GUSh?, Cmacil of Yinisters, Vol. 201, lq,~8.  ! - - .-- -i , . 'I' " " " ') , ~ , L, ; . ; :~ ; . , 1 7 , . ~ 1 1 - I . . 'i ,  I 311 T( A""! 1 77 1 lyl I A D D! 111 hili f); -'i SuK;0H!-,V, VT-AI)DqR NEKOL4"IFICH. Rastitelinye soobshchestva. (Vvedenie v fitosotsio'ogiiij). 4., dop. izd. Leningrad, I--,d-vo "Kniga", 1928. 232 p. DLC: Unclass. SO, 1,C, Soviet Cr3ography, Part 1, 1951, Uncl.  C, "Concel,=,IP4' t`e -_3 'ence of tl-e I.,-t-an---ive 3-atfifa for ~xi~~tcncc Anor,~ P! nts --.ei r Lx);: A:~' 7L o ta I'Y ::Ur. C~,-. Inst. Gc  Si ':o and r., Acau. Sci  SUYjkC1U-1V. V. 11 "Forent as Biocenosis, in Connection vith the General Problem of Biocenosis and the Stniggle for Survival within It.,'Ithe first of four lectures given at July 1Q46 Session of Department of Biological Science, Acad. Sci., U882, held 28 and 29 June 1946. SO: Vestnik A-kad. Nauk 8 Sept 1946  ,SUKACH~,V. N., and 10PLAVSKAYA, G. M. "Outline of the History of the Lakes and Vegetation Of the Middle Urals," Byull. Komm. To izuch. chetv. perioda Z-2-ulletin of Commission for Study of the Quartenwry Ferio~/. No 8. 1946.  U: ~- 1 7 5/107/60/000/010/003/0u-, E192/E482 Rod-Type Tubes (Applications) to employ a push-pull system, where the effective input and output capacitances are halved. A detailed circuit diagram of a push-pull power amplifier is shown in Fig-7. A super,-.regenerative receiver can be constructed by employing two tubes of the type lZhl7B. A super-regenerator with an external quenching source is shown in Fig.8. The quenching waveform is sinusoidal and it is generated by the second tube shown in Fig.2. The waveform is applied to the screen grid of the first tube which operates at high frequency. The equipment constructed on the basis of the rod-type tubes is characterized by the fact that the tubes are soldered directly onto the ~_ircuit. The tubes have a long life (over 2000 hours in amplifiers and 1000 hours in oscillators) and a high mechanical strength, Since the tubes are employed at very high frequencies, it is essential that all the components should be well soldered and mounted in the close vicinity of the tubes, so that the connecting leads could be kept as short as possible. There are 8 figures, Card 3/3  2OV-113-50-9-6/19 AUTHORS: Gurvich, I.B., "andidate of Technical Sciences, Vaoillyev, 0.3., Sukhanoy V.A. TITLE: The Limitation of Loads at the Running-in of the Engine in the Automobile (0granicheniye naaruzok pri obkatke dviUa- telya na avtomobile) PERIODICAL: Avtomobillnaya promyshlennost', 1958, Nr 9, PP 15-16 (USSR) AB3TRACT: In running-in the engine,to accomplish the mechanical finish- in(- of the engine surfaces, a disk used to be inserted bet- ween the carburetor and the feed pipe in li,-ht cars. '-nis was not necessary for trucks, since there are enough means to direct the nunber of revolutions. The inserted disk be- hind the carburetor had the disadvantage that the atomiza- tion of the fuel in the enL-ine became -,,orse and caused settl- ing of the gasoline on the walls of the sunnly pipe system U finally resulting in scale formation in the compression cham- bers and on the piston bottoms. A su~7gestion is made to re- place the inserted disk by a baffle plate (Figure 2) for fixation of the deflection angle. This eliminates the neces- sity of separating the carburetor from the feed pipe after Card 112 the 1,000-km-running-in period, to remove the disk. In the  L. soV-113-50-9-6/19 The Limitation of Loads at the Running-in of the Engine in the Automobile case of the baffle plate only a screw is unscrewed and the plate easily removed. Five M-20 and 3 Zlm engines were given test runs to try both principles (Table 2). They resulted in favor of the baffle plate, since there are none of thc disadvantages caused by the disk and an additional economy of 1 to 1.25 liters of gasoline per 100 km running-in con.- sumption. There are 4 graphs, 1 diagram and 2 tables. ASSOCIATION: Gorlkovskiy avtozavod (The Gor'kiy Votor Vehicle Plant), 1. Automobiles--Performance 2. Combustion engines--Test methods Card 2/2  GURVIGH, I.B.0 kand.tekhn.naiik; SUKHAWOV, V.A. Oil loss and gas escape in the GAZ caged-valve erlines. Avt.prom. 28 no.12:27-28 D 162. (WRA 16:1) 1. GorIkovskiy avtozavod. (Automobiles-.Engines)  BOGDANOV, Yu.B.; VOINOV,A.S.,. STjKHANQVV.A.; KILARITIONOV,L.Ya. Structural relations between the Karelian and the Belomorsk formations in the Kem' regJon of eastern Karelia, Dokl. AN SSSR 156 no. 3:550-553 164. (MD-A;17:5) 1. Dmingradskiy gosudarstvennyy universitet im. A.A.Zhdanova. Predstavleno akademikom D.V.Nalivkinym.  MIRITONOY, L. Ya.; BOGDANOV~ Yu.D.; V0111OV, A.S.; SUIIHmlOV, V.A. Stratiggraphy of irop.-3re fomations in vestern Karelia. Vest. LG9 no.24:35,43 t0'4 (MIRA 18zl)  CIV, V.ii. Sorac problit,:ns ir- the T,11"cc-my Lr,(-' tp-xonor-or.-i of Lacertilia 7 161. ~';au o~-uria)- ZC01. 4" no. 1:7,31-F3 ~V' 1. Pale ontolo:~-cul Ir-A-i"titc, 'L.z- Acaderty of Sciences, locomotior.)  KORNIYENKOI A.M.; SHTELIM.AKIIOV, M.S.; GEYLER, Z.Sh.,* BERESNEV, V.P.-.; KOTLIK, S.B.; (-',ORFINSKIY, Kh.M., ZELIDIN, Yu.R.; KURGIN, Yu.M.; BELYAYEV, V.G.; ZAK, P.S.; ZAYTSEV, A.A.; LI, A.M.; SKIIORT:I:GV, L.1'11.; LUTTS, R.R.; KHVINGIYA, M.V.; HINGSHVILIL, B.I.; SUKHANOVI V.B. % Soviet inventions in mechanical engineering. Vest.mashinostr. 49 no.11:87-88 N 165~ (MIPA 18:12)  u SAYPV.-,'V, V.F. , Cani Tech Sci -- (diss) "Sr-udy of tp~-- 4-1,A the of the B-5h engin(~ under conditions - -~, n"t of high terTirerature ~-the &a*pc-+FKUng-madi!im-" Saratov, 195h,15 op (Min of Agr ISSR. Saratov Agr lnst) 150 cor)ies (KL, 29-58, 133) - 72 -  CHURSIN, B.Noy inzh.; SUMANOV, V.F., inzh~, Precast reinforced concrete smooth-Amll tubing for the lining of major mine worldngs. SlAkht. stroi, 8 no.2-.17-18 F 164. (WRA 170) 1. KuzNIIshakhtostroy.  TjL~_Jll / J1u;Ran r=i Anu,'nl 1*hyolology. Internal Secretion, Thyroid T G land Aba Jour :Ref Zhur - Biol., No 15, 19581 No- 70319 Autaor :Sukhanov, V-. I. Inst :Not- given Title :Experimental iAutortals on the Tnfluence of Novocaine Block on Changes In Gas Exchange in Disturbances of the Thyroid Gland Orig Pub :Tr. obl. konforentaii po endomich. %oby I boleznam shcitovidnoy zholezy, Chelyabinsk, 1957, 122-127 Abswact :The crushing of one lobe of the thyroid gland (TG) in rats, with the traumatized tissue left in place, leads in the course of the first two days to an increase in oxygen consu=ption. Crushing of the muscles of the neck or of the salivary gland does not lead to increased oxygen consumption. Crushing of one lobe of the TG vith Card 1/2 98  FOM',"FAN- T NO 11, V.G.; U.Vlt'; I-Yq.; fl!~ Z 11-1 FJL'. P0,14, Vt..,' T!, I W',KIYEVS',H'f N.M. SHAKRA lr~~V' V. 1)(-ve"oping thc tec~no--ogy n oT.en-hearth sLnter. Stall m H zit-vod il.for I~k~ichciv, sholeir .~nov  SUKUNOV, V.M. Transformers and autotransformere for 330 k-Y. power transmission lines* Energ. i elektrotekh. prom. no.1:13-17 162. (MIRA -25:6) (Electric transformers) (Electric power distribution)  SUKRANOV, V.MI AutotransfDrser with 125 M-.';& r&ting with volt&ge regulatim under load in a line with medium voltage. Energ. i elektrotakh. prom, noJS17-21 Jl-S-162. (MIRA 18ill)  1. 3u;J(I-w:Qv' V. P. ?-. USSR J600) 4. !4-wing-Picture Projection 7. Veed for C*3d bo -,ka on portaolt el*ctric-Dower stati3na ("Electric-power -stations for motion-Dicture nr3joctiin iUStallRtiOLIs and their u5s.11 Kinomekha.uik. 1,10.9, 1952 9. Monthly List of Russian Accessions, Library of Congress, Janua'7 1953. Unclassified.  SUKHANOV V.P.; TAMPLOTI, F.F. Optimal height of aluminum trusses with parallel chords. Trudy Ural.politekh.inst. no-131:88-95 163. (KIRA 16c!2)  SUKHAMV, V. , inzh. Reuaabln mobile molds for cons"ructing elV, concrato walls. Sell.stroi. 9 no.2:18-19 Mr-Ap 154. (MIRA 13:2) (Walla) (Concrete)  KRUPENNIKOV, S.S., dots.; SUKHANOV, V.P.0 inah.; SHMyKOV, A.A., insh. Manufacture and assembly of the precast reinforced-concrete -41ownts of the bunker trestle of a blastfurnace stock yard. Trudy NII prom. zdan. i s6or. no.2:36-56 161. (MIRA 15:6) ~PrecOst concrete construction) (Chelyabinsk-Blast furnaces)  SUKHAROV, V.P., Inzh.; TIMASHEV, S.A., inzh. The expediency of using elements made of aluminum alloys in industrial buildings. Trudy KII prom. zdan. i soor. no.2- 63-79 161. (MIRA 15:6) (IndustriaLl buildings" (Aluminum alloys)  SUKIMOvi V.F.,, inzh.; TIMASHEV,, S.A.,, inzh. Aluminum alloys for construction elemonts. Trudy NII prom.zdan.i soor. no.5:56--.89 161. (MA 15:4) (Aluminum alloys) (Aluminum, Stzmctural)  SUKUNQ-V,.-.Y,T.,-.inzh.; TIMASHEVY S.A., inzh. Choosing a grade of aluminum alloy for structural elewnts. Prom.stroi. 40 no.8:35-38 162. (NIE& 15:11) (Aluminum alloys)  LABZENKO, V.I., kand. tekhn. nauk; SMIRKYAGIN, Yu.V., insh.; VOLODARISKIY, B.Ya., inzh.; FLOROV, R.S., kand. tekhn.nauk; SPERANSKIY, B.A., kand. tekhn.nauk; SHAVSHUKOVA, G.N., inzh.; OLIKOV,. YA.I., inzh.; TAMPLON, F.F., inzh.; qUXHU=, VP., inzh.; TIMASHEV, S.A.# lnzh.; BOLOTINA, A.V., red.izd-va; KOROB.KOVA, N.I., tekhn. red. (Progressive metal elements for industrial construction] Progres- sivnye metallicheskie konstruktsil dlia promyshlennogo stroitell- stva. [By]V.I.Labzenko I dr. Pod red. V.I.Labzeako i R.S.Florova. Moskva, Gosstroiizdat., 1963. 183 P, (MIRA 16:4) 1. Akademiya stroitellstva i arkhitektury SSSR. Institut po stroitel'stvu, Sverdlovsk. (Steel, Structural) (Aluminum alloys)  -~UWNOVP V.P., inzh. Problem of determining the deflection of aliminum trusses. Sbor. trud. NII po strol. ASiA (Sverd.] no.8:115-127 163. (MM 16:10)  SUKHANOV, V.P., inzh.; TIMASHEV, S.A., inzh, Method of evaluating the efficiency of new metal materials for trusses for industrial buildings. Sbor. trud. NII po stroi. ASiA (Sverd.] no.8:128-135 163. (KMA 16:10)  SUKHAN,OV) V.P., inzli.; SOKOLKIN, A.F., inzh. Construction of a plant for the continuous rolling of pipe. Prom. stroi. 40 no.8:7-10 Ag 163. (KM 16:8) (Pipe mills)  SUKRANOV, V.P.y inzh.; SOKOLKRI, A.F.t 111Z11. For the industrialization of erecting foundations under rolling shop equipment. Prom. stroi. 41 no.11:23-26 N 163. (MIRA 17:2)  sUKH,ILNOV, V.P.., i-ruh. Me-xirmum sags of tnases. Prom. stroi, 4,2 n.i.10915-18 0 164. (MIRA 171 U' ) 1. Uralpramstruyniiproyekt.  k 11 11 U 14 It W 1? 11 It ?J ;1 21 a A !1 r IS ~ :V J1 L' 1) )4 15 1, 1) 0 19 w .1 v 41 46 a of A a C V L A- M. W (..I A k I t. t" 00 .A tws"O tam of saw Selectin of tho NOW for tag CMCWng salts elparg%d at Ngh p--. L. A. Alek- ' 00 ,r l M - skya, Gos. nauchno-tekhn. izd-vo neft. i gorno-toplivnoi lit-ry. Vol.l. (Geology- and geophysics] Geologiia i geofizika. Pod red. VJ. Fedynskogo i V.G.Levinsona. 1961. 38:2 p. (14DU 14:9) 1. International Petroleum Congress. 5-th, New*York, 1959. 2. AN Azer- ba),dzhanskoy SSR (for Nagi-yev). 3. Chl-3ny-korrespondenty AN SSSR (for Shtiykin, I-jdxc1dnk). (Petroleum eology) (Gas, Natural-Geology) ~Prospecting-Geopbysical methods)  SUKH4VIOV, V. Tochnical fundamentals of petroleum refining. NTO )- no.a:8-1(j Ag 6.1. (MIRA 14:9) 1. ZamestItell nachallnika otdela neftyanoy i gazovoy prorv- shlennosti Gosplana SSSR, predsedatell sektsil neftepererabotkJ. tsentrallnogo pravleniya Nauchno-tekhnicheskogo obshchestva neftyanoy i gazovoy promysblennosti. (Petroleum--Refining)