SCIENTIFIC ABSTRACT KARTASHEV, A.P. - KARTASHEV, V.I.

Riemannian fibre spaces... 3/020/61/138/005/001/025 2 C111/C222 dl 1 .1(l 1 1 1 ))Qk+2Ri, iab- ik kab- 4)~aclicb_ ~Acliao ntRikat_ 2 iac keb- ibc kca .e., R 0, R -1 R + !(, 1 +1 1 (2) iakj ' iakb ~ 2 ikab 4 iac kob ibe kca Obviously it holds D 1.)a= [Cjbgba Oba a 4~a+liba Qi' Since 0ab+Gba - of 9 ab are forms'of the Riemannian connection in the space of the fibres Vn which is called '.-,he base. To every curve in the m base Vn the corresponds a one-parametria family of fibres in Vn~ .Every fibre admits a motion group generated by all closed contours of the base going through the point above which the fibre is lying. The motion groulps of different fibres are isomorphic. This abstract group appearing in every fibre as a motion group is called the holonomy group of the Riemannian fibre space Vn+m. Let the holonomy group be one-parametric. It is stated that in the Vn+m there exiots a "transversal fireing" in (n+l)-dimeneional eurfacog, where each of then intersects with the fibre in the trajectory of the holonomy group. Card 2/4  Riemannian fibre spaces... p53()2 3/020/61/138/005/001/025 CI11/C222 Theorem Is If Vn*m is a Riemannian fibre space with a-one-parametric holonomy group then it holdet 1) In the base Vr' there exists a skew-iiymmetrio tensor c ab satisfying the condition VC ab abcOof O(abc) ' 0* (4) 2) In the space of the "transversal fi*Dres" Vn-1 there exists a vector boc , a skew-symmetric tensor is,,, , a si,-alar 0 which satisfy the conditions Vb - b tzk b 0, CA W'A (I, V*P1 Va'Or a a(Of (5) d 1n b 04A Theorem 2s Given 1) a Riemannian space Y' and within it a skew- symmetric tensor cb satisfying (4); 2) a Riemannian space Vm"' and within it a vector b a skew-sy=etr:Lo tensor atq and a scalar o satisfying (5). Then there exists'a unique (up to coordinate transformation) Riemannian fibre space Vn4m with a one-parametrio Card 3/4  Riemmmian fibre spaces... S/020/61/138/005/001/025 C111/C222 holonomy group for which Vn is the base and ift-1 is the space of "transversal fibres". There are 2 Soviet-bloc references. ASSOCIATIONsMookovskiy goeudarstvennyy universitet im.M.Losonomovs, (If6scow State University im.M.V.Lomonosov) PRESENTEDt February 13, 1961, by P.S.Aleksandrovq Academician SUBMITTEDs February 109 1961 Card 4/4  KM~TASHXT.-A~P,-- Stratified Riemam spaces with one-parameter holonoaW groups. Dokl* AN SSSR 138 no*5&1002-1004 Je 161. (KMk 14t6) 1. Hoakovskiy gosudarstvennyy uniivrsitet im. N.V.Lomonosovao Predstavleno akadendkom;P.S.Aleksimdrovym. (Spaces, Generalized) (ciroups, Theory of)  ,-ACC NR.AP6028340 SOURCE CODE: UR/0293/66/004/004/0601/0618 ,.AUTNOR; Bazhulln, Fe As (deceased); Kartashevq its V,; Markovq M, No OIRG: none TITLE: Study of the angular and spectral distribution terrestrial radiation in the infrared spectral range from the Msmos-45 earth satellite SOURCE: Nosmicheskiye issledovaniya, v. 4, no. L, 1966, 601-618 T ro 1:O?IC TAGS: atmospheric radiation, IR spectrometer, spect metry, scientific satellite, optic albedo / Hosmos-45 scientific sntellite ABSTRACT: Summarys A scanning Infrared spectrometer system .is described which has an angular resolution of :2-Y. 10-iradions, covering the spectrum from 0.8 to 311.9 with spectral resolution of better than2*2ju. The 6haracteristics and operation of the spectrometer and the associated data-recording equipment are given, together with the experimental data on infrared atmospheric radiation and the Earth's albedo collected during one orbit of the Kosmos-45 satellite. P.- A. Bazhulin and his associates'' - 'des'cribe a spectromet .er intended for use'in the study of the Earth I s energy balance in the infrared region but which, through inter pretation of the results, may also supply data on the molecular content and temperature ofthe atmosphere at various altitudes. The spectrometer is capable of measuring angular and spectral infrared radiation simultaneously; it.was used for this purpose in October e :1962 and June 1963, in v rtically launched rockets which beached an altitude --of 500 km [27]. Cdrd 1/13 UDC: 551.521.2  -kcCNk:--AP6028340 As an extension. of. these studies, a spectrometer 6f'the same type bvt'with the addition of a recording system scanned seven regions of the Barth during one orbit of the Kosmos-45 satellite (launched on 13 September 1964) . The atmbspheire below the satellite was scanned in a direction perpendicular to the satellite's trajectory. Even though the experiment was of limited duration, a wide variety of conditions were encountered. Both illuminated.and dark regions of the Earth wore observed. Three of the seven regions covered were in the southern hemisphere, 'four were over ocean -6odies, and one was above a spiral cloud formation near Japan. In -general, the amount of cloud cover was different for each region. The spectrometer employed in'these studies comprises a semming mirror and lens system, a filter arraligeme.nt, a bolome ter, 'an amplifier,.. a re cording system, and a programming unit (Figs. I and.2)., 'The spectrometers launched in the rockets operated in conjunction with a telemetry system. .In the satellite experime,nt,.dmapetic 'O'scillograph was used and the recorded film was recov,4~red. I - I I The spectrometer system opprates as follows: A flat scanning mirror -is rotated twice th~dugh JI radians (1: fi/2 radians from the direction -;' the* nadir) e'very 10-~l 5*.minutesi with a scanning speed of 2 x 10-2 rad/ sec (determined.by..a. her mq~tjpally --acaled-driye. mp~qbanism)... The radiation Card' o -4  ACC NRI"-'AP6028340- from the scanned region enters a'slotted rectangular iris diaphragm, whose'. sides are in the ratio of 1:10 and 1:30, passes ihrough a Cassegrainian reflector lens (effective diameter, 33 mm; focal length, 200. mm), and fall on the bolome'ter. detector. The path between the bolomete.r and the lens is-.] periodically interrupted by filters arranged nonsymmetrically along the drum' :circumference and'rotated at 7 rps. d -signals at the outpy~otthe bolometer. Card 3 / 13  0 'lee Lens 4-4 7- 01. r4 u M w 019 INS e - Card 4/13  :"ACC NR, "Ar6O-2834-0 la 1b  3 4 0 Fig. 1. Diagram and photograph of spectrometer 1 Scanning mirror; 2 - bolometer; 3 - modulati~ag filter; 4 - concentrating .window; 5 - slotted diaphragp; 6 - internal tube; 7 7 spherical mirror 1; 8 - spherical mirror 2. The filters - thin crystal plates - separate out different infrared spectrum bands. Four filters were used: a qu2xtz crystal J.mm thick with bandpass between 4.5 and 38 u; a 0.7-mm lithim fluoride crystal (8.5 to 38 1j); a 0.7-mm fluorite crystal (12.5-38 0, and a nontransparent metallic plate with bandpass between 0.8 and 38 P. The bolometer has a sensing element made of a 0.3 x 9 mm calcium bromide crystal plate I mm thick which determines the, upper cut-off wavelength. It has a time constant of .5-7 msec, a resistance of 1000 ohms, and a conversion factor of 40 v/w. At a modillating frequency of 30-4.0 cps, its deLectivity is 1. 5 x 10 9 (cps-cm) 112 W. The pulsed signals from the bolometer are amplified by a vacuum tube amplifier with two outputs. The permalloy- shielded amplifier has a voltage gain, passband, and sensitivity threshold of approximately 106 1 0.5-200 cps, and 10-9 v/cps, respectively. To keep the sennitivity constant, V detector- amplifier. combination is.periodically calibrated by !npans of jijgh~.frorn an Card 6/13  ACC NR,''AP6026340' -.Ancandescent lamp. Calibration is accomplished at instants when the scanning mirror is directed at the horizon. The power consumption of the bolometer- -amplifier combination is 0.5 w. The two outputs from the amplifier drive two magnetic osciUograph channels (see Fig. 2a:,, which record the infrared radiation in two nensitivity ranges. The recording film transport speed is 25 mm/sec; ithe'roll contains 100 m of film. The length -of ;scanning is controlled by a special unit .(see Fig. 2b) which staps both the scanning system and the recorder during the intervals between ding sessions; The measurement accuracy. recor y;,; b~. for total radiation is �1%, which corresponds a to a change in effective temper~ature of the radiating object of only O.B*K. However, the Fig... 2. magnetic oscUlogimph (a) and control unit (b) - error in determining the radiation in narrow, sub-bands (t2 A, which werewithin the spectrum under,investigation was 'v�6%.*. The tofta weight of the equipment'is approxi- mately LO kg. The experimental data obtained by the satellite we-e in the form'of 10, 000- hi.9h-quality spectroscopic samples. On the basis of these dat~k, Card 7  NR: AP6 -table was prepared of the radiation flux corresponding to the radiation from :1 M2 of the Earth Is surface and the equivalent temperature corresponding to ,the black body temperature radiating the same flux. The readings from dif- 'ferent spectra were subtracted to derive the following four narrow spectral -bands especially tailored to trap different energies: ,J) The 0.8-4.5-P band, where half of the energy from the Sun is concen- .trated. The thermal radiation from the Earth is small, however (only a fraction t of the total terrestrial radiation),, V~hen a peKgpn the.uoDer layer of the atmosphere is scanned,'hydroxyl raidiation may be register4cf there. 2) The. 4.5-8.5-p band, where, for a black bady temperature of 250*K, 10% of total terrestial radiation is found. The absorption bands of H20, ,NO, N20, CH4, and OH fall within this range. 3) The 8.5-12.5-11 band (atmospheric window) covers the absorption band of water vapor and 02 (10-15'70 of the total). In 751o*of the cases, radiation, ~rozn clouds is recorded in this band. '4)_ The 12. 5-38 tiband overlaps the CO2. absorption band. Of the total Crd 8/13  ACC NRI Ar,6028340 ,radiation registered here, 80-9016 is due to wa:ter vapor.' The data obtained are subdivided into two types according to angle of view. On the basis of data of the first type (angle of view less than 1- 1. 5 rad from -the direction of the nadir), radiation due to the Earth and, the atmosphere, including clouds, may be analyzed. Data of the second -type (angle of view cldsetotlie horizontal) make it possible to analyze the free - atmosphere and, particularly,. the effects of the ionosphere. Type I Vala Table I shows the average -radiation flux Q, equivalent temperature ,T . eq- ,and the radiation spectrum density I for various climatological con- 'ditions and geographic locations. The view angle corresponding to this !data was 0.6-0.8 rad from the direction of the nadir. It can be seen ihat there is no conspicuous variation in the table entries for different condi- tions. The variation in the radiation flux and temperature is greatest in the atmospheric window band. The average'temperature in this band (2780K). .s in aood aarpement with temperatures meapured by the Tiros M satellite by Nordbe'rg e-t al. _~Nordborg, Bandean., B. J. Conrath,.V..Wndo, and 1. PersanO- PM11minarY results of radiation ineasurement-, from the Tiros III Mtcorolog'cal Satellite- Journal of the atmo-apheric sciencea, v. 19, no. 1, 1962, 2 .30.  4CC NR. AP6028340 The mos -t interesting -re siults were observed in the 4.5- 8.5 ), band:- fn this band inversion attains values of 40-45*K., and the average eqUiVCL- 'lent temperature (2770K) is somewhat higher than expected if the main ,coiltribution is considered to be the radiation due to water vapor from the upper troposphere and stratosphere. The temperature in the 4.5-8.5 band was considerably higher in the Southern hemisphere and during the night. In 20-3076 of the cases studied, the equivalent temperature in the 4.5-8.5 )1 band exceeds,.the,temDerature in the atmospheric window band (8.-5-12..5 Fr .om"the temperature correlation data, it was e.stablished that tne same- atmospheric radiation components contribute to the radiation flux for both the' 8.5-12.5 and 12.5-38 ji bands. However, the rzidiation registered in the ~-5-8.5 p band was not recorded in the other bands. This gave rise to speculation that the radiation in this band is dua to the -products of dis .sociation 4 HA. 1~91 card 10/13  -.~'ACC.NRi- -AP6028340 CO 'S~ b. CO A. CO CO.P. CO.C. * to AUS" yl - CA In r I rr I . '0 0 b L LI - CD z,. . LZ -cow S; IM OD C " CR ?' g ~ W;3 . in LM 00- c.!'J W 01 in 00 CA r? rt i 6 n U. W > 0 t V 2 e r) W 0 o-W M CA tj Q, 91 'tj"-3 P) to M ll) ri M ti t4 v ~."V ""Pita. '4 M -4 V e A n -4 W to to W (a CP IM C) CA 'n ::r;" -4 En Z' -.4 en -v EA IM OD -4 & CO 03 W 00 CM The average albedo for scanning angles of 0.3-0.8 rad was' 3976, the* average absorbed radiation from the sun was 600 w/m and the radiation In all cases except one, th reflected into space was 230 W/M2. ' ming e incol ..radiation was greater 'than-the outgoing radiation. The exception was accom-: ,panied by ,a,high value of the albedo and ilts-variationJ19-.2059). . Card 11/13-  X NRI AP6028340 Type 11 Data ' Analysis of data on the effective altitude of the radiating atmosphere shows that it depends on the climatological and geographic conditions directly below the point in question. The angle of view for these data was close to the horizontal. The angular distribution in the spectral bands corresponding to water vapor absorption bands indicates that, the effective altitude of the radiating atmosphere is greater for a sighting in the direction of a body of water on the' Earth's surface than it is for a sighting' in the direction of a land mass. The altitudes, were 93 km for the regions south of Japan and 51 1cm, for the. Australian de sert. This findina confirms the assumption made by Bazhulin, P. A. et: al. (Bazhulin, F. ii. (deceased), A. V. Kartashev, and M. N- Markov, The angularand spectral distribution of terres- trial radiation in the infrared radiation spectrum. IN: Vsesoyuznaya konferentsiya po fiziko kosmicheshogo prostrarstva. 14ask-va, 1965. Trudy~, Issledovaniya kosmicheskogo prostranstva (Tramsactions of the All-Union Conference on Space Physics. lbscov, 1965. Space research). Ms1CVa, Izd-vo nauka, 1965, 94-104.0 concerning the pivsence of water vapor at an altitude of 100 km and the dependence of Its vvneentration oil the humidity conditions in large regions below. card 12/13  ACC NRi AP6028340 7 The intrarecl radiation.at altitudes of 2110 km was studie'd, but the i- results must be considered only preliminary,, since the experiment was of limited duration, the satellite trajectory was such that it covered both the illuminated and dark sides of the Earth, and the latitudes varied with height. Nevertheless, it was established that the infrared radiation is con-i- centrated in the 4.5-8.5 p band and that its maximum is somewhere between, 950 and 300 )cm. The total infrared radiation measured in the 0.8-38 11 ,band was: 150 w/m a value which. corresponds to a comparatively weak solar activity. Orig. art. hast 15 figures arid 4 tables, EFSB; v. 2. no. 161 SUB CODE: 04920,22 / SUBM IkATEs 08Jan66 / ORIG REFt 007 OTII REFI 005 card 13/13  L 2964-0,6 FS841MV )/Igv TT G31W CCESSION NR:- AT50235701' Ul.1/0000/65/000/000/009410103 77 'A -Be A. V.4 Harkov M. N. UTHOR: zhulin, P. A.; Kartashev 65H ATITLE: Angular and spectral distribution of terrestrial radiation in.the infrared' he spectrum region. of t SOURCEA~, znaya:konferentsiya po fizike kosmichesko o prostranstva. Moscovi 1965. Issledovaniya kosmicheskogo, prostranstva (Space research); trudy konferentsii. oscow, Izd vo Nauka, 1965, 94-10 3 TOPIC TAGS: atmospheric radiation, IR radiaiion, radiation detector, IR spectr om eter, instrumentation satellite, radiation detection AB S RAC is article describes the equipment and results of GP13plh .of the angular and spectral distribution of 'tLr-restriak-radiation aflig altitudes., Simultaneous recordings of-angular and spectral distribution were carried out at 4-38 U within angles of +v/2 from-the nadirover the middle latitudes of the Europe SSR on 6 and 18 June 1963., A special IR pulse sLectromete Pveloped for the mass urements is shown in Fig.'l of the Enclosure. It oper ates ald follows: A.flat scan----. Lin mirror rotates through the~-angle ff/2 (scanning ti" 100 sec), and a spherical rd  _2964-66--_ ~ ACCESSION NR: AT5023570 'Cassegrainian objective (diameter-, 33-mm; focal length, 200 mm) directs the radiatioh onto a lo -inertia bolometer. The b~Xometer has a time constant of 5-7 e re- I w ms Pistance of 1000 ohm, 'and dimensions of the receiving surface of 0.3 x, 9 mm. The Iradiation beam is intersectedbythe plates of a rotating (7 rps) modulator. The plates are made of quartz, fluorite, and lithi,.tm fluoride, and a nontransparent metal-..~ lic plate is also included. Theplates are siltuated asymmetrically in order to codel the position of signals,from individualplatesin timed The signals from the bolom-, ter are fed to-a wide-band pulse amplifier wit:h a bandpass of 0.5-200 cps and a ain of 105. The amplified signals are transmAtted to the ground by the telemetry ;System. The measurements yielded.the following conclusions: in the broad bands of !the IR spectrum, the common shape of the curvec of the angular distribution corre-- .)sponds to that for radiation of a relatively isotropic object. The deviation from 'ithe isotropy on the edges of the Earth's disk Is smaller during observations at ~400-500 km than during observation at 25-30 Um. Individual measurements showed nd poticeable difference in-the thermal radiation intensity between day and night. A ;Slight dependence of the shape of the angular distribution curves on height at '200-500 km was noted, It vas4lso found that.in,many.cases the radiation maximum i s located itithe spectral region of.4.5-8.5 wand that the effective temperatures ;for this region are higher.'_(270.;~.HOK) than f.or*.other regions. -of the spectrum. Ori t lart has: -7 f inures mcl 2,, tables'.`,~ [PS]  L 2944 'ACCESSION NR: AT50235M..,   ICUUASHEY, B. "Author of trutu.'al fairy tales* ty I.Maravleva. Reviewed by B.Xartashev. Znan.mila 35 no. 11:19 N 160. (MIRA 13:12) (Andersen. Bans Ghristian, 1805-1875) (Muravleva. I.)  KARTASHEV, G. Practical training at machine-tractor stations. Prof.-takh.obr. 11 no.6:8-10 5 '54. (MLEA 7:10) 1. Zamestitell direktora po uchebno-.proizvodstvenaov chasti uchilishcha mokhanizataii sel'skogo khozyaistva No. 4 (Ivanovskaya oblast') (Technical edaoation) (Yield work (Nduoational method))  KRIVOKONI,A.; RASHKADZHYLN,V.; KARTASHNV,G. Pedagogical lectures. Prof.-tekh. obr. 12 no-5:21-22 My '55. (KGRA 8:8) 1. Nachallaik Voroshilawgradskogo oblastnogo upravlenlya trudo- vykh rezervov (for Krivokon'). 2. Starshiy inihener Arwyanskogo respublikanskogo upravleniya trudovykb rezerwov (for RashaLadshyan) 3. Zamestitell &irektora po uchebno-proizvodstvannoy chasti uchili- shcha mekhanizataii sel'skogo khosyayatva no.4. (for Kartashew) (Technical education)  AUTHOR: Kartashev, G., Director SOV/27-58-11-5/29 TITLE: Serious Deficiencies in Teaching Pupils to Work (serlye"znyle nedostatki v obuchenii shkollnikov trudu) PERIODICAL: Professionallno-tekhnicheiskoye obrazovaniye, 1958, Nr 11, P 5 (USSR) ABSTRACT: The author tells of the mianner in which young people who have finished 10 classes of a school are sometimes treated when applying for an apprentice job at a plant. The second- ary school graduate must teach himself, with but little help from workmen. This can be observed at the "Ivtorfmash", 111vtekmash" and other plants. Dealing with the 11-year schools of the Ministers-;va prosveshcheniya (Ministry of Education) the author states that practice has shown that they are unable to cope with the task of training qualified workmen. This task can 'De successfully carried out by the system of Labor Reserves. ASSOCIATION: Remeslennoye uchilishche Nr 6 (Ivanovskaya ablasti)(Trade School Nr 6 (Ivanovo Obl '1st) 1. Persormel--Training 2. Industrial training--Effectiveness Card 1/1  22(l) SOV/27-59-4-19/28 AUTHORS: Kartashevq G.9 School Director; Khvalenskiy, V., Educator TITLEt The Results are Evident PERIODICAL: Professionallno-tekhnicheskoye obrazovaniye, 1959, Nr 4, p 20' (USSR) ABSTRACT: Both the staff and the students of the Trade School Nr 6# Ivanovoq have now introducod self-service into their school on a broader scale. The author gives particulars on it, pointing out that it resulted in raising discipline and improving the students' learning progress* ASSOCIATION: Remeslennoye uchilishche Nr-6 (Trade School Nr 6), Ivanovo Card 1/1  KARTASffEV, G. ...... Replacement of machine operators. Pi-of.-tekh. obr. 20 no.6:20 Je 163. (MM 16:7) 1. Direktor mikhaylovskogo uchillshcha mekhanizatsii sellskogo khozyaystva No.1 Volgogradakay oblasti. (No subject h,~ading)  KARTASHEV, G. A. Bee Culture -. Equipment and Supplies Plastic frame. Pchelovodstvo 29 No. 10, 1952 Monthly List 2f Russian Accessions, Library of Congress, November 1952. UNCLASSIFIED  KARTASIMV, G.I., inzh. A correct soqui-noe of work assure;3 good quality. Stroi, truboprov. 7 ro,7:3-4 J1 162. (MIRA 15:7) (Virgin Territory--Water pipes) (Virgin Territory--Wolls)  ~BURGOVI H.A.; DAVYDOVI A,V,,- KARTASHOV, G.R. Ccmpamtive mea=ements of the form of the Afiectra of Au198 and Zn69. Zhur. eksp, i toor. fiz. 4-1 no.5:1337-1339 N 61. (MIRA 14-12) (Gold---Spectra) (Zinc-Spectra)  #X ~~ i " - ~ - i1 f~ t"', I ~. KARTASHIV, I. ... ~~ - -- 1 1 Important factor in the growth of the commodity turnover. Soy. potreb. koop. no.1:13-16 A 158. (MIRA 11.,l) 1. Yachallnik orgotdela Tullskago oblpotrebsoyza. (Retail trade)  KAHTL%WjP I. G. 0& the basis of v;1unteer participation. Tekst. prom. 23 no.3: 23-26 Mr 163. (MIRA 16:4) Industrial management) Textile research) ~  Kai&SEZV, I.G. Local organization of the Seientific and Technical Society- in the Dushanbe Shoo Factory-. Rosh. obuv. prom 5 n0-7243 ii 163- i MMA 16: 8) (Dushar-be-Shoo induBtry-Tec.hnological innovations)  --Card ACC NRs Apr,02SgS6 UR/012 SOURCZ COLE 2/65/000/009/01064/0M AUTHORS: Shainsklyp me Yq-(EngiWer);'KEkrtae(ftevE 1. N. (professor); Raysh# N, me (EnginearT ORG: none ? TITM ViIx tion.grin4iv arts. _qq __g and polishing ofI SOURCEs Vestnik manhinostroyaniya no. 9, 2465, 64-68 TOPIC TAGSI -metal Workin- g i, vibrationt vibration effectp metal polishing, Metal finishing, copper sulfate, nonmechanical metal removal,, ABSTRACT: Some aspects of,vibration griridim.g and polishp ke discussed. The ralishing action is the result-of the relative velocities of the particles and the parts. In the past,,-the motion of the vibritting reservoir has been made alliptimle, The most effective abrasive action takes plAtce over only about 0.1 of the period, giving a vibrational efficiency of As15% fw- this type of a device. By making the trajectory of the reservoir acircle, the efficiency can be increased to 70-75%0 The abrasive force for such acase is derivod as (where m =.mass of pollshed-parti'A andw Zamplitude and frequen!-,7 of reservoir 113 UDG: 621,924.61.7  L 11972-66 ACC NR: AP5028986 vibration; E =~characteristlc constant for the damping and frictional properties ofthe load,, including parts, abrasive particles, and chemicals). Presently, frequencies of up to 3000 opm and amplitudes of 6-7 mm. can be used, Figure I shows the actions of the reservoir walls on the charge for elliptical and circular motionsp with a baffle installed in the reservoir. Preliminary tests with baffles show that the efficiencycan be Increased to:90--95% and capacity by factorsof 2- 3. The recommended abrasive particle size is. shown to be X = L min/5 (whe'~Fe Lmin =,ininimuin dimension of part.to-be:poli9heA)6,.A new modification of the process uses a compound in the charge., which reacts chemically vith the metal of the part and speeds up the~polishing. For ezample,, us in.the charge to machine steel, the time required to remove 15 mg/=2 can be iiMidid from 1 hour (without CUSO, to 5-10 minutes, Although the cost of this themi-machanical. process increases by a factor of 2-3v the capacity Is increased I;r a factor of 10, A finish of class .10-12 can. be obtained by the above.methods*  ACC NR, AP5028986 jectories and forces on  K~ RT! S Z EW -R T 10 r, F L R C R a B ~') c R B 1 1,.Tr, j C T 1 Tr,n3l,!ted r,3:,". Pus~~,,,n by N."JA50". ';iyd-)-.-n-Jct,-!o Panst---,,o~:e Technic,.-le. 195~ ,to  LARTASHEV, I-P- Transcription of Tgkut and Xvenld. geographical names on topographical mapso Nageh.-dokl. vye. shkolr; geol.-geog. nauki no.3:200,-2112 158. (MIRA 12:1) I.Moskovokly univernitet, geograficheakiy fakulltet kafedra geomorfologii. (Takutia-Raps. Top9graphic) (Bvenki Nat$onai Area--Kaps, Topographic) (Names,iGeographical)  KARTASHEV. K. B. Milling Machinery, Lime Set-up for producing ground, unburned lime. Elek. sta. 23 No. 3, 1952, Inzh. 2 SO: Month List of Russian kccessions, Library of Congress, July 195j, Uncl.  KARTASHEV, K.B.. inshoner. Producing pro-stressed reinforced beams on narrow stands. Zlek.sta. 24 no.4:23-30 Ap '53- (PTARA 6:5 ) (Reinforced concrete construction)  KARTASHXV.-,,,,K.J~ -, iashener. -!" Reinforcing steel for stressed reinforced concrete structures. Xlek. sta. 27 no-11'.38-41 N 156. Ow 10:1) (Reinforced concrete construction)  ARTS314OVICHO L.A.p akademik- KARTASFW K.B Effect of transverse magnetic field on a toroidal discharge. Dokl. AN SSSR 146 no.6:3,305-1308 0 162, (MMA 15'.10) (Electric discharges through gases) (Magnetic fields)  tg k3mei 2 N IMUMMM i MMM =a N N M" KIRTASIEV, K. F. PA-20T60 USSR/Radio Oct/Nov 1946 Capacitors, Ceramic Dielectric -Capacitors, High Frenquency "New Types of High-frenquency Ceramic Capacitors," G.. I, Skanavi, Dr of Physico-mathematical Sciences, D. 11. Kazarnoviskiy, ;C~Mdidate of Mechanical Sciences, K. F. Kartashev, Mechanic, 8 pp "Radiotekhnikall Vol I, No 7/8 The electrophysical properties and design data for now types of high-frenquency .ceramic capacitors wilh,improved performance characteristics and higher capaci- tance per unit volume."'  PARAMONOV,V.P., arkhitektor; KAWASHICV,K.I., inzhener; ZYSMAM,G.Ya., inzhener Plans for apartment houses designed by GIPRONS. Rate. i izobr. predl. v atroi. no.102:10-14 '55. (KLRA 8:10) (Buildl W , Prefabrieited)   W~ Card. 2/3  AUTHOR: Kartashev. L. (Engineer, Colonel) ORG% none TITLE: Airfield battle stations. [Snow clearance at military airfields] SOURCE : Tyl i snabzhoniye sovetakikh vocruzhennykh sil, no. 12, 1965, 71-75 TOPIC TAGS: snow, ice, equipment winterization, airfield maintenance equipment, air- field approach obstruction, airfield auxiliary equipinent) 1niAi;r,9tej0 410edelEd-0 ABSTRACT: The author discusses techniques and equipinent used in snow and ice removal and the winterization of facilities and equipment at military airfields. Procedures for removing snow from concrete and grass-covered runways are described: concrete ru ways are completely cleared of snow while a light snow cover, left on grass-covered runways, is tamped down and leveled. The problem of preventing icing~on runways and the use of jet engines to malt ice and snow is mentioned. SUB CODE: 01,15/ SUBM DATEs none snow removal'ecruimwnt machine, with a capacity of in airport clearing work; it 35 m. An important advance 1500 tons/hr, can replace two D-470 machines can take up to 1.7 m. of snow and throw it was the development of the powerful D-558 Card l~/  ACC NRt AP7006116 machine, witich ha's a capacity*of ove"r 3000 tons/hr and can throw snow over 60 m. The D-558 rotary snow plow and sprinkling machine can successfully handle frozen snow, and is intended for the maintenance of airports and highways in winter and in sunmer. It can also be used for degasification, disinfection, and.decontaminatiork work, as well as for ~he paving of airports and roads and for.fire fighting.*- Orig. art. has: 3 figures. [WSJ SUB CODE: 01, 13/ SUBM DATE: none/ ATD PRESS: 5115 2/2  KI~PLTASIEV, , irizboner polkovnij-, When the runways are glazed. Vest.Vozd.Fl. no.2:74-75 P 161. (MEU 14:7) (Airports-Runway;3) (Snow removal)  WXk-PL%Y -po 3kovnik New t~rimv do in the ma~ztenance of airports. L,7,i komn 45 no.lGf66-70 t62. WRA 15:10) (Airports-Management)  KARTASHEV, L., inzh.-polkovnik Preparing an unpaved ninway. Av.:L kosm. 45 no.4,.49--53 Ap 163. (MIRA 16:3) ikirports)  11AWASIEV, M.V., NE(I'IMEMNVI , D.K., (Candidat,,s of Voterinary Sciences, Crimean MEVS) "From an experiment on the control of poultry ectoparasities in buildings " Veterinariya, Vol 39, no 1, Jan 1962. pp 64  NECHINENNYYJ, D.K., kand.voterinarx*kh natki veterinarnykh nauk V, _! ~TASHFV, M.V.., kand. Control of ectoparasitge of birds in p*1try houses. Veterinariia 39 n0.1:6" Ja 1~2. (MIRA 15:2) 1. Krymskaya nauchno-issledovatellskaya veterinarnaya stantsiya. (Poultry-Diseazes and pests)  RDMANYIX, F.I.; PETOV, G.S. (deceased]; GOLUERVA, A.N.; KARTASHEV, N.A.; SAZOMVA, V.M.; KAMMKIT, I.V.; OGWEVA. Maw methods for preventing the flow of reservoir waters into wells being exploited. Trudy TMI no.16:106-127 158. (MIRA 11:12) (Oil field flooding)  h 9>-6-10/20 AUTHORt Romany*, FoIoy Kravchenko,, II,, and Kartashey., NoAo TITLE: Exclusion of Bottom Waters from'.Producing Oil Wells by Mean of Kerosene-Cement Mixtures (Isolyataiya podoshvennykh vad v ekspluatiruyuhchikhaya skyazhinakh kerosinotsementwmi smesyami) PERIODICALt Neftyanoye khoVaystvo, 1957, Nr 6~ pp. 35-40 (UM) ABSTRACTt Research and practice has shown -that bottom water exclusion ft4n o12 wells by meamB of cement pli;gs is ineffective and leads to petroleum losseso Bottom waters can be most effectively excluded by introducing into the strata c*31oidal or true solution, or various suspensions including co:aventional water-cement mixtures. Experience with the witer-cement, mixtures at the Bavly and Tuymasy oil fields dem)nstrated their superiority to conventional well cementing unde:r pressure. But kerosene or Diesel oil mixed with cemeat-is superior even to mixtures of water and cement b6cause they set and hardon only when the kerosene " displaced by water, Furthermore the properties of kerosene- cement mixtures can be improved by adding cement accelerators such as cremolp acidol, neutralized black contact (NCK), , PetroTla OcontacV , and grade IIE asphalt. In 1956 keroqerp- cement mixtures were tested in bQth the Bashkirskaya and Uts _# 11 wells flooded ith Tatarakaya Th:ltests were made 7j7 w 1e each in t bottom water five he Tqmzy and Serafin oil Card 113 fields and one in Barly)* Fig. 1 shown the layout and assesday  93-6-10/20 Exclusion of Bottom ',%aters from Producing li'L Wells by !eans of Kerosene-Cement Mixtures (cont) of the anfient vixing equipment used in the tests. The proportions of kerosene to cement were calculated with the aid of formulas and the results are shown in Fig. 2. N.G. Tmanayev and S.A. Chumanov of the Petroleum Pr,-.,duction '-dmiDistration of the Tuymazy Petroleum Industry (NPU Tuymazaneft') and Paykoy and B.F. Shtur of the Petroleum Production Administration of the -Adt-~~-brlskiy Petroleum Industry (NFU e7-ktyabr'skneft') participated in the field erceriments. The tests were successful in seven wells but failed in the otl-s3rs 1), s~owlng that kerosene-cement mIxtures are suitable for extensive irdustrin-1 application. In order to utilize this met1nod of water exclusion it will be necessary to improve cementing equipment and materials. Airtight cement rings, non-shrink and expandable cements, plugging materials of greater plasticity, and packers of drillable material are needed. New types !-)f cumulative action perforators will have to be designed so that the t--;llet or torpedo chnmbers are arranged.crosswise in one plane and simul- taneous firing at several points in the casing and cement collar and sufficient crushing of the surrounding rock is ensured. The available conventional gun pf,,rforators~ torpedoee.,ITPK-22 and T;'K-32)and selective perforators (S.3P) do not satisfy Industrial reauirements. The cumulative action bulletless perforators (PK-103) are best but are produced in 1~~fficlent quantities. A r-orp exact method for determining the place rd 93-6-10/20 Exclusion of Bottom Waters from Froducing Oil Wells by Means of Kerosene-Cement Mixtures (cont) where a stratum is to be fractured will have to be developed because the present radiometric methods for determining oil-water contact in wells and radioactive isotope methods for determining places where strata are to be fractured are inaccurate. Without a solution to the alcove problems and without careful study of the conditions and nature of flood in individual wells and in entire formations the successDal exclusion of water from oil wells cannot be ensured even with the best of methods. There are two figures and one table. The three references are USSR. AVA_-fj.;*'..BL`.: Library of Congress Card 3/3  MTASHEV, N. N. Kartashev, N. N. "Predatory birds in the bixd bazaars of the Eastern Murman coast (Based on observations dtiring 1947)11, Okhrana. r-rirody, 1948, (on the cover: 1949), N6. 6, P. 50-57.  KkRTASHEV, N. N. ''Material on the Biology of Auks in the East AtLantic Ocean." Thesis for degree of Cand. Biological Sci. Sub 8 Mar 50, Moscow Order of Lenin State U imeni M. V. Lomonosov Swmary 71, 4 Sept 52. Dissertations Presented for Degrees in Sci. and Engi. in Moscow in 1950. From Vechernyaya Moskva. Jan-Iec 1950.  KARTASHYV, Y. -Y.- ITartashev, N, N. (Yrom the History of the Moscow Univ. ) The history of xoology at the Moscow University. P. 115 Chair of Zoology of Vertebrates Rov. 25, 1950 SO: Keritld of the koscow Univeretty (Vesthlk). Series on Physical, Mathematical and Natural Sciences. No. 2. Vol. 6. No. 3. 1951  DEMENTIYEV, G.P.: KARTASIMV. N. N. Zoology - Turkmenistqn Land vertebrates of the western sector of the mair Turkoinanian Ganal and -Dersr)ectives of changes among them., Zool. zhur., 31, no. 1, 1952 Monthly List of Russian Accessions, Library of Conlress, March 1952. UNCLASSIFIED  DIMTIYZV, G.P.; KaWASEMV, N.M.; SOIX&TOVA, A.M. reading habits and the practical sigalficance of certain predatory birds in nouthvestern Turkmenia. Zool.zhur- 32 no-3:361-374 153. NuA 6:6) 1. Biologo-pochvennyy inetitut Hoskoviskogo gasudaretvennogo universiteta imeni N.V. losonosov&. (Turkmenistan--Birds of prey)  MTASHEV, N.H.; SOLDATOVA, A.H. New occurrence of the Turkmenian jerboa (Jaculus turemenicum Vinogr. et .Bond.) in Turkmenistan. Biul.MOIP. Otd.biol. 58 no.1:11-12 '53. (MLR& 6:5) (Turkmenistah-Jerboas) (Jerboax-Turkmenistan)  K"TASEMVD R.N. U?"Ie*t0tr~ "Animals of Kazakhstan." A.V.Afanan'ev, V.S.BazhanOT, M.N.Korelov, A.A.51ndekii. Reviewed by M.N.Kartathev. Zool.zhur.33 no.1:237-240 Ja-F 154. (MLRA 7:2) (Afanaslev, A.Y.) (Kazak:hstan--Zoology) (Zoolog.v--Kazakhatan)  TAWASHEV, N.N. Migrations of woodahats. Zool.zhur. :33 no-5:1183-1184 S-0 154. OQRA 7:11) 1. Biologo-pochvennyy nauchno-iseledovatellskiy i-astitut KGU im, M.V.Lomonosova. (Shrikes)   YAMEA 1.11. Adaptive role of age changes in the propo:rtion of the extremities in the alciformes. Zool.zhur. 34 no.4:87:L-884 JTI-Ag '55. (MLRA 8:9) 1. Kafedra. zoologii pozvonochnykh biologo.-pochvennogo fakul'teta Moskovskogo gosudarstyannogo universiteta, imeni K.V.Lomonoscrwa (Auks)   TEPLOV, V.P.; KARTASHIV, N.M. morman-Awmam., Biological bases of hunting regulations for aquatic birds in the central regions of the lCuropean U.S.S.R. Zool-zhur- 35 no-1:77-88 Ja '56. MU 9:5) 1. Okskiy gosudaretvennyy zapovedixik i biologo-pochvennyy fakulltet Moskovskogo gosudarstvannogo univorsiteta Imeni M.V. Lomonosova. (Birds, Protection of)  KARTASHU N.N. "Trudy* of the Bureau of Banding, no.8.1955. Reviewed by N.N. Kartashev. Zool.zhur-35 no.10:1589-1591 0 156. (MLRA 10:1) (Zoological research)  MARI, N.V., professor, otvetstvannyy reliaktor; ONNO, S.Kh.[Onno, S.H.3 redaktor: PIYM.I.Yop [?.piper, I.J.J. professor, redaktor; TALITS, S.Ya. (Talts, S.J.]. kandidat biologicheakikh nauk, redaktor; XWERMAN, Ih.N. [Haberma. R.N.]. redaktor; U A-qlml.;-; m, redaktor izdatellstva; P0LYAK0TA,T,,V., takhnicheskiy re0ktor [Proceedim~gs of the Second Baltic Ornithological 'Conference] Trudy Vtord Pribaltliskoi ornitologicheukoi konferentaii. Xoskvs, Izd-vo Akademil nauk SSSR. -1957. 427 p. (MLPA 10!2) 1. Pribaltiyokaya ornitologiabooka3ra konferentaiya.2d. Tallin. 1954. 26 Inatitut zoologii i botaniki Akzidamii nauk Istonskoy SSR (for K=ari, Onno) 3. Deystvitellnyy ch3ea Akademii nauk Istonskoy SSR (for Khaberman) (Baltic Sea region-Birds)  KARTASHh:V N.H. Materialm on the postembryonal development of some species of auks (order Alciformes) [with summr3p in Arglishl. Zool. shur. 36 no.6: 909-921 JO 157. (NLRA 10:8) 1. Irafedra zoologii posvonachnyl-h biologo-pochvennogo fakulltets. Moskovskogo gosuAarstvennogo u=Lversitsta im. M.V. 10monomova. (Water lArds)  --o."Summer practical vork in vertebrate zoology" by A.G. Bannikov, an'd A.V. Mikheov. Revieved by N.N. Kartashev. Zool.zhur. 36 no.12:1904-1907 D '57. (MIRA 11:1) (Zoology~-Stud3r and teaching) (Vertebrates) (Bannikov, A.G.) (Mikheov, A.V.)  KAaTASHJSV, II.S.' . $Transactions of the Bureau of Banding," no. 9, 1957. Reviewed by N.R.Kartashev. Zool. zhur. 37 no. 6:954-955 Je 158. (MIRA 11:7) (Birds-Higration)  XARTASFMV, N. N. Work at the Ornithological Station of the Oka State Preserve. Zool.zhur- 37 no.12:1911 D '58. (RIPJL 12:1) (Oka Preserve-Ornithological research)  KARTASHEV, N.N. Observations on spring flights or birds in Kara Kum. Uch. zap. Mosk. un. no.197:113-124 158. (MIRA 11:9) (Kara Kum-Birds-Iligration)  KARTASHEV, N.H. "Ecology of marine colonial nesting birds of the. 'Inrents Sea" by L.o.Bolopollskii. Reviewed by H.N. lartashov. Zool.zhur, 38 no.1:142-144 Ja 1 Ile-a-Water birds) ( B PTU 13:4) (Barents elopollskii LO.) A  XA.RTASOV, N.N. Types of postembryonic development in birds. Fauch.dokl.vys.ehkoly; biol.uauk:i no.2933-38 160.' 1 (KM 13:4) 1. Rekomendovam kafedroy zoologii pozvoiochnykh Moskovskogo goau- darOtTOUnOgO universitata im. N.V. Lomonocava. (BMS) (Orlwur)  KARTASHEY, N.N. Birds of Komandorskiye Islands and some suggestions on their efficient utilization. Zool shur. 40 no.9:1395-1410 S '61. (MIU 14:8) 1. Department of Vertebrate Zoology, Biologico-Pedological Faculty, State University of Moscow. (Komandorskiye Islands--Birds)  KARTASHEV, N. 14. Biology of the kingfisher in the Oka Preserve. Trudy OGZ no.4: 271-286 162. 17-,q)  KARTASHLV, N.N. Quantitative cira-acteristics of the hvifauna or, '~hc- S-Oic- vetekly Islands. Ornitologiia "10.6?,23-36 163. Nip"A, "mO  KARTASMV,,-II.N. Nikolai Pavlovich Naumov; on his 60th birthday. Biul. WIP. Me biol. 68 no.2:149-154 Mr-Ap 163. (MRA 17:2)  KAIGASMEV,.N.N.; Ull',r)EV, V.L).; TLIEPUN, Ycj.A. Feeding habi!-,g of I-Ingf.!sher in the Gka PrEisema relgion. Trudy OG? no.5:94-103 163. OUR!, 17:10',  KARTIAShEV, M.N. Gharacteristics of reflex responses of the cardiovascular system to the affect of water of different temperature on the skin of the face. IIauch.dokl.vys.shkoly; biol.nauki no-3:56-59 165- (MIRA 18:8) 1. Rokomendovana kafedroy fiziologli i morfologii Volgogradskogo pedagogichaskogo Instituta.  IT.17CREV, V.D,~ KAPTASHEV. N.N. Evolutionary significanne of the tranmformatirnB cf the ear par'. of the skull in auks. Zcol. zhur,, IW. nc.6037-940 165. (MlRA 18-0-0) 1. Biologo-pochvennyv fakulltet MoskovvI~cp.,c) Pnsudarstvrennogn universiteta.  AVERKINA, R.F.; ANDRMVA.. N.G.; KARTASUVp, N*.N~ immunological characteristics of liome auks and their taxonomic significance. Zool.zhur. 44 no.1111690-1700 165. (MIRA 18t12) 1, Kafedra zoologii pozvonochnykh biologo.-pochvennogo fakul'teta-Mo.ekovskogo gosudarstvonnogo universiteta :L laboratoriya immunologii embriogeneza Instituta eksperimentall- noy biologii AMN SSSR, Moskva,  TIMOFEYUK, N.~ K.;.UjISHEV~ R. - Orient,atic,n under water. lloen.znar-, 40 no-11;44-45 N ?64. (MIRA l8sl)  KARTASHEV, Rostisl Dmitriyevich; KAZARKOV',A.A., redaktor; IGOSHIN,M.G., .- PIV, - r oir.'"IMYAMA,M.S., tekhnicheskly redaktor I [Navy manual] Posobis po voenno-morshomu delu. Moskvn, Izd-vo DOSAAF. 1955. 237 P. (IURA 9:2) (Navigation) (Warships)  /-~ / I, ~ 1A ~~ .1 A" P ANDRIYEV, Vitaliy Yamillyevich; AUCUOUM. ; IGOSHIN. M.G., redaktor; XARYAKIVA, M.S., tokhnicheekly redaktor [Small boat; construction, handling, use] Shliupka,- ustroistvo, obrashchanis, impolizovants. Moslara, Izd-To DOSAAF. 1957 * 152 (Boats and boating) (MIRA 10:1130  KARTASIM. Rostislav Dmitri7e~~k~h: IGOSHIY, M.G., red.; KAZAHKOT, A.A., MY'A--K---I-V-A--,-*.S., tilchi.red. [Naval mnuall Posobis po voonno.-morsko= delu. Izd.2., perer. i dop. Koskva. Isd-ve DOSAAFp lg!;g* 286 p. (MIRA 13:3) (Naval art and scienoo)  SUR, Pavel Semenovich; K&I .,r .; IMICITITO, N.I., ;, ed U I red.; SHIKIII, S.T.t tekhn. red. (Manual on steeing~gear handling] Posobie po rulevorm delu. I-'.oskvF-, Izd-vo DOSAAF, 1963. 174.p. (MIRA 16: 12) (Ship handling) (Steering gear)  KARTASHRV, S.; YBNTSOVA, A. - - Material self-interest in introduclag basic ter,-hnical norms. Sots. trud no.5:67-69 My '58. (MIRA 11:6) (Machinery industry--Production standards)  KARTASH.LV,..S,...- inzh.; IOWMSOV. A. Wages of student workers. Sots.trud 4 no.5:123-125 My '59. (MIRA 12:8) 1. Starsbly inzhener po trudu i ze-rabotnoy plate stroytresta Orsknefte' Istroy (for Louonosov). (Vocational education) (Waces)  ISAKOV, M.A.; 4A~TAPHEV, S.P. Nanufacturing, suiting fabrics from staple fibers. Tekst.prom. 19 no.8:10-14 Ag 159. (MIRA 13:1) 1. Direktor Tegorlyevskogo melanzhevogo kombinata (for Isakov). 2. Glavwy irshener Tegorlyevskog3 melanzhevogo kombinata (for Kartashev). (Textile fabrics)  KARTASIW, V. ; FOMIN, K. Good work Is acknowledged. Bov.!?rofsoiuzY 7 no.24:38-39 D '59. (MIRA 12:12) 1. Rabotniki makhanicheakogo zwroda. g.Podollsk, Moskovskoy oblasti. (Podol'sk-Trade unions)  MOGILEVSKITO Dmitrly Aleksandrovich. dotBant; BABKOV, Valeri7 Fedorovich, prof., doktor tekhn.nauk; SMIRNOV, Andray Sargeyevich, kand.tekhn. nauk; ABRAMOV, Leonid Tikhonovich, kand.tekhn.nauk; ZAYTSKV, Fi- lipp Takovlevich, kand.tekhn.nauk; ZAKAKHATET, Mitrofan Semenovich, kand.tokhn.nauk; NIKITnT, Sergey 'Kikhaylovichp inzh,; BIRULTAI A*K*o prof., retsenzent; DUDKIN, P.A., kznd.tekhn.nauk, retsenzent; AV=YIV, V.N., retsenzent; KMASHCV, V.A., retoenzent; PALIGHEV, A.G., re- teenzent; POPOV, A.N., retnenzent; PTITSIN, I.G., retsenzent; ROKA- NENKO, I.A., prof*, retsen2ent; BARATS, L.A., prepodavatell, re- teenzent; BASUVICH, N.I., prepodevatell, reteenzent; BILISKIY, A.Ye., prepodavatell, retsefizent; XALUZHSKIY, Ya.A., prepodavatell, retsen- zent; CHVANOV, V.G., red.; MALIKOVI, N.V., tekhn.red. ILlocating and designing airfields] Izyskaniia i proaktirovania aerodromov. Pod red. V.F.Babkova. Moskva, Hauchno-takhn.izd-vo X-va avtomobil'nogo transports i shosseinylth dorog RSFSE, 1959. 566 P. Om A 13:3) 1. Mmrlkovskiy a7tomobillno-dorozhnyy institut (for Romananko, Berets, Baskevichq Bellekiy, Kaliuzhski (Airport e-Plsuniz~  i V I LF2ILIU,R.G., kandidat tekhnichaskikh nnuk; KA.RTASHEV,V.G., laureat Stalinskoy premii. inzhener Preparation of glass surfaces for liquid gold compound roAsting. -ueg.prom.15 no.8:26-28 Ag 155. (MIRA 8:10) (Gold--Metallurgy) (Glass blowing and working)  KARTASHEV, VoG,, inth. (4ningrad) On Crystal Street* Hauka i zhizn' 27 no.6:67-68 Je t60. (MIRA 13-7) (Loningrad-Glass manufacture)  YakRl'ASllEV,, V.G. Propagaticn of the fundaman-ial wal;e In P. coaxlai line wi-.*r; a nonhomoganeaus dielectric fillIng. RRdl-:~--,~-!kh. I elektron. 10 nc.6:1057-.1064 Je 165. (MTIRA 18:6) 1. Moskovskiy energAicheskiy institut, kafedra teoreticheskikh osnov radiotekhniki.  KARUSHWI V.I., inzh,; SUKHOPRUDSKIT, N,D. Vacu= preservation of traction m:)tor armatures. Trudy TSKII N% n0;420--5-12 151. (XLU 11:6) (Blectric railway moi-,ors) (Armatures)  lr-kKASH-;?V, V. I. and SUIIMOPRUDSKIY, N. D. II The Impregnation of the Armatures of TTaction Motors under Vacuum," The Works of the Scientific-Research Institute of Railroad Transportation (Trudy vsesoyuznogo nauchno-issledovatellskogo instituta zheleznodorozhnogo transporta),, iio 42, Transzheldorizdat, 132 pp, 1951. W-22517, 29 Apr 52