SCIENTIFIC ABSTRACT KUZNETSOV, YU. A. - KUZNETSOV, YU. N.

15(2) I~UTHORS: Vasilevskiy, P. A.$ Nesterov, V. I., SOV/131-5e-12-3/10 Kuznetnov, Yu. A. TITLE: Inv-entioation of t6 Operation of a Rotary Furnace With Heat Exchangers (looledovaniye raboty vrashchayushchoynya pechy a vnutrennimi teploobmennymi ustroystv&ri) PERIODICAL: Ogneupory, 1950, Nr 12, PP 539 - 5,14(USSR) ABSTRACT: A furnace provided with internal heat exchangers of the Ditts system was investiCated at the 1111agnezit" plant. The furnace had a length of 90 m and a diameter of 3-5 m. A conical part was fixed to the cold furnace end, and a segment diaphragm was fixed to the gate. The number of rotations of the furnace was 0-59 - 1.18 per minute, when the main drive was switched on, and I per hour, when the accessory drive was switched on. Figure I shows that a metallic and ceramic heat exchanger were installed in the furnace. The metallic equipment consists of 20 sections and has a length of 16 m and a weight of 30 tons approxi- matoly (Fig 2). The ceramic equipment has a total length Card 1/3 of 19 m and consists of aluminous ahapas, which are also  InvestiCation of the Operation of a Rotary Furnace With SOV/131-58-12-3/10 Heat Exchangers rich in chamotte (Fig 3). The furnace operation was in- vestigated under different burning conditions (Table 1). The operation of this furnace was compared with that of another furnace without heat exchanger (Table 2). It was found that both furnaces differ much in their operation. The quantities of dust separation during the experiments are given in the tables 3 and 4. The characteristics of the magnenite and the temperature within the furnace provided with heat exchangers are given in table 5- Conclusions: The specific fuel consumption is decreased by from 15 UP to I eo by the installation of internal heat exchangers; the furnace output is 17% lower thanthat of a furnace without heat exchanger. The use of heat ex- changers of the Ditts system is, due to the considerable duct separationg unsuited for burning magnesite. The length of the ceramic heat exchanger must be reduced down to 15 m and can be built completely with stones rich in chamatte, since the gases do not exceed a temperature of 13000 In this zone. Heat-resisting steel should be used for Card 2/3 the manufacture of the metallic heat exchangers. The  Investigation of the Operation of a Rotary Furnace With SOV/131-58-12-3/10 Heat Exchangers furnace lining before and behind the heat exchanger should be constructed with refractories of high impact- and friction resistance. There are 3 figures and 5 tables. ASSOCIATIOR: Institut o6neuporov, g. 3atka (institute of Refractories# Town of Satka) Zavod "Magnezit" ("Magnozit" Plant) Card 3/3  BRONP V. A.; UZBUG, A. I.; DiTACBKOV, P. N.;-lU;-NEZOV Yu. A. Use ~f causAlo magatibite dust for the produotion of meta2- lurgical powder,.Trudy Voat. inst, ogneup, no.2t6-25 160. (MIRA 16:1) (Befractory,materiala) (F3jr ash)  A. A. Pirogov ;~w Inniml  -,b i~'iT k IBD6 ttFFT,~, &Dt 63Lj- 't A N7,: AP300437' AUTHOR: K zactsov, Yu. A. TITLE: Diffraction of a plane electromagnetic wave by an impedance step SOURCE: Radiotekhnika I elektronika, v. 8,, no. 8, 1963, 1385-1388 TOPIC TAGS: electromagnetic wave diffraction I-ABSTRACT: The total field Is represented by a eum of three components: incident (E-polarized) wave, reflected wave, and integral of planar waves. Two integral equations describe the diffraction problem. Solution of these equations yields formulas for the dispersion wave, reflected wave, and the surface waves propagating to the right and left from the impedance step. Orig. art. has: I figure and 31 formulas. ASSOCIATION: none 'SSUBHITTED., 04ju162 DATE ACq; 2OAug63 ENCL: 00 SUB CODE: PH No REP SOV; 003 OTHER: 000 C,,d  rJUETSM, Yu.A. Increase in the correAlonal 2-oliabilit7 in teletype apparatus. Maktrorr'.mvO 18 no-505-39 My 264 (MIRA 17 98)  KUMMSOV., Yu.B.j LLWMOVj BoK.; CPMOVSKIKH, G.G.j SHABANOV., AK*j ----SMMMVI L. I. Local ues of tripaflWz in alveolar echinocoecosis of the liver@ lUd,paras.i parazobolo 29 i$aO421-42-6 Jl-Ag 160* (MIRA 13:11) 1e Iz katedr gospitollmay khirurgil (zave - prof, I.L. Brejad2G) i patologiohaskoy anatouii. (zav. f V N Konstantinar) Novo- W - FM -*p;of. G.D. Zaleaski-y) Ibirskogo maditainakogo instituta (LIM)-HYDATIDS) (ANTISMICS)  I L .--~ L ~. V~ i.- T- I ~-- -I--- ~ I . I . I k-I s I-  LOPATMMO, Tu.K., gormyy iuzb.; VZOTS". Tulle, gorqy inzh. Operations of the flexible KSTI-20A coura7er combined In one unit with the wide-range "Gorniak" cutter-loaders Ugoll Ukr. 4 no*5:27-28 W 160. (MM 13t a) (Coal mining machinery) (Conveying machinery)  KUZM30Y, Yu.I.; KUMYASHOV, Y.N. Pneumatic and hydraulic devices used in the machine-tool izidustrjr. Stanei instra 29 no.6.-7-12 Je 158. (MIRA 11:7) (Oil hydraulic maAinery)  XUZNZTSOV, Tu.I., inzh. Elements of automatic control used in machine-tool attachments, Hashinostroitell no.l,.16-20 Ja 159. (MIRA 12:2) (Automatic control) (Machine tools)  SOV/122-59-2-22/34 AUTHORS: Kudryashov, V.K., Engineer and Kuznetsov Yu.I Engineer TITIE: Rep1rcement, of Accessories for Ei~~es (Obnovleniye stanochnykh prisposobleniy) PERIODICAL:Vestnik Mashinostroyeniya, 1959, Nr 2, pp 60-61 (USSR) ABSTRACT: Illustrations are given of a hydraulically operated holding fixture to replace the bolted clamps normally used in milling and boring machines. The fixture is operated by an individual hydraulic pump which charges a spring loaded accumulator through a pressure relay. The pump runs only while the clamping fixture is being closed. The fixture can also be operated by a pneumatic- hydraulic system. The clamping piston and cylinder is double acting in that the cylinder is floating and bears against one side of the clamp through spherical washers while the piston exerts ressure on the opposite clamp through a tie rod (Fig 3~. Four sizes of this fixture will be produced by "Orgstankinprom." with pressure cylinder diameters from, Go to 90 mm giving clamping pressures from 1225 to 3250 kg. There are 3 figures. Card 1/1  25(2) SOV/117-59-5-17/30 AUTHORt Kuznetsovp Yu*I.l Engineer TITLEs Fast-Operatinif Multi-Position and Multi-Place Machine Tool Attachments. (Experience of the Institute "Orgstankinprom") PERIODICALt Mashinostroitelts 1959, Nr 5, pp 26-31 (USSR) ABSTRACTi General design and operational information is given on exist- ing multi-poeition and multi-place machine tool attachmentat i.e. attaohments-in which the work pieces are attached in several rows, or the ready work'(machine part) is obtained in a single pass. The advantages of such attachments are briefly mentioned and several designs are described and illu- atratedt A 4-Position pneumo-hydraulic milling attachment for milling flat faces on'shafts (Fi re 1)1 a p~eumo-hydrau- lia multi-place attachment (Figure 2rfor milling the upper contour of posts; a 20-place pneumo-hydraulic device for milling the butt ends and a groove (Figure 3); a 12-place att4ohment with m6chainical clamping, for milling flats on ' orls flanges (Figure 4)1 a 4-Pobition attachment (of the auth Card 1/2 -design) for mitling four sides of lathe plates in one'pass,  SOV/117-59-5-17/30 Fast-Operating Multi-Poeition and Multi-Place Machine Tool Attachments. (Experience of the Institute "Orgetankinprom") with the use of one-sided floating hydraulic cylinders con- trolled through an amplifier and permitting the clamping of four work pieces. It is mentioned that hydroplastics ("gid- roplastmaseall) are extensively used in the attachment of the described typet for they transmit evenly the clamping effort to all workpiecee on the attachment regardless of their di- mensions. Figure 6 shows a 12-place hydraulic attachment with hydroplastio# designed for milling grooves in shaft butt ends, There are 6 sets of diagrams. Card 2/2  MORTASHOT, VA., inxha; KUZNRTSOV, Yu.1.0 inzh, - Reconditioning machine-tool attachments. Vast. mash, 39 no,2:60-61 7 15.9. (mrRA l2:3) (Machine tools-Attachments-Maintenance and repiir)  ---AqM50-V I-Ist-I!,tinsh. High-speed universally readjusted attachmentse Mashinostroltell noo)tI9-22 Mr 160* (MIRL 13t6) (Mchine toolo-Attachments)  XMNITS " Yu. I. Mechanized eLttachments for clMing parts machined on universal machine tools in Oxechoslovakias Biul-takh.-okonsinform. noa4t 78-82 160. (MA 13:11) (Meo'hoslovakia-Machine toole-Attachments)  UZUTSOV. Yuriy IyaucyichjKOSTRCH:DI,, F.P.# kand, tekhn, vauk,, reteenzentl MOROZOVA, M*N9q inzhop red.; SGRNOVAI G.V.# tekbn. red. [Machine-tool attacbmenta with high-speed manual clamps) aanocbzWe prisposobleniia a bystrodoistvuiushchimi ruchnymi zazhimami. Moskva, Maahgiz, 1961. 47 P. (MIRA 151l) (Machine tool"ttachments)  --TSIFORIS--Yiifiy~--Al-ek-ean-droiieh-p inz-~.-;- b inzh.; H&OVp A.N.9 kand. tokbn. naukp retsenzent; LFMICHRONDFIOISP red. izd-fva; MODIL!, B.I., tokbn. rod.; SMIIWOVAy G.Y.g teldm, red. I [Fundamentals for designing pno=atic and bydroulic attaohamtel Oanovy konstruirov=ila pwmatichookikb i gidravliobsekikb pri- sposoblenii. Mookyap 09s. nauohno-tekbn. izd-vo mashinootroit. lit- ryt 1961. 358 p. (M~ch*V tools-Attacbments) (IURA 14: 8)  'Al S/121J61/000/001/003/009 D040/11113 AUTHORSt _KuznetsovtiYu* I., and Kudryashovp V.K. TITLEt Now hydraulic machine tool fixtures PERIODICAM Stanki i instrument., no, 19 1961, B-11 TEXTs Detailed illustrated description of new hydraulic fixtures developed by the institut "Orgstankinprom" ("Orgetankinprom" Institute) is given. All machine tool fixtures designed by the Institute are divided into two groupst (1). hydraulic fixtures with an eleotrio pump and a hydraulic accumulator, and (2) air-hydraulio fixtures. The hydraulic group has three different design principless (1) with built-in oylinders2 ioeo with cylinders placed in the casing of the fixture itselfl (2) with universal hydraulic lever drives that are placed on the machine tool table and are nonneoted by the levers to the mechanical elemental (3) with cylinders that are screwed on the olamping pine like nuts* Description and illustrations are given of the following unitat (1) Yn -26 (UP-26) hydraulic system with eleotrio pump and hydraulic aocumulatorp powering the hydraulin systems of a machine tool Card 113  S/121/61/000/001/003/009 New hydraulic machine tool fixtures D040/D113 group (from 1 tc 5 machines). The UP-26 system is illustrated by a schemat- ii diagrami and its electric pump by a photo. (2) A pressure transformer (similar in principle to one designed by the za-7od "Krasnyy proistariy" /"Krasnyy proletariy" Plant/)g consisting of one air cylinder and two hy- draulic cylinders of low and high pressure which raise oil pressure 17*4 timee c,,)mpared with atmospheric pressure* It requires a dehydrating and filtering device in the air system. (3) An eight-position fi;L4ure with built-in cylind re, designed for milling flats on flanges (in horizontal milling maohine:)- (4) A univerea!)M-132 (UP-132) hydraulio-lover drive f,,.= milling attachments. (5) A fixture for milling splinesp with a UP-132 dri7e for olamping. (6) A fixture for tilling flats on 12 ring-shaped parts at a time and one for milling flats on small-size shafts. (7) A hydraulic 1-3 (G7,) clamping screw-on cylinder* Four screw-on cylinders of this type# (GZ-,l to GZ-4), with diameters of 40 ' 50p 602and 70 mm, can produos a oljmp_ ing effort of 640, 10001 1440 and 1960 kg/om respectively at 50 kg-f/OM oil pressure in the system. Hydraulic clamping fixtures are suitable for modernization of existing clamping devices with manually actuated clamping Carl 2/3  3/121/61/000/001/003/009 New hydraulic machine tool fixtures D040/D113 nuts. The "Orgatankinprom" Institute has modernized and designed about 50 fixtures which have been in use since 1958 at the Gorikovskiy zavod frezer- nykh 8tankov (Gorlkiy Milling Machine Plant). There are 10 figures. CaT-d 3/3  ~,KUZIJETSOV, Yu. 1. Mechanization of technological processes in small-lot production in plants of Czechoslovakia. Biul.tekh.-ekon. inform. no-3:92- 96 161. (Czecboslovakia-44achinery industry) (MIRA 14:3)  KUZ=150V, Yull. sFrina clamping devices. Mashinostroitelf no.10:28-29 0 161. (MIRA 14:9) (Fastenings)  KUZNETBOV9 YU-1. a-#-- Draw-in abucP with a spring clamp. 142sbinoBtroitel' no.11:13 N 161. (MM 14:11) (Chucks)  Kii-METS (AT . ! I t..'~'rLlon Crnrerence on Chemical React--ras KIn. i k-at. 6 no.4t769- 7?3 JI-Ag 165. (141RA 1.819)  KUZNETSOV, Yu.1. Meebanization and automation of macbine-tool attachments in the machinery industry. Stan.i instr. 32 no.10:14-19 0 '61. (MIRA 14:9) (Automation) (Machine tools--Attachments)  IMEMOV., Yusle A PT-40 threew-levol plow* Trakt, i mollMoLumb, 31 fisoj2) noolls 35-36 N 162. (KM 15s12) I* Povolabskaya mashinoLapytatellnaya stantaiya., (Flove)  KUZNETSOV. XU41. Sonic logging an a possible metW of the study of fracturing in rocks. Trudy VNIGRI no*193sl69-177 1629 (MIRA 25:12) (Oil well logging) , (Gas well logging)  KUZNET;SCV, Yu*I,, inzh, Pneumatic and hydraulic drives for machine-tool attachments, Mashinostroenis no.5%114~117 8-0 163. (YdRA 16tl2)  KURq~w04-xU,a.---- Mechanized part fastening during machining. Biul.tekh.-okon.- inform.Goo.nauch.-isel.inst.nauoh.i takh.inform. 16 n0.403-85 163.. - I (MA 160) (Metal-cutting tools)  KUZNETSOV, Yu.1. Attachments with a hydradiD fastening drive, Hashinoistroltell no.7s2O-22 JI 163. NERA 160) (Machine toola-Attachments) (Oil-hydratilic machinery)  NUMETSOV, Yu, 1, Pneumatic and hydraulic machine-tool attachmsnts. Mashinoatroitell no.8t27-Z9 Ag 164. (W RA 17 s 10)  KUMITI'sov YU.I Modern methods, for mochanic.,all farstorvljvz r~f tw---ts in - Z, Blul.. tekh.-akc.-n. Inform. 6c~i. riaunho-J.--]. I ttj,.h. Jr,- form. 17 no.9:91-93 S lt~-'+ (MIRA M.A)  11 EVIIHOVSK fY LA.,. BEYS11TADT, D.M.; SEDOKOVI LJ1.2 kani. tG':`-,i. nauk; ILIM, Yu.M.j ZMANOVICH, V.F.y inzho, KUMIET-OV Yu.l.g inzh.., retsenzernt; KOSILOVA, A.G., red. (Increaoing the productivity of heavy-duty machine tools) Povyuhenis prolnoditellnonti krupnykh metallorezhuahchikh starLvov. [By] I.A.Nemirovskii i dr. Moskva, Mashini:-- stroanie, 1965. 201 p. (MI RA 18: 5)  EUZUTSOVV Midals Carboniferous Loingala of Tatarstane Trudv VNIGNI no.161 225-131 1609 (HIM 13:6) (Aktaeb region (Tatar-A.B.S.R.)-Brachiopoda, Fossil) (MnnkVWevb- tegion-Brachiopods, Fossil)  KUZ-LIF,T30V, YUOIO Stratigraphy of the Baahkir otago in the acuthwectem part of the Tatar A.S.S.R. (northern part of the Melekeea Depro-crion). Dokl. AN SSSR 135 no.33690-693 N 160o 13:12) 1. TSentraltnaya mue'-no-issledmatellsIcaya laboratoriya tresta nTatneftegazrazved%au. Predstavleno akad. D.V. Nalivkinym. (Mole"was region~-Gcology, Stratigrapide)  I __ __ KUZNETSOV_, Yu.---I. ___ ____- ____ - - - - - - __ Cand Geol-Min Sci - (diss) "Brachiopodes of the Middle Carboni- ferous of Tataria and theirstvatigraphic significance." Kazan'l 1961. 20 pp; (Ministry of Higher and Secondary Specialist Educ- ation Ukrainian SSRI KharIkov Order of Labor Red Banner State Univ imeni A. M. Gorlkiy); 120 copies;price not given; (KL, 7-61 sup, 225)  KUZNE; V., T New data on the otratigraphy of the Lower Carboniferous of the Tatar A,S*SR, obtained by deep drilling during 1959 to 1961& Dokl* AN SSSR 147 no.2:438-441 N 162. (MIRA 15:3.1) 1. Kazanskaya geologiobeekaya skopeditsiya Gooudarstyennogo pologo-rasyedoohnogo tresta neftyanoy i gazovoy promyshlenn"osti Tatarokoy ASSR. (Tatar A.S.S.R.-Geology., Stratigraphic)  SMMOV, Ye.M., prof., doktor geol.-mineral. nauk; BULACH, M.Kh.; ROW, Ye.S.; POZINENKO, B.V.; GORYUNOV, I.I.; KNORING, L.D.; GMrD, L,P,j GROMOV, V,K,; KUZNETSOV Yu.I.; DOROFEYVA, T.Vs; *T-rj%Tpmz KALACHEVA, V.N.; KLEMOSOr"reem- 1 Novo I.V.; IONINAO I.N.p vedushchiy red.; YASHCHURZHINSKAYA, A.B.t tekhn. red. (Combined investigations of fractured reaervoirs and $a experience in estimating the petroleum reserveB contained- therein.] Kompleke*v isoledovaniia trescbinnykh kollektorov i opyt podscheta v nikh zapasov nefti, Isningrad, Gostop- takhisdats 1963. 198 p. (laningrad. VsesoiuWi neftianol. nauchno-iBaledavatellskii geologorazvedochnyi institut. Trudyp no.214) (MIFLA 17: 1)  KUZNETSOV, Yu.I.; TRUYEVTSEV, N.I. Small spinning unite Izv. vyo. ucheb. zav.; tekh. tekst. prom. no.1:46-52 164. (MIU 170) 1. Leningradakiy institut teketillnoy i legkoy promyshlennosti imeni Kirova.  KUZNETSOV, Yu.I.; TRUYEVTSEV, N.I. Effect of the cut length of nitron fibers on yarn properties. Izv. vye. ucheb. zav.1 takh. tekst. prom. no.2t2O-22 165. (MIRA 18:5) 1. laningradakiy institut taketillnoy i legkoy promyshlennoati.  KHOROSHATA, Te,S.; NOYRIGINA, G.I.; MTKIM, Tu.A.: x~,.Tua. Rapid alectrometric method of determiulng potassium chloride content in artificial leather. Leg.prox. 16 no.9:30-32 S 156. OUZA 9:11) (Leather. Artificial-.-Testing) (Potassium chloride) (Blectrochomical analysis)  KHOROSHAYA, Ye.S.; KOROLIKOVAp K.D.; ELVIII-MSOV; Yu.I.; ROYTMI, Ye.A. &rarod j.4oisture meter* Zav.lab. 29 no.2s239 163, (MIRA 16:5) A~ 1, VoesovuzzfWy nauohno-lasledovateltakiy izwtitut plenochnykh materialov i iskuoatvannoy kozhi. (14oisture-Yeasurement)  BESKOV, V.S.; KERNERMAN, V.Sh.; KUZNFTSOV, Yu.1. First All-Union Conference on Modeling and Optimization of Catalytic Processes. KinJ kat. 4 no.5:795-798 3-0 163. (MIRA 16:12) t . :. 1 . . _. - .. % '-.' -_ ~ , 11~e I  SLIVIKOP M.G.; TYURUYEV,. I.Ta.; KUZNETSOV,, Yu.I. .. . .... .. -'. - . ---. - - Optim= operating conditions for hydrocarbon dehydrogenation a colummo RhimeProm, no&4:253-259 A 162 (KCU 15:5) (Hydrocarbons) (DehydrogenauZ (Ca;alysio)  KUZNM,'iV Yu Y.; 110?2NUTO, B.V. Distrihition rate :,f elastlz co-sillat! 'aris ",- f'r--i,;Iart:Kt :Lso-tropis ant). porou3 )nauia. Trudy VNI'liftl no.2282190-116 164 'kr4lRA 17:8)  IUZNLITSOV YU,K,,ordinator-, SHCHEMINSKIY. S.A..ordinptor. Proper Stomntologiin 37 no.2.61-62 Kr-AD of phosphnts cements. 158. 04IRA 11:5) 1. Is kafedry ortopedichookoy stomatologii (xav.-prof. V.Yu. -Kur3,vnndskiy) Moskovskogo meditainakogo stomntologichaskogo institute (dir,-dotsent G.N. Beletakiv) (MTAL HATIMIAL)  TSOV, Tu. K. Condition of the edgs\of a carious cavity following preparation by various instruments. Stomatologlia 38 n0-3:1&19 My-Je 159. (KIRL 12:8) 1; Iz kELfedrv ortopedicheskoy stomatologii (savo - prof.V.Tu. Xurlyundskiy) Roskovs~ogo meditsinekogo stonatologichookogo inatituta (dir, - doteent G.N.Beletakly). (MWH--DISILUS) (MMAL INSTRWRTS AND aPAUTO)  Kumiasov, YU.K. ---------------------- Method for obtaining identical X-ray picturee of the upper and lower tooth. Stomatolo-giia 39 no.ls2l-24 Ja-F 160. (MIRA .14in) 1. Iz Wedry ortopedichookoy stomatologii (24v. - prof. V.Yu. Kurlyandskiy) Moskovokogo meditainBkogo stomatololgicheskogo instituta (dir. - dotsent G.N.Beletakiy). (TERR--MDIOGRAPHY)  KUZNETSOVy Yu.K. Sterilization of.some.instruments in DepaFtments 'of Orthopedic Slimatology.- Otmatologiia 40 no.2196-9$ Mr4p 61- (MIM 1415) lo Is Mookovskoy oblastnoy ato'matologioheokoy polikliniki. (DENTAL IMTEMNTS AM APPARATUS-STEMMUTION)  KUZNETSOV, Yu.K.---,- Standard types, sizes and form for film for roentgenography of the teeth and periodontal tissues. Stomatologiia 41 no.4:32-36 Jl-Ag 162. (MM 15:9) 1. Iz Moskovskoy stomatologichaskoy poliklAniki No-5 (glavnyy vrach Yu,K,Kuznetoov). (TEETH-4UDlOGRAPHY)  ACCESSIo*,j 1,y2.: API~028930 S/0230/64/000/OL2/0093/03-03. Iuzretfsov Yu. (Taningrad); SenIchenko, R. 1 - (L*zinV=d)j, charac,~!~Eyp V, 1. Alsorit~--,' Of "the '111,60jen, of dotc::~rtina Optiz= cMtxo1-sy.-.tem P=a=a'%'Icrz by the Gradicnt metncd SV,nIC:,-!: PZr MO. IzvoL)tiya. Tehhnichazlzya Idbornatika, no. 2,, 190~; 93-101 TO?_-LC Z%GS: autcraevic control, nonlLnear autc-matic control, 1;radient n=erical r.C--,,hC4, auto-matic -control algorithti, nuzar!.cal method 10,37UCT: The prOalcm considered is that,-,ri~'h , rn:~~cificd. cortroI-,y*,*cm Z'rUC- tt= _--6 npecified &ifferen" ial ccluation-, dc:t the moticns oj:' thc ccntrollcd. -par=ctorr, of -rch h %I i~2 =. .1, k2, - - - L, enz=c a =~.nimua rican-cquaro error. As a rulle, thc: ncznlincar. A n=crical "Cradiant" matha is zu~M~:;A;cd as hav-Ln-- of I city over variational met',hoU in solvinl- ',~UG :)roblcm. C.rd 1/2  16-M.: AP4Q289?,O =e -iven on cvaluat-.",.n-r, the stap and --clectinZ; raethocl of intc_rrati-.i-- the itial of equatioaz; vario= nctlavLo of and averaSinZ the basic (tho caatrol-~.uality criterion) =c e~=~ad. Tho findirk:,, 0Z. -,4r=- ete'rz, wl,,ic~ll cormn-pana -'.-o the functimal e:,~k-lnmmi is perZo=.cd by the mc;thc,~. A actaillcC lo~,,ical zchc=e for the n=erica1-DrdGle= al,- iz 0-.-Lc. azt- h---: 1 fiU=e an& 33 forxula-Z. A3S0Cl:,TlC.,l: s,zp-za=: 15Dec62 DI'm P.C,): 30PPr9~ MICL: 00 SbB CCDE: IE NO =t-- SOV: 005 0=371: 00!7' Card 2/2  1_2492-M FdT(I)/ETC/EPF(n)-2/EPA(w)-2/EW(m) LIP(c) -AT ACCESS ION HR' AP 5026724 UR/0057/65/035/008/1394/14 71 14MfOR' Pavilchanka, 0. a.; V!ji~In, L, A.LXuxnotsovP Yu. K.1 4damovo L yu'l a Vy" TITLE: Instability of a plasma dischargewith oscillating electrons. 1. Micro- wave radiation W, V V, or SOURCE@ Zhurnal tekhnichaskoy fixiki, ve 30, not 8, 1965, 1394-1400 TOPIC TAGS: plasma instability, plasma oscillation, hydrogen, helium, electric discharge, electron oscillation, electron reflection, electron temperature, lar"r frequency, nonlinear effect, plasma magnetic field ABSTRXwr: The authors have investigated the microwave radiation from a high vol- tage PIG reflex discharge plasma in order to obtain more Information concerning the oacillationsidiscovered by G.Landauer (J. Nucl. Energy, Pt. C, 4, 395, 1962) at harmonies of the Larmor frequency. The discharge took plRce in hydrogen or helium in the presence of a uniform longitudinal magnetic field up to 2500 Oe be- tween two 3.5 cis diameter cold aluminum cathodes 80 cm apart and the copper wall of the 10 cm dimeter, 100 on long discharge chamber. The cathodes were located within short porcelain tubes, and a potential difference up to 2 W was maintained betweenthem-ond the chamber wall# Microwaves of 3#4 cm wavelength were ------ ------ 1/3 Card uN  L 2492-66 ACCESSION MRs AP 6020724 01 UR/0057/65/035/006/1394/1400 received from the Interior with a horn antenna and were recorded with a superheter- odyne radiometer having a 4 Mabee PaBaband* The plasma density was measured with an 0.8 am wavelength Interforometeri the electron temperature was determined from the triplet to ainglet Intensity ratio in the helium spectrum, and the Lon tempera- ture was determined from the Doppler broadening of 0pectrum lines. In the expert- ments the plasma densities ranged from Jo12 to 3 x 1012 cm-1, the electron temper&- turea from 20 to 50 eV, mid the ion temperatures from 0.1 to 0.3 eV. The magnetic field dependence of the noise temperature at 3#4 ca was different In different re- gions of magnetic field strength. At low-field strengths (region 1) there was a single maximum at which'the noise temperature reached hundreds of electron volts. At magnetic field strengths between about 200 and 1500 Oe (region 11) there wera many maxima whose heights did not exceed 50 eV. The heights of the region 11 maxi- ma varied with the pressure and discharge current, but their positions did not;- the maxima occu-rred at those field strengths for which an Integral or-half odd Integral multiple of the Larmor frequency was equal to the radiometer frequency. At a mag- netic field strength of perhaps 1500 Oe (depending On pressure and discharge cur- rent) there occurred a sudden decrease of the plasma density and a simultaneous In- crease of the noise temperature (transition to region 111). In region III the noise temperature Increased smoothly with increasing magnetic fieldt and reached 2/3 Card ------  L 2492-M ICCESS 1011 KRI AM020124 Ivalues as high as I kev. These phenomena and their variation with presiturd and Idischarge current are discussed at some length and are compared with relevant ob- Iservations of many other investigators. It is suggested that nonlinear effects are involved$ as well as an anomalous diffusion that the authors discuss In the tollowing paper (ZbWrv 35, 1401, 1065; a ab t pt,,APS020725) I-XI of conclusion, t V. ; Or~y v's*k K N Ot'pan , and I.F. the bors exproso their gratitude to V "? -ty 8 0 0 e Ab=' o or discussing the results, and to V, I.Kondft'Mo and 9- ve.Maiff6ftfinko, for asaWng with the work." Origo art, hoot 7 formulas and 7 figures. A S SOCIATIONt FIx1ko-t*W&njcbeq#Iy Institut AN UkrSMj% Khar1kor (Ph Institute, AN OkFM)f BUBKITTED: 16ffov64 RMCM 00 BUD CCUS: UZ MR REF SOVS 005 OrHSR2 009  L 491-& EW(1)1.hTCIE"(n)~-21M(m)IEPA(v)-2 IJF(c) AT ACCCSSION NR: AP5020725 UR/0051/65/035/008/1401/1404 1ikol's)tiyjL_ I.K. AUTHORt Pavlichenkc % 86; Dunhin, L. A.; Kuznetsov, Yu. to; Nikol'ski ISK** Adamov, 14 Yu. _q% TITLE., Instability of a plasma discharge with oscillating electrons. 2. Anoma- lous diffusion of plasma 'SOURCE: Zhurnal tekhnichookoy fiziki, v. 35, no. 8, 1965, 1401-1404 TOPIC TAGS: plasma Instabilityt plasma oscillation, helium plasma, electric dls~ charge, electron oscillation, filectron reflection, plasma diffusion, plasma Uag- netic field ABSTRIer: The authors have Investigated the stability and anomalous diffusion of the plasma of a high'voltage PIG reflex discharge with the apparatus described in the preceding paper (ZhTIP, 35, 1304, 1905; ace abstract AP5020724). In addi- tion to the measurements described In'the preceding paper, measurements were made of the charged particle fitfx to the wall of the chamber, using a double probe, and the plasma column was observed with a rotating mirror. The charged particle flux at first decreased with increasing magnetic field# but at a certain critical field strength the flux began to Increase with Increasing field strength# The critical Card 1/3 _v~ 2-rL24.W4 Now  L 2493-& ACCESSION MR1 AP 5020725 field wan that for transition from region 11 to region III discussed in t lie pro- coding paper. When the magnetic field Increased through the critical value the plasma density suddenly decreased, tho microwave noise suddenly increased, and oscillations of the plasma column were observed with the rotating mirror. Tile critical magnetic'field strength In helium plasmas Increased with rising gas pres- sure from 1000 Oo at 10-4mm jig to about 1600 Oo at 2 x 10-3 mm 11g. There wag no anomaly In the electron temperature at the critical field. These results are com- pared with the theory of F.11oh (Phys. Fluids, 6, 1104, 1963), and it is shown that the magnetic field strength at onset of anomalous dAffuglon in an order of magni- tude less than the theory predicts. It is suggested that a turbulent state with, a broad spectrum of low-frequency oscillations any arise from the Interaction he- tween the plasma and the oscillating electron beam. The authors hope further to parsue their studies so phenomena. "In conclusion, the autho%,ejffess their gratit D.GineoXy for.discusaing the results and to allotd-doneiako, and M. c-.9-WYA Uaphq for assisting with the 4 jitj nV10 work4" OrIg. art, hast 3 formulas ir-A figures. I , ASSOCIANONt none cam 7  Ii Ii w (9~ Card V3  AUTHOR: None Given SOV/ 6-58-6-21/21 TITLE: Chronicle (Khronika) 111210DICAL: Geodeziya i kartografiyal 1958, Nr 6,1, PP- 79-80 (USSR) ABSTRACT: From April 24 - 26, 1958 a Technical Scientific Conference took place at the Moscow Institute of Surveying-, Aerial. kovskiy institut Photography- and Cartography Engineers (Mo . : inzhenerov geodesii, aerofotos"yemki i kar ografii). In the section of aerial-aurveyipA the following lectures were hold: No Ya, Bobir, Docentf- "On'the Problem of the Determination of Elements of the Internal Orientation of Aerial Cameras With Wide and Superwide Lngles". Ye. P.,Arzhanovp Ansistantp - "Investigation of the Aprfxatus for the traight- ening of the Film by Means of Waves". (Compressed firomechan- ical Method by Docent A. I. Shershent). V. Ya. Mikhaylovj Docent, - "On the Change of the Scale of Aerial Photographs in the Course of Enlarging". L. No Vasillyev, Aspirant, - "Stersocompensator With Electric Corrections", P. V, Zakharovj Teacher, - "On the Fineness of Grain of Black and White as Card 1/3 Well as Color Negatives of Aerial Photographs"s Yu. Me  r r,hronicle 5()V/ Xuznetsov Aspirantf - "Elements of the Theory of the Novi In the sootion for aurvoying and Lhotogrammetric apparatus the following lectures were hold: I, G. Barkin, Professor* "Physical and Mathematical Theses of the Theorem on the Ao- curacy of the Apparatus as a Means of Measurements". S. M. Gol_ovinq Docentq -OAcoolerating the ProductionPreparations of Now Mducts and Reducing Their Coate". L. A. Wking Docentp -11ADvaratus for the Exact Recording of Distances". V. S. XLkhoysebivn Assistant, -$Field Tests With the Light Range Finder CBB-1" (In Moscow in August 1957). V. S..Usov, Asaiatantf - "On the Investigation of the Errors of the Focusing Devices of Telescopes". In the section of cartography the following lectures werq, Eeld: No Me_yolkovp Frofeenort - "On the Engraving ih the Production of the Original Publioz*4on Editions". A. V. Waumov, Docent, - "Some Problems of t e Household of Carto- gx;a-phic Production". Do A. Ginzburgt tocent, - "On the Inter- relation of the Distortions in Cartographic Projections"s L A Bggomolov, Docent, - "The Topographic Erialiiation of Card 2/3 A;rie*,i hotographe Taken From Airplanes and Helicopters in  ,3hronicle SOV/ 6-58-6-21/21 the Cartographing of Areas Difficylt of Access". A. S. Tolatoukhovi Assistantq - "On the Representation of Reliefs of Pl~ne Areas on Topographic Maps". Card 3/3 1. Cartograpby 2. Aerial photography 3. Scientific reports 1: .~  26447 S/02X'60/000/004/003/010 D232 D305 AUTHORt Kuzneteovv Yu.N. TITLEs Tensile and compressive bending of struts of minimum weight under discharged eccentric loading PERIODICALt Akademiya nauk Ukrayinalkoyi RSR. Dopovidig no. 4. 1960t 436 - 440 TEXT: The author begins by referring to the works of Ye.L. Nikolay I.M. Rabinovych A.Ps Syrnov, 0.1. Vynohradovt Yu.A. Radtsig, etc. on the problem of doigning struts and beams of minimal weight, and states that the solution of the problem of tensile and compres- sive bending in such struts is possible owing to the work of M.V4 Kornoukhov. In the case of struts of variable cross-section, one possible method of facilitating construction is to reduce the load acting on it. One may also use the method of optimal, or, as it is called in this article, "discharged" ¢ricity, which *as first used# the author claims in A.R. Rzhanitsyn (Ref. 4: Ustoyebivost' Card 1/6  26hh7 3/021/60/000/004/003/010 Tensile and compressive bending D232/D305 -11 ravnovesiya uprugikh sistem (The Stability of Equilibrium of Elas- tic Systems) GITTL# 1955). This method depends on the fact that the longitudinal forces acting on a strut which also has a trans- verse load creates a structural eccentricity. The strut of minimum weight will be the strut of equal support. Three classifications of cross-section are consideied. 1) Constant height and variable breadth, h = constp b = b~x);,2) Constant breadth and variable height b = constf h = h(x ; 3 Proportional cross-section h(x) = eb(x). A met1sod is considered for determining the laws for the variation of the cross-seotion of theBe types, and the reduction in weight. In each case it is necessary to know the optimum value of the discharged eccentricity. The maximum stress in some cross- sections is constant and equals do(day)o With dischargeil~,eccentri- city, the equilibrium condition for the strut is J(XX - Ne) 9 do - W + - X YX where N is the bending moment under the transverse stress, Ne is Card 2/6  26447 8/021/60/000/004/003/010 Vehaile and oompressive banding as. D232/D305 the bending moment under longitudinal stress which "discharges" the spurs Mxt and j = /MX - Nel In the case h const, b b(x)t Mx - No the volume of the strut is given by V FX dx- (M, -,Ve) dr + (2) where the support moment W x t11'xq where t1 is a coefficient de- pending on the form of the'cross-section. If the strut bears a uniformly distributed load of intensity q, then (2) becomes V - q 16 0 + 18 W - 6 11a, i 11 (4) 12oji Card 3/6  26447 S/O;?1/60/000/004/003/010 Tensile and compressive bending ... D232/D305 (ai-11 ai are points of variable sign of the i-th strip of the to- tal epure of the bending moment). The extrema of volume are given by dV)da1 = 0, i.e. they oecur at (a.). = V2p (al)2 = C/4- Ab- atractor's note: 8 not defined]. It in found that the first of these values gives minimum voliime, and from this the value of the dia- charged eccentricity is found. It is obaerved that the condition for minimum weight is that the area of the total epure of the ben- ding momenta should be a minimum. The following results are obtai- ned by graphical methodet 1) The use of discharged eccentricities makes it possible to reduce the weight of structures in individual cases to 75 %:br struts of constant arose-section and to 50 ~ for "usual" equal supports strutsp 2) Reduction of weight depends on the scheme of transverse loading and the parameter m (ratio of longitudinal and transverse load). In the case of a strut of con- stant breadth and variable height, the maximum stress is given by Card 4/6  2 6447 S/ 60/000/004/003/010 02Y D Tensile and compressive banding D232 D305 J(Mx -.No) do 2 (5) t2 P; x where t is found .from W t 20 The volume is 2 2 P; N1 (6) Fdx - -, I I/ ~L + I (M. Ng) dx 4 I Ott 470 and the minimum volume is found in the usual wayo In the case hx cbx [Abstractor's note: N&B* change of notation], the maximilm stress is (Mx -~ Ne d + (8) 0 x t3 r~ Card 5/6 0-,.0  26447 8/021/60/000/004/003/010 Tensile and compressive bending so, D232/D305 where t3 is found from WX ', t3px 3/2,# There are 3 figures and 7 Soviet-bloc references, PRESENTED: by Academician AS UkrSSR, F.P. Byelyankin SUBMITTEDt May 12t 1959 Card 6/6  KUZNETSOV, Yu. N. Cand Tech Sci -- (dies) "Bar of Equal Resistance to Longitudinal-Transverse Bending." Kiev, 195T. 13 pp 20 cm. (Academy of Sciences I = Ukrainian SSR, Inat of Construction Mechanics)., 100 copies (KL, 25-5T, 113) - 61  A UTHOR t Kuznetsov, Yu.N. SOV/21-58-11-3/28 ITTLE: On the Effect of Shear Deformations on the Magnitude of Stresses from Bending in Continuous Beams (0 vliyanii do- formatsiy sdviga na velichinu napryazbeniy ot izgibs v ne- razreznykh balkakh) PERTODICALt Dnjovidi AV&demii nauk Ukrainelkoi RSR, 1958, Nr 11, pp 1162 - 1166 (USSR) ABSTRACT: The calculation of statically indeterminate systems is based on the use of Moor's formula, which consists of two terms. In engineering practice, however, the second term to usually neglected insofar as it -is assumed that shear deformations are negligibly small in comparison with the shifts caused by the bending. Professor S.A. Bernsteyn FRef 1_7 investi- gated the effect of the second term for the case of a con- tinuous beam with rectangular cross section. Kuznetsov has extended that investigation for any arbitrary shape of the beam arose section. He shows that the second term consi- derably increases if, within a number of spans, the flexi- bility of a continuous beam is small, and in particular for cross sections with a high coefficient of utilization. go analyzes the three-moment equation, the coefficients of which Card 1/2 take into account the influence of shear deformations. He  SOV/21-58-11-3/28 On the Effect of Shear Deformations on the Magnitude of Stresses from Bend- ing In Continuous Beams constructs the diagrams showing the error arising due to using the tbree-moment equation in ordinary form for con- tinuous beams with an arbitrary shape of cross section. It turned out that the values of the moments at the supports may be not only smaller but also higher than those calcul- ated without considering the shear deformation effect. There are 3 graphs and 1 Soviet reference. PRESENTED: By Member of the AS UkrSSRp F.P. Belyankin SUBMITTEDi August 4, 1958 NOTEt Russian title and Russian names of individuals and institu- tions appearing in this article have been used in the trans- literation. Card 2/2 777.7 ---  161- ( 1) 3OV/;J-5"1-4-7/27 AUTHOR: KLMno'Ll-sov, Yu.N. TITLE: Rods of Unimum ."eight Subjcct(-~d 11-o Stretchincy-, Li Bending and Comprossing Yorces PERIODICAL: Dopovidi Akademii nauk 13H, 1()591 1,11- 41 pp 3?2-378 (USOOR) ABSTRACT: This article dealc with the law of varyin,- of the profile of various structui-al meml-),"Irs alon-C 'U-he-1r lengths, when. such strucl5ural merrqb.~,rs, for rcdu;3tion. of their o,.,.-n weight, are nma.'~.e of varying profile, either aith nons-"ant heip-hL (h - const. and vari- ', w1bli comLant wirl'th (b-const.) able -~:Idth (b -- L(x) or and variable hoiCht ?li.h(x). The determination ol" the profile outline, In order to have it au to Card 1/3 "ideal" ar.3 possible, i,-, roduccd ~-o tlj,:. -,c)lul;ion of a  XIV/21-59-4-7/27 Rods of Minimum Weight Subjected to Stretching, Banding z~nd Compre,-,sing Forces d2z d2Mo k differential equation ( ~;2_ - dx2x ) z where k 0 for the cate ory of structural members b(Z k = ~' "or " with h const., b = !f the category of structural members v-dth b = const., h = h(x) and k = 1/3 for the categor of structural members with no h(x Cb'-). A method of oimilar cross oectio k-- VI_ successive approximations in '.he desi-n of structural members of minimum -;;eight is discussed and data pre- sented on the degree of possible economy in -Weirght, obtained by replacement of otructural mombers of constant profile by the meml)crs of minimum vicirht and Card 2/3 varying profile. There are 3 diagrams, 1 graph and  SOV/21-59-di -7/27 Rods of Minimum Weight Subjected to StretchinC, Bond-in-. and CompressinG Forces 6 Soviet references. PRESENTED: By Belyankin F.P,, Academician, AS UkrSSR. SUBMITTED: January 10, 1959 Card 3/3 k  KMIIETSOV, Yu.M. Dluznetsov, M.14.1 Incorporating optimal eccentric factors In designing minimum weight rods subject to tension-bonding and compressiod-bending combinations. Doy.AN URM no.4:436-440 100. (MDU 13:7) 1, Aredstavlano akademikom AB USSR r.P.Belvankinym (F.P.Bleliankinyml. Mastic rods and wires)  KUZWJSOVI Y~I.N. - The TP-2 devioe for determining the hardness of metals. Biul. tekh.-ekon.i~form?Goo,nauch?-iasl.inst.nauch,i tekhoinform, no.1206-58 163, (MIRA 17$3)  1 1472-66, ACCESSION NR: AP5022168 UR/0032/65/031/009/1085/10"- 543.42 AUTHOR: Kuznetsov, Yu. N.; Chabovsk!j, L. P. TITLE: Automated method of rapid determination of mercury in powder samples SOURCE: Zavodakaya-laboratoriya,-v. 31--no.-9,--:1965--1085-1087--.------ ~Op IC TAGS: mercu , es nance line, quantitative analysis ABSTRACT: A method based on a combination of two processes (reduction of mercury ~ present in the powder sample in a stream of air, followed by determination of mercury vapor content in the gas phase) is proposed for the rapid determination of mercury in ores and calcines. Atomic absorption involving the use of the 253.7 mg resonance line of mercury is employed. A diagram of the apparatus used, dcsigned by the TsNIIOlovo Institute, is given. The analysis lasts 3 min, and the root-mean-square error is 5-7%. A study of the effect of particle size ion the analysis shows that the error increases sharply when the particle size exceeds 1 mm. The effect of various impurities on the results is also determined. fOne of-the advantages of the method is that even substantial amounts of organic impurities do not alter the results because these compounds are completely burned lout at the high temperature and abundant air supply prevailing during the It Card 1/2  ACCESSION NR: APS022168 analysis. Orig. art. has: figures, 2 tables, and 2 formulas. ASSOCIATION.- Teentrallnyy asuchno-isaledovatellakiy institut olovyannoy promyshlennosti (Central Scientific Research Institute of the Tin jRq!!~st) SUBMITTEN 00 ENCL: 00 SUB CODE t IC MA NO REF SOV.- 003 OMER: 002 LCurd 2/-2,  ACC NRI AT6001374 SOURCE CODE: UR/0000/65/000/000/0306/0314 AUTHOR: Koebenov-.I. SO; KuznsVso*p Yu. No ORG: None TITLE: Xnstead7-stats floy. 11 tubes SOURCE& -Teplo- i-messoperends -to--lt--Konvaktivnyy~toploobmen v odnoro dnoy arede (Host and mas; transfer* ve 1: Convective beat exchange in an homogeneous madium). Minaks Nauka i tekbnika, 1965, 306-314 TOPIC TAGSt hydrodynamics, fluid flow, unsteady flow, hydraulic resistance ABSTRACT: The article starts with a theoretical discussion of the sub- ject and a review of previous work In the field, Experimental detemin- ation of the coefficient of unsteady state friction resistance Is diffi- cult since the measuring apparatus and the equipment must be practically without inertia, The experiments in this case were carried out In two different experimental units with water and oil as the working sub stances* Pressure gradients were measured in three successive sec;Ions of a round tube with a diameter of 0*007 motors In the stabilized flow region* The measurements were made with an Induction sensing device, :ard  ACC NN, AT6001374 type DIP 1-M; and, a pres-sure drop of 20 000 nowtona/meter2 could be measured with an accuracy up to 0.5%. He experiments-were carried out in a range of Reynolds numbers from 10 to 107# In the experiments, great divergences from unity were observed In the value of the resis- tance coefficientp including negative values, In addition to the tests described 6bove for determination of the unsteady state friction resia- tanoe, experiments were made to study local resistances in unsteady state flows; here also there were obtained divergences from unity of the coefficient of unsteady state local resistance, Thuss both theoretical and experimental investigations show that the coefficient of hydraulic resistance under strongly unsteady state conditions differs from its quasi steady state value, and that this fact must be taken into account in the calculation of processes uhich change rapidI7 witb times Orige art* bas: 21 formulas and I figure* 3TJB CODE1 '201 SUBM DATE, 3lAug65/ 'ORIG REN 006/ OTH REN 002  KUZIMTSOV. YU.N., won" Determining the lij~ht diffusion In aerial photographic onmeraffis Trady HUGAIX no.2U49-54 155. (MM 10:1) 1. Hookovskly instutut inzhenerov geodesit, Kafedra nerolotoslemkio (Light--Scattering) (Cameros)  KUZNBTSOV. ILA Affect of light filters on the development of details In shades on aerial photography..Good. I kart, no,3t4O-46 Nt '57. (Aerial photogrammetry) (Light filtersy, OWA NO)  -f ~I - Kwansvi- Attachment to the range finder for the nhotography of empll objects at a nenr distance. Sov.foto 17 no-8:55-57 Ag 15?. (MLRA 10:9) (Photogrnphy)  vftwov, A - I ).VTWA* sat-lbakel. T. D.. C&"gdato or T*oftmL"k set.=" ' TITLIS Tockslosl Confarese- at XIIOA I X (AftlekSe- 9.1.4151fle amd Za"tesse"14 kaaforeatelys Jar" I C) I PSAINIM. %vw~~%Aj* 17#OhLkh sebobawk1t OR-64only. weretatow"rom". Ms. ar 2. vp 111-114 (cm) LDSMCT. treat %pril 24 so 26 a asivatift* ~WA twonatical SoSf-r*MC- Of th. %It" I x (IsetItat. or coodway. an& c Cartography. Means-) " S*14 in Manage. Furthermore. the" .e" C~ *Satieam is operations am, ge*d"j, 4OVIONTUP". 834 on %be Pro".%lon Of Phatogro."Sti"I so. Move %ban 200 talodat" trom 45 laolita%as took per% %a = eastern". St. hub 24 lossur" Or* :0 delegate. 9OLrtt41pS%0d in %h& "NOMASLOSS. ft* OV.9&04 9so*sk OsS One. by 00 Director of the V1124 4 1. fterowmatr P. 3. Zonal.*-. Castor at Tookatcal galeaces. Th* first pap" read -4 the% by 1. 1. tv&"- 0* -fts FLO% Assiont 1t"&.i40L44.- A. 1. -r6g"--t. Doster Of Technical Settaces. spoke a. -'se S-%%p &.A whe Z&"QILM primalplem of th. ce".tio Basic X.tverft of %he cArd 1/5 UWE.* A. N. Llrois,to. Prefooser. read a paper on I%* Unborn- caorti tom IS seewe Eta" of co4etical lnros%4 Now-red in Itm UIIPMOLd .* N. S. *ArGW'YOW. 29000%. '04 & Ann" VUft Of spowul Stability.- T. 0. sollsbamovigh. Doomet. can""t. or ?0"Aimal S"Qmftt -fte urs a" set"WL4, Rork at 4. P. 3020140'.. T. I. Sol-stakovs lartl"l meassrome.to of 016%aftsee, Mader P"WLS* C*SfiSlGAG.- 3- V. UYAVI". A041694&91 'On the Nota"Olow or migb-Procistwo comlowetry in fire""" Tri. rvLaticam I.- W. Ys. lobir. -as in* Prokttm at Dot.ratstaS a u4mosts of of Sid.-Andl* bad Savor. = V1,16 Angle A*rLa4 Cameras.- A. K. PSwwov. Crado4to 21"oals On a Lae.1 Deviso With a Freely S"po"4 B.Clactor.1 A. 3. OtAlLplywo, reported on ~Caodvsy sea cartagrapay, at the Usks. alme .9 Ia@ 2"14% We.' To. P. Art"Soo 00 -A,. IaleatIOU1104 of th. Film 3"othleg D-&** With SZpportlag Vallon.- L. N. Tgott:J!". avat"to 3tathate Btu Electrical columatlome., T. It. Dosons. couAl"to Of Tocameal let~-$ -00 the CO. 3c&l. of 4.C1.1 ft.106VAP&M kaf.11- D! !, , ZkAa-.. -0. tee ;t.1lactal. . ;. .46 From Wargameat. apabtxttl.s at a" Color fauagmamo.l T- 1. Gragoat* StAdoat. -,)he "maoRt. ,n.6 -- r7 Mr W Wood shatter., 1. 4. 4prkle. ?"teaser. "?be present Ste" of ft"14614kth.Mgi"l KAsalaAd* an the Proat.0 rum. ,tested of venturing Tools.' S. a. C!plo.La. It.-ding or vad 3,upre" %be Protection of X-&.r1aS Toalo.* L. A. stlklo. Do4ont. CAN&Ldate of Toaltatcal Sol.", o0a %mm%..,%a for be pr"Ime sm."Moont of Pl.umaaa.- T. S. atiLhozaAev. Am- ! Lot"t, -field T4S%G site Ift- fttitftl. &&a4. PLRC*r CSJ-t-- T- S. Lhowt, Asolotant, 'On the St.#y of Ima..matan, to %he vo""-tas r~-Seao of Toleasop".. S. K. Tolaev. Prof".0r, 00at&t of Coo4rApk1d.1 $clowe", -3~ 2-ra. an L^dm,Lg is the Prodostism, Pronoso at Original Maps.- card  3W SOV/6-59-2-9/22 AUTHOR: Kuznetcov, Yu. N. TITLr: '_~Ele~ment, of t`he~heory of the New High-speed Shutter of Air Cameran (Elementy teorii novogo skorostnogo zatvora aerofotoapparata) PERIODICAL, Geodeziya i kartografiya, 1959, 11r 2, PP 43 - 48 (USSR) ABSTRACT: A new type of a central interlenticular high-upeed shutter waa desienod by the Chair of Aerial Photography at the MIIGAiK according to an idea of A. I. Shershen'. In the present paper the scheme of this shutter is described. The lens mounting contains a ring K- 4 a-mall shutter flape with rotation oxce in the points 0 1'02'03 and 04 are mounted on X. The center of gravity C i of the flap does not coin- cide with that of its rotation axis and is distant from it by distance i. On rotation of the whole system round point D at constant angle velocity to the flaps share the complex rotation -round 0 and D. Thus'a force is produced which tends to rotate the flaps into thestable equilibrium Card 1/3 position while the center of gravity is shi fted toward the  Elements of the Theory of the Now High-npeed Shutter of SOV16-~9-2-9122 Air Cameras elongation of the radius DO. At the beginning of rotation the flaps are immobile with respect to the ring K. A special device is available for this purpose. In the re- quired moment the flaps are released and rotate under the influence of the above mentioned force. They open and shut 'the aperture herein. A special device prevents furth-.r opening. The author deduces formula (11) for time t which is necessary for the opening of the lens aperture. The influence exercised by gravity and friction in the axes of the system is not considered in this connection. For- mula (i1) shows that t can be calculated if the angle ve- locity of ring K, the radius R of the supporting ring, the inertia radius 3 of the flap, the distance 1 to the center of gravity and the angle y of the sector (according to which the boundaries U Iand U 2 can be determined for the rotation of the flap) are known. It results from the table given here that the calculated time agrees with ex- perimental data (according to the results of a high-speed Card 2/3 film-shooting) with an accuracy that 13 sufficient for  Elements of the Theory of the Ifew High-speed Shutter of SOV/6-59-2-9/22 Air Cameras practical purposes. The first experiments with the device model permit the conclusion that the new high-speed shutter for modern topographical air cameras can be based on the above mentioned principle. There are 4 figures, 1 table and I Soviet referezice. Card 3/3  w Y KL4 1v e T s / J., g V 4 v -,t I a VA 3 gal to- AM I 30 'F. So 4iffill'.4 ":jo- 1 Ij A-1 1% il gi is.; wrl 4S  It-IF IF! ulfiRtill M4 I rr la ;I ir P. -2 F R Q. 14 - ca So 0 ~6! L'.4-0 .0 Tj f3 0 -o": 77-7-777777-  3/15 %000/02/12/018 B012V2 AUTHOR: Kuzneteov. Lis N y Poet-graduate Student -------------------------- TITLE: Introduction of Rapid Film Shooting Into the Investigation of Aerial Camara Shutters op PERIODICAL: Izvestiya vyeehikh uchebnykh zavedeniy. Geodeziya i- aerofotos"yemka, 1960, No. 2, pp 105-109 TEXT: At the kafedra aeroollyimki (Chair of Aerophotography) of the author's institute, the method of rapid film shooting for determining the basic parameters of a?.Tial camera shutters wv~ tested. A camera of the type C KC -1 (SKS-1 )Fovae used, which can pezform up to 4, 000 single shots per second. Pigs I gives a scheme Pf the camera. The exposed film passes a time-indicator,for which an MH_7 (MN-7)lineon tube is used The movie camera Ot according to,Pig. 2) was set up at some distance f;oM the camera (2). For AN(AW',caferas with great focal length, as for instance AfA-33/50 (APA-~3_AO)*~. a distance of I m was chosen. For scale enlargement, while ahooti;g the shutters of wide-angle objectives of the tYP8 "PyccaP 2993311 (Rusear 29,33Mancillary lenses were used# Card 1/3  Introduction of Rapid Film Shooting Into 5/154/60/000/02/12/018 the Investigation of Aerial Camera Shutters B012/B123 In this case, the camera was placed at a distance of 10-15 cm from the object. A simple apparatus accar ding to Fig. 3 was used for synchronina- tion. At the first exposureq a time mark was recorded on one side r (Fig. of the film strip. After that, the once exposed film was turned by 180 and its left side 1 was exposedq whereby some film material could be saved. The film was developed for 4-6 minutes in a Chibisov developer. The optical efficiency of the shutter is computed from formula (2): So where S' denotes the area of all images on the photograph, and 5 the area of those pictures which would have been obtained by ideal performance of the shutter* 3 was measured planimetrically. A panchromatic film of the type 10 was used. The aerial cameras AIA-Ta-100 (AFA-TE-100);-y with shutters of the types BB-1 (n_j~"-A~A-33/50 (APA-33/50) with a PMK-C- m (:Rj)"_' blind shutterp and 5 C S- ~Awith a central semispherical 5a Zeiss shutter as well as with a central rapid shutter of the type AC -1 (TsS- )~were tested by the above-described method and by means of the movie camera SKS-1 (Table 1). If the shutter mechanism is filmed in Card 2/3  Introduction of Rapid Pilm Shooting Into S/15416010001021121018 the Investigation of Aerial Camera Shutters B012/B123 reflected liebt, a series of cinematic parameters can be determined. Thus, the speed of the central shutter T93-1 was tested according to a suggeetion of'A. I. Shershen'. The testing method described is absolutely sufficient for the precision necessary in practice. Its principal advantage lies in the simple testing apparatus which needs no preparatory work. There are 5 figures and I table. ASSOCIATION: Moskovskiy inatitut inzhenerov goodezii, aerofatos"yomki i kartografi (Moscow institute of Geodetic, Aerial Survey, and Carto- R r a p R-c -ffn-A,-G-e -er-s7 SUBMITTED: March 16, 1959 Card 3/3  S/154/60/000/005/006/006 B012/BO60 AUTHOR: Kuznetsov, , - G Yu. N., Aspirant OWSOMMOW TITLEi Method of Determining the Air craft Tilt in Testing the Precision of Navigational and Pilotage Instruments PERIODICALt Izvestiya vysshikh uchobnykh zavedeniy. Geodeziya I aerofotoallyemka, 1960, No. 5p pp. 119 - 123 TEXT: As compared with the conventional methods of determining the absolute aircraft tilt, the method given here Is simpler, more economical, and more prebise (Authors# Certificate No. 121 569). The aerial camera is mounted on the aircraft in a way as to allow its optical axis 001 to occupy a fixed position with respect to the coordinate axes X, Y, Z of the aircraft (Fig.1). A strong light source 3 is inserted under the fuselage. In night flights over a water line (a water basin and calm air) a virtual image S' of the light source is observed. This image is located at a distance 2H below the aircraft on a straight line SS' normal to the water surface. The virtual image S' is photographed with the aerial camera. The longitudinal and transverse tilt of -the aerial camera and, hence, also of Card 1/2  Method of Determining the Aircraft Tilt in S/154/60/000/005/006/008 Testing the Precision of Navigational and B012/Bo6o Pilotage Instruments the aircraft can be determined from the following two formulas (Fig,2)2 r r at - arc tan -X and at, . arc tan -Z . To obtain the absolute tilt, X f f corrections must be allowed for in these formulas (as S is at a distance D from the optical aerial cameraaxis) (Figs.1 and 3). For a perpendicular position of the optical axis of the aerial camera the respective formulas are to be set up on the basis of Fig-4. Considerations are made to eotimat the accuracy of the method. The method described here has been applied at one of the scientific research institutes of the USSR to examine the. precision of the operation of a gyrostabilizing system. The tests were carried out by Engineer V. Ye. Aleksandrov. The results confirm the usability of the method under discussion. There are 6 figures, 1 table, and 1 Soviet reference. kSSOCIATIONt Moskovskiy institut inzhenerov geodezii, aerof'otos"yemki i kartografii (Moscow Institute of Engineers of Geodesy, Aerial Photographyand Cartography) SUBMITTED: April 110 196o Card 2/2  I ___ ___ - - X_ GWKCKWO, Sffi; JUNITSOY, YU.T.; LAZARZY, X.F. . LWINIT 0 1---- __ ___ ___ HIMAY V, Concerning the article by V.I. Baranov and L.A. 1hristianova "Radioactivity of-waters in the Indian Ocean." Gookhimiia no.7t650-651 160, WU 13:11) (Indian Ocean-Radioaotive substances) (Baranov, V.I*) (Khriatianova,- L.A.)  ICUZIMTSOV, Tu. 1. Preliminary investigation of &,nay high-speed shutter for aerial cameras* Sbore ate po good. no.11329-33 0609 (HIFA 13:8) (Shutter, Photographic)  KUMTSOV.. Yu.N., assistant Multicolored printing on semiconductor photographic paper. Trudy MIIGAIK no.4%47-51 161. (MIRA 14:7) 1. Moskovskiy institut inzhenerov geodeziip aerofotos"yemki i kartografii, kafedra aerofotos"yemki. (Photography-Reproduction of plans,, drawings$ etc.) (Color printing)  MUMSOVIYU.No; ZLEENTSOVA, LPV. Effective use of a sample in analysis by blowing the test powder irto ths.arc'. 7Av. lab. 31 no.23180-183 165. (MIRA 1W) 1. Tgentralinyy nauchno-issladovatelfskiy instibit olovyannoy pronVahlon- nosti.