SCIENTIFIC ABSTRACT MASLENNIKOV, N.D. - MASLENNIKOV, Y.P.

MASLENNIKOV, N.D., kand. tekhn. naule.; MYSHOITKOV, N.I.; MASLOV, A.A. Treatbig liquid pig iran with magnesium salts* Sbor. trud. UMIM no.9c255-265 t64 (MIRA 18:1)  MASLENNIKOV, N.D., kand. tekbn. nauk; VORONINA, V.A. I Effect of temperature factors -an the formation of stcmy frac- ture in alloyed steel castings. Sbor. trud. UNI'M no.9*. 266-2:80 164 (MM 1821)  MASIMINIX07, N.D., kand. tekbn. nauk; VYGODSKIY, I.A.; GIRSH, A.A. Reducing burning-on in steel casting in rapid hardening molding sand mixtureso Sbor. trud. UNIIM noe9t281-294 t64 (MIRK 18:1)  MASLRTNIROV~ III.D.2 kand. tel-chn. nauk,- VORONRIA, V.A.; 14TJRAVIYEV, V.N. Investigating the effect of nmmetal-lic inclusions and the conditions of hardening on the nature of t3tony fracture in alloyed steel castings. Sbor, trud. UNIIM no~9:295-3U 164 (MIRA 18:1)   KIRICEIENKO, D.V.; MASLENNIKOV, N.D.; VESELYANSKIY, Yu.S.; rOLIK, V.P. Studying the mineralogical composition of the fine],y divided fraction of Peskovka deposit claye Sbor.trud. UNIIM nooll:2,V+-249 165, (MMA 18: 11)  GUXIKH, A.M., kand.tekhn.nauk; HASLENNOT, N.I. Automatic production lines for manufacturing fastening parts. Hashinostroitell no.6:8-10 Js 160. (HIBA 13:8) 1. Gl&TzWy Inshener SaTOdS6 "Krasnaya Itna" (for Xa*160nikOT). (Nachine-tool industry-Technologlc&l Innovations) (Automation)  s/i82/60/000/010/011/015/xx A161/Ao3o AUTHORS: Gladkikh, A.N.; Ngalannikov-r-NTI-. TITLE: Calculation of Passes and Tools for Production of Bolts In Automatic Machine Lines PERIODICAL: Kuznechno-shtampovochnoye proizvodstvo, 1960, No. 10, pp. 21 - 24 TEXT: Automatic machine lines producing boltswith hexagonal heads are work- ing at the plants "Rostsellmash", imeni Oktyabr'skoy revolyutsii (imeni October Revolution) in Odessa, "Krasnaya zvetda" in Kirovograd; the Combine Plant imeni Stalin in Taganrog, the Zavod metalloizdely (Metal Products Plant) in Magnitogorsk. All these lines have one drawback in common - they include automatic machines trimming the bolt head faces, and about 8 - 10% of metal is wasted in cuttings. The plant "Krasnaya EtnO has nine such lines in which steel bolts with hexagon head are produced in closed dies without trimming. The line (Fig. 2) indludes a two-stroke heading machine (1) for preliminary forming of heads, a single-stroke heading machine (II) for final head forming, and a thread-rolling machine (III). The transformations in the three machines are illustrated (Fig. 1). Inter-opera- tion annealing is not obligatory for the "30" steel from which bolts are made, Card 1/6  S/182/60/000/010/011/015/XX A161/Ao3o CalcuJl.ation of Passes and Tools for Production of Bolts In Automatic Machine Lines and I'; is not used since bolts nevel fail in use. The transporting mechanisms in the line consist of two vertical bucket elevators and four Inclined chutes. Stop- ping of one or other machinefor resetting Ooes, not stop the other for they work up bolts stored in their hoppers, or they work filling the hoppers. The "Krasnoye Sormo,ro" -Plant produces three bolt sizes "M12", "M14", and N16" using the same technology. The method results In a 20% cut of production costs compared with work on separate machines. Heading bed dies for the fori*Uon of final hexagonal* head are made from YIOA (U10A) steel for "M12't bolts &A last for 30,000 pieces, and the punches for 26,000 pieces; dies with tungsten-cobalt cermetAftserts used for "1410" and "M8" bolts last for 65,000 and 75,000 pieces. The 'information in- cluded calculations of the blank diameter; of die dimensions and tolerance for the second pressing stage (Fig. 1, b); of the die impression dimensions for the last stage, i.e., formation of the hexagonal bolt head. Detailed drawings of bed dies and punches are inoluded. There are 7 figures. Card 2/6    .S/182 0/010/oll/015/)OC~- A161/AO30 olt': Calcu ation' -and, ools for s of:~ Passes T Producticin.,of Machine tines In Automatic u- Fi j6,5 Flguie 6: ~the' s Th n eco a,.stage dimensions -*d and d, After chr P~ J   GIADKIU, A.M.; USLIMIKOW, I- I- Automatic line for xanufacturlag bolts wittumt wwte. Hashincatroltell nooll:2-5 5 960s (MIRA 13S10) (Machinery, Automatic)  GI.ADKIKH,, Aleksandr Rikitovieb; kand. tekhn. nauk;-NO!~IKOV, Nikolay Iva- n-ovichp inzb,.-1 CKCWAKOVA, I.Z., red.; SHMING, V.A., red.-FRZ-Va-, SWUM, I.JL,p-tekbn, red, [Autmatic' l1we'for cold ups4ttiMl Aftomtlebedds lWi kholodno- vygacloobnago prolmdetva;-opyt gorlkovokogo zavoda."Krasnaia Etua.w 1961. 16 p* (Leningradskii Dom nauchno-tekhnicheskoi pro- pagemdy.,Obmen peredovym opytaw. Seriia: Geriaobaia i kholoduaia. ob- rabotka metaUov.'davlenieiav n0.4) (MMA 14:10) (Gorkly-Scrows) (Gorkiy-Bolta and puts) (Automation)  GLAMMI, A.ff,; nRmNov, P.P. Automatic production lines for bolts and screw** Kuz.-shtamo proizv. -11 J (MMA 14: 1) 3 no - 1: 9 a 1610 (Forging) (Assembly line methods)  GIADKINH9 A.N,; HASLEMNIKOVO N.I. iouble istim upsitterwin the now 4Lu+hi-tic Ifts. Kul.ahtsm. 1xv.*94132-31 Aj~, 161 fKM 3,40) pro (For" michb,wry)   AX=10' T & e-e se 'r ti xe 6n.: bf bite= er 00 UB cmzw M v6 D 00 - - - ~ - Ir - 7- 7 7  GIADKIKH, A.N., kand.tekhn.nauk; MASLENNIKOV, N.I.; FARAPONOV, F.P. Automatic and continuous lines for the hardwqre manufacture. Mashinostroitelf no.12:" D 161* (KM 14:12) (Machine tools--Technological innovations) (Automation)  LASLEIIINROV, N. V" "Current Eistribution Between Parallel-Connectec' Arodes an(3 V~ilves." Cand Tech Sci, All-Union Oreer of Lenin ~,Iectlrical Engineerin~- -Inst izeni V. 1. Lenin, 29 Dec 54. M, 17 Dec 54) Survey of Scientific and lechnical Lissertations E-efended at USSR HIFher Educational In StitUt4 ons (12) j SO. Sun. "To. 556, 24 Jun 55    8 AUTHOR: Masl(i~~ ~. ~.,andidate of Technical SOV/105-58-12-2/28 -Out'ryt c e s TITLE: Determination of the Recovery Voltage Form in Rotary Converters (Opredeleniye formy vosstanavlivayushchegosya napryazheniya v preobrazovatellnykh ustanovkakh) PERIODICAL: Elektr ichestvo, 1958, Nr 12, PP 9 - 13 (USSR) ABSTRACT: Herewith is brought a method of calculation simple circuits of rotary converters. This method allows in a simple and quick way the determination of the,frequency and the damping of the recovery voltage. For more complicated circuits it is useful to determine the form of a curve of the recovery voltage with the help of an oscillograph and of the diagram of an equivalent circuit of low power, in which the oscillations are excited. The method here recommended corresponded well with -the test data of a few operating installations. It was determined that in superpower-stations the damping of the takes place at the expenses of losses which are Card 1/2 generally not taken into consideration. Finally five examples  . Determination of the Recovery Voltage Form in Rotary SOV/105-58-12-2/26 Converters for illustration are given. There are 11 figures, 2 tables and 4 Soviet references. SUBMITTED: April 26, 1958 Card 2/2  SOV/110-59-2-8/21 AUTHOR-. Maslennikov, N.M.,-Candidate of Technical Sciences TITLE: The Distribttion of Volta4e Between the Intermediate Electrodes of the Valves of the All-Union Blectro- Technical Institute (Raspredeleniye napryazheniya po promez,hutochnym elektrodam ventiley VEI) PERIODICAL: Vestnik glektropromyshlemosti,1959,Nr 21pp 27-31(USSR) ABSTRACTs Work has already been published about the voltage distribution between the intermediate electrodes of ionic rectifiers. This article considers the question in a practical manner in relation to the high voltage valves of the VEI (All-Union Blectro-Technical Institute) which were described in Vestnik Blektropromyshlennosti Nr 9i 1957 Blektrichestvo Nr 52 1958, and one of which s ra In i illust ited in Fig 1 and briefly described here. the tests.described the valve was supplied by transformers of 207 37.5 or 120 MVA. The valves were connected in a three-phase,circuit with zero,point (Fig 2) with control angle of 80 - 90 degrees.electrical and with an Inductive load. A typical oscillogram of the voltage on the valve Card 1/4 is given in Fig 3. The electrode potentials were measured by means of a capacitance voltage divider.  SOV/110-59-2-8/21 The Distribution r; i_,' Voltage Between the Intermediate Electrodes of the Valves of th-elAll-Union Slectro-Technical Institute Measu'rEfl.ents were made simultaneously of the voltage on the anr`le and on some intermediate electrode, using a three /3am high-voltage oscillograph with delayed sweep. The qt,lrst*O.U of voltage distribution between the inter- media/i electrodes is briefly discussed. Curves of the .Volt,-r7/,,e distribution between the electrodes of valve typej[R-4-1 under different conditions are given in Fig 1+. Val.,/., type VR-3, which is intended for a smaller current, us'U'lly has four intermediate electrodes. The distribu- tirl of voltage between the electrodes of this valve co noides with the curves 3 and 6 of Fig 1+. The influence 0!~ the resistance voltage divider, connected as shown in /. !;, on the voltage distribution between the inter- 1/3diate electrode, is then discussed. Data about the /,istribution of voltage between the electrodes of valve /type VR-4/2 are given in Table 1 for various forward and back voltages and different voltage dividers. Oscillograms of the voltages of the anode and the intermediate electrodes of valve VR-4/2 are given in Card 2./+ e Fig c). In order to determine the influence of  The Distribution of Voltage the Valves of the All-Unior. SOV/110-59-2-8/21 Between the Intermediate Electrodes of glectro-'Mchnical Institute individual electrodes on the 'voltage distribution in the valvo type VR-9/3, the first and fourth elentrode connecting circuits were removed leaving only the cylindrical screens. This had little effect on the electrode potentials or on the frequency of back-fires. Electrode potentials for the modified and a normal valve are given in Table 2. It will be seen from Tables I and 2 thiat the voltage distributionsat the instant of maxJjnum restoring voltage in valves VR-1+/2 and VR-9/3 are practically identical. The test circuit used was not very satisfactory for determining whether the voltage dividers incorporated in the valves were effective in preventing backfires. However, other tests that are briefly described, clearly demonstrate the advantages of voltage dividers in preventing backfires,", It is concluded that in designing high voltage valves, selection of the values of the intermediate capacitances Card 3/1+ of the anode circuit of the valve and of the resistance of the sections of the external resistance-voltage- div.11,der that shunt these capacitances should depend on  SOV/110-59-2-8/21 The Distribution of Voltage Between the Intermediate Electrodes of the Valves of the All-Union Electro-Technical Institute the.rate of rise of recovery voltage so that no excessive voltages appear on any gap during the recovery process. The inter-electrode capacitance should be as low as possible in order to reduce the power of the external resistive voltage divider. The anode voltage on the valve may be increased by increasing the number of Card 4/1+ intermediate electrodes. There are 6 figures, 2 tables and 4 Soviet references. SUBMITTED: July 25, 1958  YASLMIXOT. II.M.2 MKOVICHO A.A.; AMIMM, V.D. Firing of a sectionalized high-voltage rectifieve Blektrichest'ro no.6:25-29 Je 160 - (KIEL 13:7) 1. Yeesoyuznyy elektrotakhnicheekly institut im. Lenina. (r.lectric current rectifiers)  M&SLENNIKOV kand.tekhzi.nauk; NADALIYAK, N.Yu.p insh.1 KOIZSNIKOV,; ~~~.D.p inzh. A. comparisoin of methods for measuring the voltage drop in the are of mercury rectifiers. Vest. elektroprom. 33 no.11: 1 5-58 'N 162. (MRA 15:11) 5 (Merctl-ry-arc rjetifiers)    ran, I Bxx EXPWITAT XON SOV/3727 Rasshlrenlyst,wazeashnostey PrLmane" PI48tX&08 v kOnAtruktsly4kh MshIn Widening the Possibilities for Using Plastics in flachimory Components) Moscow, ftshgix, 1959. 183 P. 8,000 copies printed. Reviewer@: N.V. Popov IngInser, and P.Z. ratuichow, Doctor of Techni- cal selene*~S: ld.i P.1, Auslov, 2rq1rw*rj Tech. 9d&.: N.A. Du- nd A.P. Uvarova; gas*. Zd. (Ural-31berian Division, risengls)j -lux- Saomova, SnaInter. FURPM: The book to intended for engineers and scientists engaged In tb* Study and manufacture of plastics and lastic within 9 0 parts COMUS The ofiapters of this book were written by different authors I" tod In parentheses after oath chapter In the table or contents.*." The Chapter the use or plastics In non-Soviet countries Includes ftta on the Koft Works In CaGaboalovakis. A number of Soll:,t,manu- featuring astabLIshments are mentioned. Zquipmont using p parts Is described " evaluated. Considerable attention I paid to asexterrous and obenual enterprises. an moll as to the problem or substituti" plastics tax- critical materials in types of equip- sont subjected to seer or %a cormalve. abrasive and'ah#mJc&I in- fluences. Brand deelSratlona, properties and uses of 4 amber Of SOVI*t-l&d~ Plastic "WrIMIS are given. It 14 thus a survey of modem Soviet plastic materials grouped according to their specific application In Industry. Thsi;uthors rely heavily upon the experience of Ural plants. especial those specializing In electrical apparatus, automotive equipment. and maccurir in- strwwnts. No personalities are mentioned. There are 37 r1as ferences: 31 Soviet. and 5 aerman. ?AKA OF CONTINTSs Ch. n. Parts Node of Plastics (A.Ye. Dayer. V,K' _TJL_;huravlov, V.S. Bmnkovsx&Ya. ancl-r. IT Textollte--3111Mced guides zor ndavy cachlaws 17 0: rgpr%las and application of.laminated wood-bass plastics 21 lanInat d waaA-base plastics DSF 21 nod fl%r! '2; Parts mado or sabostos-bass plastic* Us* of acrylics at the Chelyabinakly tavad lzmrltellnykh Lmatumeatov (Chelyabinsk risaxuring Instrument Plant 1Ch1ZJ 33 5. Use of.plAstles at some Industrial enterprises In the Kux- n*tsk IssIn Bearings made of plastics Aloctr1c drive* for belt conveyors with plastic parts (descriptial of an 02P*r1X4fttaI modal) 39 P'lastlim bearings for machines used In mineral-wool manaaa. turs Ch. III. Plastic& In llsotrlcal AschInery and instruments (G.V. AJ~Z=Ozarav, and V..X.S&marM9y) A a t ff, I a parts In electrical madEinery 44 2: Sacapone 1copolymers of a Soviet type or synthetic rubberl and asoapons insulation 'IT SMOSPOMO polymers 49 Secapone compound !52 2:08POOM lacquers 52 A capons finishing or cloth made of paper or textile r4breg 53 Technology Of manufacturing a scapone -impregnate d glass fabrlc.IACqu4r-c0AtGd escapana-impregnat2d glass fabric, and LAOS-excApone adhesive tape 54 W.portles Of electrical Insulating materials made or seas. pone plastics ST 1conoxic efficiency of electrical Insulation made of gsc&pon# plastics 62 F plastics for' 1"t,rument' comp"O-n'int -a_a_t___Chely&b1 3. Use a the 'Toploprlbor* Plant 63_,J  I -KAUSUM takhn.red. POVInvlehT RALIBAL", I., red.; RIJDXYA. G.. Eum of plast.ice In the machInary Industry of thi lusustsk Basin] I Plastmassy Kuxbossa v sashinostroanil. Zewrovoo Kewrovskoa knizhnos lsd-vog 1960. 3? p. (KIM 14:2) (;Cuznetak Basin-nastles) I I-,  s/04/6o/boo/005/007/021 A104/A026 AUTHOR: Mdsldnnikov,N.P., EnSineer. TITLE: Practical Use of Plastics PERIODICAL: Khimicheskoye mashinostroyeniye, 1960, No. 5, pp. 44 45 TEXTs The article deals with the use of plastics in machine engineering and describes such machines installed in various non-speoified plants of the Kuzbass (Kuznetskiy Pasin). Figure 1 shows textolite (T) and oaprone (K) parts of a centrifuge for production of slag-cotton. By using textolite the belt drive could be replaced by friction g3aringg, which Increased the capacity and reduced 41. 'he size of the centrifuge Friction parts are cooled by water which is also acting as lubricant of the textolite bearings. A centrifugal pump with plastic bearings operating on the main and sectional spillways is shown in Fig`_ ure 2. Bearing bushings (1) and discharge rings (2) are made of rubber-graphite plastics. The bearings are cooled and lubricated by water. Blastic bushings simplified the design, reduced size and weight of the pump, saving cast iron and hot-rolled metal. Purther*components of materials used for shims are sulfur (vulcanizer), soot and zinc oxide (active fillers), ensuring high mechanical properties of plastics after vulcanization. Lubricating oil, paraffin, aldal Card 1/4  .s/i84/60/000/005/007/021 Practical Use of Plastics A104/AO26 stabilizer and diphonyl-guanidine facilitate even distribution of these compo- nents. The rubber-graphite mix has satisfactory self-lubric%ting properties. Tests showvd that the bearing performance improves at increased circumferential speed of 30 m/sec, the friction coefficient reaches 0.001 at water lubrication at a permissible specific pressure of 45 k&1cm2. Temperatures of 150 - 1750C are permitted during short-time operations, provided that bearings are properly lu- bricated to prevent carbonization of the surface and ensure proper performance. Textolite is used as material for bearing bushes of rolling-mills in the Kuznets- kiy metallurgicheskiy kembinat (Yuznetsk Ketallurgical Combine), operating at pressures of 230 - 250 kg/cm2 and a circumferential speed of 2-5 m1sec. In blooming mills the bushing load reaches 1,000 tons at 3 M/8ec. Low heat conduc- tivity of textolite is compensated by water cooling and lubrication. The use of textolite reduced friction losses by 25% and prolonged the service 11fe of bear- ings. Plastics (glass, fibers, textolite, caprone and nylon) are also used in minlng and for chemical equipment. There are 3 figures. "Y' Card 2/4  -S/184/60/60/005/007/021 Aio4/Ao26 Practical Use of Plastics Figure 1i Textolite (T) and Naprofte (K) parts In a centribige.for.slag-ootton production. Card 3/~  V  MASLENNIKOV, NikolayJAU&MIC ; BALIBAWV, I., red.; GERASEVICH, Z., (Concise bandbook for bydraulic engineers] Kratkii spravoch- nik gidromekhanicatora. Kemerovo, Kemerovskoe knizhnoe izd- vo, 1963. 179 p. (MIRA 16:10) (Hydraulic mining)  YUMMU7, B.G.; SHOYMM, L.Ye.; ju~~~ Gertain problems involved In the storage ofIsugar beets in Kirghizistan. Sakh.prom. no.4:13-14 Ap 60. (KIRA 13:8) 1. Karabaltinskly sakhar"y zavod. (Urghizistan-Sugar beets--storage)  KASIONNIKOV,P.D.. khimik , ",- . Making good use of dyestuffs. Tekst.prom.15 n0-10:54-55 0'55- (MIRA 8:12) 1. Soonevskeya otdolochnaya fabrika (Dyes and dyeing)  KA.SMNIKOV. P.D. Dyeing staple fabrics by the two-bath method. Tekst.prom.16 no.9:5,4-55 S 156. (MBA 9: 12) 1. Ihimik Sosnevelcoy fabriki imeni Smoylova. (Dyes and dyeing-Rayon)  14ASLENNIKOV. P. 1. Kaslannikov, P. 1. 'The four-milling industry of Samtow Oblast". Uchen. zaplaki (Sarat. gos. in-t im. Chernyshevokogo), Vol.XXII, Geographic issue, 1949, P. 19-41, - Biblio1g: 6 items. SO: U-4392- 19 August 5:3. (Letopin 'Zhurnal Inykh Statey, No 21, 1949).  10 MASLENNIKOV, P. So 9. USSR (600) Vegetable Gardening Work practice of the irachine-tractor station In mechanizing vegetable -gardening, Sad I. og., No. 3. 1953 9. Month List of Russian Accessions, Library of Congress, April, 1953, Uncl.   1. 11-ASMINIKOV, G. A. 2. USSR (6oo) Windbrleaks, Shelterbelts, ate. Creating the Voronezh-Rostov-on-Don government shelterbelt, Les. khoz., 5, No. 12, 1952. 9. -ons Monthly List of Russian Access" Library of Congress, April, -1953, Uncl.  MASIMMIKOV, S.A., Insh.; MULSNOBAYIV, A.S.. inz1h. Retention terraces Iterosion control. Zonledelle 7 n0-9:78-80 8 159, (MIRA 12:11) 1. Nachallnik upravlenlya lesnogo khosyaystya Toroasshokogo oblastnogo upraylenlya sel'skogo khosyaystva. (for Naslennikov). 2. lachallnik Voronexhakoy ekspediteii "Agrolosoproyakt" (for Mrasnobayev). (Soil consenration) (Terracing)  8(6) SOV/98-59-7-10/22 AUTHOR: Maslennikov, K., Engineer TITLE: The Use of Horizontal Variable-Pitch-Type Hydro- Electric Turbines PBRIODICAL: Gidrotekhnicheiskoye stroitel'stvo, 1959, 14r 7, pp 44 49 (USSR) ABSTRACT: The article is a discussion of the advantages of ho- rizontal direct-and semi-direct flow turbines, equip- ped with variable pitch blades, over the more spiral casing type. In such turbines the generator is com- bined with the runner in one piece or is installed on the turbine axis at either the Inflow or discharge end of the ~;ES. The author names the authorities which first researched the possibility of developing this type of turbine - Prof. B.K. Aleksandrov of the Gidroenergoproyekt and Prof. V. S. Kv-yatkovskiyof the VIGM, while work on the direct-flow type was done in the Tbilisi ftepartment of the Gidwenergoproyekt; the horizontal type of turbine;was developed in the Moscow VIGM'and the Leningrad LMZ. Some other tests Card 1/4 were carried out by the MET and MISI (Moscow) and  SOV/98-59-7-1-0/22 The Use of Horizontal Variable-Pitch-Type Hydro-.&lectric lurbines the 121 (Iening:cad). The only two horizontal varia- ble-pitch units in the USSR, the Ortachallska3~a (direi-t- flow) and the Kawkaya GES (semi-direct) are briefly des, cribed, and a short survey is made of foreign expe- rience in this field: projects by the Swiss firm Escher- Wynn and. the French GES castets(Fig 1) and Argentat (Fig 2). The positive features of the semi- direct flow type, as opposed to direct flow, are then enumerated: 1) greater efficiency, proved by tests using the same 11-548 runner in a direct flow unit with axial distributor (Fig 3) and in a verti- cal spiral casing with radial distributor (Fig 4). From these ~raph;3 the following conclusions could be drawn: a) the use of a straight-axled discharge pipe increases nuiximum efficiency; b) the rate of discharge is inC3!eased; c) the efficiency isolines are increased; and d) the efficiency isolines on the Q, axle are increased-by about 300%. The data taken from the graphs shows that in semi-direct flow tur- Card 2/4 bines the efficiency remains more constant at times  SOV/98-59-7-10/22 The Use of Horizontal Variable-litch-Type Hydro-Blectric turbines of change in the! rate of water flow and in pressure. On the basis of this experiment the Kama GES was equippad with a semi-direct flow turbine, with a re- sultant decrease in the total weight of about 100t; 2) simplicity of'design, the turbine no longer re- quiring the complicated spiral casing; the axial distributor is-more efficient, but at the same time of more complex design, while the direct-axial dis- charge pipe is simpler than the curved one which it replaces. The semi-direct axial unit has 3 founda- tion pillars, as opposed to 1 in the case of the ver- tical turbine, a:ad certain problems connected with the installation of the turbine in this respect have not yet been overcome; 3) factors in construction indicating the superiority of horizontal type turbi- nes are the smaller space required to accommodate the same power (data for which is provided), simpli- city of construct-ion (there being less component parts), but the (3avitation coefficient is slightly Card 3/4 increased due to the instability of the rectilinear  SOV/98-59-7-10/22 The Use of Horizontal Variable.-Pitch-Type hydro-EI'lectric 'rurbines vortex formed inside the conical discharge pipe. The article concludes with a brief summing-up of the con- clusions drawn from the experiment and suggests fur- ther intensified research should be carried out on all aspects of this type of turbine,, as proposed by Prof. B.K. Aleksandrov. . There are 2 diagrams, 2 graphs, and 4 references, 2 of which are Soviet, I German and 1 French, Card 4/4  XUZIKICHEV. F.J.; JAVIN. K.I.; KASLENNINOV, S.K., rateenzent; PLNKTAJWIKOV, K.N., tokhnicheekly redaktoi. [Technology of felt maufacturej Tekhnologiia vallallno- voilochnogo proisvodstya, Moskya. Goo. nouchno-takhn. izd-yo.Kinisterstya promyshlonnjrkh tovarov shirokogo potrablenlis SSSR, 19540 270 0 U (Felt) (Shoo IndustrY3. (NLRA 7:12)  MkSLBNIIIKOV, S.N.. vrach !, - Remedy alleviating the condition of cancer victims. Izobr.i ratis. no-7:37 Jl 158. (MIRL 11:9) (CANCER) (nMl)  - NAMMIKOT, T.A. Conditions determining the djapauss.ju the parasitic hymnopterens Apauteles glawratue L. (Hymnopters. Breconld") and Ptsromlua pupar~m L. (ELmmenoptera, Chalcididse-) [with sumimary in Buglimhj. In$. obos. 3?-no. 3:538-545 158. (KIRA 11:10) (Peraeltica) (Insects-Developmut)  MASM111KOV, V. "Computation of the Thermal Process of a Water Conduit ty the Hydraulic Analogy Meth6d." Cand Tech Sci,, Acad Communal Economy imenj K. D. Panfiloys -~.Moscows 1955. (KL No 17 Apr 55) SO: Sun. No. 704, 2 Nov 55 - Survey of Scientific and Technical Dis:-;ertations Defended at USSR Higher Educational Institutions (16).  MASLUMIKOVs V.A. 9 inzh. Increasing the output of PH-32 electric shaft furnaces. Metalloved. i term. obre met* noi4:13-15 AP 161. (NIRA 14:3) (F,lectric furnaces) (Furnaces, Heat-treating)  SU13JECT Ussa/uLTMUTICS/Differential equations CARD 1/1 PG - 152 AUTHOR M"LENHTXQV Vok. TITLE ~U-Ailtative control of a neutral obj*et by an aststic regulator. PERIODICAL Aytomat. Telemech. j-71-107-116 (1956) reviswed 7/1956 The author inventigatea a regulating process which in described by the equations q = a 9 (rogtLlating- 1144) and kR(I(q) (regautor). The aiiLthor shown that for -1 f6r I q qX sigA qtj - -1 (q) -.~ T2 , +-'I Othorwisb I -- every disiurbance during 04o first cisaillation is effaael. zero % im the extremal initial 4pturbanos. The definition sq,40ion for ? oontains misprints.   yachemlay Alsk reandrovioh.; KOTALEV. T99 Fe. otvo red*; KAKUYI$ Toj., tekba. red* [1conmic structure of the Chiname People's Republic] Ikonoinicheskii stroi Kttalskoi farodnoi Respubliki, Moskva, Izd-vo Akad. nouic SSW, 1958. 390 p (MIRA 11:11) (China-Scomomic conditions)  MASLEMIIKOV WMVCY., A.I.4 red.; NOGILSTCHIKO A.Ye.9 red. izd-va; SHIYMIO S.T.9 tekhn. red.; YEMOVA9 Ye.A.0 tekhn. red. [India on.the vay to independent development] Indiia na puti nezavisimogo ra%vitiia. Moskva., Izd-vo Ln-ta mezhdunar3drokh otnoshenii, 1962 194 P. (MIRA 15:7 ?India-Economic conditions)  15-1957-10-13529 Translation from: Referativnyy zhurnal, Geologiya, 1957, Nr 10, pp 7-8 AUTHOR: Maslenikov, V. A. TITLE: The Precambrian Crystalline Rocks of Southwestern Pamir (Dokembriyskaya kristallicheskaya tolshcha yugozapadnogo Pamira) PERIODICAL: Tr. Labor. geologii dokembriya, AN SSSR, 1955, Nr 5, pp 189-254 ABSTRACT: A thick sequence of various gneisses, containing sub- 6rdinate layers of marble and crystalline schists and cut by a variety of intrusions, is divided Into eight series, distinguished by differences in the composition of the gneisses. Series 1 consists chiefly of biotite gneiss, with rare sillimanite-biotite and hornblende- biotibe gneisses and with lenses of marble and amphlbolite (2500 m). Series 2 is formed of biotite, sillimanite- Card 1/4 biotite, kyanite-biotite, and garnet-biotite gneisses.  15-1957-10-13529 The Precambrian Crystalline Rocks of Southwestern Pamir (Cont.) Other rocks present are quartz-biotite-sillimanite schists-- characterized by a complete lact of f eldspar--quartzitic gneis- ses, numerous lenticular masses of amphibolite and, occasionally, marble (1500 m). Series 3 consists of biotite-hornblende and hornblende gneisses, with local layers of marble in the upper part (1000 m). Series 4 contains garnet-biotite and biotite gneisses, with occasional thin layers of marble (800 m). Series 5 is made up of biotite-garnet gneisses, with small lenses of marbl:e (700 m). Series 6 consists of marbles interstratified with biotite-; garrret-biotite, and hornblende-biotite gneisses (500 m). Series 7 is characterized by numerous alternations of bictite, biotite-garnet, biotite-sillimanite, biotite-hornblande. and pyroxene gneisses (2500 m). Series 8 comprises 4 subseries: a) biotits gneiss; b) biotite gneiss with layers of garnet- - biotite, hornblende-blotite, and quartzitic gneisses with layers of marble; and d) biotite gneisses, cataclasites, and wylonites (5000 m). These rocks are permeated with concordant or discor- dant injections, dikes, and bodies of granite and pegmatite. The most widely distributed of the gneisses are the migmatites, Card 2/4  15-1957-10-13529 The Precambrian Crystalline Rocks of Southwestern Pamir (Cont.) encountered in practically all parts of the section. The intru- sive formations, widely distributed in southwestern Pamir, are divided into three complexes. Complex I is a preorogenie body and is subdivided into two groups; 1) amphibolites and gabbro- amphibolites, pyroxenites, and hornblendites; and 2) leucocratic fine-grained gneissic granites (granulites). Complex II is a sTnorogenic intrusion and is also subdivided into two groups: 1 coarse-grained granodiorite augen gneisses; and 2) biotite and two-mica granites and gneissic granites. The intrusions of the first two complexes are distributed only in the gneiss-marUs series and do not crop out beyond the limits of the metamorphic rocks; they are apparently Precambrian. The intrusions of com- plex III are not in contact with crystalline rocks. They are 1) Variscan two-mica and muscovite granites and biotite-granite augen gneisses of the Hushanskiy complex; 2) cimerian gran- itbe and granodiorites, commonly showing gradations to gabbro- diorites; and 3) Alpine porphyritic microcline granites. The problem of the age of the crystalline rocks is rather complex. To solve it the following facts should be kept in mind: 1) the Card 3/4  15-1957-10-13529 The Precambrian Crystalline Rocks of the Southwestern Pamir (Cont.) presence in the crystalline complex of four groups of intru- sions, known to be pre-Cimmerian, which do not transect the surrounding sedimentary beds o.V the lower Paleozoic; 2) the ab- sene- of fossils in the matamorphic rocks; 3) the deep regional metamorphism of the rocks; 4) the distinctive features of the migmatites, similar to those of the migmatites on the Kolskiy -(Kola) Peninsula and in Kareliya; 5) the distinctive mineral group developed in the mineralized marbles (lazurite, phlogopite, and spinel), similar to the Arebean formations of Zabaykallye (Tranabaikal); and 6) the similarity between the composition of the metamorphic rocks and that of the ancient Precambrian com- plex of the western K4n'-Lun'. In view of these facts one can, with assurance, refer the crystalline rocks of southwestern Pamir to the Precambrian, Card 4/4 A. L. Knipper  Mf)~LEMWKWJ V-r9 NMOIAYRV. V.A.; GMWV. V.V., kandidat go ologo-st nor* logichseld kh nauk; SHUMN, K.A., kendidat goologo-mineralogicheektkh muk; SUDOTIZOT. N.G., doktor goologo-mineralogicheskikh. nouk; LASM MIXOT, V.A. kandidat goologo-olneralQgichaskikh nauk; POLUNOV. A.A.. akedemik. glavnyy redaktor; BABIRM. N.L. redektor izdatel'stva; IRTHOCHKINA. K.T.. tekhnicheskiy redaktor [Practical gmide to goolo-pi-cal nopping of metanorphic complexes] Metodichooko4k rukorodstvo po geologicbeekomu kartirovauftu metamorfi- cheskikh kampleksor. ?od red. T.A.Nikolaeva. Noskva. Gos.nauchno- takhn.izd-vo lit-ry po geol. I okhrane nedr. 195?. 450 P. (HLRA 10:9) 1. Akadenlya nauk SSSR. Isboratoriya geologii dokembriya. 2. Chlen- korrespondent Akedemit nauk SSSR (for Nikolayev). 3. Isboratortys sologii dakombriya Akedenii vAuk SSSR (for Nikolayer. Gorlov, Shurkin. I =vikov. Misslennikov. Priyatkino) (Geology--Keps)  WASUMMYt T*A* W.~ ~~, -7li--,:,-!;.,,,- ': 1~ :,i - ~4., , ~7 -,*" ~ 'y ' --- ~pl - ..k*i*" *wO'Caossa oi wamtle dlife"'"tiAtion In titanowguet0a filummllwation. fti4 lRb, cool. 4aboso uoQ'7s23-V 117o (KIRA 1193) I T (vita"O"anatits)    YELISEYEVp Nikolay Aleksandrovichs- GORBUNOV,, Grigorijy Ivanoviohj ULISEM, Erik Nikolay"vichl'. MA-SLENIKOV. V3Adimir Aleksp�pv~ch I UTKIN, Konstantin Nikola:Yevi~i-Tde~e~ased -, ~P~, T.-Z 9 skademik,, Slavnyy red.; YELTSETEV, N.A., otv.red.; DOU4ATOV,, P.S., red.izd-va;.BLZM,, E. Yu... tekhn-red. [Ultrabasic and basic intrusions in Pechenga District; geology and structure, petrography, miner4la and ores, geochemistry of nickel] Ulltraoxnovnyo I oonovnye'intruzii Pechengi; geologiia i struktura petrografiial mineraly-I-xudy, gookhimila nikelia. Moskva, Isd-vo Akad.nauk SSSR. 1961.'357 P. (Akademlia nauk SWR. Laboratoriia geologii dokembriia, Trudy, no.10) 1. Chlen-korrespondent AN ISSSR (for Yeliseyery). (MMA 14:3) (Pechengs. District-Geolo.gy)'.  MIEMOV, V.A.;-BONDARENKO, ~.P.;-D~GELAYSKIY, V.P. Ancient rocks of the Kola Pbninsula. Trudy Lab.geol.dokem. no.12:133-155 161. (MMA 14:11) (Kola Peninsula-Petrology) (Kola Peninsula-Geolgaical time)  DZEVANSKIY, Yu.K.; DODIN, A.L.; KONIKOV, A.Z.; pRASNYY, L.I.; MANIKOVSKIY, V.K.; YOSHKIN, MI.; LTATSKIY, V.B.; NIKOLISKAYAF I.P.; SALOP, L.I.; SALUX, S.A.; RABKIN, M.I.; RAVICH, M.G.; POSPELOV, A.G.; NIKOLAYEV, A.A.; ILIIN, A.V.; BUZIKQV, I.P.;j LI-.N _.,__HT40V, V. A. ; NEYELOV, A.N.; NIKITINA, L.P.; NIKOLAYEV, V.A.taec'e-a~icd]; OBRUCHEV, S.V.; SAVELIYEVI A.A.; SEDOVA, I.S.; SUDOVIKOV, N.G.; KHILITOVA, V.Ya.; NAGIBINA, H.S.; SHEYNHANN, Yu.M.; KUZNETSOV , V.A.; KUZNETSOV, YU.A.;.BORUKAYEV, R.A.; LYAPICHEV,.G.F.; NALIVKIN, D.V., glav. red.; VERESHCHAGIN, V.N., zam.,glav.-red.; 14ENNER, V.V.,,zam. glav. red.; OVECHKIN, N.K., sam. glav. red.[deceased]; SOKOIDV, B.S., 'red.; SHANTSER, Ye.V., red.; MODZALEVSKAYA, Ye.A., red.; CHUGAYEVA, M.N.. red.; GROSSGEYM, V..A., red.; KELLER,B.M., red.; KIPARISC--, L.D., red,~,-KOROBKOV,.M.A., red.; KRASNOVP I.I., red.; KRYMGOLITS, T.Ya., red.; LIBROVICH, L.S., red.; LIKHAREV, B.K., red.; LUPPOV, N.P., red.; NIKIFOROVA., 0.1., red.; POLKAKOV, A.A., red.fdeceased]; RENGARTEN, V.P., red.; STEPANOV, D.L., red.; CHERNYSHEVA, N.Ye.; red.; SHATSKIY, N.S., r-ed.[deceased]; EBERZIN, A.G... red.; SMIRNOVA, Z.A., red.izd-va; GUROVA, O.A., tekhn. red. [Stratigraphy of the U.S.S.R. in fourteen volumes. Lower Pre-Cambrianj Stratigrafiia SSSR v chetyrnadtsati tomakh. LILV-iy po pelogii, i nedra - ft. L   MASLEMKOVI, V.D; TSUKUOHTEPP O.Ye. k is and abaolu~e monocytosis fonowing Valchanlo cup .endothelial test. lab,-' delo 7 no.3:22-25 Mr 'f61. (MIRA 1493) ~(LEUCOCYTOSIS) (MMUMATIC MER)  M APS009550 layer. k schematic diagram of the setup (see Fig. 1 of the Enclo- sure) and a description of the experimental procedure are Pi-er%. of the flow over bodies of various hemispherical shapes and at v- r5r.,ug velocities from 500 tr 2000 m/sec are presented. a! data, with y - 1.4 . are compared with the results of ~.jl measureoents of the. stand-off distonce in aIr from a ~e-I.'_r,,0'i!-iciiT model 15 mm in diameteT, at initial pressures of QM Ais drAd L atm, at velocities of H - I to 7. and 4"  5:~r-d7wjc:~- 7~f~--t-- 7 - - - -  - L 21800-66  , -- j i  KASIRNNIKOV, Y.N. LMachine-tractor stations on virgin land; practices of the Novo-Tagorkyevskoys Nachine-tractor Station in Altai Territory] NTS us teeline; Is opyta raboty Novo-Bgorlevokol NTS Altalskogo kraia. Moskva, Gos.ixd-vo sel'khos.lit-ry, 1957. 85 P. (KL2A 11:1) (Altai Territory--Machine-tractor stations)   MALIBOVSKIY, B.N.; GLUSHKOV, T.H., akadenik, retsenzent; MASLENNI V,t inzh,, red.; STROGONOV, L.P.# red. . - 1.0vo .0 Ivt.Fl 'Tza-va; -vautUVA, tekhn. red. (Digital control machinery and-automation of production processes) TSifrovye upravliaiushchie mashirq i avtoma- tizataiia proizvodstva. 14ockval lftsbgiz 1963. 287 p. tFURA 170) 1. Akademiya nauk Ukr.SSR (for Glushkov).  11 DANOVt G. A.; ff"LENIQ. V. H, 2. USM (600) 4, Gottm -.Diseases and Pests 7. Problem of the falling ovaries on cotton in connection with the sprinkling irrigation. DOkl. Ak. sellkhoz. 17 no.r 9, 1952 9. Monthly List of Russian Acces Library of Congress, Jauar I $ions -Y 953. Unclassified.  USSR / Farm Animals, Cattle Abs Jour: Ref Zhur-Biol, No 2, 1958, 7133 Author Inst Moscow Veterinary Academy Title The Organization of the Breeding of Pedigreed Large Horned Cattle of the Kostroma Breed in Tenant Farms of Plemsovkhozes "Karavayevo," Plemsovkhozes "Luzhki," and "Zarya." Orig Pub: Tr. Mosk. vet. akad. 1957, 19, No 1, 99-111 Abstract: No abstract. Q-2 Card 1/1  PLO mmovs V.11., Cand Agr Oci - (diss) Bee"-, based of Ko.9tromkot cattle in the breedi ig f vrn. a WLuzhV and m0$, 195"-,.s 1959,9 (Hos Vet Azad of Min of Agr RSFSR) 140 copies (KL,, 34-59s 115)  w MASWIXOT. Y.N., gornyy inshener. Relation of Us mehanical properties of rocks to the size wA shape of specivans ted.-Ger.shur.ne.12:14-17 D 156. (MM 10:1) ;eks-lusting)  MASLEN,NIKOV, V. N. "The. Transition from Underground to Open-Pit Mining is the Best Way to Eliminate the 1. Danger of Underground Pyrite 7irse at,the Blyavia MineN Tsvet. Met. 14, No. 9, September -1939- .Report U-1506, 4 Oct. 1951 1  MASLENNIKO V. V.N. 4utomobile windshield washers designed by the Scientific Research Experimental institute for Automobile and tractor Electrical EqUIPW ment and Devices. Avt.prom. no.9:42-44 S 161. (MIRA 14:9) 1. Nauchno-issledovatellskiy eksperimental*nyy institut avto- traktornogo elektrooborudovaniya 1 priborov. (Automobiles--Windows and windshields)  8 5626 81121,1601000102010181019 10-5510 A0051AO01 Translation from: Referativnyy zhurnal, Mashinostroyeniye, 1960, No. 20, p. 476, # 113259 AUTHORS- Chupilko, G. Ye., Kokonin S. S Reut A V., Maslennikov, V. P ===ZU_ . I I . TITLE: Automatical Braking the Aircraft at Landing Run PERIODICAL- V sb.. Povysheniye effektivnosti tormozn. ustroystv. Svoystva frik+.s. materialov. Moscow, AN SSSR, 1959, pp. 26-45 Pulse systems are described of a7L14* omatical braking of remote action with an electrochemical inertia transmitter of pulses. The diagram of the system and the graphic characteristics of its operation. are presented. The criteria of the effectiveness of the system are described; the 1- and 2-signal systems of automatical braking are compared, and the working principle is described. The diagram of the hydraulic system of automatic braking ?f a heavy aircraft is pre- sented. New diagrams of the automatic braking system~'and their units are describeJ, among them the automatic braking system with program control of the braking moment, their advantages and imperfections are pointed out. Diagrams and graphs are given. I A. L. V. Translator's note: This is the full translation of the original Russian abstract. Card 1/1 ~jx  KIMS, -B.N., inzh.;. Universal electronic.block for automatic stopping of-knitting machime. Mekh.i avtom,proizv, 15 no,11:49 N 161. (MM 14811) machines) (Electronic control)'   YASLENANIKOVs, V. V. . . . Haslennikov, V. V. - "The absorption of ultm-ohort electro-magnetic waves by water 6,1--j-40-lytes'O , Doklady (Hook. a.-kh. akad. in. Timiryaseva), Issue 8. 1948t (In indexi 1949),, p. 101-10. SO.* U-411, 17 July 53, (letopis tZhurnal "nykh Statey, No. 20', 1949).  - - MIKASLE, 1-7NINCO-1,T3 1'. V. 5 ed. - Economy of materials resources in the S. Ordzhonikidze Urals Heavy Machinery Construction Plant; collection of articles. Moskva. Redaktsionno-izdatellskii I. sektor Gossnaba SSSR. 1952. 120 p. (.55-23281) W86. u7i43 1. UralIskd-- riashinostroitellnyi zavod., Sverdlovsk.  it -5 - - - --, . z~ ~ . Z ,V -- '7. GRABLIN, Ye.A.;. MASLMNZ,,kk- Oil- and gas-bearivg prospects of-Devonian deposits in the zone of the Don-Madveditsa dislocations. Geol. neftl I no.1:20-24 Js, '57. - (ML 10i8l (Stalingrad Provinee-4oole". Structural)  lion of the northwestern part of the Caspian Sea region and oil and gas potentials. Goolnefti 2 no*9:44-52 S 158. (KIRA 11:10) l.Trest "Stalingradnef tegurasvedia.0 (Caspian Sea region-Geoloff, Structural)  bUSUMKOV. YG.A.; MMRASOV,, A.H.; FUSTOVOYTP YU,M, Gelieration and maintenance of pressures below 1*10-8 tor, in large metal vessels. Prib. i takhI. eksp. 8 no.5zl48-156 s-o v63. (MM 16s12)  X= FW_~_t_.J j/FW1(M~/FV4P(t)_/FV:A(hJ T.TPCrj .1Q1W.V1rr;_ ACC NRs APGOG7081 UJV0657146/036/002/03I 323 610 1 AUMOR: ~Sutwuzavgsise; KonyaysvV,.~. Pustav t Yu x OF40: None vacuta I th Ogra-2, ins on TITLS: Achlevement.,of "ultrahlih a a tellatLon SQI=,. 11h ::tekhnIchesk0r:gIx1kL p v~. 36 no* 2, 1966, 316-323 TiDkC. T 1. ultikh~~ v&CUUMi -ligh vacuum technique vacuum chamber, _tItindun ,sorption _t1c, C.-Mague Irrormachine'. 77 7-1, .!'tb* Ve are- discuss ems encountered In jiil~mcrr', in iperrtheiei ed in: deta1ZL probl attempting to,'acbieve Atrah-Igh" 4664ii~ h Cgra-1 makn6tic mirror--system. -: When ~the machine. W"' constructed, In 2959 the system consisted of four banks of-mercury va-por: pumps with - a. bumping rate-of 2500 liter/sec and.a limiting vacuum of 3 X. 1g-7 I= Ug and'..type -26-5,10asorption pumps with a pumping rate.:of 7000 liter/sec. ]ca AIN addition '~:~_tftU~Iun was depoultedAlrectly an the wall of the chamber at the rate of 0*5 glain'l rom- e'g~dh.o-f;--tlttee,,i3irapor~tors. Only three-quarters of the Inner surface of the chamber could - be h6ktid td 4000C. for OutgassInge Under. these-, conditions a vacuum better thkn~ 3 'neverachleved. In.1960.there were introd x,,..10 ipin ffg was uced four liquid altrolmen-, cooled titanium sorption pumps. These consisted.of hollow copper cyl- inders.wlth~a:total-area.of ahcktt_ 20 nX cooled by liquid nitrogen.flowingIn copper tubes-soldered to -,the outer - wallsi an the Inmer surfaces., of which titanium was deposit- UDC; 53399 F   HASLEVNIKOV, Ye.D. Ice flow has passed. Avt.dor. 25 no.4:11 Ap 162. (MIM 15:5) (Ice on rivers, lakes, etc.) 'i  KARA IK. K-ye-, MASLUNIKOV. Ye. F.1, nachalinik stroitellatm, Instaning bridge docking made of large-sized reinforced concrete blocks. Transp. stroi. 5 no. 10.'7-9 D 155. (PTM-A 9..3) 1. lachallnik DvApropetravskoy normattyno-imaledavatel'skoy stantall Orgtranustrara (for Karusik). (Bridges, concrete) m  RUBM', Raise Borisovna; KASLENIIIKOV, Tevgeniy Polikarpovich; KATKOVA, N.. red.; SAKUTNI.-Tu-.-.-Ift-ddtft7=t-akEE.-r-e-&.-- [Through the Central Urals] Po arednemn Uralu. Sverdlovsk, Swerdlovskoe knizhnoe izd-vo, 1959. 236 p. (MIU 13:3) (Ural Kountain region-Description and travel)