SCIENTIFIC ABSTRACT STEPANOV, YE. - STEPANOV, YU.A.

,G T E -PA Alo V, ~c. STWANOV. Ye., geroy Sovetskogo Soyusa, rukovoditall sovetakoy komudy sportsmenov- "'"OrInffe"Istov. Victory of Soviet parachutists. Kryl.rod. 4 no.10:10-12 0 153. MU 6:10) (Awachutes)  T'e P/f/y go Y; lrf, S ab USSR/Aeronautics -ub 4 .. - 4/'-, 6 -d 1 58 A ID P - 773 Authc-r Stepani7,1!, Ye., Hero :)f th- S,.,,,-let inion, Captain of --T.Tre-5 "MitY-1*6 a m T -I. t, 1 e V1cy;ory of S,-)viet Far.Ei--'-hu!.18~3 Periodical Kt-yl, Rod. 10, 6-9, () 119521 Abe t ra o t A detailed report of the Second lnt4~,-rnational Parac-hute Championship, which took plane In Fran~.,.e in August 1954., and where the Soviet team cT 12 parhchutists won first place. Data on ell achievements are given. Names cf Soviet competitor2 are mentioned. Photos. Institution None Siibmitt-ed No date  AID P - 5287 Subject USSR/Aeronautic3 - Parachutiam Card 1/1 Pub. 58 - 5/11 Author Stepanov,, Ye., Hero of the Soviet Union, Chief Arbiter at the First7RSFSR Competitions in Parachute Sports. Title Competitions In parachute sports of the members of the aeroclubs of the RSFSR. Periodical Kryl. rod., 9, 11-12, S 1956 Abstract A technical account of the First RSFSR Competitions In parachute sports, held at Tushino In August 1956. The use by the competitors of new types of alit parachutes, altimeters and radio receivers-transmitters is noted. Suggestions are made as to the improvements in the methods of selecting by aeroclube, and of training of future competitors. 2 photos. Institution : None Submitted : No date  A ID P - 5516 . Kryl. rod., 2, 13-15, F 1957 Card 2/2 Pub. 58 - 7/17 Institution : None Submitted : No date  STKPANOV, Ye.. Geroy Sovetskogo Soyu2m. For the Adriatic Cup. Kryl.rod.8 no.11:3-5 N '57. (MIRA 10:12) 1. Rukovoditell komandly Sovetskikh sportsmenov-parsishynt let ov nn Mozhdunarodnykh sorevnovanoyakh parashyutintov v Yugoolavil. (Parachutists--Competition~)  ju -Ig~! T-EXPD:~-,, PO": X"; lue Orts -pi 1 G we"' I mm ladov, h. Ylas1ov limo3cow)-; -0-11yanovEitz Obiest, 'a r FO a e-.-,~ c .1di AJ. !?Ce K. Poll ~-i;2-vincv; Ir I.- . . .1 p ,.O:Lil Noyanko -ItN. Op I - 31 0 7--eorov p 3. -1 -Ire. o-~ 'hp e-a Cp-rd :L/j--  All-Union Contests of Sportsmen-Pilots 85-57-12-14/29 Institute of Mathematics, USSR Academy of Sciances; N. Shantayev,, chief of the flying competition; sportsmen K. Antiptsev (Stalin- grad). There are 21 photographs on 4 pages of inserts, showing pilots-sportsmen Maslov, Zhelnov., Maksimov, Yudln, NoyeAko., Anfilatov, Sizykh, Balashov, Smirnovt Fedorov, Grachevo Zinevich, and Kovalevskaya. AVAILABLE: Library of Congress Card 2/2 1. Parachute jumping 2. Model airplanes-Building  STEPANOV. Ye., goroy Sovetskogo Soyuza What the championship at Bratislava taught us. Kryl.rod. 9 no.12:.* 11-13 D 158- (MnA 11 :2r IV airoyoz 1. Rukovoditell komandy sovetskikh parashyutintov na chempionate. (Parachnting)  6TZPANOV, Ye., Geroy Sovetskogo Soyusa .Be prepared for the starting line, flying enthusiasts* Krylarode 10 no-3:5-6 Mr '59o (NIRA 12:4) (Aeronautics)  -.- - Athletes, get_set! gryl.rod. 11 no.4:25 Ap 160. (KIRA 13:6) 1. Predsedatell Soveta TSentrallnogo aviatsionnogo kluba SSSR im. T.P.Ghkalova. (Aeronaut ice )  STIFAMV, Ye. U.S.S.R.--France--Czechoolovakia. Kr7l.rod. 11 no.8:12-13 Ag ,6o. (KM 1318) 1. Zamestitell nachallnika TSentrallnogo aerokluba SSSR. (AerOnaUtiGS)  STEPAITOVO YOO 4. --mmommomm Helicopters are in the sky. Kryl.rod. 11 no.11:12-13 N 160o (MIRA 13:10) 091.1copters)  "STEPANOV21 . A. 'Investigation of the Length ci the Base and the Position of the Working Parts of Leveling Machinery." Min Agriculture USSR. All-Union Sci Res Inst of Hydraulic Engineering and Soil Improvement. Yoscow, 1956. (Dissertation for the Degree of Candidate in TECMICAL Sciences) So: Knizhnava Letopis', No. 17, 1956  STEPANOV, Yg~.A, Materials on the ecology and practical importance of the rooe-colored starling in Karaganda Province. Ornitologiia no.3:292-297 160 (MIFLA 14: 6) (Karaganda Province-Starlinp) (Locusts-Biological control)  STEPANOV. Ye,A, ",ftimulation of plants. Fiziol. rest. 7 no.21-237-239 160. (MIRA 14:5) (Growth promoting substances) ii I V  SHI'KKOV, A. P. , karid . tektn. nxink; Klj~' Mdfi, G.P, - STEFANO) Ye. A.; TADER, V.A, Industrial testing of the alx~cmat,',~~ drive of a coal saw. 11goll 40 no.1:40,-48 Ja 165. WT IRA 18:4) 1. Kuznetskiy nauchno.-Jssiedavatt,11skly ugollnyy institut (for Shirokov, Stepanov, Lider,,. 2. Trest Kiselevskugoll (for Kuzlmin).  I STEPANOV, Ye.lF.J. kand. sellskokhoz. nauk- !it crop rotations in good order. Zemledelie 27 no,10: 8-15 0 165. (YlRA 18:10) 1. Nauchno-issledovatellskiy Institut sellskogo khozyaystva ts(!ntrallnykh Nechernozemnoy zony.  '5 'r c-: PW /V' C) Y, Y'C. (--7 1. NAZAROVA, T. N.; STEPIMV, YE, G.; TSYPKINA, YE. D. 2. USSR (600) 4. Cranks and Crankshafts 7. Experience with reinforcing tractor-engine crankshafts by rolling the fillets. Avt. trakt. prom. no.9, 1952 9. Nonthly List of Russian Accessions, Library of Congress, Januery -1953. Unclassified.  ,I . .; - ~ .. , I , . ".; 6v ~, - "", -1 ~. - - - .7 ~ ~, "', :-' -L, - :,~ t, , . I.. . I - P. 1; f o " " !'7- t , , , , - 1 - . - n., ?r. I F , r -,. . -, - I I . - ": , - 1 1 ~:'. ".: . , , : ~ - .; - 1 1- ~ . . I . - (D -~,- :,! -' ~ -'; -~': -,'s )  FOMINI, A.A.;STBPANOV, Ye.G.;SVIKTKOVSKIY. A.R. Modification of SNO diesel engines for tractors. Trakt. I sallkhozmeh. no.11:6-9 N 139. (MIRA 13:3) 1. Mauchno-isaltdovatellakly avtotraktornyy inatitut. (Diesel engines)  ST6FANOV, E.I. Ob integrirovanii unravnenii laminarnogo pogranichnogo sloia dlia dvizhenila s osevoi simetrieio (Prikladnaia matematika i mekhanika, 190, v. 11, no.1, p.203-20h) Summary in French. Title tr.: Integration of equations of a laminar boundary layer for movement with axial symnetry. QA8ol.P7 1947 SO: Aeronautical S-ziences and Aviation in the Soviet Union, Library of 6ongress, 1955  STEPANOV, Ye. 1. St,cWnovv Ye. I. - "On the rroblem of the approx1vxte integration of difforential equations of a laminar toundary layer", Trudy Novocher)ms. politekhn. In-ta im ordzhonikidze, Vol. YXI, 1949, P. 4?-60, -Bibliog: 11 items. SO: U-4631, 16 Sept. 53, (Letopia 'Zhurnal Inykh Statey, No. 24, 1949).  STEPANOV, Ye. I. Stepanov, Ye. I. - "On the problem of streamlining bodies npproximting a cylinder and a spherelt, Trudy Navocherkas. politekhn. In-ta im. ordzhonikidzey Vol. XYI,, 1949, p. 61-67. SO: U-4631, 16 Sept. 53, (letopis Inykh Statey, No. 24, 1949).  STEMNOV, Ye. 1. Stepanov, Ye. I. - "On the F,4r.4mal properties of certain linear functions", Trudy Novocherkas. politekhn..in-ta im. ordzhonlk'.dze, Vol. XXT, 1949, p. 125-20'. SO: U-4631P 16 Sept. 53, (Letor.-Is 'Zhurnal Inykh Statey, No. 4,10,49).  - - , " r A ")." ,, , 1, ~j ~; - I St. p ~. ) - , 1. - "Oil f'w" ~ 1- !~ ~~ ~ ci, I :ul 1i 1 ~~ - L., . ~-- -t!n I i e. ~ 'i", . 1.1, 1.9 ), I - " I, , Ir-lfl- in-t,L il". 4 L 4-, T~. I - -,If - 5 itf!';;!;- SO: 16 stmt. 'j)3, (Iet,),Ai 1nricri St,;Ani, lit). 24, 1Q49).  Stepanov, E. 1. Stir la r7int!,,ri lewe 1e -s dans T41-ux. Appl jN1 (h \1~cfl Akad. Natik Priki Mat 10. fi7.; 0;.5 (1940). (14 11S11.111. Few h ,miumm ;11-111 It. vm cilfrc 1, prohl~nlc jilcrill,100, 11,111s Ic Itur L 'fu moll"k"Im'm di. tr,11141- tion Wvm sofirlettv revolotlim It ;%flleuio (hn-i uyi li(Ittidu pliif.,tt ~14111m(Ify f I VA !"'I'l  30M2 S/148/61/000/009/011/012 EM/E135 AUTHORS: Glinkov, M,A., and Stepanov, Ye.M. TITLE: Thermal ionization in a flame and intensification of combustion by applying an electric field PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy, Chernaya metallurgiya, no.9, 1961, 143-152. TEXT: Stable combustion, with branching of chains, begins after the production of a definite concentration of free radicals and ionized particles. The initial energy impulse (whose magnitude depends on the energy barrier of the fuel molecules) leads to ionization and free-radical formation and the branching- chain combustion reaction, In the present work the authors report and discuss their experiments on combustion from the ionization aspect. The main part of the experiments was on pre- mixed air/gas mixtures with an excess-air coefficient of unity, CAbstractor's note: I think this means with the stoichiometric proportion of air for complete combustion,] with gas flows of 0.24, 0.52 and 0.72 nm3/hour and a burner bore of 15 MM. At all the gas flows the ratio of visible-flame length to length of inner Card 1/4  30882 Thermal ionization in a flame ... s/i48/61/000/009/011/012 Elll/E135 cone was equal to 2.2. To prevent detachment of the flame a little gas was added through an annular gap near the burner mouth. The ionization characteristics were measured every 10 mm along the flame, at -4-6 radial points at each level. Measurements were also made when the gas/air mixture had not been pre-mixed, additional investigation then being made of the effect of preheating of the gas (to 200, 400, 600 and 750 00 on ionization and temperature in the flame. Ionization was found by measuring flame conductivity using two 2-mm diameter diametrically opposed stainless-steel probes insulated in quartz tubes. The amplified current was measured with a micro--ammeter; the ionic concentration was not calculated. Temperature was measured with a platinum platinum- rhodium thermocouple. The ionization maxima were found to be close to the temperature maxima. From the observed changes of ionization and temperature up the flame it is concluded that in the initial part of the flame rapid ionization is produced due to rapid temperature rise, here there are considerably more ionized than reacting molecules. After reaching a maximum, ionization falls rapidly, while temperature continu- - es to rise until heat Card 2/4  30882 :Lc-n.'.-.az_Lon --n a flame s/i48/6i/ooo/ooq/oli/oi2 EIII/E135 to thp surroundings leads to a slow fall. lit this region tcns -,7e consumed only for maintaining temperature; the nimbr!~- ~,f Boris ;.s 1-im-ited by the arrival of fresh fuel molecules. e -%-t-sti3 -ionizat ion plots show hysteresis loops whose area.4 rcp--esr!it' the amount of heat released in the combustion of a g~-.,r-n q1'ant-4ty of fuel lons. Since the calorific value of the gas -,,~-tk;ally constant, the ratio of gas flows shown the relative _xicreasp !-n heat evolution at different flows: the ration agree 4a~,.-Iy ~~Iost-ly wLth the -ratio of the corresponding hysteresis-loop Withuut pre-mix'_ng but. with preheating the ionization MIX:-MUM r:_-es g-radually with fuel flow V according to bV I's the -initial ion2.zation of molecules, depending on prc-hna- temperature or other form of ionizing energy, and also on I he fue ~' .bdep-3nda on the Piel (0.31 and 0.58 for the fuel used ana pieI-_ea*.,, of sunder and over 700 CC, respectively). Combustion ,an bc inteni.-fied by moving the ionization maximum towards the r ~- o 43f the flame by applying any form of energy at the root. Th:~3 wa~ c~bseried in experiments in which the heating rates of  30882 The:rmal -onization in a flame ... S/148/61/000/009/011/012 ElII/EI35 meta-' obja~ts with the same heating area were determined at in the flame with and without the application of an !'.e'j 1~kbs~ra,~.torls note: no information on the rij a gn u J t- ~ fthe I.. field v:!- Its application is given3 .Although vrh~)~e '*1am,) -,ii affer-ted by the field, the effect is not ho-au3e temperature is not uniform. The effect of the !--tAd -~Yv-:-?a-9P9 w,~th xncreas.-ng fuel flow. Heat transfer from the flame.- .c.- i hpat--flow mate.- was also in-sreased (by a maximum of 0% Th,~ 1-?eating ratE of a It-ad bath was increased 20-25% by ,Ft, 'k4he gas flow in this experiment was r. '1 z)Mt./i-l 0 The f--eld is not to be regarded as an 7f ~nervv but as a means of concentrating the c:n L-mbus-'-:.on of the fu'~.'O T 5 Mrik~,-,ak--v insr--tut etal-; (MoscowSteel Institute) 28 1. 9 6  ~] -I - 'ZO 'j_~AT.O~r . I IUI V, 1- !'1. (Lab. on BiologiCVll v"ethOd, Batuli) "Getamethyl and Enemies of the Red Citrus vJte" (Oktametil i vragi krasnogo tsitrusovogo kleshchika) Chemistry and Uces; of OrGa-iopho:-phorous Ccr--,poundc (Khimiya i primeneniye Trudy of First CorLfcrenc(,, f~-10 Dect-Tibcr 115,55, Kazan, pp. Published by Kazan Af fil. A;*, USS11, i95-~ 3  USSR/General and Specialized Zoology - Insects. Abs Jour Rof Zhur - Biol., No 8, 1958, 35243 Author Stepanov, ~.M, Inst ------------- Title Octanothyl and the Poes of the Red Citrus Mite. Orig Pub : Khimiya i prineneniye fosphrorgan. soyedineniyo Me, All SSSR, 1957, 518-523- Abstract : Plants treated with octamothyl were completely rid of the red citrus mites in 5-7 days and were not infested by them for the next three mon-Uis. Octamethyl on contact had no effect on miter, or their eneniess Their enemies feeding on poisoned mites did not perishp probably because their digestion was extraintestinal. Thin ducts ending with apertures passed throuph the mandibles of the stetorus, oligoehacte, chrysope: and convention larvae,, It was clearly seen that piercing the mite with its mandibles -the sardtransparent larvae of the oligochaets sucked in Card 1/2  1 _AIIOVj e 11-1 - DUVANIC, KOV, B.; YEGOROV, A.,-_�T~P 0 _I Oldest entomologist in Kazakhstan. Zashch. rast. ot vred. i bol. 6 no.3:58 Mr 161. (MA 15:6) (Kozhevnikov, Aleksandr Fedorovich, l8c)Ij?)-)  -SITEPANOV, YO.M. Parasite of the citrus whitefly. Zashch. rast. ot vred. i bol. 8 no.6t2O-23 Js 163. (MIRA 16s8) 1. Gruzinskaya biologicheskaya laboratoriya, Batumi. (Aftharistan-Citnis fruits-4epeasee and pests) (Adzharititan-Wh3tefliee-Biological control)  YEII-MKO, G.M., inzh.p* STEPAI,Oli, OV 1 FILMLIAICV, Yu.F.p kand. teklu, ' naA .. ~j I J." .~ -,~ : 'I - ~,T", n. M. irzho kand. Lekku,. najkp ret-,enzenL; red. [Industrial furnaces] Promyshlermye pechi.(,I..O--kvap I-la- shinostroenie, 1964. 359 P. .~LtA 18:1)  g 6* lacresdu tength and Workability d Cwt Ouvacts A o4trotwic iinskil aild V, ter' poor crinding chzLrnc c5 .1 q TM., =7 Xy!- warnets can be improved -M- by alldy-inftbem both. The original compressive strength of the alloy, 64-: 10.1 kg.lsq, vim., was incmi.-vi to 171-170 by 0.055% S. te '7 o, 194-HY7 by 0.2% Ti, 6nd to "05-210 by 0.05 S and 0.2 Ti.' y samples to the final shape broke all of Grindin unallo ed . them, wule the alloyed ones did not break. D. Gat-, IAT  -')Tff-PAN0\/, YC', IN- Subject USSR/Aeronautics - bibliography Card 1/1 Pub. 135 - 18/23 AID P - 4583 Author Stepanov, Ye. N., Col., Hero of the Soviet Union Title Story about a remarkable pilot Periodical Vest. vozd. flota, 2, 84-86, F 1956 Abstract Critical review of the book: Letchik Serov(Pilot Serov) by Chalaya, Z., Moskva, 1955, 216 Pajes. Institution None Submitted No date  SUWANOV, YO.N., P+kovnik, Geroy Sovetsicogo Soyusa;KUIWAVTSRV, S.S., ------imWor-.sud'yra respublikauskoy kategorii Striving for)new flying records. Yest.Vozd.Fl. so-9:78-81 3160o 1. Vltse-pr4!zident Keshdunarodnoy aviatelannoy federsitell (for Stepani.v). (Aeronautics)  BABIN, Boris Nikolayevich; SMWANOV, Ye.P., red.; KUMOVA, X.I., tekhn.red. (From the history of the collectivization of fishing farms In Astrakhan Province] 1z istorii kollaktivisetaii rybolovetakikh khozisistv Astrakhonskogo kraia. Astrakhant, Izd-vo gesety OVolge.4 1958. 75 P. (NMA 13 :3) (Astrakhan Provinoe--risheries--Economic aspects) (Collective farms)  I. 165~r-2-62r 1-;-4T(1)/EEG(t) Peb ESD(t)/ESD(gs)/AEDC(a)/SSD/AFWI,/A.~,(mp)-2/ W(c) ACCESSION NR: Ap4o44667 5/0120/64/000/004/0043/0049 AUTHOR: Aleshin, K. P.; Lukashevichj I. I.; S&MOYAOV B. X.-9 SklyarevsKi~'-Y-, ePi-no---Y-e-.--P-. -F-1-1-ipy Ly. V. St- TITLE: System for investigating the Mossbauer effect ~1 SOURCE: Pribory* i tekhnika eksperimenta, no. 4, 1964, 43-49 TOPIC TAGS: Mossbauer effect, Mossbauer effect investigation, vi- brator, aerodynamic vibrator, Mossbauer spectrum, gamma ray, gamma ray source ABSTRACT: The proposed system, in which motion is produced by a special electrodynamic vibrator at a constant velocity of up to 8 cm/sec, was designed for investigating the.Mossbauer effect. The low amplitude of source motion (1-2 mm) makes it possible to conduct both the absorption and the dispersion measurements of the Mon6bauer spectra. The electrodynamic vibrator, which is described in detail, provides for a constant velocity within :L 1%. The vibrator makes it possible to conduct measurements at frequencies of up to 20 cps. The maximum velocity of 8 cm/sec is achieved at 16 cps. The electronic part of the system provides for registration by means of a Nal (TI) crystal and a photomultiplier of Y-quanta passing through a resonant absorber. From the photomultiplier the pulses are applied to a singlt- channel analyzer whose window is directed toward the photopeak of the Card 1/2  L 16552-65 ACCESSION NR: Ap4o44667 ~Y-rays investigated. The equipment is designed so as to make it possible to change the measurement time easily and to pass from one operating frequency to another. The resolution time of the registra- tion channel is 1- 1 usec. The characteristics and velocity ct.libra- tion of the system were studied by measuring the absorption si,ectrum of FeS7 Y-rays with an energy of 14.4 kev. The source was C0.7, and the absorber was FW 03, Measurements of the line drift have shown that after heating the system for 2 hr, the drift In velocity does not exceed *- 0.5% for 8 hr of operation. Orig. art. has: 6 figures. ASSOCIATION: none SUBMITTED: 23Jul63 ENrA: 00 SUB CODE: RK, EC, N? NO REF SOV: 003 OTfiEIR: 003 Card 2/2  I t, I AUTHOR SKLYAREVSkir'v 'V., 5?nNKO, D.E., STEPANOV,E.P. PA - 2669 TITLE Investigation f U2 Fix __F_ 0 sion norgy Range up to 256 koV 235 (Izluchoniy* y-luchoy doloniya U v oblasti energiy do 25o k*V- Russian) PERIODICAL Zhurmal Zkoperim. i Tooret. Fiziki,1957, V01,32, No.2, pp 256-262 U.S.S.R. Received 511957 Reviewed 6/1957 ABSTRACT The process described in the paper under review uses the method of geometrical fission, in which the y-rays that are emitted from the fission product are measured sepatately. With the aid of this method it was possible to determine that the main part of the y- rays(at fissions in the energy, range up to 25o keV) is emitted by the fission products. The experimental arrangement is domo!ptra- ted in a sketch. An ionization chamber with a layer of U235 was placed into a bundle of thermal neutrons of a reactor. The 6poc- trum of the y-rays was measured by moans of a scintillation spec- trometer with NaJ(T1) crystal. The results and their discussions Several diagram show the spoc- tra of the true and of the accidental coincidences. The peaks of these spectra are probably caused by secondary effects. The peak at 6o koV is created by nonelastic scattering of the fission ne- utron by the iodine nuclei in the NaJ(TI) crystals. The peak at 75 keV characterizes the Roentgen-X-radiation of lead which is cau- Card 1/2 sod in the protective layer (surrounding the crystal) by y-rays  Investigation of U 235 Fission y-Hays in the Energy PA - 2669 Range up to 25o keV. and fission neutrons. The spectra were recorded in different po- sitiow of the crystal and they have almost identical shapes but different intensities. The spectrum of th* y-rays which ars, crea- ted at fission in the energy range from loo to 25o keV consists of many lines. Thiess lines correspond to the y-rays which are emitted by different fission products in excited states. These states are created after the omission of neutrons and hard y-rays by the fis- sion fragmosts. The life span of thoso states (~lo_9sec) obvious- ly indicates a dipole-like character of the transitions. To tho quadrupolo transition with the life span of lo~9 sec there corre- spo du a quadrupole moment of the sucl*us of-2-5-lo-84 cm 8. na 6 reproductions and 1 chart ASSOCIATION Institute of Atomic Esergy, Academy of Sciences of the USSR. PRESENTED BY SUBMITTED 24.9-1956 AVAILABLE Library of Congress Card 2/2  AIITHORSt Sklyarevokly,V.V., SteWovje.P., OblayakovoB.A. 89-1-4/29 Tr=: The Measuring of Gaxwa Quanta Produced by the Capture of Thenal Neutrons in Some Rare Earth Nuolei 08820dovaniYe r-lucheyt Tax- nikayushchikh pri z&Mvate teplovykh. ne~tronov yadrbmi nekotarykh reakoxemell nykh elementov) PUIMICAU Atemmiya Energlya, 1958, Vol. 4, Nr i, pp, 22-25 (USSR) ABSTRACTs By means of a scintillation speotromieter the energies of the f' qwwtae their intensities, and the coaversion cooffloients were measurid an followls r radiating Z r in intensity (amber =1t' Ole P ck K o" L nuole" Kev of quanta per neu- order tron capture Er'68 82 0.18 E 2 1.6 2A 185 0.64 Z 2 0.20 0.084 .qfl 78 92 0.19 1 2 1.0 Ie7 213 0.55 Z 2 0.13 0.07 158 Ga 79 0.104 2 2 2.0 2.05 Card IA 183 0o22 E 2 0.22 0.09  The Measuring of Game, Quanta Produced by the Capture of Themal Neutrons in Sme Rare Barth Nuclei SMITTED: AVAILOLIs GdI56 87 Dyl 65 196 76 104 180 RU152 72 168 HO 90 121 182 Ta 142 107 133 170 272 TuI70 150 There are 5 figures, I August 8, 1957 LibmT7 of Congress 89-1-2/29 0-137 E 2 1-37 1025 0.277 3 2 0 17 0,054 0.028 M 1 4:1 0.68 0.018 E 3 3.4 22.6 0.16 E 2 0.22 001 0-044 0.20 0.20 0-31 M52 0-30 Oe22 0-7 0-073 table, and 12 references, 6 of which are Slavic. Cald 212  SOV/89-5-4-8/24 A ir~ 11".) PS: 3kiyarevskiy, V. V., Stepanov, Ye. P., Obinyakov, B. A. Tl~%E: The Spectrum of Softlt-Rays Produced at the Capture of Thermal Neutrons of the Nuclei Cu 63 , Cu 65 , Ag 107 , Ag log , and In115 (Spektry myagkikh T-luchey,.voznikayushchikh pri zakhvate 63 65 107, lcli _r115 teplovykh neytronov yadrami Cu , Cu , Ag Ag 'ERIODICAL: Atomnaya energiya, 1958, Vol 5, Nr 4, pp 454-456 r-rays spectrometer with a NaJ(TI)-crystal. The experimental arrange- ment and the measuring method are precisely described (Ref 1). The following-t-quanta were measureds r-emitting E in keV Intensity (Number of the isotope It quanta per captured neutron) Cu 64 155 1 5 0,23 + 0,04 205 1 10 0,05 + 0,02 276 + 10 0,25 + 0,05 The soft were measured by means of a scintillation Card 1/x  SOV/89-5-4-8/24 The Spectrum of Softt,-Rays Produced at the Capture of Thermal Neutrons of 63 65 107 log 115 the Nuclei Cu , Cu. Ag Ag , and In CU66. 92 + 5 0,13 + 0903 180 Z 10 0,34 + 0,10 Ag 108 82 + 2 0,20 + 0,04 117 2 0,11 + 0,02 199 3 o,34 7 0.06 Ag 110 78 + 3 0,09 1 0,03 116 + 2 0,21 + 0904 196 7 3 0,32 7 0,06 232 7 lo 0,07 7 0,02 In 116 70 � 5 0,05 � 0,02 102 + 3 0,18 + 0,04 175 7 5 0,31 7 0,06 285 ; 10 0,42 -; 0,08 The results obtained agree well with previously obtained results. V. S. Zolotarev placed a sufficiently large amount of enriched  SOV/89-5-4-8/24 T h 'r JI;t,C,*,7'UM .A` T-Rays -roduced at the Capture of Thermal Neut~ons of 63 65 107 log 115 \ur~el ('14 q CII g q A. g and In is~,,topee at the authors' disposal. L. V. Groshev and D. P. Grechukhin took part in discussions on this paper. There are 2 figures, I tables and 5 references, 4 of which are Soviet. '~,.!h !-Ii T T -4 D t May 10, 1938 Vard ~/A   21(8) AUTHORS: Sklyarevskiy, V. V., Stepanov, Ye. SOV/56-36-1-52/62 Medvedev, B. A~ TITLE: The X-Ray K.-Radiation of the Fragments of Fission =d the Charge Distribution of Fragments ( Rentgenovskoye I(-izlucheniye oskolkov deleniya i raspredeleniye oskolkov po zaryadam) RERIODICAL: Zhurnal ekaperimentallnoy i teoreticheskoy fiziki, 1959t Vol 36, 11r 1, PP 326-328 (USSR) ABSTRACT: The present paper deals with new measurements of the spectrum of the soft r-rays produced in the fission of U235. On the basis of the results obtainea by these measurements; the widths of the distribution of heavy and light fragments over the oharges were then estimated. The experimental system consisted of an ionization chamber with a layer of U235 (which was subjected to the action of a beam of thermal neutrons of the RFT reactor of the AS USSR) and of a xenon- proportional counter for recording 1--rays. A diagram shows the spectram of the r-rays in the fission of U235 within the energy range of 10-50 kev. The spectrum Card 1/3 contains two intense ncn-monochromatic lines~ the maxima of  The X-Ray K-Radiation of the Fragments of Fission SOV/56-36-1-52/62 and the Charge Distribution of Fragmente which correspond to the energies (-~6 + 1) and (31 + 1-5) kev; the half-widthe amount to 35 and 22% 7espectively. These line@ undoubtedly belong to the X-ray K-radiation of the fragments of the light and heavy groups. The energy distribution W(E) of the X--ray K-radiation of the fragments is apparently connected with the charge distribution W(Z) of the fragments. On the basis of the results obtained it is therefore possible to estimate the widths of W(Z). In this connection it may be assumed that the dist~-ibutiors W(E) and W(Z) are Gaussian curves with the total widths 4r and d,' at half the height of E z - the line. The val-"ea of orzlz, are (14-5 � 3)1i4 and (8-5 t 1-5)~ for the light and for the heavy group of fragments respectively. 0 E/2E0 holds, and the energies Eo correspond to Here cr,1Z the positions of distribution maxima with respect to E. The values obtained here for the width of the distribution of fraoments over the charges are only approximated values. The intensity of the line with the energy of 16 kev amounted to Card 2/3 0.,10 -+ 0.03 quanta per flission. The authors thank  'The X-Ray K-Radiation of the Fragments of Fission SOV/56-36-1-52/62 and the Charge Distribution of Fragments V. M. Strutinskiy for some valuable advice. There are 1 figure and 4 Soviet references. SUBMITTED: September 13, 1958 Card 3/3  21 (8) SOV/'! 36-2-5D,/6 3 ATITHORS Sarioylov, B. 11. , Sklynrevokiy, V. V. V Stopanov, Ye. P. TITLE The Polarization of the Aul~ll Nuclei in a 73olution of Gold in Iron (ilolyari zatsiya yader Au v rastvore zolota v zhele,,e) FERTODICAL: Zhurnal eksperim entallnoy i teoreti cheskoy fiziki, 1959P Vol 36, Nr 2, pp 644-0-45 (U3SR) ABSTRACT: G. It. Khutsishvili (Ref 1) suggested a method for the polari- zation of the nuclei of ferromagnetic elements. The authors tried to generalize this method to nuclei of non-ferromagnetic elements introduced into a ferroma,-netic. The prezent paper discusses the results of the investigation of the polarization specified in the title. The sample of the Au-Fe-alloy (0-3 weight percent) - a disk of 0.3 cm diameter and 0.01 cm thick- nes2) was irradiated by thermal neutrons in a reactor. After irradiation, the sample was tempered in vacuum and it 1IR98 fastened t~) the end of a copper "cold conductor,,. Au 9 is desinte-rated by P-deca~ (transition+2- -,2 ) and then a y-radiation of 411 kev transition 2 -0 0 ) is emitted. At a temperature of '-- 0.0150K, the value of anisotropy is equal to 3-3~3. The degree of magnetization of the sample in a con- Card 1/# stant mngnetic field amounted to -0.6 of the saturation value. 12-  The Polariz&tion of the Au 198 SOV/56- 36-2 -5-,./'6 3 Nuclei in a Solution of bold in Iron The true value of the anisotropy (which correspo-vis to a 10e,,, ma,netization of the somlle), therefore is equal to 3-3/0-6 - 5.5~~. Accordin,- to tbese results, the value of 4F/kTI is within the in terval 0.3 - 0.4, and the polari- zation f of the nuclei Au198 - within the interval 0.25 - 0-35. 1 198 (p denotes the magnetic monent of Au , I - the sp n of AU198, and IT - the magnetic field on the nucleus Au198). At T = 0.0150K, fromdhe measured v,;1uc P = 0.3 - 0.4 If . (0-5 - 0-7).1 Oe. can be deduced. Such a high field strength can be explained only by the existence of a macnetic moment in the electron shell of the Au atoms contL-ined in the Au-Fe alloy. The formation of such a magnetic moment can be caused by the exchange interaction between the electron shells of the Au anI Fe atoms in the Au-Fe alloy. It is not impossible, however, that the Au atoms in the Au-!~'e alloy are paramagnetic ions which have no exchange bonds with the Fe atoco. It is ho-,)ed that the method of introducin- nuclei into ferromagnetic alloys considerably increases the number of the elements which are subjected to polarization. Moreover, the investiga- tion of the volarization of nuclei in various alloys may supply Card 21,0 ~iata concerning the magnetic properties of the atoms in these alloys.  2"t 0) , 21 (0) I,LUILMORS.- Samoylov, B. N., Sklyarevskiy, V. V., SOV/56-36-5-7/76 Stepanov, Ye. F. TITLE; Polarization of Cobalt- and Iron Nuclei in Ferromagnetics (Pol.varizatsiya yader kobal'ta i zheleza v ferromagnetikakh) PERIODICAL: Zhurnal eksperimentallnoy i teoreticheskoy fiziki, 1959, Vol 36, Nr 5, PP 1366-1367 (USSR) ABSTRACT: Several years ago Khutsishvili suggested a method for the polarization of the nuclei of ferromagnetic substances, 0 which was verified experimentally at 0-05 - 0.08 K by N. Ye.Alekseyevft I. F. Shchegolev and 13, Ye Zavaritskiy. Similar experiments were successfully carried out also at Oxford. The authors of the present report describe the 60_ and results obtained by polarization investigationson Co Fe59_nuclei. They worked with the polycrystalline ferromagnetic alloy "Permendure" (CotFe-50:50)1 the sample had a thickness of 0.2 = and a diameter of 3=- It was irradiated in a reactor with thermal neutrons, after which it -was tempered in a vacuum, following which it was Card 1/3 subjected to cold- and magnetic treatment (1000 oe). The  lolarization of Cobalt- and Iron Nuclei in SOV/56-36-5-7/76 Forromagnetics occurring r- radiation was recorded by means of two scintillation counters with CaJ-crystals. The activity of the sampleu amounted to 3 - 4 ILC. Several series of measurements,.s;ere carried out on two samples. The results are shown by a figure, a diagram which represents 1jr(l/T). It holds that F_ - I - N(O)/N(-'rlL). N(O) is the number of counts alone the field, N(Ir/,,) is the number of counts transverse to the field. The measuring results are scattered about a straight line which may be represented by e - 1.2.10-4T-2. At very low temperatures a deviation from this law occurs. For H - 2-5-105G the authors obtained a value of the constant of hyperfine splitting A - 2-4,10-2 o K, which is in good agreement with the values obtained in reference 4. Experiments carried out with respect to the polarization of iron nuclei in Armco iron samples (3 mM diameter, 0.1 mm thickness, activity 2-3/LC) showed that Card 2/3 within the range of from 0.01 - 0-03 to 1 OK no anisotropy  Polarization of Cobalt- and Iron Nuclei in SOY/56-36-5-7/76 Ferromagnetics of radiation could be observed. At H a 2.5-105G and & 1-0.5%, 1A was determined as amounting to Ik 4 1-5 nuclear magnetons. The authoz9finally thank Ye. K. Zavoyskiy for his interest and advice, and L. V. Groshev for discussing the results. There are I figure and 5 references, 2 of which are Soviet. SUBMITTED& November 25, 1958 Card 313  24(3) AUTHORS: Samoylov, B. N., Sklyarevskiy, V. V.9 SOV/56-36-6-56/66 Stepanov, Ye. P. TITLE: Nuclear Polarization of Weakly Magnetic Elements, Introduced Into Ferromagnetics (Polyarizatei3eyader slabomagnitnykh elementov, vvedennykh v ferromagnetik) PERIODICAL: Zhurnal eksperimentallnoy i teoreticheakoy fisiki, 1959, Vol 36, Nr 6, PP 1944-1946 (USSR) ABSTRACT: Following an earlier paper (Ref 1) on the polarization of Au 198_nuclei in AU-Fe-alloys, the authors in the present "Letter to the Editor" publish results obtained by polariza- 122 tion measuremente of 3b nuclei In weak Sb-solutions In iron and of In 114m_nuclei in such In-solutions in Fe. An Sb-Fe-alloy (o.6 weight~4 Sb) wasirradiated in a reactor with thermal neutrons; the activity of the Sb 122 amounted to about 4 pC. The resnlts obtained by one of each of the measurements of the anisotropy of y-radiation carried out are given by a Card 1/3 figure (E, =566 key (transition 2+-PO+)g I-emission after  Nuclear Polarization of Weakly Magnetic Elements, SOV/56-36-6-56/66 Introduced Into Ferromagnetics P-decay of Sb 122 (transition 2- -%- 2+)). The experimental points show the dependence of the intensity of the I-rays counted by means of a detector at angles of 0 - 00 and 900 to the fie'd direction upon time after demagnetization of the salt. Between 5 to 50 min the temperature changed from 0.025 to 0-0350 K- 10 minutes after demagnetization a y-anisotropy of 4e - 2-5 % was measured at a temperature cf 0.030 K. (6 - 1-N(OO)M(900)-N denotes the number of counts at an angle(Q). For In-Fe (0-5 weight% In):the following results are obtained: In114m: EY a 192 kev (5+'-w 1+), T (5 min after demagnetization) 0. 0350 K; E -w 8 % at T - 0.040 K. Further, Cr5l was investigatod in Cr-Fe. Results: E - 320 kev (5/2 _ -P 7/2-), I-emission after X-capture of the Cr,517 (7/2--o-5/2-) within the temperature interval of from 0.03 to 10 K. There follows a short dis- cussion of measurement accuracy and of the results obtained. It may be concluded from these results that the method of the nuclear polarization of weakly magnetic atoms by intro- Card 2/3 ducing them into a ferromagnetic has universal charactet and  Nucle-ar Polarization of Weakly Magnetic Elements, SOV/56-36-6-56/66 Introduced Into Ferromagnetics renders it possible to attain relatively high degrees of polar12ation. The authors finally thank Ye. 1. Zavoyakiy for his valuable advice, L. D. Puzikov for his assistance in calculating the angular distribution of y-radiationg and L. V. Groshev, V. M. Galitakiy, and D. P. Greclpkhin for discussions. There are 1 figure and 4 references, 1 of which is Soviet. SUBMITTED: March 10, 1959 Card 3/3  SUPANOV.0 Ye. P., SAYOYLOVI, B. N.J. and S!J-YAM1'SEIY, v. v. "Polarization of Nuclei of Weakly Magnetic Elements Introduced in Fer-romagnets.11 report submitted for the Intl. Conference on I.Ow Temperature Fbgsics, 1UFAF, Toronto, 29 Aug - 3 Sep 60.  SAMOYLOV., B.N.j SKLYATOISKIY, V.V.; STEPANOV, Ye.F. Poiarization of the nuclei of diamagnetic elements dissolved in iron. Zhur.ekap.i teor.fiz. 38 no.2:359-371 F 160. (MIRA 34:5) (Diamagnetism) (Nuclei,, Atomic) I :11)  S11.110yu;VY SUYAR~,,V~',`,Iy, V-V-; GORGDC'1U'-1!KOi V~D,; -VW*4~rw. SMWXV.1j~e,P __. Asy=.etry of the beta radiation from Co 60 nucloi polarized in a cobalt-iron alloy, Zhur. ekep. i teor. fiz. .40 no.6:1871- 1874 Je --61. (MIRA 14:8) (Beta rays) (Cobali-laotopes) (Cobalt--Iron alloys)  SKLYAR:-;VSKIY, V.V.; SAFIOYLOV, B.N.;J~PA!~j j__Y!2_SPAL__ :V Temperature dependence of the mzpitude of the byperfine splitting of Diw lervels, in paramagnetic dysprosium oxide. Zhur. eksp i teor. fiz. 40 no.6:1874-1876 Je 161. (MIRA .14:8) Dyprosium-Isotopes) prosium oxide-.-Magnetic properties) M  STEPAMOV, kind.t,--khn.naulk, dotsent Mui-i exacl. representation of dpsfgn equations In the case cf beridlng aw -.ccertric actlon of forces beyond the elastic llml-t., Gf elasticity. Trudy MIIT no.1.74:80-90 163. (MIRA 18:3.)  STEPANOV, Ysvgsniy_,Fetro tekhn. red. yich; PAVLOVSKIY, A.Ya., red.; KLIMOVA, Z.1., (In the Volga Delta]V dellte Volgi. Astrakhan', Izd-vo gazety "Volga," 1961. 68 p. (MIRA 16:2) (Volga Delta-Description and travel)  S-.,2,700 80981 /P /-~) / 0 S/i8o/60/000/03/013/030 AUTHORS: Savitskiy, Ye.M., Stepanov,42W38Ad Terekhova, V.F.(Moscow) MWOMM, TITLE: _YA Neodymium and its Alloys wi-th Aluminium ~ V1 PERIODICAL: Izvestiya Akademii nauk SSSR, Otdeleniye tekhnicheskikh nauk, Metallurgiya i toplivo, 1960, Nr 3, pp 73 - 78 (USSR),~ ABSTRACT: The object of the present investigation was to determine the physical and mechanical properties of pure (99-50,40 neo- dymium and neodymium-aluminium alloys. The following properties were determined for cast neodymium., Brinell hardness 46 kg1mm 2; ultimate compressive strength - 25 kg/mm 2 ductility (in compression) - 36%. It has been found that neodymium is characterised by good, both hot and cold, workability, it being possible to produce neodymium strip, 0.5 mm thick, by colg-rolling with intermediate annealings at 500 - 600 C. Neodymium, cold-rolled to 70~ reduction in thickness, had the UTS equal to 13 kg/mm and ductility (in tension) equal 1-2,06. The constitution diagram of the aluminium-neodymiuni system, constructed on the basis of metallographic and thermal Cardl/3 analysis, is shown in Figure 3. It has been found that  Neodymium and Its Alloys with 80981 s/18o/60/000/03/013/030 EIRg/E383 Alumini solid solubility of neodymium in aluminium does not exceed 0.20%. A eutectic, containing approximately 13 wt.*,,l neodymium, is formed at about 64o 0c. In the investigated concentration range, the existence of two intormetallic compounds, NdAll, and NdAl2, has been observed. The former is formed as a result of a peritectic reaction at 1 250 OC~ the latter crystallizes out from the 7 0 liquid phase at 1 450 C. Owing to the formation of the intermetallic, compounds, addition of neodymium to aluminium increases the strength of the latter metal. Hardness of an alumini2m-base alloy containing -0 !!t.0% neodymium is 155 kg/mm , as compared with 25 kg/MM for pure aluminiuml addition of 50% neodymium increases the UTS of aluminium from 5 to 10 kg/mm 2 and lowers its ductility by 5-100. Hardness of the intermetallic compounds NdAl4 and NdAl 2 is 350 and 600 ks/mm 2 . respectively. The electrical restivity of aluminium, is not significantly Card2/3 affected by addition of neodymium; resistivity of the ql*",  s/18o/60/000/03/013/030 Neodymium and Its Alloys with Aluminium E193/E383 50/0' Nd--Al alloy is practically equal to that of pure alumi nium. The effect of temperature up to 300 0C on the mechanical properties of the Al--Nd alloys with up to 50,0' Nd has been also investigated. Figure 1 shows the microstructure of neodymium (a) cast. (b) after 700,0 cold deformation and ~c) after cold deformation to 700,a' and annealing at 500 C. Figure 2 shows the microstructure of the aluminium-neodymium alloys (cold-worked and annealed), containing 0. 0.74, 1.05, 9.24, 24.21, 47.47 arid 6650' neodymium. There are 3 figures, 2 tables and 9 references., 7 of which are Soviet and 2 English. SUBMIrrED- March 2, 1960 Card 3/7,  KAZANTSEV, Yovgonly Ivanovich. I rinimali uehastiye: Z1:1!'LY)J1YY, N.G., limb.; KATSEN, L.G., knnd. toklij.. natik; SWAIN, I.D., prof., retBenzent; STEPANOV..~!~.,A,j_red.; SIIKLOVSKAYA, I.Yu., red.izd-va; KO?DVINA, N.A., tekJm.red. [Industrial furnaces; handbook for their calculation and de- sign] PromyshlenrWe pechi; spravochnoe rukovodstvo dlia rasche- tov i proektirovaniia. Moskva., Izd-vo "Metallurgiia,ff 1964. 451 P. (MIRA 17:4) 1. Dnepropetrovskiy metallurgicheskiy institut (for Semikin).  A NRI AP6023066 SOURCE CODE: UPv/0191/66/000/004/0041/0043 AUTHOR: Gallperin, D. I9; Khamaing S. I.; S"panovfi Ye, S,,- ORG: none TITLE: Mechanical properties of ethylcollullos plastics 1SOLKICE: Plasticheskiye massyp no. 4, 1966, 41-43 TOPIC TAGS: solid mechanical property, cellulose plastic, plasticizer ABSTRACT: The authors studied the effect of the degree of substitutio (othylation) of othylcollulono and of the concentration of different plasticizers n tho mechan properties of plasticized othylcelluloses. The experiments7-46]io76bavied out with ethylcellulose samples containing 25% plasticizer (dibutyl phthalatep dioctyl phthalate, or tricresyl phosphate) and 1% diphenylamine antioxidant. Within the degree of substitution of 2.3-2.5, The glass transition temperature, tensile strength, and range of elasticity decreased regularly and the elongation at break and cold resistaum increased. Experiments on the dependence of the temperature of the glass (T ) on the concentration of plasticizer showed an equivolumetric relationship between9the plasticizer concentration and Tg, 1his relationship is expressed by the empirical equation T =182-3*64cvolp where cvol is the concentration of a plasticizer in volume Orig. art*Uas 5 fig. and 2 tables. StB GIOLZ ll/ SUBM DATEs none/ ORIG REY& 1004/ OTH RU: 002 Card 1 1 UDGs 6713.546.2.01 x 539.3 %P  STEPANOV, Ye.V., inzh. Reorganization of the equipment of classification yards and improvement of Ithe 'technology of their operations. Zhel.dor. transp. 43 no.12:78-83 D 161. (MIRA 15:1) 1. Nachallnik otdola dvizheniya Kuybyshevskogo otdeleniya Kuybyahevskoy magistrali, stantsiya Kinell. (Railroads-Hump yards)  KIZELISHTEYV, Vladimir Yakovlevich; KOSMAChTV, I.G., retsenzent; SVERDIOL M.B., retsenzent; STEPANOV, Ye.V.,- nauchn. red.; SAIRNOV, Yu.I., red. (Chemical and mechanical methods of metal treatment] Khimiko- mekhanicheakaia obrabotka metallov. Leningrad "Sudostroenie," 1964. 139 P. WRA 17:4)  ROZHNOVp S,; LEVSHOVp V.; LEVCH=Op A.; STROKANTSEVA, T.; STEPANOVj, ru. A vacant oeat* Grazhd. av. 21 no.7:15 JI 164. (MIRA l8s4) 1. Sakretarl partiynogo byuro Yaltinskogo agentstva Aeroflota (for Roxhnov). 2, Chlen byuro ekonomicheskogo analiza Yaltinakogo agentstva Aeroflota, (for Strokantseva).  Mikhail Mikheylovich; DCBROGATBY, Rostislav Pavlovich; LYAKHOV, Mikhail Ivanovich; PAVLOV, Aleksey Vesillyevich; SOLOVITBV. Mikhail Petrovich, professor; STSPANOT.. Turiy Alsksanlrovich; SUVOROT. Tiktor Grigorlyevich; XHANIX. U.S.. kandi4at tekhnicheakikh nauk, retseas*mt; CHISTOZVONOV, S.B., retsenzent; NECHATRY, B.K., doktor tekhnichemitift nauk, reteensent; SHUBOVICH, S.I., kandidat tekhnicheakikh nauk, reteenzent; YIGORKINA, L.I., in2hener, redaktor; SOKOLOTA, T.Y.. tokhnicheekty redektor [Construction and design of truck and tractor engines) Konstruktotts i raschet avtotraktorcWkh dvigatelei. Pod red. W.A.Stepanovs. Moskva, Qos,nsuchno-tekhn.t%d-vo mashinestrolt. lit-ry. 1957. 604 p. (NIM 10:10) 1. Gosudaretyennyy sayumnyy ordene Trudovogo Kresnogo Zooment neuchno-iseledovatel'skiy avtomobillnyy i avtomotornyy institut (for Khanin, Chistozvonow). 2. Kafedra dvigateley Ynytrennego agoranlya Tomskogo politekhnicheskogo institute (for Necheyev. Shubovich) (Notortrucks-Engimes) (Tractors-Nngines)  4WAWV-j.-Tuw*0t*`prof., otv.rOd.; TWIG-ORLPT. A.M., akademik. obshchiy red. - (Piston-type Internal combustion engines; defects in angins operation) Porshnevye dvigateli vautrennego, 9goranlia; defekty raboty dvigatelet. Pod obahchei red. A.M.Terpigorevs. Moskva$ 1959. 13 p. (Sborniki rekomenduemykh torminovo noe3O) (NIM 12:11) 1. Akademiya nauk SSSR. Komitet tekhnicheakoy terminologli. (Gas and oil engines)  MORDUKHOVICH, Mayor Nutvayevich-. KOHIV. Boris Yedorovich; ~~OVYNUA.,__ doktor tokhn.nauk, retsenzent; LYAUOV, M.I., kand.tokhn.nauk. retsenzent; AFaMOa&'WIY, Y.M.. kand.takhn.nouk, red,; MAKHIMM, V.A.. red.isd-va; ALIKIND, V.D.. takhn.red. [Fuel equipment of motor vehicles] Toplivnais apperatura avto- mobilInykh dvigatelai. Moskva. Goo.nouchno-takhn.izd-vo mehino- stroit.lit-ry, 1960. 254 p. (MIRA 13:22) (Motor vehicles--ftel systems)  KAZIN.. Yu.A.; STEPANOV YU.A. Device for determining the fire resistance and noninfilarmbility characteristics of plane materlols. Kauch.i rez. 22 no-4:49-52 AP 163. (Rubber goods) (Fire-testing) (MIRA 16s6)  ANDREYEV., B.V.; ARTEMIYEV, S.P.; ARKHANGELlSkIY, V.M; AFANASIYEV, L.L.; RABKOV, V.F.; BHONSHTEYN, L.A.; BURKOV, M.S.; BURYANOV, V.A..; VARSHAVSKIYJ. I.L.; VELIKANOV, D.P.; VOINOV, A.N.; VYRUBOVY D.N.; DORMIDONTOV., A.V.; DIYACHKOV, A.K.; YEFFEMOV, V.V.; ZHABIN, V.M.; ZELENKOVJ, G.I.; KALABUKHOV., F.V.; KALISH, G.G.; KRAMARENKO, G.V.; KRASIKOV, S.M.; LAKHTIN, Yu.M.;-MIKULIN, A.A.; ORLIN, A.S.; OSTROVSKIY, N.13.; OSTROVTSOV, A.N.; RUBETS, D.A.; STEPANOV Yu.A.- STECHKIN., B.S.; ' '- ;HARAPOV, KHACHATUEOV, A.A.; KHOVAKH, M.S.; CHAZWKIF, K.A, Nikolai Ro-novich Briling; obituary. Avt.transp. 39 no.4:57 Ap 161. (MIRA 14: 5) (Briling, Nikolai Romanovich, 1876-1961)  CRLIN, A.S., prof.; VYRUBOV, D.N.; ALEKSEYEV, V.P.; KALISH, G.G.; KOSTYGOV, N.I.; KRUGLOV, M.G.; K.CTUV, V.I.; MIZERNYUK, G.N.; ROGANOV, S.G.; STEPANCV. _- Yu.A., prof., reetsenzent; YEGCRKINA, L.I., red. izd-va; SOKOLOVA, T.F., tekhn. red. [Internal combustion enginea)Dvigatell vnutrenntgo sgoraniia. Pod red.A.S.Orlina. Moskva, Mashgiz. Vol-3. (Systems, regula- tion, automatic control]Sistemy. Regulirovanie. Avtomatizataila. 1962. 307 P. (MIRA 16:1) (Gas and oil engines) (Automatic control)  ljlKlf.&,,T, DOBROGAYEV j 11 ..P-- LYAKHOV. ?.'.I . V"IT (;V. A.V. ; -q(llA')V'YEV. -rriEFANOV, YU.A.Cdeceasadl~SUVOROV, V.G.; STEPANOV, Ojue, red. i [Desirn and construction of motor-v%t,,L(,Ie and tractor engines] Konstruktslin 1 raschet-av L traktornykh dvigatelei. LA. 2., perer. I dop. Moskva, Mashinon-.ruenie, 1964. 552 p. (XII(A  L 55253-6~ EW (d)AwT(m)AvP.(Y)/~VA(dl/EW(T)~T/EWP(t)/SWP(k)/W(Z)/Ewp(b)/ ACCESSION Ns AP5010372 EVA(h) Pf-4/PGb HJW/ TJR/01U/65/000/003/0045/0052 JD/WW/EH 621.74 AUTHORS i Gird S. Ch. (Candidate of technical. sciences); SteWovs ru, A. (da. didate of technical ic-Jences) ........ 'I TITLEt Technological questions on casting of thin-valled large area paxwIs ISOUXEs IVUZ. Maahinoetroyeniyeg no, 3 1965 -45-52 TOPIC TAOSt cast Btructures pressure clings,liquid metal ABSTRACTt Methods and possibilities of casting thin-walleds large area paneJ~e discussed. The two major difficulties in casting of panels are thermal_~jic`Ring and incomplete filling of the mold. Methods of reducing thermal cracking., i.e,,, proper choice of alloy compositions low frequency, and ultrasonic vibration of the metal and choice of proper mold elasticity are briefly mentioned, but discussion is concentrated on pouring methods. These include casting in moving molds which converge and exttude t any We e ess motq4'. This method has been used successf, vs: A1-14~'AVJNLel UD 0 with allo. _,5 and AL9'&-A panel sizes of t 2000 x 500 mm by 2*5-3*0 mm tJa_c_Rn6_s_s, For castiiii-of large-area shellqM an by 3 meter high) from aluminumj a new method has been developed id -whicii'a mold (with pouring Cord 1/2  L 55253-65 - ----- - ACCESSION NRt AP5010372 channels and holes distributed around ~he perimeter) is lowered into the motal, at a rate equal to or higher than the crystallization rate. This method is patented (No. 2839802) in the U*S.A. Low pressure casting in which metal is forced into the mold under a pressure of 300-500 am Hg can be used for shells of limited diameter and thicknesses above 2-3 mm. High pressure casting and liquid metal stamping (Morris Beam Co,p UsSoAa) are particularly suited for panel manu- facture. Normal casting methods under static metal head have also been aplklied successfully (Osbrink Kfg. Co.) for panels of minimum thickness of 1,27 mm and areas of 3.100 x 570 mm. This method can be improved signif icantly by coating the mold with materials which improve metal flow, Panel manufacture by cauting provides considerable labor savings over methods using weldings bonding.. and other assembly techniques. Orig. art* hass 5*figures and 1 table* ASSOCIATIONt MVTU im# Me go Baumana (MVM) SUBMITTED: 28Dct64 ENCLt 00 SUB COM IN No W SOV t 016 OTHERt 008 Card  OBOLONIM, V.K.; PLYUT07ICH, V.W.; STEROW Yu.A. Neutralizing the deetructive aCtion. of Chromium in wro-aght iron by using ferrotitanium and slumirram Ps nodifyirg ngents. Trudy S24TO MVTU no.l.-67-75 157. (MLRA 10:9) (Iron-cliromium-forrotitAnium-sluminum Alloys) (Iron alloys-Metallurgy)  I P'(5 7) 10V/12`-50-?-7/25 , AUTEOR: Rubtsov, N.ff., Doctor of Technical qciences, 91avkin, G.Ya. and Stepanov Yu A., Pngineers, and Palandin, rl.p., Candi. a e of TechnicR1 17ciences TITLE: Producing 17teel Castings by the Squeezink-Out "ethori PERIODICAL: Titeynoye rroizvodstvog 19r;P, "r 7, pp 17-10 (TyqoT?) ABSTRACT: According to the method developed by ()tebakov (Titeynoye Proizvodstvo, Nr 12, 1956) many large cps- tine, shapes, with thin walls, for aircraft manufacture can be produced from aluminum alloys. The laboratory of the foundry at ?TTU "Tmeni 'Patunann" has carried out similar experiments for work pieces of 500 by qnO cm with wall thickness of 4 to 5 mm made from steel. The experiments with steel have been exectited. in the man- ner aF, the above-mentioned exneriments made with alu- ' minum (T."P. 12/1956). One draw ing, explains only the C4 al spe L method of pouring the metal into t-he molds. Card 1/2 Viere follows a description ard explanation of how  q0V/12'-"-`Q-7-7 /2r' Ti-o-lucir- Iteel CastinEs hY t!7.,? '~queezing-nut "ethod -,~.iportant it is to have a n,~,ick f1w,41 and a fast coo- linr,-off for the metal. Tn c-se the flow of tI-e me+al WFLS glo,.-ier than 2 m per secord, thin-,--alled c-stings could not be produced during the experiments. T'~e ac- complishment of the r,-~quired velocity of flow, can only be achieved by means of automatically controlled T--,~cha- nical installatiors. There are 1 diagram andk 1 micro- rhotoi-raph Card 2.12  STEPAMOV, Yu.A., aspirant Role of the friction of castings on the wall of molds in the formation of hot cracks. Izv.vva.ucheb.zav.; mashinosir. no.4s 86-94 160. (MIRA 14-4) 1. Moskavskoye vyssheye tekhalcheskoye uchilishche im. X.EaBaumana. (Fowiding)  LI () OC) C) S/128/60/000/007/004/017 A105/A033 AOTHORSi Bal and in, G.F. nl 3tevanriv. Yu. A, and fakovlev. YU.P. TITLEs Casting Witt-, a Vibr:ttion Fouring Device PEHIODICALt Liteynoye pr(-)izvodstvo, 1960, No. 79 Pp. 34-36 TEXT- The authors montion the effect of vibration on metal crystallization and describe tests perform,-.d with a vibration pouring device (Fig.1), designed by the memhers of* the Institut metallurgii imani A.A. -1 --1-- 1 , AN SSSR (in- -3t-'tut;-- of Metallurgy imeni A.A. Baykov of the AS USSR).G.F. Balandin and V.A. Petrunichev. Fig.2 shows nacrosections of A2 aluminum ingots. The in- got 2hown in FIg.2a wa3 poured with the aid of a non-vibrating device, ingot ,hown in Fig.2b thrcugh a vibrating funnel with a frequency of 230 oscilla- ~Ions/sec,, an amplitude of 0.1 mm, power 1 kw, temperature of liquid alu- rainum 72o C, ingot weight 2 kg and pouring time 4 seconds. The ingrot obtain- ed with the vibration pouring device was finer grained and its plasticity in-~-reased by 2&A (see Table). Tests showed that casting through a vibrating 'Jourine 4vvice produce8 the same effect as pouring into vibrating 1nolde. A Card 1/7  S/128/60/000/007/004/017 t i Pouring Devi-cii With ~i Vibt A~ A105/AO33 7L-UJh1rir, :if rrains in the iritr,,ot.~. -indicates an Increas-3 of the cr,yatallizati-on centers in the liquid metal during vibration. Fig.5 shows speciaivai, on which the tendency of aluminum alloys to hot cracks was tested. The specimen -.f ADI a).ominum (Fig-3a) was poured Ihrough a non-vibrating f V fin (!I ;the !_'ne shoxi in Fig-3b was poured through a vibrating funnel at 7201")C and sh,,jwed no hot cracks. As the metal is poured through the vibrat- ing funnel the walls bocome coated with a hard layer of metal. This layer ii 'broken oy the vibration of overheated liquid metal and solid metal pieces are carried into the mold together with liquid metal, where they melt partly or completely. If n,, complete melting is reached by the time the metal be- gins to solidify, these ,3o'lid phases become centers of crystallization. Fig.4 ohowa a macropnotograph of the longitudinal section of the coating removed from the funnel walls after pouring of aluminum under vibration while Fig-5 showsthe longitudinal section of an ingot -ompletely solidified in a vibrat- it.-- funnel. A distinct boundary can be observed between the acicular crys- taI zone and the central crushed grains zone. The grain size depends on the temperature of the metal during pouring. Higher temperatures ensure complete 711olting of the solid phase by the time crystallization of the metal begins. Higher rr~3iStan0f_' to hot cracks is attributed to an increase in plasticity Card 2/ 7  S/12BJ60/000/00711004/017 Cauting With a Vibration Pouring Device A105/AO33 of fine-grained alloys. This method improves the'mechanical properties of alloya and increases their resistance to hot cracks. It can be applied to every type of mold and to a great number of alloys without changing the vi- brating conditions. -A satisfactory vibration effect was obtained with AL-4p, AL-2, 11avialll-type alloys and 15L steel. There are 6 figures, 1 table arid.' 13 references: 11 Soviet and 2 non-Soviet. Card 3/7  -acad. n n Ac.  4. zt S 4 fl,  BAIANDIN, G.F., fawd.tekhn.nauk, dotsint; STEPANOV., Yu.Ae, aspirant Interaction of stresses in molds and solidifying castings* 1zv. vys.ucheb.zav.; masbinostr. nool:1396-149 161, (KM 14:4) 1. Moskovskoye vyisheye takhrLicheekoye uchillahche imeni Baum=. (NDId ng (Founding))  I ~-00 27727 S/128/61/000/008/004/004 A054/A127 AUTHORS: Balandin, G. F., Gini, E. Ch., Sokolov, Ye. A., Stepanov, Yu. A. Yakcvlev, Yu. P, TITLE: Casttng thin-walled, large-sized panel compounds In green sand-clay molds PERIODICAL: Liteynoye proizvodstvo, no. 8, ig6i, 38 - 39 TEXT- The casting of thin-walled, large-size panel parts of aluminum and magnesium alloys ensures a considerable saving in the weight of these components and in time. On the other hand some difficulties must be overcome, in the first place those encountered in filling the mold with the liquid metal. In the Soviet Union thin-walled pane-'s are cast by successive crystalliiation or extrusion. The latter method is applied for A.P.4 (AIA) aluminum alloy sheets 800 x 1,500 x 2 - - 5 mm in size, moreover for AL2 and W,5 (ML5) alloy panels. However, when apply- Ing the method for heat-resistant and high-strength AL8, AL19, B15 (V15) alloys, hot cracks are forming. In order to establish the cause of this defect. tests were carried out at the Liteynaya Laboratoriya MVTU im. Baumann (Foundry Labora- tory MVTU im. Bauman) and it was found tha-. panel elements 500 x 800 x 3 - 4 mm Card 1/4 -1A  27727 S/128/63/000/008/004/004 Casting tbin-walled, large-sized .... A05VA127 in size could be caste from AL19 and V15 alloys by applying the conventional cast- Ing and using green sand-clay molds. Test panels, 250 x 300 x 2 mm In size were cait using a chaiinc-1 (12 x !2 mm) around the panel which considerably facilitated the filling of the mold. The removal of air and gases from the mold cavities is alao impce,.ant in this process. When applying 0.3 - 0.4 mm thick inserts on the parting surface of the mold during the aasembly, the filling of the mold Improved, the ventilation through the narrow aperture at the parting surface of the mold be- came more intensive. The circumferential channel., the slot-type feeding system operating over the en"ire periphery of the caiting, a high-capacity slag-chamber and a riser wAn a consilerable croza section ensure a great intake of the liquid movtal and P-n instantaneous filling of the mold. Morecver, ribs formed on the ca-i--ting a1su pronjo*,e a rapid filling of' the narrow spaces. The gate and the ven- ttlation sy!--'-ein besid on ~.he abovs principles for ca,~ting 500 x 800 x 3 - 4 mm panels ar? z-hown. The molding mirtnre usi:d consists of 55 - 6o % nol (POI) type Tambovsk z-and, 45 - .1.50 % quartz sand and chalk, having a humidity of 6 %ja gas permeabtlity of 54 units ard a compresssion strength of 0.24 - 0.27 kgleW. The biri-;er cont'ained 10 % Tambovsk sand and 90 % burns sand and had a humidity of 4.5 % and a compre-?sion strength of 0.35 kg./cm2. It was found that the applica- Cara 2/4 1~  27727 S/128/61/000/008/004/004 Casting thin-walled, large-sized .... Ao54/A127 tion of inserts at the parting surface of the mold had an adverse effect on the accuracy of the panel dimensions. Therefore, to promote ventilation, instead of using inserts, 1.0 - 1,5 mm wide grooves were cut in the parting surface algng the periphery of the casting. This arrangement required a high casting tempera- ture, (for the AL 4 alloys: 820 - 8300C, for the AL 19 and V15 alloys: 850 - 8600 C). On the other hand the high temperature promoted the formation of eavities*(in some cases the casting split into two parts). This could be eliminated by con- trolling the density of the mixture in the upper part of the mold by changing its composition and the intensity of ramming. In this way panels can be cast also from Xl8H9T (KhI6N9r) steel in dry sand molds. The mechanical properties of AL4, V15 and XhI8N9T steel panels meet the standards set. A deterioratio,-. ~'I_ ~;he me- chanical characteristics could only be observed in AL 19 panels. This wi:.3 caused by a lack of heat resistance in the metal. When coating the casting sur,'ace with hexachlorethane, however, the casting temperature of the AL19 alloy shests could be reduced from 850 to 7300C. The dimensional accuracy of the castinp3 depended on the assembling accuracy of the mold and on the stability of the boitom plate. During assembling the mold showed a deformation of 0.1 - 0.25 mm, while during transportation (shocks) the deformation of the thickness of the casting attained o.4 - 0.5 mm (20 - 30 %). For this reason the application of dry sand core or Card 3,4  27727 S/128/61/000/008/004/004 Casting thin-walled, large-sized .... A054/A127 shell molds is Indicated. There are I figure and 9 references: 7 Soviet-bloc, 2 non-Soviet-bloc. The references to Ehglish-language publicationeread as follows R. H. Osbrink, "Modern Castings", October 1958; N. C. Flemings et. al., Transac- tions A.F.S.," 1959. C ard 4A  BALANDIN, G.F.; STEPANOV, Yu.A. Force interaction between a casting in process of solidification and the mold. Lit. proirv. no.4:37-41 Ap 162. (MIRA 15:4) (Molding (Founding))  ACCESSION NR: AT4016073 S/2698/63/000/000/0275/0280 I AUTHOR: Balandin, G. F.; Bini, E. Ch.; Sokolov, Yo. A.; Stepanov, Yu. A.; Yakoviev, Yu. P. TITLE: Influence of technologicaL facLors on the mechanical properties of thin-walled castings SOURCE: Soveshchaniye po teoril liteyny*kh protsessov. 8tb, 1962. Mckhanicheskiye svoySt'Va Iit0g0 MCtalla (Mechanical. proper U e s of cast metal). Trudy* soveshchaniya. Moscow, Izd-vo AN SSSR, 1963, 275-280 TOPIC TAGS: casting, casting technology, sqieezc casting, thin walled casting, aircraft. part, casting mechanical property, aluminum alloy, magnesium alloy, crack formation ABSTRACT: Many aircraft parts, especially remote- controlled guidance structures, are made of large thin-walled pieces which are difficult to fabricate by rolling or pressing. 'lliese strucLures are now often cast, but this becomes difficult if areas of 1 x 2 in and thicknesses of only 2-2.5 mm are to be produced. The new technique or squeeze casting has proven satisfactory for thin castings and largo sizes. The disadvantage or this ruethod, however, is the formation of hot cracks while castlag high-strongth or lilgh- temperature ahunInwn and magnesium alloys. in tho casting laborary or the 17TVTU im. Card  ACCESSION NR: AT4016073 Baurntuia, parts with thicknesses below 2 nim were found to have low strength although most speciniens conformcd to the specifications of GOST42,685-55. rh analyzing tjorne of the reasmis for [lie di Ff irtil tien, particular attention Is paid to cast-Ing temperature and the thicklies" of tloc cast (bee the Enclosure). Ilic temperature gradients arising In the alloy klklrini~ all(I arter E;(jilocze casting are also corisidered and held to be responsible for Yoriatiolu'; ill mechavloal properticB. 71ic withors did not conio to any final conclusions but !~iit%o,A that rm-0mw tet3l,s undor actual %vorldng conditions should be performed in order, to rilid kmi. those catitings cwi be kisetl and are aetually stronger Umn rivoted or Welded structuros. Orig. art. Itas: 3 figuroo and I table, ASSOM-TION: MVTU Im. Baurnana . i MUTTED: 00 SUB SUB CODE: Nilm'As DATE ACQ: 27DccG3 NO REP SOV: 003 ENCL:02 OTHER: 002 Card