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

MAZATIV, A.V., doktor tekhn. nauk dote.; KUZNZSOV, A.Y., kand. takhn. nauk dots.; ICOLUPA7W. A.P. State of and outlook for the development of geodetic astronomy. Trudy MIIGAIK no.31:41-48 '59. (HIRA 13:3) (Astronomy, Spherical and practical)  JKUZ STSOV A.11.) dotuent, kand.tokhn.nauk F,N, Krasovokii's work in the field of practical astronomy. Tinudy MIIGAIK no-37:55--61 759. WIRA 15:5) (Kranavskii, Feodosii Nikolaevich, 1878-1948) (Astronomy, Spherical and practical) -H -4R N!  2J715 8/035/&1/000/004/052/058 A001/A101 g)-Oz) AUTHOR: Kuzneteov, A.N. TITIE; On the scientific research activity of the Astronomy Department of the Moscow Institute of Engineers for Geodesy, Aeriai en6tosurvey and Car- tography PERIODICALi Referativnyy zhurnal. Astronomiya i Geodeziya, no. 4, 1961, 4, abstract 4021 ("Tr., 14-y Astrometr. konferentsii SSSR , 1958", Moscow-Lenin. grad, AN SSSR, 1960, 90-92, Engl.'summar-j) TEXT: The scientific research activity of the Astronomy Department includes the construction of new gmndatln instriiments and improvement of existing ones, as well as investigation of metnads of astronomical determinations employed in geode- sy. A photoelectric accessory to the astronomical universal instrument AJ (AU) 2"/10" for'determining time by Zinger's method and latitude by Pevtsov's method Is being constructedl a device for micrometric rotation of the AU 2"/10" telescope along azimuth and altitude has been manufactured. Working drawings of an original zenith telescope model, based on the principle of restrained floating, have been Card 1/2,  23715 3/035/61/000/004/052/058 On the scientific research activity ... A001/AI01 compiled. Devices are designid for testing pivot Journals and lateral bending. A comparison of Zinger's method and the method of time determination from observaticm of stars In meridian has shown the advantage of the former. The Dellen method in reconv.ended for determinationa of longitude dIfferences. A comparison of methods of Talcott and Pevtsov has shown that Pevtsov's method is not Inferior in accuracy to Talcott's method. 0. Panova [Abstracter's note: Complete translation] Card 2/2 MR  0 - Work of soientif ic student ciroles in the aeademic year 1958159. Trudy XIIGAIK no,41:97-98 160. (KIRA 13:11) (Surveying) (Cartography)  KUZ14ETSOVO A.N.., doteent, kand.tekhn.nauk Using the AU211/1011 universal astronomical instrument with photo- electric recording of star transits in longitude determination* Trudy MIIGAIK no.48sl49-154 101. (MIM 15:8) 1. Kafedra. astronomii Moskovskogo, instituta inzhenerov geodezii, aerofotos"yemki i kartografii. (Longitude) (Astronomical instruments) i.  KUZKETSOV, A.N. Using Oobile map of the stellar sky during the study of astronmq in secondary, schools. Ucb.$ip.Penz.goa.ped.inst. no'.7t98-107 162, (MRA 160) (AstroncW-Audio-visual aide)  wul Ir no. .7* r,,-Yr pcr-c- 1 erst e-d part 1 ,i ~x r v  None I Err CL 02 SCV 000 MM 002 -rjL)?: ITP  km SOURCE CODE: UR/0413/66/000/023/0062/0062 INVENTOR: Gedymin, Yu&Yu.; Krivonos, G~A*; Starikov, V.S,; Kuznetsov, A.N.; Epshteyn. G.G. ORG: none TITLE: Method of lubricating the surface of aluminum or its alloys for extrusion . Class 23, No. 189111. [Announced by All-Union Scientific Research Institute for the Planning and Design of Metallurgical Machineri (Voesoyuznyy nauchno-iseledovatellskiy i-proyektuo-konetruk- torskiy institut metallurgicheskogo mashinostroyeniya,)]. SOURCE: Izobreteniya, promyshlennyye obraztey, tovarnyye znaki-i no. 23, 1966, 62 TOPIC TAGS: metal extrusion go 1m~~2trtk5&0n-,a4-ft4-n4.ffl A33 mice - metal surface, lubrication technique, extruded aluminum IThis Certificat .e introduc.es a.. method.of lubricating-the surface ABSTRACT: iof aluminum or its alloysas a preparation for extrusion with the use of ;a fat-base lubricant. To improve the quality of the lubricant, the surface of a billet is first coated with a layer of . aliphatic acid salt containing 10-20 carbon atoms in a molecule, anO thm with a fatty sub- stance such as mineral oil, animal or vegetable fat or their mixture.' SUB CODE: 13/ SUB 6Dei64',-*j .ATD .FRF V AATI;,L.- 1 .80: 5113' Card 1/1 UDC: 621.892.6  ACC NRg AP7(-)0079'( SOURCE CODE: UR10089166102110 10390103~2 AUTHOR: Katcaurov, L. N.; Kuznetsov, A. N. ORG: none TITLE: Concerning the question of the drop of the neutron yield in tritiun: targets SOURCE: Atomnaya energiya, v. 21, no- 5, 1966, 390-392 TOPIC TAGS: triton bombardment, neutron reaction, deuteron interaction, j.~iysical dif fusion ABSTRACT: The authors show that the observed drop in the yield of neutron:- in the D T reaction reported in various investigations, can be only partially attributed to the energy loss in the carbon film produced by this reaction, but can be rully ex- plained by means of the diffusion mechanism. In this mechaniim the deuterium ions falling on the solid tritium target produce a concentration gradient 'Which gives rise to diffusion of the hydrogen dissolved in the zirconium or titanium. Whe- the amount of deuterium accumulated is sufficient to make the concentration of the particles near the surface of the target exceed the limiting concentration, equilibrium setb in and hydrogen isotopea begin to be released from the target, the release of tritium and deuterium being proportional to their corresponding concentration. Consequently, the deuterium striking the target continuously depletes the tritium of the target. The differential equations of this process are presented and expressions are obtained for the tritium concentration, for the timg of establishment of equilibrium, and for Card V2 UDC: 539-172.13  ACC NR$ AP7000797 the reaction tritium yield. The theoretical value obtained for this yield agrees well with experimental data. The authors thank 1. Ya. Barit and I. M. Frank for numerous discussions- of the results, and also A. V. Yeldipinskiy and V. P. Perelygin for help with the experiments. Orig. art. has: 3 ~figures and 7 formulas. SUB CODE: 18, 20/ Sum nATE: 24Aug65/ ORIG REF: 002/ OTH REF: 005 r Card 2/2  .16024939 (/V) SOURCE CODE: UR/2981/66/000/004/0264/0269 AUTHOR: Kuznetsov, A. N.; Epshteyn, G, G.. Kishnev, P. V. ORG: none TITLE: Cold extrusio of SAP alloy thin-wall tubes SOURCE: Alyuminiyevyye splavy, no. 4, 1966. Zharoprochnyye i vysokoprochnyye splavy (Heat resistant and high-strength alloys),!264-269 TOPIC TAGS: aluminum alloy, dispersion high strength alloy, sintered aluminum powder ,,zkt-.W, metal extrusion/SAP aluminum al;Ay V ABSTRACT: Cold extrusion of tubes from hollow billets of SAP-1 alloy (8.5% aluminum oxide) is described. The billets were 35.5 mm in outside diameter and 30 to 100 mn long with a 13 mm bore. The billets were successfully extruded into tubes 14 mm in outside diameter with a wall thickness of I mm at an extrusion rate of 95.5%. The tubes can be extruded at a rate of 2-4 m /sec. Therefore, the extrusion can be done~ in high-speed hydraulic or meqhanical presses. During the extrusion the temperaturer of billets increased up to 400-600C, which lowered the extrusion pressure. The microstructure of extruded tubes did not show any texture. Extruded tubes were mcces& fully cold drawn to an outside diameter of 13 to 9 mm. Cold drawing increased the strength of the tubes from 32.6 kg/mm2 for extruded tubes to 37.6 kg/MM2 for tubes Card 1 /2  ACC NR: AT6024939 9 mm in diameter. The corresponding figures for elongation were 4 and 1.1%. Orig. art. has: 4 figures and 2 tables. (TD] DE: 11, 13/ SUBM DATE: none/ ATD PRESS: Jj  Card L 27967-66 EWT(m) IJP(c) -AC--CNR, AP6017603 SOURCE CODE: uR70-089/65/019/005/0442/OW AUTHOR: Gladyshev, V. A,1 Katigaurov, L. N.) Kuznetsov, N.; Morozs Ye, X.; Nechayeva=,. P. ORG: none TITLE: Construction of a 300 kev sector tith. external injection (Entire article) SOURCE: Atomnaya energiyap v# 19p no* 5# 19659 442 TOPIC TAGM cyclotron, particle accelerator target, deuterons diffusion pumps cyclotron magnet, vacuum ' chambe'r/N-5T diffusion pump k0 ABSTRACT: With thin tareete,;Fccelerated *-articlcs-cai be used more P ~Feffccti ly if additional aaceleration is applied to them after they have'!~~ ve pased through the target (. L. N. Kateaurov and V G Lat h, Tnidy FIAN SSSR EProceedings of the Physics, Instit. Vol 33., p 235 (1965)). A small -304RMev'~ ~deute~'ron sector cyclotron' was constructed at the Physics Institute to test the feasibility of applying additional acceleration. Plans have been made to carry out a number of .invastigations with this cyclotron especially since it is equipped to 'inject ions into the median plans (V shevs et al-i Trudy 'Mezhdunarodnoy Konferenteii po Uskorltt~t tPit'oedings of the Inter- national Conference on Acceleratorep Dubnap 96270 Moscow) Atmoizdatj 19641 659-, The,cralotron mamet, ahsembl~ consists of three individual, C-ahaped p UIDC: 621.384.611  L 27967-66 ACC NRiAP6017683 -magnets. This design provides for a very- deep azimuthal- variation of the 7- _piagnetio field without requiring additional. windings between the sectOrs 'it is 70 ,and permits easy access to the chamber. The diameter of the Magn CM4 i,The pole pieces are sectors with straight edges and 66 deg. angles. The lo-6* Furthermore, the ,supply current to the magnets is stabilized to 3 x 'field of each magnet is stabilized by an independent-proton stabilization circuit The pole pieces of the mag not serve partly as the covering of the vacuum chamber, and the chamber itself consists of several parts. Its main part. ,Aas three triangular chambers made of brass# each bolted to the sides of the .secotr pole pieces of two adjacent magnets. Vacuum sealing is provided by ,1ead wire -which is laid on the joints between the various parts and is squeezed' 'lAight by spegial - fittings - An X-5T type oil diffusion pump provides a vacuum of -2 x l(r am Hg during operation with a bean. Movable probes are available for observation of the beam. These prob 4 .can be positioned In any point of the vacuum chamber at the desired angle to the beam by virtue of a teflon sealed baU joint and a movable cross-bar 'that has Wilson-type toflon seals. The sources together with the accelerator tubes'can be movid in the i median plane of the mapetj making it possible to vary the be= injection i point within the chamber*, card 2/3.  L ZJ'_fQI-'00 ACC NR, AP6017683 The accolorating yoltage is produced on the does by a generator that foods enorgy to a quartor.~wave spiral line made of copper pipe wound on a glassi cylinder. Up to 20 kv aro used on the does for acceleration. In addition to this structural design- features (split mapiet.. diassemble- abla vacu= ohamberi'spiral quarter-wave line)s the cyclotron is equip~~ for external ion injection# which promises now ~~ of. using polarized pa~ti_clle, ~I sources as well as other complex ;ources, [MIS] SUB CODEI 20j, 13 SUBM DATRI 09Feb65 ORrG MF: 002 13 'A -q  L 279613-66 EVT (m ACC NRj AP6017684 SOURCE- CODE' UR/0W9/65/019/0()5/%43/OX4i AUTHORi Glad3rshev, V. A.: KatsAur~v. L. N.: Kuzneton~.4..,~.; Mroz, K.3 Nechayeva,-L. P. ORG: 'none TITLE: Magnetic field of a.300 kev sectorcyclotro with external injection (entire article) SOURCE: Atomnaya energiya, v@,19# no 5t.1965# 443 -TIOPIC TAGS:' cyclotron, cyclotron magnet,, deuteron, galvanometero betatronp nuclear resonance# magnetic field, motion aquations computer calculation "into data on the magnetic field of a sector ABSTRACT: This paper pros ,cyclotron with a split magnet designed to accelerate deuterons to 300 kovo 'Tho sectoro of the cyclotron are displaced radially from the center of the ~magnot, and the cylindrical core is mounted in the center. The required :field is obtained by empirical selection of magnet parameters, 6~ Field measurements were made with the aid of a winding which is connected ~to a ballistio galvanometer and can beIshifted step-wise. The windingj passing.", ."through the control points in the sectors,* was shifted by 2 deg in,azimuth and 1 cm radially. The field was measured in the control points by the nuclear ,resonance methods The field focussing.properbies of an isochronio cyclotron depends Ithe depth.of azimthal variation and in determined:by.~hs ~etatron oscillation -A Card 1/3 UDGs 621Q84.611  L 27968-66- 'ACC NRiAP6017684 rfr' e6ies. The do VtjUtt9rd;. equ pth of t~he atimutbal variation is characterized by ,which - is -defined as P = ( - 4 B >Z)/4 V> When tfi~ r;giud in the given cyclotron is increased from 10 to .30 ca flutter increases smoothly from Oo2-to 0-45. The amplitudes of the first 'and second harmonics of the fieldj characterizing the asymmetry of the magnetic field, are approximately one order smaller than the amplitudes that '~_t .cause radial instability. The equations of motion were integrated on a computerj vdth the measured ,filed of the cyclotron given in the form of tables. This provided complete- .data on the behavior of particles and orbital parameters in a real field* During the vork) equilibrium orbits were constructed for various energies*'! and the mean magnetic field along the equilibrium orbits was calculated. Mere is an insignificant difference between the field obtained and an'iso- .chronic field* and the phase shift during acceleration from 40 to 300 key Ii i '6 deg as the energy increases by 10 key per revolutiow The orbital properbisso are especially evident on the so-called phase ellipsesi -which close after N "revolutions; N is related to the betatron-frequencies Qr.andQz by the rulstio~s Mr a (Q . 1) MA N (QS . ..... By constructing ellipses for various energies and for different bet&,. ,tron amplitudes it was P03sible to 'establish that.the -rirm- permissible ;amplitude of radial oscillations., which is 3 ca for 50 kovs increases withAt. ,increasing energy to 3.6 =.for.energles above 100 Wt. The. betatMn_,_.-.,-_:. Card 2/3  L 21966-66 ACC NRI APW170~ frequencies caledlated on the coqmter from the phase sUipses indicate thaf, focussing in adequate over the entire range of energies, Machine bomputed betatron frequencies were compared with frequencies calculated for assumed circiaar obits. This comparison revealed that fre_''I quencies calculated by Ifemooth approximation" formlaap by formulas using harmonic field analysis,, and forimaas derived for,an assumed stepwise field).1 .diffor-from the oomputer resate by 5 to 7%4, Analysis of the vapnetio field indicates that the cyaotron design .,4th split magnets easily-producos -an isochronio tiold with very deep !azimuthal Variationjo ppviding good focussing for all orbits&,!- Orig. art& has: 1 formula, EJPRSI SUB CODE: 20 SUBH DATE: 29KaY65 Card 313 -7  GLADYSHEV, V.A.; KATSAUROV, L.N. J hWEIMOV, A.N.; MORM, Ye.,14.; L.P* Design of a spiral-coll 300 Kev. cyclot-.on with external Injection. Atom, energ. 19 no.5:442 N 165- Magnetic field of a ispiral-coil .300 Kev. cyclotron with external. injection. Atom, energ. 19 no.5:443 N 165. (MIRA 18:12)  XOSAREV, A.I.; KUZNETSOV. A.N.,;.PRO?IINp A.T.; VGIAOVp A.I. Chuck for mechanical testing of thin-walled tubular 5 ecimens. Zav. lab. 31 no.Ilt U16 165. MRA 19:1) "j,  I 11000"PIP., it (too 0 ospAll 7i*2 At AhsvAmomi &a4 Us uPs. A. N, Kusnefsav and R. 1. ZhukwvAii, Ru". Zvi, July V. IVI3. Al vidicat Is 00OWN evisfg, sdasigic 421k(lo arv ftdlKCd in 49t 4 W" al"It'le =1 of. Material Will for mnv% rs"I 13110 544r. ju C-MIJINI., furnace. SM; that C - OU016ornt 1(w the Normstium of Ba sjuminates are 4,1&.1 t.) the Chmse. rhv 144 alu. lmosfi~lq! (~Ftahoed we dectiespowd with 1110, acids ur *W-Ili sultatco Ur carliewlat". CA 0 got of too t:96 t AT to is Id 0 a a ~111` 0 to 0 It N 6 It 4 KLO 4 1 14 0 0 0 0 0 0 0 0 mo 0 0 6 00 00 0  ip ip iF 1* 4, - t e t W F &-#,* 0 0 0 0 0 0 I t a?s S-10- 11-fi-if-m-isli owtow acid S. 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A cW1161eq..ro U-11, the 1 .00 :: 'Ite Ill, C', :~,411#144) fft"11 Ifterjur rotill" the 111'.A.114-A fil't with 11.0 A1111 111ris With 110. nod; 0001 I coo too goo wee, so* so* Wo* a - I L a A4rA&,Lv*$K&-L- t'llrakywif CLAISVICATON 00 too 141043 "it GMT 0.4 m 0-0 Ilk uis AT `0 IT *', I AO 0 00 6 0 00 0 see 0 o 0 o o 0 o o 0 a o 0 0 0 0 0 0 0 0 0 0 0 010 0 0 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 0 0 00  kit I.  YUZNI~P-3011.1 A. N. USSR/Chemistry - Iron MetiLllurgy - Ferrous Aug 51 "Mochanism of the Reduction4f Iron Oxides With 11ydrogen, Carbon Monoxide, and Mixtures of These Two Gases, V. A. Royter, V. A. Yuza, A. X. Kuznetsov, Chem- Tochnol Inst imeni Y. 6, Dzorzin3kiy, Knepropetrovsk "Zhur Fiz Khim" Vol XXV, No 8, pp 960-970 PA 19OT20  !Q - r I " ~~T .M. 0. USt.'R/Chemigtry -Iron Ora TreAtment Jan 53 "Characteristics of the Process of Reductive Magnetization of Iron Oxide Ores#" V. A. Royter, V. Is Karmazin, V, A. Yuza, vnd A. N. Kutneteov, Dnepropetrovsk Chem-Tochnologlcal Inst Im F. E. Dzerzhinskiy; Krivoy Rog Sc&~Research Oro Mining Inst Zhur Piz Khim, Vol 27. No 1. pp 125-129 Effective reductive magnetization of iron oxide ores demands the selection of conditions fav- orable to gradual rather than zonal reduction of the oxides in the entire mass of the lumps or the whole layer of ore. Diffusion interferes with gradual reduction. In the reduction with H of Individual pieces of quartzite, the gradual manner of the reduction is much more pro- nounced than in reduction with CO. H is hardly suitable for the reductiOL Of S sufficiently long layer, because of the strong inhibiting effect of H20 on the first stage of the reduction of re 0 . As a result of this inhibition formation of zones in the ore must occur. Gases contain?ng a mixture of H and 00 are of considerable advantage. 268T20  Rodued" activity of hydrarom an p ta so ow to _xIth respectto 011459 of t" 17 1 Kurnet Y ~( Ir 91 R=hlflg if CIS .. himl, a zhur. POS. AXIM. 47, 16U*-11KTV?YJF; AWOEMMK id.-The reduction of FrA (1) and ItevO4 ef C; A 40 WR Y H CO at temps. txtween " 2M and 350' was ( 1) b and t die Th Initial rate Of reduction (me) of I at 298, an d e Is 15-20 t1mes as great' with CO as with 11. Relsthessme for I and U In the postcatolytic region upon reduction by 11, No Is IS-20 tinits u great for I no Ur 11 In the post. antocatalytic region upon reduction by CO. The over-all rate of reduction of 11 is slightly poster with It than with CO. The malod'decrease In R for the reduction of 'H by CO Is due to a break In the reaction chain: Fe,Oj CO FeO* CO PeO. The break Is the result of reaction of an cited Fe atom with CO to give Iron carbide. Reaction kinetics Is discussed; schematic diagrams of the reaction  KUZ1ZT!iOV, A.N. Effect of the decomposition reaction of carbon monoxide on the reduction process of iron oxides at low temperatures. Trudy IKHTI no.6:72-81 '58. (MIRL 13:11) (Carbon monoxide) (Iron oxide) Oteduction, Chemical)  N. F. Reducing activity of carbon monoxide and hydrogen in respect to cobalt oxides. Ukr.kbim.sbur. 24 no.5:674-680 58. (MIRA 1291) 1. Dnepropetrovskiy khimiko-tekbnologicheskiy, institut. (Carbon monoxide) (Hydrogen) (Cobalt oxides)  R. /V AUITIORS: Kuznetf3ov, A, Ir, IShe3topalova, A. A., 76-1-11/32 Ku'l-ish, N. F. TITLE: The Kination and the Mechanism of the Reduction of Cobalt Oxides (0 kinetike i mekhanizme vosstanovleniya ekislov kobal'ta). PERIODICAL: Zhurnal Fizicheskoy Khimii, 19562 Vol- 32, 11r 1, PP- 771-78 (USSR) ABSTRACT: The authors refer to the fact that the oxyeen compounds of cobalt were insufficiently investluated hitherto and the reduction processes of cobalt oxides were apparently not investigated at all. Examples of kinetic differential curves of the process of a reduction of Co.0 0 by h-yrdrogen at ' 4* y W various temperatures are given. The authors 3how that cobalt oxides can be reduced nore caoily by meane of hydroren than by the corresponding iron oxides. This, mort-over, is possible at a lower temperature: Fe 203 is practically nct reduced by hydrogen below 2500C while Co 304;0Y can even be reduced with a velocity well measurable at 9~10C. The reduction of Card 1/4 Co304'0y at the respective temperatures -bakes place in two 41N,  The Kinetics and the Hechanism of the Reduction of Cobalt 76-1-11/52 Oxides stages. G. I. Chufarov and collaborators showed in ref. 3 that Cc304 is reduced in two stages: Cc 304 --), CoO and CoO -~ Co. The authors state that this takes place only above 3000C where Cc304. is reduced in 2 and ccrrespondingly Cc 30 4.0y in 3 stages. -Subsequently it appears, that in the case of the reduction of cobalt oxides, there exists a temperature limit, at the aurpas!AnG of which the Co-phase (which is accumulated in the phase just beirk; reduced) becomes stable. The characteristics of the reduction of Co 304*0 at above 300 C will be given in the next work.- In the first stage of the reduotion of Cc304 ' 0y no au-Iocatalytic development of the process takes place, the induction period is lacking. The reaction of the reduction beL:irs with a maximum velocity which gradually decreases r-,' reaches a minimum at the transformation point of the ol)rresponding phases. In the 2nd stage the reduction process shows a clearly marked auto- catalytic charactez-. At lower teziporatures of 195 to 2000C Card 2/4 autocatalysis is less clearly iiiark;~~d thar, at higher  The KiD8ti0B and the Mechanism of the Reduction of Cobalt 76-1-11/32 Oxides temperatures (271-2960C). At above 2300C in the second stage immediately after the autocatalytic range the velocity of the process is about half the value of the initial velocity of the Co 304'0W reduction. In the ranCe from 200-2700C? however, the velocity of the process increases in the second stage to the double of the initial velocity of the Cc 304*0y reduction. The apparent activation enerCy of the process Cc 304 + 4H2 --)3CO + 4H 20 was 1718 kcal, The experimental data speak convincingly in favor of the faat that the process of the reduction of cobalt oxides shows creat similgtity with that of the reduction of iron oxides. The authors are of opinion that in both cases the characteristics of the kinetic reEularities are connected with the crystal-chemical trans- formation of the reducing solid phases, with the peculiar reaction - diffusion of elementary ?articles of crystalline lattices of reduced oxides. A scheme for the process in the reduction of the Cc 0 0 phase is Given. According to the Card 3/4 author's opinion th; ix*pgrimental data can be well explained  The Kinatica and the Mechanism of the Reduction of Cobalt 76-1-11/32 Oxidos by taeans of this scheme. There are il fiCures, and 5 referenceo, 5 of which are Slavic. ASSOCIATION: Chemical-TechnoloCical InatittiteDne.)ropetrovsk (Dnepropetrovskiy khimiko-tekhnolo,,iclieskiy institut). SUBMITTED: October 1, 1956 AVAILABLE: Library of Congress Card 4/4  67278 /1.3/00 SOV/180--59-4 /48 ;Z AUTHORSi Xuznetsov. A.N. and Xulish, N.F. Wnepropetrov ) TITLE: Some Peculiariiiies of the Kinetics and Mechanism of the Reduction Process of Cobaltocobaltic oxide'by Hydrogen .1 PERIODICAL: Izvestiya Akademii nauk SSSR, Otdeleniye ?ekiinicheskikh nauk, Metallurgiya I toplivoo 19599 Nr 4, pp 52-58 (USSR) ABSTRACTs The broad rules for the kinetics and mechanism of the reduction of metal have been formulated by G.I.Chufarov and his school (Ref 1), who have propounded the "adsorption-catalytic" theory. The present authors describe their attempt to formulate more precisely the detailed mechanism and kinetics of the reaction of Co304 by hydrogen and compare them with 'those observed by A.N.Kuznetsov et al, for Fe3 04 reduction (Ref 2,5). A pure artificial preparation Of C0304 was reduced by a previously described (Ref 216) method in a closed circulating apparatus. The oxide was prepared from C03040Y by prolonged heating in air at 825% to constant weight. 0-5 g Tablets, 11 mm In diameter and 3 mm thick, made from the powder obtained were reduced at 220 to 342% with chemically pure hydrogen. The results are shown as plots Card 1/4 of the rate of reduction (represented by the volume of  67278 SOV/180-59-4-9/48 Some Peculiarities of the Kinetics and Mechanism of the Reduction Process of Cobaltocobaltic Oxide by Hydrogen hydrogen used by I g of initial oxide) in one minute against the degree of reduction (represented by the volume of hydrogen used for the reduction of 1 g of initial oxide). Fig 1 and 2 give curves for C0304 for various temperatures while Fig 3 gives corresponding curves for Fe;03 The former is more easily reducible but below 300 C ~he general character is similar; the autocatalytic nature of the process is evident. To get more information on Co~04 reduction above,300 0C specimens were pre-reduced by hy1rogen at 225 to 480 C until exactly 93 ml of hydrogen, is that required to reduce 1 9 of C0304 to CoO, had been consumed and the reaction was then frozen. The material obtained was analysed for metallic cobalt by a copper-sulphate or silver-nitrate method. The results (Fig 4) are represented as a plot of the ratio of the weight metallic cobalt per I g sample to that calculated for reduction according to the equation C0304 + 4H2 = 3CO 4 4H20 Card 2/4 for the quantity of hydrogen consumed. Between 286 and  67278 sov/18o-59-4-9/48 Some Peculiarities of the Kinetics and Mechanism of the Reduction Process of Cobaltocobaltic Oxide by Hydrogen 290% a 1.8-fold reduction in metallic-cobalt content occurs; below and above this range the content is practically constant. This indicates that there is a temperature (291*C) below which cobaltous oxide becomes thermodynamically unstable and cannot accumulate in the stoichiometric quantity during the reduction of higher oxides. Although there are many similarities between the reduction of corresponding iron and cobalt oxides, the- stages in the latter are much less distinct. The X-ray patterns from oxide partly reduced at 226 and 48O*C in Fig 5a, and 5b, respectively. show that in the first, metallic cobalt and cobaltocobaltic oxide are present; in the second, cobaltous and not cobaltocobaltic oxide is present. The reduction curve for C0304 only begins to show a break corre Is ponding0to Co O4-)CoO at reduction temperatures over 300 C* Ne authors discuss this effect and the nature of the induction period for the reduction process, though they announce their intention of dealing with this also in a future paper. They show that the Card 3/4 autocatalytic mechanism can explain the observed decrease  67278 SOV/180-59-4-9/48 Some Peculiarities of the Kinetics and Mechanism of the Reduction Process of Cobaltocobaltic Oxide by Hydrogen in metallic-cobalt content of a partially-reduced sample. X-ray patterns (Fig 6) of metallic cobalt obtained from C0304 by hydrogen reduction at different temperatures provide further information on the accumulation of phases. There are 6 figures and 17 Soviet references. ASSOCIATIONIDnepropetrovskiy khimiko-tekhnologicheskiy institut Kafedra neorganicheskoy khimii (Dnepropetrovsk Chemical- Technological Institute, Chair of Inorganic Chemisur-y-r- SUBMITTED: February 199 1959 Card 4/4 F,  KUZnTSOV. A.M. Kinetics and'Imachanism of nickel oxide reduction by hydrogen. Zhur.fIz.khim- 34 no-1:32-38 Ja 160. (HIRh 13:5) 1. Xhimiko-t nologicheakiy institut imeni I.B.Dzershinakogo, Dnapropatrov~k! (Nickel oxide) (Ebrdrogen)  KUZNETSOV, AiN.; xw~=, more Some relationehips in the reduation of metal ozides of the iron fami4. Zhur, fis, khim. 36 no../,t720-725 Ap '62. (min 15s6) 1. Dnepropetrovskiy Ithiallro-tekhnologidhaskiy institut. (Iron group) (Oxides)  L 3M-66- -EWT(m1/EPA(w)4 VIA(M)-~2 IJO(c) GS ACCESSION NRt ;6T5007946 9/0000/6t4/000/000/0658/116,61 -tsnv, A. Hol hartynovai 1,olp ih AUTHOR. J(j4yahtMA Kgj!jg~~ Kuznf t'r1roz4 Y-. M. I ITLE: VoncernIng the input or ton beam ItIto a SJSL(!.tron t:OURCE' Injernational Cotiferenre on High Energy Acc-l-rat-ors. 11,ibna 1963. Vrudy. floscow, Atomizdat, IqF;11, 650-661, TOPIC TA(,S: cyclotron, particlo beam ADSTRACT: The problem of the externAl Injection of Iniv, Itito a cyclotron rvnpatns ,-.especially pressing In connection with the.problem of fhe acorlerntion of.pol-irized Ions, because the sourco nf polarized particles, like some ,ther complex soui-es, cannot be situated at the center of the cyclotron, Since, in the case of external injection, the acceleration begins- with a certain Initial enerpy, It Is possible to avoid a number of difficulties c6nnected with the first revolutions In the central portion of the cyclotron. One of the procedures for -,Ivlng this problem Is to in- put the beam along the vertical dxIs of the cyclotron .110 turn It by an electro- static deflecting system through 900 Into the median pinne. IT* most substantial deficiencledi it seems, of axial 1hput of ihe beato Is tho considerable loose s and Card 1/4  L 3777-66 ACCESSION ft AT5007946 the coMlexity Pf the deflecting syntem. The prenent report indicates h(,w Jt 1,~ possil)M to realize external beam Injectlon In the median plane nr the magnet 71JR can bp d-ne especially st 161- m4vie "Im I In pi~~ct _cyclotrons. -1 n-a-noobnmnjv,- "P -or us ti i ---field A-0-afti-cles expnPloice a drift across the gradient nt the magnetic field. It is expedient tn take advantage of this In the s#~ctor cyelotran by direct-, Ing tho beam of particlen so that they drift up to the central rrplon of the cycle- tron along the boundary of onfb of the sectors. In thn cenfrnt region It Is possible with the help of a cylindrical electrostatic field 1- transrer the particles to the tvajectory required later. In the case of a homogepeous maFnetic field, which al- most always holds true at the central region of seeffir cyclotrons, the minimum elec. trical field strIength t In the cylindrical condenror thnt Is necessary for the min traInsfer of the particles from one trajectory io anoth,!~r cAn be represented by the formula where W Is the kloetle energy 6f the' p-artidies in 644 k I's the ra&US of -curvature (for a nonreldtWatid hingle-thark6A 1CM 44olloj ew), H 6rd 2/4  L 3777--66 ACCCSSION M -ATS001946 M Is the mass of the ion In units of the mass of the nucleon; 4 Is the tingle betweett the trajectori es-at the point of their Intersection. As It turnn out, it Is possible to choone the place for Injecting the particle beam such that it will alwayn be focused on its path along the magnet sector. On the path to the central repion of tha cyclotron It In possible to describe a series of loops, and also the f",piency of a particle's revolution (momprecisnly,_ the frequency-of loop formation). -- The --juality-of-the-ma P-Petic-focus-Ing of the particles Is characterized by the ratio of the freqiiencles of the particles' horizontal and vertical oscillations to the men- tioned frequency of loop formation. The radial focusing of the ions In the magnett systpm considered almost does not dtffer from focusing in a homoFeneous. mapnetic field. Similar considerations hold for the vertical focusing of the Ions. The con- d1tions for the stability of the vertical motion of the ions are characterized by inequalities involving the maFmotic, field In the gap between the secto" in the region of beam passage. In the case of the authors' cyclotron, there always exists a wide Interval of Initial distances of the beam from the sector boundary for which the Injected Ions can reach the central region of the cyclotron magnetic without experiencing defocusing, The experimental verification of the possibility of ex- temal Injection by the constdared method Use carried out on a three-sector cycle- Card 3/14 77~.  .L 3777-66 NRt ATS007946 tron with straight sector borders (magnet diameter-420 mm; accelerated particles--I -350 Kev deuterons). The experimental set-up and results are described In the pre-* sent report6 Drig. art, hast 4 f1gures4 ASSOCIATIONI Fizicheskly Iftstititt Imen! R. Lebedeva A# SSSR (Ph~slcq Institut4ij ;AN SSSR) ,SUBMITTEDi 26kay$4 t"CfA Do Sto Cot i HP 0 REr so#t ood atifti 601  ACC NR, AT6016425 SOURCE CODE: UR/0000/65/000/000/0173/0178 AUTHORS: Zakharov, Ye.-Depo Sorokin, K. A.; Kuzn8tfiov1 As NI; Sinya skiy, V. S.; Gusov, V. F.; Kum-otsoovaa, . N.; Ts # 1.-F.'T leg roval JJ0 a* ORG: none TITLE: Dependence of the stability of the solid solutionAn the alloy D16,,on the chemical compositlon' f+ ft SOURCE: All SSSR. In3titut metallurgii. metanovedenlye legkikh splavov (149tal- lography 16f light alloys)$ Mosoow.-lid-vo Nauka, 1965, 173-178 C~u AL4L., j rrAA-A p4o ju,4 TOPIC TAGS: aluminum==~W alloy, solid solutiol,l magnesium containing a3.loy,, :copper containing alloy, manganese containing alloy / D16 aluminum anoy ABSTRACT: The stability of solid solution in D16 type aluminukilloys was studied as a function of the alloy composition. The stability of the solid solutions was determined by the method of step-wise tempering at 250, 300p 350, 1+00, and 450C for periods of 0.5, 1$ 2, 3, 5p 7p 100 20, and 60 mint After tempering, the apeci- mons were naturally aged for a period of 10 days, then their electrical conduc- tivity, strength limit, relative elongation, and ilow limit were determined. The experimental results are shown graphically (see Fig. 1). On the basis of the ox- perimental data C-curvea for the stability of solid solution were constructed (see Fig. 2). The optimum alloy composition results from: less than 6% total copper r'-A 1/3  ACC NR: AT6016425 HE* ohm. mm2 f L-O'Al~ ~i~l min, Fig. 1. Change in the electrical conductivitY of alloy No. 1 (3,91% W; 1.2% Mg; 0.5% 14h) as a function of the duration of isothermal tempering at intermediate temperatures. 2/3  a Ice 2 v--66 ACC NRi AT60164-25 vu JI&I 4Y to #I */,I flip 0 0 0 0 "'j, "IFF41 4v0 M ~0~11 At C-44) Durationt of Jisjoth/Permao-li'l if,. tempering, min. Fig. 2& C-type diaeram for the stability of the solid solution in alloy No. 1, constructed from data for the change in the strength lindt (for normal tempering 0~ ~ 45s1 kg/=~J$ and magnesium content for a total of leas than 4.8% copper content, The manganese content should be less than 0.6%. Orig. art. has% 1 table and 5 figures* SUB CODE:, U/ SUBM DATZE: 16Sep65/ ORIG REF% OOl/ OTH REFi 002  --z /J-'~'/ , AU THOR 8 j Yurikov, P.A., and Kuznctsov, A.U., ,-.'nj,1neerrj 91-58-6-26/39 for 14ah&j2g TITLEa People Struck by Lightning Through za Wiring S~ste, "luchay-pora- ka zheniya lyudey molniyey chei~e,,; ouvetitellnuyu provodku) PERIODICAL: Energetik, 19581 Nr 6, pp "'(-28 (USSR) ABSTRACT: The article describes how several people were struck by light- ning due to electromagnetic waves being conveyed along overhead lighting wires in the absence of precautionary measures such as the grounding of hooks on leads described by P.A. Yurikov in "Energetik", 1955, Nr 10. There is one figure. AVAILABLE: Library of Congress Card 1/1 1. IJ40itning-Hazards  AU~HOR: Irr-11 0 SOV/106-68-11-6/12 TITLE: Recommendations for the Choice of Distribution Oscillator for a Start-Stop Regenerative Telegraph Repeater (Rokomendataii k vyboru generators, raspredelitelya dlya startatopnoy elektronnoy regenerativnoy telegrafnoy translyataii). PERIODICAL: Elektrosvyazl,, 1958, 11r.11., pp.62-68 (USSR) ABSTRACT: An analysis is given of the operation of the regenerative repeater RS-13 when used with the 3T-35 equipment. it is shown that operation does not take place in the optimum time-regime and in consequence its stability is lowered. Means are proposed for avoiding this shortcoming. The repeater, which has been described in Refs.1 and 2, is shown diagrammatically in Fig.l. The correcting circuit for start and stop of the sinuaoidal oscillator is a combination of kipp-relay and the contacts of a polariaed relay. An analysis is made of the operation of the circuit when the speed of workin is allowed to vary over the permissible limits of 2;. Fig.2 shows the relevant wave- !Card 1/4 forms when communication is established between trans-  SUV/106 -5b -11 -8/ 12 Recommendations for the Choice of Distribution Oscillator for a Start-Stop Regenerative Telegraph Repeater. mitter and repeater. Fig.2& refers to the normal operating speed and it will be seen that the duration of the contact during the start and stop cycle is the same at transmitter and repeater and is equal to 7.064 Where A is 22.39 microseconds. Fig*2b refers to the lower limit of sending speed; the critical duration of the elementary code-pulse is 24.25 microseconds. The upper limit of sending speed depends on the charging time of condenser a in the kipp-relay; waveforms, are in Fig.2v, whence it is deduced that the theoretical correcting power of the repeater is 12*11%. When considering the mechanism of operation between repeater and receiver use is made of the description of the working of the ST-35 equipment put forward by Prof. N.B. Zeliger (Ref.3). Fig.3 may be used to determine to what extent the receiver responds to variation in sending speed when relayed by the repeater. Curve 1 is the start-stop cycle of the ST-35 equipment at normal operating speed. Curve 2 in the output cycle from the repeater at the lower limit of Card 2/4 speed, Curves 3 and 4 show the operation at 2% Increase  BOV/lo6-08-11-8/12 Recommendations for the Choice of Distribution Oscillator for a Start-Stop Regenerative Telegraph Repeater. and decrease respectively. It will be seen that variations in sending speed are registered only In the duration of the stop pulse. The most arduous conditions for the receiver are when it cannot completely realise its own limiting reduction in velocity and the transmitter is operating at its upper limit. There is a negative margin of 0.96% in operating speed which in practice can rasult in the repeater delivering pulses of the wrong sign. Practioal experience confirms this possibility. The security of operation may be increased if the time of operation of the correeting circuit and the repeater oscillator are reduced. It will be seen from the firat three graphs of Fig.2 that regener- ation of the atop pulse occurs at a time To = 6.5b while the sine-wave generator must work for a time -r = 6.75t. If these two timea were made equalo then the time 0.25t during which the stop pulse is being produced could be used as a supplementary increase in transmitter speed. Thia would increase the correcting power of the repeater to Card 3/4 33*35%. It would also guarantee certain operation of the  SOV/106- -8-11-8/12 Recommendations for the Choice of Distribution Oscillator for a Start-Stop Regenerative Telegraph Repeater. equipment over the whole range of speed variation. Fig.4 shows an improved form of distribution oscillator using a circuit described in Refs.4 and 5. It has the property of producing a rectangular waveform at the instants when a sine wave goes through zero. The practical advantage of the circuit is that it is, in effect, a contaotlesa switch, There are 4 figures and 5 Soviet references. SUBMITTED: January 17, 1958. Card 4/4  I r, L- -I I ; ~ ~- 1. ~ - ~-, I "- - -1, A , JL.K., Inz-h.; le-ftSMIN.A-M.- I Inzh * ; KHAYTUN, B.I., inzh.; BATMION, lose, Inzh - KUZNNSOT insh. ~ Ihig-tie breakers of step-down substations. Mak. sta. 29 no.2:90-92% 7 158. (MIIRA 110) (Electric cirouit breakers)  KUZNETSOV, A.R. Use of the method of telluric currents in the southeastern part of the West Siberian Plain. Raz-ved.1 promegeofiz. no.44:7845 162. (KIRA 15:7) (West Siberian Plain---F-lectric prospecting)  KUMETSOV9 A.~Y,?~ M-,ouracy of partunaLer K dotaminatlon by the methocl of' telb)ria currantas Hasved, I proms geofir.. no.4,8263-65 163  P.azved. I Prom. geofiz. no. q.  XUZN-PT.,'OV, A.N ?--ospects for the use of induction chRnnel f,znacea for smeltirg aluxinlim and its alljys. TSvet. root. 38 no.4s8o-83 Ap 165. (KRA 19t 5)  'KU7-NF-"..OVj A.N. Los of boreholes vhers casing has been set as feeding alentrodes in alsatria prospeating, R&zvad6 lpofis, no,506-101 165, (MMA is, 9)  9684-66 1:1,Mthl T I M TITLZ: Clamping,chuck for sischanical tests of thin-walled tubular spocisens KM N% B COD':' UR/0032/65/031/011/1416/1416 AP5027473 SU 9 AU-- - THORs Kossrev, A. I.; KuXnets roning A. T.3 Volkov, A. L _7717T 77 -y5- ORG: none SOURCS: Zavodskaya laboratoriya, v. 31, no. 11, 1965, 1416- TOPIC TAGS: clamping chuck, metal test, test facility, high temperature strength, metal tube ABSTRACT: High-temperature strength test of thin-walled tubular specimens involve difficulties in attaching the specimens to the test machines. These difficulties could previously be circumvented only by testing extra-long tubular specimens or by welding special mounts onto the specimens. To obviate these difficulties, the authors designed a self-centering chuck (Fig. 1) which makes it possible to test tu- bular specimens of any length, The chuck consists of housing 1, three cone-shaped bushings 2'with inclination angle of 4.5-5* and threaded inner surface, and connect- ing sleeve 3 serving to tighten the hold on the specimen and connect the chuck to the testing-machine clamp. To enhance the rigidity of specimen 4, plug 5 is inserted over the butt end of the specimen. Clamping chucks of this design have been used by the authors In the tests of tubular specimens of VTI-1 titanium alloy at the temperature  96~4-66 ACC NR, AP5027473 cn 2/3  L 9634-66 ACC NRi ~ AP5027473 of 4500C as well as of thin-walled aluminum-alloy tubes with diameter of 16 mm and less, produced by cold pressing at normal and elevated temperatures. The parts of clamping~lchucks for the testing of aluminum-alloy tubes may be made of 40Kh or 50 steels, and the bushings -- of tool steels, while the parts qf chuc~~s~?oxr testing tubes of heat-resistant materials should beat be made of U4370or 919291chrome- nickel, alloys. For tubes with similar outside diameter* Me -same cl-a-nip ~ng chuck may be used on merely replacing the bushings. Orig. art* has: I figure. SUB CODE: 11, 13/ SUM DOLTS: none/ ORIG REY: 000/ CVM REY: 000  KUZIIBTSDV, A.P. Characterletten of coal and gau outburitte. Trudy Inittgor.delas SIb.otd.AX SSSR no.lsl77-190 158. (MIRA 1 :11) (Coal geolog7) (Geochemistry)  KU Mechanism of coal and guo outburatu. Trudy Inut.gor.dolu.Sib. otd.AII SSSR no.1:191-205 158. (MIJUix 12:11) (Geocbemietry) (Subsidences (Marth movamouta))  It- -ov'A.P. Sci t i.i d,;- o f^ i!i( no, (:ti-; of -!otlon".., of ct-)-~l Sudilloll OJI nu \r9l - T rl ,5" Fuzyke 01'113':j jo Afl b,.13ill. -der of L--I,c,r au6. I' ..).n (To P, rincir Polytt!cli Tont I Yiniv), 1`0 co i-.-:  ----- ---- -- KUZNF. US ~9 A.P..LM0140T, B.P. Outbursts of ooal and gas abroad. Trud7 Inet. gor. dela Sib. otd. AN SM no.3s200-203 160. (MIRA 14 34 (mine gases)  -Iuzn_ T�RV.L_A..P. Through otudy of the problem of outburota of coal and gao. TrW Iust. gor. dels, Sib. otd. AN SSSR no.3t2254239 160. (Mine gasea) ,I (MIRA 34-1~)  CHINAKAL, N.A.; KUZNETSOV. A.P. Fhano mof sudden outbursts of coal and gas and some characteristics of coal We in t~he outburst areas. Izv. Sib. otd. AN SSSR no. Ut 51-58 162, (MIRA 170) 1. Institut gornogo dela Sibirskogo otdeleniya AN SSSR, Novosibirsk.  d Mff _'WR_-_AP6Ol8O95 son, a CODE: Wd-2~dj766[0-66-fo-0-276-i-8-576-i~f�- mp_tnoy. A. F.;Lobrd1nski7,_A-_j- -KiI7 --is ok-_ ersity(Mookovskiy u'iG-. jnAit'U Nuclear fj#a Mosc(.)Vr State UnAv govddhrBtvannyy.universitet, Inotitut yadefn-oy fizlki) TITLE: Earth's ultraviolet apectrum from measurements on the satellite Nosmov-65 SOURCE- GeomagnAiim_ i aeronomiya, V.' 6, no. 2, 1966, 185-189 TOPIG TAGSt uv spectrumj solar spectrumf scientific satellite, electromngnoti.c wave reflectionAosmos-65 scientific satellite ABSTRACT:.1ho satellite Nosmos*-63 made measurements of atmospheric reflec-__ tion o~ radiation in the region 2250-3070 A with a resolution of 15 At This paper describes two spectral a typical spectrum and a spectrum with maximum readings. Both spectra were observed near the equator jwith a position of the Gun close to the 'zenith. In a comparison of ;the observed and computed spectra At was found that the first contain., a considerable number of details'-which are missing in the computed -spectra. 7hia occurs because the computed curves were constructed ,Usin- the solar-spectrum, averaged in a 100 A interval, and therefore 0 were greatly smoothed. For the most part, however,, the observed and ;computed spectra and their absolute intensities coincide. There is .some difference at the edges of the spectra: it*was not possible to detect a rise at I < 2400 A and the drop at t *,j2950 A was less steep than might be expected using the computed curves. The authors give a ,comparison of the measured spectra and the results of photometric ob- servattop oi-a-1 nk Yu" V _'Yai6zi65ko. q_on rockets and, satellitea~,06 auth ha V. P_. Malin and M. B. Glot f r their assistance in preparing this experiment. r~jt_ r hagt es Rs7 'COD t CO- LAM DATE- 24 ov65/ ORIG REF, 0031 OTH ~EF- 009  KUZNFTSOV,,A.P. '(Wovokbirsk)l KWHIN, L.M. (NarooibirBk) SOIAU theory of strengthening to certain prob Wiility of Plates. and shells in conditions e i8449 H-D :60. (MIM 14:7) of er atiq*pJAtes and shells) ~~Creep of materials)  8/207/61/000/006/019/025 A001/A101 AUTHOR- Kuznetsov, A. P, (Novosibirsk) TITLE: Stability of compressed Duralumin rods under creep conditions PERTODICAL; Zhurnal prikladnoy mekhaniki i tekhnicheskoy fiziki, no. 6, 1961, 16o-161 TEXT: An investigation of stability of compressed rods under creep condi- tions was conducted on 66 A16T (D16TJ Duralumin specimens 6 mm in diameter and 100 mm long. They were heated to 250 C and held for I hour, followed by the application of a constant longitudinal load until the failure of the rods. The results of the experiments are tabulated and presented graphically. The creep process can be described by the following equation- bp" - A on, where the value of the constants, derived from jhe processing of the observational data, are as follows: A-- 8.995 x io-7 mmen n 1.358 for 6' < 9 and mm -12 mm2n ke hr k A - 3.476 x lo n 7.31 for 9 (no values for are given). kg hr m Card 1/2  s/2o7/61/000/006/019/025 IStability of compressed Duralumin rods under creep ... A001/A101 The values of critical longitudinal strain are calculated and presented graphi- cally. Comparing these values with predictions of various theories, the author finds that the semi-empirical hypothesis by G. Gerard (A Creep Buckling Hypo- thesis. JAS, 1956, v. 23, no. 9) corresponds best to the experiments. There are 5 figures, 1 table and 5 references, 4 of which are Soviet-bloc. SUEMI-=: August 3, 1961 Card 2/2  AUTHOR: KuZMt9oY,_A. P. and Kurshin, L. M. (Novosibirsk) S/207/62/000/003/011/016 1028/1228 TITLE: Stability of circular cylindrical shells under.conditions or creep PERIODICAL: Zhurnal prikladnoy mckhartiki i tekhnicheskoy fiziki, no. 3, 1962, 66-72 TEXT: The problem of stability under conditions of creep is treated on the basis of an analysis of the accele- rations of disturbed motions. Ths state of the cylindrical shell is considered as unstable if the velocity of the disturbed motion produced at a given moment under the influence of a disturbance increases with time. The equations determining the velocity and acceleration at the initial moment of the disturbed motion arc esta- Wished, and the equations or stability obtained from. them. These equations arc solved for the case of longi- tudinal compression. There are 2 figures. SUBMITTED: November 28, 1961 Card 1/1  I __- --~ , n V- L-rTx-rxvl; - XV& , I I-f- A-.1"-~p - ~ - - - -1 . r. !T , .- -- . - - , U.... I ~,A T s ub i o-- c e c' to c o r%,; ~~a r~t a nd c yc lic load s  4 -~ - ----- - -, , -: ~ T ;~ . . - -, -~~ t~.  - EL2-WIMOV, -A.Z.; KURS1111T, YU.IV. (I.Ilovosibirsk) -_ - "On the solution of the problem of creep buckling of shell on the basis of geometrically non-linear theory". report presented at the 2nd All-Union Congress on 1heoretical, and Applied Mechanics~ Moscowj 29 Jan - 5 Feb 64.  -04101UP I J- L, i A fisik not 21 v1 j - Ell   t ed ex-verimen ta 1' 9 lici r'~   -qA  3u-lx Ar gi,   KUZNETSOV, A. P. KUZNETSOV, A. P.t "The affect of additives on the fatigue stability of cement solutions". Kiev, 1955. Min Higher Education Ukrainian SSR. Kiev Con- struction &gineerin$ Inst. (Dissertations for the Degree of Candidate of Technical Sciences.) So- Knishnaya letopis' No* 49, 3 December 1955. Moscow.  KUZMSOV,A.P., doteent Affect of admixtures on the fatigue strength of cement mortars. Stroi.prom-33 no.6:36-38 Je'55- WaA 8:10) (Cement)  124-1957-10-12276 Translation from: Referativnyy zhurnal, Mekhanika, 1957, Nr 10, p 148 (USSR) AUTHOR: Kuznetsov, A. P. TITLE: The Effect of Additives on the Life Expectancy of Cement Mortars Under Fully Reversed Alternating Stresses (Vliyaniye dobavok na dolgovechnost' tsementnykh rastvorov pri znakoperemennykh napryazheniyakh) PERIODICAL.- Izv. Kuybyshevsk. s.-kh. in-ta.) 1957, Vol 12, pp 191-209  KUZN&TSGVp A.P. , inzh. Road a made of cement-reinforced weak materials. Avt.dor. 26 no.9r14-15 S 163. (MIRA l6sIO)  KUZNETSOV, AsPs, inzh. Effect of aggregates on the freezing of gravel materials. Avt. dor. 27 no.9%14-15 S 164. (MIRA 17:11)  XMNETSOV . A. P. j inzh. Building beds of weak limestone for roads in Leningrad Province. Avt dor. 25 no.2.-IO-11 F 162. (MIRA 15:2) ?Leningrad Province-Road materials)  KInMTSOV A. P. inzh. Frost resistanee of nonconditioned F,,ravel and sand materials strengthened with cement. Avt.dor. 25 no.9:23-25 S 162e OMA 15: 9 (Road materials) W  KMNSTSOVP AaP~.9 inzh. --- Dateruining the moistuio'content of-soils vith calcium oarbide. Avt. dor. 26 no.It26 Ja 163. (MIRA 3.6t6) (Soil moisture-YAaeurement)  KUZNETSOV, A.P. Cement spreader for soil stabilization. Avt. dot. 27 no.2t29 F 164* (KIRA 170)  PK!EZ�OV . , inzh. a_" Frost resistance of cemented road materials. Avt, dor, 28 nos2l 23-24 F 165. (KM 18-6)  AkIA Alloys WM=O"Ing +.bs Dul-allity of Bearij* Surf"es by Applying a layw of Iftwitel 3- A. P. Ruwateovi Candidate In ToohnIcal Solences., 3 Pp "Wootroyanlyaw No 1 "Sormitom bolougs to the group of met&U knovn as I -stellites and has the following apap"It M. Or 30%.. NJL ~ 3 -0 2 No up to 1$' Bi and over ", Fe Spealf 10 8MVIty Is ;n; melting point in The author ]presents cross-sootim vlows of -bowlW shoving the points where this metal, alloy should be applied in order to SM7 ED I,  ?A 29TIO0 -Oecuetrld Mmuremente of ioe for'Cwtrolling the, jid"ller-VAMO)" A. P. MiznOtGOTO Candidate in Teoh- ---Aloal Sciences, 1 p ludostroyenlyO No 3 The author gives'a, brief descriptIon of a machine for -.~cntrolllng the pitch of propeller vanes at the saro ;Iime that they are being f Wahed. Be presents three of the taglat asseubly.' A. S. Godyeyev, P. 1~,bft~avp- and N. 1. Vasillyev aselated the author It the development of this place of equipment. 338  KUZIIETSOVi A. P. 25572. XUDWIS7OV, -A. F, -1 Deformatsiya krupnykh zagotovo~ v protsesse obrabotuki. (K obrabotke kolencha- tykh valov dlya sudovykh miashln). Trudy Gorlk. Industr. in-ta im. ZhdAnova, T. VII, Vyp. 11 191~8, a. 35-4.4. Pibl'o;,r: V, Nazv. SO: Letopial Zhurnal Statey, No. V, Moscow, 1942,  - A. - "Tlie specifications of pulsations and displacements in naval machine construction," Trudy Gor1k. industr. in-ta im. Zhdanova, Vol. VII, IsEue 2, 1948, P. 67-76 SO: U-3850, 16 June 53, (Letopis IZhurnal Inykh Statey, No. 5, 1949).