SCIENTIFIC ABSTRACT KUZMINOV, A. P. - KUZMINOV, S. Z.

L 225-71--65 ACC7Zq',LOf4 IIR: AP4046782 ,resented wi th special at :-e:~ t I ) ri v e i 4~ L a TISM I S a !on COU L r La ai &ige and SDecialized training devices, including ;PAceshipg. i f; d i a c u -q e, T, a f q mo n a u t a ov e C a W 0 U 0 0 n C a e c - r 71 a ~.j L~ u6c V! CUMpLCX LUncti*aal those which could ba used a m e 4 a SUBIfITTED: 28FEb64 ENCL: 00 SUB CODEi PH.IZ 5 0 V 0 0 6 OT h E Ri U j card 2 12;  Acassiom NR: AT4037695 8/2865/64/003/000/0243/0249 AuTEoR -onishchanko, V. F.; Sillvestrov, H. M. TITLE: Retention of habits for transmitting intormation under conditions of prolonged isolation SOURCE: AN SSSR. Otdeleniye biologichaskikh nauk. Problexq* kosmicheskoy biologii, ve 3, 1964% 245-249 TOPIC TAGS: isolation, emotional streso, manned space flight ABSTRACT: Experiments have been conducted to study the effects of prolonged isolation on the ability of qan to perform habitual tasks involving the trans- mission of information. Data from five experiments on prolonged isolation indicate that during the first day, performance in the habitual transmission of information, decreases both qualitittively and quantitatively. Adaptation tc conditiors of isolation usually takes place on the second or third day; performance improves,, but does not reach the initial level. The average number of errors for a well- trained operator is higher under isolation conditions than under normal cinult- stances. The character and degree of emotional strain has been shown to vary with the individual peculiarities of each subject atudieds 'Card 1/2   L 14?~Z_66 EWUVMB(T).-~3 S D RD--- D/ SOURCE C ACC NR: AT6003834 OIDE: UR/286AM/oWboo/0003/0009, AUTHOR., Gurovskiy, No Not Denisov V, Go: Kuzyminov. A. P.i Siltvestrov M ORG: none TITLE: Training devic .es for preparing cosmonauts for occupational activity in controliTn-g..spacecraft. and their systems SOURCE: AN SSSR. Otdeleniye biologicheskikh nauk. Problemy kosmicheskoy biologii, v. 4. 1965P 3-9 TOPIC TAGS: cosmonaut training, space flight simulation, mannedspacecraft, space physiology, spacecraft navigation, spacecraft controlt space e-.ivironment 5invulation, training equipmentp spacecraft capsule ABSTRACT:'- Training craft such as are used'for' actual flight schoo'llng of aviators.! do not exist for training cosifionauts. Reliance must therefore be place on ground trainers, which must be able to simulate the conditions and factors of normal and emergency spaceflight situations and model the operation of space- craft systems and the dynamics of flight. A g'ieat vdfleV7 . The general character -6f training -devices -are used --*of-such devices-must be--based-on-time- and mothn- studies -of cosmonaut Card 1/5  L 14267-66 ACC MR; AT60M834 activities, operation of various systems, definition of training objectives,- and analysis of training programs and effectiveness of training devices. All-t riaining device6 fall into one of three groups: 1) those for physio- logical training to increase resistance or adaptation to extri.,mal flight factors; 2) those for occupational training in flight operations; and 3) those which combine physiological with occupational training. The present article -discusses various types of devices designed to provide training in space- craft piloting and systems control, Depending on the number of systems, flight stages, and flight tasks to'. be modeled, trainers may be classed as 1) universal, 2) complex, 3) spe - cialized, or 4) functional. Universal trainers (which may be dynamic or static) arc, complex devices which may be adjusted to simulate the characteristics of exititing or projected spacecraft. The most important elements of a universal trainer are a cabin mockup, computer, instructor's control panel, night sky and earth slM'U- lators, program device, and recording apparatus. The cabin mockup may be designed t9 simulate flight conditions (temperature, noise', vibration, atmospheric gas composition, pressure, humidity, and convection) on the ,spacecraft. Card 2/5  1 14267-66 ACC NR: AT6003834' Complex trainers a e desi d to train all crew members in the. details r gne of their activities on a given type of ship at all stages of flight. 7be complex' Arainer used for Vostok pilots includes training for flight and for using systems monitorini manual attitude control, for Earth-ship communications, systems control, manual deorbiting procedures, and for various types of emergencies. All on-board equipment was simulated; the mockup, cabin was Identical with- that of the actual ship. Such details as the alternation of day and night in orbital flight were reproduced. Training problems were imposed from the instructor's control panel outside the trainer. All phases' of normal flight and emergencies in every flight stage were simulated on the Vostok trainer. The construction of complex trainers for multiman inter- -planetary and orbital spacecraft crews and pilots of orbital aircraft (rocket planes) is envisioned. Specialized trainers are tfio's'e designed to provide training in specific flight tasks or activities or the use of control'pquipment for specific maneu- vers. Examples are devices for training cosmonauts in attitude control, navigation,. changing orbits, rendezvous and docking operations, assembly and repair of spa:ce stations or spacecraft while in orbit, getting an inter- Card 315  L.14267-66 ACC NR: AT6003834 planetary vessel under way from a space station, and so on. Specia)Ized trainers model only those systems and information sourcds enterin'g into the performance of a specific flight task. A specialized trainer was used to prepare the crew of Voskhod-2 for EVA. Consisting of a cabin mockup with .,an airlock, whichwas placed in a vdcuum chamber, it enabled Leonov and Belyayev to rehearse every detail of the EVA until it was second nature. Xnother example of a specialized trainer is the airlock flown on parab ouc trajectories to provide training in egress and ingress procedures during weightlessness. Training devices carried on long spaceflights to keep space;I pilots from getting rusty in landing procedures are also classed as spe- i cialized trainers. On-board trainers are designed to make use of existing -indicators, signals, manual controls,, and the on-board computer, Functional ir a-iners are designed to provide practice in motor habitsor other functional capacities utilizeq during more complex flight operations, e. g. . tracking, concentration, perception.- and other basic skills. it models only what is required to increase human functional capacity in one or another, respect. FuActi6nal trainers are simple', cheap, and efficient, They areJ, therefore, well suited to types of training., requiring mapy. hours to establish Card 4/5  L 14267-66- ACC NR: AT6003834 or perfect the required habit patterns. Theoretically It would be'possible to build a combined trainer which would combine all the modeling capab!lities of universal, *complex, and Fpecialized trainers, but this would be a prohibitively expensive proposition and at present it is considered neither desirable nor necessary to do so. Universal-type trainers, which also attempt to model too wide a variety of characteristics and conditions, are unwieldy and inefficient. -The 6~thors c'o~clude that since cosmonauts are trained for specUtc ships- tiskff 6zi a- giVewship,- three -types - of-trainers -arenq and specific cessary #!!_q sufficient: coraplex ~specialized, and 'functional. (AND PMZ: '4091-F 1 SUB CODE: 059 ;u ["SUBM'DATEt none OTH REN 001 Card 5/5  VOLYNKIN, Yu.M.,* ARUTYUKOV, G.A.; AFTIPOV, V.V.; ALTUKHOV, G.V.; BAYEVSK1Y. R.M.; BELAY, V-Ye.; JUYA11OV, P-V,; BRIA111OV, I-,-; VASIWYEV~ P.V.; VOLOVICH, V.G.; GAGARIE, Yu.A.; GEVIN, A.M.; GORBOVI F.D.; GORSHKOV, A.I.; GUROVSKIY, N.N.1- YESHANOV, N.Kh.; YEGOROV, A.D.; KARPOV, Ye.A.; KOVALE-Vj V,V.; KOLOSOV. ~.A.; KORESBKOVI A.A.; XASIYAN, I.I., KOTOVMUYA, A.R.; YkLIBERDIN, G.V.; KOPANEV, V.I.; Rgj~kffj_A.P.; KAKURIN, L.1 ; KUDROVA, R.V.; LEBEDEV2 V.I.; LEBEDEV, A.A.; LODZIN, P.P.; MAKSIMOV, D.G.; HYASNIKOV, V.I.; MAUSHKIN, Ye.G.; NEUMYVAKIN, I.P.; ONISHCHENKO, V.F.; POPOV, I.G.; PORUCHIKOV, Ye.P.; SILIVFSTROV, M.M.; SERYAPIN, A.D.; SAKSONOV, P.P.; TERENTIYEV) V.G.; USHAKOV~ A.S.; UDALOV, Yu.F.; FOMIN, V.S.; FOMIW~ A.G.; KHUBNIKOV, G.F.1- YUGA11OV, Ye.M.; YAZDOVSKIY, V.I.; KRICHAGIN, V.I.; AKULINICHEV, I.T.; SAVINICH, F.K.! STMMRA, S.F.; VOSKFZSENAIY, O.G.; GAZENKO, O.G., SLUff-AN, N.M., akademik, red. (Second group space flight and some results of the Soviet astronauts' flights on "Vostok" ships; scientific results of medical and biological research conducted durJng the second group space flight] Vtoroi gruppovoi kosmicheskii polet i neko- torye itogi poletov sovetskikh kosmonavtov na korabliakh "Vostok"; nauchnye rezul1taty medikobiologicheskikh issledovanii, provedennykh vo vremia vtorogo gruppovogo kosmicheskogo poleta. Moskva, Nauka, 1965. 277 p. (MIRA 18:6)  X66 AT6012890 AUTHOR: Dulat A. A.; Denisov, I Yu. A.; Sip-Ve-81rov, M. M. ORG: None SOURCE CODE: UR/0000/65/000/000/0112/0118 V. G.; Kuzl ~~~Onlshchenko, V. F.; Rozano.6'/-'/ Vo TITLE: An Integral method for eWu&Ung the eftective training level of operators In control systems SOURCE: Sisterna chelovek I avtornat (Man-automaton systems). Moscow, Izd-vo NRuka, 1965, 112-118 TOPIC TAGS: man machine communication, electrophysiology, specialized training, training procedure, human engineering ABSTRACT: The authors consider the dynamics of the process by which an operator acquires skill in control and the degree to which training is effective in an attempt to solve the problem of adaptation of an operator to the system which he controls. Factors affecting the speed at which working habits are formed are discussed. It Is pointed out th-a he purely psychological method for evaluating the level of training effectiveness Is not sufficiently complete and object- ive. Blectropbysiological methods are used for a fuller evaluation of the habit formation pro.;- cess using electroencephalograms, electromyograms, electrocardiogram , cutmeogalvanic reactions and pneumograms to stiidy changes in the neuropsychic makeup of the operator. Thi results ol tests show a reduction In the bloelectric activity of the muscles and. high-frequency Card 112  L 29436-66 ACC NR, AT6012890 .rhythms of the cerebral cortex as well as in the amplitude of electrocutaneous potentials and the number of cardiac contractions to a frequency close to the normal pulse rate. A diagram Is given showing the equipment for comprehensive registration of the electrophysiological indices of the operator during training. An analysis of the dynamic process of coordination between the various systems in the organism of the operator during training Is used for deter- mining the.instant when the operator reaches optimum capacity for dealing with control prcib- lems. It Is found that the cimnilation of a definite quamty of information Is required for maintain- ing a given control process. This quantity of Information Is evaluated for a closed control Sys- tem with a single human link. An integral expression Is given for evaluating the level of effeer tivenessof operator training in Man-machine systems. A curve Is given showing the degree of training effectiveness for an operator in a complex control system as a function of the number of training exercises. - Seven parameters wore used for evaluating training effeo.- tiveness. It was found that working habits were formed after 12-13 training periods, Orig. art. has: 2 figures and 5 formulas. (081 SUBCODE: 05/SUBMDATE: 02Aug65/ORIGREF: 008/'ATDPRE55:6-P/P C L Card 2L2  NR,- 'AT6036~k---'-------'- SO.URCE COD EtUR/00 00166100 0/000 /0 1691010 AUTHOR: Zharov, S. G.; Kuz P . Kaslyanp Is I.; Maksimov, D. G.; Onishchenko, V. F.; Popov, V. ORG: none TITLE: The problem of investigating pilot work capacity during long sojourns in s aceship mockups [Paper presented at the Conference on Problems of space Medicine I?eld in Moscow from 24; to 27 May 1966] SOURCE: Konferentsiya po problemam kosmicheskoy meditsiny, 19'66. Problerror kosmicheskoy meditsiny. (Problems of space medicine); materialy konferentsii., moscow, 1966, 169-170 TOPIC TAGS: isolation testo human physiology, hypodynamiaj respiratory systemo space physiology ABSTRACT: On prolonged spaceflights, cosmonaut work activity will take place during the exposure 'of the organism to a whole group of unusual factors :(weightlessness, prolonged isolation, hypodynamia, altered gas medium, *.and so forth). Study of the effect on man of these factors is of great practical importance. The purpose of the present investigation is to study the condition and work capacity of man during aprolonged sojourn in a spaceship mockup. C'a'rd 1/-3  jFor this purpose, four 3-day experiments and one 12-day experiment were. ,conducted (the'latter was a control experiment without special counter- ,measures against hypodynamia). The volunteer subjects wore ventilated suits. They remained seated in a space cabin couch throughout the whole time of the experiment. The couch was fully isolated from the external environment. The work activity of the subjects was carried out aL,!ordihg Ao a schedule approximating spaceflight conditions. At scheduled times they performed test tasks in the operation of a manual attitude control system, information transmission, correction tests, and so forth. ,During the experiment complex recordings were made of physiological 'functions (EEG, EKG, PG, EMG, and galvanic skin response). Analysis of the experimental data showed that during a three-day stay in a spaceship mockup, the general condition of the subjects was practically unchanged. The investigated physiological indices remained 1within normal limits. The work activity of thb subjects dropped off a bit in the-first day, but returned to initial levels on the second and third days of the experiment. In the 12-d~y experiment, the tendency toward lowered work c~paq~i  .ACC NRs AT6036561 wns more pronounced. Thus, on the first, fifth, seventh, and eleventh days, a ane and one-half to two-fold decrease in the accuracy of ship zttitude control from angular coordinates was recorded. The time 1required for information transmission increased toward the end of -the experiment by an average of 10%. In the correction tests, tJ,e information capacity of the visual analyzer dropped from 1. 7 to 1. 3--l. 5 bits/sec. The red and blue light contrast sensitivity of the eyes decreased 3516 and 40%, respectively, from L. N. Mayor# s data. Numerous changes in physiological indices were also noted toward the end of the experiment. Tlius, for example- the EEGs showed a stag ant exaltation of alpha rhythms. Tests with sudden random signals :requiring a response reaction from the subject showed a decrease in electromyogram amplitude from 300-200pv and a galvanic skin response amplitude decrease from 650-480,Av. The observed functional shifts in the state of the subject during a 12-day stay in a spaceship mockup indicate that further study of pilot !work capacity under analogous conditions is necessary, as is an effort to find optimal work-rest schedules. for cosmonauts on prolonged spaceflights'.' [W.A. No. 22; ATD Report'66-1163 SUB CODE: 06 / SUBM DAM: 00flAy66  4 -6 EWTO L 1362 - al/BDS Vo"PoOMOW -ACCMSION NRi -AP3003102 ------ S1005616 KUz1m1novj--A* 'Ve Ke -.--ALVHOR-. Kaipoy,-% Kj;-BtgheRM- Re-B. MTLE: Resonance scattering 0 5 and Ti-46, ~souRa: zhurma eksper., i teoro fitikip Y. no. 6, 1963, 1811-1817 TOPIC WM: excited state lifetime, nuclear resonance scattering, copper-63, 'titaniuwA_6 a lifetimes of- the of cu-6s and,Ti_46* nuclei, at ABSTRACTI Th excited states 1.114 and O.e9O YAV., respectivelyj, verie measured by nuclear resonance seat :using gaseous sources of Ni-65 and Sc_46 in NiCl sub - 2 exA ScCl sub 3. The NiCl sub 2 was prepared from nickel enriched to 77.a% Ni.69 mid irradiated in a neutron flux of 1.8 times 10 BuP 13 ;er sq. cm. see in the reactor of the Institut yadernoy fiziki AN UzSSR (Institute of Nuclear Physics., AN UzSSSR). The 111-65 wA sc-46 activities vere approximately 20 millicurie. The acattered :photons vere detected vith a NaJ(Tl) crystal cadbined with a phortamltipl fer. The energy distributions of the photons vere calculated from.the Ni-65 wa sc-46 decay schemes, assuming that the recoil nucleus is free and that there are no .Beta-Gamma. correlations. The lifetimes vere found to be (1.42 plus or minus 0.20) i Cani 1/2   "THE AVERAGE WIN" OF SPECTRUP OF NMPT 11W)TRONS rl IFISS11W PIDISED BY FAST IEUTRONS". By I. I. Bondarenko, B. D. Kumi-nov,, L. S. Kutsayeva, L. I. Prokhorova and G. N. Smirenkin. Report presented at 2nd UN Atoms-for-Peac-~ Conference, Geneva, 9-13 Sept. 19.158.  Auinoils: T I T L.,, PERIODICi-,L: A. D 7) T 2.'1 C T t 1 .1 Kuzlminov, B. D., Kutsayeva, L. S., Bondareako,l.l. 09-2-15/35 Prompt lloutron llu--,!barti for the Fast 'Neutron Fission of U235 U 2 38, Th 232 and Up 237 (Chirilo manovenzi~,kh neytroaov pri delenii U 235, U 236 , Th 232 1 NP 237 bystr~rmi neytronami). "Aomnaya Energiya, 1950, Jr 2, pp. 187-188 033:1) The following meastirin- vvoult- viere obtained: Isotope Yloan neutron Dutector of I ~ N to energy 'ahich sc, c o nd a ry undergo caused the neutrons U235 fisaion 'fission in T MeV 235 lFission c iamber U 1120 j,05�0,01 2,59,tC,G5 if illed with 238 natwral uraniun U 3,1 1,17�0,02 U238 r 391 Fisoion chamber 1, 1 5�0, C, ColitaininG a uranium concen- 'tration of 75io' 9�01" +) 04�C,15 Cud 1/2  lluutron .7,umbern for the F:-L;t J;.;utron Pin~Aon of U 2 351 1,59-2 -15/35 230 232 237 U T h and lip I;3otolie Lcan 3.cut:,.-on Dot-_,Ctor of to I ry enerL-j ahich oacondz. Y U.'I" or C-0 Cause'.1 401~! neutrQn.-. 0 235 fission f iosion-in Y U +) T 230 U 3,1 BF~-Ccunter 1 , 115+G 02 2,57j~: , 10 tuoe in 17ELrk~.'fin block 232 C. Th 3,5 95�0,02 !2,35�0,r,7 237 2 ti :: I I lip 5 !1,10+C,C4 12, +) VT YJ 235 . 2147�0103 ++)Mear vt-lue: 2,86+0,10 There are 1 fiGure, 1 table. and 7 v,.~feronces, 3 of WA01, are Slavio. SU2LITTID: July 8, 1957 AVi.IlZx:31Z--. Library of Coneress Card 2/2 1. Neutrons-Energy measurement 2. Thorium 232 fission- Measurement 3. Neptunium. 237 fission-Measurement 4. Uranium 235 fission-Measurement 5. Uranium 238 fissiOu-MORsurOMOnt  TrTLXt PgRIMICILL. CWft I)(* C.rd *4 ' A a MOM---. f. I.. to.. Ukrutatzov. F. I., U' Sh.rham. L. is. Inves-s-i-as of the Physics or abootom attn Fee. (1-10"ve-iss PO filik. ranktarev an bystry" moytrow'" i "'aw"'s" -*r4AJA- i~58, V01- ~, Er 3. PP. 277-207 CUSSJ) 3 "bae 1950 *`P`VLMaRt* be'- sees ""Ltd out with fast reazt*rs by tjk: MSLA Ad.1218trats" of the Ogg of X".,war t .rcr- .1 11L . Phral InStLtuto of this org&&LMSIOA the fost-a tro. res I.; : , rt. into opwrwt.~ " rLy in 1955. ." ~h. reactara I followed is !V56 &&A 1951 r-ptct-v*ly. ?a Or 50 WC Aot~.. *see '-~ttr 4-4 hO14112' - 1! 1A P. 4l .r~1 an C"wo a9 :=1 sub = The action sowe my be -rrou.4ca by 2 utbIle shl-da. t;hiwld I dop d raotu*. ad shield 2 of copper. m& ad- 0. . coaxi.18 ! b "tLameLl COM af..tO4.4 an on. *L4. an to the shield : .IV ' IIth d1boator of TO ", so thaw total thickai*a own be is- .rewatd to 4W -10C as. wilth this -sector were "mi.4 oat ofs %a* ap.tL&I ." -.rSr dt.trtb,.%i- of %b. . of *hie& the ra'ault. or. ko.a in 0 for m " ;g (--f). UM (..C). U2,5 (-.r). U"' . "240 (sf). 0238 (0.1,). u'9T (*.?;. v2)4 &a... -"% of I&* eomm.rvioa factor. ?h. letter vas d4t.ral." vxP.r!..- so, 1y " gwooasting to 2.4 to 2.5. it was also cw)C~It-d by uw~ of tb* W4'%L'6rVmp Compatatts an"" 1% 34-%4 ttaa (lot 1). The o" ma" under to : ! In. tsoo. for bomp.tatl. :: X'SiLAWN of professor To. X"m v1sbamul values foria, of v. r. x&l.shsLko,a(d = :' r mnk&a ($of 6). 2. D. i1of 7). ad ' obIALA.4 by P. to. Splv.;; (Rot 8). V. I. Aa4r-,- (4-z 9) ".4. it. P. two.tt or c.potatiams the oa.trict..% ... Man, So _oLt to 2.1. .a. " 0"".. *f robot 2: W. IS:- arl." I-- f- :Poat~ smt%or %h* asymptotic p*Ctr,m of the 4.rl.t" ars- San won d.t In" both theoretically and Th "tie I*"%% of diffast" d.Strutood OzpvrtO*mtA1lY gwaympt "it thow"11 I .-get. So 9.1 : 0.1 a.. TO. ...Mae mumb-r C&o to" of urant" 258 a."" by fission -"It-" --9--ta 0. 1; : 0.01. This 1. in &Sr.-t -ith I be d-%& Steen by Werewwwa 10. puss Inborn,Ihe Influe"o zwrm1w*d by the -ofteMotm III. of t:: 02004 sections Poa the spatial distrib.91.6 the meastroma to lav.4Slxst*4.tKh. 1. st baboolgo ko'-d the, f:vre- .s,4 ROOM with U low tho otal broo: *"%too far oapp*r I S; by about Into St. Its ~. At tth . _61ft %too at abse a " 0 or C. 0.5 to 30 on. Th-re -V0 12 fLdOX-- I "Ibles. OAA 0 rotor."". 9 or nick or. jCgomi.sad & hatftn 7/13) card V11J.  !UTHORS: Kuziminov, B. D., Smiren'kin, G. N. 56-2-31/51 - --------- TITLE: The Systematics of the Mean Humber of Instantaneous Fission Neutronall(Sistematika, sredneco chisla mgnovennykh neytronov deleniya-)) PERIODICAL: Zhurnal Eksperimentallnoy i Teoreticheskoy Fizikit 1958, Vol 34. Yr 2. pn 'Jo~;-5-,4 (USSR) ABSTRACT: The present work compares the experimental data for Y (references 1-8) with the results of the calculations on the below mentioned conditions. The authors investigate the masses of only two fragments, namely 111light of a light fragment and Mheavf of a heavy fragment. This corresponds to the most probab e way of fiszion. In the computation of the energy of fission the mass -"(A, Z) of the nucleus subjected to fission was determined by means of the semi- -empirio formula of A. E. S. Green (reference 9)y and the masses M(Alightt Zlielit), M(Aheavy, Zheavy) were computed by means of the formula of Fermi with the correction factors of P. Fong (reference 10) which take into account Card 1/3 the shell structure of the nuclei. For reasons of  The Systematics of the Mean Ilumber of Instantaneous Fission 56-2-31/51 Neutrons'V simplicity it was assumed that Aheavy-140. The initial charges Zliyht and Zheav of the fiouion fragnents are computed us ng the hypotKesis of the same P-decay chains. The kinetik energy Ek Of the fission frai-,,aents was calculated by mcans of the formula Ek - C,Z2A-1/30 - 02 Z2/A). The constants cl and c2 are selected in ouch a vray that the last mentioned formula coincides beat with the experimental values of,) in the equation of the balance of energ . The VY mean energy transported by instantaneous neutrons called En consists of the bindine; enerLy Ebinding Of this very neutron in the nuclear fragment and of its mean kinetic energy 2T in relatitn to the fragment at rout. The temperature T of the fragment after the emission of the neutron was estimated on the basis of the data on the spectra of the fission neutrons of U233, U235, ft239 (fission by slow neutrons) as well as on the spontaneous fission of Cf252. The values Of Ebindin- were calculated according to the formula of Fermi-Fo~g preference 10) for masses. Some more conditions laid down here are mentioned. For the purpose of comparison with the results Card 2/3 of calculations all axperimental values of-,) for the fission  The Systematics of the Mean Number of Instantaneous Fission Neutrons 9 56-2-31/51 caused by neutrons were traced back to the values for Y for the spontaneous fission of the corresponding compound nuclei, and this was done using the formula d-4/dEx - I/E~. The correctness of this operation was proved by certain comparisons mentioned here. A diagram shows the families of curves for*J as function of A for various Z. Most experimental data coincide satisfact;rily with the results of calculations. The non-momotonous course of the function ,0(A) is connected with the shell structure of the nuclear fragments. Septenber 30j, 195T AVAILABLE: Library of Congress 1, MUght-Light fragment-Analysis 2. Yheavy-Heavy fragment-Analysis Card 3/3  KITZ TIMMV~ -1. -D. if JAI aj~ I lit lit Al Ih I! lit lid sit lit oil  4, sell, iu- 4j mu 11 All 1~jl a.H11.3 dl WIN a .0 !04 5 !j 1.1111 - I a U 0 %1 AS .01 i d Now -41 o 31 SO Is iz 71 WN 'k V C., 0 Ta  210) SOV/56-37-2-12/56 AUTHORS: Kuzlminov. B. D., Kutsayeva, L. S., Nesterov, V. G.9 Prokhoroval L. I., Smirenkin, G. P. TITLE; Some Characteriatiep. of the Spontaneous Pission of U 238 PERIODICAL: Zhurnal eksperimentallnoy i teoreticheskoy fizikig 1959t Vol 37, Nr 2(8), pp 406-412 (USSR) ABSTRACT: The average number of neutrons emitted by excited fragments per decay event-4 has already been experimentally and theoretically determined. It was found that with the excitation energy E. of the fragments Z) grows nearly linearly. In the introduction some previous papers are-discussed, as well as the theoretical fundamentals of a calculation of j. For the determination of the authors employed the method of measuring the double co- incidence of the prompt neutrona and of the spontaneous fissions of U238 and J?u240. As detector- of the spontaneous fission of U238 two multi-layer ionization chambers connected in parallel were used (Fig 1). 12 g U236 + U 235 was applied in 2 mg/cm 2 thick on Card 1/3 both aides of an aluminum foil and Pu (92~ Fu240 + 8% PU239)  SOY/56-37-2-12/56 Some Characteristics of the Spontaneous Fission of U 238 upon a platinum foil. In the case of the uranium experiments, the chamber was filled with argon (5 atm), and in the cuse of plutonium with 9 .0% Ar + 10% CO 2(35VLHg), The fission chamber was surrounded by 24 proportional counters connected in.parallel (B 10F3 in paraffin); an electronic apparatus recorded the pulses of chamber, counters, and coincidence circuit. The latter had a resolving power of rv6.10-4 sec. Random coincidences made a contribution of < 0.2% (Pu) and JO.01 (U), respectively, and could therefore be neglected. A total of -2400 coincidences was recorded in the case of U 238 and -.02000 in the case of PU240. Three aeries of measurements were'carried out; the following was obtained: ~(U 238 )Mpu 240) - (2.1tO.1)/(2.26to.05) - 0.92tO-03- In the following the measurement of A was discussed. A. (~ 2 1 - 1/,~m holds, where -4m *denotes the largest Card 2/3 possible number of emitted neutrons. The method is briefly ex-  SOV/56-37-2-12/56 Some Characteristics of the Spontaneous Fission of U 238 plained on the banis of a scheme (Fig 2). By denoting the ratio (;2 _ ;)/~ . ~' 4U/Sj'u _ 1.085 t 0.02. AU - 0-95 t 0-05-.' was obtained. By means of these data-the number q of the neutrons emitted within the time unit Rer g uranium was calculated as amounting to Q a (64-5 t 2) neutrons/g.see ace *ording to three different methods which are briefly explained4 The average life- time of the neutrons was determined as amounting to T - 1-44-10- 4 sec; I - 0.82 t 0.02 (D e-T/Ir) at T - 2-38-10- 4 see (duration of pulse); Q/~ - (31 t 1-5) fis- sions/g.h and half-life T1/2 - (6-5 t 0-3).1015a. In conolusion, the results are discussed and compared with those obtained by other'authore (Table 1,2). Tho nutl,ora finally thank Proreseor A. I. Loypunakiy for his intereet, and 1. 1. Bondareako and V. S. Stavinskiy for discuesi is. There are 2 figures, 2 tables, and 15 references, 5 of which are Soviet. SUBMITTED: March 25, 1959 Card 3/3  32989 S/641/61/000/000/016/033 B104/B102 AUTHOR; Kuziminov, B. D. 238 2)2 TITLE: Mean number of prompt fission neutrons for U and Th SOURCE: Krupchitskiyj P. A.j ed, Neytroanaya fizika; sbornik sta-cej,. Moscow, 1961, 241-245 TEXT: The author studied the dependence of the mean number of prompt fission neutrons for U238 and Th232 on the neutron energy. 3-75- and 15-7-Mev neutrons were produced in the reaction D(d,n)He5 and- T(d,n)He4 using 0.920-Mev deuterons. In measurements with 2.3 Mev neutrons the entire measuring arrangement was placed at an angle of 1100 to the deuteron direction. The fission neutrons were recorded by B10F3 counters. The number of pulses from the fission chamber, the number of pulses from the neutron detector and the number of pulse coincidences were measured. The mean number 0 of the prompt fission neutrons is proportional to the coincidences per fission event. The time resolution of the coincidence circuit was 2-1o-4 see. The ratio of the random coincidence to the true coincidences did not exceed 30%. The experimental arrangement was Card 1/10 --7  32989 9/641/61/000/000/016/03, Mean number of prompt fission ... B104/B102 calibrated by thermal U235 fission. When calculating the absolute value3 of ~ for- U235 1 Otherm of U235 was assumed to be 2-47 � 0,,039 (Table). The following mean effective neutron energies were obtained: E = 3.1 Mev (U 238 ) and _E 232 n n - 3-5 Mev (Th ). The dependence of 4 on the neutron energy can be represented, b averaged shaight lines whose inclinationeare 0.139 + 0.008 Mev- U2 ) and 0.15 - 0-1 Mev-1 (Th232). I ( + The author thanks A. 17. Sergachev, V. G. Voroblyeva, N. Ye. Tokmantaeva and the accelerator team headed by 0. N. Deryagin. Furthermore, Professo- A. I, Leypunskiy is thanked for his interest and 1., 1. Bondarenko for discussions. There are 2 figures, 1 table, and 9 references: 5 Sovif-A and 4 non-Soviet. The four references to English-language publications rea-I as follows; Leachman R., Phys. Rev., 101, 1005 (1956); Fraser I., Phys, Rev.) 88, 536 (1952); Henkel R., Brolley J., Phys. Rev,., 101, 1292 (iqr6,; Smith A~, Fields, P., Roberts I., Phys. Rev., 106, 411 (1957). Card 2/#t 2  M06 B/089/61/011/006/002/014 /000 B102/B138 AUTHORSs Leypunakiy, A. I., Abramov, A. I., Alekeaudroyt Tu. A.9 Anikin,S.-X-" Bondarenko, 1. 1., Guseynov, A. G., -1-vinov, V. I., Xatachkovskiy, 0. D., Kuznetsov, V. F., -Kuzlminov, B. D., Morozov, V. N., Nikolayev, H. r.., Sallnikov, 0. A., Bmirenkin, 0. V., Soldatov, A. S., Usachav, L. X., Tutkin, M. 0. TITLEs Investigation of the 5P-5 /BR-5) fast reactor (spatial and energy, distributions of neutrons) PERIODICAM Atomnaya energlya, Y. lit no* 61 1961t 498 - 505 TEXTs The fast research reactor BR-5-and its experimental equipment in described in brief and so=* of its neutron spectra are given and discussed. The following data ars:4iYant fuel - plujonium oxidej coolant - sodiuml reflector - thin layer of natural uranium plus thiak layer of nickelt power - 5000 kw. The reactor has many vertical:and horizontal holes for technical and physical studies and is well supplied with experimental equipment. Loypunskly gave a detailed description of the BR-5 reactor at Card 1/0 m~ Fl- M RUN,  21LO6 3/089J61/01i/co6/002/014 Investigation of the... B102/B138 the Second Geneva Conference 0958), Inside the core the neutrons have energies of more than 100 key which they lose almost ampletaly in passage through reflector and shield. In the outrr layers r.. the shield, their moan energy does not exceed some tons of Gv- In the key range (E1>50 key) spectra were measured for the most important beams and channels. For the other cases, they were determined from threshold reactions. The soft part of the spectrum within the rofldctor was determined from the spatial distribution of neutrons with Ef15 ev, recorded with gold resonance indi- ca%Ore. The total neutron flux was determined only at the points whore the PU 239 fission cross section was constant. Direct noutrompectrum mon~urements were carried out in a :~ertloal (0K-70) and a hor ontal (B-3) chapnel using (He +Ar)-filled ioniz; tion chamber in the first case and the nou It ron tzontminciammothad with n-haxano in the second. The neutron ;spectrum of the horizontal 'channel was also determined by pLotoomulsions, U131(.,f) ProL the rates of indicator and fission reactions Au"'(n-r), PU239(n,f), Th')'(.,f), CU63(n,r), and ~.-j27(n,d,) the abrupt 1 Card 2/;  S/009/61/011/006/002/014 Investig3tion of the...' B102/B136 drop in neutron energy In the NI reflector woo determined, and the activity caused by resonance neutrons (E 4.9 ov). The fast neutron n 14 flux (E > 1.4 Mov) in the core center was found to be (2.4 t 0.2)-10 n and total flux was (8.2, t 0.3)-1014. Experimdntal results were verified by energy-group. calculations ( M groups). Good agreement between tKeory and experiment was also found for the channel spectra. The authors thank D. B. Pinkhasik, H. N. Aristarkhov, and the rea:-tor personnel for assistance. There are 10 figures, 2 tables, and 2 Soviet references. SUBMITTEDs August 17,11961 Table i. Reaction cross sections in the core center. Legtnds (1) Recotionj (2) experiment, (3) a calculated, given in barns. Figi,7;. Neutron tranomis,,ion spectrum h one) for the horizontal: (n JX channel B-3- Card 31; '77  37784 S/12o/62/000/002/007/047 E039/E520 AUTHOR: jNuz,n1i11ovj BoDe TITLE: A simple me6hod of measuring the continuous spectrum of fast neutrons PERIODICAL: Pribory i teklinika eksperimenta, no.2, 1962, 34-35 TEXT: By making use of experimentally determined neutron transmission curves for particular filter materials it is possible to obtain accurate determinations of the neutron spectrum in a beam. The final forin of the neutron transmission function is given by: C~o (x) = S ~) (Ii) e-'xdii 0 where x is the thickness of the filter and tl) (IL) F(ji) and c(~t) are functions characteristic of the neutron spectrum. and neutron detector efficiency respectively. The method has been' used to determine the neutron spectrum in beams from the reactors 0-P -2 (BR-2) and 6P -5 (BR-5). In both cases n-hexane was used as a filter. The detector in the first case was a fission chamber using U235 and in the second case a BF 3 proportional counter. The Card 1/2  A simple method of measuring ... S/120/62/000/002/007/047 E039/E520 spectrum obtained in the latter showed detail at --~/ 40 keV'Other recommended filter materials are boron and hydrogen. There are 2 figures. SUBMITTED; August 15, 1961 Card 2/2  34001 S/056/62/042/001/016/048 .~9 t1, c2 B100102 AUTHORS: Kuzlminov, B. D., Kutsayeva, L. S., Bondarenko, I. I. TITLE: Angular anisotropy and energy distribution of the Th 232 fission fragments PERIODICAL: Zhurnal eksperimentallnoy i teoreticheskoy fiziki, v. 42, no. 1, 1962, 105-107 TEXT: The kinetic energy of two fragments was measured simultaneously, using a double ionization chamber with a collimator allowing the direction of fragment motion to be determined. A Th 232 layer (15 Yg/cm 2) was applied to a collodion film (20 ~g/cm 2) . A 6P-5 (BR-5) fast neutron reactor was the neutron source. The electronic equipment included two linear amplifiers, coincidence circults, pulse shapera, and a double-beam tube, The movement of the fragment center-of-mass, the neutron emission from the fragments, the energy loss of the fragments penetrating the collodion film, and the effects of the Th layer and of the collimator increased the half-width of energy distribution of the fragments by Card IA?_  34001 S/056/62/042/001/01 6/048 Angular anisotropy and energy distribution... B100102 2-3 Mev. The mean kinetic energy and the dependence of the total kinetic energy on the mass ratio are the same for fragments leaving the target along and perpendicular to the neutron beam direction (Figs. I and 2). The half'-width of fragment energy distribution is 16 ~~. In view of the shell structure of the fragments, the most probable mass of the heavy fragments is 140. The kinetic energy passes through a maximum at a mass ratio of R - Mh/Ml - 1.25. There are 2 figures and 12 references: 4 Soviet and 8 non-Soviet, The four most recent references to English-language publications read aB follows: D. Hicks. Phys. Rev., 105, 1507, 1957, I. Halpern, C, T. Coffin. Proc. Second United Nations Int, Conf. on the Le'r Peaceful Uses of Atomic Energy, j.5, Geneva, 1958; E. 1. Winhold, I Halpern. Phys. Rev., 10~, 990, 1956; R. B. Leachman. Proc, Second United Nations Int. Conf~ on the Peaceful Uses of Atomic Energy, Geneva; 1958, p, 229. SUBMITTED: August, 15, 1961 Card 214;~  L 15529-63 -.-M-011=2/1 pu-4 ACCESSION M. AP3005234 -8/0056/63/045/002/0008/0012 AU'rHORS.- DlyachenkoA P. P.; Kuzlmlnov, B. D.) Kutgayeva, L. 8,; OkolovIch. Vo M; i Smirenkin, 0. N. VtvzhnIkov-T-X7-V-- TIME: Kinetic energy of fragments produced in oymetric fission of V-235 SOURCE: zhurn. eksper. I teoret. fiz. v. 45, no. It.), 1963o 8-12- TOPIC TAGS: Fissionp symmetriep kinetic energy, U-235P induced fission ABSMCT: The mean kinetic energy of the fragments produced in symmetrical U-235] fission induced by 7-, 14.5-,, and 20-MeV neutrons has measured and found to be constant, within the limits of experimental error,'Just as in the case of a symmetrical fission. This refutes the hypotbesis rmde by Selitskly and Eysmont (Zh, ekap. I teoret. fiz. V- 43, 1005, 1962) that symmetric fission is a fast process. The hypothesis by Kovalenko, Petrzhak, and Adamov (Atomnaya energiya V. 13, 474 , 1962) that sy=etrical fission is of the subbarrier type Is likewise refuted. The results are interpreted from the point of view that t-he tvo types I of fission correspond to two barriers. 'The authors are Indebted to Prof. 1. 1. Bondarenko and to N, S, Rabotnov for a discussion of t~e results. Card  D'YACHF,NKOj P.P.; KUZIMINOVI B.D.; KUTSAYEVA9 L.S.; SERGACMv A-L; UTYUZHNIKOVY A.N. Correlation of the mass distribution of fission fragments Vith the quantum characteristics of the nucleus at the saddle point. Atom. energ. 15 no.3:246-247 S 163. (M3Pk 16t10) (Nuclear fission) (Quantum theory)  KUZ 'MIVOV.B.PG~;l-,, - (Mean number of instantaneous fission neutrons for U238 and Th232] Srednee,qislo mgnovenrykh ji6itronov delenlia. dlia U238 i Th2 . Moskva, Glav.upr. ljo ia- polizovaniiu, atomnoi energii, 1960. 9 P. (MIRA 17: 1)  DOYACHENKOp P P KUZIMINOVS B,D.; KUTSAYEVAp L.S.; OKOLOVICHp V.N.; Ski~iiIII-P-649-c--uffru MONVO A. , Kinetis energy of frvgmexts produosd in the symmetrisal fission of U235. Zhur. eksp. i teor. fiz. 45 no.2tg-12 Ag 16~. p (MIRA 160) (Uranium isotopes) (Nuclear fission)  DIYACHENKO, F.P.; KUZIMIHOT B .; CHUKICHE;V, M.V. Effect of the state of the silicon counters of fission 10 no.5%85-88 S-0 165. surface on the operation of fragments. Prib. i tekh.eksp. (WRA igil) 14 Submitted July 15t 1964.  LIL72-66 EVrf (m)/EVIA(h) ACCESSION HR: AP5020258 UR/0367/65/002/001/0092/oo96 AUTHOR! Dt achenko, P* Po; Kqz, : Smirnov. V, 161 Che AM-i y rn ~Chubarov, S. I* TITLEs Kinetic energies of fragments with various masses in the fission of U-235 by thermal tod fast neutrons F1 fi-tikiL 2 -noo j -9 SOURCE., ~,-Yitddkhatyiv: 1 .1965 92 6 TOPIC TAGGi uraniuml nuclear fission, fission product* fast neutron# th r neutron ABSTRACT: The kinetic energy distributions of fragments with various masses have been investigated in the fission of U235 by thermal neutrons and by neutrons of mean energy 720 kevg for the purpose of comparing the dependence of the totel fragwnt kinetic energies on the fragmnt in a ratios at the two finsioning-neutrob energies* The fission was produced in a layer of uranium enriched 90% in ~235, deposited on a thin organic filmo and the fragment energy was measured with two -barrier silicon detectors, The detector signals were analyzed after ampli4'- surface rication by a tvo-dimensional-120 x 1-26 channel pulae-height analyzer, which sortea the pulse heighteand atored all the in iformation obtained during the measurementaq Coed 1/2  L 4379-66 ACCESSION NH: AP5020258 The results show that the mean total kinetic energies of the fission fragments have the same value for thermal and fast neutron fission, amounting to 156 :t2Mey for fission into tv9 fragments with approximately equal masses. This means th-- in bombardment of t)235 by thermal neutrons and neutrons with an average energy Of ~z 720 keV0 the kinetic energy of the symmetric-fission fragments in approximately 10 Mev lower than for fission by neutrons with energies above T Wv- "The author's thank A. I. Bergachev, A,, So Yek&tM Vi, Pi Gemenkoyo A..A0tYm;hdkoYs.-A.. ff-r ----Tv. V, Kw faiAdipe orig, 8~rt. hut -Agfonovb an ASSOCIATIONt None, SUBMTrEDi i9Jan6$ FA C1 0 RR R" Boyl 003 5 /2 Car  ](UZIKNOV, B*Do - ... Symposium on the Physics and.Chemistz7 of Fission. Atom, ener 19 no.2t2O7-208 Ag 165. (MMA 187 0  ACC NR, AMMOR: ORG: None TITM The-effoot produced by the surface quality upon the performance of silicon counters of fission fragm Ints SOURCE: Phbory i tekhnika eksp'erimenta, no. 5, 1965~ 85-88 TOPIC TAGS: nuclear fission, nuclear Dh sloe --apparat'-3 ABSTRACT.* After reviewing--the preceding research and experiments the authors presented the results of their invest-I.gations of two lots of surfaae-barrier detectors. .,Their *imwas to,determine the auseg of "tails" in-the'pulse-6-pplitUde distribution eUr~Vea. On analyzing the curves showing the distr4bution of the fragment energies originated in the U235 fission by thermal neutrons and examining the possible causes, the authors concluded that the tail'defeot was caused by the presence. of craters cn the oounter surfaces.,, lThe thickness of the entrance 'Voating, silicon oxide film and insensitive layer composed ofmid p-type layerl was about 10 microns. The microscopic examinations dis- closed that the surface craters were of various shapes and sizes, The EWA (h) IFYfT (m)/T/EIIP W/ETI IJP(c) JD AP5027011 SOURCE CODE: TJR/0120/65/000/005/0085/0088 Wyachenko, F* Ps; ~uzlminovj D.; Chukichevt M.-Vi L.Surd 1/2- UDC: 539'1.074.5  L 28036--645 _ACC NRi AF5027011, .crater depths:up to 10 microns were observed* The crater surface was adhematioally illustrated and two surface photoe (for the first and second lots) were presented. The surfaces of detectors belonging to the second lot were improved by a special treatment. It was proven that them... wamber of pulses in the tell section was 10 times less in the counters with- -improved-surf aces.----The- distributi,)n- of --fragments- by--madij illustrated - in'~ 6 grapho- e authors expressed their thanks to I,- Aa Go Bondarenko.'I looova and'R. S.-R&k - neon for their assistance.- Orig, art, has: , ra figures& - SUB COM. 18. SUEM DATE: 157ulY64 qRIG REV: .--002 OTH MW: OM  .XYJZIKINOV, F.M.; SHBSTOPALOV. V.T. Improve fire-prevention measures for various enterprises of the capital. Gor. khoz. Moak* 34 no.10:30-31 0 160. (MIRA 13:10) 1. tlpravleniye posharnoy okrany Moakvy. (Moscow--lires and fire prevention)  KUZININOV, F - ORLOV B. P 0 Raids of the Comml t Youth League., Pozb,,delo 8 Vq 162. (Fire prevention) (Communist Youth League) no.5;22 (MIU 15:5)  KUZ'j-'TNOV, G. P. PA 22T36  sex too's r- t ago Sex *Sol Son eon O*n 464. 00. SO too e 0 0 0 0 0 0 0 0 0 0 0 0 0-0-6-4 00000000000000000 a c 9 OF 6 a it A. 11 N 0 PU a I I IN AUT"" Wool Wt W--w Silo a a 0 0 a 0 !!i firm "11444"Oucausis ac NPIA1,1201 11,20"llys" IF *1 a I IF .14 1 bq1 011"1 v 111 410 PA434112-0 21"411 ja *A) fq~F-041, .1shi ~-. I) p Armor Mj,-j vow=. sw)bW&& -04i Ali V'M -W-7--i-T-3 a a a 9 u H 71 I a a of I Of to ft It IN # I II It T.UT Ik 0 0 0 41 0 0 : 0 , 0 0 0 0 too 000 roe Ap 00 too see v oleo  XTJZ 'MINOV 0 P k&ndjdaf;-tekhnjch~pkUcb neuk., More on air cOO104 engines. Avto I traktopromeno#10131-32 0 136- 1) (Automobiles-yagln~g) (MIJtA 10:  KUZIMIMV, G.P., kand.tekhn.nauk Calculating the beat transfer in automobile and tractor engines with air cooling. Avt.prom. no-1:15-18 Ja '59-(MIRA 12-1) 1. Veeeo]rusW saocbnyy lasotakhnicheekly institut. (Motor vehicles-Ingines-Gooling)  S/262/62/000/00210041017 1008/1208 AUTHOR: Alekseyev, S. A. and Kuz'minov, G, P. TITLE: Investigation of beat-transfer in an air-cooled engine PERIODICAL: Referativnyy zhumal, otdcl'nyy vypusk. 42. Silovyye ustanovki, no. 2, 1962, 51, abstract 42.2.269. "Tr. Vses zaochi. Icsotckbn. in-ta", no. 6, 1960, 77-96 TEXT: The investigations were carried out on an air-cooled 25 hp AM4 engine turning at 2200 r.p.m. and having a D/S = 82.5/101.5 mm. The experimental data and a method of calculation of the ribs are given. There aro 10 figures and 10 references. [Abstracter's notes: Complete translation.] Card 1/1 2!", K N -  S/262/62/0001002/W301 1008/1208 AUTHOR Kuz'minov, G. P. -7- TITLE: On the question of Mechanical similitude of interntil combustion engines PERIODICAL Referativnyy zhurnal, otdel'nyy vypusk. 42. Silovyye ustanovki, no 2. 1962, 51, abstract 42.2.267, "Tr. Wes. zaocbn. pesotckbn. in-ta", no. 6, 1960, 97-109 rEXT: In connection with the standardization of the production of internal engines the theoretical condi- tions for the mechanical similitude or two engines are examined. Considerations governing the evaluation of many mechanical parameters, as density. stresses, mean specific pressure on hearings. etc., ate discussed. There are 3 tables and 10 references. (Abstracter's note: Complete translation.) Card 1/1  KUZIFINOV, Grigoriy Petrovich, dots., kand/tekhn., nauk; BELISKIY,I.R., prof., - Vand. 'VOUIC'Sauk, retsenzent; BUKREYEV, B.A., retsenzent; ROBINY V.A.9 dots., kand. tekhn. nauk, retsenzentl SHULESHOV, V.F., dots., kand. tekhn. nauk,,.retsenzent; YAKOVLEV, N.A., retsenzent; BEZGODOVA, L.V., red.; URITSKAYA, A.D., tekhn. red. (Thermal electric pow~r-plants In the lumbering Industry]Teplo- silovye ustanovki lesnoi promyshlennosti; uchetnoe posobie dlia studentov vsekh fakulitetov. Leningrad, Vaes. zaochnyi leso- tekhn. in-t, 1962. 198 p. (HIRA 16:8) 1. Glavnyy spetsialist otdola energetiki GLT (for Bukreyev). 2. Nachallnik otdela energetiki Gosudarstvennogo instituta po proyektirovaniyu lesnogo transporta (for Yakovlev). (Electric power plants)  .PM,IODICAL: Izvestiya vyashikh uchebynkh zavedeniy. Mashinostroyeniya, no. 12, 1962, 130-134 TEXT: Basing on his experiments and theory, the author presents a method for a-eraging the'metal temperatureion the ribbed surface of an air cooled en- gine. Determination of the average temperature of the cooling surface of an engine is difficult because of ribs and because of great irregularity of tem- perature at various points. After determining the temperature gradient at sev- eral characteristic points, the measured temperatures could be recalculated, reducing them for an air cooled surface. The evaluation of average temper- atures must be carried out for every area in accordance with the system of ribs aria temperature gradients of each portion of the object under study. Tbe amount of heat removed to the cooling system and the average air temperature Card 1/2 Mlff~~ 'MY M - RN  L 116553-63 S/145/62/000/012/009/ Methods of the averaging metal temperature... must be known. The temperature change across the cylinder vall of tb,-, air cooled oil engine and the temperature distribution at the root of a rib are shown in figures. The author checked his method on an actual case of a Diesel engine. Seven Soviet references. There are 8 equations and 4 figures. ,ASSOCIATION: Vqcsoyurnyy zadchnyy lesotekhnicheskiy institut (The All-Union Forestry Engineering Correspondence Institute) SUB14ITTED: February 6, 1962 Card 2/2- Y W, -A, Rb~  KOBLIKOVA, Alokoandra Georglyevna, dots., kand. tekhn. nauk; &U&-T1MQY,_.q.P.s dots., kand. tekhn. nauk, retsonzent; CHUDNOV, B.S., dots., kand. tekhn. nauk, retsenzent; SOKOLOV, P.V., dots., kand. tekhn.nauk, otv. red.; BEZGODOVAY L.Ii.~ red. [Hydrothermal processing of wood; calculations of kilns for drying lumber in superheated steam. Manual on course planning for the otudento of the faculty of t1w meehanical. technology of wood) Gidrotermicheskain obrabo'ka droveoiry; raschet kamer cilta sushkI p1loina Lori tilov v srodo poregrato- go para. Rulcovodstvo k kursovomu procktirminliu dlia stu- dentov fakullteta mekhanichookoi takhnologii dre sainy. Leningrad, Vses. zaochrrji lesotekhn. in-t, 1963. 82 p. (MURA 17:7) -41 "n K A"C  S/126/63/015/001/029/029 E073/E151 A I' I I (I PS lyijbchenko, A.P., Sherman,-D.G., and Kuziminov V Effect of cerium content of iron on nelf-diffusion H: R I Q D I CAL, Fizika metallov i metallovedeniye, V-15. no.l,-1963, 158-1.6o TLXT: The authors have already ehown that Ce additions of up to 0.511 Ivive no effect on the ratio of the intercryetalline (DBoun) ajid traiiscrystix~line (DBody ) Belf-diffusion coefficients of Fee Fiirthei- itivestigation.-.; were carried out on pure Arinco iron, vacuum iriduction ws!lted, into which Ce wam added, and the ratio KFev which #-qti,%1:4 d(D x D_ 1/2 Boun Body was deteniiined using the isotope Fe 59* It was found that Ce additioiis of tip to 0.521;o had little effect on the self-diffusion i%itio, 4iiid tliat at elevnted temperatures the individual values for int~-i- nud trans -crystalline diffusion were not greatly changed. Card 1/3  Lft'ect of ceritim content of Iron... S/126,/63/015/001/029/ 029 E073/1:151 F.hictxiation-s or t 3.001e in the value of K Fe ~rere obtained as.C* was increased from 0 to 0.520,c, btit, the overall effect, discounting the fluctuations, appeared to be negligible. This is cq'ntra.ry.to the findings of K.P. Bunin and Yn.1-1. Nalinochka that the effec.t.of spheroldisers was to equalise the inter- and trans-crystalline mobilities of the Fe atows. The experiment 'a1 and published results show th, graphite in cast iron.- -it the effect of Ce, t1g, etc. on the is not related to the kinetics of self-diffusion and it is probable that the surface active properties of the spheroidiser are responsible for spheroidisation. The electron orbits of addit ions, appear to influence the shape of the graphite particles, as is seen by comparing the electron structures of spheroidialng agents (Lit Nat 161g, K, Cal Sr, Bal Ce) with those of de~ spheroidising agents (Tit Cut Sb, Pb, Bi). Inconsistencies in the behaviour of added elements on the structure of the graphite appears to be due to changes in electron configuration caused by interaction with impurities,in the iron. Spheroidisation can also., be achieved by additions which ensure the required electron colirigtiration when absorbed on the graphite. Card 2/3 '.. rs-~. E4 M IA T  Erf,"ct of' cvrimit content of iroll ... 15/126/63/015/001/029/029 E073/EI51 Tllerv are 2 A.,~.SoCIATI-ON., Khnp-lkovm1(ly zavoti trimsportnogo mash inostroyeniya IM. V.A. KIIY-,jbcva (l,harlkov Transport Ftigincering Works imeni V.A. Maly-~41161v) .4'13MITTI, J-11, -D AprIl JO, 1962 (-&'r ct 3/ 3 -N-  KUVMGV 14.0 kand. ekonw. nauk (deceased] Indices of the degree and level of mechanization in constructione Mekh. stroi. 11) no.2:23-25 F 162. (W-A 16:7) (Gonstruction. equipment) HIS  KnImmoll, 1. 1. The end of the war and the trunq1tion ir thn cc-mi,~-,y of tho U35R to q neacetime d!welarment. Lnnin rqd Lenin mr,3 dqko n r-7,Ano-zhurnal 'n.,7e i knlnhnoo J7.d'-vo, lqh~. 51 D. (50-198M Hc335.x888 1945  I Kwa-1:40VI 1. - - 1. KU711INOV, I. U I US3-R 7s "Concerning the Crivis Nature of 0. 3. S. s. 2? Edonomic ')eveiofaent in the Post-Ilar.Period," Bolshevik, No. 23, 1948 9. Current. ligest of the Soviet Press, Vol. 1, No. 1, 1949, P. 35. (In 10 Library)  K6Z'I'M' I'NO*V'.* 'h- I'.*. GATOV!ZIY, L. M.. .3h-aILOV, D. T., LWNTIYEV, L. A., LAPTEV, I. D., and OSTROVITYANOV,, K. V: "Political Economy," Textbook, State Eublishing House of Political Literature., Moscow., 1954.  Namos XM'1dWOVj Ivan Ivanovich Dissertations State Monopolistie Capitalism Degree: Doe Econ Sci Affiliations fnot indicatod-7 Def onso Data, Placa: 2 Mar 56, Counoil of Acad of Soeial Sci undor the Central Coudttoo CEBU Cortification Dates 15 SOP 56 Soureos BMVO 6/57  KUZIMINOV, I. The constant growth of labor productivity in an economic law of socialism. Sets. trud. no.2:11-28 7 156. (=A 9:7) (Labor productivity)  OSTROVITYANOV, K.V., okademik; LHOUTIYEV, L.A.; LAPTEV, I.D.; GATOVSKIY, L.M., doktor ekonom.nauk-, OZOMINOY, I.I., doktor okonom.nauk. Prinimal uchastiye STAROVSXUoftW*'.O~.ffOY7CH, M., red.; DARILINI, A.. takhn.red. (Political economy; textbook) Politicheakaia skonomiia; uchobnik. Izd.3, parer. I dop. Moskva, Gos.izd-vo polit.lit-ry, 1959. 707 P. (MnU 12:10) 1. Akademiya nauk SSSR. Institut ekonomiki. 2. Chleny-korrespondenty Akndemii nauk SSSR (for Leontlyev, Starovskiy). 3. Daystvitelinyy chlen Vanso3nnnoy akndemii sG11sko1--hozyHystvennykh nauk imani V.I. rienina (for Laptev). (EconomicB)  KUZIMINOV I red.; KULIKOV. A., red.; KARAVAYEV, A., red.; MIXRANSKATA, __- AWAZ4 red.; MOMYDU, R., takha.red. (Advantages of the socialist economic system] Praimushchostva otsialisticheskol sisteffq khoslaistva. Koskva, Isd-vo sotsiall- o-ekou.lit-ry, 1959. 310 P. (K13U 12:10) : (3conomica)  X=IKINOT,_.I,vaa7-Iv&"vjah; PROKOPOYET, S.P.. red.; NAUKOV. K.M., --w-'---'t9khn.red. (Impoverishiment of the workers under capitalism] ObnI- shchania trud4ashchikhola pri kapitalisms . Moskva, Ixd-vo VPSh i AOM pri TeX EPW, 1960. 335 P. (KIRA 1):2) (Labor and laboring classes)  OSTROVITTANOT, I.V.; GATOVSKIY, L.M. [Hatovalkyi, L.14j; KUZIKINOT,-.Iol1*U WBOVIINKO, Ye. [Dabovenko, II-1. red.; KOBA, M., red.; KI~KMA.' I., takhn.red. (Political economy; textbook] Politychna ekonomiia; pidruchnyk. Persklad z 3 perer. i dop. rosiis1kcho vyd. 1959 roku. lyiv, Dersh,vyd-vo polit.lit-ry URSR, 1960, 686 p. (XIU 13:7) 1. Akademiya nsu USSR, KiYST. Institut skonomiki. 01conomics)  KUZIMINOV Ivan Ivanovich doktor ekon. nauk, zasl. deyatelf nauki red.; DARONYAN, M., mladshiy red.; f CHERIPLEVA. 0.,, tekhn. red. [Postwar capitalist cyclelPoslevoennyi kapitalisticheskil tsikl. Moskva, Sotsekgiz, 1962. 187 p. (MIRA 16:2) (Business cycles)  KUZIMINOVp I.I., prof*, red*; LFJMEVj VaGop kando ekon. nauk) red*; MqMD=p D.A#j , red,; KOKOSHRO, A.G., red.; 11MOV, X.14,0 tekbn. red. (Developing economic theory in the light of the decisions of the 22d Congress of the CPSU]Razvitie ekonoricheakoi teorii v uvete reshenii XXII allezda KM~. Pod red. Kuzlminova,I.I., Lebedeva, V.O.., Smoldyrevap D.A. Moskvit, Izd-vo VPSh i AON, 1962. 249 po (MIRA 15:13.) 1. Moscow. Akademiya obshchestvennykh nauk. 2. Akademiya ob- shchestveni3ykh nauk., Moscow (for Kuzlminavj Lebedev). (Economics)  OSTROVITYANOVO K.V., akademiki .GATOVSKIYj L.1.1,.j KUZIMINOV I I doktor ekon, nauk; Prinayali uchaoti*y SlkwVSK SAKGVp M.P.; BACHMIN, A.V.; ZASLAVSKAYA, T.I.; BOG014OLOVO O.T.; MLUM9 V.V.; RADINOVICH, M.9 red.; NUKHIN, Yu.., tekhn. red. [Economics; textbook] Politiche okpLia ekonwdia; uchabnik. 4.# parer. i dop. izd. Moskva, Oospolitizdat, 1962. 702 p. (MIM 15: n) 1. Akademiya nauk SSSR. Institut ekonomiki. 2. Chlen- korreepondent Akademii nauk SSSR (for Gatovskiy, Starovskiy). (Economics)  KUZIMINOV, I'I.p red.; KLEFACH, N.Ya.p red.; SLASTE14121KO, V.A., -7 --rod'.-TREFILOV, V.A.j, red.; VORONRIA, N., red. P (Socialist production collective] Sotsialisticheskii proiz- vodstvennyi konektiv. Moskva, Fqsll, 1964. 230 p. (MIRA 18:3) 1,.Moscow, Akadeviya obahchostvenrorkh nauk.  �-- - -- - - I - - _-- --- -- - - -- - -- - - - - - KARAWHYAN, A.A... inzh.; LWUSHIN, I.A.; KUZOW-NOV, I.T.) kandotekhn.nauk Method of calculating labor productivity in a thermal-electric power station construction trust. Mant.i spets.rab.v stroi. 23 no.6:20-22 Je 161. (MA 14:7) 1. Treat Teplomontazh i Nauchno-issledovatellskiy institut stroitel 'noy prosphlennosti, (Labor productivity) (Electric power-planto)  - I _'.. - Li . , -- - I'L7 rechnology (Loess-type soils in earthen structures erected hydraulically). Tashkent, lzd-vo AN USSR) 1951. Monthly List of Russian Accessions Library of Congress, 'l'O,.cmber 1952. UllCLA.SS=-IED.  124-1957-10-12034 Translation from: Referativnyy zhurnal, Mekhanika, 1957, Nr 10, p 119 (USSR) AUTHOR: Kuzl minov, M.P. TITLE: On an Approximate Calculation Method for the Compactinir of Hydraulically Filled Earth Works (0 priblizhennom sposabe rascheta uplotnenlya namyvnykh zemlyanykh sooruzheniy) PERIODICAL: Tr. In-ta sooiuzh. AN UzSSR, 1955)1t~ 7 pp 217-223 ABSTRACT: Simplified methods are presented to solve equations of the theory of ground mass corripaction for one- and two-dimensional problems, based on the application of a method of finite differ- ences using certain simplifying assumptions. In the numerical examples it is shown that the results obtained with the Author's method agree fairly closely with those obtained by V. A. Florin (Teorlya uplotnenlya zemlya*nykh mass, Moscow, Stroyizdat, 1948, p 123) and by N. A. Zadubin (Izv. Vses. n..-i in-ta gidrotekhn., 1950, Val 43). V. G. Berezantsev Card 1/1  LA;~_ 14 04 0 no 2 t3 ;3P -$v lot ; 't 'I :; lo4 All 't t3 Hit IN: 13 um of A 64 0. a 1,4 P4 f: 93 *0 Q4 P .6 av .4 z a 'o lifilfff", geo X -,d -1 ~ 6 ii - al-ana.r.. o. 1-14 431 !' e v v Ae A.A."U" z ). : ac it M" #4"f. h A 4 OP. a o iH 4 14  07-1-11JUNOV. - 14 - P- in -- -1 On a critique of the book 097draulic engineering structures made of earth.* Izv.Alr Ux*SM Ser.tekhmnauk. no.2:54-6o 16o. (MIRA 13:10) (Hydraulic structures)  07,4111JOV, 14.P.;,ABDULIAIEV, R.A.; REPNIKOVAP YOOVO Slope stability in saturated loess soils of the Golodnaya Steppe. Mat. po proizv. sil. Uzb. no.15:166-~178 160. (MIRA 14:8) I* Institut vodnykh problem i gidrotekhniki AN Uzbekskoy SSR. (Golodnaya Steppe-Soil mechanics)  VYZGO, M-S.y prot.potveredg AMPOVA-IF H kand"takhn nauk 'f-6d _WZi ILI' 1HRA31,VV, M.L. in rod. ~* M' P kan D19 nauk., red.; VUKHAMEMaV,, A.M.., kand.tekbn.nauk, red.; R,WFMKINA, NX., kand.gool.-min. nauk, red.; KAk4MXHANOVO H.2. , kand. tekhn. nauk, red.; GAYSINSKAYA, I.G., red.; KISEILTA, V.N., red.; UUITSKAYA, A.V., red.; SOKOLOVA, A.A., red.; KARABAYEVA, Kh.U.., tekbn. red. (Power, bydraulics and mining ongineering]Voprosy onergetikis gidrotakhniki i gornogo dola. TasUents Itd-vo All UzSSR,1961. 262 p. WA 15-.8) 1. Akadomiya nauk Usbakskoy SSR, Tasidcent, Otdoleniye tokhni- choskAh nzuk. 2. Chlen-korrespondent Akademii nauk Uzbekskoy SSR (for Vyzgo). (Power engineering) (Hydraulic engineering) (Mining engineering)  KUZIMIN(rip N.h.? inz-h. ----------------------- :_ -- Oparation cf the mazut. derartment cf tha Cheraj:avotB MOtallurgical Plant. Prom. onprg. 20 no.M14-15 0 165. (MTRA 3.8jlO)  KUZIMINOV, Nikolay Vasillyevich; SHEVCHENKO, M.P., red.; POPOV, V.N., (Set the fire of enthusiasm in people]Plamia dushi - liudiam, Tambov, Tambovalroe knizhnos izd-vo, 1962. 19 ]p. (MIRA 16:4) (Aitricultural workers)  TEB1211KOV, M.N.; LEPERSKIY) Ye.A,; KUZIMIVOV, O.D. Effect of bilateral ligation of the A.A. Mammariae internae and pedicardectomy on the coronary circulation in an experiment. Grud.khir. 3 no.6:48-51 K-D, 161. (MIRA 15:3) 1. Iz gospitaltnoy khirurgicheskoy klinW pediatricheskogo fakullteta II Moskovskogo meditsinskogo instituta imeni N.I. Pirogova (zav. - prof. A.V., Oqiy~v)* (CORONARY VESSELS) (PERICARDIUI~-SURGERY) (MAMMARY GLANDS-BLOOD SUPPLY)  FR;'.!,?T"G-V, Pv#B&: )CRIMEMIJ, O&DO Tcatlpr~ of attachwnts to anenthatic ap~ arsti-a f(w YDUZG children. 1!*v,, mode takhe no,3t26-,28 P65. (HP,t, 19: 1)  Y,UZ 'Yn"Ov, P. I. "Pnewnothorax in Cattle." 'Thesis for degree of Cand. Veterinary Sci. Sub 24 Feb 50, Moscaw Veterinary Academy NO SIMMT7 71,, 4 Sep 52, Dissertation Presented for DeEees in Science and Engineering in I-Ioscow in 1950. From Verchernyava Mc-skya. Jan-Dee 1950.  --- - -- -- ---- --- - -- - --- ~7 - --- -- - - - - -- -- - - - --.- Kuzlmi,Iov~ P.t., Cand. of Vet. Sci. Tvoitsk Vet. Inst.. "Utilization of tincture of eucalyptus in suppurative processes." SO: V6terinexiia 29(1)p 1952, p. 44 0 0 0 0 0 40 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 * 0 0 0 0 0 0,  USSR/Diseasea of Farm Animals. General Problems. R Abs Jour: Ref Zhur-Biol.) No 3, 1958) 12221 Author : ~- Inst : Ivanovsk Farm Institute Title :Circular Novocaine Block in Certain Diseases of Lower Leg Sections in Horses. Orig Pub: Sb. nauchn. tr Ivwovsk. a.-kh. in-ta, 1956, vyp. 13, 59-65 Abstract; Use of circular novocaine block combined with other generally accepted surgical methods of therapy shortenecl the course of treatment of animals sick with acute serous thecal abscesses of the tendons, aseptic subder- matitis ' frog puncture, and certain other infections of the extremities. Card 1/1  "Transverse Contraction and Angular Distortions in Welding" (Avto. Delo, 1952, 23, Nov., P. 7). A mc'.'-.od is developed for calculating the transferse contractions and angular distortions when butt welds are made in sheet and plate material. A number of examples are computed, and the theoretical results compare very closely with actual experimental results. VI  mlimicV, ,j' . A. ol4ethods of Calculating Weldl-ng Deformations in Framework Structures (Units and Sections) " Cand Tech Sci, Lenh-crad SI-dpbuildM Inst, Lonlrerad, 1954. (Ribbleldi, Nov 54) Survey of Scientific-TA Technical Dissertations Defendpd at USSR Higher Educational Institutions (22) SO: Sum. 110. 5Z1, 2 Jun 53  3tructtiral teate Card 1/1 Pub. 12e - 19/38- Authors I Kuzlminov, S. A* Title t An analyticarTe=Yor the determining tho Coneral deformation-Of a structure due to welding Periodical t V08t. mash* 9. 70-759 Sep 1954 Abstracb t A description is presented of a method for calculating the general deformation in a structure., arising from weldingj by means of a thermal field fomed by, a certain input ol heat ener&r and certain assumptions on plastic and elastic deformations# Three U33R references (1949-1952). Graphs; diauvams; drawings; tabl% Inr.titution  K=IMINOV,S- no.6:23 Improving equipment in metalworking artels. Promokoop Je'55- (Metalworking machiner7) (MIJU 8: 11)  SOV/ 124-58 -8-9320 Translation from: Referativnyyzhurnal, Mckhanika, 1958, Nr 8, p 135 (USSR) AUTHORS: Okerblom, N.O., Kuz'minov, S.A, TITLE: New Trends in the lanning of Technological Process Proce.- dures for the Fabrication of Welded Structures (Novyye naprav- leniya v proyektirovanii tekhnologicheskikh protsessov izgo- tovleniya svarnykb konstrulctsiy) PERIODICAL: V sb.: Svarochnoye proiz--vo. Leningrad, Lenizdat, 1957, pp 143-160 ABSTRACT: Methods are given for determining the residual strains re- sulting from longitudinal deformations in the region of a weld. A case is examined wherein filler beads are laid upon a plate that is free of stresses (except for the natural stresses norm- ally present within it;,, the strains, are calculated by methods similar to those employed for cal(ulahort of upsetting stresses. In addition, the authors study the process of development of residual strains that result from c ro,-s -welding, also, they devote some attention to the lo('alized bulge-type deformations that develop in the plane of minimum ~-tifness of thin sheet Card 1/2 metal when the latter is subjected to welding. Methods are  SOV/ 124-58-8-9320 New Trends in the Planning of Technological Proce9t: Procedures (cont.) described for determining the hngular deloTiriations ir the region of a butt weld as a function of the geometric dimercor4 o1 the sheet and of the quan- tity of heat brought to bear by the weldy..g ptot es!~. A compaxison is made of the several possible varliants of the sequ(ince of ;.Etemblirg and welding a structure comprised of ribs and skin; 117,e c e exerted by the Assen-lb- ling-welding sequence selected on the magnitude c,1 the residual strains is taken into account; the need is substantiated for u& i,g hnalytical methods in the designing of welded structures iri su,lh a rn-jr,r:er that residual straitis may be minimized. G.A. Nikolayev Card 2/2  2$00 AUTHOR: Kuz'minov, S. A 31671 S/123/61/000/024/015/016 AOOVA101 TITLE: Accounting for welding deformations in determining allowances in framework building PERIODICAL: -Referativnyy zhurnal, Mashinostroyeniye, no. 24, 1961, 50, abstract 24L311 ("Tr. Nauchno-tekhn. o-va oudostroit. prom-sti", 1959, v. 8, no. 3, 49-53) TEXT: Based on an analysis of the parameters determining the deviation of the true welding deformations from the rated ones, it was found that the devia- tion of the linear welding energy can be rated at + 20%, the structure rigidity at + 5% and the factor of proportionality, taking 'Into account the transverse and-longitudinal contraction of the welding joints of a structure, at + 10%. The total deviation.of the rated deformation values from the actual or~e_s will not exceed + 35% If the technology is observed. The author presents a list of constructional and technological measures to redUce the total deformations for passing over to the manufacture of structures within certain allowances. The author points out that, with further improvements in the machining and assembly Card 1/2  31871 S/123/61/000/024/015/016 Accounting for welding deformations ... AOOVA101 quality, improvement of calculation methods, elimination of elastic bracings and using accurate and well-defined welding conditions, the range of allowances could be narrowed down to + 10%. K. Kokhanovskiy [Abstracter's note: Complete translation] Card 2/2  010MUM, Nikolay Oskarovich; KUZ'MINOY-,-B.A-t--kAud*--tekhn-- naukv retsenzent) BAZILEVSKff-,r.-Gv kand. tekhn, naukv nauchrij-1 red.; KAZAROVj Yu.S.9 red.; XONTOROVICH, A.L., tekbn. red. [Combination welded structures]Kombinirovanrye ovarnye kon- strukt9ii. loeningradj, Sudpromgiz,. 1962. 98 PO (MIRA 15:9) (Ships-Welding)  I POk&]t6VK,6"-Z.S., inzh.; KMIMINOT S.Z., Inzh. ja t pump for removing sand obstruction& from oil wells. Neftianik 2 no.8:9-12 Ag '57. (MIRA 10:10) I,Konstruktorskoye byuro po beashtangovym naeosam. (Oil well pumps)