SCIENTIFIC ABSTRACT NIKITIN, K.K. - NIKITIN, M.D.

NIKITIN, KenstantijL-Lqnstantinovich- GINZBURb' I.I., otv.red.; ASTROV, A.V., red.izd-va; tekhn.red. (Ancient weathering surface of ulVbELsic rocks in the Buryktal Massifj Drepniaia. kora vyvetrivFdlia Buryktallskogo massiva ulltraosnovnykb porod. Moskva,, Izd-vo Akad.nauk SSSR.. 1962. 189 p. (Akademiia nauk SSSR. Institut geotogil rudnykh mestorozb- denil, petrografli, mineralogif i geokhimii. Trudy, no.69). (Ural Mountain region-Weathering) (Ural Mountain region--Ultrabasite)  NIKITIN, FK. Combined funnel for separating aineral mIxtures in heav7 liquids. Kora vyvetr. no.5080-382 163. (MIRA 16:7) 1. Institut goologii rudnykh mestorozhdeniy, petrografii, mineralogli I gookhImii AN SSSR. (Minerals) (Filters and filtration)  ,YIKITI.N. K*K.-;.-KOZLOVA, G.M. Separation of feldspars ard quartz from igneous rockm us i 163. (MIRA 16- flotation. Kora vyvetr. no.5083-384 .77 1. Institut geologii rudnykh mostorozhdaniy, petrografii, mineralogii i geokhimii AN SSSR. (Feldspar) (Quartz) (Flotation)  NIKITIH--X.X-, KONOVALOV, N.A. Separation of the monamineralic fractions of pyroxenee and nepheline from alkali rocks. Kora, vyvetr. no.5*.385-388 163. (MIRA 16:7) 1. Institut geologii rudnykh mestorozhdeniy, petrografii, minoralogil I geokhimii AN SSSR. (Mineralogical chemistry)  NIKITIN? K.K. Pri.nelples for compJlJng a ,,,enerhl distritxition and forecasting maD on the we&thering surfaces of ultrabasic rocks and tho mineral deposits associated with them. Kora vyvetr. no.6s 258-271 163, (MIRA 17:9) 1. Institut geologli rudnykh mestorozMen-ly, petrografil, sLineralogJl i geokhInAJ AN !R;SR, Moskva.  NIK ITT' . 1.1 ~ K. K. 111 ja TSahkoVj,~,h Gi nzblirg, IA~" -1965; obi %ijar-J. Gookhim~ ',a no.7:805-896 Jl l(,5. (X:~.A  NIKITINO ~.K. PrInciple3 of plc*,t2,-jp a , .%ap of on, :,f a weathering surface a.' -Itrabas'-- rockg. Kora no.9:119-128 165. lmjp.~. ir,: -,  BUGELISKIY, Yu.Yu.; VITOVSKAYA, I.V.; GODLEVSKIY, M.N.; ZVEREVA, Ye.A.; KORIN, I.Z.; NIKITIN..~.~.; NIKITINA, A.P.; PISEMSKIY, G.V.; SAPOZHIIIKOV, D.G.; SOKOLOT, G.A.; CHUKIMOV, F.V.; SHCHEFIAKOV, D.I.; K)ELISH-l-K."N, YAUITSKIY, A.A. Illia Isaakovich Ginzburg, 1882?-1965; obituary. Geol.rud.mestorozh. 7 no.4.-109-1-10 Jl-Ag 165. (MLRA 18:8)  NIKITIN, K. N. Zhiv,-)tnyy mir BryanF!,oy Oblasti (The ani-nal world -in Eryarsk ?blast by) A. V. Fedosov i K. N. Nilr.itln. Drys-mik, "Brjanskiy Rarf)chiy, I-)-)I. 86 p. illus. "Kratkiy ... Literatury": p. 94-05) So: 127N/5 729.9 .f2  BASHKTROVP L.T., inzh.; NIKITIN, K.N., inzh. ------- Thermal stresses I- the walls of a cylinder. Ener omaz-hinostrcenie 7 no-4:44-45 Ap 16.1. fMIRA 14:7) (Heat exchangers) (Heat-Transmission)  -'~ i: J S/08 61101010021r)(~5 01b 0.1100 B102YB209 AUTHORSt Maksimenko, B. I,, Nikitin, K. N., Bashkirov, L. II TITLEi On the thermo-elastic tensions in the walls of a reactor with internal unsteady heat sources PERIODICALi Atomnaya energiya, v. 10, no. 2, 19619 131-137 TEXT: In unsteady processes, thermo-elastic tensions exceeding those during steady operation may occur on places of contact and in single parts, In order to be able to guarantee operation in the case of varying thermal. loads, an investigation of temperature propagation is necessary, i. e. the problem of unsteady heat conduction must be solved under the following conditionsi 1~ the internal heat sources are uniformly distributed in the wall material, 2 the coefficient of thermal conductivity of the material is independent of temperature, 3) the amount of the thermo-elastic tensions does not surmount the tensile strength of the material, the shape of the walls remains un- changed, 4) the temperature field is uniform. This problem is subject to the present paper, viz. for the cases of a plane and of a cylindric wall. Card 1/10  3/089/61/010/002/001)/0!8 On the thermo-elaotic ... B102/B209 Since internal heat sources chiefly give rise to tangential strains, the present calculations are restricted to the latter only. First, the equa- tion of heat conduction ~)t/c)r - a ~Lt + !V- for a plane 2S thick wall is 3~2 CPr solved with the boundary condition Dt/".~ ly-�S '�h(tT- t) and the initial condition .0 t0, where h o414 denotes the ratiot heat transfer to heat conductier. coefficient, t. t +cr the coolant temperature (OC), t the 0 0 initial temperature of the medium in contact with the wall, and c the rate of temperature change of the coolant. The coolant temperature is assumed to vary linearly with temperature and the power of the internal heat sources to be constant with respect to time (qV . const). Thus, the steady-state Bolu- tion Card 2/10  3/089/61/010/C02/005/016 On the thermo-elastic ... B102/B209 +CT + Y" + 2- 62 h6 2 sin A. cos d CPY n-i + 9 1 qC os X 0KP( (3) is obtained, where w - 0 - qv/cRTdenotes the rate of temperature variation of a point in the wall. Expressions for the thermo-elastic tangential otresses - are derived for various initial conditions. These expressions , and in- show the followingt The C are directly proportional to w and 2 veroely to the coefficient of temperature conductivity; the absolutely high- est strain appears on the surface of the plates; the magnitude of the strain on the surface rises with time. kfter some time, 'tE w 2 (1/3 _ Y2/_2). Only now, the authors proceed to considering 1- 2a heat sources of variable power and the variation of the coolant temperature. This is performed for step-wise variation of coolant temperature and source Card 3/10  S/089/61/010/002/003/Oi8 On the thermo-elastic ... B102/B209 capacity (cf. Fig. 2)' ;; the linear and/or continuous conditions which were studied for introduction hold for the individual steps. In this case, -'E' t -.6, ( I - Y, + , x I-It 2a 3 hy a + (w. _q) Tj rt is obtained for or, with L (14) 2sinp,co, (P Y n6 -Ts i n c os n-1 a (v - -r1) x exp 62 1 - 2 sin N cos Y T3= I Y I + S 'n Cos ,rj Card 4/10 x exp Ont a (T- 62 - -c,)] It T.  S/089/61/'010/002/003/cle On the thermo-elastic ... B102/B209 --!Sill Cos X x 1) 2 sill' Sill 2 a (T- Tj - TI) The mean wall temperature is given by x exp It T. :I. j- to+ cr- 4_ + _M h6 (DI ... L-+ 13) ~2 _,,tE m m denotes the number of steps. After a respective time,,Tm . _ (1/3 _ Y2/~2) 1- 11. j2a is attained again, where-w m - cm - qvm/Cpl. Nov-, the-analo- card 5/10 1  89353 S/089/61/010/002/003/01,, On the thermo-elastic ... B102/B209 gous process is performed for the case of a cylindrical wall: The equation of heat conduction at a (a2t + 2-t-) + qv is solved'for two different Tt " ar2 r e,- r 0F~ cases of heat deduction. 1) The case of internal heat deduction for linear variation in coolant temperature and isolated outer wall of the tube. With t ?t 0 -h( and t vken t, t +c r, the expres.- .r i " ~r r-r, tT-t) .0 0 r=r 1 0 2 sion 2 11a 2k2 In Q)+ (D Cac hr,-, k),(17) is obtained; k - r2/rl, r/rj, where r 2. r1, and r denote the outer, the inner, and the running radius of the tube, respectively. The mean tempera- ture is Card 6/10  9 9 3'~-.: S/08Y61/010/002/003/0 18 Dn the thermo-elastic ... B102 B209 Wr 3 5 1 1 k, t =t,+Cr- r _ k2 - + t- 15 4 ()3 + k' I+ -')In,,+k2lno+(/,--I)X k2-1 03 - x 2 + Wrl "T ; Q; k; hr,). (19) T".-I a rf and for the thermo-elastic tensions on the outer and on the inner wall, (22) and (23), respectively, are obtained: k" 4-1 T, z i In k ) + (-(D (Dykap (22, a1E Wrl 3 -a 7, -TV 20 In k ) + (i-D - (D)-,, (2-3) Card 7/10  S/069/61/010/002/003/016 On the thermo-elastic B102/B209 a1E I a .vurthermore, (I (k, Q) + atE X M X W, p!, + w.) + + (D (24) t where m again denotes the number of steps and f(k,?) (,_),2) (1.k 2/~2) k4- 112 2 ~+k2 2_ (1+1/~ )lnk + k ln After a respective time, when the dif. k 1 ference has become negligibly small, cr:ap= QfE WMPI I k. 2 Card 6/10 -". 2 2 20 In 0; (25) k' - t I/ all -,E 3 k-2 -1 -1'k B ~L 4a 2 -k3- 1 (26)  On the thermo-elastic ... B102/B209 hold for the outer and inner temperature, respectively. 2) Deduction of' heat to the outside with linear temperature-variation in the-.coolant and isolated inner surface. rrap = 3 1 1 Ink -9-_- VL a L - (Drap + (q) ('7) is obtained for the outer and (To" ai E Wri I k1 ht k 8 (k2 + t) (k a + (D) -11 1 - (28) for the inner surface of the cylinder. In investigations at the Laboratomije, nagreva Nauchno-issledovateloskogo trubnogo instituta (Heating Laboratory of the Scientific Research Institute for Tubings) it was shown that a hollow cylinder may always be regarded as a rolled up plate. On this basis, some more formulas are given, expressing the temperature differences in terms of so-called form coefficients (m, n). It is finally shown that a hollow Card 9/10  ,93')'3 S/069/61/010/002/003/018 On the thermo-elastic ... B1021B209 cylinder may betreated as a rolled up plate with the thickness J fi/n - The values of m, n, and m/n are tabulated for aevere~ r 2/r,. mi ... m 41 n and n2 depend on k only. There are 4 figures, 1 table, and 2 referencesi 2 Soviet-bloc. SUBMITTED: February 18, 1960 - - - - - - - - - - - R. tr tr rm qV' Card 10/10 0 Fit. 2    NlKrTIN,K.P. , inzhener Accounting of the actual cost of construction work of each building unit. Stroi.Drom.33 no.6:29 Je'55. (MW 8:10) (Construction industry--Costs)  NIKITY4 lav Y.I.. inzhener, retsenzent. 90ZHULI Y.G.. YXPISEKINA. A.Y.. redaktcr izdatelletva; KARASIK. M.P., tekhnicheskly redaktor [Fundamentals of sfety engineering in the wood industry] 09novy takhniki bezopasnosti v lesaoi promyshlonnosti i lesnom khozialetva. Koskva. Goolesbumizd#Lt, 1956. 320 p. (KIRA 9:11) (Umber i ng--SaJbty measures) (Wood working industries--Safety measures)  111KIT114', Lev lvan,-),~J,- '-~; --ed,; --A, red. [Saf-ty ;1~ ,dl,',;!',w-'X!!-,9 bezopasnosti na zredprilatilayr.. "'k : ~- C~ .1 (MI:--A - 4, - -- ', X-oskv,l, S".k, 11-1 - - I r  NIKITIN, 14v Ivanovichl PROKOPOYEV, Patr Sargeyevichl VINOGRADOV, Yovgoniy 60-- v RBkHZV I.N., inzh.-polkovnik, retsenzent; PITEB- MAN, Ye.P.9 red. izd-va; PARAKMA, N.L., tekhr. red. [Fundamentals of fire prevention] Osnovy protivopozharnoi tekhniki. Moskvaq Goslesbumizdat, 1960 310 (MIRA 14:6) (Fire pre;ention5*  V(--LG!iUyl','V, GJ- e K- - t L - n ,arct ' .. , . !jr 4!1 korveif-, Ay0Cu.-:.  DOMM"lov, Grigoriy Mikhay-lovich; NIKITIN, L.I., red. f-lafety measures at a sawmill] Tekhnika bezopasnosti na loi3opillnom zavodo. Moak-va, Izd-vo "Leanaia promyshlon- nost'," 1964. 156 P. (MI RA 17 15)  NIKITIN, L.I.; KHARIKOV, V.I., nauchn. red.; CAUGOROYEVA, Yo.I., . -'--bikhn. red. (Safety measures in working with electrical equiFment] Meropriiatiia po obespecheniiu bezopasnosti pri rabote s elektrooborudovaniem. Moskva, TSentr. nauchno-issled. in-t informatsii i tekhniko-ekon. issledovanii po lesnoi, tsel- liulozno-bumazhnoi, derevoobrabatyvaiushchei promyshl.~ lesnomu khoziaistvu, 1963. 55 p. (MIRA 17:4)  NIKITIV, Lev Ivanovich; GALEYEV, Valentin Sergeyevich; PENTELIKOV, - 104TS-EV, F.F., red. [Labor protection in the woodworking industries; manual for foremen] Okhrana truda v derevoobrabatyvaiushchei pror~(sh- lennosti; posobie dlia i,.-aoterov. Moskva, Izd-vo "Lesnaia pro"shlennostl," 1964. 1), p. (M1RA 17:t,)  SOV-3-58-9-5/36 AUTHOR: Nikitin, L.N., 7andidate of Historical Sciences TITLE: The Lenin Komsomol - An Active Builder of Socialism .'LeninsKiy Komsomol - aktivnyy stroitell sotsializma') PERIODICAL: Vestnik vysshey shkoly, 1958, Nr 9, pp 20-27 (USSR) ABSTRACT: The author gives a review of the Komsomol's activity in peace and war time on the occasion of the 40th anniversary of the VLKSM foundation. There are 7 Soviet references. -lard 1/1  21 r --ORS Ko,-an, K,-,, V. D., ~-k L. Slo?cilov, I. A., 51,em lmakh, P~ T TIT E Me; surement of t:ie 3- ),-Ccrrt~ Li or- -I' ~ f-nt, %Q i (Izmerenlye ~-,-y--k---~rrelyatjii ori-,,entl.--,van-.ykl: y~iJer i ER IO!l IC A L ~:hurnal eksperitneW.allnoy i teoretliciieskuy fiziki, Vol 3~, Ilr 5, pr, 12j5-12J6 (USSR) APMACT: Refer,~nce is first made lo :;o,7.e ezirlier a ers w~t-, correial-ior, t:~e atitnors con.9tructed a JLvice for t,it: Drient~~.t4~3n o~ nuclei aril tooK severai ;:ieasures f~)r li,e ;-u:,,-oqe of e/,tendin,, t~,e lurat~on of measurements and 1-m,,-rovin,-, their statistic.1 u-.curacy. The in;;iri .9,)lir,e -)f '.:eat iuripl.; iz; t'..Qrmal r.~di,~tion, w-ll,~'~~ i,asse3 thr,-)u~rIll a li,-ht ;:ipe. vvtini i, '-se-1 for trangrlittin-. the flashes of li, --;ht pro~u--ed in ~t pla"tic scin~illator lurin;- Vlie re,!oriin,.- of ' pi:-Licles. Tl~e fi-;Bdiation as,mmetry of CO 60- ,iu-~ei mea.9,jr,-A. hen: --)b-.-It nu-,~ei -jere lr,'~ro- ju--e,j Into a 2,i:erfic-.*al !a-;--r of a Card 112 nil.,ate cr. .~tal. - 'rip au~!icirz3 eir :-~eas%remmts  "'Ieha,;rPuiont o* tiic r) r: (3 i ~n ~ a t e j c ' ' 0 of Ole correlaticr, on -jrienta'~ed CO .'.10 ; rov .~l J at a (,~: t,: ine (I b-- tnese meL.'i rernen '~ a :;re :,0t ! n c ot~ t ra:1 i - t i on t .1 t huo rot i ca I c~i ' -ti . Lit i oriii v.,h i :!h wo re ~-,i r- ri-!J imt ~n tii,,: of, tho countirvati,:n of corihint-11 ;-rity. Further, t.,io of ~:,)rrelation for "' 2 , 413 ct I . A I i klia n o !.'n irJ V J j' mr.ne-l. w t':,,~rs thank ,~ca iermician., ai.d . rofesnor 'S. '-,kLt~n !'or e co~ the 4r I i RposLL t -: i.: e n% i -1: i tiie Way, lea.': W~-'ll 3.1-iled for -e~jsaremr.-n~s of ";e i:ere I e :1 c r i e A i nd f u - t h e r e , -.,r es r, t!: a ~ r -,r t! j r A ')c 1 ii 11) v f 0 1, m -I n Y "1.9 El f ii 1 1 -18 Ll S.13 i 0 wi :.ai -" ~-:iov for t~ie c 1. e rn i c a 1 se,paratiori ril ,) '.-~ev e r e 2 4' 1 re s and ~ r e f e re rc e s 0 f wh ~ c 2. sj,l- et )CV'IATIO!T: Len' n~radsl- i-./ f nauk S'SSR ( ~,, ~ n i ri r, i s i e r h, c a 1 1 r-. ~,T t , t -u 1. e o f !, 3 a ! c- J e n c e a, !'S SR 1! I'll I -'T E D 1, Y a I - -1 2 2  A), .9' '~. .9,112 0 0 82598 S/056/60/03n,/111/06/029 B006/BO70 AUTHORSs Kogan, A. V., Kullkov, V. D., Nikitin, M., Sokolov, T. A., StellmakiT_,M. TITLEs The Polarization of Sc46 Nuclei in Iron 77 PERIODICALt Zhurnal eksperimentallnoy i teoreticheskoy fiziki, 196C, Vol. 39, No. 1 (7), Pp. 47-52 TEXTt B. N. Samoylov, V. V. Sklyarevskiy and Ye. P. Stepanov (Refs. 8-10) succeeded in polarizing the nuclei of a number of weakly magnetic elements alloyed with ferromagnetics. They discovered the p-~ssibility cf orienting the nuclei of many elements including scandi,im. In the present paper, the first results found by the authors on the crientation of S046 introduced into iron are published. Fig. 1 shows a schematic cross section of the apparatus employed for the purpose. Its description is given in the introduction. To check the working of the apparatus, experi- ments were first made on the orientation of Co 60 in iron (!E~ O.D2% Co) which are described in detail. Fig, 2 shows the asymmetry of the gamma Card 1/3  82598 The Polarization of Sc46 Nuclei in Iron S/0565/60/039/01/06/020 B0061BO70 radiation of Cc 60 as a function of temperature. The asymmetry is charac- terized by E - [I(t1/2)-I(O)1/I(1T/2). Next, the experimenti! carried out on scandium are described. The neutron irradiated scandium was introduced as a metal into pure iron (Se concentration !!~~ 0.5%). A large number of asymmetry measurements of the gamma radiation from Sc46 were made in the temperature range of from 0.03 to 0.0150K~ At the lowest temperatares L - 2.5%. The sign of the asymmetry agreed with the known dipole charac- 46 ter of the cascade gamma transitions in Ti , Fig. 3 shows the asymmetry of gamma radiation for temperatures of the cooling salt between 0.025-0-030K. E was also measured for other temperatures, At 0.04-0,050K, t was 1%, at - 1.20K, however, it was 1. 0, showing that the temperature dependence of the asymmetry of gamma radiation for small values of I/T cannot be determined with sufficient accuracy. The magnetic moment of Sc46 was not measured. Still, it can be estimated with sufficient accuracy to be 3.5 nuclear magnetons, from which the effective magnetic field on C46 nucleus in iron for I/T - 25 is found to be E 105 oersteds, The eff Card 2/3  82598 The Polarization of Sc46 Nuclei in Iron S/056/60/039/01/06/029 B006/BO70 possible errors in this determination are then discussed. They are related to the errors in the determination of nuclear magnetic moments, k, and T, and the error resulting from imperfect domain orientation. Taking these into account H off lies within the limits 3.0,10 5,- H 16 5 60 5, H 5 46., eff iS 4.0-10 oe for Cc and O~70'10 eff6 1.30,10 oe for Sc 46 Finally, the possible investigations of ~d-correlation for oriented Sc nuclei are very briefly discussed. The authors thank Professor N. P. Sazhin for making available metallic scandium, and Professor A. Z. Dolginov for the derivation of the asymmetry formula. G. R, Khutsishvili and L. 14. Shestopalov of Fiziko-tekhnicheskiy institut AN SSSR (Phveicotechrical -1ns�i�jLtA Qf tKe AS USSR) are mentioned. There are 3 figures and 21 reter- ences: 7 Soviet, 8 American, 1 Canadian, 3 Dutch, and 2 British. ASSOCIATIONt leningradakiy fiziko-tekhnicheskiy institut Akademii nauk SSSR (Lening-rad Physicotechnical Institute of the Academj of Sciences of the USSR) SUBMITTEDi February 20, 196o Card 3/3  KOM, A.V.; KUL'KCV, V.D.,- N:IKITIN( L.P.; REYNOV, N.M.; SCKOLCV,I.A. STELIMAKH, M.F. Polarization of some radioactive isotopes in alloys containing iron. Zhur. eksp. i teor. fiz. 40 no.1-109-113 Ja ,61. (MIRA 14:6) (Iran alloys) (Magnetic fields)  S/05 62/043/001/015/063 3102YI3104 AUTHOR~: Kogan, A. V., Kul'kov, V. D., Nikit'in, L. P., Reynov, N. M., Stel'makh, M. F., Shott, M. 1ITLE: Asymmetry in ;-radiation from'some nuclei polarized in an iron-containing alloy PZRIODIC~,'L: Zhurnal eksperimental'noy i teoreticheskoy fiziki, v. 43, no. 3(g), 1962. 828-830 TEXT: The authors measured the !-emission asymmetry of Re 186 , Ir 192 and in 114 nuclei polarized at 0.1-0.030K in an iron alloy, using an apparatus described in ZhTF, 29, 1039, 195.9 or ZhETF, 35, 295, 1958. The values of 1, n11 ff Gh-nualear magnetic momont, H ef f - "ffective field acting on the nucleus) were determined from the asymmetry given an F_P(T) = ~W(OO) - V(n)]/~W(00) + W(n)' - A(v/c)flo when, or alloved 0-transitione, WO) - 1 + A(v/c)f Ic o 0. W(OO) is the P-rad i~tion recording probability if the magnetic field io applied in the x Card 1/./ --","Ovak SSR 40 t SI_  I A-9.1,nmetry in x-radiation from some . . . SU14ITTED: April 13, 1962 S/05 62/043/00-1/0 1 -/-6, B102 Y131 04 Card 3/3  I AC AP3005  mme~. n'Pre si~~l --W-C-Ae   .~ca m  I ', N I KIT IN f L. P. ; KOG AN, A. V. , KUL I KOV, V. ". ; "lli. i% YA T'Pi, . ... Muclear ~-,p at napit,- 4 'y, .,f. Fe"i ~i. lcy.n. Zn ,- -~i fz-:, ,--v- ~ 7" f-- / . 4q no.4.1-10-28-1030 0 165. '.? .-; 1. Fiziko-tekKniohfisK- - r.51,i ':1! -qiftril' ' "le AN - H .  'E.-- L 1-19~3-66' 1m%m)/T13e(tVEWWb) LIP(Q) - a/a, X-1- AWWRI 6A57,049 '047/102 t 1030 AP5026569 OUR EiCODE- UH/005 /0 -AUTH- 0HS:. 'Nikitin, L. P.; Atogan, A. V.; Kyltkov,_V. D., Stj!7~!pov, 1. Pe -55.1 ORG* P hn sicotechnical Institute Im. A. F. loffe, Acadew of Sciences G & z Fiziko-tekhnicheskly institut im. A. F. Ioffe Akademll nauk SSM) YTITLE: -Nucleal, *specific heat of FeV alloys SOURCE: Zhurnal eksperimentallnoy teoreticheskoy fiziki, v. 49, no. k, 1965,, io28-io3o -TOPIC TAGS: iron alloy, vanadium, specific heat, magnetic moment ABSTRACT: To-'deter.mine. the byperfine interaction field acting on the 'miiele-I'd va nad t1x the authors measured the nuclear n an iron ip r 01 -~o r vanadiulffulloy eedirl heat a having vanadium concentrationot 4- and.. 13. 0 t - jVhe samples were prepa In - - a~omlc p red by meltLnix t ~an:,eldc,r3magne a a cible. The specific heat of the alloy was mea3- uied--in- ~;64: temperature ..range 0, 03 --,0.15K. comparison with the by heat'df -the, cooling. allt, th latt r being determined experi- specific a e e ment lly using' a control 'alloy sa Is of Icnown specific heat. The ex- a Mp perimshtal technique wasdesdribed by the authors earlier (ZhETF v. 45, -Ii 1963), 'butthe apparatus used..to measure the nuclear specific heat .44  F- ~: L 11963-66 kV ACC N& P5026589 A was somewhat otodified by using pulsed heating instead of audid- fr equency heating. The value obtained,for the effective field acting -on.. the:: vanadilum nucleus In the alloy witfi'the 4.4 and 13.8 per cent vanadium was' 78 + 7 and .58 + 4 kOe, respectively. The observed strong -~;- T.depen denbe'of tig field on The compositioln of the alloy is accounted for.b:'- of-a simple model, in which the free vanadium atom has y means -threa-ele6trons,,in the unfilled 3d shell and two electrons in the 4s of, asingle trori. Atow by. a vanadium atom in the iloi:~"redudes~ the- -magnetic moment by 3'.9':Bohi- magnetons. The localized a.,:m omen he. - lloy As' estimated t be -0 t f.the vahadium atomAn-t 0 .4 Bohr -,--magne tqnsi Authors thank 3. V.. Mh'and:, L. M. WitayevXor the _and beat t atment.717 o art. has: 1 figure and Ion re Moyse OrIg :-SMN DAT& 1-5Apr65/ :003/ OTH IMF. Stm 008  ACC NR, kP7005841 SOURCE CODE: UR/0181/66/008/012/3555/3558 AUTHOR: Kogano A. V.; Kullkov, V. D-t,Xi~~t _In,_-Iw P. ORG: Physicatechnical Institute im. A. F. loffe, AN SSSR, Leningrad (Fiziko- tekhnicheskiy institut AN SSSR) TITLE: Fields of hyperfine interaction for heavy elements dissolved in iron SOURCE: Fizika tverdogo tela, V. 8, no. 12, 1966, 3555-350 TOPIC TAGS: heavy nucleus, luteclum, Iron, ferromagnetic material, beta radiation, gamma radiation, specific heat ABSTRACT: This is a continuation of earlier work by the authors (ZhETF v. 48, 1220 1965 and earlier) devoted to the mechanism producing the internal field acting on culei of weakly magnetic elements alloyed with ferromagnets, where the measured the fields of hyperfine interaction fro a number of heavy alements alloyed with iron. In the present work they investigated the effective fields for elements with closely- lying atomic numbers,, having analogous internal electronic shells but greatly differ- ing external e-hells. The experiments were made on nuclei of W177 alloyed with iron, and consisted of measurements of the nuclear component of the specific heet as well as an investigation of the spatial anisotropy of the 13 and y radiation of the polar- ized nuclei. The preparation of the alloy is briefly deecribed. The results show that the internal effective field, determined from the y-radiation anisotropy, does not exceed 70 kOe. The results am compared with experimental data on the series of CG,d 3/2  ACC - NRI AP7005841 elements from Lu to Au (Pa, W, Rh, Os, Ir, Pt) in an iron matrix, with an aim at find- ing an empirical relation for the effective magnetic field as a function of the atomic number. This analysis falls to establish any relation between the effective field i and the atomic number on the basis of any presently known theoretical considerations.1 The authors thmk Z. A. Outs for preparing the samples of the Fe-la alloys. Origo aft. has: 1 figurep 3 formulasp and I table. am CODS: 2o/ mm jDATzi okNRY,66/ (ex(; Ra: oo6/ o7H Rzr: olo Cwd 2/2  VIKITIN, L.V.; KHAYUTIV, V.M. Theory of measurement of the hydraulic resistance of the vessels under the action of regulatin signals. Fizio. zhur. 48 no.8:967-975 Ag'62. (MIFA--3&** l.From the Institute of Mechanics, U.S.S.R. Academy of Sciences and Institute of Normal and Pathologic Physiology, U.S.S.R. Academy on Medical Sciences, Moscow. (BLOOD VESSELS)  $*fee*** go 0 0 0 0 i 0 re * 0 * ~~ib 4 00&000006 400000 0 6 00 0,096 0 0 0 6 a 0 0 0 it 66 0 493 1 1 1 1 1 ; " . Q . " I , ,o,_ 00 4 TS, 111,101,me at cm AMM 4# dimpnow al a labolsonce 06 tho esiumblium 41 *0 bawmeage" ayv6lm& L. 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R.) k, ~V-( OW-T-4t ffltt ( t41 poWintiom mcwbranjes with gullis. of 0 00 0 41 00 60 0 , KCI is delasibled. to the me a 4milar cz nervous $YAM way take Oil- F. II see" ad low 111TIOU44:61111117 "a UP dec44 ousaftuddan to watuce a-- .0. 'r. it, Buiftil. Rdpt All- aW A. W. I k4 aW (riodsly to. NWOOPM-4h-1 wifr Friwmed from 4 Motu" moil it". I tested ('W the amt. ad oftfka faffictitu koir necessary to indwe expd. incivitoual perW .0 100 R. U. of water-9011. thcdiu fill 10 day I - M,.- 1. . Total dows as low as 1 onow time one fallowd by menstrual blea '~&- whilt dows of ISO R. V. (abo 3W U.) did dLxv elpti. men". Pt N 4, oil go "a J."aped. 1 u 0 w at* - *0 4t a &W# 1, ' " ' . ' v " wa mued r it N to 0. 1 N -00 itation ON UM RAtkUWLW11 -00 fill .: =d .00 M y 04k, Fed- .00 hyruild CUSPIS A00 icy Ov" thfa MW (theclin) --40 . Total dcwt 400 Well to pwo- 0 R. U - (a the coo his in 3 CILSES. L4 0 oc ljul to Pro- aff Saunder 12t coo 401D 0 &t". S L OCULLUliGIC44. 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I -Pirl Residue tm wy) do I . % % R 11 1 pi- Im fio. 1027 Iowho:Ch,4 -Apreltmin4ry account 14 91-11 1.f the F,%Ittf. ,f I-1%.1mirlits tipm tim vatiations of ork-c- t"Ie p,)trnt1al Pr-.111ft'l In. In" h V11"al d4olmalmn of metals Tests tire -06 carried emit nI.,?j e,ect,.1, If (.n. th~. toring either 11) extended until 0 : rupturr. M kept nml,r c,"i-t.int lcoad low a king jortio-1. nf 131 ottitjected to 0 jdtrfj)xtr Itut.lisig ¬ unfoadim; intil tiallfitre fit t Aw f I I it too fonnd that 00 marlilftf deviatwim Inim the initial rll~trvwlc pArntial niccist near the elastic 40 fimit, that there is an a1wriept inrroaw -it Piliture. xnel theri a rmAgretsive decreatie again In cwk, (21. after the Itno-mr (Itmenotinmof the sAmpte have ceirtorot tn rhanac apprectably, file potential tn xtwvw a reve"ed coo 43 -change In c.%*- 13) it is oferved that t1se Witter the metal the nwre s 00 ,, work it is nrtc%sary it) perhirin in sirder to obtain a given change of ass 40 400 -4 ~ potential. 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Me etwOmfe jkl4faihil .0 ,4 mw 4 like PC warill4vt Its PrOA% wdrs twi-miew tr~ rwilife kv 9 Low. .41 stretching wiffild the hmim Qoo 4 *t Gotim olewbilat; life pot"Ildl ilropited w 0 41111 it,, zoo filtilief ehdnge* were dwrw4 Allef mau"Oll the 01. v lite tw-trittall lefliflurcl gTodually too "luo only mV frw Puff ber VIIS"1C% "it very N coricludesi that the chativis its cle"itult Imir". tial col Vr durittif awls. detiornmoio-co ase mainly oiler lot chanste in temp. al (be dtfiortned ~antfilr It tici-t" tkim. this tadlemove the cauticam of wirandiwy thaff din. the potenow of 04 Fit dKue&. W 0 moo too ru I W 0. It 43 a U Is 49 43 ff r if of 10 0 * 0 0 Goo* Ill 0 a so 0 0 0000 111116 0 a o 0 0 0 0 0 0 0 0 00 * 0 0 of* so 0 0 00 0 000 0 : 90 0 0 0 00 0 1111 0 00 0 0  I NIKTTI'l, T,- I. Griemistry, Lenintrvi hist. 'inxitct -,n,i U--At~-s, ~-194b-)- "Aro,witiniil T%P. of :,, ?-jl~ir:zefi Lfll In I )ri-.% rl~: ,, 1 ~' ~ t -):i - - " x"lim., 'No. ~, 1946.  6*0 4~00 0 o 0 *0 00 o 04 1 . 6 1 1 1 % Q li w Is to if 0 0 at n a b Is ft 0 M 14 A JE - I .-L- -U I , V IL M 10 go CZ, A a V U U W M fill leivc "it t A d I r a 0 NAtt", t.. A Gwmuk (,,r ..( 'IF) a) 0,,- 11w --d, af~d cath-1,, If,-- mir-I., i.. 4 " .1mvific C-mewnt haract.-ramr tt, f -Urfsi" tr,,Atnwm and th~ milu.-sw, ,f t),, gr_%. tt"(11 fi.-I'l f tile a rth .11,1 1 h~ M.,%.. In. nt I-tf. 1, ilA %Ith r-tjm~l 1- lu. . Joe "go lite it A 3 QITFkLUSZrKF% Lltff-TUff CkASSIFICAMN 4 fill 6, (v f, it It ff It of "W n 14 4 1 IF 9. -1 44' lro *0 00 1*6 0000 0 0 0 0 0 0 0 0 0 0  a 0 v v v v - - - - - 0#1 ge-ja min. 4z by V Ramb M M , O UOA. and Optim. L-Ljag~). C&M- (U-S-S-10 20- cf. pcecedimf &baf--Pt dftUmdft WO tubbtr &ad Wth p WA*ft~Aft Ctg= =S~d io StOlt WkS. .1 !NTM m 49 d b 1 sm- y PdAdMd 4ft- MO. 1W. M-2.-Pt ciecuatks rc&ter is waftm zacts and W(y itg ft"tm mH-qo~. "aweged vlow we. Law" U"""w Mto I at 4m Of ism el: - 1 0 0 It w a 0 a q t--. I in -*A410-4 0  T 3 Tix ftliv *01~ M=i no; 4 0 V mkr 46rk- of sea pbseltill of wlvay ~e ~w"n ~l 6 0 t, r tion' of so vi, :-Iwectroi 1~ ci, i. o6ntidvI* i pcimilied membrane' ar 86 polarize& gas electro&. ''Shown iW"cS or 124. 'relizition, p*pq=* 14 liiiiroe~tiP4 of n9v jp;vxIzp4 Sme'tilectrodes for relatively corAt&At 56/4* wm/pbyaicp (Conta) =-it~Cal-votentiela in solutions of different can- ticps. Sulmitted r, Doc 47. EA P4  V. 48 Chmistry Electrochemistry *21*atrocheuical Acoustic Phencema. Applied to, -RMIcIne and Physiology," L. V. Nikitin Chm Lab, to mingrad Inet of Enwt Kech and.-Opt pp *Fizioi zhur Sm" Vol XXXIV, NO ~,ftpoz~ts experim6ntis to study action of meabanfoal "Cillation on potential. of PoUrized slactrAes ,and zedbranes. Discusses question of thether re- wilts can be applied in various fields of ftsiology and medicine.  UM/ftyalce Acoustics Models Oct 48 "93jectrochemical Model of Hearing, " L. V. Nikitin, Len=grad Inat of Fine Mach and Opt, 3 PP "Dok Ak Nauk SSSR" Vol LX11, go I^ Conducted experiments vith various substances to ob- tain a basis for assumptions an the Importance of electrokinetics In catching sound. Investigated the catching of sound by membranes an a model to corrob- urate the electr=hamioal nature of catching soundp PMnomenon of adaptation, and other problem. Noftl AM 53/491% UM/Physles (Contd) Oct 48 awthod. forms a basis for a theory of sol=d vhictL wv be called the relaxation-electrochemical tbaory of sound. Submitted bjr Aced L. A. Orbeli., 16 Aug 48.   NInTIN, L. V., "Elastic-Ductile-Plast'.c Shear Waves in a Circular Rod, ResearchinPhysics and Radio Engineering, Moscow, Oborangiz, 12958. - P 1--. The book Is a collection of 13 articles written by instnzctors and Tadupte and undergraduate students of the Moscow Irwt. of Physics and Technoiw~y.' The articles discuss Droblems in radio physics, optics end plVsics. Trudy MPM, No. 2, 1,,)5e  NIKITIN, L.V. assistent Propagation of elastic visco-plastic waves in thick-walled pipes. Izv. v7s. ucheb. zav.; mashinostr. no.3/4:14-23 '58. (MIRA 12:5) 1.Hoskovskly fiziko-tekhnIcheskiy institnt. (Strains and stresses) (Pipe)  -n I&MSv 11 UIK -no" -.jn4" u -l"1 J. A-~. T..'1 'ii .2 'M (-.," .60 to n~ j- -n~ I'W in Z", %tv Vim w J. As .t. .4 -4 CST TO T."~ 0 -IM -M T~_I~ 3. _,rd In 3- -U -U I M"M VU .1 ~n- n." ,-On *ff~_ p L-M ~ wl pm- 1* -AW-M -tvi "" " -,p *" , J. .""4 J.- - p m l *Vrv- W&M."oft J. -..a -rpm im my3m~ T~Tw im Pmft 9 b-n A- - P- P- u-us T li -wrt- P._j a I lmftr-O rffft ,9 r$ 93~nmd J. L~ J. -n vu V-1-ddv p.. C9. "A F ,d  A 3 3/179/60/OOOA)4/008/027 9081/E141 AUTHORS: _Kukudzhanov, V.N., and Nikitin, L.V. (Moscow) TITLE: Propagation of Waves in-a--Iro-d-,o-f-Itat-e-pogeneous Elasto-vis co-plas tic Matei7IWIP~o PERIODICALs Izvestiya Akademii nauk SSSR, Otdeleniye tekhnichesk;kJ") nauk, MekhaniKa I mashinostroyenlye,1960,No 4,pp 1511 '9 TEXTs The rod is assumed semi-Infinite in length and of constant cross section S. The origin of coordinates is at one end of the rod and the positive x direction Is along the rod. The stress a is positive when tensile; positive displacement u corresponds to increasing xi the density of the material is The differential equation of motion of the rod is then; a V J 1_'u f3 x C) t2 The propagation of waves arising from shock loading is considered, corresponding to rapid changes in the stress and deformation states in the rod. It Is known that Young's modulus and Poisson's rati.o are practically independent of deformation velocity., whereas the flow limit a. is appreciably affected,, The flow law is ~nlttsn Card 1/3  S/179/60/000404/008/027 E081/3141 Propagation of Waves in a Rod of Heterogeneous Elasto-visco-plastic Material in the form of Eq (1.2) subject to the conditions at the foot of page 53, where 9 6 is Young's modulus, k is a constant of the material (k '- 10 sec-1 for metals), and a = f(e, X) Is the static relation between stress and strain at the section x of tne hetero eneous material, Changing to dimensionless parameters g1ven by Eq fl.l+), the wave equation (1.6) is obtained if the stress does not exceed the yield point ISW, whereas if a '> as(x) the telegraph equation (1.8) is obtained, where a and 0 are given by Eq (1-7). (In equation (1.5) and subsequent equations, the dimensionless parameters In Eq (1.4) are written without the bar). /4c1 If an instantaneous disturbance is applied to the end x = 0 of the rod, application of the Laplace transform and the condition (1.12) leads to Eq (2.1) of which the solution is Eq (2.2), whero C(p) is an arbitrary function of the complex variable p, and TO is the representation of the function T. Expressing TO as the series (2.3) and inverting, 2 is finally obtained as (2.12). Fig 1 shows the lines of equal stress in the (x, t, plane for v0 = 2, m = 0.1 (v0 is defined after Eq (2.14) and m = ()cS/kM Card 2/3  S/179/60/000/0i+/008/027 90811F,11+1 Propagation of Waves in a Rod of Heterogeneous Elasto-visco.-plastic Material where c is the velocity of elastic waves In the medium and K is the mass of the body producing the impact). Finally, a brief discussion Is given of the conditions existing in the rod, when the shock loading exceeds the yield point as, with special reference to the determination of the boundary between the plastic and eiasti~~, regions. It is concluded that although disturbances exceeding as in magnitude extend to infinity in a semi-infinite elasto--v.JLsco__ plastic rod, and tend asymptotically to as, this tendency Is so rapid that the zone containing strains of practical Importance IiF quite limited and is concentrated in the immediate neighbourhood of the end of the rod, There are 2 figures and 5 references; Soviet and 1 English. SUBMITTED: April 11, 1960 Card 3/3  , NIKITIN, I.V- (Xoskva) Propagation of tram verse elastic visco-plastic waves in bea= and plates. Inzh.sbor. 30:31-46 160. (MIRA 13:1u) (Elastic waves)     --------- - 'S' '6 00110 3/905 P -  1,.,IKITn,L.-._...V. (Moscow) "Influence of sone factors on the uniaxial com-)Tession curve of soil" Re-ort presented at the 2nd All-Union Congress on Theoretical and Applied Mechanics, Moscow 29 Jan - 5 Feb 64.    w0:  KOSMTSKIY, B.I. (Kiyev)l NOSOVSKIY, I.G. (Kiyev)l NIKITIN,, L.V. (Kiyev) Role of oxygen in sliding friction. Manhinovedenie no.6s96-103 165, (WRA 18i11)  L 1403 :'Et-)T(!R)/WA(d-)/T/Wp(t)/kWP(t)/EW(b) UP(q), ',-,MjWJD1-DJ ACC NIL: "6002115 SOURCE CODE: UR/0369/65/001/006/0675/0682 4~ AUTHOR-., Kqstetsldy,:'& Nosovskly. 1. G.; Nikitin, L. V. 1-3 rs (Myevskiy Institut Inzhenerov grazh- ORi~G: Kiev Institute of Civil. Aviation EWnee danskay aviataii) TITLE: 4ric Aind w~~r processes at various. QUggn contents in the contact zone v. 1, no. 6, 1965, 675-682 SOURCE: Fiziko-khimicheakaya mekhanika materialov, TOPIC TAGS- oxygen, metal friction. wear resistance, metal property, carbon steel Aj9sTRAc. content in the T: :.The object of the study was to determine the effect of oxygen cont-act,zone an the friction and wear processes, to determine the optimum oxygen content under various friction conditions, and to develop methods of contrelling the surfaces In order to Insure a minimigm wear degree of oiddation of the friction Th experiments Involved dry sliding friction on cylindrical samples of 45"' 60-BIZa;W U10 & teels. Thelfollowinitanclusions wer .e reached: (1) The extent of &ddatiiiland the properties tructu n formed depend on the amount of oxygen In the ambient air of the-A00ondary a re (7601mm:Hg); (2) When the air Pressure Is lowered bqlaw 10-L mm Hg, gripping takes Card 1/2  3 L 1hh23-66- ACC NR: AP6002115 j -pressure drops down to 10 -5 Hg, the gripping reaches its maximum. _.place, and as the (3)- EffectIs of inversion in the effect of oxygen are observed when oxygen is present in -5 mm H the gaseous medium in ambunts corresponding to air pressures from 7 60 to 10 9. Thus, in dry friction of carbon steels, the minimum wear rate corresponds to air pressures from 10 to I -mm Hg; at higher or lower pressures, the wear rate increases. Whewthere to a considerable oxygen deficiency,, the chief factors determining the friction and, wear p rocessealn slidina friction%re the physical and mechanical properties of the steels, chemical factors being Insigniftcant; also great importance in these processes is -the ~ heat evolved in the friction zone. Analysis of the role of oxygen in . I ; it - alMng fric on opens.up exteiolve possibilities of controUing the wear resistance and antifri6iiiin prWe-Mes.of friction,pairs by regulating the oxygen content In the friction zoi,6, -,using-the positive effect of heat,' and considering-the predominant influence of mechanical.propertiis when the omygen content is insufficient. Orig. art. has- 7 figures. iUB CbDE: il, SUBM DATE: 28JuIGS ORIG REF: 014 Card 2/2 .7  9a(m))!ie6r)/T/EWF(t) UP(c)''. -4 L,125838-66 D/WBM A M CCNI.. AMMIM MUMS CODEU UR/036Q/65/0OQ/"/W0/=3 'UMONS Kostetilklys B. I, (Kiev) j, Waso"kLys If 0. (Kiev)l V. (Kiev) ORGs I none TITLEt The rolo of w _.Uln in sliding friction :, ASOURGE3 Hashinavedenlye, no. 60 1965, 96-103 TOPIC TAGSs friction metal hardness$ metal oxidations metal wears or'-fttion, steel/ h5 steel 60 steal, stool Made of certain aspects of t~on of metal surfaces under msmus A at u i7re sliding =onj %A tew of research in this field In gLven, including references to fiftes'n'research articles. Three effects are dealt with in the current article: 1) the effect of the degree of rarefaction of the air (the quantity of oxygen in the friction sons) on the'quantitative and alltative characteristics (form and intensity) of wearingvlth-iir~ rarefaction of 10 Hg; 2) the effect of external mechanical influences (the rate of slip and the unit pressure) on the developaient mechanism of the processes of friction and veering with air rarefaction of 20-'> = Hd; 3) the effect of the mechanical properties of the friction stwface (hardness) on the develop- ment mechanism of. friction and wearina processes with air rarefaction of lo-5 mm Hgo  #151338-66 ACC N& AP6008702 Cylindrical specimens of. external diameter 45 internal diameter 36 m~ and height mi were prepared from stools 45,, 6o, and U10 heat treated to whiove the desired hardness-O'. Plots of,test reasuroment data are given, The authors conclude that previous studies of the oxidation effect were not optiml In term of Isolating the development of friction and wearing processes* Rarefaction In general Increases the intensity of wowing* Additional corclusions relate to the mechanical and chemical E wearing* The authors suggest the do* of MYCOU control in reducing Processes e friction wearings.,,., Otig* art. hast 9 figuret. ~Uq C(Mls ~SUBM DATEt l4jan65/ ORM RM Card  AMOV, M.E.; KAGAN, S.Z.; VOLKOVA, T.S.; NIKITIN, L.Ya. Coefficients of logitudinal mixing in rotating-disk extractors. Zhur. pr-lkl. kh-im. 36 no.9-19,94-2000 D '63. (MaA 1-1. 1)  IMSHENETSKIY, A.A., akademik; YEFTMOCHMNA, Ye.F.; ZANIN, *I.A. Bacterial decomposition of cholesterol in the human blood serum. Dokl. AN SLSR 161 no.3:701-703 Mr 165. (M: RA 18:4) 1. Institut mikrobiologii AN S,'ZJ'R.  NIKITIN, M. Lifs Of a sailor. Mor.flot 17 no.11:19-20 Ij 15'/. (MIRA 10: 1-2) 1.Baltiy-Sko7e parokhodstvo. (Gav-rilov, Illia Gavrilovich)  inch. Full use of potentialities in axygen equipuent. Nor. flot 20 no. 12:31 D 160. (MIRA 13:12) 1. Nachalalk kislaroduoy stantsit Rtzh~kQgo sudoremontnogo zav oda . ( Cbcygen-- Lndus trial applications) (Shipa-Maintenance and repair)  NIKITIN, M. Wage systems and work norms on state farms. Sots.trud. 7 no.6:3-U-117 Je 162. (MIRA 16:2) 1. Direktor sovkbo* "Zarayakiy*, Hoskovskoy oblasti. (State farms-Production st"ards) (Agricultural wages)  66 irsS-2/ZWT(I)/FS(S)/FS(T)-3/ZEt(k)-2/FCC/EWA(h) TTIENSIOW !~ACC~KR: AP6000625 SOURCE CODE: UR/0260165/0601012/dO26/0028 AUTHOR: Antlpov, V.; Dobrov, N.; Mikitin, M.; Saksonov, P. ORG: NO" TITLE: The radiation barrier on the way to the moon Aviatsiya i kosmonavtika, o. 12, 1965, 26-28 ,TOPIC TAGS:- solar radiation effect, space radiation hazard, radiation biologic effect,.cosmonsut ABSTRACT: The authors discuss the possibly dangerous effects of the ionizing radiation associated with chromospheric solar bursts that may be encountered in radiation belts by manned deep-space probes. The composition of primary cosmic radiation.is discussed, and it is pointed out that this radiation can be tolerated by astronauts in-dose3 of from 125-270 mb per 24-hr period, depending on the nat- ure of the solaractivity during that period. Also considered is the radiation of the internal &M external radiation belts. It is shown that this form of radiation i~ also'poses'no real threat to the health of the cosmonaut under normally anticipated conditions. Of considerably greater interest from the standpoint of an Earth- Moon flight is the radiation wbica arises in association with chromospheric bursts Card 1/2  ACC ~M,-. "OW625 on the S4 n.-- This form of radiation contains approximately 90% protons and 10% aij6-0iiittlei., 'Ifie-protectLon-to-dosage ratios for~this radiation are discussed,~ the 'PosAbl off' to of a ' Me dosoges-on the living arganimm of a cosmonaut Ole I Pee i- ted wLthlwsuch a sun-burst,stream are analyzed, and an attempt is made to oca -A estimate the~probabllxty of.* space vehicle's encounter with this form of r&di&- tLoa. The, authors conclude that, with a properly selected flight trajectory, :adeq"'te p-rotection.ag*10st solar-burst-OrLgtuated protons, effective dosimetrLe radiation barrier an J.:dontrdle "Urellable sun-burst prediction- tachx&L.ques.,the Cep-space. bes,-an ~OartLdularl*--on:an Earth-Mban idesioa. can be successfu pro d- lly 1and safety ptinetrated. SUB ODDZ 06 IS I SUM DATE: none  Ol j TLADIMIRSKIY, T.A., inzhener; SHVYLKOV. A.K., inzhener; NIKITIN, M.A.. inzhener. The SGP-3R machine for gas-pressure welding of 12 to 60 mm pipes. Rate i lzobr. predl. v stroi. no.72:14-16 154. (MLRA 10:9) 1. Vsesoyuznvy nauchno-issledavatel'skiy institut zheleznodorozhnogo transporta Ministerstva putey soobahchpniya. (Pipe--WelP ng)  YWGCROV. B.G.; KATCRCHIK. V.Te.; NIKITILM.A. 41actrocorticographic data in intracerebral tumers. V,-p.neirokhir. 21 no.3:3-10 ltr-Je '57. (KLRA 10.10) 1. Hauchno-iseledovatellskiy ordeas Trudovogo Kreanogo Znameni institut neyrokhirugil imoni. akad. N.N.Burclenko Akadamii meditain- skikh neak SSSR. (BRAIN NEOPLASMS, diag. electrocorticography In Intracerebral tumors) (ZUCTR(KYWHA WGRAPHY, same)  YEGOROV, B.G.; KORMANSKIY, G.P.; NIKITINILA. Indication and method for total excision of a neurinoma of the eighth cranial nerve. Vop. neirokh1r. 24 no. 3:3-14 My-Je 160. (MIRA 14:1) (ACOUSTIC IERVE-TU-MOM)  NIKITIN? M.A.- Technic of recording plethysmograms and other kymographic cumes. Vraoh. dole no.2:129-130 F 161. (MIRA W-3) 1. Hlinika goopitallnoy toraLpii (zav. - prof* A&Ya.Gubergrits) Ishevskogo meditainakogo inatituta. (PLWH73MOGRLRY)  j Yu, 14. VOLYNUIN, SAK- NTI A~qTIN SONOV, P. P., A POV, V. V., and DOBBdV, N. N., "Ensuring of Radiation Safety During Plights Df Soviet C'ismonaut6 Yu. A. Gagarin, G. S. Titov, A. G. Nikolayev, and P. R. Popovich." report aubmitted fox, the 14th Intl. Astronatuicai Federatl-)n (lAr) C-)ngress, Bioastranauties Committee, Paris, France, 25 SeL-1 Oct 6~