STEFANOV, S.B.; NIKITIN, D,I. Submicroscopic bodies in soil suspensions, MfikrobioloViia 34 no.2: 313-317 Mr-Ap 165. (MIRA 18:6) 1. Laboratoriya elektronnoy mikroakopii AN SSSR i Institut mikro- biologii AN SSSR.  MISHUSTIN, Ye.N.; VOSTROV, I.S.; NIKITIN, D*1.j YEROFEYEV, N.S. Role of aerobiosla In the formation Gf humic ccmpcunds, Mikrobiologiia 34 no.3t497..5G! My-je 165. (MTR.P. 18~11) 2. instltut mikrobio:ogil All SSSR.  MIKITIN, D.M. .I-,-,-,- - - -,- - -, -_ _. . ..... Effect of delignification of vegetable materials on the decomposition of xylan. Uch. zap. Smol. gos. ped. inst. No.10i150-157 162. - (MIRA 17:1)  NIKITIN., D.M. -,. 5_ 4 Ghemical compounds of lnrt gaaes. Khiz. v shk-ole I-P w.5:7 7, S_O t0a OMIPA 17:1) 1. Pedagogicheskiy institut, Smolensk.  NIZOLAM, L.A., kand.tokhm.nauk; NIKITIN, D.M., iuzh. Heating system of 41seal engines with air coolivi. Trakt. t sel6khoxnash. 30 no.10:8-11 0 160. (MIRA 1318) (Diesel engines-Cold weather operations)  NESTMOV, V.G.; DIKIT.U4, D.1'4',, nauchn. red.~ IVANOV, Ye,S., red. [Bioecologioal system of measures for increasing tne prc-. ductivity of forests] Bloekol-.)gIcheskaia. sistema. povyshe- niia produktivnosti lesov. Moskva, TSentr. nauctmo-issl. in-t informateii i tekhniko--ekon. issledovanil po lesnoi, tselllulozno--bu.m,azhnoi, derevoobrabatyvalush,~hei pronshl. i lesnomu. khoziaistvu, 1964. 3? P. (MIRA 17:9) 1. Chlen-korrespondent VseEjoyuznc-y akademii seillskokho- zynystvennykh nauk irrioni V,1.1,anina (for Notiterov).  I B LAGOVESHCHENSKAYA~ N.Sq DUBOVOY, A~B.,-, NIKITIN, D.P.1 PETROV, P.S., kand.ekon. nauk; MAKAHOVAq A., red. [Trade-union mass work to encourage production] Froizvod- stvenne-massovaia rabota professionallmykh soiuzov; uchebnoe posobie. Mosk7a, Profizdat, 1965. 222 p. (MIRA 18:7) 1. Moscow. Vyschaya 8hkola professional' nogo dvizheniya. 2. Zaveduyushchly kafedroy profsoyuznogo atroitellstva Moskovskoy vysshe7 shkolly professionallnogo dvivbaniya (for Petrov).  NIKITIN4.p., . V~.. Botkin's Disease (Epidemic Hepatitis) From the Records of the C'Iinic for Infectious Diseases AGMI (Arkhangel'sk State Medical Institutel. Tezisy Dokladov 17-Y Nauchnoy Sessii Arkhangel'skog Gosudarstvennogo Meditsinskogo Instituta (Thesis of Reports Presented at the 17th Scientific Session of the Arkhangel'sk State Medical Institute), Arkhangel'sk, 1952, p 50.  ~ IKITIN., D. V. q6P48 Ekonomnf~a rRFikhod,.)va-t s---Ive na ekatraltrk-7kh rAvodAllch. ;,ep,.!,-7kva orom--qt-, , 1()4(), No. 10, 9. 5 SO: Letoois' Zhurnallnykh Statey, No. 49, 1949  44IKITI& T i -, Speed up the development of the tanning axtract industry. Leg. prom. 16 no.4:12 Ap 156. -- -- (NLHA 9:8) I P 1. lachallnik Glavkoshe-yrlye KInIsterstva legkoy promyshlennosti WAR. (Tanning)  I , I p /4- / A / / / , K / 4, NIKITIN. D.V. "". - - Production of tanning liquors. Leg.prom. 17 no.11:67-69 N '57. (MIRA 10:12) (Tanning materials)  RKITIN, D. I 1- Development of the tanning material industry. log. prom. 13 no.7: 13-15 Jl '58. (MIRA 11:9) (Tanning materials)  NIKITINI D.V. Expand the production of fur goods. Kozh.-obuv.promj 3 no.2:10- U F 161. MIFA 14:4) 1. Zameetitell nachallnika Soyuzglavlegpromsyrlye. (Fur industr7)  NIKITIN, D.V. Resources of raw materials for the leather and fur industries for the current seven-year !-.Ian period. Kozh.-obuv.prom. 3 no.11:19-2-1 N 161. (MIRA 15:1) (Bides and skins)  VENIKOV, Valentin Andreyevich; NIKITIN, D.V., red.; SI'ROYE'j, V.A., red. [Transient electromechanis Al procoosea in electrical nyotomu I Perekhodnye elektromekhaniAeskie protsessy v olektriche::kikh sistemakh. Moskva, Izd-vo "Energiia," 1964. 377 p. (MiitA 17:8)  NIVT7N, :-rob'~r-,T. of ~h-2 :-,f ' .--. r~*--!'~-z P-151YZ-7S. 'T -~-, 1~~ - , , - J' T ' r-, ~: . ', 1. -. 189 ~ - 19 ~1 ~4 . I - - -1 ..  '-'r o a pe c r 1,Ku ;ji-ovi-ding of --he I lght~ - ts maLerlals during 1965. Kozh.-obu-v.prcm. 7 C. (YTPA narnillni'ra u.,.-ravlerlya Ec A-1ya lag":OY ~-1-C7,yaYstva  NIKITI'~, F., tekhnik-mekhanik I I Unit for gas t~a'Ader-L:v. AvL trarF-P. 40 no.l:,-2 ua ( I.-, lltA I 'r : I ) (Solder and soldering)  It 711XIT-11,7.14. 2. USSR (600) 4. Ural Mountain Region-Birch 7. Peculiarities of growth of pure-strain young birch in the Central Urals, Len. Khoz. 5 no.12, 1952. April 9. Monthl List of Russian Accessions, 'Library of Congress, 1953, Uncl.  NIKITIN, F. A. "Formation of Mixed Fine-Birch Undergrowth in the Central Ural." Cand Agr Sci, Leningrad Forestry Engineering Acad imenj S. M. Kirov, Leningrad, 1953, (RZhBiol, No 5, Nov 54) Survey of Scientific and Technical Dissertations Defended at tjSSR Higher Educational Institutions (11) SO: Sum. No-521, 2 Jul, 55  MTTT~t, F6 w d f" -vf r U d h d I A - er t e cou o itious d M.. a. t wort tfe 2 dholuatfim of III (administered as Blstno- veml with novarmal In We therapy) 6 t=eased. in I with that foun7im patients who did no phys. 0. M.  Utinction of cutaneogalvanic response to weak tactile stimulation in certain skin diseases. Test. 7en. i derm. no.5:3-7 S-0 054. (MI-RA 7:11) 1. rx kafedry koshrqkh i venerichaskikh loleznay (zav. chlen- korrespondent Akademti maditainskikh nauk SSSR P.Y.Kothevnikov) Leningradskogo GIM. (MIFIZZ, F.70HOGALTANIC, extinction of outanso-galvanic reactions to weak tactile stimulation in skin die.) (SKIN. diseases, extinction of cutanso-galvante reactions to weak tactile stimulation in skin die.)  1 KIT N FK I.,- KI:-L" V. R." P NIKIT JIT, i.' CZ, Ox der of Lenin Inst "or the, Adw,,C:'~-d 1 1 C L~ 4-S L. r S P: .K'.r---!v. Ecj- ; l'- Sci ; es a ir of S K.rl al:~O, 1, -- to r i S.0 3 -o ov.:  EXCEMA MEDICA See 13 Vol 13/5 Dermtology May 59 1090. INTERRELATIONSHIPS BETWEEN VISCERAL DISEASE AND ECWMA (Russian text) - N I k I t I n F. N. - NAUCIL THUDY LEN. INST. USOVEHSH. VRACII. 1957, I2Mr--1U9) A tabulated analysis of 114 cases of eczema reveals a high incidence of viscerAl pathology. Correlations were as follows- Eczema of stage I (early circumscribed foci) shows a high level of association with cardio- and neurological affections and with visceral inflammatory processes. Eczema of stage If (recurrent widespread circumscribed foci) shows predominance of associated cardiovascular, visceral and a number of miscellaneous affections. Eczema of stage fit (diffuse) shows a high rate of concurrence of visceral diseases only. In stages I and 11 th( re was a mean incidence of 1.5 and 1.2 pathologies respectively per eczematous patient. Thus, intrinsic as well an extrinsic factors play a role In the causation of eczema. Summerfield Leeds (S)  NIKITIN, F.N., kand.med.vauk Urticarial eruptions ir comeution with phy,34-otherapeutic procedures in the area of the solar plexcus. Vest.derm. I ven. no,11:21-24 161. (MIRA IJsll) 1. Iz kafedry kozhtykh bolezney (zav. - chlon--korrespondent MIN SSSR prof. F.V. Kozhevni1cov) leningradskogo instituta d1ya usovershenstvovaniya vrachey (dir. - datsent A.Ye. Kiselev). (URTICARIA) (NERVOUS SYSTEM, S)DIPATHETIC) (SOLAR PLEXUS)  .,J.~Ll ilL. I F - V. V, '; , z - j l4o.j~o. Fodny~Ane -~,rrjduktizro,.ti .11.1-c-vo - zvei-ovoil3tvo, 19490 110. 5, :;. 36: 'll--,lZ:i AYA , LZ70 131 , Vol. 7, ll-~55  NIKITIN, F.Y. .0 ..... W-.-. . .. .- bbit breadii] Krolikovtdstvo. Kazan', Tatrrakoe kaLchnoo 1 iad-vo, 1958. 1 9 p - (MIRA 11:11) (Rabbits)  - Xj~, laureat Staliaskoy premit Derivation of now breeds. On. nat. nO-9:4-6 S f58. (MIRA 11.10) (Rabbit brooding)  NIKITIN, Faust Vad I I:T~ytqh, laureat Stal-inskoy premii, zootekhnik; &W- NCY7X-,I. -I.# ~ed. f !RO-P-DIOVA, A.S., rekbn. red. I (Rabbit raising] Krolikovodstvo; posobie .... Izd.2.9 dop. Kazanlv Tatarokoe knizbnoe izd-~vo 1959. 182 p. (MMA IL4:9) '(Rabbilo)  NIKITIN? F,.V.-,. Rapid determination of the tin and antimony content of ores and of the products of their concentration. Zav. lab. 31 no.8:966- 968 165. (MIRA 18:9)  PLAKSIN, I.N.; ... NIKITIN, F.V., inzh. Design of gamma emitters for X-ray radlometric axnalysla. Izv.vys.ucheb.zav.; gor.zhur. 8 no.lljl62-166 165. KIRA 19.1) 1. TSentrellnyy nauchno-issledovatellakly 'Anstitut olova. Rekomendovana Beminarom otdela obogashcheniya poleznykh iskopayemykh Instituta gornogo dcla imeni SkochinsKogc. Submitted October 26, 1964.  PLAVAN, NIKIIIII, F.V. Dal cti ? f~ t I C'n ~)p te~l~ /I r t 1 71 ty f) f el~r"r a -f!jr I t ter's for - L i absorpCon ar,nlysis. Zav. Inb. 31 nt.-. P:1461-141-,", tol" (,,~ I ~~ 1r4:1) 1. T'Sentrallnyy ol,~vptl.~,ny promy3hlT:mnosti.  NIKITIN, G. Research institutes suggest .... Okhr. truda i sots. strakh. 7 no.2: 37-39 F '64. (MIRA 17:2) 1. Nachallnik otdela or.,anizatsii proizvodstva Nauchnc,-isaledovatel's- kogo instituta tekhnologii traktornogo i sollskokhozyaystvannogo ma- shinostroyeniya.  INIKITINIG.. Inthaner (g. U11yanovsk); MORMOVli.. inxhaner Ag.--Urlyanovsk) Helicopters. Grazhd. av. 12 no.4:25-29 Ap 155. (MIRA 8-9) (Helicopters)  84-12-38/49 AUTHOR: Nikitin, G., Senior Instructor, Kiyev Institute of the GVF (Kiyev) TITLE: A New Book on Helicopter Flying (Novaya kniga, o pilotirovanii vertoleta) PERIODICAL: Grazhdanskaya aviatsiya, 195T, Nr 12 P 30 (USSR) ABSTRACT: The article is a review of the book by G. A. TInyakov, Helicopter Piloting (Pilotirovaniye vertoleta), published by the Voyenizdat, Moscow, 1957. The author welcomes the book as filling a gap in aviation literature. The only existing publication an the subject, a description of the Ki-4 helicopter issued by the Redizdat of the GVF, is considered a "failure". The reviever comnends the book's compre- hensiveness, but objects to the lack of basic theoretical considerations, and to the inadequate treatment of the problems of stability and control. AVAILABLE: Library of Congress Card 1/1  NIKITIN, G.A. Studying the conditions of the fermentation of molames alcohol distillerle waste with wthane-producing bacteria for the purpose of producing vitamin B12. Vit. roe. i ikh lap. no.6:5"6 163. (MM 17:1) 1. Ukrainskiy nauchno-iseledovateltakiy inatitut spirtovoy promyshleanosti, Kiyev.  IFIRTIN, G.A. I% - -noun" Apparatus for balimced coqwns&tion of reactive power due to usbAlamiCloid. Prow.energ. 11 no.8.-22-23 Ag 156. (an 9:11) (Blectric engineering)  NIKITIN, Georgly Antonovich; GREKTI, Aleksandr Petrovich; USPEVSM , tekhn. red. (They are always in formation] Oni vaegda v stroiu. Moskva, I zd-vo WSAAF, 1961. 114 p. (MIRA 15:3) (Retired military personnel-Raploymnt)  NIKITIN,. u`. 'A - "". .5.. "Vitebsk Oblast (Economic-Geo~-raphAcnl Ch.-4rAc tcq r-I s tics)." ~,A tv i n n State U. Riga, 1955 (Dissertation rnr tl-,p de,7ree of 0--indidite In Geogra-doal Sciences) SO: Kni?.bnaya letonis' No. 27, 2 j111Y 1955  NIXITIN, Grigorly Alakseyevich [Nikitain, G.); FELIGIN, M., red.; --ISMARIM, -1 1 f.- tikfih-.'fid 0' (Vitebskl Vitsebak. Minsk, Daiarzbounae vyd-va BSSR. Red. sataytallno-okan.lit-ry, 1959. 108 P- (MIRA 13:2) (Titabe1c)  ANDRUSHCM109 A.G., nauebrqy gotradnik; MEMINA, O.A.,, nawbMy sotrwinik; JIUZIWAP Volot =WhMWY catrudnik; OZEMA, G.Kt naucbiWy ootradmik; FALICHIMAt A.F.0 smobsWy setrudulkl TOMIN, A.Pg wmebMy satradnlkl T]140MZV,, Lolt nauebuly &*UvdnjkjljMjXj ,G.A.# krayovM; CRCWANOV, B.r red.; ISUMA,, N.# tokbnoredo (Alupka; a aketch for excursionists] Alupka; eksku Biamri ochark, Sinforopolig Krysiodat, 1961* 84 p. (MIRA 1417) 1. Alupkinakiy dvorets-ausey (for an except Chorepanov, Isupova). (Alupla-Deacription)  NIKITIN? G., kand.geograf.nauk White Russia is being given an access to the sea. Rech. *ransD. 21 no.9:31-32 S 162. (1AIRA 15:9) (White Russia-Intracoastal waterways)  MATUSEVICH, M.G., kand. ekon. nauk; MILOVANOV, V.A., kand. ist. nauk;,-, NIKITINI G.A.,, kand. geogr. nauk; GURVICH, G.Ts. kard. ~"nioi~~k'--'dbiURV, B.P., naucbn. sotr.; KRUTILINA, T.N., nauchn. sotr.; MIKHMICH, L.M.,, na- uchn. sotr.; GIORGIDZE, Z.I., kand. ekon. nauk; RAVUN, I.I., kand. ekon. nauk; OKUNI, K.V., kand. ekon.nauk; KOVALLIVSKIT- G.T., kwid. ekonom.' nauk; MOHOIj P.A., daletor ekonom nauk, nauohxWy red.; Li(*=KO,-I4# We ig&*a; ATLAS: A., tsUm. red. [Econouv of White Russia during the period of imperialism, 1900 - 1917] Ekonoifiika Belorussii v epokhu imperiallzma, 1900-1917. Minsk, Izd-vo AN BSO, 1963. 420 p. (MIRA 17:3) 1. Akademiya navuk BSSR, Minsk, Inotytut ekonomiki. 2. Institut ekonomiki AN BSSR (for all except Leonenko, Atlas).  NIKITINP G.O. (Nikitinp H.O.] -------- Phylogenesis of anaerobic cellulose bacteria. Part 1: Fermentation of cellulose and potato mash by thermophIlic anaerobic cellulose bacteria. Visnyk Lyiv.un. no.2s],07-132 '59. (MIRA 16:4) WCTERIA CELLUIME-DEOOKPOSING) (iakRUTION)  NIKITIN, G. A., Cand Biol Sci --- (diss) "Philogeny of anaerobic cel- lulosic bacteria." Kiev, 1960. 21 pp; (Ministry of Higher and ;..secondary Specialist Education Ukrainian SSR, Kiev Order of Lenin State Univ im T. G. Shevchenko); 150 copies; price not given; (KL, 22-60, 1~4)  v ROVMTROV M.M.]; NIKITTIN, G.O. H.0.1 0 M*N. (Rotmistrov, I %, Studying the respirati+ of anaerbio oellulose baOsAt, Tlpnyk Wv.,un. no.3. Ser.biol. no.lv89-91 160. - (laRA 16 t4) (BACTERIA, CELLUU)SE-DEODWOSING) (RESPIRATION)  NIXITIM, G.O. [Nikitin, H.O.) Utillzation of nitrogen sources by amerobic cellulosew-etetic-q Vianyk Kyiv.un. no.r.74pr,biol. no.1892-96 160. (KMA 16W (HiCTERIA, CELMILOSEZZEOOMPOS ING) (MITRWEN) I  I NIKITINL, Gj_A.Aimcitia, H.O.) Phylogeny of anaerobic cellulose bacteria. Report No. 2: Comparative study of cultural and morphological properties of anaerobic cellulose and butyric acid bacteria. Mikrobiol. zhur. 22 no. 1:27-33 160. (MIRA 13:10) --- - 1. Kiyevskiy Mosi4darstvanny;y universitetg Kafedra mikrobioloeile (BACTURIA, CSSILULOSE-DECOMPWING) (BUTYRIC ACID BACTERIA)  NIKITIN, G.A. [Nikitin, H.O.) Fomentation of cellulose by pure cultures of anaorobic cellulose bacteria in the presence of simple sugars. Mikrobiol. zhur. 23 15-18 161. (MIRA 1514) 1. Kafedra mikrobiologii Kiyevokogo universiteta. (BACTERIA, CELLULOSE-DECOHPOSING) (SUGAR-PffYSIOLOGICAL EFFECT)  NIKITIN, G. 0.(Nikitin, H. Oj Fermntation of calcium lactate by culturea of a=erobic cellu- lose and butyric bacteria. Mikrobiol. zhur. 24 no.1:37-40 162. (MIRA 1527) 1. Institut mikrotlologii All UkrSSR. (CALCIUM LACTATE) (BACTERIA, CELLULOSE--DECWWING) (UCTOBACTERIACEAS)  NIKITIN, G.A. 11, 1 i .4__. ~ Z., Use of undiluted molasses distiller's slop for the production of vitamin B12. Spirt. prom. 29 no.6:23-24 163. (MIRA 16:10) 1. Ukrainskiy nauchno-isaledovatellakiy institut spirtovoy i likero-vodochnoy pronWshl.ennosti. (Distilling industries-By-products) (Cy,anocobalamine)  NIKITIN ., , , .'; . : *.- ..'jT Ts 7 ~_, j! ~k) I ' Prinimali uchastiye: I Studying the fermentation condl*t,':;r;s cf l-_,_a5_,eS stillage by methane-forming bacter--'a 'Lcr t.-.e ,,-oc:- .-ctcn ~,f vitamin B12* Trudy UlcrN.71SP no.9:139-144 164.  NIKITINp G.A. Acounlation of the oUturs of a*thano-forming bacteria in tht produation of vitamin 8 an molasses stillages Forma i spirt. Pron. 30 no,300-31 1464. (MIRA l8t2) lo Ukrainekly naunhao.-Iselodovatellskiy institut spirtovoy I likoro-yodoohnoy proiWsMonnosti.  NIKITI,11,,. G. A. Vitamin B12 synthesis by accretive cultures of methane- forming bacteria of different origin. PrikI. biokhim. i mikrobiol. I no.2:1501-154 14r-Ap 165. (MIRA 18:11) i. Ukrainskiy nauchno-issledovatelInkly inBtitut apirtovoy i likerovodochnoy promyshlennosti, Kiyev.  NIXITINY G*A* . . -.7 - 1 ~ - Fermentation of the secordary molasses stillage by methane fc-.M,'ng -bacteria for the productlon of vitamin 612, Ferm. i spirt. prom. 31 no.2:32-34 165. (MIRA 18:6) 1. Ukrainskiy nauchrio-iseledovatel'skly Inatitut spirtovoy I likero-vcdochnoy promyshlonnosti.  c ~URJQJ~7/0~1 004/00381004 A, fey," a Croft-_ a O'C "Unces T I th -7- 4tiolorl 1 :11tsid ev cgg.~Ifea r.. -liqu Is, o f U ,i e r st-~In dealoing fl 0 ances, t e -study- the,~c racteristics suc Vk seai Or t 0 JA Fyd c`systemt~;, ha of - h a,.se f , tests -'I were conducted - in I- whii--h~AH6.~10'afiiidArd-,~uie: fluid p~l k! ~roseve. _an-&, in'. A -o were A ischarged '.through dircul4r:holes ranging from 0.03 to 0.5 mm -h in', d amete;,i---aqd,.'rectAil ar 41its.with eightsmarying f rom %. 2 to 64 0, and the widths tLa lengt it rd to-,; 0 pressure. -gradie't' from 10 to" The it: was varied .8. ture, was--, pt:,. constant tea from C. j-an empera ejiawra ih he~. 0 m_in`.~v'ere. sured udin a"spedially: designed flo ter.. Curves of the mea 0 we qa~ is. th(i actual, ow- rate'. ..in -,a c ,er aln'..'time interval, and qj S, e. itial-l- f rate~measured at the*be kinning o -test' run versus. time were f t the. l4id dls~lla thro gh-ai obt-dixim results indicate -th I rge_ u cron- -,~,Size' lllts,U~:not.g ern4d. :1 L thdrefoies. carmt be _c, Aws and, i-4 ov '; i ., - 4.T. , , - ~4 , , . ermined illet eP by. e equatzon~-. ecruse tim UDC`_:,532*559` 1/2  13.110-66  ACC NR,-'-AT7060714 SOURCL CODE.~--UR/0000/66/000/()~io/OU83/0093 AUTHOR: Nikitin, G. A. (Candidate of technical sciences); Dikhno. V. I. (Engineer) ORG: none TITLE: Flow of a viscous incompressible liquid in conical slits SOURCE: Ukraine. Ministerstvo vysshego i arednego spetsial'nogo obrazovaniya. Gidroprivod I Sidropnevmoawtomatika (Hydraulic drive and hydropneumatic automation), no. 2, Kiev, Izd-vo Takhnika.'1966, 83-93 TOPIC TAGS:. hydraulic fluid, fluid flow. flow rate, flow analysis , ABSTPAtT; The how of a vi,-.ous'incompressible liquid in conical slits is analyzed on the basis of Navier-Stokjs' and flow-contin"ty aquations. It is shown that the flow rate is of parabolAc character at any slit section and is a function of the conicity parameter K . nj n. where ho and h, are the Inlet or exit clearances. The pressure varies 'accor gg to convex (contracting slit) or concave (expanding slit) curves, with & straight dividing line between these at X - 0. The smaller the inlet clearance'at constant slit conicity and the higher the conicity at constant Wet clearance. the mom sigmif icant are the deviations from the dIv14I a straight lkw. The increase In the well pressure at contracting slits and the flow rate rising at hl#wc I-valuss. and vtce vecesi, is demonstrated. A very anal:  conicity sipificantly at fects the flow rate, the 48Cr~&&4 of which through =Lc=volumtric elLts Is 00047 &16 to Impurities In the pressure f luld. rhe higher.tbe fluld 'a PUtratim the s=dkw will be the slits I' #Us. at which the flaw will be steady and without obliteration. By Increase'. of a filter retaWng particles over s cartaft simi, obliteration at slits larpr than a-At size am be avoided. Ovig. art. hem: 6 f1pres and M formlas. 9U3 COOK: 20/ SUIN U79: 29Juu"/ ORIG RAY: 004  ACC NR: 1.0R; Ni~iLin, G. A G~-,G: none SOURCE WDE: UR/0000/66/000/OOCJ WJ-P4 1 (Canuidatu of tec~,nicai sciences) HTLE: III, -,ce of che filtratic,n c)-- a liquid on the obliteraLion of ciearances il-~ the Slotted SC-al.9 J11 unic.,i Ukrai'le. XLin' SterS LVO %11':,S"!,,1,) 6rcJnego specsiai'nogo obrazov-LyLi. GLdroprivod i -,-'dropnevmcavta:~:It1*,~,i drive and hydropneumaLIC a-ALomnation), 1"o. '. Kiev, 1;,d-vo Tekhnil(a, 1966, 7071 1 C T A G 5 :~Iuid dynamiQs flu- C luiLd f1ow, forced f1ow, lf-)w r,itc ABSTRACT: lnv,~stigations on Clo of andind',e fl';~Ju-7;ed in aircraft llivdrau'Lic 17-yurf,,L~t, LC) ~)e L;,"2 source of obLi'Lerations of clearto,-e,.; in slotted se-als of liydraulic- ent. with fiu'-ds forced througli slous unfiltrated I I blo-king of -, lt:ic size and t.-le numbs.- mechanilca' parLicles per u~,J~ ind of L.'.C,.r concentration by volure were determined. 71,iL reiationship ',,, e ~ we,,,-. Ct~.*azlvt: rates, the time required to furLe 1--d rhrough the slot6, ow prru.,~ented for variout3 filter typeS, jjr,(I iL i!, -j1,()Wlj th:jt tile flud fa-- .1- 'r I, k! 0 L C r'.-I t .Mdependent of time, and chat its decrease Is due to obliteration. of a rolatively large slot has little effect on the flow rate, wh.ch c,ln Card J/Z~  ACC NR: AT7000715 according to the Hagen-Pouiseville law. The process of obliteratloz,, i,, malnly influence" by the filter's fineness. Particles which are larger than the siot's height block the entry and in so doing decrease the passage through the slot, which chere acts like a filter for particles of even smaller size; the contrary happens at slots which are larger than thL particles. That spindle oil possesses a much ~4gher degree of flow decrease than does AMG-10 oil is explained by its -,,jre iRten- k- sive contact interaction with the metallic wails, creating boundary layers which decrease the slot's active section. Orig. art. has% 7 figures and 2 tables. SUB CODE: 13. 201 SUBM DATE: 29jun66/ ORIG FLEF: 007 Card 2/2  RIKITIN9 0. A.,, Cand Tech Sci - (Oiss) *Investigation of the Jamming phenomienon. of piston connections in Lhe airplanes hydraulic system,,m Kiev Imtitute of the Civil. Aft nest) (KL, 45-609 126)  SOV/147-59-2-10/20 AUTHORS: Bashta, T.M. and Nikitin, G.A. TITLEt Investigation of the Hydr;,uiic Lock Phenomena in Piston Valves (Issledovaniye y-avleniya gicirozaalichem- leniya plunzhernykh par) PERIODICALtIzvestiya vy9shikh uchebnykh zavedeniy, Aviatsionnaya tekhnika, 1959, Nr 2, pp 83-94 (USSR) ABSTRAM This is a work based mainly on the results of r.-.-,.;aces 1-4 as applied to the piston control valves used in aircraft hydraulic systems, consisting of a double ended piston and a cylinder with ports as shown in Fig 1. The clearance between the piston and the cylinder can be made extremely small so that the leakage past the piston lands is very small even at high pressures. On the other hand, it may not be reduced to nothing as this would induce high friction forces. Based on practical experience it seems appropriate to allow abouc one micron for each 2.5 mm of the piston diameter. Due to pressure difference at the two ends of the valve, there is a Card 1/6 flow of liquid from the region of the higher pressure  SOV/147-59-2-10/20 Investigation of the Hydraulic Lock Phenomena in Piston Valves towards the region of the lower pressure. For viscous flows in a narrow clearance the rate of flow is given by Eq (1) whose solutions for the three different types (1, 11 and III) of the clearance an shown in Fig 2 are given by Eq (2), (3) and (4) respectively. Fig 3 shows the axial pressure drop along these clearances. For the parallel clearance the pressure drop is linear, i.e. depends only on the axial position of the given poiat. But for the divergent and convergent clearances it is curvilinear and depends not on the axial distance (x) but also on the size of the inlet clearance (hl) and the tapering ratio (m). Figures 4, 5, 6 and 7 show the effect of these as follows: Figures 4 and 5 apply to the divergent clearance and Figures 6 and 7 apply to the convergent clearance, in the first diagram, in each case, hl being constant and the tapering increases, while in the second diagram the tapering is constant but the initial clearance decreases. Due to the asymmetrical distribution of pressure Card 2/6 around the piston there appears a transverse force N  SOV/147-59-2-10/20 Investigation of the Hydraulic Lock Phenomena in Piston Valves which displaces the piston further and further until it eventually contacts the cylinder, thus evoking a frictional force which opposes any axial movement of the piston. As the coefficient of viscous friction decreases with the thIcknesa of the oil film (see Fig 8 and Ref 5) it is seen that the locking force increases not only because the transverse force on the piston increases with the pressure in the cylinder but also because the coefficient of friction increases: at first on account of a decreased clearance gap (and hence decreased the oil film) and then on account of the viscous friction being transformed tnto semi-dry friction when the piston is in contact with one side of the cylinder. Fig 9 shows under what conditions a locking force can be produced: I - the clearance is parallel, the pressure distribution is axisymmetric and, therefore, there is no transverse force on the piston; II - unstable position of the piston with a sideways Card 3/6 thrust on the piston tending to push it back into its  SOV/147-59-2-10/20 Investigation of the Hydraulic Lock Phenomena in Piston Valves central position4 III - divergent clearance, piston axis displaced to one side by an amount c due to which the pressure distribution is asymmetrical and a transverse locking force is directly proportional to c; IV - Converging clearance; when piston is displaced sidewards there will be a restoring transverse force produced, which pushes the piston back into its central position, i.e. the piston is in a stable equilibrium when situated centrally in its bore; V - local attachment of some foreign body also produces a transverse locking force N. The magnitude of the locking force for the case of divergent clearance is found from Eq (6) by integration, the solution being Eq (7) which is obtained on the assumption that the flow is laminar, entirely in the axial direction and the coefficient of friction being constant. The last relation may be expressed in a dimensionless form as given by Eq (8), by dividing it by a force N Z p,2.Z,r, which is a reference force, and by intro ucing the relative taper Card 4/6 ratio k = T/c (see Ref 3). This is called the  SOV/147-59-2-10/20 Investigation of the Hydraulic Lock Phenomena in Piston Valves normalised pressure. Fig 10 shows its dependence on the taper ratio when e =-O. Experiments confirm these theoretical formulae as shown in Fig 11 where the effect of pressure on the locking force is given for the p~.stons A and B shown in Fig 12.1 and the table under the figure (for the piston of Fig 12.11 there is no locking force). A simple method to reduce the unbalanced radial pressures on the piston is to make small circumferential grooves in it (Fig 13 and 14). Experiments with one type of valve showed that d single groove reduces friction force from 100 to 40% and seven grooves give only as little as 2.7%. Since grooves and tapering of the piston help to maintain the piston in its central position, this means that they reduce leakages as well, because leakage increases directly proportional to the eccentricity of the piston position In the cylinder. To reduce the friction more radically, the piston may be made to revolve or to oscillate about its axis. This increases Card 5/6 the film thickness between the rubbing surfaces as  sov/147-59-2-10/20 Investigation of the Hydraulic Lock Phenomena in Pistos. valves show-n in Fig 15 and substantially reduces friction. Eg for a 55 mm piston with a flow of 120 k./min of the liquid under a pressure of 6 kg/cm2, the friction force of an ordinary piston valve was found to be 5 kg. while the same valve with rotating cylinder suffered only 70 gr frictional force. There are 15 f1gures and 6 references, 2 of whi-chare Soviet and 4 English. ASSOCIATION: Kiyevskiy aviatsionnyy institut GVF, Kafedra gidravliki (G.V.F.Inatituto of Aeronautics of Kiyev, Chair of Hydraulics) SUBMITTED3 December 7o 1958 Card 6/6  69312 S/147/60/000/01/001/018 E022/E535 AUTHORS: Bashta. T. M. and Nikiti-n. G.A. -5 TITLE: Investigation of Fric Lion ~orce~in Hydraulic Piston- Valve Units PERIODICAL: Izvestiya vysshikh uchebnykh zavedeni3r, Aviatsionnaya tekhnika, 1960, Nr 1, pp 3-11 (USSR) ABSTRACT: The article is an extension of earlier work, published in Nr 2, 1959 of this journal, and deals with the friction forces between the Riston-Xalyea and their casings. the influence of high pressure on the hydraulic lock as well as the effect of the total fall of input pressure on the friction force. The characteristics of systems with very high working pressure differ from those of syztems with low and medium pressures. As shown in the earlier paper, the force required to move the piston-valve increasas steadily with pressure but when the working pressure is of the order of hundreds of atmospheres new factors appear and influence the locking of the valve. Both-tikLe Card 1/8 piston and the cylinder will deform at these pressures ]1-  69312 S/l47/6o/ooo/ol/ooi/oi8 E022/E535 Investigation of Friction Force in Hydraulic Piston-Valve Units and hence the clearance changes so that the geometry and configuration of the system alters. Also the viscosity of the fluid along the clearance at these pressure gradients can no longer be considered as constant. Fig I shows the axial and transverse section of d hydraulic valve pair, the inner and outer radii of the cylinder being r I and r2 respectively, while the maximum radius of the valve is r and it tapers down to (r - 0. The radial deformahon of the cylinder due to prassure p is then given by Eq (1), where a is the Poisson's ratio for the cylinder material. Similarly the radius of the piston will decrease by an amount given in Eq (2), rnA being the local value of the piston radius. Hence the total increase of the clearance is the sum of the two as given by Eq (3), in which k is a constant which depends on the geometry of the system and the properties of the materials used. Eq (3) does Card 2/8 not include the effects of the tangential stresses V,  69312 S/147/6o/ooo/oi/ooi/oO E022/E535 Investigation of Friction Force in Hydraulic Piston-Valve Units resulting from the pressure change (gradient) along the cylinder. Since the maximum pressure is at the inlet p, and diminishes along the cylinder (to P2) hence the clearance will change in a similar manner, e.g. for the system as in Fig 1, when r 1 = rnii = 6 mm, r2 = 12 mm, T = 0.002 mm, to = 10 Mm, C = 0.005 mm material of the piston and cylinder b9ing thg same (cast steel 12KhNZA) with E = 2.04-100 kg/cm- and a = 0.28, then with exit pressure p 2 = I kg/cm 2 the change in clearance for various pressures is as quoted in the table on P 5, from which it can be seen that very high pressures produce changes in the clearance of the same order as their initial values or of the order of the tapering. Thus in the case of a system with initially increasing clearance (susceptible to hydraulic locking) deformation produced by the pressure will tend to reduce the tapering, so that the clearance Card 3/8 will become uniform at first and then, at very high  69312 s/147/6o/ooo/oi/ooi/oi8 E022/E535 Investigation of Friction Force in Hydraulic Piston-Valve Units pressures, the clearance will actually decrease; under these conditions the valve will not get locked. Experiments confirm this conclusion. In the example considered above, the uniformlty of the clearance gap was obtained at 300 kg/cm . In the case of small inaccuracies of the shape the pistcn may become free from locking forces even at relatively low pressures, as shown in Fig 2, where the full line represents the force (F, in g) required to move the piston from rest, and the dotted line represents the electric resistance, in ohms, of the clearance (the lubricant between the two metals acts as a dielectric). The graph in Fig 2 is the result of experiments carried out on a system as shown in Fig 3, where (1) is the manometer registering the inlet pressure, (2) is the valve, (3) is the cylinder, (4) is ohmmeter. Tqe range of pressures u2ed was from 0 to 300 kg/cm by increments Card 4/8 of 25 kg/cm The pressures were kept constant for on  69312 S/147/60/000/01/001/018 E022/E535 Investigation of Friction Force in Hydraulic Piston-Valve Units minute before the readings were taken. Each experiment was repeated three times. The initial force needed to move the piston with no pres aure was 44 g; it increased to 21500 g at 75 kg/cm and then decreased until, at 200 kg/cm , the piston was completely free from locking, the force needed for the axial moveient becoming again 44 g for all pressures up to 300 kg/cm . With no inlet pressure into the lubricant the resistance of the system oscillated between 0.5 to 3 ohms. As the pressure increased the valve was pushed towards the wall on one side squeezing out the lubricant from that side until full contact was established so that resistance fell to zero. This happened at pressure of about J5 kg/CM2 and conditions remained static up to 150 kg/cm , after whic the resistance began2to increase (2.8 ohms at 200 kg/cm 11 ohms at 250 kg/cm ) indicating that the contact between the piston and the cylinder was broken and the valve Card 5/8 become displaced towards the central position. One of  69312 S/l47/6o/ooo/ol/ooi/oi8 E022/E535 Investigation of Friction Force in Hydraulic Piston-Valve Units the causes of hydraulic jamming of valves may be the insufficient elasticity of the housings. These, very often, may have a variable outer form so that the thickness of the wall is variable. When the initial clearance is small, it is possible, therefore, that at high pressure with deformed piston the magnitude of the clearance in some places will increase while in the other will decrease so that the piston becomes jammed and no movement is possible at all. Experience shows that the magnitude of the locking force depends on the time during which the pressure acts on the system. This may be explained by the accumulation in the clearance of small foreign particles from the lubricant and also by absorption of the charged ions by the metallic surfaces. If the inlet pressure is then suddenly reduced to zero, the conditions do not return immediately to those of the initial state and the force Card 6/8 needed to move the piston may be many times larger than kr,  69312 S/147/60/000/01/001/018 E022/E535 Investigation of Friction Force in Hydraulic Piston-Valve Units that which would have been required if the pressure were not applied at all. In fact, several movements of the pistons are required before the conditions return to the initial state. The plot, Fig 4, shows the effects of time and pressure on the magnitude of the locking force F. The results were obtained during the tests of a system shown in Fig I in which the dimens ons were as follows4 piston dia. 12 mm, piston w!G'h 10 mm, diametral clearance 10 microns, outer diameter of the cylinder 50 mm- Both the piston and cylinder were made of U12 carbon tool steel. The surfaces were heat treated until their hardness reached the value of R = 50 and then they were ground and polished. Eachcexperiment was repeated three times and the data were taken over the first minute after the pressure was removed. The effect of impurities in the lubricant on the locking force F is shown in Figs 6 and 7, the upper curve referring tL the non-purified Card 7/8 oil AMG-10 and the lower to the same oil but purified t  69312 S/147/6o/ooo/ol/001/018 E022/E535 Investigation of Friction Force in Hydraulic Piston-Valve Units by passing it through special paper filters supported on a metal net. When the purified oil was used, the valve and the piston were washed with aviation gasoline B-70 and then blown through by compressed air. The amount of impurities present in the oil may be judged from the photograph, Fig 5 (magnification 170 X); the left figure is a photo of a sample of fully purified oil and the right figure is a photo of the same oil not purified. There are 7 figures, I table and 2 references, I of which is Soviet and 1 English. ASSOCIATION: Kafedra aeromekhaniki i gidravliki, Kiyevskiy institut GVF (Chair of Aerodynamics and Hydraulics, Kiyev GVF Institute) SUBMITTED: October 3, 1959 Card 8/8  20605 S/Iti7/61/000/001/014/016 E022/E135 AUTHORS. Bashta, T.M., and Nikitin G,A. TITLE- The Influence of the Oscillatory Motion of the Piston on the Friction Force in Hydraulic Svstems With Piston Valves PERIODICAL: Izvestlya vysshikh uchebnykh zavedeniy, Aviatsionnaya tekhnika, 1961, No. .1, pp. 121-125 TEXT, Experiments with hydraulic. piston valves employed in governing mechanisms etc show that if the hydraulic pressure is large the frictional. forces against the motion of the valve inay increase up to a hundred times the corresponding values under low pressures (Refs' 1. 2), Such a large increase in resistance to the movement of the valve may cause partial or total failure of the system. In order to diminish the re5istance, it is usual to make one element of the hydraulic pair either to oscillate with high frequency and small amplitude or to rotate about 1.ts axi5. The earlier work of the author T..M. Bashta shows that such a rotational motion of the tube diminishes the force of resistance from 5 kg to 70 grams. The present work was carried out in order Card 1/ 6  20605 S/147/61/000/001/014/016 9022/EI35 The lnfluenc~ of the Oscillatory Motion of the Piston on the Friction Fc_Le in Hydraulic Systems With Piston Valves to evaluate the effect of the oscillatory motion of the piston on the resistance to its motion. The range of oscillations tested was from 0.1 to 2.4 mm, with the frequency of oscillations from 2 to 30 r_p_,;. Oscillations of the piston were produced by an electromagnet which was connected axially with the piston and was fed by d,c. of alternate polarity using a rotary switch. This was driven by a variable cpeed (120 to 1800 r p.m.) motor giving s,witching frequ3ncies of 2 to 30 per sec, The piston -.,alves tested were of two-collar type with a single groove between the collars; diameter of the collars 12 mm, width of tbe collars 10 mm. The shape of the valves was so chosen that under pressures used, they seized. as described in earlier work of the authors (same journal,. 1.959, No. 2). Experiments showed that the change of amplitude of oscillation in the range from 0.1 to 2.4 mm at the given pressures did not affect the magnitude of the seizing force, but the higher the pressure of the fluid the higher the value of the seizing force. As the frequency of oscillation increases, the Card 2/6  20605 S/l47/61/ooo/ool/ol4/oi6 E022/E135 The Influence of the Oscillatory Motion of the Pistoi) on the Friction Force in Hydraulic Systems With Piston Valves seizing force diminishes at first but then becomes sensibly constant as shown in Fig-3. In order to determine the force necessary to move the valve under various pressures when the valve oscillated a series of experiments was carried out up tc a pressure of 400 kg/cm2, The valve was kept under a given pressure for a minute and then it was moved. Fig.4 shows the results of these experiments for three different valves., a, 6 and C, . Ringed dots indicate the forces necessary to shift the valve without oscillations, while solid dots indicate the corresponding forces with the same valves when oscillating. it is clearly seen that oscillations reduce the resistance to the motion of the valve, Finally, some experiments were carried out to find out the effect of a sudden drop of the pressure in the system. Figs 5 and 6 show these results. The pressure was built UP to 500 kg/cm2. kept at that value up to 20 minutes and then suddenly reduced., As is seen from Fig-5. the forces necessary to move the piston in those circumstances fall Card 3/ 6  20605 3/lh7/6j/ooo/ooi/oi4/ot6 E022/P,135 The Influence of the 05Cillatory Motion of the Piston on the Friction F-ijce in Hydraulic Systems With Piston Valves substantially when the piston oscillates (ring dots) as compared with those when it does not (solid dots). The explanation is that when the piston is not oscillating the flow of the fluid past it is greatly reduced with time at high pressures, while with the piston oscillating the flow of the fluid is not impaired at all, as shown in Fig 6. There are 6 figures and 3 Soviet references. ASSOCIATION,, Kiyevskiy institut GVF, Kafedra aeromekhaniki i gidravliki (Chait of Aeroinechanics and llydraulicF, Kiye- Institut& of the GVF) SUBMITTED- May 3, 1960 Card 4/6  20605 S/147/61/000/001/0!4/olo' The Influence of the Oscillatory I. E022/2,135 4w 1; A i Fig. 3 Nv W X Ze 51 'jo Z Fig. 4 Card 5/6  20605 S/147/61/ooo/001/014/oi6 The Influence of the Oscillatory ... E022/E135 709o 0 0 foymmep qiyujiflupoeva -1: 6000 C qapnodwa Zee 1 'NJ 5000 4k (2 3000 d i Z000 10M - Fig- 5 Card,6/6 0 3 fpemp, m m Fig. 6  - NIKITIN, G.A.j kand.tekhn.nauk Choking of plunger pairs after a drop in the supplied pressure . Vast. mash. 4.1 no. 5:32-3) My 61. . (MIRA 14:515) (Pistons)  NTRITINY ~I.ik. inTrave orgwl~ztcfnrl ), A, ~-~ agrin-;Itvrt~! macha~narZ rrakt, ! no.10'40-41 0 '~4. I. '-nqt~ltu'~ tekhno-ogil trsikl,:;ri ; : i sell skokhozyayatvennogo irasl;!ncatroyer-,.~a.   11-11-KtIT1217, ~.A.; KRASPUTSKIY, S. Yes Friction forcou ard relieving groovoi3 in Ills- tributora. Stan. i instr. 35 no.12.*11-13 D 164 (:-J'-~A -1-8:2)  NIKITIN, G.A., kand. tekhn. nauk Filtration of working fluids of hydraulic syEtemn. Gidr. maB~. i gidr. no.108-85 165. (MMA 18:12) 1. KJ-yevskiy institut Grazhdanskogo vozdushnogo flota.  11=V19 G. 0.9 ARIM, T. IA. Muscle tissue therapy of bons defeat3. Khirm-giia, ',Ioskva Ro. 11, Ncr,:,, 50. p. ]J,~-22 1. Of the Departrant of Hospital Thorapy (Head-Prof. S. S. Girgplav), IMItary Medical A*AaW imni S. 14. Kirov. C711 20, 3, March 1951  Afl,~VITJAI, 6. 4D. XMI111 00 *am. Am ram rwm To ndde famW 1, a tab= of surat"I twherealad f"t. 7011L 1.90 P.,V-5* 1. or low 3 Swags U. wy~w)dr the 50""4a guvdftll= (ftA-A S. ftIgOUV) at the .qiutay ftedifti AftdrW IMA S. R. KIMS n soulad"m Milken (Stmt)s Laulvaild (ad&$" at djude). CM 39,p 16 JW* 50  ARITW. T.Ta.; NEXITIN. G.D. lantatlon of muscle flaps from one extremity Into the other in pl"tic repair of bow cavities. Text. kh' - 71 n0-2:23-31 1951. (cum 20:8) 1. Of the Department of Hospital Surgery of the Kilitary Kedical Academy twat S.K. Kirov (Had of Dapartment-S.S. Girgelar).  iril:ITIN, (;.D. . S~~ a.; ~-- --'iiastic surpry im saboutansous runtures of the Achilles U.ndon. Khirargii&, Koskva no. 2:87-88 Fab 1953. (CLK1 24:2)  ITIKITIN, G.D. Cutan"omusculRr grafts in the treatment of severe forms of chronic osteonVelitis. Khirurgii&, no.4:48-52 Ap '55. (HLR& 8:9) 1. Khirurgicheak&ya klinika Saratawakogo maditsinskogn instituta (zp-v. Tlclinikoy T.Ya. Arlyev) (OSTMMYFLITIS. surgery. skin musc.grafts) (SKIN TIUNSPLAXTATION. in various diseases. osteonUrelitis, skin muec.grafte) (KUSCL3S, trannplantation, skin musc.grafte In ostmomvelitle) (M.NSPWITATION, musc. -skin grafts In osteonVelitia)  NIKIM, G.D. HIKITIN, ..Agoent Surgical treatment of fractures of the elbow. Ortop.,travm. i protez. 18 no.2:7-11 Kr-Ap 157. (KLRA 10:8) 1. Iz khirurgicheskoy kliniki (zav. - prof. T-Ya.Arlyev) Saratovskogo meditsinskogo inatituta (ALBOW, fract. surg.) (HUKERUS. frBct. surg.)  111MIN, kj~. , dotsent; THUNIN, M.A. , kand.med.nauk Reimplantation and primary dermatoplasty in extensive dkin avulsions of thr. leg and hip. Trudy LSGI-11 59: 59-63 160. (YJ-~A 14:9) 1. Gospitallnaya khirurgichookaya klinika Loningradekogo sarO-tarno- gigiyanicheakogo moditsinakogo itistituta (zav. klinikoy - Prof. A.V.Smirnov). (EXTREMITIES , LMI-E.H-WOUNDS AIM INJUiLIES) (SKIN GRAFTING)  NIKITIN, G.Di.,, dotsent Injurio3 of the internal lateril ligament of the knee joint in experiments on ca&vers. Trudy LSGI-II 59164-78 '60. (MULA 109) 1. Gospital'naya khirurgicheakaya klinika Leningradskogo sanitarnc- gigiyenicheskogo meditsinakogo instituta (zav. klinikoy - prof. A.V.Smirnov). (XIM-E-WOUIMS AND INJUhIES)  VIKITIV, G.D., dots. Metallic oa teo a~m thesis in the lmier third of the shin. Nov. khir.arkh. no.4:82-83 162. OMIFI,~ 15:5) 1. Kafedra obshchey kbirurgii Nav. - zasl. deyatell nauki, prof. A.V. Smirnov) Uningradskogo sanit--rno-gigiyenicheakogo meditsinskogo institi~ta. (TIBIA---FRACTURE) (FIBULA---FRACTURE' (IFTERNAL FIXATIOV 12, FRACTURES)  NIFITIN, G. 'j. ,I I " TT P; , G . G . :*The fiv~t against inun&-t! n5 anri 5,JMer in the Ussurl lowlands". (Results of stud,,,ing f1oods and the de- velooment of methods )f combatting them). Moscow, Y,55. MAn Ag_ ricAture USSR. VASEhNTL. All-Union Sci Res Inst of Hydraulic Engineering and snil Improvement. (Dissertations for the Degree of Cindidate of Technical Sciences) SO: Knizhnava letpnis', No. 5?, ?4 December, 1055. Moscow.  SOV /124- 58 --1 -122 5 Translation from: Referativnyy zhurnal, Mekhanika, 1958, Nr 1, p 154 (USSR) AUTHOR: Nikitin, G.G,_ - TI Contribution to the Calculation of Certain Joints in Wooden Structures (K voprosu rascheta nekotorykh soyedineniy v derevyannykh konstruktsiyakh) PERIODICAL: V sb. : 15-ya nauchn. konferentsiya Leningr. inzh -stroit n-1a Leningrad, 1957, pp 65-70 ABSTRACT: An X-ray investigation on butt joints is performed relative to steel pins and screws, The use of radioactive cobalt isotopes was tr:ed out on the same model of a joint. Reviewer's name not gi%en Card 1/1  NIKITIN, G.G.; KOPYLOV, A.P. New three-dimensional plywood elements. Sbor. nauch. trudov LISI no.34:63-77 161. (MIRA 15:8) (Plywood) (Roofs)  S/08 V61/000/021/079/094 B144/B 110 AUTHORs Nikitin, G. G. TITLEs Problems of utilization and calculation of pinned connections of plastics PERIODICALi Referativnyy zhurnal. Khimiyaq no. 21, 1961, 451, abstract 21P79 (Sb. nauchn. tr. Leningr. inzh.-stroit. in-t, no, 34, 1961, 78 - 117) TEXT; The possibility of using different types of plastic materials as supporting connections between structural elements of madified and non- modified wood and even of plastics was examined. It was established that pine and bolts of different plastics can suitably be used owino to their high supporting capacityq slight deformation, low weight, and simple manufacture. It is stated that it is most expedient to use pine and bolts pressed of plastics; this does, however, Dt exclude the use of similar pine and bolts obtained by machining. Abstracter's notet Com- plete translation.] Card 1/1