SCIENTIFIC ABSTRACT MINAYEV, G. A. - MINAYEV, P. F.

MINAYEV, Georgiy Aleksandrovich; SHATIKO., flina Ivanovna; DIYAKOV, G.S., --------Ye,s-onzent--POVAIN'AYL?V., P.I., dots., retsenzent; PROKOFIYEV, F.I.',, dots., retsenzent; KULIKGV, A.A.., starshly prepodavatell, retsenzent; YUROV, S.I., red.; KOMAROKOVA, L.M., red. izd-va; ROMAIICVAy V.V.,, tekhn. redo (Safety engineering in topographic and geodetic work]Tekhnika bezopasnosti na topografo-.geodezicheskikh rabotakh. Moskva, Goodezizdat, 1962. 226 p. (MIRA 15:9) (Surveying-Safety measures)  FINKOVSKIY, Viktor Yaklevich, kand. tekhn. nauk, dots.; ANTIPOV, Ivan Timofeyevioh, kand. tekhn. nauk; PAVIDV, Ivan Mikhaylovich, inzh.; Prinimal uchastiye MINI ItY. G.A., inih.; MIRKIN~ A.L., inzh,., retsenzent; BUROV. M.L. red.f-StWRYGINA, A.I., red. izd-va; ROMANOVA, V.V., tekhn. red. (Handbook on horizontal and vertical control for aerial photographs by the phototheodolite surveying method in making topographic maps at a 1:25,000 scale] PosobdLe po planovo- vysotnoi priviazke aerosnimkov metodom fototeodolitnoi s"emki pri oozdanii topograficheakikh kart v masshtabe 1:4 Ooo. Mo- skva, Gosgeoltekhizdat, 1963. 150 p. (MIRA 16:7) (Photographic surveying)   Invies'a wtion'..of the~jiiic'hinability of, low.-Carbon S/808/61/011/000/006/0,06 -9, those stee'16:chiracterized by a'mean drillholeAepth of I mm and total resistance t igh's d, to' sa-vang'an urning:%vith a h Pee : steel cutter-,. (2) "difficult- to -machine" are -_i,hose'stee s~ c aracterized by a.mean drillhol' :1 h a- depth of from 2 to 5 mm and by sub- .i:_Stantia -res stan 6 3.q c -to saw ine and-Winin g (standard. 'Steel IT- [EYalTJ ); (3) - 'd I- m chi ble!':Are thdsa steels 6haracte ized.by a mean-drillhole depth of 6 r ea i y a na :. r. anditu s ta -1:50) ito-mmm.: and ready-'sawabilitj~ rhability ndaid:. Stee (4) "excellently machinable!' are those steels charicterized by,a.mean driMole depth of more than -10 Mai ahd"'easy, sawability-and turnability (standard: Calibrated steel Z5). A total Ci-~Mn,_.e and Cr-Mn-M-itdels 'were taste The-. results are tabulated and ra h* _i steels i g . p:hed...., The. overw elming major ty of,the nvestigated o ystems, f the 3 s -containixig -from .6 to":400/6 Mn and -Cr-with 0. 10/1 G, :are 'characterized by good machin- abilAy.-lboth in the cast and in the quenched state. la most of the steels investigated, --ahorn0jenizationatO 1500C and -Subsequent qu6nch,doe s not.impair, the machinability -the -con'trary.. Jiiiproves it appreciably. It is asserted thatthe opinion, W_ _..widel "A tfirodghout-the,:ftterat~xre, Ahat 10 C-ite'els of the Fe-Mn-Gr and V prevai ing. IF6. Mn,-Cr, N.systerria. are -not'reidily machinable, requires correction and that the Fe~~Mn.- Fea-M4-Cri..and Fd-Mn.Cr-N stainless nonmagnetic steels investigated are rywre readily machinable than. standard.. Cr.-Ni steels Thereare-2 figures-and I- one -and-76~6-half-,P, ble -'no re rqnces. age m  ,~ I / v / / - /I(- ft V /1--/ - M~~4N, T.N., slossarl; KIMYNT, I.A., tokarl. --------- Machanising the productlon of tongues for sport shoes. Leg.prow. 14 no.S: 46-30 Ag 154. (MIRA 7:8) (Boots and shoes)  HINAYSY, I.A.; KOLOBRODOV, G.L. ONNOWONNOW, (Work organization and technical standardization In cotton- spinning] OrganifttSiia truda I takhnichaskoe normiroyanis v khlopkoprisdillnom proizvodetva. Kooky&, Goa. nauchno- takhn. tid-vo Ministeretva promyshl. tovarov shirokogo potrobjeniia. 1953. 300 p. (KLRA 7:3) (Cotton spinning)  7APAKHOVSKIY. L.1.; PAVLOV. N.N.; BARABLNOV, L.G.; SLUTSKIN, S.M.; MIRLM. ,A., lazhozer. - - a- - _L Affleleat work orgmlsatloa for aptnnere and bobbla renovers. Toket. prom. 16 no.6:16-21 jo 156. (NA 9:8) 1. Zav*dv^shchly noreativac-looledowatellakoy laboratorlysy Glav- kor" (for Slutskla). (splastag)  NIMIUl, 1,A,: SLUTUIT# BoNo Xrrowcus principle@ expressed in L. L Zamakhovskilts article. Toksto promo 18 moo6t65-66 Jo 158* (MIRA l1-- 7) (COUGS dPlwdv4g)  3,14. Technical norms for winding processes on the Ifacoba autonatic weft winders. Takst.pron. 19 no.4:12-16 Ap '59. (MIRA 12:6) (Spinning nachin-3ry)  MTMAYFV, l.G., inzh.: -WIPC.HIKCV, M,N,, lnz~- ---------- Construction of ono, of ',,h6 largest --cal preparaticn plantL~- vo Shakbt.stroi. 7 no.~1119-22! lkly 163, WIR.! 17-,4) 1. Trnst Krapnodenpro,,iq~,akfiloELi-oy,  &L EWT (M) ACC HAt AP6005361 SOURCE CODEt UR/04l3/66/boo/bol/oio6/blo6 AUTHORSt BslcY)L Ye. M,; Gorodilov,, V. *; 1jkn~aev,,_.I...G.; Titov,_V. N. L4 ORG: none VITLEt Ionization pulse gas anal zerldoteator, Class 42v No. 177681 Zannounced by Tomsk Polytechnic-Institute-o -the- rder of the Workers' Red Banner (Tomskiy ordona trudovogo, kra-anogo anameni politennicheskiy Institu SOURCEs Izobrateniya, provqshlenrqyo obraztey, tovarnyye znaki, no. 1, 1966, 106 TOPIC TAGS: gas analyzer, gas composition analyzerp gas ionization ABSTRACTs This Author Certificate presents an ionization pulse gas analyzer detector containing a chamber with two coaxial electrodes. An ionization source, e.g., an 0(-*M4+As4 Is located inside the chamber. To increase the sensitivity of the k-da-tector to eleatronegative gases (eogep oyygen in argon), the ionization source is located at the bottom of an annular slot in the insulating end cover of the chamber (see Fig. 1). Card UDCs  44679-66 ACC NRs AP6005361 Fig. 1. 1 - chanberj 2 and 3 - coaxial electrodes; 4 ionization source; 5 end cover f Orig. art. has: 1 diagramo 07/ SUB CODEs 20f SUBM DATEs 22Dsc64 hs Card 2/2  MINAUT, I.I. muwmwm I Ifismalw. I The use of rocks. Ast.v shkole no.2.-84-85 Mr-Ap 154. (KI-RA 7:3) 1. Yearoselyakoys obahchastvo okhrany prirody. (Rooks (Bird))   WTORIDVy K*Gej KINAYST, I.M., st&rBhIY vaterinarnyy vrach. U" of satiblotles at tho 1[untsevskals poultry p2ant. Taterlowlia 32 no-8:61-63 Ag '53- (Km, 8:10) I.Direlde.r ptitsefabrIki (for Savorov). (AMISIOTICS) (PCUMY--DIMMM AND MTS)  MINAYZV, I.Ma. Inzh# Determining economically advantageous methods of forming rock dwqw. Shakht. stroi. no.4:8-10 158. (Min 11:6) (Coal mines and mining) (Materials handling)  BOGACHEV, I.N.; DUBININ, N.P.; YEGORMIKOV, I.P.; ZHUKOV, A.A.; IVANOV,B.G.; IVNIOV, D.P.; MARIYENBAKH, L.M., doktor tekhn. nauk, prof.j MINAYEV, jjl,j ROZENFELID, S.Ye.; SIDELINIKOV, S.V.; SOSIUM, M.N.; YUKOOTT 1,14.; YUDIN, S.B.; RUBTSOV, N.H.,, doktor tekbn* nauk.9 prof*, red.; CHMWAK, O.V., inzh.,, red. izd-va; MODEL', B.I., tekhn. red, [Founding bandbook; iron founding] Spravochnik litle. Pod obshchei red. N.N.Rubtsova. Moskva, liteishchika; chugunnoe Mashgiz, 1961. 774 P. (KTRA 14:12) (Iron founding)  . H4YJ akarqvIch:, f-0,',NJ;2JK(j, M,V., nauchn. red.; 140KRIL760, - . _q,jya~_M t - I . A.M. , re . LMaking core skeletons in faundry practice] izgotc-71er~;e karkasov v liteinom proizvodstve. Moskvap Vysshaia shkola, 1965. 235 P. (NIRA 1814)  AUTHOR: Minayev, I.V.$ Engineer SOV/99-58-10-4/13 TITLE: The Economical) Distribution of Vertical Drainage Wells (Eko nomicheskoye ra.zmeshcheniye skvazhin vertikallnogo drenazha PERIODICAL: Gidrotekhnika i melloratsiya, 19589,,Nr 10, pp 24-30 (USSR) ABSTRACTs Drainage of land with a high ground water level can be carried out successfully Py vertical drains. For this pur- pose pump wells are equally distributed over the entire are at a certain distance from one another, which cam be determ ined by the condition of the minimal yearly expenditure of draining 1 ha of swamp area. The author evolves a ni~~ber c formulas showing the advantage of vertical drainage for certain areas. With low costs for electric power, it is possible to have a greater lowering of the water level thar can be obtained by filtration of the ground. The distance Card 1/2 between the pumps is governed by the permeability of the so  SOV/99-58-10-4/13 The Economical Distribution of Vertical Drainage Wells ground. The capacity of pumps for the individual shafts should be consit~ered for efficient operation. There are'2'diagramag 1 graph, and 4 Soviet references. 1. Water--Control systems 2. WellB-Performn e 3. Pumps --Performance Card 2/2 N  MINAYEV, 1. V.: Master Tech Sci (diss) -- "Problems of the exploitation and economic computation of vertical drainage". Moscow, 1959. 22 pp (Min Agric USSR, Moscow Inst of Water 9conomy Engineers im V. R. Vil'yams), 150 copies (KL, No 11, 1959, 119)  jgAkIff-,-T.V~ [Minniev, I.V.1. kand.tekhu.nauk Economic effectiveness of sink-hole drainage in areas of subsurface f.looding. Visnyk sillhosp.nauky 4 no.8s66-72 Ag 161. (KMA"14:7) 1* Kawnete-Podollskiy sel'skokhozyayetv*=W Institut, (Drainage) (Water,, Underground)  -T1INAYVj1.V.t kand. tekhn. nauk "Rural water supply and land reclamation" by A.IA.Kalabugin, S.I. Murashev. Reviewed by I.V.Minaev. Gidr. i. mel. 13 no.9:63-64 S '61. (MIRA 14:9) (Irrigation) (Drainage) (Water supply, Rural) (Kalabugin, A.IA) (Murashev, S.I.)  SER.FBRYAKOV., L.P,; VOLODGHENKO, K.G.; FINASHKIN, M.A.Prinimali uchastiye% TITOV, N.A.; PROSELKOV, N'L.- MINAM I Z NIKOLAYEVj, S.V.; SM40YLOVA, V.F.; FORIN) V.F., red. vnxska; BOBRISM; A,T,v red, vypuoka; CHAPOVSKIYj Ye.G.., red. vypuska; POSPELOVAq A.M.,, red. izd- va; GUROVA, O.A., tekhn. red. (collection of unified district estiiates for geological prospecting) Sbornik edinykh poraiom3ykh edinichmykh rao- tsenok na geologorazvedochnye raboty. Moskvav Gos. naucbno- tekbn. izd-vo lit-ry po geol. i okhrane nedr. Vo.2. [Hydro- geology and geological engineering] Gidrogeologicheskie i inzhenerno-geologicheskie raboty. 1960, 91 p. (MIRA 14:12) 1. Russia (1923- U.S.S.R.) Vjinisterstvo geologii i okhrarq nedr. 2. Ministerstvo geologii i okhrarq nedr SSSR (for Titov, Nikolayev). (Prospecting)  MA)69 Ke A* J~ Teoreticheskoe i ekBperimentallnoe issledovanie raboty otkry-tykh profilei na szhatie. Dannye eksperimenta dlia profilei zakrytogo tipa. Mos),va,, 1939. 56 p.s illus., tables, diagrs. (TSAGI. Trudy, no. 393) Title tr.: Theoretical and experimental investigation of the strength of the open sections under compressive load. Experimental data for the closed type sections. QA91I.M65 no. 393 SO: Aeronautical Sciences and Aviation in the Soviet Unicn, Library of Congress, 1955.  M'IN&, - K, A 0 IV Issledovanie raboty staltnykh profilei. na szhatie. Poskva, 19LO. 27 p., illus. (TSAGI. Trudy, no. 521) Title tr.: Investigation of steel sections under compression, NCF SO: Aeronautical Sciences and Aviation in the Soviet Unions Library of Congress, 1955-  111" j K e A * A RaschetrWe grafiki dlia szhatykh i szhatoizognutykh profilei. (T6hnika V02dushnogo flota, 1940, no, 8. p. 64-78, diagra.) Title tr.: Curves for design of profile structural members under compression and bending loads. TL5o4.T4 194o SOi Aeronautical Sciences and Aviation in the Soviet Union, Library of Congress, 1955.  MINAYEV,,K.A. Doe Tech sci -- (diss) "Author's res"t workj 'Study of certain problems of.Aiji critical and extreme states of rods and panels of air~craft o~ presented as a dissertation in competition for the scientific degree of doctor of technical sciences." Emoi, 1958, 7 pp - 150 copies. Retaf"-= (KL, 29-58y 131) - 41 -  YESAREVp G.I.1 MINAYEV, X.Y6.1 SLAVITSKAYA, N.N. [Treatment of metal-autting tools in a steam atmospberal Obrabotka instruments. v atmosfere para. Riazan', Ria- zanskee knizhnoe izd-vo, 1961. 14 p. (MIRA 18z3) 1. Nachallnik uchastka termicheskoy obrabotki Ryazanskogo zavoda tyazholngo kunechno-prospovogo oborudoyaniya (for Yes&rev).  14INAM, L., and C101EZOV, B., "The Struggle for Greater Labor Productivity," Sots iali sti cheskoye stroitellstvo na. Urale; sbornik statey (Socialist Construction in the Ural Industrial Area; Collection of Articles) (Sverdlovsk] Sverdlovskoye knizhnoye izdo-vo, 1957. 345 P. Ed. (front of book): ZUYKOV, V. N. Candidate of Historical Scienceo; Ed. (back of book): GETLING, Yu.; Tech. Ed.: PALIMINA. N. PURPOSE: Thiscollection of articles is intended for the general reader. COVERAGE: The collection contains reports on the economic growth of the Ural Industrial Area., includipg the development of farming. Particular attention is given to the role played by this region during the 2nd World War.  LEZIN, V.V. , prof.; 1LU1A=--.,j M ,~pj KOROLIKOV, V.A.; SHESrOVA, L. ., red.; MARTYNOVA, M.N.,, tekhn. red. ("Co=on Market" and workers of capitalist countries] "Obshchii rynok" i trudiashchiesia kapitalisticheskikh stran. Moskva, Izd-vo V`PSh i AON pri TsK KPSS,, 1963. 289 p. (MIRA 17:2) 1. Moscow, Akademiya obahchestvenrWkh nauk.  Acommm as AFWW33 3/020/04/00WO03/0566/0M AUTHDRz T"12,11vows B. S. (SM oWk1WmW*-&-A- (Moscow) TEWs On the Stability of fUt ehaiUm with dovbU currabare an a rectangular surft" SMES Ilnxh mlvlq 111~4 V* ho we 39 1A#,~VO TOP= TAGS& flat ~b&U8 Gaussian curvatum,, Instability, critical load,, mJvJmm lwdp local stablUtys atme ftwtions triganomtric, miss,, aalwftn mettwd ABSrRAM* On the besU of V. Z. Vimm's (Obabobays. tomlva obolochek I yeys priloahmAp T td*mdkee 1949) theary of nAt sheUs with linsar arrangum*,, the stabIlitr W*Uo with pwitive Gaussian curvature was xUdiede Deflectim at tba a==& ImetablUty a4a in In rqpremated by partioular va.Ue of a thm a4Uml IwA U donned br amme of a and a far'aL jobdomma are wAttem, load; The equatim of 'me-' !~t6 + Card n?t-  ACCIMM IMs ATOM) where ouvw AP norwa and WOW loods. and w are MIJI 2 am SM t of 9013AIGNIS or "j be, loade e,=s-MdW-- In dogual "M 21 swims for iiss~v do CID less Sw an a* FEW + 111N9 mt4'laeda to an Gglerkin's ywalaUaml wMad Is wVloy"s uldch subsop q MOVO I sod by. em;pressim for MW load 0.25) (at - 0.23) + kgy)!!~rl + 755 (1 - IV) sOn-0 (ftl + RP - (0.5) lpg*b(Wf (ksmsrl +k,,Oy)l (x~-0.25) (0-02% (A(M-1- + POTP MW W + 0, - 0-5) The critical load is thm deteasined for two special caiest 1) n 22~) 1 or 0,75 k m w I and n2>> 1, and 2) uY,2, n-.~, 2. Me first gives'for %y*'.(kjr4 +_kiy)t' I- IL N q* - F~4 -,7 --- The second *&as leads to sUd", results but at a M volualf '-q(cAf;L%y t1an the former o"se Origg arts Mali 31 squationse AS=IMONI none Card 2611-  ANDRUNOT. S.N.; B&MTIN. B.$.,- BIZHNTSKIT, K.I.: BOGUMT. 14-U-; GOLOTAWT. S.T.; IOIZ. N.S.; KAYLIM, I.K.; KIMN, A.T.; KOTAOBOT, G.M.; KOROLITA, K.A.,- ORIN, A.I.: KIRYN, U.S.; POZWAKOVA, T.A.; PROKOPOTICK, T.K.: ODWWIYW. S.I.: TPW!YAKOV, N.P.; CHIMDT. A.K.; JPILINDNOT, N.D. Petr Pedorovich TAIlkow; obitumT. Pt$toovodstvo 9 no.8:48 Ag 159. (NIM 12:12) (Lellkew. Petr Fedorovich, 1905?-1959)  KNOW, H. - ~ I From bad to very good work. Ayt.transp- 37 no.1:16-17 Ja 159. (NM 12:2) 1. Glavnyy inshener Marlyakogo artotresta. (Transportation,, Automotive)  MINAYE70 N. Manager and chief engineer Of an aotomotive transporiation unit, Awt.trwW. 39 no.3t34,-35 Ir 161. (MIRA 3.40) (T=nsporation, Automotive)  KUZIKIxk. 0.0... K1jfiWAjk.G_,* PSHENICHNIXOT, A.P. Method for determining subsurface defeat@ In metals by some of transverse ultrasonic waves. Zay.lab. 22 no.8:01-949 A; 156. (KM 9:11) (Metals-Testing) (Ultrasonic testing)  S/181/60/002/007/045/047/D'. B006/BO67 AUTHORS; I~atsh, V. V., Minayev, V. G., Somin, B. Kh. TITLEj X-Ray Study of the Phase Composition of Ni-Jerrites by Using CO& Radiation PERIODICALs Fizika tverdogo tela, 1960, Vol. 2, Wo. 7, pp. 1632-1642 TEXTt The use of the e4ssion of an iron anticathode for analyzing the phase, of Ni-Zn ferritesv~roved to be inadequate since it renders the determination of NiO or of the solid solution of ZnO in NiO difficult or impossible because the lines of NiO and the spinel coincide. If harder (monochromatized) Co-Fv radiation is used, this disadvantage is not observed; the X-ray pictures show two additional intensive interference lines of NiO with the indices (133) and (420), and the Bragg angles 690 and 740, respectively. An X-ray tube of the type GCE3-4 (BSV-4) (time of exposure 10 hours; 10 ma, 35 kv) was used for taking the Debye powder patterns. Mixed oxides with an NiO:ZnO ratio of0-35 - 1.1 and an Fe 0 content of 45-55-0 moles- were studied. By means of Co-Y.,j. radiation, inie;ference lines could also be observed at the following concentrations: Card 1/3  X-Ray Study of the Phase Composition of Ni-Zn S/iol/60/002/007/045/047/XX Ferrites by Using COK,, Radiation B006/BO67 NiO (0.5 wt%), ZnO (2.0 wt%), F0203 (2.0 wt%), The results of the investigations are illustrated by means of X-ray diagrams, tables, and mierostructural pictures, and they are summarized as follows: 1) With Co-Kd. radiation NiO or ZnO can be determined in Ni-Zn ferrites and NiO, respectively by means of interference lines. 2) During the ferritization process, in the case of stoichionetric composition, no formation of solid ZnO solutions in NiO was observed. The formation of Zn ferrite in the synthesis from oxides ceases at a tem erature of 9000C, the ferritization of nickel ferrite ceases at 11000C. 35 A rise of the annealing temperature of ferrite mixtures with a low content of iron oxide over 9000C leads to a substitution reaction between the excess NiO and the Zn ferrite which brings about a change in the ratio between divalent Ni and Zn ions in the ferrite lattice. 4) Zinc oxide and nickelaus oxide form solid substitution solutions with conservation of the Ni-O crystal lattice; the lattice parameter practically increases linearly with increasing ZnO content .10tsee Fig. 3 and Table 3). The solubility limit of ZnO and NiO amounts to about 50 wt% at an annealing temperature of 13500C. If this temperature is reduced to 90000 the solubility limit of ZnO is reduced to -30 wt~- A change in the solubility of ZnO in NiO could not be observed on a further Card 2/3  X-Ray Study of the Phase Composition of Ni-Zn S/18ij60/OO2/007/045/047/XX Ferrites by Using COK .,L Radiation B006/BO67 temperature increase; this is connected with the strong decrease of the diffusion rate- 5) In Ni-Zn ferrites with less than 50 mole% of Fe203, NiO and ZnO excesses exist *hidh form solid solutions. The formation of a solid ZnO solution in,NiO was observed after th3 termination of zinc ferritization. B_. Te. Levin is mentioned. There are 8 figures, 3 tables, and 11 referenodsi 9 Soviet and I US. SUBMITTED: July*22, 1959 Card 3/3  84W2 S/181/60/0021009/023/036 B004/B056 AUTHORS: Latsh, V. V., Somin, B. Kh., Stepina, N.E. TITLE: Dissolution of Excess Iron Oxide in Ni-Zn Ferrite tA PERIODICAL:... Fizika tverdogo telal 1960# Vol. 2, No. 9, pp. 2191 - 2198 TEXT: For the purpose of explaining the contradictory published data concerning the solubility of Fe 0 in ferrites, the authors carried out 2 3ferrites with a content of 50-95 mole% the following experiments: Ni-Zn Fe203and an NiO/znO ratio of from 0.43 to 4-0 were synthetized from the oxides, were briquetted after the addition of polyvinyl alcohol as a binding agent, annealed for 4 h at 1000-13500C, after which they were either slowly cooled (100OC/h) in a furnace or quenched with air or water. Besides, they were also slowly cooled under oxygen deficiency (0-7 to 0-35 torr). Fig. 1. shows the results obtained by chemical ana- lysis: The quantity of.Fe203 converted into magnetite as a function of the Fe 0 content and the cooling conditions; Fig. 2 shows the quantity 2 3 Card 1/3  84082 Dissolution of Excess Iron Oxide in Hi-Zn 311811601002100910231036 Ferrite B004/BO56 of Fe 203converted into magnetite as a function of the annealing tempera- ture. The quenched samples were found to have the highest magnetite con- tent. The Fe 203 excess dissociates to form magnetite, and together with the ferrite it forms solid solutions of iron-nickel-zinc ferrite of stoichiometrio composition. When slowly cooled in air, the magnetite is oxidized to y-Fe 2 03or M-re203* The latter separates as the second phase. Figs. 3-6 (microphotographs) confirm this process. The quenched samples form a homogeneous phase, while the slowly cooled samples have two phaset because of the separation of hematite. X-ray analysis (Fig- 7) shows tha' the lattice constant of quenched samples approaches that of magnetite (8-38 U), whereas Fe 203 formed by oxidation reduces the lattice con- stant (8.32 U at 100 mole% Fe 20 3). Fig. 8 shows the temperature of the dissociation of Fe 203 to Fe304 , as a function of the Fe 203 content. For,, pure Fe203' the dissociation temperature is 14500C, and in the system Card 2/3  84082 Dissolution of Excess Iron Oxide in Ni-Zn S11811601002100910231036 Ferrite B004/BO56 Ni-Zn-ferrite - Fe2039 it approaahes the value of 9000C with decreasing iron-oxide excess. There are 8 figures and 23 references: 11 Soviet, 4 US, 2 Britisht 3 German, and I French. SUBMITTED: October 26, 1959 Card 3/3  ACCESSION NR: AIR4018314 S/Ol37/64/OOO/OOl/GO36/GO36: SOURCE: RZh. Metallurgiya) Abe, 10251 AUTHOR: Somin) B. Kh.; Gorbachevskly; Ye. V.; Latsh) V, V-; MinayeV) No G. TITLE: The influence of nickel on the sinterability of prcened powers of tungaten, and molybdenum -*shevsk. aviats. in-7t, vy*p..16, 1963, 141-148 XITED SOURCE: Tr. Kuyby TOPIC TAGS: powder metallurgy, nickel, tungsten, molybde nu m, material strength, ~heat-treatment iTRANSIATION: Research was conducted-on the influence of Ni on sintering in an at- imospher~-_ of H2 and in vacuum Mo and W in a range of 1,100-2,000 degrees for Mo and ;,1,100-2,500 for W, with a nickel content of 0.01-10% byweight. Density (P), micro ;structure, microhardness, and the parameters of the crystal network of the first were studied. An increase in the density of the sintered Mo with an inclusion Sof 0.5-1% Ni takes place as lowas. 1'100 degrees. At 1P300 degreesj the porouity Lof the samples vith the above nick6l'contant amounts to 10~. At 1j500 degreesp the' t effectiveness of the influence of small inclusions of Nickel on the sin erability '..'Card 1/2  -!ACCESSION IM: AR4018314 iof Mo decreases considerably. The curved of function P of sintered W with the ~nickel content han a maximum equal to a 0.2% nickel content. After sintering at 11,500 degreeso the W vith an admixture of 0-25-0,5% nickel amounto to 5-%. The !inclusion of nickel also leads to an increase in the microhardness of W from 250 to 600 kg/sq cm, and the microhardnesa of Mo .from 150 to 500 kg/rq cm. The . liqui- 11ability of nickel at 1,500 degrees.is 0-3 atmospheric f in W and 1 atmospheric ;in YD. At ainteriiag temperatures 0 'f lo350 degrees for Mop and lj495, degrees for M) and a nickel content greater than 0-5~ for Mo and 0.2 % for W, an oozing out.of ltbe Nickel phase is observedy accompanied by a de8reace in hardness of the samples. during sintering in H2. MM COIDE: M LTICL: 00 Card 2/2  24(6) SOV/139-59-1-6/31+ AUTHORS: Yepifanov, G. I. and Minayev, N. 1. TITLE: Investigation of the'~-De-pen-de7c~5---5-f--t'h-e Friction Force on the Real Area of Friction and the Normal Load (Issledovaniye zavisimoSti Bily treniya ot istinnoy ploshchadi treniya i normallnoy nagruzki) PERIODICAL: Izvestiya Vysshikh Uchebnykh Zavedeniy, Fizika, 1959, Nr 1, pp 35-43 (USSR) ABSTRACT: A great d r a w b ac k of most of the work devoted to experimental study of the process of external friction lies in the fact that the experiments were carried out without knowing the magnitude of the real friction area which really does participate in the friction process- The friction theories prevailing at present are based on the incorrect concept that the real area of friction is the area of contact of the rubbing pairs. This complicates understanding the process of external friction and also complicates the physical interpretatioi of experimentally established facts. This relates particularly to the dependence of the coefficient of Card 1/6 external friction on the normal load. In earlier work one of the authors of this paper (Refs 8-10) applied  BOV/139-59-1-6/34 investigation of the Dependence of the Friction Force on the Real Area of Friction and the Normal Load the concept of V, D. Kuznetsov (Ref 1) and of Bowden and Tabor (Ref 12) on the physical nature of the process of external friction and attempted to justify the point of view that this process consists basically of plastic shear which proceeds inside relatively thin surface layers of the rubbing pairs. As a result of this, the real friction area is that along which the process of shear takes place during friction. This point of view follows directly from analysis of the basic types of interaction of solid surfaces which bring about external friction (Refs 8,9), To verify experimentally this concept, t 'he friction was studied of a aemi-spherical slide block madi of hardened steel along freshly cut surfaces of the following metals: tin, lead, aluminium, copper, zinc, bronze, steels 45 and U12, iron, alloys E1437 VT2 etc. It was found that displacement of the slide biock along a freshly cut surface of the specimen brings about the Card 2/6. formation of a "stagnant" zone (build-up) and that the displacement of the slide is not effected by external  SOV/139-59-1-6/31+ Investigation of the Dependence of the Friction Force on the Real Area of Friction and the Normal Load sliding along the surface of the specimen but by shifting (shear) along the internal boundary of this zone. Thus, in the case of pure metallic rubbing pairs, the friction does not consist in cutting off the molecular bridges occurring at the points of physical contact, as was suggested by Bowden, but by shear along the internal surface of the "stagnant" zone. On increasing the normal load N there will be an increase in the real area of friction 8 and of the friction force. Thereby, with increasing N the specific friction force f will remain practically unchanged and will equal approximately the shear strength of the material of the specimen (Ref 10); this indicates that the friction force is determined de facto by the frictior surface and is almost independent of the normal pressure. Since this latter conclusion is considered of great importance, the authors studied the behaviour of the friction force under conditions such that the friction Card 3/6 area remained practically unchanged in spite of the continuous increase in the normal load. These experiment  SOV/139-59-1-6/34- Investigation of the Dependence of the Friction Force on the Real Area of Friction and the Normal Load were carried out by means of a cutting tool with a limited friction area. In the experiments chips of a pre-determined thickness between 0,02 and 1.0-3.0 mm were planed off by means of a specially built cutting tool, a sketch of which is shown in Fig 39 P 38. This tool consisted of a high speed steel wedge with an angle of 300 at the apex and a facet with an angle of 25', whereby the width of the facet varied between 0.2 and 1.0 mm. In Fig 5 the dependences are graphed of the horizontal and the vertical components of the planin force of brass as a function of the depth of cut. Fig 6 shows a typical curve of the dependence of the friction force on the normal force applied during planir of aluminium by means of the special cutting tool used in the experiments which had a limited area of friction, In Fig 7 the depenhence is graphed of the friction forc( on the normal force for iron9 copper? brass, aluminium, Card 4/6 lead and tin. It can be seen from the graphs, Fig 7, that qualitatively the picture is the same for all meta.  SOV/139-59-1-6/31~ Investigation of the Dependence of the Friction Force on the Real Area of Yriction and the Hormal Load It is concluded that the friction force is not directly dependent on the normal force but only indirectly, inasmuc as the normal force determines the size of the friction area. However, if the size of the friction area cannot change with the magnitude of the normal force, the friction force will no longer depend on the normal load. It can be seen from the data of Table 2 that the specific friction force does not depend on the width of the land and is approximately equal to the shear strength of the machined metal. The shear strength was determined by means of a press', a sketch of which is shown in Fig 9, p 42. The following conclusions are arrived at: 1) The process of external friction of pure metallic surfaces consists mainly of plastic shear taking place in the relatively thin surface layers of the rubbing pairs along areas, the magnitude of which is generally a function of the normal component of the load. 2) The main factor which determines the friction force is the real area of friction. The friction will be dependent Card 516 on the normal force only as long as this normal force determines the size of the real area of friction. However.  SOV/139-59-1-06/34 Investigation of the Dependence of the Friction Force on the Real Area of Friction and the Normal Load if this area of friction cannot change as a result of changes in the normal load, the friction force will no longer be dependent, on the normal load. 3) The real area of friction is the area along which the process of shear develops during friction. If the real area of friction is correctly evaluatedl the specific friction force will equal the shear strength of the .weaker member of the rubbing pair in which the shear is localised. Card 6/6 There are 9 figures, 3 tables and 12 references, 11 of which are Soviet, 1 English. ASSOCIATION: Institut fizicheskoy khimii AN SSSR (Institute of Physical Chemistry, Ac. Sc.9 USSSR) SUBMITTED: May 4 1958 (Initially) August 25, 1958 (After revision)  11"inavev. N. I. , cnd Yenifanov, G. I. Investigation of Friction as Resistence to the of Thin 5urfEce Layers of Solid 3odies' T~;O ~iulhove i -ritnichnoye trr-riiye. 1,'rJ,.tsic,,r;ny e minter v L) -v ry .-..;d boundary Friction. Friction 114o.-,-co1,,,, Iz-J-vo AN, 5SLQJR$ 1960. 302 p. Errntc. slip inserted. 3,500 Covies printed. (Series: Its: Trfloy, v. 2) C-denlyi;. Sponsoring; A ency: Alrademi ,a nauk SO'bR. institut MaS~A'11~.'V I Resp. Ed.: I. V. Krzl~rellskiy, Doctor of Technic,-1 Sciencos, Profe3sor; Ed. of Hovse: K. I. Gri!:!orn-Ali; Tech- Ed . S. G. Tikho!~,irova. The collection bv t-p- Institut AN 353R(Institute of "'ci~--~ice of 11ILC11111CIS Acaclemy of "-Cie0CeS Uu'JSR) contaii.s papers Presented at the'Ih I-onfer- cntsilfa no trenlyu i izrlo.,311 v mashi-m-k.1i (Third Pll-Uniari Confereice on Friction ~-nd in A-ril 9-15) 1958.  GINTSBURG, B.Ya., doktor tekhn. nauk;_L11NAUV,_j,,j,; IPPOLITOV, Ye.S.; SIIAI91NAZARYAN., V.M. Improving starting characteristics of a diesel engine. Avt. prom. 31 no.3:12-14 14r 165. (MIRA 18:7)  ACC NRs Anomia souRcF. coms uR/oll3/67/boo/bol/0014/0016 AUTHORS: Gintsboxg,, B. Ye. (Doctor of technical sci~nc*s);_XLqayev# U. I.; Ippolitov, Ye, S,; ShaWwas&r7an,, V. Ma ORG: none TITLE: Effect of sealed closures of piston rings on the starting qualities of diesels SOURCE: AvtomobLl'naya proWhIennost',, no. 1,, 1967t 3.4-16 TOPIC TAGS: temperature dependenceo 'temperature measurement,, piston engine,, diesel engine, engine component, CowaoAjs. -Srni2rroe -Scozre.,.7L ABSTRACT:- The equation for compressed gas in a cylinder (with consideration of the leakage through the piston rings) In given as -A where n, is the average exponent of the compression curve; T and G are the temperatur and weight. The subscripts a and o refer to the start and the and of the compression; Card 113 UDC: 621.436.629.113:62--24. 3*  ACC NRt AP7003518 Fig, 1, Air temperaturs'at the compression ring vs number of engine rymi 1 - three- component ring; 2 - ring with soldered closure; 3 standard ring arpm A G Ga Go is the gas lose during compression. With V representing the volume of gas-, Va is the goometr.ical degree of the engine compression. To determine the. VC rpm effect on & G and T tests were conducted on a single-cylinder assembly with 'T a a a cylinder diameter of 150 am and an effective 46 ='12.8. The piston uas driven bV a Pandel-dynamo,, and the gas leaking past the piston rings was collected from the crankcase and measured by a rotameter. The temperature was measured by a tungsten resistance thermometer replacing an injector in the heade Three types of piston rings were tested: a) the standard type with a 0.6-m gap in.the closure; b) a COd 2/3  ACC NRs Awomm similar ring with the gap sealed by tin solder; c) a compounded ring of three over- lapping layers with no gap. Where the leakage was a-Up A G ve rpm was hyper- G bolic. Jor standard rings A G 16 j, and for the soldered gap it is 8.2. The n A. temperature dependence is shown in Fig, 1e. Rings.made by German and American firms have complex tongue closure sections which offectivily seal iaW also coupenzate for small irr*aularities In the cylinder shape. Orig. art. bass. 6 f1gurom and 3 formtu~ SUB CODEs 23,/ SUBM DAM none/ MM RJW 1 001/ OrK PJW 002 3/3  KINATAT, Ilkolay Nikolayevich; CHWOT. To., red.; PAVLOVA. S., takha.red. .(We are watering technoloaof the future] Oevaivaem takhaiku budashobego. Aoskva. Monk.rabochii, 19609 46 pa (MIRA 13:9) l.-Nakaroditell brigody kowuninticheakogo truda sayoda gKromw prolstarly" Imul A.I.Yefremova (for Kineyev). I (Toohnologloal Lunovations)  vllt~AYL'V , ~'T- P. , Z7-%,G. Woodworking machinery Improving the technology of -Droducinp, bent End Dres,-ed rimc. Les. rro--. 21 no. '?, 1951 Library of Congrezi;. December 1952. UNCLASSIFIED. -OW r  MINIV, N. V. A Papavin-Stakhanovite communication electronic Sppcialists signaling, centralization and block system. lq'oskva, Gos. 1941. 35 P. (Metodom Stakhanova-Krivonosa) (49-58145) and signalmen of a railroad transp. zhel-dor. -izd.vo, TF615-M5  lu N.Y. - UMOT, A.A., nauchuyy redektor; KONTMATA, I.K., re- 1% f�r~;-4111NOO.HKINA, K.T.. tdchatcheekly redaktor. - [Automatia and telauschaalo,seelp at for railroad transportation Mom 9103)] AMmi4a" i -4*Ism**nIka n& shelesnoderoshnom I ra IbWkva.' Toes. U66buo-pedagog. Isd-vo Trudreserv- Repoi STRI); Wat. 1954. (KM 8:2)  MINAYEV, O.A. C_ Horizontal stability of the wide-cut ZKRN-2,8A tractor-mounted cultivator. Trudy MIMESKH 4 no.Z:136-151 159. (MIRA 15:4) (jIultivators)  MINAUT, O.A., aspirant Operational efficiency of the mounted wide-imuge ZKRN-2 S-A mltivator. Trudy MDMSM 6:235-251 159. (iM 14s5) (Cultivators)  GALKAKOVA, N.D., assistant; HIMATIT, O.A., inxh. Work of the specl&lIzed laboratory of the Institute. Bet. I zhel.- bet. no.8076 Ag 160* (MMA 13:8) (KtWbyahav-Reinforeed concrete)  -- 4MYS -Y, P.A., inzh.; PRUTKIN, B.A. Using industrI&I motb,----:s in assemblb%-, automatic control and reguIation systems. Now.takh.sont.1 spet!t.rab.v strol. 22 no.14.4-7 JS 160. (MIM 13:5) LGlavproymktmontazhavto=tWL, Minmtroy RSFSR* (Autoa&tic control)  I HMAYEVY P.A., ~rizh. In the Council of Te~:hno1cgy and Economics. Mont. i spet's. rab. v stroi. 26 no.8:20 30 Ag 164. (14111RA 17:11)  ENAYEW P. F. Chair of Physiology of the State Pedagogical Institute, Mom ==.p wFarasympathicolytic Action of Seneciphilline" .1 ~.' ..w. '~ :.. ~ smcs: Farmakol i Toksikolv 5,, No 4., 194a,  - =IL10- F. F. gFurtbar Data on Modifications of the Activity of Cholinestarass in the Nervous Fibres on the Poles of Continuous Current" Bulletin of Uperimental Biology and Usdicine Vol 13v Moo 3 & 4., 1942, P 77  a Is ft a 16 0 0 0 10 _41 11 *Wfsus- 010- 0`4100cafffs .at# sea 009 9 ad in t" P. F. kik"Wir eon r Covina Mouscom- $)*N. 'trooiiI. JOW. M4. 18, Nit-3. It"iru" Imorwi-mv-svic prv"., wor* so Im eon , W, I mwdm *NMI ek"flook-to to 4h ion 8 of 1 0.0111 sm. Nor &-P) otths, Amwi- Wo- to it "WAV, of 1: ION. of m0. At the the actiorky of 11W b mrawd; W Ow anode k Its ktortramill. fhr rooorns oil N"hysito1yard evortyk*uIlifto Ito hill" in thr mthude trinul- test :Ion and kww is Itime anode anottlAoss lion in emiumi immud. kworost. The da"Ve In tbe activity of the clitcolism4foraw zoo 0e may be doto I* dis obW% ad 6wo to Obe arromr. Daviti'm to im lee moo too Pee too M tree oe BMW t1vies". F 111ficipt? .31 04. oft still I a-, 411 1 41 IF so a 11 1 a a ov- I w foo 9 a a 3 as a '0.a a 14 0 INC INC a It ONE I I.0 0 0 0 STMG  OOA 0,4C-1 41' decremeW std the by I f a A-JL- &--A daft so f4cfmh B. I. Bob" ad P. F. PA66d. ZVI* ffis vamp of a r *A town .0 sm me hmm"W =aft =i rb-mm #MCC Is I by Dom OW1 *" 0 - - . a S L A 49TALLOUK&L LITIMAILSO CLASINKAIPP 1414f4 .40 any all ablinI 1A 41 ts AV 00 &1 1 ' A 0 9 # . I I I ; I ~ F . A I a rd 0 0 f I V 9 d0 4 2 0 9 to 0 4 A 9 k v a me .04 104 "04 104 -04 2 CO 4 NO(  A-- L-jr--L I k. It S -41 -Lull -211 ,60 00 4 1?!-, "Vot 000clual Alop 1100 meet W aliesevief 92=64% mwdvity -00 ,--4 ~irtlr ri I:* to cbof var :Etptl. 14,47t"t, act 1 YLA~ W.J. 40, fr,rnl ewrvxl. li-th. W.4~ 1,Kltt,l jlifivr lit the porr%rour rof tsohrm~iow Irilolimphilr. 'I'lor it Litt. wismt4trol outtwir to act,tylt-heolitiv. hoimri~um of totim-lo, 6-ur lumletsmitos, toriphmiolmle idnow diol tust sluott fill; zk ImArd I f1rel. 114tvirt.1'r, altur VnI4161111 dw M.-Ilt.ifif loildi-pli4sir floom thor osill%jr jml himit-lOoll fit sb4ion, 11folkid -l"itivitv w.t. t,t-tvv,t h6-1l itivioAull 141 Iv)., 1111"ll 44 ".4,11ing 11#41 illiffirt,1441 ... 14'.14 ") the 2 "All.. flatiller illen-lowd thor w1i'llivily 44 11111.~lr, moo ,3 Is i4 1herififfe rmKlll4kd Oust the aliolol .4 mirlimillt, Itiph'.1,1L.,tv kfv.111-i toy fint"Ai'mi of ill the orm-le 1tw] . The clTert Rmy lot- due to, irw-tivact-, zoo 3 in wrvow, ti-"tw. .1twe is i~ Zvi 0 knimn that thr altrul,, e-wim- invfraw the WtWfivily I'l 11111-ch. Ito at-1-tyl- W. R. It'. Igoe bee L a If 1-4 1 Wf-cia-i vee 114-101, lose ~v dai sioirv I 10 b I. I ",4-0- "'0, -P , J-1- -V,- v i--i- i4- Ise "is W,,g Olt qj 0101111 11 0 114 01 0 0 10 0 0 * 0 0 0 0 0 0 a 0 * 0 0 0 0 0 0 St 0 Alk, A 062 91 0 9 0-0 0 0 0 0 0 0 0 00 000  4040400000041114DW 0 0 0 e 0 9 0 Ole 1 . !. . . . . . a x 0 IS a a 40 a U 0 41~0 , ml , 1 : 0 00 A , - 0 00 *0 A c 14 *0 A 049 -00 *00 00 -00 0o A mlimome libmis ar" emeogillm mumiciss so acoW. I I I as* 0 0 dolim, md a I WAdWd he dw delownimaliesi Of l i k ib J E B h l a d d lee Sce c e s serve . . s eemse. j g ilan p Min4ev,.ft. tied. qci.. Movow). Hymil. Ekifil. goo 00 w is,; found that . ... Ii f Mm i i f i h h h see ' 1 ms. neA-p is~,&ism 's ssr tr t of Igu ic x c acrtyk-holiste 11) was dettroyesl incremed list mlion of a 0 added I im the rtvt us atisfousissis oft fie (rug. Thersature f h i coo o t e ncrease Is not kbown. allhough it was found that the K ion d ced il d; t It I d h i 0 goo U a s m pro u ar e w , t at s surlpsite A the diffKidty in the immay Imm-edure Introduced by thk h f ( ( see iactor can e avoisied I( the (owl mactivity o the resh t issue emulskm is curnpars:41 with that fourki isher the mkin. wee fit a known quantity 4d I to the Prep". litter Ike conspitle 400 th-sirtict ion of the I originally prmut. Rupricitalpriu, woo fee age wee A Is 0 6 L a 0111,stuftmac tirm, Almill CLA"W""m L stow SONOW , - goo 114 111aff 51 11A 0, 0 t- of, W a 41 a, it so 0 so 0.000 Woo 0 00009 0 0 0 0 0 0 0 0 Is 1 00 0 0414 000 6406060066  --- 4F-jF-w-w-.; w 6.10 elf 1:. 006 *-*-&- if 160 IF so a a a0 a a v IN 4 a a a 00 A AM A-do- A A SwIZI& U.- 004 -414 ve"1410CO A111111 "Coteriell mate C#Mbw" 60" an Noma do *0 A B711. =kdf ottodl E- P. 3-9 nistv foist. 11". ~M. ited., muKuw).--Ne7w'-* , (1w) --, 0*9 te did w jinaluce cisatm-tkin W ilsor m. rectin abdominis of the free and W to small contoraclik son response of the leech muscle, at the canctis. used, Aftes, oed we ime appilicsititin of the adirwaltior toriphoophate stifir. thit frog Nadi keth totawlem react to Wits. of awrichoiline with It 10*05 that fidevii- sine triplitteplian wasillsts thot must* to wittylkholim. .00 The inenased catica. of K ;ws kisclit to a markedly iti- Slo* cormsed ftwitia to acetylelsoliste of tonuttles subjectcol to 0.90 the action'ttfol sidessoosine tripboWhate. Contracting dool see 000 mytosits tivestis priothiced by wkswidne tripboapbatt in the presem of KCI Is inhibited by Ce k= sad lacreamol 99-3 by JK OW Me long. When the Comm. tof CA kow is in- goo Oew cawl adevoolve triplowphate dws m eager ciatraortim 60 ofthedonsitimacko(thelefth. lWhInthekMagsock and in that of the keeb *lesswim tripbosphs" prociamces goo no contraction in kinew sofa. with lacressed cafest of goo CA, itsid Iftils to a peosoiattat demate of the coutractik D. Walter 400 foe 400 woo Woo 804 NNW 11114111VA NNW 4141611#19 i~ --"jQwv .&0 GMT ast 41&ij-nWtT- 411181 an 4" all - ~ 11 T do P4a U if so0 a 0 ON a a 00 411 19 a IN aON a IN K Xe , no 00 Goo o o 00000000000000000 0000000000e0 to O'j  as 000 god *of sea 0013 SON~WaWii%a d WAwde Its cholhat and SeetykisoUctir da the -OPN*d *dokwA at dwil" w4tylaos. Fus. H. me lure In, ac mansubta wW his c,4ksCtasq (C.A. M, 0104) Stlif Feldberg and Ifatus (CA, 39, MCI haw =4 qeww the ttuymic sirtathesi'l Of chall- from dacatine aM areUte in the pervace of 4ne t1flahwOote. Tk alkrd CMYTM was named cho. line acclylaw. R flag Mir c%v., the authan (Quad ec I Ilat the contrMt tof rtdu4 a otainis of trap wW 4 the dorw MaKk of kwfws in response to clacausle is it-fly liferveased by The presence of sUntaine tripboa. 111atc, this imclaw dtimuling ova the collect. of the letter. Fhe liscrelift of observed mawk ccalat"dica "my IMAWUY )ave beta due not to the fatimullitiat of wetyleholine syn. flesh by 6*r.Wtw triphosphate. but to dw sensitlaing ffcct of this substance fact flat, trol njusries. Jr. 1). W. TALL~AL t1faleAfron CLAIWK&vm $ar Sta 511,411- still' a r - q T-T I ale, a, 1, ; ; e' 'a 1 4 w a K K Of No 4 0 0 0 0 0 0 * 0 I"M main, 4116151 M OM III 6 Od 0 0 S 1 9 Iff a -00 A see =00 see ago  00s, 00,11 o d'o * 0-4.0 10 000000 F. 0 It 111'a. a dL' N A .2 i'lIA V/7. a dm 11, .1 Asidlissimilats" 01 1141V ONG 62m4w the zz";. .1 c4aduat cWtitt" . III$. If. Ilminkil alpf 1!. 11. Ps 1. StM11,M). "Valiff In. 343-4ty"p, In, Cal N" Ir C4 c4stnt. curmit Inwerv I lie 4. psli r-actaw. whik. the 4111nir 1'risibirvi Ow Thk cuts Iw vil-JAW.1 mi I to lm,i~ .4 Ow Owig- that to pker its tIw .4 hm, sit site twiw muli ,,- 111111wiler 44 1.11111i"116vw V. It Wals I s M1111411180 Ckal,111PICAlm" a 61 1. woo* -j I total" 480 go. 001 0#44JIMI assist 'ho 41, , , I 1jr Ii I i i" W 9 3 4 9 U : AT 00 011; - - -i-- IN a 4 K a I me dR 00 00000000000*000*0049041000000000000460coego4 so- 000**000*000000090 00004110000000000000e004 '.'see roe goo 000 too -100 moo goo 1100 0 U04 woo 904  Oaf t I I' tj 4t J~ ~, 11 to 4 11 it A .r it "i-I.-iL R.U-99 00 ttt r!0F.I. TIO Chem" asswe of dk* oftbialoopo, of tow, Wbkb remdw mawks goagNIM jo II4b*WI and P P Mi "4101y" '.rt_J3T=4FJrTWM: It. C.A. 40. 72.W.-Tlw %utntaixv witich 4erwils" bwn 11saw to GMTkowine 1, 4COMM. mats. a labik plunl4opte g"Itip, OW in "ably go Wit "-j 4 L A OtTALLLRGKAL.L.F71IATUR9 CLASSOPKATIGN -00 -00 -00 OP On 14A ism mooo U4060 0 _6-P .*-.a p 4.1.!qj~! .40 -L_ At 1 .1. "t NAI'SIMI VII&JI ca Sli , r --W-- IF 171 w u St AV so I .I a I . I' 0 "IS, rV to tv it MIC son 'gig Kttrt ustl4waI rr 0 0 0 0 0 0 0 0 0 0 0 0 a 0 0 0 * 0 0 0 : : 0 0 0 gig 00000010 0 0 0 0.0 a 0 0 0 0 0 0 - 0. 9 0 _OLO see no* nee coo ago Jro* 400 see Noel see  a 0 0 ~-* 0 0 0 0 0 0 0 000 009. 00111 - I ~& t 00 100 :0 0 00 0013 '3 0 0 w 0 A ""A"ll !~060"P1,46 mots - r. - - wed ON 60 - V ZZ' ; r 6 8 = 1 " *f ows d P - an . l 4041 Bist. Med. IJ. No. 2. W-101091-4). --qeFkw4 CIPIC were -0 lwxun only after slilits. nt the sAine concts. of amly1choline 100 Chloride showeda Const, reaction on the 31.14milinAl inustcle, 141thog, TftU war relicMell every 5 Inin, br Adding 'fit- "Oe 14--trnt Out"ta"C" to Actlykholinsi. t.l. jJ1101111*101fillI104- 160 llh4tV, lPIC"lfft!tdph0t$lhAIt AllCtlyfil' 4CM, 11+11041W, dlefall l Thr .00 i inasinic". and pyro-atu tolm. WILI kept at 7,3. The Cowell. sited were I., IW 1, goo The tdcct Of the Ant tWO %Uh%tAnCC4 WA% (he lAtilt, IMF- hAps because a( the rapid conwrsion of the dipholVhate into the triphosphisite. Reactions with sublit. of all other QeO ~t lanmis were trithrr nest. or very %c.%k. Saint. of the ' tuintallers Alone jrtwe su. rejeskill. Varitsus coin. t.,1s ZOO Ws tried..,414.1 it was I'lund 111,41 jortyleholifte, woo ldr, Mellyfic iscid. An't pVT~n.IU.j'IL%tr 41~1 in casts. hillAtiMS grrJOly 111471r,1211~1 Ilse 11111-Allfir %1MI(ClelliMit 0 All GOR-C COnthiltAtil](11 AhOW441 ditnin6lictl effrett. It 0 Aplie-Irl Own pyrtillfros-phate hilt not orthoph"lluitt Is d-f phys". value. " Me orlabi of Ilse fln-AIrr wn.fiiiijiq rf- 40 0 feet of sulctlyficacid and py"it-hilaphAte it not yet entirely 4111111411 elcar. It Mwins that these -1 sillist'nives luti't be lwrwnt. However, It Is poWW that adentiminedi-and triphiiitphitr 000 are (armed, wkkb have bew found to cause a temitizing reartim an the muscle. W. R. Eichler tto 0 foe woo so ass I low 9"M list , 0 a a A a i ; me ' -..qF - -S-a " 0 a 19 a 4 1 a 1111 A We 0 00 0004 0 0.0 0 00.0 e is 000,0000000000 0-00000 000000000000004000 00 0 a 0 0 a 0 0 do a 0 6 0 0 00000  nXII-si oaf L 1i q U tf 1 14 it W aidill 61 a -,K I A f -4 L-1- fA -1 ~i --JL k -1 JA J , wa F. 4, - aes. dimmakel MOW* 09 a VA86MO In brain isiw IkA kJubt*uva And sidaims monk ft =PU W. *0 A E B P. P. Macaw. I Med. 2J, It*-72 0* of 0 ftog was Prevd. Eleven emptp, were cmvkd out to det. l1w sensitizing action (1) 00 9 of a plain malslamr, (2) of eumakion boiled tag I win. in 00 neutral 01m. (3) of the Urals after pptn. of the proteins. and (4) of the saw filtrate idter I-ndn. boikn# with an equal val. of 2 N HCI, on stonk" mumck 4 a I Ex, 0 to m"Yochomme with unboiled, but with = e**Woa cowN Sreatcr contraction the snumcle than a" mortylichomm alme. Emial" alone dW not mom comirmedem. The nowtia4w substance is tistsmo- 00 stable in mestral Mr4flum. The smsitiming effect It not 00 lost byxm. of ham the mmision with trichloro- =0 pmtds4m Onto with HCI causes acetic 00 . Ion of the sensitizing action and mislitting otcotnpds. contg. a. I" P labile pbo~960A Vamps I - t is the brai = 00 .i. to the Promist-ft" Altrate increased with IICI hyd about 22-V mg. c&W. wit ect to 100 a. brain tissue. It is amassed dot the Ormulld suhstance in brain tissue *0 t is a commod- tons. te Pa. 1. is Possible I that the-SOMMIS" is so b i ru n but am I brain emp"lly W It. lip S L A -4tTA&LUUKAL t,T(fATtM( CLOSMICATICM .3.94, --At A 1 --r 7!r- U is AV 00 AS AM L t .0 OW 0 Of 9 1 W 0 9 a I I 1 9 tv 11 it IN of 19 a 4 it It a tt It "a 0 1 go 9 0 a 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 * 0 *1 Io 10:0 0* i *0 *'SOO* 00 10 * 0 0 0 0 * 0 00000*0000*00000*001 -40 -00 .00 -40 .40 .00 -00 :00 see goo led  I I A ~'Jb 0 a 14 is k 0 0 It a 41 a 4 -as -4-per ~AJL- A.* ONCOOff-ti Iftott -40 77 OWN 41 Owmpbfift -ftd ib &Gwmpsswm p"dom ft MINk "Newe$&m. F. F. *00 mbla" (AUA. = 68960.. Moscow). 0YOU, jmwr-, e0 -AW~'MA"'34, 29040947); d. C.A. 41. 63M.-Is -00 expti. with fmV 9tomach micle it was sbmm that w" -04 Imm"Nift fia 1: 1000-1: lixymu so". Go creatime pbam. .00 eel etwiractin". Sublictisent j~fmw ===CivescomiderAblir mom tinmauncl q^ see emtructiod them in cantrula: at 1,10.0m come". "k wnsititing rilloct was mss. (36% incivam). In a Atirks nt expts. with Imnar"im in Mixed awma. emig. I X 10-0 - roe 2 X 10-1 SMYkbulkw &tW the Meal miti0aum. Well OOV b4m, the hKeemard contractme wdvky h given In % OvVf too cmtM erratincilbomphate (I X 10-4) 167f. Igoe crutime 0 X 10") O~~,. No pyroomomphaft anti owtbaphm- Onte 0 X 10-1) 01"; creatfut anti Na PyTopbelphAte see 4',',;'crtathw voo __!!JAL ~~L !I!Ill LAIII~Klklllt we mogo 4SO 611111 04 &-1 All 0 10 4 f1d a P1 q I Or a 0 do a 3 6 v ; .1, r ". 19 ft a a 0. a o 0 0 o 0 o 0 0 0 0 0 0 0 0 0 * 0 0 a 0 0 0 0 0 0 0 0 a 0 0 0 4 0 oiled 00 goo * 0 0 66666*4 046000 00 04104 OALA  MINAYe'v, P. F. B,k3SHIY, Yevgeniy Borisovich, and MINAYEV P. F "Effects of Adenosintriphosphate and its D6kivatives on huscular Sensitivity to acetylcholine and choline." Zef. Zhur., Vol 33, No 6, 190, P 773. Pnysiology Laboratory) Inst, of i3iological and 4~~edical Chemistryp Acad Med Sci USSR. SO. U-4396 -~O  MINAYZV,, P. F.; B. N. Stepanenko; Ye. 1. Silayeva "Action of Phosphori-I Hydrocarbons on the Acetylcholine Contracture of Muscles I SOURCE: &jullaten' &ksperim. Biologii i Meditsiny,, No 3. 1948m, pp 186-91  MINAYEV P. F.1 Golubtsov& A. V.; "Distribution into Various Parts of the Carebrum of Substances which SensLtize Muscles to Acetyleholim" SOURCE:t Byullaten' Usperim. Biologii i Madits No 4, 1948, pp 309-12;  A-A 09 Whkb UNWINNO Of 6601" mod ift 00860 -" ad 46,14 W. 164 WWI$ WIAZZ 11MINF-W WfA in tsbtWmm4 Of Om nhn kJAd owj*hwiw ob, ow Iniffis #A I - X 10-4 - I I x 10-4-1 X 10-1com f"s Munk to amykw it emogjammy Ca"m Ad Tbimime ==p m TuhWahm rx io-s . kwoomm cboum. Ttasawolij dm to a WWysimg q#w tivity of choujoetimm, ewdulad,wbcne lnwdvued. OWN., At I X 104 - I)( mor is stook or a de. U.Y bete Cato" h" sun but dw chows" am Im orb-C MA I X 10-1 MOM ankmvky to SM71- 4 MW ke "". caurA be OW NbUdoM as On sc. p" 4w W"Vkr Qum in mostAm" bw G. M. At*- L4L AL LITIOATJOI CLASWKATWd In, I &oist nags wax a a &n- -e* 100 off Aso coo 3*0  A onft(da(foolp to (ATP, -Brat. $64;1K MRS. 4 R ~J, 7  777i d4~jdta n~~ centers min4cs., 11. V.~- pliatel CATP) intrWuzid Inte tho bmirs ve. (Inst. Pirl. -asid 1461.1 Chtm. Acid, M~rL M.' Ma 8 P- Ifuteow) Vkmi~w. r 2t.W t .. . 0( NO lilm ilia vOutdcleA i . dPletel hy cpilqlfic l blk l d h e ec. mi to recu d wedvity towu ena "to t ; Sftxtat[4*. After CXCIOMA twain glytalj* bi- M4 lodom-evite Ir"ctivatroo, cad cftLv fjffu*4~ of the antind, to teut to S641 Wilit Wnit Into the. btaid v' nt&-f TP . in lkei it P054we fee ~alqlkhl6ds tCk'bw* auvw. .' 0 7 , 4  USSR/Reclicine - Physiology Dec 149 Traumatic Shock 0 U1% wTreatment of Traumatic Shock it With Adenosin Triphospboric Acid,` P. F. Kinayevi, TAb* of Restoration of Functions, Lab of Pbysiol Ctwmv Acad Sci USSR, 4 pp "Dok Ak Wauk SSSR" Vol No 4 Can ducted tests-on TO dogs to find relative ef- rects on traumatic shock by-suboccipital7adid'"'" lxx~bar injections of adenosin triphosphoric acit. in amount of 1-2 mg per kg of body veight, intra- Uncular ar-d subcuta;teous injection of 5-10 mg 155T4O MR/Medicine -Physiology (Cont&) Dec. 49 per kg, and Intravenous injection Of much .11 - 6maller concentrations of 10-15 ml per kg of "iological solution containing 2-6 mg per 3.00 al of subject solution. Intravenous injection of small concent 'rations-proved good antishock factor. Submitted 30 Aug 49. 1552*0"  ~/Umdlclw - Shock -Mwrwp7 I Sep 50 -4 04 *Tftatmnt of Treumtic Shock In Animls With Fructose 1,6-Dlphomphate,". P. P. mineyev, B. N. Stepamemko, Ye. A. Bilayeva, lab Ph"Jol Cbm, Acad Sci USSR, Moscov Phar Inst *DOk Ak--Nauk SSSR", Vol LUIV, No 1,,,PP-153-;156 Discusses results of 35 tests of treatibs timm-, MtIc shock In cats and dogs by introduction at. fructose 1,6-diphosphste suboccipitally, (2-k *g per kg of body Vt), and intravenously' ead lalky --terially (2-2.5-mg per kg of body 17!LTM MO/Kedicine - Shock Therapy 1 SOP 30 (Contd) vt). Suboccipital, introduction vas highly of- ftetive In shock of lIght and sodium severity,, but only Introductiou Into blood produced good tAmerapeatile effect In cases of deep shock. gdnltt" 20 Jun .50.  UM/Nedicift - M=k TAOraw U ftp 150 Adenosinetriphosphoric Acid "fteatment or TraumtIc 4lhock In An'-Is With Ad". colnetriphosphoric Acid In Conjunction WithYarlow evistances," P. r. Minayev, IAb or Restoration of e-iFtwactions of lAb or Physiol Chem, Aced Sci USSR "Dr* Ak Nauk SSSR- Vol LXXrV,.No 2, " 397AM Cmducts series of tests on cats and dogs estab- 219hing therapeutic effect in casei of aware Una- vatic shock of introduction of adewsinstripbasybno (AMF) in conjunction vIth E. A. Asratyan antishock 174TV =a/medicine - Shock Therapy 11 Sep, 50. (Coutd) Ilquid or vith glutsminic acli' and gluct,46. ~ Finds- b6th combinations more larfoctivw,than Aw Ufthanism of effect., is ~ normlization of oxidatim qwce6s*s,-In lbody tissue, creating conditioris ravw- able for removal of amdnl&, fras. cen nervous systism. Submitted 4 Jul 50. 17%M  ud Um &64 local v7dua 401-12 is M P F . . . -Is were exposed to varkm doi&A of gor, Taw ; : .44: cap on Rdntvu rays, wd local and imand mtffects ofthic -itspotwis to couditioned fedelm, hl:%tof4&* of PLO brAIII, Wk!(I AS OtCM(A h(QChCM. V4ff9tkHJS Of CXP(r.Cd bV.Ain OMUC Reqwmis to candiclutied redex" wem, A-' tared. 4epeWlag dis the daw of the rays. adtatahttrcd aud peadlat an the sitti of the Wit whkh wu expoftd; to the diatiou. The extent of d=agc to thq brain cells ch- ta I actift Oet&4 on the dose (awrosis), and the functiona ' tM bt4i could be edectivoty altered by the dose of if- : tadistku 'wid *udWo" chake of the sitex(d uppikatiou. Rfi tk i =I h b h ~"i blk a ra cttgya o to t e a t e ci of uro ; ' ' detireamd. accoxopuukd oxUation at glucose was by wa lumeaft Itt thie dwerobie oxidatfou of gluco= with.the production-of, Tudic acid. Thu occurred even dusing adminkAtmdon of therapeutic doses of the my OW r.), i i f t t l Wi hit im n o e expown o crad act, w tLCgm by the hc ll f dr i d f It o M h d I to rmuna or ar arcs o c t a g 4ofCcis rays ' afther the dMovadek ac(d of - the deazygluouctdc -qk.  KlNATXV, P.I. %OADVOM-~ Affect of X rays on the functions of various sections of the central nervous system. Dokl.AN SSSR 93 no.3:693-696 Kr 154. (KLRA 7:3) 1. Institut biologichaskoy fisiki Akadexii nauk SSSR. Predstavlono akademikon A.L.Kureanovym. (X ray~--Physiologic&l effect) (Brain) M - %660 ti F-4 J-J-   - --------- J."'397a ABC-t,-U3b(jP9. 4)(P.45-U)) LADCALACTIOM Of X-RAYS Off VARIOUS MOMS OF TKK CIMMAL KKRVOW SYSTEM OF ANIKALS. P. F. KIOW. PA040 of COMMENCE OF THE ACADI-MY OF IMWU.OF,Tftt UM ON THE PlACZFUL UUS Of ATOM XXXJIGY, JULY 1-6. 1 MS. WARM 0? TH9 -0 &MtAGICAL SCUMCK. (Trakslation). 24p.   HDAIN. P.Y., kandidat biologichookM nauk. -- . . . ........... Radiation surger7. Nauka I %hiznl 23 n0-7:24-27 Jl '56. (Km 9:9) (RADXVfMMAPT)  SUBJECT AUTHOR TITLE PERIODICAL USSR / PHYSICS CARD I / 2 PA - 1256 MINART, P.F., SLEPOV, A.A. The Influence Exercised by the Local Irradiation of the Nervous System with X-Rays on the Composition of Peripheral Blood. Dokl.Akad.Rauko 109i fase.2, 303-304 (1956) Publ. 7 / 1956 reviewed 9 / 1956 The cerebral hemispheres and the cerebellum of white Leghorn hens were irradi- ated by the directed X-rays (total dose 7000-9000 Roentgen) of a tube of 180 kV, 10 millamp4re with a series-connected filter of I mm Al + 0,5 mm Cu. The irradiated parts were at a distance of 20-30 om from the tube and the dose was 85-114 Roentgen per minute. Both on the occasion of the irradiation of the cerebral hemispheres and also of the cerebellum all phases of cariokinesis of the limboblasts are noticeably in the peripheric blood, viz.: a distinct con- fusion of dependent reflectory activity, the fact that the clinical degenera- tions of nervous activity are strongest after 3-5 days, and considerable modi- fication. of the metabolism of the nerve tissue itself. At the same time, the oxidation mechanism of the glycosis is interrupted. On the occasion of the irradiation of the cerebellum the composition of red blood changes, nucleus partitions become noticeable in the mother cellsl and even binualear erythro- oyte occur. On the occasion of the irradiation of the cerebrum such changes have as yet not been notioed, 'The changes in peripheral blood on the occasion of the irradiation of the cerebral hemispheres and of the oerebellum, are in a certain degree similar  MITAYEVI P. V__~ "The.,change of the cerebral metabolism under local action of X-rays," a paper submitted at the 2nd Conference on Biochemistry of the Nervoue System, AS,Mx SSR, 12-16 r~eb 1957, Kiev- 1122802  MINAYW, P. F., SKVORISOVA, R. I., and LCGVINOVA, 0. F. (TISSR) "Biochemical Changes in the Brain under Normal and Pathological Conditions." Report presented at the 5th International Biochemistry Congress, Moscow, 10-16 Aug 196!  f Y" I P/ tiV USSR Human and Animal Physiology (Normal and Pathologi- T cal). Effect on Physical Factors. Ionizing Irradia- tions Abs Jour: Ref Zhur-Biologiya, No 211 1958 98o54 Author : Minayev, P. F.; Skvortsova, R. I. Inst :Not given Title :The Influence of X-Rays on the Metabolism in Nerve Tissue Orig Pub: V sb.: Vopr. biokhimii nervn. sistemy. Kiyev, AN USSRI 19577 289-294 Abstract: No abstract Card 1/1  MINAYEV P F CHUM10VA, A.I. Separation of brain proteins of paper electrophoresis. Ukr. biokhim. zhur. 33 no.3s431-435 161. (MIPA 14:6) 1. Institut biologicheakoy fiziki AN &W. Moskva-. (PAPER ELECTROPEORMIS) (PROTEINS) (BRAIN)  3700 S/638/61/003/000/001/005 D296/D307 AUTHORS: ~jina*s*r--Pv4~_, Antonova, A.M.9 Kantorova, Volog :bogvinova# O*F#0 and Mironova, A.P. TITLE: Changes in the central nervous system after exposure to ionizing radiation PERIODICAL: Trudy Tashkentskoy konferentaii po mirnomu ispollzova- niyu atomnoy energii, v. 3, Tashkent, Izd-vo AN Uzb., SSR, 1961t 53 - 58 TEXT: In continuation of earlier work the authors studied in grea- ter detail changes in the nucleic acid content and histological chan- ges in the cerebellum of guinea pigs after localized exposure-to X rays. The DNA and-RNA contents of the of the cerebellum (mean values in mg % for wet tissue) was estimated in 108 guinea pigs immediate- ly after the exposure (i.e. before the appearance of cerebellar dia- orders); after 3-4 hours (initial phasis of changes); after 24 hre. (p6ak of changes), as well as after 10, 15, 20 and 30 days; (period a--* gradual restoration). Immediately after the exposure the nucleic. acid content appeared to be unchanged; after 3-4 hburs a slight de- Card 1 3  :S/638 /61/003/000/001/005 Changes in the central nervous ... D296/D307 crease could be observed and after 24 hours the DNA content had de- creased by 27.9 % and the RNA content by 26.4 % compared to the con- trol levels. Owing to the cerebellar edema prevailing at that stage, however, the weight of the dried residue was 20 % lower in the expe- rimental animals than in the control animals; hence the above values for wet tissue correspond to an actual decrease of only 7.9 % for DNA and of 6.4 ~* for RNA respectively. in the subsequent period (10 -30 days) the nucleic acid level gradually returned to normal valiies The cerebellum of 40 guinea pigs exposed to localized radiation in a dose of 9000 r and of 65 guinea pigs exposed to 16,000 r was inves- tigated histologically. No gross changes were found immediately af- ter exposure, but the microscope revealed some cell enlargement, be- ginning edema of the stroma and tigrolysis in some Pupkinje cells of the ganglion cell layer. 3-6 hours after the exposure marked chan- ges were found in all cortex layers; only a few cells retained their normal appearance. 24 hours after the radiationt changes culminated in the destruction of numerous cells: in some parts all Purkinje cells were destroyedo in others their number was diminished* In parts of the cerebellum more remote from the exposed area the changes were correspondingly less intensive. During the period of restoration ,Card 2/3