SCIENTIFIC ABSTRACT FILIMONOVA, I.T. - FILIMONOVA, YE.P.

GARBER.1 Ye.D.; SAVI'ISKIY, V. 1,; FILIMONOVA, I.T. Initial-condition adjustment on on a pneumatic continuous computerl Priborostroanie no.10:6-8 0 163. (14IRA 16:11)  MIN', Andrey 1 'avlovloh. Pninimali uchr-stiye, GHEMNOSKUTOV, K.A.Inzh.; Z1"lV(jTOVl"KfY~ L~S., dots., Icand. tekhn. nauk5 VOUIE, B.A., dots., kand. tekhn. nauk, DOLGAGE-1, F.i'l.. dots., karid. t,-khn, Tlauk,? kand. tekh;i. nauk-; MALITSEEV, M V., kand. ~bASOV, V,K., kand. tekhn. nauk; K~OLIN, 1I.D., prof.~ retsenzent-a OGORODNIKOV, S.P., dots., kand. tekhn. nauk, ~etsenzer.,, [Hydri.--mechanization] Gidrrmukh-arizatsiia. Moskva, Stroiizdai., 1965. 496 p. (M.IRA IS: 8)  ZABAROV-A.-G.-L[translator); FILD-10110VA) L.A.[translator) fTables of circular and hyperbolic sines and cosines for radian arguments] Tablitq krugovykh i giperbolicheskikh sinusov i kosinueov v radiannoi more ugla. Obrabotka tablits, i perevod teksta s angliiskogo G.V.Zabanovoi i L.A.Filimonovoi. Moskva, Vychislitellnyy tsentr AN SSSR, 1958. 1+04 p. (MIRA 15:5), 1. U.S.National Bureau of Standards. Computation Laborntory. (Trigonometry-Tables, etc.) (Functions,, Exponential)  FILRIONOVA, L. A. Effect of preparations derived from 7-Ischer's aconite on the elctro- encephalogram of an-imals. Vest. 01 ?azpkh. SSR 21 no-3:92-97 Mr 165. I:MIRA 18:5)  FILDIONOVAP-LaAs Effect tit preparations from AconItum Fischerl c;n the duration of haxenal narcosis. Trudy Inst. V-ziol. AN Fazalel.. SISR 7:17-19 164. Toxicity and general effect of the preparations from Acanitum Fischeri. Ibid.:20-25 (MIRA 18s6)  FILIMONOVA. L.G. Characteristics or taiga soils In Aldan and To=ot regions of the Yakut A.S.S.R. Pochvovedenie no.3:13-20 Rr 165. (MIRA 18t6) 1. Moskovskiy gosudargtvennyy universitet Imeni, Lomonosova.  f'ssrly or. lakes ~;f the 067 no, 5 -.57- 10.  FILIMONOVA L.N. assistent, Characteristics af the development and distribution of the root system of lupine in Padsolic and loamy soilo. Izv. TSKHA no.6r18-31 '62. t (MIRA 16t6) (Lupine) (Roots(Botww))  S/129/62/000/012/007/013 9193/E383 ~ATYJMORS-. Vishenkov, S.A., Candidate of Technical Sciences, Gostenina, V.M., Yekatova, VeS., Faykina, L.A. and Filimonova, L.V., Engineers TITLE: Electro-leas nickel-plating ot soldered aluminium, parts PERIODICAL: Metallovedeniye i' teri~icheskaya obrabotka metallov,. no. 12, 1962,.33 36 T g" The object of the present investigation was to explore the possibility of improving the corrosion-resistance of soft- so3dered joints in aluminium and aluminium alloys by means of electro-less nickel-plating of the alumAnium parts before soldering* The optimum thickness of the nickel dep'osit was determined in the .first stage of the.investigation. Thwexperiments were carried out on AHr (Am$), AML~ (AMts), Al (Dl) and 0~16 016) alloys. Flat test pieces were cleaned with emery paper, washed in kerosene at 40 - 50 OC, dried, degreased with French chilk, rinsed in cold, water, pickled for 1 min in a 25% solution of' sulphuric acid at 70-75 OC, rinsed in cold water, given a bright dip (12-15 sec) in a 1:1 solution of nitric.acid and rinsed agiki~n in cold water. C ard 1/4  S/ 2'0/62/000/012/067,/013 Electro-lesil nickel-plati~gleevv El~VE383 After depositing a coatinj of Zn by a 15- 30c dip in a solution containing0r~00g/l. sodium.hy'droxide and 100.gjl. zinc sulphate (at 20-25 C), followed bya thorough wash in running water, nickel- plating was carried out in 'a bath of the foilowing composition: 1,. nickel chloride 21 g/l.; sodium hypophosphk.t~ 24 g/l.; ammonium chloride 35 g/1.; citric'a id 25 g/ld; 25%'NH OH solution 30:70 ml./l.; pH of the 1~azh was 8.3 - 8.5.,!M its temperature 80 85 OC. The rate of n~~ke'l deposition wag 12 - 15 p/h at a charging density of 02 dm /l. The specimens were held, after washing and drying, at 200 C for 2,hours to improve the strength of the bond between the aluminium alloy and the niikel deposit. The corrosion-resistance of various test pieces-tfas determined by measuring the loss in weight after a 160-hour test in a 3.~ solution of sodium chloride at room temperature. The minimum weight loss (0.002 - 0.003 g) corresponaed to the follo,4ing thickness of the Ni deposits: 15 - 16 p on alloy AMg; 22-23 iL for alloy AMts; 24-25 ix for'alloy DI; 28-.;~b -0 for alloy D16-. In the second stage .of the investigation the 4~brrosi,on-resistan4~e of the soldered :Joints was determined.~ Sirips of the alloy Dl, nickel-plated to a depth of 1-3, 5-10 and i9425 p, were joined with no&61 (POS-61) Card 2/4 7r-  ~S/129/62/000/012/007/013 Electro-less nickel-nlating .... E193/E383 solder und-er a zinc chloride/ammonium chloride flux. Similar test pieces were preparea using unplated Dl strips soldered by the abrasive technique with the tin-zinc eutectic. The corrosion tests (of 30 days duration) were carried out in a 30j,') sodium-chloride solution vihose temperature WA9 raised each*day to boiling point and kept there for one hour. The.extent~of corrosion was deterkn'ined determined-by measuring the qtrengtn of the soiaered'join~ts nefore and after t 'Ike tests. %Joints made in unplated specimens started to _lose th-e!-r-4itrenSt-h-:'hEt-er, imm -and had no load- carrying capacity after 7 days. Jointsmade on"specimens niekel- plated to a depth of 18.- 25 ji were the,most resistant to corrosion; their strongth before and after corrosion tests was 4.8 and 4'.7 kg/mm 2. : respectively. Comparativd tests of one-year duration, conduct.ed dium-chlorjde, sqlLtt ion, in a humidity chamber .. ,#4 sq~ - and in outcloor and indoor atmospheres yielded similar results. Complex tomponents of various wireless %quipment made by soft- -soldering Aickel-plat ed A A 1 (ADl) , DI and 'D16 alloys p8ssed the following tests satisf-actorily: 4-hour test at -50 C; testing for-rosistance to frost and condensation (2 hours at -20 0 C)- s 7tability at'ele'vbkted tempera'turbs (-10 hours at 50 OCI Card 3/4  s/12-9/62/000/012/007/013 Electro-less nickel-plating .... E193/E383 0' 0 4 hours at 65 C); resistance to humidity (30 days at 30 C with humidity of: 95-981,',). It vra6- cone lud ed that' preliminary electro- less nickel-plating was the most promising method of ensuring--good corrosion-rpsist-ance of soft-soldered joints in aluminium alloys. ard 4/4 MMEM M 11, iEl- 30! N T  FILI ~XOIIOVA, L. V. R.ological cycle of the tromatode Nwiophyetus schikhobaloid. Trudy Gellm. lab. 13:347-357 163 (MIRA 17:3)  FIL7,140110VA, L.V. C-.!curronce of new intennedlate and additional hosts of the t-rematods Nariophyatus achikhobaltowl. Tmdy Gollm. 1,ib~ 3.4--.46-251 164, (MIRA 17-10)  FILIMMOVA, L.V. Experimental study of the biology of Nanophyetus schikhob lovi Skrjabin et Podjapolskaja, 1931 (Trematoda, Nanophyetidae5 Trudy Gellm. lab. l5tl72-184 165 (1-11RA lot!)  AUMORSt Ag_temanko, A, I '1 t--wv6F4ysl6-670001(;Ollolo?rloI 0-1 Kocherm-K.-I-1 M*hLn, Vs A-01 37 ORGI none TITLEa Mining isolating,lifesavero Claus 61s'Noo 100491 Cannounced by Central Scientific Research Laboratory for Mining Rescue Work (Teontralinaya nauchno. lasledovatellskaya la'boratorlya po gornospasatollnoma delu27 W 9 obrastsyq tovarnyys snakip nos Tp 1966p 101 SOURGBi Isobrateniyas pr6myshlen TOPIC TAGS1 lifs*support -equip mentp mining enginserings air ABSTRACTs This Author Certificate presents a mining-isolating_JJXSmMr-cont&Lning a rechargeable cartridge#'a, breathing.tube; a breathing bagp and a case (see Figs I)* .To insura the automatic performance of the starting assembly when tht lid of the Case is removed and the liquid of the starting arVille in set.in a directed motiong the lifesa*ver is provided with a starting briquet# & rubber ampule with an internal blade for cutting it openg, a striker pressed Uto the arch-of'the ampule, a apringg fixing.baUsi and a hood-connected elastically to the lid of the cases 'To diminish the decomposition of the r"gent; containing oxygen in the rechargeable cartridge during tranW)rt~tioa:snd,,wsaring of the lifwaiwp the rwhargoable cartridge may -Card  7 Ib APWM.74 Fig* 1i I starting briquet j 2 rubber povolej .3 autterl 4 - otrikeri 5 - -sp bjLU~j, .7 - 6oQ to, shook aboolter 10, da"m;. be fixed within the case. Wuvogh'.shook aboorboris The latter are mods In the form d hoUow nphores, of an, elastic. misterial and are -placed on acommon axis*' OrIgo es$o hamo. I figurvo CO 40131,040 SIAB/ WN DAM"  ACC NR, AR6027498 --------SOURCE- CODE:- Nikulin, A. A.; Bochkov, D. A.; Filimonova, M. A.; Artem'yev, V. D.; Volokhonskiy, L. A. TITLE: Experimental. study of ingot heat balance during the remelting of a consumable electrode SOURCE: Ref. zh. Metallurgiya, Abs. 4V348 'REF SOURCE: Elektrotermiya. Nauchn-tekhn. sb., vyp. 47, 1965,' 42-43 :TOPIC TAGS: vacuum are furnace, heat balance ,TRANSLATION: A special crystallizer with graded walls was constructed for the experi.. ment. It was established that the heat transfer rate through the bottom plate in a ivacuun, arc furnace was 0.42-106 kcal/m2-hr when the bottom of the crystallizer was .covered with a plate. In the contact zone of the ingot, the heating rate on the walls of the crystallizer was about (0.3-0.8)-106 kcal/n2 -hr. During steady arc burning, the. heating rate on the crystallizer walls above the level of the metal was about (0.4- -0.6).106 kcal./M2-hr. Above the flux surface (during cycle without arcir..-,), the heat transfer rate did not exceed 0.2.106 kcal/m2-hr. In the stable regime, heat output to the crystallizer walls was produced by means of an ordinary water cooling system ! ,with water flow in the crystallizer. For a water velocity greater than I m/sec, a UDC: 669:621.365.22-982.001.5 Card 1/2  CC NR: AR6027498 pooling convection cycle can be produced without the danger of the hearj precipita- ,tion of hard salt. The specific heat transfer rate-can be decreased somewhat by using lower water velocities, as well as by increasing the crystallizer wall thickness. 4  TYAONY-RYADNO,, M.G.; VIZIR, A.P&--; -YERSHU7., V.V.; SINIMNSKAYA, N.A.; Prinimiala uchastIYP3 EILJIVIBZLA_, N.A. MicrolAofenosis of the sails of main forestitypes in the *Xivach" Preserve. Trudy.Kardil.AN SSSR no.34193-LU 162. (MIRA 16%1) (Kondopoga OAxtrict-Sotl micro-organisms) (Kondopoga. Dtotrict-Poreat soils)  LEVINSKIYJ, M.I.;.-K!~ ~H4 GUDZENK02 Zh.D. Polarographic determination of chloroform and mathylene chloride present simultaneously in'hydrochloric acid. Zav.lab. 27 no.5:546- 548 161. (Chloroform) (MIRA 14:5) (Metbane)  A.M.; FILD-1011OV, B.F.; FILIMODOW, M.M. Polarographic study of the polymerization rate cf diallyl adipettes. Vysokom.soed. 3.no.12:1661-1663 N 161. (1-11IRA 14:11) 1. Hishinevskiy gosudarstvenriyy universitete (Adipic acid) (Polymerization)  FILE-TONOVA, K.M.; IEVINSKIYj M.I.; GUDZEITKO, M.D. Polixographic determination of carbon tetrachloride, chloroformp and mothylene chloride in hydrochloric acid. Zav.lab. 28 162. (MM 15:5) (Chloroform) ~Carbon tetrachloride) (Methane.) (Polarography) -A, "S  FILIMONOVA, N.A. Bdcterioplankton and bacterial perlphy-ton in various biotopes of lake Syamozero. Mikrobiologiia 34 no.1:133-139 Ja-F 16). (MITRA 18:7) 1. Karellskiy filial AN SSSR.  25(l) nut I BOOK 21?_~)ITATIOX SOV/2281 VAeDoYuznYY nOuchno-abledovatel-alcly Institut awtogennoy abrR- botki motallov Klolorodnaya rozks 1 ovarka (Oxygon Cutting and Welding) Moscow, Xnahlit, 1959. 268 p. (Seriont Itsi Trudy. vyp. 5) ZrM ts alip inserted. 4.800 copies printed, Ed.? A.W. ShaahkoV. Candidate of Technical 3clancenj Rd. of Publisn1nz houset G.W. Sobolova; Tech. &d.& V.D. 11tkinds YAnaging Ed. ror literature on Heavy PAchlas MulldInCt 3. To. Goloyin, AnSIn*er. PURPOSEt This collection of articles Is intended for engineers, too hnIcians. scientists, designer*, and students of vtuies, Th bc i b e o c Kay e uvod for !RprovIng operational methods of oxygen and gas metalworking. COVERAaE, This book contains articles an theoretical of oxygen cutting and welding and problems related to the gas- - , - Ila m. trvatment of metals. No personalities am mentioned. Retemnews follow each article. TABLI OP CONTIMs Striz havokly, II.. and V.P. zaytsev&.5tabjljzjr4 Acetylene 229 he Authors lnv*stlgl&t.the stabilizing *ffsct of nitrogen. -- -I- I propane Q?' th& O1Vl0OIvO dOtOmPos$' , *than*, and COMMOrc, :r pressure or 5 to 20 ats. tion of acetylene WO IWFJVATICX . lCandidata of Technical SCIOncO61- Now Method K,V V&21Z.yg- . , 245 of oxygen-are Cutting Of Stool StIgation of the "*rjmontaI Inv thor describes &n The au ,: above PTOCOOO "ree 0 its advantages. )low Torch for Ker"GnQ Nakramov YU. I -OXISOR 249 jq*t&l Cuiting Vith AtQ&ttad ftel (MM-3-57) V. articls ccn%&Z" & description of the torch- Its uses. and its parformancv. Z.N. (SAX-2no0r). Increasing productivity of the 049 oolubeva . 852 Welding Pzvt*xf oxyacetylene nothoo or wilding low- dvocrines an o t n r The Ou carbon steel. Tajo method involves an increased oxygen- _ ;01-0- cotylons ratio and employs the SV-1003 welding rod, 4 by YXII Avtogan. :d StrithevSkly, I.I., and 0.1. TogmenItskly IlLngineor). Ud!ng pjn._&r&.-r@d CalcluA Carbide In a Mixture With Puel Oil 256 KoalrVaIM-7. A.L, (Candidate of Technical Sclmne*41- NO" Not' orsal for Metallizing 260 Th: author describes a method Of metallizing- O241Jwd to be now, In wblth-"tal powder saboddod In 0 plastic moment Is used Instead or the usual metal w Ire or powder. Xoca%azo of the high 4*gr*o or dispersion or the metal. coatings produced by filament spraying have a fine-,;,rained structUro and ors more uniform than those produced by the wire or powder mothode. Koclov:kly. A.L., I.A. Ntakavokly WSInvor) and ?!,I. 7111ponovs, JZng1n erl. Developing Production Method* for rowder for.NotallizIng 263 The authors discuss ROMC44 Or polyazlde dispersion and prep- aration or poly"i4e p-%S.ca for zatallizzInZ. Performance characteristics of th# material are given. AVAILAS1,11 Library or Congress Card T/r io-B-59  ICALASH IIKOV, Ilikolay Andreyevich. kand.takhn.nauk, starshiy nsuchnyy sotrvAnik; FILIMONOVA, Ninell Layrentye"s, inzh., mladshiv nauclayy Te.7.0 red.; SMGMV, A.F., red. izd-i,&; DONSKATA, G.D., takhn.red. [Usixg combined stressed and reinforced concrete in building bridips] Primnenie kombinirovannogo napriazhanno-armiroyannogo betOXIa T mostakh. Moskva, Ilauchno-takhn.isd-To avtomobillnogo trantiporta i shosseinykh dorog RSFSR. 1959. 37 P. (KM 13:4) (Bridges. Concrete)  FILIMMOVA, If.L.. izizb. Uning wire-reinforced slabs in building precast monolithic bridges. Avt.dor. 23 no.2:12-13 7 160. (KIRA 13.5) (Bridges, Concrete)  KAIASBNIKOV9 Nllolay Andreyervichl kand. tekbn. naukg starshiy nauchnyy sotr.; YMMONOVA, Ninell L&vrentlyevnag inzh.; GANYUSH3211 A.I.9 red.j I~MLM,-,Vxt L.N.P [Precairb monolithic Olabs for spans) Sborno-mono3.itzqe p3.itrqe pro- letnye qtroehiia. '-K69Waf'Nauobno-tekbn. izd-vo N-va avtomobillrogo transp. i shosseinykh'dorbg RSMp 1961. 103 p. WMA 14:7) (Prec,&Bt c.onerete construction) (Bridge construction)  ULITSKIY, B.ye.; GUSHWI, M.Ye.,- F1 N-L- Potentials for saving metal in bridge spans. Avt. dor. 24 no-7:17-18 J1 161. (Bridges, Concrete) (MIRA 14:7)  FILIFONOVA, Ninell Luvrentlyevn~j RUDENKO, Vladimir Ivanovich; DODANOVA, A.P., tekthn. red. (Characteristics of the design of slab bridges ]0sobennosti proeki,irovaniia plitrykh mostov. Moskvaj Avtotransizdat, 1962. 73 p. (MURA 15:7) 1. Wel isbisstvennykh sooruzheniy Gosudarstvemogo Vse- soyuznogo do:rozhnogo nauchno-issledovatel'skogo instituta (for Filimonova Rudenko) . bridges, Concrete)  TURAS, Yevgeniy Viktorovich, kand. tekhr,. nauk; EILDL'OI,'GV_A, Ninell Lavreij~'yavnaj_lnzh.; SHTILIKO', Yofiri losifovicb, kand. nauk; KIRILWV, V.S., kand. tekhn. nauk., dotsp re- tsenzont; GANYUSHIN, A.I., red.; GALAKTIONOVA, Ye.N.., tekbn. red. (Use of wire-reinforced concrete in bridge construction]Pri- menenie strunobetona v mostostroenii. Moskva, Avtotransisdat, 1962. 134 p. (~aRA 15:10) (Reinforced concrete construction) (Bridge construction)  AUTHORS: Mallnova, G. N., Mikheyev, Ye. P., 20-4-21/52 Kle*3anakiy, A. L., Golubtsov, S. A., and Filimonova, N. P. TITLE: On the Catalytic Phanylation of Hydrogenous Alkyl- Chlorosilanes by Benzene (0 kataliticheskom fenilirovanii -soderzhashchikh alkilkhlorsilanov benzolom vodorod, PERIODI CAL: Doklady AF SSSR, Vol. 117, Nr 4, pp. 623-625 (USSR) ABSTRACT: This reaction of the alkylahlorosilanes mentioned in the title above with aromatic hydrocarbons hue been treated only insufficiently in scientific literature. A short literary review reveals among other facts that as yet in almost every case elements from the third group of the periodic system have been used as catulyzers. The authors preferred to use boric acid as a catalyzer sufficiently active and fitting for their purpose. If it is added to the reaction mixture in a quantity of 0,1% the formation of phcinyl-trichlorosilane is restrained almost completely. OtherwiBe there is hardly any possibility of separating it from methyl-phenyl-dichlarosilane by ractifioation. The Card 113 inorease of compression in the autoclave - chiefly caused by  On the Catalytic Phenylation of Hydrogenous Alkyl- 20-4-21/52 ChlorosilaneB by Benzene elimination of hydrogen-ceases, according to the temperature of synthesis, at 2900 after one hour, at 2500 after two hours. Warming for a longer time is not profitable (see patents, references 2-4,6) as in that case the exploit of the final product defreases. With 0,1% boric a-cid the optimal temperature is by 2400. If the temperature is caused to fall by 5-100 the reaction is decisively retarded. The comparatively small explDit of alkyl-phenyl-dichlorosilane is caused on the whola by the high capability of reaching of the alkyl- dichlorosilanes which suffer not only phenylation but diffarent other transformations such as changes of thermial rearrangement, condensation, and reaction with alkyl-phenyl- dichLorosilane. The detailn of table 2 confirm the assumption that the augmentation of the proportion of benzene will increase the exploit of alkyl-phenyl-dichlorosilane. Under optimal conditions it reaches 40% of the reacting methyl- dichlorosilane. Finally by-products are mentioned. The reciprocal reaction of benzene and ethyl-dichlorosilane in presonce of boric acid is analogous. The optimal temperature Card 2/3 is about 2500.  On the Catalytic Phenylation of Hydrogenotm Alkyl- 20-4-21/52 Chlorooilanee by Benzone There are 2 tables, and 7 references, 1 of nhich is Slavic. PRESENTED: June 28, 1957, by B. A. Kazanskiy, Academic.'Lan SUBMITTED: June 27, 1957 AVAILABLE: Library of Congreen Card 3/3  5(3) AUTHORS: Yal I nova, G. N. , tli~:heyev, Ye. 1'. , SOV/2o- 1 23-4-33b3 Kleb.:tnokiy, A. L., Filimonova, 11. P. TITLE: CataLytic Interaction,Detween Alkyl Dichloro Males and Halo7,en Substitution Prodtir-to of Be-~none (K;italitichenkoye vvi.imodeyntviye alkildikhlornil-ITIOV S .-:-'-.10iIZ':--Cshc)Iennymi benzola) PERIODICAL: Doklady Akademii nauk SSSR, 1953, Vol 123, fir 4;9 pp 693 - 695 (U.JSR) ABSTRACT: The above interaction io mentioned in only -a Tk--w patents (Ref 1). The euthoi-s investigated the sarle interaction of 0 meth,rl dichloro ,.-,il,,ne withchloro benzene and flaoro benzene as well an the same reaction of ethyl dichloro scilane with ch103'o berizerie. Boric acid with its numerotzs advantaces was used an co~talyst, or more accurately an source material for the catrilyn't. A) Re"'action of :oethyl iold etli-1 dic-iloro nilane with chloro benzene. The temper"ture necessary for introducing the reaction amounts to 2550 (nothyl Oichloro sil,,.ne); it is Card 1/3 100 hi,-her for et'nyl dichloro silane. Table 1 3ho7,s the  Cat:-lytic Interaction Between Alkyl Dichloro Sil,':Lnes and SOV/2o-123-4-33/53 Halogen Subetitution Prodocts of Be.,.-7,ene dei,endence of the yield of ethyl onl.~ro-phe-.iyl dichloro silane on Vie temper,Atire of t.-ie rynt-eni3. The fc)llowir!,,,r products are formed in the reaction of rneth.,l roi,iain unchanged;-.7jt methyl (lichloro silane,^j 5` dimethyl dichloro silanb,,%j 60,?~ unchan-ed chloro .ben-,ene, ev 47' inter- Q io mediate fraction (boilin- point 44-1280/29 10% methyl chloro-phen,' l dichloro silz.~ne, and -j 5 ',a/ residLie in the flask. Gaseous products contain 86-5-87.5i' hYtlro6on, 9-10"t rethane, and O.,7-1~~j hydrogen chloride. The isoniers of methyl chloro- phenyl dichloro nilane are contained in the fractions as follows: ortho- -v20ci,.,, meta- V 45~-, and para- t\j 35;"~% The total yield of zall isomers amounts to 24-2"I~j'o of the reacted metli.,l dichloro silane (the r;atio of the isomers was ~-etermined by K. K.1-6pkov). The yields were also giver for other substances mentioned above. From table 2 it !-,-,y be rcen thi,t in the onid reaction the reactivity of the benzene nticlous decreases rej,ulaxly with the suces.,jful sub.-~titution of a hydro,7en atom by a halogen atom. This decr,--ase is the ~:!ore abruzt the higher Card.. 2/3 the polarity of the halol~.-er. Thc2rp are 2 fi,-~-,res'and 3 -S' I  Catalytic Interaction Between Alkyl Dichloro Silcnor, and SOV/2o-123-4-33/53 Halogen Substitution Products of Berizene reforencon, 1 of which is Sovi.et. PRESENTED: JulY 14P 1958t by B. A. Kazanskiy, Academician SUBMITTED: July 10, 1950 Card 3/3  1 5(2) SOV/70-4-9-3/44 AUTHORS: Neemeyanoir, A. It., Mikheyev, Ye. P., Anisimov, K. N., - Filimonova, N. P. TITLE: i~e Synth-i-si-so-f -the Chromium Hexacarbonyl With Participation of Metall1o Reducing Agents PERIODICAL! Zhurnal neorganicheekoy khimill 19591 V01 4, Nr 9, PP 1958-1 )60 (USSR) ABSTRACT: Reference is made to the studies on Cr (00)6 described in publications (Refs 1-5p 71 8). The difficulty encountered in synthesizing this substance lies in the high electrode potential of chromium -lurichloride, as this makes the use of strongly reducing metals necessary, which simultaneously give side reactions with the solvent . The only comparatively indifferent solvent was stat6d to be pyridine, which dose not react with the alkali metals and forms complex compounds - CrCl was dissolved in pyridine and reacted with with Cr (CO) 6 3 CO 8nder higher pressure after addition of zinc powder at 175 and yielded 10.8% Cr( CO)6. The authors obtained a 35% yield of the same substance, by applying 50cA excess magnesium activated. by a crystal of iodine. Without activation by iodine Card 1/2 the yielet sank to 4%, as the magnesium did not react. An  SOV/78-4-9-3/44 The Synthesis of the Chromium Hexacarbonyl With Participation of Metallic Reducing Agents increase in -the CO pressure to 220 atm also passivated the magnesium (only 1.7% yield). AppreciablZ yield8,were obtained with sodium (150A. theoretical amount) a 20-25 Raising the temperature to 50 lowered the yield. Howevert a rise in pressure to 220 atm increased the yield to 37%. The same yield was obtained by using lithium instead at a pressure of only 70 atm, but a further rise in the CO pressure had no effect on the yitild. There are 9 references, 2 of which are Soviet. SUBMITTED: May 28, 1958 Card 2/2  S/19 61/000/008/004/006 Y BIIO B201 AUTHORSt Milcheyevp Ye. P., Filimonova, IN. P. TITLEt Synthesis of trimethyl eiLoxy chlorosilanes N'RIOPIGAM Plastio'hoskiya massy, no. 8j 1961, 191- 20 TEM Trimetbyj ailoxy chlorosilanee r(C.H 33S'~InS'014-n have'not been hitherto described. For the purpose of their synthesis the authors studied the reaction nf hexamothyl disiloxane with SiCl .- On a temperature rise (heating in the autool'a,re) and at a suff ic:V ent goncentration of the initial * substances, the following reactions take place suoceesivolyj leading.to the formation of a mixture from three possible trimethyl ailoxy chloroiilanes eiloxy)-dichloro- (trimethyl siloxy trichloro silane (I), bis-(tri-mothyl silane.(11 , trio-(trimetbyl siloxy)-chlorooilano (III) idth trimethyl ) ) chlorosilanes  Synthesis of trimot~h~l oiloxy... S/19 61/000/008/004/006 B11OXP-201 (CH01031(c"01 + S104, PM10SIO, + (CHOM ('6'1)8S'1OS1(CHA)$ + (CHOISIOSIC18-4.. + III (CHjj9I031(CHjj + I(CHASIO)ACIs ROV'S1013SIC, + (CHOSSIC, The p0sibility or substituting trimethyl siloxy groups for 01 atoms boun,4* to Sip drops regularly with rising substitution. Experiments ofan dition of small amounts of free halogens to the initial mixtures un ad ler otherwise equal conditions showed iodine and bromine to be efficient catalysts, while ohlorine was found to be ooasiderably weaker. The cataly-' tic action of halogens evidently depends on their ability to form complexes; with the chlorine anion, which causes the Si-Cl bond.~to split. The Card 216  ---- - -- -- -- -25598 --- - - - 311911611000100810041006 Synthesis of trimethyl sill6y... BliO/B201 reaction mechanism is described by the following scheme: -SI-Cl + He'll + [HalIC11- NO (CH,),Sl sl+~ (CH,)3S,\b+ (B) (CH,),9t/ (CJVvS1/ \b+ Sj- + JHG120)- PISICS/ (CH.NAOS4 + (CH.~S.10 + Hills The initial substarces,.v;ere purified by rectification. Rexamethyl 20 20 20 disiloxane had d . 0-7640'and n 1-3781; Sicl had a 1.4Y81 and 2Q. 4 - D 4 1 n 1.4141. 180.c,:.4 g (1.12 g mole) CE 6 g mole) D 3 3SJ 20 and 94-46 9 (0-5 Sicl were introducod into'an autoclave of a capacity of 0.5 1, made oT 4 Card 3/6  Synthesi Is of trimethyl siloxy... 25598 , S/10 61109010081004106 B1 16401 z)AATEYaIT) stainless steel. The "autoclave was filled to 60 % Of its capacity at 20 C. In the study of the catalytic halogen actiont the gilien halogen amount.was added to the initial mixture in the autoclavo immediately before heating. Chlorine dissolved in SiCl' was added. The., 7., filled autoclave was hes,ted,in the polymethyl phenyl-eiloxane bath-during 0 2 hr at 250 C. After refaotion, the mixtures were-separated by rectificatione A characteristic is the absence of-initial,SiCl in the mixtures-after thil reaction. Trimethyl chlorosilane formed in a pLetically quantitative yield from the nonr'eturned hexamethyl disiloxane. Experimental regulta.are presented in the table. Under the conditions.described, the side reactions. were insignificant. a 1ras consisting of Abo ut 0-3 1 methane and some hydrogen was-formed. Vi;ry small traces of'elementary Si were established at the inner surface of the autoclave. By heating the mixture of equimolecular C(C11 Sio-i Sici in the'presence of*0.11 ~- I amounts of S3 20 and [(CH 2 2 . 2 3 3 3 3 0 to 300 C during two hou:.'s in the autoclave, the authors obtained tris- (trimethyl siloxy)-chlo:~oailane with 46 % yield ok filled initial substances; which corresponde to 75.5 and 01 of nonreturned C(CH 0 and S'J . 2 3 3 Card 416 7ri ,  25598 S/19 61/000/008/004/00~ Synthesis of trimethyl eiloxy..s. BI I OYB201 The trimothyl siloxy ohlorosilanes were again rectifiia, after separation and yi,elledi trimethyl eiloxy triohlorc silanst boiling 0 20 20 point 1270 C1 n 164'5321 d 1-14051 MR fouhd - 47-88, t(aloula,ted D 4 D oc~j - 41-70. Bio-(trimethyl siloxy) diohloro silanei boiling point n 173 20 20 n - 1.39631 d 1.00171 Ml~ found a 66.68j calculated 66,�6. D 4 0 20 Trio-(trimethyl siloxy)-ohldrosilanot boiling point - 201.1 C1 n 394ji D 20 d 0.9219; MR found 85.93, chloulated 86.,22 rAbstrauter's notat 4 D Essentially complete t:tanalation.] There ar' I te~ble and I non-Soviet*-bloo' reference. The reference to English-langua:e publications reads as follows$' Ref I: S. '.Maedaf E.. Vojinoto, j. Chem. Boo. Japan, Industr. Chem. See.. I L2f 522, A 33 (1959)- ~T, Card 5/6  HINMEV, Ye. P.; FILIMOKOVA N. P. Zimkt.!,U~n of the molecular refraction of bia(trimetbylBi2yl) acetylene. Zhur. ob. khim. 33 no.1-1323-324 163. WRA 16:1) (Silicon oreanic compounds-Optical properties) (Acetylene compounds)  2~-6t;rl-6r, VJT " 13)/LPF((.-*1%/L`dP( )/7 Pr_ -4 P r-4 /F 1 -4 R,'./V.LK -,ON NMI: AT5F'0?1'-19 ShOOO/cW000.1100') lglu" I AUTIIOI'%,: Mildievev, Ye. P.; Popov, A. F., Filimonova, NN. P. Pllotoch'arinatior. of methyl.chlorosilanes in the liquid please with prafercntial riwatives JOTITIAion of mormclibrode SOURCE - AIN SSSR. Institut -neftekhImichesk0go sintez-a. Sintez i Lvmystva monomerov (q.; Wiii' r 5 oCii;o e S cow, Tv.1-va Nat-Ok-ae, 1964, L68-16.11 -OPIC TAGS: clilomsilane, sillcoorgmic compound, photo chlorination, conlinuous o170 quid methyltrichloro-, dimethy1diclil and wa_-z Eitudled under-laboraton- coaditia-kis fo o-timize bAh the yield _T: eves anj- viafet-~ fa,,tors. ap-iral-us con- re ictor w)tli a 1:,ii-rate theo IeLlcai (he pr:.duclts from ncnreacted methylchioroBlLanm The llittter wumnl, aRd Lhe al separated (.n m second eolu= vAth a separwrion c-ffficiencyof 15 Uiec-retcc, -1 -!-! *3 y i c ld of mor-ochloroderivatives -vas 70-941~,, Oriv. art, bao.. 1 ..A  'L,~j M TI lapswMITNP909STM L 226c')-65 ACCIMI:01-1 NM,,~ AT5102120 AISSCCU,-TION: None SMMUTTED: 300*uI64 ENCL 00 RIEF sov.. 003 OTHER-.001 SUB CODE. OC,GC, Card 2/2;  VINOGRADOV. A.A., CRUTICH, S.G., FILIKOKOVA, N.V. -Vroduction of acetic acid wid acetic anhydride. lbiwo nauka i 2 no.llh6-52' '57. (MLRA 10: (Acetic acid) (Acetic anhydride) 6 1-  FILIM0110YA, O.F., meditainskaya sestra. Antibiotics in the clinical treatment of internal diseases. Med. sestra 16%no.1:22-24 Jo 157. (MLRA 10:2) 1. Gorodskaya bolinitea no.34.,Koskva. (AICIBIOTIGS)  SOV//95-5"--2-7/13 AUTFORS: Lebedev, B.F., Candidate of Technical Sciences, Filimonova, R.F.)and Martynov, I.G., Engineers TITLE: Aluminum Experimental Gas Pipeline (Opytnyy alyuminiyevyy gazoprovod) PERIODICAL: Stroitel'stvo truboprovodov, 1959, Nr 2, pp 19-21 (USSR) ABSTRACT: An experimental gas pipeline has been in3ta)led 20 km south of the city(if Shchekino, by order of the Glavgaz USSR, made from s6amless flat rolled pipes, 150 mm in diameter, and witt. a wall thickness of 4 mm. This aluminum pipeline is in- tended for the transmission of sulfurous gas and the elimina- tion of corrosion, to which st6el pipes are subject. The technology of production of these aluminum pipes is the san,-! as that of steel pipes: the interior of the opening of a round hollow ingot is covered with a layer of antiwelding mastic and then flattened in a blooming mill. This ingot is then hot-rolled to a strip having twice the wall thickness of the pipe. The flat pipes are put in rolls and the open ends are fitted with flanges and welded sleeves. The rolls of flat pipes are unrolled on the site and placed alongside Card 1/2 the line, where the pipe is to be installed. Under 5 atm  Aluminum Experimental Gas Pipeline SOV/95-59-2-7/13 pressure the flat pipe is then blown up-to its intended round shape. It is recommended to carry out this operation under stretched condition of the pipe, to avoiddents and otfier irregularities liable to occur due to the uneven con- tours of the ground. The blown up tube sections are from 35 to 40 m long. The butts of the pipe sections are welded together with the use of insertion rings. Special flange joints are provided for connections between aluminum and steel pipes; while metal fittings are zinc plated, a di- electric washer and sp4cer are placea on the side of the aluminum flange. The article cites results of experience with aluminum pipes in the USA. There are 3 photographs, 2 diagrams, 1 table and 4 Soviet references. Card 2/2  SAVITSKIY, Ye.H., doktor khim.nauk, prof.; TPRMOVAO V.F., kand.tek:qn;.nauk; KARKOVAY I.A., inzh.; ?41MbLGVA., R.F., in*. . If Interaction of yttrium with other metals. Mte.Uoved. i term. obr. met. mo.9s4;~-49 3 162* , (MIRA 16-5) 1, Iratitut metallurgii imeni A.A.Baykova. . (Yttrium alLoys.-Metallography) (Phase rule and equi:Lil*i=)  11"LlICNI'to " ",7 GreE,t Angren. Maot.ugl. 6 no.6!16a-16d Je '57. ll-.~"?;- 1c!8) (Angron Ilaisin-Coal minee arA mining)  IV6 USSR Physical Chq Electrochemistry. B-12 Abs Jour : Referat. Zhwrnal Khimiya, No.1, 1958, 574. Author t S.G. Filimono-ra. Inst : Leningrad Pol:rtachrical Institute. Title : Study of Beha-7ior of Antimony at Electrolytical Copper Re- fining by Metaod of Radioactive Isotopes, Ori- Pub - Nauchno-teknn, inform. byul. Liningr. politekhn. in-ta, 1957, 11o.3, 19 - 31. Kostract i The influence of various factors on the inclusion of Sb into ele.-trolytic Cu at the process of refininc, and the mechan!.sm of 'this inclusion were studied. The Sb conte-ts in catode Cu and the solution were determined using the radioaotive isotope SbJ24. It was found that., Sb passes into Cu in thii result of the discharc-a of Sb5 ions, .-,hich Card: 1/2  USSR / Physical Chemistx7i - Clectrochemisti-j. B-12 Abs Jour : Roferat. Zhurnal Khimiya, No.1, 1956, 574. Abstract : starts at pottintials of 0.23 to 0.24 v. 'rhe more posi-.ive potential of discharl,o of Sb ions in the porcosr, of Cu re- fining indicates the depolarization at a 3imultancous dis- charGe of Sb and Cu ions. The capture of basic 8b salts by alectrolytioal Cu is possible at hiZh concentrations of Sb in the solution, The temperature rise to 50 0 increases the speed of the Cu ion discharge as compared with Sb, and the Sb content in Cu decreases. The application of an anode diaphralp dearvases the Sb content about 4 times. A docroase of the conaentration of free 11 2SO4 and the presence of r-e- latin in the solution increase the passage of Sb into Cu. An increase of the concentration of Cl- ions decroases the inclusion of 3b. It in nostulated that the main cause of the contaminati3n of cat~de Cu with antimony is suspended basic salts of 3b. Card: 2/2  AUTHOR: Filimonova, S.G. 136-4-8/23 TITIB: Study of the behaviour of antimony in the electrolytic ref ining atcopper by the radio-active isotope method. (Izuchenie povedeniya surmy pri elektroliticheskom rafin- irovanii medi metodom radioaktivnykh.) Ph"BIODICAL: "Tsvet:aTe Metally"(Non-ferrous Metals), 1957, No - 41 PP. 3? - 44 (U.S.S.R.) ABSTRACT: Although much work has been done on the behaviour of anti- mony in the electrolytic refining of copper opinions still differ about the form of the transfer of antimony into cathodic copper and the influence of several factors on thp process has not yet bee gtudied quantitatively. In the present work the isotope Sbh was used for determining the antimony content of cathodic copper and a solution in the course of electro-depos- ition of copper. To get an approximate idea of the possibility of simultan- eous discharge of copper and antimony ions the dependence of current strength on cathode polarisation was studied and polar- isation curves constructed fo-r a range of congitions:0these Card 1/4 are shown graphically for temperatures of 25 and 50 0, with and without the addition of gelatine. Electrolysis experiments were carried out with solutions containing radio-active  Study of the behaviour of antimony in the electrolytic refin- ing of copper by the radio-active isotope methad.1,4w.) 1_P_ antimony, current densit being varied in 8he range. from 100 - 500 A/h and the temp=Lre from 25 - 60 C. Copper concen- tration was 32 g/litre and varying concentrations of sulphuric acid, gelatiae and chloriBe ions were present. Temperature . contro). was within + 0.5 C and mechanical stirring wasparried out, conditions bei-ng similar to those of industrial ele-l-,tro- lysis. Anodes were cast from electrolytic copper and contained various quantities of radio-active antimony (0-5, 0.1, 0.05 and 0-005%). Cathodes were made of high purity copper strip. One series of experiments was carried out with, the other with- out, a diaphragm in the cell and the turbidity of some of the solutions was meaj;ired. For measuring radio-activity an inst- allation similar to that recently described by Rempell and Popov CTsvetaye Metally", 1956, No-3) was used. Results obt- ained are shown graphically: antimony content against current density, antimony content again 'st gelatine content in solution; turbidity determination results and the effect of chlorine ions on the antimony content are shown in tables. Graphs of current density against cathode potential for experiments with and car& 2/4 irithout a diaphragm and of the seml-loGarlthmlc dependence of the rate of discharge of antimony ions on the cathodic polar- isation are shown.  Study of the behaviour of antimony in the electrolytic v.,fin- ing of copper by the radio-active isotope method. (Cont.) .4- g8/2 It is conclu&ed that antimony enters cathodic Aner My as a consequence of the elect ro-chemical reaction of the discharge of tile antimony ions. contained both in the solution and in the cathode film of basic antimony salts transferred cathophoretic- ally to the cathode. With the high antimony concentration in the solution prevailing under industrial conditions mechanical entrapment of this cathodic film is also possible. During sim- ultaneous discharge with copper ions the antimony enters into 'the cathode mainly on account of discharge of Sb:)+ ions and begins to take place at potentials of 0.23 - 0.24 volts; the fact that th:Ls is more electropositive than the potential of antimony in a sulphate-antimony solution indicates that depolar- isation occurs in the simultaneous discharge of antimony and copper ions. With increasing temperature the rate of discharge of copper ions increases with respect to that of antimony ions, and hence the antimony picked up by the cathode copper decreases. By using an anodic diaphragm the antimony content in cathodic copper can be reduced to a quarter. As the free sulphuric acid Card 3/4 concentration in the solution decreases the transfer of antimony into the cathodic copper increases, the explanation being the, formation of basic-salt sols which are transf erred towards the  Study of the behaviour of antimony in the electrolytic refining of copper by the radio-active isotope method. (Cont.) 136-4-8/a. cathode. The entry of antimony into the copper is also appie ia- bly increased. by the presence of gelatine, but this effect de- creases with increasing temperature. Increasing chlorine-ion content in the solution decreases the antimony pntry into the copper, appEatently on account of the combination of the antimony in the solution into the complex anion. Systematic filtering of the solution should be adopted when antimony-free copper is Card 4/4 required the use of special anodic diaphragms being another possibillt~. There are 7 fitrs and 2 tables. There are 15 refezences, 11 which are Slavic.  FIL-1110NOVA., Cand Tech Sci.- !jC.,,-.-t4Ve. admixturec 3.11 4apw elcctrol~,tic cop-~t:r 113' J, L. 11.:~ I i I L3. 1~ 1~j Inp (,*.i.ii of Ili ior Ekluention IT'Siv. Fiol., tec' -11-t it- 100 121) -63-  KAHEIZETY, I.V.; TI;EYTLIN, G.M.; RENARD, T.L.; ~ILIMOIAYIIA, S.M. Synthesis of acryUc esters of 2,2,5,5-tetra(ox7methyl) cyclopentanone. Zhur. prikl. khim. 36 no.11:2557-2558 N 163. (AURA 17-1)  FILIMONOVA, T. A. -...- Cand Med Sci - (diss) "Intra-osteal anesthesia during inflamma- tory affections of the extremities." Novosibirsk, 1961. 16 pp; (Omsk State Medical Inst imeni. M. I. Kalinin); number of copies not given; price not given; (KL, 5-61 sup, 207)  ACCESSION M AP3005700 S/W48/63/027/007,10937/6934 AMCRI: Berkovskiy, A. .,j fillimonovag.To A* TITWI.- New miniature phoOtomalttp (Report of the 13th _AWml _C~i ftelear Spectroscopy hell In Ki &LU-2 Feb 19631 SM831E.- Ali SSSR. 1 7.. 1963o 937-939 zv. Seriya fiticheakeya.. v. 2T., no. TOPIC TMS: photom1tiplier, antimony-cesium cathode, dosimeter.. scintillation couriter, box-type multiplier ABS' M.CT: The FIMY-6b phoit=0.tjplier,,,des1gmed fo use as an Intra,cavity-type r Belatillation counter Inimedical. doslmetric equipment, Is described.. Because of 'the small dimersions if the ELT-60 (external diameter 15-=; cathode diameter 10 MM) it wq also be utilized in otW portable equipment. The photovaltiplier is provided with special:baffle.-plAm screens,, uttich are extensions of the emitteri wo-cking surrace (Elect Figo, I of Enclosure). Due to the elimination of a through gal) (in gril-type box sylitems w1tere, optical and ionic feedback can kppear) end the elimination of ireldell grids., the operation of the FEU-60 is stable even at high -voltages. The sysimm consists of 10 antimony-cesimn emitters,. During meanurements, an inovendeiieent lamp v1th a color temperature of 2854K vas used. Carcl  % L 11301-63- ACCUSIOV la: APNO)TV. I MIrtimm anode sensitlLvity Is 30 /lumerr-I at an, amplification of 1()6, and 11amp can be achieved at vcjtqges Vjjch do'not exceed 1600 v. Orig. ~A. has: 1~ figures. none SUBMWD: 00 ~DM ACq-. 02hugO EKC%,* -01 SM COME so M 807: 004 OTM: 000 Coed .2/X 2,  FILIMONOVA, T.D. Dynamics o;~ electroencephalograpbic indices in reactive states J-n ths ccurse of ilbiese. Bud.-med. ekspert. 8 no.1133-39 Ja-Mr 165. (HIRA 180) 1. TSentra:llrjyy nauchno-iseledovateliskiy institut sudabnoy pailhia,tril, imeni Serbskogo (dir. - doteent G.V.Morozov)p Moskva.  TAKHTICIMID, P.A.; U11M.1M.T.G. w Shorteining the vegetation period by sumiier seedivg. Agroblolo it& no.40.26-128 JI-Ag 158. 1 (MIRA 11195 1. Sibirskly ordena Trudovogn Krasnago Znameni nauchno-isslado- vatel"akiy institut sel'skago khoxyaTstva, go Omsk, (Growth (Plants))  FILIMONOVA T 11 - SHKYGOV, A.M. 0 2 A 15 Nw. linear electron accelerator. Zhur. tekh. fiz, 32 no,.12:3j'08-l"5 D 162, (MIRA 16:2) (Particle accelerators) - - - -- -'-- -a- .--- --:--,-~~-Zi Ri-. - - I -, ~,- 1. ~-L: ~,`1~ f Z~! -, I -I_  FILIMOJOVA, T.T.9- student V kurse-, A7AROVA, T.A., student V kuras Development of tuberculous meningitis during streptomycin therapy of tuberculosis. in children. Fedistrita no.2:54-56 F '57. (MIRA 10-10) 1. It? Yaroulavokogo meditainskogo inatituta (nauchW rukovoditell prof. is.I-Titova) (MVIGNS-TUB.AZOULOSIS) STIr~ OYY ,, I N.11 (TUBIMCULMUS, CONGFOITAL, HERLDITAILY AND 111FAUNLE)  IHALFW, Sh.S., prof.; ZHAIWO I.I.; BHTIVELI, Ye.A.; FAIaJSINA, O.V.; FILIMONOVA, V.A. (Baku) Pneumonia In influe% during..the 1957 pandemic [vith summary in Engli;K1. Terai) &, UK -arldi'A3.1,40-1:77-82 Ja 159- (MIRA 12:2) 1. Is Infektsionnoy kliniki i kafedry rentgenologii Azerbaydzhanskogo inatituta usovorshenstvovaniya wachey. (INFIAM&A, compl. pneumonia (Rua)) (PIMMONIA, etiol. & pathogen. -influenza (Rua))  FILIMONOVAI V.A. Methoda for leveling diked sectiona in the Volga-Akhtuba Floodp3ain. Gidr. i mel. 15 4o.9:14-18 S 163. (KMA 17:1) 1. Volj:ogradskaya opytyo-m3iorativnaya stantsiya.  KOTOVj I,A,,p kand.,med,nauk; FILIMONOVAt V.B. Case of ostecpoikilosis, Vest. rent. i r4. 35 no. 2:81-82 Mr-Ap 160. (KERA 14:2) 1, Iz klinilci obohchey khirurgii (zav. - prof, I.V. DamUov) Kalinin- skogo medit"Inskogo instituts, (direktor - dotsent A.N. Kushnev)o (EOW!,S-DISEASES)  1;i1inumova. V. 1) Vlliunie nlikilth lemperotur na rhe- Lforo1cf-icrd Abst. ludel. Akahimia NdiAt.SSSR. 10,4144y. Aug 1, 1952. 3 tablei. 2 teh. DLC-'l It.- vial,ility (A a,-rm it low tvint,cwturt-, ~%Vaa lilvemigated in the laboratoly al a reftigmition industry %licte tlo! acurrs %vure lilact4l into 't-111111hrrg with (rinpri'llille from --20' 1.) VC doring I I III ... kthl- I Iw-e r%l"IilInlIt4 that thr noromf Viability fIf acorn, wnt.tim at lemperiture!i not tl,;In DtVllIR f1f III" cq~l rophy on Fro9t i'lum 111 411 Fill likhrl I It'! (.111-ing till t.1 471"; rmnim%tiento4V'W, The atillillin 11'ro t Fo rLi cn t i n "" ing of acollis i-s 110'sible In MI rvgimm whele tile xvillm Smil it'llipwitu'ri at 'I'l,th of 6 8 clu do iint fall lower th.in -S', -7'('. hime illit-wive froilS1,111 Im-11111flell for a qlInTt little (mly. Subjed llradim:v I. F;G%t eflectE on plants 2. Acnrn viability.  "A Bioloyical Basis for Protectin.~ Ac:)rns Durin, the ~Liter "e-a-3cn." Cand Biol Sci, In3t. of Forestry, Acad 12ci "oscow, 195.3. No 1, Set) W SO: Sum 432, 21) "hr 55  FILIMOVOYA, V.D. -:~,prlnciples underlying winter storage of acorns. Trudy _ I Inst. less, :39:83-132 158. (MIRA 11:9) (Acorns-storage)  RUBINSKIY, YuJI., dotatint, kand.ekonom.nauk; VOROBIYBVA, A.I., starshiy naucIM-y sotru~Wik-, FAUKOPSM, N.D., starohiy nauchnyy sotrudnik; DULIII, G.V., starshiy nnuchnyy sotradnik; KRYZHKO. 1.D.,' starshiy nauchn)7 sotrudmik. Prinimali uchastiye: KA(21KO, Yu.Ya., mladshiy nauchu~7 sotrud.nik; mladshiy nauchnyy sotrudnik; YAKIMMO, G.S.0 mladshiy nauchnyy actrudnik; VFJWW, YOONSO starohiy propod.avatell; SMITSIN. D.I., student. HIROSHIIIGHMMO, V.D.. red.lzd-vik: KCROVMOVA, Z.A., tekhn.red. [Time situdy recearch in coal mines] Khronometrazhaye iseledovaniia na ugol'njykh shakhtakh. Moskva, Ugletekhizdat. 1959. 278 p. (MIRA 13:9) 1. Dnepropetrovsk. Dnepropetrovskiy gornyy institut. 2. Dnepro- petrovskiy gorrvy inatitut (for Rubinakiy. Xachko, Filimonova, Veremey). 3. PonetskLy nauchno-iseledovatellskiy ugolInyy insti- tut (for Voroblyeva, Prokopenko, Dulin, Kryzbko, Yakimenko). 4. 5-y kurs gozmo-ekonomicheakoy spetsiallnosti Dnepropetrovskogo gornogo instituta im. Artems (for Slunitsyn). (Time study) (Coal mines and mining-Production standards)  ul; -1 t3l! Th~ action ium -it 7( cll I C.- 1$;:.",- In I ht J.; lt'IMO-rAll urf,~-( wilt ,,-A. fillIZUTS. rmtg, C1. Yhs~ ill the ttai!mi wnrc t-- ~~rl Pt. f!P--- ta- tj tfILt.fhcm cum,11-N. ill IN, Illf) 'Ind ~d ;,I (ox I . acti-,ll conWricit and u1 R. Tirlinv.in.  I --I-FILIMO-N-0-VJ-, V-9. Studying complex formation in solutions; conference in Ivanovo. Vast. AN SSSk 28 no. 6:110-112 A '58. (HIM 11:7) (Complex compounds) (Pystem&(ChemistryV  YEZERSKAYA, N.A.; FILEMONOVA V.N. Folarographic Oeterminatin of rhodium as a complexon.- Zhur.anil.kUm, 17 no*8:972-9"8 N 162, (MIRA 15:12) 1. N.S.Kurnekov Institut of General and Inorganic Chemistry, Academ7 of Sciences, U.S.S.R., Wscow. (Hhodiumw-Analysis) (Polarography) (Complexions)  BZKRSKArA, N.A.;_~ILIMONOVAV.N.. C(upow2da forised by rhodi= with ethylenediaminoace tic acid. Zhur.noorg.kUm. 8 no-4:830-838 Ap 163. (KMA 16:3) (Rhodium compoun4s) (Acetic acid)  AVTCKRATOVA, T.D.; ARDRIANOVA, O.N.; BABAYEVA, A.V.; BELOVA, V.I.; GOLOVNYAj V.A,,; DLRBISHER~ G.V.O* MAYOROVA, A.G.; 1.,'U'RAVEYSKAYA, G.S.; NAZAROVA, L.A.; NOVOZHENYUK) Z.M.; ORLOVA, V.S.; USHAKOVA, N.I.; IEWROV, I.A.; FIL1111ONOVA-y--V-iN-i; SHENDERETSKAYA, Ye.V.j SHUBOCHKINA, Ye.F.; KHANANOVA, E.Ya.; CIMNAYEV, I.I., akademik, otv. red. [Synthesis of complex compounds of platinum group metals; a handbook) Sin-lwez kom.Pleksnykh coedinenii metallov platinovoi gruppy; spravochnik. Moskva, Izd-vo "Nauka," 1904. 33E P. (MLU 17: 5) 1. Akademiya nauk SSSR. Institut obshchey i neorganicheskoy k1iimii. 2. Inotitut obshchey i neorganicheskoy khimii A SSSR (for all except Cher-iyayev).  FEDORENKO, N.V.; FILIMONOVA, V. N. Separation of rhodium from solutions containing a significant excess of iridium. Zav.lab. 30 no.4:402-403 164. (KRA 17:4) 1. Institut obshchey i neorganicheskoy khimii imeni Kurnakova AN SSSR.  no, 1.2  FILL,-.' :.'OVA, V, -.). Defended his Dissertation for Candidmite of Technical Sciences.in the I-l')scow Technological Institute of Light Industr y, M,scow, 195) Dissertation: "Investigation of the Process of Dyeing Fur with Copper ':altsll SO: leferatkynyy Zhurnal Khimiya, No. 1, Oct. 1953 (W/29955, 26 Apr 5,,,)  MTAGKOVA, Z.V.: FIL114)NDVA, V.S. Softening of shAnpokins to be used for coats. Kozh.-obuy.pron, no.1:26-27 Ja 159. (MIRA 12:6) (LO,Nther rosearch) (coats)  "On instances of facultati-ve parasitism of queen bees", Authors: A. N. Mellnicherdco, V. N. Dmitriyeva, E. A. Fillmonova, and T. N. Chirkina, (In Index: third aughor: Filimanova, Z. A.) Uchen. zapiski Gorlk. gos. un-ta, Issue 149 1949, p. 73-799 - Bibl.log: 12 items. SO: 11-4631, 16 Sept. 53, (Loetopis 'Zhurnal Inykh Statey, No. 24, 1949).  :olor uz~~ection of uc-'ects," ,-05 cow) 1'~(';O, Ib' pp '~;Cntral scl~,-!Itif-c 'Elesc~-ri~h .1:5t"Itute Cf i 1! e tri: cti on Tsefi i L  FILIMONOVA. Ye.A., kand.tekhn.nauk Chromatic flaw detection. Mashinostroitell no.11:9-10 165s (MIRA 18:11)  FILI-IMONOVA, Yo,A, Characterietic of the penetrability of liquids for luminescont and color I'law detac+'3no Dofektookopiia 1 no.306-91 165. (MIRk 1818) 1. SarsLtovskiy politekhnichookiy Institut.  REDIKO, S.G.; BERDIGHEVSKIVY, Ye.G.1 FILIMONOVA, Ye. A. Using high-cancentrated, emulsions in honing hardened stools. Start. i Instr. 36 no. 12 t12-13 D 165 (MIRA 19 vl)  Z /,(11 V-// 'Y / ~,j , CHAYKA, Y.Y., inzli.,- PILIMKOVA. Ye.K. racuum drying"of knife-cut veneer. Der. prom. 6 no.9:21 3 '57. (MIRA 10M) 1. Sarato,rBkiy derevoobrabatyvayushchiv kombinat. (Vensere and veneering) (Drying apparatue)  7(6), 1401) S 07/3 2 - 24 - 11 - 2 4113 7 AUTHORS: Prigorovskiy, 11. 1., Filimonova, Ye. IT., Dedovets, G. S. TITLE: Models for Testing Tensions in Optically Insensitive Trans- parent Material With Insets of the Material T*M '' (Modeli dlya issledovaniya nrap.- azheniy i-- optiches-ki nechuvst- vitellnogo prozrachnogo materiala s vkleykami iz materiala ED6-14) PERIODICAL: Zavolskaya Laboratoriya, 1958, Vol 24, Nr 11, pp 1396-1400 (USSR) ABSTITLkCT: The listribution of tensions in metal samples of machine parts and constructional units are tested in transparent elastic models by means of polarized light according to the method of "freezing" (Refs 1,2) or the method of dispersed light. It has been suggested (Ref 3) to produce models of optically in- different glass for tests of space tensions and to insert cubej3 of common optically sensitive glass in the Doint to be testod. In the case under review, tin optically inactive plastic mato:~ial with a modulus of elasticity and Poisson coefficient equal to those of the optically active material used was ob- Card 1/2 tained and used; also a reliable method of gluing (without  SOV/.32-24- 11 -24/37 Models for Testing Tensions in Optically Insenaitive Tranoparent 1jateria.1 With Insets of the Material ED.6-M . initial tensions) was developed.' PD&H ~ (Ref 4) was used as optically active material. The optically inactive plastic material was produced according to a method, which is described, of a,etacrylic acid methylester and eibutylphthalate (11~j - as plac,ticizer). The material (2rand "ONS") is produced by the Chelyabinskiy zavod.plastmassy (Chelyabinsk Plastics Plant) in sheets (8-18 mm, 1000 x1200 mm) and blocks (20-100 mm, 600 x 650 mm). A methanol glue is used for the gluing of ED6-M and "ONS". The determination of the extension of the shatt' of a hydro-turbine is given as an example. There are 4 figures, 1 table, and 5 references, 4 of which are Soviet. ASSOCIATION: Institut cashinovedeniya Akademii nauk SSS'R i Chelyabinskiy zavod plastmass (Institute of Mechanical Engineering of the AS USSR and the Chelyabinsk Plastics Plant) Card 2/2  FILIELNOVA, Ye. N. , Cand i',](.,!d Sci -- (diss) "Anatoiq of arid intra-organ arte.-ciL-s of thi:! thyroid gland in man." Gor"..ci--, 196(.;. 16 ; a pp; (Gor'kiy State Medical Inst im S. 1,11. Kirov); ~,ICCAO Price not given; (KL, 28-61), 165)  i,coqoo-66 E7"qT (E) /arc (M) /T.-TP 'ACCESSION N~i AT5017738 UR/0000/'65/000/000/0065/0070i AUMOR S t ',B enko, 3 Te.; ltigorovskiyj R. I.; Filimonovay Ye. H.; Khurshudovt Kh. ITITLEs Stresses inthe cozineciting region between a supporting oone and an linternally presaurized.vqs3ei !SOURCEt AN SSSR. Institut mashinovedeniya. Metody issledovaniya napx7azheniyl jproblemy prochnosti V-aa-shincutroyenii tMethode of*investigating stresses; problems', lof strength in machinery manuSacture). Kievt Izd-vo Nauka, 1965, 65-70 1 ressure vessel, ahell.stresij, strain measurement ITOPIC TAGSt stress cor,centr0ion, p interference pattern iABSTRACTt To study tho'j streim concentrations in the connecting region between a supportinq oone and an intenutllv loaded veseelf a model (see Fig. 1 on the Enclosure) was built of orgeakic glass (to the right of section U in Fig. 1; E A 4 2:9 x 10 ; /A - 0o36) und op-Kcally ineensitivd materia OHS; 1". 3.1 X10 ;/-A- with a sheet of aptically sensitive material ED6-M E - 3.2 x 104, 1A - 0-37) 0 37) bonded into the oritical seetions The model was affFo=strumented with strain gagou (as shown in Figi, 1) aad could be loaded either by intem%1 pressure p or by Card - -1/4  :00900-66 ACCESSION NRs AT5Q1773B !a radial load q. By shining.polarized light through the ED6-M9 the order of the iinterference patterns m wouX give the difference between the principal stresses as M, (where o optical conatant; tmod - thic~mees of M%-M). 0 ..mod For an internally pressurized vessel 62 on.the butaide of the vessel would be 0 and on the inside -p. The sin!ain gages could be used for measuring the external stresses) ihich (u-e required to calibrate the interj.'erence patterns. strains (or iSeveral equatione are derived for the meridian and hoop stressea as a function of Istrain gage and material pariuseteraj, and a ample distribution of these streeses isl 1given (see Fig# 2 on the Enolost~xe) without specifying the magwLtudes of the loadsol- 1 Orig-,-.art. bass 3 figux-es awl 7 formulas. ASSOCIATI ON t none SUBMI:TMt 00 ENCLs 02 M CODE I IE NO RM? BOV, 003 OTMs 000 Card 2/4 JD  -Cbonn: ACCESSION HRz AT5017738 mN 01 A'I'I A Strain gag)Pl 13 P4 P2 -Icon outside aur- face) B P5 X, 1,10- P6vP7,P8 P iSeation a-a Ik 9 r17'7rrT.-17 Fig.' 1. Modol configuration: A.A-bonded section; S-light direction; I- glass; 2- ONIS; 3- ED6-M; 4-immarsion; Pip P2j eta. strmin*gages oCard,3A-, ------ RIM .lzl  LOD900-06 'iddEk,&' His --,-A- T-5017738 ENCLOSMi 0 IN Pig. 24 Total meridian (left) and hoop (right) stresse-o inteme,l pre.soure and radial loading due to r Card 4/4 TM 1 -10 -m- I OF Is  -L-36293-66--F-WT(d)'/EWP(m)/F,WP(k)/EWF(W)---IJP(C) ----EM- ACC NR, AR6004035 SOURCE CODE: UR/0277/65/000/009/0096/0096 AUTHORS: Bugayenko, S. Yeqj Prigorovskiyj, N. I.; Fillmonava, Yee N.,; Khurshudovp Go Kh,, TITLE. Stress in the connecting zone between the supporting cone and a vessel ,oubjected to internal pressure SOURCE: Refe zh. Mashiriont-roitelinyye materialyt konstruktaii i raschat detaley mashin. Gidroprivod, Abe. 9.48.685 REFt SOURCE: Sb. Metocb, issled. napr7azheniy, 14., Nauka,, 1965, 65-7o IAOr"WAA- SVWCI'-Tj eovrqer S7tM e0A.VC 60,DY9 TOPIC TAGS:. stress ana3Tx:bvq optic material 7 OIJS optic material, ED 6-M optic material ABSTRACT: The methooand results of an investigation of the stressed cgndition in the connecting zoniLTnt-ween the supporting cone and the vessel subjected to intern`~I- pressure are presented, The measurements were obtained from a model made of an 1,W optically insensitive =Lterial OW vith an insert of a plate made of an optically sensitive material ED 6-* cemented in the q?4gl_p f dal, Formulas for determining meridional and inpular normal stresses are given, 3 illustrations,, Bibliograpby of 3 titletle J%mnslation of abstrac17 SUB CODE: 131aV cwd 1A  FILMONOVAl YE. P. "Heat Treatinent of ShEh-15 Cast Steel." Min Higher Education USSR, Tomsk order of Labor Red Banner Polvtechnical Inst imeni S. P1. Kirov, Tomsk, 1955. (Dissertation for the Degree -)f Candidate of Technical Sciences) SO: M-9722 20 Feb 56  TIKHONOV, I.T.; KILIKOV, N.S.j FILIMONOVA, Ye.P. Brief tempering of rapid steel. Izv. vys. ucheb. zav.; chern. met. 7 no.10:112-115 164. (MIRA 17:11) 1. Tomskiy politekhnicheskiy institut.