SCIENTIFIC ABSTRACT AGAFONOVA, F. A. - AGAFONOVA, Z. I.

2Fi351 S/124/61/()00/008/032/042 Conditions for stable burning ... A001/A101 at room temperature, for a gasoline drop of 1.8 mm in diameter, ignited in an air flow directed vertically upwards, the critical velocity is equal to 0.4 M/sec; in a horizontal flow, it is 0.5 m/sec, and in a vertical downward flow, it Is 0.8 m/sec. In the latter case, separation of flow is preceded by flame in the form of a flat horizonatal disk. The observed discrepancies in the values of critical velocities obtained on different installations the authors explain by differences in conditions of experiments. Temperature pulsations slightly affect evaporation rate of stably burning or stably evaporating drop, as pre- liminar-j experiments, which are not described in the report, have shown. However stability conditions depend markedly on the frequency of temperature pulsations. There are 7 references. V. Aleksandrov [Abstracter's note: Complete translatlon] Card 11/)~  z5T3Y s/123/6l/ooo/b12/032/,942 AOOVA101 AUTHORS: Agafonova, F. A.; Gurevich, M. A.; Tarasova, Ye. F. TITLE% The conditions of steady combustion of single drops of liquid fuel PERIODICAL: Referativnyy zhurnal, Mashinostroyeniye, no. 12, 1961, 21, abstract 121176 (V ab. "3-ye Vses. soveshahaniyet po teorii gorenlya v. 211. Moscow, 1960, 29-39) T EXT j The authors carried out an approximated calculation of the conditions of ignition, extinction and complete combustion taking into account the finite rate of chemical reaction. The equation systems of heat and maus transfer were written down. It was aisumed that-the combustion process develops within a spherical layer (reduced film) whose outer radius Is presented in the form of a function of the Nu-oriterion and the drop radius. Combustion and transfer pro- cesses are considered as quasi-stationary, and the physical constants as independ- ant of the temperature and the local misture composition, Boundary conditions were used on the drop surface and on the outer boundary of the reduced film, The evaporation rate of the drops was sought for. Solutions were obtained for the evaporation.rate and the tempei~ature field in the extreme cases: evaporation Card 1/3  25739 3~123/61/000/012/032/042 The conditions of steady combustion ... AOOVA101 without oombudtion.and diffusion combustion. Moreover, solutions-were obtained by tho~numerloal ifiethod'ori'a computer. It was found that at certain combinations of PwWnetarcentsring-,.the equations, 3 solutions are possible. If all the solutiops-are-ppasiblt,,the drop does not ignite, but being lit, bums steadily. In other~oasas only one.sol.ution is possible - either self-ignition or-evaporation (tte,ignited drop is extinguished). The authors investigated a condition for the existence of the equation solution under which combustion is steady. The evapora- tion rate of the hot drop dependstDa small extent on the rate' .of chemical reaction while the maximum temperature essentially differs from the temperature in the diffusion combustion zone. moreover, a considerable part of the vapors moves beyond the boundaries of the reduced film without being burnt. Tests were carried out to measure the completeness of combustion of fine falling gasoline drops and larger drops on a quartz suspender. It was found that a remarkably incomplete combustion process takes place even if the drop is fully seized by the flame. The inoompkW~ess of combustion rapidly grows when the flame extinction conditions are approached, e. g. for drops of an initial diameter of 1.8 mm at a flow velocity of 0.25 m/sec the incompleteness of combustion amounts to 7%, while at a velocity of 0.34 m/seo it is some 30%. Tests to deter%iine the flame blow-off velocity showed that this velocity grows with an increase in temperature, oVgen content Card 2/3  S/ 193/61/00012/034/642 The conditions of steady combustion ... A004/A,10i ih-Aht flow and*-initial drop size, and depends on the blowing direction. For gasoline drops 1.8 mm in diameter in the air at room temperature this velocity Viiii *~.,wlth vertiodl-4ward blowing - 0.4 m/seo; with horizontal blowing - 0.5 m/sec , and with vertical downwarld blowing - 0.8 m/seo. Moreover, tests were aiiiiid*out to study the affect of-temp*erature-pulsations on the evaporation rate of burning and non-burning drops, proving-theAnsigni-fioant effect of this factor. There are 4 figures and 7 references. Sh. M. S. [Abstracter's note: Complete-AranslationT G&M 3/3 L/  AGAFONOVA; F.' A.',* and PALEYEV).1. 1. "Heat Treasfer From valls to a Gas Flov Saturated with Drops of Evaporated Liquid." Report submitted for the Conference on Heat and Mass Transfer, Minsk, BSSR) June 1961.  UN JA-L&U./A ACC-'Nks- SOURCE CODE: LM/0170/66/010 'UTHOR'.1 ApafonovsL_fj_A4 Mippovicb, B. S. ORG: Polytechnic Institute im, M. I. Kalinin, Leningrad Pol I t 65/06~. S6 TIE: Investigation of the critical best fluxes in the hip ON of a gas-lipid mixtum at low pressures URCE: Inzhenerno-fizicbesly zburnal, v. 10, no. 5, 1966, Veloci 620-625 'OPIC TAGS: beat transfer, beat flux, gas flowl liquid flow r&r n I P1 PC 0k o w I j/,,g Pv4 / z,9 -r,, 0 Aj ,BSTRACT: If the velocity of the movement of a liquid in a film is ufficiently large, the process of vapor formation at the tube wall can ,e suppressed by convection, and vaporization of the liquid takes place inly from the surface of the film. The main Zference in the mechanism f the boiling. crisis in this case from the boiling crisis in the usual ase consists In the fact that a sharp worsening in beat transfer onditions occurs as a result of the total vaporization of the liquid ,base. The article shows motion picture pbotos which show that with an ncresse in the beat load from 0 to 1.5 watts/m2 the film disappears and estruction of the plate takes place, The article gives a mathematical Card 1/2 UDC: 536-423.  L 358b6-66 ACC NRI AP6014990 C3 treatment of the subject$ based on the assumption that, in the absence of a best flux, the film at the wall has a constant thickness. The results show that the specific beat flux of the flow increases with an Increase of the lJquid content of the flow, and decreases with an increase in the vapor flow rate. An increase in the length of the working section leads to a decrease in the critical beat flux, Orig& art* has: 8 formulas and 2 figures. SUB CODE: 20/ SUBM DATE: 11jan66/ ORIG REF*- 003/ OTH REF-, 007  ACC NRi AT6032006- SOURb"t-C-ODE :---U-'R-/--O-o--O-O--/'-6-i6/-O-O-O-/'-'O--O-O--/~O~2-4-1-/-0-2' 5-1' AUTHOR: Agafon Ek P. A. (-Leningrad); Gurevich, M. A. (Leningrad); 60 pv~ a- 0 Tarasova,-Ye. F._ (Leningrad) ORG: none TITLE: Self ignition and the induction period of liq~! et SOURCE: Teplo- i massoperenos, t. 4: Teplo- i massoobmen pri khimi..; cheskikh prevrashcheniyakh v tekhnologii, (Heat and,mass transfer, v. 4: Heat and mass transfer duAring chemical transformations). Minsk,'Nauka i tekhnika, 1966, 241-251 TOPIC TAGS: air fuel combustion, hydrocarbon fuel, liquid fuel, igni-. tion, 1 I.W j;w, ind, octane, cetane 7 r4"e4 14;A)1;r10x) ABSTRACT: The ignition of hexane, n-octane, and cetane droplets (0.0014-0.002 m in diameter) was studied by suspending the droplets from a quartz filament in a vertical tube through which preheated air was passed at velocities of 1.3-4.9 m/sece The ignition process was studied by motion picture photography and induction time vs air temper- ature plots were obtained (see Pigs, 1 and 2)o A theoretical analysis yielded the following formula for the dimensionless induction time: Card 1/4  L 085.53-67 032000 d Ov Fe -L-�!-fP_Nu(19;1-- ' )Inn, 2 q cl qnKi where 00 is the reduced temperature during the induction period; 010 = 1/qnkl; qj heat of reaction; nklP oxygen concentration; pl, density of liquid; pot density of gas; ep, beat capacity of gas; cl, heat capacity of liquid; nj ltl/l-npo; and npo is the concentration of oxy-. gen in vapor. The resu s of numerical integration for n-octaneland cetanelare shown in Figures 3 and 4, respectively. It is- conclu ed that the studied fuels cannot ignite at the wet bulb temperature but they always ignite at a lower temperature. The induction time changes with the temperature-of the medium faster than the temperature gradient across the droplet-medium interphase. The reduced film model used, which allows for the kinetic resistance, permits the approximate calcu- lation of the IK!~ition limits,\\the surface temperature of the droplet prior to igniti-6n, and th duction period# Bao Ke-da and I, M. Sulim participated in the work, Orig, art. has: 7 figures,-24 fo ulas. and 2 tables* [WA No. 68] Card  ACC NRt ft6o-34obo - Ge IL 0 81V 450 see T.-C Fig& 1e Induction t ime of n octane (0.0015-0.0018 a in di- Onater) ve air temperature'at 4;ul)so,a (T is induction tins) sac n 790 8DO r,,-c Fig* 2, Induction time of cetane ve air temperature (0.0018-0.002 m in diameter)# at flow velocities 1 - 3e8 a/eec; 2 - 3*1 a/sac; 3 - 2*6 a/sect 4 - 10 a/&see 7 7 Card 3/4  L 0855347 ACC NRo AT6032000 ~E/ U 3 v ~ xPeri \ E me nt x ,. riment Cp - ~41 ted a 810 870 AV.. 840 r, 750 to r -C: 770 7. Fig, 39 Nume rical integra- Fig, 49 Numerical integration tion for- octa fte for cetana SUB COM 21/ SUBM DATE: 25Apr66/ ORIG REF OTH REF: 001 Card 4/4  LIPSHITSP B.M.; ANDREYCHUK, A,M.; AGAFONOVA, G,S. Co.orimetric determination of copper in metallic mercury, Zav. lab.;30 no.9tl.075 164. (MIRA 180) 1e Moskovskiy institut stali i splavov.  DRELI, K.A.; AGAFONOVA, I.M. Enzymea of urea formation in chick embryo tissues. Biokhlmiia 29 no.3.452-456 F7-Je 164. (MIRA 1814) 1. Kafedra biokhimii Luganskogo meditsinskago instituta.  AGAFONOVA, K.G. Ilydrochemical characteristics of the rivers of Kamchatka. Vop. geoa. Xamch. no. 2:46-55 " Oura 19:1) 0 b4  KABOSHINA, U.S.; LIVSHITS, A.G.-I OSIFOVA, V.P.: IVANOV, P.V.; AGAFONOVA,.-K.I. Some now synthetic odorous substances. Trudy VNIISNDV no.6:85-90 163. (MIRA 17:4)  ACCESSION NR i AP5:013 732 U B/65/( 5 6 .0 678.763.2tv"78.043t676.63 AUTHORSt Makarova, L. V.; Zakharov, N. D.; ACafoneva K. 16 TITLE: Effect of the molecular weighL of epo-)q regins on the Vulcanization of chloroprene rubber SOUFGE: KauchuR I rezina, no. 5, 1~653 6-1c) TOPIC TAGSt vulcanization, vulcanizate, vulcanized rubber, chloroprene, epoxT ~-esin, rubber mixture, Nniacanizate rnjb~,,3r propp-rt),, rubber technology/B 40 resin, B 41 rvrai% B I I raainjp xvz, -, aec~prene A rahber 44 ABSTRACTt The effect of the molecular weight of resine (E-4-0 E-41 "9-44~ and E-49) on the Vulcanization -of ~ neoprene A rubber w&:1 i;;;e~ed on mixtures A -fMed-!4RMnot-_fJ with 119d: ontaildmg additional -steariv acid, The samples iiere rolled in the laboratory and vulcanized in hyi aulic steam presses at 31430. Their space-lattice density was determined according to the balancediswelling method described by A. G. ShvQts (Kauckuik i rezina, No. 7v 31o 1957)-3 and their scorching tendency according to the pUsticity variation after satin -at_~20 atm pressum-for-30.r1fin- 0ird  A-cc- ir- tr~ are- the - 1,46 ~iO7 fbiz~ati~ I -Urk A t ris el tw, - 'APPbanne V S, C I_$ of vhich began at 120-1300. Plartirity variation is shown graphically in Fig. 1 Ioxide, ones.', and higher than in:the ther7w-vulcwdzed types, Their modulus at 300% elongation increased with the increase in molecular weights while the strength: and the comparative elongation were decreased. These characteristics are explained; 'by the strengthening of intermolecular bonds in rubber ur4er the action of epoxy i resins. The comDarison of chloroprene rubber ~coperzties with those of standard types revealed a higher resistance to fat,'pia,~-'-.Icrwer h~,at Ttroduction, &nd stronger adherence to brass-covered metals. The besL r6s,,~Its -vera --t)iained with E-LO iuid E-41 resins. Orig. art. Mai 1 table and ~ f--gw-es, A&SOCIATIONt Yaroslavskiy tokhnalogicheakikh institut (Yaroslavl Technical I Institute) ----------  ug~m ca t ~IE a m 9 WE 2 WE x q. .4a MM CCDM Mr;. 02 BIG SuB)UTTED I w"11,11 ~m  1. AVLPOI1Ov!t' L. ),,y A, A. T. I 2. IISSR (600) 4. Transit Circle 7. Mferidian circle of the Enuellgardt Astronomiml Observatory from 1903 to 1951. Uch. zap. Kazan. un., 111, No. 9, 1q51. 9. Monthly List of Russian Accessions, Library of Congress, May -1953. Unclassified.  AGAPOROVA, L.D,; NEFXDITBVA, A.I. -, '' .Absolute declinations of 536 stars cited in the basic catalogge of faint stars, Uch.zap.Kaz.wi. 113 no.64-3-116 153. OILRA 10:3) (Staro-'-Obaaz~vatllions)  AGMNOVA, L.D.; NFJZDIYXVA, A-Io 14VIA"144* h6ww Relative determinations of declinations of 131 stars observed according to the program for Poltava and Kazan zenith teleocopese Uchosap.Irazoung 116 no-7:3-46 '56. (MLRA 10:3) (Stars)  AGAMOVA, LeDo; MFED'YZVA, A.I. Shortcomings in thedraduation of the transit circle at the Ingell ardt Observatory. Uoh.zap;Ka2.un. 116 no-7:46-50 156. (MW 10:35 (Transit ciroli)  PRAVI, V.Te.; ROM&KINA. A.V.; AGAPONOVA, L.I. Systamtic bacteriological control over level of sanitation in nursery schools. 019. 1 san. no.7:49 Jl '54. (KEJU 7:8) 1. Is laboratorit Sverdlovskoy rayonnoy sanitarno-spideviologichaskoy stantai! Moskvy. (SMOOL HYGIM)  FRAVI, V.Ye., vrach,- AGAFONOVA, L.I., bairteriolog "' -- Prophylactic disinfection of dishes in children's institutions. Gig. I san. 21 no,9:75-78 3 156. (Kw 9:10) 1. Iz laboratorii sanitarno-epidomiologichaskoy stantaii Sverdlovskogo rayons, Hoskvy, (ANTISEPSIS AND ASEPSIS disinfect* of dishes in children's institutions)  DAVYDOV, Yu.S., kand. tekhn. nauk; AGAFONOVA,-L.I.,- inzh.; ADAMVICH, P.V., inzh.,, red. [Noy modernized devices and methods of automating sanitary engineering installations] Novye modernizirovannye pribory i sredstva avtomatizatsil sanitarno-tekhnicheakikh ustroistv. Moskva, Biuro proektno-konstraktorskoe, i tekhnicheskoi po- moshchi, 1962. 39 p. NEU 16:4) 1. Akademiya otroitellqNva i arkhitektury SSSR. Institut sa- nitarnoy tekhniki. (Sanitary engineering) (AutQmatic control)  AGMNOVAj L,I. Some supplements to the method of bacteriological investigation of whooping cough. Lab. delo 6 no-5:13-14 S-0 160, (MM 13:9) 1. Bakteriologicheakaya laboratoriyL sanitarno-epidemiolo icheskoy stantaii Sverdlovskogo rayons. (glaynyy vrach M.G. Gilells~, Moskva, (WHOOPING COUGH)  AGAFONOVA,_L,I. Modification of the study method for pathogenic Escherichia coli. Lab.de'lo 7 no.9:37-38 S 161. (MIRA 14:10) 1. I,6boratoriya sanitarno-epidemiologicheskoy stantsii Sverdlov- skogo rayona. (glavnyy vrach M.G.Gilells).. Moslwa. (ESCHERICHIA COLI)  SOV/119-59-10-18/19 A'H"10113: A:,~afonova L I En" Davydov, S., Candidate of Tech- T I T LL's The Results of the Lalho;:atory- and 7fuz1kinr, Tests of the Dilato- metric Tcmperataru Feeler of the Type DTDIP PERIODICAL: Priborostroyeniya, 1959, Nr lo, pp 31 - 32 (USSR) ABSTRACT: The dilatometric pneumatic temperature feeler of the type DTDP, modernized at the Khar1kovskiy zavod "Teploavtornat" (Khar1kov factory "TeploavtoLiat"), was investigated at the laboratory for the automation of sanitary-technical devices of the Nauchno-iss- ledovatel'skiy institut sanitarney tekliniki Akadt?mii stroitell- stva i arkhitektury SSSR ( Scientific Research Institute of Sanitary Technics of the Academy for Building and Architecture IJSSR), and the paper by V. M. Gorokhov and G. Ye. Kovalevskiy in the present issue is referred to at the beginning. The error of the instrument was first investi8ated, and it appeared that the measuring error had a positiv evalue at the beginning of the dial, but a negative value a', its end. This is shown graphically Card 1/2 on the diagram in figure 1. Th e maximum error, however, does  The R~sults of the Laboratory- and Working Tests of the SOV/119-59-10-109 Dilatometric Temperature Feeler of the Type DTDP not exceed :L 0.450C, and thus remains within the limits permissible technically. The temperature difference, within which a change of pressure from a minimum to a maximum occurs at the exit, was investigated in the course of the further inves- tigation. Since this temperature difference in such instruments depends on the degree of throttling in the valve, the minimum temperature differunce, at which a pressure chan-c from the mi- nimum (0*0.1 kg/cm2) to the maximum (1+0.1 k6/om ) can be ob- tained a-L the e:cit, was determined. It can be seen from fioure 2 that this temperature difference amounts to 1.3 - 1.40C. An im- portant feature of these instruments is thE!ir inertness, and two curles are shown on the diagram in figure 3, Lrom which it results that the inertness of the iiistr-ament is increased b, a housing. It is F *ated in conclusion that Vhe feeler investigatpd here id very suitable for air-conditionin- systeris, ovin- to the U lar characteristics determined. There I e ~ figures. Card 2/2  .-, 11 'C'~ C,,!.. . V.' . I., , L.7.; ',. , .- -1 . . " . - - , - - cor2p...n: . T- t 1 , "t''. ~, - (: r-,Ln .. -jt:?~ Prit',ercoti,conie vc. 2: --~ I .-I, 1~ -, (T:-er:-( ~'. '~*,';  AGAFONOVA, L.I., iizh.; BRODSKIY, V.N., inzh.; MIKI]AYLOV, S.A., inzh. Controlling the "dew-point" Umperature in double-ventilator air-conditioning units, Vod. i san. tekh. no.11:20-22 N 164. (MIRA 18:2) F  MASLENNTYOV, K.N.; PIKOVSKAYA, O.G., starshiy nauchnyy sotrudniki SURKOVA, V.I., mladshiy nduchnyy gotrUdn4 k; AGAFONOVA, L.L., r-.ladshiy nauchnyy sotrudnik Avivage preparations for polyvinyl alcohol fibers. Tekst. prom. 25 no.9t29-31 S 165. (MIRA 18il0l) 1. Rukovoditelt gruppy tekstillnoy pererabotki Vsesoyuznogo nauchno-'Lssledovatellskogo inatituta iskusstvennogo volokna (for Maslonnikov). 2. Laboratoriya otdelki i. krasheniya Vsesoyuznogo nauchno-isaledovatellskogo instituta iskusstvennogo volokna (for Pikovskaya, Agafonova). 3. Gruppa tekstillnoy pererabotki Vsesoyuznogo nauchno-issledovatellskogo inatituta iskusstvennogo volokn& (for Surkova).  A.' FONOVA, L. M., Cand Med Set -_ "Study ol" the iimmunological A ,,,_rE4,*VeZn0 0~(Vtw~ 0,,v4,, e of live anti-influenza vaccinepz the method~of Z its.preparat Len 1961. (Len State Order of Lenin Inst-,/b"_.,tq i n low, Advanced m S, M, Kirov) (KL, B-61, 258) 426 -  AGAFONOVAp L.M. Immmological effectiveness of vaccine against influenza. Vop. virus. 6 no.5:627 S-0 161. -TAIRA 15:1) 1. Leningradskiy institut vaktsin i syvorotok,, Leningrad. (INFLUEM)  ACC NR: AP6034105 SOURCE CODE: LIR/0250/66/010/010/0748/0751 '.AL]TAHOR: Avdoyev, V. H. (Corresponding member AN SSSR);.Agafonova, M. A.; Alaksandrov, N. K. ORG: none ITITLE: Method of designing combined electronic devices with a plane- arallel elec- p !trode system SOURCE: AN BSSR. Doklady, v. 10, no. 10, 1966, 748-751 :TOPIC TAGS: vacuum tube, ele'ctron tube, triode tube, pe-n-code electron tube, electron 1 !'tube anode, electron tube cathode, electron tuba grid, electron tube filament ~ABSTRACI': The authors point out the nmerous advanta.ges of plane-parallel element co*a- ;figurzation in multiple purpose vacuum tubes, as compared with conventional coaxial de- i sign. The coaxial construction of complex nulti-purpose vacuum tubes is not suitable :for automation. The stability of the construction, especially of the grids Whi-ch are X loymed :Ln spirals), is poor, as is the utilization of the envelope space. The authors idesigned a triode-dual pentode tube intended to serve as an aud.,o output st&-,e in ra- Idio and TV sets. The triode can be used as a phase inverter, and the -two pentodes are I iconnected in push-pull form. The elements are formed in plane-parallel, rather than ,cylindrical-coaxial configuration. The parameters of this tube are superiorto those Card  31~4'12 S/137/62/000/003/109/191 Ao6o/Alol AUTHORS: Baron, V. V., ~gafonova, M. I., Savitskiy, Ye. M. TITLE: Structure and characteristics of alloys of tne niobium vertex of the niobium-vanadium-aluminum system PERIODICAL: Referativnyy zhurnal, Metallurglya, no. 3, 1962, 9-10, abstract 31062 ("Tr. In-ta metallurgii, AN SSSR", 1961, no. 8, 269-277) TEXT: A study was made of the Nb vertex of the Mb-V-Al system at a conten,c of up to 10% V and Al. The alloys were smelted from alumothermic V (96.%,), metalloceramic Nb (99.1%) and Al (99.99%) in an arc furnace in a He envirunment, were annealed at 1,100 0C for 50 hours and hardened in theTR~-2 (WV-2) furnace at 1,600 0C. The investigation was carried out by the methods of thermal micro- scopic, and X-ray structure analyses, hardness measurements, microhardness measurement, fire-resistance determination. The smelting temperature of the alloys was determined by the drop test method, The isothermal section of the Nb vertex of the Nb-V-Al system at 20 0C and the vertical section at a ratio of V : Al - 1.4 were constructed. At a content of 4% V in Nb at room temperature up Card 1/2  S/137/62/000/003/109/191 Structure and characteristics ... Ao6o/Aloi to 6% Al can be dissolved. V and Al raise the fire-resistance of Nb which is maximum in alloys with 3 - 8% V and -.-,l% Al and 1.8 - 2.2% V and 3.2 - 4.8% Al. There are 7 references. [Abstracter's note: Complete translation] Z. Rogachevsk-ya .; Card 2/2  AM Nk -AP5026740- 0/0 S"WE CODE: UR/0206/65/00 17/0016/ - - - - -:-. fly L5. INVENTOR: -Lellchuk,-S. Ivano% ;-V ell -Ya. L Deceased); Frangulyem, GO D.- SeMyannik ova, A, Pj, A ARG: none TILTIX: A method for producing I'Class 12, No. 174185 SOURCE: Byulleten' izobreteniy I tovamykh znakov, no. 17, 1965, 16 TOPIC TAGS: silane, dimethvldichlorosilan-e, silicone ABSTRACT,: This Authorls Certificate introduces a method for producing dimethyldi-- chlorosilane.by interacting methyl~cbloride with asilicon-copper alloy treated with, a cadmium conpound. The product yield is Increased by using cadmium chloride in the W--40- of 4.3% of the weight of the aUoy and subjecting the processed alloy to ther- mal treatment at 1800C. UDC: 547.419.5.07 SUB-COM- GC,OC/ SUBM DATE.- 270ct62/ ORIG REF: 000/ OTH IMF: 000 Card AV-10 -X- v/  AdAMOVA , - . and . '~ L its i, ~ I-VI, t "QualitY and EconorV; a Word to Friends., H Tekh. Yjolod., No.2, 1952  KISTYAMNSKIY, A,B,; AGAFONOVA, O.YR. ~ __._WftM Acclimatization of phesmants (Phasianus colchicus L.) in the Ukrninian S.S.R. NuukezRp*Kievsun*13 TIO.12:73-86 154.(MLRA 9:10) (Ukraine--Pheasants)  Ng wv r 11 r. 0 5 A 0 vi, p i, F v g i2! at.  KULIKOV, N.V.; PORYADFDVA, N.A.j TIKOFKY%T-RESOvSKIYJ, N.V. Action of radiators on phytocenoses and the effect of the latter on the migration and redistribution of radioisotopes in soils. Trudy Inst.biol.UFAN SSSR. no.221.31-47 162. (MM 160) (RADIOISOTOPES) (PUNTS EFFECT OF RADIATION ON) (SOILS~  AGAFONOVA. 3.7a.; ZAGEMBINA, Ye.A.. Cases of epidemic hemorrhagic fever. Sov.med. 21 no.12:83-86 D '57. (MIRA 110) 1. Is knfedry propedevtik-i vnutrennikh boleznev (zav.-prof. S.Y. Shentakov) lvybyebovskogo moditsinskogo inatituta i is torapevtichaskogo otdolianiya (sav. Ye.A.Zagrabina) Borakoy rRyonnoy bollnitay &wbyR'heiakok oblasti. (XPIMIC HBMORRHAGIC YNVSR, cnae r~Dorts (Rua)  AGAFONOVA, S.Ya. Glycemic crises and the state of the basic nervous processes in chronic hepatitis. Trudy Kuib.med.inst. 11:78-84 160. (MIRA 15:8) 1. Iz kafedry propedevtiki rautrennikh bolezney (zav. kafedroy prof. S.V.Shestakov) Kuybyshevskogo meditsinskogo instituta. (LIVER-DISEASES) (BLOOD SUGAR) (NERVOUS SYSTEM)  KARASEVA, A.F.; -AGAFONO.VA, T.D.; KALININA, O.M.; CIIADAYEVA, Z.N. Specialization in the manufacture of technical rubber goods is the most important problem. Kauch. I rez. 24 no.8t46-50 165. (PIRA 18:10) 1. Nauchno-iseledovatellskiy institut rozinovoy promyshlenriosti.  GAVRIJSEVICH~ B.O. (Havrusevychp B.0.1,, kand.geol.-mineral.naul-i AGAFOINOVA.._Tj~ nd.9801.-Yaineral.nauk Soviet diamonds. Nauka i zhy-ttia 10 no. 12:14-16 D 160. (MIRA 14:4) (Diamonds)  *0 T T~ it it ti 14 it4 It --T -)t,-, P., QK-1-1- ,U,- CE 00 00 c 00 00 lee -M it wym x met T. X. AOAMOVA (O=pt, c"d. Aosd. *00 *0 ompceition curvu detar- fee wAtrY Of smit4ble Pain d 00 mined by pbota fillm in so 431 Ir Y A--M faixtures. irdw,pbotefo.,~* of bUm Age *0 an apj= oe d#kmbw the Of CJMPM At A in A 00 mixtur AlMing a kraorm of a darilid a (yo, Coo Aiz N&CM ai-A mood* ]&/1s ?b; the manialne-pairs. 00 4 ()arm wv 16van for the binary Wittufte similitc-Al; ellR Without Opwial - PrImmuWas, iionto Ompoomta we vUimW to be doWadmbk to