SCIENTIFIC ABSTRACT AGEYEV, P.Y. - AGEYEVA, A. K.

S/137/62/000/002/007/144 Behavior of composite-alloyed alloy ... Aoo6/Aloi a vacuumITi and Al change less. When rarefaction varies from I to 1.10-3 mm Hg, losses of the alloy components are approximately equal. This is explained by the fact that with a 8reater rarefaction In the furnace, losses increase due to evaporation, but decrease on the other hand on account of oxidation. The presence of Co in the alloy has no effect on changes in Cr loss. The addition of 6% Al to the heat reduces Cr loss, probably on account of the formation of a protective film on the metal surface. In melts with Ti, Mo and W, the effect of Al is less marked as compared to melts where these elements are absent. V. Sheremtlyev [Abstracter's note: Complete translation] Card 2/2  88496 3/133/60/000/012/004/015 A054/AO27 AUTHORSt AgeyeY, P.Ya., Doctor of Technical Sciences, Professor, and -GhMMDT -IDTT, -pA s s i s t ant TITLEt Influence of Alloying Elements on the Behavior of Oxygen and Nitrogen in Melting Alloys in Vacuum PERIODICAL: Stal,19 1960, No. 120 PP-1,093-1,096 TEXTs From theoretical investigations of the optimum conditions of oxygen and nitrogen removal from the liquid metal during melting in vacuum furnaces it was found that the degree of degasification depends on the partial .....pressures of gases to be separated in the melting area. The lower the partial pressure of the given gas in the gas phase, the more complete its removal from the metal. Calculations (based on Bachinskiy1s theorem) also prove that low pressures promote the removal of gases, in the form of blisters, and that they accelerate this gas removal by improving the conditions for the formation of the next phase and by enlarging the blisters. In order to verify this theory and to make a thorough study of the influence of various conditions of melting and of metal composition on the gas separation, tests were carried out in Mgn-34 Card 1/7  88496 S/133/60/000/012/004/015 A054/AO27 Influence of Alloying Elements on the Behavior of Oxygen and Nitrogen in Melting Alloys in Vacuum (MVP-3M) and M-497 (OKB-497) type vacuum furnaces and standard type aluminum oxide cruoibles. Melting was carried out at various pressures of the inert gas which wag introdu2ed into the furnace after this had been evacuated to a vacuum of 1-10-4 - 5-10' mm mercury column. This insured that in the melts with various total pressures the oxygen and nitrogen had equal partial pressures in the melting area. In order to prevent the change in gas phase during melting by 'Uhe gases separating from the metal, the melting area was "flushed" with clean argon. Holding the liquid metal in vacuum and in argon atmosphere for 10 0 minutes gav various results for oxygen removal (Fig. 1). In melts in vacuum (10- - N Z mm mercury column) the oxygen content of the metal is 5-10 times lower than when melting in argon atmosphere, under pressures of 50-760 mm. mercury column. The decrease in total pressure in the melting area also lowers the nitrogen content of the metal (Fig. 2). It could thus be established that by melting in vacuum the gases can be removed more completely than when melting takes place in an inert atmosphere. To determine the influence of various alloying elements, meltings were carried out in which the effects of silicium, Card 2/7  88496 S/133/60/000/012/004/015 A054/A027 Influence of Alloying Elements on the Behavior of Oxygen and Nitrogen in Melting Alloys in Vacuum aluminum, chromium, niobium and titanium on gas removal were examined. It was found that these elements considerably impeded the separation of oxygen from the metal. The higher the amount of these alloying elements in the metal, the more oxygen remains therein. It was also found that by holding the liquid metal in vacuum, oxygen removal was more complete. The delay in oxygen-separa- tion under the influence of the above mentioned alloying elements can ba ex- plained by the deterioration of kinetic and thermodynamic conditions of the chemical reactiont C + 0 --:~& CO (7). In the presence of the above mentioned elements oxygen can be separated, at least to some extent, by the formation of the respective oxides of these elements whiGh9 of courset takes more time +'= the removal of oxygen in the form of CO. With regard to the removal of nit.-)- gen from the metal it was found that these alloying elements delayed the sel,t- ration of nitrogen because (mainly at a low carbon content) they form stabli, nitrodes with N and adversely affect the conditions for the formation of carbon- oxide blisters. However, increasing the holding time in vacuum improves the results also in this cass, i.e.pmore nitrogen gas can be separated. When alloy- ing the liquid metal with elements having high affinity to oxygen and nitrogent Card 3/7  8806 S/133/60/000/012/004/015 A054/AO27 Influence of Alloying Elements on the Behavior of Oxygen and Nitrogen in Melting Alloys in Vacuum the adverse effect of these alloying elements - if their content does not exceed 5-6~o - on the gas removal cang therefore,be offset by increasing the holding time in vacuum. The problem of gas-separation from the liquid metal was also examined during vacuum melting of nickel-base steel alloyed with titanium, aluminum, chrome, tungsten, molybdenum and cobalt b-10% of each element) and containing 0.15-0.2V~o carbon. It was found that in the presence of the above mentioned amounts of C, the chemical affinity of the alloying ele- ments to the gases did not assert itself and the gas-removal was not hampered, Vacuum melting also raised the fatigue limit of the steel (at a vacuum of 1o-4 mm mercury columnp 97500 and a load of 20 kg/sq mm, up to 25-50 hours). There are 2 figures and 5 tables. ASSOCIATION: Leningradskiy politekhriicheskiy institut (The Leningrad Poly- technical Institute). Card 4/7  S/133/60/000/012/004/015 A054/AO27 Influence of Alloying Elements on the Behavior of Oxygen and Nitrogen in Melting Alloys in Vacuum Legend to Fig. 1 Relationship between C and 0-content of the metal melted under various pressures (to obtain a pressure in the furnace above 1 mm mercury column, an inert gas was applied) Vertical, lef t t oxygen-content, 'p4 f horizontal : carbon content, %: a- 760 mm mercury column; b- 50 mm mercury column; c. 10 mm mercury column; a- 10-2 mm mercury column; e- lo-4 mm mercury column. 9010 - = i i i i i ~1~. 4P~11~ k I i1 -1 L4 .1 It q002 Card 5/7 L 005 got 0.02 O'l 6 C"h Amdo.  S/133/60/000/012/004/015 Influence of Alloying Elements on the Behavior of Oxygen and Nitrogen in Melting Alloys in Vacuum Legend to Fig. 2 Influence of pressure during melting on the nitrogen content of the metal (to obtain a pressure in the furnace above 1 mm mercury column, bn inert gas was employed). Vertical left t nitrogen-content horizontal: pressure, in mm mercury column 40Z0 4010 4WF 4005 4002 Legend to Table 32 402 PS 41 41 U 1A 0 13 'M 10'0 4-0 70 The influence of alloying on nickel-base alloys with Ti, All CrjWjMo.and Co (5-10% each) on the oxygen and the nitrogen content and on the fatigue limit of the metal. Card 6/7  88496 S/133/60/000/612/004/015 A054/AO27 Influence of Alloying Elements on the Behavior of Oxygen and Nitrogen in Melting Alloys in Vacuum :,No. of Vacuump Content of the melt, Fatigue limit at 9750C and, melting mm mercury; C 02 72- 1 a load of 20 kg/sq mm, column hours 304 10-1 0,14 0,0015 0,0035 20 3,15 10:1 Ot14 0,0020 0 0030 302 10 2 0 12 0,0008 0:0031 20-35 314 10-2 0:14 0 0010 0 0028 310 1o-3 0,14 0:0012 0:0022 25-40 313 lo-3 0,14 OP0007 ',.0,0025 I 311 1o-4 I 0913 0,0010 11 000022 t 11 25-50 11 312 10-4 t 0115 11 0,0009 1 OpOO28 1 , Table 3 Card 7/7  KHOWTOV, Aron Io9ifovichj_AGITW, PTaprof., doktor takhn.nauk, retsenzent; VWWSKIT, S.I., red.izd-ra; UNTIM, M.34, tekhn.red, k [Complex doaxidatlon and alloying of steal with silicon- chromium] Kompleksnoe raskislanie i legirovanie stalt elliko- khromom. Moskva, Gos.nauchno-tekhn.izd_vo lit-ry po chernot I taretnot metallurgii. Moskva, Gos.nauchno-tekhn.izd-Yo lit-ry po chernoi I tevetnoi metallurgii, 1961. 90 p. (MIRA 14:12) (Steal alloys--Metallurgy)  PHASE I BOOK EXPLOITATION SOV/5411 Konferentslyn po fiztko-khimicheskim oanovam proizvodstva Btali. 5th, Moscow, 1959. Fi--iko-khimicheakiye osnovy proizvodstva stali; trudy konferentaii (Physicochemical Bases of Steel Making; Transactions of the Fifth Conference on the Physicochemical Bases of Steelmaking) Moscow, Metallurgizdat, 1961. 512 p. Errata slip inserted. 3, 700 copies printed. Sponsoring Agency: Akademiya nauk SSSR. Institut metallurgif imeni A. A. Baykova. Responsible Ed.: A.M. Samarin, Corresponding Member, Academy of Sciences USSR; Ed. of Publishing House: Ya. D. Rozentsveyg. Tech. Ed.: V. V. Mikhaylova. Card 1/16  Physicochemical Bases of (Cont.) SOV/5411 PURPOSE: This collection of articles Is intended for engineers and technicians of metallurgical and machine-building plants, senior students of schools of higher education. staff members of design bureaus and planning Institutes, and scientific research workers. COVERAGE: The collection contains reports presented at the fifth annual convention devoted to the review of the physicochemical bases of the steelmaking process. These reports deal with problems of the mechanism and kinetics of reactions taking place in the molten metal In steelmaking furnaces. The following are also discussed: problems Involved in the production of alloyed steel, the structure of the ingot, the mechanism of solidification, and the converter steelmaking procime. The articles contain conclusions drawn from the results of experimental studies, and are accompanied by references of which most are Soviet. Card 2/16  Physlcocherntcal Bases of (Cont.) Urazova, V.A., and Yu. T. Luka8hevich - Dwanovs, Inclusions In the Titanium -Containing Low-Carbon Steel Lukashevich - Duv anova, Yu. T. , and 0. V. Dimant. Inclusions in Zirconiuni-and Niobium-Containing Low-Carbon Steel Kholodov, A. 1. Precipitation Deoxidation irs a Basic Electric Furnace Kholodov, A. 1. Precipitation Deoxidation in an Acid Electric Furnace Vo1nQv,_S,G., Development and Introduction of New Ye-chniques in MWdng Ball-Bearing Steel; Mechanism of the Formation of Nom-netallic Inclusions Ageyev, P. Ya. Kinetics of Metal Deoxidation Processes Card 13116 SOV/5411 354 364 j 384 391 398 422  Physicochemical Bases of (Cont. SOV15411 Karasev, V. P. , and E. Ya.Ageyey. Feasible Ways of Accelerating the Deoxidation of Metal 432 PART IV. THE APPLICATION OF VACUUM AND THE GAS CONTENT IN STEEL Shumilov, M.A., P. V. Gelid, and F. A. Sidorenko. Some Specific Features of the Process of Ferrosilicon Disintegration 445 Gelid, P. V. , and R. A. Ryabov. Effect of Carbon on the Permeability of Steel to Hydrogen 457 Novik, L. M., A. M. Samarin, M. P. Kuznetsov, A. I. Lukutin, and D. P. Ullyanov. Improving the Quality of Rails Made of Bessemer -Converter Steel by Applying Vacuum Treatment 461 Oyks, G. N. , V.I. Danilin, I. I. Ansheles, G.A. Sokolov, and Card 14/16  Physicochemical Bases of (Cont.) SOV/5411 B. Z. Kononov. New Techniques in Making Ball-Bearing Steel With the Use of Vacuum 466 Ageyev, P. Ya, and B. G. Chernov. The Effect of Alloy- 1-ng ements on Oxygen and Nitrogen Behavior During Melting in Vacuum 474 Polin, 1. V. , and E. I. Serebriyskiy. Content of Gases and Nom-netallic Inclusions in Stainless Steel Remelted in a Vacuum Electric Furnace 483 Voroblyeva, T.M., L P. Zabaluyev, Ye.S. Kalinnikov, and A. F. Tregubenko. Effect of Ladle-to-Ladle Vacuum Pouring on the Quality of 30 KhGSNA Steel 495 [The following persons participated in the research: T. M. Bobkov, Yu. P. Shamill, G. P. Parkhomenko, N. M. Shabli, and A. N. Men'. Card 15/16  KMASEV, V.P.; AGEYE.V, P.1as oxygen removal from molten iron deoxicUzed by aluminum. Izv. vys. ucheb. zav.; ohern. not. 6 no.7t83-90 163. (KIRA 16%9) 1. logningradskiy politekhnicbeskiy institut. (Steel-Metallurgy)  A j..'Mov I V~A, A GEETEV J h c. nin . -m e t rl C. L 4. 1.~.n in g r a d 5 y po s n  KAII-Movip 'V.A.; AGEYEV, P.Yll. Gas penetrability and the sorption propertios of slagb. Izv. vy5. ucheb. zav.; chern. met. 8 n0-5:29-33 165. (MIFLA 1-8:5)  h,GI 7i -~ Y. 53 ' - 1 .- :..Jay .- ~,,e+ -1. , , t 5 - n , ,a T, udy LFT no.2 2 7-rocEs~&~: In ~'h,! "Y~Ite7, g';` (wn I&C 165. - o, Op  CHEIRNO~y P.6., ~GEYEV, P.Ya. Nit-rog~.n behavior in iron-base allrys during their smelting in vacuwn. Trudy LPI no.253:22-27 165. (MIRA !8,-8)  ",f- v AC K T 1 ME - Bensvicir of ultrL en In lron-baae al,0-18 dUrinR their VBCUUM melt4RE 4 1 Lea ni 1 - Pj ltekhr ',chesk i y s N ~- va va 've f-~l-i Y-h ~~ ti-r1r, --,g i ya f ta " ~,-l -A% I -New methodz EL-id technology i!. steel sm-21tirig prcduction), 22-27 '4~clusqlm, Chemical T,,~ F TAGS L;tp-iniusv 5 te --anium n1trldne, 1-~ s fq !ifT-lAv a low Al-07Rk". StA~Lless steeds c resent In mpta, fl-n is t, F DCA, contalz more than 0.002-0.003% nitrogen ar, ajAy6cLj -1-11C Card 1/4  -77 L 62787im-65 ACCESSION NR: AT5ol442o Fteels cf this kind (0-5 mm Rg) l'-20 min reduces their oxygen content to at content. Steel ~4 v r Izi- - it t-, Z, P tee a t'n e m e ',,Z s- -awing t~ its Card 2/%  i_ 62737-19 5 ADCFSS-101i NF- J.T`C~44-)' ,~ " _O wh' ch I 'nFO-! -m -f t r, g,-. frcvn 7! i j- 4 W=~c; qpler-t~,d I Y I ic: -w~is t, be -M hft i waii a-Lbu J nvent i ga U-0 Tile ariciiti~,,rl Fif u o T-Orl to thia st.p-e- dLu;rlng ."Ls vai:--Aum :Df-I Ling, at v,- effective; this tf>" t, t hc "IC t 'UhA t i' ps f' this steel reveal its nitr(-gpn to be alffost t, ,-tu- in the mi of fine-disperse -if t in mr.,".er T~he be qF t h an, -xcha. e r,,qct jr~ TIN + T6 + T, i E; im-mE&I- that the 1, f R~ he of-A'- tC"l :if* : if". It. Tili ehould Pre,Ac-g,iinv~tr~ over Bf? the intc-n,-4,4-~ ~1--.1--o-genefous solution ~-i which the chemical redaction t"k-es '-h,: L.w &-e experi-ments '-,AicAte that the b-havlor of n1tr(Eer, Y~ jependD cm the fom Card 3/4  ACCESS101 n: AT5014420 Soluble in tw alloy) the elimination of nitrogen from the melt is very-s Conversely, if the nitrogen is canyerted frcm clissolved state to commpoumn a crystalline structure differing fram that of the metal, the rate of its -11mination fron. the melt is marke(Uy Intensified. Orig. art. has: 3 figures) taides. A.:'S ':V ::'fni-gM'dp'.K'Iv ral I-n in SURMITTED: 00 :MCL.- TO. ?J9 SOV: ~X~! Card 4/4 STUB CCOE! M, SS  N-.anglu- the ol Metallurf, lo  MA' bods for measuring i,',ro dl(!Jf),~, l,r;.c fj*",!~? r~ tem a 1:1.'t - 3-1 rtc,. lp, n 1. nprad rh" y paj-1 i tp, ~~hn 4L uhP 3k:,y i.r. ~- t  __ AGEYEV,-R-iV~","-616ktromekhanik We are repairing the contactors of transmitter relays. Avtom., telem. i sviaz' 6 no-3:34-35 Mr '62. (MIRA 15:3) 1. Kontrollno-ispytatel'nyy punkt Kungurskoy distantsii signalizatsii i s-vyazi Sverdlovskoy dorogi. (Railroads--Electric equipment) (Electric relays)  AGEMo S. What kind of dailv assignment organization? Mastsugl, 9 no.*.20 AP 160, (MIRA 1-3:11) 1. Bachallnik shakhty Orblysayevelcaya No.2" kombinata Kusbassugoll. (Mine management)  8/137/6i/m/012/041/149 A006/AlOl AUTHORS: Lebedev, K.B., Ageyev, S.A. T ITIE On the problem of rhenium extraction from copper concentrates PERIODICAL, Referativnyy zhurnal. Metallurgiya, no. 12, 1961, 22-R3', &betmt 120161 (Izv. AN KazSSR, Ser, metallurgii, obogashcheniya i ogneupo- rov) 1961, no. 1 (lo), 48 - 54, Kaz. summary) TEX-Tj The authors studied conditions of Re-transition into a solution, when processing the concentrates with various reagents and by indirect determina-~ tion of the form of Re-odourrence in Cu concentrates. If Cu-sulfide concentrates are processed with water during a sufficiently long period of time at high tem- perature, N% of Re, contained In the concentrate, can be dissolved in the solu- tion. If the concentrate s processed with alkaline solutiona (soda or caustic Na) the degree of Re dism,lving in the solution inox~-aases noticiably, depending orr temperature and somewhat less on the duration of processing. When the conoen- tratq is prooesied during 4 hours at 60 - 7oOc, 65 - 70%cf Re can be dissolved in the solution. More th&n 50% of Re can be dissolved in the solution with alkaline solutions under the following conditions: 50 - 600C: 1 - 2 hours mixing without Qard 1/2  On the problem of rhenivm extraction ... S/137/61/000/012/041/09 A006/A101 wation; alkali consumption - 10 to 15% of the concentrate weight. Mirltiple processing ot the. concentrate.yith alkaline solutions does not noticeably in- crease Re extraction'into the solution. Prolonged lixiviation promotes Re transi- tion into the solution, in partid'ula'r at elevated temperatures. The use of ultra- amic., waves of 21,.5 li~yyoles frequency (under similar oenditions) promotes Re transition into the solution, When processing the ooncentr&tepi with a Na hypo- chlorite solution it was revealed that changes in the NgOH concentration, within f0 - 50 g/l, do not affeot the degree of Re transition Inio the solution, which is neither influenced by higher temperatures. Under certain conditione 73.3% of Re can be extracted from the concentrate into the Na hypochlorite solution, and up t:o 80% at triple processing. G. Svodteev& [Abstracter's note: Complete translation] Card 2/2  5/08 1 /62/000/013/021/054 B1 50144 ALIT HURb Lebedev, X. TITLE: Extraction of rhenium from copper concentrates - 11MIODICAL. 1jeferativnyy zhurnal. lffiimiya, no. 13, 1962, 395, abstXact 13K61 (Izv. jUN KazSSR. Ser. metallurgii, obogashcheniy" i ogneU,"OrOV, 110# 1 (io), 1961, 48-54) 1 EXT: The followinS methods of exil-ractinj rhenium from copper concentrates are considered: hydrometallurgical processing of the concentratea with extraction of the copper, rhonium and other valuable components; choosing a selective solvent for extraction of the rhenium directly from the c concentrates; extraction of the rhenium from wasteo resulting from. processing of copper concentrates by a pyrometalluraical method, particularly from dusts. Experimental data are given on.the effect of temperature, duration of processing of the concentrate, and of ullrasonics on the extent to which rhenium passes into solution. [Abstracter's note-. Complete translation Card 1/1  L 23876_6~ EWT(n)/EPR/EWP(t)/8WP(b) P.%-4 TJP(c) JD/ML% ACCESSION MR: AT5002755 S /00-0-0 6 ",;1 1_110/ OM / .004 0/ (j'O4 3 ATUIMOR: N. A. Yeraillav, V. V.; e A.; Okhotnl~f,~~aj RB ml,c kov, Ye, S. ; Fi I imon TAITLE: PEcovery of rhenium fror3 copper conce-E-al-~.s leaching SOURCE: Vsesqyu3~nqye__~ovesh6haniye po bleme renlya._2d, Moscow, 1962. Reniy trudv coveshchanlya. ~!oscow, !?~-vc TOPIC TAGS: rhenium, rhenium extraction, copper concentrace, alkaline leaching:, rhenium cementation, pctassium perrhenate ABSTRACT: The authors propose a method for recovering rhenium I,c which the con- centrate (about 30% copper, 3% lead, 2% zinc, and 0.003% rhenium) is leached with sodi-,-n hydroxide, rhenium and lead go into solution, and their cementation is then A comnlete flow dligram c,4' 'I),, nrorinc;q fi~ given, and the out on zinc. ~)!--cedure is descrlt)-?d in deta!.!. V)e methor' -c;- e tr, t)~,th copper and -~,:-t---'ead rhe~illum-containi,,S concenltra~-_~.q. r.c,very of the metals is estimptee as fol'ows: rheniur !r 50-557.; leac in -jde lead, 20-257.; zinc in sheet zinc, up 77.. art. has: 1 f igure. Card li2  ACCESSION NR: AT5002755 and I formula. ASSOCLAMON: None SUIV117ED! 05Aug64 W REF SOV- Oll Cord 2/2  LEBKDEV, K.B.; S.A.; V.J. I :.', I... 1-0 L . - i'dieniu-To. ri,covery froin alka]i ssol-utiun~3 Iv -- 't, -3 )f ion excharga Und advorpt,lon. Tra.-ly In8t, met. i ol)oi,. . K~izakh. SSR 91.13C~-135 - (I al P-4 . .9) 164 -17 -  AGETEVP S.M. Testing motor-vehicle ncales. lzm.te*n,-b. no.9:58 S 10'5- (IMIRA 18: 10)  8229 S 032~62/028/006/0n,6/025 B110/3101 G. , %-e,-ev S T i.:atyashi, 0.- Ye. , and Chechina, M IT m7 A colorimetric method of determining the water content in 41 kerosene U 0 Zavodskaya laboratoriya, v. 25, -no. 1962, '70 T::;X.T.-. anhydrous GuSO 4 added to hydrocarbons -for the purpose of 'otc.r.-,ininc: t';1eir water content formad a blue crystal hydrate Wit,., the V.,a.Cr. T'le st--ndards Were T)rcpared from. 1 liter ~Iuel filtlerc-d off calcined con-oor sulfate vias mixed vit-h 0.2, 0.4, 0.6, CD.8, or 1.0 Of -or and filtered off with &lass filiters containin& fieshl- calcined .`C0 The color filtrates stored under exclusion of air -"omained usal-ile for one month. 'lie fuol to be analyzed v;a-s treated similarly, and the resulting color s-ade was ccmDared with the standards. Tn S Way, an aMoUnt 0: 0.3C C/114--er ras ascertained as com-,are"` with calcula-z.c.-f v.,ater co-.ent 0~_ r.28 g/liter, and 0.20 g/liter as com-pared with 0-175 C/liter. card 1/1  1. A07EY-N, S. P., RESK"TOV, Y~~. 1. 2. USSR (600) 4. Coal Kines md Mining 7. Steadfast increase in the productivity of coal combines. Mckh. trud. rab. 6, no. 11, 1952. 9. Monthly List of Russian Accessions, Library of Con,gress, March 1953. Unclas'sified.  DIM, S.P* Mine of commydet labors Ugoll 35 noollill-13 N 160. OaRA 13112) 1. 3tchallnik shakhty Wo. 2 "Polysayevelmya" kombinata Kusbasougoll. (ftznetak Rasin-Coal minee ard mining-Labor produotivit7)  A r r-,r r LT. 1/012 86 A 5 /000 IM/0081/0081 _,!~ToI4 NR: AP5019052 A'711'P '~hr* r 1 in F i shk c)-, M A z e TIT 1L An automatic device for surveying in~,s, P,q. ?--ver, "'lass 42, No. 172060 ,SOURCE: Byulleten' izobr-eteniy i tovarnykh znakov, no. 12, 1965, 81 7OPIC TAGS: surveying, radio transmitters I ABSTRACT: This Author's Certiricate introduces an -3,AtrgDatir device for surveying jobs, e.g. on a river, The instal lat. ir,,n- t i ri 5z !zi'-~- 'rans--ei-~er on the bank, a w I n C F., ~ r! :- a -P unit al-4 I a ~P, 711 e y c on t Dn 11 are p 00T ..as an a3-~ A li'~gh a *~)e X-a itransmit-ter fr-- the main transmittc-r bv a ,t~ e e.-, e 3 a.. f-: An inJ i c or f or em - t n-f a refetence h-merq)oIa) is connected at the outtut of the f.-  Card L 628qC-6q ACCESSION NR: AP!,019052 .phase sensitive urit of the equipment al)oa7-,! '~e Or,  I --- .1 ... ' -,'. 4~ I- . ~ . J~a~ 2/ - i - , 41 . ~ -- --. -  . 1 --extra transm: - -or ; ~ -- ' ~ ne ind ; ~ia! -r . .:.. 1- 1 .1  Ai:,cyev, V. A. - "Fatz-.2. In on, t'le Lines of t.-.e :Raiilroad- Hub o, iic Sout'i,.-jeAcm Railroad Line (19)16-19::3)." Voro:-,,ez'-, State "ledica-1 of Candl -4 Inst. Voronez)i 19,' ,6 (Dissertation for ti,c Dp -eo Ll-atue in 1,.'edical Sciences). IT So: Knizhnaya Letopi ', No. 10, 1~56, pp  AGEYEV, V. A. AGEYEV, V. A.: "Traumntism from Railroad Tlrbmport Vehicles on the Lines of the Voronezh Center of the Jouthea stern Rail- road Line (1946-1953)." Voronezh State Yedical Inst. Voronezh, 1956. (Dis-ertation for the Degree of CDndidate in Xedical Science) So: Ynizhnays Letopis', No. 18, 1956.  AGMV, V.A. Determination of residual stresses b7 I rays. Part 1. Zhur. tekh. fiz. 28 no.11:2514-2519 N '58. ()CIRA IZ:l) (Strains and stresses) (X rays--Scientific applications)  AGEYICV. V.A. Determination of residual stresses by X rays. Zhur. tekh. fiz. 28 no.11:2520-2526 N '58. (MIRA 12:1) (Strains and stressas) (X rays-Sciantific applications)  AGEYEVt V. A., CAND PHYS-MAT" SCIp "DETERMINATION OF RESIDUAL VOLTACIES OF X-RAYS." DNEPROPET- PovsK. 1961, (MIN OF HIGHER AND SEC SPEC ED UKSSR. DNEP- ROPETROVS bTATE UNIV im 300TH ANNIVERSARY OF THE REUNIFI- ~,,V-i CATION OFAUKRAINE-vt4qm RUSSIA). (KL, 3-61p 202). 28,71  MALININ. V.M.; AGEYEV, V.G. Appitratus for preventing fibrillation. Had. prom. 11 no-3:56-58 Mr '57 (MLRA 10: 4) 1. Hauehno-isaladovatellskiy Inatitut okaparimentallnoy khirurgicheskoy apparatury I instrumentov. (MEDICAL INSTRUMENTS AND APPARATUS) (ARRHYTHMIA)  AGEYEV, V.G$-,, uchitell Methods of solving calculation problems in a school chemistry course. Khint. v shkole 18 no.1:52-55 Ja-F 163. (?URA 1614) i 1. SrodayaYa shkola s. Kozlovka Atyashevskogo rayona Mordovskoy ASSR. (Chemistry-Froblems, exercises, etc.)  AGEYF,V, V.G., uchitell Burners for the demonstration of the burning of am.-.onia in oxygen. Khim. v.shkole 18 no.5:55-56 S-0 163. (MIRA 17:1) 1. Kozlovskaya srednyaya shkola, Mordoskaya ASSR.  NR: AP6029842 AUTHOR: Ageyev, V. 1. ORG: none 31 TITLE: Multistage pulse-signal amplifiers with mutually compensated stage groups SOURCE: Elektrosvyazl, no. 8, 1966, 23-28 TOPIC TAGS: pulse amplifier, amplifier design, electronic amplifier ABST, R.ACT: The correction coefficients and the relations between time constants oi rtages, in parallel -circuit h-f-compensated broadband amplifiers, were established by F. Muller (Proc. IRE, 1954, no. 8); 2- and 3-stage mutual compensations were considered. This article offers some design hints for 2- and 3-stage mutually -compensated groups ("dyads" and "triads") that form a broad- SOURCE CODE: UR/0106/66/000/008/0023/0028 Card 1 /2 UD.C;_ 6.21.375.....01.6.756  L o8978-67 ACC INIR: AP6029842 0 band pulse amplifier. Transient-response data calculated on a digital computer for a "dyad" is tabulated. A modification of the Elmor formula is suggested for calculating the transient-response time of a multistage amplifier consisting of the "dyads" and "triads. 11 For 6-, 8-, and more stage amplifiers, maximum numbers of "triads" is recommended. The above type of multistage amplifier has substan-l' tially higher Q-factor and lower power consumption than the conventional identical-stage amplifier. "In conclusion, the author wishes to thank G. S. Tsykin for his.advice, and V. N. Trunin for his help in the computer work. Orig. art. has: I figure, 8 formulas, and 4 tables. SUB CODE: 09 / SUBM DATE: 03Dec65 / ORIG REF; 006 / OTH REF; 00 1'  AGETEV, V.I.; BELONOZHKIN, A.L. redaktor; SPIRIDONOV, N.Y., tekhatcheekly - WUVi or CIate fall planting of sunflowers] Podzimnii posev podsolnechnika. CKuiby-shev] Kuib7shevskoe kn-vo, 1954. 23 P. (HIRA 9:8) (Sunflowers)  SHM, N.A.; LOUHIN, A.M.; AGEYEV, V.I. .., ~ Auto,stic control of radio transmitting installations. Slektro- sviaz' 10 no.1:35-38 Ja 156. MR& 9:5) (Radio--Transmitters and transmission) (Automatic control)  AGEYEV, V.11., inzh.; ROSTOTSKIY, V.K.p inzh.; IVANOV, V.A., inzh., senzont; MIKOV, F.I., inzh., red.; ELIKBID., ',;.D..* tekhn. red. [Machines and equipment for rural construction] Mashiny i oborudovanie dlia sellskogo stroitellstva; spravochnoe po- sobie. Moskva, Hasligiz, 1963. 31S p. (IMIRA 16:12) (Hural construction-Equipment and -supplies)  AGL7EV, V.11,1., kand. akon. nauk; REKITA:R, Ya.A.i USTR:!"~~"").- 7 CZT-T-' okonomist; XEL'NIKOV, A.A-~ kan-d. ekar.. na~'Jk: V.A., ekonomist; FYLIZDIBAbN', V.G., kand. ekon, ni~uk: SERGEYKVAj K.A.~ inzh.; CFUDNOVSKIY, D.M., nauchr , red. [Method of calculating the economic efficiency of technologi-- cal progress in the building materials and structural ele- ments industry; using the example of several branches ana types of production] Metody rascheta ekonomichaskol effektav- nosti, tekhnicheskogo progressa v promyshlennosti stroitell.. nykh materialov i konstruktsii (na Primere nekotorykh ot- raslei i vidov proizvodstv), Moskva, Stroiizdat, 1965. 157 p. (VIlRA 18:4) 1. Moscow. Nauchno-issledovatellskiy institut ekonomiki stroitellstva.  P C G, A it 1". 4, rll c t ra 11 ai. -I ~s wo wheels] Blektriche:31mil- f !:L-i s s j:-i,- t  7 -pear 9-an 07. 1 IT4 At r Instrument Manufacture and' autonatte control devices; handbook i2i~~ five volumes. v. 4: AutoMmMe conEral and auto tic devices (Priborostroyeniye i aredstva avtomatiki; spravochnik v pyati tomakh. t 4! Avtomaticheskaye regulirovanive i sredstva avtoms- tiki). Moscow, Izd-vo "Has-itnostroye-nive", 1965. 716 P. illue.0 biblio., indey. Errata sli:? Inserted. 24.000 copies printed. TOPIC TAGS: automation, auto-zatic control systems, automatic con- troller classification, static: linearization, designing complex automation PURPOSE AND COVERAGE: This is the fourth volume of the handbook: "Instrument manufacture and automatic control devices." it con- sists of two parts. Part uie presents the fundaventals and defi- nitions of the theory of automatic control. modern methods of  Cord 1/4 rL .50185-65, IAM5015052 the volume contains descriptions of typical electrically, pneu- maticaljy, and hydraulically operate4 controllers, actuating mechanisms, and control systems. It also gives basic technical characteristics of electronic computational techniques applied in automation, anti elucidates problems of the organization and planning of the most widelv used systems of automatic control. TABLE OF CONMTS [Abridged): Part 1. Theory and methods of designing automatic control systems lo Fundamental principles, sturcture of systems, and a definition of the tlieory of autorratic control (Ye. G. izvol'skiv, L. G,  Y ` ~-- --7-1 - 111 3. Elements of automatic controll -- 58-132 ; 4. Automatic controllers (Yu. Ye. Ruzskiy) -- 145-176 S. Met~oda tor calculatirg the dynamics and the statics of SAR (system of automatic iegulsZion), the SAC (system of automatic control) and servosyste-u-s (L-. G~ aa-d V.~V. I -- - - --.- - - -- - - I ~ ~ ~ -, -- -, - 7::  -50M4 15Y--", E~ AN5015052 6. Nonlinear cb*aracteristLes and methods of designing SAR and servomechanisms -- 230-294 7. Static linearization (G. M. Ulanov, and K. A. Pupko 294-344 8. Variational methods and the theory of accumulati,ve errors 344-361 9. MethodF for experimental testing of automatic control sy3temt -- 361-387 10. Problems of the theory of automatic control -- 387-419 11. Princil-les of design ing aye tem.9 o f com-, 11 ex au tomat ton by !Part II. The means of automation applyiag control cotiputerr. (A. S. Uakov) -- 419-437 12. Classification of the means 7-faL~t-omation kM. Rakovskiy) -- 437-4.0 13. Electrical and elecl:ronic controllers (V. A. Bodner) -- 443-497 14. Means for automatic rc-gulation and control -of electrical drives (T. Z, Portnoy) -- 497-525 15. Electroni-cc-o-m-pui-eri- tf.chnology for au-Ior-i-atic control and regulation (B. M-. Yikubson) -- 525-575 16. Pneumatic c6-n-t-r-01-1-er-9- and schemes of ~-vpicall pne-imatic. SAR (V. S. Prusenko) 5~5-618 Card 3/4  L 50185-65 1AM5015052 17. Hydraulic aid electrical-hydraulle means of automation and auxiliary devices -.- f.)18-645 18, D e a i g n i n gsystems f :)r control and automatic regu I at ion (A. B. Rodov) -- 645-1)94 SUB CODEi IE suBmi'rTED 05Feb65 NO REF SOV- 344 OTHERt 051 ,-, ~j f , Card 4/4  S/181/60/002/011/031/042 B006/BO6O AUTHORS: Ageyev,WV. N.,I Balabanova, L. A., and Bredov, M. M. MaNAM, TITLEt A Study of Plasmon Spectra PERIODICAL: Fizika tverdogo tela, 1960, Vol. 2, No. 11, pp. 2899-2905 TEXT: The authors wanted to work out a method of determining the plasmon spectra, when assuming for energy values to be absolutely accurate on three points. In a previous paper (Ref- 7) they had described an electro- static energy analyzer, which is specially suited for measuring the energy on plasmons. The simplest variant of this instrument (single-stage device with homogeneous field) was made use of here. The plasmon energy was determined in aluminum. Fig. 3 shows the spectrum, taken by oscilloscope, of the characteristic losses in aluminum. The plasmon energy wa's deter- mined from the line distance; it lies with a probability of 0.9 at tW= 15-18 t 0.06 ev. The values found by other authors range between 14.7 and 15.8 ev (Refs. 10-19) and are compiled in a table. If the value tWis theoretically calculated on the basis of the model of free electron gas in aluminum with a - 4.0496A and no . 4/a3, one obtains 1(0- 15.78 ev, Card 1/2  A Study of Plasmon Spectra 5/161 60/002/011/031/042 B006XB060 whereas, if the oscillations of polarization of ion trunks are considered, one obtains 15.48 ev, which comes very close to the value determined experimentally. The mean free path of a 14-5-kev electron in Al for the production of a plasmon amounts to 200-650 A. A. Ya. Vyatskin is mentioned. There are 3 figures, 2 tables, and 19 referencest 8 Soviet, 5 German, 4 US, 1 Japanese, 1 British, and I French. ASSOCIATIONt Institut poluDrovodnikov AN SSSR Leningrad (Institute of Semiconductors of the AS USSR, Leningrad) SUBMITTEDi July 19, 1960 Card 2/2  ~ACCBSSXOH NR; AP4020587 AUMOR: Ageyev, V.H.; Ionov, N..I.; Ustinov, Yu.K. S/0057/64/034/003/0546/0557 MLE: Application of a pulse mass spectrometer to investigation of adsorption .characteristics by the flash method SOURCE: Zhurnal telchnichelcoy fizilci, v.34, no.3, 1904, 546-557 TOPI6 TAGS: pulse mass spectrometer, pulse mass spectrometer manometer, flash do- ,sorp~ion curve, carbon monoxide desorption, carbon dinoxide desorption, water de- so ion, hydrogen desorption, oxygcii desorption ABSTRACT: The pulse mass spectrometer described by Ye.I.Agishev and N.I.Ionov (Zh TF,28,1775,1958) was employed as the partial pressure gage in an investigation of ,adsorption characteristics by the flash desorption method proposed by J.A.Becker and C.D.Hartman (J.Phys.Chem.57,157,1933) and further developed by G.Ehrlich (J. Chem. Phys. 34,29,1961) and others. Mc theory of the flash method is developed bria- 'ly and.the principal equations are derived. A 0.025 mm diameter 120 mm long tung..~ j :ptan wire served as the adsorber. This was mounted near the ion source at one end :.9f the 2 liter mass spectrometer chnmber. During the heating of the wire (duration 1/3 Card  ACCESSION NR: AP4020587 about 0.1 see) the accelerating potential was applied in 50 microsec pulses at re-' Igular intervals. The ions automatically sorted themselves into malss groups during :their drift to the ion detector (a secondary electron multiplier) at the far end of-,,,..,:, the.spectrometer chamber. A four grid ion gate was located directly in front of t4e, detector and was so pulses as to pormit only ions oS a selected mass to be recordrA~ The nmplified ion current, after being smoothcd by an integrating circuit with an. ~appropriato time constant, was displayed on an oscilloscope. The temperature of Vie, !tungsten adsorber, obtained from tho unbalance voltage of a bridge in the heating. circuit, was also displayed on the same oscilloscope. Thus, flash heating and de- sorption curves for a selected molecule were simultaneously automatically recorded.~ 'Flash desorption curves were obtained for CO, 1120, 112, 02 and C02 after adsorption 'had be'ail permitted to proceed for times varying from 0.25 to 30 min. The residual t ;gas pressure during these measurements was about 8 x 10-8 torr. The authors consid-: or this the most serious inadequacy of the present apparatus, and they are takings,' to reduce this pressure. All the desorption curves except those for hydrog on were complex, In the case of COj threa phases were distinguished, which are tenta-! tively identified as the 01, 02 and ~3 phascs of Ehrlich (loc,.cit.supra). Ehrlicb.09' phase PI was not found. The activation anoray for desorption of CO from:PhQQQs1 A2.. 2/3 Card  AMR: AP4020587 .and A3 was deduced from the desorption curves. It was found that desorption from P2 is a first order reaction with activation energy 1.6 eV and desorption from P3 js a second order reaction with activation energy 2.4 cV. The rather large discre-I ,pancy botwoun these activation energies and those found by other investigators is ;Inscribed to inaccurate temperature nonsuremerit,by the other workers. An increasing !final CO pressure observed at high tvmpcraturc!~,is asqribed, as it has been by oth-, iers, to oxidation of carbon diffusing from within the-iungsten. The reaction was found to be with H20 and not with CO-~,. "The authors..'are.grateful to Ye.I.Agishov .for advice and assistance during dev~lopmcnt of the apparatus." Orig.art.has: 13 .formulas and 10 figures. ~ASSOCIATION: Fiziko-tekhnicheskiy institut im. A.F.Ioffe AN SSSR, Leningrad (Ph~s;"~ :cal-Tachnical Institute, AN SSSR) ~SUBMITTED: 06Feb63 DATE ACQ: 3111ar64 ENCL: 00 ~SUB CODE: PH NR REF SOV: 006 07HER. 009. Card 313  c ACCESSION HR: AP4049049 S/0057/64/034/011/2056/206,S AUTHOR: t.geyev, V. N. ; Ionov, N. 1. Ustin >v Yu.K. TITLE. Investigation of chemisor tio of hydrogen on polycrystalline tungsten by the flash method with a pulsed mass spectrometer -SOURCE: Zhurnal :2036-2066. -_f -Zona:vwst --:Chem-. noiption. ungs en _Ydro ftda ABSTIVICT: An Investigation of the adsorption of hydrogen on a tungsten surface was undertaken because of the large discrepancies among the results of other investiga- tors. 7hc flash method was employed, and the PRrtinl pressures of the dasorbed gas- es N,,-erc rvasured with a pulsed mass spectrometer, as described pravlously by the authors (ZhTF 34, 546,1954). A number of improvements were made in the apparatus. Vac,ua of the or-der of 10-9 torr were- attalnec! , and Nvit~i the system closed and the p-unps off , the pressure remained below 10- torr ior as 'ang as a wee1z. The ndsorb- er was a 12 cm long, 2- micron diameter polycrystalline Tungsten wire. It was flashed with direct current, and its resistance (and hence temperature) was zoasur- ed with high-frequeyjcy alternating current. Flash curves of pressure and resistance 1/3  L igoig-65 ACCESSION INP: AP4049049 versus t1me were simultaneously displayed on an oscilloscope. In all the experi- ments the desorption was complete at a temperature below IMAC; thus, no appreci- able quantity of atomic hydrogen was involved. The desorption curves were complex and i-ndicated the presence of two adsorbed pha-ses, both of which -were desorbed by second order reaction-a. The rate constants ana activation energies for the two phases were f:iund to be 1.4 x 10-6 cm->/sec and O.Gl eV, and 0.14 cm2/sec and 1.48 cV, respectively. These phases were not the same as those reported by J.Eisinger (J.Chem. Phys. 29,5,3 9,58) , and it is suggested "hat iis resullts were due to displace- merit of ndsorbed hydrogen by carbon monoxido, an effect that was observed and men- sured in the present worx. It is concluded --lat !ie two P~,.ases are d---e to two d.11- feront types of adsorption conters distributed over the surfaCe of the metal. Argu- L ments aro presented to support this view, and potential energy curves are given for adsorption in tho two different phasos. "The nuthors thank D.A.Idam~*rin for assis- tance in developing the cloctronica for the experimental apparatus.- Orig.art.has: 8 formulas and 11 figures. 2/3  S',M~I'M7D: OOA~ar64 E~r"-7: X SU13 CODE, OC NR RZU SOV: OOG OTMER: 014 3/3  106 /1114 A C Ti JQR U 3 t i n o vYU. K. Ageyev, licnav, TITLE',: Investigation of chemis~~iont 7,--7~,,,xlde on poly- cr"tFO,11-ne tungsten wires hr. mJ-ho-d t SOURCE: Zhurnal tekhnicheakoy f iziki, %,.3' , no, 1 ~7161'5 IL k-~6 -1!! 4 IOPIC TAGS: chemisorption, adsorption, carbou mcnoride, tungsten, activation energy 'ous work, of the Thii pAper reporti ev, 1964  -r. fl-l-Ab't - MaS5 tl On method was 1931ploy-ed, ar'8 a PLIISO~a 'was the desorbed n,,e res. ilual P'less"Ire mea g, re d t ter was used tr ame t 0 7- tur)g- 7~r 7'r, (3 'ad use Fir lit" j- Card 1/3  I 5h755--65 ACCESSION M AP501-5636 Three adsorbed phases with ciesorptior~ tivation _g,qtivatio 7, -_~ Pnd 3.87 eV were found; t'l-,,e:5e are tn tn e -,h!l!? e r e dU6 to nit'-Ogen. fhe n -nqc; qnectrometere The adsorption of CO was foun:~ to be  k-C)iS8I--UN N,-l: AP-5015636 ASSOCIATION: Fiziko-tel~hniclhesklv ir~-tltut im-A.F.1offe Ali' SSSR, Leningrad (Physico-tachnical InstituLe, AN OSO-0-IRI  i 3/3 'If .,- Card .  ACC NR, AP50293281 SOURCE CODE; UR/0057/65/035/011/2109/2110 AUTj1OR-. Axelev ,Monov, 1L... f ORG: Physico-technical Institute Im. Aj Ioffe. AN SSSR. L I d (Fiziko- tekhnicheakly institut AN SSSR) TITLE: Investigationof cheml to q f_2x sarpt n o I&en on polycrystalline tun sten by the flash method SOURCE: Zhurnal t6khnicheskoy--fiziki-,--v-.--35,- no. 11, 1965, 2109-2116 TOPIC TAGS: gas adsorption, chemisorption, oxygen, tunffsten ABSTRACT: The adsorption of oxygen on 12 cm long 0.025 mm diameter polycrystalline tungsten wires has been investigated by the flash method, using a pulsed time-of- flight mass spectrometer to measure the gas pressure during the flash. The apparatus and experimental technique have been described elsewhere by the authors and Yu. K. Ustupov (ZhTF 34, 3, 546, 2056 (1964)). After outgassing by the usual techniques In a vacuum of 10-9 mm H6, the tungsten wire was heated for 100 hours at 23000K in an atmosphere of 10-6 mm Hg of 02 and subsequently for 40 hours at 22000 K in 10-7 mm Hg of 02. After this treatment the adsorbed oxygen was.;desorbed as 02, whereas prior to the treatment only desorption of CO and C02 had been observed. An ionization gage gave higher pressure readings below 3 x 10-8 mm. Hg than did the mass spectrometer; this is ascribed to desorption of 0+ ions from the grid of the ionization gage. Therm Card 1/3  NRv APS028328 0 electron emission from the tungsten wire during flashing-,.was suppressed by an appro- priate potential difference between the wire and the walls of the spectrometer to avoid thermoolectron stimulated desorption of 02, CO, and C02 from the surrounding surfaces. Two adsorbed phases (named pl and 02) were distinguished. The parameters C, n, and E in the expression CNn exp (-E/kT) for the rate of decrease of the 7 sursace concentration N of adsorbed oxygen molecules were found to be (2 :L 0.6) x 10 cm /see 2, and 1.5 � 0.2 eV, respectively., for the P1 phase, and 120 + 18 cm2/sec, 2, and 6.1 � 0.4 eV, respectively, for the p3 phase. From the value 2 for n it is concluded that oxygen is adsorbed as atoms and esorbed as molecules. The stic)cing probability of an oxygen molecule on the tungsten surface was 0.14 at low surface concentrations and temperatures from 300 to 18000 K, where the adsorption is mainly into the 02 phase, and was 0.07 at 3000 K and higher suetace concentrations where the adsorption is mainly Into the 13, phase. The equiliWium concentration of adsorbed oxygen on tungsten at 3000 K was 5 x 1014 molecule/cm2, with roughly half the adatoms in each of the two phases, It was found that oxygen displaces adsorbed CO molecules from the high temper-, ature 02 state; In this process One 02 molecule displaces two CO molecules. 7be re- sults of the present work are compared with those of a number of other investigators. The value 0.14 for the sticking probability is in agreement with the finding of J.A. Becker, E.J.Becker, and R.G.Brandes (J. Appl. Phys., 32, 411, 1961) but is much smallet then the values obtained by J.Elsinger (J. Chem.Phys, , 30, 412, 1959) and R,R.Schlier (J.Appl. Phys.j 29, 1162, 1958). The value obtained-for the equilibrium concentration of adsorbed oxygen agrees with those found by Becker, Becker and Brandes, and by  ACC NR' AP5028328 0 Schlier (lot. cit.); from this it is concluded that desorption of oxygen as oxygen atoms or as tungsten oxides (which would not have been detected In the present work) did not occur to a significant degree. No indication was found of significant diffu- sion of oxygen Into the body of the adsorbent. Orig. art. has: 3 formulas and 6 figures. SUB CODE: 20,07 SUBM DATE: ISMar65/ ORIG. REF: 007 07H REP: 011  AGEYEV, V.S.J_ MKOVAI V.F.; KOSTANDOVy A.I., red.izd-va; HOZOV, ".. .,. -.11L-Sa, tekhn.red. [Lay6ut Vf shaped parts for plaut ventilation] Paskroi fasomVkh chastei promyshle=ni ventiliatsii. Leningrad Gosstroiizdat, 1963. 12-1 p. (MIRA 17:31  AGEYEV, V.V. Foliar feeding of corn with trace element fertilizers. Zemledelie 24 no.3:76-77 Mr 162. (MIRA 150) 1. Kabardino-Balkarskaya gosudarstvennaya sellskokhozyaystvennaya opytnaya stantsiya. (Corn (Maize)--Fertilizers and manures) (Trace elements)  AnYEV, V.V. Possibilities of increasing feed production. Zemledelle 25 no.l2t42-43 D 163. (MIRA 17:4) 1. Kabardino-Balkarskaya gosudarstvennaya, sellskokhozyaystvennaya opytnaya stantslya.  BERBEKOV, N.L.; -AGS'YEVY VIV. Harvesting peas with lateral 2") no.~;:60-61 Je 164, 17:8) 1. Kabardino-Balkarskaya gosudarstverinaya sel'skokhozyaystvennaya opytnaya stantsiya.  ~~,V!30-66 Fdr (1) GD-2 ACC NR- AP6007337 s0Uji(;i-', Cow,",: Ult/oz92/66/000/OOZ/0006/0008 AUTHOR: Lodochnikov, E. A. (Engineer); Sherninov, V. G. (Engineer); Parkhomenko, G. A. (Engineer); 5~1~, V. M. (Engineer); Ageyev, V. Ye. (Engineer); Vlasova, V. P. (Engineer); Spannut, V. S. (Engin' r ORG. none TITLE: Electric microdrivcs of the MB series SOURCE: Elektrotekhnika, no. 2, 1966, 6-8 TOPIC TAGS: miniature motor, electric motor, servomotor MD miniature motor 0 ABSTRACT: A miniature contactless IvM-series d-c motoiis briefly described. It comprises the motor proper, a transformer -type transistorized rotor-position sensor, and a transistorized commutator; its principal circuit diagrarn is shown. Card 1 /Z UDC; 6Z1. 313. 13 - 181.4 Card 2/2 <  AcCk'Rl AP6033582 SOURCE CODE' uR/M1166/oo8/01 AUrHOR: Agayev, Ya. ; Allanazarov, A. ORG: Physico technical Institute, Academy of Sciences TurkmSSR, Ashkhabad (Fiziko- tekhoicheskiy inatitut AN TurkmSSR) TITLE: Negative longitudinal magnetoresistance in n-InAs SOURCE: Fizika tvardogo tela, v. 8, no. 10, 1966, 3110-3112 TOPIC TAGS: magnetoresistance, indium compound, antimonide, galvanomagnetic effect, electron scattering, phonon, impurity scattering ABSTRACT: This is a continuation of earlier measurements of magnetoresistance in InAs, which were confined to transverse ma6netic field. The present meaBurements were made in both longitudinal and transverse fields of intensity up to lOkOe at tempera- tures 90 and 300K. The samples were cut from homogeneous single-crystal ingots and measured by a de null method. The measurements show that the transverse magneto- resistance is positive and increases in weak fields in proportion to the square of tile! field. Starting with kOe at 300K and '~, 2 kOe at 90K, the field dependence becomenj-- much weaker, in agreement with the earlier results. A negative msgnetoreAist(1nce7 proportional to the square of the field in weak fields, wan observed in longitudinal fields. There was practically no change in the effect on going from room to nitrogen temperature. This negative longitudinal magnetoresistance cannot be ancribed to in- Card i 1P  ACC NR: AP6033582 homogeneities in the samples and cannot explain within the framework of the usual of galvanomagnetic phenomena. It can be explained, however, by the theory proposed by L. S. Dubinskaya (M V. 7, 3821, 1965), which is valid for small values of the quantum parameter a = tw/W (w cyclotron frequency), since in the present ex- periments a 4, 0.2 for fields up to lOkOe. The results agree also with the increased role of scattering by acoustic vibrations with increasing impurity concentration in the InAs, deduced in the earlier investigation from a study of its electric and galvanomagnetic properties. Orig. art. has: 1 figure. SUB CODE: 20/ SUBM DATE: 20NOY65/ ORIG REF:. 0091 OTH REF: 003  L 39551-66 LVT(l)/V,,,-C(k)-2/T TJP(c) AT/GD ~ACC NR: AP6008937 SOURCE CODE; UR/0202/6.51000/005/0007/OOIZ !AUTI-16R. Agayev, Ya.., Voronkova, N. M,; Zolotarevi--V. F- IORG: none !TITLE: Electric and photo- electromagnetic properties of semiconductors in- alternating magnetic fields AN TurkmSSR. Izvestiya. Seriya fiziko-tekhnicheskikh, khin-AcheslrJkh ii geologicheskikh nauk, no. 5, 1965, 7-12 ..[TOPIC TAGS: semiconductor, semiconductor research aiternating mAgne tic field 1ABSTRACT: The mechanism of carrier dispersion and its effect on the electric and photoelectric properties of InSb and GaAs,placed in an iltcrnating magnetic are theoretically investigated. It is found that: (1) Minimum ratio of the ~-'t coefficients of power series of electric and photoelectric err~Vs corresponds to th a I./ z   AVEUMEV,, A.S.., red.; AGEZZV.-Y&.4~.dOts-, otv. red.; AREFIYEV, V.A.) dots., kand. elcon. nauk, red.; DWIDOV, S.F., akademik) red.; WSHIN, V.Ye.) dots.) red.; KOGAN, A.Ya., starshiy prepodav., red.; MIKHAWV, V,I,j starshiy prepod6vatelf, red.; PITAYEVSKIY, P.I., prof., red.; SLOBODIN, V.M., prof., red.; SIIOWKHOV, Ye.I., red. (Problems in the now system of agricultural planning]Voprosy no- vogo poriadka planirovaniia sel'shogo khoziaistva; trudy. Kyiby- shev, Kulbyshevakii planovoi in-t, 1961. 419 p. (MIRA 15:12) 1. Mezhvusovskaya nauchnaya konferentsiya, KuibyBhev, 1960. 2. Zameatitell predo6datelya Kuybyshevokoy oblastnoy komisaii (for Averkiyev). 3. Kuybyshevskiy planovyy institut (for Ageyev, Makhalov, Karshin). 4. DeystvitelInyy chlen Vsesoyuzncg, akademii sellskokhozyaystvennykh nauk imeni V.I.Lenina i Moskovskaya or- dena Lenina sel'skokho2yaystvennaya akademiya imeni K.A.Timirynev (for Demidov). 5. Urallskiy filial AkadeiTii nauk SSSR (for Slobodin). 6. Zamestitell nachallnika otdela sel'skogo khozyaystva i zagotovok Gosudarstvennogo planovogo komiteta Soveta Ministrov RSFSR (for Sholokhov). (Agricultural policy)  ALENSANDER., K,, (Alexander, Kar-I.F.); *EYEV, Xe-r. [trawlator] Isotope separation by therml diffunion in the liquid phase. Usp.fiz.nauk 76 no.4-'711-748 Ap 162. (MRA -15:7) (Isotope separation)  SEMIOKHIN,I.A.; AGEYEV, Ye.P.; FANCHENKOV, G.M.; SIURNOV, B.I. Separarion of oxygen isotopes by the thermodiffusion method. Zhur. fiz. khim. 36 no.ltl24-129 Ja 162. OUM 16:8) 1. Moskovady gosi;Aarstvennyy universitet im. Lomonosova. (Oxygen-.Isotopes) (Diffusion)  AID P 5514 Subject USSR/Propaganda Card 1/1 Pub. 58 - 5/17 Authors : Skoblikov, A., Yu. Ageyev, Yu. Shvachko, Yu. Sirotkin, and V. Ushakov.- Title : The leading role of the members of the Young Communist League. Periodical : Kryl. rod., 2, 10-11, F 1957 Abstract : Five short propaganda articles emphasizing the role of the Komsomol organizations and their members in kindling the interest of the Soviet masses for the aviation and aviation sports. 5 photos. Institution : None Submitted : No date  MESTECHKIN, Yu.; ESTRIN, K., inzh.; AGIMP Yu., inzh. : - *Plastics used in the m%cbtner7 of grain-processing enter- ,?rises. Xuk.-elev. prom. 26 no. 11:20-22 11 '(,0 iMLU 13:11) 1, Starshiy inthener Glavsnaba Gosudarstvennogo komiteta Soveta Hinistrov SSSR po khleboonabzhaniyu (for Mestechkin). 2. Spetselevatormelletroy (for Estrin, Ageyev). (Grain--Handling machinery) (Plastics) - (Grain--Milling machinery)  ,Vj Yu.D. Frocedures in placing inmilators shoij-1A br.; chauged. IVt(,M. talem. i sviaz? 8 no.1:4-1 Ja 164. (1,11 Wk 17: 3) 1. liachallnik stroitolln~)-montazhnogo I:oyr,,zda No.10 Vse!-nl,-.noE.0 tresta zatrodov Fw proizvodstva sredst.v sinalimtsiA GJavmont.,'l?Ji-- stroya 1.1-inisterstva transportnogo stroited I s I smi SSSIR.  'Ulf/043'3/6'6-/0'00-/O'lO'/00'43 _/0045 AUTHOR: Agey6va, A* (Aspirant) /0 ORG: VIZR TITLE; Natural enemies of the bean-seed fly SOURCE: Zashchita rasteniy, no. 10, 1966, 43-45 TOPIC TAGSI plant peat, bean seed fly, peat control, U"Itr~~ . A-tt /00- ABSTRAC Predatory insects, disease, and parasites are the principal enemies of the bean-seed fly. The parasites Ch. cilicrura and Euooela tanabae often account for 602 of the deaths in a fly population, and fungus diseases are the second greatest killers of these pests* The eggs are laid in the soil where the developing embryos pick up para- sites which affect pupae; infected pupae are shorter and thinner than healthy ones. Descriptions of the parasites and predators of this post are given* Orig, art, hast 3 figures and 1 table* [W'A, 501 SUB COM 06/ SUBM DATE: none Card 1/1 WC t 632,937,12  L 527 -0/1KPF(a -Pc-4/Fr-4 FM 7 98-65 EWT( ACCESSION NR: AnO16185 VR/0079/64/034/012/~9338/3942 'i AUMOR-. Pudovik, -!L..~ Xhusainovit, S. G.; Ageyeva, A. B. TITLE: Reactiy--na vt nucleophilto iva,,pnta vitb estere osainic acid o", propynylph SOURCE., Miurnal ol shchey khitmii, v. no. 12, 1964, yn --1942 ~4 TOPIC TAGS: phosplinic acid, estea-, catalysis ,Abstract: It waa found that dialk~,Iphosphorous acids, mercaptans, and amines are added to dialkyl eaters of propynylphosphicic acid in the presence of alkaline catalysts (ilcoholateB of the alkali metals) or in :-Lhe absence of catalysts (additiDn of amines: diethylamine and piperi- ;dine), to form mixtures of addition products containing one or two mole- jc%A1--B of tht; "t;leofh-ilic reago-nLis. The -ratio of the products formed is ''determined by the ratio of the starting materials in the reaction mixture.*) Alcohols were fouad to add to dijill-,vl esters of propynylphosphinic acid, t,~ form (flialk-vlt)tiosphone)alkoxy3rcpEnt3s. A". hiph temp.-[,raturea (200-2050)f  -f 'Ormulas and 1 table, NO RXF SOV: 004 CTILM: 001 JPRS Cc rd -2A_  WL "Y :7 2~psht ~y~nG.~q. AILO~reva, A. TITTLE: Increasing 'Che corrosion ren1stance of aluminum alloy pipes by the aladdinK thod Re CITUD 80MICE*. 3b, Peredovy-yo motody knim. telldinol. i kontrolya proiz-va, Rost:)v-na-Donu, Rostovsk. wi-t. 1%4, 24-26 TOPIC TAGS- aLuminum base alloy, aluminum, metal cladding, pipe production, metal corrosion, oorroallori resi3tance TRANSLATION: The technolog~7' of the production of pipes made of various alumlnam allo- clid with aiuminum on the Inner surface, yo I I I has been devel.)Dod and intro~i-.ce--' 'Into ind-3--ist-r-y. but aljo other corrosion re.!iatant instals which,.e-can be welded to aluminum iLlloyaj, may be famploired an a coating. -^" Coatin the inner surface of the pipe with ductf-le aluminum permits use of higber extruBion speeds, Prom the abstraot, Cardl/I SUB CO-)E. M ENCL: 00  AGEYEVAI A,G.j aspirantka Sprout flies (Chortophila). Zashch. rast. ot vred. i bol. 9 no*5:48-49 164. (MIM 17:6) 1. Vsesoyuznyy institut zashchity rasteniy.  AGEYEVA, A.G. Species and abundance of Chortophila Macq. flies in populations of the virgin lands and wheat fields of Kustanay Province. Trudy Vses. ent. ob-va 50:89-102 165. (ERA 18:5)  ASATIANI, V.S.; prinimali uchastiye: AGFYICVA, A,K.; KMLIDZE, O.Y.; PICMMYA, T.P.; MIDZN, Tovs, Data on the comparative biochemistry of man and monkey. Ukr.biokhim. zhur. ~O ug.3:392-401 158- (MMA 13:3) 1. State Medical Institute, Tbilisi. (MOMYS) (13LOOD--ANLLYSIS AND CHEMISTRY)  AGEYEVAI A. K.p KEKFIIDZE~ 0. V., KITIYAt T. D., KORDZAIOiIYA, T. P., KUNCHULIYA, V. G., --,7R-UT-D-Z-E,--m-'--V-.~7~nEysK-TRi G. V. (USSR). 1: P I , PICHKHAYA, T. P., ASATWI, V. S., ANASAHVILI, A. Ts., The Effect of the Mountainous Climate on Biochemical Aspects of Human Blood. report presented at the 5th Int'l. Biochemistry Congrosop Moscow, 10-16 Aug. 1961.