SCIENTIFIC ABSTRACT ABRAMOV, A. N. - ABRAMOV, B. N.

5/1 -'O/U'- 3/0~,0/001/050/072 B192/E362 AUTHOR; Abrailov. A-N. TITLE: Ultralow-iCrequency genevator of short pulses PE-RIODICAL: Pribory i teWini1m eksperimonta, no. 1, 1963, 170 - 171 Tl,Y',T: The generator is --homl in Fir.r. 1. This is essentially a 3chatitt trizger with a capacitance C, connected to its input 'grid , hich is elvirged through the resi N.1 . 6 t all c 0 11 Initially, the first zubo is cut of-f and the sccond tube is conductinr,. r e generative changeover takes place in the circuit %-hon a voltage sufficient for openinZ the first tube is reached on C 1 S inc a 11a Ra, I the voltaZa at the cathodes of the tubes falls SuffiCientlY for the potential oil the grid of the first tube to be above the common-cathodo potential ind so C 1 dischargazi tl-irou,(.rh tho grid-cathodo resistance of the l'irst tube mid tho resistance lzl~ . The notwork R 2 be R 3 is dc~i~;ncd so that tho second tube becoizies conducting when the voltage across C1 becoi-,les equal to Card 171-2-  Ultrt.low-frequency generat6r .... S/120/63/ooo/001/05CI/072 r,,192/2382 that of the cathodo potential. The second changeover is thus attaJ.ned and the circuit roturns- to Its initial state. It is ,sable to connect the thyratron c,cross 1. advi C in the practical generator circuit. This reduces the discharge tii-,ia of CIand perm:Ltz rod"ction of the pul,-,e duration to 0.2 It& ,A circuit furnished with a thyratron was built and ill- was found that the freqaency ingtability was 0.2 - and that the mark-to-space ratio of 10 could be obtained. There are 2 ficures. L ASSOCIATION: Institut fizilci AN ArniSSR (Institute of Physics of the ArmSSR) SUD.NXITTED: April 8, 1962 R, ~01 401 j?z ,?1 qz RI( Rj Card 2/2 P i  KOLOM IN IGunnadiy Anireyevich; ABRAMOV, Anatoliy Nikolayevich; . 14~- , tr- 3USHMET, Aziatoliy PcTM%-crj,--MlT 1LI14 I .1 'M -re- d . [Flakint, 901 m. of drift in one month with the FK-3 cutter-loaclor nt tho Polysaeva-2 Minel 901 m alArcka v ii~esint.- kombabioin FX-3 na Bliakhte "Polysaovokain-2.11 Noskvi. , TSentr. ln-t informatoii i tekhniko-ekon. issle- dovanli ugollnoll I)ronWshl-.p 1963. 11 1). 17:7)  ABRAMOV, MI.; KOLOWN, G.A. Makir)g .1245 m of drift with the PX-3 combine. Ugoll Y9 no.lls24-27 N 164. (MIRA 18:2) 1, Shakhta IlPolysavevshaya-2" kombinata Kuzbassugoll.  FOuRCE CODE: UR/0051/65/0 A CC UR: "5027683 19/005/080/0030 AUTHOR! Tolstoy, N, A,; Akmov, A. P. ORG: None TITLE- Nonlinear quenching of manganese chloride luminescence with increased ex- citution Intensity SOURCE: Optlka I spektroskoptya, v. 19, no. 5, 1965, 830-831 TOPT TAGS: luminescence quenching, luminescent crystal, luminescence center, luminophor ABSTRACT- The authors Investigate the excitation by strong light of monomolecular luminophors in the intermediate excitation Intensity region where the probability of forced emission becomes equal to the probability of spontaneous emission (the case of "super- luminescence'). The radiation centers In luminescent crystals used normally for the generation of emission of superluminescence appear usually in "diluted" concentrati(nis. The present note deals with the kinetic characteristics of luminosity in the intermediate region for a system of "undiluted" concentration of luminous centers, Le. , for mono- molecular IUMthophors of the "pure salt" type. Meaeurement results are presented for the quenching time"'Cand the radiation yield has a function of the excitation intensity E Card 1/2 UDC. 535.373.2  ABRAMOV, A.P., Inzhener; ZAKMOV. - - ~ -A -f ~ More accurate calculation no.2i4o-42 S 156. (Railroads-Cost A.G., kandidat skonomicheskikh nauk. of haulrge costs* Vest*TSNII MPS 1~1 (MRA 9:12) of operation)  ABRAMOV. A., P.. inzhener. %_ Monetary evaluation of improving the use of freight containers. Trudy TSNII MPS no.120:67-82 '56. (MLRA 9:12) (Railroads-Freight)  I Al-PAMOV. A.P,; ZAKHAHOV, A. Is,.; Kj'rcv. G.V.; P-r,.;KOVA, rodmktor. KRIT OV, r.L.. tek-nUher,:cij redaktor. [Cost of haultng railroad .reirht and freient rates.j Sebestolmoet' %he1e%nodorczhnykh ipe7evonok it grusovye tarify. Yoskvn, Goa.tmnsn. zhel-dor.tzd-vo, 19-5?. 177 D. .(1-loscow, Vensolusnyl nAuchno- issladovatellskil instit,it :!he1eznodnr%hnogo transports. Trudy. no.134). (AILRA 10: 7) (RallroAdp-Rates)  ABRLMOV, A.P. I - Ways of lowering costs when opening freight container points. Vest. TBNII KPS 16 no.7t47-49 0 157. (HLRA 10t11) (Railroads-Yraight)  ABR"OV, A.P.,insh. Determining efficient distances for transporting freight in containers. Trudy TbIIII MPS no.162:208-225 '58. WRA 12:4) (Railroads--Freight) (Containers)  ANUMOV, A.P., kand. okon. nauk; BARKOV, N~L, kBnd. ekon. nauk; -'-S19ikVSKIY, M.A., Itand. ekan. nauk Xconomic evaluation of measures for a Creator efficiency of transportation. Zhel. dor. transp. 41 no.10:16-20 0 '59. (MIRA 13:2) (Railroads--7~reight)  ABRAMOV.1-A.F.; KOTOV, G.V.; SHCHERBAKOV, P.D.# retsenzent; GUBAREVAp N.T.p red.; USENKO, L.A., tekhn. red. (Cost of rail freight transportation and how to reduce it] Sebe- stoimost' zhele=crlorozhnykh perevozok i puti ee snizheniia. Mo- skva, Vses. izdatellsko-poligr. ob"edinenie M-va putei soobsbehe- niia, 1961. 41 p,. (MIRA 14:7) (Railroads--Cost of operation) (Railroads-Freight)  AbIW10V 0 A,.P.- I kanddakon.nauk; YELISEYEVA, T.V., inzh.; FI1JPPOVA, L.S. I red.; EHITROVA, N.A., tekhn. red. (Costs of various types of freight transportation by railroadl Sebestoinost' perevozok razl-ichrWkh gruzov na zheleznykh dora- gakh. Moskva., Voes.izdatellsko-poligr.ob"edinenie M-va putei soobshcheniia, 1961. 27 p. (MIRA 14:32) (Railroad.--Freight) (Railroads-Cost of operation)  ZAKHAROV, A.G., kand.ekon.nauk, naucILnyy sotrudnik; SHISHOV, G.A., inzh.-ekonondstp nauchny~ sotrudnik; MUMMA, Z.I., inzb.- ekonomist,. riaucluiyy sotrudnik; TVERSKOY, K,,N., ret&cnzent; retsenzent; PETRlUKlq-;OVSKIY, I.V., retsenzent; KIJZNET.SOV, A.N., re~senzent; KOLTUNOVA, M.P,, rod.; USENKO, L.A,., tokhn.i(~d. (Economic evaluation of the operational indices of railroa~3j Zkonomichaskaia. otsenka ekspluatatsionnyk-h polmzatelei raboty dorog. Moskva, Vses.izdatellska-poliFr. ob"odinenie 11-va putei soob., 19611. 174 P. (Moscow. Voe.-~oiuznyl nauchno- i c sled ovatel I skii institut zhelemodorozhnogo transporta. Trady, no.218) (MIRA 15: 1) L, Jekt.)r okonomiki Urallskogo otdaleriiya Vseso)-umcgo i,,mchno.. iscledovatel5skogo 11w.-Itituta 7,helezrodox-ozhnogo tramsporta (for _htihc; Zq_ -va). -Cost of oparation)  ABRAMOVp A.P.p k~ind.ekon.nank Estimating labor input in technical and economic cal.vuldtior:.s. Vest* TSNII MIPS 20 rio.2:40-46 161, WIRA 3.4, 3) (Time study) (Railroads--Cost of operation)  ABRAMOV, A.P., kand,okonom.nauk; YELISEYLVA, T.V.,, inzh. Improving the railroad trawportation rateo. Vest.TSHII 19S 20 no,5:52-55 161. (MIRA 14:8) (Railroads-Rates)  YELISEYEVAp T.V.p inzh.,- ADRAMOV, A-P.,, karul.ekon.nauk Need for more flexible methods for the calculation of transpor- tation costs ("Calculation and analysis of railroad transportation coats*-by V.N*Orlovj A.S.Phudov. Reviewed by T.V.Eliseeva, A.P. Abramov), Zhei.dor.tia4sp. 43 no.2t94-96 F 161. (MIRA 14W (R&ilroads-Cdst of operation) (Orlov, V.ri.) (Chtdovs A.S.)  ABRAMV, A.P.; xOTov, G.v.; kand.ekonom.nauk Some economic problems of the utilization of the new tMs of traction. Zhel.dor.trarsp. " no.807-41 Ag 162. (MIRA 15:8) (Railroads-Costs of operation)  ABRAMOT, A P., kand. skonom. nauk; SDUNOVSKIY, M. A., kand. skonom. a__ nauk; TRUBIKHIK, M. G., kand. ekonam. nauk; FLLTSHKAN, F. M., kand. ekonom. nauk Waye of improving the planning and material incentive in rail- road management. Zhel. dor. transp. 45 no.105-60 Ja)163. (MIRA 16:4 (Railroado--Management)  ABRAMOV, A.P., kand.ekonom.nauk Potentials for a furthor reduction of operation costs fnr pn4scinge.- transportation. Zhal.dor.transp. 45 no.8:21-25 Ag 163. (MIRA 16:9) (Railroads-Cost of operation)  ABRAMOV, A.P., kand.ekonom.nauk P. - Methoda for Wal.f%wing of the initial and final operations. Zhel.- no.12:21-23 D 163. (MIRA 1712) dor.transp.,45 .1 .  ABRAMOV, A.P., ~,~4tid..Aoncm.nauk, 17(ZLs,!0'-vl, liti."Uzation of the rolling istock and ccq+, reduct-ion In passengir traffi2~ Zhej.iorotrmnsp. 46 nu.llz.15,-22 N 164. (MIRA'.!8i-l)  ABRAMOV, A.P., kand.ekon. nauk; YELISEYEVA, TV,p 'r*.and& ekon. nauk Potentials Tor reducing the naintenance costs of pELssenger carse Vest, TSNII MP3 24 no,6:20-14 165o (MIRA 18:9)  L 942 6A WH -Ijp(c) ~_A SWRCE CODE: UlVO051/66/020/002/0345/0346 AUMOR: Nletay,, No Aot, Abrawvs Ae P. ORD: non 1% TrIU; Monlinear quenching of the 1Wlaeocence of' der intense exeitatiod 4 GOURCIT; Qptika i spektroskopiyap Y 20# no* 2, *661 345-346 TOPIC V45: rubyp lumbescence quenching,, optic center, light excitation, light i absorption., fwAlvated crystal,0 - re2a3mtion process, temperature dependencej;'.1uLWies_ cence speArum .MZ7RACT: This is a continuatin, of earlier work, (Opt. i spekbr. v. 19, 830,,1965)p where a new type of luminescenct? quenching, connected with interaction between ex-~ cited centersj, was di-scaverede To check w1rether this nonlinear quenching is con- nected in some way with the spatial proximity of excited states which or1gin&te'1A'.,- the Initial aet of absorption of the cowiting lightj the authors carried out vVerl-" raente to determine whether nonlinear quenching occurs in the activated crystals whose radiation centers are diluted. The tests were made on powdered synthetic ruby con. taining a high concentration of chromium (2.5%). Measurements were made 'of the yield and relaxation, using the same experimental apparatus as in the earlier study. A pulse method for zoessuring yield was employcdp and will be described later. Plots were taken of the decay time of the R line of ruby as a function of tewperatu:re in' both weak and intenue excitation, of the yield and initial decay time as functions of 17the intensity of the mAting lights Tbe decay time wao practically uniform iYver the 312 UDC: 621-375-9: 535-CCA-14  L 242fifit" rACC NR, AIP6W7013 -lilt enure -spectrum at all temperatureeP o4ing to the high chmium concentratioa. The' nonlinear quenching was observed not' only ir. the region of the R liries, but 4~180 in Ahe revaining parts of the luminesdence spectrum. This quenching was mantrent in a near3y two-fold reduction of the decay dime with increase in intensity. TUG non- ,linear quencbiM is observed at lower concentrationn~ too, down to 0.5%. HcAieverj other conditions being equal, it becomes weaker as the chromium concentration do- creaseft. This concentration dependence will be inventigated in a later papez-, is concluded that the now type of quenching 'in not, a ebaracteriatic of pure salts pnly wAh undiluted radiation centers., but can also occur in activated cz~,Pstalo with A-low concentration of luminescence centers. Thin result in of imp x an b ot ce f r estab 110hing the meebanism vbereby excited states interact to produce nonlinear qPenching of lv=~eecences Orig* art, has: 2 figures. OD CODS: 20/ SUBM PATEt 1?May65/ am Mw: 001 "r., a CcTd RIO dJA,  EWITM - IM0 L 27208-66 ACC NR Wm1567 SOURCE CODE: UR/0051/66/020/003/049,15/0498 --AUTHOR., -Abramov, A. P. ORG: none TIILE% -On the possible theoretical interpretation of nonlinear quenchIng,"' SOURCE** Optika I spektroskopiya, v. 20, no. 3, 1966, 496-498 TOPIC TAGS: luminescence quenching, photoluminescence, luminor, activated crystal, ruby nonlinear effect, luminescence center, quantum yield, kinetic equation ABISTRACT: The auth6r explains theoretically a new type of photolumines- cence quenching (quenching of the third kind or nonlinear quenching which the-y-Fa-ve obaerved prevIously (Opt. I spektr. v. 20, 345, 19 1 ana V. 19, 830, 1965) in luminors of the type of pure salts (uranyl malts, manganese chloride) are activated crystals (ruby with appreciable chromium concentration). A kinetic equation is set up to descritie the nonlinear quenching, on the basis of the assumption that the excited state migrates over the luminescence centers and the number of m1gration events during the time of the excited state is sufficiently large. The excited state when migrating can be transferred not only to a non-excited- [ Card 1/2 UDC: 535 37~.2.001.1 I  L 27208-66 ACC NR, __~_pCoj_j_ .567 center but also to a center which to already in the excited state.. This doubly-excited center serves as the center of the nonlinear quenching, inasmuch as the quantum yield of its luminescence is half the yield of the ordinary excited center. A stationary solution is obtained for the derived kinetic equation and theoretically obtained quantum yield,, calculated from this solution, agrees satisfactorily with experinx.?nt. The results show that from the formally-kinetic point of view the lumirBs cence to the presence of quenching of the third kind can be characterized as :!onsisting of monomolecular glow with b1molecular quenching, -Orig, art. has; 2 figures and 9 formulas. SUB CODE: 20/ OR-IG-REF: 004/,-, SUBM DATE:- 27May65/  L 31507-66 EWT(m)/EWP(t)/ETI IJP(c.) JD/WW/JG ACC NR: AP601303T SOUPCE CODE: UR/005i/66/o2o/oo4/0742/O744 AUTHOR: Tolstoy,, N. A.; Abramov) A. P.; Abramova) 1. N. ORG: none V1 ~ 7 TITLE: Binary centers produced by light in uranyl salts SOURCE- Optiks i opektrookopiya., v. 20., no. 4. 19661 742-744 TOPIC TAGS: uranyl nitrate, uranium compound, luminor, luminescence center, fluorescence quenching, law temperature research, relaxation process, exc!~ted state .414911r e-tel7wrle.,V ABSTRACT: This in a continuation of earlier work (Opt. i spektr. v. 20, k961 1966 and earlier), dealing with a newly observed nonlinear extinction of monom,,Plecular luminors when exposed to high- intensity light. This extinction is strongly pro- nowiced in uranyl salts. The present note reports another unique phenomerion ob- served by the authors in uranyl salts excited with ultraviolet at low temperature, wherein prior excitation with a strong uv dose at liquid-nitrogen temperature causes a decrease in the stationary glow brightness and the relaxation tillie. 11'his decrease is ascribed to the formation of some centers in the uranyl salt. 'Ibese centers remain stable so long as the temperature remains low. Die phenomenon was Cori UDC: 535-370  L 3).507-66 ACC )IM: Ap6ol3()37 0 obser~red in uranyl sulfate, uranyl nitrate, and cesium-uranyl nitrate, and was strongest in the latter. Mcasurements of the relative relaxation tirres ana an anaIysis of the data indicate that the formation of the centers is a nonlinear process) and that the centers are binary combinations of excited state, but an explF-nation of the effect calls for more reaearch. Orig. art. has; I figure and I table. SUB CODE: 20/ SUBM DATE: 27Sep65/ oRiG REF: oo3 Card 2/2 1-h C,  L 04829-67 ACC NRi A 0-2-6-9,68 AUTHOR: Tolstoy, N. A.; ~bramovp A. P. ORGi none* SOURCE CODD-1 UR/0051/66/021/002/0171/0177 TITIS: XA~minoscence of uranyl salts at an increased level of optical excitation SOURCEI Optika i spektroskopiya, v. 21, no. 2v 1966, 171-177 TOPIC TAGSt uranium compoundl luminescence centers luminescence quenchingi IN ation , 41r.1yr F-ro17nro4,,) ABSTRACTi The kinotics of photoluminescance of uranyl salts at An increased oxcita- tion lovcil were studied,by using IFK-120 and ISK-25 flash Imps with a UFS-2! ultravi- olet filter. The salts were coarsely crystalline powders of Cs[U0~_(NGQjJ, U0~'S04-,'c!H20 in the fonn of layers hold between quartz plates, and also U020D -61~2 3)2 in the forn, of a thin layer fused in between quartz plates. The relaxation 'tiffic. r and relative yieldqj were found to decrease with rising excitation intensity, It is shown that this phenomenon cannot be Accounted for by the heating of the lwilnoFbor under tho influence of tho exciting lightp but constitutes a now typo of quenching (flquenching of the third kind") due to an incroaso in the probability of norixadiative transitions with increasing concentration of the excited luminescence conter-36' The ob:;ervod phenomena cannot bo alternatively intorpreted as being the result ot an in- crease in the probability of radiative transitions or of an apparent decroatit) in  L %829-67 CC----' ___AFk~O 0 NRi A yield due to the increased transparency of the substance subjected to strong excita- tion. The nonexponential, character of the law of luninescence quenching at the in- creased excitation level is demonstrated. It is postulated that the phenomena do- scribed are duo to the meeting of migrating excitations on a single luminescence cen- ter. Orig. art. hass 5 figures and 9 formulas. SUB CODEt 20/ SUEM DATE: 23Apr65/ ORIG REFS 004/ OTH REFS 001  L 1018D-6 W(I)/EWP(a)/FWT(m)/BDS/FYC(b)-2- AMC/ HsD SsD-4G/VH/1JP(C')AH ACCESSION-NE. AP30OUSa7 S/0051/63/014/005/(.1691/0699 AUTHOR., Tolstoy, N. A.; Abremov, A. P. TITLE: Kinetics of emission of chrownium lualnophorsi'VII. The ruby (Pttrt 3) On the interaction of chromium ions. Steady-state emission SOURCE: Optiks i speXtaoskopiya,, v. 14, no. 5, 1963, 69.1-699 TCTIC TAGS: luminescence of ruby TEM The seventh article in a series on the kinetics of emission of! cbromium luninophors reports the results of quantitative stlxues of t1:15 ratio of steady-state emission intensity of side lines ("dimer" emisalon) to main doublet emission intensity ("moncmer" emission) in finely pm~4ered rtby (microcrystals grown frcm solutions) havins various Cr coneentra:,:;Lons. This ratio increases with concentration, first linearly and then "superlinearly." The intensity-of the linear se ti an be explained. on the basis of M -density- theory only if it ics asmsumed either that %e absorption of the excitation light is 10 times greater for dimers thaz~ for =nomers or that the number of dimers is 10 times greater than statistically Card 1/2 ............. .. ... .  L 10180-63 ACCESSION NR: AP30DO587 predicted, Analysis of the superlinear section shows sensitization of the dimers by the monmers, beginning at 0.0 Cr concentration. This sensitization decreasev with increased temperatVire. An alternate explanation of the linear and superlinear sections, based on dimer properties, is offered. Monomer emission of the ruby is shown to have an extensiou into the long-wave region. The emission from this region Increases with ino eased te*erature. "The authors wm*mly thank E.-P,-Feofilov for his valuable discussions," Orig. art. has: 5 figures, 5 formulas, and 1 table. ASSOCIATION: none SU3aT=: 23jul62 DATE AcQ: 12j=63 ENCL: 00 StM CODE: 00 Card 2/2 IWO W SOV. 007 09MER: OW  AEPAYOVI A. S. ABBAMOV. A*S.; MMYNIN, B.I.; TZBSIZV, H.V., redaktor; 110VOCHADOV. A.4., reda or; GUROVA. O.A., tekhnicheskiy redaktor. [Phel, furnaces and boiler installations] Toplivo, topki i ko- telInye ustanovki. Moskva, Izd-vo Ministerstva kommmllnogo khosialstva BMW, 1953. 247 p. (mm 7.m) (Boilers)  K10-2/El -i'l'l MITTHO_'~ 14 1 1 1 1 nnshrh I kov MI. Abrar OV. Y, 1_1 a T- 1 V . 1 Ne chayev, Yu. -A..! Pozdn-V.akov, B. S., Ponomare\,-StepDqy,_~~I.,* Ye, ak 0 v I q v, TITLE: The "Hornashka" higli-teniperature runctor -Convcl ter SOURCEz Atomnaya energiya, v. 17, no. 5, 1.964, 329-335 TOPIC TAGS: nuclear power react,-,r, reactor feasih.ility study, re- search reactor, thermoelectric converter/Romaslika C ard 113 R, 5 "T  ACCESSION NR: AP4049532 converter unit, which has been in ocwration at tho, Xurchato,, Atomic Energy Institute snce Auq,~~t 1964. Th!2 fuel useo is uran_ii-m di- a rl-, i J e e n _r _i L: I i Deryllium Eire aised as reflectors. Electricity is generated by silicon-germanium semicon- ductor tbermocouples distributed on the outer surface of the -rQ_f __,ec- qtou -Which--can -be -connected ---i ps --- 'of aralle16-- The -temperatures-- -:tha--- -t- iactive zone- amd__outor-sulr~___ _770--h-0-1 -=:=face --- axe----l aw e-Powe -7-z" r-ratin~rs maximum current (parallel connection) is 88 A, the neutron flux i5 1013 ReUt /Cm 2 sec ii the cen,Ler of tbe ---ic) in,' - 1.- 1--;1" Ili. 1- The reactor xhaE, . negative temperature reactivity coefficient. The equipment h~is high inh-_rent- stability and requires no external regulator, and ii-ttle chanqf, was i e s a f,. r 2 500 Cord 2131  ACCI. .SSION NR; AP4049532 ASSOCIATION: None SZlB?iJTTUD? 00 ENCL- 00 NO HIT "0V1 (100 qT'R ('Or'F- NP  BAKULI, V.N., kand. takhn. nauk; ABRAMOV)_A.S,, inzh.; SIMPKOp G.F.,, insh. ..,. 1, Diamond consumption in machining various brands of hard alloys. Mashinostroanis no.1:97-99 Ja-F 163. (MIRA 16-67) (Diamonds, Industrial) (Metal cutting)  ABRAMOV, A.S.; MIVDELISON, V.S.; FREYDIN, G.Yu.; FOGORELISKIY, M.A.; BOBKOV, L.I.; SELEKHp V.F. Designing die casting molds for diamond tools. Mashinoatroitell no.11,30-32 N 164 (MIRA 18:2)  MILLIONSHCHIKOV, M.D.; GVFPDTSITELI, I.G.; ABRAM3V A.S. - GORIAW) L.V.; GURA110V Yu.D.; YEFREMDV, A.A.; ZH&.6V--i.K , P I ; IVANOV, V.Ye.; KOVYRZIN, V.K.; KOFTELOV, Ye.A.; KOGIOVSKIY, V.G.; KUKHAPKIN, N.Ye.; KUCHFROV, R.Ya.; LALYKIN, S.P.; 1011KIN, V.I.; NECRAYEV, Yu.A.; POZDNYAKOV, B.S.; PONOMARFV-ZTF.PNOY, N.N.; SAMARIN, Yaj.; SEROV, V.Ya.; USOV, V.A.; FEDIN, V.G.; YAKOVLEV, V.V.; YAKUTOVICH, M.V.; KHODAKOV, V.A.; KOWANIMS, G.V. High-temperature reactor-converter "Romaihka.11 Atom energ 17 no.5:329-335 N 164. ~MIRA N12)  L 6$7h-66 EWT(2)/NA(h)/ETC(m) W _AC_G NR:- -5025050 SOURCE CODE: - UR/0286/65/0OO/0l6/0C9l/0D9l AUTIHORS: Viktorov, V. A.; Petrov, B. N.; Abramov, A. S.; Masloy, G, S. Khokhlov, V. P.; Samsonov,_qA. ORGt none TITLE: Resonance level gauge. Class 42., No. 173971 SOURCE: Byulleten' izobreteniy i, tovarnykh znakov, no. 16, 1965, 91 TOPIC TAGS: liquid level indicator, resonator 0 A449,.~,~ ) Ac.4u,,~ ABSTRACT: This Author Certificate presents a resonance level gauge containing a high frequency oscillator for exciting a resonance detector with a stop fr,aquency chara-.teriutic and a frequency modulator for periodic variation of the oscillator frequ3ncy in the range of the level variation. To increase the accuracy cl dis- crete measurement of the liquid lovellh Riven points, the device is provided with Lank circuits excited by the oscillator at the same time with the deti)ctor. The tank circuits are tuned to the frequencies determined by the given values of the m9asured level. With the coincidence of the resonance frequency of tho de- tector and the resonance frequency of the corresponding tank circuit, the isignal Card 1/2 UDC: 681.128,.82  L 65'14-66 ACC NRt AP5025050 from the tank circuit is fed in parallel with the detector signal to the inputs of coincidence circuits which are connected to the signal device (see Fig. 1). Fig. 1. 1- detector; 2- tank circuits; 3-~ coincidence circuits; 4- signal device Orig. art. has: 1 diagram. SUB CCIDEt EC/ SUBM DATEs 2ftr64 Card .2A  LIW-66 EW(1)/E*,a(h)ATC(M) . va ACC M AP5025053 SOURCE COM UR/6286/65/6o0/ol6/OO92A1D92 AUTHORSt Viktorov. V. A.; Petrov, B. N.; Abramov, A. S.; Haslar, G. St; Khokhlov, V. P.; Samsonov, G.-F. '59 ORGt none TITLE: Resonance level gauge, Class 42, No. 173974 0 SOURCE:. Byulleten? izobreteniy i tovarnykh znakov, no. 16, 19650 92 TOPIC TAGS: liquid level indicator, resonator,~tGe-A.,;"- C-~+, ABSTRACT; This Author Certificate pre3ents a resonance level gauge containing a froquency-madulated oscillator for exciting the resonance detector and tank cir- cuits tuned to the frequencies corresponding to the discrete values of the Meall- ured lovel divided in height at equal iztervals. To increase the accuracy of digit-0. levol measurem6tWlth nonlinear variation of the detector and oscillator output charceteristies, the gauge is provided with a device in the form of trillger counters, 'j"hese cowiters determine the number of scale pulses from the tank dr- cuits given off with the cDinoidonce of the oscillator frequency and the rosonance frequency of the corresponding tank circuit until the appearance of the detectlir Card 1/3 UDC: 681.M.82  L 7639-66 ACC NR: AP5025053 pulse. The gauge la also provided with a device for determining the time lag or the detector pulse relative to the imediately preceding scale pulse. These devices are connected through controllable logic switch elements respectively to the output of the tank circuits and to tha output of the clock oscillator (see Fig. 1). Fig. 1. 1- detector; 2- tank circuits; 3- frequency~modulated oscillator; 4- scale pulse counter; 5- counter fi,.,r time lag of detector pulse relative to immediately preceding scale pulse; 6- logic elements; 7- switches; 8- clock oscillator; 9- counter for determining time interval between two scale pulses To increaso the accuracy of measurements, the gauge is provided with a device :ror determihing the time interval between scale pulses, The device is in the form of a trigg)r counter connected to the clock oscillator by two electric channel,,$ with swite'les. One of the switches is controlled by the logic elements. The Card 2/3  L 7639-66 ACC MIt AP502505) .0 other is opened by the detector pulse and is closed by the immediately following scale pulse6 Orig, art, has: 1 diagram. SUB GDJE: ZC/ SUBM DATEt 2%kr64 aird  MILOVANOV, IN., red.3-IMUM, I.I., red..; SHVEWVt A.A. ,, red.; VADEYEV, 0., red.; KLIFIOVA, T., tekhn. red. [Ethiopia, a country that has not been brought to its kwas] Efiopiia - strana, ne vstavshaia na koleni. Moskraq Gos. Ind-vu polit. lit-ryt 1961. 108 p. (MIRA 3-4:8) (Etbiopia-Desoription and travel)  ABRAMDV, A.T. for expediting Burveyirq, durly, highway sites. Avt.dor. 22 no.8:210-22 Ag the OX)31oratlon o~ 159. (MIlU 12:11) (Roads--Surveying)  .4 0 A I ~) I A7 'r-,,OP J. At-,r imov A, T_ Teciln.1cian 7'LE Elect.rlc slag weldirg In bhip rerair Tr,,~ 3v-irrchnoye pz,,)1zvodMvo, :10, 1 1961-!, 3~ - 23 E Y.- ~, information is given on the use of Elec-ric FIae. welding ~r ri-nair using conventional semi-automatlc welding macriineFnw-~ (F3n-21) wl'h a modified holder whose flux-containing waz- 3 ar"! vinase -,02zle was replaced by a prolonged ore. The same as 16 *tonal weldizw can be used, ramely P11-348, AN-8 and FIS-7 fl,,ixe7z :7%-09 a:.j z;v-,OOA wi:--a. For '-e welding of s4.eels con'~aining -up to 0,2% -u 0~,~3 - 0,`~T '4,w 0..6% S!, t' Is recommended to ijz-:e wires with higher Si and M~. or,',inl k S -1 - 15--*. 3V-10C-~-:, 7o join parts by electric zllaz sqeidin8, '~ a If~:).-Tr, s % r E r =0, I r ed Bes-~ ies,lts were obtained with a ceramic fcT--.n- 4o be -;sed once 1he par's i3 4'ixed or. a ~.teel plate and Dinazz bricR bars wll*-~ 1,-& al-I ~f _:~n4 Sc1--,' !or. prepazed with liquid s.,dium. gia2s. Add., I I on -a',-- -1'y s tne form tv -'eel clasnps. The finisi-el fcrm 11,; '~C) Prior lo welding 4he rar* moun*ed In 'ne Is pE-":-_~14rd  ,-I I/ , -,: ~ /, -, ',,-j i- ',%, -, I,,,- -1 z , , ~,hlg wolding In slOp repalr 41006 A 10 1 W f~ I u' I - t; i s c, ondu c, .1-d d ! , e:,- t I y o:. t.(. -tsz; ev I i t - 3 n ,, s w e ~i -.rz ':-.E; We -'s lool it' a sre~-~i of 3 0 In'T cn ei. - c 6 ec rode wl --c `hrc. !:- ~, ~::j %r - 7,) 1:,:,l !s 40 deep. Af er complel ed we- iing i ~rrr 1 850 - 900cC f cpr 1 Z~ r - Do ~.l Elec-,c !Fl;,S we I d 1, %F v f v -w t~ I d ng o f sh. a f a nrl ~ C- I T C 0 A'. 'd 7 weldl..-.,~-U; Of C- I e Ire flg_UrE-S~ A -3 S If A..' C, d s k t y dc, r em on I n y y z 3, o (I n c 0 d,~ s 5 e T. a - - F I a -  ABRAMOVj A.T., inth.- Using TSM-4-eleotrodes-in ship repairs. Svar. proizv. no.Wl Je- 163. (MRA 16: 1. Odeaskiy sudoremontnyy zavod No.l.   ABRAMOV, A, V,, insh. Drawing of. -pipe from stainless steel. Energo- mashinostroenie 8 no.1208 D 162. (MIRA .16:1) (Pipe, Steel) (Heat exabaniters-Equipment and supplies)  's PHASE I BOOK EXPLOITATION 755 Llvov, Dimitriy Sergeyevich, Rozhdestvenskiy, Yuriy Llvovieh, Abramov, Aleksandr Vasillyevich, Litvak, Lev Kosilevich Shtampovka kolltsevykh zagotovok (Pressforming)f Annular Parts) Moseow, Mashgizs 1958. 182 p. 4,500 copies printed. Reviewer: Zvorono, B. P.) Candidate of Technical Sciences; Ed.: Mezhova, V. A., Engineer; Tech. Ed.: Gerasimova, Ye, S,; Managing Ed. for literature on heavy machine building (Mashgiz): Golovin, S. Ya.., Engineer. PURPOSE: This book is intended for production engineerso de- signers, technicians and students specializing in pressfoming and forging of metals. COVERAGE: The authors analyze the coefficient of utilization of metals in manufacturing annular blanks for rolling-oontact bear- ings. They present the latest work methods developed by bearing plants which aim to produe blanks of good dimensional aoowraoy, Advanced preBeforming and forging methods used in the C ard 1/t  Pressforming of Annular Parts 755 atanufaoture of preoision annular blanks are desoribed.. There are 22 ref erenbes of whioh 18 are Soviet.,' 3 Zngliph, and 1 aerman. TABLE OF CONTENTS; Aocepted symbols Ch. I, speoial Features in Manufaoturing Forged Annular 3 Blanks for Rolling-contaot Bearingsp and the Grade of Steel Used kialysis of the coeffioient of utilization of metals 7 Grade of steel used 11 Ch. II. Manufaoture~of Annular Blanks for Bearings on Horizont4 Forging Machines and With Forging hammers * ', F=damentals of blank forging on horizontal forging machines 13 Determination of blank design and seleetion of the forging method 17 Card 2A  Pressforming of Annular Parts 755 Allowances for machining and forging tolerances 20 Determination of the initial diameter of bar stock, the number of passes, and the capacity of horizontal forging machines 20 Method of designing die parts for pressforging in closed dies 26 Method of designing heading tools (replaceable die parts and punches) 38 1,11aking heading tools 44 Methods for determining norms of metal requirements in pressforging blanks of horizontal forging machines 44 Heating bar stock prior to pressforming on hor-izontal forging machines 51 Mechanization and automation of operations in bearing pla:nt forging shops ~3 Forging annular blanks on flat dies 0 Cold-sheering of blanks for smith forging or press forging 64 Ch. III. Rolling Annular Bearing Parts F=damentals of the process and rolling methods used 66 Machines for rolling annular blanks 70 Card J/6  Pressforming of Annular Parts 755 Die design and mechanization of sizing operations 95 Determination of forces involved in semihot sizing 97 Methods of manufacturing rings for tapered roller bearings by forging and buff-welding 105 Cli. V. Cold Forging of Rings for Tapered Roller Bearings From 18 HGT Strip Steel Technological process 116 Manufacture of preformed blanks by twisting out 121 Designing blanks 124 Twisting out blanks in a die having semiautomatic feed 125 Manufacture of annular blanks by backward extrusion 12~ Die design for backward extrusion 12 Methods for calculatirkv, sizes of dies and multiple bull-rings 131 Lubrication of blanks 137 Ways and means of Jmproving the coefficient of utilization of metals 'In manufacturing annular blanks by cold pressing from sheet metal in closed des 138 Card 5/6  ?ressforraing of Annular Parts 755 Simplified theoretical analysis of stresses at the end of deformation in forward -.,nd backward extrusion of annular parts 141 Ch, VI. Manufacturp of Cages and Rolling-contact Bearings Process of manufacturing presBed cage partB for ball bearings 151 Process of manufacturing cages for tapered roller bearings from sheet metal 158 Making cages for tapered roller bearings from pressed and welded blanks and from electric welded pipes 164 Making pressed cages for ball bearings from welded pipes 178 Bibliography 180 AVAILABLE: Library of Congress Card 61(, GO/wde 11-4-58  ABRAMOV, A.V. Cutter head for pipe beveling, Biul. TSIICHM no,10:IA 160. (ERA 15:!4) (Cuttinr tools-Patent)  A. A. ; IdiiUDIOV, A. V. ; , ~11. t", Stratigraphy of the Pr5-Cambrian form;~ttn~; ~-,f Mountains. Trudy 5111IGGlMS nc,.29:2C"21~ 16,,". (',-~.'LitA 16:~3)  L' 243~, 46 ns-2/W(l AP60059.58 SOURCE CODE: UR/0127/66 AUTHOR:, Sofronovj At Vs: Abramovs As V.; Nizovoy, Yu. K., Nefedov, It. P.4, VitsenL, Teo M. ORG: tione TITLE: The development and application of "d namo-re*active" grenade launcham In the blining indu3try SOURCE: Gornyy nhurnal, no. 2, 1966, 57-60 70PIC TAGS: mining engin5ering, grenade, ground.weapon, weapon launcher ABSTRACT: In 1960, theRamenskoye PILggh of VNIIgeofiziii.(Ramenskoye cl.,delitntye VNIlgeofiziki) began reanrc-h--d-n-the design of a firing system to eliminate over- hanSa in mining operations. One of the most.acceptable versions of the des1j,,n is a system operating on the recoilless weapon principle: the "dyna.10-reactive" ciinnon 7 1 f Fig. 1. Diagram of a recoilless 1,annon. Barrel; 2 - cap bushing; 3 -% 11ring J,mechanism; 4 - nozzle; 5 - bottom plate; ".6 - cartridge; 7 - cartridge casel 0 - a' Card 1/2 UDC: 621.926.1,  L 24357-66 ACC NR, AP600.5958. .(see Fig. 1)! The advantages of the proposed device are; small naliber, lyw weightp no recoil with highopower, high maneuverability, and the opportun,'.ty of fir:i;1k8 dummies or high-explosive projectiles. Further research resulted in the dellIgn of the DPS-130 dynaw-reactive grenade launcher (see Fig. 2). The ri!sults obtcilned In _7 7 2. Tot DRS-130 d7namo-reactive grenade launcher. 1 -.Shell; 2 Igniter; 3 powder charge; 4 charge chamber; 5 - fins; 6 barrel. ballistic tests were excellent and tests were conducted under field conditlontio In addition to its main function$ the grenade launcher may also be used to strin,J~ cable, to eliminate the danger of avalancheso and to break up ice formations in rivcvi Origs axt, bast 4 figures and I table. 1081 i SUB. CODE: 19/ SUBH DAM none/ ORIC REF,. 001/ OTH REF: 002/ I Card L2  ABRAHOV, A.Ya. (Taahkent) 1-1--l-1. . ~, ~'Treatment -of isolated fracture of the sternum by fixation with a motul rail. Ortop.,travm. i protez. 20 no-5:56-57 My '59. (MIR& 12.04) (SWURN. fract. osteoey-athesis with metal nail in isolated 0 fract. (Rue))  ,.AMAMOV A. Ya v ut %f w v 1- 60 V 14 6 w r It) r li ~c It I %T .oloills Pit' L*,~s mr, Inv"-tiglitinil of tj"r of till,w T-11 I h ol, 1. 1 h (1 7 TrT 9, 1 Hw cm-(N. of I l, ll,cl i: .f v1', I I fol.~ It tit I dk t:j-, ll tit wa 1111LIVI-1 %%1'- 11,14, 1-1 1-h-mial, ill, I,, 7'wl Claffi( III .f k . I tit % . , - It-, II ill " Ill a. 1- wi.. ~ , ~ I '.' I i, tJml Oxt I'll 4.1 11, d I'll wit 'i F, 11. W1111111,1,111  Ye %P % W W W V V V to W V W W %0 %0 %P lk~" W %F Ya, Abta 73, 921-4(1950) Aug. It Wi Russtanl. A study was made A the energy distribution of protons emitted from Mn and V targets, in the reactions Mn"(d,P)mn" and V"(d,p)V"t the deuteron energy being 3.5 t 0.1 Mev. After traversing a wedge-like filter, the protons traversed a photographic plate, leaving fihort tracks whoqe number per unit. area dprreased across the plate. The ttick-frequency curve pre-tented steps, corresponding to energy levels, at definite wedge thicknesses. Taking Into iccount the pobsible presenre of processes C"(d,p)C" and 0"(d,p)011, the follow- Ing excitation levels were determined: for Mn" 1.22, 1.77, 2.07, 2.45. and 2.82 Mev; for V" 0,72. 1.31, 1.65, 2.01, 3,37, and 2.75 Mev. The mass difforences are: Mn" - Mn" - 1.00111 t OMD1 0 and V" - V" J.DO076 t 0.00015 mass units. high, "I'] Cle '01,011i were those corresponding to thv 7,cf-man R~ 1AWIVOCAL t IMMURE CLA,WICAMIO S L A Pffetl f" modt-rRMY strong fields. nqv ~7  ',: 'brrmov, Ya., Kononovich, L. r UH SOV1321-24-8-13143 -47: Th~, Use of utorEsdiography in Investigating Non-Trawiparent Qbj-~cts LvtoradiopxRii Ic issledc~vnni-u ric.nrozra,~hAvkh oY'yLktov) 7C; -1, - '~-,vo,islwyii Laboratoriy,U, 1958, Vol- 24, ",r 3, pp. 1':i-965(1 _31 1 '0 J, z-"RC T Th(., vo-cLlled di'lffer!l' from the usual ,,icntrm~t-rc.d4ography ill th-t the dictribution o~_' -,_ radio- R,--tivity ic vtndied not from the blackening of the enuision Imt from the single trecki, -i-Mch the rnrliation pri),liu-es in .nr;rmore, -6,i, tantit:.tive ~Ictermint_tion of thF: di.~,trib,ition ji~ not carried out nhotometrical:ly, 'out b,,,- a ettlculation of the true!:s. The mothol ht:ts seireri-A dis- P_dv!.,ntngeP, brt d,-,cs have the advant&ge that excoptf,zmally :m.ll nmiclunts of rndioactivf, isotopes cen be u,-,,--.d,, TIA9 nethod ras vst,(l to 'jjy(!..t4 ~~Fnte the dintribiltion 01, ti,- rndio- :xtivc- leild i:!otOl,e (!i"11") ill les~d -Lilt i r-Ony JJO-c Ir the "V, 11 arnlytical 112:oc~-dure it j _,~ ro,ntiuned thut 'phc. to- W.,hic emulsion (typC~ "R from ~:TKF uce~, ill thi,,kneaces of 10 p kn~ 15-20 Ii. It waa; obcorved that the best ex.)eriment!.1 .3 1/ 11tv Obtill;A -~.iht:n -,. ercittv~-,r on o;' the 1,ilf-llfc-  //7 OV/3`-24-13- 19 ,'ho U-e of in inventigating Non -Tr,-.nspari, nt Objects 11-~C,:) fo:.~ inveoti~~I.ftioll, ill which the ti-~,c of ;,x- vomire cun last 6 - 8 days. Thene investigations viere pure- I", -ethodical in naturo, however, and it cannot be asi:u*ed thi-t ;b-S)b sycteras i~ormad under all conditions of allcy Jormation will contain nothing, but tho raire componant!i of tlv! alloy. it. 11'. Turutov Purticipated in the ro.-k. Thore tore fipur(~s.  160) AUTHORS: .b.'ea ov, A. U., Kononovich, L. 1. SOV/32-25-5 A -20153 t_ TITLE3 Determination of Solubility of Lead in Antimony Aocoriing to the Method of Tracer Counting PERIODICALi Zavodokaya laboratoriya, 1959, 'Vol 25, Nr 9, Pp 1081-1083 (USSR) A13STRACT: The method already described (Ref 1) for investigatii,g nontrans- parent objects with the aid of "tracer autoradiograpl,yll can also be used for the determination of a slight so,'..ubijity of the components in polyphaae systems. As the data from pullications concerning the solubility of lead in antimony are ve3--,y oontra- dictory (Ref), the above mentioned method was used fc,r these daterminations. The atome of the solved substance wei,a directly' counted. A small quantity of radioactive lead was adelad to the alloy Ob - Pb and a liquid photoemulsion (NIKFI Type-6t. 11.) was then applied to the carefully pre-treated ground speOLmense A. P. Tunitov developed the emulsion and counted the traces of Pb made visible in the Sb by the ot-rays with a micrC300pe (magnification of 600). The oomputations were made b3 taking into consideration the radioactive Bi which was prescat due to Card 1/2 the application of a radioactive lead (produced from &n active  Determination of Solubility of Lead in Antimony SOV/32-25-!i-20/53 According tD the Method of Tracer Counting preoipitato of thorium emanation)(Table). From tho d'-,Rgram obtained (Fig) for an alloy with 80% 8b and an alloy with 60% Bb it can be seen that Pb is soluble in antimony by 7.6 - 9*6 wt% or 4,6 - 5#6 atoms;# There are 1 figure, 1 table, and 2 Soviet references. ASSOCIATION: Leningradskiy tekhnologicheakiy institut (Leningrad Technological Institute) Card 2/2  1 ly of f'.*,,::!i tij7,, rad: isotopo distrib-atilon, 1. Lc~n-lngrfids~.!,y Z~e 11111:11AZIliloy promy".11 "ormoiti  ACC NR. ARG033115 SO~RCE CODE: Ijil/0137166/000/007/1043/IO4.,~', AUTHOR: Lbramov, A.. Ya.; Semenov, V. Ye. TITLE: Changes in microhardness during strengthening of metals and a.,Ioys by. nuclear -particle radiation SC-URCE: Ref. zh. Metallurgiya, Abs. 71276 REF SOURCE: Tr. Leningr. tekhnol. in-ta tsellyulozno-bum. prom-sti, vyp. 18, 1965, 175-181 TOPIC TAGS: plastic deformation, microhardening, alloy steel, rnicroh.-.Irdness, metal strenathening, metal irradiation, nuclear radiation, ion/ShKh15 stL-el, 0 P18 steel, U8 steel ABSTRACT: Different grades of steel in various* initial states were expo:s ed to irradiation with alpha and beta particles in a dose of 2-1010 and 3-1011 p,~r I cM2, and with gamma rays from a Co6O sourc~e of an 0. 75 m/curie activity. Changes in 1 microhardness (M) were then studied for 100 days. Irradiation with a 2-1010 dose 1 of alpha particles with an energy of 5 and 15 Mev at 20C resulted in an ir,,(',.rease of M in preannealed ShXh15 steel. But no increase of M in hardened ShKh15 and 1/2 UDC: 539.4.019.3:539.104:669.14  ACC NPI AP.6033115 P18 steel was observed. An insignificant increase of M was observed in U8 steel. Alpha-particle irradi4tion of nonmagnetic specialty steel in an initial strongly work-hardened state did not produce an appreciable change i.1 M. Its irradiation with gamma rays of 1-Mev and with 2. 25-Mev beta particles resulted in. a more complex character of the change in M. It is supposed that it is possible to use the effect of nuclear particles on metal as a method of redistributing the dis locations in it, which were produced by the previous manufacturing processes. Experiments~ have shown that the strengthening effect of irradiation remains even after subse- quent strengthening by plastic deformation. It is supposed that Me strengthening by irradiation is a method with potentials, especially in the use of multiply charged, ions, L. U. inov, (Translation of abstract] SUB CODE: 20/ LCard 2/2  K'I 1_1 V h PUGACREV, A.S.; A.Te.. reteenzent; KORKIN, H.S., nauchnyy re- daktor, kandidat tekhaicheakikh nauk; DWGOrARMTA, Te.A., tekh- nicheskiy redaktor. [Collection of problems on shipbuilding arafting] sbornik zadach-po sudostroitellaoma chercheniiu. Leningrad, Goo. soiuznoe nauchno- tekhn. izd-vo sudoetroit. proaWshlennosti, 1954. 235 p.[Xicrofilui'l (Kt" 8:2), (Naval architecture--Froblems, exercises, etc.) (HechanlGal drawing)  ABWOV, A.Te., master; ITOMR, Yu.A., master. ---------- Now automatic control arrangement for centralized lubricating systems for hydraulic turbine-generator units. Ilek.sta. 29 no.1:77-79 Ja 158. . (MIRA 11:2) (Hydraulic turbines--Lubrication) (Automatic control)  b 0 1 C?A R TA 1-1,lit s Abriviov, 11z, A 1 th " iy-,, c) t. 0 r: .3e of C~tvum Cf~rvl L. !~~,tion. (P*r,i,,1~~,,"V.11- Re-ort, A--, L ti 19.5'F, 7) 3) A f-ho C..", "4 r'l(~-r3c'ss "111,10 ta 4; (Q. (,:i Iry 0 , Wit- t 54n, 1) of 21, , cj!;, -Csa -7o in Ot "ol C) J.- (I lat.~,d. Yhil- anzrjs not yc 0 - contr-'Inn nitro!ren,! In an aqiicaui iolution. It ic F~~ip- to bo an 'WilliT.0 acid. Ter,~atlve plaarmacolo- 1/2  ABWOV, B.,agronom Holybdemm helps to obtain better pulse crops. Nauka t pared. op. v sellkhos. 9 no-3:26 Wr '59- (XIRIL 120) 1. Kolkhot "Traktor," Urenakogo rayonn,,Gor'kovskoy oblasti. (Legumes) (H ybdenum)  - -k , HRLHOY.-B-- Wages and production qualit7. Pots. trud 5 no.5:123-126 W 16,,,. (MIRA 13 -, 11) 1, Glavnyy iushener Kupaviuskoy- tonkoeukonnoy fabriki, (Starayd Kupavna--Wool induBtrV-(bmlib7 control) (Wages and labor productivity)  ABWIOV.,B, sudlya reepublikanskoy'kategorii; SBIONOVr V., master sport-it, g. Loeningradj MARCHENKO# Aq KRASNOGOIDVYY9 V. (g. Riga); BROKTSITTERI G. (Karagandinskaya obl.) Create, invent, test. Kryl. rod.11 no.12:28-29 D 160. (MIRA 14--.:0 l..Rukovoditell aviamodellnogo kruzhka stantsii yunykh tekhnikov g. Kisbirmv (for Marchenko), (Airplanes)  m IKOMASOVp A.; ABRAMV9 B.9 insh. IAtIs shorten the time required to build the Votld,ask Fqdro- electric Power Station. Na, stroi.Roe. no.12:6-8 D 161. (MIRA l6d) 1. Nachallnik upravleniya stroitel'stva Votkinskoy gidroelaktri- cheskoy stantsii (for Tkomasov). (Votkinsk Hydroelectric Power Statioa)  B. (3 if-rv io~ ~ 1g, t~cjj,~j 'W', t ~ .I!,, ~ s. !;,)f t ;;x, ,` 15 il) 1 1,4 , k .~, 110,,9- (~!TRA 18:2)  ABRAMOV B - SHUBIN, V. Peas in northern Gorkiy Province. Zemledelie 24 no.1:45-46 .'a 162. (MIRA 1:,t2) 1. Predse3atell opytno-pokazatel'nogo kolkhoza "Traktor", Urensl~ogo rayona (for Abramov). 2. Glavnyy agronom kolkhoza "Traktor", Urenskorc rayona (for Shubin). (Gorkiy Province-Peas)  ABRWIOV B, Posters of the State A iculture Publishing House. Okhr. truda, J sots. strakh. 5 no&6:30 Je 12 (IMA 1!,:7) (Agriculture machinery6-Safety measures) (Posters)  ABWOVj B. (Tula) There is no noise in the chopping section* Okhr, truds i sots. strakil. 5 no.809 P- 162. (MM 1517) (Metalworking machinery)  ABRA14-0,V,,-,-B,,., inzh, Concrete zusolea of dams* Tekh-mol. 30 no.9:4 162. (MIRA 15:91 (Ingur hydroelectric power stations-Dam)  AHUMOV, B.A.; GUMENM, NoU., insh.; BAILTXRO AL*, kand.tokhn.nauk. 'Nap raising on woolen fabricom by S. B. Salikhova. Reviewed by B.A. Abramov, N.U. Oumeniuk, A.L. Balter. Teket.prom. 17 no.12:64-.66 D '57- (MIRA 11tl) l.Glavnyy inzhener Kupayinskoy fabriki (for Abramov) (Woolen and worsted manufacture) (Salikova, S.D.)  ABRAMDV, B.A, ittzh. At Kupavna fine-woolen cloth factory. Isobr.i rats. no.7:14-16 ji 158. (MIRA 11:9) (Starala Kupavna--Wnolen and worsted manufacture)  I W - 3 ~*)- 6 - 1 1 '. 3 2 'rranslation from: Referativnyy zhurnal, 1,4etallurgiya, 1958, Nr 6, p 9. (USSR) AUTH011- --Abramov, B.A. TITL.& Conferences on the Quality of Urals Steel Ingots (Soveshch tniya po kachestvu stal'nogo slitka na Urale) PERIODICAL: Izv. Vost. fil. AN SSSR, 1957, Nr 6, p 147 ABSTRACT: Information is presented on conferences convened ir, Sv !rd- lovsk in November 1956 and February 1957 by the Stce-.-in :ot Quality Study Commission of the Urals Branch of the Acad my of Sciences, USSR. A brief summary is presented of a -aapi r by A.A. Popov, "Modern Theories on the Crystallization of th ~ Steel Ingot"; the major directions being pursued in irnprov ng ingot quality at plants in the Urals are indicated: selectio:: of rational weights, ingot shape, mold construction, conditio is for vacuum pouring of steel, and the use of vibration in the sti el crystallization process. Note is taken of work done on caEi:xngY large ingots in vacuum, the introduction of longer ingots, )rep- aration of hot tops from molten slag, development of rollr g of heat-resistant steel, etc. 1. Steel--Produc-uion 2. Steel.-Proceqsing Card 1/1 3. ! '. N.  AMMOT, B.A., insh., nauchnyy rod, [h11 use of ohroultes and limoniten from the Serov deposit] Komplakanoe lepollsovenis burokhromistykh rud Serovskogo mestoroxhdsnilas OverdlovAg TSentr.biuro tekhn.informatsii, 1959. 158 (nn 14;4) 11 Institut metallurgil Urallskogo fillale Akedamil nauk SM. (Serov region-Iron ores) (Chromite)  -C V a 'T a tol I1 4 .44 .44-3 fill 0: 2; t' j.-yl 4 .11 v  REVEBTSOV, V.P.; ABRAMO j IA.; TANTSYREV, V.V.; ZAYTSEVA, Ye.I. Results of using ferromanganese and manganese-431con from Polunochnoyigdeposit ores in the production of steel. Trudy litst, met, UFAN SSSR no.7t183-199 161. (91. l6t6) (Manganese alloys-Testing) (Steel-MetallurU)  REVEBTSOVI V.P.;.ALUWV,3.,A,; KAGOVITSYN, D.F.; LEBEDEV, A.A.; OSIPOV, G.V.; TANTSMW, V.V.; ISUPOVp V.F.; ZAYTSEVA, Yea"~-, QU&Uty, of manganese ferroa.Uoys from ores of the Polunochnoye deposit* Stall 21 no.9:806-809 & 161. (MM 24 . 9) 1. Institut metanurgii Urallskogo filiala Akademii nauk; Nizhne-Tagillakiy meta.Uurgicheskiy kombizat i Kombinat im* Serova, (Farrman AnGso) (Polutoohnoye region-Manganese ores)  VATOL4p N.A. (Sverdlovsk); YESIN, O.A. (Sverdlovsk); ABRAMOV, B.A. I (Sverdlovsk) - --------- -1 In-matigating iron-vanadium melts by the electromotive foroe method. Isv.AN SSSR. Otd.tekh.nauk. Het.i topl. no-4:51--55 JI-Ag 162. (MMA .518) (Iron-vanadium alloys-Elootric properties)  ABRWOV, B. A.) XOGAN, Ve L) "Transfrer of Impurity Resonance Radiation in Low-density Plasma," report presented at the 6th Intl. Conf. on Ionization Phenomena in Gwts, Paris, France, 8-13 jid 63  ABRMOV, B.A. Ilemodyntimic s' -bil ty oi' the Vroueso,, ; nr rf Ining molten Fe-V--r--Sl and ie4r-0-41'i with confierv., t kn of' wnadium and chromium, l3bor. nauch, truds Urat, polltWi. inst. nn.12,6t 100-111 163 (M--Rk l?z8)  AUTHORS: Abramov, B Pogorelyy, A.I. S~GV-128-58-8-'-3/211 TITLE: The Molding of Worm Gear 'Nheels and PJ.nions With Cas -, Cogs (Formovka chervyaQhnykh k0163 i sheateren s litym vjioin) PERIODICAL; Liteynoye proizvodstvo, 1958, Nr 8, pp 20-21 (USSR) ABSTRACT: A method is described in the article, utilizing rold ng patterns and model segments, in the production of sm.11 numbers of worm gear wheels and pinions, The model egment is shown in Figure 1, the device for molding -in Figu,e. 2. The described method is recommended for single and s!.all- series production in repair shops, eta,, There are 4 sets of diagrams. 1. Gears-Molding Card 1/1  KOVALICHUNp F.Ye.; ~ IVASHCHLTKO, Yu.F. ~otentidl savings in electron tabes. Vast* eviazi 23 no*3:16 J~ 163. (MIRL .160) 1. Rabotniki smeny ulltrakorotkikh voln radioatantaii Kiyevska;o teletsentra. (Electron tubes) (RaAUo., Shortwave-Equipment and suppa,'Les)  SOP/Oct 49 Materials Testing "Torsion of Prismatic Rods With Craciform Trani- verse Cross Section," B. L. Abramov., 6 pp, "Prik YAt i Mekh" Vol XIII., No Oiyes solution of the problem.of torsion of ~risiatic rods with cruciform cross section by xming N. Xh.' Arutyunyan's method to solve . Poisson's equation. Foriulas obtained~ dete=ine stresses and rigidity.of profile for varioug ratios Of b/d., starting from b/& equals one (square cross section). Submitted 21 Jun 49. 14.9T43  ABRAMOV.-B,M, kand. tekhn. nauk, dotsent -- Using link mechanisms for approximate plotting of given trajectories. Izv. vys. ucheb. zav.; mashinostr. no.('t 22-26 165. (M.IRk .8:12) 1. Submitted September 3, 1963.  A7i, 21T1.7 vs, Ti 'F u - / i.achanics Mathemnti~:s) Applied (et LE flProblen of the ',.otion of Machines Under the Action of Given Forcess," Acaci 1, 1. Artobolev R. ?.~. Abranov, Ina 11,',ach Studies, Ac,~d Sci I)CEL, 3., pp "Iz A flauk ELER, Objel Tckh Na.-A-:11 NO 10 neneral cquaLion of iaotion of a mach-'mi.- or ;-.ith onk~ (!c,-,rcc ol. freedma ,,-.n 1~o written aE follai;:;: M pl, : T 4-1 ;!1-- where A):j"omcnt of reduced motive forces, of rodurco resistance forces, :y,.,.rcduccd moment of inertia of i-aechanism, and(~ :. ark,-,le of revolution of reduction I ' Ca~' . S -olution prccrntz; di-l''.1cultiez- - j)ccially ijcn the mcFc,nt,! R link. 111 CIG c- nd 6ppen6, iot onil,y on Lhe anje of revclution~l but z,.15o on other vari;,'ble~-. Erp:! ains methid for -~iwh uil"Jx4' mit-te(P July 1,,~ -a Aqn~  a C a A-1 (A a f,7 I^ equdwo d mWa W a MmW" (W Itom")I L.%Abdy AW. 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A nortbod at spionulawdum mgWring Ow Oming of a make 00 rif Irrapits to dt-wati" the Ume valoot" of aw ancdar pasium 090 00%0 olthakapioglym, Nowmtkmol&auAkwiswjmk too 0* JWUI M. Hapimor, USA of we 0 00 V* 1 0 tle 0 I LA ORTALtUR&SCAt LIMAT01 CLAIWIC411011 U99 it go u a IF *1 4 no 11 lot "0 41 0 0 0 00 00 00 Ile of 00 0 0 : 0 4. 0 0 : 0 sle 0 0 6 0 0 a 9 0 4 41 6 009 0 0 001