SCIENTIFIC ABSTRACT PAPINA, A. I. - PAPIROV, I. I.

PAPPIA, A.I. A single method should be used to calculate costs in the manufacture of glass. Stek. i ker. 23 no.1:10-1-~ Ja 166. Wilv, I()-I) 1. Leningradskiy fi-nansovo-ekonomicheskiy institut.  KAMAYJV Gillm; TSIVUNIN, V.S.;_PAPINA, L.A. Some esters of ethyl-a-brorAovinylphosphinic acid. Trudy KrHTI no.30:1-1-17 162. 09RA 16: 10)  PAPINA, R. Transient reply of a transistor to weak signp~lo or to conditions Of commutation. Studii eerc fiz 13 nd.5:790-833 162. 1. Inatitutul de fizica atomica., Bucuresti.  KLEMM IM, S.D.; PAPINAKO, I.G., red.; PASTER, V.A.., tekhn. red. [Automatic telephone exchange] Avtomaticheskaia telefonnaia stantsiia. Moskva, Gos. izd-vo lit-ry po voprosam sviazi i radio, 1951. 78 p. (143RA 15:2) (Telephone, Automatic)  N Gil"IY, 4.1.; TSIRLIN, D.B.; BRONSHTNYN, L.A., redaktor, kandidat takhnicheskikh nauk; PAPIUKO, I.G., redaktorp HDFDZOVA, T.H. tekbnicheskiy redaktdrI.- *"I-,--"" [Operation and planning of automobile transportation within the communications system] Ekeploatataiia i planirovanie avtomobil'nogo transporta v khoziaistve sviazi. Pod red. L.A.Bronshteina. Moskva, Gos.izd-vo lit-x7 po voprosam sviazi i radio, 1951. 198 P. (HLRA 8:11) (Transportation.Automotive) (Com-Amication and traffic)  BELIKOV, Boris Stepanovich; VARSHAVSKIY, Boris Georgiyevich; GUSEV, Simon Stepanovich; KORO-BOV, Yuriy llikhailovich; PAMNOV, Lev Zakharovich; PXTROVSKIY, Stepan Ignatlyevich, [deceased]; YAKUSHEV.M.I.. redaktor; PAPIIUKO.I.G.. redaktor; LEDNEVA, N.V., tokhnicheskiy redtkkf3`rFft'*"w"O*"t [Postal and telegraph agent] Pochtovo-telegrafnyi agent. Mo- skva, Gos.izd-vo lit-ry po voprosam sviazi i radio, 1955. 254 p. (MLRA 9:4) (Postal service) (Telegraph)  FAYNGLUZ, Platon Petrovich; PAPI]RAKO,I.G., redaktor; BOKOIDVA,R.Ya., tekhnicheskiy redaktor -- ~~- - [Technical work standards in communications) Tekhnicheskoe normi- rovanle truda v khosialetve aviazi. Izd.3-e. Moskva, Gos.Izd-vo lit-ry po voprosam eviazi i radio. 1955. 214 p. (MIRA 9:1) (Telecommunication)  PAPINAKO) I.C. T are 'O.OU16 hle- no a"'It Drz a work. Vest. r7l~af ;,r no&3:21-22 Mr 165, !P: 5) 1. Zan,astitell naih,,"' Irika otdc-Ja arganizatsii Glavnogo prjchtcvogo upravleriya W.risterstm s-i-~mz~ S','R.  VISM~EVSKIT, AIeksandr Appolinarlyevich, d:)klor ekon. nauk, prof.; KRUFMISK171, Fedor Yurlyevich, kam'. ekor.. nauk-, dots.; FAFINAKO, I.G., red. [organization and planning of postal communications! Organi- zatsiia i planirovanie pochtovoi sviazi. Moskva, Izd-vo 1113viaz' tv , 1964. 329 P. (M1RA 17:8)  PAPINAKO, I.G. Agricultural workers should be prcvided with high quality of service. Vest. Bviazi 25 no.8:16-17 Ag 165. (MIPA 18ilO) 1. Zamestitell nachallnika otdola Glavnogo pochtovogo upravlenlya Ministerstva avyazi SSSR.  PAPIMLSH=, K. 1. and KLOPOTT)VSKIY, B.A. "The White Lunar Rainbm of 13 October 1948.," Pr1roda, No.9, 1949  L" 11-31PARIM, Y9.44; PAPINASEVILI, X.I. Synoptic and serological conditione for pec%LU&r weather phenomena In Transcaucasia and sow rules of their forecasting for natural synoptic periods. Trudy Thil. NOW no,2:11-43 157. (xM 11:4) (transeaueasla-Veather forecasting)  PA0kN F)st~V~U , V~ -I AUTHOR: Khmaladze, G. TITLE: The Scien+,if'~c Se!3~'LO_n af Thi'llsi -qc' entifIc Research institute for Hydrometeorology. ',7 a fi-ETT-Tay L sessiya Tbilisskojo NIGN1I) 1,ERIODICAL: Neteorologiya i Gldrologiya, 1058, Nr 1, pp. 66-~,' (TISSO ABSTRACT: In May 10,57 this institute held its fourth scientific session, where 16 lectures devoted to various branches of the hydrometeorolo,.~ical science were held, Under the conditions of Transcaucasia the problem of the forecast of thunderstorms is of great practical importance, there- fore special attention was paid to the lecture by Guniya, S. U. on V~e method of forecasting thunderstorms under the mountainous conditions of Transcaucasia and the lecture by Shishkin, N. S, (Main Geophysical Observatory) on the topic of the forecast of thunderstorm-processes accordine to the method of layers._j~a~ Napetv~ridze, Ye. A, and Lominadze, V. P. dealt with the problems of the investigation and subdivision of the air- and turbulence-currents above Transcaucasia. Vorontsov, P. A. reported on some peculiarities of the Card 1/2 temperature- and wind-conditions above the lake Sevan.  Me Scientific Session- of Thillai Scientific &-nearch 50-1-25/26 Institute for Hydrometeorology. Kvnr;jtnlz'-;eliya, I. F,, Tsut.9kiridze, A. Ya. and Kurdiani, 1. C, (State University Tbilissi) reported on the results of their works in the field of the aeroclimatic characteristic of th free atmosphere, on the Rn.-ilytical method of the treatment of obuerv~itionr ,-,ith pil-t, balloons and diQtribution of clouds in Georgid. Chirakadze, G. I. and Gigineyshvili, V. 19'. e..y.Lained the scheme of the radiation method of plottinG the slipperiness of ice in Transcaucasia and the characteristic of slush and its distribution in Transcaucasia. Khmaladze, G. N., Tsomaya, V. 8h. and Poklepa, V, F. repurted on the duration of the vernal-aestival floods in the rivers of Tran3- caucasia and on the method of their calculation as rell as on the method of the determination of the water supplies in the snow accordin- to given records of snow routes. Tsertsvadze, Sh. I. held a lecture on the method of fore- casting the main phenophases of grapes in Georgia, Svanidze, V., Pr - on the characteristic of the a,;i-u- meteorological conditions of the cultivation of potatoes, various conditions of the cultivati- of Dotatoes, various Cx.rd 2 /2 terms for planting in the low grounds of va-11eya of East Georg" AVAIEAME: Library of Congress 1. Weather forecasting 2. Heteorology  PAPIWASHVILI. K.I.-, GIGIIRTSHVILI. V.14.; NAMVARIDZE, YP.A. Aeros3rnoptic conditions for the formation and thawing of the snw cover of the Transcaucasian mouritains. Trudy Tbil. NIGMI no-3:22 158. NIRA 11:10) 1. Tbilisakiy nauchno-iseledovatellskiy gidrometeorologicbeskiy institut. (Transcaucasia-Snow)  19 3(7) -2-?:~/2~ AUTHOR: Khmaladze, G. N. TITLE: Scientific I'leeting at the Tbilisi Scientific Pesearch Institute of Hydrometeorology (Nauchnaya sessiya v Tbilisskom nauchi.o- issledovatel'skom gidroinoteorologicheskom institute) PERIODICAL: Meteorologiya i gidrologiya, 1959, Nr 2, pp 70 - 71 ABSTRACT: In May 10,58 the Tbilisskiy nauchno-issledovatel'skiy gidro- meteorologicl.eskiy institut (Tbilisi Hydrometeorological Scientific Research Institute) held a meeting in -.-.,hich the following representatives participated: Representatives of the Tsentrallnyy institut prognozov (Central Forecasting In- stitute), Glavnaya geofizicheskaya observatoriya (Main Gec- physical Observatory), and the local administrations of the hydrometeorological services of the Transcaucasian Re,.ublics. On the occasion of the fifth anniversary of the Tbilisi EII(~MII the director of the Inotitute V. P. Lominadze held a opeech commemorating the event. Kh. P. Pogosyan (TsIP) spokc on the character.of temperature distribution and the circulation of the atmosphere above the Antarctica. K. 1. -Papinashviii Card 1/3 and Ye. A. Napetvaridze spolle on the ch-aracteri.~i tics of the  Scientific Meeting at tLe Tbilisi Scientific Research 2- 24/2 5 Institute of Hydrometeoroloa circulation processes above Trar.Ecaucasia. M. A. Z--Icli---,hvili reported on the typification of synoptical processes carried out by him. R. I. Nozadze read two papers on theoretical questions of dynamic meteoroloCy. V. Y1. Gigineishvili and V. P. Lominadze spoke on the present state of the fight against hail. F. 'I". Kharchilava spoke on the great amounts of precipitation on East Georgia, 1. T. Bartishvili on meteorological visibility in cloudbursts, Ye. A. Polyakova (GGO) on the meteorological visibility in the case of pre- cipitation and fog, G. I. Chirakadze on the preci-.ita--ion in GeorOia in the course of 24 hours, E. V. Sukhishvili on ti le wind energy reserves of Ceorgia, Sh. V. Mosidze on "he radiation and heat balances in the allAne zone of tI.e Kaz- begi, Ye. R. Dvali on the ra-ioactivity of the atmosplic-re in Tbilisi and Dusheti, Ya. L. Tsutskiridze on the albedo of different natural surface,~:, Sh. G. Gavasheli (UGIAS of the Gruzinskaya SSR) on the ground temperature conditions in Tbilisi, V. Sh. Tsomaya 6n the method developed by him Card 2/3 for forecasting the number of' days with ice mash, V. F. Pok-  Scientific Meeting at the Tbilisi Scientific Research r)17 r~ ~' 150-59-2-2-'/21 Institute of Hydrometeorology lepa on a method for the calculation of the volume of rain water supply in f1cods, G. F. ,Pastukhova (UGMS of the Azer- baydzhanskaya SSR) on the use of indices of the atmospl~eric circulation in h-,drological forecasts. The representative of the UGMS of the Armyanskaya SSR M. V. Shaginyan reported on the characteristics of the formation of the water supply fur spring floods on the rivers of Armenia. A. A. Pogosyan (UGMS of the Armyanskaya SSR) pointed to the special role of tile snow cover of the belt between 1800 and 2400 m in the formation of the water supply for spring floods on the rivers of Armenia. V. F. Svanidze spoke on the method of forecasting easily accessible humidity in the soil below grain cultures. N. P. Stolypin and Sh. I. Tsertavadze spoke on the periods set for the opening of vineyards in Transcaucasia. 0. M. Kandelaki, L. A. Enfiadzh- yan (UGMS of the Armyanskaya SSR), and N. S. Chernysh spoke on the microclimatic conditions of the Lambalinskiy massif in the Armyanskaya SSR. In all, 27 papers were read. Card 3/3  K&MvARIDZE, Ye.A.; F~Rinashvili,j_j Characteristics of processes of atmospheric circulation causing the formation of large seasonal air temperature anomalies In Transcaucasia and their forecasting. Trudy Tbil.111GHI no.5: 2P,41 159. (MIRA 13:6) (Transcaucasia-Atmospheric temperature)  7 JT. Al, T-,lisi Fy 7; -_Cal TITLEi S it A3STF~'-CT: Thr- TI-c-,~isski~j t Tb 1 :.!3 i H~, c9 c 3 Research Insi t :~c` iir nj ,.:i -With the ta-ks i- ly s o:,j 1,. Congress of the Soviet Parl.y. livered cn varjcus cirrent P,,r. e r c. I c, ~y and ',,.yd-- j~reCtC.r of logy V~ P. Lominad~.e, T, 'he prin-cipal "asks to bc, mas t I y e I t i t r- n T , c- ;.! e .-- t i nz x a s a t t E 3 : n r -- p r z; - - t f 'i GrU7i,:a, Azer -tuijrdz~a it -,-,& t n i a 11.1c e~ v; , L ~- n , n a C a Cari  PAPINASHVILI, K.I. Characteristics of forecasting the circulation and weather for 3-7 days in Transcaucasia. Trudy TbilNIGMI no.17:3~-30 165. (MIRA 19:11)  ACC NR AT7004232 SOURCE CODE: YJR/3061/66/000/022/0003/0011 AUTHOR: Papinashvili, K. I. ORG: none TITLE: Some atmospheric properties of natural synoptic seasons in the Transcaucasus 1SOURCE: Tiflis. Zakavkazskiynauchno-issledovatel skiygidrometeorologicheskiy institut. Trudy, no. 22, 1966. Voprosy gidrometeorologii (Problems of hydro- meteorology), 3-11 i ITOPIC TAGS: atmospheric property, synoptic meteorology ~ABSTRACT: The author analyzes the statistical relationships and principles ;governing atmospheric processes of Eurasia, obtained as a result of investigations of anomalous natural synoptic seasons in the Transcaucasus. Orig. art. has: 6 tables. ,[Author's abstract) N-1 SUB CODE: 04/SUBM DATE: none/ Cpil/l  VAPiNA.:s Hu~Lk IY'. -i. 3M (j :~_ PHABE KX H~)TTATT014 BOV3o9r) Tbilisi. Nauchno-isf31edov,,.-,t,_- I IF,? i ~~ [-.I !i to. hes I, I Y I n a f.1 tilt, Trud,y, Vyp. 4 (Trans ac tions of the Trilini flydr. Mote0r.,10gical Srient.1fic Re- search Institute, No. 4) Gidrorw.,rcni~,lat, 178 p, IP500 copies printed. Add~Aional Sponsoring Agency; 11SSR. Bt)vlet Mir,4n1r-),r. Glavj;nyc 11prfivleniye gidrometeorologleheskoy sluzhby. Ed. (Title page): V. P. Lominadz,~'- El. (Inside V. D. Pisare','skaya; Tech. Ed.: N. V. Volkov. PURPOSE: This boc;h is Intended for afd hydn-Ongists. COVERAGE- This is a collection of 12 artIcies cn jet streams and turbulent currents, the analysis of the effect of orogral,hy on rhanges in atmospheric pressureY the characteristics of the temperature regime in the free atmos- phere, the development of methods of forecasting storms, lov clmd ceilings, fogs, water discharges, spring flonds and -~rarious other hydrometeorological phenomena in the Transcaucasia area, Of partir-ular Interest are articles on visibility conditions around Transcaucasian airports the aerosynoptic Card 1/4  Transactions (Cont.) SOV/3009 conditions causing air bumpiness In tlje area. References acc=Dany Pach ELrti c 1e . TABLE OF COWENTS: Fa-D:Lnash-,rLU. K. I Distribution of Jet. Streams in the Atmosphere 0~.rer 'Trwiscaucasia 5 Gunlya, S. U. Methods of Forecastif,g Storms iz, Oie Moiintainotis Regions of Transcaucasia 18 Wozadze, R. I. The Problem of Evahiatir,(T, the Effeot of Or,-,graphy in Forecasting Atmospheric Pressure 3~4- Naletvaridze, Ye. A. Range of Horizontal Visibility in Principal Air- port Areas of Transcaucasia and the Causes of Its Diminution 54 NeI)etvaridze, Ye. A. Forecasting F,)gs In PrInt-lp-il Airport Areas In Transcaucasia 71 Ca:f-d 2/4  Transactions (Cont.) SOV/3099 Kva3-atskheliya, I. F. Charax:terlsilt,r of i~ie Regim and Local Atmospheric Circulation Over Sukhwnl 93 Lomi.nadze, V. P., and Ye. A. Napetvarldze. Aerosynoptic Conditions in Turbulent Currents in the Atmosphere Which Cause Aircraft Dumpiness on the Sukhimi - Tbilisi - Yerevan Run 112 Chi:-akadzep G. I. Nap of Regional Glazing for Transcaucasia 124 Kh=31adze, 0. N. Method of Measuring and Computing the Discharge of Vatwur In Mountain Rivers 153 Poklepa, V. F. Establishing Annual Hydrological Seasonal Boundaries for Xmintain Rivers 162 Toormayao V. Sh. Methods of Forecasting Spring Floods in the Rivers of Georgia on the Basin of Preceding Hydrometeorological Factors 168 Teertovadze, Sh. 1.911. P. Stolypin. Agroclimativ. Charact.crli3t.icn for the Cultivation of Corn in Transcaucasia 172 Card 3/4  PAPINASHVILI, K.I. Distribution of jet streams in the atmosphere over the -erritor7 of Transcaucasia. Trudy Tbil..MG141 no.4:3-17 159. WITd 13-4) (Transcaucasia--Jet stream)  PAPINASHVILI. K.1. Characteristics of synoptic processes and their effect on weather phenomena In Tiflis. Trudy Tbil.NIGMI no.6:42-68 '59. (MIRA 13:5) (Tiflis region--Meteorology)  PAPINASHVILI, K.I. State of studios on the developmental characteristics of synoptic processes and weather in Transcaucania and adjacent regions. True.y Tbil. NIGMI no.7:3-25 160. (MIRA 14:8) (Tram ca4masia-Moteorological research)  GIGIITMHVILIp V.M. ; I&PETVARIDZE, Ye.A,; r 11 Atmospheric processes as a factor af.'ecting glacier fluctuations in the Greater CaucaBus. Trudy Tbil.NIG141 no.8.3-9 161. (MIRA 150) (Caucasus-Glaciers)  PAPINASHVILI, K. I. .. PleAvy precipitation in eaetern Gtorgia and aeroeynoptic oonditions of their origin. Trudy TWA. NIGNI no.lOsIM- M 162. (MM 16:11)  PARGOLIN A t L.H.q. RAKAKOVAI VAj!jNA8jjVjj~j, K.J., PANIKOV. N,8.1 1,%,.l rje. Brief news. Meteor. i g1drol. a 1. (KMA 16:11)  S/1.69/62/000/011/040/077 D228/11307 -le aero- Papi-nashvili. Fast Georgia aud t' I,b,mdajjt preciPita"'O'Ouf its origlin tic conditions I-L, 3-962, 6B, TITIZ synop OUr-as 'no. idrorjeteorol- -lurna Geofi n. g -L I . s s1r. Referativnyy zI (Tr- Tbill 1.2) 111371) -10,1-1 pER-JODICAL: abstract 1 -10, 19621 re no Z,,t Georgia r- in-ta, us in . 0d of obse at 53 statlo the perl . t1-1 OrLs 30 Trm of days observatl,ipitatlon. e a-C IY average I frcVe-a- opious pre Tile y The hig -' -1 --)art T=CT *.to study c I. . , ,TLiform- 0 jv_to 8.4* ~ ccntra used , mixLS f the r (.1937-1959) 3 , front . ,Jazarn-, ,rjes sea slopes 0 f the air- .1y C%po. valley 0 vatiO' )rccipitation V, n the forced rise 0 ab,andant I southt,70,tcl d the .2itation. d on Range an(, observe nee aA prec, -t-Lr CY is I~avjrazsll-ly OnverSe abundant of the GlavrLYY 'hy Promotes the increase in t inxIM for )gra, "C the topc --requelacy m and frm in soathcrr, .VI-jer, The suUITner nVectIOU of wave processes 'Mosses. Cnsified c0 frequency stems from ent a -ad tile ture-C Taoisture-, C an anti- 'ard 1/2 ..v-rth, and cyclones r Ci --Lriactert , note; COMPIete tran- one.Ii slation-7  PAPINASHVILI, E.I.;WMINADZE, V.P.,, red.; NIKOLAYEVA, G.S., teklm.re& (Atmospheric processes in Transcaucasia and their connec- tion with large-scale circulation processes above Eurasia] Atmosfernye proteessy v Zakavkazle i ikh sviaz' e makro- tsirkulistsionnymi protsessami nad Evraziei. Leningrad, Gid- rometeoizdat, 1963. 183 p. (MRA 16:8) (Eurasia--Atmosphere) (Transcaucasia-Atmosphere)  ~.- , ~Ie -- a   PAPINASVILI, L. I. 28961 PAPINASHVILI, K. I. Belaya Lunnaya Raduga (Zap, Truziya, 13 Uct, 1948 G' Priroda, 1949, No 9, S 60 SCI: Letopis' Zhurnallnykh Statey, Vol. 39, I-'ioskva, 1949  GOWAM, D.N;, PAPIN4WILI, L.K. calou"tigg the impact of as avalanche on an Immovablo obstacle. Soob.AN Gras.SSR 16 no.6:437-442 155. (MLRA 912) I.Akademlya sau Graziaskoy SSR, Institut goofisW , Tbilisi. Prodstavleze deystvitellaym chlown Akademli K.S.Zavriyevyn. (Impact) (Avalanches)  pr9pook'O.'T. G. FAYNGXPX. P.P.; PAPINAKO. 1.G., reds."or; SOEOWVA, JLU., redaktor. .............. [Technical work standards In conmnicational Tekhmichemkoe normirovanie v khoziaistve svia2i. Moskva, Gos. Izd-vo 21t-ry po roprosam eviazi i radio, 1953. 267 P. Off-Rd 7.1) (Telecommanioations) (Postal service)  KUTUZCYV, L.G.; RYSIN, V.I., inzh.; SHIRYXVICH, N.S., inzh.; KUZHETSOV, N.D., inzh.; FILIYDNTSU, I.S., Anzh.; FAF1JJDVA, 0,1., inzb.; KHOLODKOV, N.Ye.,,..-1nzh.; ASTAFUROV, O.A.; !r k-."-;62tA5TM, A.S.; SAFAROVA, Ye-S- Laeceased] Exchange of practices by the enterprises of economic councils. Torf. prom. 40 no.7:34-38 163. (MIRA 17:1) 1. Gusevskoye torfopredpriyatiye Verkhne-Volzhskogo soveta narodnogo, khozyaystva (for Kutuzov). 2. 'Lorfopredpriyatiye Vasilevichi Il Belorusskogo soveta narodnogo khozyayatva (for Shirkevich~%.Fii4amtsev. Fkp1WMr.-Kho1cx1bDv)~ 46-w*Yavskiy lesnoy khimichesldy kombinat tor1kovskoy obl. (for Kuznetsov). 4. FornosovBkiy torfobriketnyy zavod Leningradskogo gosudarstvennogo tresta torfyanoy promyshlennosti (for Sass).  PLPIR, A. N. USSR/Electricity - Generators, Reversible Hydroelectric Power Stations Tun 50 "Reversible Hydroelectric Fower Ux~it5 in a Fower 5-yst-erP1 V. F. Scis A. N. Papir, Engr IT16k Stant.911 No 6, pp 1h-17 Proposes use of hydroelectric power stations capable of storing -power. Some of the-E~e would be included in each power system. Sugfests these stations be equipped with reversible units, i. e., hydraulic machines c!4pable of alternate operation aE ff--ner3torS or motors. Discusses characteristics of reversible units and concludes their installation in new hydroelectric power stations is economic2lly so,-nd. PA 162T17  PAPIR, A.N.. mladshiy nauchnyy Botrudnik Characteristics of a propeller pump in subsurface operation. ?~-ady UPI no.2:W-150 154. - (KMA 8: 8) (AmpiM nuabinery)  PAPI R, A. N. -- Some problems pertaining to the calculation of a jet motor. Trudy LPI no.187:58-72 156. (KIRA 13:6) (Hydraulic machinery)  P"IR, A.N-. -- Investigating the operation of an integrated hydroturbine unit when the overflow to directed through the elbow of the draft tube. Trudy LPI no.187:44-53 156. (mm 13:6) (Hydraulic turbines)  SOV/ I Z4, 58- 3- 295 3 Translation from: Referativnyy zhurnal,&Aekhanika, 1958, Nr 3, p58(USSR) AUTHOR: Papir, A. N, TITLE: Some Questions on the Design Calculation of a Water jet Propulsor (Nekot,orvye voprosy rascheta vodometnogo dvizhitelyal PERIOD!CAL: Tr Leningr politekhn in ta. 1()56, Nr 187, pp 5-8 7,-' ABSTRACT- An attempt is made to establish. dependent upon the horse power of a propulsor and the characteristics of the pump. a selection of propulsor parameters ensuring the best thrust performance of the propulsor as well as the cavitation free operation of the pump. V, N Gusev Card 1/1  MIR'!.Auw~r Design of a jet propeller on the basis of the standard pi=p and testing results of the experimental vessel. Trudy LPI no-193:94-io7 '58. (MIRL 12:2) (Ships-Teating) (Hydraulics)  PAPIR, A.N., inzh. --ZL ---------- . Investigating axial pumps operating in free flow circulation systems. Energomashinostroenie 6 no.8:14-17 Ag 060. (PumpinF machinery) OURA 14: 91)  3/14 61100010-,10091,00f,~ D203YD302 Engineer AUTHOR: Zjj~~A.N.~ TITLE: The effect of blade density of an axial-flo% pump working wheel on its energetic and cavitational. pr- perties PERIODICkL: Izvestlya vys8hikh uchebnykh zavedeni-y, Energel:k~,. no, 11, 1961, 111 - 119 TEXTg The author derives a formula for relative love of epe--_,, energy in the blades of the working wheel. He concludes that t-p loss depends on the distance between blades and that the factor is the peripheral velocity of flow wu depending on ~he speed of rotation n. Taking cx = ac 2 -f bc + C., Z'Abstra,!.or y Y note; ox not defined-7, c y being the coefficient of lift fcT~e, one obtains a relation between I/t and n7 /-Abstractor's nr_te~ I - not defined-7, t being the peripheral distance between blades Card 1/2  PAPIR, -A.N.. inzh. Effect of the density and cross section of the rotor wheel of an axial compressor on its mechanical and power characteristics. 1zv- vy5. ucheb. zav.; energ. 4 no.11:112-119 N 161. (~IIRA 14:12) 1. Leningradskiy politekhnicheskiy institut imeni M.I.Ralinina. Predstavlena kafedroy gidravlicheskikh mashin. (Compressors)  PAPIRS A. N. Development of an axial-flow pump with minimum resistance under free-flow conditions. Trudy LPI no.215,.159-172 '61. (MMA 141- 1-1) (marine pumps)  PAPT, A.N., kand.tekhn.nauk, doteent. Slit cavitation in an axial-flow punp. Energomashinostroenle IC no.30R-40 Ja 164. (?ff FU 1'7: 4',  p k P -- A 11 ; -=Z_J~' " ~ ", C- ,, - of T _. -'.! -_. 1 r- F~ cl 5~ -- ~m th e c c vi ta t ' on charactee, atl ra 9 of rp%,Pi-iirqj Trudy !.Pl no.246t53-56 165. Relat-lonablTs rf the pewe, :harat i,~. r Is tics of reversing hydraillic uni ts. Im', i . i 1)- 7 - -6 3 (MIRA l8t6)  PAP , 11'0 le'll T S K AYA , - - __IR -Abram Nutovich; FEVZIiER, B.M. . retsenzent; Y, i Ye.Ye., red. [Axial-flow pumps for water-jet propellers] Osevye nasosy vodoa,etnykh dvizhitelei; osnovy teorii i rascheta. Lenin- grad? Sudostroeniev 1965. 250 P. (Ylu 18" f, )  PAP MW~ -TIMOEM Treatment o1 black Door soap oblaino in the xnn 'IA'durs, 01 CeRMUSID Malarial 6Y the SuIpbate or oft VTOMM jibomkd N 11 (Inventor - X S.vVitsche) (B.P. 702,821~ ~_ - RMk-16.4.40).-The blaWT-quorwaj or tall oil soapis treated b r adding (before, during; or after the known acid hydrolysis) S afi or alkaline earth water-sol. salts which are Insol. in the tall oil (NaCl, NaSO.); separating a mud (which forms an intermediate layer behimen the tall oil and the salt-containing bottom layer);' separately working the tall oil and bottoin lay&s.; removing add from thomild by neutralls2flon. and 117 .. *Zzftvdng and monlding the mud product (mixed with illers). In 'cal I typi examples I kg. of tali oil soap is heated to temp. :*, -the Up. under atm. . pressure with water 100. kg. ISD kg. of.Na2SO, are, slowly added after or simultaneously with b1 I CO, through the liquid: The necessary amount of H2SOO is added slowly whiled air is blown through the, liq'u-i d-, for some time and the liquor left to stolid. -,~W kS, of fatty acid or tall oil is obtained, and a mud layer kirms under the fatty add layer. The mild layer contains NaISO, solution (which InAY be, used for salting out fresh Wj oil soap or for. the suipbate or WdS, making: moulded articles, - water-590 kg., neutralised aq.- solution of 10-20 kg. g freed from water. dried, afincieased temp. 1j. L. WiuTzuxAv.  PAPIRCVY 1. - ;2' - !Zat..Cn- d'fl~7- Z' )et ' i,r~en~ a T 107. CT",-!: th - - i : - - C. . , :-X. - ., . 0 . t", -  ,-PAPIROV*-lvl~TIMNSKIYv G.F. Dependence of condensation coefficients an tenperature. Fix. not. i metanoved. 11 no. 1:155-157 Ja 161, (KIRA 14:2) 1. Fiziko-tekbnicheakiy institut AN USSR* (Condensation)  AYIOIIENKO, V.M.; KRUGLM, A.A.; PAPIROV, I.I. I I . lie--t` " Preparing high-purity zinc and the method of its control. Fiz. wt, i metal-loved. 11 no. 4:633-635 Ap 161. OMA 14: 5) 1. Fiziko-takhrAcheakiy institut AN USSR. (Zinc--Analysis) (Vacuum metEllurgy)  121S- AUTHORSt TITLE: .r 25927 S/126/61/012/001/009/020 .2909,15s" E021/E406 Amonenko, V.M., Papirov, I.I., Tikhinskiy, G.F. and Finkel', V.A. Orientated growth of beryllium precipitates on oriented and on isotropic bases PERIODICAL: Fizika metallov i metallovedeniye, 1961, Vol.12, No.1, pp-73-77 TEXT: The plasticity of beryllium can be increased by preparing it with a preferred orientation. A preferred orientation can sometimes be obtained by condensing the metal onto a base with a preferred orientation or by changing the angle between the direction of the molecular stream and the normal to the base. In the present work, the structure of beryllium precipitates prepared by the condensation of vapour in vacuo on a textured base of various metals, and also the variation of structure with the angle of inclination of the molecular stream to the base, were investigated, The method of precipitation used was described earlier (Ref.10: Fmm, ig6o, io, 4, 581). Beryllium of 99.987% purity (discounting oxygen) was vaporized in a resistance furnace with a BeO crucible. The rate of evaporation was about 0.2 g/cm2 hr, the condensation Card 1/5  6 259r, S/126/61/012/001/009/020 Orientated growth of beryllium ... E021/E4o6 ourface temperature 300 to 3500C. The precipitate was annealed for I hour at 700 to 7~O 0C. Precipitation was carried out in a vacuum of (1- 5) x 10-0 mm Hg. Rolled sheets of Mo, Ta, Ni, Cu, Ti and armco Fe were used as & base. The texture of the condensed beryllium was investigated by X-ray methods, Some of the photographs obtained are shown in the paper (of a layer condensed on a molybdenum bass, on nickel. and on an amorphous base). Fig.2 shows the orientation of the crystals on the same bases. The results are given in the table. Epitaxial growth was observed in several cases with precipitates up to 500 U thick. The best plastic properties of beryllium were obtained by condensation in the [21T] direction on a molybdenum base, and on a neutral base. The orientation of beryllium condensed on a nickel base in unfavourable for plastic deformation. There are 2 figures, I table and 16 references: 9 Soviet and 7 non-Soviet. The four most recent references to English language publications read as follows: Newman R.C. Proc.Phys.Soc., 1956, B69, (4), 432; James J.A. Trans. Faraday Soc., 1955, 51, 8331, Finch G.I., Sun C.H. Trans. Faraday Soc., 1936, 32, 852! Burgers W.G., Dippel C. J.Physica, 1934, 1, 549. Card 2/5  I 259117 S/126/61/012/001/009/020 Orientated growth of beryllium ... EOWEW6 ASSOCIATION: Fiziko-telchnicheskiy institut AN UkrSSR (Physicotechnical Institute AS UkrSSR) SUBMITTED: November 9, 1960 (initially) Jnnuary 11, 1961 (after revision) Card 3/5  89950 5/126/61/011/ool/018/oig &-7 550 E032/E314 AUTHORS: Papirov, I.I. and Tikhinskiy, G.F. TITLE& On the Temperature Dependence of the Condensation Coefficient PERIODICAL: Fizika metallov i metallovedeniye, 1961, Vol. 11, No. 1, pp. 155 - 156 TEXTs It is well known that the condensation coefficient a of a substance on a given base, which is defined as the fraction of "condensed" molecules, depends on the temperature of the base, the nature of the surface, the thickness of the deposit and the energy of the incident particles. It has been shown experimentally (Knudsen and Weyssenhoff - Ref. I and Devienne - Ref. 2) that the condensation coefficient may vary from 0 to I in a certain temperature interval. The magnitude of this temperature interval depends on the nature of the deposited material and for certain materials may reach a few hundreds of degrees. The above authors have assumed that the condensation coefficient a decreases monotonically with decreasing temperature. However, in a number of cases, Card 1/q  89950 s/l26/6l/oII/ool/oi8/olq E032/E314 On the Temperature Dependence ... the temperature dependence of a may be more complex. it is well known that when vapours of metals are condensed on an amorphous base, certain preferred orientations appear in the condensate (Dixit - Ref. 3, Herbstein - Ref. 4 and Bruck - Ref. 5). These orientations are such that the plane with the maximum reticular density is parallel to the base. A change in the temperature of the target leads to a change in the orientation in such a way that at higher temperatures planes with lower reticular density will become parallel to the base. On the other hand, it is known that the condensation coefficient on planes with different packing density is different (Rideal and Wiggins - Ref. 6). In this connection, the authors consider the results of Walter (Ref. 7) who has measured the condensation coeffirip"t for mercury deposited on a nickel bass. Walter hab ioun" that the condensation coefficient has a minimum between -85 and -95 0C. He has explained this minimum by assuming Card 2/5  89950 s/l26/6l/on/ooi/oi8/oiq E032/E314 On the Temperature Dependence that the re-evaporation of mercury atoms from mercury crystals is more intensive than the re-evaporation from nickel crystals. The present authors used the Dixit formula (Ref. 3) T rT melt (1) d (where T melt is the melting point of the condensate, 0K, E is the atomic radius and d is the distance between the orientated planes) to show that in the case of mercury and in the above temperature region two orientations are possible, namelyt a) the_ (108) plane with d = 2.77 parallel to the base at about 100 C, b) the (110) plane with d = 2.55 parallel to the base at -70 0C. It follows that for Card 3/5  89950 S/126/61/oll/ool/ol8/oig E032/E314 On the Temperature Dependence condensation temperatures between the critical (-77 0C) and -85 0C, the plane (110) continues to be parallel to the base and a increases from 0 to 1. At -85 OC Ithe ~110) orientation begins to appear and the minimum at -95 C is due to the predominance of the latter orientation. Further increase in a is due purely to a temperature effect. From this point of view, the dependence of the condensation coefficient on time (Ref. 7) becomes understandable. For short times of condensation, when a large fraction of the nickel surface is still available, the minimum on the a versus T curve is not observed. For long times, on the other hand, the minimum is smoothed out as a result of -ho orientation effects associated with increasing thickness of the layer. Card 4/5  89950 S/12b/61/oll/ool/ol6/olq E032/E314 On the 'rvmpot,i&tuvu lieporidence There are I figure and 7 non-Soviet references, ASSOCIATIONt FiziKo-teklinicheskiy institut AN UkrSSR (Physicotechnical Institute of the AS Ukrainian SSR) SUBMITTED: August li, 196o Card 5/5  21371 S/126/6i/oil/004/021/023 E021/E435 AUTHORSt Amonenko, V.M., Kruglykh, A.A. and.la-p-Irov, I.I. TITLEx Preparation of Zinc of High Purity and a Method of its Control PERIODICALs Fizika metallov i raetallovedeniye, 1961, Vol,11, No~4, pp.633-635 TEXT: The method of purification used vas vacuum distillation and condensation of the vapours on a surfac-e with a temperature gradient (Ref.6). The apparatua is shown in the figurez I coupling, 2 quartz tube, 3 Lond-anser-, 4 heating sections, 5 baffles, 6 crucible and 7 thermocoup1c, Zinc of 99.98% purity was used as the initial material, On6 kg was placed in a crucible and 70 to 95% of it vapourized, The purest zinc was always obtained in the middle zone of the condenser. When a shorter condenser was used, the degree of purification decreased, The-purest zinc was obtained by vapourizing at 4600C when a purity of 99-99997% was obtained. 40% of the original :.harge could be obtained with this purity, Repeated distillation did not give a further improvement in purity, The control of the purity was carried out by the method of measuring the residual resistance, Card 1/ 3 -  21371 s/i26/6i/oil/004/021/023 Preparation of Zinc E021/E435 using a low-ohmic condenser and a high sensiti,;rity galvanometer (B.N~Aleksandrov, I.G,Dlyakov and one of the authors, I.I.Papirov. carried out these measurements In the Kriogertnaya laboratoriya (Cryogenic Laboratory) of the Institute . The ratio of the resistance at 4.2*K to the resistant# at room temperature of the obtained sample was compared with the same ratio for zinc of known purity, Thus an estimate of the total impurity in the zinc was obtained, Acknowledgments are expressed to B.G-Lazarev for his advice. There are I figure and 11 references~~ 7 Soviet and 4 non-Soviet. ASSOCIATIM Fizlko-tekhnicheakiy institut AN Ukr-SSR (Physicotechnical Institute AS UkrSSR) Card 2/3  Preparation of Zinc ... Figure. Card 3/3 S/126/61/011/004/021/023 E021/E435 K O8C-DPbr4uOH- K pqp6ayy- HON NOCOC 'fomy "Grocy T= A.JV' 7- .  AMONEENKO, V.M.: PAPIROV, I.I.; TIYHINSXIY, G.F.; FINKEL', V.A. Oriented growth of beryllium precipitates on textured 40W isotropic base layers. Fiz. met. i metalloved. 12 no-1:73-77 J1 '61. (MIRA 24:8) 1. Fiziko-tekhnicheskiy institut AN USSR. (Beryllium crystals-Growth)  S/126/62/013/006/013/018 E021/E192 AUTHORS: Amonenko, V.M., Papirov, I.I. Tikbinskiy, G.F., and Finkel,. V.A. TITLE: Investigation of whi5ker crystals of beryllium. Preparation of whisker crystals and determination of their orientation. PERIODICAL: Fizika metallov i metallovedeniye, v-13, no.6, 1962, 928-930 TEXT: Single crystal beryllium whiskers were prepared by evaporation in vacuo and condensation of the vapour on a cylindrical column of molybdenum sheet. Distilled beryllium of purity 99.99% (neglecting oxygen and carbon) was beed. The vaporising temperatures were 1365-1600 *C and the condensing temperatures 770-950 OC. The rate of evaporation varied from 0.4 to 0.9 g/CM2.hour and the rate of growth of the whiskers from 0.01 to 0.07 g/cmi.hour. The majority of the crystals had a diameter of several tenths of a micron and a length of several millimet5res. X-ray investigations (by rotating the sample in the D-S camera) showed that the whiskers were single crystals. Card 1/2  Investigation of whisker crystals ... S/126/62/013/006/013/ol8 E021/E192 There was some splitting of reflections indicating plastic deformation in the process of removal from the condensate. The directions of growth of the crystals investigated were L221-' D313, and [111J. Thus the growth does not occur in the direction of closest packing. There are 2 figures and 1 table. ASSOCIATION: Fiziko-tekhn'icheskiy institut AN USSR (Physicotechnical Institute, AS Ukr.SSR) SUBMITTED: December 2, 1961 Card 2/2  - PAPIRDV-, I.I.; PALATNIR, L.S. Oriented growth of metal and ionic crystals. 7 no.2:286-290 Mr-Ap '62. (mIRA 2;.') 1. Khar'kovskiy politek~nichpskiy institut imeni Lenina. (Metal crystals--Growth) (Ionic crystals--Growth)  MIOIX14KO., V.Mq-PAFT4-0-v,--L-I-; TIKHIJISKIY, G.F.; FIWL1, V.A. Studying filiform beryllium crystals. Part 1: Obtaining filiform crystals and determining their orientation. Fiz. met. i metalloved. 13 no.6:928-930 Je 162. (MIRA 15:7) 1. Fiziko-tekhnicheskiy institut AR USSR. (Beryllium crystals)  PAPIROV, I.I. Heatable detachable seals and valves in superhigh vacuum apparatus; survey. Prib. i tekh. ekep. 7 no.2:5-15 *-Ap '62. (AURA 15:5) 1. Fi2iko-tekhnicheskiy Institut AN USSR. (Vacuum apparatus)  PAPIROV, I.I.; TIKHINSKIY, G.F.; FINKEL, V.A. L-- -- - -- -- Phase transformation In Be-S at.- 7"Mi 811078, withaut diffusion. Fiz.met.i metalloved. 15 no.3:462-465 Mr 063. (MMA 1634) 1. Fiziko-teklinicheshy Institut AN Ukr6SR. (Beryllium-nickel alloys-MotaUography) (Phase rule and equilibrium)     N R-! P,4042048  zlk-6-i~-tekfiiiihoski '--Lh-jtLtutjz 'AN UkrsSR--(Ph yt cotechnical 'Uk W A T--PS411611 00 77  VASMIUSKIY, B.M.; KARTMAZOV, G.*%; PAP1RCV, 1.1. Surface structure and the properties of aclcn~iar chrrm:= crystals. Fiz. met. i metalloved. 17 no.6-.892-89'7 Je 104. (MIRA Dt8) 2. Fiz-iko-tekhnicheskiy inr-titut AN UkrSSR.  PAPIROVP I.I.; TIKHINSKIY, G.F. Thermal etching of beryl-liur. crysta-Is. Kristal2ogrx~fija 9 no-3.-444-44? MY-Je '64. (~C-nA 1":b; 1. FJziko-tekhnIcheskiy Institut AN Uki-,SU11.  PAPIROVP 1.1.1 TIMNINSKIY, G.F.; FINKEL', V.A. Hardening of Be-Ili alloys. Fiz. met. i metalloved. 17 WAS 613-614 Ap 164. (MIRA 17:8) 1. Fiziko-tekhnicheskiy institut AN UkrSSR. r . cilo  PAPIROV, I.I.; TIKITINSKIY, G.F. Berylium cryctlallization on a condenDing column. Kristailograf-Fa 9 no.2:310-314 Mr-Ap'64. (MJP.A 17:-~) .1 1. KharIkovskiy fiziko-tt-khnichpskiy institut.  ACCESSION NRs AP4034060 S/0126/64/017/004/0613/0614 AUMORSs Papirov, L I.1 Tikhin6kiyg G. F.; Finkel', V, As TITLEj On the problem of hardening of Be Ni alloy SOURCEt Fizika metallov i metallovedeniye, v. 17, no. 4, 1964, 613-614 TOPIC TAGS: hardening, annealing, beryllium, nickel, radiographic apparatua RKD 57, alpha beryllium line, beta beryllium line, hypoeuteotic alloy ABSTR&CTs The purpose of thlis work was to study the hardening process in Be-Ni alloy at high rates of cooling. Minute specimene produced by contact aro dinobarges were cooled an the inside walle.of a copper container of 80-mm diametert rotating at a speed of 2500 rpm. Hardening of the specimens took place over a thickness of 10 AA, with the cooling rate of 106 degreen/sea. Radiographic analyaio waB per- formed with an equipment of the type RKD-57. The radiogram of the hardened speci- men was to be characterized by the absence of the CK-Be line and the change in relative intensity of the line of the Y phase, but the absence of the C(-Be line was observed only in the smallebt specimens constituting about 25% of the total vqpber. Temparing was done at temperatures of IOD-40DC and the exposure time at these temperatures was one hour. Radiograms of spocisens tempered'at temperatures CoM 1/2  ACCESSION NRs AP40340(>O below 300C could not be distinguished from those of hardened specimens, but radio- grame of specimens tempered at above 340C showed 'W-Be lines. Hardening of pure Be and of inter-metallic compounds did not cause any change in the form of the radio- gram. aperiments with hypoeutectio alloys with 5-20% Ni contained the 0(-Be line. Orig. art. hass I photograph. ASSOCIATIONs Fi'ziko-tekhniokeekiy institutt AN SSSR (Pbysioo-teohnical Institute, AN SSSR)- .SUBMITTEDs 01AU963 SM CODEt MR NO REF SOVI 001 ENCL.1 00; OTHMI Wi~ Cwd 2/2  PAPIPOV, I-!- ------------- rg. 19 no.2tl44-153 165. Ilgirp of beny'lliune AtOms OnO IMMA 180)  AZHPIHA, V.M.; DIYAKOV, I.G.; PAPIROV, I.I.; TIKHINSKIY, G.F. Change in the prapertieB of berylli= du-,- to aging. Atoz. energ. 19 no.3t269-272 3 165. (NIRA 18-9),    618810790 U 2 5 SU8. -537 7 an' f b- c efyll 4 l ___1 r~dtot ,f -Z-1 bvci en e~ ery e cuuni: cAs t., M rylliimi diet Mi eryl 96-Me Axif a, iq-rL :cra.-t~"m~eMent-AL:o th gr ~At - l . d9 Yet bee i.. I iteratilie' no -ori 1 Lf A6 :[1i tli res stance a teWeew-Ae ~of th s-: meta t~sidti~f - - n6e' o~ -bpr ii~'-pp -ta f Ilium e: 611ttbOrs. keptLin res tluzt.i fe s is ' ~ a: perfomed- in and - - - ' i volti u rem- exitIi6 -do tIvj er 4.1 64 s t6ted t 01~iat 10 ty: W4 , o z *Lrf - a1z 6 16 - to ~d   -W-ANUki-Ssql(Ph 'icotechidea. Institute tekhtticheg1 11 - 1 ~-SUB, COP - , 000 3~ 5 -    T VAO W 7-7 -50 16 52 6: 6/w 29/006 08 57,--'f~ 537 31 Aw/ eryl I wt it~6eln--~-r- eimianont ~6~!,;sbince- ind-hpat- 14~galtment--.Ili 04q egree tallov~deniv -19 --n&.-- 6- 1965- 848 8S   L 04Z84-67 - EWT(m)/EWP(t)/ETI IJP(c) JD~JG ACC NR- AP6024471 SOURCE CODE: UR/0181/66/ODB/007/2092/2097 AUTHOR: Finkel', V. A.; Papirov, 1. 1.; TikhinEkiy, G. F. OBG: Physicotechnical Institute AN UkrSSR, Khar1kov (Fiziko-tekhnicheskiy institut AM Ukr3SR7 TITLE: Investigation of plastic deformationof single crystals, of beryllium during ccanpression 1-t )7 SOURCE: Fizika tverdogo tela, v. 8, no. 7, 1966, 2092-2097 TOPIC TAGS: beryllium, plastic deformation, pressure effectw x ray study, crystal lattice structure A13STRACT: The authors describe x-ray structure investigations of the plastic de- formation of single crystals of beryllium with different orientations. The plastic deformation was investigated with the aid of a special x-ray camera described else- where (Zav. lab. v. 32, 1248, 1966). The x-ray photographs of the sample could be taken both at fixed load, or directly during 1OW-Bpeed loading. The camera makes it possible not only to obtain x-ray photographs of the deformed substance, but also to determine the character of the deformation curve. ThelOx-ray source was of the URS-1 70K1 type with unfiltered iron radiation. The tests were made on beryllium of tech- nical purity (99%) vith three different orientations, and are d--scribed in detail.  U4/B4-b/ ACC NRt AP024471 The x-ray pictures obtained during different stages of deformation are compared with different sections of the deformation curve and conclusions are drawn concerning the deformation mechanism of the beryllium. The results are also compared in some cases wi-th those obtained by investigating beryllium crystals by ordinary techniques. The relative contributions of slip along the basal planes, prisms of the first kind, and twinning over the plane of the pyramid of the first kind to the deformation are eval- uated for each orientation. The authors thank Yu. N. Smirnov and A. S. lzmalkov for help 'with the work. Orig. art. has: 2 figures SUB CODE: 20/ SUBM DATE: 11Dec65/ ORIG REF: 003/ OTH REF: OD8 2/2  L 29361-66 __ EWT(Ln)/ /BVP~t /F_T1 IJP(c)__WVi/PZJG _ I ACC NRt AP6017311 (N) SOURCE CODE: UR/0126/66/02--l-/-OO5/0785i678-~~, DI p AUTHOR: yokov, I. G.; Papirov, 1. 1.; Tikhinekly, G.__F. i ORGi Physicotechnical Institute AN UkrSSR (Fiziko-tekhnicheakiy ingtitut AN U~,rSSR TITLE: Aging of beryllium-chromium and beryllium-zirconium alloys SOURCE: Fizika metallov i metallovedeniye, v. 21, no. 5, 1966, 785-786 TOPIC TAGS: beryllium, beryllium alloy, chromium containing alloy, zirconium containing alloy, aging, alloy aging ABSTRACT: Beryllium alloys containing 0.3%Cr or 0.3%Zr melted from 99.957-pure Be, 99.7%-pure Cr and 99.9%-pure iodide Zr were rolled in vacuum at 900C, homogenized at 1050C for 40 min, cooled at a rate of 40 deg hr, and aged at 500-900C for 1-100 hr. The criterion of aging: was the relative residual electrical resistance: 6 - R4.2K/R20C. Homogenized Be-0.3%Cr and Be-0.3%Zr alloys had a 6 of (5.4-59)-10-1 and (6.3-6.5).10-2, respectively. The optimum aging temperaLures, correspond ing to a mintinum 6, were 600 and 625-6510C for Be-0 . 37Zr iind Be-0.3%Cr alloye, respectively. The absolute decrease of 6 in aging Be-0.3%Cr alloy was close to the decrease of 6 for the initial distilled Be, which indicated a practically complete precipitation of Cr from the Card 12 UDC- 546.3-19'45'76'831 : 620.187  L 29361-66 ,~& _NR, AP6017311 apparently not only matrix with aging. In Be-0.3%Zr alloy, zirconium completely precipitated from the matrix, but also promoted precipita- tion of other impurities. Complete segregation of Cr and Zr occurred t 650-7p OC and in I hr at 800C. At temperatures higher than in 4 hr a 825C (for Be-Cr loy) and 850C (for Be-Zr alloy) decomposition of the secondary .11--%egins, which leads to an increase in the electrical resistance. The solubility limit of Cr in Be-0.3%Cr alloy and of Zr ini Y. Be-0.3%Zr alloy is at a temperature above 850 and 900C, respectivel. Orig, art. hast 1 figure and 1 table. [MS] SUB CODE: 11, 13/ SUBH DATE: 263ul.651 ORIG REFS 002/ OTH REF: 001 AM PRESS: 61 M