SCIENTIFIC ABSTRACT AZEVICH, S. P. - AZHGIREY, G. D.

BEWIN, V.L.; FOBRITSKIYO N.V.; KHAYIMIYANOV, R,R.; AZF;VIC,11, S.P, Selacting the proper conditions for the eliminntion of corrosion damage to operational petroleum-products pipelines by the Rppli- ~ cation of' pntches. Izv. vyn. uchob. znv.; neft' i gaz. 8 no.5e8c)- 92 165. (MIRA 180) 1. Ufimskly neftynnoy institut.  BERFZIN# V.L.1 BOBRITSKIY, N.V.; XNAKI]MOYANOV, R.H.; AUVICH, J).P. Selec:ting the technology of the sealing of caritira in petrolem pipelines In cave of overhauling. Izv-. vys, uoheb. zav.; neft' I gaz 7 no.11:71-75 164 . (MIRA 18!11) 1. Uftnskiy neftyanoy Institut.  HOGIL'i;ve6,;;JA, mandidat uA%ik; ZhIJEOVA. 1-77 Anm-esti,v- inring whr-it in :ItA.O~eS, Zemledelie 5 no.8:58-6'1 (MLRA 10:9) (Whekt.-Harve 4t ing)  ,,Go,, T,. 1. SHEYNO, A. N,Evg)tA: N. T. 2. USSII(600) 4. Soap 3 orom. 17, no 7. Applying Bngod'o method in the "novyi mylovarlt Factory. pasi. Zhir. 1952. 2 1953 9. Mont-ily List -if RussiFtn Accessional Lib:-ary of Congress, Ifthruar Unclassified.  04"r,118 ~If 1. so askAbor ins untanAMM '~H JCO V"i A." -Y..W -.9Z -4 -A.LL -d.L) 4- 911 ICI -tdj . - 9 '~ OJVLC61 *4-9- 9--" **" -1 '00 vFjw -.. ..A-s -.4.wj ...dv V. wv"..r TrIZZ w6r .9col lew *vt Q "-fL q-rw-r--% *t- 'am, !0*63 1 "t -0 -V& C.-F.) '.12.0 "(1061 'It 9 "CLOtt *LCA 9 -4-1 .11~ . -, - C; i.zc ,40- -scrau -d= v-rAdj V-d- __~d" -40 a'I'*' -Z-9L-9-`T'6109 = X ~ ...... Li .6*9 '1"1 -lb-c da0*2-83 U..j -was '(6941 '-M -dj) *d- --d it --I- C " Cot S."M ........ Mang TWIT ~-~9 . _"j sed...r.'s -Mr --vd&.o4.-d ,r&C Vol **c ~- -1.4 . . .... d-.W ...... -m m-4 ... 41 -wr ...... r 1 2 W 911 4 6,9 11"t on -VL C") --r-f --fcq tv ZtQ c cot -S-e ISI 'COO-t ~ 'Z Waran 4"esX.O.Z 1 C, I zcqc= S. I-M QQ- q -Cp j.z &Ago d.. j.'. Z.t..tt cp.zcc.% .#got =01 VLI '061 lb-C D6T 1~ ft4c ..-An d.L) 10, 'ft. It- t$Gt v) -t"J gad ~Afttg -(`I &WRj rM4d) -v*9 I-sd -Q..o.Tj ..stdaj ..d-9 -Itol -9 t6l WAT 'Cql 4"6t ~U C") '--- `lb #1 op -pj,. '" 109 11*61 -L-ZCCI-V+j ~A- il-d~ X --i-Qt-kAt ri -0164 "jMd) V.T. CSC-1 4-0 Wol I Cs ' LtO. a%[ lot -9 -,ft C") WGZ SE61 'Ib'E w* I -% _ .-d.9- .-.01 cr~- nor) -in -0-3 41 1 09 *K&l 4- - 9,6c local on q..Q. n -et-= -*cat -K61'_VCP' '01! "=t ..Zrq. 10"I -4 -A --d-..e -_9.L -d.L !"G,  Pw- A U-7(- W&*tP4A-WI 0'A -AWSO CQAO~ATIXI "TA.M* rcAlw ~ o&w&qv~pmA~wA9,57, ~- So" 193* 140 C. iAWP4- 1 3.%, 1952. 29.0. WA. -) 9W. S.Py .... C...... A6'.. &M. 1940. 11.3. .... np .... . p~-Z_ ". Me. C.q- H-A- --..a tA. 1048, .0 ... H.Y-- P.-s- G"-_ 76 , '- 4-PP-V---A- 3:, 19", 26.6. - .0.'F c est. ramC-3PPAos KA&p& A.- wt,- 105. V, 163 c.. 54 irpy~ 1944. 3.ql. 3956, 2". 14: Cr [41 a", ... AAAP, (Tp. Try, 659. -AIpp . a -to.-. $52. F.-p....A. nAI- 8 --P-: P-50--- rFIJ-. las& tic.-A.- .. .6-,- .... 3.M. 1957, =4. 1930. 64 t (M~ -- rc:)AH cccp)- 360, xy..6.... M..... P_ 3.M i SM. 25. 9 0 as). F.A...-0 P. H. K -P~ - P~. -9"-- cy " p--8 TWPA~ soAm. Ba.y. 1"9. 167 c. (Aacpfi- -c. : := Y~4- 76 19M. IC-4-11 -A- .' 3.w low, =IL 061. Ky .... A. X-ma. H.p- 3.qj SM 10.4 OSCA .......... M.-.5 P. --IV "_6p*-AA AM-dP-~" ft~-) A.Mjj%-"A. ( P. -P-111" *P--. -A ---. 6.~A- M-zp~__ --.%- . A_ ;939. TO .' '" 1945 105 C, c qVI. 'm. 3.%. 1040. JLL 3.W_ 1947. 31-1. asIS. 'A.A..W..A. X.Tex... 662. Kop.r.. Ba- Ap.- A C-x, 'A.- """ M~A- A-t~ A rwv*p-wc ..P-wp~ I-IP-67 -6r--- . A.Gy""g-, At.- 1"& 93 13) C., 16~, A#--. Ep- 1955. 366. 194k &6. fld~. -~ AH Apw. CM 956, K.A-A.. A. A. rt"y- 3o% leak XIA. .~P.S 6P... . 063- 111.9660P.All. T.0-PO me. s, r.-P ....... om_m" ..o6m r".. MAH CCCP)- c 0-45bm 3.q. 104. 10.4 !"4. 173 B37. XYAO..PA -CT' -KV")- W ..6.. 01- rJdAy.- -.6. 3.1j. 19Sk 203. - --- ---- - M. _U7. 864. Cy ... m Ao&9--- 4.. Y' - - Aw P.A-~ -Ax...- C..-. p ... ~ MAY- po-" op P- eir Def at Tbill--i State U.  &DYM7, j,. N. ; AZl'VJ,'0V, A. S.; DIP'CV, 1.1. V. d,3torrilmttion do la temniraturo do co-4,clation do Vor pur" leporL j)-e-3onted at tho 6th 8(,,nnion of the Advisory Ce,.4tteo R, on Thirnim,~try to the Intornational "ornittoo on !oiphta and Eo~a5ures, Sovren, Franco, 25-27 Son 62 InitlAut do "otrologia ". 1. Mamioloov (it. 11. S.  -i ) WT- t 1) T) L ACC NRi AT6024959- (A/)- SOURC--E- -61YE:- "6lfl66d6l6510-6610001008210089-- AUTHOR-,- Azhasha V. G. ORG: none TITLE: New achievements in -deap-wator diling SOURCE: AN SSS'R - Okcanograficheskaya komisslylk. Sektslya podvodnykh Issledovanly. Razvitiye i-n-orsldkh podvodnykh issledovanly (Develol.)ment of underwater marine research) Moscow, Izd-vo Vauka, 1965, 82-89 TOPIC TAGS: deDoinpression sickness, gas analysigi ABSTRACT: ThlEi wrticlo discusses the effects on man of deep-sea diving, using as an example the studies of IlanB R,91ler who thoroughly studied the rate of release of various gases, mainly ~qnd helium" from various tissues of the body under various p s rs. Kell , u ng Atr2g~n r08 11 4 CY 1A an electronic computer, calculated the curve of the dopendence of the releam, of gases on depth mid rate of ascent. For ascent from a depth of 300 m Keller calculated 250, 000 changes in the composition of the rospiratory gas mixture. Thus, new, more effective tabl(-s of decompressi6 wore compiled. Fuithermore, Keller used all the well4mown possibilities to reduce the en- trance of any gas whatsoever into the organism. Bcf)ro submergence, Keller breathed pure Card 1/2  L ACC NRt AT6024969 oxygen for two hours which led to an appreclable decrease In the quantity of nitrogen dissolved in the human body at atmospheric pressure. The author concludes that the work of Keller Is still in the exper.'IMBnW stage and that it is an outstandhig scientific achievement which will be of great help to professional divers and deep-water researchers. Orig. art. has: 1 figure.  ACC NRt AT6036560 (serfeb 1), 460C :.480C (series 3). .between 1516 and and - 0. 2 m/sec. (ceries 2), and for 30 -min to air temperature of Relative humidity in the thermochamber was ke 21576, and velocity of air movement between 0.1 Work capacit y was evaluated by means of correction tablet ;tests (A. A. Genkin et al. (1963)), grip strength dynamometry, a ;a graphic test [Frukuda (1959)). Visual analyzer function was studied. by determining the electrical excitation threshold of the e flicker fusion frequency, and the information transmission capacit of the visual analyzser [F. P. Kosmolinsldy, Ye. A. Derevyanko (1962). A. A. Genl~:in et al. (1963)]; vestibular analyzer function V :studied by determining the duration of postrotational nystagmus ar the counterrotation illusion, and also the area of displacement wh walking in place with eyes closed (Frukuda (19:59)]. In addition, pulse and respiration frequencies, electrocardiograms, blood prei sure, and body and skin temperature at twelve points were recon during all experiments, and some of the components of heat ex- change were calculated. Not counting the control group (6 men),. experiments were conducted on 30 subjects, 14 in series 1, 13 in series 2, and 11 in.series 3, It was established that even a  ACC NR, --AT6036560-- 60 min exposore to an air temperature of 440C decreased work capacity (error in-2rease of 2. 40/6 on the correction test, ' .4. D0/# on the graphic test,, and so forth); the informatian transmisrion capacity of the visual analyzer decreased by 13. 5%; decreases we -e also seen in the electrical excitation threshold of -the eye ane in the weight of the subjects (by 200 g); increases were seen j-i body temperature (by 0. 3C), the frequency of cardLac contra( tions (by 14/min), and so forth. In series .2 and *211, human finctional capacity showed a 'sharp drop,which was characterized --y more pronounced shifts in a number of investigated functions. Thus,. at +GOC the number of errors increased by 15. 676; at -.30C, by 58%; and so forth. The above data show that even a single hour's e-.posure of N .ain uncLad human %o a temperature of +40C affects wor& capacity; this must be take-a into account in organizing$industri, 1 medical support and in devising measures to ork co;4ditions and JTRrove w t2 work schedules in hot cli~ate-s'_- N.A. No. 22; ArD Report 66-1161 SUB CODE: 06 / SUBM DATE: OOMay66. Card  ELOBIN, Anatoliy; SIIRROV-CHHWZOY, A,; A2HATEV,.Vaoilly, rod.; VASI- 4"K ISVSKIT, VitalLy, red.; YMSHIGORA, 'fr"".re d.-;- I.)AKM, Daniil, redo; PROMYS:WV. V.F., red.; KOREM, G., red.lzd-ve; TAKOV13VA, To., takhmaed. LTvan'*;r-three stories on builders] 23 rasekaza o stroiteliakh. Moskvil, Mosk.raboahii, 1958. 386 P. (MIRA 12:11) (Noscow-Construction workers)  S/149/62/000/002/007/008 Xp 1) Aoo6/Aiol AUTHORS; Davan:Kov, A. B., Laufer, V. M., Azhazha, E. G., Gordiyevslciy, A. V., Kiryushov, V. N. TITLE; Experiences in extracting uranium and other elements from Atlantic Ocean water PE11IODICAL: Izvestiya vysshikh uchebnykh zavedeniy, Tsvetnaya Metallurgiya. no. 2, 1962, 118-123 TFXT: Experiments of extracting various elements from Atlantic Ocean water were carried out in 1959, during the sixth Atlantic expedition of the Marine Hydrophysical Institute of AS SSSR. Wati!r from various parts of the Atlantic was filtered through an absorption column mounted on board the expedi- tion vessel. This vinylplastio column, 1,600 mn high with 63 mm internal d1am- eter, was filled -with 3.5 kg granulated H-0 anion-exchange resin In Cl form of 64% mointuro. An amount of 59,189 liters of water wan filtered through tho column at an averDge rato of 110 1/hour. The quitlitative and quantitative deter- minatien of varioLz elemonts in the resin wan carried out by radiometric .3-radiation, luminescent and polarographical analyses. The amount of uranium Card 1/2  DAVANKOV9 A.Hl.; LAUFER, V.M.; AZIIAZIIA, E.G.; CORDIYEVSHY, AN.; KIRYUSHOV, V.N." Recovery of uranium and cther elemi!nts from the water of the Atlantic Ocean. Izv. vys. ucheb. !&av.; tsvet. met. -I- no.2:118- 123 162. (KRA 15:3) 1. 14:)skovskiy khir-Ako-tekbnologicheskiy institut, kafedra tekhnolo ii plastmass. 'I ~Atlantic Ocean--Urarium) (Marine res-irces)  POFCV, N.I.; AZHAZHA, E.G.; KOSOUROV, G.I.; YUZEFOVICH, A.A. Stroatium-90 in surface waters of the Atlantic Ocean. Okeanologiia 2 ni.5:845-848 162. (KRA 15i11) 1. Morskoy g1drofizicheskiy institut, AN SSSR. (AtIantia Ocean--Strontium)  AZHAZHA, B.G.; CHULXCV, P.M. Strontium-90 in the surface waters of the Atlantic Ocean in the first half of 1961. Okeanologiia 4 no.l-.68-73 16,1,. (MIRA 17:4) 1. Morskoy gidrofizicheskiy institut AN UkrSSR.  AZHAZHAp V., inzh.; BUSLOV., V.v inzh. IrLqpecting the state of concretA) in the underwater zone by the aooustic pulse method. Mor. flot 25 no.10:39-40 o 165. (MM 18:11)  tkf-1WJik,- A%- (4. , ki. -;1% KT5,111-EV-1~7d. T-. -ATT"A =w "The kpplication of Hydroacoustic Equipmmt for Flohing." report presented at the All-Union Conference un Biological Fumdations of' Ocean Fishing, 11-16April 1958, by Ichthyological Comrittee of AS USSR, VNIRO, and Inst. Oceanography, AS USSR. (Vest. AN SSSR, 1958, No. 7, PP. 131-133)  '~~J~HAZHAp V*G*q inzh. ... ... Use of hydroacoustic apparatus in hurring fishing with depth trawls. Trudy-VNIRO 41:5-23 1159. (Sonar in fishing) (Herring fisheries) (Trawls and trawling) variable- (MM 13:8)  AZHAZELA, Tladimir Georgiyevich; SHISHKOVAO Teksterina Vesillyevna; MROZOVA, I.I., red.; SOKOLOVA. I.A.. tekhn.red. [F:Lsh location by the use of hydroa,:oustic apparatus] Poisk r.foy iidroakustichaskimi priborami. Moskva, Pishchapromizdat. 196o. 14o p. (MIRA 13:6) (Sonar in fishing)  AZHAZHAj V,.G. Remearch submarine ISeverianka." Rlta.Okean.kom. no.6:66-67 160, (Mlu 14:7) (Severianka (Submarine boat))  A221AZHA, V.G.; VALASHEK, Yu.R.; GRISHKOV, N'.V. De,rLce for remote measurement of salinity, temperature and prensure of sea water ("thermosallnometer-2"). Ryb. prom. no.!40-33 '60. (KIRA 1519) (Oceanographic instruments)  AZHAZIIA, Y.G. t.---. Modern methods of locating herrixg by tho use of IWdroacoustic apparatus in the North Atlantic J.n fall and winter. Trudy eov. Ikht. kom. no.10:219-229 16o. (MIBA 13:10) 1. VoesoyuzrkTv nauchno-isoledovatellskiy institut morskogo rybnogo khoz.vaystva i okeanografii-(VNIRCI). (Atlantic Ocean--Herring fisheries) (Sonar In fishing)  AZH .,,# VladJmdx Goorgiyevichj FMANOVp I.Lop red.; BELICHENNO, R.K.p _W ,W.304~&t -1 - -!;~ IdMilaylid-CoIrBURLWq N.P.v tekbno rei. 10-SeviTianka" leaves for the ocean] "Severiankall ukhodit v okelbu, Mookve,g Goo. izd-vo geogr, lit-ryp 1961, 111 p, (MIRA 1418) (Butmarine boats) (Deep-sea sowiding)  ANAVIA, V.O.; MAMAYEVA, R.B. Union of underwater explorers. Oke-anologiia I no.5:928-930 '61- (MIRA 15:3) (Diving, Submarine-Congresses)  AZHAZRA, V.G. (Moskva) Tl~a blue curtain parts; scientific iroyages of the "Severiaaka." h,:Lroda 50 no.7:81-.87 i1 161. (MIRA .14:6) (Atlantic Ocean-Ocioanographic research) (Severlanka (Sulmarine boat))  SOKOLOV, Oleg Xleksandrovich; AZIIAZIIA Vladinir Georgiyeyic~j ZIIERDM'SKAYA, N.N.., OR, [Submarine motion-picturo photography) Podvodnaia kino aWaWca, Hoskva, Iskusstvo, 1962. Yll 1). WERA 150) (Motion-picture photography, Submarine)  P-MYEVA, R.B., kand-geografoiauk; A7dlA2HA, V.G. Recew; develom.,rits in undervater research disclosed at the Plenwa of the Oceanographic Committee. Vast. AN SSSR 33 no.9:88-89 S 163. (MIRA 16:9) (Oceanographic research)  A,ZIIAZIIA, Vladljidr Goorgiyevich; KOll;Ah(,,VSXA*fA, N.~ rud. [Dcep-zea divers)' Gidronavty. Mukva, lzd-vo IlZrianie," 1.964. 93 p. (141M 18:1) I. Zainestitell predSGdUtO'Iytl nekt.~di Vocivodnykh issledova- teley okennograficheskoy komissli AN SSSP (for Azhazha).  AZHAZHA, Ir.M.; GUNIUM, V.S.; POPOV, B.Te, lix)*nding the use of the IOZ-10 bigli frequenc7 oscillator, PrIbsi tekh.eksp, no-11102-103 J&--y 160. (KIU 13 -.6) Is Fiviko-takhnichaskiv institut AN USSR. (Oscillators, Ilectrio)  20791 1~jb,LAOI(~, 2901 10,15 S/181/61/003/003/017/030 B102/B205 AUTHORS: Amonenko, V. M., Tikhinskiy, G. F~, Finkel', V A., Azhitzha, V. 14.9 Shpagin, I. V~ TITLE: Plaotic deformation of textured beryllium PERIODICAL: Fiz:Lka tverdogo tela, v. 3, no., 3, 1961, 7~%u-602 TEXT: Single cr,.,~3tale of beryllium show highly anisotropic mechanical properties on ancount of their hexagonal cryntal structure. A P~udy hag now been made of the mechanical properties of high-purity berylliuL foils. For this purpose, thia textured Be foils of high purity (99-967% without taking hydrogen into account) were prepared_by condansaticn of beryllium vapor on molybdenum sheet in a vacuum of 1.10 6 mm Hg. The rate of evaporation was 0.2 g/cm2shr, the condensation temperature was 300-3200C, and the tempera- ture of heat treatment was 7000C for one hr. These conditions were the same for all specimens. The purity was checked by a determination of the reslet.- ivity ratio: R 4.20K /R2930K " 901o-3 - 1.5-10-2. The grain size varied from 8 to 15 9, the foile had a thickness of 170-300 ji, and the density was Card Imifit 1,/1 T  20791 S/161/61/003/003/017/030 Plastic deformation B102/B205 3 1.831 9/cm . The texture was studied by X-ray analysis using a tube de- signed by B. Ya. Pines and V. S. Kogan. Two different textures (I and 11) were studied,, Texture I of the Be foil showed no relationship with that of the molybdenum backing which had been carbidized. The X-ray diagrams showed no (002) line, i.e., an ai:isymmetric texture with the axis fooll (perpendicular tc the surface of the foil) could be assumed. Texture-II showed "interaction" of the condensate of hexagonal beryllium with the backing(body-centered cubic Mo) with the texture (100) [oil] ~ on account of this "interaction", the basalplane (002) was orientated at an angle of 450 toward the surface of the foil, which resulted in a shift of the inter- ference points. The plastic defo~rnation (rate: 1~ per min) was studied at 20-8000C. The temperature'wi's measured by means of a Pt-PtRh thermo- couple (accuxacy: +20). The specimens had a size of 50 x4>:(0-17-0-5) mm~ Three kinds of speolimene with different directions of the texture relative to the direction of expansion were studied. Type I: The basal plane coincided with the plane of the specimen. The temperature dependence of the breaking point cYb of the longitudinal expansion 6 and of the lateral contraction T wan measured (Fig- 0. The maximum value of Ob at room tem. Card 2 Ilk  88288 q40,0 B017/13054 AUTHORS: Azhazha, V. U# and Borushkol, I. M. TITLE: Vacuum Machine for Investigating Creep and Endurance PERIODICAL: Zavodskaya laboratoriya, 1961, Vol. 27# No- 1, pp. 92-93 TEXT: A high-vacuum apparatus was developed to invustigate endurance and creep of metals and alloys within a wide range of temperatures and stresses The vacuum sy-atem consists of a working chamber, a high-vacuum diffusion pump, and an PBH-20 (RVI;-20) rough-vacuum pump. During investigations, pressure in the chamber is kept at 1 - 5.1o-5 mm Eg. Samples are heated in a molybdenum tube furnace (UP to 15000C). There are 2 figures. ASSOCIATIOV: Kharlkovskiy fiziko-tekhnicheakiy institut Akademii nauk USSR (Kharkov Institute of Physics and Technology, Academy of Sciences UkrSSR) 3/032/61/027/001/026/037 Card. 1/1  Mechanical properties of high S/180/6-/000/001/014/014 E040/E135 30 mm in Iengt:h and 6 mm in diameter. The specimens Ivere annealed aft,ei* polishing in order to reinove the effects of cold- working,, It. was found that in tensile tests at 20 OC high- purity N'i behaves in the same manner cis I.Yure polyci, -ystallille Al, i.e. af-ter fo.,nnation of one or several. necks further deformation .gnl/cm2 proceeds by slip. Impact strength wai; 36 and 3 4 Ir at 20 and -191."1 OC, respectively, compared with 18.9 kgm/cr,12 for commercial gr.-.ide Ni. Specimens were not fractured but on those tested at -196 OC clearly visible cracks were observed. The room-temperature tensile strength was 34.0 kg/mm~; yield strength 6.'? kg/mm2; elongation 63%; and Brinell hardness 56 to 58 kg/mm2. Because inagnotic properties of ferromagnetic materials depend on the presence of impurities, especially gases, the ferromagnetic anomaly of ductility of high-purity nickel, which contains only a negligible quantity of gases, was expected to be indicated more clearly than in ordinary purity nickel. There are 3 figures and 2 tables. Card 2/3  S/02 62/143/006/011/024 B164YB101 AUTBORSs Oindin, I. A.9 Starodubov, Ya. D., and Azbazbal V. M. TITLE: 1"norease of the creep resistauce of nickel by prior ;1'eformation at 4.20K PERIODICALt Akademiya nauk SSSR. Doklady, v. 143t no. 6, 1962, 1325-1327 TEXT; The effect of small deformations of nickel at 4.2 OK on its creep resistance at higher temperatures was examined by tempering small specime:as of bigh-purity nickel (99-994%) in vacuo at SOOOC and then drawing then at 4.20K, the rate of drawing being 0.03 mm/sec and the degree of deformatidn 1-7 or 3-50146, afterward establishing the creep curves under a. constant stress of 2.8 kg/'mm2 in vacuo at 7000C. For comparison, 1,cmpered specimens which bad been deformed at room temperature were used as vtandards. An increase in oreep endurance from 40 to 106 hro (after 3.5%; deformation) and a 4-5-fold increase in creep strength were obtainod. Spocimens prestrained at 300oC, gavo much lower values amounting t-o '51-5 hre and to a 1-37-fold increase, respectively. Card 1/2  IVAPT3i.')V, I.G..., in.zh~; AMAZIM, inzh.; Al-iOIIENKO, V.111., kand.tokhr..nauk Ve~~uvjn-,,smelted, heat-resistant, iron-baso alloy castAngs. M,ctallowd. i term. obr. met. no.'F'.43-45 JI 162. (MIllk 15:6) 1. Fiziko-tekhnicheskiy institut All USSR. (Iron alloys-Thermal ;woperties) (Vacuum victidlur,,-y)  ACCESSION NRi AT3007907 S/29571,53/000/060/0061/0064 AUTHORt Aviontinko, Vo M.; Bolgov, 1. S.; Zeydlits, M. P.1 Ashatha, V. M., TftLE: E f f eet of,vacuum melting.on properites of 'EIS46.- E1852, E1847, and E107B steels SOURCE: Primetteniye vakuuma v metall.urgii; trudy* Tretlyego oveshchitniyaqvo-primeneniyu, vakuuma v metallurgii. Moscow', 1963, J 61-64- TOPIC TAGSi ir'acuum melting, vacuum induction melting, E1846 steel,: E1847 steel, 111852.steel, Lr1437B alloy, E1846 steel vacuum melting., E1847 stfbel vacuum relting, EI852 steel vacuum melting, E;1437B.alloy, vacuum mftltirtlt. mechanical property$ gas content, nonmetallic in- elusion tontent.-ducti-lity, hardness, tensile strength, yield strength, noti:h toughness ABSTRACTi Small, 20-25-kg, Aeate of E1846 (apparently an austei%itL6.. chromium nicktal steel containing 0.02--0.03% C and 0.1-0.8% B1, j E1847 (0.5-0.10% C., 14.0 .. :17.0% Cr. 14.0-16.0% Ni, 0.45-0.85Z Nb, .'Card 1,/ 4  ACCESSIODi NRt A'T'3007907 2 5-3 52; Hol and E1652 10.50% max C, 1.4-2.12-St. 12.0--14.'o% Ce. 110% Nit 1.2--72.0% Mol steel's and E143:?B nickel-base alloy [Nimon1c: BOA] werdi melted in a labor*atory indijcilion furnace under it vacuum of 0.00005-0.0001 mm 11g. In all four materials vacuum malting greatly r'educed the gas content: oxygen, to 0.0007-0.002%; hydrogen to 0.0001.-0.0003%,; and nitrogen. to 0.001-0,003%, that is, by i. 80-90% compared with conventionally-,mialted steels.' The sizt and content of nonmetalliii'inclusions was jilso considerably reduced This resulted. in a significant improvement of ductility, especi;l,ly. at 500-800C (s,ee Fig. 1 of the' Enclo.sisre). Tensile and yield strengtha were~ not significantly affected by vacuum melting; hardne~ss nefi-' dropped'hy 10---202 compared with conventiorkal melting. The be cial affect of vacuum malting was aspe-tially.pronounced in E1846 steel. Owinil'to low carbon and high boron contents, it is difficult to obtain steel. of satisfactory quality by conventional arc or in- duction meltirill. Satisfcatory ductility can be obtained only by keeping the baron content close to the lower limi*t. In vacuum-melt;ed steel, however.'ductility drops with increased boron content, but still remains satisj!actoty; atA-.8% boron the elongation at 20, 500, ~nd 800C amounted to"30., 18, and 56%. Increase of boron content to" Caid. 2 / 4  ACCESSION N'R:t AT3007907 f.15% did not:* produce any significan,t drop ~of elongation, Orig.6' mo t4 j!figures and I table. art. h ASSOCIATIONt none SMITTEN 00 DAM ACQt l2Jul63- ENCLt 01 SUB CODE: HL. NO REF SOV;. 002 OTHERt 002  Card 4/4 A130079 07 V 0 Jsj r4 to W4 S W 0 log -100 30,7 ar 50# 8re lo p Temperature, *C Fig*- 1. Mechanical properties of . E1846 ste e1 with 0.1% borbn He I te d: I in vacuum; 2 - in air.': Ob - tens ile streligth; 0, 2 yield * strength; 6 elongation, , Ol  AZHMIA, VJI.; GINDIN, I.A.; STARODDBDV, Ta.D. -.I- ODmIaring the effsot of prestressing at 4,2 and 3000 K on the crevp charaoteriotico of nickel &L 70000~ Pisomet. i metallo- ved, 15 no,,18119-124 -T& 163s (HM 1612) 1, Iiviko-tskbnioheokiy institut AN UkrSSR, C*Lokel--Cold working) (Creep of nickel)  *~U l I I MAN aa Alivi?Uv A a EZ3V?-Ew-GTrl-5MKayH I"' t 101091 6' Pu-4 ACCESSICIN 'NR ATYMOR: - Ah i_rpF (c)lEpF (n)4/F!7p (a) /ru.yr (-,j)/pr-,s h~71 r/!,, 11 S/ 073-5 AF3001699 0126/63,1015/005/072!)/ 2M.~~Gindin, I. A.; �jEq4 lubov, Ya. 1) FL~j B. -1, I=z M!4' ct of low-temperat =-e prest-. ain on the cxeep and intem- al friction of copper SUJRCE: llizlka netaUov i metEdlovedeniye, v. 15, no* s, 1963, 729-735 Topic TAG.11: comeIrcial-grade copper, subzero~-temperatvnre prestZaining, wMealing, creep c-hw!,&ctAwir3Ucfj,, inteernal friction, mivostructure changes ABSTR&CT: Thel effect of low-t~.-,Tlp(-Irature preubrain on the creep, iderostru-,ture, wd ir(te-rzisl *iation of commexcial-grade cogper -.mz sturlied. Test. sp ea4t=ns aw'eslel ji a klwh Ytickm for 2 hr ev wv, 2.5, 5,0, ~ 7,5, 3-2,5, 01- 35% at 'a cO--'3tl--nt,,rSta& of 0-(Y3 -M/Sez S-t tMmPf-Tatmes of 300 -r 4-21K 4ecixv~na pre-.,AretdeJ. at 4,.,2-K ware annenle4 at room tapperat-are f or ICK) hr. BoZ grzupa of spe!,ir.lensl.m.re ~.~vbjecteed to ohort-time areep A^3ts ~n a wwuum of 0,02 M'l at SM" U der a streso of 2 kgt= slap 2. Tbe ~ te-sts iatmv~d th,at rA preistnidn of up to 7. 5% gi, room temperature - or subzero temperkt-arit shm-ply dea~reasetl the-rated of the first: ard second creep stages. The seconi-stage ex-eep Lrf!~te$, for, 4'nstwtce, decretwe& from 0,95%/hr for =nealed specimens,, to 0.09 tod 0.0 /lr.- for speec:Unen.3 Card 1/2  L imog-611 AccwsicN w, Appol6qq prestraineil 7-,5% at 300 and .4.2K. The ruipture': Strinigth of approximt--lv 6.5 hr for annealed aj*cizbenil Increased t6 approximat!ly 10.0 and 12.3 hr for the spal-imiens prestratchiq 7-5% at 300 and 4.2K. The purer Lhe metal and. the coarser t~e Erain, the M-sher~thm effect of prestraining. Owygea~i-flree copper prestretclied 7,5% at 300 or 4.21: ard tvstad under the above conditl)w had a creep rate o-."' O.Q? or 0.01%/hr mild e~ rupture life of 19.5 or 24 hr. ::The 10% elongetlon twl redl,~,Ctlon of area of thk Ew,"nealed specimn -decreaBed to -4% Tor the 6pemimtns Prestrilinod 1. 136t 4.2 and~30*. Preztran at 4.2K atrengthem5 grain boundaries, and ndjtwerlt fqc~ain zoneil; dd, promotes formation of a atJbstritc-Mwe. This eharpl~r reduces the nx=bar of j f4rwd j~dcxbora~*Ei along grain boundaries during creep and inhibits intergraWar am, -urellif the metal. Low-tsaerature Prestrain raducets internakl friction ij(- copper- ant -sigo-ifimntly-,I,ncreE-,.ses.-tbe to rise shtirp2y, e,,g,,, from aplwodmately 100C for annealed specimenzi to 3Z0 ard 470C for aj)ecimens prestrained V-t 300 and 4,2K4'. Orig. art. has: I table ~rd 8 figures. ASSOCIATIC14 lizl:ko--tekhnichesRly Inatitut AN:UWR (Physicotechnical lnstit,-,I~e, AN USSR) l=ffTTED,. 1INov62 rMM ACIJ; 11,Tul63 CO sun, 11 CO-rF NO R17 SOVt 016 MIT-" -t 003 Corcl -------------------  AMONENKO, V.M.; L4AHZHA,.,V.M-.j- IVANOV, V.Ye.,; TUR111SHY, G.F.; FINKEL' , V.A. Deformation and fracture of rolled be!ryllium of different purity. Atom.energ. 16 no. 5:426-1,32 My 164. (MIRA 17:5)  L 7037-6_5 q -4 41 M) 1,15~.P( )/EX4(0_ Pf ARVI./A$P,(f)/WM(t) ACMI c0 16 A)~(' AMC" I M..' k1batts! J. A-; Va 3j TNJZ'., Def; rms taftl- a tatmarviouia, trv- _Of difforUt pmlti! 426- SCM12 Att ~:is' 6 3: a iim,nber,~3_Um'Aefo=atI'"n, I~eryll.Im ftibm., bery:Miui TWIC TAO inveliltigatM the plactic dafmUktim and the type of -Ip -4 Ilt-tomp?rstures a b to 80) C, !Mp spoclimm verp pmIlumea by mmm distMation erA mWelpillm ;Va. 'Fa&IU4 Will at. ~a residual Imessum of ~ W as and of ~`Ue4wiwms' Vag 83 to 9011.:1 paltr it by: COWrol vas 6ax a !a i'voidnal res The,nuthams TmA 1011 f itoea ed 9*r- ~~IV fit: Iw 142veratwMil at. ar along 'Jbcmpdar~ tp)), at 16ILevaups teapratllm'~ upirium" pmelderabl"r   ~-- ~( 6 397 Pr, d: JPt. R - JDATR ACCESSIO~11 AP400,771 /0426/641013j'004/0553(f) AMWOR. BC' onenko, Al. ;~Zbydltts, "M. -4~r- TITLE: D LliO I Ior ment oftAching ipatt rn i~c hing 'acuum e B n. n kel by thm,19 -etc. g, tn v- SOL mi~tallovedeniye,l V. 18.. no., 4p: 19-64j, 55' . 5 7 T0,101C. TA Sr,6ertnav-~,qcuupl etc ing,:~nlckol-etchinp:,et. h Ching pattl~rfi ADSTRAd~~'-.,IA ball etchink method ~[p va kiui~ wan'deve'loped fqr*:n'ichel,and.~ i its alloys owd ZOO ateCl t1jI&L., appe a rail ci~ f that. I, roi addition facillit their density, and:redumed the gridfil'r.)~'Z'e- The of etcbib-g1Oqi ns, invr4:,,arCe)d and 120C, C whs'investfig ti al tempej-au~ az& ate.d. and ffie:op m. tern~eratu ~ii w4re 16un-'d',to be'at about .10004" The S;t -ed indents j b i of- v~hlch had er1cP Olf a1l&66tt~w indicat1hk the ab:~ 0 C'n U. th iu~ WiTfflar tteatti~6t-w" toll Mier met$ Is (Co, The resulll,s I di catt the L-fMct veness of the,ibermal etchbq in yacimm. 0 -1-1 'g, ar, has- ~,,Jt iNgulle's. CAM) 1/2   L A a Vv,~'a ILI m 7777 0856-65 Pad IJP(a) N-N] -AUTHOR- AiNaOia'' Ir. M.; Gindin. A. 4~bov,'Vao D., Staro TITLE: Effecti, 1A stms,6 and tempeiatUre on creep i I 'I titzinarily en n c e deformed at 4. 2 R. j- SDURCE: Fliffilalmethl],ov I metallo vedeniy'e, ~v. 18# no, 40 Z64, fill-517 _~niclr r e on, 1"OPIC TAGS:.' CrebP'V tel, str"fa, temperatu T effect, i~lck' I detbrinati I.Dw te;nPQratuwe:def(rmtk~-ion -.ABST-R-AC T-" b"fitAct-of-stress dAemperatu b_was__inv~istivatid_Dn_!:r_ "e 1.0 i,.Ickel-wjYteh-ul~dt!rwit7it-n---deformation:.at:-4 2 K. ---It was lauAd that- thlalmn_temp~- Orature deforviatlon i-acreases the 1ife of N-0 durihi; creeo, In the in- Pe)34gated tern~peratu're .range W. 2: ;to 300 K e1ifetime or nickel is an eypouen~. tial funct*on of the sirtss and of tM inverseltemperatum. The tensile strimigth, -is also increaving. mie activation zriergy -of creep in nickel corresponds to the Activation enevgtof selfjjjf~t;~aioh. T4e increased -resistance to creep iv) cennect- for-, atloii of fine-graim relflata - 130 WIL11 "113 W, disorienteed substrUcture which Curd 1/ 2 777`~ ~7777   BOLGOV, I.S.; AZ11AZHA, V.M.j AMONFNKO, V,M.-, ZEYDUTS, M.P. Feveallig etch figure3 in nickel by thermal etc-hing in vacu.um. Fiz. met. i metalloved. 18 no.4:553-557 - 0 164. (MIRA 18:4) 1. Kharlkovskiy fiziko-tekhnichoskly institat.  I WA I 141,2~4 0 WKV Frzl_"._;;~ Q If tln%!fl~~-r 'I IA I PM IA d I UV~4501-Mn r.Ri I Nr"~A bi L 182 (a)/1WA(d)/T/1!;NP(t)AwP, EW (b) jPad 0 ACCZSS1 41~5001250 S/6126,164/018/005/079610198 F v VIL AMOR -TITLE- Divesitiption- of- ef feet -of -boron- on -tlie propertio-a of jjrk e by-tbe Methodof,AIIMM-01 friction -6 . 1.~ .- - ~ -1,-- -._ I - 1 1- ~. j SOURCE: 112 1ka i~~,tallovl i metallovederiye, V'd 18, no. 1964, 796,-? 98. 'TOPIC bol06ickel alloy, boriin containing iallo~, nickef alloy property$ jlln~~,Ikel'j al-lo-y-In-ternai friction R_ACT:117_1~je -effect--of -a oying:~with .11 Oul ntitiesio boron-on-the J,.ntern*l-- 'if. Jlck~ has been lni,6stigate Alj~oys c f rIctlon t r, 1 1 ontaW'ng, 0.005, -0.01, 0. D5, 1-wurenalted- f-ro (in =d-O_1_w1j7.-7t M. in_a__A_,.icuum,_hig -reque-ney- Ividact i oil f Zrccl,~. . The- curves. olf the temperacure. depen~ande of internal4rittion show ~threi . v'A'Ixim at approximately, 200, 430, imW 630C. 1 AO, established by pre- vious stut; ieni,- ti e first-maxitmim is brought atiout by 6rronngnetism of nickel and the sec6nij, b~ stiress relaxation at the grain boundaries. The third maximin is apparentij ccipnei~,ted with the block s1ructure of grains, In the case of pure nickel, a)JI tbrei~ maxima are rather flat. Thei peaks a_-'hieve maximum height lit a card 1/2  HL il 'W&W, lff,,N..r -I", ~_~ ? _FFYI~_j "I vW YYV~' L 1828"~ T ACCESSIC R. APkO 01250 -boron -contli~nt-iof -0.01% With an in creamJn bt6n tonte~t the level. of_intetnal - friction at. WLgh temperatures decreases. In the opin-lon of' some auth.(:,ra, 1,ht? level of linteirnal friction can be conside,red ajo en indimet charactex-ji'stic of beat resistwme, i' ' e' the-lower the level, thit higher beat resistance.- T1419 was tonfirtwd by,otreos-rupture -tests at-.600C i3nder a stress of-6 kg/vW, in which, the alloys w1i.,h 0, 0.005, 0.01, 0.05, and 0.12. boron had, a rupture lfte~of 3.5. 36, -41, 156, 7Li'ind %2 hr with a total elonptloii of 42, 55p 57, 45, and 43%i. Orig. art. t hao: f igure, and A,Jable ASSOCIATIOW: ~nonk,, ENCj,* SUBIIITMD:~~ *41.Qftv~13. O() BUD CODE; Mi AS ATD PRESS: 31% No F XF SOV .465 1~ Card 2/2  L 31169-66 INP (k)/';%TT(d) /EWT(M) /EWP(h)/T/r"'WFfk I ~i ( -- -6-MV00 I - 7C N Z SOURCE CCDE: UR/0000/65/00 6 /0068 'L C "lW6f 1JP( P) JDIRWIGD AUTHOR: Amonen)to, V. 1~,; Azhazha, V. M.; Bolgov, M. Ivanov, Y. Zeydlits.L_ Ye. -, Sj2LSva.F1r. I . ORG: Physico-Ttchnical Institute, AN UkrSSR (Fizikc)-tekhnichaskly Instituk AM UkrSS TITLE: Influence of boron on the properties of ni0ml Ivi SOURCE: AN UkrSSR. Institut problem materialovedenlya. Vysokotemperaturnyye neorgani- cheskiye soyedi-nen.1ya (High temperature inorganic c(;mpounds). Kiev, Naukova dumka, 1965, 163-68 TOPIC TAGS: boron, nickel, alloy, boron alloy, internal friction ABSTRACT: The effect of boron concent t*on (0-0.1 wt %) on mechanical strength limit, relative elongation, and relative plas city of nickel was examined at 250 and 6000C !and also the temperattire dependence of~nternal friction (Q-1) for nickel containing 0.005-0.1% B was examined in the 200-600C range. Samples of ni C 1-boron alloys were prepared by fusing mixtures of H-0-grade nickel and KiB standard material in an elec- Itrical furnace. After 70-80% deformation for 4 hour at 4000C, the samples were held _I- for 2 hours at 8000C. In general, boron had a beneficial effect on the mechanical pro perties of nickel. Specifically, boron was iound to strengthen the alloy crystals and the intergrain boLindaries within the alloy, to improve the internal grain structure an l  ACC NR, AT601355:2 I I ~q 41 to retard harmful *.mcrystallization processes. The effect of boron on strengtb limit,i tviative ol7on-gafliii, and relative plasticity of nirJ:el is shown in figure 1. dp CVV 4%4 bO Ia. 0 50 4J 4) ba 4J 4 (a) Ff boron content, wt% MdP . W > .~f V-H Fig. 1. The e ffeat of boron on strength limit (1), relative elongation (2), and rela- tive plasticity (3) of nickel at 250C (0 and 6000C (b). The temperature dependence of internal friction (Q-'I) of Ni-B alloys is given in figure 2. Orig. art. has: 5 figures. 213 boron content, wt. -3  1; 31869..66 ACC NRI AT6013552 UB CODE: Il/ 20 Fig. 2. SUBM DATE: 03Jul65/ ORIG REF: 01.21 OTH REF: 001 Card 3/3  1--77o,r r~ 1, 1 r-.-' I , ZI 1,71. 7. T7 I- , _r I Ij 1 - I r j; / K~_ 1jJ_F k C. J f) f I i U ACC Mi ANODWI SOMNa CODE: tili',/0000/65/000/000/ool.i9/()075 AU*MOR: Azhazha, V. M. Amonenko, V. M. Bolgov, 1. S. Zeydlits, M. P. ; Ivanov, V. Ye. :ORG: PhysiCD-Technical Institute All UkrSSR (Fizi.ko-tekhnicheskiy institut AN UkrSSR) :TITL melting in vacuo as a means of improving the mechanical properties of boron I -- ;Steels aturnyye nio~,a- 'SOURCE: AN UkrSSR. Institut problem materialovedeniya. Ilysokotemper ~nicheskiye s,oyedineniya (High temperature inorganic compounds). Kiev, Naukova dumka, 11965, 69-75 j )TOPIC TAGS: boron steel, mechanical property, steel, ferr us metal, steel microstruc- !ture, chromium steel, nickel steel / E1437A steel, M437psteel, E1403 steel b 1ABSTRACT: The effect of smalting (2500-10000C) in vacuo and in air 'for 137-130 hrs o Irelative elc!figation, impact, strength, and hardnif-ss of chromium-nickel steels F:Vntain- ;ing fron, 0.9, to M wt % boron was investigated.' 1, E1437A (boron-free), E1437B '(0.015 w B), E14031~0.1-1.0 wt % B), and some specially preparej- steels containing 2-3 wt :B were used as representative steel samples. It was found that the smelti of steels -2 fold increase in their :containing 2-3 wt 1, B results in a 1.5 __Rjastic~jy.~ A 15-20% linprovement in rele,tive elongation characteristic and two-fold increase in impact , strength remult wht!n high purity steel grades are smelted in vacuo. Greater improve- LCar.d_ 1/2 _  ACC NRs AT601.3553 iments in mechanical properties of boron-containirg' steels were achieved by smelting jin vacuo rather than in air. The effect of sme~4 tng in vacuo on strength and 'plasti- city of E14VFi steel on rapid breaking strength ind relative elongation of E1437B is ~graphed. The effect-o-f'*--bo-r'"'o--n-,,C.-Qntent on me ical properties of E1403 steel is also ,graphed. Orig. art. his~g- ures, 4 tables. ISUB CODE " 1173.3 SUBM DATE: 03Jul651 ORIG REF: 006/ OTH REF: 004 2  3967 -6 nyp(m)JEW /V05 .~_ ~; p, T (m, IV. 0- ------ _BWP(b)___, Pad ACCESSI ON ~tlRf Al 5b0S75l,,,l s),02'!6/65i~019/003/0430,/0,444 AUTHOR,: A t A ha, V. ll.': Ginain, X.-K.; ~L,~xfne' V V ubov _1 TITLE 1; ~empermture on the 6%lbstructure and strength o I,' nitkc)l deforred at 4.2K -SOURCE. F~i 7 7 h! lov I- natal-love,Jeniyte*-v,.---l9, AOO -1 -.190 6 4 39-442 ---TOPIC -!TAG-SJ--_6icJt_e imlnary- def ormari-on '--nickel--proces --am-nealln e2 structure ABSTRA#.. ''IThp' ellffict o:F!l onnealing tampieiature ou the'substructure. I I ., -piv,opertilu-~~--,Of;.--N-0-ty,~p--nilickel-sti-etched 3.5% at-:- 4.2K has 'been iptu*died~ Ari _11Cs 61one at :100, 500, 71~0, 900 or IOCIOK. AnnealiTIS at 300 tu 700R . slightly reduced the wubgrain size *,,whi1q. a4neiull ng a~t 900 or 1000K .. iticre ased. it., The ot5timal annealing at-llhlck~ a fine- polyganized sub- struci;ure ipith a lairge di3crientation anille. 'betwen the subgrain card 10  L 3967! -6.5 AvO008-796--.4- ACCESSEON M I with 'suc4' a subs,;t:ructu. ~_4r'aptlfl 8 nd~` SO ~r6lns:,~i;ai NIC" -ir has 0 hl.heiit I 401stuoYE6 ttj plastic: deformation at~ room tvnj,~eratvi el 4 lsij~ rikpt% rt~ IAthe hIRh a' _:6ree P. ~reslstanca' 'Pecimein's tht lo. Rt lifer and a t -go *and thti creep annea~jod: All 500K olivVied a1mcpht no first-creep~ st~a -loner titer, that of tile. metal and ftv,o~ tIMe's lover than that -0-inict" 'I arne~afed --ii-1.000K The subgralln ioixit vas iound tto be practically I:he same with any -annealing Afemj~orsLture., --and tO-be, coniiidL~rabl hat'of ams.1 ler, than t. the initially rm~tal. Orig. arit. has: A f igures., ANDY_ ASSOCIATIO) Fi* lko-tekihnicheskl,3~_ ins t itut J,N, Uk.-rSSR (PhDs LCO" K Faf F r Fo_v_ - I I TE T T I i -1, v e r 9 1 t y SUBMITTEDI 07jaw5i) ENCL: .00 SUJI COM MH NO- REF~ -SOV4- - _D67 .OTHX 0-0-2 ATII PIRESS3 34 G)T 2/~  -L " 6) j-~'4 J'P/ ACC Mt 05023768 SOURCE CODE; UR/0089/65/019,/003/o2-6q/o272 AUTHOR: Ohazhaj V. M.; Dtyakovi I. G.; rapirov, I. I.*, TIkidnakly, G. Ft ORO: none TITLE, Chonge in bitryllitun properties during a SOMME': Atomnftya energiya., v. 19, no. 3, 1965, 269-272 TOPIC TAGS:~ btryll.!'~um, beryllium powder, beryll.ium property, beryllium heat treatment ABSTRACT: The eff,?ct of aging on the 'mechanical, Properties' of beryllium at elevated temperatures and the relationship between the me:~-hanical -- - properties and electrical re- sistance of aged baryllium have been studied. Il'ot-compacted -ommercial-I..,,rade (99.54%) beryllAum sj)eeimena with a density of 1.8411 g/rnj3, it tensile Stren(,,th of 23 and 13 to 13.5 ):g/mn2:and iiii olongation of 3. rind 10.,5% at 20 and 60t)C, respectively, were homog- enized at 1100C for .15 min, cooled to 8000 at n.,rat r of 100C per min, to 600C at a rate of 20C per mitt, and to room temperature at a rate of 5C per min, nnd then aFed at' 700, T50, 8110, and C~50C- for It, 40, or 100 hr. It war, found thnt aginj.,, increases the ductility o:t beryllium, especially tit high temperatures (nee Fig. 1) . The tensile strene:th of aged specimens was 1,6-17 kg,/nwt2 at hOOC and 13-14 kg/mm? at 60OC,- it decrei3,s(!d to 11.11-11.8 kg/mm2 for specimetis aged at 800-850C. Yield strength for all testcd iipecimers varied in the ralife 8-5-9-5 kg/MM2, but dropped to 7.8 kg/mm2 after aging at 'fOOC i~or 100 hr. Curves .hcwing the dependence of clonFation and elec-  ACC NAi AP5023768 JL1 X. Fig.-I. Teiiperature dependence of beryllium (1) homogenIzed, (2) aged at 750C for 40 hri and (3) aged at 700C for 100 hr~ i jo 050 600 %*C. trical renisti=-ce- on :%glng time are similar; resistance decreases proportionally to the increase, in tIonEtation. Orig. art. has- 6 tipres and 1 table.. (AZI SUB CODE: MMI~OUBM iW!E: -25AugfiV ~AOO/ ATD PRESO; w  jkZHAZHA, V.M. ; GIN-DIN, I.A.; KOZINETS, V.V.,, STAIRMi,1310V, Ye.D. Effect of the annealing temperature on the substructurti and strengi.~ properties of nickel. prestressed at 1,.20K. Fiz. met. I ittatalloved. 19 no.31439-442 Rr 065. (MIRA 1814) 1. Fiz1ho-teklinicheskiy institut AN UkrSSR i Khar1kovskiy gosu- d&-stvE-i%nyy universitot.  A731AZHA _Y-,"Aotlkva)