SCIENTIFIC ABSTRACT GLAZOVA, K.S. - GLAZOVA, V.V.

:, C: mioj ta!.L,)rj (I C o n t 11"; ()VA. -1 .1 . H(-view of Observation materials ;1. Utl,11, '-ation of experimental data scattering functiont3 from optical thlokne-aa to 1"he Ch. III. Computation Results and Certain Concluilont5 1. Convergence of the BerieB and of successive approxima- tlon~,, 27 Relation between the Intensity of scattered radiation an(I tho solar altitude, tranapareny of' the atmosphere and the form of the scattering function "'J 3. Light reflection from the Earth's surface 42 4. The flux scattered radiation 43 5. Comparison with a case of Isotropic scattering 6. Significance of multiple scattering 7. Explanation of the tables t52 Table 1 Table III Card 3/4  Coinputat! on (Contu. ) SO", f:~4f /I Table IV Table V ,I Bibllography ".,j, i ( AVAILABLE: Library of Congress Card 4,4 MM, 'I, 11-2-1--,9  MALIMICII, H.S.; GUZOVA, K.S. Variability of nome parametore usod in calculatinf, Lhe flow of acattered vidiation. Izv. All SSSR. Ser. geo-fi::. no.8:1214-6-1251 Ag 16(). 04IRA 13:8) 1. Akademiya nauk SSSR, Inatitut fizild atmo3fory. (Solar radiation)  ATROSHENKO, V.S.; GLAZOVA, K.S.; IQJICEVICH, M.S.; MGELI~M, Ye.14.; ft ntka Frini-Ii uchastiye, 14, E., studentka~ TOMU- HOVA, L., etude ROZENBERG) G,G,., prof., doktor fiz.-matem.nauk, otv.red.; FENMA, N.V.P red.izd-va; SUSHKOVA, L.A., told-in.red. [Calculation of light intensity in the aimosphere during anisotropic scattering. Part 2] Haschet iark"ti uveta v atmoofere pri anizotropnom rasssianii. V.--stl 2. lbskva, Izd-vo Akad.nauk SSSR, 1962. 222 p. (AWemiia niuk S83R. ImUtut flziki atmosfory. Trudy, no.3). [MIGRWIUI) ONMA 15:8) 1. 14oskovskiy gosudaratvenrqy universitet (for Kim, Towzhova). (Light-Scattering) (Atmosphere)  12 t I t ,2 r iv it  SOLOVY EN ) V. T. ; 'XLK0V:',., i'- G. : ~'. N. '. 7:. ,i. "Blo,~ -,: - *, - : i,~ - - ~:: ~ , ,, ; : ~ ~,.: " I- ; t ;r. . r;:' -I ; ~ -~.. -t ~ - - - !":. 1 -1. - - . 1. r,~T'Ort. Sub!Illli-~,t~~,-; C(l!' L Al,~; :%', " ;::~ ~!~ : : if.' , 'I - 1- li i, I L ~,- -; ,  0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 Oro f 0 1 9 f * A Ov 1 11 of a W it 00 00 -Of 00 -00 Ch-cal "d rawb-d w '00 wl-mv M Ihyl~nv gljwl ~.IAU- 00 rtsounf A ... 0. 1 ... :4 . . j ee 00 00 00 00 04' - 00 00 0, 00 00 's 0 go ;:-4-0 a4. 0 L 11TINAtUff CLAIWIWIC" 60 a I 00 A % K (t n I( A ."I n I 0 0 0 6 0 0 00 0 0 0 0 0.4- e1 0 a 0 10 0 0 41 (1 0 a 0 * 0 0 ~ 0 0 i_4-40d 9 LSL'*-'*'L"'-S-lk A'* 0 41 to 0 #) *0 0 * * 0 *   -"()950. rl.2,Y.OvA, 0. 1. Osl,ozhneni7a inf,~-rkta selxieclinoy Myshtsy. ~j)oklaci rn rriuch. scssii In-ta Lm. sklifosovs kogo. Dek. 1946 V sb- Voprosy oAroy willtrenney kliniki. I I ,,., 1949, s. V-66.  -10952. Uj'~ZOV,'., 0. 1. Revmatiz-1 LegVikh. V c1r): Vopn,)sy o-Amy %mutrenney kli.niki. 1949, s. 135-56  30951. GUZOVA, 0. 1. Pri?.hiznennTy diagnoz i*zizryvzt pere-.-fomd ki. nerdt,~a. V cb: Voprosy o,,.troy vnutrenripy klJniki. 1~)491 3. 259-64  GLLZOVA, 0.1. Erroneous diagnosis Of infaTCt Of tho Moskva 28 no..5:90-91 MEq 50. (CLIC 19:,;) 1. Of the Therapeutic Clinic (Director -- Eonon!d Worker in Science Prof. A.1l.Kryukov, Active Mem-ier cf the Academy of MeAical Sclencoa USSR) of tI,o Inutituto of First Aid Imniii Skllfoflo-i-nkiv an(l of the Third Thorapoutic DepArtmont cf kho Contr.,~! InntIVIte for LIV9 Advanced T-raininp of P~Vqicianii.   GIALWA, ',). I. GLADVA, (). I. - "The etiology, pathogennsis, clinical aspectit,and treatmnt of stanocardia". Moscow, 1955. State Publiahing Housm for Madtenl Literatura. Min Health LU3R. Acad Ked Sci. (DissartAition for the dore.."ej of efirididate of Madical Sciances). SO: Kntahmn Letobial Ni. 46, 12 liovember 1955.  GIAZOVA.0.1. (Xosicva) Myocardial infarct n,~cording to the expurience of 11.7.3klifoso-r- skit Institute. Klin.m,3d. 14 no.9:17--23 5 156, (mrju q: 11) 1. Iz tempevticheakoy kliniki (rukovoditell - prof. P.L.Sliukbinin) Instituta imani N.V.Sklifosovskogo (dir. - zaaluzhunnyy vrrich USSR H.H.Tarnsov) (MYOCARDIAL INFARCT statist. & clin. anpnrts)  LA,", 0 VA 0. 1. PiUMOVA, O.G. (14,3bkva) !ate resultq in acute coro,iary insufficiency. :-,e,4-. '17 no-5: 126-129 )'tr '59. (MIA 12,,R) 1. 1z Instibuta imand Sklifosovgkogo (dir. .- zasbizheaivj vrach A.M. Tarasov, rul-ovoditoll ':-,linild - cloyE3tvltel'nj,,.r chlen al%- zissli prof. A.N. Kryukov [d,~ceasedj). (COMILlY ther. remote regults ( 2tus ) )  doltar mad. nauk; lZRAELIT, 3, S.; jZlINV 13. N. Diagnosis of the active phase of the cardiac form of rhquwttic fever. Terap. arkh. no,1200-35 161. 1. Iz teraperticheskoy kliniki (zav. - prof. P. L. SuklInin) i laboratorii (zav. - kandidat meditsinskikh nauk V. V. Novoljel:- skaya) Moskovskogo nauchno-inaledovatellskogo instl,tuta alcoroy pomoshchi imeni SklifOSOV3kogo. (RHEUMATIC HEART DISEAZE)  GLA7,9VA, O.P. Determinirg the maximum daytime temperature by unirW (lata from , of the atmosphere. rrudy TSIP no.61:120-130 '57. vertical soundir4- (Atmospheric tomporature) (MIRA 11:4)   , 0.11. Diurnal -J.r-tomparaturo wiriat"on. Tr,)di- 'S,--2- I - , Wllli~ 1*1.:o,) (Atmo3phoric timporatijre)  GLAZOVA) O.P.; PONOMRENKOP S.I. Causes of orrors in weather forecaots for '~013cow in 1959-195/9. Trudy TSIP no.112:3-17 161. OllaRA 14~5) (Moscow-Weather foreca.9ting)  kana. n cc ~ir(i in t,: dlftta morn L I Ig u- Cidrol. L : t', " j T 3eri',ra 11 mr y !Moti.tO p .,ro  (I.F,, n1':u,!',r. Till i . 1. ~ .. I". . , 2,, on short-r-nni;t! 7*orpcasLj.-.t~'~ , C,; d hnym I r1l, ;~t  A A. I:jl yi I '~A E'Ll I'T-V C, i.' 1; Vp  L 3073-66 a[T(lj%/FCC OW ACCESSION NR: AP5016519 UR/0050/65/000/007/0007/0040 551.509.323 AY AUTHOR:~ Glazova-D, P..(Candidato of geographical ocioncon) TITLE: Predicting maxijml air temperature during, oxtenoivo clouf-H.riesil frota morning sounding of the atmosphere SOURCE: Motoorologiya i gidrologiya, no. 7, 1965, 37-40 TOPIC TAGS: woather cloud, atmospheric temperature ABSTRACT: Thin paper prosenta the dovoloptinnt of a meLhod of usinj ir the maximum on! a stratification curve for prodicLingr the 1:anporaturc raxis-tum an cloudy (lays. Data wore obtained for the period from the second half of blarch to tho firdt half of October 1964, in Moscow, Vologda, Kazan, Kharkov, and Minsk, A ory aoialmtic gradient was established from temperature noundingo for tho InvaiiLigated period, This hold whether the weather was very cloudy, only slightly cloi.0y, or rariably cloudy. It was assumed that the upper limit of the gradient was lower for ex- treme cloudiness than for light or variable cloudiness. Since the air t,Dmperature, amplitude in very cloudy weather averagoo but 0./, the valuo ft,ing cloudless or nearly cloudless weather, this factor was used to reduce data (o:n hoi4,,Iit of the !Card  L 3073-66 i ACUSSION NR: AP5016519 0-2- dry adiabatic gradient) for cloudless and tilightly cloudy diys. Thus reduced, the upper linit of dry adiabatic stratification ranged from 0.4. 1;o 1.0 k7t during the investigated period, and these values are in agreement with actual sounding data. The temperature maximum for cloudy days may thus be prodiebad by., 1) de- termining the maximum warming for the given month frcn the tClU-0 aC COXT(icted gradient limits an indicated above, and to note this value on tho aeroloirical chart; 2) using the surface map and the AT map to determine t1w temperature 850 for this heigght by considering advection to 1:00-3:00 p.m.; 3) d1wing the dry adiabatic curve from the newly obtained point and noting the intersoction with the isobar of surface temperature. The temperature at the point of intw-section is the maxim-m. The technique was verified by several comparisons of prodictad and actual values. Orig. art. has: 1 figure and 3 tables. ASSOCIATION: Tsontral'rWy institut prognozov (Central Forocastli InaLi SUBMITTED: 12,Tan65 ENCL: 00 SUB GOVE: ES 110 W SOV-' i Card 2/2 003 OTHER: 000  27320-66 EWT(l) CC' GW ACC NRt AM6002137 Monograp Moscow. Tsentril'nyy institut p !j~o z o~y . Handbook on short-range weather forqcaatinit~/ pt, 3o noo 4!1 �ynoptic procfoses and weather forecasting in the eastern regions'of the USSR~ (Rukov-3dstvo po kratkourochnym prognozam pollody. eh. III, vyp. 4: SLnopticheakiye protsessy i prognoz pogody v vostochnykh rayonakh SSSR) Ed. by O,_P_,,_GjAzoya., Leningrad, Gidrometaoizdat, 1965. 211 ?. illus., biblio. (At head of titlet Glavnove upravleniye gidrometeorologicheskoy sluzhby pri $oveto Hinistrov SSSR. Dal'-:evostochnXy nauchno-issleLovatel'jkly i i~o ioteorojoALi- cheskiy In:stitut) 1650 copies printed. TOPIC TAM synoptic process, weather forecasting, izzlimatology PURPOSE AND COVERAGE: This handbook describes bafitc patterns and particular features of the development of synoptic processes over eastern Asia and the Far Eastern seas. It alao gives information needed by the forecaster regarding the regime, the synoptic condi- tions, and the local characteristics of the origin of moot Impoir- tant weather phenomena in the eastern USSR. The book fi] intended "for geographers and meteorologists* particularly for theshort- range weather forecasters, There are 60 references, all Soviet. 1/3 UDC! 551.509.31071.6)(022  L 27320-66 ACC NRt AM6002137 TABLE OF CONTENTS: Foreword -- 3 Ch, I. Some characteristics of the synoptic proceiiiieu and Enstructions for forecasting them -- 4 1. General characteristic of the seasonal pecullarlties of the synoptic processes -- 4 2. Some patterns of zonal processes -- 12 3. Winter anticyclogenesin over Asia. Hoventatint of Siberian cyclones toward Yakutiya and the Far Eaut --- 10 4. Cyclone activity over Far Eastern seas in the cold -- season -- 33 5. Winter shift of marine air milases towards land --- 54 6. Summer anticycloganesis in the region of tile Sea of Okhotsk -- 65 7. Summer cyclone activity over the Amur RiVfBT bustn 73 8. Orographic cyclogenests in the Southern Bitykal region -- 79 9. Movement of tropical cyclones into tempermte Par Eastern latitudes -- 88 Ch. 11. Dangerous weather phenomena -- 101 10. Strong winds -- 101  1' 2*732&-66 CC NRi All 11. Ilez-vy precipitation -- 129 12. Frust -- 146 13. Low cloudiness -- 157 14. Fog -- 174 15,, Snowstorms -- 184 16. Conditions of poor visibility -- 192 17. Thunderstorms -- 196 18. Aircraft turbulence -- 201 Bibliography -- 210 SUB CODEj 04/ SUBM DATE: 08Jul65/ ORIG REP.- 060,i Card 3/3.  MONINA, P.V., k-and.talchn.nauk; GL,,Z,,)Vi%, R.A., starshiy nauchayy sotrudnik; J,ATySja;VA, N.F. ; POWMIYv.,IIKO, Te.A., Inzh. Ra3ults of tests on Kovo hydraulic '.oom3. Taktt.prom. 20 w 1 )10-2:36-39 F 160. (141RA 13:6) 1. TSentral'riyy nauchno--issladovatellskL7 inatItut aholcoToy prouVshlennogti (for Glqzova). 2. Gla7Vy inzhauat- shollcotkatskoy fabl-l~i imeni Sverd-lova (for latyaheva). (Lo-ma) (Synthetic fabrics)  0, 11 v IF 4F w o * 4) 0 0 a 0 s Al i It 1. It Is n 11 .1 Is 1, 1, L. 'I k, 4 m IV ft 1ATWUSIMM of physietc-it am Antetwo, of N. t 111 h 11 bo;WMW 1 W b i f rrt " 1"', sc , - 11 AM y mummam o c usp .11 * * Jf I;. ,, ct S., CA 1043. 314 - 1 6131" (11 It 1,.,d ~4(1. V 31W -Cr vatalhtwn And tranal"t"tation .I Nil,m),. N.N10" It 11AV,! JIMIJ 11110111KIbI1111-11 64 t!J1141 I,, f A K N (-,, ~: n- trAi ha% 1-i% at 44 the melt Vj 1--r te-trip it) 2(1 j at, -40 00 Lirger awl 1-i hygr(mlipic thAn th- ,bt&jnr,i at highri tr;n); z off , , 00 -00 Jr 410 00 'die 00 -too 00 Vol 0 :, 3 u TS 4, f, ~j 3 v nj n is a - A .3 it %I K 11 tt it 74~ 0 0 0 * * 0 * 0 0 * 0 0 0 0 0 0 0 0 0 0 0 Ovil 0 4) 0 0 ~ 0 0 0 0 o 0 0 o 0 0 0 40 , 0 *41 40 0 0 0 a 0 0 0 0 0 oil 0 0 0 0 to a 0 0 lee 0  14 n(I it& flq~~Cvli* C4klng. A M, 1) 48, ,,1 imi, it. rl. H.  ly, 7. 9. , I'MITMANEI)OVA , Y', I ~T Ill., L'V(-'iV, S. 7. Preparation of carboxylic acid:-, by one-stage oxidation of polyinethylbenzeneo In bubble colunins. Ivv.vyzl.7wh(d).Zav.; knim. i khim. tekh. ? no. 1:122-126 164. I. Mos~ovskiy institut tonkoy lrhlmiclr.eskoy ~,~'.V.Lomonosova, kaCedra teklinologii osnovnogo ,jinteza.  03 D J) j6 1) 0 0 A I t r Q A I I y A 4A 0 CC In u I t- I I)-.* Nl- ACV 00 01 411 00 llmd-ftdl fe %%0l. lh~ I dr ... Im I t" 1~ -410 ...... t,, P t',. -t v foe ' 00 go of 09 00 00 .00 go 00 00 p ,411111 t ~ 400 e o , .60 09 00 to t 0 L,U a 40 0 0 4 0 0 0-0 0 0-0 0  lool"TIOW 00 001; goo ;:14; ow '0' 4) A A A I a a V m 4 an lin W A 1 1 A# IN IID it - - j t The Tolumt "4402 09 clk*d f"tUL34r& 00 d T. V. Ctaolva. J ]NJ, (NIM--tywl ' L MII,9- __-rho tot~pUiSfiV, ", d 22 119tili2VIS me d-gn ol wils 1, w hobf ?Ilk - iv n ki . e no aft and attec ta g tiliAtts ii diwutod. Arv't" 1 ,, a '44 49 zo 0 -40 00 led 06 3 us* 10 q n, (f l( 41 0 0 9 0 0 0 0 1 0 0 0 0 00 000 0 0 0 0 00 6 0 0 0 0 0 0 0 a a 10 0 0 0 0 9 0 0 0 0 0 0 so a 0 0 * 0 **so 0 a  -000*0000** 9 0 # St Ol 0 0 0 ~44~!S"41~q q,,%, 0 a I 1 1 4 1 4 1 0 1 4 it u fj w a u it to a 11 V a 1, 11 It 1) a 00 A 1, f ~ .4 The "atum c&wJq at fadilma. N. 11, and T. V. GIs- I. Ckm, 104- (Mowo") IS. '#3h (IVm).-:-JIfdAtut*' VAIMS art m x ran" ftWU alAtotopit.. WIth W., 11) UlaIIIIIA(III N11,M), with 2-30.. .00 of -4 file 00 q) 00 00 a Joe 00 fee so Z':0 I 00, 410 St -ff-lIIR6K-l6 LlIff,14-1 go I 3r It 3 41 1 1 (,jrlp t#jA 011, 91 V f 11 a 11 0 If 0 41 "It 0 It * I a 41 0 0 0 0 0 0 *If 0 0 0 0 0 4 0 4 Ole 0  Of 00 0 0 4.41 0 0 0 0 9 0 0 0 0 so *41 mrdsurrs for overcimlirl itN I h I 410 es 00 00 a It wa 00 so 00 00 00 lie of .419 0 0 41 * Of Oll 0111 a, to of *:A~ 0 0 0 0 0 0 0 0 0 0 0 v 0 0 0 0 0 0 to 0 0 it it 0 to 0 to to to C'O 0 0 0 0 0 * 0 0 * 0 0 * 4 0 0 0 0 0 0 : 0 a to 0 it 4 0 0 0 0 0 0 0,-  0 111 (L L%, Ct P A I. L f 6 . It J I I A R F 4 oil r off So 4141 o * o(p oil 60 00 'I 0 , micl irk ."M) of th 1,19(two w 00 go 41, 1,. 41. :0 -1 h SI I ; ,so -I , 0 40 64 so it !1 11 1 0 0 4, 0 0 0 0 0 0 0 0 is 41 0 0 0 0 0 0 0 0 0  p i it  T. 7. AID - P-83 Subje(!t USSH/Chemistry Author i Dubovltskiy, A. 111., Margolis, F. G.., and Glavwa, T. V. Title 'F~jn,lrlte structure of ammoniUm nitrate and it!i effect on caking oil the salt Period!,-,al Zhur, 11rikI. KhLrn, 27, no. 4, 368-375, 19-511, Abstract Under certain conditions, foi-natlon of dendritic crystals of nitrate takes place from both solutions and fusions. Dendriti~-,atv-,ri of ammonium nitrate eliminates caking of the salt. T-3n refereiv!wj I Oix U.S.S.R.)-. 1891-19Q. Crne table; four photos. Institution Sr.-ieritific Institute for Fertilizer8, Insecticides nn.1 Fungicides. Submitted Au,,ust 17, 1951 1~ -  RARGOLIS, B.G.; IXJBOVITSKIY, A.M.; (HAZOVA, T.V. Obtaining dICILlCIUM PljO5pljflt8 dihYdrIltO mid amrionium nLtratm by nitric acid dacomponition of phoophittme. Mlin.prom.no.l: 26-31 ja-F 156. (~Jjjut o~~) . I l.Nauchnyy institut po udobranipirl i innaktoun,,:iUldl!,i immi Yaj.samoylova. (Phosphatea)  I,W~GOLIO-, F.G.; GIJ~ZOVA, T,,V,; SINONOVA, MI. Amaoniation of nitrate solutiom in the production of carbonate nitrophoLika. Kiiim. prom. 11, -2-~85-89 F '(~l- 14:4) (Fertilizers and manvreu) (Plio.~ipliatns) (limmonium ritratq)  MARGOLIS, F. G., kand. tekhn. nauk; GLAZOVA, T. V.; SVIBLOU, A. I. Recent developments in the technology of complex rertilizars using the nitric acid treatment of phosphates Zhur. VKHO 7 no.5:507-512 162. ~MIRA 15:10) (Phosphates) (Nitric acid) (Fertilizers and manures)  GLAZOVA, V. V., Cand C(,em Sci -- Stu-1y o!' pkras.b and cert:tin physlco-che;;dc, 11 propei-L~,3j of solu- tions In trie 11n." Vos, 1961. (Mos Strtf e U Im IX. V. bo,r:orosov. F-.ci Ch.!iJ.r o.f "on cieall, (KL, B-61,  GLAZOVA, V.V.; KURNAKOV, N.N. Phase equilibrium in the qua8iternary system Ti - n3~n .- Zr. Dokl. AN SSSR 138 no.4:835-838 is 161. OaRA 11,:5) 1. Institut metallurgii imeni A.A.Baykova A,%i SSSR.. llreds-,ayleno akademikom I.I.Chernyayevym. (Titanium-,tin-zirconium alloys) (Phase rule and equilibrivin)  1200 19 R.,)- E I I I /Ell 5 2 AUTHORS~ G I a z,, va V.V,and Ki irnakov N.,N. NI- s, " w TITLE Me thod.-~ o f PT '~ 1);l r Iris, A I I oV ~s Bi, -4 P d11 TI 41,111 ill .'i rid Z,~r c (.) n --um t'o r I'lias e - 1) 1 at r (IT11'Ist i 1J-1-'.,')v-1' k gL PER IODICAL I Z... t-S t I~ya Akadem i i nauk SSSR 1~ 11.~ v F t ~-khll LC h to -.,-k L k flailk Nl~, ta I I it r~ y, 1. Y'I I ( (1 11 1 1 V, 1()(,o Nt~ . 11 pp,b! 64 TEXTs The author,, liscuss metho(ls use(i t'f-)r pvp.7%rIrt.-z 11101 melting alloys, particularly those I)ased and zirconium, They note the advantagp-~- of' levitati,,Jn m-~,Ittng,- this gives sourld ingots ~,Flg~].)~ The author:~ hat:4~ used this method for p-reparing phase d2.avram StIAdV speCIIIII!Wn ~Qr V-1 SIL T2.-Zr, Zr-Sn and T-' Zr Sn. Parallel spe'.1mells 11(1:1~,~,- made With arl, melting, Star-ting materials wer,~ grade TG (30. pure titanium Imagnes-,um tharm-~:), 99~6% pure iod:..A~ grade ChDA (99,9-"N) pj.,e) tin., AlLcys p-rodu-ed I-,v bf~-h niethrjds~ were sjbjected to m-..*.io2---r2pi: analys'--s :in the as --a!;i sta.r~ and Card 1/3  8 2 6-.,: C s/.18o/60/000/c)O If /0!4/oL,7 Elll/E452 Method-,' of Prepar-InK AIIGYN 1111AP11 011 Tit'MIIIIII '-Ijkli Zj,1 '011"m for Phase-Diagram Investigation after stabilization for 650 liours at 800%. fj Lc ro,~,~riic t,1.11- efi VV of Ti + 30'% Sri are shown irt Fig,;' 111UstratLng the between alloys produced by arc and lev itation melt in'L' ( left hand and top and bottom photomicrographs , respective LY) . whi-: h arp reduced by stabilization (right-hand photo.-micrographs). Hardness was al;o measured and is tabUlated for vari-ouf alloys arc and levitation melted, the hardness values plotted in F-49.3 as a function of tin-content for ar~ and levitaLiari-mel~ed alloys (curves I and 2 respectively), The authors conclude from their own and published work that levitation melt:Lng is the better method for preparing specimens for phase -dieqratri investigations, A.A.Fogel - T.A.Sidorova and N.A.Pavlo- assisted in preparation of alLoys, There are 3 fl-gures Card 2/3  8262o s/ldo/6o/oOo/oo,'ik/ol4/027 EIII/EI152 Methods of Preparing Alloys Based on T3.tauium and ZJrcon:LUIII VX for Phase-Diagram Investigation 1 table and 11 reforc-n-i.s-, 5 Sov'~~-# a-I 6 E"O'si, SUBMITTED5 Marzh "', 1960 Card V3  AUTHORS G 1 V N N T ITIL E PER 10D I C A L Do k lady Akad -11 1 I~tu pp 100 7 - 1090 TEXT~ The auth-Dr~ wanted ,,,) .:Iar, 'y h-~ Q-j,~s' a continucu5 se-7, es of solid 5olu~~ cn--~ '-f~ ~-rmed 1! Sn s:,-3-m. and +o dotormIne the c.-.viilibrium bp'xeen -h-- c/, -T:. i ri,i y 11 ~Ia ~~'z e qu i urn d ---t F-, -am -n a s v o n "- 'i t1 !'A 7 25 atoms ~f Sn M-1 ~:ng :rl :i s,-I~pr-nded rira"" wl~i: "-.--nl and ';c be the most favoralble method cf pr-;du,~irg :-!n !Ltz ha~~::3 ' f rl ~Refs 1.4 To sTudy t he ph-iso di iF-f i-,: ti' 1 t y zi vw- t h a r S- ",-it,:nt , 4 . -, 9 . ! i ' - '? . , , - - C:' 0 85, 2 12 9"' w E- r c rcs copi c -in alys I t ha t, fj~ Is sallip'Le-3 of c DreT)ared M 'in Sn alloys ~,a-iing of uT, on~? cf 'ir ti! M n r. t -i -I phase T h e s t smal 1 interr~ida;'.,,c: I ;iyer.7; nf Olo n;l ri~I-I- A f ard  -)"o " f~ () , 1 0. '( 11)1, 't ~ -. /' Fqu ii b;-~ ijim '- ri i.h~! :'),I:! T in I"M T 2. P ~ I I j - I ; I i - " '. I C)~~ il 0,1~ Aril -a n n 9 00 1 nt c~rmed I a te 1 e rs: --Im,~ in'l ~ r t h -,I:. ar d 7 8 a t o re/,. S n h ui ci ri t t r f~ Th :~y ~i t .1 v h od ra 1 L~ , ru c t u r i:, Th- i~-ilhorl) Sill, I i ci y o f I C, -I n -i -.t n -i I f h -: r, L' L~00"" t,! C; n Th fi n 1 ~t oy w s - ng e ph as e a nd ha, I a po y Th, !-i,~ x o f i n t n u o u s s e r i s t-) f o l i W 1? (, 11 C ~ ! 1:1,- F i s d a 7. temDer-%,~ure deDen4en~-~~ r (L b rl o a r wi th a i emperatl)i r reei~~ e ( Tabll n r h L 7,. 1, 'as n ~ is slnw~d d,~wa Ac --h~-- mom,?,i- ,,f ~I r,.-, -in a- i - 7~ 1 a 6 r~ipidly ( Tabl(~ F i g (71 W 5 1! fl 7 n n C '7 a 0,?Ool' lllh,~ emperzl-~.--93 pria e ri- f it i n i nv -i s E;a- ed T-iL-, e ~ j j ~j I f -.,-:1 C, f, -- p h, w h,- 1~ r, nF~ n, fl '3 IV 7: =4 Sn f rom ~'-ie r- can ~:7-? c 1 zu r 113 w r o ~i r nt~ 3 r:i.- c, 7-:~ i ur, Lrl i I a  b:- T, a n I u ir,T J ,y ruc t ed t ~1~ ri - th-jr exp,r:i r, c Wo r, I w, Sri 't Ail ill 1,;irl -~ .n -fr 'i -j4 t-, and .1 afl(l, , . J)"I. 1*~ ~ " '1'l , F- r:7 m ent~ on met ~.od bY I; R e f T!Ir q I- n a ri dt~ Tj s A S F) 0 C I A T-1 n 2 tut Me t -II In I~J Ar:,ideiu; uSSR PRESF,'PT'PEj) 9 '0 hO.hv A P.!,- 1' T TET M a.", Cai-d 1,/ `.  2979 R C)7 s/lblo/61/000/003/007/012 I E193/EI83 AUTHORS: Glazova, V.V., and Kurnakov, N.N. (Moscow) TITIE: Resit;tance to plastic deformation of the titanium- zirccnium solid solutions at various temperatures PERIODICAL~ lzvestiya Akademii nauk SSSR, Otdeleniye teRlinichaskikh nauk, ~Ietallurgiya i toplivo, 1961, D10-3, pp. 67-72 TEXT; 1n spite of the relatively high melting points of titanium and zirconium, the strength of both these metals decreases rapidly at aboulc 400-500 *C. It has, however, boon postulated by A.D. Schwoppe that Ti-Zr alloys might have better high-temperature properties, and 'lie object of the present investigation was to study the re-gistance to deformation of these alloys at elevated temperatures with a view to evaluating their posti--ible use as a basis of crepb-re3istant materials. To this end hardness tests and centrifugal bending tests were conducted on 10 experimental alloys containing 5.14-82,5~a Zr, The diamond pyramid iridentor was used in the hardness measurements which were carried out in vacuum at 300, 400, 500, 600 and 700 OC under the load of 1 kg, applied for 0.5, 5, and 50 minuTes-. each measurement was taken on a test piece that Card 1/ 6  "29 7 9 s/i8o/61/000/003/007/012 Resistance to vlastic deformation ... E193/EI83 had been held at the test temperature for 100 hourm. The centrifugal bending tests werp carried out ill flir at 500 *C on it testing machine described elsewhere (Ref.10: V.F. Prokhanov. Zavodskava laboratoriya, 1957, NO-8, P 1030). When the results of hardness measurements (which are tabulated in the paper) were represented graphlcally it was found that the time-dependence of the diagonal. (I of the irldeutation at any givert temper,!tture is given by d wh a r 0-T i.H U i (! 1. o a d J. n F, t i mm i nu t o s ) it ri and b are parameLers which depend on the rinture of' the alloy, I a test temperature. and the magnitude of the applied load. Values o.~ a and b, relating to the alloys and experimental conditions used in the present investigation, are also tabulated. At the same time, it is known that the rate of creep can be calculated from data on hardness at high temperatures. Thus the rate of creep Vd (1/min) at the moment at which the of the indentation attains the magnitude d is given by: 10 g V = log b - log a --_log d d b Card 2/6  22979 s/18o/61/000/003/007/012 Resistance to plastic deformation.... E193/13183 This formula was used in presenting the results ot' hardness measurements obtained by the present authonj who related them to the solid state transformation part of the constitution diagram of the Ti-Zr system, shown in Fig.la. Fig. 16 Biiows the concentration (at.% Zr) dependence of 109 Vd, corresponding to d = ().18 mm at 600 Oc k OC (triangles)i Fig. 1G showing the same (circles) and 70') relntionship of log Vd corresponding to d c 0.12 mm (it 300 (crosses), 400 (squares) and 500 OC (dots). It will ho ijeen that the log Vd isotherm for 300 *C represents a smooth curve with a minimum at a composition corresponding to an alloy characterised (at this temperature) by maximum creep resistance. Ats the temperature increases the shape of the 109 Vd itiotherm changes, and with increasing concentration of either component 109 N'd first decreases, passes through a minimum and then through a maximum, situated approximately at the composition which corresponds to the minimum of the 300 *C isotherm. Similar results were yielded by the centrifugal bending tests. These are reproduced in Fig.2, showing the concentration dependence of the deflection (f, mm) of specimens tested at 500 OC under a stress of 15 kg/mm2, applied for 5, 10, 25 and 50 hours (curves 1-4 respectively). The character of Card 3/6  22979 s/18o/61/000/003/007/012 Resistance to plastic deformation.... E193/Ei83 the concentration dependence of the high temperature strength of the Ti-Zr alloys is, according to the present authozB, directly related to the shape of the �--)a transformation curve (Fig.1a) of this system. Their theory, which is extended to any other transformation (including the solidification of alloys) is best explained with reference to Fig-3, whose top part shours a transformation curve with a minimum; the shaded nrea represents a temperature region within which the alloys retain to a larger or smaller extent the structural characteristics (short-range order) of the inherently weak phase existing above the tranoformation temperature. Consequently, a log Vd isotherm for a temperature tj will show a maximum (i.e. minimum creep resistanco) in this composition range where tj is within the shaded area (the top curve in the lower part of Fig-3). A 109 Vd isotherm for a temperature t2 which is below the shaded area for the whole range of the concentration of the system will have a shape typical of the concentration-dependence of physical properties of solid solutions (the bottom curve in the lower part of Fig-3). There are 3 figures, 2 tables and 16 Soviet refereiices. Card 4/6  Al't !I("'- !'L F I CAL L 1: Zi -ZI   I /f" L VC07/1.1c. T i - ..I o: I- AS T i ! i I- i i A N' ,J 1 ti-!.i A - P ,T I i i L Li te c) f'M o t o I L i t AS U S S P. A A fl. ov i, I: ILilt v.lota] ( I-I n AN Ulli-SSIZ aii,l Spec ial Al loy, A5 1, 1) () L  W72 .4. 19 12C0 AUTHORS- Glazova, V. V.. and Kurnakov, N. N. 'C ~, 2`~/ ~j I / 13 Cj 10 2 'j,/7 / Bo 16 /3a,) TITLE: A Stu,iy of' thr, Ph,-,,,:3,i EqUi librdiM J11, U- T1 Isfi - Zr PERIODICAL: Doklady Akademii nauk SSSR, 1~, 11 , No. 1, pp. TEXT: The authors 5tudied the Dhase eouilibriums in 10 (_-_~;tinjF alloys with compositions corresponding to the TY:n - Zr rection (::*-' t~.e ternary diagram Ti - Zr - Sn (Table 1). Most of' these alloyo were oab.Jected to a 2C,L deformation and homogenizing annealinr lit 600 OC for if)CC. h, and subseqi;ent~,- at 10000C for 150 h and at 12000C for 200 1-'and then elnillad. Annealing was carried out in double-walled evacuated ouartz ampoules. 3ficro-sections etched with HNO 3 + HF + glycerol Lt a volume r~ltic of I : 1 , 2 were used for microscopic analysis. All tne alloy3 were singli:.-phase and of poly- hedral structure up to Zr cone ent rati ons of 221~~,, b,,, weight. At iligher Zr concentrations a second phase appears I the quantity Cf which. steadily 'r increases with rising Zr content. Above, 5~)Y~ zr thi, second Phase e;hibits Card 1/15  88572 A Study of the Phaoe Zriuilibrium in trl-~.- SI System Ti Sr. - Zr 0 16 3 , an al 8tructure. Alloys coritainin~11' 2r and anne~Llli'd at 1000 arid 12000C, posses a single-phaoe al zltructuro. From the abovt- dat(k and ~Lardnuss data of tile alloys the aklthol`3 a~!,Iume thc, Ti.zSii - Zr se~ction to `)c- ijuasi-bina:7y. I The quasi-biriary diagram of this section (FiL-_ 5) -~;as invostigated by high- temperature contactless thermal analySiJ Which ~'ieldl?d 13E'Ve."Jil hitherto unavailable charact(~ristios, i.e. the SOlidUS CUrVe, transitions in the solid state and the liquidus temperatu-,o (-orres~andinj~- II(D the formation of cry~:ta coriclude from Fic. tnat the primary ~ and 19. The author. equilibrium between the (i madific~;tiori of Zr and Ti,Sri may be r-escrib y I ed b a eutectic-type phase diagram. with plarti,--I S01L-bility. The eutectic po i nt lies -.round I ~,L;OOC and t' i~ ('-,u' ect ic Cclituitis 50" b:f weight I n 1 6 % Zr. The authors compare this system with the Ti 3Sn - Ti system and 'find that in spite of 'he close chemical relationship of Zr and Ti, equilibrium is much more easily attained and diffusion at the co-rrespanding zemparatures is more rapid in the Ti 33n - Zr system. The authors thank N. A. Nedumov, who developed the contactleso thermographic method, for his collaboration. There are 4 figures, 2 tables, and 11 references: 9 So,,iet, 1 French, and Card 21/3  86572 A Study of the Phase Equilibrium in the System Ti 3Sn - Zr BO 1630 5 5 1 British. ASSOCIATION : Institut meta llurgii im. A. A. Baykova Akadi~aiiL nauk S.S33H (Institut e of Metallurgy imeni A.A. Baylcov of' the of Sciences USSR) PRESE'NTED: July 8, 1 960, by 1. 1. Chernyayev, AGW.emiciun SUB"'ITTED: June 23, 1960 e 1: Legen Tabl d: 1) No. of alloy; all values in 1~a' by iveight. Fig. 3: , a by weight Zr. c Ti Z r 5 r, c n., A Ti Zr So on 1 21 7, 1; 40.9 22,5 21 1 1): 0 10 4 55,0 2 1), G 3 .,,,7 :~S, 1 11 1 19, 6 64, 3 t6, I J! 1,!) :15,9 6 - - "-*- '--- - .r) 5 o I 6 3 I 5 5 i 89,41 i 1 k 24, 9 8 i 1 r) 3:1, 94, 1 2,5 3 14 Card 3/3  e::~ T~ `3,   r m'l cx r z' f? 'ne IT, r -3 r 17~  So T., S 3 SR 1 y. S 713 1: 1 T T  J.,",o/().!/c)oo/'oo6/(PI:2/o22 AUT11ORS Glazol'A V. V. , and Furnak-ov, IN. N. dvvf!,,I!jefj 010,4cow) TITLE creop of titanitim-tin and titanium-zirconium-t j-n alloys PLRIODICAL: 'J.-zademiya nalik S.SSR. izvest i.yix. 01-At!.1-vaiye teMillichesh i%h nauk. M(!ta I lul-j-'iya i tcplivo, no.(3, 1902, 131-136, T L XT Tho ro.,A 1 s tit tic e to p.1 as 1. ic dr.-fo rm~t L i,m olf 1. 51;11 anct Zr-Ti-i,Sti alloys was investigated by hot-1wirdnesn me it.-511 I-evlf- tit 15. The purity of the initial materials zircon.ium )9.9, titanium 99.159, and tin 99.()^~,. Alloy.,~ were preplivl!d by indt"CLion molting in a purif:Ied lielimn The cast alloys were deformed by 10-20',~ and annealed at 650 and 800 'C for a total of 2700 hours. Hot-hardriess tests ivere c ,~irri-ed out in a viicumll of io-3 -,Im jig t.1-9ing a diamond pyrami,l with angle 130 0 and a 1 kg load. Loading times were 0. 5 , 5 and 50 1-iltn"O's tit 300, 400, 543,0, Ooo alici 700 OC. The alloy was held at the test temperat-111-i! for' 10() hours before testing. The results were plotted with log. (dia~g;onal of indentation) a~4ainjt log. (time). The diagonal (d) - time relationship shown to be d = a,c Card 1/ 2  Creep of t itaniilm-t Ill 'Ind ... -V l8(.,/(,L/ooo/uw)/( ).I:?/ o,.,.., who re it ~Wlld I i ;%I-,- ( m:i Lit lit :i t I I e Vil o cree 1) ra t v~3 a t a fly ~-, i-v o if v;t Ili i! o Itho of. xvidwiltil t .11)11 W%~V(! ca icu tated. Th'. rf~- lilt ionsh'i 1) lwl Cl'(,-tll? rii to firld c(IfIcentrat iorl was then ~!Xarfllll(ad. 1~tw Lll,- titiiilkuvi-t~ill !JYqterl1, ~ lip nil x 111mill creep resistance at 3( ';0 and 400 '(: wl.,i "iflowrl by alioy!i 25-30 wt.`-, tin, mid at j(10 OC '0y ill 1.)y.,; CullL~tliikii:~; 1.5 wt.,, At 6(10 0(_ tjlt~ jijo~~ C still) It, I I lov corj'4-.,~ potided to t lit, corrlpo-5:1 t 3.011 'f'3S" and at 700 '~C no usefill el't,oct obtillflei.-i-1:1), inci-eilsing tlie tin content ;xhove Reslllt~; 1':-um the !iy~3tein Zr-Ti Sit showod that at "WO awt lmu C all in'r-litfli! I'll Cruvp resistance wa-s obl~ained up to 20 wt.`c TL-jSn. Further achhtions had - Oc tri 1 0 little effect. ~kt 000 j - ddit)-on of' Ti-~Sii gave a marked decrPixsc, in creop rate. J)ctwt?f!n' 15 and 3 5 lit-'~ ""3s" t1lere was a characteri-sti.c jnlir~ctjon in th(~ creep-concentration curve. Alloying zirconium with Ti-,Sri had coomider-ably mu.re effect than alloying titaninui-wit,h Tx3sll. ) tables. There are 2 figures aivi - S1jB:,',J-TTED 15 , 19 0 2 Card 2/2  S/598/0'2/,','.,00/007/004/040 D267/D307 V. 7. bind ~'ur-nakov, N'. ":1 of -.,n,2 ternarv system A1.::.L1-~e:-jLY;L .-Laa~ Ti-tan i yego _Q. 7, L 1) (~ta~ to! novvyO fln El iya i. 4'5_~)O i t ca 'D C. ,_, S s U I.,, e ~i ;ysteam may con-,ain a widu region U 0-1 solid solu-,,ions WhiCh. C[Ln form t`ie 'oasis of alioys endowed with J,i:, r the avai abLe of uhase v~i1u;lbi e properties. ,'hen ana nt .1 11. g quilibria in ; -- e .1 .1 . the Ti-~3n s stem betweerl,-,~-Ti and the ~-pha..,3e based Y 0', 1, i ~3n, it appears that the ci,)sest to the e(Luit'ibrium are the `_ I I ' S 'loys ob- da-_, of '.1. i~. NcQuJllan. _-`ince hcmot.-en,' ~ tion of Ti-~n a by 1-Irc fusion ij very dif-L'il,-Uit, ~it :Is ri-~~commerided to u6e _~e_,j'1,_Lt4on raclting. The '.`-~n ailoy6 Lhuo prcpare-d were w i h a exceptions) twice subjected to deformation with subsequent an- U Card 112  J;I (J7,; 1).-). 0,i, structure iL p 0 y rle cl ra TI'l c u pe r t 1,; 1 L 4L F.1 i. of L c "Oved C~;"4 1 )r~ am hu~i( j 1- o r *6, --!2 '3 t1 L 5y I;t ~~n i :2,J u:ii p t~; -C Oy ~3 Zi ei.,iII mo:A, of, 1;*r,,,2,-,i v;(-,rc, subjected.,,,/ 1~ s u u en t ;~ in -n e,,-L i n I ~ wa ' t La e c zo de (-)-,-.iat' c n. t t he 's -on wiT b ~3, s f u -.ion Ti.,En-Zr i s quasi-binary; ~..,orresponflim,, ol ~ "A 0 1- of S e .3 na ti re of phase !q IiJ 1 'r um in the sys-uem, was construc : L lib i -em Ti-Ti, "n-Zr aL various tP[rIj)N'L-ItUrC-10 W; :-, C 13 q-,ascJ-tei,nary oyst A ~ , '- I i o d L,U ~ I Card 2/2  L 1945h-63 E;-,?(q)/E.,.;T(m)/BDS AFFTC/ASD r1j1JG1Kj ACCESSION NR: AP3005829 S/0279/63/000/004/0154/0158 AUTHOR: Glazova, V. V. (Moscow);I~N, N. Kurnakovj(Deceased) TITLE: Effect of zirconium and tin o-n oxidation resistance of titanium SOURCE: All SSSR. Izvestiya. Metallurgiya L gornoye delo, no. 4, 1963, 154-158 TOPIC TAGS: titanium zirconium alloy, titanium tin alloy, titanium zirconium tin alloy, oxidation resistance, oxidation. rate, tempera- cure effect, zirconium addition effect, tin additior effect, z,'r- conium tin effect, titanium zirconium alloy oxidation, titanium. ' tin alloy o%idation, titanium tin zirconium alloy oxidatLon, ti- tanium tin alloy oxidation resistance, titanium zirconium alloy oxidation resistance, titanium tin zirconium alloy oxidation re- sistance, vitanium tin alloy oxidation rate, titani.un zirconium alloy oxidation rate, titanium tin zirconium alloy oxidation rate ABSTRACT: Oxidation resistance in air of Ti-Zr and TI-Sn alloys containing 0-9% Zr and 0-20% Sn, respectively, and Ti-Zr-Sn Card 1/63  `3 ACCESSION NR: AP3005829 alloys containinp 5 or 15% Sn and 0-55% Zr, levitation melted f ronni 99 .9Z pure- Ti Sn and icdide Zr in a pure helitint -a tmosphere has been invest -i--al'Ispecimens 5 ~g,t,d.' CyliT(~r c e i,,_d~'arracer and 20 mm Ion,-, .,rer' 'held 500-10OUC for 0 in calm air fo~ 1-20 hr at TL-Zr and Ti-Sn and at 700C for Ti-Zr-Sn. The oxidation resistance of Ti-Zr alloys was found to decrease with increasing Zr content.. A: 500C, addition of up to 60% Zr only alightly decroaned the oxi- datLon resiscance, but an alloy with 90% Zr oxidized very rapidly. At 700C, a sharp increase in oxidation rate was obsorved -it 40% Zr, and at SOOC, at a Zr content as low as 30%. A thick oxida layer Is -:or-mcd on the allot with 30% Zr after 1 hr at 80OC; the weight gair. exceeds 50 Mg/cm . Oxidation resistance of Ti-?n alloyn also decrcascd with incrca.,;ing Sn content. At 7UOC, the oxidation re- sistance slightly increased with addition of up to 5," Sn, but do- crcased again with further additions. At HOC, the alloy contain- ~ng 1'2-15% Sn had the lowest oxidation resistance; Its waipht Cain in 20 hr amounted to 100 mr,/cm2. At 1000C, a sharp :Increase L,a o%-.dazion rate was observed at an Sn content as low as. 5%; the weight gain in 6 hr was about 120 mg/cm2, The average oxidation  L 19L5h-63 ACCESSION NR: AP3005829 rate versus Zr 'or Sn content is shown in Fin. I of the Enclosure. Addition of Zr decreased the oxidation resistance of Ti-Sn alloys- at 700C. In the case of Ti-57 Sn alloy, the decr,:!&se was slight with addition of up to IOZ Zr. However, it rose tharply .19 the Zr content increased further, so that a Ti-5*4' Sn-40% Zr alloy oxidized completely during 1-hr exposure. Skmilar Vdhaviuc was observed in a Ti-15% Sn alloy. Of the alloys wLth the same Zr colitent those containing more Sn are more oxLdation r-3sistant. For example, a Ti-15% Sn-40% Zr alloy has an average oxidation rate at 700C of 2.8 mg/cm2 hr, conpared with the 8 mg/cr,12 hr of a Ti-SX Sn-40% Zr alloy. Orig. art. has: 4 figures. ASSOCIATION: none SUB',IITATTED: 27Ju162 DATE ACQ: 11Sep63 ENCL: 01 SUB CODE: 'ML NO REF SOV: 010 OTH E R; 001 Cord 3 16,3  KORNILOV, 1.1,; GLAZOVA, V.V, Ilikolai. Ilikolaevich Furnakrpr,, Zhur, noorp, khIm. 8 no.6., V.97-1301 Je '63~ WD'A 1616) (Kurnakov, Nikolal A'Iikol.aevi(,,h, V80-1962)  AFFTC/A3D JD 3 L-10010-6 EWP(q)/EWT(m)/EDS -3/150/002/0313/0Y6 ACCESSION NR: AP3000518 ",/0020/ 6. V. V. AUTHOR: Kornilov, 1. 1.; Glazova, Y4 V!taniwn- TITLE. Fo=ation of Ti sub 6 0 and Ti sijb o comprrmds I)i the oagen.system no. 2, 196~' SOURCE: Art, SSSR. Doklady, v. 150, 313-316 TopIC TA~~S: titanium ox~dmtiori, titanium acidea) t1tanDmi.-oxygen aystem TMCT: An extensive study has been conducted o.1' the Ti-13 iqatem, spl_~c!ificalljy of Ti-rich alloys with an 0 sub 2 content UP t) 35 at 'L JVL10.~s '6iere Ptilted in an unconsumab 1e -electrode arc furnace ir an ;-.irgoii atimo,~,Pliere fr= 99.9% pure iodide TIL and a master alloy containing 15.8 vt % 0 ~ tib 2,, 11,:mogenized in vacuum at IOOOC for 800 lira, ann"ealed at vaxiour, teq-,. I--, ire s In the 400-1400C rarige for periods of 600 to 2 hrs, and quenchei'l in ice-cold ~Mter. Microscopic and x-ray diffractio-n aral~,,-ses, microkardne:34; tle-sLn, alad measurements of electrical resistance arid thernial emf alL lnd~cated %he existence of two previously uiil=wn oxides, Ti sub 6 0 azd Ti '11-0 3 0, Card 1/2  L 10090-63 ACCESSION ITR: AP30(y,)518 ..fi Ti null, o.,cildf, is ittelle both formed from th,~ Al*n)ia soLid solut-in. T- a-, tamperat'lre3 up to 820-831c ancl h.'3 a. naarrow ex-.F;Md_'nG on 14 to 16 at 0 sub 2 at 2WC. Tho Tl 310~, 3 0 ::c;-',:!l:..j to bi-, stable a:t te=eratures up to about It dr."!s rx~t The correct-ad- phase ditag-ram" of Ti-~) s~rsteza Is s'%(D*,i*.i fx. Orig. art. has: 4 fij7~Ln3s. AS-20CIATION! irstitut _rretalizagif- :1-T.. A. A. Baylio*rn- Metallur&y) DKM 12"'In." I-;jan63 SUB C',)DE: Or) NO -R;:F Card 2;/2   .~wbich were quenched after being ralsedito varlous;temperatures Card 1/3 is L 14310-6 5 AccEsSiON NR- AT4048046 From 6o i6&Ai.oj:th6tj~i lij of from 0 to 36 at. %02. 11 n9 C~~i~ W: Ottl, graphs showl properties of the OW I N. S.: Kumikkov's method the atithb4Vfi6~0 Able,io,, itit alloll If ;:inlf 41 :'and stulate the existence of two fiemV* ids~~ ~f A., tj 6 J 0. PO 'POW new 6quilibrium ourves'to.the joaphi,6rthfi: TI. st 1360 IQ;illi 1420,wMC, andl13O to probably,stabld, ye~ should'charactOize the n liiot 6 1; O~tygajj, al~ 4 in oil iaximal dbf~e In :of A. solid solution.. Tests overl4widq:raMp~of I tri), the dbpendence .of. the co.efficient of. dieri~4- -Ox~ali~iom 64 tho;40rif P i.1, 66, 'this , stem., TWs. led in turn to, a 0 !Awl -1h If BY w: 6 Is .'the ato.ms of titanium and Oxygen in &~cr~gtftl; Wtiiiel6kihe f and T160. ~ Tests with various periods 4 kdatlp~ g* hi lenipf&R 6 AI.. P- OE concentrations ringW from 0-18 at 0 AU k~ w  12 tIT11 MCA a exier& art. habitgTOpho' 0 entEa work.." Orig f6rmul". 2/3 Card ........... ..... .  ACCESSION N11: AP4040993 S/0279/64/000/00.i/0169/0172 AUTHOR: Ko rni lov, I. I - (~bacow) Glazova, V, V. (Ysoacow) TITLE, :Oxidntton resistance of oxygen-conLatning Citaniuv-, SOURCE AN SSSR. Izventiya. Metallarg,7a t gornoye delo, no. 3, 1964, 169-172 1 TOPIC TAGS: titanium, titanium oxygeri alloy, alloy oxidation re- &istance, alloy oxidation, titaniurra oxtdat-fon ABSTRACT: Oxidation resistance of titaZlj.111;1-0:(yj"(!11 alloyr, with .-35% oxygen was inventigated, The alloys, were n~!ltcd u,ader argon in an unconsumable electrode electric furnace froTn 99.9~-pure iodide titanium. 'The oxygen was added as a titanium-oxygcm master-alloy con--, taining 15.8 wt% ox~,gen. Alloys, wore homogentzc;l ,it 800C for 100 hx in .1 vlcuum of 10 3-10-4 n 11j-, and quenched in Lce warer, The speci--. mens were oxidized at 700-900C for 1-100 hr. At all tenperatures tested, the pure titanium was found to be less resistant to oxidation than titanium alloys with 1, 3, and 5 wt% oxygen. The alloy with Card 1/2  ACCESSION NR: AP4040993 5 wt% oxygen had the highest oxidation reniqtance. With further in- crease of oxygen content up to 20% the oxidation resistance drops. The T13O compound and alloys close to this compound are oxidation resistant becaune of the hiph thermal ntabLlity of the compound, 'Out the TiGO compound and alloys clone to it were ohosin to be thermalLy unstable and to have a low oxidation resistance. Orig. art:. has: 3 figures. ASSOCIATION; none SUBMITTEDs 27jul63 ATD PRESSt 3054 ENCI.~- .00 SUB CODEt MR, GC NO REF SOV: 008 OTHE It 1003 .212  _0 'L~ ;AB9 -77777T.'.777 7 (b V NiB51-65 No W/Ew W/W(0/m/t/1~Pf TJPM fir i~: ~ Ada's SION NR: "4046096 ~S 01126 .64/0W 01 ~ 0416 i, 09:1 T I alazovii V.r AUTHOR: Kornilov, I. P U: J:'i !i h ;ica andith the TITLE:. Comments on the question,~f- phy 1 141 q U c gblut*ons of 0 in o( -Ti SOURCE: Fiz&a metallov i 4 .4459: TOPIC TAGS solid solution, alph* tltanium~";~ ~socifid re kEi ldt;nciol~~,k 1 '11 ibbel hoWty~e conductivity, scale reslis(447e *1 T, Z -0, alloys were fb6d:to:ha~~;a TRACT: Ti an 0 content of approximately B. afth.: Speci ~c: retfist ' ~ d, t1i"(W r le4 i1f.SK - ive price and the Hall -coefficient Weke lnv6q i~gat6d !S '0 ti p] s6 It , 6 to di~~tjvlty of k Ti L"~ att~.jb 0 The hole-type con ~ l ; ! ' ie tiik' i0 til ron cc : fill va nt zone t a considerib ee Wdegr .Apire~ily, iW !~alld " Jb i electrons fill this zone immediately. t,The hoj~ea-t~,Oe c6n,d i ; -ityi: ~ n. hia i a controversial subject but the author'S propope t1itat thm e ' Wati W )f the. n hem l chanism of the'effect of various'allo 4 ntiln ying el,. p i WW l ie f! b 110n Car& 1/2 A. [i , H J! d ~;l 10 0 #ith; t 4P 4- "d  i . : , I . I .  ACCESSION NR: AP4013333 S/0020/611/151~/003/06'J,8/061~i AUTHORS: Kornilov, I.I.; Glazova, V.V. TITLE: Investigation of Certain Strength Characterlatici; of the Chemical Bond at Ti sub 6 0 and Ti sub 3 0 Compounds Formed from alpha-Solid Solutions of the Titanium-OxyEon 5"ystem SOURCE: AN SSSR. Doklady*, v. 154, no. 3, 1964, 638-61,,.l 'TOPIC TAGS: thermal expansion, titanium oxygen alloy, T! sub 6 0, Ti sub 3 0 titanium alloy ABSTRACT: The experimental investigation of the thermal expansion of titanium-oxygen alloys at temperatures of up to 800 C ,;howed t-he empirical relation between Young's modulus and the coefficient of thermal expansion of that system. Specimens were prepared in an electric are furnace with a permanent electrode in argon. Mg, S!., Al, Fe, Ni, Cr, 02, N2 and titanium dioxide with 99-93% TI-02 were tested. Oxygen introduction occurred through a master alloy pre- pared from compressed titanium and titanium dioxide. Thermal ex- Card 1/2  ACCESSION NR: AP4013333 panzion Increased within the 111.5 atm% and 2:3 atm.% ranges and dropped sharply thereafter. Young's modulus, characteristic tem- peratures and the root mean-square atomic diiiplacement from equili- brium in the crystal lattice of solid solutions were studied. New Ti-0 and Ti 0 compounds were precipitated froxic