SCIENTIFIC ABSTRACT BUDAVEY, V. Y. - BUDBERG, P. B.

BUDAVEY, V.Yu., kand.ekonom.nauk ------ -- Efficiency in6irps of the utilization of caDital assets, Yozh.-Obuv. prom 4 no.U:/+-$ N 162.. ! . OMIRA 15:11) ktihoe indu8 rxy-iinance)  BIRICH, T.V.. prof.: GOROVAYA. Ih.G., assistent; BLMY, A.R., klinicbeBkiy ordinutor ~-- -$Lre.pry in retinal detachment* Zdrav~Belc)r. 5 no-7:36-39 ii 159. (141M 12: 9) 1. Iz gluxnov kliniki Minskogo meditsinskogo instituta. (RETINA--SURGSHY)  HORVATH, J.; BUDAY, F. On the effect of StreptorWces aureofaciens cultures on antibiotic-pro- duoing anpaoity of various Streptoryces species. Acta microb. hung. 6 no-3:227-232 1959. 1. Institut fur 14ikrobiologie der Agrarwissenschaft lichen UniversitAt. Godollo. (STREPTOXYGES)  HORVATH, J.; BUDAY, F. The effect of DNA of various origin on thm changes of antibiotic production of StreptomWees. Biol kozl 8 no.lsl9-23 160. 1. Agrartudomanyi Egyetem Mikrobiologial Tanazeks, Godollo. Tansze~vezeto.-dr.Horvath Janos egyetemi tanar.  BUDAYY Ferdinand; GALGOGZY, Bela Effect of various organic nitrogen sources on the anti- biotic production of Streptomyces globisporus. Biol kozl 11 no.2:99-105 164. 1. Chair of Microbiology, University of Agriculture, Godollo. Head of the Chair: University Professor Dr. Janos Horvath.    -  W-000 0-01, 2 1 ,A 004 ~Ajc 90 If 004 jil qm~ 0 00a 009 Og 0000-1004 1 w to u u M is So k L a r a a 8 so 32 13 3,636 UP Jews .1 44248 w0dow sewtum beaft Wd "Wan7awboansip-ii'dw -A Saftlosuous al grown &C. Budapt,4. LLd6 I =UN;A 7~; nitio"0111111110 AM - KkId. S-f(jqfj -- onAolor two 4 FaI441%. with ftvd ormig. awwA goo. of Ca MIMI 11. Two of Itk- rAloatila mvivA In *Ms. 0.34.11, a. elomwoo t-I C4 twt4tr. the 4Ahrr itint the monor doow% of CA cuortmotAte. The up. tithe (of Coo imwawd has 111AW'do to 1199. 3AIZI. MIMI %!,W% It. 1X-1 III kg. li%v VA. ift, Romp (1) awl Inv" 0.41611il It% I Jr. 1, 3AD. Awl &M p. Swor III be. in ptiali, (2). 11w datA rrfcv too rzpll, junrimis al 0 tinlrit 41turing wkk-b the chortu, daw, wtw dotablorti ewh dow. The amt. of Ca ftivntWu Wd% 0.6449-1.= g. In poop (1) awl c. per 11) kg. in Mt- (2). Kuvn time devaW wegm to du to tka 44mi"l an obalrAstorring 'At" NalIC08 tokith characterittir alloalcotic %yin'tar"q. pi"Lloo -A-$ I L WIVALLURGICAL Llltvalueg CLA%WICATNN 9 .10. 0~611. 41111101 411111 a- lit 0 U 00 9 rw a a M I v - - to I to", 00,000 0 0 0 0 0 0 o 0 1., 1. . . 00,000000004000f-0 14W 0 o 0 0 0-0 0 a o 0 0 0 0,0 0 0- 0 0 001, 0- 0 0 0 0 0 a 0 0 0 to 0 0 0 0 4 ~-Oo .00 -00 ~69 .00 .00 see zoo 11141111111 Goo too 000 see 400 a6# see moo %00 moo 001 :00 -,rk  YESIN"OV, S;.. '15,.; VEDMIlIKOV, BUDAY, H.M.. - Mletho s of prospecting fc-- asbestos deposits. Fazved. i okh. ( I.: T Rj~ JC' :1 ) nedr.i 30 no.3:10-13 Mr 164 - 1. 144-nisterstvo geologii i oRbrany nedr YazakbskwT SSR.  KOSA, Gyorgy, dr.; BUDAY, Pal, dr. Hemangioma multiplex. Magy. sebeszet 14 no.3:16&-171 -Te 161. 1. A Budapesti Orvostudomanyi Egyetem II. oz. Sebeszeti Klinikajanak kozlemenye. - (MKWGIOMA case reports) (INTESTDW neoplamm)  HOBAMI, Janos, dr.; BUDAY, Pal, dr. A malignant tumor developing on heterotopic adenonyosIB of an old gastrointestinal anastomosis. Magy. sebenz. 15 no.3:162-166 J6 162. 1. A Budapesti Orvoatudomanyi Fgyetem II oz. Sebeszeti Klinika Kozlememye (Megbizott vezetol. Stefanice Janos dr.) (STOMACH NEOPLASMS case reports) (GASTRECTaff compl) (EMOMETRYOSIS pathol)  GORGENYI-GOTTCHE-, Osizkar, dr.; HDFFMAN, Ida, dr.; statiaztikai mimkatars: BUDAY, Rez6o A. sanatorium for adolescents with tuberculosis. -Orv. hetil. 104 no.7:315-316 17 F 163. 1. Saabadsagbegyi k4ami Gyarmekammtorivn. (T=RMSIS)  'Wl"-Ay' 1'. ; GICH, I. New opinion c,n the stratigraphy of the Lower and Mtddle Iliocene in the Lower Morava VPlley. and the Vah River Valley. P-5. GEOLOGICKE PRACE, No. W, 1956, Bratislava, Czecboslotiakin.) SO: Monthly List of East European Accessions (EEAL) LG, Vol. 6, no. 12, December 1957. Tncl.  BUDAYj T. "Principal tasks and problems of the ricrogiostratigraphy of the Neocene in Czechoslovakia." P- 382 (vestnjl:s Vol- 32, no. 6, 1957, Prahas Czechoslovakia) Monthly Index of East European Accessions (EE-AI) LC, Vol. 7, No. 8, August 1958  MAY, T.; CICHA, I.; S'r,!;.-!,S, Or. "Relation between the lower Miocene of the Austrian and Bavarian Molasse southeastern Moravia, and the intura-Carpathian beds." VESTNIK, Fraha, Czechoslovakia, Vol. 33. No. 6, 1958 Monthly list of EAST 'N"UROPEAN ACGESSIONS (ERAI), W, Vol. 8, No. 7, July lGro, Unclas  BIMY, T. s SPICKA, V. Oeologic development of the Slovak part of the Vienna basin in the Ught of detailed investigation of the Laksar elevationo Po 3* Praha# ftechslavakia,.Vole 69, no, 9p 1959e Ust Of East Buropean-Accessions (EEAI)j, LC. Vole 99 no* 2o Feb* 1960. Uncl.  BUDAY T f','-ekhoolovakiya); SHVAGROVSKIYP I. [Svagrovsky, 1.1 Chekhoslovakiya) .Development of the Veogene inthe Western Carpathians of Czechoslovakia. 14at.Karp.-Balk.assots. no.3:119-139 160. (MIRA 24,-12) (Carpathian Mountains-Geology)  -BUDAY.-T.-Author/ suir4m4E (in capn); Given ffii ~s~~ Coluitry: Czechoslovakia Academic Dtgrees: /not given/ Aft'iliation: /not given/ Source: Bratislava, Geologicky Sbornik, Vol XII, No 1, 1961, pages 129-137- Dt"a: "Critical Anal7sis of the 11-lorks b7 a Collective ef Authors (T. BUDAY, 0. KODY11 sen., M. MA-H-EL, A. MATE-:JKA, J. SVOBODA, V. ZOUBMC) lintmrEdited by M. MASKAi A. YATEJKA, and V. ZOU3a under the Title "TectonicjDevelopment of Czechoslovakia." (The book is nresumably in English)  BUDAY, Tibor Problerm of the geology of Mtumens in the Danube Valley. Geol pruzkum 5 no.8:253 Ag 163.  BUDAY, Tibor '* ..... ..... - Thermal aging of perlite concrete. Epitoanyag 15 no.10: 383-390 0 163. 1. Epitestudomanyi Intezet. 1. - F ., I  BUDAY, T, 110rigin of the gas deposits in the Thju,ingiun Parin" by A. Snars-ky. Reviewed by T. Buday. Vest list goolk 19 no.6;45'1 Ill 161,.  BUDAY, Tibor Thermal consolidation of concrete of light additives. Epitoanyag 14 no.10073-377 0 162. 1. Epitestudoman Intezettien vegzett katatas alapjan.  BUDAY, Tibor Tootogenenis of the Neoeene basins in the Western Carpathians and their development. Geol, prace 63,163-167 162. 1. Uatredni ustav geologicky, Praha.  .- BUDAY, Tibor Some remarks about the new concrete specifications in preparation. Magy ep ipar 12 no.3:136-140 163.  3UDAY-, V.Y. -Y-xperimental determination of the natural vibration frequencies of a cantilever rotor suitable for vane pumps. Vop. g1drotekh. no.1509-44 163. (MIRA 18s2)  AID P - 3797 Subject USSR/Aeronautics Card 1/1 Pub. 58 - 10/25 Author Budayev, A. Title Inter-city glider competitions Periodical Kryl. rod., 12, 8, D 1955 Abstract A report on a regional glider competition in Krasnodonsk. Institution : None Submitted : No date  BUDAYEV, A.,inzh. Starting with the roof in house buildirg? Tekh.mol. 28 no.4: 3-4-160. (MIDA 13:11) (Bitilding)  Vv 4 1 6 A AI 0* c 00 10 0 3 00 040 0 :0 .1 W At O'ce A 1-t- X_ v IND veaM 0 AND Operfalas tf4 Cain d imW d LM 04 OkbW C~MW-Z'ft A007Z OvIllocudin irmt. simay. In Rumiani. A m-bi- A, as o ort CMQ cmm*CalwSatma(3o-1(m) mm. &L hm btvn devimed and t mr~ f == bove b.. Abfi&.d fi. pd.,i.W ppc,.W~ =00 a" me 616Y irv" of so am W ma. 4i& 1k AM% of the camung canditium on the 9*0 aso wuwium of the WpWa 6w bres Madimil-N. A. IFAM 00 see S L A id VALL~ak uYelaywe CL&SWUlma Ik ;a man a a a 0 I a an lea., +661*9- eel 000,4111099,0999900 *see* 0 0 0 0 0 0 0 00, *0 les goo 0 S Joe too he 0 to 0 too ------- 92-- boo 10* cow i~., Im a ego@ 0000 000o0000 o 0  -, --A. S. BUDAYEV, A. S. 6567 BIMAUV, A. S. SER-EST101IMSTI STROITELISM I BORIBA ZA =Er, SNIZHENIYE. YEREVAN, AYLETRAT, 1954 102S S ILL. 20 Sll.(V POKOShElll EKON. OBRAZOVAIIIYU RABOEHIKH - STROMLEY) 2.OOOEKZ. 1 R 301C. **14A AM, YAI--- (55-1506 ) 69-0031 olus 338-58:69 SO: '-TIMIUYA METOpISI No. ~', 1955  BUDAYBY, A.B., redaktor 0 [Innovators In the building 'in tus try; a collection of articles] NovatoryitroltelOnai Industril; abornik statel-a Moskva, Gosstrol- Izdatq iw~.q) P. , (MIRA 1011) II (Coni-Sthib'tion Industry)  BUDAYET, Andre' 3t9p,!gojLLqk,6USFS=IY. Y.T., nsuchnyy redaktor; 13yum, Mr.T.-N&IRor isdatelOwtvia; WSIU,.S.S., tekhnicheskly redaktor [Building your ovn appartmat houses vithout a contractor) Strottelsetvo shilykh damov evoial silent. Moskva, GosAmd-vo lit-ry po strait. i arkhtt., 1957. 90 p. (xm 10:7) 1 (Apartment houses)  KOSORMOV, I.I., prof., zaaluzhennyy stroitell RSFSR;,. BUDAYEV, A.S., inzh. Section of the book "Technology of Building." Transp. stroi. 14 no.10:57-58 0 164. (MMA 18%3)  BUDAYEV, D Two excursions as part of the fifth grade course In geography. Geog.v shkole 20 no.4:58-59 Jl-Ag '57. (MLRA 10"7) 1. Zagustayskaya aradayaya shkola Buryat-Mougollskoy ASSR. (Physical geography-Study and teaching) (School excursions)  _I - -A ~ --n-_ - - __ --- - __ __ - ____ __ __ - ___ f-i y E- V, I_), -I- . AVDUSIN, D.A.; BELOGORTSIV, MINKII, A.Ye.; RYABKOV. G.T.; IMKIR, A.M., IVANOV, I...P.-; IMOLIK, I.D.; ANDREYEV, IIJ.; VALINDVA, I..-red.; FItIPPJRFKOVA,-M., tekhn.red. '. - [Smolensk; a guidebook] Smolensk; spravochnik-putevoditell. [Smolensk] Smolenskoe kalshnoe Izd-vo, 1957. 217 P. (MIRA 11:1) (Smolensk-Description)  VASIL'YBV, V.G., kand. geogr. nauk, otv. red.; POGULYA-YEV, D.I., doktor geol.-miner. nauk.. red.; PERLDII, B.N., kand. geogr. nauk, red.; OFIELIGHENKO, T.M., kand. sellkhoz. na-uk) red. L_BUDAYEV,_ D. I.,,_ kan~~ ist. nauk-,, red. [Atlas of Smolensk Province; dedicated to the 1100th anni- versary of Smolensk) Atlas Smolenskoi oblasti; posviashchaetsia 1100-letilu Smolenska. Moskva, 1964. 31 p. (YI-Rk 18:3) 1. Russia (192,7- U.S.S.R.) Glavnoye upravlenlye geodezii I kartografti.  SAMANDUYEV, A.Ya.; IVANOV, V.I.; BUDAYEV,- Designing and operating automated compressor stations. Hash. i neft. obor. no.102-36 165. (MIRA l8s4) 1. Groznenskiy filial Vsesovuznogo nauchno-issledovatellskolro i proyektno-konstruktarskogo instituta kompleksnoy avtomatizataii neftyanoy i gazovoy promyshlennosti i Giprogrozneft'.  SAHANDUYE-V, A.Ya., inzh.; IVANOV, V.I., ins,.h.; PUDAYEV, E.S., jnrh. Automation of water-pumping BtationB of petroleum refineries. Vod. i san. tekh. no.11:4-6 N 165. (MIRA 18,12)  SIMIYANOT, Nikolay Nikolayevich, AGALINA. Mariya Samoylovna. oty.red.; SAVIN. M.N.. red.; JMOVMOVA. Z.A., tekhn.red, [Xanu#kl on engineering surreys for construction] S~ravoehnlk po inxhanernym Isyskanliew d1le stroitellstva. Kooky&, Ugletekhizdat, 1938. 360 pe' (K3RA 11s9) (Civil engineering)  ill-W W- "A"' 0 W W .0 It, a U U it vas sixg -00 00 -00 004 '~---Nabeft of Saba Xn-ft~ CMdML a 1. Iludaev ILiltixw bria. -00 00 8 IM. (01). 31-32).--iin Humakel. It. (if litiek. -00 09 statIM hrvairr jartm, timing a runwr at Ow 4ir (if the rusting anti -tuv~tt,ti . t4) it I,v a thin %,crtical juvinspo, AM (2) the t-&-ting of " alundidupi Id"Itir 101001 .00 j anti jn~ngan(w- hramm, lwrt& It%- a nx-thimi in uhich the sand intaiki in batawi4 00 oil a mund tsar anti tilled. first oil that the runiwr is in the Itliter Immiti,in during pouring. then ruvetw4. an that during Pwilkliffistlow it is In 11w higly-r ;00 00 -jWilion.-N. A. Age Do see ni L too toig I 11 1 p 1 wee AV At !A M AI a 0 01 a IN5 a 3 ;:a . ;6 ; n It so 9 000 0 0 0 0 O's 0 0 to 00000 111141114111*111110of0 00 am 00 00.0 41-1111 0 * 11110669 00000 0g0 4  )Ail to OW1113114tim If Al III Is Is IS a8 X a is Is It At 11 . . . A. .is 61 age I A " A A 99 00 PR ~- -. - A a - - &- _,. 4 J-pt.1 -7,-,ee PSOCIMS -D plopleval t,#. it I-so UK RUMISM] Jim& am givm- go", , . I m go ago zoo too see Aloe I V.i '00 '00 A S 0 - I L aWALLMCKAL 1.1191tall,401 CLASSIVIC&TIA)" 9 z It eog "a.. sit MA L S a IW 0 is a I W so -j 43a 0 b u Ist A; 111. so 0;; 'eo000 a *00 00 60 0 see **Ole 0 0 o o As 0 AD 0 0 6006 0 1440. * 0 41 0 Wo 0 0 0 0 0 0 go* see 0 * 0 0 0 Ole a 0 a o 0 * 0 0 0 * * 0 0 0  slits is fleflull A A - -I "-I ;i. it " a 1w, otir*, , - , tiew tilts Wlill .-Itc(Sits .. D -06 12 -00 fe ' ; ~e 0 d 31).-1111 tit PlAwl 00 0o COO 00 COO 00 gee Coe 400 tie 0 too , Us. slow- 11 Simons .4 94208.) -At a.. 404 I act.. 61I.Al. 11 u 15 a 0 of I v a 0 43 a 2 1  bAl')l JAPO)VIall 1111 Ull up look it vo are es to is 1) it M I . 0 P Q A I 1 1-1 1A AA 0 CC DO t114 o s,A lit .04, Im. o Os IO(KIIIIS ..b *6 00 00 .-so parole components on the properties ot super- "mat bran LSP. V.,Lilelft~t Pele 1w, .-so No. 11, cryst. %tril" $fudylifthr ;f -00 prtjwr11r% indicxtes desinthility of the following rhang., -00 ~iti rmspn : At 5.3-0.3% inwad 'l( 6 - I ~, Mn 0.8- 0,11'. This should give te"usile strength ,f ,.r1,, A i 00-70 kg,/ mm. instead of pre-tent 55 kif./sq. mm. sind- S .1_"fim 10-10% instead of S%. It. Z. Kztnirls 4 00 j =&O 00 zoo 00 .3 00 of :,Igoe 0 Fee 0 Zoo: zoo 0 Zoo no 0 t!041 air, '--00 =00 too U a AV to it; ; .0 OF if If Ov 01 Otfi Its PIC111 Its! Ito 11 00000 0 to goo 000 000 0000 0 000.0 000000000496000000 S ASS *00006.0000000ee-009000000:00000000000tegoo*eO~  $SSG to tistiquia ~X_ It AS SO 31 A M IF A IS 0 A 4 43 ~ 9 2 V 1 112 M M , & , t , I - __" I JL_A_ I--&- .--ISO A~Djv a Ill stut Ale 0,0100191,11 is"$ NINO 41 AINObAM bOMW (). 1'. HU4wV - W-M 0 9 PrOrtim). IV*). ILL (10), 24; CAm. . M (1). A 4NI).-Iln Rammmimaj In the nmnufivA*m of asimminium-ammantw. ti(IWC dti ~ h f W b b i i h 002 ~m,. m& no Dvo nt.asp O a -& tan t m fwp s an. matc-at of th Is OMW i ilitirm wdA for d t ma t n m s o o e Gr q y florlstaw w Oilewled the holiml awmal hr 1.3 limmove. After I&w,.Ilrh miting 1 06 1 ., nd akim~ of dnwa. thol, mrW io laounli fnwa l1w fuflw v 11,140 a lull ~ ' -4491 C. 11m, nvm4j-,n III %I hkA &w horn addmf aiwanksimm him" W 3141 00 t6lvic", 04 a threvolatim of onamilikirmble brat. 0 farl"fM mwnnwm fe"Mrishtf wills 1111pill I bV 111hrr 00. 00 tj a 491AL&MCAL Lf"041fift CL&Npc&"Np spa. /> tfo. so.Ally logo 63 .111, am. am 40 a.. Is, a I ff a 2 0 0 0 0 a 0 0 0 -00 .00 -00 .00 see moo COO see goo "oe, Soo goo  /160 30 L -111L Iiusim~) The broustir is mmli,sm't of 3 --: I' 0 UlAd, mt C47MI. and hall a tersaile sti, 1,11, 4 21".40 If.. an donration of 60i, mW a Brisisell budnm of 45. 111 puvlwit-i. lbm- -mwir is first &oxidi" with 0,71"0 All %-I 1,,.4t itsi the "tell II)l to UK,' C.. I In I. madM . 114,11 it,- is, it, UNNO-125W V. Alk-ut (1-1 1 -1.1m1 w I- as:.1411 O&IMI, mid Iltrik lr*tl 14 titialh. A,111441 o1fl, .-t"ImA w" Uppille. lise I-lag figs to Imu. fritloml. The 1. J." i 1q.. 114141 -10"At V. for thin %%allp (up to 13 111111.) or 1--tev AtWl- b-Tilah ullik staff thi4lim-wis lip 1.) 40 mill.). - 1,00. 4 1. 1 if,$ 0'~ I-li. AINI mi,t). and IM11 -IAVOI- V. 1-r I-I amol, r 1.  f* .1 ift -Tti* ipe A M AND IND CROM AND PRVPERTPES tkDIX P CfAJj [ '4 " -a _!! - P -041 Bran. ALYjitodoev-U.S.SX. 6S.SS7, FO). 2.9, 1946. A Cu-Zn fmri~ % Is mmle to contain At um~-Tm' Fe -00 M n 1.5-2.5. Cu 64.0-44.0q, atkl the trM Zn. Xf. 11. C s so ' -00 -00 *00 494 =00 go ed coo VOW coo see coo I ZOO 0 too 01 too A S 8 - I L A MITALLVISKU LMMATW CLAUPMATION UO* ROOM too. 00-0. wool 1k S43000 "it Gv ant 631131 Ow a- Its 00 4 3 " --o u S.AT 10 Al 1 1, 10 ~ ;2 1 0 to to a a T In a - , 1 0 ad 0 DAG if TKX 0 " " 4~ftd : r l 000000,00 0 0 0 0 0 0 0 0 1 r ::: : : 0000000 00000 ooo Oooooooo "-000600060ot  BUDAYWx G. P. PA 228795 USSR/Metallurgy Cast Iron, Castings May 52 "Alloy for Correction of Def~cts on Castings by Welding," G. F. Budayev$ Engr "Litey Proizvod" No 5, p 26 Suggests alloy composed of 68-70% Cu, 20-24~, and 7-lo%. mg. States alloy is easily welded with 6ast iron, inexpensive, simple to producej.and Prossesses, good fluidity, considerably exceeding fluidity of Monel metal. 228T95  wim L  ljujjAiT---V~-T. T-.-Tanrl A.- Vols-kiy-)- "ITIESTIGATIONS OF URLIITU?-,, DJOYJDEE AND FLUT01MR-, DIOXIM- CHLCRPIAMN EITH CARBON TETRACHLORIDL". BY I. V. Budayev and k. N. Volskiy. Report presented at 2nd UN Atoms-for-Peace Conference, Geneva, 9-13 Sept. l9rZ9.  OUOAY~v -1-U, tit Ail 02-  R07MAKHOV, I.G.; Prinimali ucliastiye: SEROVA, P.P.; YURKINA, S.I.; BUDAYEV ~ Kh. J1 ~ student; SHCHERBAKOV, S., student Effect of forest on the microcomplexity of soils. Pochvovedenie no.12: 19-26 D 163. (MIRA 17ill)  2 un d iR do Ambdo d M Odb in Asid lb d 00 400 ft I.L-Bu mar, (7krodskays lAbOMMi'll, " 111111. No, 7. pis. #W-7961), (InHum"). u l d " 00 lav or jKlimoa ual-alum Um uuride for UO KAution of "I upon. Ave booth okp which an dWAsk to dkWft is umpleama mW aleo 1l i tt k f h ~,:* 0 00 resu m n a &e o t e a pporalua. 7%m drawbacks mn tK, tm t *go H Avoided lov Usilla oulphrAl Wid to which duorepor has brie malded to IU hydevailmKip " ftwnW rm4wu sith it," offica its ON, slaw to give volefila milloon damMe. whilo tM finedy roe divided aJeium mulphue farmed deposit& in a thin matir4l tin t6 wsjk of the ftaA MW P"ftu :;~ft "GIVAt Att&Ck. EXPE-el- meats showed that this pmodure no Ant on the amurary or the Wwrala. ve s too WOO Is 5 is I U O,AW IS 0 of It **an 0 0o0 0 00 0 O.e 0 000000 00000 000000 0 41 699 i) 0 e 0000 0,4 o so G  BUBLIVA, V.A. -~ 'r Industrial-atruotures in industrial building. Za indus.Riaz. no.2: . .. -32 ' D 161. (KM 16:10) 1. Starshiy inzh. proyektnoy gruppy stroitellnogo tresta No.1-1. R,Yazant. I  C r - - ----- 14R': AR6031250 SOURCE CODk.- UR/0081/66/000/011/D043/D0431 .UTHOR: Ivanov,-G. N.; Budayeva, V. A.; Lopatinski-Y. V. P. ITLE: Ijetermination of the molecular weighl of organic compounds by.electrical masuring circuits DURCE: Ref. zh. Khimiya, PartI, Abs. llD75 ZF SOURCE: Izv. Tomakogopolitekhn. in-ta, 2.0. 136, 1965, 106-109 :C TAGS: molecular weight, organic compound, electric measurement 3STRACT: A simple and convenient diagram has been developed for determining e molecular weights of organic compounds with the use of thermistors as the ermosensitive elements.. The method is characterized by high reproducibility, by ~pid determination (15-20 min), by freedom from constant manual operations, and , high accuracy (1-3% relative error). One of the diagrams developed permits itomation of the process for determining the molecular weight. Authors' summary. 'ranslation of abstract] SUB CODE: 201 Card  BUDAVEY, V.Yu., kand.ekon.nauko starshiy nauchW sotrudnik Utilization indioea of the capital assets in the textile industry. Tekst.prom. 22 no.8:17-21 Ag 162. (MM 15:8) 1. Nauchno-iopledovatel'okly ekonondchookly Inatitut Gooudarstvennogo nauchno-okonomichookogo soveta Smeta Miniotrov SSSR. (Textile inflivatry-Accounting)  KFLDINITS. B.H.; GNIDKO, K.P.; KUDRYAVTBV, V.I., spetorsdaktor- BUDAUVA VAU.Wdaktor; KISINA, Ye.I., takhnicheskiy redaktor I - &Mft.r [Opical instruments and their use in the food Industr7l Opticheakie pribory I ikh Ispollsovante Y pishchavol promyshlennosti. Moskva, Fishchepronisdat. 1956. 6'21 p. (NLRA 10:2) (Optical instruisents)  AARNIKOV., I... inzh.,- BUDAYLI, M. The beat interfam organization in Tatarstan. Sell. stroi. 15 no. 2:15 F 161. 04IRA 14:5) 1. Menzelinskly raymezhkolUozotroy (for Samikov). 2. Korrespondent gazety ".Znamya Leninafl-(for Budayli). (Tatar A.S.S.R..-Cbnstruction industry) (Collective farms-Interfarm cooperaiion)  COUTURE-SPICIMY A.; BUDBERG A Documentation in the enterprise. Akt probl inf dok 7 no.4:39-47 JI-Ag 162.  EPLEME-VA, A.A.; GALAKHARI, N.L.; BUDAZHAIIOVA, N.A. - 161~- -- -~ . Hemagglutination inhibition reaction with serums f people and domestic animals from the Tomsk focus of tick- I borne encephalitis. Trudy Toml%11VS 14:22-23 163. WIRA 17:7) 1. Kafedra miRrobiolcgii Toinskcgo meditsinskogo instituta i Tomskiy naiichno-issledovatellskiy institut vaRtsin i syvorot0k.  BUDBERG., A. - I ~ - - Short survey of atuomatic reference infoz7aation service in several countries, Akt probl inf dok 7 no.5:47-51 S-0 162.  BUDBERGJ,--finRtol-,,,,,. Propagation of technical information in the production enterFrises of the U.S.S.R. Akt probl inf dok 7 no.6-.42-47 N-D '62.  BU`DFF-RG$ -F... T, :_~j Dissertition: "Investigation of the Alloys of a Tertiar-j Syster. of Nickel-Chromium- Wolfrax-ri.11 Cand Chem Sci, Inst of General and"Inorganic Cbemistry, Aced Sci USSR, M'oscow, 10,53. (Referativnyy Zhurnal-Mimiya, Foscow, No 4, Feb 54) SO: SUE, 243, 19 Oct 1954 0   -~3 87) CIMUCAL TINTEPL&CTIONS OF VaTli OTHFR ELEMYNTS. !.I. ial M. 2%, 14? 4 1501 S05Q D&C. (In fMV*Ta-n)- Can~utun~n diagrams of b1nary TI ulloys were rcviewed W efftblisb a Melt-ritific meaod of determining the oplizoum ctmient for tit=Ium alloys. To reveal the true! cbaxw!er cd varlons element interactions wM TI, the ZZLklyala was carried ora by groups of elements according to ftir positlon ,)n ibe Menavleev Iyeriodic sygtem,'In rrIatum to TL OLV,3.)  C( k-Rc USSR Physical Chem*ry TherQ09wics.. Thez-mchemistrys RT%ilibrila, Physical ObAmical Analysis,'Fbase Transitions. B-8 AbB JOUr: RefOrat- 2M=a.1 KhIMIA., No 3Y 1958j, 7155- Author I.I. Mornilov, P-B- hidberg. Inst Title State Graphs of Ternary System Mi - Cr - W. Orig Pub: Zh- neorgan. kbi-ii, 1957: 2, 1wo, 4, 86o-867. Abstract: Alloys of the terraxy aystm Ni - Cr - W rmtainlng up to 50% of Cr and up to 30% of 'w were studied by the tbex-ml wthad and the methods of the roentgenostructa-zal and microstructur-al wa- lyses. A rise of the Or content in the ternary system dacz-vases the temperature of the crystallization start, and alloys =nt-s-in- ing more than 40% of Cr crystallize a-. 13500 as eutectie mixturas. These alloys consist of a mixture of two phases., r+ c7,\ , vheze Oki is a solid solution on Cr base. 'rhe soInbility of Cr in the solid solution of Wi ca&baining 3.0% of W drops with the tempe- Card 1/2 -28-  USWPhYsical Memistry - Merw4ymamics, Thezzodemistry, Equilibria, Pb~mi*31 Chemical Analysis, Phase Transitions. B-8 AbS Jour: Referst. Murnal, I&ijdM No 3, 1958, 7155. atu-"'a drOP . Mm solvbility od C-z in the aolid sol icm cf W-1 Ut CO-Otaiming 30% of W is comside-rably less tbAm in &Uoys of the maection With 10% of W at a3-L tmiperatures. A rise of the V *=tent in a Ii solid solution (at a constant ammm'. of Cr) pro- daceS a &-Nmt--.r inm-ease of its mystaLIj,,A 3Attice p&r&mter them a sinilar rise of the Cr cemtent at & cmst&,It &mcirLmt of Wo The state diagram of the investigated part of the syst4m vEa Card 2/2 -29-  137-58-1-1575 Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 1, p 212 (USSR) AUTHORS: Kornilov, I.I., J~~U~~ TITLE: Phase Diagram of the Ternary Ni-Cr-W System (Diagramma sostoyaniya. troynoy sistemy Ni-Cr-W) PERIODICAL: Tr. In-ta metallurgii AN SSSR, 1957, Nr 1, pp 132-141 ABSTRACT: An investigation of the alloys of the Ni-Cr-W system contain- ing up to 50 percent Cr and up to 30 percent W. Sections with constant W contents of Z. 5, 5, 6, 10, 15, 20, 25 and 30 percent were studied. The alloys were subjected to stepwise heat treat- ment in vacuum, including annealing at 12000C for 24 hours,: sub- sequent hardening or cooling to 10000 and holding for 100 hours, followed by hardening or annealing at 8000 for 100 hours, and then hardening or cooling to room temperature during 24 hours. The investigation was conducted by the methods of micro- and x-ray structural analysis. The heat resistance of alloys was also measured by the centrifugal method; measurements of the resistivity were also made - A phase diagram of the Ni-Cr-W ternary system in the interval of percentage compositions studied was plotted. Fusibility diagrams were plotted for two pseudo- binary sections having constant W content (10 and 30 percent) Card 1/2 and variable Cr contents.  137-58-1-1575 Phase Diagram of the Ternary Ni-Cr-W y 1475-14630 for 1016 W ~Tl~j , qal ization temperature interval varied from and 0%tti'tC';-_1355-l3500 for 1076 W and 4016 Cr. For 30jo W the correspond- ing figures are 1508-1505" for 07o Cr and 1437-14200 for 151o Cr. Polythermic sections of the system at 10 and 3016 W and isothermic sections fo'r 1200c), 10000 and 8000 were plotted. The boundaries of the phase domain were deter- mined by the microstructural method. X-ray investigations of the structures of the alloys resulted in determining the existence of, a'.;'change in the period of the crystal lattice of the solid solution with Ni as base, depending on the Cr and W content. In ternary alloys containing over 4056 Cr and 5. 1016 W, a compound with a O"phase structure was found. L. M. 1. Nicksl--Chromium-Fungsten--.'.Iloys 2. Alloys-Annealing 3. Allpyw-Hardening 4. Alloys-Hea't treatlag mtheds Card 2/2 -  U.D 13 E- R 18(2) Akademiya nauk SSSR. PHASE I BOOK EXPIDITATION Institut metallurgii SOV/1200 Titan i yego splavy; metallurgiya i metallovedeniye (Titanium and Its Alloys; Metallurgy and Physical Metallurgy) Moscow, Izd-vo AN SSSR, 1958. 209 p.' 4,000 copies printed. Resp. Ed.: Ageyev, N.V., Corresponding Member, USSR Academy of Sciences; Ed. of Publishihg House: Rzheznlkov, V.S.; Tech. Ed.: Kiseleva, A.A. PURPOSE: This book is intended for metallurgists, machine designers, and scientific and industrial personnel'working on the develop- ment of titanium as an industrial metal. COVERAGE: The book deals with the following: methods of welding and soldering commercial titanium;"mechanical properties of titanium weldments; crystal growth and structural changes occuring during welding; recrystallization diagrams of titanium and its alloys; a metallographic method of determiningthe degree of contamiiiation of titanium and its alloys by oxygen and nitrogen; plasticity of-t1tanium alloys; industrial methods of rolling titanium and Card 1/6  Titanium and Its Alloys (Cont.) SOV/1200 titanium-alloy sheets and strips;'rorming or,titanium and its alloys; diffusion saturation of titanium; oxidation or titanium and. its alloys at elevated temperatures. No personalities are mentioned. TABLE OF CONTENTS: PART I. PHYSICAL METALLURGY Ageyev,.N.V., and Petrova, L.A. (Institute or Metallurgy, USSR..'.. Academy of,Sciences). Stability of the Beta Phase in Titanium Alloys Containing Molybdenum 3 Ageyev, N.V.,, and Smirhova, Z.M. (Institute of Metallurgy, USSR Academy of Sciences). Stability of the Beta Phase-in Titanium Alloys Containing Manganese 17 Card 2/ 6  Titanium and Its Alloys (Cont.) SOV/1200 Kornilov, I.I., Budberg, P.B., Volkova, N.A., Prokhanov, V.F.J. and Fylayevaj_-W.N..(Inst1tute of Metallurgy, USSR Academy of Sciences). Development of a Met~adlof'Hot Pressing of Titanium and Titanium-Alloy Powders 25 Savitskiy, Ye.M., Tylkina, M.A., and Turanskaya A.N. (Insti- tute of Metallurgy, USSR Academy of Sciences). Recrystal- lization Diagrams of Titanium and'Its Alloys 33 Savitskiy, Ye.M., Tylkina, M.A., and Turanskaya A.N. (Insti- tute of Metallurgy, USSR Academy of Sciences). Mechanical Properties of Titanium of-Various Degrees of Impurity 68 Arzhanyy, P.M. Oxidation of Titanium and Its Alloys at High Temperatures 82 Gorbunov, N.S. (Institute,of Physical Chemistry, USSR Academy of Sciences). Titanium Diffusion Coatings on Iron 87 Card j/0  Titanium and Its Alloys (Cont.) SOV11200 Neugodova, V.N. (Ministry of the Aircraft Industry of the USSR) Metallographic Method of Determining the Degree of'Contamin- ation of Titanium and Its Alloys with Oxygen and Nitrogen 91 Glazunov, S.G. (Ministry of the Aircraft Industry of the USSR) Effect of Heat Treatment on the Structure and Properties of VT2 Alloy 99 Stroyev, A.S., and Novikova, Ye.N. (Ministry of the Aircraft Industry of the USSR). Increasingthe Surface Hardness and Wear Resistance of Titanium Alloys by Means of Thermodiffu- sion.Saturation 10T .Gudtoov,, N.T. (Deceased), and Panchenko I P (Institute of Metallurgy, USSR Academy of Scienees5. *!~,#~stigation of Titanium Alloys Containing Tungsten, Aluminum, Beryllium, and Boron 114 Card 4/6  Titanium and Its Alloys (cont.) SOV11200 PART II. FORMING OF TITANIUM AND TITANIUM-BASE ALL40YS Pavlov, I.M. (Institute of Metallurgy, USSR Academy of Sciences). General Conditions for Forming Titanium and Its Alloys 120h Danillchenko, A.N. (Institute of--Metallurgy, USSR Academy of Sciences). Plasticity of IMP-1 and IMP-2 Alloys 134 Kleymenov, V.Ya., and Sazonova, T.N. (MInIstry of the Alrcraft Industry of the USSR). Plasticity of VT-2 Alloy Under Manufacturing Conditions 145 Kalugin, V,F.,, Popov,.B.N.,and Dmitriyev,, A.A. (Ministry of the Aircraft Industry of the USSR). Development and Mastering of Methods for Rolling Sheets.and-Strips of Titanium and Its Alloys 152 Sokolnikov, K.I., and Moiseyev, V.N. (Ministry of the Aircraft Industry of the USSR). Hot Rolling of Commercial Titanium and Several of Its Alloys 162 Card 5/6  Titanium and Its Alloys (Cont.) SOV/1200 PART III. Weld1r* of Titanium Shorshorov., M.Kh., Amfiteatrova, T.A., and Nazarov, G.V. (Institute of Metallurgy, USSR.Academy of Sciences) Weldability of IMP-1 Titanium 180 Poplavko, M.V., Manuylov, N.N.,, and Gruzdeva,, L.A. (Ministry of the Aircraft Industry of the USSR). Some Problems in the Welding and Soldering of Commercial Titanium 194 Gurevich, S.M. (Institute of Electric Welding, Ukrainian Academy of Sciences). The Effect of Aluminum on the Struc- tureand Properties.of Titanium Welded Joints 205, AVAILABLE: Library of Congress GO/atr 2-21-59 Card 6/6  XORI=V, I.I.; BUDBERG, P.B.*_ VOLKOVA, M.A.; PROKHAIROV, V.F.j hUYEVA, 16-01vo- Developizig a method of hot pressing of titanium and titanium alloy %. . powders, Titan i ego splavy no. 1:25-32 158. (MIRA 14:5) 1, Institut metallurgii AN SSSR. (TitwduD-M9t4LUurgy) (Powder metallurgT)  73-5.3-27/47 AUTHORs TITLE: An Investigation of the Alloys of the Ternary System Nickel- -Aluminum-Tungsten (Iseledovaniye splavov troynoy sistemy nikell-alyuminiy-vollfram) PERIODICAL: Zhurnal Neorganioheskoy Khimi-le.,1958, Vol.3...,Nr 3, pp.694,.698 (USSR) ABSTRACTs The alloys of the ternary system nickel,-aluminum-tangsten with an aluminum-content UP to 30 % and a tungsten content up to 60 % were investigated. The possibility was shown.to determine the ternary system Ni-Al-W by the triangulation system,Ni.-Al,-W and the secti6n ifiAl-W. The seotion NiAl-W was investigated by thermal analyses and-by the mierostructure analysi.s.,.From, .the diagram is evident that the quasibinary sectionoRiAl,-W represant.a.a binary system with an eutectio at 16oo C. In the euteotic point the tungsten-content amounts to 40 %. The solubility of tungsten.in the NiAl-coWpound is at the eutectic temperature higher than 30 %. At 1200 C the solubility of Card 1/2 tungsten in the compound Ni Al does not amount to less than 3  78 -3 3c,27/47 An Investigation of the Alloys,pf the Ternary System Nickel-Aluminum-Tangaten. 7 %. The limits of the phase regions in conneation with tempera- ture.were investigated by the miorostructure determination. Isothermal agations of the system were constructed at 1200, 1000 and 800 C. At 970OC-the compound Ni V forms in the binary system Ni-4. The entrance of the compouni Ni W renders the investigation of the-phase considerably difffoult. The increase of the almainua content in the ternary system Ni-Al.-W on a reduction of temperature leads to the formation of the eom.- pound Ni W. There are 6 figuras, 2 tablesp and 6 references., 3- of whig -are Soviet., ASSOCIATIONs Institut metallurgii im. A. A. Bavkova Akademii nauk SSSH (Metallurgical Institute imeni A. A. BaykovAS USSR) SUBMITTEDs - June 25,, 1957 Card 2/2  T,, j o a P f., ctiegraiii.A of Tprntivy Systelfie T` orlieve t! *Ar!i) !k.-?Ia6y- i%kijdiami i i.n.8h, -, -,)56, Vol Nr PP- 942-944 (USS'?) The cloztni.-al riavi.- elerui~-ntq c-ter:tn' i?-, reaction Ju 'A .9 j fpll '-ft n n pnn rJ. n trr. fA tun'tillp. wi th P or, m0i i, 4n ;1t-.,3 t-'1,3 tyre the of dcuble met,81J.-in sy-ttenle .01, o-,,l n:! dn:t~,t als-, vs~ate Alagrnm '~farnA'ry Qr 't; ck iia -I' the liuf~,nrF o,.' ths foll.-r-ing dingram types of terrs-Iry ey,-.-~exf~ tj~~nSd '.-,n wits cof dcm)1-4 Y-ha.-e 941~Zk: -1. ."1' l.hS- ~'~YEtft! Witn  q r I I rj.~. V with r Of ha,.'wi-n -1.0i itanimyrs (ftigure at' Ole wv.-:Iem W."'. i i on a, as i n i e r 'o! .ti-ti t~nimh wi I h v r Rizi wn voi u E i e?rw il gure 2 Phase -ilup-sult witit !tit outeol.-old tz,4njformatI.-.r, !)f alioya riph in f j t k I -?y1vt 11 - 17 t. lie ha xempermt,131.,- of, t:ra V, CI)IR 9 ri-I an ell t es Lnid i I ph A phnae, dingrsm -,y,: and pi? cli I ypp. of Ol.? tml A frims Ij c J.rt i.j-%itrj-,mn is In m-if jjiterf.47-1-ir," w.. 11; w ~i P, c, he at e'.~ t. J- mr, vempers. tll I -e h rj 1-1-,~, P.,)' Yftjc~--ri~~ ns . ~-av rfurirli !,,j on o' tarlj,~~111 r. idamerl Z. a hi c 11 -,it m-1 r.-1 :~ i, ~(,rmer ril 41. T 0 V.Se 1 ZI wil.; .11'.0 711;~ e-O.O.ViAI&AIS n o1, F~ -', !.6 ~? -~ ;~.,I -k I t. f. -~, ,. - dr.-A r - I i- I Card .2/4 s (I c i! rt 1 .,!! I ~, :- M I y j, o.! i. ; 1.'- 0 ED -.!) '- t, i -, ~ Ar. 'A  Typ-ia IDI: Phase Iliagra.-its of Terriary Systems Based on W tanj ivn 6. This type is produced due to a combination ei the doul~le dingroliti; -A types I and 3, that means one forift-, eontinkiz~iis saliCt salations with cc- and 0-titanium, Whereas the second cnft Tethices the tent-oerature of the Do"V-Imornhous and" 's ~!n "i-oh-u-se. 7. One -urAnt,rient ~knije. Vne seccnd one incrr-LR-ses %n- -P 1.7*f)rIz!A'o:rm%~tJ.~jn, wbereal. zr:re 8. Th~3, is produce-i by a comb.-nation u- 2 sni 3. q. I'vne 9 = type5 2 and 4. IrD. Type irl types 3 and A. Exprimcntal inVeSO.ghtions A~Ilne Of thene YsLems (references 4-6) confirm the tilt ove -me rit i ,^, ried --2.-aqsif4 tation. The,-)= typc~-- .z.T, to EJt,-n,I*V_M 8 CeVtain SIXUI~LUJ'e. Thrire 3.z,v ;jgarss and -0 S of which are Soviet. 5.1A  T-ys-*?q -.)f Ilh-vit, P~?o!wral!vv C-1, Based 1; L Ii K-M (IN ineL.". wt, int. A. Iv. USSR AcadeaW of Sciences Oatolc~?r 11, 1957, bY ,ard 4f4  18(4,7);25(l) PHASE I BOOK EXPLOITATION SOV/2568 Akademiya ziauk SSSR. Institut nauchno-tekhnicheskoy informatsii Metallurgiya i met'allovedeniye; khimiya, metallovedenlye i obrabotka titana (Metallurgy and Metallography; Chemistry, Metallography, and Treatment%of Titanium)-Moscow, Izd,vo AN SSSR, 1959. 383 P- (Series: Itog'i nauki; tekhnicheskiye nauki, 2) Errata slip in- serted. 2v?00 copies printed. Ed.: N. V. Ageyev, Corresponding Member, Academy of Sciences, USSR; E&, of Publishing House: V. S. Rzheznikov; Tech. Ed.: Yu. V. Rylina. PURPOSE: This collection of articles is intended for metallurgists working with-titanium and titanium alloys. COVERAGE: The articles in this collection deal. with the chemistry, metallurgy, and machining of titanium and titanium alloys. The articles are based on abstracts appearing in the Referativnyy zhurrmtlyfor chemistry*and-metallurgyfrom 1953 to 1955. For the most part the articlea are based on non-Soviet material. No person- alities are mentioned. References follow each article. Card 1/6  Metallurgy and Metallography; (Cont.) SOV/2568 TABLE OF CONTENTS: Ageyev, N. V. Crystal Chemistry of Titanium and Titanium Alloys and Compounds 5 This is a review of-studIies in the crystallography of metallic titanium and a number of its compounds. Intermetallic compounds covered are those of titanium with metals of Groups I, III, V, VI, and VII. Data on compounds of titAnium vilth nonmetals and metalloids of Groups III, IV, V, VI, and.VII are also presented. Korn~lov' I. I., andi~~ Constitution Diagrams of Titanium-base Systems 31 Binary and ternary titanium-base systems are studied. It is shown that in binary systems,''the nature of the chemical reaction between titanium and the given element is determined by the position of that element in the periodic table. Formation or non- formation of a solid solution is dependent on the degree of simi- larity between the two elements. Data on the solubility of.va*ri- ous chemical elements in titanium are given In a number of tables Card 2/6  Metallurgy and Metallography; (Cont.) SOV12568 arranged according to chemical groups. A set of 18 constitution diagrams of ternary titanium-alloy systems is included. It is stated that these diagrams represent virtually all known data on these systems published up to 1955- Savitskiy, Ye. M.,and M. A. Tylkina. Properties of Titanium and Titanium Alloys 103 This is a survey of the physical and-mee-hanical properties of titanium and titanium alloys. Data are given on the effect of o.\ , -,,- ,an, nitrogen, hydrogen, and carbon on the mechanical prop- eAies of titanium. Grudtsov, N. T., and L. D. Mashtakova. Heat Treatment of Titanium and Titanium Alloys 163 The authors discuss work hardening, annealing, grain refining, and other heat-treating methods for titanium and titanium alloys. Also discussed are the effect of alloying elements on heat-- treating characteristics, mechanical properties after heat treating, and structural changes.at heat treating. Card 3/6  Me'tallurgy and Metallography; (Cont.) SOV/2568 Arzhanyy, P. M. Thermochemical Treatment 55iffusion Coatinz7 of Titanium 187 This article deals with the nitriding, boronizing, and sili- conizing of titanium. Shelest, A. Ye., A. N. Danillchenkor and I. M. Pavlov. Forming of Titanium and Titanium Alloys 195 The authors discuss the special features of plastic deform- ation, general characteristics of cold and hot working, in- dividual forming operations, preparatory and finishing oper- ations, organization of production, and storage and utilization of waste. Savitskiy, Ye. M., and M. A. Tylkina. Recrystallization of Titanium Alloys 226 Recrystallization of magnesium-reduced and iodide titanium is discussed in reference to its occurrence after cold working, hot forging, annealing, tempering, and hardening. Data are also Card 4/ 6  Metallurgy and Metallography; (Cont.) SOV/2568 given on the.effect"of the annealing temperature on the properties of titanium and the effect of alloying additions on the recrystall- ization temperature. Babareko, A. A. Deformation and Recrystallization Textures of Titanium and Titanium Alloys 247 The artiolvadeals with textures assumed by titanium and titanium alloys after different forming operations. Shor..~jhorov, M. Kh., and G. V. Nazarov. Welding and Soldering of Titanium and Titanium Alloys 252 Welding characteristics of titanium are discussed. Data are given on weldin and soldering methods. 9 Melentlyev, B. N., and A. I. Ponomarev. Methods for /-Chemicaj7 Analysis of Titanium and Titanium Products 285 Data are furnished on qualitative, volumetric, polarographic, and colorimetrie methods of analysis. Phase analysis is also Card 5/6  Metallurgy and Metallography; (Cont.) SOV/2568 discuss ed. Romanov, K. F. Theory and Practice of Machining Titanium Alloys 311 The following topics are discussed: determination of machina- bility; causes of poor machinability;_effect of coolants, lubri- cents, and.other factors.on machinability; materials for ilia- chining titanium alloys; machining recommendations; comparative machinability of Soviet titanium alloys,,_correction factors for cutting speed; electroerosion cutting and.its effect on the medhanical properties of titanium alloys; and industrial practices in machining titanium-alloy compressor disks and blades. AVAIIABLE: Lltrar~y of Congress Card 6/6 1-14-6o GO/ec  IORNIIA)V, Constitutional diagrams of titanium-bass system. Itogi nauki: no.2:31-102 159. - (MIRA 12:9) (Titanium alloys) (Phase rule and equilibrium)  AUTHORSt Budberg, P B Shakhoval Ko Ig AI TITLEs Properties of the Alloys of the Chromium`~'- Tungsten 68234 S/078/60/005/02/028/045 B004/BO06 Ternary System-Nickel'- PERIODICAL: Zhurnal neorganicheskoy khimii, 1960, Vol 5, lir 2, PP 415-420 (USSR) ABSTRAM, The authors investigated the electrical resistivityt hardnessp and heat hardness after various heat treatments, of 32 alloys of the system Ni - Cr - W containing 5, 10, 20, and W and 2, 5, 10, 15, 20i 25, 30,,and 35~ Cr- The alloys were smelted in a high-fxeqnency furnace under alayer of basic slag. Thus, an oxidizing loss of Cr and W was avoided, as is shown by the analyses (Table 1). The test samples were partly an- nealed for 24 hr. at 12000, and partly for 100 hr. at 10000. Then the one series was hardened, and the other annealed an- other 100 hr. at 8000. The specific electric resistivity and its temperature coefficient were measured at 20 and 100o (Table 2, Figs 1-3). The resistivity in hardened alloys hae its peak value at 5% W and 35% Cr. In annealed alloys this peak is Card;1/2 shifted to lower Cr contents. These data confirm the changin 0  68234 Properties of the Alloys of the Ternary System S/078/60/005/022/026/045 Nickel Chromium - Tungsten B004/BO06 solubility of Cr and W in the ternary solid Ni-solutions The hardness of the allo s was determined by means of ar ap- paratus type TP (Table 3~. An increasing Cr-content in the solid Ni solution leads to a continuous increase in hardness. Alloys with varyinG Cr- and Ni-contents are compared in tablo~ 4. An increasing W-content, causes a sharper increase in the har-;- ness of the alloys than an equal increase of the Cr-content. Heat hardness was measured between 100 and 10000 at in-;Uervalz-, of 1000 by means of the VIM-1 apparatus (designer M. G. Lo- ziri.sk--y) (Table 5, Fig 4). At constant W-contents -and -_'xicress- ing Cr-contents hardness decreases with increasing temperature. Table 6 shows the change in heat hardness of an alloy contain- ing 25% Cr and varying W-content. Under these conditions the alloys are more strengthened by W than by Cr. There afe 4 fie- ures, 6 tables, and 1 Soviet reference. ASSOCIATION: Institut metallurgii im. A. A. Baykova Akademi-,:. nauk SSSR (Institute of Metallurgy imeni A. A. Baykov of the AcadeLy c,f Sciences, USSR) SUBITITTED: October 9, 1958 Card 2/2  KOHNIIDV, I.I.; BIWBIM P.B. SOKOIDUp bI.T., tokhn. red. [Phase diagrams oftwo-4td-thriss-6ampocent systems of titanium) Diagra=W soot6ianiia dtoiaykh i troinykh siotem titana. Mookwo, Vaes* iii4 nauabnoi i tekhn. informataii, 1961. 172 pe (MMA 14:6) (Titanium rlloys) (Systww (Chemistry))  28869 S/i8o/Wooo/004/007/020 ELL Ifj,7 i-zo ATTI'HORS; TITLE in v e -!: i -:1b v em PERIODIC-AL.- Ai~ 6k --;1! `6 S R.T -i ()I'd &I en i y e TEXT; fcrins o2 o,', iavi,-,-tigation of tb,% tero;o-ll Ti.--Nb-~!, svzz,:I~rji ji),l had Lhv ol- L- t o -C improving the Of th'~~ of th': Ti-N-L, system in the range of 110 - 90,"V Nb. A)14.)y--z -v-ert" Ln a cooled copper mould, klif;b a E- turi-j-,Oen elec-tvcde, 1.1.ader an argon (TG...00) a tm r.) s ph t--..r Gt~ 9F,. SZO/1~1 piit 2 electrotbermic tita-alum 0.3-51:i Fe; 0.05 Si, 0.05 C, 0.06 Mg, 0.10 O-)s 0.03. till 0.03 N,j 0.03 NI) and 9ci.2-75o' pure niobium (irvuri.tles Ta, 0.09 Ti, C.05 Fe, 0.09 SI., 0.05 C, B < 5 x L 0" 5) wece ti s (-.~d Allays were wine3led in double quartz cexpl~uj.et~ at 1. 1100 C for L holArs at a pre;isure of 10-4 nwi fig. Two parallel batchei? of alloys were then annealed Card 112  28869 s/180/61/000/004/007/02O Investi.vation of .... E1.1-1/E380 at 1 100 0 C for; 50 hours and at, 1 000 r-C for 3.00 hour, Ont batch wa~i watei-quem.hed, the other slowly cooled to ru"'m t emp era t. ux E-,. The all,.~-ys prepared had the follol4lng Ti contents (weight. 1.0, 2.18, 21LA: 21:'~.8. 2(-.9, 3-Z.0. 3-r.0 and 60.0. Microitxuciures, hardni~ss and X.-iay patterns (CCpper electrode, nickel- Filter) were studied. A1.1 the alloy& W':Z~e solid solutionz-, No metall-ic ;compound cE (lic. type TiNL tvati found, the second phase previously veFortFd (Ref. 3 V.P. Yely-titin, DI.I. Der-1-tishteyn zAnd Yu.A. Pavlov - Doka.. Ali. nauk, SSSR, 1955, -v. loft. ric. 4) being, ai shown by spe,:'ial eu.periments with Ti.--Nb alloys contaln ing up to 0.91~1.o C-, a solid solution of titanium ar,-:1 n1obium carbidez. There ars 2 fippi).;-t~, 2 tab'Les and 4 SUBMITTED; W~.vvmter 196-0 Ciird 2/2  29534 S/076/61/006/011/012/013 B101/B147 AUTHORS: Alisova, S. P., Budberg, P. B., Shakhova, K. I. TITLE- Phase diagram of the quaternary system nickel -chromium- tungsten -aluminum at 11000C PERIODICAL: Zhurnal neorganicheskoy khimii, v. 6, no. 11 , 1961, 2607-26og f TEXT: Part of the system Ni - Cr - W - Al (UP to 40 ~o of Cr and 30 ~o of 71 +Al)l and the properties of these alloys %ere studied in the present paper. Three tetrahedral sections of the system were examined. Ratios: W : Al = 3 : I (I); I : 1 (11); and I : 3 (111). The alloys were molten from electrolytic Ni, Cr,W, and A-000 (A-000) aluminum, Al was introduced into the melt as NiAl (29 %-of Al). The alloys were subjected to various kinds of heat treatment. For 50 hr they were kept at 11000C, then the first sample was chilled whereas the others were kept at 10000C for another 100 hr. Then, the second sample %as chilled, samples 3 and I were kept at 8000C for 250 hr. Sample 3 was chilled and sample 4 cooled down to room temperature within 24 hr. Since homogeneity was not attained homogenizing annealing followed at 1300-13500C in a TBJ-2tJ (TVV-2M) Card 1/1 Z'  29 S/078?6~1/006/011/012/013 Phase diagram of the quaternary... B100147 furnace. The diagrams of Fig. 2 were plotted for the three sections on the basis of their microstructures and powder patterns, An X-ray analysis of the quaternary solid nickel solution of section I showed that an increase of the Cr content from 10 to 40 % increased the lattice constants of the solid solution from 3.55 to 3.62 kX; an increase of the total W +Al content from 10 to 40 % at a constant Cr content changed the lattice constant from 3.55 to 3-56 -3-57 kX. The thermal resistivity of the alloys was tested by a method involving centrifuging at 850-9000C and 2 2 10-15 kg/mm . At 90000 and under a load of 10 kg/mm , the alloy with 10 % of Cr, 22,5 ~j of W and 7.5 ~b of Al showed a 4 mm deformation after 160 hr. The alloy containing 10 % of Cr, 15 of W and 5 % of Al underwent 6 mm deformation under the same conditions. The thermal resistivity was tested at 11000C. Considerable softening of all alloys occurred between 700 and 8000C. With increased Al content it was shifted toaard higher temperatures. There are 2 figures, 1 table, and 3 references: 2 Soviet and 1 non-Soviet. The reference to the English-language publication reads as follows4 A, Taylor, R. W. Floyd. J. Inst. Metals, 61, 451 (1952/53). SUBMITTED; March 20, 1961 Card 2/1 z  S/598/62/QOO/007/009/040 D267/D307 AUTHORS: Shakhova, K. I. and Budberg, P. B. "Z~_ TITLE: Investigating alloys of the system titanium-niobium SOURCE: Akademiya nauk SSSR. Institut metallurgii. Titan i yego splavy. no. 7, Moscow, 1962. Metallokhimiya i novyye splavy, 78-.80 TEXT: -This research was carried out for the purpose of obtaining a more exact phase diagram of the system Ti-Nb in the concentration interval between 40 and 90~ nb. The alloys were melted in an are furnace with W electrodes, in an argon atmosphere, with subsequent heat treatment. Regardless of the kind of heat treatment all alloys were homogeneous solid solutions. The curve of the lattice period variation for the 2-solid solutions of the system Ti-Nb has nega- tive deviations from Vegard's law. No intermetallic compound of the TiNb type could be observed. There are 4 figures and 1 table; Card 1/1  a/61g/62/008/000/010/028 104 /1248 AUTHORS: AliSoVa, S*Po, Budberg, P*B*, and Shakhova, Kole TITLE: Investigation of alloys of the quaternary system nickel- chromium-tungsten-aluminium SOURCE: Akademiya nauk SSSR. Institut metallurgii issledovaniya. po zharoprochnym splavame v*8 ,1962- 74-76 TEXT: Isothermal sections (11000C) repriesenting Ni-Cr-W-Al alloys with fixed W:A1 wto ratios (3:1, 1:19 1:3) were prepared on the basis of x-ray, microstructural, and chemical analyses of the quaternary alloys containing up to 50* Cr-and UP to 50* W+Al. The ~1-phase (Ni-based solid solution) is predominant in the alloys with a 3:1 W:Al ration; a three-phase region ( T+ P+ 0(4?) exists in the alloys containing over 4056 W+A10 P being a NiAl-b&sed and*o-1, a W-based solid solution, The alloys with a 1:1 W:A1 ratio are .characterized by a narrower ef region and by three 3-phase regions: 4 9 4- r4 and oG being a Cr-based and 3,'a 14JL A-bats`ed soiid solutione, lloys with a 1:3 W:A1 ratio are 3 Card 1/2  3/65?/ 62/ 008/000/ 010/ 028 1046/1248 Investigation of alloys... characterized by an even narrower ',r -region and by the appearance of homogenous 3,' and ,& regions. The lattice parameter of the -r -phase in the 3:1 W:.Pl alioys increases with the Gr content, from 3,55 kX at 16 Cr to 3,62 kX at 40;0r; variations in the W+Al con- tent have a negligible effect on this parameter. The solubility of V1+Al in the -,f -phase is 35, 15, and 10* in the 3:1, 1:1, and 1:3 W:A1 alloys respectively, Many alloys within the systems studied exhibited fair refractory properties when subjected to centrifugal tests at 850-9000c; alloys with increased Al content retain their hardness at even higher temperatures, There are 4 figures and 1 table, Card 2/2  SHAKHOVA, K. I* (No-okva); BUDBERG P B. (Moskva) Constitutional diigram of the "stem titanium-niabium-ebroxivat. .Tzv. AN SSSR. Otd. tekb. nauk. YAt. i topl no.6:137-141 N-D 162. WRA 16:1) (Titanium-aloblum ebramium alloys-Ketallograpby) (Phase rule and-equilibrium)  ALISOVAJ, S.P.;. BUDBERG, P.B.; SRAJKHOVA, K.I. Investigating alloys in the quaternary system nickel - chromium - tungsten - aluminum. Issl.po zharopr.splav. 8s74-78 162. (MIRA 16:6) (Niekel-chromiurb-tungsten-aluminum alloys-Metallography) (Phasozrule and equilibrium)