SCIENTIFIC ABSTRACT BADARAU, E. - BADAYEVA, T. A,

BADARATJ, B.,-GLURGEA, GH.;GRUIWIBCUj Me, Inclination of the walls of a room, and its influence upon the informity of the sound field. p. 263. COMUNICARILE. Bucurestif Rumania. Vol. 8. no. 3, Mar. 1958- Monthly List of Eai5t European Accession (EEAI).. W. Vol. 8, No. 9, September, 1959 Uncl.  BADAREUP E.; STEFANESCU, D.; POPOVICI, C. Contribution to the study of high-frequency discharges in methane p.5 REVUE DE PHYSIQUE (Academia Republicii Populare Romine) Bucuresti R,)rA gdI4 Vol. 4, no. 1. 1959-- 8 MONTHLY LIST of East Earopean Accessions (KEAI) L C, Vol. 9, no. 2, 1945) UNCL.  2=ie-ln Mercury T&DM. E. Bldlre .namcu-Mifte. -,-Acad. rep. the n2GtiOn Of iDDS JU the s" near the cathode is atmost exclusively cointrolled by o phenoqm~oq.of tj"tj truder. A. S, Stern onm_mm__m_ M-1 M - w1-- R-5m, ------ MINOR  '157 Z) t in niethane: El 1:1i amll. cormpunditig to tile reaction: 2 dH, -4 C,IToo B i i i l giefaiiescu, and[ C. Pollovici~ cad rc 7 57 -The T Frtuch) 4 113FIF O) ncreas 1e ng t ength of the pris. column, which was Y doine b iucrL-asin the distanc bit l t d hil - . O 0 Oll . 7 ' e ween e ec ro Cs w y g e jel:tivv Noms to det. tile mechanism of Lim discharge plic. oral intanurif the I)qtt!ntLtl gradient in tile column coast,,. notnellit alld establish the nature of the pr(mlacts obtain, Wit could Lie raised considerably. For exam- I The di~,charge tube of borosilicate glasi was 620 trial. long plc, -,it a flow rate of 0.015 con./sec. the CIU2 yield ruse and halt a diam, of 58 min. Tile external 6 nim. Al wile from 8.5 to 24.44% of the tlieorctic-il yield (by wt.) when vii:ctr(ldes were in axial spools 70 mill. long and 72 min.' the dktance bctween t Introdes was increa:itcl from aWut ill side dkim., Positioned at Ole extremities oil tile "'sellarge R)O l t d 4 d 8 to 42 cm. When C11, wai, intri.1tievil at otat, t: 11 of tile l diSChar V tubc aud ev cn t d th h th h l ro v. e ec e . at jube. The exillts. ~vcrc perforine a e a uc e ot ug g er, ie anit. voltage, 100 ma. discharge current OL)O kilz frequency, njid ' of rolynwor formed near tile 2nd electrode (in the lirectioll E Till! 0% Velocity was . a gas prmure of 6 tillu, 119 at 0 of low) was 20 tinieri largr than that forined lie that forined lie, tile IsLi ar A product in till: form of brittle ti e, N,ariable parameter. I CleCtr(Ac. When C114 wit-i introduced dirough lie calls t ' plateluts formed on tire wnlls of the discharge tubc ill the of tile tulc and evacnate,l [Film it'i middle, trinal alatj. Of neigbig,rhood of the electrodes. The product was a poly- Ipolymer iverc depoited %car ti ie 2 elvctrode-i. The in- aler of C and 11 (formilla (CII).) which was insol. in >GO creasvil alilt, of polymer foand elo,,c to Ille -)11d t-lectrode. org. solvcnts, indicating n wqs high. Tbe color of tile I-s dile to the polymeriz.6,11 (if ClUl ill that region. . platelets changed from Yellow i tile marginal tegiO.-I Of tile C1113 ii fOllat'll by tile Invelianikin 2 C11 - C,11t. 1.,171113- c01 Clectrodes, clone to tile Pos. milli, to yellow-red at the tion of ('11 radit.-.Ils in tile ill lalge Coacils" ij Ion. t 1,-vJ of the electrodes. All phL CletS had the Same coal -highly probable. Tile absence of C formation is attril'uted .iilil proper, ics, except some Ii it-yellow ones Who!x, Slight gl 'to tile reactiun C, + 2 11 CII12 whicli wu" favole'l 11, 0 ~(~jy ill CG ljNIO, indicated it wer degrve of polymetiza. t 1e lrgV VOIlvil. of If atollis jjlv,.~nt, as evidenved by the tii!ii. Other properties of the main polymer were: thermal intense b~ae-virjlvt Color of tile ditxIlArge. ~Sudjility to 3150,; coulplete iticrtnev.~s to l3r, Cl, O~, 0,,, ' bl id i . Alexander fittra t. e res era IlCl, IlF, IINO,; cons acids such mid as to ILIICC to cooled. 112SOt; and high purity. No C or other 'product was depo4ited on the wall of the discharge tubc, ;1%.halcvcr tile flow rate of the Wis. The depoikion of the' polville0floill Cif was accompanied by the formation of (qlTI_,UId of Iiijuld prOdUCtS, SLICII Its C)TIO11CUIRdiCUIC and indime. The ficluMs were efoily septi. by diAn. or by trappitig at difTvient temps. The yield (if C.11, was very, clisitive it) gas-fl-jw late and pqssed throligh a Sharp lilax., ilis the rate Nvas increa~cd. The yield waq 25% of that.  . BADARAU, 3&,,, acad.; GRUMA.ZBSCU, M. On certain conditions of measuring the absorption coefficients of sound-absorbing materials and structures in a diffuse field. Studii cer.fiz. 10 no.4-:617-625 159. (XSAI 9:5) (Absorption of sound) (11cho )  BAWAU, M., acad.; POPESCU, I. --- Some problems related to the phenomena occurring at the cathode of the luminiocent discharge. Studii cer.f12. 10 no.4:689-732 159. (Mul 9: 5) 1. Inetitutul de fizica al Academiei Republicit Populare Romine, Mucurouti ei Laboratoral do electronica in gaze al Universitatii "C.I.Parhon.' Bucuresti. (Cathodes) (Blectric discharges through gases) (Luminescence)  RMRNIA/Radio Physics - Electronic and Ionic Emission. Abs Jour : Ref Zhur Fizika, No 3) 1960, 6502 AuUor : Badarau, E., Petrescu Paul Inst Title Phenomenon of Exoelectronic Emission. Orig Pub Studii si cercetari fiz., 1959, 10, Vo 1, 187-192 Abstract Survey article. Bibliography, 25 titles- Card 1/1 - 94 -  V Dietr,- 2 '07a at the cathode of the glow disch"90 B. " D "C l h 1 P i U d J, . . ar ion. uc :armmcs lt v. 01Z ( _~4 ~ e a l-rw aforit-ca - C n 3 rine 1 I . 1. - . r0. PbPj PC or P. , F i - NIost txcitn't olls O:Z-n 2 1q5q) dii dg 10 St ( . r . u tere fis. , and Ionizations are produced in tile verative glow, which represents-an equipotentLi.1 plasum, tnaversed and umiu-i tained by electrons, not mimerous but energetic, that anse t ',from the cathode or the cathode dark space. Theno.oliorls, *produced by a prinurtry clc,.tron is not sufficient forthe extn. I of an electron from the'cathode; therefore other factors are operative in the emission of electrons bA the cathoile, e.g. i ~`are dominated by ' the hotoelce effect Tile j . . I p ajk transfer processes, ond as a conwquence, by the !criwitiou I of Vie space clinrge Ili front ol the cathode; in tile neg. glow I " " tile tou movement takes the orut of un isotic-pic carrier. in the dar' k tpace, tile forni of un "aulsotropic carrier, la the dimction of the field-. they -trrivc -it tile cathodc wah i approx. ha1f the energy corresponding to their L-!;t lacaa -free path of transfer. The no. of loni7wiviis in the dar" is negligible, thus in that region the clee. current is! nrried pracdcally only by the pos. ions, which arist by diffu- sion from the -neg. glow. The Large current ampli fication, owing to the effect of the double enthode, in coinp:uison to; !the current of the simple cathode dis6arge is a calust:quencei of the Increase of the ichl velocity at thc cathode, its well as; of their concti. The Mations obtained can be gciteralized' for equal application to the ciwit. interprrtatilia of the k4w~ normal domain ofthe ilca discharget vrherc2l:L~Porlentifq 1~ development of the elec-rortic avulanche m t Ifticoned 71i=,__~ Btn 1 M f 220 i h . 3 re erences. w . t  21(5) RUM/2-60-3-3/36 AUTHOR: BAdArAu, E., Academician TITLE: Thermo-Nuclear Reaction. II. PERIODICAL: Stiin~A gi TehnicA, Seria a II-a, 1960, Nr 3, p 4-5 ABSTRACT: The article deals briefly with the principles of thermo-nuclear reaction and the future development of nuclear energy by fusion. Reference is made to the Soviet Academician Kurchatov (deceased) and to the USSR where exhaustive research is conducted by the use of a very simple device and also of large installations, such as "Ogra". There are 2 figures. Card 1/1  BADALRAU, Ea, acad.; POPOVIGI, Go Spectral aspects in the transformation of methane under the action of a high-frequency discharge. Studii cerc fiz 11 no-3:557-562 160. 1. Institutul do .fizica al Academiei R.P.R. (EEAI 10:2) (Methane) (Spectrum analysis) (Acetylene) (Cyclopentadiene) (Indene) (Electric discharges through gases) (Polymers and polymerization)  - BADARMORugent acads; POPLSCUp Iovitu; IOVA, Iancu Xecbanism of c-aihodic region-'s',-of the abnormal luminiscent discharge in helium. Studii cerc fiz 32 no*3:597-603 960. (EM 10:2) 1. Laboratorul de electronica in gazes Facultatea de matematica, 9i fizica a Universitatii, C.LParhon, Bucuresti. (Helium) (Cathodes) (Luminiseence)  CO, Ir-t o u--- n i a D:-~-rtcz: &Ot Eive , T-17 Affill %tion. Laboratory for Gas Electronics of the C. 1. Parhon University, Bucharest /no ori.-inal lan,--.uago version, given/ Loipzi-, Annaler der Physik, Vol 7, No 7-8, 1961, pp 418-424. Data: "The Contribution of Photons to t'-,a Electron Extraction from a Cathode During Glow Discharge in H, Vapor." u~hors: BADARE-U, E. ~A ,7  SOV/25-59-5-23/56 AUTHOR: Bedereu, E., Academician (Bucharest) TITLE: Acetylene Out of Natural Gas PERIODICAL: Nauka i zhizn', 1959, No. 5, pp 37-38 (USSR) ABSTRACT: The author, Member of the Rumanian AS and author of 100 Scientific Works, describes natural gas, which is so abundant in Rumania. It is a pure methane of 99.9%. A new method of producing acetylene from it has been invented. The method consists of passing gas through an HF electric current. The resulting liquefaction or even solidification of gas 9roduces polymers, of high thermo-resisting quality (up to 400 ). Other valuable synthetic elements have been produced such as synthesis of cyclopentadiene and of indene. There are 2 di- agrams. ASSOCIATION: Institute of Physics, Rum9nian Acadlezy of Sciences, Fu-ibBzrest. Card 1/1  Burop,,_ Country. Humani a Academic Degrees: -Academiolan- AlMlistion: Direetor Institute -o-L Physies of the Rumaniankmademy (Directorui Institutului de Fizloa X-Ke~demiei-M70---' Source: Bucharestt Stilntix si Tehnica., No 81 Aug 1961, 90, Data: "Com=nism Will Beaome Reality..",  S/058/6P-/000/009/014/069 A006/A101 AINHORS: Bkarhu, E., GrumAzescu, M., Matei, L. TITLE: The relationship between.absorption coefficients measured in a pipe.and in a diffusion field PERIODI CAL: Referativnyy zhurnal, Fitika, no. 9, 1962, 41 - 42, abstract 90306 ("Studii 91 cercetiri fiz. Acad. RPRII, 1961, v. 12, no. 3, 681 - 691, Roumanian; summaries -in Russian and French) TEXT: A method is de scribed of calculating the coefficient of acoustic absorption in a diffusion field on the basis of acoustic resistance or the ab- sorption coefficient measured in a pipe. The method is based on the introduc- tion of the reflection coefficient, taking into account the-oblique incidence of the waves. Calculated values of.the acoustic absorption coefficient are given for various materials. When these data are compared with the results of measurements in the diffusion field, a better agreement is noted than in appli- cation of other methods. (Abstracter's notei Complete translation] E. Denisov Card 1/1  BADPF E , . -,~,U ~--- Studies on the new spectral sources. Rev chimie 7 no. 1: 45-49 162. 1. Membre de 1'Academie de la R.P. R., Institut de Physique de l'Academie de la R. P. R., Bucarest.  E7,YT(e)/T/EWT(t)/Er1 - -IJP(c) JDIJGIATI'WH ~ 023766 SOURCE CODE: GE/1 AUTHOR: Badmut Eq PopWci, Co.; jo]2,LI*; Somosan, M~ Acadery of the Rumanian People's Republic.,Buc~arest ORG: Insti&U'of Physics, TITLEt Holl=-cathode effect !Ln cocium vapor 14 SOURMs. Annalen der plVaik, v. 15, no- 5.6, 1965, 313-320 TOPIC TAGSt cosium plauma, discharge tube, apactrographio analyain 'The article deals with processes ta)cing place in a ABEIMM .---I dw-cathode discharge tube with cesixun vapor. The cathode L bore consists of two pAra'-lel plates; the negative charges travel, ,from. the*space between these plates out toward the anode. The ',cathode plates.are made of nickel embedded in Lttart-ziland a cesiual pill inside the tube produces the vapor atmos-phereo Two sets of .measurements were made: 1) electrical (current vs. pressurd and 6irrent vs. distance between the two cathode plates), 2) spectro-: graphic (intensity distribution of the Cs 11 lines 4616.13 and -4867o5 Angstromej also of ihe Ba 1 6019-17 Angstrom line for come pariaon), This distribution of intensityMiG a maximum in the middle of the interoathode space; the mat9iltude of this maximum varies wi+,b pressureq attaining the highest value at about 0.01 = Hg,tor both Os 11nese.A.direat'relation between speotral in- Card  - U jf. VV f -ACC NRt- AP6023766 tensity and discharge current is obtained by eliminating prossura as the indopondent variable for both* As a result, a straight proportion between current ar-ol intensity is found* Bbiff SUB CODE: 20 SM DATEs 09Nov64 CRIG RJG-F: 007 SOV REF: 001 OTH IU;Ft 012 Card 212  I BJUARAU, G.., EIESCU, 1,; :VAGAUANU, N. ~'Vectorlal,'consequencei of a hypertro.phy of the left -auricle", p. 271. "Journal on science i.llsued ',)y the I si Branch, Aumniun Academy; with French and Russian sutwiv,.ries. C~Lartmrly." (STUDII SI CERCET.UI ST11\71-FICE, Vol. 5, no. 111-2, Jan./june 1951'r. Piliala Iasi.) SO: Monthly List of Ei!!t European Accessions, (EIIAL), 14;. Vr,l. 4, No. 5. May 1955, Uncl.  BADARU, G.; ENESCU, I. Energetic-dynamic deficiency, Hegglin's syndrome, in hypertension. p. 1741. Academia Republicii Populare Romine. CONIONICARILE. Bucuresti. Vol. 5, no. 12, Dec. 1955 -90. East European Accessions List Vol. 5, No. 9 September, 1956  MWCU, I...; BADARAU. G.,; VAGARBANU I .lr_%rtr~w Vectorcar,diograms In bnmrtropby of the left ventricle. Bul. stiint sod. 7,ndL.2043-467'Apr-Juns 55- 1. Aembem' -corespondent al Acadmiel RFR (for Itnescu) (VWTCRCA'RDIOMUM-9 in various diseases bypertropbV of left ventricle) (GMIAO IN left Y*entrIc., vectorcardiograp1w)  Country ~-MYWILITVII -._T'd Rly"I'lology. T ~31cod Cii-clilatioti, Vae heart. Abe, J.-ur, -A lkt! f-I- -h jol D, () -^~ ) 3. c,,, 5 '16 71064-16 -~,L mr C-3 Author Badarau-j G.; Bra-cm, A; Yrrms, 1, ' institut. Braneh oT Tit1c, FjAOnoca:L1ejograpjijc Sturiics of A',--itl Sounds in of Complete Atr love at,_,icular D:U;sceiution. Orig Pub, 6tudii si cercetarl, StUxit. Acad. XTR Fil. 'To Iasi. Pd., lc*156 Ab6tract Lil caser, of complete o6-_-ioventricvJ.F_r -10-ion, dichotorq of rtrtzd sounds ir observed. The f1rat couponexat, corrcs-ponOs Ito t"h3 oJ" the weeivuxogrola of tul-u hanrb's apex zind is connected with the Tlow of blood fto~'a the atri- um into'tbe ventricle. 7he second component "--arrespoLds tv the smaU negative protodiast-o- 11j; rwo of ","he mechanoj'~ram and is cohneoted a -' tho dilated vent. aith -the el stic 1,nuotJor., oA. ricle. ','Jhen systoles or t~n atriim ;)ncl ventriv.- Card: 1/2  - -EXC-ERPTA 'YEEH3A See 10 Vol 10/9 Obstetrics SePt 57 1598. BADARAU L., ?,,IIJNTEANU M., LUPA�CU Gh. and BUSUIOC 0. *Valoarea examZdUru-i-cito-hormonal in diagnosticul ~i tratamentul avortului endocrin. The value of cyto-hormonal examination in the diagnosis and treatment of endocrine abortion OBSTET.GINEC.(Bucarest) 1956, 4/3 (187-199) Graphs 4 Illus. 12 In the study of 450 cases of threatening abortions 2 types of smears could be dis- tinguished in relation with oestrogens and progesterone: the acidophilic and the de- ficient type. The acidophilic type is seen especially in the first months. If this acidophilia disappears slowly the prognosis is serious. The production of oestro- gens points to an insufficient production of progesterone by the chorion; however, this deficiency can be more or less reversible. The deficient smear type is one with signs of inflammation, cytolysis and navicular cells. This type of smear is more frequent. Besides these 2 types of smear, also other types occur under in- fluence of extragenital steroids. After administration of ACTH the smear shows cytolysis with free nuclei and the appearance of Dbderlein bacillus in great quan- tity and also navicular cells. After cortisone administration a smear of inflamma- tory type with accumulation of leucocytes occurs. The therapeutic results obtain- ed with oestrogens, are due to the antagonism of the 2 adrenocortical functions: of mineral corticoid and glucosteroid action. The authors applied only oestrogens in cases with deficient smear and progesterone in cases with acidophilic smear. The oestrogens were applied vaginally in doses of 5-20 mg./day and this treat- ment was continued for some months; this way of administration reduced 20-30 times the doses otherwise necessary. The best results were obtained in cases with a deficient smear, where the hormonal treatment is a simple correction of an increased progestative function. Coja - Cluj  DOBROVICI, V., prof.; BADARAU, Ligia Pori-uterine and subperitoneal of local anesthesia in pelvic M Rev. no.3:77-80 JI-S 160. novocain blockade as preliminary time surgery by the abdominal route. Rumanian (PROGAINE anesth6 & analgesia) (ANESTHESIA, CONDUCTION) (GYNECOLOGY anesth. & analg.) (CESAREAN SECTION anesth. & analgesia)  BADARAU., M. Designing "of Parabolic Aerials. ELECTROTEHNICA (Electrical Engineering.) #7;287;JUIY 55  BADARAUO M. The EM-552 Radio Readiver. ELEOTROTEHNICA (Electrical Engineering) #10:460:Oct 55  BADARCH'I, Ch. , Cand Af~r Sci -- (diss) "Selectioll 01, ~ 0 for 'the conditions Of the centrol part of' the Khanga 0,11nual fodder croy),-- Mongolian Pleople's Republic." Moscow, 1960. 13 pp; yskaya Zone of the - e (All-Union Ici nti- fic Research Inst of Fodder ix. V. R. Williams); 150 copies; price not given; (KL, 22-60, 141)  BADARIYANX G.G.; TYUTIR~ V.A.; CHEREVUSHKIT], S.D.; ZUZIK, D.T.; i KHODASEVICH, BIG.; FRAYER, S.V.; tUSAROV, Ye.l.; KAZANSKIY, A.M.; KASSIROV: L.N.; KARAYEV, S.A.; AHRAMOV) V.A.; VASILIYEV, N.V.; BUGAYEV, N.F.; SAPILINIKOV, N.G.; KASTORIN, A.A.; RUDNIKOV, V.N.; YAKOVLEV, V.A.; PEREMYKINI V.I.; ISAYEV., A.P.; KUZIMICHEV, N.N.; IL1111, S.A.; PRONIN, V.A.; LUKIYANOV, A.D.; SHAKHOV, Ya.K.; IL'ICIIEV, A.K.., kand. sell- khoz. nauk; KOGAN, A.Ya.; TSYNKOV, M.Yu.; BAB1Y, L.T.; GORBU11OV, I.I.; KOVALEV, A.M.; ROMANCRENKO, G.R.; BRODSKAYA, M.L., red.; IVANOVA, A.N., red.; GUREVICH, M.M.9 tekbn. red.; TRUKHINA, O.N. , telchn. red. [Economics of agriculture]Ekonomika sotsialisticheskogo sell- skogo khoziaistva; kurs lektsii. Moskva, Sellkhozizdat, 1962. 710 p. (MA 15:10) (Agriculture-Economic aspects)  BADASHEV, Ye.M., iuzh. AFT pumps with submergible electric motors. Mont.1 spets.rab.v stroi. 22 no.4:19-21 Ap 160. (MIU 13--8) 1. Trest Soyusebakhtoomsheniye. (Pumping machinery)  AUTHOR: Badayev, A.M. 30V/113-59-12-17/20 TITLE: Is Highly Efficient Method of Machining Hypoid Gear Teeth by the Semi-Generating Method (Vysokoproizvoditellneya obrabot- ka zublyev gipoidnykh peredach poluobkatnym metodom). i~ERIODICAL: Lvtomobillnoya promyshlennost', 1959, Nr 2, PP 36-40 (USSR) ABSTRACT: The author explains the theory of machining of hypoid bear teeth, starting with the basic formula of Ye. Villdgaber, and describes the production process of hypoid-gear drives for the "Volga" automobiles on (Gleason Nr 11) machines in the Gorlkiy Automobile Plant. There are 2 photos, 2 tables, and 8 diagrams. ASSOCIATION: Gorlkovskiy avtozavod (Gorlkiy Automooile Plant) Card 1/1  22(l) SOV/47-59-2-18/31 AUTHOR: Badayev, B~ TITLE: ---U-sp-ful Advice (Poleznyye sovety) Determining the Optical Strength of a Lens by Means of Sun Rays (Opredeleniye opticheskoy sily linzy s nomoshchlyu luchey Solntsa) PERIODICAL: Fizika v shkole, 1959., Nr 29 P 70 (USSR) ABSTRACT: In laboratory work the optical strength of lenses can be successfully determined by using parallel sun rays. One of the students holds the lens so as to produce the image of the sun on the screen (piece of cardboard) while another one measures several times the distance between the lens and the screen. The students then change their roles. The average value of the data obtained is taken to be the focal length of the lens. A pencil of parallel sun rays reflected Card 1/2 from the mirror can be used for a projector or camera.  SOV/47-59-2-18/31 Useful Advice. Determining the Optical Strength of a Lens by Ileans of Sun Rays. The condenser in this case is not required in the camera. ASSOCIATION: 5-ya srednyaya shkola, Yanshkala,Ashkhabadskoy oblasti (Secondary School Nr 5, Yanshkala, Ashkhabad Oblast ) Card 2/2  .. _a. Iv- I I I Poisonous war gas and the principles of defense against it. Leningrad, Khimteoret, 19~8. 257 p. (r,0-52255 Izd .3.,(perer. i dop. UG447.B25 1938  BPDAY&Vp N. So that people saYs, "Thank You-"' Zhil.-kom. khoze 13 noe5: 25 My 163. (MMA 1619) 1. Direktor gogtinitsy "Devon", go Oktyabr'skiY- (Oktyabriskiy (Bashkiria)-Hotels, Taverns, ets.-Mam9ement)  RADAYEV, N.P. ~: - ~ New methods for servicing gas equipment of the city of Kiev. Gaz. Prom-no-1:18-19-Ja 1,57. ~(MIRA 10:1) (Kiev--Gas)  BADAYEV. N.P. Institute on introduction of new equipment in the gas industry. Gas. prom. 6 no.904-37 161. (KIRA 14:12) (Ukraine--Gas distribution--Technological innovations)  f7- BADAYEV. S.G. Alternate operation of telephone and subscriber telegraph equipment on one telephone circuit. Vest. svia2i 17 no.12:12 D 157. (MIRA 10r12) 1. Glavnvy inahener Voronezhakogo tsentralinogo telegr&fa. (Telephone cables)  BADAYEV, S.G. What gives birth to complaints. Vest. sviazi 22 no.4:18 Ap 162. (NIRA 15.44) 1. Nachallnik W ~ 'Pronezhskogo telegrafa. (Teleeommunication-Employees)  BILETSKIYP S.M.; BADAYEV, S.N. ...........I Double deformation of outsize cylirArical structures. Avtom. svar. 16 no.11;78-81 N 163, (MIRA 17;1) 1. Institut elektrosvarki imeni Ye.O. Patona AN UkrSSR (for Biletskiy). 2. Stavropollskiy zavod "Volgotsemtyazhmash" (for Badayev).  Fffert or -;yc*l.i(-. heat treatjrerz~ on l,rif! trlevc:rslbll~ of a 74AD'21, R]Joy S~Jee~', MFjlej,;, ~Ijf SE,.'2R~ ,!GI rC, CQ a,) v65. Sullmit-t9d Jidy 29, ](?6r,.  ACC NR: ATGO36421 SOURCE CODE: LTR/2536/GG/000/OGG/0'~2.-,/0127 AUTHOR: Bochvar, 0 S. (Doctor of technical sciences); Pokhodayev, K. S. (Candidate of technical sciences); Badayev, V. G. (Engineer) ORG: none TYI-LE: Cross section of the constitution diagram of the Al-Cu.-Cd-Mn system Nvith fixed Mn content at 5000C SOIJR('P- Moscow.- Aviatsionnyy tekhnologicheskiy institut. Trudy, no. 66, 1966. Struktura i sv0Ystva aviatsionny1ch staley i splavov (Structure and properties of aircraft steels and alloys), 123-127 TOPIC TAGS: alloy phase diagram, quaternary alloy, aluminum base alloy, containing alloy, cadmium containing alloy, manganese containing alloy copper ABSTRACT: The isothermal model of the four-component constitution diagram of the Al-Cu-Cd-'LMn system (Fig. 1) represents a tetrahedron whose apices correspond to 100% content of the system's components and edges and sides represent isothermal sections of the corresponding two- and thrde-component systems. Alloys containing the same amount of Mn 1/6 IJDC.- 669.017!669.711318G2'74  ACC NR& AT6036421 CU cd Fig. 1. Isothermal model of the con- stitutuion diagram of the Al-Cu- -Cd-Mn system on correspond to the geometrical locus of points located within the tetrahedron and equidistant from the Al-Cu-Cd side. Such a geometrical locus is represented by a plane parallel to this side (In Fig. 1 this plane is indicated by the hatched area). The article deals with the phase competition and structure of alloys of the aluminum comer of the Al-Cu-Cd-1Mn system at 500*C and given a fixed content of Mn (0. 7%). Alloys containing up to 8. 0% Cu and up to 0. 5% Cd were investigated, on being prepared by adding Al-Cu and Al-Mn alloys and pure Cd to molten Al and casting this mixture into massive copper chill molds at 720*C, homogenizing 2/6  > () t 405%Cd % 4 7 % t1j CD CL Of r) Fig. 2. Electric conductivity of alloys as a function of Cu content (all alloys contain 0. 717o Mn)  ACC NR. AT6036421 G w-MIR, j - 7 -T + AMR, + L . r . (X+MI7,qlf +-r a+T st 17 cx-T+Lca, lE 2 a cx-T-0 c+AIA CNIRXIeT- 4co, cY-+T+&+L,, V indings on cc R/ 0,2 qj p X electric con'duc-tivity S 6' % Fig. 3. Sectional diagram of the isothermal model of the constitution diagram of the Al-Cu-Cd-Mn systern' it'500*C and in the presence of a fixed Mn content (0. 7%)  A6CWRI AT6036421- Fig. 4. lsothormal.'A61 of the Al comer of the Al-Cu-Cd-Mn ^nn.qtitution diagram at 5000C Card C, r 40 7,0 0 '0 40 / ------------ aor a +7'+Lcd i0 d +hMAIj + 7 # L 4 4 -~Ill~ A cc +,Wr,,?Ii +Lca, Q! #Afl2,74s *4Cl IL V-/ 6"I 42 4-7 44 4s 4s : % &(  ACC NR-. and hot-worldng the ingots and quenching them from 5000C in water, and subjecting specimen sections to metallographic and microstructural examination as well as to measurements of t%-md-r P-Inctric conductivity. It was found that the solubility limit of Cd in Al in the presence of 0. 79o' Mn is 0. 1-0. 2% when the Cu content is up to 6. 0%, and 0. 05-0. 1% when the Cu content' is 8. 07b. These findings are in good agreement %%dfli tho findings on electric conductivity as a function of Cu content (Fig. 2), and the position of the phase regions in the sectional diagram of the isothermal model.of the constitution diagram (Fig. 3) is in complete accord with Gibbs' law. On the basis of these findings and literature data the isothermal model of the aluminum corner of the constitution diagram of Al-Cu-Cd-IvIn was plotted (Fig. 4): the spatial position of phase regions in this model also completely obeys Gibbs' law and is in agreement with* lit'erat-ure data, and the sectional diagram plotted above (Fig. 2) is in satisfactory accord with thelisothermal model of the system. Orig. art. has: 5 figures. SUB CODE: SUBM DATE; none/ ORIG REP. 002/ OTH REF: 003 Card  I ACC NR1 AUTHOR: SOURCE CODE: UR/2536/66/000/OGG/C)128/01-5 AT6036422 Boclivar, 0. S. (Doctor of technical sciences); Bada ev V. _(En,,:,,1nccr) ORG: none TITLE: Change inthehardness of alloys of the Al-Cu-Cd-'1%1n-Li system as afunctionof 0 composition and agincr rerrinie 0 C, 0 SOURCE: ~Yosccv.,. Aviatsionnyy tel4dinologich&sldy institut. Trudy, no. 66, 1966. Struktura, i svoystva aviatsiorm*ykh staley i splavov (Structure and properties of aircraft steels and i alloys), 128-135 I/&)/ )C- JjL1_0(- TOPIC TAGS: imetal aging, aluminum base alloy, manganese containing I alloy,lithium containing alloy ABSTRACT: Alloys of the Al-Cu-Cd-Mn-Li system have recently begun to come into wider use as the inclusion of Cd and Li in addition to the conventional components (Cu and Mn) in- creases the strength characteristics of these alloys and improves the stability of their proper- Lies at elevated temperatures. The addition of Cd, in particular, while ineffective with re- spect to the strength and elongation of alloys in annealed and freshly quenched state, markedly 1/2 UDC: 669.017:669.711318621741  ACC NR: AI'6036422 2 enhances the effect of artificial aging (by more than 8-10 kg/mm ). In this connection, 'the hard- ness of these alloys was investigated as a function of their 6ompogition and of the duration of 1; artificial arring at 165*C. Alloys with the following chemical composition were investigated. 0. 5 and 1. 0% Mn, 0. 1, 0. 2 and 0. 3% Cd; 4. 0, 5. 0 and 6. 09'o Cu, with Al as the remainder. In ad- dition, two lithium-containing alloys (chemical composition: 0. 5% Mn, 0. 1% Cd, 5. 07o Cu, 1. 5 and 2. 511 o Li, with i1l as the remainder) were investigated. The heat treatment of the al loys consisted in quenching in water from 535'C and artificial aging at 165*C for 4, 12, 16 and 20 hr. Hardness was measured once every 4 hr with the aid of a TS11 machine under a load of 250 kgg. Findings: the optimal hardening (Brinell hardness HB 75 kg/mn12 ) is accomplished by 16-hr aging at 16 5 *C of the alloy containing 4% Cu, 0. 2% Cd, 0. 5% IMn, with Al as the remainder. Increasin- the Cu content above 4%, the Cd content above 0. 2% and the Mn con- a g/mm2 Lent above 0. 5% reduces the post-aging hardening to 22 k Tests of the Li-con (r alloys showed that the alloy containing 1. 5% Li is more prone to softening (HB 34 kg/mm2 after 20 hr of aging) than the alloy contatiing 2.57o Li (H 53kg/inm 2 after 20 hr of acring), 0 B a 0 which is in agreement with Silcock's conclusion (Silcock, J. M. J. of the Institute of Metals, 1959-1960, vol. 88(8), April) that a high Li content restricts the softening of alloys aged at 165*C. Ori(r. art. has: 6 figureg, 2 tables. SUB CODE: 11 SUBIM DATE: none/ ORIG REF:, 00l/ OTH REF: 004 Card.  L 42914-60- EWT(m)/'T/EWP(t)11'ET1 !iP, c: If ACC NRs AP6028588 SOURCE CODE: AUT12OR: Pokhodavev- K. S.: Badavev- V. r. UR/0129/66/000/008/0035/0037 ORG: none TITLE: Effect of thermal cycles on the dimensional stability of D16 Ialloy specimens SOURCE: Metallovedeniye i termicheskaya obrabotka metallQv, no. 8, 1966, 35-37 -t-Y TOPIC TAGS: aluminuAlloy, alumi-n'41 -imengionAl n~~_ cFi-_~ heat treat- ment/D16 alloy ABSTRACT: D16T, D16T1, and D16TN alloy sheet specimens 100 x 35 x 31 mm, cut ad~oong and across the direction of rolling,were subjected to cyclic thermal treatmentID(CTT), hepting to 150C in 60 sec followed by water quenching to room temperature and holding for 30 sec. Simultaneously, identical series of specimens were subjected to an equi- valent treatment, aging at 150C with holding for a time equal to the total time of a:. certain number of cycles. The CTT of D16 alloy increased the length of longitudinal'i, and transverse specimens. The equivalent treatment increased the length of longitudi- nal and decreased the length of transverse specimens. In D16T1 and D16TN, both types of treatment elongated the longitudinal specimens anti shortened the transverse speci7 mens. The effect was less pronounced than that in D16 alloy. Thus, CTr produces a change in the specimen dimensions, but Lhe magnitude and sign of the change depend Card 1/2 UDC: 669.  L 429-~4-66- ACC NR-. AP6028588 upon the initial state of the alloy and is different in naturally aged alloys and in artificially aged alloys. '[ND] SUB CODE: 13, 1l/ SUBM DATE; none/ ATD PRESS: 5069 Card 2/2 MLP  L 40330-66 S~7T (m)/:z'.1P (t)/ETI/SviP IJP(c) JD/H I ACC NR, AP6=14 SOURCE CODEt AUTHORS: Bochvar, 0. So (Moscow); Pokhodayev, K. So (Moscow); Badayevp V. 0. (Mo4cow)- ORG: none TITLE; Effects of cyclic heat loads on irreversible geometric changes of alloy VAD23 sheet metal S6URC& AN SSSR. Izvestiya. Metally, no. 6, 1965, 92-96 TOPIC TAGSt metal property., electric conductivity, specific volume, metal heat treatment, metal aging, sheet metal / VAD23 sheet metal ABSTRACT: The changes in geometry, electric conductivity, and specific volume as a function of thermal cycling of 91oy VAD23 sheet metal were investigated and compared with "equivalent" steady4tate heat-treated specimens and with specimens which had been ore testing. The spocimens(100 x 35 x 3.3 mm) were heated from 20 to 150C in 60 seconds, cooled in water to 20G, and kept at 20C for 30 seconds before recycling. "Equivalent" heat treatment consisted of keeping the specimens at 150C for the same period of time which they spent at 140-150C during the cyclic loading. It was found that the longitudinal and lateral deforma- tions increased with the number of cycles, reaching a maximum of 78 and 36 /" UDGs 669.715  L 40330-66 ACC NR: A,?6ol4ll4 respectively (8 and 9.5% elongation) after 2000 cycles and remaining constant thereafter. "Equivalent" heat treatment showed identical behavior but reached steady state after an "equivalent" 3000 cycles, The specific volume increased by a maximuu of 0,248A' after 2000 cycles and after an "equivalent" 10D0 cycles. The electric conductivity continued increasing with number of cycles but increased faster for the 11eqaivalentO treatment (a table is presente4 It was found that artificial aging at 1650 for 12 hours resulted in specimens which were unaffected by cyclic or "equivaIGntO beat treatm , Orig, art, hass 3 figures and 1 tables I 4t SUB CODE% 111 13/ SUPH DAT93 29Jul65/ ORIG HUI 009/ OTH Ras 001 ,r;/ 6 P  L 01154-66 Ze.1T(m)/EPF(c.)/D,'P(J)/T i RIM ACCESSION NR: AP5022006 44,s AUTHOR: Mardykin, V. P.; Badayev, V0 X. TITLX: A method for producing ethylene. UR/0286/65/00 0/914/0-07 7/100-77 678.742.2.002.2- Class 39, No. 172990 SOURCE: Byulleten' izobreteniy i tovarmykh znakov, no. 14, 1965, 77 TOPIC TAGS: polyethylene, R21ymerization catalysts, organoaluminum-compound. catalytic polymerization ABSTRACT: This Author's Certificatelintrodures: 1. A method for producing poly ethylene by polymerizing ethylene in a hydrotmrbon solvent with heating in the presence of a catalyst. The catalystyused is the product of interaction of tita- nium tetrachloride with ether~ai-tesofjorganoaluminum compounds. Catalyst consurp- tion is reduced by using a diphenyl etherate of triethylaluminum and/or a diphenyl etherate of diethylaluminum bromide. 2. A modification of this method in which the diphenyl etherate of triphenylaluminum and/or the diphenyl etherate of diethyl., aluminum bromide are used in the form of naphtha solutiona. ASSOCIATION: none SUBMIT7MDs 06Dec62 ENC16: 00 SUB CODE: MT -NO RE SOVI OTHER: 000 bT  ~ACGESSION NR.* A?4030358 S/0190/64/006/003/0444/0447 AUTHORSs 14ardy*kin, V. P*; Badayevp V. K. TXTLE: Polymerization of ethylene over the catalytic gyatem titanium totrachlo- ride-organoaluminum etherates SOURCE: 3) 1964., 4h4-447 y*ye soyodineniya) vo 6, no* TOPIC TAGS: ethylene, polymerization) ethylene polymerization, catalyst, titanium tetrachloride) organoaluminum etherato., ethyl phenyl other, phenotole, poly- ethylene., triethylaluminum The polymerization of ethylene was conducted at atmospheric pressure in]. a 350-ml glass raactor provided with a reflux condenser,, a bubbling device, and a stirrer. The evacuated reactor was filled with ethylene. To it were added 200 M1 ri-hoptane and 0.2 gm TiC14j followed by various quantities of triethylaluminum etherates I or II in octane. A temperature of 500 was kept throughout the poly- merization process. Compounds I and II were both otherates of phenotole (convo- sition Al(02~5)2Br'Cd5W2".. and A1(02H5)3.C6 H5OG2H5 The polyethylene obtained Card 1/2  'ACCESSION NR: AP4030358 was 80-90% crystalline, even though earlier authors claimed that only amorphous -polymers could be produced from mono-olefins on alkylaluminum, ethers. On the basis of a study of the yield and because of physical and mechanical properties of the polyethylene, the authors conclude that the activity of the organoaluminum otherato catalytic system is equal to that of systems vhich do not contain phone- -Itoleo 0 Thanks ar' given to No H. Chirkov for his advice. Orig. art. hast 1 ;table. ASSOCIATION: Belorasskiy gosudarstvemM universitet im. V, I, Lenihaj, ',(Byelorussian State University); Nauclino-issledovatellskiy institute A polimerizatsionny*kh plastmass (Scientific Research Institute of Plastic Poly- morization. Materials) SUBMTED: OWW63 DATE AGQ8 Maw" ENCLa 00 SUB GODEs CH NO REF SOVs OTHER! ODS 00~ Card 2/2  L 16508-66 &qTW/FWP(j)/T RM ACC NR: AP6001491 soncE com uR/o1q1/65/ooo/b12/boo6/ooo8 AUTHORS: Badayev, V.-K.; Mardykinp V, Pj ArkhipDvas Z, V, Offit none TITLE: Lo2, f !~thylen~j with 9 cats. modified by ethers ymerization o _n;anomatalliq SOURCE: Plasticheskiye inassys no. 12t 1965v 6-8 TOPIC TAGS: polyethylene plastic., polymerization catalyst, aluminum compound., organoaluminum compounds Intermolecular complex, ether ABSTRAM Polymerization of ethylene in the presence of allqrl aluminum-other complexes as catalysts and according to the method discussed by the authors in an earlier work (Vysokomolek,, soyed., 6s 444s 1964) is described. Organometallic component of the catalyst, X(C H ) A.I,,O,/Rl (where X = halogen) was obtained by 2 5 2 R" the action of ethyl bromides dissolved in hydrocarbons upon the mixture of crushed aluminum-nagnesium (75t25) alloy with others. Ethylcyclohexyl and ethylphemyl ether complexes with triothylaluminum and othylphanyl other complex with Card 1/2 UDCs 678.547.313.2:66.095.2  L 16508-66 ACC NR: AP6001493. diethylaluninum bromide (I) were synthesized and used in catalytic systems in coujunction with TiCl . Po3,vethylenelobtained in the presence of I and TiCl 4 1 4 possessed satisfactory mechanical propertiest high density (0.95-0.97 g/cc)j molecular weight, and toughness, Orig, art, has:, 3 tables and 2 structures. SUBCOM U7j, 2.1/ SUBM DAM none/ ORIG REF: 004/ OTH REF: 008 Card 2/2 Z5 Al  L Z 19YU-00 tvfFtj ACC NR, 4666-96-74 M)/ I (A) HAI SOURCE CODE: UR/0413/bb/000/004/0069/0069 INVENTOR: Savitskiy, A. v.; Skachilova, S. Ya.; N Ratushenko, G. V.; Ark hipova, Z. V.; Falev, V. .; Badayev, V. K. 4f / ORG: none B TITLE: Preparation of polyolefinsl Class 39, No. 178982. 1 [announced by State Scientific-Research Inst-i-t-u-t-e-oT'15olymerization Plastics, Experimental Plant (Gosudarstvennyy nauchno-issiedovatellskiy institut polimerizatsionnvkh Diastmaaa, eksperimentallnyy zaved); Central Scientific-Research Laberatory of Reagents (Tsentral'naya nauchno-issledovatellskaya laborator-ry-a -reaktivov)j SOURCE: Izobreteniya, pronwshlennyye obraztsy, tovarnyye znaki, no. 4, 1966, 69 70PIC TAGS: olefin, polymerization I polymer ABSTRACT: An Author Certificate has been issued describing a method of obtaining polyolefins by polymerizationlof Alpha-olefins in a medium of an inert hydrocarbon solvent with heating in tge-presence of a catalyst consisting of a mixture of dialkylaluminum chloride and a heavy metal compound. To speed lip the process of polymerization and expand the variety of heavy metal compounds, chelate derivqtives of orthovanadic acid are suggested under the general formula VO(OR)(OX)2, where R is the hydrogen or alkyl and X ig the remainder of*the chelating agent. Mj~ ~the~rof vanadium orthohydroxyguindatells the chelate derivative of orthovanadic acid ou st 9ILD ralm C( L3Aug6h 1-ard 11DCs- 678.742  BADEYEV, Yu.S.; Prinimala uchastiye Lopaten', V.V., studentka, Some characteristics of the movement of solids in heavy suspensions. Obog. rud 5- no.6:14-)g 6o. (MIRA 14:8) 1. Leningradskiy gornyy institut (for Lopaten'). (suspensions (Chenistry)--Density  BAD,'YE'VA,Anna Antonovna Gulyrt,vevp A.P.) Gnxlovp r. F.J# and Badayeva, A.A., "The cold Working of Tools of llighSpeed Steel," Stanki i Instmment 1949, No 4, p. 16-18, (Conclusion begining No M SO: U-3436f 21 May 53 (Letopis, 'Zhurnallnykh St~~tev, Nlo 18~ 1949) SO: U-3369 24 Apr 1953  BADAEVA, A ~ . . In ; GULYAEV, A. P.; GRUDOV, P. P. "Subzero Treatment of High-Speed-Steel Tools," Stanki i Instrument 20 (1949) No 3, Pp 3/6; No 4, pp 16/18. B-774o6, 21 Jul 54  KALININA, K.A.; SMCLINIKOV, Ye.A.; SUMOV, A.P.; WAYZVA, A.A.; LUMA, Z.Se; KUKOLRY, Me; SOKOLOVSKAYA, V.V.; ib=VA* Te.A.; UVAROVA, A.F., takhn.red. [Technological operations in the manufacture of metal-cutting tools; instructions] Tektinologiia isgotovlaniia metalloresim- shchikh instrumentov; rakovoaiashchie materialy. Mnskva, Goa. nauchno-tekhn.izd-vo mashinostroit.lit-ry. No-7. [Heat treatment] Termichaskaia obrabotka. 1960. 127 P. (xim 13:6) 1. Vsesoyuznyy nauchno-issledovateliskiy instrumBntallnyy insti- tut. Z. Termicheskaya laboratoriya Vaesoyuznogo nauchno-isale- dovatellskogo instrumentallnogo institnta (for all, except Uvarova). (Ketal-cutting tools) (Metals--Heat treatment)  B8369 S/129/61/000/001/011/013 E193/E183 AUTHORS: Nadeyinskaya, Ye.P., Doctor of Technical Sciences, Engineer Professor; and Badaye "._, j TITLE: The Effect of the Mode of Heat Treatment on Hardness and Wear of High Speed Cutting Steel PERIODICAL: Metallovedeniye i termicheskaya obrabotka metallov, 1961, No. 1, pp. 57-61 TEXT: Using the radioactive tracer technique, the authors studied the wear of cutting tools, made of steels P 9 (R9) and P 18 (R 18) as a function of the hardening temperature, tempering temperature, hardness, the properties of the metal machinedg and the machining conditions. The following conclusions were reached; 1) Optimum wear-resistance in steels studied is obtained after quenching from 1290 OC (steel R 18), or 1260 OC (steel R9) and tempering at 540-560 OC. 2) The higher the cutting speed, the narrower is the optimum quenching and temperature range. 3) The wear-resistance of a tool cannot be assessed by its hardness alone. The rate of wear of steel R 9 9 tempered at 100 OC to HRC = 64 and tested at a cutting speed of Card 1/2  88369 S/129/61/000/001/011/013 E193/E183 The Effect of the Mode of Heat Treatment on Hardness and Wear of High Speed Cutting Steel 50 m/sec, was approximately 100% higher than that of the same steel tempered at 560 OC to the same hardness. 4) The optimum hardness of the tool varies between 61 and 65 HRCI depending on the type of the machining operationg cutting speed employedq and properties of the metal machined. There are 6 figures. Card 2/2  S/137/6-2/000/00Z/094/1-A- A06()/AlOl Al! 19 V- P Badayeva, A, A. Determining the decarbonization in steel X 6B6-(.;Ch6VF) from th- temperature of martensitic transformation FF310&--CAL. RefLerativnyy zhurnal, Metallurglya, no. 2, 1962, 71, abstract 21477 (V sb. "Metodika i praktika metallogr. issled. instrum. stali~'. Moscow, Mashgi?~, 1961, 56-59) TEXT. Experiments are described and methods are proposed for determining a heat-creatment schedule which will result in a most clearly expressed struc- ture of the dec-arbonized layer in steel (1% C, 6% Cr, 1.3% W, and 0.6% V). Polished sections were prepared after the heat-treatment and were examined at a magnific-ation of 100 and 200 times. It is indicated that the decarbonized lave- is most pronounced when the steel is heated up to temperatures at which the Zolid solution approaches the limiting saturation with alloying elements. The following schedule for treating specimens of steel Kh6VF to find the carbonized layer is recommended: heating up in a barium chloride salt vat up to 1,100 0C, ih,~ time of holding the specimen in the vat is computed on the basis of the norm -ard 112  3/137/62/000/002/0,91V, 41, Determ.1ning the decarbonization ... A060/AlOl of 16 - 20 sec./mm of specimen thickness. The vat should be reduced with borA.x. ~.ooi#,g of the specimen from 1, 100'D C is carried out In an oil vat down to koo - 110 C for 10 min. Then the specimen is transferred to a saltpeter vat WiTh temperatare 530 - 5400C, where it Is soaked for 10 min and then cooled 1r. air. The comparison of the data obtained with the results of X-ray stracture analys~',_s as to the carbon content in the martensite has shown a good agreemen! Z. Pridman 'Abs4rarteT.fs notle: Complete translation] '- - L 7ard 2/2  ACC NR:, AP6035884 SOURCE CODE: UR/0413/66/000/020/0124/0124 ,INVENTOR: Badayeva, A. A.; Pervaya, A. S.; Tutov, I. Ye.; Katanel'sont V. Yu.; 'Kuztmintsev",'-V!--'#',t'tb'f6~'k6v, M. M.;-Kulinichp V. P. !ORG: none I - ITLE: High speed steel. Class 40, ...No. 187314 [announced by the Central STcientific Research Institute of Technology and Machine Building (Tsentral'nyy ~ ~auchnu-iasledovatellskiy institut tekhnologii i mashinostroyeniya); '~All-Union Scientific Research Tool Institute (Vsesoyuznyy nauchno-issledovatel'skiy !instumental!nyy institut)) 8OURCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 20, 1966, 124 i ,TOPIC TAGS: high speed steel, chromium tungsten molybdenum steel, vanadium containing teel, titanium containing steel RSTRACT: This Author Certificate introduces a high-speed steel containing silicon, manganese, chromium, tungsten, molybdenum, vanacium and titanium. To improve the 'strength, ductility, notch toughness, and oxidation and heat resistance and to 'reduce carbide heterogeneity, the steel composition is set as follows: 0.75-0.85%- 1 Farbon, 0.17-0.35% silicon, 0.20-0.40% manganese, 3.5--4.5% chromium, 2.5-3.0% tungsten, 2.5-3.0% molybdenumq 1s9-2.2% vanadium, 0.03-0.08Z titanium. 3UB CODE: l1/ SUBM DATE: O5Jun65/ -Card 1/1--__ - ___ . ------------UDC:-669.14.-018-.252.3  ACC NRi AP7005640 SOURCE CODE: UR/0413/67/000/002/0091/0092 'ENTOR: Badayeva, A. A.; Yaunzen, L. I. Vone TLE: Tool steel. Class 40, No.,"190587 (announced by the All-Union Scientific search Institute of Cutting Tools (Vsesoyuznyy nauchno-isaledovatellskiy instru- ntallnyy institut)) Izobreteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 2, 1967, 91-92 OPIC TAGS: tool steel, chromium steel, tungsten steel, molybdenum steel, vanadium teel BSTRACT: This Author's Certificate introduces a grade of tool steel which contains hromium, tungsten, molybdenum and vanadium. The mechanical properties of the material re improved by using the following composition (in %): carbon-0.45-0-55, manganese- ess than 0-45, silicon-less than 0.35, sulfur-less than 0.03, phosphorus--less than .03, nickel-less than 0.4, chromium--5.5-7.0, tungsten--l.1-1.5, molybdenum--0.6- .9 and vanadium--0.5-0.7- CODE: ll/ SUM DATE: 18Feb65 Card 1/1 uDc: 669.14.018.25:669-15126127128%292-194  S/137/6,2/000/003/140/191 A05P_/A101 AUTHORS: Malinkina, Ye. I., B2~~~_ TITLE; The method of chemical and electrolytic etching PERIODICAL: Referativnyy zhurnal, Metallurgiya, no. 3, 1962, 66, abstract 31429 ("Metodika i praktika metallogr: issled. instrum. stali.", Moscow Mashgiz, 1961, 20-35) TEXT: To detect martensite and-.-residual-austenite in hardened untempered steel, 3 reagenirwere selected after having been tested on P 9 (R9) and P 18 (R18) high-speed steel. It has been found out that martensite is detected most completely by the reagent of the following composition: 5ml hydrochloric acid, 1 g picric acid, 95 ml ethyl alcohol. The regions containing residual austenite are determined by the magneto-metallographic method. To detect the grain boundaries in hardened R18 steel a number of reagents have been tried. Three reagents have been selected; as the'most successful.has been proved a 10% hydrochloric acid solution used for electrolytic etching. To separate carbiden observed under microscope, the authors have choi3en the inethod of chemical etching of carbides with -the differently coloring reagents. It has been Card 1/2  S/I37/62/ooo/bo3/14o/iqi The method of chemical and electrolytic etching A052/A1Ol established that the only,reagent coloring carbon steel carbides Is Na picrate (Fe 3C is colored dark brown) . On the other hand the effect of the alcohol solution of nitric acid or of the electrolytic etching In 1%b chromic acid consists in detecting just-the boundaries of carbides. The detection of trigonal carbides C`7C3 by etching in adopted reagents was carried out on X 12 M(Kh12M) steel samples. (Fe, Cr)7C3 carbides are colored brJght orange when e 'tched in the reagent with potii,ssium ferricyanide and bright yellow when etched with potassium perrianganate. The etchability of Fe 3V13C carbides was -tested on R18 steel; -these carbides are colored dark brown when etched with Na picrate, the reagent with potassium ferricyanide or potassium perinanganatc. The effect of the reagents on VC carbides was investigated on P 9~5 (RgP,5) steel.. These carbides are colored black only at electroly-tic etching in chromic acid.. There are 9 references. G. Tolmacheva [Abstracter's note; Complete translation] Card 2/2  ~- SMOLINIKOV. Ye.A., kand.tekhn.nauk; BADMT~A A.S., inzh. Nonmetallic inclusions in high-speed steel. Metalloved. i term. obr. met. no.6:48-50 Je 162. (MIRA 15:7) 1. Vsesoyuznyy nauchno-isoledcyvatellskiy instrumentallnyy institute (Tool steel-Inclusions)  RADAYEVAI A. V. "Geometric Isometry of Complex Compounds and the Spectrum of Absorption of Their Solutions in the Ultraviolet Zone,," Izv. Sekt. plat. i blag. met., No.25, 1950.  KULICHUTSKlYp K.I., doktor med. nauk; LURITE-POKROVSKAYA, T.A., k-and. med. nauk; BADAYKVA.-I;..N. Neural apparatus of the heart in endocarditis in man and under experimental conditions. Vrach. delo no.10:32--76 0 163. (MIRA 17:2) 1. Kiyevskiy meditsinskiy- institut.  BAG:-Z'L-'AII'T5:EAFA, 1. 111. , EMAYEVA, M. 1,11'. and ICAYC:C,11(JYII:3EVA, *,,'. It. "The Protection of Hydraulic Gas Containers frcci Corrosion," p. 189. in book Study and Use of Petroleum Pro3ucts, Moscow, GostepteMAzdat, 1957. 210 -pp. '!'his collection of articles gives the results of the sci. res. work of the AU Sci. Res. Inst. for the Processing of Petroleum and Gas for the Production of Synthetic Liquid Fuel.  15 1) /ti ~ 1~- (/ ti,~ A4, ~. BAGRYANTSEVA, F.P.; BADAYEVA, M.K.; KAYGORODTSEVA, R.A. Corrosion protection of water gasholders. Trudy VNII NP no.6:189-198 '57. (MIRA 10:10) (Gasholders) (Corrosion and anticorrosives)  fl, /-j /,, ,L _1 y /__ / / i A j t, ,?~~ , U_ ,~ -11 7V BAGRTANTSEVA, P.P.; BADAYEVA, M.K. Iffect of volatility and viscosity of mineral oils on the industrial properties of cold-resistant greases. Trudy VNII NP no.6:206-218 '57. (KIRA 10:10) (Mineral oils) (Lubrication and lubricants)  BADATEVA, 0.1:. Cand Tcch Sci-ildirs) "`uudy o4 iic filgas heat resistanciA5 I]WIl 111: 01 ji 'lic short--..-nve -ppoik of' 'he 'timeter Of 11.11-VOS.11 os, 19158- 11 -pp (St----te Co,,-Imi'tce of the C4cil of Einisters USSR on K.-idioalExtronics. Stuate A71-11e4 Sci Res Inst) , 1210 co-iies  BA,DAYEVA, F. K. BADAYEVA, P. K. "Flax Diseases in Siberia, "Bolezni Rastenii Vestnik Oldels Fitopstalogii Glavuof-o Botanichoskogo Sada SSSR, 1930, PP- 192-199. L64.8Z6 SO: SIRA, Sl 90-53, 15 Dec. 1953  p!00000000000 0 A o F. A_ a I L, it %I It u is 11 to " s' 121 3:1-23, 14 Is h ZY x - I.. L.-II-1 1 0 1 1 .1 (X .W U 6k K ~ 111 R Lill 3413 X&I 21"AL - I " S t L a k A k It 11 a A4 a - 8 4 - , - . . 11 V !-AP 1W, U.0fes rictlits, A 1 r. F-\) VA- Lai 1~1' ADIA _ _ __ _ - , - - ~ ~ , 1 'r % A Liti l h M &0 _~ . . l um. u m d Allm *I Abusiolan wit _ h_V4 :rjF1' lIPW- kd k SAAR Y IM 00 go % 1 , t . iliw - and F. 1. Shamrav (kivat. A . l no. fttCd (he age-hard'.11ing TVAti V iI It l S h i It i l . . Stil A e l ioll al . 111j).- -i n .) K p go C 1 00 S ! lovs runtailling the following ration of tine to lithium : 104 z 1. 37-5 : 1. al A-3. 8m&1) &"6AW of lithiull) (.Jill h-ad it) A considerable increase in the ap-hardriling of aluminium-tine allays. Urratetit at"Olute hardt"." (144-150 11riliell) wait attained by artificially Agi,itif the alloys : Line 26-75, lithium zinc 20-46. litliftim s nine" due I ill h ti i f -00 0 t a ncreases uto (orraler licrorli go fine OV. lith upping are, however. pro dured by small filtilijul siddittenj In 1016'ef-tille 4110%-B to 9W zinc), while the greatest Ilerrentage Increases set obtained Ill l, U `i h 0 h lithium : zinc ratios. Thus, as the relative amount of lithium increases 4 = a. displaced in the the maximum effects of rultursil and artificial Wing are 00 i , direction of deerr"ing Of Line + lithium fri n 12','~ tine for 11~0 :t r Zoo 1 thium in the case of natural ageing. or --1 lianary alloys down to 3. trom 1800 tine dov n to 40, tine+ lithium in The rem- of artificial Wmg. go* I lie greatest percentar Increase, In hardrivaill (about 15(0,') %as obtained Ill- 2-rAl 1-50 Brinell hard- 4t l1 i lithi ifi th i i ll i e t ne c a ow um wrt ng a oys: L . y age ng ( Aer Wi4l - 73-11): sane, 1-32, Nthiunt 1,6m pa-3); ill, 1-76, lithium 2-24 82' 1) 9 tine (1-72, lithium 2-28 (83-9). With inctr"ing: lithiuln ; ine X i h t t e quenching tempers,turr f- the stjelys loop front MW to 5*) C. U'M & it erat m f JFV 7V t u rom o H. V. P p _~ %. 13 ii #.0.0 A UIt kv .0 &1% I 11 O I V 1 ;ZA An I S V OW a q a I V ~j X" 0 1 0 9 0 0 0,0 11 IDT [% Ktttt H IF OK KA R C 0 0 a 0 0 a a 0 0 0 0 4 a 0 0 W A 0 41 0 0 9 0 * 0 0 0 0 0 0 0 0 0 0 0 A 0 0 0 0 0 Ole 4 0 0 0 a 0 0 0 0 0 6 0 0 0 0 0 0 a 0 0 0 a a 0 0 0 0 * 0 0 a 0 0 a 0 0 0 *1  It h I L 1, 1, U 1, I h 14 ON 1r It, t, I J 1A of Stl2a of At witit Ma and Ca In the Gold of me ON T A Ilawl4evis and F 1 Shau tal ..00 00 . . . . l jl ki H d i U X S CL O H 1 S -09 00 I J . c 943,394-4s.- - v . Sai . st . m, . . . .. Tht sitntIltamus ody. of Ms and Ca in solid At don no; 00 exceed 0.7%. Addn. of Ca to the Al-116ft alloy permitq A Ii t I i 1-00 s it ncrease n hardt" an vitamiling, up to a ralij fl ?411~ca ~ 13.1 ~ 1. lkyonIl this, a4dn. of Ca realucirs the I-go go S'. quality of the alloy. The atnt.olisging which (toes occur 6 not of Practical value. M. IA*"tef oo _00 0o ZI go =00 00 *0 coo 00 ;*0 0o ago xoo 06 boo ~!oo 00- k -Wt 4C &I K. t 11 Lt I too " 2 , I , To r. is w C, 4i a a rt it tv t,,13 It q " t q a 1 400000*01110 6 0 0000 : : 0 0, 0 0 0 0 Iooooooooooo 0 &1  0 to goo 090 0 0 0 11 u U M IS A It a N 41 41) o a p **,A ALI CL W It T'J'A', V`9LIDUA of Agm of Alunininin wili,ii~i 7 (Zhur. (MmArA. Khopi., 11413.13. Nlit, 1 ' /0 613 44MI, V. 416 4S, a. Itt ItumLan.1 Ity therinal xualv%i. and o0 ink-ro-examination the liquidus surfove. of Ow system iluminium-zinel lithium nee 06 %iwtx=tructvd. Pb&ws inequilibrium with the a-stilid atw1ullonofaluminium ~ t roo t t 4id l i f zoo a m ra urr arr: P-w Po rmp ut on o ziur. 14mtes (of variable i,otn- go lKwiti(m) r And 8 forltA by a Irti(VA-tio t%,Aethm. Alul t-w4l .411tioll of 16 ' A 0 041 -mcou Alli. Itv witil s-row, nod -tudy sif ilki- nwishing no,nuiru,sow, th fi it ( h 4i l ti d j e a-w e s o t ll t u on %err rierinituNi at variouA irmix-ratunvi. 00 00 t:O 0 6 - I L A atiaLLURMAIL LITCRAUAl CLASSORKATION ! AO , too), ~ , 0 . V'It ~ H OF 0 4 a t4 0 1 w IM ji a III I I a "A,3 0 00 0 0 0 0 : : : : : : : : : 0 0 0 : :iD : ol 0 0 0 0 0 0 0 0 Vs 0 0 0 0 0 0 0  A 1-1 is 0' is-I"Aw 00 11 is ts V 11 4' ~ 7- "-a a a 36 15 16 0 0 010 -1 [it ILI It, A-M 0 u -1-1 11- A-A 4 k I k9 1 A A I a;2- OTM imia~ P,ro"-N ft-, 'd Allanift-M-600--lik'u-m-Mays. X-_A. I tmA~va, and F. I.Mamrav(Amr-prikial. Kkimii, 1943. W(5,4). w Tfnlru-miian). Cf, Md.-Abx.. 1944. IL 14'.. Alloys containing 200-=',, zino + hWujn 01"21[Y, being litbillro) have a i-IsHe atrrngth of 41- -00 43 kg./mm.1 juid all dongatiorl of 7-8% after qurnrhing and artific6l agri"R. 'fle, of alh)ya rontainJng zinc 1149, fithlum Line A-0. hibiurn 0-41, and 1-41% xino 1- lithium (0-M-2-244". bibium), cam-da that of tho bluarr alumirdurn.- tine alloys &M1 of Duralumin. 11w goo alloy Vdth zine 5-6, fithium, 0,4% 1A not ulwIltablo to ptnwqx~mwlon &fl,-r =00 c roe Ilue"t-hins and a 0-hardening. 7U maaw Ld true of the a1h)y with tille 11,?49, thium 0-11" a r Lmirwating.-N. A. 01TALLUCO KAk LIU* AIM CLA 11 WK&T Ws a AV All i- 'I, --i-rT I ""ItION14 oil III f u It It (I 0 0 0 0 0 *is 0 0 6 0 0 6 0 0 0 6 OF, goo* *Ole *****goo a so *so , , * go 0 NO* !.-We F-2 ;47- -4G 2 I 0 0 0 0 0 0 6 0 90 a 6 0 0fk go 4000000 0 s  -e it 0 11 u 11 to It Is If lit ! i I li A -I I It U it W a At 41 is A, It Q it a a r0 ILA 00 CX 9p St A I d -I I I A L-1 i.410 0 -40 00 .-so 00 A SMOOKWIttgottIlOYSO(Al with Milaud CA. 1.A. -00 11441aeva slid F. 1. shiallifal. fisill. d"Id. 0, 8. V R.'s 'N.. 00 Ci4SSf Ati. k(h. 1944, W-8.--Alloys wrtr soadc limn Fmi !: '-00 io pare Al (cofitg. Si U.IP70, Cu and Vc trsfcv~;, vv,vb% pule his (cunts. bit U.043c, 1 -*9 ,,). mt( CA cdlllK- M 00 "dFcU7paj,dStU.W%- litsmudCawrtrolcholtu. -00 get* to varit)" pruitixtiuns, and addrd in snoltvii Al iii 0 00 442 Were caki in Ile moldf, 411d then cittlutted III tollrd, "In the orglon of solid milit. tht alloys rtiul,l be rxtrodril -00 V4UHy At tCnlp%. near that of the mAmius and they could 1w tulW at high and at runin trmp%. Al-Mg-Ca aMiyb in =00 tm of "It.. later tellilicling. 11.0 tril.,ile 4111111, the ge Ucast 5 of C./iq. nstil. cloillAti.111, tj i5 -41 400 00 In the region of the mAid mAu. the alloy. were highly te =* 0 0 4111, sistant to currutioln in bca water and utadcr s~train. They hinder The diffil" of Cu from dutraluiniii, it um:ol a, a zoo 0 0 Protective layer. Al-,US-Ca alloyr. contlit. big UA., and =so 00 CA 0.055; we of 8 qWW value when uxl as Protective IAYCtb. W. R. licull z0 0 is 0 age too ic- I too "o -iqi~ Iu 9 it c[ K a tt H oooooooo*q*o**ooo*o4o 14069609,9900 00000 : : 00.0 00000 of 0 0 00 0 0 0 0 000000:00000000000000o  III it if if N Is "I trip Nip tin Dun of 43 re " , -i--LJL, 1, 1 Orm"Itw ABOYS Ol JUSIMM was Sanitimisust, UW LKWUN. J.-A.. Shattirs), (?Ajer. )rijkj. Xbm.. 1964.17.Zlit 241. Brit, a I]. 314).-fitt Ituosian.] Aluminiunt-toxiciu-6on lithium - 1 1 l i l 0 ft- uti,-11 ri m, uminiuln - 1- -itig tvaill.taitkins 1%-ing'aithin the a Alloys ha% it * =mt;r" cl(w to the ik,fidua and rolini in the trin- ('411 be ph-mNA ppraturr range C. Ile mechanical properties of aluminium-mag. .00 ; 9 i"Win lithium alloys (magnmiun, + lithium 3,131'inagnesium : lithium up 1 t'. 69-15 : 1) am only ;tiv lk-ttertitan thow of 1hpivirrmliondingaluminium- 7 d i f 2 h l W -49-2-t0 an ow c ono o s ongat bAve asp. gr. of majin"iumalkivs. 'n , i ft l i N 39 l 09 - w iss vn er ng. ig.1sil. mm. a Zs-31% wilb, atensile strirnglo of 00 r"imt4ncr to ..ter corrosion det-rvases with inert-Axing lithitint vinitent up magwitium: lithium ratio - 2-91. and then inefr&&-& bryond that of lo a \ 04 . ~ununium-magtwvtium &Uq% a: it drenwes under stv-mi;. .0 0 go i A 00 : 00 O :; f zoo URCICA LIMAILME CL&IIAPICATIOP 1%.-tL1 247ALL L - 161A - Q.c T -11- Ow 0 a v IF 61 n A, U o 0 0 0 .0 0 00 0 00 0 0 000 00 9 0 0 04 0 0 0 60 00 0 1 0 0 0 0 0 0 0 OA  is 0 0 00 0 so 00 go 00000 I 1 9 If It U U W I Is 11 to P 4 A-1 4-1-f 1-4-1 a. t ;D-Clsst OCV1 00 -01 Is OOA Is Is st v 10 Is . o . . . . lolkl~ 01 . -1. It 1, 11 AL' I V 1-0 00 0%9 Usebsow it, am ot suawastras -Seemdus -ZiYA AUm in Ow loom d IM Ahinfthm4ft ftM lakelift. T. A. lkmiwva and V. 1. so V Sbammy Ilmd. AW. Ngsk 8.8.8.4., IW [TeIW.), (4r. 11-6181-11s; Of I L, Rowian]. it is es"blishrd " the g-tost dr-Oh is 1---d by stlJoy, -so 00 4:1 lying on peetimw in tio nVitw% ol increasing n4stivo m&Vwdkium content .00 Itwren the section AI-XpZtt. and that cor"Itonding to the- ratio Mg. Zo - thof ths, all(lysis dw not OnIv l stren - i th t b h o l m e nert ows a S 1:1. This s g to the MgZn, phaw but &lot to the terrtary phase Al,MxZil,. which elista iin d : : ei al juttafts max, regmsts; corfroponding to Mg: Zn ratim of 1: 3 to I : J. an 4 9 strength to them. Aluminium-magroasium-sine altop have a high resistance ' it bI W S ~ t Im. u a to corrosion by we water. but am susceptible to stress-cofT( zoo 04 chuits, of romiwwtkm &&I brat-treatment can minimiu- this defidency how. ago of crer.-N. A. zoo j is a 00 Is! Fee Voo see 00 600 see woo t:o 0 boo S 0 L A SITALLURCKAL 1.11110011011 CLASSURKATOW woo woe INJOB4 .10 M, Oki .31 .1109 is, Eat "WD* - -11 1 T 34!0 U it 4M , I is 6 1 Iff IN 5 a a 3 0 9 IS' W ft 0 a it .1 A I INA 0 0 is 0 0 0 0 0 9 * 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 4 0 0 0 44 00 0 V : :I* see 0 00 0 0 0 0 a 0 0 * 9 0 012 0 0 0 0 0 0 0 0 0 a 0 0 a 0 0 0  *is -A Ir- CHI I L,N_z-"g 11-1 V IL-1 I I AA KJX-X. C-1- )-,A 17 - -P, kk 011 A.0 01NOPE4VIII .of. ONTPE TER*ARY SOLID SOLUTIOVIS OF COPPER AND BERYLLIUM IN ALUMINIUM. .00 008 T A._PADAETAW_R. YA. SALIDAU (I M.~7T, SEKT. FIZIKO*KHIM. ANAL., 1946, 16 00 261-27i) -(In Russian) ~~ko liquidus surface cd' the altuninium-righ .00 e0 region of the system aluminium-copper-beryllium was constrigtod from data .00 0 0'r obts. Ined by thermal analysis, and a outeatic point was found to kie at 5661 00 ard aluminium 70.6, copper 29,0 and beryllium 0.5 wt.% Solid- solubility =00 curves for copp r and beryllium in aluminium were determined by examitling 00 O*j tne microstruotures of quenched specimens, and it was found teat the solubill =*0 00, of beryllium is 0.35% at 530"Co In the presence of 4.4% copper and 0.01% a t room temp. In the presenoe of Oo 24% copper. From the results of thennal. a** 00 and miurestruotural analyses It was 9staulishad t1ast there are three phases cog WT-Ij ' inequilibrium with the aluminium-baso solid solution, via; b (Cu A12), *0 wit (CUB43), ande (beryllium-base solid solution) Ihe natural a going offesy Is greater in alloys containing 0.2-0.3% beryllium and 2.3-2*7% copper than 00 in binaryaluminium-capper alloys, and max. hardness to attained with 2,5034% copper + beryllium instead of 5% copper. 'he corrosion-resisunce to 3% 0 oop" S.40IJ .441 any a., 1111110a1 &)&&I1 ca a-, %4 it l -,W- I V Cw 0 if a I If 6 a a I I V KAI U if to R 49 It If 0 0 0 0 0 SO 0 0 Is 0 4a 0a 1 0 goo 0 0io 000 0 66 so 06 40  0 * 0 0 0 0 40 0 0 0 0 a 0 0 - -- - 0 : : e 0-4-0 & e 0 0 0 0 p S # 9 & 9 9 0 9 0 * 0 S S 0 0 0 q 0 .090000 90 bgryllium mind 3.7,49 copper than for the binary aluminium-coopper alloys; 00 of this in particularly tho case after quenohing and natural *going. -*A 00 00 so so 00 09 00 I** of 06 00 00 O'D 00 90 00 fe 00 00, 00 ,not. a"A IAOr~MzI1c Chemistry im N 19 00 . - Aced. Sci. USSR 00 90 ee 00 of 00 00 ee 90  MDAYEVA, T. A. "Lattice Constants of Zn-AI Alloys," Vest. Ak. Nmuk SSSR. 4* 11:~47- 1 1 1  11 Ij;l qjj $Its A L. JL L- J_ A it r Q A I I If s I, $ d- I i- A-T. bA 00.4 0 A 00 r 00 a Sirselurv of AI-Zft AMY, 00 a 4.IM T igral Anal.gleki In OthfT All"T -00 and Alfur so 11 A IN1MV Atill 1, AjIlIddLu j 00 Irl 7,;S1?.,. _*I, Ijjjv tilal. it 7115 70) go r In 1111SAIRI) I (11'I'mw tit., I- A* Itivillml ol till 1111'.1til"t Inte I lite liskit Ilk" 443 C Will 111411t thernivil elTects. sire due it '0 0 -recV, milld ous chanKe front a go a *ordered" btructure 11 wtution to an life oortrentration is chajijcd~ It I- 00 ke ago IwIleved that stinflar transitiOl" IIaits Ir, tltllpr jilloy Apslenm stlc Mao 0 Au-MI), faid TWO Iff r"I 00 0 wo 00 00 00 7q i too 1* 0 _~~,40100 1-0 IIIJ*Al~t CtallifKA110" too too U 11 A10 to is, -w-W T O_b 0 a " 0 0 it VP 64 " a mot Otalt it Ill Kw n 9 Im 0 x 0 1 long If 0000 0 S. 0 0 * 0 o 00000;0000 0 00000000 400000 * 0 * 0 0 Co 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 01i 0 * 0 0 0 o a 0 0 0 111,  USSR/CherAistry Aluminium., Solid Solutions of, Fab 49 With Magnesium and tilicon Chemistry Alum-'hum, So With lid Solations, Zinc "The Presence of Molecular Formations in Ternary, Primary Solid Solutions of Aluminum," T. A.,Badayera, 4 pp *Dok Ak Nauk SSS.R" Vol IXIV, No 4 Attempts to determine whether compounds exist whIc12 form as separate molecules during a definite stoichiometric composition of the components in subject solutions. Uses Isothermals of electrical 27/49T14 USSR/Chemistry - Aluminum, Solid Solutions of, Feb 49 With Magnesium and Silicon (Contd) resistance for various solutions of aluminum with magnesium and silicon or zinc. Theorizes that the chemical 'nature of ternary solid aluminum solutions depends upon 'the character of interaction of two, other components, and upon the chemical individuality of the intermetallic phase vith which the solid solution is found In equilibrium. -submitted 26 Nor 48 27/49T14  a*ft ia Afisaa-rl s J-M-8* W- fti-& 'T. A. P aw It. 1. KIN (Da" Ahm& sa -?C41NOM 726 (4 a 10. A&&, u MispuMaskm 41 AWM a&p mn MvWW ,In I j v"4 - savipw amsedw for So hr. at floe 0. aw 1"0 hr. 1W. 1W. or 10V 0. Aer dow wdh* hosa 210, CL, wa ovWlTOkF- EIMLoundooUvNywodo6wwJnodoommpPas Pkesiults M SITM for Ways voatg~ up 1xv 6 wt.-Wfto in the form or ataves o(tbe elect. oonductivity. the let Meander Iftom Debye X-my fterns. on samples quenew ficto 2W a), OW the =us ancl soh4w curves (from thermal -Ablels of amphs quandw f"M 210, (t). TU we* ruwTity bf Al dam not clange with sm4 adrin. of Sn i it Increases 846dy with faftw inermaing fila content up to 5%, MW N"Ar "Pe Of this Variation 1kates the absence of any sixulliamt raw of saw San. In ralcromphy, amplas show, at W low as 01 -403-iri~-% dW=tInuous boundaAm of polyhedra with wFe. of a pkm% eviciently pum Sn. We "In. &Wq the grals &*a becomes quite plain with " wL-% SM In samples achw from W lower temp., orawlyomw to - "M zwope. of the solid Wn. Is notkeableat so Mile c4O. kiM Difilmaw thor"W NWYSW showe-cl Wrote -m- the culectio (M' C.) even with as little as O~ I lattioe Paramefer eva"Llne Oonst. froin 01 up to Sa. which som oonfirms the two-ph&" nature of the aw an bass Appear at 1% Sn. 710M redults Inlb" fq6res of soW vallability of ft 20%&L TU&cttW @did solubility is"M=00*10/100 Ws low solubility is dekrmined by the unhwour" aketro. chem. factor (Merent groups of the periodic system) &M the ustayourable vv). factoe (11% dillevence in W stomia & T11, j, Cal iqbr... Lab. L-16ilt ('11YS al~ov, Dept. !,-nd. zp-, -1 .  fill. lot i jj fill low v 0 47%  IVANOV, 0. and BADAYEVA, T. to 131,~Yhl I , 0 "Phase Diagram of Certain Uranium and Thorium Systems." paper to be presented at 2nd UN Iutl.' Conf. on the peaceful uses of Atomic Energy, Geneva, 1 - 13 Sept 58.  BADAYXVA, T.A.: KMITSTSOVA, R.I. Structure of aluminum-magnesium-tin alloys. Trudy Inst met. no-3: 203-215 ' 58. iMIRA 12:3) (Aluminum-magneoium-tin alloys--Metallography)  BADAY31VA, T.A.; KMNETSOVA, R. 1. Investigating the liquidus surface In aluminum-base solid solutions of the aluminum - magnesium - germanium system. Triidy Inst.met. no-3: 216-230 '58. (MIRA 12:3) (Aluminum alloys--Hetallography) (Thermal analysis)  lit s 14 '1 1 1- I no 3q. r hl tv M!, bjj  5(2) SOV/78-4-8-27,143 'AUTHORS: Badayeva T.O.-A., Alekseyenko, G. K. TITLE: The Phase Diagram of the System Thorium-Zirconium (Diagramma sostoyaniya sistemy toriy - tsirkoniy) PERIODICAL: Zhurnal neorganicheskoy khimii, 1959, Vol 4, Nr 8, PP 1873-1880 (USSR) ABSTRACT: The assumptions of the shape of the liquidus curve which were made in the earlier publications were examined by the authors because they differed from one another and because they were not experimentally confirmed.' The alloys produced from pure thorium and zirconium iodide (analyses in Table 1) were harden- ed at different temperatures (Table 2). Their microstructure (Pigs 2,3) was investigated, their hardness (Fig 6) was measuredt moreovert the X-ray pictures were taken. On the basis of the eXperimental data the phase diagram (Fig 1) was con- structed. PTh and PZ. form at high temperatures an uninter- rupted series of solid solutions with a volume centered cubic crystal lattice. In the case of strong hardening (10000) the volume centered lattice is preserved only in the alloy with Card 1/3 73-93 and 77-50 at% Zr. In the other alloys the transformation  SOY/78-4-8-27/43 The Phase Diagram of,the System Thorium-Zirconium of the volume centered cubic lattice into a surface centered cubic lattice of alTh takes place. The alloys with 40-70 at% Zr decompose into two solid solutions with surface centered cubic lattice of aTh and a' Th' In alloys with 84.0-91.27 atom% Zr a martensite transformation takes place in the hardening: P2 --.)I-aZr* At 9450 and 54 atom% Zr the solid solution (with volume centered lattice) is decomposed into two solid solutions with different Zr content which are immiscible between 945-9200 (P 1 + P2) . At 9200 and 40 atil Zr a monotectoid trans- formation may be observed: P 2ZW;t aTh + P2 . The phase aTh contains 14 at% Zr, phase P2 69-5 at% Zr. Between 920 and 13500 the aTh-Phase (with surface centered cubic lattice) is separated from the solid solution of thorium in zirconium (with volume centered cubic lattice) by a two-phase-range aTh + PI which rapidly decreases with increasing temperature. Card 2/3 At 6500 and 86 at% Zr a eutectoid decomposition of the solution  30V/78-4-8-27/43 Thp Phase Diagram of the System Thorium-Zirconium- according to the scheme Y2-"-v&- aTh + dZr' takes 'DIace. There are 8,fi,gures, 2 tables,.and 2"reforences. . SUBMITTED: May 14, 1958 Card 3/3  33883 S/64 61/000/000/004/035 1/ 1? D258%302 AUTHORS: Ivanov, 0, S., B-~,d-ayeva, TI A., Semenchenkov, A, T. and Kuznetsova, R. T TITLE: The structure of the system uranium-molybdenum at 600 12000C and the properties of its alloys SOURCE: Akademiya nauk SSSR. Institut metallurgii. Stroyeniye splavov nekotorykh sistem 3 uranom i toriyem. Moscow, Gosatomizdat, 1961, 48-67 TEXT: This work was aimed at providing experimental data for the construction of an equilibrium diagram for the above system, in the temperature region of 0 - 8000C and for the composition range of 0 - 32 at,-% molybdenum. Firstly, the region of occurrence of the B-phase was explored by studying the transformations, occurring in alloys containing 0.5 - 5 at.-% Mo. The samples were cut from alloys cast in a high-frequency furnace, homo enized for 48 hours, at 8000C and then successively held at 6000C M hrs), 5000C (240 hrs), and 4000C (240 hrs). Dilatometric investigation at up to C a rd Q~~4