SCIENTIFIC ABSTRACT VLASOV, V.M. - VLASOV, V.V.

AccEssioN NR: Ap4o34569 S/0079/64/034/004/1354/1355 ~LUTHOR: Shostakovukiy, M. F.; --ylasov, V. M.; Mirskov, R. G. TITIE: Reaction of triethy1metho.Vatannane with acetylenic alcohols SOURCE: Zhurnal obshchey khJ-J i, V. 34., no* 4, 1964.9 1354-1355 TOPIC TAGS: trietbylmethoxystannane acetylenic alcohol reaction,tin containing acetylenic ether, disproportionation, reaction condition, reactant ratio, acetylenic alcohol, triethylnethoxystannane, stannqne ABSTRACT: Reaction of triethylmethoxystannane with primary, secondary or tertiary acetylenic alcohols containing an acetylenic hydrogen results in the formation of tin-containing acetylenic ethers of two types., depending on reaction conditions and reactant ratios: C2H ) S OXC-=CH + CH30H 53 (C2H6)3SnOCH3 + HOXC---=C~ ~1(C~H&)3Sa0XCr--CSn(r,&Hj)s + CH*OH CHjcH.; CH(CHJ; c(cKop X-CH';  ACCESSIM NR.- Ap4o34569 Type I compounds are fomed in 80-9011,6 yield by reac-Ung triethylmethoxystamane with a 2-4 fold excess of acetylenic alcohol at -10 C or at room temprevure for 30 minutes; 10-200% of type 11 compounds are also foraed. Type II compounds are formed in 806,4 51eld when a 1:1 or 1.2 ratio of sta=aane:alcoho1 is heated to 100-110 C for 3-5 hours) or on prolonged stirring at room temperature. On prolonged standing or heating the type~-I compounds are disproportionated according to the equation: 2(C2116)35n0XC=-CH ---i. (C2115)3SnoXC-~CSn(CZH5)3+ITOXC=-CH, The following compounds were synthesized and characterized: 3-triethylstannoxy- PropYa-l., 3-triethylata=oxy-.~"--triethvlstannylpropyn-1) 4-trietbylstannoxybutya-1 4-triethylst=o:cyl-l-triethylstannylbutya-1, 3-trietbylota=oxy-3-methylpropyn-l, 3-triethylst=oxy-l-triethylstannyl-3-methylpropyn-1., 3-triethylstannoxy-3,3- dimethylpropyn-1, and 3-triethylsta=oxy-l-triethylstannyl-3,,3-d:Lmethylpropyn-1. Orig. art. has; 2 equations. ASSOCIATION: Irkuts1=-y lzatitut organicheskoy kbimli Sibirskogo otdeleniya,, Akademii nauk SSSR (Irkutsk Institute of Organic Chemistry,, Siberian Division, [card 2/3-  AccEssim. NR; AM34569 Academy of Sciences SSSR) sumaTm: 2&io-,63 STJB CCDE: 00 Card D= ACq: IDlay& NO rw SOV: 000 ENCL: 00 01=; 000  SHO.3,TAKOVSKIY, M.F.; VU.SOV, V-1-I.; GIG .07! Y, P. 1. Polyfunctional acetalf). Sy r. t hn!~ i .9 acetylenic acetala based on primary and P,:~condarj acet -3nic alcohols an-' vinyl alkyl ethers. Zhur. ob. khirr.- -334 no. 5-L',03-1407 It,r 164. ~MTRA 1. IrPutskly in'-.til.ut organLr--hes.)(oy Jornii AN SSSR.  SHOSTAKOVSKIY, M.F.; VLASOV, V.M.; MIKIFOROV, A.A. Interaction of cyclin acetals with thiophenol. Zhur.ob. khim. 34 no. 5:1686-1687 My 164. (MA 17:7) 1. Irkittskiy Institut organiche3kof khimii Sibirskogo otdeleniya AN SSSR.  MIRSKOVP R.G. SHOSTAKOVSKIY, M.F.; EA Synthesis of organotin acetylenic acetals. Zhur.ob.khim. 33 no.6:2076 Je 163. (MIRA 16:7) 1. Irkutskiy institut organicheekoy khinii Sibirskogo otdeleniya AN PSSR. (Tin organic compounds) (-#oetal) (A4dtylene compounds)  SHOSTAKOVSKIY, M.F.; VLASOV, V.I.I.; KUZNETSOVA, T.S. ; GOLOVANOVA, ill.l. Synthesis of asymmetrical acetals of acetylenic glycols based on A.F,. Favorskii's reaction. Zhur. ob. kh-im. 34 no.8:2804 Ag '64. (MIRA 17:9)  I&A 5 0 V, q, M 4629. USE OF FU-26 JRAQ]j SHIZZINO MAN113 IN OPUCASTAnarlygle Lay"enlot S.A. end Vlasov, V. X. (U901 (Coal), S*Pt- 1961, 22, 23). The machine. for broit-&044 trabko, Is described and Illustrated, wW some performwoo figures are given. W.  VILASOV, VA.; ORLON. Te.I., redaktor; ALADOVA, Te.l., takhnicheakly redaktor [operator of a discontinuous track-shifting machine] Mashinist putopered71gatelia praryrnogo deistrila. Moskva, UgletakhIzdat, 1954. 84 p. (MLRA 7tlO) (Railroads-Track) (Mine railroads)  WTyImHKIH, Mikhail lvanovloft;'Zuw"-~V~~~ ~-SUBOCH' X. I., redo; GMYUNOVA, L.K.. red. izd-va; SHITS. T.P., tekhn. red. [DK-54 diesel switcher for'750 mm gauge track] Dizellrqi motovoc DM-54 kolei 750 mm. Moskva, Goolosbumizdat, 1958. 104 Y'. (Diesel locomotives) (Mm 11:9)  SHOSTAKOVSKIY, M.F.; VLASOVI V.Maj KUZNETSOVA, T.S. Diakroportionation of acetals of acetylene glycols. Izv.AN SSSR68orokhim. no,12:2198-2199 165o (MIRA 18s12) I* Irkutakiy inistitut organicheakoy khimii Sibirskogo otdeleniya AN SSSR. Submitted April 5. 1965.  VLASOV.__V.M.; VASILIYEVA, A.A.; TYUMENTSEVA, G.P. Synthesiz of acetale of acetylenic secondw7-tertiw7 g2yoolo based on Favorskii rearrangement, Izv,AN SSSR,,Ser.khime no,l2t2202-2204 165, WRA M12) 1. Irkutskiy institut organicheskoy khimii Sibirskogo otdeleniya AN SSSR, Submitted April 6, 1965.  SHOSTAKOVSKIY, M.F.; VLASOV, V.M.; LOZIFNITSYNA, A.S.; GAVRILOVSKAYA, A.A. Synthesis of primary-tertiary aretylenic 6-glycoli. Izv. Ser. khim. no.4s7O9-712 165. (MIRA 18: 1. Irkutskiy Institut organicheskoy khimit Sibirskogo ot,dolenlya AN SSSR.  L 2~5 7aa RM ACCESSIM NR: AP5024969 UR/0286/65/000/01610033/0033 547.419 5 6 002 2 d UTHOR: Shoatakovskiv. M. V.; Vla6ov. V. M.,,_Mirskov, R. G.; Petrova, V, Nt TITLE: Preparation of tin-containing o ggnqgiliQon acetylenic compoundsl I Class 12,1 6 (C ~.11 7 3 ~7 SOURCE: Byulleten' izobreteniy i tovarnykh znakov, no. 16, 1965, 33 1 1OPIC TAGS: organosilicon compound, organotin compound, acetylene compound MISTRACT: An Author Certificate has been issued for a preparative method of tin-con.- itaining organosilicon acetylenic, compounds of the type, I- '~SiOR% S CSnR3. The 'method involves the reaction oft,RII~SnOVC :-2: CSnR3 [sic) wilh trialkylchlorosilanes at low temperatures. R and R1 stand for alkyl and R" for -CH2-, -CH2CH2-, -CH(CH3) r -C(CH3)2- [BO] !ASSOCIATION- nene SUBMITTED, 30jul64 ENCL: 00 SUB CODE., GC LREF SOV: ow, OTHER: 000 ATO PRESS., card.  SHOSTAKOVSKINY Mikhatl FedorcjvJ~,-h: VL.ASOV, Viktor Mikht-vIcvI-hj SHOSTAKOVSKI-1, Zakhariy F,--dorovich,,--1,7T=CMv-,,- I'- -.K , Kons,t~ntin Mikhaylo-eLch; 171KOLOYE-17, V.L~., rea. [Curative polymers) TSelebnye polimery. Moskva, lzd-vo "Znanie," 1965. 43 p. (Novoe v zhizni, naulp, telchnike. VITI Seriia~ Biologiia i meditsina, no.') (N,,I' 18:1~) 0 ZA 1. Chlen-korrespondent All SSSR (for Shostakovskly-).  -Card 1/#> , - w- -.- --- -- - I - - - - -- - - -.-- -.-  Card  SHOSTAKOVSKIYY M.F.; VLASOVj V.14.;.GRENOVSKIY, P.I.; BOLOGOVA, V.G. Polyfunctional acetals, Part 2: Synthesis of new carbonyl-con- taining acetalso Zhur.ob.khim, 33 no.12:4021 D '63. (MIRA 17:3) 1. Irkutakiy institut organicheskoy khimii Sibirskogo otdeleniya AN SSSR.  SHOSTAKOVSKIY, M.F.; 1 9 ..;,-,GREIIOVSKIY P.I.; GOLOVANOVA~ N.I. Polyfunctional vinyl ethers. Part 1: Vinyl alkynyl others. Zhur. ob.khim, 33 no.12:4020-4021 D 163- (AURA 17:3) 1. Irkutskiy institut organicheskoy khimii Sibirskogo otdeleniya AN SSSR,  SHOS"'AROVSKIY, M. F.; VLASOV, V. M.; V~~SILIYEVA, A. A. Problem of the profoAration of acetylenic I' -glycols and come of their transfmations. Report No. 1: Synthesis of -,,--glycols on the basis of 1-butyn-3-ol. Jzv AN SSSR Ser Khim no. 4;696- 698 Ap 164. (MIRA 17;5) 1. irkutskiy institut organicheakoy khimii Sibirskogo otdeleniya AN SSSRe  V ORLOV, V.P., kand.sellskokhoz.nank. Prininali uchastiye: AVROV, N.H.; BASENKO,,P.V.;- VARLAHOV, D.A.; VASILITEV, I.I.: VL~SOV.J,Y.; VMGZHANINA, V.A.; ZHIVETI=, V.G.; ZAVADSKIY, I.S.; ZAMSSKIT, Te.Ta.; ZAKORYTJKIN, D.S.; ISHCHE11KO, I.N.; KACHIBAYA, I.D.; KISH- LEV, Te.S.; KOZHMIIKOV, I.Z.; LISITSYN, V.I.; WSHCHERTAKOV. V.F.; N'YURIN-VZRTSBMG, R.L.; PXRZPMITSA, V.M.; RYUKOV, A.D*; ~~, I.P.; SOLOVITEV, N.A.; TASIKO, N.G.. GREBTSOV, F.P., red.; ZU3RIMNA, Z.P.. tekhn.red. (Our farms in 19651 Washi kh02i8istva v.1965 godu. Moskva, Gos. izd-vo sallkhoz.lit-ry, 1959, 230 P. (MIRA 13:2) (Agriculture)  VLASOV~ V.,N.; TROP-11,10VICH, A.G.; GABTTOV, R.Kh. Ore drawing with vibnition and Gcr.zhur. no.3:2?-26 Mr 165. -"8:c) 1. Institut gornogo dela Sibirskogo otdeleniya AN SSSR (Ifor Vlasov, r' 0 Trofimovich). 2. Zlatoustovskoye nidoupravleniye. (for Gabitov).  SHOSTAKOVSKIYP M.F.,,- VIASOV, V.N. Synthesis of trialkYlvin7lco:ysilanes based on acetlylene and silanols. Zhur. ob. khim. ~l no.2.-683 F.161, (MIPA 14:2) 1. Institut organiQheskoy kbimli All SSSR. (Silalie) ISilanol) (Acetylene)  L AS 0 V-. I', Sc:~,P, resitits of the of 'Whe Sta-lin liline, for inprove::emt t;c toc~Aiical and 2cono-,,ic --*:Idicer,. Ucell 36 no.6:13-3,1, Jr- I/ 0l. (AMA 34' .1) 1. Nachal'nilc shal:'Al,i~ im, Stalina koribimata Klzelugoll (for Himnov). 2. Glavnyy inzh., Bhakhty im. Stitlinu kombiwita Kizelugoll (for Vlasov). (Kisel Ilasin-Coal mines and i%ining)  VLASOVP VIN. prof.3 M-ILOVIDOV., V.Ye,p prof- Treatment of -aretera7aginal fistulas, lauch.tiudy Chetvlmosko gor.kliv.bol'o no.1002-,106 161. (MIRA l6z2) 1. Iz kafedry akusherslva i ginekologii 2-go Moskovskogo Osu- dar5tvennogo meditsinskogo instituta imeni N*Ia Pirogova fzavo kafedroy - professor A.A. Lebedev) i gienkologicheskogo otdeleniya MoBkovBkoy gorodskoy klinicheskoy bollnitsy No,/+ (nauclmZ7 ruko- voditel7 - prof. VoV. Vlasovy glavnyy vrach - G.F. Papko). (FISTULA, VESICO-VAGINAL)  VLASOV2 V.N., prof. Treatment of trichomonal diseases of the sexual organs of a wcman by the 'Uutwnurln" preparation. Nauchtrudy Chetv.1fook?g0rokline boll* no.W95-301 161a KMA IW) 1e Rafedra akusherstva i ginekologii pediatricheakogo fakullteta 2-go Moskovskop gosudarstvannogo meditainskogo inotituta imeni N.I. Firogove, (zav. kafedroy - A*A. Lebeder) i ginakologicheskaya klinika (zav. - prof. VeN. Tlasov)., na baw Moskovskoy gorodskoy klinicheskay bollnitsy No./+ (glavi*7 vrach G.F. Papko). (aRMATIVE ORGANS, FRUJY,-DISMES) (TRICEC140NIASIS) (PHAR4ACOIA)GY)  yy .4 ye V ~vr;y tau  VLAIS.OV P, V.N.s gornyy inzh.; SHEVNIN, B.I.9 gornyy inzh. 11 Breaking ore in chambers by using 'bore1ioles dr-I 1-11ad through the ore block. Gor. zhur. no.9.-71-72 S 164. (MJRA 17,,12) 1. Institut gornogo dela Sibirskogo otdelaniya All 12SSR, Novosibirsk.  Mm-LIM", A.Ro I - Tbon-al atabi2ity of ~o3,-mrpJiia U-0- 39 no.9:220.3-2-105 .12, 165. ,. *khL--& (M-Mu 18m)  VLASOV, V.P.; NIKITIN, V.P.; BEROVA, F.B. Diagnostic value of the test for C-reactive protein. Sov. med. 24 no.6;116-121 -Te '60. (MIU 13:9) 1. Iz kliniki obahchey terapii AMN SSSR prof. N.N. Savitskiy) akademii imeni S.M. Kirova. (PROTEINS) (nachallnik - daystvitellnyy chlen Voyenno-meditsinskoy ordena Lenim (ROT-DISFASES)  VLA-SOV,V.P. (s.Semenovo, Urenskiy rayori, Gorlkovskoy obInsti) Attnck of a brown bear. Prirodn 44 no.9:119-120 S 155. (MW 8:11) (Bears)  -- ---- -- ------ - 4~> Industrial processes miscellaneous COMM 1/1 Pub' 103 - U/22 Authors i Ames.. A. M.; Grebenchii1c, B. L; and Vlasov, V. P. Title s. Knurling instead of buffing of,.shaft necks Periodical' i Stan.1, instr. 120 26-27., Doc 1954 Abstract The qualitative and economical advantages derived from knurling of shaft, necks instead of buffing are listed. The construction of a knurling arrang4 ment.and its mode.of operation are described. Table; drawing; illustration. Institution Submitt ad ..........  84453 S/0571/60/030/009/020/021 B019/BO54 AUTHORS: Vlaeoi, V. P. and Markin, S. A. TITLE: The Solution of the Unsteady Heat Conduction Problem for a Rod With Two Masses Attached to Its Ends. he Calculation of a Differential Thermo.battery PERIODICAL: Zhurnal tekhnicheskoy fiziki, 1960, Vol. 30, No. 9, pp. 1128-1133 TEXT: The authors investigated the temperature distribution in a one- dimensional rod, to the ends of which masses are attached which are placed in media whose temperature changes linearly. The problem is formulated in the first part of the paper. The authors write down the linear heat conduction equation, and indicate the boundary conditions. The differential equation system set up here is solved with the aid of a contour integral by means of a meromorphous function which is found when solving the dif- ferential equation aY"(x)-bY(x)-x2Y(.x) - T(x). The solution obtained for th6 problem studied is used for the calculation of a Chromel-Copel differential battery. The construction of the latter is described with Card 1/2  The Solution of the Unsteady Heat Conduction SN?'71601030100310201021 Problem for a Rod With Two Masses Attached to B019/BO54 Its Ends. The Calculation of a Differential Thermobattery the aid of Fig. 1. Fig. 2 graphically shows the experimenta)\values obtain- ed for the time dependence of the thermoelectromotive forcetyof a battery with 50 thermocouplenat a temperature jump from 20- to 50-C. The theore- tical curve calculated with the solution obtained here shows a good agree- ment. The au'thors thank Docent-M. L. Rasulov for valuable remarks. There are 2 figures and 5 Soviet references. SUBMITTED: April 8, 1959 Card 2/2  B10661611000100510011001 D037/Dll3 AUTHOR: Vlasov, V.P., Engineer TITLEs The pumping of liquid freon into cylinders PERIODICALs Kholodillnaya tekhnika, no- 5, 1961, 6o-61 TEXTs With the aid of a diagram, the author suggests and describes a simple method of transferring freon into cylinders without using a pump. Prior to the transfer, the cylinder (2) into which freon is to be transferred must be cleanedp driedv and put under vacuum. An evaporator coil (11) made of copper tubes 12 x 1 mm in diameter is put on it and covered with a thermo- insulation (12). The evaporator's dimensions ares diameter - 220 mm, height - 1370 mmp coil pitch - 70 mm. The cylinder (2) thus prepared is The placed on a decimal balance (13) together with an inclined support. freon-delivery cylinder (1) is placed on a support with its valr-~ ~'.ownwards, 100 - 200 mm above the cylinder (2) and connected by a supply line M- After the valves (3 and 9) have been opened imd the nut (14) urs,--rewed, the line is blown through towards the cylinder (2). When freon splashes appear, Card 1/3  S/066/61/000/005/001/001 The pumping of liquid freon D037/D113 the nut has to be tightly screwed. After the blowing through, the valve (9) has to be opened again. Passing through a nozzle (10) with an 1-5 mm aper- ture the liquid cooling medium is throttled and partially evaporated in the evaporator coil (11). As a result. the temperature and pressure in the cylinder (2) are reduced. Due to ihe difference in pressure, all the freon flows from cylinder (2) to cylinder (1~ LAbstraoter's notes Should this not read Itfrom cylinder (1) to cylinde it? At the beginning and end o9 the transfer, the temperatures in cyl~ ?.are approximately 4 00 and 2 C lower and the pressures 1 - 1.08 and 0.25-0.3 atmospheres lower than in cylinder (2). The pressure and temperature drop between the two cylinders (1 and 2) is maintained during the whole process. The transfer of 55 kg freon takes about 20 minutes. The process is controlled by a manometer (5)2 and a manovacuummeter. (8),and through a small observation window We There is 1 figure. [Austracterts notet Essentially complete translati 021 Card 2/3  VlJLSDV V.P. An inadequate textbook OTechnical standardization in machine constructiong, T.V.Tolchenov. Reviewed by V.P.Vlaasov). Vest.mash.34 no.12:99 D154. (MM 8:2) 1. Nachallnik insladovatellskoy- sektaii tekhnicheskogo normi- rovaniya Zayoda ugollnogo mashinostroyaniya imeni 15-letiYa LKMOI (Machinery-Construction)   S/122/60/000/009/007/015 A161/AO26 AUTHOR: Vlasov, V.F. TITIE: Hydraulic Test Stand With Pressure Multiplier PERIODICAL: Vestnik mashinostroyeniya, 1960, No. 9, pp. 45'- 46 TEXT; The article presents detailed information on design and operation of a new small test stand for testing hydraulic tightness and strength of equip- ment parts. It was designed by the author and F.Ye. Kotyshevskiy. The design principle-is illustrated (Fig. 1). The stand-is fitted with a pressure multi- plier having a range of 0 - 1,300 k&/cm2 ( with permissible overload up to 1,500 kg/cm2); -the input pressure of the multiplier varies from 0 to 165 kg,/Cm2 (Mul- t~plication rate is I : 8); the work fluid is Mr-10 (AMD-10) according to GOST 6794-53 standard. (Tested parts are connected to the branch marked by arrow A in Fig. 1). The stand may be made universal and the filling and discharging of the multiplier in long dynamic tests may be automated by installing an electro- contact pressure gauge for 0 - 1,600 kg/cm2 [an electric cock of-H-5855-100 (11- -5855-100) or H-5855-200 (N-5855-200), or rA-46 (GA-46) type and a relay unit-1 For tests with short static load, a hand pump (Fig. 2) of HP-01 (NR-01) type is installed in the system behind the main pump. The stand system is simple in de- Card 1/2  8/122/60/000/009/007/015 Hydraulic Test Stand.With Pressure Multiplier A1611A026 sign and reliable in operation. It may replace slow and complex test stands used for the 'purpose. Therd'are 2 figures. Figures I and 2: Schematic diagram of hydraulic test stard with pressure multVhw. HOCOC HL701 Oepamoi OM eexo 6POM". 9M MOWN OM Odge Figure 2 (self-explanato- ry) Figure 1: Card 2/2  P nauchnyy sotrudnik Soldering band saws for sawing logs. Trudy VSKIFILesdrev no.5: 36-40 162. (Band sawfO (Solder and soldering) (MIM 16:5)  POCHEKUTOV, Stepan Platonovich; VLASOV, Viktor Petrovich; OREL, Pavel Ignatlyevich; FONKIN, V.F., red.; YELCHINA, L.A.p red.izd-va; BAGHURINA, A.M., tekhn. red. [Preparation for the operation of wide band saws] Opyt pod- gotovki k rabote shirokikh lentochnykh pil. Moskva, Gosles- bumizdat, 1963. 53 P. (MIRA 17:1)  VLASOV., V. P. Designing the bridge circuit of a ratio meter having both shelves connected with the measuring diagonal. Priborostroenie no.lo.-I-2 0 162. (MIRA 15:10) (Bridge circuits)  VIASOV, V. P. "Investigation of the Process of Peat Pulp Concentration in Settling Ronds and a Study.,of the Properties of Sediment." Sub 26 Jun 51, Moscow Peat Inst Dissertations presented for science and engineering degroes in Moscow during 1951. SO: Sum. No. 48o, 9 I%y 55  VLASOV, V.P., kandidat takhalchaskikh nAuk, Average thickness of the hydraulic peat layer lost in a peat bog and the depth of lowering the peat pump. Torf.prom. 31 no-7: 22-24 154. (KLRA 7:11) 1. Hookovskiy torfyanoy inatitut. (Peat industry)  VLASOV, V.P.,, kandidat tekhnicheakikh nauk. Shrinkage of peat during drying. Terf.prom. 32 ne.8:13-15 155. l.Moskovski.v terfyaney Institut. (Peat)  , M.A., professor; ABKHAZI. V.I., kandidat tekhnichesk1kh nauk; ANTONOT, V.Ya.. dotsent- VIASOV V.P., kandidat tekhnicheskikh nauk; il KIRYUDCBBT, A.M.., kandid~ &1~~"ich nauk-, RAPIOVITS, I.L., dotsent,, SIPKIff,"N.A., dotsent: YEFIKOV, P.R., redaktor; URIONOV, G.Te., Gekhnicheskiy radaktor [Hydro peat technology] Tokhnologiia gidrotorfa. Izd. 2-os, perer. Pod red. H.A.Vellera. Moskva, Gos.energ. izd-vo. 1956. 362 p. m (Peat industry) (MLRA 9:11)  VLASOV.. V.P., kand.tekhn.nauk Shrinkage of peat in the process of its drying (concerning ihe article by P.G. Sallkov). Torf. prom. 38 no.2:31-34 161. (MIRA 14:3) 1. Kalininskiy torfyanoy institut. (Peat-Drying)  VERTINSKIY, K.I., prof.; ALIKAYEVI V.A., dotsent; PODKOPAYFV, V.M., dotsent; SHISHKOVP V.P., dotsent; ANDREYEV, I.A., veterin. vrach (Moskovska,7a OV,.V.-P., veterin. vrach (Moskovskayaobl.); MAYAYEV, A.P., - h* s ve'erin.vrac (% kovskaya obl.); SHUL'GOVSKIY, I.P., veterin. vrach (Moskovskaya obl.) Diagnosis, therapy, and prophylaxis of toxic dyspepsia in calves. Veterinariia 41 no.1:59-64 Ja t65. (KM 18:2) 1. Moskovskaya veterinarmaya akademiya (for Vertinskiy, Alikayev, Podkopayev, Shishkov).  -,.VLASOV, V.P. 0 Investigation of a differential -thermocouple cell. Tzmtekh. mc.':32 Je 1, (MIRA 17:12) 04a  SITLUO, V.M., prof.; VLASOV~ V.S. Evaluation of the lumbar ganglionectomy operation in endarteritis obliterans in the light of late results. Khirurgiia no.11:65-70 t61. (MIRA 14:12) 1. Iz kafedry fakul'tetskoy khirurgii. haeni S.P. Fedorova (nach. - prof. VA Sit6nko) Voyenno-meditainskoy ordena Lenina akademii S.M. Kirova. (ARTERIM-DISEASES) (NERVOUS SYSTE24~ SWATHETIC-SURGERY)  ACCESSION NR: AP4018374 S/0120164/000/001/0100/0102 AUTHOR: Vlasov, V. S.; Yeremin, A. S.; Rozov, B. S. TITLE: Precision pulse amplifier units SOURCE: Pribory* i tekhaika eksperimenta, 4o. 1, 1964, 100-10Z TOPIC TAGS: amplifier, pulse amplifier, transistorized pulse amplifier, parallel feedback transistorized amplifier, precision transistorized amplifier ABSTRACT: Transistorized amplifier units intended for experimental physics purposes are briefly described. their gain is from 1 to 20; leading-edge pulse, time, 0.1 microsec or shorter; amplitude -characteristic nonlinearity. 0. 25o ox~- less. The effect of temperature on a P401 transistor gain is presented, - sirpplified circuit diagrams of 3- and 4-transistor units are shown, and hints as to ihe most suitable application of current-feedback and voltage -feedback amplifiers are supplied. Orig. art. has: 4 figures and 2 formulas. Card, 112  ACCESSION NR: AP4018374 ASSOCIATION: Moskovskiy inzhenerno-fizich6skiy institut (Moscow Engineering and Physics Institute) SUBMITTED: 01reb63 DATE ACb: 18Mar64 ENCL: 00 SUB CODE: GE NO REF SOV: 000 OTHER: 001 0 Card Z12  IILASOV, V.S.;.YERE14IN, A.S.; ROZOV, B.S. Units of exact pulse amplifiers. Prib. i. tekh. ekSD. 9 no.l: 100-1102 Ja-F 164. (MIRA 17:4) 1. Moskovskiy inzhenerno,-fizicheskiy institut.  VLASOV, V.S..;. YEREM, A.S., ROZOV, B.S.; SARAYEV, I.P. Electroi. tube-transistor amplifying sections with parelle! feedback. Prib. i tekh. eksp. 9 no.53139-142 S-0 164. (MIRA 17.12)  41 44 's so is 36 V 4 so 41 40 02 A f lit OOP OOA 00 so. 00 Soane New P-11kitia '00 Ausil Tkin 5(ruclures, 00 V. S. VISSOV. National Advisory Committee for 00 Neirb)QUILRITTechnIcal Memorandum No. IM. Mar. low 00 44 paps. Tran lated from 12tratima AA-todemii .00 0: M. SSSR (Bulletin of the Academy of Sciences of the USSR). no. 1, 1947. (TL570 Un3tn,.) 0 A theory of cylindrical shells Is develoixQ. Only Seel the membrane forces in the #bell and the clrcum- 43 re 0 ferential bending moment and Its Ax5oclated hear force are conaidered. The development is made age so '3 with and without the geometrical restriction of we* zero shear and circumferential #train. A nitlication tij strtAx analysilm, vibration analysis, an uckling goo, - analypix of shells Is shown. goo- a coo igloo. lit so* coo ties ALLUROKAL LlygqATUNI CLASSIFICAP011 woo Ala-SLA 60NIAT lit iHtl " I ~11* I r 64 d A jr too U is AT W3 AS 1. d it d 41 0 0 0 0 a* W/ 0 0 0 0 00 0 0   KORNIWV, I.I.; VLAROV, VeS. Phoibility diagram of the system titanium --vanadium - nibbium. Zhur. neorg. kbim. 2 no.12:2762-2765 D '57. (KIU 11:2) (Titanium) (Vanadinm) Moblum)  VLASOVL V.S.; IMMNI A.S.; ROZOVy B.S. Measurement of the current amplification factor of a transistor. lzm.tekh. no.3:46-47 Mr 163. (MIRA 16:4) (Transistors)  SOV/24-58-4-5/39 AUTHORS: C.Vlasovt V.S.2 Kornilov, I.I. (Moscow) TITIE: The Composition-Heat Resistance Diagrams of the Binary Titanium-V-qn-qdinm and Titanium-Niobium Systems (Diagrammy sostav-zharoprochnost' dvoynykh sistem. titan-vansdiy i titan-niobiy) PERIODICAL: Izvestiya Akademii Wauk SSSR, Otdeleniye Tekhnicheskikh Nauk, 1958, Nr 4, PP 31 - 35 (USSR) ABSTRACT: The binary systems were investigated up to 50 weight % of vanadium and niobium. The specimens were made by powder-metallurgical methods, pressing the p8wder into rectangular rods, heating in vacuo at 1 400 C for 48 hours and finally turning.them down into cylinders of 45 mm length and 4 mm diameter. Heat resistance was measured by a centrifugal method,,(Ref 4), consisting of determination of deflection2 6 (in m;v) produced by a bending stress a (in kg/= ). Heat resistance was expressed as the time required 'r- (in hours) to produce a given deflection (5, 10 or 15 mm)- The investigation was carriSd out in Cardl/3 three successive stages (1) 100 hours at 500 C with a  SOV/24-58--4-5/39 The Composition-Heat Resistance Diagrams of the Binary Titanium- Vanadium and Titanium-Niobium Systems bending stress of 15 kg/mM2 (2) 100 hours at 500 OC 2 0 2 and 20 kg/mm and (3) 100 hours at 600 C and 20 kg/mm The Ti-V alloys fractured in the first stage;OoSeverai Ti-Nb alloys endured a considerable time at -600 C and 2 15-20 kg/mm The dependence of the deflection 6 on the V and Nb content is given in Figures 1 and 2. Hardness- composition curves (above) a4d heat resistance-composition curves (below) are shown in Figures 3 and 4. The dotted curve in Figure 4 shows hardness of Ti-Nb alloys before test. The continuous hardness curves are those taken after the test. In the a region heat resistance increases with increase in Nb or V to a maximum at limiting solubility. In the a + 0 region there is a heat resistance minimum. Hardness also increases in the a region to a maximum. There is a continuous decrease in hardness in the a + region, except for the case where hardness was measured before the test. Figure 5 shows the microstructures before Card2/3 and after test. This shows the breaking up of the grains  SOV/24-58-4-5/39 The Composition-Heat Resistance Diagrams of the Binary Titanium- Vanadium and Titanium-niobium Systems during test. The difference in the heat resistance and hardness curves in the a + 0 region is due to the fact that hardness depends on the properties of the individual phases, whereas heat resistance depends on the interaction at the surface boundaries between the phases. This type of heat resistance-composition curve has also been observed in the Ti-Al, Ni-Al and Fe-Ni systems (Refs 6, ? and 11) at medium temperatures and agrees with the theory formulated by Kornilov (Ref 5). There are 5 figures and 12 references, 9 of which are Soviet and 3 English. SUBMITTED: July 3, 1957 Card 3/3  SOV/24-58-7-28/36 AUTHORS: Vlasov. V.S. and Kornilov I.I. (Moscow) TITILE: _~3omposition Versus Hot-strength Diagrams for Mays of the Ternary System Titanium-vanadium-niobluja (Diagra-mmy sostav.-zharoprochnost' splavov troynoy sisteuy ti-11-an.- vanadiy-niobi.y) PERIODICAL: Izvestiya Akademii nauk SSSR 'Otdeleniye tekhnicheskikh , 19581 nauk J_., Nr 71 pp 136 139 (USSR) ABSTRACT: The diagrams of the ternary system titanium-vanadllam- niobium constructed by the authors (Ref 3) showed that all the alloys of the ternC-Ary system crystallise as con- tinuous solid solutions. Specimgns after hot-j--strongth tests (200-250 hours at 500-600 C) have eith~',-r a Fin~~'Le- phase aj)and .0 or a two-phase a + P s-,Iructuro (Figure The boundaries of these reEions ;,Ijir~h adoacent binary system diagrtwiris and the titanium corner are :_~hfowri in Figure 2. In the authors! experiments -)o,,,;ur--meta11urj~y methods were used to prepare 5 x 5 x 106 i,cct-angular blanks from 99,50% pure Ti, 98.7% pure V and i)ure 'Nb, After vacuum fusion cylindrical test- pie,nes +5 mm. lon,,S and 4 mm, in diameter were machined. Three series of Card 1/3  SOV/24-58-?-28/36 Composition Versus Hot-strength Diagrams for Alloys of the Ternary System Titanium-vanadium-niobium compositions with V:Nb ratios of 3 1 and 1/3 were used. The centrifugal test method (Ref 5'in Ref 1) was used, In the f; rst stage of testing (100 hours) ~he temperature was 500 C and the bending stress 15 kg/mm'-; in.~he next 100 hours the stress was 20 kg~m2 at the same tgmperature; in the final 100 hours the temperature was 600 C at the same stress. The measure of hot strength was the time taken to produce a deflection of 5, 10 or 15 mm, in Figure 3, these times are plotted against composition and compared with hardness vs composition curves before and after testing. Discussing their results in terms of phase changes the authors conclude that for the titanium corner of the ternary diagraia the hot-strength maximum of the cc-phase corresponds to its saturation limit; in the cc + 0 two-phase region there is a minimiua determined by the branches of the hot-strength curves desceriding from the boundaries of the tWO--Dhase with the one-phase region, The relations obtained are in agreemen-t.-I with tuheory (Ref 5 in Ref 1), with the authors! results for binary Card 2/3  SOV/24--58-7-.28/36 Composition Versus Hot-strength Diagrams for Alloys of the Ternary System Titanium-vmiadiim-niobium Ti.-V and Ti-11b systems (Ref 1) and with other exi)(,,r4.iuental results. In general, -the authors conclude- -that, for teot, te,-,iperatures such thau'- hot strength depends mainly on a solution-precipitation raechanisu of inleracLion at the phase- bo-c-n-daries the nature and number of the alloy -Iom- ponents of a system influence the 'Level of values in hot- strength vs composition diagrams, while the shape of the diagram is influenced by the phase composition and structure. There are 3 figures and 4 references, 3 of which are Soviet and I English. SUBMITTED: August 9, 19157 Card 3/3  VIL~Zclvl V.S` 16;-)  5(2), 18M SOT/78-4-7-26/44 AUTHORS: Kornilov, I. I., Ylasov, Y. S. TITLE: The Phase Diagram of the System Titanium - Vanadium - Niobium (Diagramma sostoyaniya sistemy titan - vanadiy - niobiy) PERIODICAL: Zhurnal neorganicheskoy khimii, 1959, Vol 4, Nr 7, pp 1630-1637 (USSR) ABSTRACT: In a previous paper (Ref 12) the authors stated that all alloys of the system mentioned in the title crystallize as continuous solid solutions on, the basis of P-titanium. This is explained by the small differences in the atomic diameters (Table 1) of these elements and by the isomorphism. of the lattices of V and Nb with that of P-titanium. The present paper reports about the experimental investigation of the pha-se diagram and the phase transformations in the ternary system mentioned by means of microstructuxal.analysis, measurement of hardnesel thermal expansion, and-of-.the-electric resistance. The composition of the alloys-investiga to d is shown by-table 2 and figure 1. * Figure 2 shows pictures-of some microstructures, figures 3-6 show the,inothermal cross sections of the system at 10000) Card 1/2 8000, 7000 and 6000. Figure 7 is a spatial representation  SOV/78-4-7-28/44 The Phase Diagram of the System Titanium - Vanadium - Niobium of the phase diagram. The upper part has the continuous charac- ter of the solidus.surface. At 8650 a closely 'Limited range of the solid-a-solution is formed.in the titanium corner on the basis of the hexagonal a-modific&tion of titanium. Between this range and the P-solution there is a biphase a+p-range. There are 7 figures, 2 tables, and 12 references, 9 of which are Soviet. SUBMITTED: April 2, 1958 1',ard 2/2  AUTHORS: TITLE; PERIODICAL- 83125 8/078/60/005/009/008/0 '~ 7 Bo i 5/Bo64 Kornilov~ I. ., Vlasov, V. S. Investigation of the Physicochemical Properties of the Alloys of the Ternary System Titanium - Vanadium - Niobium A-A ~1 Zhurnal neorganicheskoy khimii, 19609 Vol- 5, No. 9, pp: 2017-2024 TEXT; The. electrical resistivity, its thermal coefficient, therma" ?x- pansion, and the hardness of the systems TI-Nb and TI-V-Nb were invogti- gated. The thcrmal preliminary treatment of the samples vas done in tNr ways. The electrical resistivity was determined at 20 0 and OOOC with a rinn(MV) potentiometer. The hardness was investigated on samples that were subjected to microstructural analysis. The samples were annealed at different temperatures in accordance with the titanium content, On fin;~ basis of the phase diagrams obtained, a similar depelidence of the elec- trical resistivity %nd temnerature coefficient on the o.ompoSitiop... were found to exist in the titanAum cornnr of the phase diagram of the three- component system. as well as the two-component systi?m. Thp diagrams of Card 1/2  83125 investigation of the Physicochemical Properties S/078/60/001;/009/008/011-i of the Alloya of the Ternary System Titanium - B015,/BO64 Vanadium - Nioblum the thermal expansion of the ternary system in the range of ct V : Nb - I : I showed that in the two-phase range there ar~~ an ~rregulnr change of expansion.i.e., where the most InIonsive ph,,Ls- takes nlace, The temperatr-e of tneae se~!tlon.,, witii the increase, cif vanadium- and niobium concen*, wricri. 1'~' tne phane ojagram, Lines of the sairf, hardnqss, isosolori.- ji.rl"'I of tor, pothermal crooi~ sention for bOO C werp drawit cri !.ni? dt,ijv,-~m zyot-im Ti-V_Kb ancording to the values e.-f h9rdness mensurefflen- (Fig, Change of' hardDesg 'is also depQnd.~%O, on tk-~ phase strtir~ture. The ~CLirivn oompositions of the alloys on the basis of a- and P-phases witii cerla.;v properties can be determined en the basis of the phase. diagrair.-t, TI,Arf~ are .9 figures and 10 references! 7 Soviet and ~ (IS, SUBMITTED; June 19, (959 Card 212  3577 3 s/18o/62/000/001/009/014 A Elll/E135 AUTHOR: VlasovLfft�_! (bloscow) TITLE: An investigation of phase transformations in steel on heating PERIODICAL, Akademiya nauk'SSSR. Izvestiya. Otdeleniye tekhnicheskikh nauk. Metallurgiya i toplivo, no.1, 1962, 134-138 (+ 2 plates) TEXT: A qualitative and quantitative investigation was made of the mechanism and kinetics of the formation and growth of austenite grains in ferrite-cementite mixtures of a different degree of initial dispersion under conditions of isothermal annealing at 750 OC. Specialeas of steel 45 (0.427co~ C; 0.22z/U' Si; 0.61~e mn) in the form of discs lb itim in diameter and 2 mm th-i:ck were used for the investigation. The heating and isothermal soaking was done in a lead bath. Fbur initial structures were tested. Structure I - medium plate pearlite and ferrite, mean distance between plates 0.1~L; heat treatment - heating to 8300, soaking for 30 minutes, cooling with the furnace at Card 1/4 VS  An investigation of phase ... s/18o/62/000/001/009/014 E111/E135 200-2500/min. Structure II - martensite; heat treatment - heating to 830 OC, soaking for 30 winutes, cooling in water. Structure III - spheroidised structure I (with a non-uniform distribution of cementite grains); heat treatment - heating to 680 Oc, soaking for 150 hours. Structure IV - spheroidised structure II (with a uniform distribution of cementite grains); heat treatment - heating to 680 OC, soaking for 150 hours. For the isothermal treatment specimens, in lots containing each type of structure, were immersed into the bath at 750 OC and, after an appropriate soaking time, quenched in water. The austenite formed during the treatment and fixed on quenching in the form of martensite was called conditionally "austenite". All quenched specimens were heated for one hour at 150 OC in order to obtain a clearer definition of this Plaustenitell under the microscope. The investigation was done by measuring Vickers hardness and qualitative and quantitative microstructural analyses. A study of the structures formed during isothermal transformation at 750 OC indicated that: 1) austenite grain growth takes place mainly in the direction of ferrite grains; Card 2/4  An.investigatioh of phase ... s/i8o/62/000/001/009/014 Elll/E135 2) austenite grain growth results from the joining of neighbouring austenite grains and their coagulation; 3) overall increase in the amount of austenite takes place due to dissolution, from the surface, of cementite grains in contact with austenite and ferrite. Austenite grain growth, dissolution of cementite grains in contact with austenite and ferrite grains and coagulation of austenite grains take place simultaneously. The velocity of transformation of ferrite- cementite mixtures into austenite increases with increasing degree of dispersion of the initial cementite. The time of the beginning of the transformation (as detected by the metallo- graphic analysis) for finely dispersed structures I and 1I was about 40-60 seconds, and for spheroidised III and IV structqres, 120-300 seconds. On the basis of a comparison of the kinetic curves of isothermal transformation with kinetic curves of "dissolution't of cementite grains the following qualitative relationships were established. 1. The kinetics of an increase in the amount of austenite on heating are mainly determined by the kinetics of dissolution of cementite grains in contact with Card,3/4  An investigation of phase ... S/l8o/62/Ooo/ool/oo9/ol4 Elll/E135 ferrite. 2. Yjaxima of the velocities of austenite grain growth in structures III and IV coincide in time with the maximia of velocities of "dissolutiow, of cementite grains in contact with ferrite. 3. The size of the maximum of the velocity of austenite grain growth of structure III is 21 times higher and that of structure IV 15 times higher than the maximum of the velocities of "dissolution" of cementite grains in contact with ferrite. It is concluded that the method used permits qualitative evaluation of phase transformation processes on heating of sufficiently spheroidised initial structures. There are 4 figures. SUBMITTED: September 2, 1961 Card 4/4  VIASOV3 V.S1. Attachment for creep tests at very high temperatures. Zav.lab. 28 no.7:868-871 062 (MIRA 15:6) - (Creep of metals)  FLFMINTOVA; AKATOV, S.; kKATOV, K.; ARUTYUNYAN,- RAGDASAROV; PEMPELYUK; ORLIK; ROMENETS; IKWO; VjAqgVTqIML.; SYROYEZIIKO. L, Obligations in honor of the 22d Congress of the CFSU have been fulfilled. Masl.-.zhir. prom. 27 no.11:1-3 N 161. (DIIRA 15:1) 1. Zamestitell nachallnika ekonomicheskogo otdola Upravleniya meditsinskoy i parfyumernoy promyghlennosti Mosgorsovnarkhcza (for Flegontova). 2. Dire'ktor Leningradskogo mylovarennogo zavoda imeni. Karpova (for S.Alcatov~. 3. Direktor Nlevskogo mylovarennogo zavoda (for K.Akatov). 4. Glavnyy inz~. Zapbrozhokogo maslozhiro- vogo kombinata (for Arutyunyan). 5. Direktor Yerevanskogo mas- lozhiravogo kombinata (for Bagdasarov). 6. Direktor Ferganskogo maslozhirovogo kombinata (for Perepelyuk). 7. Glavnyy inzh. Chimkentskogo maslozhirovogo kombinata (for Orlik). 8. Direktor Kazanskogo zhirovogo kombinata (for Romenets). 9. Glavnyy inzh. -Gomellskogo zhirovogo komb~nata (for Ikhno). 10. Direktor Novosibirskogo zhirovogo kombinata (for Vlasov). 11. Direktor Odesskogo masloekstraktsionnogo zavoda (for TSiekelt). '19. Direktor Vitebskogo masloekstraktaionnogo zavdda (for Syroyezhko). (Oil industries)  ORLOV, A.A., kand.fiz.-mateript.nauk, red.; BUILIRAT11, E.E., kand.tekhn. nauk, red.; YLASOV, V.T., red.; IOVLEVA, N.A., tekhn.red. ~ (Scientific -oroblams connected with artificial satellites; collaction of articles) Nauchnye problemy isk-usetvannykh spit- nikov; sbornik statei. Moskva, Izd-vo inostr.lit-ry, 1959. 528 p. (MIRA 12:12) (Artificial satellites)  VIASGV, V. V. VLASOV, V. V.; "Methods of multiple revelation of the contents of printed matter In a systematic catalogue." Mosew State Library Inst Imeni V. M. Molotov. Moscow, 1956. (Dissertation for the Degree of Candidate in Pedagogical Science.) Knizhnaya Letopis' Vo 32, 1956. Moscow.  YL&SOV, V.V. Blood-groups classification. Feldsher & akush. no.5:49-50 Yv '50. (CUM 19:2)  3/170/62/005/006/005/00 B104/13102 L Vlasov, V. V. _i -------------- TITLE: Automatic devIce for establishing quasistationary heat conditions P=ODIO~"_; Inzhenerno-fizicheskiy zhurnal, v- 5, no. 8v 1962, 90-92 T.z_,XT: device.providin~ continuously programmed control over qluasi~;tationary heat conditions has been developed as shown in Fig. 1, 4ho- pro.-ram being contr6l1ed by the linear potentiometer (8) in which t.`ie slider is driven 'by a synchronous notor (14). -In the measuring circuit the.voital-e (5) -was adjusted linearly so as to compensate the - tf,erLio-e:_,f off the thermocouple (4). An automatic electronic relay (15) served to control the power of the heater when, after it was switched on ~P e ~or the first time, the temperature rose too fast as compared with th pro.-rammad rate, owing t t' 0 he h at capacity of the heater. The device secures a linear temperature se over a wide range. There is 1 figure. .."OCIATION: Institut khimicheskogo mashinostroyeniya, g. Voskva ~IOZJ Card 1/3 (Institute of Cheknical-Machine Building, Moscow)  AUT11OR!.* TITLE:' PERIODICAL: S/17 62/005/009/006/010--l B104%102 Vlasov, V, V* Automatic device for continuously determining the thermal diffusivity of solid materials under quasistationary thermal conditlons Inzhenerno-fi.zicheakiy zhurna-1, v. 5, no. 9, 1962, 66 -'73 TEXT: A p *rogrammed automatic controller (Fig. 1) for establishing quasi- stationary thermal cohditions in a calorimeter is described. The control proF,Tam ic set up by a linear potentiometer R the-slider of ;mhich is connected with the shaft of a qA-9 (PD-9) reversible' motor. The thermo-* emf i6 measured by a compensating measuring circuit (R,,..,R 4). The com'- puter shown in Fig. 2 continuously computes the coefficient of thermal diffusivity a - kb/,A t of an unbounded plate, of thickhess, 1,where k = 1 /2 and b - dt(l,V)/d-V, from the temperature differences A t. A full accou t is given of this controller and computer. Practical studies have shown that errors may arise in a from the following factors: (1) non- Card  5/170/62/005/009/0-D6/01 0 Automatic.devicd for continuously ... B104/BI02 Unear heating non-uniform annealing temperatures at the lateral faces of the plate; non-uniform temperature field in the contact surface between plate and heater; (4) nonlinearities in temperature recording; (5) n the equation for a; (6) poor heat contact between ,),,t!naccuracies and heater. Numerical results of d(t) are given for asbestos cement. There are 3 figures.' ASSOCIkTION: Institut khimicheskogo mashinostroyeniya, g. Moskva n1titute of Chemical Machinery, Moscow) SUBMITTED: Jln~18,~Y 30, 1962 Fig. 1. Autpmati drogram controller. Legendt (1) reference input lelement; (21 Itic amplifierl (3 ~hase-sensitive amplifier; (4) P11 -5 (RP-5) .relax; 6) relay amplifier; ~6 scheme for automatic and manual control; (7 r-A-54 (SD-54) synchronous motor; (8) electronic time relay; (9) reversible motor; (10) circuit for automatic reversal; (11) voltmeter-, (12) ammeter; (13) voltaGe controller; (14) calorimeter; (15) potentio- meter. Card 2  137-58-6-11909 Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 6, p 104 (USSR) AUTHORS: Shvartsman, B.K-h., VlasoV, V. TITLE: Relationship of the Temperature Limit of Sinter Formation to the Content of Iron Compounds in Tikhvin Bauxites (Zavisimost' temperaturnogo predela spekoobrazovaniya ot soderzhaniya soyedineniy zheleza v boksitakh Tikhvinsk.6go mestorozhdeniya) PERIODICAL: Tr. Vses. alyumin.-magn. in-ta, 1957, Nr 39, pp 129-132 ABSTRACT: An investigation is made of the effect of the Fe compounds in Tikhvin bauxites upon the sintering temperature limit. Mixes of bauxites having varying amounts of Fe were sintered with limestone and soda in the form of briquets at I 1000C to the temperature of onset of fusion. Sintering proper at the given temperature continued for 30 min. The sinter was then cooled and visually evaluated for physical condition, ground to -63 mesh, and leached with NaOH solution (25-26 g NaZO/liter) for 15 min, the liquid-to-solid ratio being 5 and the temperature 850. It was found that the temperature limit of sinter formation fluctuates within the 1200-13250 range for bauxite having a Card I/Z weight ratio of A-203/FeZO3 = 2.5-3, and 1200-1Z750 for  137-58-6-11909 Relationship of the Temperature (cont.) bauxite with a weight ratio of AIZ03/Fe2O3 = 2 regardless of the dosage of limestone in the charge and the amount of SiOZ in the bauxites (the AI?03/ SiOZ weight ratio was 2.59-3.86). The effect of increasing the Fe contents of the bauxites as the AIZ03/FeZO3 weight ratio changed from 3 to 2 con- sists of narrowing the temperature range of sintering, reducing the temp- erature of onset of sinter fusion by 25-500, and reducing the extraction of alumina and caustic from the aluminum with standard leaching. N.P. 1. Sintered aluminum ores-Temperature factors 2. Iran compounds--Thermal effects Card 2/Z  S/137/62/000/007/057/072 A16O/A1O1 Yu. F., Vlasov, V. V. Rozanov, A AUTHORS: N. TITLE; Some properties of triple P-oolid solutions of zirconium with niobium and molybdenum PERIODICAL: Referativnyy zhurnal, Metallurgiya, no.*7, 1962, 72, abstract 71476: (In collection;: "Metallurgiya i- metalloved. chis. me~allov". rjo. 3,1 Moscow, Gosatomizdat, 1961, 82 - 95) TEXT: Smelted Zr-lodide-base cast alloys with 7.5 - 48% Nb, 0 - 10% Mo, 0 - 1.1% Ni, 0 - 0.5% Cut 0 - 0.50% Ag and 0 - 3% Ti were tested as to their oxidizability in the open air at 600 0C. The lowest oxidation rate proved to have the alloy with 15% Nb and 10% Mo, especially with small additions (0.1 - 0.5%) of Fe, Ni, Cu and Ag. The black film which developed on the alloy of this composition contained, together with ZrO small amounts of the Nb 0 -6Zr