SCIENTIFIC ABSTRACT BOGOYAVLENSKIY, A. F. - BOGOYAVLENSKIY, G.

S/080 ,/62/035/007/010/613 D202/D307 AUTII.07-',.S Bogoyavlq-.iskiy, A.F., Ko-yrev,- Ye.11. and Belov, V.T. TIT12: I-avestigating the process of fillinq anodic oxidized films on aluminum in chromate solutions by the metlvd of radioactive tracers --hurnal prilcladnoy Ichimii, v. 3.5, no. 7, 1962, T,,,r so were ~,.T: of dichromate and chromate in H2 4 used as electroly-Lco at pil 3.2 to 6.2, to determine the chromium Conte,nts in I.-he oni-di-led film after filling and after desorption. 51Cr was u--cd as an indicator and 353 was criployed for the determina- tion 0, SOZJ1 a-aions in the film after desorption. Conclusions: 1) The contert of chromate anions in the film decreases with~ increas- i,,i,r -,)H despite the incre--se in the film's 2) The desorption 0 - 0 o -, 4- - - Cr fr= the filled Iiln proceeds nore intensively when the fill- in" process has been carried out in solutions -of: lower pH values. C~ Card 1/2  inves-64-3ratin- the -)rocess S/080/62/035/007/010/013 D202/D307 3) There is practically no desorption of sulfate anions from the filled filra in contact with acidified distilled water or an acid dichronate-chrot.iate solution (pH . 5.6). 'From the latter result Lne ~=ithors conclude that no ionic exchange takes place between the sul-Fate and Or ions during the filling process. There are I table ~Tlia 5 figures. SUBI,:I'L'TED: Vril 4. 1961 Card 2/2  BOGOYAVLENSKIY,, A.F.; BOGOYAVlENSKIY, V.F.; BOGOYAVLENSKIY, I.F.; MATYAZH, N.K.; RAGHEVSKAYA., L.S. Radiobiological effect of the action of irradiation on micro- organisms irradiated by a radioactive anodic A1203 film Radio- biologiia 4 no.4:640-642 164. iMIRA 17:11) 1. Kazanskiy aviatsionnyy institut, Kazan-kiy gosudarstvennyy medi- tsinskiy institut i Blagoveshchonakiy-na-Amure gosudarstvennyy me- ditsinskiy institut.  PAVEIZINA, V.P.; DOCOYAVIkNSKIY, A.F. lw-~~--,-:-.-. ~ lnhomogeneous composition of an anodic oxide film on al=inum from the dpt.R of Its chemical analysis. Zhur. prikl. khIm. 37 no. /,:02A-823 kP 164. (MIRA 17-5) 1. Kazanskiy aviatsionnyy institut.  BOGOLAVI-ENSKIY A.F. - zasI. deyatel I nauki i tekhniki Tatarskoy A Ono ~SOiietakoy Sotai all ntJ Clio skoy Reopubliki, doktor khim, nauko prof,j red,j YEPISH&RIA, L.S., irjzh. red. (Anodic protection of metals; reports] Anodnaia zashchita netallov; doklady. Pod red. A.F.Bogoiavlenskogo. Moskva, Mashinostroanie, 1964.. 527 p. (MIRA 17-9) 1. Mezhvuzovskaya konforentsiya po anodnay zashchite ot korrozli. 1st.  ACCESSION NR: AT4043069. S/0000/64/000/000/0089/0097 AUTHOR: Aleksandrov, Ya. r.(Doctor of-chemical sciences, Professor)j TITLE: Some theoretical bases tor the anodic oxidation of aluminum and ultramicrosoopy of the circumanodic space SOURCE: Mezhvuzovskayakonferentalyapoanodnoyzaahchitemetallovotkorrozii. Isto Kazan, 1961. Anodnayn zashchita metallov (Anodic protection of metals); doklady* konferentaii. Moscow, Izd-vo Mashinostroyenlye, 1964, 89-97 TOPIC TAGS- aluminum, anodized aluminum,' organic anodization additive, pyrogallol, hydroquinone, anodic gas evolution, sodium carbonate electrolyte, barrier layer forma- tion, circumanodic space analysis, ultramicroscopy ABSTRACT: The compo6i Uon of the gas liberated on a carbonate oxidized Al anode (5% Na2CO~, 30C, 30 min.) was found to he 96. 6% oxygen and 3. 6% hydrogen by volume. A ddition of 0. 1% hydroquinone or 0. 6% pyrogallol to the bath terminated evolution of gas on the anode, but the forming oxide film retained the charaEtortatics normal for a pure sodium carbonate electrolyte (weight 60. 6 and 58. 0 mg/dm , respectively, VIAM corrosion test 18-20 min. at 18-21C, thickness and porosity normal). The authors therefore suggest 1/2 Card  ACCESSION NRi AT4043069 some hypotheses on oxygen evolution during anodization of Al and on the adsorption of evolving hydrogen In the presence of pyrogallol or hydroquinone In the bath. A series of oscillographic charge curves was obtained for shect altuninum electrodes (working surface lem2) anodized at 18-20C in 2, 5 or 7% Na2CO3, at current densities of 0. 05-0. 18 a/dM2. without or with addition of up to 0. 2% pyrogallot. Ilic results indicate that the barrier layer forms in the first 6 or 7 seconds of oxidation. -L%e overall process of anodization is not affected by the presence of an organic additive. Ultramicroscopy of the circumanodic space during anodization (procedure described) in 9 bath containing pyrogallol established th6~bicifi6elol cbllottlal parUcles;- Orig.,- art. has:.2 tables, 6 figure& and 2.equationa. ASSOCIATION: None SUBMITTED: 13Mar" ENCL-00 SUB CODE: MM NO REF SOV-. 016- OTHER: 006 2/2 Card  -7 ACCESSION XR: AT4043076 6/0000/64/000/000/0233/0241 AUTHOR: Bogoyavlenaldy.,Ae. -(Doct6r of cbemical sciencesp Professor); Dobrotyorokiyj G. N. TITLE: A study of penetration of electrolyte tone Into an anodic aluminum o)dde film during its formation by carbonate anodizing SOURCE: Mezbvuzovskaya konforentalya po anodnoy zashchite metallov ot korrozil. lot# Kazan, 1961. Anodnaya zashchita metallov (Anodic protection of metals); doklady* konferentsil. Moscow, Izd-vo Mashinostroyeniye, 1964, 233-241 TOPIC TAGS: clad alloy D16, anodized duralumin, sodium carbonate electrolyte, labeled electrolyte solution, anodization period, anodic oxide film, electrolyte temperature, electrolyte concentration, current density, electrolyte Ion penetration, aluminum oxide. film, carbonate anodizing, aluminum corrosion ABSTRACT: Disks of clad alloy D16 (diarneter=16mm) were do reased cotone) and anodized in 5% sodium carbonate solution labeled with C14, W1 5 or Co to study the content of carbonate ions in the anodic film in relation to anodization period (3-60 min. at 30C, 0. 5 a/dm2, specific activity 1. 82' 106 counts/min. ml), current density 'C. 1-,l/2  ACCESSION NR: AT4043076 (0. 25-4. 5 a, jdm2' :P min.; 27C, 2.16- 106 counts/min- ml), electrolyte temperature (10-50C, 0. 5 a/dm , 20 min, 1. 82* 106 counts/min - ml) and concentration (0. 0075-1. 0 M, 30C, 0. 3 a/dm2, 20 mhit). Other experiments Involved concentrations of 1. 2-3. 0 M th C14 or W185 (30C, 0. 5 a/dm2, 20 Nz2W04 t 0. 05 M Na2CO in solutions labeled wi min.) and introduction of 'C060 - labeled 1. 2-3. 0 M NH4 ICO (N113) 2 (N02)41, or Inactive salt into a solution containing C14. The results indicate that the content of carbonate ions increases nearly 100% as the anodizing period Is extended from 3 to 60 min., rises from 0. 8 to 5% as the current density Increases from 0. 25 to 1. 5 a/dm2, decreases sharply as the electrolyte temperiture rises (12-40C), and reaches a peak at concentrations of 0. 05 M. The content of tangstate Ions Increases and that of carbonate decreases as the Na2WO4 concentration rises. Similar results were obtained for Erdman salt-containing solutions. Orig. art. has: 8 graphs. ASSOCIATION: none. N SUMUTTED: lMr64 ENCL: 00 13UB CODE: MM NO R9F SOV..0 007 OTHER: 001 2/2  ACCESSION NR: AT4043077 s/oooo/64/ooo/ooo/ouz/ono AUTHOR: RRg9Xavlenskiy, A. F(DDetor of chemical scienoes, Professor) TITLE: Anodic oxide films on aluminum as sources of radioactivity SOURCE: Mezhvuzovskaya konferentsiya po, anodnoy zashchite metallov ot korrozii. let, Kazan, 1961. Anodnaya zashchita metallov (Anodic protection of metals); doklady* konferentsil. Moscow, Izd-vo Mashinostroyeniye, 1904, 242-260 TOPIC TAGS: anodized aluminum, anodized aluminum alloy, radioactive anodio film, radioactive anodizing, radioactive applicator, biological corrosion, therapeutic radiation source, radiometric system, aluminum corrosion, fungal growth, yeast growth ABSTRACT: Ile author previously suggested two techniques for producin radioactive A5 in a sulfate anodic oxide films, one based on using electrolytes with a natural (e.g., S it bath) or introduced (e.g., p32 as phosphate) content of required isotope and the other based on the high capacity of an anodic oxido film to adsorb various tons (e.g., phosphqto S35, 18d i~ dichromate). In the present work, applicator films prepared with p32, AuI98, W other isotopes were studied as possible gr6wth depressants for seven species of fungi yeast coUs. Tentative resuIts indicate the feasibility of using such radioactive films  ACCESSION NR: AT4043077 65 in controlling biological corrosion. Subsequently, Zn as zinc nitrate, was used in the carbonate oxidation (5% solution of irdium carbonate plus 0. 5% caustic soda) of clad sheet I duralumin DT16 (20-30C. 0. 5 a/dm , 20 min.) to obtain radioactive applicator films for use in described systems for signalling corrosion of heating elements caused by seepage of pickling and plating bath solutions. The system Illustrated is sensitive to decreases in radiation intensity of up to 400 counts/min. from initial levels of 600 to 15, 000 counts/min, Finally, reference is made to the advantages of radioactive AlzO.3 films for radiotherapoutic applications. "The experimental work was carried out In cooperation with N. K. Matyazh,~ docent R. Sh. Nigmatallin, docent Ye. M. Kozy*rev, assistant A. P. Vedernikov and engineers S. D. Petrov, R. G. Tikhonov, A. P. Yurlyev, N. V. Grlgorlyeva and V. D. Vlyushin." OrIg. art. has: 2 diagrams and 3 Illustrations. ASSOCIATION: none. SUBMITTED: 13Mar64 ENCL- 00' SUB CODE: LS, MM NO REP SOV: 007 OTHER: 000 ji 2/2 ---------------------  ~'iACCESSION NR: AT4043078 S/0000/64/000/000/0251/0261 :tAUTHOR: Bogoyavlenskiyj A. r.(Doctor of chemical sciences, Profesaor); Rachevskayg,--L-.,-S;';"Miitytith-~-"N. K. J=LE: Effect of current reversal on composition and properties of an anodic oxide film ion aluminum, based on data obtained by the use of labeled atoms ;:SOURCE: Mozhvuzovskaya konferentsiya po, anodnoy zashchito metallov ot korrozil. let, ':Kazan, 1961. Anodnaya zashchita, metallov (Anodic protection of metals); doklady* konferentaii. Moscow, Izd-vo Mashinostroyeniye, 1964, 251-261 I!TOPIC TAGS: aluminum AW-M, anodized aluminum, phosphoric acid electrolyte, labeled atom analysis, current reversal, electrolyte temperature effectl anodizing period j effect, electrolyte concentration effect, anode cathode ratio, anodic film thickness, anodic film corrosion resistance, anodic film porosity, labeled film radioactivity, aluminum corrosion, aluminum oxide film, radlophosphorus labeling ABSTRACT: Samples of sheet aluminum ADI-M were anodized on one side in a P32- labeled solution of phosphoric acid (60V, blue-gray transparent film, 0. 4-2. 5 1j, VIAM corrosion resistance 15 min.) and coated on theiother side with lacquer AK-20. Electro- lyte temperature, concentration, anodizing period and anode-cathode period ratios were varied (0-80C, 0-12N, 0-120 min., 1:0 to 0:1); the results are plotted graphically in c6fd 1/2  ACCESSION NR: AT4043078 :relation to film. weight, specifI6 radioactivity, film thickness, percent content of phos- phate Ion, VIAM corrosion resistance, and film porosity. The phosphate-ion content .was found to be 6. 6% for standard anodizing and to vary with the anode-cathode ratio (table given) when current reversal is employed. Film radioactivity peaked at 30C, 'dropped sharply at 30-50C and increased again to even higher levels for 50-75C (related to chemisorption of the phosphate-Ion). An increase in cathode period increased the activity by 150% over values without current reversal, the film thickness dropped and Its corrosion resistance improved (100%) at a ratio of I.-L Increasing the curnulative cathode period at a constant cumulative anode period significantly increased the radioactivity in the film. 71he highest radioactivity, film thickness and corrosion resistance were obtained at25-50C. Different results are obtained with current reversal Ina sulfate electrolyte.. ,Orig. art. has: 13 graphs and 1 table. ASSOCIAnON: None SUBY=ED: .13Mar64 SUB CODE: MM NO REF SOV: 008 2/2 ENCL: 00 OTHER: 001  ACCESSION NR: AT4043079 S/0000/64/000/000/0262/0271 AUTHOR: Kozy*rev, Ye- M-1 (Doctor of chemical eciencesp Professor); Belovp V. T. TITLE: Some characteristics of the sorption process on an anodic oxide film over alUMinUM J SOURCE: Mezhvuzovr:,kaya konforentslya po anodnoy zashchite metallov ot korrozii. lat, Kazan, 1961. Anodnaya zashchita metallov (Aiiodic protection of metals); doklady* konferentsil. Moscow, Izd-vo Mashinostroyenlye, 1964, 262-271 TOPIC TAGS: -alumEum 2~, anodized aluminum sulfate anodizing, anodic film filling, Dal inorganic salt TillfiWisolution, filling solution acidity, filling process temperature, filling process duration, anodic film sorption capacity, anodic oxidation period, anodizing current i density, filling rolution anion concentration, aluminum corrosion, aluminum oxide film ABSTRACT: Filling of A1203 films in aqueous solutions of phosphates, chromates ano sul- fates was studied on anodized (20% sulfuric acid solution, 20C, 20 mon., 1 a-min/dm6) stampings of sheet aluminum AD1 (18 cm2) In relation to p1l of the filler solution (2. 5- 10. 9), anion concentration (0-0. 5M at pH=constant, 20C, 2.4 hrs.), temperature (0. 6-95C for optimal pH values), time (5-110 min. at 95C and optimal pH), oxidation period and current density (0-200 a-min/dm The results indioatb that sorption occurring at the oolution-film boundary cannot be considered separitely from a number of other processes a  ACCESSION NR: AT4043079 'ing place during the filling of anodic films In aqueous solutions of inorganic salts. ~j Sorption generally increased with Increasing electrolyte concentration, temperature, filling time and current density. Modification of the electrochemical conditions of anodiz an anodic film. Orig. art. has.- 10 Ing thus allows one to vary the sorption capacity of graphs. ASSOCIATION: None BUtMITTED: 13Mar64 ENCL: 00 SUB CODE: MM NO REF SOVt 013 OTHER-. 005  ACCESSION NR: AT4043080 S/0000/64/000/000/0286/0291 AUTHOR: Bogoyavlensldy, A. F-Woctor of chemical sciencee, fessor Pro Dorofeyevao -'D.- TITLE: Effect of some fillers on the protective properties of anodic aluminum oxide films formed in carbonate electrolyte SOURCE: Mezhvuzovskaya. konferentsiya po, anodnoy zashchite metallov ot korrozil. lat, Kazan,1961. Anodnaya zashchita metallov (Anodic protection of metals); doklady* konferentall. Moscow, lzd-vo Mashinostroyoniye, 1964, 285-Z91 TOPIC TAGS:'rdi7ira-1umt7nD-TH1 clad duralumin, anodized duralumin, carbonate electro- lyto anodizing,'sulfate olectrolyto anodizing$ anodic film filling, tea extract filler, tannin filler, filling process duration, filling tomperaturo, filler concontration effect, olectro- lyte composition effect, aluminum corrosion, anodic oxidation, aluminum oxide film ABSTRACT: Samples of clad duralumin. DT16 were degreased, rinsed, anodized (0. 42-0. 5 a/dmZ, 55-110y, 30-34C, 26 min., Fo cat1iodc, carbonate or sulfate electrolyte), rinsed, dried, filled with 2% tea extract (30-9OCp 0-10 men. at 90C, extract concentration 0-7% by weight of dry tea at 90-95C for 7 min.) or tannin (0. 1-3. 0% by weight, 30-90C In 0. 6% for 3 min., 2-10 min. at 90C and 0. 6%), then tested for corrosion resistance (4L -VIAM test). The results Indicate that filling of carbonate anodized films in 3-6% aqueous d-7, 1/2  ACCESSION NR: AT4043080 extracts of tea for 7 min. at 90-906 improves the resistance by 300-400%. Filling in 0. 5% tannin solution under the same conditions improved resistance by 200-250%. The resistance of sulfate anodized film deteriorated when It was filled under conditions optimal for carbonate anodized films. Orig. art. has: graphs. ASSOCIATION: None SUBMITTED: 13Mar64 ENCL- 00 SUB CODE: MM NO RE F SOV: 003 OTHER: 002  ACCESSION NRj AT4043089 AUTHOR 3 c _F- (Do. tov of chemical sciences$ Professor)l Oranskaya, I, P. TITLES Comparative evaluitLon of the passLvatLon methods for magna-, ;UITAU alloys !SOURCES MezhvuZovskaya konfarentsiyo po anodnoy zeshchite met:llov ot korrozii, lot, Kazan, 1961* Anodneya tashchita metalloy nodic 1protection of metals); doklady* konforqntsit, Moscowp Izd-vo ~Mashinostroyeniye, 1964, 461-471 TOPIC TAGSs magneslum'slloyo HAB alloy, ca'3ting ML5 alloy, ASTM AM alloy, alloy passivation*# electrochemical,passivation, chemical passi I .- vation iABSTRACT: The chemical and several electrochemical methods developed lin the Soviet'Union for forming protective films on wrought magnesium IMA8 alloy 11,5-295% Hn, 0,15-0935% Cal and casting magnesiuu,MLS 1alloy (ASTM AZ80J.have been evaluated@ Alloy specimens with protee Itive films formed on them by various methods have been tested for corrosion in a 3% NCI 'eclutionl,,.,vaar-re.sistance,and alasticitys ',Card 1/2 Me  'ACCESSION NRI AT.404 3089 absence of a single isults of the comparative evaluation shoved the luniversal method capable of producing.protective films with identicaAl- optimum prop~erties for various-magnesium alloyse In generalg protec-i Itive films obtained by the electrochemical methods have better prop- erties than chemically produced films.,:' Filling,the films by immersing them for 30 'min in a boiling 5% potassium chromate solution jpprecLably improves the protective properties of 'the film$# regardl a f the ,method by which the films wars, obtaineJo "OrIigs afts has',' figuie'#~ and 4 tables. ASSOCIATIONs hone SUBMITTE01 11Mar64 ATD PRESS, 1011 INCh, 00 SUB CODEs MM# IE AO RZF SOVI", 010 OTHERt ~.'001 C..,d 22 7  ACCESSIM DR: AP4032X* .. .... p/ OOW/6 4/03T/004/0819/0823 AUTHOR: P&ve1kLn&jp,V* Pj Bogoyavlen'sldy TITIE-. The heterogeneous structure *p of the awAic oxid; coating on. aluminum detexminedL by Its chemical analysis! SOMM 2hurnal prikladnoy ithimig, v. 37, no. 4. 1-0&, 819-M3. TOPIC TAGS: aluminum oxide coating, aluminum., anodized aluminump chemical analy-- sia., quantitative analysis., crystalline aluminum oxide coatingp amorybous rauminum .oxide coatingp solubility.. caqplexon III ABSTRACT: Chemical methods for quantitatively determining the amorphous and crystalline form of the aluminum oxide coating on anodized aluminum verd worked out. The coatings were freshly formed by anodizing aluminum foil in H~ !I ~' electrolyte under standard conditions; isolating and washing to remove residual - 1, *- sulfate. The analyses am based on the solubJ-Uties of the two forms of alumim= oxide ia different reagents. Both the amoryboua and crystalline forms are solubla at 90-95C in a solution of chromic anhydrlde (20 gm/1) and phosphoric acid'(35 m1/1) (A. Ve Shreyder.. ZhM =i 1,, 84,, 1957). Crystalline aluminum oxide i-s bard  ACCESSICK NR: AP4032502 insoluble wbile amorphous aluminum Oxide dissolves on boiling in a solution of cupric chloride end ammonium chloride (saturated when cold) (Z. S. Mukhiaa., Te. 1. Nikitina i dr. Metody* Anal I za, metallox i splavov. "Methods for aaalyalng met&U and alloys"o Oborongizs 3758 1959)9 Amorj~houo aluminum oxide dissolves,* as does the aluidnum hydroxide., in a solution of complexon I11, Hence the isolated anodic coating may be boiled in a 0.05 K complexoa = solution, filtered free of the crystalline aluminum oxide precipitate,, tit-rated vith ZnSO4 In the.presence; of acid chrome dark blue. In the samples examined the amorphous and c'rystall~w A120 constituted 81-85% of the coating'o and the remainder is believed to be -ions and chemically cmbinedL or adsorbed vatere Coatings'fron il anodized in chromic or pbosphorio acid, or the unioolated coating from anodized aluminum AD-314 contained only the amor9bous form of A12 Origs. 030 art. has: 2 tables and. 2 equations.. ASSOC=CN: Ka--Wd avlatsionny*y Inatitut (KaxonAviation ZSCL. 3WU:162 00 DAn A0q: 11X&A SM CMEt 'MKP GO NO low 101M W9 OMMS 004 L;l 7-n ;/A - --L.- ~  BOGOYAVLENSKIY, A.Fe; BELOVI V.T.1 KOZYREV, Ye.M. Study of the sozption properties of the anode oxide film on aluminum by the tracer technique. Part 4: Sorption of inorganic anions as a function of their concentration in solution, Izv.vys. ucheb,zav,; khim.i khim.tekh. 7 no,61962-906 164. (MIRA 18-5) 1. Kazanskiy aviatsionnyy institutt kafedra khimii.  - ----- -- --- -- 21 ACCESSION NR; AP4043765 S/0080/641037/0081174311748., AUTHOR: Bogoyavlenskiy, A. F.; Belov, V. T. ........... TITLE., The role of the nature of anion of an electrolyte-cbarger in the settling' -process of an anode oxide film.on aluminium SOURCE: Zhurnal prikladnoy khimii, v. 37, no. 8, 1964, 1743-1748 TOPIC TAGS: anion, electrolyte, anode, oxide, aluminium, charge oolution. sulfuric :acid ABSTRACT: The purpose of this work was to establish the character of clogging of film pores during the settling 'process. In the capacity of charge solutions the. following potadaium salt solutions were u9edt K2Cr 07 04t 1K2GrO4, K2504 and 8-5. i.e. it correspond the The pH value of the charge solutions equaled 4. ed 0 maximum sorption capability of the film in the area of its lowest solubility. Anode oxide films were formed on aluminum samples of the AD-1 type'in a 20% solution of sulfuric acid at 200C over a-period of 20 minutes. The current density was 1 A/ 'de 2. The samples were then rinsed in a vessel with distilled water until the ions 0 2 4 - disappeared from the water. After an aging period of 15 hours in-an exsic- cator, the sulfuric acid was supplemented at 951C with 0*1 m of solution of the Card 1/2  ACCESSION NR; AP4043765 iabove mentioned salts, marked by corresponding radioactive isotopes (chromium-51, -sulfur-35', phosphorus-32). The charged sampLes were further processed in a mixture containing 45 mg/1 orthophosphoric acid and 2 g/l chromium anhydrite. The results have shown that in process of charging the film in sulphate and chromatic solutions the corresponding anions hinder insignificantly the swelling process. An the dura- Ition of the charging period increases the pore openings become more and more con- ,Itracted and it becomes difficult for the reeolving mixture to penetrate into the :pores. The authors concluded that the duration of the charging period of an anode film in phosphate solutions has an extremely ~noignif icant ef f ect on the durability !of the film. In the case of chromatic and aulpbatic charges the resistance of the % Jilm toward dissolving increases considerably, Orig. art. has: 3 figures and 11 table. none SUBMITTED: 28Sep62 iMCL: 00 SUB CODE: GGS MH NO REF SOV: 014 OTHER! 003 Card 2/2  F, :r= SMAR-i 04043087- S/0000/64/000/000/04-40, F16 AUTHORi (Doctor of chemical aclences, Profas--~' sor); BRrod a _Kj- TITLEs Some peculiarities of the anodic behavior of titanium and Its alloys in sulfuric-acid solutions SOURCEi ~ezhvuzovskaya konferentaiYa Ro-anodnoy sashchite metallov ot korroziis Istp Kaz4n, 19 'nod aya zashchita metallov (Anodic~ 0 a .4 nrotogtion of metalsij k0nferentsii. Moscow, lzd-vo Hashin-4 ostroyeniya# 1964, 440 446 TOPIC TAGSs titanium' VTli%jtanjum) VTSD titanium alloy, titanium anosizing, titaniun all =yano4ixinBq oxidation film comp'osition, oxidation film property,-oxidation film ABSTRACT: The effect of the applied voltage and time of anodizing on the properties and composition of films formed on Vr-1 comnercial-~ grada titanium and VT-5D titanium alloy (4o5-62 Al, 0.3 max% Pot 0.15 max% Si, 0.05 max% each 0, C, H* and N) has been investigated. Anodi2ing vas carried-out in a.20; sulfuric-acid electrolyte at 20C, card 1/ 3  at a current density-:of 0.6 a/dm2,9 and at a voltage of 5 to 60v. . The maximum time of anodizing was 15 min. It was found thnt to each value of the 'anodizing voltage, a specific film color corresponded. With increasing voltage, the film thickness Increased, e.g.. from 0.3 to 1,7 p for an applied voltage of 10 and 50v, respectively. Films formed at the SAM VOItAge VOTC thIcker on VT_5D9allOV than were those on VT-1 titanium. Film thicknesi; increased --ratE& rap'Idly during the first 3-5 min, and then more slowly. The film appear5 to be a Con- 4 Plax mixturO Of TiG, T1203, and T102 OxideB, whi:h is formcd not only by Dimple superimposition of the oxide layers, but also by some inter- action between them. Anodizing almost completely protect;d titanium against corrosion in a 100-hr test In 40% sulfuric acid at room tem- perature; it was, however, inadequate for protectiag titaniu-n- iti 70% sulfuric acid or in 102 bydrocbloric acid. With an increasing volt- age, the tota! amount of sulfate ions in the film increases, while their p ere ent content decTeasea. This is probably because sulfate ions are adsorbed only by the outer layere of the filn ond do nor penetrate the deeper layers. Orig, art. has: 4 figures and 2 tables. ASSOCIATIONs none Corti 2 1   BOGOYAVIE14SKIY, A.F.; BEWV, V.T. Nature of the anion of an electrolyte-fillor arod i ts lp---"O~~ irl the process of Colidensition of anodic oxido film on ahrnilhu:-'~, '71-ur. prikl. khhl. 37 nof:1743-1748 Ag 164..  -ITL-:: Anodic oxidation of aluminum-with application of an ultrasoni-c field SOURCE: Zhurnnl prikladnoy kbimli, v. 37, no. 10, 2256-2262 oxidation, al TOPIC TAGS. anode film', anodic uminum oxidation, ultrasound, anode film structure MiTAACT: The Purpose of thid work was-to study the Influence of an ultrasonic Leld on the microscopic hardness, porosity, elasticity, and structure of the a,,ode film formed dUTing anodic oxidation by the sulfuric acid and carbonate methods. The ultrasonic field employed bad an intensity of 2-2.5 W/cm2 and a frequency of 23,000 cps. The samples to be anodized were made out of D16TA aluminxmi. Cathodes of lKhl8N9T steel were used in a 20% solution of sulfuric acid or 5% solution of Na2CO3- It was found that ultrasonic vibrations do not appreciably affect the mechanism of the anodizing process at a current density of 1 A/dm2; at 3-5 A/dm2, the sulfuric acid method made it possible to prepare good-quality oxide films without the disadvantages usually associated with the Ccid l/ 2   VJ',~/JD 7 7 ACCESSION' NR- AP5000513 8/0080/64/037/011/2531/2533 AUTHOR t _Do&Qyav1ensld_y, A.F.,-:Oransk ya, 1. P. 10 anode film as determined by the TITLE: Incorporation of oxidation~:cathanion Into M6 method of labeled atoms 1A SOURCE: Zhurnal prikladnoy.khImfl, v. 37, no. 11, 1964, 2531-2533 TOPIC '1"AGS- anode oxidation, anode film, magnesium alloy, aluminum alloy, magnesium o 'de fily ,o n, anion incorporation, phosphate incorporation, sulfate Incorporation, Cleo- trolysis /1 61 ABSTRACT: Anode oxidation or,magnesium alloy (DIL-5) shects iwis c-arried out in a solu- tion containing 55g/liter Na011 and 35-g7Fit-er Na3 P04. To the prepared electrolyte, P32 was added as trisodiumphosphate and the reaction T.Nras carried out at 70C and a current of 1. 5 A/dm2. After wddation, the samples were washed to remove free P04-3 ions and the samples were dried and counted. The counts obtained showed increasing racb.oactivity in the samples, indicating that there was binding of phosphate ions by the oxidized anode film. Since they could not be washed away, theT.V is a strong union between the Mro. The relative content of electrolyte anion in thin films reached by weight, but as the oxide film increased In Mckness the relative content of phosphate ions decreased, reaching Cnr,i 1/2   L 25297-65 j'-.J'T(I)/~`;T W/EVIA (d)/T/EWP(t)/EWP W R'Yii'/JD/WB OCIES-SION INRi AP5002175 S/0032/65/0131/001/0079/0080 AUMORS.- Bogoyavlenskiy, A. P.; Belov, V. T. A~3 1.11ITILB. Correction coefficient for volume of yores in calculating anode! thielme9B 2 SOURM. zavodakaya labDratoriyaj v'f~ 319 no. 19 1965, 79-60 .10PIC TAGS: anodic protection, aluminum oxide, electrolytic plating, plating ABSTRACT: To determine acvarately the thielmess of 11 0 anode films by the weight 2 3 method, it is necevaa;x-.f to intro-auce a porous volume correction factor KI. (V + V nto the equation for the film thickaeas /,,L- (P-K)/d-.c, (where B pod/71B :L ~d 4. ~.F uIreight of anode oxide film, specific weight S - area of metal covered by V porou The poroaity of the film can ~film' Vz 0 804.1m1 film irolume, por a volume~- be determined by filling -the pores with a fluid and r7ei" the aM. ount of f luid required. Irinen the thielmess of the film is given by /t - P/d + gl-,-' )/S (whereg and ? Exo the weight and apeoifio weight of the filler reapoatively). To chqok the nooesaity ol a correotion coefficient* the anode (Lxido film thickneos was measua-ed by both metboau for a large range of formation parameters (2&,,., H2so 41 20C, Cord 1/2  ASSDCIATIO21: Kazmekiy aviatsidWy inatitut (Yszan Aviation- Inutitute) SUBlaMUM 1 00 NO REY SOV 01 corld, ~2/2 ENCL: 00 SUB CODEj OTEER 002  -ASm-4- b ip(, M AMMIOI IMS AP50170.91 UP/0032/65/0I/W7/083J6/d32 62o.i97 AVMA j VO To I TTofinov, A. A.; Shiyullmm, Aq; vagina, I* A. I L'Vmj -0 --1, -J. Delay TMXj Wok MtW of e"lusting Us protective propertion of anr4ie oxii-te ri3zgl~ on alumim A SOU=j UTZ" laboratorip, V. 31, nos 7s 19659 816-818 TOPIC VMI Anodic Odd* Wno wdde Mai galvanic circuit, electtro3,vte electrowtive force, protective MW VUH electrolyte (solution of p-atassim bi- !"hr=t a iz sulfuric acid) 'AWIRAM The auttors deseribe- A metbod they dwnloped for the quick divt=zd=tj of the protecti "ice of adds fl3m an al-saimm, based an utillsing tbe. O.M.f. of the alminva jelectrol7te solution Iplatinum saivrmlc eircuit. IM-a Vret.- rAmes of an oxide filia on alvaimum prmato -the ri#e of an Cm usirg an electroIrte that disintegmtes the anode film Us prote-ctive propmrtiw of tbla rilm can be dirtarmiued accordirg to Utt tim Inotant at wMeb a u;Kmifit a.m.f. arises in tba eircult. A series of different eloatmlytoa wag tout-a-I *~st. A drop- owd :0  L 2, ACCWICI 0: AP5017091 let Of eleCtro2stib SOIUti*D I (see figure) Val deposited on the purified and do- t"ased surface 2 of bon-anodized aluvilrm so as to Izaerse part of the vertically Positioned 'Platima VIre 3 in this droplqt* Wire 3 is linked to tbie speelmen b7 external circuit 4. The platinum vire v&a fattened on plexiglan 'bracket 5. Of the electro3yte solutions tested, the VM electrolyte (25 cc MI (ap. gr. 1.19), 3 11 XArabp 75 to 1120) Proved to be the most suitable. The netbod was -ftrified vitb the aid of anode-forned oxide films on aluminum in a sulfuric acid solution and empared vitb the reaults of the custom-scry visual determination based on the presence or absence of green color in the droplet. A epe-cia-1 tist indi'-aler, trig- gered once a specific e.z.f. &rose in the circuit, vas used. The tabulated find- izp In4l*atis that th* ympond metba(l 'is definIttly actert"Able for cc=. arat-Tre sp-4. prals&I of the protective features of anode film. This method not anly redinces eat to Inz 'I=, compared vith the 4roplet color test, but also is more preciza =d objective. Orig. art. hass 1 figure, 3 tables. ANXIAT103i Xazanokly aviatsioaW Institut (rusal Aviation Lastitute) SbIger=: 4D0 INCLi 01 SO COMM M, 'rN U HEY SOV: 0M OTM J 000  BOWYAVIENSKIY, A#Fsi MATYAZH, N.N. Proo e110' inclusion of the [Ag(CNS)2)-1 anlon labeled with an Ag isotope into a forming anodic rxIde film on aluminum. Zhur. prikl. kbimt 38 noo4t952-954 Ap 165. (MIRA M6)  BELAIp V.T.; WMEV, Ye.14. Study of the sorption properties of an anodic ocride film on al-minum by the tracer math-A. Part 5-. Effect of temperature sorption as dependent on the concentration of solution filler at high temperatures. Izv. v7s, ucheb. zav.; kl-dm. i khim. tekh. 8 rio.3:407-410 165. (MM 18:10) 1, Kazanskiy aviatsionnyy institut, kafedra khJnii.  Big 7-,F- 7 t 1AMSSION RR: AP501352.1 UR/0076/65/039/005/1106/A'.111 541.6 AUT14OR: ~~av~len)j~, Belcrv V. T. Va Lin .3_1 L C T ITLE -Hydration of ano4lc iD vA-d e 'f~L In0 ()f I JTL gluminun, In aqueoug t;ojutjc)'jS Tj~ lorganic salis 41 :~SGURCE: 2-hurnal fizicheskoy k1himii, v. 39, no. 5, 1965, 1108-1111 TOPIC TAGS: aluminum oxide, hydration, anorlic oxide film. ABSI'RACT: The volume of hydrogen form~ed by interacting wa?er arzd hydride was -measur-ed to deter~,Pir~p the Water conient of alv_-di c f:)~. .with water at 951C in sodbivin 1~ , ij~c~hjomate' S131fato, and pbo'qph-111FL 2 "'no It, 0ill tbp or'ler of th(A-V efroct all hydrati-l ')f When the fi Iris are F i i 1 c-1 t'- sorbed phosphate !on increaGes with the co-, cc nra A in the solution, end the water content decr4-_ac;es. I n watpr contpnt of thp filled film depends only silghr-1v on, ",~o Card 1/2  7- 41 1.1,C] SS1014 AF5013521 -Ebe t nt~' i ob - 'tion, but 4a er CQ nt ncreases w1th rining concentration. In sulfate a d tions, the water content of the film increases with the concentrati-)T,. -f s C 'L on, t*,e sorpticn of the sulfate im either promot- -r 6,~-.- jwiz1h t1"-;e ev'sv.-Pticn of water. Differences in filling conditions have a pronounned effec+ on the state of the surface of the anodic film; the scrr)*'~~,v ani,)v% -of film are variolisly affecte,!. Orig, AT kazanskjy .3vi-atqionnyy institut (Ka-,an i -r-, T:~~: S U'D IT 12 D 3 ENCL: DO -2 OTHER: 10C, Card 2/2  Pin 4325 SOURCE JH ~.~L'HORS: Bogoyavlenskiy, A. F. (Doctor of chemical sciences, ProfeBsor); Sham9a, S. I. none YITY-ji Preparation of enamel anodic oxidative coatin on aluminum and its alloys SOURCE:-+Kazan. Aviatakn= institut. Trudy, not 70P 1962. AviatsioZiaya tekbnologiya i organizatsiya proizvodstva (Aviation engineering and organization of production), 22-31 TOPIC, TAGS; aluminumi alloy, protective coating, anodic oxidation / AD-:1 aluminum 1 al', oy, Di6T aluminum alloy, AMts?1 aluminum alloy# Ematale"4--k;'. ABF-"lj%CT: 'esults of preparative and testing studios of anodic ename.1 type coatings ,on alwnnum and its alloyn are reported. The preparative process consists of two 1) preliminary treatment of the metallic surface (deareasina), and 2) anodic ~oxi6ation in the presence of saltn of titanium, thallium, and zirconium, which yields pi-nduct coverld wittk, the "~ha*111 contina. Kinetics of the process has been studied in . L10YEt- A 0--1,XbD16-T-'k%nd Alltn)~ at varioun temperatures and the protective indices of .~ :rx%talY?coatin[;s have been determined. The "Ematal" coating is 30-50 times thinner "11d 3-10 times-I-10itgr than the usual paint and varnish coating. The "Ematal" cnatings are highly resistant to corrosion and abrasion (see Fig. 1), are very elastiot iand have poor electrical conductivity. It was shown that the pH of the electrolyte I-Card- 1/2  L 36097-66 - ACC Nk AT6014325 AD Hard anodizing I'Llmatal" coated Hard anodizina AM t am "Ematal" coated Hard anodizing D16T "Ematal" - coated Pig. 1. may be safely increased to 3. The disadvantago of the method is the high cost of the components of the electrolytic bath. Oria. art-hasi 'I riGnwea. SUB CODFt It/ SUBIT DAM 15My6l/ ORIG RM 002 Card 2/2  L 4684o-66 ACC NR: AT EWT(l)/EWT(m)/Ee;1P(t)/ET1 Iip~c) -1 SOURCE CODS; AUTHOR: Bogoyavlonskiy, A. F.; ]~~h~v- I D", 00001651000100010126101W ORG; Kazan Aviation Institute (Kazanskiy aviatsionnyy Institut) TITIZ; Testing of filled anodic oxide films on aluminum with cathodic current in a rd'ric acid solution SOIBICE; A;i :35-53R. Mdelonip obohohey i tokhnichaskoy khimli. Zashchitnvyo notalli- cheskiye i oksid;We polcrytiya, korroziya metallov i issledovaniya v oblasti olektro- Uimii (Protective metallic and oxide coatings, corrosion of metals, and studies in electrochemistry). Moscow, Nauka, 1965, 126-12,3 TOPIC TAGS: anodic oxidation, aluminum oxide, dielectric broakdown ABSTRACT: Cathodic current was used to evaluate the comparative stability of oxide fil-ms on aluminum, uhich were formed anodically in sulfuric acid solution and filled: with solutions of sodium phosphates, sulfate, dichromate, and chromate with an anion concentration of 0.1 moWl, and also with dintilled water. The solution tomnerature was found to be a major factor in the filling of the aluminum films In dichromate- chromate and sulfate solutions, but not in phosDhate solution. "lie filling effect in water surDasses that in sulfate solution, but is less Dronounced than in dichro-mate- chromate solution. Based on testing with cathodic current in a 2~~' M03 solution, the L comparative stability of the anodic oxcide films filled at 50-950 in aqueous solutions 1/2  L IiOlw--66 ACC NRi of inormanic salts in the range of DH 4-5-5.3 can be exmrossod by the series (AF anodic film) AFNa2Cr2O7/Na2CrC4 > AFH20'> "Ea23C4~' AFNaH2PQ4. The stability of films filled in phosphate solution is comparable to that of the other filled fil:ms only at low filling temperatures. Orig. art. has: 2 figures. SUB CODO: 109/SUBM DATE. 06Dec63/ ORIG REF: 004/ OTH nW: 001 blg  -T 4'i ~ .-IS ~' 1 7 'T F)p D - H V., k6 6 WTk V E'NT( yj/S%'P( v V 21Z 0 /STj/S'4J h ACC. NR, x1bo24969 SOURCE CODE: UR/oooo/65/ooo/ooo/oi28/o1, AUTHORs Bog avlonskiyp A. F.; Oranskaya, 1. P.; Shllni~l G~-V- 'g 44 ORG: Kazan Aviation Institute (Kazanskiy aviatsionnyy institut) TITIZI. Effect of temperature, current density, and oloctrolyto concentration on the conDosition and structure of anodic films"on I,M,5 ~Uoy % - - Iq SOUICS: AN SSSR. Otdoleniye obshchey i tokhnichoskoy khimii. Zashchitnyyo motalli- choskiye i oksidnyyo pokrytiyaj korroziya motallov i lssledovaniya v oblasti elektro- khimii (Protective notallicend oxide coatings, corrosion of metalsp and studies in electrochomistry). Moscovi, Nauka, 1965, 12&131 TOPIC TAGS: magnesium a3loyp phosphatep anodic oxidation, th p 2 41 A TRA T. sin 0 radioisotope, the authors studiedtho incorporation of elec-. trolyte io s (P 3-) in the anodic film on the 141.-5 as a function of n the conditions of the process. As the temperature rises above 600 the amount of Pa~_ incorporated in the film tends to decrease. Part of the PV_ ions become structurally incorporated in the film, and part are held by adsorption forces, and as the temperature rises, the quantity of adsorbed P043- ions decreases. As the current density rises, the relative content of PC43- increases, reaching 3% of the weight of the film; this is attributed to changes in the structure of the film (increase in po- rosity, true surface, etc.) caused by-high current densities. As the electrolyte con-  ACC NR: AT6o 69 contration incroases, so does the quantity of PCO- ions (tip to probably oiding to an increase in their adsorbed fraction. Orig. art. has: 6 figures and I table. SUB COD,,,'.- 07,11,6/sUBIM DATEt 16Doc63/ ORIG REF: 005 J7  L 01302-67 EWT(I)/EWT(m)/T/EWP-(t)/ETI 1JP(C) JD ACC NR, AP6002205 SORGE CODE: UfVO153/65/008/005/0753/0757 UVO AR: Belovs Ve To; Bogoyavlenokiy, A, F.; Kozyrev, Ye. M Khristoforo V. A. F G: Kazan! Aviation rnstitntes, Department of Chemistry (Kazanski3r aviatsionnyy in- itut# Wodra khimi ) ~1 1~ TLE% Investigation of the sorption properties of anodic -oxido f-ilm on aluminum* Electron microscopic study of anodic oxide films on aluminum after M-Ung IVUZ. Xhimiya i khimichaskaya tekhnologiya, ve 8. nos 5. 1965p 753-757 :C T&GSt anodic oxidationt alumr, electron microscopy !RACT-. Samples of aluainum-AD-l, 18 =2 in surface, were degreased by acetone and jected tq anodic oxidation for 20 minutes in 20% H2SO at 20C at a current density.* amp/dm4, After washing in di5tilled IL ,0 and drying & a desiccator over " SO aria oxide film weighed 0.155 g/dm . had a -Ehiclmess of 5-~L4., a porosity of 15 mined 15-16% by weight of sulfate iors. Filling of oxide films was made in distill- 1~0 and in 0.1(kisolution of sodium phosphate or chromate at various pH* The elecbm - -oscope studylWas wade from lac and., in some cases., titanium replicas.6 The reaction ;he oxide film with H20 at 95C caused a noticeable swelling and an intense hydration -h narrowed the pores and changed the observable relief of the film surfaces The I--  L 01302-67 ACC NRo AP6002205 chemical-sorption reaction of the film substs .poes with anions of the inorganic solution' finerresulted in the formation of dense chemical-sorption layers, decreasing notioeab,4 the swelling affected by H 0. In addition, the phosphate and chromate solution-fillers,, 4hich reacted with film su stances with a 1& dLssolving effect (pH 4.5-6.5)., somewhat 6moothed the frontal surface of the film in the most protruding placese The exposure of ilm to air at noG did not change its surfaces but exposure of film to 3300 brought ut the deformation ofthe film surface* Mdently the decreases in weight, observed bo ~ both eases., were caused in the first case by the liberation of adsorption water from res., whereas in the second case it was caused by the dehydration of oxide and removal f structural water. The data obtained substantiated the theoryp advanced previously, Ff ~n the prew-nas of dissolving, hydration, and sorption of anions during filling of film- in aqueous solutions of inorganic salts* It was noticed thatj during filling of films ~n solutions of Na phosphate,, hydration was smaller than during filling in bichromate - plaromate solutions. The paper was presented at the Fourth All-Union Conference an Electron Mcroscovy (IV VsesoYuznoYe soveshchaniye Po electronnoy mikroakopii) held at 90 C CoIxt U20 M DATE: 09Sep63/ ORIG'REFt 004/ OTH RF.Fz 002 7 - /SUB  0- /62/270'5/27-d"l ACC NR; AF7003141 SOURCE C&EI UA/0 80M/039 AUTHORs. Bogoy&vlan!;kiy, A. F.; Bolovo V. T. ORG: none I I- MTLEt Filling of anodic oxide film on aluminum in aqueous solutions of certain in- organic salts ands .its comparative effectiveness SOURCEI Zhurnal Frikladnoy khimii, v. 39, no. i2s i966j, 2705-2711 TOPIC TAGSt Aluminumt anodio oxidations surface film i ABSTRACT: Continuing their stucbr of the mechanism of filling of anodic oxide films on aluminum in solutions of inorganic salts, the authors found that during such -fill- ing the anions have different capacities for penetrating the film and for desorption. It Is shown thel, SUlfAtO ions Which have penetrated the film In the course of its~ formation pass into the filler solution in negligible amounts and do not determine* the sorption of the anion of the solution. It is concluded that no single mechanism 'of filling of the anodic oxide film on aluminum can be proposed; in each individual case, the mechanism is determined by the nature of the filler solution, condition of the surfaces and conditions of the filling. Filling of the film in solutions of phosphate salts contributes*r9latively little to an increase in its protective properties, but in solutions of sulfate and chromate salts improves the protective properties of the film. Authors e3cpress their thanks to Ye. M. Kozyrev and 1. A. 'Vagina for their par- Card 1/2 UDC1  ACC NRc APW;031411~ ticipation in the experiments. Orig. art. hast6 figmvs and 2 tables, SUB CODES 07/ SU~H DAM l3D9c64/ MM IUWs 012, Ccrd 2 /2  BOGOYAVLENSKIY, A. N. "on the Kinetics of Development, of tndividual Grains of a Photographic,Ehulsion.," Acta, Phys, 16, Noa. 5-6, 19V Dept. Colloidal Chem.., Moscow State U.  ky ~1 of the Nwil"amch Wittes. IA, X. Irkaskil. 'Trwy last a Akad. Xk C 12, 161-7.5am),sm 1 front different depths I*= obtatsed, and 0, Phosphates, iO.,aTk.teservv,n1trjte5 '&ndia"Uti=tjkncegnitmteswmdetd- Top-h~Trwat;; '(Wing 00 sn'. deep, am gently affeeletj by, Ahe Morale activity and ttmp, Ittf ore the befatt 0 00-Irtf the following data. wei,6 obtained- 0 7.8- :9 0 cc AM ft phoiphmm 50 Mg.tc". in., S: as Si A L42.1ru. ;~.#, Of < SM, alkall/Cl coeff, less than p.ps, Whkb cOrmponds to an alk. reserve of 2.27-2.2-9 ~wf4JIODD cL.. nitr2te N130D-350 mg./cu, M., nitrite N 3.0-3.5 Mg./cu. in., Co~ privistue about 4.Q X 10- 'After the flo"tring Period begant 0 ifiefcatcd up to I JOC1%; -,P&ndSlwcttdOvjhto2OandlOWrri;. In some plaes p O&OPthred en*irtl)' and Si dropped to 2W mg. The PIT raft to 8-2 'Ind s0ructim" to 8,53; the aik. reserve mas above :2.30 meq./1000 cc., nitrate Jq was do%yn to 20 Mg./cu. rn~ A decr-case in nitrites ir~ top layers and Pit increase lower' down, W-100 m,, wal noted. COi was doivil to 1~0 X to" 2tvk- TheRchang" were found at n depth ofabout 40 M. On the! basis of the above dat.% (losses of C(~.. P. Si, etc.) lit was possible to cAe. the blogtnic productivity for I mioAth, Mntc the ratio% of C, Si, N, a"d r are very clcme to thm in"I'd through analvsii of diatomic Planktons. The productivItY is hi&h when Compared whis thitt of othcr aelfic.areas. Tlieittcrcn!wcftlkv.isitio~tpmbably dite tion of cwbonatcs. No mgnincant aangcs were fQund ii, the so-called cold intcrmedlatcla~rr L,~ftndio;: flowta m. A diffttnt pkture ts IntscitICA by thtat!3,~hnzlr stretchiiij tiomn to V) to.. the Fo-attle, I wam iulterme6i'~te.* '0 0.5 te.A000 Cc., P 85-Q5 mg./cu. M., Si tng.t, tts. m., PIT Is down at ,eme places to 7A alk-~ re~,-r" Z.45 meq./1000 cc., M Pressurc 10 X 10_4~ The N-Auts Of ~4. OnthLbwisoftb"Ie 0. F, and Of vary with the semon, ' tions it was pos,,ible to cair, the vOkxity ot thev-mer vnna llow 2 Cm./scz-. flit o%dL ur VertICA interctiLge 3 sq. em." see.. and the velfvity of 0 absorption 0.4 c-,/yr. 1-urther '100 CC dowil, 850 to 3OW m., 0 is Op to 2-2-5 CC-ill - P "q down to TO mg./cu. m., Si rcacbe.% a 01 4500 M9,1 cu. m.. pH is tip to 7.S5. nod t%lk. reserve v-aric!q M. to netirly tinwit to tba bottom, diffen shasply fmat overlying luyi., (Iligheir letup., loweralkilli ,?C11 cmfl., And V content). Tim 10ATC-.1t StrittLm. btt%,ec,-% tlie battom and a fewten% of met&Sbova it, 511mvS a low Pcontent and att Te,ervt aml PH, Tbb. i% probably 6t -se tcs. alk abovt data ivlicn. livipcilv in't'Jr- preted May help to (!Litily the Timblent of the Oziq~a, t1anA- 10011ation. nild citc-11141, 11 of thc d"Cp lv3tm. 'JiO tile t mcchanihm aml swecd of the t~.at titc so!M tn,t i undergoei,  0~ o~ 3(5..7) P, V PHASE I BOOK EXPWITATION Sovetskaya antLrkticheskaya ekspeditelys., 1955-1958 SOV/2193 I'aformtsionnyy byulleten', VYp- 3 (Information Bulletin of the Soviet Antarctic Expedition, Nr 3) leningrad, Izd-vo "Morskoy transport," 1958. 102 p. 1.,500 copies printed. Sponsoring Agencies: USSR. Mininterstvo morskoy flot. GlavnoYL- upravleniye Severnogo morskogo puti. Arkticheskiy i Antarkticheakiy nauchno- issledovatellskiy institut. Ed. of this Vol.: F. V. Ushmkov; Hoop. Ed. t M. M. Somov; Editorial Board: A. P. Andriyashev, V. Kh. Bu~mitmkiy,, Is Me DoWn. S. V. Nalesnik, Ye. S. Norotbe-vich, 1. V. Miaksimov (Deputy Peep. Ed.), A. P. Nikollskiy., Me Go Favich, G. M. Tauber, A. F. Treshnikov (Deputy Rosp. Ed.), S. B. Slevich No. Secretary); Not Lo Go YaLplinskaya; Tech. Ed.: Lo P. Drozhzhina. PURFOSE% This book is intended for natural and earth scieqtists interested in the research activities of the diesel-electric ship "Ob4m in the Antarctic. It Card 1/8  Information Bulletin of the Soviet (Cont.) SOV12193 is of particular interest to marine biologiste, meteoroloi4sts, and geophysicists. COVERA(Z: This issue of the Thformtion Bulletin on the Sovie' . Antarctic Expedition reports on the fauna.found in various xegiona of the Southern 11--misphere., the hydrology and hydrochemistry of Antarctic and Marctic waters., and the geomorphology of the Antarctic shelf. The reports were read at the First Conference on the Study of Antarctica's Marine Fauna in December 1958. No references are given. TAWZ OF CONTENTS: From the Editor 9 Andriyashev, A. P., K. A. Brodskly., and P. V. Ushakov (Doctors of Biological Sciences], Biological InvestigLtions of thi Soviet Antarctic Expedition Aboard the Diesel-Fdactric Ship 110b'" 11 The fo1lowing research workers, associated with the Zoological lustitute, Academy of Sciences of the USSR, the Institute for Ocean- ology, Academy of Sciences of the USSR., the A3.1-Uhion Scientifi( re- search Institute for Fishing and Oceanography, and the Paleontological Card 2/8  InformtIon B111 tin of the Soviet (Coat.) SOV/2193 Institute Of the Aca&Mr of Sciences of the USSR,, took part in the ex- pedition: in the first voyage - A. P. Andriyashev, V. A. Arsen 'yev, G. M. Belyayev, K. A# Wmdskly, M, Yet Vinogradov, At X, Tokarev, and P. V. Ushakov; in the second vdyage - V. A. Arsenlyev, V. V, Barsukov, X. V, Beklemisbev, A. Vs Gusev, V. S. Xbrotkevich, F. A. Pasternak, and Yu. Ye. Permitinj in the third voyage - A. P. Andriyashev, X. A. Broclskiy, B. A. Zenkovich, A. A. Kirpichnikov, V. M. Koltun, A. G. NLumov, F. A. ftsterrmlc.. and Yu. Ye. Permitin. Moroshkin, X. V. [Senior Scientific Worker]* Hydrological Investigations of tbaSoviet Antarctic Expedition Aboard the Diesel-Electric Ship "Obl" 1T New data on the structure of the Antarctic divergence zone were obtained by Yu. A. Ivanov and B. A. Taxeyev, Bogoyavlenskiy., A,. N. [Senior Scientific Worker). Certain Peculiarities in the Phospbates and Silicic Acid in Antarctic Waters 19 Zhivago, A. V.,v and A. P. Idsitsyn [Candidates of Geological Sciences]. Bottoia' IbU&:r and the Deposits of the Southern Ocean 21 Card 3/8  Informtion. 3gulletin of the Soviet (cont.) SOV/2193 Brodskly.. K. A., [Doctor,of B*iological Sciences], K. K. Yjarkoy [Professor], and V. 1. Shillnikov (Junior Scientific Worlaer]. Zoning of the Temperate and High Iatitude Regions of the Southern Hemisphere 23 Brodskiy., K. A. Plankton Investigations of the Soviet Antarctic Expedition 25 Vinogmdov,, M.Ye. [Candidate of Biological Sciences],, and A. G. Neumov [Aspirant] . Quantitative Distribution of Plankton in Antarctic Waters of -the Indian and Pacific Oceans 31 Beklemishev, K. V. [Candidate of Biological Sciences]. The IAtitudinal Zoning in the Distribution of Antarctic PhytoplLukton 35 Icmkina., N. B.. [Candidate of Biological Sciences]. Euphausiacea Collected 'by the Soviet Antarctic Expedition 37 Vab,L]Wv,, P. V. Benthonic lbeearch of the Soviet Antarctic Expedition Aboard the Diesel-Electric Mdp n0b"' 39 Card 4/ 8  3hformation Bulletin of the Soviet (coat.) SavI2193 Belyayev,, Go M. (Candidate of Biological -Sciences]* Certain Regularities in the Quantitative Distribution of Bottom Phuna in the Antarctic 43 Vinogradova, No G. [Candidate of Biological Sciences]. The Problem of the Geographical Distribution of Deep-vater Bottom Fauna of the Antarctic 45 Zinovaq A, Do (Candidate of Biologiml. Seiences]. Composition and Charaato... er of the Algae Flom Near the Shores of Antarctica and in the Vicinity of the Kerguelen and Mlacquiwie Islands 47 Shcbedrina., Z. Go (Candidate of Biological Sciences]. Foraminifera Fauna of the Eastern Sector of the Antarctic 51 Gurlyanova,, Ye.Fo [Doctor of Biological Sciences). Amphipods of the Nkcquarle Islands 5~ Mumv, Do Vo [Candidate of Biological Sciences] and So Do Stepanyants. Hydro- ids CoLlected in Antarctic Waters 57 PJAtonova, To A. [Aspirant). &w&tod ftwuL of the Leptosomatidae Family Prom the Region of the Yergwelen Island 59 Card 5/8  .Miforviation Bulletin of the Soviet (Canto) SOV/2193 Andriyashev,, A* P. Ichthyological Investigations of the Soviet Antarctic Expedition and Certain Problems of Zoogeography ih the Antarctic 63 Martsinkavich, L, D. [Candidate of Biqlogical Sciences]. The Gall Composition of the Blood of Whitoblooded Fishes (Chaenichthyidaef) in the Antarctic 67 Andriyashev, A. P., Yu. Ye. Permitin [Scientific Wor1wrl. Preliminary Famats on the Work With the Isaacs-Kidds Variable-depth Trawl in Antarctic Waters 69 Gusev, A. V. ECandidate of Biological Sciences). Parasitological Research in the Antarctic 71 Arsenlyev,, '%T. A. [Candidate of Biological Sciences]. Study of Antarctic Wh&200 73 hbtkvich, B. A. [Candidate-,of Biological Sciences]. Observations of Wha2es During the Third Voytee of the Soviet Antarctic Expedition 75 Card 6/0  wormation Bulletin of the Soviet (cant. ) SOV/2193 Tvasbin,, M. V. [Aspimnt]. Mmtematic Position of the H=p-backed Whale (megaptem nodosa ialmdii,, Fischer) of the Southern Hemisphere 77 Norotbevich - j. Ze. 3- ECandidate of Geographical SaAnces]. Observation of Seals During the First Wintering of the Soviet Antarctic Expedition in 1956-1957 79 ArSen'Yev, V. A. Observation of Beals During the Voyage of the Diesel- Electric Ship "ObIn in 1956-1957 81 Kbrotkevich, Ye.S. Observation of BIAG During the First Wintering of the Soviet Antarctic Expedition in 1956-1957 83 Yudin, K. A. [Candidate of Biological Sciences]. Ornithological Collections of the Soviet Antarctic Expedition 89 Norotkovich., V.S. Anin-I Population of !Oasis" lakes in East Antarctica 91 (In addition to the author, the following scientists took part in collecting the biological datat G. D.'Rikhter., V. M# Kutyarin., and A. V. Gusev) Due 7/8  .laforwiation Balletin of the Soviet (Coat.) SavI2193 . 10atikova, L. A. (Candidate of Biological Sciences]. Potifers ftm2a From the o of East Antarctim 99 FdrIyanova, Ye. S. (Candidate of Biological Sciences]. Antarctic Preshwater Nbmtodes of the Plectas Bastian %mus (Nemtodes., Plectidae) 101 AVAILAME: Library of Congress - Mlf&l Card P/8 8 21-59  ,~K.OYMVkENSK~Ly Hin 'Rai :43ig Sf 'amis. AJ 0, wc 4 -03! R RIM I S:pa M-41 .., ft r0 - If VIM 1 Pi 01 01 0 ev i-M Ask  DWOrAVZUSKZY, A.K., starshly nauchnyy sotrudnik Distribution of oxygen, phosphates and silica in Antarctic waters. Inform.blul.Sov.antark.okep. no.3:19-20 158- (MMA 12:4) 1. Institut okeanologii AN SSSR. (Antarctic region&--Water--Composition)  J~-V A V~-E NS r\ 1Y, A PHASE I BOOK EXPLOITATION' SOV15463 lib Sovetskaya antarkticheskaya ekspeditsiya Vtoraya morskaya ekspeditsiya na d/e "Obl", 195G-1.957.gg.; obshcheye opisaniye i nauchnyye rezul'taty (Second Marine Expedition on the Diesel- Electric Ship "Ob"', 1956-57; General Description and Scientific Results) Leningrad. Morskoy transport, 1959. 175 p, (Series: Its: [Alaterialy] no. 5) Errata slip inserted. 1. 200 copies printed. Sponsoring Agency: Arkt.1cheskiy.fantarkticheskiynauchno-iss~edovatellskiy institut. Ed. (Title page): 1. V. Maksimov, Doctor of Geographical Sciences, Professor: Ed. : L. G. Kaplinskaya. Tech. Ed. 0. 1. Kotlyukova. PURPOSE: This book is intended for oceanographers, meteorologists, and hydrochemists. Card 1/6  Second Marine Expedition (Cont.) SOV/5463 COVERAGE: The present volume,.the fifth In a series of seven, is a collection of articles (except for tw0devoted specifically to the oceanographic, meteoro-, logical, and hydrochemical findings of the Second Soviet Marine Expedition conducted on tJ%c diesel ship "Oh'" (I. A. Man, Captain) during 1956-57. The first two articles outline the Expedition's organization and program, and provide a general account of its activities during the 223-day voyage, which covered more than 40, 000 miles of the Atlantic, Antarctic. and Indian Oceans. The expedition was sponsored by the Arctic and Antarctic Scientific Research Institute of the Glavsevmorput' Ministerstva morskogo flota SSSR Wain Ad- ministration of the Northern Sea Route of the Ministry of the Merchant Ma- rine of the USSR) as part of the Internat'tonal Geophysical Year program. Its purpose was to investigate 1) atmospheric processes in the Antarctic region and their effect on the earth's general circulation, 2) basic regularities in the distribution of waters in the southern oceanic zone. 3) exchange of the waters of the southern seas with the waters of the world ocean, 4) geological structure of the sea bottom in the Antarctic region, and 5) the plankton. benthos, Card 216  Second Marine Expedition Wont. SOV/5463 irlithyofaUna. and microorganisms of the Antarctic waters. Observations of the magijetic field of the earth were also made. The expedition, headed by Profcasor Igor' Vladlslavovich Mnkalmov, Doctor of Geographical Sci- ences and Professor at the Leningradrkoye vyssheye Inzhenernoye morskoye uchilishche imeni S. 0. Makarova (Leningrad Higher 'XIarine Engineering School imeni S. 0. Makarov), consisted of the following 8 scientific task forces: acrometcorologicnI (hended by Leonid Gennafifycvich Sobolev); hydrolopical Wirill Vladimirovich Moroshkin); geological (Alcksandr Petrovich Lisitsyn); hydrochemical (Alcksey Nikolayevich Bogoyavlenskiy); hydrobiological (Viktor Alcksandrovich Aruen'yev); geophysical (Nikolay Panteleymonovich Grushinskiy); geographic (Gravrila Dmitriyevich Rikhter); -ographic (Yuriy Aleksandrovich Gordcycv). A complete list of the and bydi names and affiliations of the 65 scientific and administrative members of the Expedition is contained in the first article. The articles were written by members of the Institift okebLnologii Akademii nauk SSSR (institute of Occan- ologry Academy of Sciencea USSR). Gonudarstvennyy okennograficheskiy insti ut Gidrometsluzhby &)SR (State Oceanographic Institute of the Hydro- Card 3/6  Second Marine Expedition (Cont. SOV/5463 meteorological Service of the USSR), Vsa;opznyy nauchno-issledovatell- skiy institut rybnogo IdiozyVstva i okeanografii (All-Union Scientific Re- search Institute of Fisheries and Oceanography), and the Arctic and Ant- arctic Scientific Research Institute. There are no references. TABLE OF CONTENTS.- Foreword Maksimov, I. V. Second Antarctic Marine Expedition Man, 1. A. Second Voyage of the Diesel Ship "0b"' Khromov. S. P. Atmospheric Circulation and Weather During the Course of the 1956-57 Voyage of the "0b"' Gutnikov, V. P. Synoptic Processes in the Southern Hemisphere Card 416 5 7 19 27 84  Second 'Marine Expedition (Cont.) SOV/5463 Sobolev, L. G. Work of the Aerometoorolokical Unit 101 Moroshkin, K. V. Hydrological Investigations 106 Moroahkin, K. V, , and M. A. Bogdanov. Results Obtained With an Electromagnetic Current Meter In the Indian Ocean and in the Southern Part of the Pacific Ocean 124 Alorozov, A. P. Observations on Sea Distp~bances 138 Gordeyev, Yu. A. Hydrographical Works 144 Tomashunas, B. Ya. Ice Observations 154 Bogoyavlenskiy, A. N. Hydrochernical Investigations 159 Card 5/6  ZINKNVICH, L.A.; BOGOTAVIMSKIT, A*.N. OceAnographic investigations in the region of the Xurile- Kamchatka Trench, Rar-JuV 1953. Trudy Inat.okean. 16.-24-" '59. (MM 136-3) (Japanese Trench--Oceanographic reaearch)  BRUYEVICH. S. V. ; BOGOTAUMiSK.TY, A. N. ; MaXiYXYSX&TA, T. V. Hydrochemical characteristics of the Sea of Okhotsk. Trudy Inst. okean. 42:125-L-198 160o (MIRA 13:10) (Ckhotsk, Sea of--Water-Couposition)  KWIKOV,, V.V.,, kand. geogr. nauk; M&OROSIZIN, K.V. j BOGOYAVLENSKIY, A.N.; NAZAROV.- V.S.; MAKSIMOV, B.A.; ZMAGO, A.V.i BRODSKIY K.A.; KOLTUN, V.M.,- ANDRIYASHEV, A.P.; PAKHAREVA, M.M., red.; KOTLYAKOVA, 0.1., tekbn. red* [Transactions of the Soviet Antarctic Expedition] Trudy Sqvatskoi antarkticheskoi ekopeditaiip 1955. Leningrad, Izd-vo "Morskoi transport." Vol .22. [Third Sea Fjq3edition ol the diesel-electric ship Obu, 1957-1958; observational data] Tratlia morskaia. ekspeditsiia na d/e "Ob'" 1957-1958 gg.; materialy nabliudenii. Pod red. V.V.Klepiko- va. 1961. 233 pe (MIRA 14:11) 1. Sovetskaya antarktichaskaya ekspeditsiya, 1955. (Antarctic regions-Oceanographic research)  BOG _j0GQXAVLUNSKI*y-P- On the Hydrochemical Strucutre of the Southern Ocean report submitted for the 13th General Assembly IUGG, (Oceanography) Berkelpy, California, 19-31 Aug 63  BOGOYAVLENSKIYS.-~ Distribution.of m7gen in waters of the Southern Oceans Okeanologiia.1- no.2*271-M '" 163. (MIR& 16f4) I-, JANAVAt okeanologii AN SSSRS - 110 t (Antaractio Ooean-Zea water-Oxygen con ".  BOGOYAVIENSKIY, A.N. Microbiological Indication of hydrologic phi-nomena in seas and oceans. Okeanologiia 3 no.6sllO9-1114 163. (MIRA 17:4)  ZHATIKO, O.N.-, BOGOYAVII.NSKlY, A.N. Change the structure of supervisory organizations. Stroi. truboprov. 9 no.1017-8 0 164. (MIRA 180) 1. Gosgazinspektaiya, Kharlkov (for Zhattko). 2. Spetsializirovannoye upravleniye pusko-naladochnykh rabot, Dikan'ka Poltavskoy oblasti (for Bogoyavlenskiy).  BOGO,Y.AVLEN.SKI.Y . . ..... #-,.N.. Ateproduction, of' results and the errors of' hydrochemical detei-min&tions in the oceans. Report No.l: Results of the second series of international comparisons (Intercalibration) of methods of chemical determInations in the sea. T- Inst. okean. 7904-48 165o Reproduction of results and the errors of hydrochemical determintitions In the oceans. Report No.2; Fffect of water bottles on the chemical charne teri s tics of samples. Ibid.:49-59 Reproduction of results ant the errors of hydrochemical determinations in the oceans. Report Noo'3: Determinaiion, of dissolved salicie acid. Ibid.:60-68 (MIRA 18:8)  zi =K- IZCBIDOVN I Fedorovich; SIDOROV.P.P., redaktor; KOBOOT.Te.M., redaktor; BOOOrAYINSKIr A V. reteensent; KRASHATA,A.K., tekhnichmh~~~~' [Operating floating crane@ in city harbors on a cost accounting basis] Is opyta raboty ployuchikh kranov Gor1kovskogo porta, n& khozraschote. Moskva, U6-vo "Rechnot transport," 1955. 40 p. (Cranes, &rricks, eto.) (MIRA 9:3)  VUSMAN, Mikhail losifovioh. kande ekonom. nauk,, dots. [deceased) so - BOGOYAVLEN$KIY, Alikgandr Vasillyevich,- ASTASHKEVICHER, Yekhiyell Timfeyevich; BRUCHENK01 Ipatiy Savellyevich; MAKRUSHINA, A.N.j red.izd-va; REHMA; T.T., tekhn. red. [Accounting and the araLlysis of balances in river transporta- tion) Bukhgalterskii uchet i analiz balansa na rechnom transporte. Red. S.A.Makhlakb. Moskma, Izd-vo "Rechnoi transport," 1961. 269 p. (TnIand water transportation-Accounting) (MIRA 15:4)  MWYAVIZMKIYP B.A.;~ ZORIN, L.V. Somec problems concerning the erosive and accumulAtive activity of riverq-'and cartographic methods of its representation. T!udy Irk. un. 24t209-23.8 158. (MMA 34:7) (Rivers) (photographic iziterpretption)  BOODYAVLENSKIY B.A. Growth of the Selenga Delta. Krat. soob. BKNII no-1:39-41 '59. (Selenga Delta) (MIR* 14:9)  BOGOYAVLENSKIY, D. Moving-picture Projectors Transfer of oil-removing shields. Kinomekhanik no. 1, 1953 9. Monthl List of Russian Accessions, Library of Congress, May -1953, Uncl.  KALAKHOV. Z.S., kapitan 1 rangs sapasag SHAME DAN OV. A.A., insh.-kepiten I rang&; LOPATIN, A.M., kepitan i rang&; YIMIYANOV, N.V., kapitan 1 rana; B0G0YAVIXM1r,,.,.V.X.,,ksp1 tan 2 rangs; WHOMIXOp D.K., kapitan 2 rang&; VALIKOV, I.Ya., insh.-podpolkovnik; NOVOSILITEXT. 0.N,, kapitan-leytonant, BIRIKBM, M.Z., inshe; FAIZMp V*Gsp vitae-admirali obahcbiy red.; KMAROV, A.I., red.; STMMINIKOVA, N.A.. tekhp.red. (Practical seamanship~j Korskais praktika. Kosk7a, Vosn.1zd-vo K-va obor,86SE6 Ptal, 1958. 416 p. (KIRA 12:6) (Navigation)  'BOGOUTLENSKIT ID.M. Som peculiarities of analysis and synthisis in the learning process. Vop.pefthol. 2 no.2:64-73 Xr-Ap 156. WRA 9:8) 1. Institut palkhologil Akadeaft podagogicheskikh nauk RSYSR, Xoskya. (Learning. Psychology of)  BOGOYAUENSKIY, D.N. Processes of abstraction ana generalization in learning gra=ar [with summary in English]. Vop. paikhol. 4 no.4:85-98 JI-Ig 158. (MIRA 11-:11) 1. Institut paikhologil Akademii yedagogicheakikh nauk WPM, Roskva. (Learning. Psychology of)  BOGOYAVLERSKIY, D.N. Forming the methods of students' mental activity as the way to develop thinking and stimilate leatIft. Vop. paikhol. 8 no.4t 74,82 Jl-Ag 162. (MM 16:1) 1. Institut paikhologii Akademii pedagogichaskikh nauk RSFSR, Moskva. (Educational psychology) -  ACC N ARG027516 SOURCE CODE: UR/0137/66/000/004/IO84/1084 UTHORs. Bogoyavlonskiy, D. S. _MQM 4 ITLE:__5 -.Gtii~ -ion of tensile 'creep (t = 1800 in aluminum_magnesiy~ loys OURCE: Ref. zh. Metallurgiya, Abs. 4161 SOURCE: Hauchn. tr. Voronezhsk. inzh.-stroit. in-t, sb. 11, vyp, 2, 1955, 53-61 PIC TAGS: creep mechanism, magnesium containing alloy, metal deformation ANSLATION; Creep tests were conductbd in a lover typo apparatus on 10 samples of an g alloy at stresses of 840-1690 kg/cm2 and 14 samples of an AMS6_a4oy at stresses of 25-3600 kg/cm2. The AMg alloy was tested over a period of 100 d--'#)and AMg6 over a riod of 150 days. It was established that in structures made fra AI-Mg alloys, ope. ting fbr long times at stresses close to a., the creep deformation.may be consider- le and must be taken into account in the design. The fracture stress in the case of nsion under a constant load is decreased significantly with time, although for ac- al service periods it rwaine above %* L Tulupovas CODEt. 11,13 UDC.' 664.7151721:620.17 -------------  IL 3-1321-67, EWP(k)1EWT(M)1EWPJW WP(.~)/~TI LJP(5) )LE _ACC NRg AR6022i6q SOURCE CODE: UR/O137/66/O0o/OO3/1o47/J . ..... ~61 ~7 ; UTHOR: Bogoyavlenskiy, D. S. A TITLE: Investigation of in AMg6 Ialloy under compression and blaLin creep !SOURCE, Ref. %h. Metallurgiyr, Abs. 31312 REP SOURCE: Nauchn. tr. Voronezhsk. inzh.-stroit. in-t, 6b. 11, YYp. 2, 1965, 62-74 -TOPIC TAGS: creep, aluminum manganese alloy, metal defamation !ABSTRACT: Specimens of AMg6 aluminum alloy (M9-5.7%, Mn--0.514, Si--0.25%, FL-0.19%, I .Ti-0.03% and Cu--0.01%) were tested for creep under various types of stress (compres- Ision, tension and bending) amounting to 10-24 kg/MM2 at a temperature of 18�20 for 1 1 50 days. A formula s derived for calculating stresses in the stationary creep stage for any cross section of a beam subjected to pure bending. It is shown that creep deformations in the alloy under compression and bending are rather high (15-20% f the instantaneous deformations under compression and 5-10% under bending for 150 days which should be taken into account in designing structures for operation over rotracted periods under loads approaching the yield atresa. Defomation bQlow the ield stress in elements subjected to compression is several times greater than in ispecimens subjected to tension. Elements subjected to bending should be designed with ~,egard to the difference in creep indices under compression and tension. L. i Pordiyenko. [Translation of abstract] UB CODE: 11 20 1/1 bab UDC: 539-376:669-715  TIKHOMIROV, VA.; BOGOYAVLENSKIY, G.; SHTIL'MARK, R. Calendar of noteworthy dates. Mr-Ap '62. Geog. v shkole 25 tio.2:88-90 (MIRA 15:2) (Anniversaries) .jr  HMOYAVLENSKIY, 0. - "Belles lettres and popular science literature in geography lessons" by M.A.Solomovich. Iteviewed by G.Bogoiavlenskii. Geog. v shkole 26 no.L87-88 Ja-F- 163. (MIn 16:5) (Geography-Study and teaching) (Solomovich, M.A.)  1. BOGOYAVLE'~ZKIY, G. P. 2. USSR (6oo) L.. GeoloU, and Geography 7. News of the All-Union Geographical Society,(.Vol- 79, Moscow-Leningracip Press of Acud Set USSR; 190) ffivioviod by (11 It. IjOf"k)YI'Avb)I)"Ik:1'vP 3ov, KIJ-I"~tf No. ~Ij 191's. 9. FDD Report U-3081: 16 Jan. 19530 Unclassified,  1. BOGOYAVLENSKIY., G. P. 2. USSR (600) 4. Geology and Geography 7. New Books on Soviet Geographers - Explorers. Reviewed by G. P. Bogoyavlenskiy, Sov. Kniga, No. 11, 1948. 9. IPDD Report U-3081, 16 Jan. 1953, Unclassified.  , G. 11. BOGOIAVLENSKII, G. P., and others. Fizichaskaia geografiia. Progrway chteniia v pomoshchl samoobrazovanil-u.Moscow, Gosudaretvannaia bibliotAca 553H im. V. 1. Lenlm, 1949. 124 P. DLC.- Unelass. SO: LC, Soviet Geography, Part 1, 1951, Uncl. I  1. k'GCYAV`QISXIY, G. P.; SKRYABIN, M. P. 2. USSR (6W) 4. Geology and Geography 7. Nature of Voronezh District. By V. Zhuckhova. (Voronezh Regional Press, 1949). Reviewed by G. P. Bogoyavlenskiy and M. P. Skryabin. Sov. Kniga, No. 0, 1950. 1 9. FDD Report U-3081, 16 Jan. 1953. Unclassified.  WG0TAVWNSrTY, G, P. Geography & Geology Our country; a reading group in geography of the USSR Moskva, 1951. Pod red. P. G. Terekhova. 9. Monthly List of Russian Accessions, Library of Congress, June .195$2 Unclassified.  BCGOYMUIENSKIY, G. P. Some problems in teaching geography in schools for young workers and rural youth Geog. v shkole, no. 2, 1952  BOGOYVALENSKIY, G.f, "Reading circle in geography" Reviewed by G.P. Bogoyavlenskiy Geog. v shkole no. 3, 1952  BOGOYVALEN SKIY, G.P. "In the world of stone" A.A. Yakovlev Reviewed by G.P. Bogoyavlanskiy G,I~og. v shkole, no. 4, 1952  1. BOCOYAVLENSKIY, G. P. 2. USSR (600) 4. Geography - study and Teaching 7 Disseminating practices of geography teachers ("Practices of geography teachers not having carry-over pupils." Reviewed by G. P. Bogoyavlenskiy). Ollog B v sbkole no. 6 1952 M6hthly Ej2Ls of Russian Accessions, Library of Congress, March, 1953, Unclassfied.  yu. X. Geography - Periodicals New Geographical magazine (Bulletin of the Academy of Sciences of the USSR, Geographical Series) No. I - 3- Revised by 0. P. Bogoyavlenskiij Yu* K. Efremov). Sov. kniga No. 1, 1952 ~kv'('.ualk - ~') 9. Monthl List of Russian Accessions, Library of Congress, April - SM, Uncl. 1952  1. KOCHFMIN., P. G.; BOGaAVIMSM, G. P. 2, USSR (600) 4. Geology and Geograp1W 7. Problems of Goograp1q,. a journal. (Scientific Symposia of Moscow Affiliate of Geographic Society of USSR Symposium 18: Higher Geographical Education., 1950). (Moscowj, Geographical Press). Reviewed by P. G. Kochergin and G. P. Bogayavlenskiy, Sov. Kniga., No. 10, 1952; 9. FDD Report U-3081., 16 Jan 1953, Unclassified.  BOGOTAVLENSKIT, G. ,""I School work of a geography teacher on local lore. Reviewed by G. Bogo yavlenskiy. Geog. v shkole no-3:77-78 MY-J* 153. OCML 6:6) (Kalinin, F.P.) (Geogrupby-Study and teaching)