SCIENTIFIC ABSTRACT V.A. DEREVYANKIN - N.S. DEREVYANKO

The ECfect of Boemite and Maspore Addition on 77626 the Rate of Decomposition of Altuninate Solutions sov/8o-33-2-1/52 Card 7/9 Fig. 3. Decomposition kineticsof aluminate solution with different amounts of seed crystals from incomplete recrystallization.product of boemite into diaspores a -without organic admixtures; b - with organic admixtures, 1% based on Na2 0gen; A -degree of the solution decomposition (in %); B - duration of the decomposition khourS). The seeding ratioi 1 - 0.05; 2 - 0.1; 3 - 0.2; It - 0.5. The seeding ratio in Fig. 3b is in the range 0.05-0.5. Decomposition of the aluminate solutions containing seed crystals of thermal boemite results in precipitation of the comparatively large hydroxide crystals, most of which are +50-100.4. A very fine precipitate of the hydroxide crystal -40~L up to  The Effect of Boemite and Diaspore Addition on 77626 the Rate of Decomposition of Aluminate Solutions SOV/80-33-2-.1/52 46-55% was observed when seed crystals of the hydrothermal beomite were used. The solution in this case did not contained any organic admixtures. The small amount of seed crystals (the seeding ratio 0.05 -0.1) facilitates the precipitation of fine crystals. Analysis of the hydroxide crystals Indicated that they are composed*of hydrargillite and seed crystals and the precent of the hydrargillite is higher than could be expected from decomposition of the solution. It means that part of the seed crystals undergo transformation into hydrargillite. X-ray phase analy- sis of the precipitates obtained during the decomposition of aluminate solution containing seed crystals of hydrothermal boemite showed that they also contain bayerite, I. e., that hydrothermal boemite on mixing witli aluminate solutulon Is transformed first into " bayurite and then into hydrargillite. The high seeding activity of the prod.UCt of Incomplete recrystalliza- Card 8/9  The Effect of Boemite and Diaspore Addition an 77626 the Rate of Decomposition of Aluininate SoDitions SOV/80-33-2-1/52 ASSOCIATION: tion of boemite into diaspore, compared to hydro- thermal boemitE~ is due to the partially distorted crystalline lattice of unrecrystallized boemite, the outer layer of which is transformed at first into . bayerite and then into hydrargillite. Tne induction periods (as it is shown on the decomposition kinetics curves) Is due to the recrystallization of the outer layer of boemite into hydrargillite. Microphotographs of the formed crystals taken with an electron microscope are given. It was concluded that diaspore is inactive as a seeding agent for the decomposition of the aluminate solutuions. Ther, are 9 figures; and 6 references, 2 Soviet, 3 Qei-.~man, and 1 U.S. The U.S reference ist lauberigayer, A., Weisz, R., J. Am. Eem. soc., 65, 247 (1943). Ural Polytechnic Inst-itute, Sverdlovsk (Ural'skiy politekhnicheskiy institut, Sverdlovsk) SUBMITTED: April 11, 1959 Card 9/9  KUZNETSOVq S.I.; DEREVYANKIN V,A, ~-!j On the ability of coarse-grained aluminum hydroxide to induce nucleation in decomposition of aluminate solutions. Croat chem acta 31 no.4sl4l-148 059, (EEAI 9:9) 1. Urals Polytechnical Institute, SveKLovskq U.SeS.Re (Crystals) (Aluminum hydroxide) (Aluminates)  KUZNETSOV, S.I.; DRUWAIMII,- V.A.;- SHABALINA, O.K. Decomposition of aluminate solutions under the effect of additions of aluminum salts and oxalic acid. Izv. vys. ucheb. zav.; tsvet. met. 3 no.4:65-68 160. (MIRA 13'-9) 1. Urallskiy politekhnicheskiy institut. Kafedra metallurgii legkikh metallov. (Aluninates) (Chemistry, Metallurgic)  5.42,20 y8L-o6 /L7 SOV/80-313-3-7 . 0 AUTHORS: Kuznetsov, S. I., Derevyankin, V. A., Shabalina, 0. K. T I T. LE: The Effect of Added -Alumina and Corundum on the Rate of Decomposition of Aluminate Solutions PERIODICAL: Zhurnal prikladnoy Ichimil, 1960, Vol 33, Nr 3, pp 547-552 (USSR) ABSTRACT: This is a contibuation of studies (Abstract 77626) on the rate of decomposition of aluminate solutions under the influence of added aluminum-oxide grains. This time, the authors used -alumina and corundum seedsand the transitional products between the two, to accelerate aluminate decomposition by growing crystals. The three types of seeds were produced on annealing hydrargillite at 8000 C for 4 hr, diaspore at 1,200 0 C for 5 hr, and hydrargilli-te at 1,1000 C for 12 hr, respectively. Figures 1 and 2 Illustrate the seeds of Card 1/6 -alumina and its transitional products to corundum  The Effect of Added - -Alumina and 78206 Corundum on the Rate of Decomposition SOV/80-33-3-7/47 of Aluminate Solutions Card 2/6 effectively accelerate the decomposition of dis- solved sodium alumipate after a certain period of induction, while oorundum does not affect the aluminate decompo;iition during any duration. The induction period c,ecreases with the increasing quantity of the seods relative to that of the alu- minate solution, i.e., with the seeding ratio. Organic impurities first reduce the decomposing power of '-alumina, but later increase it considerably. The decomposition of aluminates by alumina gives rise to the precipitation of extremely fine aluminum hydroxide. UP to 30% of the grains remain smaller than 40 - . Small amounts of organic Impurities increase this fraction up to even 70%. However, the higher contents of organic substances make the hydroxide slightly coarser. Larger quantities of seeds (seeding ratios 0.2-0-5) also reduce the grain size of the hydroxide. The precipitate, generated by the transitional products from -alumina to corundum, consists of up to 25% of the fraction under 40.  The Effect of Added -Alumina and 7820t'-) Corundum on the Rate of Decomposition SOV18o-3"2;_ of Aluminate Solutions in which the majority of grains vary from 2-5 across, X-ray aiffraction data proved tha~l all the precipitates consist of hydrargillite and -,he surface layers of the seeds themselves also turn into hydrar- gillite during the initial period of induction. Perhaps .1 -alumina first turns into boehmite, then into bayerite found in the X-ray diffraction photographs, then Into hydrargillite. Electron microscopic data disclosed the composition of '-alumina of amorphous minute particles, whose porous aggregates have large surfaces per minute volume. During the induction period they become covered with dendritic crystals of boehmite and hydrargillite, 0.1-0.5 . long and 0.1,, across, whose crushing off at stirring of the solution produces numerous new crystallization centers. Some of the fine grains of alumina recrystallize into hydrargillite completely and form pseudohecagonal Dlatelets. In conclusion, the authors state that the seeding capa- city of boehmite and ' -alurnina is related to their Card 3/6 instability in the presence of hydrargillite.  The Effect of Added -,-Alumina and 782o6 Corundum on the Rate of Decomposition SOV/80-313-3-7/47 of Aluminate Solutions ASSOCIATION: SUBMITTED: During the induction period, their surface layers turn i-ntD 1Wdrargil1il6e. DiaspQre Is z1aD unstable but because of the Very low rate of its recrystallization into hydrargillite, does not cause decomposition of aluminate Solutions. The same reason is likely to be true for corundum. There are! 8 figures; 1 table; and 1 Soviet reference. Ural Polytechnic Institute. 'Sverdlovsk (Ural'skiy politekhnicheskiy institut. 'Sverdlovsk) April 11, 1959 Card 4/6  A ,Y/ eo fo 28 40 to 449 so D'ig. I Decompoo,ition Vinetics ot' altLminate 3ol-utions contalning different quantitle:~ of' )/-alumina seed:3. 11; b) / (a) Without ovganic impuritie with 1% 0, of organic impurities coni:iderinjr, total Na20 100,; (C) with 2% 0, of' organic impurities; (A) degree of solu- tion decomposition (%); (B) duration of the decomposi- tion (hr) . 'Seeding vatio- 1-0.01; 2-0.01); 3-0-07, 11-0.1; 5-0.2; b-0-5. Card 5/6  78206 SOV180-53-3-'(1,4'~ .4 eW --0 Fig. 2. Decoinposition N-Anetics of' aliuninate so]'Litions containing different quantities-, of' the seeds prod=ed by an Incomplete recrystallizvItion of' ~/-,1111111illa into corunchun. (a) WItilout O'l,ganic impurities; (b) l% 0. of organic Impurities considering total Na,20 1.00%; (A) degree of the 30111t.1011 deCOMI)OSItiOll (B) duratlon of the decomposition (hr). Seeding ratio: 1-0-05; 2-0.1; 3-0.2; 11-0-5. Card 6/6  DEREVYANKIN, V. A.9 CAND TECH SCIII "INVES IGATION OF PROCESSES OF LEACHING A14D DECOMPOSITION INAPRODUCTION OF '4 ALUMINA BY THE BAYER ~ . (STUDY OF THE CHARACTER OF DISSOLUTION AND GROWTH OF CRYSTALS OF ALUMINUM HYDROXIDE)." SVERDLOVSK9 1960. (ACAD SCI USSR, URAL AFFILIATE). (KL9 3-619 215). 197  KUZNETSOV9 S.I.; 4~,M~VYMK~INV.~A. Capability of coarse drystal altuinum, hydroxide to induct nucleation in the decomposition process of alvinizate solutions. Trudy Ural,.politekh. inst. no.98:90-98 160. OUU 14:3) (Aluminum crystales-41rowth)  MOMUMN., V.A.; KUZNETSOV, S'l.'I. Organic substances In bauxites. Trudy Ural. politekh. inst. no.gP,; 99-105 160. (Bauxite-Inalysis) (KM 140) I I ~i X I lkl k, I N I N  WMEVYANKIN 9 V. A. I - KUZMETSOV 9 S. L; SRAULINA, 0. K. Investigating the processes of diesolvizig and crystal growth of alunin= hydroxide: in alkaline aluminate solutions. 'ft7dy Ural.pol.itekh, inst. no. 98:10&-n5 160. (MMA 14:3) (Aluminum crysta-Ls- Growth) (Electron iieroacopy)  3/080/60/033/012/'018/024 D209/ID305 AUTHORS: Shabalina, O.K., Derevyankin, V.4-and KuznetiBov, S.I. TITLE: Experimental investigation of aluminum and hydroxides and oxides by means of the electron microscope PERIODICAL: Zh nal prikladnoy khimii, v. 33f no. 12, 1960, 27r4 - 2777 TEXT: The electron microscope is being increasingly used as a means of assessing the properties of alumint;im hydroxidea~and oxi- des, so the authors studied various aspects of the preparation of samples for this purpose. Somewhat modified versions of the stan--- dard procedure were tested to try and surmov;nt certain difficul- tiess The presence of soluble alkali impurities; the existence of readily-hydrolyzable substanc#s, such as the! titanium compounds noted by M.V. Miremov et al (Ref. 2: IZV. WLZOV, Tevet. m'et, 1, 83, 1959); and the oc6-urrence of large crystals with dimensions of lOp and more. Benzene appears to be the best lic,uid for preparing sue- Card 1/4  S/080/60/033/012/018/024. Experimental investigation of ... D2001/D305 pensions; ethyl alcohol is unsuitable in view of the damage incur- red by the collodion backing on desiccation, Carbon can also be employed as a film-backing in additiongto collodion. It is made by evaporating a polystyrene - benzene solution on glass, after which the residue is dusted with carbon. The softened polystyrelie is _4'JIM is then dissolved in ethyl bromidet and the residual carbon .. again washed in benzene and dried on the carrier-gi*ting. Collodion and carbon film-backings react differently to concentrated NaOH and aluminate solutions: with NaOH the former material is loosened and fractured and evaporation of the solution, whereas the carbon backing is not affected in this way. A dense, ragged, coagulated layer obscuring all details is also formed when an aluminate solu- tion is evaporated. on the collodion film-ba'1~5ing, Investigation of crystals contaminated by alkali discloses the presence of halos or branching folds of alkaline film around them.which distor-:s the true surface picture and gives rise to the illusion of numerous offshoots near diaspore crystals. But previous work by s.*r. Kuznet- sov et al (Ref. 4: Metallurgiya NDVShj 4, 87, 1958; Kohaszati La- Card 2/4  S/OE~ 60/033/012/0.18/024 Experimental investigation of D209%305 pok, 14, 7, 29, 1959) and V.A. Derevyankin et al (Ref- 5: NDVSh, '.tf Metallurgiya, 19 4.2, 1959; Tr. Urallskogo politekh. inst. im. S.M.: Kirova, 98, 106, 1.960) has shown that diaspore, unlike bemite and gibbBite, does not form dendrites. If these alkali-c ntaining cry- stals are app2ied to carbon film-backing, however, ley preserve their clear outlines since alkali will not deliquesce on it. As re- gardis the question of large crystalso the very rigidity of the car- bon film impedes -the application of the technique used by the au- thors for turning crystals in order to appraise their three-dimen- sional form, the f'Llm fractures and turns with the crystals. This does not happen wl"I'Oh collodion backings, anti the authors have been able to employ such a method in much of their research. In view of this fact, and taking into account the need for rapidity. and sim- plicity when preparing large numbers of samples for electron-mi- croscope analysis:; 1,-he standard procedure involving the use of col- lodion film-backing is recommended, altbough the expediency of utilizing the other modifications is also nDted by the atithors, There are 3 figures and 5 references: 4 Soviet-bloc and 1. non- Soviet-bloc. The reference to the English-language publication-, Card 3/4  S,/080/60/033/012/'018/024 Experimental investigation of .... D209/D305 reads aa followst D~E. Bradl ly , J, Appi. PhYs., 27, 12? 1399, 1956~/ ASSOCIATION: Urallskiy politekhn:Lcheskiy inatitut im. S.M. Kirova (Uraa Polytechnic institute im. S.M. Kirov) SUBMITTED: March 9, 1960 Card 4/4  DEREVYANKIN, V.A.; KUWETSOV, S.I. Mechanism of the growth of aluminum hydroxide crystals in the decomposition process of aluminate solutions. TSvet. met. 34 no.5.-1+6-47 My 161. (MIRA 1495) 1. Urallskiy politekhnicheski~y institut. (Aluminum crystals--Groirth)  2432 10c) SI 3/080/6JO34/007/006/016 D223/D305 AUTHORS: Derevy~nkinq V.A., Kuznetso,7, S.I., and Shabalina, O.K. - __.- ----- -------- TITIE: Effect of additivns of titaniUm oxide and silica on the leaching rate of aluminum hydrqkide PERIODICALt Zhurnal prikladnoy khimiip V. 34? no. 7t 1961p 1456 - 1461 TEXT: The main part of this article deals with tbb study of kine- tics and the nature of dissolving pure aluminum hydroxide J.n the presence of titanium and silicon oxides,, To establish the nature of dissolving the arystals of hydroxide use was made of electron microscopy, by which means data was obtained on the formation of protective surface'films on hydroxide cryetals and also on the form of traces of chemical compounds, developed by the reaction of Ti and Si oxide with an alkaline solution of aluminum during leach- ing. The composition of these compounds were not studied. For leaching experiments following aluminum hydroxides were used: 1) Card 1/4  22432 S/080/61/034/007/006/016 Effect of additions of D223/D305 Hydrargilite, obtained under control oonditionel 2) Bemite, prepa- red by the recrystallization hydroargilite under hydro-theimal conditions at 30000 and for 8 hourel 3) Diasporp prepared by the method of A.W. Laubengayer and R.S. Weisz (Ref. 61 J. Am. Chem. Soo., 65, 247, 1943), i.e. by beating bemite in presence of water at temperature 350-37500 with 2 % of diaeyor seed. The results of the experiments confirmed that titanium oxide appreciably lowers the leaching rate of diaspor and bemits, but haa no effeot on the dissolving rate of hydroargalate, It was also confirmed that tita- nium oxide Inhibition at a temperature of 150')C and higher pro- vents the leaching of bemite and diaspor"but on reaching 23000 it no longer prevents the leaching rate of bemitis while the solution of diaspor is s-till inhibited. In this respect, T102 gel and ru- thile differ# the latter being lose active. In the presence of waste (3-4 % of the initial weight of solid phase)p the inhibiting action of titanium oxide is much smaller and at temperatures above 1750 becomes practically zero. The oxides of i3ilioon also deter the leaching of aluminum hydroxidep but to a lesser extent than ti- Card 2/4  ~2432 S/C)80/61/034/007/006/016 Effect cf additions of D212.3/D305 tanium oxide. The best inhLbitorB are silica gel and opal. Elec- tron microscopy has confirmod N.K. Druzhinina's suggestion on the mechanism of the inhibitive action of titanium oxidest i.e. the 04 formation of pr Vective filris on aluninum hydroxide. The thinness of film is appreciably less than 100 1 and on the addition of waste films were not formed. With an increase in leaching time, the protective filns crystallize into needle-shaped crystals which still form protective layeret, but now these are porous and alka- lies diffuse to aluminum hydroxide and the dissolving rate is high- er. Additions of sili~,on oxides form crystalline Protecting films of sodium aluminum silicates on alumAnum hydroxide insulating it from, alkaline attack. The formation of aluminum silicates on the surface of aluminum hydroxid.e erystals can be explained in the following mannerz Silicon compounds contained in bauxite react with alkaline alumInum .3olution to form sodium silicate which in turn, reacts wlih sodium aluminate to form a complex compound NanO. C_ A120 -MO2.2H20. The form of reaction, state the authors, is pro- babli. Card 314  Effect of additions of ... 22432 S/OBY61/034/007/bO6/016 D223 D305 21laAl(OH)4 . 2Na2Sio3---a ~%O - Al 2039 2SJO 2. 2H20 + + 4NaOH. The equilibrium of the above reaction is displaced to the right since sodium aluminum silicate is fairly insoluble in aluminum so- lutions especially of low or medium concentrations. The best condi- tion for above reaction to take place is at the surface of bauxite particles. There are 4 figures and 17 references: 6 Soviet-bloc and 1. non-Soviet-bloc. The reference to the Englisb-language publica- tion reads as follows: A,W. Laubengayer, and R.S. Weisz, J. Am. Chem. Soc., 659 247? 1943~ ASSOCIATION: Urallskiy politekhnicheskiy institut (Ural Polytech- nic Institute) SUBMITTED: August 2, 1960 Card 4/4  AEREVYANK-I.N... V.,A. . kand. tokhri. nauk; KUZNETSOV, 1. , prof ., dok tor tekhn , nauk; SHARAWNA, O.K., inzh. Effect of titanium and silicon oxide admfktuTes on the leaching rate of aluminum hydroxides. Sbor. nauch. trud. Ural. politekh. inst. no.122:102-110 101. (MIRA 17:12)  KUZNETSOVi.S.I.; SMBRENNIKOV, D.V., DEREMAIMIN V A - VOI&OVA, P.I.; PAVLOV,. F.N. ; Yi--,VTYJT(-)V, A.A. V~-Ei STOLYAR, B.A. KONOVALOV, I.V.; LIVER, V.B.; MIYCIIENKO, V.S.; SMIMIOV, B.A. "Production of alunLm" by A.I. Lainer. Reviewed by S.I. Kuznetsov and othera. TSvet. met. 34 no.11:85-86 N 161. (MIRA 14: LI) 1. Urallskiy polit,aklmicheskiy institut (for Kumetsov, Serebrennikov, Dere-vyankin). 2. Uraltskiy fill-1 Ali SSSR (for Volkova, Pavlov). 3.' Urallskiy alyuminiyevyy zavod (for Yevtyutov, Chemodanov, Stolyar). /+. Bogoslovskiy alyuminiyevyy 2-avod (for Konovalov', Liver, Miychenko). 5. Sverdlovskiy Sovnarkhoz (for Smirnov). (Alumina) (Lainer, A.I.)  11 19397-63 E.dT (1)/E1.11P(q)/EV0 (i0/EWP(B)/DDS AFFTCAZO' P-3/W(C) JD.. 00 'ACCESSION NR: AT3 I 1AUTHORS:- Kuznetsov,_~~ De)AyX ,akini'l V. A.; Shabalina, 0. K. TITLE: Some observations of thi processes of dissolution and growth of crystals 'of Alumi' h num. _y~ ~xid, in alkalino alumina solutions SOURCE: Kris tallizataiya i fazovyVe p ody. Minsk. Izd-vo AN BSSR, ~1962, 321-326 !~TOPIQ. TAGS: crystal, crystallization, crystallography, solution, dissolution, .growth, Al, hydroyide, precipitation, leaching, dendrite, dendritic, lamellar, .'acicular, bemite, diaspore, hydrargillite, Ti ':ABSTRACT: This paper is a progress report on the long-term project at the ~Urall skiy polite khniche skiy ins titut (Ural iP'olytechnical Institute) on the character of the dissolution and growth of crystals of alumina in alkaline Al solutions with especial reference to the Bayer rneithod. Thq laboratory work was primarily done ..at the Institute; indus trial exper Iments were performed by the Aluminum industry. -Investigation methods employe d:f DEle c tron microscope, X-ray diffraction, crystal- .optical andchemical methods of Ynalysis. -E-arfler stages of the authors' work we:r'e'-- published in cited references. The present paper is a concentratbd,- informativei ,Card 17 3  L 19397-63 iAC.CESSION NR: AT3001931 survey on the most jjr~te re sting data on the dis,solution and growth of Al-hydro5dde crystals. (1) Proc&,sves of dissolution (leaching). Hydrargillite crystals in vinsat-: urate alumina solutions, when 112eated to near.ib. p., break up into fragments. Upon: this initial commin,4tion, they dissolve pron~ptly. Diaspore crystals usually di;-.-~ solve at the faces, Wi~h the forniation of fissures and perforations. At times, -the holes in bernite or djaspore exhibit a sharply defined hexagonal shape. When Al hydroxides with additions of Si oxides are leached, growths of fairly.,e-quiaxial . crystalline formation4 of Na h-)nlroalumosilicate (sonid -6f * 1.6-~mi- cron diam) form on the dissolving particles. Upon full dissolution of the hydroxide crystals on which these spherical part~qle_i had formed the lat.t~r exhibit apertures. Experiments show the presence of -films of V compounds on the dissolving bemite and diaspore crystals. During leac 'hing these films crystallize into actcular crystals visible under an optical microscope. Photographs of 'these formations are shown in the article. (2) Crystallization processes (separation of Al solutions). Without stirrin alumina solutions foirm practically only antiskeletal forms of crystalline growth, Fo that crystals of hyd;a;gillite grow primarily in the form of lamellar dendrites. Lamellar growths form on the plane of the piriacoid. There are virtually no pris- matic growths. Thoroughly stirred. alumina solutions. ex~ecially withyrimer, give rise to a greater pro~abillty of the deformation of growths and,. hence, various de- fects. When, in a lair~~Ila.r groutth, spiral d~'Oocation occurs, it may grow inito a Card 2/3  L.19397-.63 ...... ;ACCESSION NR. AT3001931 .1prism. Growing dendrites undergo deformations which increase the number of .1directions of growth. The denelrites lose their SC structure and assume a fairiy-- ;equiwdal form. The decomposition products of alumina actl I Ic _~end-them well to-6166tion-mic ro scope and X-ray- rystallized; hence they selves Idiffraction analr sfs.'-fhe various crystalline products and th sequence 'of their y P ;precipitation by various age~ntn are described. The best precipitation of alumilia -solutions under theaction Of nDnhydrargiUitic * rimers for industrial purposes is p b jobtained with the use of a bemLte primer obtained by Z500C r asting of hydrargyl- jite. Optimal primer ratio:' 0.2-0.3. A brief survey is also given on the process of irecrystallization of hydrargillLte into bemite-and diaspore in water and alumina olutions, including the layervrise structure arising from th -ppriodic "wave-likoll s ;Character of the crystallization. Orig.. art. has 5 figs. ;ASSOCIATION: none SUBMITTED: 00, DA TEACQV'-~-*, 16Apr63 ENCjl,: 00. SUB CODE: C H, PH, MA' NO REF SOV; 006 OTHER; 000. Card 33  KUZNETSOV, S.I.; DEREVYANKIN, V.A.; SHKLYAR, R.M. Problem of "trisodium hydrOELluminato." Zhur.prikl.khim. 35 no.12:2588-2591 D 162. (MA 16:5) (Sodium aluminates)  KUZNETSOV, S.I.; ~~'.YXAIOKIN, V.A.; TIKHONOV, V.N.; MYULLER, A.M. Decomnosition of alurainate solutions under the effect of additions of salts and iron hydroxide. Zhur. prikl. khim. 36 no.12: 2757-2759 D163, (MIFA 17t2) 1. Ural'skiy politekhnicheskiy institut imeni Kirova.  KUZKttMv, S.I.; DEREV~IWKIN, V.A. . Zffect,,-of thi IdAgth of stozAxig diaspoim bauxites in.46n air on the j, rate of settling of tJjW-4c(WmmL Sbor. nageh. trud. Urai. ~olitekh. irist. no.134:-98,"106 1133. (MIRA 17: 1)  KUZNETSOV, Sergey Ivanovich; DEIIEVYANKRI,.~,';2rJy A IsE!Jrovich; T . --je -- PAZUK I I I V, V.A. I re-M. -,- TIVYWOCC I, G.M. ' . [Physical chemistry of the Bayer process for the produc- tion of alumina] Fizicheskaia khimi:La protsessa proizvod- stva glinozeifin po sposobu Baiera. Mozkvap Metallurgiz.- dat, 1964. 332 p. (I-11RA 17:'3)  KUZNETSOV, S.I.; IERMANKIN, V.A. Stabilit5r of aluminate solutions. &ur.prikl.khim. 37 no.1:192-194 Ja 164. (NIRA 17:2) 1. Urallskiy politakhnicheskiy institut imeni S.M.Kirova.  I;f~'.-Ct Of :it: 'W, of the ).f leaci.,ing cf -4  KRA-US, I.P.; DEREVYANKIN, V.A.; KUZNETSOV, S.I. Solubility of scdium aluminosilicate hydrates in caustic soda solutions. TSvet. met. 38 no.5:46-!51 My 165. (MIRA 18:6)   ate r~ de p W oiii, ori~*,ilj,bitlri ti ; d S 01WI onsi, iLi~ ;6 har&easa.. b4 lrr~diek-ti t~e j~mcess' is cofka To 74 M , ~ng -ult v-p V,~ adle. ~on-~ of: wdium alum nate o 1,44 gival us r ait uoinuln plant i th'an w en synthetic ii~ . -18 proport ' S': rra .I 6--intensity and ray adi-94; givei-s fipejl~ L . ailubmilpub hydrwi~de, product 'than j tild", J g' art he3: r.-k ~d-- Ytr6va. (Urai~ 1~ _j BUD CODE. 7 .7 : ji  KUMITSM', 3.1.; TIKHONOV, V.N.,- DEREVYANKIN V A Decomposition of aluminate solutiona under the effect of titanium dioxide gel and so,31um slumiposilicate hydrate additions. Zhur. prikl. ufti 38 na.7:1603-1604 JI 165. (MRA 180)  KMYUE'()Vp KULNETSOV, 3.1a; DnEEVYANUN, V.A. Effect of radiation on the decomposition rate of alumi-Tiate solutions. Zhvzr. pcrikl. bildm. 38 no.5:11-22--l..125 MY 165. (MIRA 18::I1) 1. Uralll3kiy polibAhnic-be.Elly institut imeni S.M. Kirim-zi.  DUBSKIKII, V,Ya., inzh. i CHEMEZOVA, S"A', inzh, 'DIWVYANYIN~ V. 1. , i-rzh. Corrosion resistance of weld joJnts in OY.hl8NIOr stf,nl in boiling nitric ac':.d. Svar. prol.zv. nD.10,04-35 0 161:~ (M!7'A 19:10) -1. VEesoyuzny-y naiic-.hno--~IsslfdovEitellsk~ly i. kOn.;truk'Q,),,.zkiv In s t i tut.khimiche3l.L),-o Tna5hinostroyeniya, Sverdlovsk.  IJFPY.VYj'i,Nh'LN, V.A.; V.,N.; Yo.!.!..: Y.'li.-,A'!L:I,s0v, ~1111 - , umina E.,"Fc--t of washing on the settling rate cif red mud in a- prcduot.-ion. TSvet. mt. 38 no.9.-55 S 165. Olmlbi  IM VTAMN, V.D. Conversion of the longitude of the All-Ullion Scientific Research Institute of Metrology as determined In 1924, into the YX system. Trudy VNIIN no.2:49-54 147, (MIRA 12:1) (Longitude) (Stare..-Catalogs)  MMMANKIN, V.D. 7 Temperature dependence of the aziunxth of instruments. Trtxd~, VNIIX no-3:67-69 148. (MIRA 11:11) (Transit circle) (Azymuth)  IMEXT-ITIN, V.D. ; . Comparing clocks b7 means of a enronoacope and detor7,ining errors in minute intervals of time. Trudy VKHM no.11:50-62 150. OaRA 11:6) (rime measuremonts)  41"L N~(t)),'R.TA'c ./hWrkT, Y z)/3 Mal/ INIJOIWB ACC NRt kP5025612 UR/0135/65/000/010/0034/0035 621.791.052:669.14.018.8 lit. (Ragineer); AUTHOR: Dubskikh V -Chemexciva, S. A., (Engineer); Derevyankinj V. I (EngineeiT ------ YTM_ TME: Corrosion rate of thet valded joints of OKhl8NlOT chromium- in nickel stC4 tx1C acid bailing r, I SOURCE: Svarochnoye proizirodatiro,. no. 10, 1965, 34-35 TOPIC TAGS: metal joining, chrond steel, nitric acid, corrosion rate, ferritic steel, metal beat treatment ABSTRACT: F1 and tubular welded-joint speciiunns taken from three different mel of 10. 3,~!! _q~KbL18NIRT teel (0.06% C, 1.30-1.34% Mn, 0.30.-0.60% Si, 18.10-18.29% Cr, ll.OOX Ni, 0.63-0.65% Ti, 0.008-0.010% S, 0.022-0.029% P) were tested for corrosionK in boiling 65% nitric acid. Corrosion resistauce was determined accor ng to weigh cor tng 'c~ losses and metallographicanalysio. The tests sistablished that the j0 to of steel 0 a from taelt A (ausLeni tic- ferritic structure corttaining a ferrite ~hasq unting to- ~~h a a a 3-.5%, with striatjkd alignmeAt of ferrite,.as cpposed to'steel frcm melt B, which con tains carbide4lhclusions~ along-, grain boundaries, and s*eel X*m melt C, which has a purely austenitic structure), when alloyed with TNx Nblfn the amounts of Ti,fC > 91 1(b/C > 16 or when welded with a wire electriiae coniiining a low perceintagi Card 1/2   ASCYAN, Nadezhda qa-lilovna; POPOV, K.M., doktor ekon.nauk,prof., otv.red.; GORNUNT, M.B., kand. geogr.nauk, otv.red.; IL_ ANKINA, LqA.j red.; SHAPOVAIMA, N.S.p mlad. red.; tekhn. red. [Nigeria; characteristics of its economic geograp]Wl . Nigeriia; elEonomikt>-geografichesk-aia. kharakterist.*Lka. Moskvap Geografgiz,, 1963. 270 p. (MIRA 17:2)  APRODOV., Vladimir Aleksandrovich; DEREWANKINA, L.A., red.; SHAPOVALOVA, N.S., mlEid. red.; VASIKINA, R.S., tekhn.red. (Breathing of the earloh; volcanoes and earthquakes] Dy- khanie Zemli; vulkany i zemletriaseniia. Moskva, Geog- rafgiz, 1963. 110 p. (MIRA 17:3)  PLESIUKOV, Leonid Petrovich; :)MEVYANKDiA, L.A., red.; MARTYN,0VA, V..A,p mlad, redo [Around the world on the "Zaria"I Vokrug sveta s "Zarei.11 Moskva, Mys1l, 1965. 230 p. (MIRA 18:6)  WMVY NXO, A. (Berdyansk, ZDPOrOzheks.'ra oblast') Fire Prevention COMMIttees on collective farms. Posh.delo 4 n0,10:10 0 158, (KMI 11:3-1) 1. Starshijy r4rDnrAY7 PozhaMY inspektor. ,~.' rA (Gollective farms-4PIre and fire prevention)  DXMVTANKO w A. At the Kirovsk-Omak Grain Elevator. *flc-olev.prom. 25 no.1:7-8 Ja 159. (MIRA 12'-3) 1. Kirektor Kirovsko-OmmIc9go elevatora. (Siberia--Grain i9levators)  ~__xjHF,tMMO._A. Machatized, taking afffais samples to loading and unl(ading *f railroad cars. pros. 26 no.10ilO 0160. (MIRA 13:10) 1. Direktor KIrovsk*OmekW ele,ratora. (Grain-Analysts)  DEREMITED, A., inzh.; MASALISKAYA, K., inzh. Dofluoridation of water of aluminum aulfate. Zhil.-komb khoz. 10 no.10:11--12 160, (MIRA 13:10) (Water-Fluoridation)  2j_AA;.; MASALISIAUp K.V, ,DPE~ Defluarinatiork.ol' vater by alumim= sulfate. Vod. i san, te" no.3:6-4 Mr 161. (MIRA' 14:7) (Shchuchlye., Iako)-Water-Purification) (Fluorine) -. (Aluminum sulfate)  c it IN a - a ';" V. it v m r. U. w I -W I cuff" .1. L m a a m al, d k 4 - k 0 a a I "NOM ApWitus for determining %-spot$ of HIM bydroarb6ons. Not'"Iti Trik"llb 1938, No. 2h 11, 61 hydr"cu"Imms dritcret wth the air. ftvcr file- Pt site I which is u Plitt ii a Whrat%hnir 111111sr, burns &fill displorra the rquil. ill the bilidge by chatiging .00 the Ircistallm (4 the Pt wife. 'I lie Opp. petinits drill. ofi vapors of hydrocurbons In units. of 04-1.1k) tng. W 1. 00 A. A. Podgomy .00 00 I've go '06 S L A611ALL646KAL 01111OUNI CLAttOICAIAN 9.1 10 LA a V 11 -11-11' T-1 9 al w5 A 0 0 0999 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 mij q 0 0 0 0 0 0 it 0 0  001, z--- 00-3 09 00 44-i F it is IS pe filet &*a psovestits big r all" i4c 44"M 4".. =)T air. A. 1,f-r!rfmd.%O . tjn 'rtl 11" of the Opp. 947) 0 &IV 61"te. NJ. Hawn A. 1 a.", I so* lee 110o MITALLURGICAL UUMMU111 CLOSIFICAU991 OW(J."I %if Oki, off - 6 'T-T- I I At 10 It to $I 0 0 0 0 41 0 s; 000 0 0 0000 00,00*00 06 0 **to fee A*6 a10 0 too W* 0 IS* lot  TITPOVA, ~~f-12.' ara2izator tira gh---3 dlya c,-r v vf, zdi-J-he. 1. S,. S. nauch, isolr--Ll. 1-C00 cliz. E ss--l. (55- 1479) Yni-zhnaya Letopis,' i-ol. 1. 1955 17 ;ch 0b1., s ill. 2C-s-~j. trulle v.t. leidnvrade) 6 1  D USSR/Processes and Eq#pment for Chemical Industries - Control and Measuring Devices. Automatic Regulation, K-2 Abet Journal: Referat Zhur - Xhimiya, No 19, 1956, 64006 Author: Petrova, M. A., Derevyanko, D. G. Institution: None Title: Gas Analyzer for Determination of Explosion Hazard Involving Concen- trations of Ethyl Gasoline Vapor Original Periodicali Tr. nauch. sessil, Vaes, n.-i. in-ta oldirany truda, .1954 (1955), No 1., 218-227 Abstract: Reported are the results of investigations on the development of an absorber for the protection of the catalytic filement of the LIOT instrument against poisoning by te"~,raethyl lead vapor. As a filter cartridge for the gas analyzer the icd-ine absorber has been chosen which is a universal one for all v3xieties of ethyl. gasoline. As a result of -the work in connection with the use of the filter cartridge certain changes have been made in the design of the, LIOT gas analyzer: Card 1/2  .USSR/Processes and Equipment for Chemical Industries - Control and Measuring Devices. Automatic Regulation, K-2 Abst Journal: Referat Zhur - I(himiya, No 19, 1956, Gtoo6 Abstract: a device has been provided for limiting the rate of passage of the air through the instrument and changes luive been made in the design of the instrument housing into which is mounted the fi -1ter cartridge. Tests of the instrument have shown that errors in determination do not ex- ceed 2.1% of the measured value. The instrument permits determina- tion of the (oncentration of gasoline vapor containing added ethylene fluid as well as of gasoline free frcm such additives. Card 2/2  DUBOVI YK0, Ye. [Dabovanko, 13.]; 1Z,-OFNANKO, G. (Deraylianko, H.1 [Ukrainian Soviet Sociallot Republic) Mrsineska Rodionelks S,otsialistychna Respubliks. Kyuv, De:rzli.vyd-vo polit.lit-rY U1W. 1957. 299 P. (MIRA 11:3) (Ukraine)   S/032/63/029/001/00~,/022 ~101/B186 AUTHORS: Volodarskaya, R. S., and,Derevyankot G. N. TITLE:* Complexometric determination of zirconium"and thorium by xylenol orange PERIODICALt Zavodskaya laboratoriya, v. 29, no. 1, 1963, 28'- 29 -TEXTt Zr is determined in magnesium, alumlnum, or copper alloys by titration with Trilon B in 0.25 - 1 N hydrochloric or sulfuric acid solu- tion, xylenol orange serving as indicator., ~he interfering Fe('III.) and Ce(IV) are reduced with hydioxylamine hydrochloride,, Ascorbic acid as reducing agent gives no satisfactory resul-tu,. byreason of complex forma- tions. After titration of Zr, thorium can be-titrated at pH = 1-5 - 2-5 with Trilon B and xylenol orange ad indicator. Zr-does not dioturb the titration of Th after it had been bound by Trilon B. The method allows of determining 0.1 Zr and Th in alloys., There-ake 2 tables. Card 1/1  S/0321631029100210051026 BiolIB166 AUTHORS: Voloodarskaya, R. S., and Derevyanko, G. N. TITLE: Colorimetric determination of scandium witn xylonol orange PERIODICAL: Zavodskaya laboratoriya, v. 29, no. 2, 1963, 1413-149 TEXT: Scandium with xylenol orange forms a red-violet complex at PH 1.5 - 5.0. This allows a oolorimetric detormination of So., at PH - 1.5 without preliminary separation of the alkaline-earth and rar-a-earth elements, and of Y, Zn, Cd, Al, Mn, and Fe(ii). Zroo Thoo In, Bi, and Fe(III) disturb the reaction. Fe(III) and Ce(IV) are reduced by ascorbic acid, Zr is precipitated with excess phenyl arsonic acid. The colorimetrio determination is made using a green light filter and a calibration curve. The method allows the determination of So in magnesium metal,or~iagnesium alloys within 25-30 min. There are 1 figure and 2 tables. Card 1/1  VOIA)DARSKAYA., R.S.; DEREVYANKOO G.N. - Gomplexometric determination,of zirconium and thori-m with xylenol orange. Zav.lab. 25 no.1:28-2.9 163. .. (KIFA l6s2) (Zirconium-Analysis) - (Thorium-4m4lysis) (Xyleziol orange) ~'. ~ _At  -L 36926-66 EWT(m2/EWP(.J)-ZEWP(t)AT1 IJP(;-) RM/JEIIJD AP601221h. SOURCE CODE: UR/0032/66/O32/Oo4/o4l3/O413,, AUTHOR: -VolodarskMa,,_R. S.; Kanayev, N. A.; Derevyanko, G. N. ORG: none V TITLE: Complaxometric determination of Indium in-magnesium alloys SOURCE: Zavodskaya. labor-atorlya, v. 32, no- 41 1966; 413 TOPIC TAGS: quantitative analysis, indium, magnesium containing alloy ABSTRACT: The article describes a complexornetric titration method for the rapid determination of indium in magnesium alloys containing zirconium and rare earth elements. Three separate schemes are described for the analysis. Most reliable and accurate results are obtained by the direct titration of indium at a pH of 2-2.5 in the presence of metallic indicators 1-(2-pyridylazo)-2-nal?btbol) andcK -(2, 4- dioxyphenylazo)-2-pyridine. Introduction of sodium fluoride into the solution eliminated the effect of zirconium by the formation, under a ai.,) these conditions, of fluoride complexej d complexes of the rare earth elements whieb fall out in the form of difficultly soluble fluorides. Comparative experimental results are giveia in a table. Orig. art. bas: 1 table. SUB CODE:07, 11/ SUBM DATE!: none/ ORIG R'EF: 001/ OTH REP: 002 ~--A , 1.  DEREVYnX0, I?.,. I "The Explosive Conversion of Methane, Part 2," Rhimi eskava Pererabotka Neftya LUI--Ievodorodo (Chemical Conversion of Fetroleim Hydrocarbons,), Academy cof Sciences tISSR, Moscow, 1956, pp W:-152 ~ ~' b1 "" / V -4 V  MEVYA.NKO, 1.0. "The ExPlOsivo Conversion of Methane; Part 3," Xhim:Lchealcm Pererabotka Neftyanykh '9krIevodorodoy (Chemical Conversion of Petroleum Hydrocarbons), Academy of Sciences USSR, Mscow, 1956, pp 153-166 J7 t ,/ Z,;- ~/ ~/ :5 _,/  KAZARNOVSKIY. U.S., kand. khim. nauk; ISREVYA]MO, I.G.; STEZRINSKIY, A.I. .1-- ~ KOBOZET, N.I., doktor khim. Explosive conversion of methans. Purt 2. Trudy GIAP no.8:89-105 '57. (MIRA 12:9) (Methane) (Gas and oil engines) (Fuel-Testing)  KAZARNOVSKIY, Ya.S.; OVCFARENKO, B.G.; SEITKNOV, V.P.; I.G. Process gas obtained by the hiph temperature conversion of hydrocar- bon gases. Gaz.prom. 7 no.1:43-50 162. (MIRA 15:1) (Gas, Natural) (Gas manufacture and works) .  of Dcrogov'.-,, Kra- n,  ISREVYANER, I.M. Hernia containing the comm and the appendix. Khirurgita no.2:71-73 P '54. (MU 7:5) 1. Is icafedry fakulltetskoy khirurgii (savedayushchiy - dotsent I.I. Khoshainov) Stayropollukogo meditsinskogo inatituta. (Hernia) (Append!Lx (Anatomir))  DMVYANKO, I.M. (Stavropol Rare surgical forms of ascaris.sis. 111n. med. 32 no.4:81-83 Ap 154. (MA 7:7) l.b Is Imfedry fakul'tatskoy Wirurgil (sav, doteent ItI.Ehoshainov) Stavropol.lakogo wditeinskogo institute.. (ASCARILSIS, *UMUnMIL CS~69)  DERIVYANKO, Ichinococcosis of the small pelvis simulating tumor of the bladder. Urologiia no.4:63 O-D 155- (MIaA 9:12) 1. Iz kafedry fakulltatakoykhirurgit (zav. - doteent I.I.Khozhainov) Stavropollskoga meditsinskogo institute. (BIADDIR. neoplasms. differ. diag. from echinococcosts of pelvis) (PELVIS, diseases echinococcosi:. differ. diag. from bladder tumor) (JIGHINOCOCCOSIS, pelvis, differ. diag. from tumor of bladder)  DARMANKO, 1. M. Ichinococcus of the anterior medlastinum. Xhirurgiia, no.11:76 N '55. (MLRA 9:6) 1. Iz kliniki fakulltetokoy khirurgii Stavropollskogo moditsinBkogo instituta. (HKDIASTnM--HYDAIPDS)  rRVYANKD, L't. Surgery In heart wounds. Vest.ichlr.75 no.6:109-110 Ji '55. (MLRA 8:10) 1. Iz fakulltetakoy khtrargichookoy kliniki (zav.--dotsent I.I. Khnzhainov) Stavropollskogo meditainsk-ogo instituta Stavropoll(krayevo.v), pr. Vorosbilova, d-37, kv.9) (HRART, wotWs and lnj. surg.) (WOUNDS AND INMMIAS heart surg.)  'n2'RQVYAKKO, J.H. Blind suture of the bladder. Urologiia 21 no.3:47-53 Jl-S 156. (HLRA 9:12) 1. Is kliniki fakalltetakoy khirurgii (zav. - dotsent I.I. Khozhainov) Stavropollskogo meditain6kogo institute. (BUDDER, surg. blind suture, technio)  I e- tk, 2,14 DERM NKQ, I. Cand Mod Sai -- (diss) "Data rM the problem of 9%wk A_ suture of the urinary bladder." Stavropol' , 1958. 16 pp (Tbilisi State Med Inst), 200 copies (HL, 16-58, 12.5) - ? -7-  Ureteroplasty with a bladder flap. Urologiia 23 no.6:50-51 N-D 158. (X31A 11:12) 1. Iz kafedry fakultatskoy khirurgii Stayropollol-ogo meditainakogo instituta (zav. - dotsent I.I. Khozhainov) i Khirurgicheak-ogo otdeleniya Stavropollsk-oy gorodskoy bol"nitay No. 1. (URETM. S'UrIc. uroteroplasty using bladder flap (Rua)) (BIAMER, smrr,. bladder flap in ureteroplaaty (Rme))  DMVIANKO, I.M. Concerning N.P. Petrova, G.S. Kriuchkova and V.E. Grigorlev's article on wUsIng tantalum in primary sutures of the bladder." Urologiia 24 no-5:60-61 S-0 159. (MIRA 12:12) (13LODIM-SURGERY) (SUTURES) (TANTI.LUM) (PRTROVA, N.P.) (KRIUCHKOVA, G.S.) (GRIGORIEV, V.Z.)  M 'REVYANKOI I.M. Pararectal extraperitone-al appsch - to the pelvic portion of the ureter. Urologiia 25 no. 5:37-41 S-0 160. (MIRA 14:1) (URE'XERS-STJRGMY)  D1MVYANKOj, IoN, Diagnosis of isolited wmmde of the diaphragm in penetrating incised wounds of the thorax punotureP Xhirurgiia 37 no,ltUc)- 120 Ja 161. (MM 14:2) la Iz khirurgicheakogo 6tdeleniya (zav. - dotsent. I.I. lbopha,.mov) Starropollskay gorodskar klinicbeiskoy ballnitay (~-~la*nyy vi-aeb D.M. Midrnoralov). (DIAPM124-WOUNDS AND IRMES) (CHEST-4MODS AND INMIRS)  DERMANKO, I. M., kand. mad. nauk C: Extended radical operation in neglected cancer of the famale uretbra. Khirurgiia no.4:.133-135 '62. (MIRA 15:6) 1. Iz kliniki fakulltetskoy kbirurgli (zav. - doktor neditsinskikh nauk I. I. Khozbainov) Stavropollskogo meditsinakogo 'Lnstituta i urologichaskogo otdelenip Stavropollakoy gorodskoy bollnitsy No. I (g:Lavnyy vrach I. P,, B~rdellshteyn) (URETHPA(FRVdZ)--CANGKH)  DEREVYANKOJ. I.M., kand. med. nauk Uretreocystoneostromy in cancer of the urinary bladder. Uch. zap, S avr. gos. med. inst. 12:243-2U, 163. (141PA 17t9) 1. Klinika fakulltetskoy khirurgli (zav. prof. I.1. Khozhainov) Stavropollskogo gosudarstvennogo me-ditainskogo instituta.  I'L~IUv-YAjjl:0' 1-m., ks-,A. med. nauk V ~-: ~-' np 1 -- t2i'Lic'n Of, t h e u--,- ter In tvu u vinrir;r Y 'I i 1-argi ia p t T.i ~-o no. S 164 (." . lik 18 &2) I . F'i In ~ j, a f ak-ul 14 ct-,,K cy 'K 1,"" MITj -I k " Dv. - p-)f * J .-I.. 114:hozh~inov) S' La o-p,;l 1 Aogcp m 6d' ta inskop im-- ~ i .  DEREVYANKOJ, I.M., kand. med. nauk (Stavropol'-na.-Kavkaze) Concernirg I.V Fedorov's work "On regenitration of a vreter following substitution of its defects with polyethylene prostheses." Vest. khir. 91+ no.2:114-118 F 165. (~aRA 18:5)  BIBIKOV, I.; MREVYANKOP X.,-; Kk?ACRKO, V.; KIRICIDOX0 I.; OCHER, N.,- MACHUK-W- j, 1-.----WABATWLKOV P.;'SOKOLDVp D.; SiAKONI Yi6j US., V.; .9 BHGHIGkLL?V,,'V.; BURAIWKOp N.; KOVSHAROVI 13.; SOKOIDV) S.; ZAGORULIKO, S.; TSYBIL.. H.,- PDMEITKOp I.; LIMOVEMIY., M. Lot us help farmers grow an abundant crc~p. Grazhd. av. rio.3:3 Mr 161. (MIRA 14:31 (Ioronautics in agriculture)  DMIMANKO, L.D. - (Krasnodar) Changes in the lumen of the blood vessels of isolated e~ttremi- ties in frogs following sensitization qj,td the desensiti2ing action of an extract of lagoshilus ineb-ianEr. Pat. fizicl, i eksp, terapo 6 no*6:65-66 N-D'62 WIRA 27:3) 1. 1z kafedry Pa=akologii ( zav. - pro:r. I.E.Akopov) Kuban- skogo medit-sinskogo instituta.  DMEVIANKOI,~~---- Sft~ict of' some drugs on the produation of edema of the '.so- 1*LW hind limbo in froge.Firm. i toks. 26 no.4t465-467 .Tl-Ag'63 (MIRA 17:4) 1. Kafedra farmakologii ( zav. - prof. I.E. Akopov) Kubanskogo Aeditvinvkogo, in8tituta liani Krasnoy Lrmiie  DEREVYANKOJ, L.D. Effect of some varodilatina and desensitizJng p-eur1ratims on vessels of the isolated rabbit ear under ncr: -,I conditions and in sensitization. Farm. i tols. 26 no-5:611-6,16 &.0 163. (MIRA l7i8) "I I . Kafec~ra fammkolcgii (zav. - pref. 1.E. kkop.--,,' Kubanskogo meditsinskogo instituta imeni Krasnoy tirmii.  ACC NRI Ap602i42 SOURCE CODE- LJR/61~bw6-/(-)6-o-/6ll/oo22/0022 INVENTOR: Krasovitakiy, B. M.; Podzhaylo, V. F.; Derevyanko, L. N. ORG:. None TITLE: A method for producing liquid scintillators., Class 12, No. 182164 (an- nounced by.the'All-Union Scientific Research Institute of Single Crystals (VsesayuzW hauchno-issledavatellskiy institut monakrisiallov)] SOURCE: Izobreteniya, promyshlennyyiq obraztsy, toviLrnY7e znaki, no. 11, 1966, 22 TOPIC TAGS:. scintillator, luminescent material ABSTRA&T: This Autfior's Certificate*.introduces a method for producing liquid scintil- .1&tors by.using a base and activators - diaryl derivatives of 1,3,4-oxadiazole and 1,3-oxazole.- The jumineacence yield is increased and a vider selection of liquid scintillators Is produced by using cUcumylmethime as the base. SUB CODE: 1-1, OT, 18/ SUBM DAM l2Apr65 Card UDC; 547 -187..2.,07  VaYTENKO) I.P.; GORODNICH1N, N Tj;,,2DEREVY - PARSHIN, VJP.; P R . ZAKRASNYANYY, .7rn F.D., ) . .; SIDOROV, N.T.; SHAFOVALOV, I.F.; KOMAROVA, To.V.# red.; ROMANOVA, S.F., tekhn.red.. (Telegraph devices using noncontaet switches] Telegraftye ustroistva na beskontaktrWkh perek:Liuchatellakh. Moskva,, Izd- vo "Sviazl." 1964. 295 P. (MIRA 17:3)  DJRZVTANKO, N.Y.; WLAX, N.M. Iconomic conference at the Vinnitaa Oils and Fats Combine. Xagl.-2hir.prom. 26 no.4:17-18 AP 160. (MIRL 13:6) (Vinuitsa--Oil industries-lquipment aAd supplies) 11 .YL  DEREVYANKO, N., I.-YUndlit T ~: -be. mqgw)toptLonb adopted by tbq~ 1,4ader of an -exerciae. Voen. v0st. 43 no.12.-87--88 D. 163. (MIRA 17:2)  ACC.NRs AP6034595 SOURCE CODE: UR/0115166/000/010/0024/0028 'AUTHOR: Derevyanko, N. F.; Trokhan, A. M. ORC.',:' none ;TITIE: Applying the correlation method in measurements plasma stream velocity SOURCE: Izmeritel'naya tek-hnika, no. 10, 1966, 24-28 TOPIC TAGS: plasma stream, plasma velocity, plasma measurement ABSTRACT: Since the usual method of measuring plasma stream velocity is inaccurate .and-laborious, the correlation method of processing data from a photoelectric monitor fis recommended. This consists of recording the time interval between radiance pulses at two points in the core recurring at a measurable distance from each other. Cal- ,culating the cross-correlation function for these two points, its maximum will fall at the most probable time lag between them. If the pulsation is steady, this function will give the average velocity of the plasma and the function spectrum will indicate the pulsation rate in the given time interval. A series of formulas is given, start- inj; with that for the cross-correlation function based on harmonic functions of di- verse luminance in the two points of light. This is developed for variable rates of motion in the points, also for frequency and amplitude modulations of rays registered oa the,two oscillographs. The relation of variable pulsation frequencies to average velocity of the points of plasma racKance is discussed, es established by cross- 07*i.519.27  NRt AP6034595 correlation spectra. Typical radiance fluctuations are Illustrated for three modes of operation of a dc plasmatron with two points of light 36 mm apart in the plasma e~xeam. Cross-.correlation spectral cut-ves show identical frequency deviation between the,thre~e modes at 135 cps, y1dch corresponds to a velocity of the order of about io iiaec.- Similar tests with a plasma in argon at 3000C gave a velocity, of about 1430 a/see relative to that oflighte Orig. orto has: 15,formulas and 3 figures* 3U11,ODDE1 20/ SUBM DATE: 24Jun66/. ORIG REF:. 009/ OTH gEF: 003  ISAKCJV, A.I.p 'kand. teldin. nauk; KHOMLYUK, S.S.; DERETIAMO, N.I. Automatic regulation and control of the conditions of panel veneering. Bum. i dar. prom. no.3:3-8 Jl-S 165. (MIRA 18:9)  BABUKOV, V.G.; KOTSMV, Tu.P.; VTANKO, N.R. [Oil vell output measurerl Zamershchik debitov neftianykh skvathin. Moskva, Goe.nauchno-telchn.izd-vo neftianoi i gorgo-toplivnoi lit-ry, 1953. 98 P. (KLRA 6:8) (Petroleum)  SHUPLOV, V.I.. kandidat takhnichoskikh nauk; voiD,rSNDY, A.H., Inzhener; -DMW*#M1 diviim% kandidai tekhnichaskikh nauk; KOINOV, V.V. Inzhener; STROGANOV, L.P., iazhener, rediik-tor-, TMINA, G.P., tekhnicheskiy rodaktor. [Automatic telephone communication in railroad transport] Avtomaticheskaia telef'onnaia eviaz' na zhelaznodorozhnom transports. Hoskva, Gon.tranap.thel-dor. iad-vo, 1956. 173 P. (Moscow. VsenoiuznYi tauchno-iseledovatellakii institut zheleznodorouhnogo tre.noporta. Trudy. no. 118). Osu 9: 10) (Railroads-Coismunication systems) (Telephone, Automatic)  DFMVYANKO, N.S., inzh. Plastic coating for forms. Transp. stroi. 13 no.2:52-53 F 163. (MIRA 16:3) (Concrete conotruction-Formwork) (Plastic films)