SCIENTIFIC ABSTRACT TYUKAYEV, V.N. - TYUKOS, L.

~ MIM WN  r j P T, M~( t; V41i'r 0, k~ ~ -049 -~2-01 191 B, ;.,; .% ) j I ;'~6023397 SOURCE CODES I-ACC R/0374/66/000/003/0380/0382 AUTHORI Aslanoval H. S.; Balevichy L S.; Tyukayavp V. Gordonp S. S. 13 ORGs All-Unio Glass Fiber, K i stekly ogo TITLEI Increasing the by using hollow glass (VsonoyuzW nauchno-issledovatell3kiy inartitut stokloplaatikov specific flexural rigidity of fiber-glass reinforced plAstica fiber's SOURCES 14okhanika polimerov, no- 31, 1966, 380-382 TOPIC TAGS1 glass fiber, reinforced plastic ABSTRACTI An attempt was made to develop glass fiber of light structure, I. a., of hollow (capillary) tubular -cross section. A special multi-drawplate i~nlt was con- structed, end the process of drawing hollow aluminoborosilicate-91-1~$-Llfibers was studied. An experimental batch of braids made of these fiborst which had a capillari- ty coefficient K = 0.6-0.7 and an average outer diameter of 0.013 mm- was prepared. 'ilia physicomechanical properties of plastics reinforced with those hollow fibers in the direction of the filler were compared with those of plastics reinforced with ordi- nary solid glass fibers. The plastics with hollow fibers havelower elastic moduli and -tensile strongths; howeverp because of the lower volume weight, their wall thickness is on the average 1-5 times greaterv so that the flexural rigidity of mich a wall Is Card I/P. UDC:  ' 04952-6~7 ~-mccWRs -AA6b2339?---- twice an high as in the case of solid fibori, In addition, plautics reinforced wi th hollow fibers have higher dieloctrio and eloctrio Insulat . ZWUQa and a lower themal &M sound conductivity. Orig. art.- ablen and 2-formulaa./,5-- SUB MISS II/ SUBM DATEI 20Jul65/ ORIG REFS 003/ OTH REFS 003 Card  KUKHARENKOj M.K.; BASIN, Ya.M.1 BALIVAS, Yu.P.; TYUKAYEV, YU.V. New type of models of porous 3trata for neutron logging. Atozs. energ. 15 no.4:338..339 0 163. (MIRA 16310)  1< 9(6) PHASE I BOOK EXPLOITATION SOV/2557 Nauohno-tekhnicheskoye obshchestvo mashinostroitellnoy promyshlennosti. Leningradskoye oblastnoye pravlenJye.- Provolochnaya tenzometriya (Theory and Application of Wire Strain Gages) Moscow, Mashgiz, 1959. 138 p. (Series: Leningradskiy dom nauchno-tekhnicheskoy propagandy, kn. 51) 3,500 copies printed. Sponsoring Agency: Nauchno-tekhnicheskoye obshchestvo priborostroi- tellnoy promyshlenno~ti. Ed.t A.M. Turichin; Ed. of Publishing House: M.A. Chfas; Tech. Ed.: L.V. Shchetinina; Managing Ed. for Literature on the Technology of Machine Building (Leningrad Division, Mashgiz): Ye.P. Naumov. PURPOSE: This collection of papers is intended for engineers, scientific workersand technicians making calculations for strength in machinery. Card 1/5  Theory (Cont. ) SOV/2557 COVERAGEt This is a third issu*e of the collection of scientific papers presented at the Leningrad Scientific and Technical Conference on the Theory and Use of Wire Strain Gages, held in May 1958. The papers describe the use of instruments with wire strain gages to investigate different parameters of machine parts and mechanisms during operation. No personalities are men- tioned. References follow several of the papers. TABLE OF CONTENTS: Tyukel-I G''I* Measurement of the Pressure and Flow Rate of a as,Using Diaphragm- and Bellows-types of Elastic Elements With Wire Strain Gages 3 Etingof, M.I. Application of Foil-type Strain Gages in Instruments for the Shop Control of Rolling Processes 11 Kustanovich, M.S. Use of Strain Gages in the Manufacture of Hydraulic Turbines 21 Card 2/5  Theory (Cont.) SOV/2557 Shmakov, E.M. Instruments With Wire Strain Gages for Measuring Vibratory Displacements of Soil 25 Kostyuk, Z.D. Experimental Measurements of Static Thermal Stresses Under Nonstable Thermal Conditions 32 Matskevich, D.D. Use of Wire Strain.Gages. for Measuring Small Forces, Pressures, and Fluid-flow Velocities - 38 Shallnikov, G.I. Experience With the Use of Vibrometers With Wire Strain Gages For Measuring Amplitude and Frequency of the Vibra- tions of Small Surfaces 50 Arshanskiy, B.E. Vibrometers With Wire Strain Gages 55 Petrov, L.V. Universal Cathode-ray Oscillographic Equipment for Experimental Investigation of Machines. Possiblities for Improve- ment 6o Card 3/5  Theory (Cont.) SOV/2557 Dumov, P.D. Counter for Strain Cycles (Deformations) of a Given Magnitude 73 Baranov, D.S. Principles of Construction of Multichannel Strain- gage Instruments for Simultaneous Observation and Recording of a Series of Processes 79 Arshanskiy, B.E., and L.A. Leyfer. Semiconductor-type Voltage Converter for Feeding Strain-gage instruments from Low-voltageD-C Sources 92 Polyakov, A.A. Current-wave Recording in Measuring Dynamic Processes A th 3 t rain Gage q 100 Grzhibovskiy, V.V. Method of Welding Circuit Wires in an Experimental Investigation of the Deformations in Rotating Parts at Temperatures up to 4000 C. 104 Fiven, I.D. Problems of Calibrating Strain-gage Instruments During Card 4/_9  I Theory (Cont.) SOV/2557 Field Testing of Machine Strength log Izhevskiy, M.N. Accidental Errors In Dynamic Strain Measurement 122 Koltyshev, A.S. Machine Tools for Winding Wir4e Grids 135 AVAILABLE: Library of Congress GO/Jb Card 5/5 11-19-59  TTUKELI, -- Go-I.- Measuring gas pressure and consumption by means of mecbrare and bellows-tv-pe elastic elements vith wira transducers. [Izd.] IONITORASH 51:3-A0-- 159. (MIRA 12:12) (Flowmeters) (Teniaomoter)  T/vc/ It-e- e~v d I 4.; TOICHINSKIY. Yefim ftoiseyevich, inzh.; IVIGRW M iy Fedorovich, inth.; UDALITSOV, A.U., glavoyy red.; SHTHYIMOK. G.Yu., inzh.red.; POIIOKAIWV, V.A., takhn.red. [Visual multiple intermittent contact recorders of pressure and electricity) Hnogotoobechnyo opticheskie samopistay davlanii i mlaktricheakikh velichin. Hook-va, Filial Vass. in-ts nsuchnoi t tekhn. informatsii, 1956. 42 p. (Pribor7 i stendy. Tema 4, no. P-56-522) (HIRA 11:3) (.Pressure gauges) (Alectric metere) (Recording instruments)  TYUKHANOV. YU.M.,_jnzh. (Krasnoyarsk) Comparison of synchronous and asynchronous electric motors. Elektrichestvo no.11:85 N 165. (MIRA 18:11)  SKURYGIITA. P.V.; TYLWWIOVA, T.N. Representation of certain relief forms of Takutia. GeV_,.j kart. no.2:35-37 P 160. (iaRA 13:6) (Takutia-Frozen ground-Maps)  NIKULIN, I.A., prof. (Krasnoyarsk); TROSHIN, V.A., inzh. (Krasnoyarsk); TYUKHANOV.. Yu.M., inzh. (Krasnoyarsk) Calculation of the excitation of synchronous motors with consi- deration of minimum energy lose. Elektrichostvo no-4:9-14 Ap 165. (MIRA 18:5)  FOMICM, M,M.,, inzhv; TvTTj=7NaII.~-S*# inzh.; POPOV, O.M., inzh. An automatic noncontact ATR-1 temperature regulator for grain driers. Vest. elektroprom. 33 no.9:24-26 S 162. (MIRA .15:10) (Grain-Drying) (Temperature regulators)  TMMNEV, Yu.N., inzh. Enforce the use of olectric drille and immersed pumps in oil fields. Bezop. truda v prom. 2 no.7~19-20 -TI '58. (MIJUL 11:9) (Oil fields-Equipment and supplies)  ,ryUKjjTyAyl.,W9 V. goneral--j',,-,Y-)r . Pons Will be Increased terifold. Ave i kasm* And-the power 0" wba (MIRA 17:7) 47 no,7135-40 11 164.  a R a M 4 0 v is 0 a o a a a at a- 11 ~ fIt I It V-f~ 2 11~ (AP 141 .00 1"Ife of vairkdoi In vi"'at "Ws "A m Me oxyges so *of 11;j of homes Viring dwin U044 06 a ~04 co"Unt protew todUt"S. Piiiinipt 8, No. 6, 43-60M9 %-t .00 SOR was detd. xcmrding to _,Aftbjngi's method (d. C. A .00 30. WS') by destroying the -9. MUttf Of the Mine with a mist. o(cowd. HsSO, and K10j. Theamt.ofthe 00 aAlso I decompd. KfOs indicates the amt. of 0 used bir the art, =00 $00 matter. Some KI is -and the liberated I titrated with NapSA. SloCe Cl is present in the urine, it is detd. 00,31 and in rals-g. the suit, of v%cat 0 a corresPOndiull Cor- 000 Irviion is made (b tool. of Nacl decutops. I Mol. of KIO.). The oxid4tion quotient Is obtained by div4llog the anit, of too vaoat Oby tile &mt. of total N of the urine. In4suhlects, whuse 24-hr. urine was czaind. for 29 days. the vacat 0 we* 3 was ZLW-77,29 g. and the O/N, 131-1.5. Otte subject goo dvveloped influenza and this loweml the vacat 0 to 14 1., the OIN to 1.0. T. LaAn 0 X00 7100 1900 2 - I L A VITALLMICAL LITISAIJ42 CLASUFKAVON to"42 -j W*O 108440 Nip Coe age 00 'AN A, 1 0 Od 0 -0-11 1 q a Uis AV so ~; 0 0 0 0 0 0 0 * 0 a 0 0 0 0 0 0 0 a 0 0 0 0 0 0 0 0 0 0 0 0 00 000000000000000&M0,11 0 0 40-0-# 0 0 0 0 00066 0 * 0 0 000,  *see** 0 0 0 At 0 0 0 0 41 0 0 0 0 0 06 00 00 0 0 0 0 0 0 0 0 41 0 0 * 0 0 .. ,p 'S 0 0 0 0 9 0 0 to is it it is 1. If is if 11 14 4 A :1 a 21 a it V AS u III a IF is Or 4 $t 41 is .4 4ea A j A A, s 0 r (x cc it it '%~ -00 J1 0 Mi 1"illikkes"ll of evil P-41F IRTEudiall Manes ' ' " - ; 1j#j'WjtkNjy~A 15. N~.. It. t0p ;' Ru. '. rli. "I. atif itwirwiemy of new quArtIA-row"I Crtmiuls .1,OX-t thm 40 g!. stout Obr%~ in sumnirr Aml 72 Jim in winter ram brovirr 09 %,mur witht"it anY in-Nh, injurv iw he lite. b"Itfle In (III, i"Ifititis limp, "I l"1111 ritilt'llurg. I%. thl~ 00 riml, lite Omw I, impmr-il in **let *1 #...m irlilp. In till III` it w I I.1 111-411,41"1 WIKHIVtl 1XII l 11 OW trui 1411 0 111 , I l . v , " .00 0 l. 14ijiol (to W in 411 hit. 441.1 Ill,,11 .1 A III ull #t0 0 111i pffivent cooling of the filon.- 1pulijur 111041tillfid, It is wrilp ix"I tit monts, In%olming *heirli ir N lot blyVr. tit palwt. h l ":e lWorellurr Offlits1% it 2'r, ifu fraw I" lite Alili'llud rilh irlh T. 0 a monoilly An't u%q",'V"f Smilsid pull, at 1"W' W l"I"p. 4 0 4e " 1 , 4'1 -prilkhort. ChAl 111AW * 0 00 4 00 7;7 1-7 0 Az 411ALLU114KAL Lifts'114,01 Ct "IIIJOICk licit It 1 1300 IF It* 1 - l I 1 - u a a to &S Ka .10 mart 4t Or O O a I v ad a is . 1 110 11 I ;X6 , ~ 'm 'llro i 000 *0 7 4 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ' s W 0 00 0 0 *(to 0 i 0 4:4 0 * 0 e 0 0 e 0 0 * 0 0 0 * 0 0: 0 0 0 0 0 0 1  PONIGM. X49 inA;; TYMKOW, Tn. inzb.; FM3R, Tu.. insh. 'Blectric te"rature regulator for grain dryers. Kuk.-slev.prom. 26 to.1:16-18 JT& 160. (KM 13:6) 1. Teentrallnoye konstruktorskoys byuro Miektroprivod Voeocyuznogo nauchno-issledovatellskogo inxtituta alaktroaekbaniki (for Youtchev, Tyukbmenev). 2. Voesoyusnyy nauchno-iseledovatellskiy institut sellsko- khozyaystvonnogo mashinostroyeniya (for Preger). (Grain--Drying) (Temperature regulators)  TYUKHTIllt M.9 inzh. Marine radar station ODonets." Recho transp. 20 no. 2:50-52 F 1,661. (Radar in navigation) ' WRA 14:2)  TYUKHTIN, V. 3- Disi;ertation defended for the dalyrea of Candidate of Philusophical ~;ciences 0 at the Institul-le of Philosophy 11prolulma of the Laage (in the Nature of Psychical Mflection)." Vestnik Akad. Nauk, No- 4) 1963, pp 119-145  . ~ . ~', t (" '~' :-, ,i; - : i I; - ~ I I - z ~ ~-,- .-A ~, . - , - I - - 1~ - - - ~jL 1 ! r. . .. - f - -) . : '3~ - t;-4. - I .~, - - -, I . 7 . , I I . . . . , . ~q . -1 f , -. F A , I , ;, ,l , ; . ~ 1 1 t t )  TYUKHTYAYEV. V.A. - Gvardii general-nuVor aviateii To the heart of every soldier. Vest.Vbzd.Fl, no*3:11-1!1 Mr 161. (mmax. 14:6) (Russia-Air I)rce)  jN' T"7 -,n tr 6 -7 pr ric u, ~.'r  MMEI&Ap S.Ns AcebleratAon of urine mineralization in examination for-leAd. Gig.i san. 26 no.1163-66 A 161. (KM l4s6) 1. Iz Moskovskoy gorodskoy sanitarno-opidemichoskoy stq*4ii. (LFAD--ANALYSIS) (URIO-MLYSIS AND FATHOJMY)  TYUKIN K. - - ~ .-- Avoiding loss of woodpulp on sliver screens. Bum.prom. 31 no.5: 20 My '56. (KM 9:8) 1. Nachallnik drevesnomassnogo zavoda Balakhninakogo tsellyulozno- -bwmazhnogo kombinata. (Balakhna--Woodpulp industry)  Tytmm, K.I. 4 - Removing resin from liquid woodpulp and cellulose. Bum.prom. 31 no.3:24 Nr 056. (MLRA 9r: 7) I.Machalinik dreveanomasonego zav*da Balakhninakogo toollyu- leano-bumazhnogo kombinata. (Woodpulp)  TYUKIN, K.I., nuchallnik drovesnomassnogo zuvoda. Breakdowns of grinder stones. Bum. prom. 28 no.6:21-23 Je 153.(YT.RA 6:6) 1, Balakhninakiy teellvulozac-bumuzhUy kombinat. (Wood-pulp industry)  I OF- I I -~h"'-'V , 1-i. 0. , 1, IR I K I N" h, IN', , -KiNGHP a" KlY, G. X US-3R (coo) Aluninum - Corrosion. Device for relative evAludtion,"of the elasticity of anodic coatin" on aliminim. Trudy Inst. fiz.khim. AN SSSRI No. 3, 1951. 9. Monthly List Lf Russian Accessions, Library of Congress, 14ny -1953/ Uncl.  --TO'rDkS-IrV'VI 1,41. 'D., TrUMT, 'M. J,, (". K., Aluminum - Corrosion Device for relative evaluation of the elasticity of anodic coatings on aluminum. Trudy Inst. fiz. khim. A!I SSSR, No. 3, 1951. 9. Monthl List of Russian Accessions, Library of Congress, May 1952 -YVA U'.1.  13 - ---- .- - ~T -D., -jI)rUrIj, t-j. ~%, 11. IUI*UI,Dnlj -13 - ~' . -- _ , - , b-~ -- -" 1 1 ~ -;. Aluminum - Corrosion Davice for n3lative evaluation of the elasticity of anodic coatin.as on alLmLmLm. Inst. fiz. 1,hi-m. A,-1 SsR, No. 3, 1951 May 1952 9. Monthl List O-f Russian Accessions, Library of Congress, _ 4MIY' Uncl.  PIZHURIN, Andrerl t~yt-i. nalik, d.,t.3.. BLITS[frEYN, A.Ieksandr Ziriovlyevi- r:.,. d-t,-.9,' STTII'IFGV~ Vladimir T!kh~,n,,!.,,*-~--':--. k~i~vl. tek-Z), nau~,. SAYTAIROV V,V... inzb.. retsenzent-WHIII, 1%Nr prfipcj., retsenzent; PEREL I MJTER 11,M,~ :~ei~ [Electrical equiprrent, ~,( thi lu~fibc-r and w:~-,dw,;rking indas- try] Elek-l-,~-it,-,,:-adG-,r~q.,i,6 predpriiatil Ilesn:01 - d6revc-- obrabatyva-,,.i i-,. Ynskva, Lesnaia pr->- jr8 MY ^965. ') s Idenno -s t c P, (MIRA 18: 11) 1. Kostromskv-j-j Ies,.,mekI"ariJI--hesk:.y tekhnikum kfor Tyukin),  I dorozbnyy master; TYUKHIH, T.I., dorozhnyy master EITZHIKH, T.P., - -- ... ~ - -- " ~ Our proposals for the seven-year plan. Put' i put..khoz. no.11:31 N 158. (MIRA 11:12) 1. 2-y okolotok Ostrogosbakoy distantsit puti Yugo-Vostochnoy dorogi. stantstya Palatovka. (Railroads--Track)  TYUKIN,V..A.. polkovnik meditsinskoy slushby Typee of medical cars. Voen.-med.zhur. no.7:7&79 Jl '59. (HIM 12: 11) (MEDICAL CA11E)  ,jose* pffft 0 00-4 so* 00 C ON 00-11 2 0 sea *04 ********eoo ?pFfIfff ('W*mAi& Heitilux of Anodir FURM Light Aft(4U, V, 9. jan,141, P. 22-33. 'Mechanism of the ChfOM&tv &Slft 7'r"Umilt Of Anodic -Pilms on Aluminum". by TomashOl $from 891,110- fin of the Academif Of 3d"C'es U-S-S.R.- Chrmkot Science Section, no. 6. 1044). *,Deveftment of an Accelerated Chromate Beallne Mc4hod (or Anodic INIMS an AIUWJnUm Alloys". by-,TVjA.IA& (from ZhurRal Prikkd"QV KhhRif- V 18, 3. '44, p. 140). 00 APzoo 40 logo*) wit 0-1 oat u if If 00 it a 4 - 4, W I ; 0 H It ; 60*40::400009090904000 00 a 0 ko 100000*000 izi~ -so Go 'so .00 *so zoo ,so coo too *so so Also U04 no* so slow 400014V W0000 #still at env it$ Ani, toWIN "WI)VINSA43 I I 1.1 4" oo::::ooooo*ooooooooo 0 0 0 0 0 0 0 0-0 0 0 40-4 ~AAA  ..bit tt-tre Ulng o.lo,;~a!3ee kf Suv.,aed. 28 nc.'Ll I IMI R A 8 A-rk'nangol ti t-o+-a.  L 09968-67 Z"o"L(J.) _U'D ACC NR: A-16022275 SOURCE CODE: UR/0000/66/000/000/0053/0056 AUTIHOR: Stolyarov, A. K. Tyukov, I. P. ORG; none TITALZ: Theoretical problems of three-port circulators constructed of dielectric fil- led waveguides SOURCE: Vs(!soyuznaya nauchnaya sessiya, posvyashchennaya Dny,4 radio. 2d, 1966. Sek%siya kvantovoy olektroniki. Doklady. Moscow, 1966, 53-56 TOPIC TAGS: waveguide, wave propagation, dielectric waveguide ABSTRACT: The precise expressions for wave propagation in a three-port circulator i fabricated using dielectric filled waveguides were obtained from the solution of the- diffraction problem for wave dispersion in a symmetrical H-plane waveguide junction, The following relations may be derived assuming ideal circulation conditions: a 10 (-V) X 0, -So (t) R* tg Z~-I' + IN, (1) Nx)] + Lo (t) 3 Card 1/2  9956-67 0 0 (t) 2_ )2+ 2 k S, W t9 6W PSI M arc.Ig ks, W x tg60'-:- IIPt tg 300+ kSj (i) ASIM IL2 k2 x where SO(t), LUM, NOW, SI(t), LIM, 111(t) depend only on the values of t, the i diameter, and a is the width of the wide waveguide wall; 2r is the diameter of the i ferrite cylinder, ye are the dielectric constants of the ferrite and the surround- i a i ing space, and p,k are the tensor components of ferrite permeability. The plots of energy transfer coefficients into port 2 and port 3 are given. Orig. art. has: 3 figures. SUB CODE: 09,-Z0/ SUBM DATE: llApr66/ ORIG REF: 001/ OTH REF: 001  VAQ15;A6 VW-rW1r4UM(f1 WAO Acc -NR, AP-6020556 sounacom Wokik/66/m/m/oo88/0099 AUTHOR: T yullpanov, R. S. (Novosibirsk) ORG: none TITLE: Calculation of the combustion of atomized hydrocarbon fuel in forced combus- tion chambers SOURCE: Fizika gorenlys. i vzryva, no. 1, 1966, 88-99 TOPIC TAGS: combui3tion, gas turbine, liquid.fuel, combustion chamber, hydrocarbon fuel, combustion characteristic ABSTRACT: A method for calculating the combustion time of hydrocarbon fuel droplets in gas turbine combustion chambers was developed on the basis of a model which divides the combustion into two stages. In the first stage, the droplet stagnates, and in the second stage, the droplets attain the same velocity as the gas stream.- In the latter stage, evaporation and combustion follow a turbulent flow model. To verify -the method- published e;zperimental data vere processed for solar oil and m-L>dland YA-40heavy'fuels1lat pressures of 1.3-3.7 atm. flow velocities of 14-46 m7-sec, and air excess coefficients of 1.2-2-5. It was abown that the proposed method for cal- culating the length of the combustion zone can be used for general practical calcula- tions. Orig. art. has: 15 formulas and 4 figures. (PV] SUB COM 21/ suBm DATE: l9jul65/ . ORIG REF: 0091 OM RZIP4. 003/ ATD PRESS 6d2,6 L-Car .1/1 JS UDC: 536.h66  . jj#,kandidat maditainskikh nauk (Arkhangellsk, u1. Berafimovichn, T'Mh,A .4) Diplococcal peritonitis. Mov.khir.arkh. no-4:67-69 JI-AC '57. (KUU lot1l) 1. Kafedra obehahey khirargii (zav. - prof. G.A.Orlov) Arkhangell- skogo meditainskogo instituta. (MITOMITIS) (DIPIA)COCCUS)  ORLOV, G,A., prof.,- TYUKINA, A.P., kand.med.nauk Im.portant issue of the pToble,4 of =an's acclimatization in the North. Biul. uch. mad. sov. 2 no-5:21-24 S-0 161. (PUFA 14:U) (COLD-PHYSIOLOGICAL EFFECT) (ACCLIMATIZATION)  kand.med.nauk (Arkhangellsk) Injuries from eleetricitY at logging enterprises. 26 no.5:24-28 My 161. (ELECTRICITYp INJURIES FROM) Felld. i akush. (KM 14-5)  kand. mufl. nauk C~c(!Upatlonal ot~tng ;I, engaged in 1.1-mber-l", Tio.11:14?-152 11 163 ,Ili rurg-1 Iz 'Kiiniki obshcheY I'lauki. profs G.A. ov)  TYUKINA, A.P.; VESHCHAGIN, Yu.A. i'Arkhangellsk) _. Occupational diseases of the hand and and aseembly men of a furniture factory. 7 no.1953-56, Ja'63 arm in locksmiths Gigetruda rof * zabe kMIRA 16,.L?) 1. Arkhangel'skiy meditsinskiy institute  TYLUKINA3 A.P., kand.med.nauk Nourovascular diseases of the e4remities as a result of cold. Felld. i akash. 28 no.2z8-1I'r'63. (MIM 16:9) 1. 1z kafedry obahchey khirurgii A.rkhangeltakogo medi-tainsko- go instituta. I (EXTREMITIES (AIIAT014Y)'-DIBEASES) (GOID-PMIOLOGICAL EFFECT)  'r, -VMNA, , - - versity in the 18th an& 19th ~'. i 4 * - f mechanics at MOSCOW TJU' (mm 9:6) DeveloPPent 0 -536 110-8 '55. lt._mat.jsjjjG noe8t4139 centuries* I a ics-Riatory) (Moscow University) (Meehan  . Tyla k a~n~dra Petrovv~"n% kand med. nauk; GOFIIKLEII) V,A*, red.; 11 sa . red. R= f injuries in lumbering CaMP03profilaktika trav- [Prevention 0 1962. 52 p. matizma na lesozagotovkakh. moskvap Medgiz, (MIM 15.,c') (LUKBERING-,WSTY MUSURES)  TYUKINA, A.P. (Arkhangellqkp ul. Serafimovicha,d.30,kv.4) Vascular anomalies simulating a mediastinal tumor- Grud. khir. 1 no.5;109-120 S-0 161. (MIRA 15:3) 1. Iz kliniki obshchey khirurgii (zav. - prof. G.A. Orlov) Arkhangellskogo meditsinskogo instituta (dir. - dotsent A.A. Kirov). (AORTA-ABNORMITIES AIM DEFORMITIES)  ZALIVALOV, F.P.; TYMINA, M.N.; TOMASHOV, N.D. Properties and microstructure of thick anodic films on aluminum. Zhur.VKHO 7 no.2:235-236 62. (KRA 15:4) 1. Institut fizicheskoy khimii AN SSSR. (Metallic films) (Aluminum oxide)  ikINA., M.N.; IGNATOV., N.N.; ZALIVALOV, F.P.; TOMASHOV, N.D. Anodic oxidation of aluminum-copper alloyo in oulfuric acid. Sbur.prikl. khim, 36 no,2:338-344 F 163. (MM 16:3) (Aluminum.-copper alloys) (oxidation, Electrolytic)  iSiD AUTHORS: TITLE: SOURCE: ZIU30 OC'/598/61/'000/006/028/034 D217/1303 Matveyeva, T.V., Tyuk "nq_.M.N., Pavlovat V.Aop and Tomashovq N.D. Investigating the anodic oxidation of titanium in sulphuric acid solutions Akademiya nauk SSSR. Institut metallurgii. Titan i yego splavyo noo 6, 1961. Metallotermiya i elektro- khimiya titana, 211 - 220 TEXT- The results of invest4gating the anodic oxidation of Ti in aque;us H2SOt solutions and"~the properties of the oxide films in relation to he conditions of anodizing (concentration and tempe- rature of electrolytO,, time of anodizing and anodic current densi- ty) are reported. The material studied was annealbd Ti sheet from an experimental batchq having an elongation of 14.81~%, produced powdermetallurgically and having the following chemical composition 0.13 % Fe, 0.15 % Niq 0.1-t % Si, 0.050 % C9 0.098 % N2 and 0.34 % Ca. Ti iodide and Ti of specification M were used as reference specimens in individual experiments. The specimens were cleaned Card 1/3  S/59 61/UUO~006/028/034 Investigating the anodic oxidation D217%303 with emery paper, degreased with acetonev etched for 15 seconds at room temperature in a solution consisting of 15 % HP and 5 % HN03 and rinsed with water. Anodizing was carried out in the same way as for Al. The solution was agitated and the current was supplied ac- ross anodized Ti terminals. In the course of anodizing, the voltage was changed, the anodic current density being kept constant. The properties of.,the films obtained were determined by means of a drop method developed bV the authors, using a solution consisting of 1.22 % HF, 0.91 % HN03, remainder - water. The time taken for in- tense evolution of gas bubbles to begin after application of a drop of the above solution to a restricted film surface, was noted. Films possessing the beat protective properties (according to their drop test performance)q were also tested for their corrosion resis- tance by semi-immersing the specimens in 40 and 75 % solutions of H2SO4 at 300. The weight of the films was determined from the loss in weight sustained by the anodized specimens on removing the film. The films were removed by cathodic polarization without noticeable dissolution of metallic Ti, using a current of 1.5 mA/cm2 in a 20 % H3PO4 solution with addition of 0.1 % CrO 3 at 800. The film thick- Card 2/3  S/598/61./oOO/006/028/034 Investigating the anodic oxidat-ion ... D21_7/D303 nese was calculated form the weight. It is shown that anodic oxi- dation.*-f Ti. in H2SO4 solutions at room temperature requires a high terminal voltagep as a result of which films of low quality form. Raising the temperature of ihe electrolyte to 800 and above, results in a decrease in terminal voltage and enables films of bet- ter protective qualities to be obtained. The following methods of anodizing Ti. in H2S*4 solutions were found to give satisfactory results: 1) 18 % H2SO4 solutiong temperature: 800v anodic current density: 0.5 A/dm2, anodizing timeg 2 - 8 hours; 2) 18 % H2SO4 so- lution, temperature: 10009 anodic current densityg 2 A/dm29 time of anodizings 2 hours. There are 9 figures, 3 tables and 14 refe- rencess 3 Soviet-bloc and 11 non-Soviet-bloc. The 4 most recent re- ferences to the lInglish-language publications read as follows: ?.D. Millerp R.A. Jefferys, and H.A. Prayq Metal Progress, 1956v 699 61; H.A. Johanseng G.B,, Adams and P. van Rysselbergheg J. Electrochem. Soc.9 1957; 104iv 339; H. Richardq Metal Finishing Journalp 1957, 39'101, H. Nagasaki, H,, Ishida, Keikindzoky Light Metals, 1958, 89 60. Card 3/3  S/137/62/ooo/oo6/144/163 A057/A1O1 AUTHORS- Matveyeva, T. V., Tyukina, M. N., Pavlova, V. A., Tomashov, N. D. TITLE: Investigation of the anodic oxidation of titanium in sulfuric acid solutions PEMODICALT: Referativnyy zhurnal, Metallurgiya, no. 6, 1962, 97, abstract 61612 (V sb. "Titan i yego splavy". no. 6, Moscow, AN SSSR, 1961, 211 - 2a)) TEXT: Annealed Ti sheets with & 14.8% and the following chemical composi- t1an were investigated (in %): Fe 0.13, Ni 0.15, Si 0.17, C 0.050, N 0.098, Ca C).34. The anodizing was carried out in H2~04 solutions. Properties of the coatings were investigated in dependence on the conditions of anodizing: the ocneeTitration and temperature of the acid, the duration of anodizing, and Da- '11-c- anodic oyddation of Ti proceeds in H2S04 solutions at room temperature at high voltage at the terminals, therefore coatings of low quality are obtained. Ar. increase of the temperature of the acid, especially to 800C and more, decreases the voltage on the terminals yielding thus coatings with better protectice proper- ties. The following optimum conditions of anodizing are presented: 1) 1N, H2S04 Card 112  Investigation of the ... S/137/62/000/006/144/!06-~ A057/A10-1 s!--lutlan, temperature 800C, Da 0.5 a/dm2, duration of anodic oxidation 2 - 8 hrs; 2) 18% H-1304 solution, temperature 1000C, Da 2 a/dm2, duration of anodic oxida- tl~)n 2 h;s, There are 14 references. [Ata-tracter's note: Complete translation] Ye. Layner ,ard 2/2  S/128/61/000/012/001/004 AOOVA127 AUTHORS: Zalivalov, F.P.; Tyukina, M.N.; Ignatov, N.N. TITIE: Deep anodizing of aluminum chill molds PERIOI)ICAL - Liteynoye proizvodstvo, no. 12, 1961, 11 TEXT: Referring to former works (Ref. 1: N.D. Tomashov, "Vestnik inzhe- nerov i tekhnikov", no. 2, Moscow, 1946; Ref. 2: N.D. Tomashov, M.N. Tyukina, "Issledovaniya po korrozii metal!30, no. 1, Trudy Instituta fizicheskoy khimii, AN SSSR, no. 2, izd-vo AN SSSR, Moscow 1951; Ref. 3: N.D. Tomashov, A.V. Bya- lobzheskiy, "Issledovanlya po kox-roziimetallov", no. 4, Trudy Instituta fizi- cheskoy khimli AN SSSR, no. 5, Izd-vo AN SSSR, Moscow - Leningrad, 1955) the au- thor points out that deep anodizing produces on the surface of aluminum and its alloys a hard oxide coat which possesses a considerable resistance to high tem- peratures. The low heat conductivity of anode coats (0-001 - 0.003 cal/cm . see OC) of at least 150 - 300 fL thickness limits the heat transfer to the mold metal and prevents its melting. This property of the aluminum oxide coat was utilized in the manufacture of molds for the casting of h-f aluminum and magnesium alloys. The mold was made of pure ABOOO (AVOOO) aluminum 09.99%) Card 1/2  S/128/61/000/012/001/004 Deep anodizing of aluminum chill molds A 00A/A127 and "0 (AVO) commercial aluminum. The inner mold surface was coated with a thick oxide layer obtained in a 2N-solution of sulfuric acid at a constant cur- rent density of 2.5 amp/dm2 arid an electrolyte temperature of 0 - 30C. The surfaces not being anodized were covered with AR-20 (AK-20) nitro lacquer. The anodizing time was 3 h, the obtained coat was 150 - 180~L thick. Ingots of six aluminum alloys with copper (3 - 8% Cu) and four magnesLum alloys with zinc (3 5% Zn) were cast in -the molds, the maximum alloy temperature prior to casting being 720 - 7400C. The alloys were melted under a flux, which, for the alumi- num alloys consisted of 55% KC1 and 45% NaCl, for the magnesium alloys of 54% KC1 and 46% LiCl. After the casting of these 10 ingots the anode coat remained completely Intact while its hardness even increased somewhat due to dehydration. The walls of aluminum mc-lds should be thicker than those of iron molds. The use of additional external cooling makes it possible to use aluminum chill molds also for metals with higher melting points. There are I figure and 4 Soviet- bloc references. Card 2/2  MATVEYEVA, T.V.; TYUKINA, M.N.; PAVLOVA, V.A.; 'IDMASHOV, N-D- i Investigating the anodic oxidation of titanium in snIfuric acid solutions. Titan I ego splavy no.6:211-220 161. (MIRA 14:11) (Titanium--Electrometallurgy) (Oxidation, Electrolytic)  3 3/063/62,/007/002/0 14/014 rot) A057/A 126 AUTHORS: Zalivalov, F.P., Ty ak1na.. 11.11. Tomashov, N.D. TITIB: Properties and microstructure of thick layers of anodic films on aluminum, PZRIODICAL: Zhurnal vse5oyuznogo khimicheskogo obshchestva ime-ni D.I. re,endeleyeva, v, 7, no. 2, 1962, 235 - 236 TEXT: The effect of the conditions of electrolysis in sulfuric acid on microstructure characteristics of anodic layers was demonstrated in earlier papers. 'the effect of the microstructure of anodic layers on their properties is investigated in the present work. Electrodes of AP-000 (AV 000) aluminum con- taining 99.99% Al were used and anodic oxidation was carried out in 1; N 112SO)t, according to a method of the present indItute. These conditions allowed the pre- paration of layeVs with different, but exactly defined structures. It was ob- served that anincrease of the oxide cell of structure (distance between two paral- lel planes of the cell, which increases with current density) also increases the micro-hardness and strenfh of the anodic layer, Thus with an increase of alumi- num oxide cell from 280 to 547 A micro-hardness increased from 350 to 600 kg/mm~ Card 1/2  S/06 316 2100 7/00 210 14 /) 14 Properties and microstructure .... A057/A126 Since the diameter of the pores remains constant and the increase of the cell is eff-Pected by an increase of the thickness of the walls-,-the rise in micro-hardness and endurance is easily to explain. Therefore, in the manufacture of anodic coatings with high mechanical properties, electrolytic conditions must be applied which allow formation of coarse structure cells. No protection can be effected by the aluminum oxide layer in media which dissolve the oxide. In these media the layer between metal and oxide film protects the metal. The thickness of this barrie,r layer was determined by a method described by V. Vernik and 11. Pinner. Chemical resistance of the anodic layor increases with the thickness of thr, bar- rier layer, since the latter prevents the penetration of agressive ions through pores'of the aluminum oxide film. Thus an increasing of the barrier layer from 102 A to 266 'A increases more than twice the time necessaryfor the penetration of agressive ions, There are 2 figures and 4 refemnees. ASSOCIATION: Institut fizicheskoy khimii Akademii nauk SSSR (Institute of Phys17 cal Chemistry of the Academy of Sciences, USSR) SUBMITTED: May 14, 1961 Card 2/2  TOMASHOY, Nikon Danilovich. Prinimali uchaotiye: 3yMINA, M.N.; PALEOLOG, Te.H.; CHMOVA, G.P.; MIUATLOVSKIT, A.F.; TIMO- NOVA, M.A.; MODSSTOVA, V.N.; MAT72YXTA, T.V.; BTALOBM-3SKIT, A.Y.; ZHUK, N.P.; SHR7,YD3R, A.V.; TITOV, V.A.; VXD30TEVA, M.A.; LCKO- .. FEDOTOVA, A.Z.; TILOV, A.A.; BERUKSHTIS, G.K.; MTAGINA, O.G - FOKIN, M.N.; MIROLTUBOV, Te.N.; ISATD-V, N.I.; ALITOVSKIT, R.M.; SHCHIGOLEV, P.V.. TEGOROV, N.G., red.izd-ve-, KUZIMIN' I.F., tekhn.red. (Theory of the corrosion and the protection of metals] Teoriia korrozii i zashchity metallov. Moskva, Izd-vo Akad.naiik SSSR, 1959. 591 P. (MIRA 13:1) (Corrosion and anticorrosives)  /u got: Ell r A -It  24012 S/080/61/034/006/51 1~247/D305 AUTHORS: Mutvevalva, T.Vt Tyukina, M.N., and Pavlova, V.A. TITLE; Dependence of the rate of Corrosion of anodized binary al,,jra i num.- base alloys on their .,opper content !~ERIODICILL: Zhurnal prikiadnoy khimiiy v. 34, no. 6, 19061, 1365 - 1,3'67 TEXTt The role of copper concentration on the rate of corrosion of falAMinum Ealoy6 and the properties of anodic oxide films, produced P~i their surfaces, was investigated. The rate of corrosion was de- l L j ,,~rmined by the vo'ume of oxy6en absorbed and hydiogen evolved, u~:_'ng an apparatl~o aescribed by IN.D. Tomashov and T.V, Matveyeva., (Ref, 3.- Tr. Inst, f~z. khim. Ali SSSRp 3t 29 39P 1951). Birary aia- minym-base alloys containing ;.G,, 2~95, 3.96, 5.48 and 7.63 % cop- per viere tested, the materials usea ior the of the %~reparatior - ol: ally alloys being AB001 (AVOOO) aluminum (99 99 and speclrosc i,_ pure cDpper. Ali alloys were homogenlized a-. a temperature of 4850 Card 1,/5  3/080/ 1103410061101510-2,0 Dependence of the rate of D247/D305 for 240 hours, follovied 'by quenching in viater at room temperature. 1 ';'96 % Me-tallographic anal.ysis showed that alloys containing :,n to - copper were homogeneous solid solutions. Alloys zoritainIng 5.48 and 7.6-5 ~O Ou oonei-sted of a mixture of solld soLution and eu*ueti(. Anodl,-, oxidation was ~.-arried Y in a 4N s, 'i1pburi-, ~,,oid solution at a current density of i A/Idm and a temperature of CI-50 for 20 minutes. The thi~Tkness of the films produ.--ed was 5 - .!,a, Corrosior tests wer,:~, carried out by fully ~:raersing -the specimens in a 0.5 N sod:i'.um 1--h-iloride solution at a ~amperature of 250 and a pressure of 7060 mm Hg. FLg. I shows the between vollume o-f hy- drogen evolved (and oxygen ab2orbed) and time in the corrosion of anodized aluminum alloys of various copper contents, and Fig. 2 shows the same relationship for non-anodized alloys. From these two graphs it can be seen that corrosion of the alloys tested in a 0.5 N sodium chloride solution takes place wiLh mixed oxygen-hydro- gen depolarization. In siiil, th,~rwosthtically controlled solutions of the above composition, the rate of corrosior of Al-Cu alloys, anodized by the normal sulphurir: acid method, is approximately Card 215  2403.2 S/080/61/032~/CO6/r,_25/020 Dependence of the rate of ... _rj247/:)3Cj'5 half that of non-anodized alloys. As the copper conten't ircreases, so the rate of corrosion incre."es, at first osrentially duo to an increase in the rate of depolarization by oxy,,en, and subscouently only due to depolarizatior. by hydrogen. There are 2 -figures and 3 Soviet-bloc references. SUBMITTED: July 19, 1960 Card 3/5  8i LIDO AUTHORSi TITLEs mob, to b7 Zaliva.-I.-D-1, F. P.0 Effect of condit ions of e1e. c. t:r o'-, y e, i1-te f,) n- r growth of anodic oxide coatingb on t7, PERIODICALs Zhurnal fizicheskoy khimii, v. 35, !'o- 4, 19"), 6 7'1 8F~.) TEXTt A study has been made of t-he micro.,: #,ructnri; cj:~ id t. coatings on aluminum with tho qid of ~.n 3M-5 The coatings were obtained i.n. clilphnril,~ meditim. by t'r-e anodizing. This special proctdu-r;,. which authors' in~31vltute (Ref- 4! 11. D. 59, 1946; Ref. 5s N. D. M, N. zi-1 metallo-Ir (Tr. Ir.-t-4 fio. kli-&--Li AIT Nc,. 1, SSSR9 14-, 1951), ensicvc-L; efC-c;ient 7-1.0t4"Otion- thr, minum. alloys not only from cor along but frr other ~--rosive actions. Th"- coatirig-, aT- therm,,11-~v S~5ablc-j, e.,A insulation against heat and elc?-A.ric- c-irri-t. A Y9M Card 1/5  Effect of conditions Of' B microncope Twas also used for TI-;: :h- 200C. A tained in enlargenent!: of 8000 tc, 14k~ ment was oblu-ainpd by furth-cr :.,n-Arg-rapnlic TI);- A! consisted of AROC,0 (AV000) size. Pi-ior to anodizing, thr~ aluminur"r oxide suopen.~;ionq and in N sulfuric acid at ").5'C L--rd t 4 4 , or Initial 22, Th, i~ 100 ma/cm2 dation was varied b:.tween 61 f3j~cond~i E~rd i2r.1 Th. tures of' very thin alvi very thir.*;1- L~C- i f i t (: During oxidation tbe elect-rnlyte in ordc.,7 to obtain more homogenecus eoatirSs. This- diam-4f;~.r -of tt,~r~ Pore.-, of tht-. coatings that were obtuined wiis d"tz--.rmj.nc-d witn 't; c, cc- tv rn r-n :1 'L r () .3t The number of pores per ur~it zirea f~-f- cof-U-ine from ~,he quantity of oxide "ells per o.r)it at-la. !"rio, t".11:f V - 0-05-0-08e-L ) ob taine i i 'I ini t i~-,! .7 ot, --'.-odil- examined directly in tt);t eleutror 4.-tt"r. t,.r aluminum F=face in. -S 'UhAiMAU A C, W 2 t"I thick coatings ff -50..Wn rorulti f,-,-)m P~I(!j~;- thr. Card 2/5  2 3 Effect of conditions of B1061B201 same conditions. For this purpose, f-. yc--ry thin inier (-.f quartz was applied to the surface of oxillizod up t-'1-! relief of the oxide coating co'noernod. Taiti corky wq3 ot-ldllei in the electron microscope, Resultst The coatizi,33 submitt~--d to ave no d,3nse oxide layern irregularly traversed by chnnnel-sh~',pad porejo bizt constitute dense packings of cells in the form cf howagcnal prisms resting normally to the metal surface, and connected to one another at the side daces. These results were co-Mpared kith the-str~cture~: of coatings obtained under usual conditions of anodic ox-4-dation. in 3ulfuric For this purposes aDiminum Bpec mr-ris were -anoidically oxidized at, 200C 'and a current density of 10 ma/cM , and rin initial voltak~-X -7.-f 10 V. The mean diameter of tne port?s in-the roatin.-s was found to be iriepen- dent of ihe ran'' to amou-, thod-of anodizing in sulfuriq, acidl.,and it to 120 A. It wa4 established on the other iiandthat n'oatings prod~ic;,~d by the ab~~ve described method of bard -.9nod,17,ing exhi~O. ta-ii(,;i11y_nQw properf,'Jkeoo Th(,y disglay_a_&rsat hardneo;~ and otiibj.llty againot wear b~- fr1,;t,'on# Tho&e improved propor'Lies arp bused upon i~x- onlrtrgom,~,nt o,", oxide, cell dimer.- sions (by a thickening of the wall7ij) nn-J' upon the -r-idu~!tlon f;f the rojZ!ber .of pores per unit area of the coating. Toe sciPttific. worlr!~~ro of thn Card..  EfIect of conditions of' Wh20 I laboratory for sorption proces~,F.--,-i-at t'no-a--ithor.-O i,nntit~ite -t-re ti-InnI-P4 for tifeir assistance, V. PI. Dikfyfmovi~.,h Rnd Y:i*-A. L,!ontl.~Pv for viil,~- advi-c'e". There are-.8 figurea,.. 1 tRble, o!vi V) 7 Sovi, bloc - and 3 non-Soviet-bloc. The reference i, tiv~ iication reads as followst F. Kelllor, S. lf)ntor4 D. Z. Roi-Jvonn, J. .ke'ctrochem. Boo..p 100P 411P 1953, ASSOCLITIONs Akadamiya auuk S'SSR In3titut (Ao'adouky of .3ctonepti'USA In'stiitvt~- of Pijpli cal Chemistry)-s.;, qVBNITTEDt July 24., 1959 'Card 4/5  Effect of conditions of ... Fig. 3% Distribution curves of pores according to diameters as -0.081k~ 22003 S/076/61/035/004/0110/016 B106/B201 70 obtained for thin (S coatin a by the electron micro- scope fafter detaching films from alumin--.m surface in sublimate solution 2. I) hard anodizing ~!,-25 ma/cm E w 22 V, t - 0-50) 1 10 2) ordinary aRodizing 0 ~i)- 10 ma/cm , E - 10 V, t - 20 C)l a pore diameter in A. .10 IN fie 140 /V mo fI& 21 Card 5/5  9 (6) AUTHORS: Zalivalov, F. P., Tyukins, M. N., SOV/32-25-6-17/53 Tomashov, N. D. TITLEs Investigation of the Miorostructure of Anodic Oxide Films on Aluminum by the Aid of the Electron Microscope (Iseledoyaniye mikrostruktury anodnykh okisnykh plenok na alyuminii pri pomoshchi elaktronnego mikroskops) PERIODICAL-. Zavodskays. LsboratoAyap 1959, Vol 25, Nr 6, pp 696-69e (USSR) ABSTRACT: A method was devise4, permitting the determination of the cell structure of anodic oxide films on aluminum (Fig 1). By this method no impression is taken of the film on the metallic anode surface (Ref 1); instead, replicas are prepared of such films. The method Is based on the operation of taking off and subsequently comminuting the oxide film, thus obtaining microscopic particles which are split along the side- (longitudinal section) or bottom- (cross sectioL) plane of the hexagon lattice structure. Reproductions of these planes of shear may be obtained by the earbon-replica. method (Ref 2). The preparation procedure is described. Observations were made with the electron microscope EM-3 or UEM-100 and the samples Card 1/2 under investigation were of AVOOO aluminum (;9.99 % Al), which  Investigation of the Microstructure of Anodic Oxide SOV/32-25-6-17/53 Piliie on Aluminum by the Aid of the Eleatron Microscope Oxidized anodically in a 4 % sulphuric acid solution by the method of the hard anodization (Refs 3, 4) (Pigs 2, 3). The figures show that the oxide film is a dense'packing of cells in the form of hexagon prisms. Data are supplied of the dimension and quantity of cells (Table); they agree with data obtained with an earlier described me"vhod.(Ref 1). There are 3 figures, 1 table, and 4 references, 2 of which are Soviet. ASSOCIATION: Institut fizicheskoy khimii Akademii hauk SSSR (Institute of . .. Physical Chemistry of the Academy of S.Piences, USSR) Card 2/2  TYUKMA, M.N.; ZALIVAWY, F.P.; TOMASHOV, N.D. Electron microscopy of the microstructure of anodic oxide films on aluminum. Trudy Inst.fiz.khis. no-7:165-174 '59. (Blectron microscopy) (MIRA 13:5) (Aluminum coating)  PALZOLOG, Ye.N., kandidat khimicheskikh nauk, redaktor; ROZWFXLID. I.L.. doktor khimichookikh aauk. redaktor; TYUKINA, M.N.. kandidat khimi- cheskikh nauk, redaktor; TOMASHOY. H.D-.-,-p-rMre`s`Mor doktor khimiche- skikh na&., redaktor; SHCHIGOLV, F.Y., kandidat khimichaskikh nauk, redaktor; BABICH, L.V., redaktor izdatel'stva; MAKUNI. Ye.Y.,tokhrodaktor [Problems of corrosion and the protection of metals; proceedings of the cSaference] Problemy korrozii i zashchity metallov; trWV sove- shchaniia. Moskva, Izd-vo Akademii nauk SSSR. 1956. 270 P- (HLRA 9:8) 1. Voesoymnoys soveshchaniya po koriozii i zashchite metallov. 5th, Moscow, 1954. (Corrosion and anticorrosives)  PALROLOG. YO.N., kandidat khimicheskikh nauk, redaktor; ROZWYALID, I.L., doktor khimicheskikh nauk, redaktor; H.~,. kandidat khimi- cheakikh nauk, redaktor; TOXASHOV, N.D., professor doktor kbimiche- skikh nauk, redaktor-, SHCHIGOISY, P.V., kandidat khimichaskikh nauk, redaktor; BABIGH, L.V., redaktor izdatel'stva; MAKUNI, Te.V.,tekhredaktor (Problems of corrosion and the protection of metals; proceedings of the cgaference] Problemy korrozii i zashchity metallov; trudy sove- shchanila. Xoskya, Izd-vo Akademil nauk SSSR, 1956. 270 p. (MIRA 9:8) 1. Vesspywnoye soveshchanive po koriozii i zashchite metallov. 5th, Moscow, 1934. (Corrosion and anticorrosives)  TTUKINA, K.H.-, TOMASHOT, N.D. Electrochemical investigation of anodic films on aluminum. TrudY Inst.Fiz.Xhim., Arad. X=k S.S.S.R. 2, Iseledovaniya po Norrozii Metal. No.1, 126-35 '51. (MLRA 4:10) (CA 1+7 n0-15:7346 '53)  TOMASHOV, N-D.; TYUKINA, MON. --- ... .... -, Anodic oxidation of aluminum in sulfuric acid. Akad. Nauk S.S.S.R 2, Issledovaniya po Korrozii (CA 47 no.15:7346 ;53) Trudy Inst.?iz.Khim., Metal., No.1,110-25 1510 (MLRA 4:10)  IWASHO7. N.D.; TYUKINA, M.N.; BLINCHNVSKIY, G.K. ~ Apparatus for the relative estimation of the elasticity of annodic films of aluminum. Trudy Inst.Fis.Khim., Akad. Ka~k S.S.S.R. 3. Iosladovaniya Korrozii Metal. No.2, 13-16 '51. (MLRA 5:2) (CA 47 no.17:8559 153)  Ca M' , Ii') pt Isrov? 21, Rd' 48- zene ( I : I ) Aq. and t line, Thr: 09 Ike velocity of is tittle 111lit f'. tet and t1liq "PlInt. is inyvt-scly prciportional to tile flilitalicv of t1w litlilid qiirf;t ll~ and tile 1:4" of thf. container. Tile velocity of t1w. ah~orplinu of moistitrv ilqu,nds upon Iliv reintivp mok. ture of tile air. The dirtrilintion (;f thc moi.~Nrv ill thi- tilv. is almost. 7,itmiltatimi.q. Tile unit. of water hy the Ac.-twniciu: mi-it, itt (lit, tittle imit 1q unt k-~.i than that ahwrlx-d fly pure. life. A. A. Bovim usnkz  -'v, 1. 1.f .I.." . ~ ~.~A, ~. ,,,. -V. AKI.'()V, ""Tar Cb illairl, 1942, 12, 4-~3-447  I TVXVIA, M. N. "The mechanism of the anodic oxydation of aluminiur?, in sulnhuric acid.1 Ako-mow, G. Y." Tomashow, N. L., and T-yukina, M. N, (p. 447) SO: Journal of General Chemistry (Zhurnal Obshchei Khimli) 1942, Vol 12, Ho 9-10.  ~ I I T qyfj '-' I ~' lf~.. , iri . .'i . I . 14 . ti I , kj i~ lUl.'IlVI Zillir G") 1942, 12, 56--504 r,  I TYWKIII, c. v. AKI'm"T, ZhOrh 12y 56,51-!Illi  ZALIVALOV, F.P.; , TYUKINA, M.N.; TOIO.SHOV, N.D. (Moskva) Effect of electrolysis conditions on the formation and growth of anodic oxide film on aluminum. Zhur. fiz. khim. 35 no. 4:879- 886 Ap 161. 1 (MM 14:5) 1. AN SSSRp Institut fiziche8koy khimiio (Eleotrplysis) (Metallic oxides) (Aluminum)  ZALIVAWV, F.P.; TYUKINA, M.N.; IGNATOV) N.N. Deep anodizing of aluminum molds. Lit. proiz,,,r. no.12:11 D 161. - (MIRA 14:12) (Molding (Founding)) (Aluminum coating)  8/061/62/000/013/024/054 B177/13101 AUTHORS: Matveyeva, T. V. , ~n~kina ~11..~Pavlova, V. A., Tomashovt H. D. TITLE: Research on the anodizing of titanium in sulfuric acid solutions PERIODICAL: Referativnyy zhurnal. Khimiya, no. 1.3, 1962, 410, abstract 13K166 (Sb. "Titan i yego splavy". no. 6. M., AN SSSR, 19610 211-220) TEXT: Research into a process of anodizing Ti is described. The composition (in ~o) tested was Fe 0.13; Ni 0-15; Si 0.17; C 0.05; N2 0-098, CuO-34; with Ti forming the remainder in solutions of H2 so 4' The outhors studied the growth and properties of the films in relation to the time of anodizing (up to 8 hours)l Da (1-10 a/dm2); temperature (20-10ORG) and concentration of H2 so4 (0-80 ~). Anodizing of Ti in H2SO 4 at about 200C occurs at a high terminal voltage (up to 100 v) and results Card 1/2  Research on the anodizing of... 3/061/62/000/013/024/0"54 B177/B101 in films of poor qual ity.. Uising the temperature to not less than 80 0C reduces the terminal voltage and makes it possible to get films with better protective properties. The following optimum methods of anodizing Ti, are recommended. 1. 18 ~6 solution-of H 2so4 ; 800c) DI a 0.5 a/dm2; time 2-8 hours. 11. 18 % solution of R 2 so 4; 100OC; Da2 a/d.m2; time 2 hours. ~bstraaterts note: Complete translation.] Card 2/2  40~000 go* 0 0 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 0 a 00 1 4 S 41 1 1 1 " It tr is m is 16 L~~ to To a to a a so a it Is m 0 Is a 9 as P a of a a ad 0 K v I A L A a - 1 -A At, A I I A, [01-1900,00- Im MWINT.16 "to 0 A 00 .4 00 9 Ana& OW& rdw om AlualWam wills ch"Imm ~;; 0* . N. D, Tomashow anti M. M. (ISMM. AW. Sdisk S.N.S.R.. 1N4. : 0 JI(hitu.j. (3). Aluminium-clad Duralumin, abirets 00 a ,~j wrm fint atuRfirimt in HsM), it amp.,huJAM.. 311' 1 %. lit suits's J111.1 thro o a treated in pit Valises. TheritteAt s whivis The 1%,rivily Prrornt Is% the aluaft" oxhic fittris %&s 111W tilt duriolt 164W o & Irk% istrotio *so studiml by nwitauring thm *right inerrome lit ol.vinwim jw-r I of j unit slow. After a stanifard (1111n0 treatment, dr W skin of I W olierl"W416 a 40 vullsolum that thi- was ottRIW In 31.1~.V&O AM aim) In diatiII1,41 Witter, T rate of wifforptkin Incero,", And the role of 4~141-111 Am-rrame,i. wish an 00 W Iplivaluit. The result of the adoorldiim to Wirvt-I to 1w The fi,rroa 00 00 ossfAir JA40,41,11)). Tbo highest anti-com"m virm, obtainimi (in c baring the pit v&lw of the sperinsirns Whirls were treated In the molut 00 k jE-7 . K: 00 L A_ __!TALLURV~AL LITIM41111141 CLAISUPKATION u sa 4is 0 ff It a a R 19 n 44111*00000*006401111-TO-o'go *0 0 0 0 0 040 o 040 0 * o 0 0 # 0 0 0 .00 -00 -11110 -00 -00 .00 Sao zoo too 411111111 am 0 4900 to 0 .400 Ives :j _J101 -V T-i -6i 2 a it 0 1 as ii-e-4-84 0000000009*00 0 0 too 496000000040406049LA  YeAC-ii, 0 4 0-0: W 41 9 0 4 9 0 it U it W IS 16 11 Is N II U a is Is it 0 a ?I :a $I U U M a 16 U a 0 a V a 41 to spo l~ A A-- I' I A L. A -11, f 2 It 3 1 V If Ll~ -&-I - 1. #A M CC 99 t94A_j -& d -j t 4 4 k 9 0 a a I ride 9 A 00 - - - - - - - - .09 09 00 00 C1 PIT P. S. P"WrIN AN!_ JSLMXA. Co(kc6apt of MCA" .00 00 R#.Nj. Mw &W RtjiurrA. V S. S, R. Trans, Sri, A m$vaw-iL-Tr&w4w lost Issue 21, 04 and V99% &k, and a mixt. of ale. And benzene (1:1) ~00 wm, expoftd to 100 and M% moist air in a specially coustructe4 app. Aq. and 0 & W 9% ales. gicef easc io %titntith in the same way, represented by a straight line The 00 04 alwarptina of the moisture is Almost direcUy proportional to the temp. The velodty .00 of water abuirption depends an the amt. of water vapor *Wcb diffuses in a time unit 00 do* from the space above thr container holding the ale. to the surface ol the latter. and this amt. bs invefftly prulxfftional to the dktancr of the liquid surface and the edges of the container, The velocitv of the absorption of mokture dopends upon the relxtivr mok- tum of the Air. The distribution of the moisture in the ate. is almost simultancoui 00 The amt. of water absorbed by the ale.-henzene mixt. in the time unit is not less than COO that absorbed bF pure alc~ A. A. flogiffLimGm sew goo Q 0 0 as A S 0 - 5 L A I?ALL4*GPCAL LITINAT;,81 CLASSIM4VICk ILI ts to .... . 17 41kill 40 1,- &S, Lao* i--a 04 0 " a I W IN 9 a a > 9 V `0 1, t# 1, a a ag a it It PI a It It N n 0 0:0 0 WO 0 0 6 0 0 0 0 0 0 0 0 0 9 4 0  0 0 000000 .. 0-00 .1 11 r~ I r, -- 1 4?060 1 0 ' 10 a 0 for 41 a fir toP 0 It ; "S 9 (A g o IK . a 00 A 00 00 DoTelopunont of an accelerated mootbW for chro"ute Content 014,21d# films on afladitiodsluminunt alloys N 1, 1 r -00 00 0fifill. 10V 41141 M. N, TYUkillil, Pkii. didd, 1, 1 - V.N_,,,x * 14" Ckllor fri rki,4 4111111111it J ) -00 . , . ; y 1 d I ii I A SA U 00 e - rm. ( ~ R,) 10, JAI-AM ,115). Th- pp 0 00 thrurnale ,mirnt 4 oxide filuis on Al 14-petok fitt th, loll too i of tile chr.-fleste fath.. lx~f rtllfft, Weft. "lattined of 1111 -00 go G-7. rwt, pnxv"" wt-re (ic-m-pi"i: (i) i,ff fiiiii, niti, too 60.4 hdl`oeolyl~l lootoltIVIiVe ot'hatAll~lAil-! Will or GOP N%,C(), 114 w.A.: film,. ' ' 21 -4 i 11 01 7 -00 - in n.. 1, ; Asti,l ( - ) 1,,r ji,mmol, of Cr; X!V, " 15 0 1 N CO t 11 W I t 4 1 see 00 1 - . . . ci .tf i t , it,, : . L 4 inin.. loU il , 7A. Thr-r hathslare not -vo,itiv,, 1.1 '."If 41111,o~ f =00 oe C.. M. K~61.41 z 0 god go v 00 A I AAL 'All imoo -use Ito* t.40 & LITI*Ali*f CLAWFIC-11046 .30". 410-01 71i a 3 i-v_ to 6 '1 N 14 5 U "'T 'J~110 11 001, ""46moolill 0 @Is 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 * 6 0 6 0000009 0 0 0 o N 0 o 0 0 0  Sooo*ooOooo0`* wow 4*0o:ooooOQe*ooo 0 0 IS 0 ;; - I .. I t, it 4 t; It 0 4 8 11 a so h it a M a 11 a 11 M 0 Is v A III a 41 Q is 0 ore -0. r 1. 11- 1 --f- I -CC -60-, 1 1 I-d -t-A -sL 00 A ti~ 0 SitI A k0 MOCON (i It 00 00 1418'ChAnim, Of cbvillitle figind of anixii, dims on -00 AlUMIDUM Pull. 04 00 Ali cuad- S91- L'ksje id. chim, 1044.325 *kk Etigh,la so 0 U111111stry); cf. C.A. 39. 318-W.-The mcchaiii-mi of fillitis anudic oxkk Man on At in chrurnatc *Wit,. at v-Afj#pu% i!-00 pit vaJun is shown to Iv that of a 2~tagr proct-; th, 0 ad~wpfion of chromate with con.."juctit hicutAtitio ~( . 0 (OAI),Cto. cr 0AIIICt0.; awl the adurpti,,11 of ll~s -11106 00 with retilling hydration of AIJ),. lbe dinorlat, W. 0 irlitioll 6 obtrug'"I toy inerra%k-d III[ valliv,, whill. 1114. .00 by4raliIiij jir,wv,, j, efill"Itevc! loy it. The r4l, I.( filto $00 tillitil im-nit-, Wilh he ItH owilid 1.1 the r1hel 4)11 ill.. zoo "wild tag'.. The 41C.Arpol'"i of .-firtiolace ftwo 014 fillid *0 filill, by :11; NJCI or Ifisid. watuf i, III etku't'l by Fai'llig roo 000 the pit id ill,- cbrotmate liath. The Ixt j-rMt,vtivt film, zoo are oblailod Atcr filliou at 1,11 valu.-I fit 6 7, which ot - o I'voldnith Ito file lufm ittable rt'gioll (if IN "(111111ouriv Al zoo oxide ill file I l1roolate 141111. 6 %1. K-lal..n are* 00 -r 00 ti LITINAIU41 CLASWKAIjCk ;I A allatlu"GICAL Woo 00 Joe a to OP 14 9 a 11 s K M It it at A An I I a 0 0 0 0 6 6 0 0 0 0 0 0 0 0 0 0, 0 0 0 o 0 we 0 0 0 0 0 0 0 0 0 111111 0 ~e o 0 0 0 Ole 0 0 0 0 0 0 0 0 0 0  TYUKAVKINAI N.A.; KALABINA, A.V.; DERYABINA, G.I.; ZHIKHAREV, G.T.; BIIUUKOVA, V.-~--- I Gopolymerization of aromatic vinyl ethers with vinylidene c"aloride. Vysokom.soed. 6 no.9:1573-1578 S 164. (KIRA 17:10) 1, Irkutskiy gosudarstvennyy universitet imeni Zhdanova.  STEPAROV, Vasiliy Titovich. Pr4nimal uchastiye ~.K-,-xdotekhnik. TRETIYAKOV, G.F.. red.; SERMCOK, S.I.. red.; TASIMIKINA, Te.A~., takhn.red. [Ways of increasing productivity in sheep raising] Pat' povyshehiia produktivnosti ovtsevodstva. Kuibyahev, Kuibyehevskoe knizhnoe izd-vo. 1960. 12 p. (muu 14:2) 1. Chaban kolkhoza 'Pat' Illicha,m Alekoeyevokogo rayona (for Stepanov). (Sheep)  -7YUKINA, Nadezhda Hikolayevna (Raising calves in unheated buildings] Vyrashchivanie teliat v nootaplivaemVkh pomeshchaniiakh. [Kuibyahav] Inib7shevskoe kn-vo, 1956. 14 p. Mn 9:9) (calves)  BURKOV, A.F,., surahi7 nauchayy soltrudiiik., kand,tekhnnauk; IYUKINA', S.A.9 otarshiy inzhener. The effect of trash rack framework, supporting beams, and debria collections on head losse Izv,VNIIG 64:129-140 160, (MM 14-5) (Wroolectric power plants)  nauk; Prinimali AKSENOV, Petr Pavlovich, prof., doktor tekhn. uchastiye: MIAKAMVA, N.S., kand. tekhn. nauk; PROKHOROV, . FESDT6Fv A.Ii., I.K., dots.;,TYqKINA,..Iu.F., dots., I retsenzent; KiftiDIN, A.S., retsenzent; BASKAKOV, Ye.D., otv. red. (Technology of lumber] Tekhnologiia pilomaterialov. Moskvap Goslesbrumizdat, 1963. 578 p. (MIRA 17:5)  TYUKOS, Ladislav Development of the cooperation of schools with practice. Geol pruzkum 5 no.6;191 Je 163.