SCIENTIFIC ABSTRACT LOSHKAREV, A.T. - LOSHKAREV, M.A.

AP5016341 ':Mince Z electrode edge effects arr r,,zgUzIhle, and all parameters -ic,~;:,,irned to be independent of the y-rnor-linat,". It ts assumed "'hat ~ is along the x-a)ds, so that all !ielr! anrl I~Ir)y. par~irnele,- are inde- nf the x-cuordinate as well. Phe rnerhqn,!:;n1 iqrninar fiow in the --tqi r-ondensate layer rnn th-, Of the condensing vapor flow. -O*f;m-- a-andt6hyd6odynarnic equations describing the steady OW, .01 the incompressible conducting fluid is then deri-ved, and a solution is r11--Tined to safisf-y boundary condition-s developed 051i the baRfs of P-reneral then- mechanics in the inleq-:~, Ca_~-d 13/7 K ", A -2, 1   Of on fOT'  parwncte-  UR; A?5o16341 and the st-cond, the ca" wh-n the! olat;- ioves a' a t.:-, C,7 ro riheariig 13!-r--:3t~ de, h' for each Z, vtr. value o: The low 7alues of for low R are exp-hain-ed by the los6 0 kinetl~: eaergy amtion. The value R iswdirectly proporcional to the amount of du r- -I rig conde ng conden-sed per unit surfacr! of thr- liquil-qota' la-lf-r. 'The theor-f can aprllica~Ion in the 4 1 o-oasible to detervine both the rate of mass transrer between the vapor and Condensate and the boat transfer coefficient. Orig. art. has: 3 figures, 35 ;---nulas, 5 graphs. nont, 9 TTF-If I, I-PED: -103ep6h CC, 8UB G~ODF,.- Q*OV: C1 i,-,, P -ard  tbSIIKAAV, Ab Tj Honey Don't let honeydew honey be carried over into the winter, Pchelovodstvo, 29, No. 10, 1952. Monthly List of Russian Accessions, Library of Congressp November 1952. Unclassified.  1 4 3 1 IF 1 4 11 U .&'L-JL~t 0 a a I K C -A id P 00,4 00 00 z Iso 00's We 0 Igo W1 11 001 FROMM# AND 0#01MIJ -21F0 x a 10 x if 0 A jo a it A? 43 Ope Nei method oif- the quallity a P. S. MAXYMN -B-x. Loeux"mv. lv=x 111 13 127-M (1948). POS n a graff roass I dete"nibed from its volume in a MCASUting Cylin- der. To obtain results In perce tage, it is necessary first to find. and perladicatly to check, the volume oc- cupied.in the cylinder by water and grog powder ap-, proxhatattly equal to the grog contabled In the test sample: -00 -00 -00 -09 as Shake 190 gm. of the grog man with water to destroy all clumpe, tranaft to a x 350-mm. cylinder. and add 490 21" soluble glan, -In-',- thoroughly. let settle. and ob- ago the lewd of the upper line of the grog predpit2te- About 07, (by vdume) of grog powder settles in the first 10 min. Variations in water content between 57.5 and 625 cc. did not affect the eqiuracr of determinations.. MAXIMUM Clete was 1.87%. W method is few accurate ** than that of washing on skm but It 6 rapid (10 to 15 inio.) and may be satisfactory In some factory work. B.Z.K. 0 Bee r"A14ALA AtTALLURGKAL UTINATURE CLASSIFICAtION slam SIT14JAV4 zoo see JW* coo coo 4,041111' b U is Av so U "1;2AnL laud 0 N a I x P 2 a a 3 1 V 0 0 0:0 0 0 010 * 0 0 0 0 o * ****age V 0 0 0 0 0 0 0 0 0 * 0 0 0 0 9 0 * 0 0 0 00 0 * 0 0 0  LOSHYMEV, B. A. USSR/Engineering - Refractories YzY 50 "Calcium Titanates and Kinetics of Their Formation," P. S. 14nWkin, B. A. Loshkarev, Cand Tech Sci, Ural Ind Inst 4 PP "Ogneupory" No 5 Describes physicochemical investigation of methods for producing refractories of CaO- T102 system- Studied formation reactions of calcium titanates in mixtures of chalk and amorphous titanium dioxide, both chemically pure. Nature of calcium titanates formed was additionally investigated by petrographic analysis of thin sections. Experimentally established lower temperature for beginning of reaction between CaO and TiO2 at about 5000C. PA 160T32 St  11% raARM., 00irmloo)% and Sint= ttmPs. imm 1440 to la2o*. Crptal sixe in- MWW adde. of TKh machine a max. for 2 M, and 41101 VaduallY for 7.4 NO 10.62 rl()~ cryst Site Was SmaDer than for CIO aloft. Mdn. of IT"abised a dronc datedug effect; C%0 wkh 1% Ti0v started to Siater intensiveJy at about IZOO' and ;w" 3-6% TILN Uw prom" was pmctk&Uy complete at mio-mv For am =ST" the Zfte&" was not so great: canker bY abstwing 0 with 3-6% TiO, con. Weed ow 90% free C40 Saw macient atm. Stammy to use it for kb. Sham md for Industrial bask tol Mr.-rac-  -4. Dolomite refractosies containing free lime with the addition of perovskite. P. S. Mamykin and'T.A. Loshkarev, 08)3euPorYj 15 (8) 359-62 (1950). - Mixtures of 99s 960 , __ and 95,% dolomite and 1j, Zy and 5% perovskite were treated with 7% of 0.25% sulfite-ce3-lulose liquor, shaped under Wo kg./cm.2, and fired at 1580o C. 1he most intensive and dangerous shrinkage occurred at 13000 to 16100. A specimen containing 5% perovskite had the following characteristics: apparent porosity 5.8%., bulk density 2.76. gn.leml.3, specific gravity 3-32s true porosity 16,65%. firing shrinkage 27,.74%.p compressive strength 1517 kg./cm.2s destruction after 72 to 80 heat-shock cycles (air), complete destruction/ after 3 to 4.5 months torage under laboratory conditionsp and initial deformation at 15700 under ;4,/Om,2. Petrographic analysis showed three distinct ox7stallina phases in the clinker; lime in grains of 0.05 to 0.16 mm., periclase in grains of 0.007 to 0.025 mm., and a small amount of tricalcium dititanate crystal. The clinker (., 2.5 Mm. 2.0%, 2-5 to 049 M 31 8% and ,,, 0 mm. 63.2%), with 2% paraffins was heated, shaped (at 9 kg:/ cZi into cylln-ders 50 mm. high and 36 mm. in diameter and fired at 1355~5_to 15700. The product showed no deformation or cracks and had the fpllowing characteristics: shrinkage 1.4% apparent porosity 29.7%, bulk density 2.37 gn./cm3s specific gravity 3,~8,, true porosity 29.9%, and coefficient of thermal expansion (200 to 8500) 1.5 x 10--7,- under 2 kg./cm,2s initial deformation occurred at 3-4750, 4% compression at i5800, and destruction at 16300. At 16ooO it did not react with basic open hearth slag, and destruction occurred after.93 heat-shock cycles (air); under laboratory conditions of storage in the opens destruction occurred after 4 to 4.5 months, BZK. Ms  Dolomite ref racto.~__ ntaining free lime with the addition of perovskite. ies co P 0 S. IAr and"T.A. )gneuporys 15 (8) 359-62 (1950). - Mixture6 ,5Zkin Loshkarev; C of 99, 96, and 95,% dolomite and 1, 2, and 5% perovskite were treated with 7% 6f 0.25% sulfite-ce3-lulose liquors shaped under 400 kg,/OM,2, and fired at 15800~G. The most intensive and dangerous shrinkage occurred at 13000 to 16100. A specimen containing 5% perovskite had the following characteristicst apparent porosity 5.8%, bulk density 2.76 gn./am/.3, specific gr-avity 3.)2, true porosity 16.85%. firing shrinkage 27-74%, compressive strength 1517 kg./cm.2, destruction after 72 to 80 heat-shock cycles (air), complete destruction/ after 3 to 4-5 months' storage under laboratory conditions., and initial- deformation at 15700 under 2.kg./cm.2. Petrographic anal ysis showed three distinct crystalline phases in the clinker: lime in gruins of 0.05 to 0.16 mm.s, periclase in gnains of 0.007 to 0.025 ram., and a small amount of tricalcium dititanate crystal. The clinker (;, 2.5 mm. 2.0%, 2.5; to o42 M. 31.8%o and< 0 mm. 63*2%), with 2% paraffin, was heated, shaped (at 9 kg./ cm.2) into cylinders 50 mm. high and 36 mm. in diameter and fired at IW~to 15700. The product showed no deformation or cracks and had the fpLlowing characteristics: shrinkage 1.4% apparent porosity 29.7%,, bulk density 2.37 gm./cm,3, specific gravity 3-^ true porosity 29.9%. and coefficient of thermal expansion (200 to 8500) 1.5 x 10--; under 2 kg./cm.2, initial deformation occurred at 14750, 4% compression at 15800, and destruction at 16300. At 16ooO it did not react with basic open hearth slag, and destruction occurred after 93 heat-shock cycles (air); under laboratory conditions of storage in the open,, destruction occurred after 4 to 4-5 months, BZK. ms  LOSHKAREV B. A. tjs~R/Zngineiering Refractories Mar .51 "Sintering of Mixtures in the CaO-CaO-TiO2 .Itegion of the Chalk-Titanium Dioxide System," -B. A.'Loshkarev, Cand Tech Sci, Ural Polytech Inst imeni Kirov "Ogneupory" No 3, pp 127-129 various mixt of chalk with 0-14 Of titanium dioxidegto study effect of their compn on sintering qualities. Gives some properties ~.of clinkers thus obtained. IBIT49 181T49  rMhd '(Ural'sk Polytech. Inst.). Ogwupwy 16,21 c C.A. 45. Wf-ainkrris were made from CxO and TiOr. with CaOrrlOs ratios of 1:1, 3-2.20. and 3:1, firing lemps. were up to IfM*. In the 2:1 and 3:1 clinkers. the CAO siliove that required to bind the TiO, In XaO.Mo. was Ina fnv vintrand not bound fit atirform. ThcI:I&ud.3:2 clink"s hydratnt very little, twit the 3:'t Clinker showed a tendency toward drfiviviatkni during FZnjr. Prom a tech. nological View .nt the 1'. 1 clinker is ceaxsitl~ed optimum. Phaves of CaMT14i and 3CaO.2rA were made o( 115~; flinkcis and 157a bond WaM mind T") and fired at MW . Resistance against poritand cement clinker was good and against basic open-hearth slags iiatisfactory. Shapesshowed no contact with materials contS. SIO& and AIjOa- Curves of deformation under load at high tempo. thowed a plastic nature. All O"her properties were within the limits ch,ir- act"Islie of other hlxhiy Irfractory materials. H. Z. K. k  137-1958-1-172 Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 1, p 27 (USSR) AUTHOR: Loshkarev. B. A. TITLE: Effect of Titaniferous Additives on Dolomite Sintering (Vliyaniye titans ode rzha shchikh dobavok na spekaniye dolomita) PERIODICAL: Tr. Urat'skogo potitekhn. in-ta, 1956, Nr 55, pp 33-48 ABSTRACT: Verification of the effects of,adding 0.5 - 10 percent TiO2 rutile, ilmenite or titanomagnetite in the sintering of Karagayskiy dolomite powder, at 1430-14500 (percent composition by weight as follows): CaO 30.2, MgO 22.0, SiO2 1.3, R203 o.6, losses in calcining 46.3. The most densely sintered dolomite clinker (volumetric weight 2.7 - 3.Z g/cm3) was obtained on in- troduction of not over I percent TiO2 or rutile, 3-5 percent ilmenite or approximately 5 percent titanomagnetite. When the sintering temperature was raised to 1560/15800 , the optimum Ti-containing additives were 0.5 percent TiO2 and 3-5 percent ilmenite andtitanomagnetite. The hydratability (weathering resistance) of solid pieces and of sintered dolomite powders Card 1/2 (35 percent < 0.088 mm, 20 percent 0. 75 - 0.49 mm) was studied, nr  137-1958-1-172 Effect of Titaniferous Additives on Dolomite Sintering the specimens being left in the open air for 3 to 52 days. Powders with 3.6 and 10 percent titanomagnetite added showed themselves least susceptible to hydration (41 day rise in weight 10- 15 percent) S.G. lo Dolomite sintering-wfects of titanim Card 2/2  1,57, -2 J 0 AUTHOR, TITLE: Loshkarev, B. Sintering in the system ZnO-TiO 2 343a6 S/072/62/000/003/001/001 B145/B101 PERIODICAL: Steklo i keramika, no. 3, 1962, 22 - 26 TEXT: The authors determined several physicochemical values: water absorp- tion and shrinkage as a function of the burning temperature, specific gravittb volumetric weight, bulk resistance, dielectric constant, temperature coefficient of the dielectric constant, of charges with a varying ZnO-to-Tio, ratio. The initial components were both chemically pure substances, and commercial TiO 2: 7-2~(TE) and J,(L) of the Cbelyabinskiy lakokranochnyy zavod (Chelyabinsk Varnish and Dye Factory). These initial components were first mixed in dry state and then in humid state; subsequently, they were gr..9,und in porcellain mills for 2 - 4 hr, dried, wettened with sulfite spirit waste liquor (density 1,05, humidity of the mass 8 10 %), ,3ieved, pressed in half-dry state (cylinder d = 1.5 - 4.0 cm, h 0.3 - 1.5 cm, pressure =: 500 kg/cm2), dired and finally burned (in silite furnaces, to exclude Card 1/1 -Z  34,16 S/072/62/000/003/001/001 Sintering in the system ZnO-TiO 2 B145/B101 reduction). The data obtained at 1300'C (Fig. 4) show that the system ZnO - TO 2 contains the compound 2 ZnO*TiO 2' In order to obtain sintered materials the burning temperature must be approximately 130CPCfOr2-Ww985-iOO~,N and above 130DOC for 50 - 85 % (above 14000C for 67% ZnO = orthotitanate), For 6q, ZnO sintering largely depends on the type of the initial substances, The electrophysical measurements (Fig. 5) were made partly by Professor 11. P. Bogoroditskiy and L" P. Mudrolyubova at the Leningradskiy elektro- tekhnicheskiy institut (Leningrad Electrotechnical Institute). A strong dielectric loss which might be reduced by technological procesees was Ul-K observed almost always, and especially in samples of the composition 2ZnO-TiO 2 and 3 ZnO-TiO 2' The electrophysical properties can be altered by adding SrO and CaO. The sintering temperature of zinc orthotitanate can be lowered by adding CaO or CdO. In order to obtain samples with constant properties the technological parameters (composition, processing, casting; burning) must be exactly observed. Kh, S. Valeyev and M., D. Mashkovich are mentioned. There are 5 figures and 3 tables, Card 24 2-  LOSHKAREV, B.A. Caking in the system ZnO - Ti02, Stek. i ker. 19 no-3:22-26 Mr 162. (MIRA 15:3) (Ceramics) (Zinc titanates)  MV B.A. kand. tekhn. naukv dotsent Study of the system Z04i02; volume changes during the formation of zinc titanates. Trudy Ural. politakh. inst. no.117:75-84 162. (MIRA 16:6) (Titanates) (Zinc oxide) .N4 WK- R YU: U2 ta7zj', ~~P 37, NOOENW- FMW~  ZiF FT a 6 41) 0 00 '-J 26 D 0 3 0 -~S TON NR: AP4045452 H( jR JOshkarev, B. A (Candidate of ",ecr -all LE. Conditions or compressing briquetted ma8ses based on rna'erials of the ZnO-TiO2 system SOU _77leklo i keramika, no, 9. 1964, 26-30 RCE. TOPIC TAGS: ZnO Ti02 system, briquetting, ceramic semiconductor, ceramic prope. rty stabilization ABSTRACT: The effects of varying conditions in the preliminarv briquetting of n -)n D, rnaterials and of the simultaneous addition of a lu, a ~q n dz1! 0 ~a of the resultant ceramic semiconductors; P rp 9 trj i 7) ki e ~ t e d ri a t e r- a. - e ph, c- Pi -x.-, v- es of 'he final cer mics. Studies. run on 77 r. C, - a nf? following conditions t obe o p! i rnu mI c r tj F'7 7 t qolids was -.)Dti,,n=.' lpsse,-  L 18283.;,651 ACCESSION NR: AP4045452 and other indices, but greater amounts impaired ceramic properties-- increased r)e,-ositv and decreased specific weight Optimum firing temoerature was aboul duct obta~ried had a 14'1, linea- s~r:n`eaze sncer.,` - we~z*- 4 5- hp pro I WMICM3 and 2016 water adsorption, hi~gher temperatures we2kenerj tne briquet A aqueous F-olution of polv-vinyl alcohol was an e"fective I n h - qu e, s Prising 80% ZnO, 20% T102, 2 aid 470 A~203 and 0 3, 4, 6 anri 1101~ Z.ff-j2, elo by weight of the binder solution was optimum, and in compositions com- Pri-smC 77% ZnO, 23% Ti02, and reversed above proportions of AloOi and Zr-O,) e._-jired 9% binder, 'Less binder did noi gel and resulted in a product -)f iower an:cal strength Optimum camoress,,n prez;s~--F~ p, 2 -1gh varying pressure from 300-800 kg,,'cm had lit"le eff, ~D-. --)F the fired samples. On changing pressure from 300-1200 ka., c rn 2. the rnateria'; --.Tracted according to the A S. Berezhnoy (0,"euportv4: I P i fTP, at higher pressures 'he porn-jity ~)r zhe -1~ rd%llors - -at ion Maintaining 'he above ..~,riat`on in ther -er2ml- a--' containing 6 0 al'o TD Card 2/3  L 18283-65 ACCESSION NR: AP4045452 briquets prepared under proposed conditions, the specific volume resistivity was maintained within the order of 105 ohm. cm and the specific surface resistivity, in the order of 106 ohm. Orig. art. has: 5 figures and I tabLe ASSOCIATION: Ural'skiy politekhnicheskiy institut imeni S. M. Kirova (Ural Polytechnical Institute) SUBMITTED: 00 ENCL; 00 SUB CODE: MT NO REF SOV- 001 OT-HER- 001 Cord 313  AP6012844 (A) SOURC'E'CODi:--~R---/'0080/66/ 039/004/0803/0809 AUTHOR: Loshkarev, B. A.; Semirikov, 1. S -57 ORG: Ural Polytechnic Institute imeni S. M. Kirov (Urallskly poRteklmichesklylAstitut) V- vi 0 TITLE: Conditions of preparation and certain properties of materials of the Zn2TiO4-CaTiO3 system of dielectrics SOURCE: Zhurnal prikladnoy khimit, v. 39, no. 4, 1966, 803-809 TOPIC TAGS: titanate, zinc compound, calcium compound, dielectric material ~ sw rER /-qe~ 61470NACD MrjFFL ABSTRACT: The sintering conditions and properties of the sintered products were studied in the system Zn2TiO4-CaTiO3 . The degree of sintering increases with the zinc orthotitanate content. Charges with 5-60% CaTiO. sinter most completely; charges with a higher content of this component and those corresponding to the composition of zinc orthotitanate do not sinter under the conditions employed. Small admixtures of components mutually improve each other's sintering and can be used as mineralizers in the production of articles based on CaTiO 3or Zn2T'04 . The electric and physical properties of the materials of this system depend on the composition and degree of sintering. IVo dielectric constant (C) increases from 16-18 in the orthotitanate to 120-130 In materials containing 90-95% CaTiO 3* 1/2 UDC: 621.3.011.5+546.471411824  L 34111-66 ACC NR: AP6012844 In materials prepared from pure TiO 2' C deviates from the calculated values; this is attributed to a high porosity (considerable drop of f ) and to the possible presence of free TiO2 (slight rise of E). The temperature coefficient of the dielectric constant (TCc) in the system changes from high negative to low positive values. Materials with TCC close to zero contain about 5-10% CaTtO 3, and their dielectric constant C = 18-29. The volume resistivi pv of completely sintered materials exceeds 10 13 ohm cm. Minimum dielectric loss in the system is shown by compositions with 40-60% of one of the components; their tan 6 does not exceed (4-6) 10-4; ov=1013 ohm cm, and C = 53-85. Such materials can find applications in electronics. Orig. art. has: 5 figures. SUB CODE: 11 / SUBM DATE: OILApr64 / ORIG REF: 004 Card 2/2  LOSHKAREV, B. I. "Investigation of the Process of Casting Land Bronze by the Centrifuge Method." Cand '31ech Sci, Min Aviation Industry US~11, I M oscow, 1954. (KL, Uo 7, Feb 55) 30: Sun. No. 631, 26 Aug 55-Survey of Scient:Lfic and Technical Dissertations Defended at USSR Higher Educational Institutions (14)  WSHKAREV, B.I., dots. Theory and practice of centrifugal casting. Lit.proizv. no.8-. 1-6 Ag 157. (MIRA 10:10) (Centrifugal casting) "N  18(5) SOV/128-59-6-10/25 J AUTHOR: Loshkarevg B.I.9 Candidate of Technical Sciences TITLE: Basic Questions of Centrifugal Casting PERIODICAL: Liteynqm Proizvodstvo, 1959, Nr 6, pp 27-32 (USSR) ABSTRACT: Many articles have been published about centrifugal casting, Several Soviet authors (Vilyum, Novikov, Ghepinoga) treat this type of casting one-sidedly. Certain schemes on the problem of the centrifugal for- ces are even contradictory to modern ideas. The opi- nions about the theory and the practice of centrifu- gal casting are not uniform. The author tries to fur- nish a contribution to this field. After an explana- tion o:6 the Newton law, the author explains the perfor- mance of liquids at different rotations and accepts sliding of the elementary layer of the liquid as the objective factor. According to the law on the transfer of heat, it has to be considered that centrifugal cas- tings are made in metal or sand molds, which have a Card 1/3 better heat transfer than the air. Therefore, tble  SOV/128-59-6-10/25 Basic Questions of Centrifugal Casting corresponding correction has to be made. Also the fac- tor of crystallization must be considered. Following this introduction, the author reports on the results of the macro- and micro-structure of the centrifugal casting. To get centrifugal castings with a uniform structure, it is necessard, to consider the dependence of the mechanical and crystallization forces in connec- tion with the cooling rate. Non-consideration of this principle results in strong changes of the chemical contents and of the mechanical properties of the cast iron. To confirm his opinion the author quotes an ar- ticle by L. Northcott ("Steel", Nr 16, 1946) and pub- lishes the results of his experiments by means of ta- bles. The fast cooling down rate is an important factor which is visible too by means of the micro-photos. A- nother paper by the above mentioned author L. Northeott ("Journal of the Institute of Metals", Nr 7, 1944) con- firms this opinion. There are 6 diagrams, 9 photographs Card 2/3 4 tables and 16 references, 1 of which is German,  Basic Questions of Centrifugal Casting 2 English and 13 Soviet SOV/128-59-6-10/25 Card 3/3  LOSHKARLTj B.I. (Ul'Yanovsk) Spectral resolution of a IfernLitian finite difference OPerator of the second order. Volzh. mat. sbor. no-1:138-j44 t63. (MIRA 19: 1)  VASTLIYEV, A.D., :Lnzh.; F.A tekhn'k, POLE7,HAY-EV, M.M., inzh. L 14-UiOmatic control of the dens4ty and flow of p-,_,,:- au -L -L ) fm fe machimes at the "Tor e f `ir'--k8la 3~2q d I? ~n. lotato NIlUgleobog. no.2:132-136 PreFprat, 1 rn pla.nt. Mauch. trud y Kuz.. 164. NIRA 17-10)  L -22357-66 EWT(I)/EWA(h) ACC NRI AP601325~ SOURCE CODE: UR/0413/66/000/008/0049/0049 31 INVENTOR* Abramtsev, Ye. P.,# Kuznetsov, N. H.; Loshkarev, F. A~, ORG: none TITLE: Notor-type time relay. Cla4s.,21, No. 180698 [announced by,the Kuznetsk Sclen- Znstitute of-Coal B _,iat tific Research e&4Lf if ion_(XuznetskiY fedovatel's Insti u *t ugle5bogashcheniya)1'. SOURCE: Izab.reteuiyat promyshlennyye obrattay, tavarnyye znaki, no. 8, 1966, 49 TOPICITAGS.-I time relay, photoelectric cell ABSTRACT: This AuLhor Certificate introduces.a motor-type time relay containing an illuminator, photocells connected with the object control circuit, and a programming Fig. 1. Motor-type time relay 1, - Illuminators; 2 programing element. J Card UDr: 621,318,563.5  L 22357-66 ACC NRs AP6013259- element which shi-fts between the illuminator and the photocells (see Fig.P. in order to improve the reliability of relay operation, the programming element is designed in the form of a transparent rotating cone. Inside the cone are photo- resistors and on.its surface is a punched tape. The illuminator is fitted with a reflector designed in the form of a parabolic'mirror which covers the luminous slot. Orig6art. has: 1 figure. [DWI SUB CODE: 09/ SUBH DATE: -230ct62/ ATD PRESS: Z14 Card 2 2  TOKLOVY B*I&; LOSHKAREv I A Rigorous method Of computing the activation energy of el ' q0trochemical reactions. DokI. AN SSsH 151 no-4:894-897 Ag 163. (KRA 16:8) le Predstavleno akademikom A.N.Frumkinym. - (Electrochemistry) (Chemical reaction, Rate of)  If SHKAIREV .1 "?, .;C , RrZnl, usinoa a teater desigrr:d by the Grc-l-uy search InstitutA. Nett. khcz. L-1, 'IlDc.1 tixty -? ~~ ) I /. . ~. . . I ~ '], .1  RYAZANTSEV, N.F.; LOSIRKAREV, K,I, Efficient clearances between the packer in the casino =tr-ing -L , and reservoir testers. Neft. khoz. 41 no.2:40-42 F 163. (MIRA 17:8)  KARNAUKHOV, L.A.; KULIGM, N.A.; LOSHKAMV, K.I. New~design for abrasive-cuttlng bitl~ sh. i neft. obor. no.31 7-11f-63 (MMA 17 t7) 1. Groznenskiy neftya-noy nauchno-iseledovatellskiy institut.  SARKIStYANTS, T. Kh.; ZUBAREV, A.V.; KULIG111, N.A.; LOSHKAREV, K.T. Single-cone bit. Mash. i neft, -pbor. no.393-6 '63 (MIRA 1717) 1. Groznenskiy neftyanoy nauchno-iseledovatell'skiy istitut.  P2.11iF.T.3 GERZfJBVIRG, Yu.M..-, LUTOUNOV, Yii.11.; SHANIGRI) A.N. U,,,inP-, a tool as!~embly with small annula-r- Eurenj-'a no-5:17-21 164. IRA 118.5j. (MT 3. Cjrnznen,-,k--iY nef tyanoy t.  . - GERZHBERG, Yu.M.; SHADOGIN, A.N. - -- - -- - - I -Pro,venting hole deviation of wells in the oil fiplds of the Choahen-Ingush A.S.S.R. Burenie no*lzl8-20 164. (MIRA 18:5) lo Groznenskiy neftyanoy nauchno-issledovateliskiy institut.  1-17469~6~ EPH/fUP(J)/EPF(e)/&T(I)/EPF(n)-2/WTtm)/DDS- AFFTC/ ASD/IJP(C)/SSD PS-4/Pc-h/Pr-4/Pu-4 Kvllww Ol AWESkdf- AP3004777 Bogorady M. L.t-Loshkarev, X.-A.1 Lipov,1. G,, TITLEs Equipment for lead high4emperature unilateral beating of namples PU ,BMRCES Plasticheakiye masey*, no., S 19639 58-59 TOPIC TA(;Ss high-Aempera '~pre heatingg, pulve beati g APSTRACr t An --amrat so-Usigned'to attain a temper attire of 10000 in 3 sectioner with over not excee P ding 3.3 kw9 is detailed in figs* I and 2 of the eniolosurea It is especially useful in ;aeasuring meohs:nical properties of z~aterials at elevat-. ed temperatures* Orige. art* has$ 3 figure4. ASSOCIATIONs none SUBI'=Ds 00- AVS. ACQs 2SAug63' 2 0  L.OSHKAREV, 4,A,,;,j)USYAGOv Te.l. Effect 6f-0.1- and NoT ions on the structare of cathode deposits--of~biammth. Zhur. prikl. khim. 36 no,11:2483-2491 N 163. (MIRA 17; 1)  LOSBKAREV, M.A.; DIYACHENKO, T.F. Elpetrocrystqllization of lead from a pyrophosphate electrolyte. Zhur.prikl.khim- 37 no.1:70-76 Ja 164. (MIRA 17:2) *TT fig.  CHERNENKO, V.I.; LOSHKAREV, M.A.; LEVITIN) Zh.N. Electrode-polarization by superimposed a.c. current. Zhur. fiz.-khim.,- 37 no.5:1015-1022 My 163. (MIRA 17:1) 1*' Dnepropetrovskiy kbimiko-tekhnologicbeskiy institut imeni Dzerzhinskogo.  CHERNOBAYEV, I.P. [Chernobaiev, I.P.]; ANTIPINP L.N. [Antypin, L.N.]; LOSHKAREV,, M.A. [Loshkarlovl M.0.] Production of dispersed metal powders by the electrolytia reduction of sparingly soluble compounds in fused media. Dop. AN URSR no.5: 618-6~3 163. (KRA 1`7:9) 1. Ukrainskiy gosudarstvenrVy proyektnyy institut tsvetnoy metallurgii i Zaporozhskiy farmatsevticheskiy institut. ~~edstav*o akademikom Yu.K.Delimarskim [Delimarslkyi, IU.K.]. . d- Y  i, F, RA (ft IF WT EWP M. L. I T TI-P -Tcgttag of glass fabric filled Laminate ynder thermal impact d plastics SOITCE: Nauch noye soveshch~ T W- P I C Tml~ glft6q Fabr ic, laminated plastic, lamiqated plastic inpact strength, thermal failure, Laminated plastic thermal stress~-~gliss plastic, glass textolite ABSTRACT: AL very important problem in the use of glass fabric filled laminated plastics is one-sided heating with a sharp rise iv temperature during a ~hcrt r jmc -h-n he material has to re3ist the"ii! ;mpact, Fathire dlue rc. chermal impact is~ ~'x function of teraperature gr;;,;i e V e (IMP L LL L' .-. z~ kamp 4 e~, as wel I as zz.-chaaical V.rv_per-r-tes-af- the,-- material. IEK6-present VAPer generalizes the - U -- I ral laboratofy nvestigations of glass fabric filled laminated plan- tics un-dar thermat impact. The sample was heated it a relarivel *Y constanr ratt. c" on one side with the pr-stbility ~em~'rl z diagram for the t?sr ~q n i 1 4 t t, c e,~  ACCESSION NR: AT5000831 to thet4quir-ad temperature, the circuit was disconnected and the temperature was checked by a thermocouple. A time rela%, in the C;rCi:1'*t perrni"ted :t -hp di,ration of heating or of ther-mlill tT!ir -,-! ii. ti i:, , i ~ k: i. 17ij; Af ;)z esert reinfntC4~td by ~'['Ass liber are betrig useJ in dlftere-.,L fields of engineer- ing. -,is material has a high ratio of strength to specific aravity, as weLl as high thermal insulation properties. Three types of glass fabric filled plastics were tested: S(SVAH);Panisotropic glass fabric filled plastic on a phenol epk(~:K-, binder.- (STR)' gTa"."r.*_ extolite or, a polyegtor: ~nd (VFT-q) ~zl fllr?~!rnl tar. S amrs 1 7 j 0C kj c g /s e cfor a duration eitner c) c b6i seconds. knal,isis of the .csults indicates that even during one-sided heating --it r Oki PC~)TI(25 Lip tc 600C fi~ these m;iteriais retain a large proportior -1-i%k- TR jr re7 52Z and VFT-5 tr 0 11;tirl~_ to 1iurn in all the testc-I -las',i, j_.-jk_j, 1L C,jj~ :)e ;ej.-n ~h.jt rot LemperaLure but alsQ the duratioft Of hi~3' I-W4 3HC-C~ Lht?, S t ren g th t- f ics, For a short time, the p!astics may resisL Lite acttrn -t and qhow a ve-y small drop in Strength. Th Is im portart property iJf ;7,11asl! 'abrLc tilled laminated plastics allows them to be usej as heat I nsula t 4 n g~_') and ".ructural materials tinder thermal impact Wn;~i t T _;X"  A~-C?-_S.SJON 14R. . ATS000831 ASSOCT-ATION: NOne ! TTEID: 02jun64 ov ENCL -LIT,  I a 1 .10 it 12 n 14 is Is It W to 01111A a P loll us) bill UP 111"al is 4U41 ists-0 f HOR paiiiiiatlou Mikinipsaiw the heowation 01 Auto Metals at a Marew Cathode. 0. EAsin. St. Loa-likarry, and K. Nill)-sky lAtill PhysiewAimini 7. M-4.11450V-lln The ruffrist III-nailt- pitetitiall curvet charsictrrizing the precipitation of Na " still K I ions &C a jktmhl " plectroalp. or a similar amalgam vlectrisde, from 44jumus f th ddes drat ; hl d h f th di l :: e c o es o an o e correspon ng meta s are studiett. y It is found that the polarization. n, is gilen in terms of the current demity, D, 09 COO bY the Malkin it WM 1090 4- DjK I. where K Is proportional it) th4 coo , initial concentration of the &malgam to the YeLs~itv of efflux of the ek~tzm&.-J. S. G. T. I A. I L A "TALLU"ICAL %jam 1111V141U,* ::0 goillis IS I S I 'M 0 0 1 1 It Is 11 A 4 3 1 1 U a AV so As 9.0 t' sej at it A I Ig An 0 0 0 0 0 0 0 0 0 0 0 0 010 0 0 0 0 0 a 0 0 0 0 0 a 6 0 0 0 0 0 *1 0 * 0 0 0 -* -0 0 6 a 0 0 * 0000 0 0000000  4 y 1" it is it Is 4 L& ly Is It JD 14 n A V A F# 6 41 0 0) A# 8) I LIZ AAMA Q-ttif,"', -?-'a .-A.. A T- --A- I 's k I A Oft C- as wares", 68600,16 0., EMN, X 00 "d K. SOWUMM -(J.,PbylL C6-a-m-M-w'. ateaud"-ca. Curves have bam doisnelood (a) 46doode, arld (6) whb & da&JOmq B ehK4svdG and a mixer. In a aw of c.d. and boll & funwou aw Is due t. the slow dWwJW 0(tho'WW ;4;i 1~to 119 Mtbw tbm to do do* d"up of lov& E. R. coo 00 00 tie 0 A S A . S L AWALLMOCAL LITERATURE CLASSIFKATICH .00 -09 It 41. Q- Q.t 431111 0-4 411111 (W O-V Lit so V tr AA I S V nd 0 0 a I IN It !) J3 b u wt IT so 1% it Ordtf X4 Kst NUIT lfxKwn 1 1 X4 a 0 _-600 0 * * 0 * 0 * 000.0 00 0*0 0 0 0 St 0 0 a' 0 00 0 0 a #0 0 09 & 0000 00 0 0 0 0 0 0 0 OJO 00 000 0 0 0 0 0 0 * Of 00 0 0 a  .. 0*000666060000000 ;1 11 14 414 ilia li'mall Ohn hp.llm Wil m 4 g a J, is ti 41 14 41 m a A.F-4.1-i-i ~ i - t 010(of Is FWWU"w dwbg The of A" 04091114 of -04 C&OSWO, 0. M. 1AAkafty and 9, 0 0 it. CAM: M. 117H.-R-Floo I-Iri-H I. PAYJ- 00 a:_ (ItKp).-Froas r:plj. curves for depusilim poliffifill vs. 00 r. d. for the diKhwp of Na and K Ions front coacd. sq. 00 U~ -00 00 4! o4e R., L.mW S. AW that the ritallon pottsw v Is a -00 himetwo oft, d" Olt 0 a - e()umk I# (I + VIIKO Whim so -r KjIspopmt;mIto the InItIalcamn. ofamalliam and lite -00 rateoldowollbelfg. Polarissition Is not due tea delayed 100 discharge n4w to oyn-mm, but probably due to dc!ayrd 0 0 diffitskm of Na or K Into list fig. Nta obtakiett with a *00 1;* 0 Almliginaty H# ralhode with rimmi. *sitting 44 lite mda. 00 j vttify the alssive conclusion% mod Omw that K, does not 410 depend on the solvent uwd. The data are suamiarited s; o 0 in A tables and I I graphs. F. A. Railsmann 00 00 0 !Isoo !Z00 isoo WOO t'se wr 0 eoi'lt; 'T too U TTT It0 rp D It Opm Nang plan ItIlWAM f im 0 0 0000 00000000 0 a 0 0 0 0 0 0 0009 0: 0000 0 0 0 * 4 0 0 0 to 0 * 4 0 0 00000 oij  IN 0 0 0-4 --- o -00 o - -0 -0- 4, x r a a I j V I, , _ lqr A.A4 A - S P I 2146. WWOMM"M of O"E"ltsio. ~4-uwmwr" Mid 0. In Ot'r-H.- tvWtAp Is diwussed for 71M nature of the CxPretsion ZLK the hydrNell QvV .00 00 J!- I I the case whm the stages of divAuvila and rownihination AullultancouslY so 11 determine thoNclocitivs of the electrode, process=. The equation derived i .00 f - by Monfort Is canvwted Into a more convvitictit form, and the exper .00 0* 'El ~ mental data for 142 and 11r, found to bo satisfactorily Opmeented by IL a ~ can Is then investigated, whav tbree or more stages The Owns ge"ral S of the WatrWo peoccia (~,j- duclifirp. rocombutittion, two-dimimalonal l i=00 ov ea, diffusion of the molocalw Us and ita doWptift) have comparable veWt :"o * go It is estabilsbAxI t1lat the zeumf lam of the expresake, which follows for cog , the am whom the twombination stW immediately ifucoov" Wt Of discAwp, is Identical In form with that obtained for the twostage PMCM above. When intervefaing shig" Mcur. S"h as desorption of atomic It 00 with succeeding roombinatim in the Plows Ph-. the formula has to be lationshi between i il f 11 ar re m a s p WUWwbat modified. The possibility o the velodtles of the different stages of MetalliC Ion discharp is investigated, and the *IuatiQn is derhvd for the can where the ftlanted dischAW and If .00 the formaAkmi velocity of the crystal lattice simultaneously determine the itubtrisation, 11.11.11o. Ai--ILA ffi(TAj tQfWCAL LjT(*Aj;j#f CL&jjwjCA1jC. ;zoo o U a if .0 if ft 0*61 AA facef; dodkolm j Off No K a cc it Is ; 7; 40 00 *00 00 0 0 000 0 * go 0# 0 0 so 0 eie to 00 **so go* 0" 0 * ~ - 4 1 0o*o09*oo oo**o**#*~o* 000'*0*90 0000*000 : : : M  :: - _ ; *so* a go*** a*** a* * 01 11 000 00 0 0 As a 4004 0 0 a W W - I ) Ps 010111101,111, 14 1? 11 " a , n x 27 ,s it ak it IV 1) 14 AS Is it x 0 6 41 it 41 a 1:0 A of A (4-,L f CK-1 a L~A_X,r Q-A I - T 4j_Y M M 911 tt.+ A. A As ' M. Lh. its Roui "Tatives an a sisercury 00 C" d i G E J . ris- karevatt s n, . O. ItrFfcnch 618)(MR)-The data of Naray-Szali, anti _O* Sibitissay (C. A. ". 01410) we histuffivivni it) explain I .60 tile stature of Nit. deposition an a Its catluxle, shire thry usird killhily avid itolus.. sit that the It ' Inevitably affericd their tesufts; ahto, Ilicy did not Phow, polen,61.1111ir curves, Wilk-h Would 114vr revealed tile ritivi $4 41111111litillinst rullm 0 of the to;% III milli. I'll tile litoruliAl, I., attil W Irl"'All-4 0 thcir wutk clMsolysing iii-Ini. of NII,CI f NIIJ fit. III - CH N11011 NIl W i f ClI CI -f n$. o ,it aq. so NII,C1 skme w . I I and of (Cift),N)IICI + (CIII)tNIWII. 'File CITI-Cl of concif. of NH#, and of c. d. on the potential was al!w) stud. h ti l d t i d Th l b d i 09 c. i on etween cat A e . e re at o e poten . o an ., i. can be expressed by # - const. - (R TIF) In i - Ri. 0 The logaritbmic relation between a and i is evidently due . . -,1 00 u to covers. polarization as manifested in the rate of d SUM . 00 of the deposited ion into the interior of the fig cathode. S. L.Madarsky AD .00 .0 so IW , 9: - _; j gl~:, stlAkkUPWAL WgRAT4049 CLASIIPICATfCN file.. liv, IIV- ! _, -1- 1 ~ I .11l, . ., SAM380 ., 0 -6 -t-, W'-- lqilw~ 4.) IV W, - of . - . I $I I I I 4l. it. U 11 AV 10 Is i l -4 All A I a 04 ~, . P 11,10 Opel 11114 stir Pffiff If 14 4 104 0 0 0 0 0 0 0 4 * 0 0 0 6 0 0 0 0 0 0 0 0 a 141 a* 0 0 0 0 0 0 0 a 0 0 a 0 $*19-46 a 0 IN 4 6 Of goo a 0 0  s,o ~0*-18 Sol' lo-t jot **0000000000 LIONCH amv* a c h6mml " I , bvs - ou over- ~, 0. FAUN mechanisms 6 ammu t U Anil that I . My, U4 to, kisn" rt'*A, iw ovavolti" &Iona 1A III- b4ww =0 jo 7 as* ro f A S 0. S L MIALLURGICAt LOYERAIL49 CLASSWICATION - --- - ------ u 'A A, .0 al; ,To 00004 000*00000*0000*09** 0 3V 0 a loft. .11411 am 0.1 Iff in I a ow a I if It "M 0,  0 0 0 0 0 0 0 0 0 *0 0 1 6 1 A I A% if tj it m it it If it it jo P a JA it A 41 it A Au It s' it it r- a tt 0 if it I., 'I As At j! A 1 1. 6 It. A- 1. m N U V 10 J I i AA 00 ~ t W U 00 41 of . i . I 7 00 to 49 The cell "entigl cognpousats in the gicctsulytic nickel - refining be-. 0. lisin and M. LoAkimsy. J. A ted P of - LIVI 1439)(1U 1431 1AY(UrwituAn R ) 11 U S S Ch -00 . 2 . . , . . emm. ( . 00 In the cell MIMS04. 11.1i0s, IljOjNiSO,. IIsHOs. lit- .00 02 11,01%1. S with an av. voltage of 3.2. 39% of the -60 -trolyte, 3-4% in the curitacts, poictitiAl drup is in the c" 0 0 and 47-5$% as dectrxxk nutentiab. A. A. PtAd%umv .40 4; irl .00 0Z!, age 0j i, go -3 AA- I Ojj -80 Ao 'o 0 too 90' 00 8 too 00 - un 41 M3 An i s At ew a a i of It At 11 If 11 it N :9 P IV It a At AM It U 0 0 0 0 0 0 0 0 0 0 ft 'a 0 0 0 0 4 * 9 0 a 0 0 * 0 0 0 0 0 0 0 0. 000 0 411A 0 0 0 09 0 0 0 90 0 0 0 0 g 00 0 4 0 0 90 6 0 0 0 0 0 0 0 0 0 ?kf 0 T~. m,~N10 .mt  7~Te- -6-#-W -If -6-0-9 -6 V, 0 " WOO*** a 00 00 0.00 0 00.0 0 u v N k It. to itI *0 A lit 0 sits-_- patlessus � ACr dim 1006milau of ww Of jan*s loan. X TA Russ, IM31 156=fu ation of t" P04anumb b 00 tff -A-40 -6 T-. f, to I .11 .ZIA 19 Chem m J. J. B. ao 0 VO* moo U00 I A. A 09TALLU*64CAL WISAWR CLAWICATMA! a use.. "&A* too Moilo wit mov M 431&1~ *a C14T stl AM A I V 0i 0 0 0 1 IF IN b A a 3 0 SL S A Son 114, WWI .014emKOR I to 0 0 9 0 ST"41 0: 0.0 0 **00&00,000*0  000000 1.00 A of & 004 00 00 *00 000 9613 M it U U M 0 S it W POOCAMS No FOOP161,11 "Is ndmiag nl4kerle kam Maj A. V. L4xhkmv, rndxyr MOW. 19J9. No. li- - llwn. filter cloth, 0 77-81I.-Vailons substances, Mch i0e 041 1 as h il h d d ;l l 96 ave a ran- o an t"Winotis mattria s, vamis , woo . .00 siderable effect on the stmoute and putily of the Ni do- posit. It is known that mols. oforg. substances *4mxbtd -00 on thexital lattice of the N1 detwit ettard the depolarl- .00 Sation t, and docredAt the velocity of discharge of N1 I " and Its crystn. 1wrease In 11 in the snetal results In the .00 Mitlevess cif the deposit and internal stresses. Micro- * _ * ' r ' see Ni crystals showed that wopic ruamn. of the growth _ 1.4. - (1 and B. 1. Ma liscvkh. VQ. 1040. No. 2 Wu ~ in the Presence of org. substArk's a whole ts"t of the Sucibods were developed, (1) ad.mptio,u, and (2) xhlation. 4 crystal first grows to full sitim before the U"t ISM kms for purification of electrolytes containitutcd with various 8 on top of it, whertas In pure Ni ckcirolytes free from org. orc.substances. Ads-,rptiou by mrausuf act ivated chat- 1 bitstrcr* new layers am formed while the. laym already SU coal was found to bc, tiw t~t an't "last econam", The . coo .Isting continue to Crow. 11. Md. No. W. 87-91- I comiumption of charcoal. its firienem and time required for .1 Metluids of cleaning of org. diaphragm md filter Materials Puri-Wian vary with electrolyte% and. their Temp. In a 900 before use are discussed. Treatment with NaC). NsOH. typical purification of an clcctrolyte contg. 0.7 g./I. cc** lfjSO,, JICl and other mXtnts resulted in wine Improve- MSO. 41 ff./I. charcoal at 40' were used; ,he time required better ment of the N1 dtpWt, cotton materials producing Ira$ bry. D. N. D results; !%Aver. an the above reagents are Injurious to 400 the cloth. N&OIJ (.50 g./I.) with prove time and temp. 90 cmirol save satisfactory results for treating most of the : materials. Wood can be Owed by long soaklit In water [ 409 Pufmcd. (idyll. O"ri-ri-Mcs. Ill. Mothoud e von of tletinlwto. N1, A. Lathkatev, A. 0, &iohksrwv . b e t#4 1~0. S L A bt TALLUSG~L UTERATURE CLASSIFICAVOK U -S" '10 ef b 11 W N K d 19 U Of t9 Cj 't 41 40 0 41 is 40- 0 tree via., NO.JAW goo a - iW -*.v -47 I WA 1A A. t It N 0' W 9 1 Ir IM I is a 3 1 V 0 6 0 0 0, 0 0 0 40 be 0 0 49 a 41 0 0 * 0 0 0 6 0 G1 A jolt 111i 14A MJJ. vivo 41-4 ... . ......  0 0-0 0 0 0 0 0 0 0 4 0 0 0 0 0 0 6 : 0 'WO 0 00 0 0 0 0 0 4 0 0 0 *a I i I a I It 1 4 t a Is a it ill is W I zz a M~b js~~v 'x It 10 it V Ll id Is Is V a to a at 41 a its or* 4 a -L-1-AL t-L -I- ~L M 0 QMC pop. a .. 1 0 A 2 Aj 4 r lif Jo IN& 6411 lie ".11 1 Most- "lloccwtis Allt, s`s"`PtO;f,Fj I.C.I. . -_ -_ ____ _ - i 'A Polarization during the ellsectrodeposition of tin from acid 90 solutions of Its simple "Its. WI, I ot,111,41cy, 1), A. I.,III "lilt V. Nk.tilikova, J. (;fee. It.) 9, 11 12 22(ligill). I11% Wt-tv Illmle of Ihr during 41161110diC dl-1k)Nition 111411 1( 111111"16- "'111 Id So III WVId loolm. of 14ICI, and Sol,41. by 11- of 1111 -Itll~jjlj- g4,1140kiza U4W I IV. 11 1 oullfil. %ithoot silly itildill- iIII'l it 3 W"t 111%; It's .0 44 ri solus. wi1iIIUd!hi,.,. for lisitill c. d. At hitth c. d. lie coto. ,VA - 00 1 11 411 1 1 'Its Wcle greater, lost did $14.1 10 IfX cathodes the reproducibility was 2 3 I'll For . I,,, for pure Hg anti I inv. for lite Sri arrialgaren. The 0 , On, *0 0 "Irlerveti unall polarization in SnCl, and SnSO. seolits. can lee all"qAt CN1111PIC-tely ove-Trollic toy Ugilating the q [Cciro- Fie 0 0 lyte. Thig, 1141141144tillil ilk 0 tol~tllt Of the 41t)W difillotioll (if 00. Sul I [it the electrolyte. Volts 11. C.-d. curveq left- jtivt-lt for the dclooriftion of Sri from acid %#)fit%. 1SnS0j, Iles(), 00 A glue, circ%okulfortnic acid, 1110). A high polarization volt- 500 it ge is observed in t lie prr-wrice III rivewilsolfortic acid. The '00 fir-1 lNii I of I lie- vo,hayx to. c. -ol. 4,tirvr 11 1. Ihe III -%jefl-i'vil by lite' 4,1111.1 1 2;1it's I lie c0-111.11. 1" 41% 41. 1 I'llis lee I Joe He'll Itillit'll if it M1101,11,11i iIIIII. of lilt- I-I, .4,111looll"'Irld 14 'IF West. The toceollid palt of lilt vinvor (loeyond the .111 Ld by lite Isiting" c. (I.) car lee satisfactorily expreset eq see station IF - a - h low (i - 0 where q Is the polarization. Also Itcladis -lee respite. with Itioving IlKeathosodrei itio,ret- jortfoomed. ouppi-EIVII tile It It. firrill t t Roll It ;Rl -Itlol ill I' Is OF to 0 4 AM I U :9 is re it 4 a n It n 14, 0" & n a fill a OR a I V of -1 a I 1 9 0 0 ON 0 set io 0 0 0 0 0 0 0 0 0 0 ON 0 1 0 0 0 0 6 4 0 0 0 0 4 0 !o 000 0 0 0 0 a 0 0 0 0 09 0 411 61 a 0 4 0 0 0 0 000 0 0 4 2n !it 0  ,hie *a*** 0 o 0 ,A, *sit go ood'! Ilk Goo OOU 2-1 ^06 .Soo 200 1300 Noe No* Noe Ito 0 of un ims. a4 physio0chim. 0. Kom fils-M)'The cathodle and, UAAA., 20. modio volkwissfions A a us jet elecueds, in mAutbmm UdG4 OnO4, alto, A Hal have been studW. tam of FJOW MUIIA = be wwanted (of iD Wy 10" wA slow diff"m F. J. G. md dow dk&wr of W-- ~!ITALLUT~At, wrotATU" CLASSWKATION all, slow fi, 114-1 40.0y IdOONO .1 %to ONT 1299 aw a AV 10 q V I u "I; ; tr w a x a x a ; 1 za Im 0 IN 9 A3 a 000000000*0*0401~i  0 0 0 0 0 0 0 6 0 0 6 06 0 0 10411 0 06 0 6 1 1 0 to it u u M 11 11 1, 19 It 11 u a x a is"b A it nil Vill 11111 IOU 211.0,111 of A A L-S It A A T 2 ".~N -a 0. A-A-A-A f Ala W/h,j) .00 4 41 1 : 0 0 Calhclcl~ ad"llou al ukkel. 4t01 NI '* -at Ot 13 00 r '~ it.) , I ch'N. (1). j. tiviv, It* tlw owtv,di.1t%, 4 Nt to ..' 41, .00 0 J Ittv syncrto wr rriwn b,r NiSk), tioiris. floor IPA to 2.0 X ' 1 .!~� jj ferolps. Itoro It to III)% ruffrot x1frillifillsof 0.113 to Soo 0 olillinjop. alt.1 will, Fitt.lits. %,( tat,-ww, Imitair. NIL' It, no* 00. of so 00 goo 00 ?fee ties "'Is 4%- It- -tfALtU01(,kAt 1,1111141bill (ttillfKAVION rise u 0 1 ~ WITIARS Iva& 0 a I W of 0 Joe It 0 * 0 0 0 0 0 0 4 * a * 0 0 0 * * 0 * 0 0 * 0 0010 0 a 0-0 a 0 * -0 a 0 0 0 * 0 0 0 010 0 see 0 0 a 00 4 fogs* 0 0, 01 V 01, 0 000 of go $*$**go 0 09  -- -- - - .1 A. 0. SF,01im.~10V, 1. 0. -. IMI-IMn, E. _L; 10MR15.7) "The Role of Some Organic Admixtures in the Llectrolyte Used in Refinirg Nickel", Tsvet. Met. 14, No. 9, Sept. 1939. Report U-1506, 4 Oct. 1951.  oil, I I I I 1 4 1 1 14 11 Is 1i IS 11 4 11 4 h 6 at U 41 a) to P L-AA ft goo ("L 1.", '1' "1 'A' -1 0. Itsio. M-Lashkarev, Z. 1xvitina sity.1 9. RU.123"va. J. AHiW Chm. (U. S. S. R.) 13, W-65(in French, 65) 1 (190).-The polarization In chloride and nitric add mobts. Is due principally to cumn. and can be -tip- Wmd to CUMILIff ble 1) -00 aw. Was cturacterUm by 01311) inmikle ~y 00 1j. Am, of low c. 4., and cwj=tIyt1y slight lov"664C re" W WO . d. Th. ..td -1th the corrosion pboomeam w0 the second with the crystn. processes. The deposition of Ili from HISO. solos. was accornpainied by a fttwdcd discharge. Adda. of cellulow oulfite residues immed the polarization of Ili trithout .3': chatWnl its character. A. A. Podsortly A 0 f too so Vo 00 gZ =00 00 o It 0 - I L AA111AWAGICAL U19MATUME CISISIPiCA1100 CZ 00 S. so 0 at Bmi 6 0 of at it9 '1 A it 4, at n I ival ISP 0 0 0 94 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 a Ole 0 0 0 0 0 0 0 00000 00'0 0 00 0 0 0 0 0 0 0 0 0 q 0  00 A so A we 00 00 of 63 00 W *0 silt t t I s t Of w 0;,L,0 V-9 , a1- - . . I R V- i- ).._A 90. 0 11 S , ! K MU t4t IL i-00 -se Yj" ad bkb Ow"m 4-ky -4 she" troatment in Cat -so 9YORW 1111111611- A. I. Levin and M. I"hkarev (Ural 1-t- KiM Svwtdlov~.-j.-,Af#if4 CAM. '00 17. 61 (Im) sutsu"Ary).-The The '00 9~rtsd ftIrmm nI -VI Mbstthon Tobe"u'*Couf uhni g4iberr c.d. =d Aart table 'be 44powts as up to 0 =tsq- dw. miad W40 phitlos atTaty4l to Im orv. 41 lot %o 'be 0 re 1"be I:** 4119 too ~41ALOWMA& L1111141VII CL0WK.AtIOU, itIa.w 04t ---------- two 0 *1* Iwo 13 a ) 1 440 U 9 AT 10 AS 0 1, tg KAI 0 6  ***see i*640000000099 0 0 10 1 a 9~ 1 0 0 f 0 -To 0.0 0 0 0 0 0 1 1 0 M 11 M 11 N r IA it W if 4 1 l 0 ' 41 I 1 - - , ~ 1. t II , .~, . . d 0 g A -L-A-1 A 1_111- fl- I o oeA 00 t- )is "' -09 -06 O*A , - (uz:s- of n ;;~ A Jw chow- t in CcLqdl"T J 0 . acts. Isas Ind 0. iect c cl cm (1945) hat wtw 40-6 g.A. d OAW I-A"- iw v .n ~ A c _ , C.d i be djustcd 00, roe 0 a 0 0 0: coo see ;woe t:of tjoo LI T91ATLAI CLASUPKATIOM ~ m ;t Cml I. ;;T- , P 113, Is aaI its 0l -100. . 061-0 .1  100 lio 0 1 0 do 0 0 ~: f-', V-4 i - , , 00:: is Is IF Is 4600060 *,*see 00 0 . ,6 is It is it It 00 a -31, Im In Ir Is" I* it 12 111 14 is 16 0'A Ot. 00 hL M. loahkarey and G (Z&W. POW64 xu-~ 194 NL dos-4n; 0. Abt-nWl;-4k 4WIli. In It-d-I Th- -Nodso distribution, wait studied in ammerdal or bot, I 00 x nickel --going of Alel--t-ppmr alloy (m copper) at 135 Amp./m.9 cathode ed- The -mift - im m bi jl I i set m t g y. f shown that at a cd. of M- g p 25-0 -P I-'ADA with O 41411 .3 . w sUm current efficiency as at 135 amp./m.1, the ellectsim" 4048d"y of do electrolyte in" be increased 1,&2.1 tim... hi 0 00 or" b T Umm addition of W-W g.11. of socHum sulpUt& 00-4 a At 4) Q Is 0 el A OCTALLURGICAL UIERATIJI&I CLASSOKATION vj.T4, - slow, 4 of( -13 -a- 2:~ T--.1-T I o 06 3 U 'A IV to v to go it tr it 0 -0 "04 0: 00 00 0 0 no 0 0 o0 0414141 00 .00 .00 so .00 J30 0 000 moll '00 woo ties '00 see 11  &X4. coltib"O Prejaiijift at M bh1wirv, 0 6-uxv, c -VT - -It. Mi-- staleva. and A. Kryuku . . SM. 11010. COMMUSIS Ifig tIo-ClMlytku deptlift.11 UM Ut flIU-Iy- divided Ni "fie Ifivestipled. u4ing No p1A(^1 For lit-os a, V.011-It. Ihpitstilkiii vt Nijoll), at hi P11 is by ad.blioll #31 %hih I,dms 4% oitallhllf P.1- 'mopliii, "Oll it If.. 11111i Vol it wv %thich drtitiottictiot d pum NI ponler lotion a ".111to"11 coulaial Niso - 7" 0 to 114114),SO. 21). awt SACI III g, )..t 1. at pH =Iancf i"*ca~l;expfcted is cal, totaled uolh- 17oamp per sq. in., in practicv, deposition com"nivs it 210-VIO amp. ;rrvaiwai ctiocco. tit No prndwv* a ~ ever"gndit A j:n,,,e4ZI ir it. tho fit,, t tit in- d in tfi~ jvr- t. Vie w4% almlorti. A nut. furrrni virlit #4 63% 1,,r t1w INF-Irstof ImmIL41 to 1e4c hed at SW allip. to 0,1 av, 11419 ICU of I uW121 f.11, -h&fply IIU134 tha MAll. "ptat"I flum. koltation. T~s Amtplv t" A -ft.t. valtw it -.0i .1 cA. ;~300 Auj~. per mi. lit. Fill. n, as .1 IN- p-idrF PA H --to Wits tile firing fl --tittiA. At 9111 Plup 1.1f W, 'T" 4; AA*. Cjk*'. 3q**, , 61", a doix-1w 4%) :son"; all p(rru,%,. of Zn-. th. No is a a NO) 711020) C% ' 4)4 -NA" 1 K I it riw* with Increasing Cu ciblut : I 't- ~Ilvjlv to A W11,1% at g, prT 1, of Vu. Thor Cto in tll~ &J-1 In, .waw, fvoo hOr strallown. ""11101ninit 0.3 1., 31) R #J I'll jWr I It I  o O O i 0 f NN- f! 1, l W . t fl 1 . J9 If V 1: U r, It U A 14 43 4t t; l I it M ~d j!G F- 11 1-Y I I _4 -90 cc W_ U4JI_-'--" ~d V -,-' S' - ~ -1 - *, - - - ' A-X " - 4 Ill, 110 T Me) on 60 kinetka 0( the Cadiadle Jap"Wed ddo ik d A k W K I I . mg. 1,010hilisrev, V. Still ova, xa ryu oft ( Cbet.Whad., lvunovo) J. Phys, C". (U.S.S.R.) 21. 2IR-20011,17)(In Ru;Aan).-Thc current-vollar curves of Hit.1kh + 11's0. "Ans. in the preftwe of Mr- 09 lam-mdive comilds. (the cathode being It%) con" of 00 1;:; 3 puts., (1) At low vnitAges q (below about OM 0 the lionit -0-0211log(I -0/Witivalid. Distbec.d.. " " = I-so go limithic c.d. (2) At voltages between Ds the 4 v d. is equal to D#. (3) It about 0 03 and 0 the c 1 1i . . . . rapidly inCreLfts at MIT Imter Voltag". Do Is pro- go 4 portional to the mxu. of SaSO4 between O.W and I N. d i i d b ti If th th l ak i --Go 00 0 rr es an s ncrease e ca o e at ng. y s r.p.m., J7. 6 newly propottional to .'/-: th6 shows that diffusion dets. the value of Do. At a con%t. co=. of t 00 S.SO. (02" Nits 2 N HAW. of milffact-iictive agent at IS* In- elatin 01 d of I D (0 003 A) A) OOV - 111 o . an x- , , s f -4 front a- and fi-nalshthol (4 X 10 amp./sq. cus.) to thymol (4.5),& xylenol (12h). Wain, mr-crti,4. remorclaof hQ i d N : nonc, an HI, , PhMil. pyrogallol. hydroqu P ~i go 0 (98 x to ~ `smp./sq. clus.). When D. is less than 10 X 10~lthe.9adepWtisunoothand.iih.(xbkc. viphenyl- amine also products smooth So d ts The effect of - am these addit. agents is attributed to ~~Iion by the they displ4mi (mm the !iurfacc of I 19 lAr from the % de"it. The all-ar14ion reduces the working arela Ckctrocapillary max. This explaim the third branch of t zoo When the curtcut-voltage curvt. The current efficiency of SIT of the ciectrotleand. hence, also the apparent cA. J ll f 1 U1. Cut. or a 0 211111 the vollalp is rain."l, the adutrited tnots, are &spL&ced by Is War% up to about W X am muldn, agents testi-A. 11,0 (min the clec. doutAc laver in the same manner 61TALLURGICAL LITERATURE CLAISFIFICATICK Aim-ILA 232, X ;0 b U It &1 10 is 0 a it go 611 IT If a K It it It at .T-.- 09 90000 000*00000000049 0 00000190e0 000 00 0 4114111411141PALM too A N 0 4 4 1 )f IN 13 0 1 1 1 1 111110010001111006 Go***** go 000: 0*0 *0 0000 04110i  "Wetittoltim Im IU MeNSW &M Nestiredeposilloo of Lead. 1. Indusnoit at larkos-AeUve Imbelamesim oa LM KlaWn of Lbe C&UW~ Pniossm and the all Lbe Dwosit. JL-LOPMumv and 1. Mark (ZAiwr. Prilkpl. KAi. 1948. IL (6).5894599).-Illn Ftum~j '..-'The deposition of lead front hxt~m oontailling 1-0~44Vivak-at/LlmdwWO-2g.-equivalentp. freeacid wee investi. gated. usmig IN( .2. a I Wale. on-benzene disulphonic, p-I&-no6ulphonie. and iin-mwdsu horii. = The influencie of the purity of the acid anti the ~rnc,r of stilam-active agents (rewmeinol. Moin. and ft.nAphthol. with and h.. gelatin) on the o9thoclic polarization and the nature of the deposit,4 was studitA. anti the ek-etrompillary curves for the organic widit wrn- mith that Gir Hr%O . Dritidritic detionits wrn- obtaini,il with oany of tho bath. invootigskjAut the plihenoloulphortmilt- nnd m4wittene. dixul housto bathe vontaInIng I g.11. gelatin am n-voinmend4ni am gmng 4t i. )' C.. r.d. 2100 amp./m.") fine-grained delmmits suitable for elecin). deposition or electrolytic refining. provided pure acids are ust4l. Polarization rVI for muliihate and phrooloulphonstit tin-platit?g Wks containing "I.Irfac*N, Active Sgrim an, &lot given. As. V. F. T. A _n ;i  CV; Ilix 7,