SCIENTIFIC ABSTRACT KOROBOV, I.V. - KOROLEV, A.YA.

AUMORS: Korobov, 1. 1.; and Korobov,, V. 1. Duepropetrovskiy Metallurgichaskly InstftuL- 1975020.9  1/2 042 UNCL ASS I F I E 0 RbCESIING GAT~--27%10V70 TITLC--THICKNESS MEASUREMENT OF SINGLE A141) 14'0 CAYER, OIELECT-'t[C C;3ATING BASED ON Sl DIOXIDE AND NITRIOE BY I.R, 5PECTlt0SC,0i:'Y -1~- AUTHOR-(03)-KOLTSOVA, N.G., KOLTSOVw VU,twj KOROBOVP'~I.Va COUNTRY OF INFO--USSR SOURCE--ZH. PRIKLAD. SPEK(ROSK (US$Rlt VOL. t2l NO. I,t P. 752-4, APRIL . 1970 DATE PUBL I SHED-------- 70 SUBJECT AREAS--PHYSICS, 14ETIIOOS AND EOUIPMENT, MATrR11%LS TOPIC TAGS--NONOESTRUCTIVE TESTi DIELECTRIC COATING, THIC11,4ESS GAGEr SILICON OfOXIOEI SILICON NITRIDEr IR SPECTROSCOPY CONTkOL MARKING--NO RESTRICTIONS DOCUMENT CLASS--UNCLASSIfIED PROXY REEL/FRAMF--3006/L82l STEIP CIRC ACCESSION NO--AP01353,116 Uri(  212 042 lJNCL ASSI FIED PR01--ESS ING DATE-27NOV70 CtRC ACCESSION NO--AP0135386 ABSTRACT/EXTRACT--(U) GP-0- AdSTRACT. Tm: mEmot) Et4!51JR~ TESTING OF DIELECTRIC FILMSi A4D IS RAS[0 014 T4f. ARPL[CtlTlo.14 oF LAMBERT To '1080 cm ,rg; Lj)jjp.C.,,po,40S BEER LAW. MAXIMUM A30SRPTjDP4 ()F Slo SUCjj! CnhTv NEGATIVE PRIMElt WHILE FOR SI SL103 N SU64i IT IS 050 CM 111E51ATEVE Pltl,4~.Js THE ABOVE ARE DUE TO ANTISYMMETRIC STRETCH VIBRATIONS 0 SI-0-51 lktl() SI-N-SI GROUPS. THE EXPERIMENrAL RESULTS INDICATItti; THICKNESS, J)prI(:AL DENSITY AND ABSORPTION COEFFICIENT FOR THE TWO TYPE13 OF FILMS ARE ,TABULATEDs  USSR ETDC 669.71.472 DERKACH, A. S., D:IITRiyrv, A. A., KOROBOV), J;H. KOHER45, YE. G. , UUKOV, A. I., TSTPLAKOV, A. M. "Improving the Design of Alumintun Electrolyzers" Tr. Vses. n.-i. i nrovektn. in-ta alvumin., ma!zn. i elelt.trodn.- pro-m-sti (Works of the All-Union Scientific Research and Planninij and Design Institute of Aluminum, ','Wnesium and Electrodo, Industry), 1970, to 71, pji 29-36 (from RA-Hetallurgiya. No 4, Apr 71, AbstTact No 4GI65) Translation: A description of itaprovemen~s of electrolt-,ters of various tv~les is presented. In the last 10-15 years, electrolyzttrs with a side current lezLd- in have been modified significantly. WorN has been started on crp-_atinr- p(r,.,cr- ful models for a current strenq-,th of 130 k1loom,-3- Sincl' the firzt seriea of electrolyzers vith top lead-in vere put into operation, tilg!,~.elcant clvim~les 'have been introduced into their atructvml deeign. Z"mo ch"L-ng,!is hivre pro- moted impmrament of thu techmtcal =1 econoiria irA-exea- Opevatiazo have developed with respect to selecting the optiml pamimera of *Powerful, eliec- trolyzers with roasted a-nodes. JE'lectro:~(zers of the euttan typt for a currert strength of 130 kilwv-,ps are beirg tested suceessfull~r- Tor Nxther impro-re=ent 1/2  USSR DERKACR, A. S., et al., Tr. Vses. n.-i. Rroyektn. in-ta a1vismin.. ma-,Ti. i tlek- trodn. prom-sti, 1970, 'No 71, lip 29-36 of the design of electroiyzers of all three typen, new tdnaa are needed bassed on theoretical research and the search for nowtwre efficient structural de- signs of the basic assemblies and baths, and creation 6f effective means of mechanization. 212 - 86-  USSR UDC 669.713 SMORODINOV, A. N. , and "Degree of Intensification and Intensity of Energy Made of Almrinum Electro- lyzers" Moscow, Tsvetnyye Metally, No 11, Nov 70, pp 33-36 Abstract: The two most common methods used to compare flie rewults of the operation of aluminum electrolyzers are the amunt of metal removed per ullit area of various surface areas, and comparison of current denstity from the various areas. When the current density mthod Is iwedp the y1teld per unit current is not taken into consideration. When either metihod 1.11 used, the selection of the area by which produr-tivity or curr*nt fe divtded is signifi- cant. The correct approach is evaluation on the bas-is of the mchot stable area: the area of the cathode jacket or the maximwo desilpt anodw. area. How- ever, even this will not guarantee full comparability of imsulm, Tile pri- mary factors decreasing comparability of rosults aro: deoreasit of the "specific perimeter" and decrease In current density with. an increase "in space in between the poles or an increase in anode area. lForamlas are suggested to consider these factors to improve comparability of results. 1/1  USSR UDC 669. n"I. I SMORODINZOV, A. N., "Consumption of Anodic Mass As a Function of Cvrrent n-ansiry and Geometr-ical Dimensions of Al=inum Electroly-zeroll Moscow, Tavetnyye Metally, No 9, Sep 70, pp 24-,.116 Abstracc: effect. of anodic current do. -tjj~! 111111I.--ty of and expeaditure of ci,.,a anodic mass have been the -,uj)jec~ of eirrliar scudi,:-s under la;;Qrarory r-oaditions. In tl,Js,~ studids, however, Cholnica., o;iidation of Lila anode was igaore4i and consecill"'ItlY 01L Of cufr di~~nsity on both tile Lhcrlal load of the anode oad its comllumpz:~Dn t:"~r%a not considered. 'Die dependence of anode con3uMpLioft oil curl-wA dt.-isiLy is of particular iMportaaCe in determining tile optimum curn~at i:kmsity of altr.,in= electrolyzers. In industriti-1 practieta, ano