SCIENTIFIC ABSTRACT ZHUKOVA, YE.N. - ZHUKHOVITSKIY, A.A.

U~SWftp~~ 8: e of Fim Ahim a&,,- Diseases Caused by R-I Abe Jour ~ Ref Zhur Bi6ljp 96:18# 19! 'Author Vatluzh9lukhoi: P.A Gromovi V~ a t1ko ' L Inst e, Sve rdlovsk ins;:Lfu of A&,loultur Title e, EfTsotiv6nebs of Vaeoinalherapy in'BoviiW rig Pub erdi- kh a-L 19 TS 'i Tri ST ovsks.69- Abstract f 1 Formolvacoines and: heA.4kMed,vacoinep~twerp pre- parsd frord,vlident 'AiAnis ~:,of , all tl~ V6 c4la .to ~b6'~i~d ~ in vaoing, ~types therspi, Ahicfi ~~nd je- rabbit i ins -tieg; cted. to:. f ormolvacc tmen'to -Bab,I ~ricl~gicai examinations of peii'sh e a.4hd kIlled, iA de an4 iabbitv , l did~ hot reveal'.. ;6harges. i Adart- koni thill bruc6lli, die M a- 6ha-nZi incie~64d',`~ jAuitination. titer. wa~i 9 : affl, t.64 . - 13iucelldsia a c6uhiware ated in rabbits. ard 1)3 f! treated with intramuscular::injeotion6~,d di:~tolvaccine:    I f 11 . : , 7 1 1 11 . , . , 1. " , r.- - I . I ..       . I I . I I ~ 1 .1 . - . - . . . - p . . I I . . - . . . . . a V ~ i i !   1 fill B/661762/000/005/959/112 Bi56/B108 AUTHORSi Kelltsev, N. V., Zhukova, Z. A# TITLE: Investigation of the purification of hydrogen in a moving layer of activated coal PERIODICAL: Referativnyy zhurnal. Khimiya, no- 5, 1962P 407,.abstract 5K99 (Tr. Vsds. n.-i. in-t prirodn.- gazovp fto. 12, '1961 143 149) TEXT: The process of adsorptional removal of impurities.of CH GO', and 4' N from H has been investigated; the initial gas'~passed.up a vertical 2 2 column in the opposite direction to acontinuous layer of AV-2(AG-2) and -j(SKT) activated coal. The height of the adsorption~section was' 70' !cm. The coal was regenerated in the lower part of the column by heating in'an ,electric tube furnace, with purified H simultaneously blown through i~t. 2 .Experiments were made with H -CH mixtures (up to :20~. on and also with 2 4 4 ternary (82d1, H2' 15% CO, and'30 CH 4) and quaternary (52.5% H2, 36.:1% bt 21 Card 1/2  141,111MIF III AIII I 111111111 5,11411 11111111 111FIN H 8/061/62/000/005/059/112 Investigation of the purification... B156/ ioB 8.7~ CO, and 2.7~ CH ) mixtures. It,was found possible to obtain hydrogen 4 of a purity of >99-V.- The best adsorbent im the highly Iactive SU coall 2/g the specific surface area of which is -i500 m The ideal conditions,for the purification process are: pressure 25 atm, temp(~rature during desorp- tion 2000C, during adsorption the lowest possible,gas' flow. rate in the 2 adsorption section I nl/CM , amount of pure H 2 used for blowing out .impurities in the desorption section up to 10~ of the total amount of purified gas produced. [Abstracter's notes Complete'translation.) Card 2/2   Z#UeOV4 _771 PHASE I BOOK EXPLOITATION SOV/~246 Soveshchaniye po tseolitam. 1st, Leningrad, 1961. Sinteticheskiye tseolity;.polucheniyep issledovaniye i primenenl4e (Synthetic Zeolites: Production, InvestigationAind Use).~ ~ Mos- cows Izd-vo AN SSSR, 1962. 286~p. (Series: Its: ~Doklady) Errata.slip inserted$'. 2500 copies.printed.,,' Sponsoring Agency: Akademiya nauk;SSSR. Otdelen:Lye Itchimiahlelskikh nauk. Komisiya potseolitam. Resp. Eds.:., M. M. Dubininj Academician and V.~V. Serpinski~..,Dciotor of Chemi cal--Sciences;~Ed.: Ye. G. Zhukovskaya; :Tec,h. 'Ed P. Golub', PURPOSE: This book is.intended for scientist6:arid~engineere~engaged in the production of synthetic zeolites (molecular sieves )s-and for chemists in general* Card 113,   Synthetic Zeolites: (Cont.) soir/6W THEORETICAL PROBLEMS OF ADSORPTIONION ZBOLITES. METHODS OF INVESTIGATION Dubin*in, M. M.,,(Z:.,A,.~;Zhutk~ov and N. V. KelltseV. Appli- cability of t e a, Theory to the Adsorption of, Gases and Vapors by Synthetia.Zeolites 7 Bering., B.P., V. V. Serpinskiy. Adsorption Isoster~s'for :Synthetic Zeolites Within the Framework.of the Potential Theory Timofeyev, D. P., 0. N. Kabanova, I. T. Yerashko, and A. S. Ponomarev. The Role of the Secondary Porosity of`~Zeolites in the Kinetics of Water-Vapor.Sorption Misin, M. S., B. V. Adrianoval and M. N. Adrian6v. Investi- gation, of:the Adsorption and Kinetic Properties of Granu- lar Zeoliteslith the Aid of Thoron 31 Card -3/?  8/06 1)2/000/002/004/00b BI 011 YB1 44 AUTHORS: Zhukova, Z. A., Kelfteev, 11. V., Ogloblina, I. P.1 forocheshnikov, N. S. TITLE: 'Use of new absorbents for intensive gacr dr,,~ng 'PERIODICAL:. Khimicheskaya promyshlen.nont', no. 1962:, 24-29 TEXT: Experiments with granulated 4A (4A) and 5A (~k) neolites for :air and gas drying were conducted. At 200C and 10 mm Hg, the,aboorptive power of these zeolite types amounted to 20.6 and 20.6 g11OO j, respectively. Investigation of the adsorption isotherms of water vapor at 0-3500C showed: (1) Superiority of the zeolites compared with silica;gel 'and aluminum oxide, (a) owing to greater moisture capacity; (b).owinjr to lower tempera-' ture dependence. Gases may therefore be dried by zeolitee without cooling the adsorber. Experiments with an adsorber tube of 1-3 mm diameter, granulation of the zeolites 1-2 mm) depth of layer 62 cm, were conducted with air.of known dew point. Results: (1) A dew pqint of -60 to 2-6500 was reached for a rate of gas flow of 1-15 1/cm2.min and 0-4 1/cm omin in the adsorption layer. (2) Temperature increase frm30 to 800C reducw Card 1/2  SIP64Z6210001002 004 008 Use of new absorbents for ~BlOI/B144 the dynamic activity of the zeolites from 21 g/ioolgto 167gli0o g'.~ A rate of 3 1/CM2.min is assumed to be permissible for. industrial adsorbers. Experiments with natural gas from the Stavropol' d6POSit were alao'~ conducted at 500C and 0.5 l/min. A dew point of -600C was reached.: 'Because of the selective H20 vapor adsorption by zoolites the other~gas, components did not affect the adsorption. Even the heavy hydrocarbons do not penetrate the fine structure of th 4A zeolite pores, so that no coke formation sets in during regeneration.~ 200-3500C is.the best regen4rat~on'. temperature. For regeneration with cold gas heating in direct flovi:is' preferred: dew point for direct flow down to -80PC, for counter flow only -60 to -65 0C- A mixture of 74-46 N21 5-77,, CO, 6.51,4 H2, 6.0% H'O, and 7.6% C02 was also simultaneously dried and purified.. H 20 was adsorbed most of all in the first zeolite layer and gradually displaced the.C02 adsorbed in the following layers which left the adsorber'at a dew point below -450C. At 12.8 g/cm3 moisture, the dynamic a -ctivity of-the, zeolite amounted to 10 g1100 g related to C02, and 11-3 9 .100 g related~to moisture. There are 8 figureep 2 tables, and 9 references: .7 Soviet and 2 non-Soviet. -The reference to the English-language publication reads 'as follows. A. L. Kohl, F. C. Riesenfeld, Gas Purification N. Yop 1960s Curd, Z /2   A _C.-A-2 IF ------ ---- the. rorst alt"Sem #ad lerfita dwing Vowth of t.=Z"1'A,Cuu on Onthatic the. dh and meitil-popbMio, broth. Z. J,Zb Mi, *t4rms.4. tot 00-A 6414.. f. 'If No. 3. . ."Wo mixiffird Uwtg's liwilluin wit 11 Apilkirogirl" not lite -Ame tit(-. Jhllll with glyritic "t-te Ivinlitited filit trimilir tmalli. . Of t1wic the 11yont 111rdinus isu'i bem, t."-AUW -00 it was richest In N. and, the WORL atIsitnilitifed glyciar N we intemely than the W of the othr two mcijiA. INA. 11CM-Alin Pt'tpd. ITUM I)WOU K"I" 61 Jilt! Klytilir 1-4rilitilit wa mint rem"ivir. The muctive Ivinviplir tit 1111KICIIN 00 fulTettlen) gppe4rtd turlk-r its lite stIv,-1nr vonlitAiii thats t let lite 41119filgille Itleditilli. S~ ShAt i =00 0.0 is 0 -fl "0 0 if "-4-0 --too C;60 L A ail"041141C&L 1,119041killf ELAOMIKOICh 7 so u a xv re jq j% IV 49 It (I it q pa it I W. V: G 010 go a o: 0 0 S~o 0;0 01 0 a 0 0 0 0 0-00 1 : : : 0 so 0 00 (a 140 0 0, 0 * 0 0 *'0 0 0 a 0 0 0 9 0.00 a 010 * 0 s go 0 0   ZMOIIAY Z.D.; FITAX, N.V.; ENTIN, V.G. Phase changes in the lining of reactori,~'f6rlthe pivduction of, carbon black. Ogneupory 30 no.9:26-32 165. (MIRA 18i9) 1. Ukrainskly,nnuchno-issladovateltakiy InatItut ogmeaporov (for Zhukuvaq Pitak). 2. Nauchno-issledovatallakiy konstrukto:rsko- tekhnologicheakiy institut shinnoy prouysbienno:iti (for Entin).  M~~ - I . . I . . 1 1 v I ; 1- 11, 1 1 11 11 . -1 11 1; - . ... . I .. . . .  . I I I I I I N, . I : % I I I - I ~ I. , . ,1 1-1 .  , I I I - I I ,Hiti., .~ . j., 1, 1 .,-~ - , , . ! : ,   ; I - I I 1 :1 t 4 1 -, I 1.. 1; .- IIP' ;I I I I II vit'l. ., . - - ..., . , I. ,, . . , " .. , t ,   I I I . qi [I;;, --I 1 11 11 '1 11 It Im - : ~ ~', 1, 1.111 ;; I- -, , I ~l a  ': , I I I A : i ..." " . 11 IN ;A 11 1 It Ih, , I, - '. I , .- I - .. ;;    ---I I I I ! 1: 11 1 1 if 11: ! 11 ll as    WA !441114111 Will hli 11M.1,111 Wx- MEDICA- 2679. INTESTINAL PNEUMATOSIS IN CIULDREM (Russian text) - Zhukovetz A. V. - ARKH. PATOL. 1959, 21/2 (66-70) Ulus. 3 IntesTtn7E[`pneumatosIa is relatively rare in man. wheream It Is more frequentl 'ob- sorved in animals, especially in swine. Twelve observations on Infants from 1-10 months of age are reported. On the basis of the clinical aspects a toxic dyspepala or sepals, lasting from one to fourffidnths, hadbeen suspected. Contrary to iNh;it is observed in adults, mainly the colon was involved and a giant cell reacUon around the gas bubbles was lacking. The latter were found in finsures of the tissue of the submucosa, very rarely also in lymphatic vessels and lymph nodes. Generally,' in- flammatory phenomena were also observed in the Intestinal wall-, therefore Infect- ion seems to be the aetiological factor, though this has not been proved.; Brandt - Berlin (V 11   - I I I I I , I , ! 1 , , , ; . I I i I I I I I , I ! ;I , . . f - I w .   A  KMYAVTSEVA, K.P.;%.2HTXOVZTS, M.S.; ARUT71-JOY, I.81;:~XOGAYHV, B.N.; SPITSIN' V.1,; X',k*ff."rj MMIji WA, G. G. IrAM# H.7 AVRAHMIKO, L.K.; TSOGOYBV, T.Kh. 0 ~v.rad.; BAMUTOVP' P83o III, tekhn.red. -Ossetian A.S. ~-;.R.; statist Cal Narodnoem (Economy of the North i khazialstvo*Severo-Osetinakoi.l=t-, statistich'eakil:eboralk, Ordshonilddle'. 195.8*,, 130 Po (MIRA 12:).O)~ 1. North Ossetian A.S.S.R. Statiotiahookoye Upravlenlys. 2. Nachallaik Statistichaskogo upravlenlya 59.Vero-Ouetinskoy AM (for TSogoyev). (Ossetia--Statistics)  AUTHOR: Zhukovetskiy, P.A. SOV/19-58-6-675/685' TITLE: A Filter for Purifying Water (Pilltr dlya osVbtle- niya vody) PERIODICAL: ByulletenI.izobreteniy, 1958, Nr:6, 150 (US~R)'~, ABSTRACT: Class 85d, 1. Nr, 113869~ (57457ii of 10. June 1�5'7). s- Submitted to the Committee for Inventions and~Di' coveries at the Ministers Council of USSR. A~wa~er filter of sand, gravel, eto., for vvater:wells; to simplify theconstruction and make the filter'Tre-- placeable when clogged, the filtering material is' put into fabric bags and laid into metal or wood6n slatted cases; separate bags filled: with filtering material of only one grain size but the 'asesiare' C3 a filled with bags not necessarily con.taining material,, of the same grain size. Card 1/1 UL  ZMQVZSKI VIN, S.L.;,TXAGHIT, L.N., inxh., usuchnyy redal - rIT - -P i .0 ff~ red.izd-va: VORON33TWAYA,1.7 tokhn.red.~     S1149160100010061011/018: A006/AODI AUMOR: Zhukovetsk *AMM 1 Reddatic'n The Role of Strontium Aluminate Formation in Aluminotherma of Strontium Oxide PMUODICAL: Izvestiya vysshikh uchebnykh zavedeniy, Tsvetnaya me.-allurgiya,, No. 6, pp. 119-123 TEXT: During the last,years great attention was paid'to vacuum thermal methods of obtaining alkali earth metals. Aluminum is an e-Ofeotive reducing:agen't An vacuum thermal processes. It reduces the~oxtdes of alkali-ear'th metals a~nd forms corresponding metals and aluminates 0. Gvelesian I and -V.' A. PazukhIn 0 (Ref. 2) show -the. if strontium metal Is prepared by this inethod at 1, 100 1,200 C, a monoaluminate of strontium is also being formed under vacuum conditions, according to the equation ' 3S 4Sr4D + 2A1 r SrO Al 0 Eq'l 1Iq gas 2 3sol., If -the cceffici,~ntz are seleeted in such a manner that the1ndividual equation ot~ the formation of a!uminum oxide and of the metal to be reduced, are related to one Card !/6  s/149/6o/Poo/bo6/o11/0181 A006~AO4 The Role of Stron-tium Alumina te Formation in Altuninothermal Reduction of Strontium Oxide oxygen mole, the equation is as follows. 0 + Al) Bro Al 2sr, + (Sro A1203) ol +A 0, so, 0 3 Sol ~3 liq gas where 40 is the change in the standard free energy of reacti.on. The Sol e equation ma e repre n E y b - --~ e t ~ dasasum of individual equations with es of.~ fr e 0 0 6 0 0 01 energy A 0 09 4 Equations showing values of' , ~~u and A ~ 1 3' A040- 1 2 3 as functions of temperature,have been calculated by a number of authors. However, the results obtained were rather inaccurate Since the thermodynamical fftmetigns for strontium aluminate were assumed as approximative. Experimerital data on Abe: determination of equilibrium constants of the reduction reaction (Re 3) Ne usad to make more precise its value, the ftLnction of A f D = f11:1(, 6 and consequently, the.positian of~the reaction equilibrium (1).. The ~:nctfl'on("') 00, f (T) is calculated on the basis of data given below. S Card 216  -9/0 91'601000100610; 1/0, 18 Aoo6/Aoo1' 0~ The Role of Str;ontium Aluminate Formation in Aluminothermal. RedUcti 'I of Strontium Oxide 0 Irni-tial data used to determine the func' ion f ~T) solid Eritropy Changes'ain State of the Heat capaoity, oal/g-mole Cal/ ht~at eoz~tanl, ~g- substance mole Cal/moie Srgas 4.97 39-325 [41 9~ 3 All-liq 7.0 (51 8,98 2348 10 2 gas 7.16 + 1.0 10-11 0.4 105T-[5] 49.003 [41 SrOsol 12.34 + 1.1 12 * 10-31' - 1.806-105, 2[51 13.0 [411 14-IlOO (41 120 s 3 o1 7-38 + 2 3.o8 -3- 8.20-105 T - io , .L- (51 [41 12.181. 39W46 (61 BrO - Al ~03g~tj ';.64 + 10-3 lo.ig, T [31 2 5.62 [31 418A~[33 Th-e heat- co:,tent &od entropy of liquid aluminurn a t a standard I a m p ea t u r aware ca!~~ulat~:d on the basis of the melting heat of aluminum equal to 2500 ca-1/mole Card 34  8/jjo/60/oaa/oo6/0l1/o18 A006/001 The Role cvf St.--ontium AluminxIMe- Formation 14 Aluminotherm&l Reduction of Strontium Oxide (Ref 5) et 6c,90C, the heat caoacity of zolid alumirum C' 7~O cal/g-mole (Ref -5) and entropy of solid alumintun 3298 - 6 .77 Call/g-mole' (Ra~.,. 5) . ffMirmodynamicaE values for strontium alum�nate were obtained on -the bazi~.of experimentallyl determined pressure of strontium vapors durIng tb 0rtta-:,#.1cn 0of.lts reduction. '!'he calculation wa6 mad,3'according to the equation A f Sol - ~Msol. - PAS* 1. , it - found that the conversion .of aluminum oxide into strontium alumimate A2A .61y Wa, slight effect on the reduction temperature due to the fact thatithe formation of the aluminate from the corresponding oxides caused a relatively: small charZe in the free energy,916" the process. As a result the lines of,freo wne-rgy of e th formation of pure aluminum oxide and strontium'aluminate. are ire-,y: closely l9pated on the graph. 'A reduction of residual preszure in the system affe-ets much more:' the decrease of the operational temperature of the process.: Strontium Is a.very active metal and may, 'at' a temperature of reduction, vigorously ; intsract with oxygen and nitrogen. Therefore when the process is conduot6d w.tthoat inertgasos a hi4her vacuum not only promotes a decrease in the tempo~taturo~of the process but assures the production of metal. -purer and more compact 'lard 4/6  3/149/60/000/006/0-11/018 A006/A001 ..~'ie Hole of Strontium Alurninate Formation in Alum1nothermhl Reduction of Strontium -ure* The effect of te-mpera- Ky on ch=gcs of "ind M'lnn The f1gures on ' ;ic curves to t:he numb,~rr, q (In 2-1TV .1a p, j) Is the F,:,,-tial prc,.9sure of vapors -, iz, , of the Ca-eous fact~or of the - ; i cac L I ch in Vne given case on, w Js ~:jt-.--ontium) . T nere are 1 table, I figure ancl 7 lei Soviet and -ATTON: Z.L--J --r,. 1-1stitute n~np.~ ;Ulu: t4 ZIP --Z ' , Coet d,971 y z    ZHUKOVETSkly, V.  SOV/137-59-1-119 Translation from- Referativnyy zhurnali Me tall urgi ya'o 1959, Nr 1, p18 (USSR) AUTHOR: Zhukovetskiy, V. V., TITLE: Thermodynamics of the Alumi.num-redutfion P~rocess ill Prodtiction of Calcium, Strontium and Barium (Term'odi.namika alyuminot.ermi- cheskikh protsessov polucheni.ya kaltsiya, btrontsiya i bariya)' PERIODICAL: Tr. Sev. -Kavkazak. gorno-metallurg.. in-ta, 1957, Nr45,;pp 210-231 ABSTRACT: In order to explain the mechanism of the interacfion between CaO and Al and to determine with greater accuracy the composition of the aluminates (A) formed, an investiptio'n was made of t~e de'oxida- tion of Ca from mixtures calculated to form the following: C'omplexes, 3CaO - Al?-03, 5CaO - 3A1203, CaO - A1203,., and Xa% 5A1203, The 0 reduction was achieved in a VZLCuum at 11160 - lj00 in 4'hours. The: raw materials were briquetted. It was e stab lished' that during"the first period the Ca is deoxidized and 3CaO.A120~ is formed. The Al in exces s of that calculated by the equation 6CaO + 2A 1 = 3CaO - A1203;f 3Ca o.reaction. with the tricalcium A. As a result of this~the Card I /Z yield''of Ca can exceed 50%. The vapor pressures of Ca-Sr, and Ba  SOV/67-5`9-1-119 Thermodynamics of the Aluminum-reduction Process in Production of, Calcium (cont.) during the aluminothermic reduction from their respective 9xides were!det6rmined experiment ,ally and the values were calculated for the free energies and' entr~opies in the following reactions: 6CaOsol-'* 2AIliq=3Casol+ 3CaO-AI203 Sol; 4SrOsol+ 2 Alliq=3Srsol +SrO.Al?,03sol; 4.BaOsol+ ZAlliq=j Basol + BaO.Al.203sol'. Equations for the relationship between the equilibrium and free-energy constants and the temperature were developed. Values were found far'the free energies, heat contents, and entropies of 3CaO-AlZO-i The ,, SrO-AI203, and BaO-A1203- relationships between specific heat and temperature for A ofISr and Ba~ were calcu- lated. N. P. Card Z/2   0  I I             I it,  d:> USSR/Gonoral and Special ZooloSy, Insocts. Injurious Di.- P sects and Ticks. Posts of Coroal'Crops Abs Jour Rof Zhur,-- Biol.., No.11, 1958j NO 4S)563 Author s Zhukovskiy A,,Vi Inat Title Tho.Probloti ot the Diapauso of tho Hasson Fly LaPVao, Or1r, Pub Ento-Liol. obozroniyo,~1957, 36, No 1, 28-43 Abstract Diapauso of the larvae is natural to the Hosson Fly, The docisive factor in thol*appoaranco of~ tho diapauso is Incroased tonporaturco, Eaiy larvae f sPri"G, Generation develop without diapauso A. 0 before thoco.-AnG of warin woath6r# But larvae of later sprinG Uonoration, which develop-in an in- croasod tomporaturoo undorr5o dia'aued before the P fa'Ll# Larvae of su:mor C;oncrati.on al.so undor3o diapaueo in pseudo-cocoons before tho f all. Imago oiiur"o from them lator thaki fto'-'i tho pseudo- Card 1/2   I [xil III I 11-10151d 0 1 It: 11 is to it its 1; Ulf mr, '47. woo V~V ix a0mothig Wool$ jj~ I. zh!j~ iNh. 9, No. 190, omls. -00 (1741, hill aw 14 41401, 11 01"J". Vr 1. 00 & us"I for Istilitfills %mall ItA11%. WN1111"wili%. a1"1 i% irmUly -ked but Wc1tifft 118FIC It i's toadepth up W tum. at IXX)* 1witiorditilry muctitallon or", then haveltited at, OWAO* Stitt $1311caled at not outt noo 09 3 W)", st"thts, tenip, thav Imp sk marked dectritic fit WN. NI, Itowlt coo 09 wig a 00 04110 is o0 ~-oo ties slow "oo U~:Al 92 is -j# it a of an a at Rw a sof 0 0 dt of 6 0 e to e ID0 0 0 00 0 0 0 111 In0 of* 6 0 t1i6db 0 0 46  00 fit ~v itvx 41 41! iF it it to A! it 4 U 0 m S-A-A-L.AA 0 Ivi r4 ~*: -!9rwl - . - -1 -- ., ,*! OX(K fSit 16 Oko fluffliflif -0,0 The use fit stainless too] #feel In The covatruc- **Is ir tion of precision apparatus,- 1; I Aftkkait. Piem S. Nit. 3. .14; 91, vNHIM"Y'N. 1,Z.11t111,* 00 6. 45SOK19); Orm. Iralf. 1939. It. glaillit'O. mrvt $if high S"llew C 11.1t. 0-1-1. Nin O.M. P;; 11AU-1, Cr 1-3.111,14 11,116 Suit Ni 11,41)"';) vairvNitid mmljls~ in it-ots fvp*rwt,i 4,4 cull=ld Ilith a"M timmal S, is rillitt nt.: The %jw6tuv"A ll~ thki') of thr PlIVI or high 0 -fit wffe lilt, ottlitutry Inionlitf And tull4k.1ml Ili P1141'. Felfilvt, ii with sulfide Iticlusionii wq- dettried ill the inktostriwtute. :49 1 '00 Alablels gtvctl~ ot the mcvh. propertirs, tit the. iml dr4cribril slid the: cht-m. tvntlins. (of 2 other stvt 14 tit hilch S omimi ckrr like- see wiv glvvft~ 00 v IF ioo 41 so V. IF A 10 - I L A MTAL~WiKAL U71114n,01 CLASUPKAIMP Flow iWesk- - .0 0 U 16 AV IQ fT to ge O's o 69 0 0 0 0 0 0 0 0 0 0 0 11o 0 a o 9 -p 0 o *-O-O-o q000 0 so 00 41 *go 0 0 00 0 0 **so 0 9 0 40 41 0 0  0 0 0 0 0 9 0 0 00 00 a 0 a 4 6 to a jug a Im X )V. ID it if 4 v If p c of a! 41 40 ~O 1*5 1 -1 ,A a -L- I I I 1 12 ~~;) 1. * voccristl Ant. :J6 mainlood stool in, Stal 9. .00 I 34 &p~.of*Wnlfts%UTl. .00 Ni 0A. Cf 13-14's, S ratt be obtained 11Y kvillellfsthl" Of W" t" Q: of 3 hardrolt .41), : . I 1 .00 Ix lit I.Q.1) --ree of haidnr". Thim and lem1willig to The &%jivil 14. 00 moo What, Sublirss 5frrl "I so bigh C olmi-lit j~ Jj~jltjjj'e 41'~, =00 Is I rve 4 0 =00 000 4100 0 0 100 moo 00 j 1, A S 0 - t L a "ItALLOCGiCAL ulgRATURf CLAWFICAU014 0 00 t$ u I all 111 1% It it ff It for If 0 Z 0 0 00 00 0,0 0 0 0 0 0 a 0 0 0 0 0 it a 0 0 0 0 10 0 0 60 0 0 a 0 0 0 0.16 0,0 * 0 to 0 * 0 0 01 f  If P 2 x .31 A b b? Is it t 07 11 11 13 M bil fill ",all I 3 A 4 A *0 0 4 P.~r ... --- A NO 1 Nito oit el Wid Its dold 4)(iisc. 1(~ A.~f;kjtviif, : ti. 0,14 ` N., ;; (Sti U.1 No, 0.' 5-70NUT, Ciew. "4- 'rite pte"hKikin 0 4 . k content 4 a smink-S& Simi orit big .S -i sfewribtd.- It t mom Min C0.15. $10.5 MfItAing Cr 13A- 15.0% 00 , . Mn 0.0. S 0.5~ P 0.030 and Ni 0.6%. The st"I can he *0 00 .31 0 wwd knitesdol bramentittrwie atul canalw) Im uwd ill Ma- 609 It has a Matti hjird:u%v of 131-1411 cb1sw wastntrikiii 00 . . M 0. Alcorr ho 0 600 *0 i too too Ago 00 -OS, 00 Soo 10104.1 "it a"v oft C11 L"T As$ ww it AV so U1.1 . I ! a Od a is a I w 06 1 a 4 3 11; r is IV I is I I 14t ; 11 1 &1 ' 0 * Of 0 00 10 41::: :1,41 4 41 0 0 00 * 10 0 0 4, * *-0 0 0 ~ I ro 0 0 r go Ole;* 0 g 0 6 0 11R.Cs 0 i0 go 0 0 0 0, 0 : :10 0 0 1  I'MIFUNIMMI AL W V '-4111111E 4 FORM JII 1141111141 It! U114:1,111111111, I'll ig HIM w vp 0 IP w v w v WI-7 I to M~kl 0 w a a EVE I I_ P_ A.-A, The OUbGSWU d ownum &WL '01111. 1113% steel (c or chromium, 0601'& or nickel, lind u1, to or carbon) carburised at OW C in a wburising raixtum of the Upwal .00 tur* of 920-W* C. an jL%-or*m hanluem of "Awoll C, 43 w" obtaInlIble_ '111P rUbtiMlIg of h~ I LjWtKjn OtallIkWA *AM teni" L it 1w r" suitablo for parts of uicamuring inalimments stul rur Liles f%w moulding apthelic rowin withokst the nmi for :0 q3 q 1040j Ire Wo 0 -, w,S L~--! I =-K '11 004 40-- lil; U, is At 11 11 D N IN 0 a #j3" 0 a 'it "I it 41 1 Ilk o o 0 W 0 0 0 0 6; 10 40 w a     ks WON I IN " A . 1 go 41 Pr. "Ito 1101" WTI, 004 to see 00. (1) 0 ZAINO. wwma Um r4rj". tod odowtatis OWL#. ;~m fm fdC the ~110 cotwo. b#hl*d the g,dpxbnt t6 reset lith6l)(11111181cm!",oals ft 11011 to... Use 40 ks L A "IALL11"Wit UtINAU011 cu"1401" 0 i I 10 -;; Ftil Iliad" Hit Afff, 441 dhall"I1 *4 I :u I AV, og A, 1 4 ad 4, N 6 3-171 w0 10,16:4.0 0 4b 1~ ~4 0 4, 0:~* 0 0 00; 0' :0 V: 6~411 41-MAL ~ 9.4 RIMA WO-0- --*:::--. PP. F --0:11111CM1111103 1 1-5 1 Jim mutum  T1 91 AN lost jt~u AtIll, 99'M 4- 1 , '. , ;A - I'. 4-L.- L -,I, A. VJ_ U-1. if it- L__1 4 1 0 AI F_4 4 rtg to so ilis mmiM of S6wWm4& A. Will (C.R. Aead. S~#-. vnb~~' '044. 7;~- 751,-A striarr. (firmula than that W Brunaurr, i..'"nott, and -00 0 Irl Teller is flefivellefor the deti-rinination ill suffaLe it i Ill Ito: help of the 441witritint i-k-therin. The mt,fluml is appiwAlt? volim vio heat of advorptim ilk substantially lirralror than the lit"at, W cun. 04 ilmsatwil. In Ms case lbert, Wo repm in IN, vllwrrkv~?n tw, therm where the filunc ut the first layrr 14 "Impleteil oictal the adsorptinn tin the w"-twt just staris. fn this reamn tht-re occum .04 00 Jr a Prftgufr Jhmli at'WIlich the grorirrlll. allmwPillin will lie INJual tit 600 tile no, of MCA, in the mimolayfir (A's). 11 1110 all. Oil .411,4 Un. 4 Clilliell 00 It in the *tat Istw Is 11rp anti Ill,* an -- the vtont! Liver -00. rp (wiltrift,;r, Are cNit. cl fig), of nitirfaclilm of 13 'Xin,.g 40* *0 lietwern the vatious silvirtra tit mol. ctm(ertitill. the iiiial a-1.1irPlon: 1 1) In the frgiUU 114 4119%tit)" MAY JW Wlitten ; lia", ~flllflp f- a** 40. -1'%,) lluill"W Am '14filifill 11)' %1114,11.1110 -o,1, t, ind 7 goo in thw -luatism can be *vAlualvil. Thell, tlj~# sibell #1 _ aff6 w I 4leffrj Ilia vat of *p can be mall #&it trial, t.11s, 0 it and tit~ Adsvirtient ama "M t.- vi~ikulijw' A clikvlatkin simunfing to thm mailuill descriN31 gil," filer itia, elk z (With I1'0'w#Imr)A Val"Ifti - 141it"Peas. 0 Ilia vAl. oI a. fut N *"wLvl an a pivinoW catal).t. ii rrAt:tICBU identical wilt that obtained atmoinlipS to Ikunnua jr al- life 2410 woo zf* Is* tit* ASM.SLA ACULLIjACAAL LAYINATIMI CLASSIFICATICIP1 tall., 44-ze". woo 0 %41 of, a , I r Ir W-A S It U It it at a IS tc * : 0 0 0 0:0 0 0 fig 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 : :19 to 0 c0 0 9 .0 ..0   m mu i ,flufffla 4 Ilm 1 r1 vrl 11 . ~'. III. . HP11. I ;1, a . . . I - . 1 1 " i.. 11. .  ild Tj   m  2 6 0 6 6 j/ / 1 1 00 00 1 S 07 03 3/0 9 BIOI 13110 X and Zh v Aa- AUTHORS i Belashchenko, D uk)~o itakiy The 1 ct TITUj ory of e e rictranspor ~".AkODICAL t ,Zhurna'l fiziche6koy Ichimli',':' V 35, no-,9,~'1961', %1921 192 ~J 6 TEXT o The authors theoretically studied th e :electric :trams ort in a ic metall two-component syetem., ced f roni Onsager I s meth 'd'' and writei J L X + L x + L x 11 1 12 2 3 31 J2 + iL IXI 1; F X:! L 2~3X3 1* 2 22 x J L X + L + L X (I)i where. X..are ~ 2 defined byt 3,1 1 .3 3 2- 33 :..3 dpi dz es, . do dx he :c' i of:thc,~first type, j s t ur ent of ions . J of the,:second type, J, Card  7- 276 0 SA XI/035/009/003/015, Theory "of electric transport Biol/B110 is the',curr6nt.. of electrons e e,*, e V 2` areathe-bori!esponding burger ip 3 _~id the el,a6tricz potential), and p,2 ar~e ch'emio~l potentials. Constant -temperature.is bass 3 umed. For the electric neutrality,:! it :.is written downs e J +-e J, + e- J .2 2., 3 whdreil~Js the external'. 3 _ curren S tiut ion of E~ (1), an~d t ubsti (2) in' g v l i .49 (4) 4 L 1' e + e 2 1 3 3 + a L e' L e L 1. 12 Z 22 :3;, 321 11.zz....,eL + e L n For the conduc a ce ;K it is -3 33:~. 2 1 I 3 3 _ s'; . +- e- -+ e tend- do- I' Wn 1 2 2:' 3 3 his iohic mob , here o~-U-Ahe' concentration of--the~r6 spe6tive i6n. in cm,:;; Tht-moving force fbr.the transport of,co lnerit6- MPO at~ rivet,' no assum ia, t ed to be the 6i of gra di e nt of ~t h ech em i ca 1' pqtijnti t ~! t h t 6' s; there are wo~o er:,causes: a m t he gra d ie.nt %.of --7t h 6i chemi c~a 1 potential 'of ions,. ~nd the.: gradien't of the 2/1T T    2" U Y47Y61/035/009/003/015~ Theory of electric transport B101 3 110,~, and for J Ot d1nal/ft ehE/kT (21). From Eq e-4 e and 1 + 1 0 it followst L L~ L A (e, e 1 2 11 3 1 2)_ 2 0 13 3 4 ~(22). Further, c e ~ .11 c e n t r_- t io n c e 0 (23)- -If thore is; con 1 1 2 2. gradient and diffusion, an additional diffusion anif is formad at the: ends.. of the specimens. For 1 0, D det(1 (27). d7 d + * el ... ..... ...... (II) The steady disf ribution' 'of concentrations in thp. el ec,tric field Is calculated by the Thomson-Eastman method. Two adjacent 3ro8s sectionS with the concentrations c and c + dc-are studied. An~ ion with the charge P, 1 is to be transported in the direction of the electric field B, an ion with the charge e in the opposite direction.~. Then, 2 dcj TdS,, - 0. dcj card 5//7   1768 S 07 61/635/009/003/015~ Theory of electric transport 110 1310 J~ Substitution of Eq. (23) in Eq. (31) gives Eq. (21) A Ag arived accordi to Onsager. Conclusiont The effect of the electric~transport acting in the direction of the electric field and in opposibe direction does ,not only depend on the charges of the ionic components but also on their interaction with the current of conduction electrons~. Papers by S. 1. Drakin (Zh. fiz. khimii, 27, 129,~1955) and B.~Barahovski (Roczn. Chem., 29, 129, 1955) are mentioned. There are 8 reTerences: 5 Soviet- bloc and 3 non-Soviet-bloc. ASSOCIATION: Moskovskiy institut stali (Moscow Steel:lnstitute) STJBMIT'ii;D: May 25, 1959 Card 7/7   j .1; L A , - 1075 .9 Zhukho itakiy# APAi Abd TOrkel '.taut) il AUTHORS: V ga aohro'r'iiatographY;.V6r tho',*;' dui~"ttc Varinnts 'of TITLE s . , conteol of Inmical 'Proc6spen. petroct , '624 PERIODICAL: Neftakhimiya~i v*24 no.61 49621 , ,TEXT: Step-e lut ion - aild, vacancy 17, were examined to find a.'sultable method for.the ':~utoian'tic~ cositrol. esses.'. The of petrochemical.pr6c advantages ot:,*h#, ilkop-elutldn' variant are that the. compone+uts'of the mixture do, not -hive separated completely-,'rela .five),y. long time r --Xao,ilitates the+transmiselon-of'signal aina it'M ~ . - condition for the preservation of, a comj)6~n4nt-a-siip,WPA ~g V4 AN USSR, 'v. 2 49 the authors previously.,(Dokl 14 4 -10, 04. v > 3. 2 f fit; 0 while the condition for: the separatibn'oi. two', si'e'n givotift ii p Y't, -