SCIENTIFIC ABSTRACT ZERNOV, S.A. - ZERO, W.

 GUANTIONOV, V. D. and S. .;~. mr. RI'l Kanal Volga-Don. Moskva, Vodnyi transport, 1939. 54 p. DLC.- HE/,66.V6G3 SO: TO, Soviet Goopm-ophy Part 1, 1951; Uncl. "y ~r j T~ 7.1  oulT 1 "it 'l, T I I I W-A a L A.0 At. "Nocilial AuO POW1,41,41 woes 60 so fi, so gas ll A S a o F too 914M 11VIOVIV. low it 1414 4311214Nt 041181 40C cW. It, I FAh a .1 W 1 0 rW a 9 0 A# 4) 4 It W, M ti It 40 A 1 1 . L r 0 04.411 414 41 0 *so 40 * 0 0 a 0 0 0 0 AV -li '  HUM ZERNOVs, S . A. ZERNOV, S. A. "Explansion dredging and the measlires for its developrent,"' ln the sympovim z Haterialy t.*.hn. scivenholiaMy po puLovym rabotar, (H-vo roch, floth =)j 1101100wr 1,91196 P., h9-55 SO: U-5240p 17DeC53s (Letopis 'Zhurnal lny~h Stateyp No, 25p 1949).  ZnNOV. S.A. POWMIT. R.N. [Atlote of U.M.R,.game and birds and animal# having economic significance] Atlas OiLtnichilkh i projolovykh ptits I zverei 5SSR v dvukh tomakho Vdl.2.[Wild animal a Zveri. .11od obehahei redaktai6i aka:domika S A.Zernova i akademika B.N.Pavlovskogo. Moskva, Izd-vo Akademil nauk SSSR.. 1953. 293 p. (MMI ?::3) (Zoology, Economic) (mammals) 1. Akademiya nauk SSSR. goologicheakii institnt.  -MMMIN loll wily Development of waterways in the sixth five-year p1sa. Rech. tranisp. 15 no.5-.5-7 Ky 156. (XWA 9: 8.) (waterways)  ZFMOT, SA. Practical resulto of river dredging, Rech. tranap. 16 n0j:6-11 Nr 157. OGM io: 4) 1- Zamestitell nachal'Alka Glavnogo upraylenlym -rodn7kh pat-.!wy Kinisteret-ra rachnogo flots. (Dredging) (Waterways)  .ZERKOV,-S.A.;,inzh*, River transpDrtation requirements from h7droolectric power station discharge regulation., Rech, transp. 17 no.4.,28-29 Ap 157. (MIRA 11:4) (Hydroelectric power stations) (Inland water transportation)  RUNTANT.Aw, Alakeandr Mikhaylovich; KPASITSKIY, S.P.. retsenzento, MORALETICH, Yu.Ae. retoonsent.,-j iv,_S,,A,, red.; FSDYAYJIVA, red.izd-va; T2MMOTA, T.T., tekhn~i;~a~. .[Automatia and remote control in inland transportation] Avtomatiks, i tolemakhanika na rechnom transporteo Moskva. Isd-vo "Rachnoi transport," 1959. .98 p. '%MIBA 12%7) (Remote control) (Inland navigation)  FJWOROV, Vladimir Iladimirovich. dotsent, knnd.tekhn.nauk; GONCHAROT, V.N., prof&, retsenzent; 2MOV S.A., inzh., reteenzent; DOMANITSM, A.P. , red'i- tekhn. red. (Hydrology and investigation of waters] Gidrologiia i voduye izyskaniia. Leningrad, Izd-vo *Reahnoi transport," Leningr. otd-nie, 1960. 344 p. (MIRA 13:10) (Hydrology--Research)  SHASHKIN, Alsksandr. Ivanovich; XWOV, S.A., red.; MAKRUMUNA, A.19., red.izd-va; BCVROVA, (Handbook for members of a hydrographic survey party] Spra- Vochnik; tak:hnika izyckatallakoi partii. Moskva. lzd-vo *Raehnol transport," 1960. 382 p. (MIRA 13:10) (HYdrographio surveying--Handbooks, manuals, etc.)  TUMAMOV, Veniamin Irasillyevich; =10V, SzA~. ~nzh., retuenzent; I:VAUOV, V.Ye., lnzh., retsenzent; SHCHAMM, A.?., red.; VOLCHOK, K.K., takhn.red. (Investigation of rivers and lakes] Rechnye i ozernye izyiijmniia. Leningrad, lzd--vo wRechnoi transport," T-aningr.otd-nie, 1960. 264 p. (1~,droguaphlc surveying)   YUDIVg Petr Sergeyeviebl, kand*' takhn. nauk; 14ASCHEV9 Viktor Alekewyevi0hp inzh,,; 7=- OVp S.-A-9 retBenzent; PAWOVp S.Noy retsenzerit; GRIGMIYEV, Sollo 9 re~,~;-- dEVAv W.A., red. izd-va; POKEMKINA, M,I.p takhn. red. (Mechanization of straightening operational Mekhanizataiia vypravi- tellrykh rabot. Xoskvap lzd-vo' "Redhnoi transportp" 1961. 3.31 p. (MIRA 106) (Rivers-Regalation) (Harthmoving maebinery)  VLADIMIROV, Nikolay Petrovich; SHCHEPMOV, Ivan Alekseyevich; BEELOGLAZOV, Vasilly Ivanovich; FUSHrJUREV, Leonid Vasiltyevich; kE%1t.QV,~.A.0 inzb., retsenzent; AGAFOV, A.D., kapitan, retsenzent; PYATLIN, A.A.,kapitan, retsen7ent; BAKULIN, P.P., kapitan, retsenzent; MOSKVIN, S.V., kapitan-nastavnik, retnenzent; POROCHKIN, Ye.14., red.; MAKEWSHINA, A.N., red. [Special sailing directions for the Volga-Kama and Don River basins; Moscow Canal, Volga Rivor from tho Ivankovo Hydraulic Development Complex -to Bertyull, Kama B4ver from the city of Perm to its estuary, Vol-a-Don Canal, T31rdyansk Reservoir, and the Don River from the TSmlyansk Resexioir to the city of Rostov] Spetslotaiia Volzbsko-Kamakogo i Donsko go baseeinov; ka- ,nal im. Moskvy, r. Volga ot Ivanikovskogo gidrouzla do nas. p. Bertiull, r, Kama ot g. Perm' do ustlia, Volgo-Donslcoi Icanal im. V.I.Lenina, TSimlianekoe vodokhranilishche i r. Don ot TSimlianskogo vodokhranilislicha do g.Rostov. Moskva, Trmaport, 1964. 288 p. (MIRA 111: 10)  MAN CHEMENEV, Aloksey Ivano-,-*L-,'n-.. GRISHANO, Kirill Vladimirovi-Ii!; KUSTOV, L.I., Prof., retsenzent; Mq-~-OV, S.A., retsenzere.~ LEoliovo P,A,, red.; MAERUSHINA,-X~ (Waterways] Vodnye puti. Mz)skva., Transp-,rt, Pt.2. 19(v, 319 p. (HIRA 18-.2)  ~-ANIOVSUY, boriD Serep~-rviah, inzh.; 1~etr Ivanovich, inzh.; Fi-ln-,.-BfkG, Tatlyana Yevgcrlyc,,.rx, InA.; G~~IJX, I.I.1 retce-nzarit; i"E4,0Vy red. (',,'aterways vith navigation locks3 Ilhliuzovannye vodiWe puti. Moskva, lz6-vo "Transport," 1964. 300 p. (MMA i7:7)  Mine ventilator operator. Sverdlovsk, 3.943. 86 P. ~TN301-Z4 1. Mim ventilation.  ZWICV V.A., in7henor Impraved lumber drier. Der.prom.4 no.9;22-23 S 155. (MIRA 8:11) 1. ToPKB Glavatandartdoma Minlaterstva promyshlennosti stroitell- rqkh materialov SSSR. (lumber--Drying)  (Wood waste) (Lumber--Drying)  SOKCWV, P.V.; ZERNOV, V.A., speto. red.; STOGOVA, T.I., red. [Technical &rff.1 ecohomic Indicoa of lumber kilns] Tekhnlk:.~- ekonomicheskie pokazateli lesosushilInykb kamer. Moskva, TSentr. nauchn-issl, in-t informatsii i teklmiko-ekon. issledovanil. po lesnoi, tselliulozno-bumazhnoij derevo- obrabatyvaiushchei promyshl. i lesnorm, khoz., 1964. 29 p. (MIRA 18:5) 1. TSentrallnyy nauchnc-issledovatel'sBy institut tekhnicheskcry informatuii i tekhr-Iko-ekonotnicbeakikh is- aledovaniy po lesnoy, tsel1yi1lozno-bumazhnoy, derevoobra- batyvayushchey promyshlennosti i lesnomu khozyaystvu. (for row, VIP, I WORUM.3 III   M~jqV, Valentin Alokseyevich; STRELKOVA, A., red.; RALEK, Z., t4.)khn, [Color separation photograpby in reproduction techniquos] TSvetoc.'elitellnoe fotografirovanie v reproduktsionnoi tekh- nike. Moskvas Gos.izd-vo "Iskusal-vop" 1961. 134 p. (MIRA 1531) (Color photograpby)  ZERNOV, V.A., inzh. Modernized ejector-type kiln for high-temperature lumter drying. Dar. prom. 13 no.lill-14 Ja '64. OCRA 17:4) 1. Gosudarstvennyy institut po proyektirovarjiyu predpriyatiy derevoobrabatyvayushchey promyshlennosti.  ZERNOV, V.A. 2 Cnnd Toch Sci-(diss) "Study of the photogra.- phic prcceva in t hree-color d0op print L Vha role of the wbW*- pho~lo--T)ro%~tlt4sEs;V~l-r~iiI its effoct bn 44ti color trane- 4,S~ princirloo and mathod of cal. a or2 -J)hotc P 1958. 20 pp (11"in of ILI'gher E(Wo~--.tion UISOR. ~105 '~upl Polygrr)ph Inat 150 CoPior- Bibliorraphy; pr-2119-20 (17 ti'les) (IL'I,25-58, 113)  AUTHOR: Zernov, V.A. SOV/19-58-6-571/685 TITLE; A Method of Masking Color-Separation Negatives and Diapositivell with the Use of Light Filters (Sposob maskirovaniya, tsvetodelennykh negativov i diapozitivov a primeneniyem svetofil'trov) PERIODICAL: Byulleten' izobreteniy, 1958, 11r 6, p 126 (USSR) ABSTRACT: Class 57b, 16 . Nr 113835 (581306 of 20 Jul 57),, Submitted 8 ee for Inventions and Discoveries at the Mini- to the Commit? sters Council of USSR. A method of improving the quality of color reproduction,.consisting in the use of two -three-zone light-filters for one mask, and. choosing the exposure time when producing the mask so that the optical density of the neutral-gray color of the original is equal to the optical density of the veil on the mask. C ard 1/1   2MMOV, P.11. Viscose residues in operating tanks. Ilhim.volok. noo4t66-6 119. (MMA 13: ? .7 1. Mogilevokiy zavod. (viscose)  2,40), 24(8) SOV/56-31S-4-12/70 AUTHORS: Zernov, V. B., Sharvin, Yu. V. TITLE: Meac3urement of the Resistance of Tin of High Purity at Helium Temperatures (Izmereniya soprotivleniya olova vyso'.,Coy chistoty pri Coliyevykh tomporaturakh) P'"'Tl ! 0 D! C,~.T Zln:rnal eksporimentalinoy i teoreticheskoy fiziki, 19510) Vol '146, lir 4, -,DP 1038-1045 (USSR) ABSTRACT: ;reasurement of the residual resistance of metals at low temDera- turps is,a sensitive method of determining purity. The sensi- tivity of the method is limited by the scattering of conduction, electrons on lattice inhomogeneities which are not connected with impurity. This includes scattering on inter-orystalline boundaries (in the case of polycrystalline samples), on dis- locations and other inhomogeneities of the lattice and on the outer boundaries of the crystal. If the metal investigated is an isotope-mixture, a certain "isotopic" residual resistance occurs. In the present paper the authors describe experimental investigations of a number of tin single-crystal samples of different degrees of purity and determined the temperature Card 1/4 dependence of resistance within the range of helium temperatures  SOV/56-315-4-12/70 Measurement of the Resistance of Tin of High Purity at Helium Temperatures as well as anisotropy. The authors employed a contact-less method based upon measuring of the moment of forces acting, upon the conductive spherical samples in a rotating magnetic field. The method was developed by k. R. Regelt (Ref 1). Figure 1 shows the experimental arrangement,* measurements are discussed and theoretically.explained. For a sufficiently love rotating frequency of the magnetic field it applies in fir6t approximation,for the resistance that TE2 (R5H2/TM)E Q = 10-90 /15) ft.cm] (R = radius of the sphere -in cm, H = field strength in Oe, T = rotation period in sec, M the moment acting upon the sample'-dn dyn.cm). With 6 being .the skin layer into which the field penetrates, it iiust hold that 6 (6 107QT'/2yE) - For the purpose of experiment s T was chosen at 400 - 500 see and R/6 4- 0.5. In the following the conditions for ellipsoid-shaped samples (semiaxes, ab-0 are discus.,ed. For the moment of forces it then holds that .M i0-9 47, 2 a5H2 20 : 15 T QIj +kIQj Card 2/4 where k b/a. The authors use samples, in which k  SOV/56-.36-4-12/70 Yeasurement of the Resistance of Tin of HiCh Purity at Helium Temperaturen O"E41. In the following, formulas arc- given fo (Q11 -~Q-d/2 and for Q.,. for the case in which 2 11 M It /0.15 11 a~- Mongurina resulU, are f;iven by tabl,e -1 m ( X and are discussed in dotail. In the following the particular features of some samples are discussed, the measured and cal- culated ~-values for temperatures between 4.23 ard 3-730K are compared (Table 2), and the influence exercised by working the samples upon resistance is investigated (Table 3). For the anisotropy b, bjj/bL= 1.5 -* 1.6 is found. The ratio Q,I/Q,for -4-20K is about 1.3 - 1-~. For samples of the greatest purity the residual resistance was determined as amounting to ---3-7' 10- 11-R.cm, which corresponds to an electro-a mean free path of about 3 mm. Finally, the dependence of the residual resistance of tin on the impurity concentration C is inveati- gated. In the double-logarithmic scale figure 2 shows the force of the dependence of Qo /Q200C on C (in percentage by Card 3/4 weight). The values are on a straight line. In conclusion2 the  SOV/56-36-4-12/70 Measurement of the Resistance of Tin of High Purity at Helium Temperatures authors thank N. N. Mikhaylov, Head of the Technological Department of the IFP, for supplying the highest-purity tin; they further thank I. Ya. Pomeranchuk for letting them know the results of a paper before its publication, and they finally also thank A. 1. Shallnikov for discussions and valuable comments. There are 2 figures, 3 tables, and 17 references, 5 of which are Soviet. ASSOCIATION: Insti:tut fi-,icheskikh problem Akademii nauk SSSR (Inst-itute for Physical Problems of the Academy of Sciences, USSR). SUBMITTED: October 169 1958 Card 4/4  moral "q RIT(M) P(+)/m7 TJR C) M ACC NRi WIRCE CODE: 259 266 AP6019565 UR/0080/66~039/006/1 AU111OR: Chernyayev, V. N.; Zernov, V. B.: Povedakaya, L. G.; Yershova, S. A.; Klofach ORG: none TITLEi Deep purification of _q_aAMium pnd zinc by rectification and zone refining SOURCE: Zhurnal prikladnoy khimii, v. 39, no. 6, 1966, 1259-1266 TOPIC TAGS: cad:aium, zincy metal purification, metal zone refining, electric resistance,'cadmium compound, zinc oxide ABSTRACT: Deep purification of CdO commercial-grade cadmium and ZnO commercial- grade zinc by rectification and subsequent zone refining is described. Rectifica- tion was done in a h-f induction heated, graphite, shelf-type column with 26 plates, or in a quartz bubbling-type column with 10 and 20 plates. A single charge of metal was 9-11 kg. The purity of the metal fractions obtained with rectification was determined by measurement of the residual electric resistance at 4.2 K. Rectifica- tion alone lowered the total content of Al, Ni Sn Sb Pb, Bi, Co, Mn, Ca, Ca and other impurities in cadmium to less than 1-10-~ wt"%. 'The yield waa 60% of the charge. The lowest values of the residual electric resistance obtained with recti- fication was 0.9-10-10 ohm-cm for zinc and 0.6-10-10 ohm-cm for cadmium. Additional purification was done by 20-pass zone refining with a molten metal zone 4.5 cm wide Card 1/2 UDC: 621.915.592:546.47'48  ..XMMULMMMM~0 L 31993-66 ACC NRs AP6019565 and a- zone speed of 4.5 mm/hr. With zctie refining the residual electric resistance in zinc and cadmi 14 decreased to 0.6-10-10 and 0.48-10-10 ohm-cm, tespectively (the respective_kla ~it 1299.99998%). From the data on cadmium rectification the coeffi- cient of the separation for the Cd-Zn system with a low concentration (1.10-3_10-4 wt%) of the second component was calculated and found to be 2.0 0.1 Orig. art. has: 6 figures and 4 tables. EMS] SUB CODE: .11, 1-3/ SUBM DATE: 06May65/ ORIG REP: 015/ ATD PRESS: 2/2  ZMUTOV, V.D. Teacher and friend. Trudy Inst.istoot.i tokh. 286.111-120 159. (MIRA 13*5) (Ldbodev, Petr Nikolaevicb, 1866-1912) 0  IVANOVA, Ye.P.: starshiy naucbn,7y sotr.; _!7,gEQY,-Ya-V.., prepodavatelt RULSANOVA, l,.A.f nauchnyy sotr.; NOVIKOVA, H.D., nauchW sota-.; TARASOVA, N.D.; RISHINA, R.G., starshiy inzh.; =N-SKIY, V.B., red.; SHPAKI Ye.G., tokhn..red. (Work organization and establishing technical standards in enterprises manufacturing synthetic fibers) Organizatsiia tru- da i tekhnicheskoe normirovanie na predpriiatiiakh khimicheskikh vololcon. By E.P.Ivanova i dr. Moskva, Goa. nauchno-tekbn,izd--;vo khim. lit-ry, 1961. 175 P. (MIRA 15.1) 1. Vsesoyuzvyy nauchno-issledovatellskiy institut iskusstwnnogo volokna (for Ivanoval Kirsanova, Novikova). 2. Moskovskiy tek- stilInyy institut (for Zernov). 3. Nachallnik -nomativno- issledovatel'Bkoy laboratoli po trudu Kalininskogo kombinata (for Tarasova). I+. Gosudarstvennyy komitot po khimii pri. Soveto Vinistrov SSSR.(for Rishina). (Textile fibers, Synthetic-Production standards)  ZERNOV,-Xg.y,, kand.tekhn.nauk, dotsent Present stat~6 and development trends of the world production of synthetic fibers. Tekst.prom. 22 no.~-.84-88 S 162. (MRA 15:9) 1. Moskovakiy tekstilInyy institut (MTI). (Textile fibers, Synthetic)     ZER110VA, A. I. ffrhe Ichthyological rauna of" the Luga River Baoln." Cand 51o1 scip Leningrad State Peda,-ogical Inst, Leningrad, 1953. (RZhBiol, Nlo 1, Sep 54) .SO; Sum 432, 29 Mar 55   88546 S/191/60/000,/011/002/016. %101 B013/BO54 AUTHORSt Zernova, K. I., Kirpichnikova, V. V., Kotrelev, 17. N., kuz Mina, TITLE: Aging of Polyethylene and Its Mixtures With Po-lyisobutylene Under Atmospheric Conditions PERIODICAL: Plasticheskiye massy, 1960, No. 11, PP. 4 8 TEXT: The present paper deals with the aging of polyethylene and its mixtures with polyisobutylene. Samples of ethylene and its mixtures with polyisobutylene at a ratio of 90:10 DoB-9o) - POV-90), 67:33 (POV-67), and 50:50 (POV-50) were subjected to fatigue tests in the open air under different climatic oonditions in the central pa,?t of the USSR, on the coast of the BarentaSea,and of,the,Black Sea, and in jentral Asia. The test conditions are sufficientl characterized by the meteorological data of the regions concerned (Table 1 . Mechanical characteristics, fatigue strength and elongation, were determined, and thermomechanical properties as well as structural changes were studied. In all materials of the group mentioned, Card 1/3  88546 Aging of Polyethylene and Its Mixtures With 3/191/60/000 /011/002/016 , Polyisobutylene Under Atmospheric Conditions B013/B054 a noticeable deterioration of mechanical properties 'was obse-rved during the .*tests: a decrease in. strength and a considerable drop in relative elonga- 'tion. A higher polyisobutylene content reduced the resistance of the polymeric mixture of atmospheric factors. It was found that higher tempera- tures accelerated the aging of the material, and that a continuous and intense exposure to sunlight greatly increased the degree of aging. Zhurkov's apparatus, modified by Kanavete (Ref. 2), was used to study the thermomechanical pri)pertiesiTh'-e~,~tbermomechanical curves showe-d: 1) The range of elasticity was missin& in all curves; 2) after two years of aging, the temperatlAre of transition to the viscous state shifted slightly towards lower tempe:r,atures; 3) after aging the curves for all materials ,showed a character different from that before aging. This indicates the formation of reactive groups due to chemical changes during aging. The strong decrease in elongation, starting in all polyethylene .. polyiso- butylene mixtureo after 6 - 8 monthe already, indicates the predominance of the destruction !process during aging. The structural changes-luring studied aging were Oy infrared spectroscopy, and the formation of alde- hyde groups was ascertained. Like other hydrocarbons, polyethylene oxidizes Card 2/3  Aging of Polyethylene and Its Mixtures With S11911601000101110021016 Folyisobutylene Under Atmospheric Conditions B013/B054 during aging with formation of peroxides which decompose and give secondary decomposition products,aldehydes, carbon dioxide, etc. (Ref. 1). The tests showed that polyethylene and its mixtures with polyisobutylene cannot be used longer than months in the mentioned characteristic area 9 under atmospheric conditions (in the open air) because of their low resistance to solar radiation. There are 10 figures, 1 table and 4 Soviet references. Card 3/3   BOUTREV, G.P.; VOGMAH, D.A.; NOVCKHATSKIT, I.P.; VERK. D.L.; DYUGATU, I.V.; KAVUH, V.M.-, XURMO, A.A.1 UZOLOV, M.R.; ARSENOYEV, TEGORKIN, A.N.;XCFA"0W, P.P.; R.IYZIMIN, V.H.: SWLETS. B.A.;, FATKOVSKIT, A.B.; BOLESLAVSXATA, B.H.; INERNBOM, D.B.; FINUMISHTETH. A.$.,. 4HAPIRO, I.S.-, LAPIN. L.Tu.. Prinimiali uchostiye: NUSKAYA. G.I.; PEDOSETHT, V.A.; KASPILOVSKIT, Ta.B., ZM90VA..K.V`.. BARDIN. I.P., akademik. otv.red.; SATPATRY, K.I., 6ka'dem"1k,- 6a'u'c'hnyy red,; SMUHILIN, akademik, nauchW red.; ANTIPOV, M.I., nauchnyy red.; BELTMICHIKOV, X.P., nauchny7 red.; TZROFMV, B.N., nauchUy red.; KALGOO7, H.I., nauclinyy red.; SMIRIN, A.M., nauchnyy red.; SUDZYM, P.Te., nauchnyy xed.; KMIBNIKOV, T.B., nauclinyy red.; STRETS, N.A., nauchnyy red.; BANISITSM, A.L., red.izd-va; POLTAKOVA, T.V.. tokhn.red. Elron ore deposits in central Kazakhstan and ways for their utilization] Zhelezorudnye mostorozhdeniia TSentrallnogo Kazakh- stana i puti ikh iapolizovaniia. Otvetatvennyi red. I.P.Bardin. Moskva, 1960. 556 p. (MIRA 13:4) 1. Atademiya nauk SSSR. Xezhduvadom9tvennaya poBtoyannaya komissiya po zhelezu. 2. Gonudaretvannyy inatitut po pro3roktirovaniyu gorri4rkh pradpriyatiy zhelezomdnoy i miargantsevoy promyshlennosti i proNrahlonnosti nemetallichookikh iskopayemykh (Giproruda) (for Boldjrrev. Vogman, Araea'yev, Tegorkin, Korsakov, Kuzlmin, Strelets, (Continned on next card)  rMl4m%~0mamIA, M BOLDYREV, G.P.--(contJnued). Card 2. 3. InBtitUt goologichookikh nauk AN Kazakhekoy SSR (for llovokhatskiy). 4. TiSentrallno-Kazakh.ptanskoye geologichaskoye upravleniye Ministerst- va goolO6,11 i okhrnny nedr 6SSR kfoT Veric, Dyugayev, Kallin, Xurenko, Uzbelcov). 5. Nnuohno~~eclodovatellalciy inutitut moklianichaskoy ob- rabotki 1:.oleznykh iskppavemykh (14ikhanobr) (for Patkovoldy). 6. Gosu- darai;vennyy 4natitut proyoktirovaniya motullurg.zavodov (Gipromes) (for Boloulavelcaya, Indenbpm, Finkellehtoyn, Nevskoya. Fedoneyev, Earpi- lov&:iy). 7. MezhduveAom9tvennaya postoyanneya komlsaiya po zhelezu AN WSR (for Shapiro, Zernove, Kalganov). 8. Gooplan. SSER (for Lapin). (Kazakhstan--Iron ores)  PLUSIN. S.A.; GOTOVTSIVA, L.A.; K.N.; RTZH&KOVA, T.S. Peroxide bleaching of back grey. Taket,,proms 20 i20&2: 43-48 F 160. (MIRL 13:6) (Textile* printing-lquipment and supplies) (Bleaching) (Textile fabrics)  GOTOVTSWA, L.A.; EM, VA,, N.* SHIIM, M.G.; PROIOVA I YO*Nl Simplified method of continuous alkali-poroxide bleaching of fabrics. Iauch.issl.trudy IvNITI 2!i:154-182 161. (MIM 15:10) (Bleaching) (Textile fabrics)  **Q;:q*'O4;S4 0 4 it 11 11 it, Ut It it III I* W ti li If to C. it W it4 u 4, i~ W4 4; 44 q it u 0:110 [007- A A A. L b -L I it, $ L A h 1, u it 4 Y ,It x t A AA A LV if I# I t I ItiumpA(mlio lipAsil tit lisliu,to ji, Ali Jj(jV JkjlAI J"% V44"JL 4 " "j~ "j. $. I'l, Im ijill N171101 IJOH IlKi?), 111C IiIIAW tit hilig ti"t4v Is 3-4 (ImeS !9%5 fttivt thill that of tile hirtir. At 4.411 the I of cato, tabbits, dogs And Tilt$ K[tuw ptactic-Aly dir same aoivity. At "428 tilt activity itictmics 2.4 Iiliiv*, the Illefeww bc litcaut lu tabbilp mild Mitt. 66 A" fipaw tlmw4 a amitirr activity at At thau at .00 7A.M. as dtwjl the lillaw 19 the lytillillatic Oland which miluf always shtm Iess activity than 1. S. A. KarjAx 00 00 of '00 LlL111141LAt CLOPIKATIC' ,.two., it it lip k -4 '1' 0 diii _~Wb L U11 AV M3 jj_ '11, 14C tilt MIC K(In UPC A 1 14 AA & 1 0 04 0 4 0 IV 3 d 0 0 It 0 4, f 0 Q .9 0 0 0 0 41 00 00 OS 0 0 if 0 0 0 0 0 ~L 0 0 t'A 0:0 0 0 9 0 0 0 S a S 0 0 0 0 19   YERMOKIIINAO T.Maj ZAYTSEVA, G.N. ZBFdJOVAj, L.I.; EELOZERSKIY, AJIT.., akademik Some data an the Obpecies" of sRNA mad amineacyl-zP11IL-gynthetases in micro-organims. Dokl. AN SSSR 1.59 n0-5:1165-1168. D 164 (MIRA Igil) 1. MoakovpMy gQpU4PX#tY*TMyv R.V. L=~ncatlra.  TRETIYAKOV, A.P.; NIKOWN, L.A,; OHMN KM-DIN (Chleng Rua-ting); ZI Olt ft V~.; TULUPOV, V.A. Cleaning oil sections of coolers without dismounting them from the diesel locomotive. Trudy MIIT n0-110.125-150 159. (MIR& 13:4) (Disel loconotives-Mai#enance and repair)   Micro. afuctil ~i,i o1 6,,ded bs~=e. Tabills.  -- 0, f YURGENSON, A.A.; ZWOTA, N.A. of Mechanical properties aDi microstructure of the Br.OTs-10-2 imd B.-.OS-10-10 bronze varieties. Lit.proizv. no.1:24-25 Ja 155,, (Bronze) (MmA 8:))  KOROTKOV, Veniamin Grigorlyevicjj; GORSHKOV, A.A.9, retsenzent; ZERNOVA retsenzentj CHUMWJOVAP V.V., tekhn N.A inzh.,, red. [Refinement of . casIt aluminum alloys] Rafinirovanie liteinykh aliuminievykh splavov. Moskva, Maahgiz, 1963. 126 p. :L6. iRA . .4) N 1. Chlen-korrespon4ent kkademii nauk Ukr. SSR (for Gowhk(,~v)'. (Aluminum alloys)  YEROMEV, B.V.; 05IFENKO, I.F.; DOROSHKEVICH, M.N.; ARAPOVA, L.D.; BIRUT CHIKY T.N.; ROMUEERG, A.Ya.; ZERNOVA., H.M.; 2711MAIII, V.V.,- KATEVA, U.N. Antiblock composition for cellophane. Kh1m. volo1c. no.4:64-66 f.64 (MIRA ISW 1. Institat fiziko-organicheskoy khinii AN BSSR (for Yerofeyev, Osipenko, Doroshkevich, Arapova, Birullchik). 2. Mogil-evskiy zavod iskusstvennogo volokna (for Rozenberg, Zernova, Zvizzhov, Katseva).  GORBANMOI A.D.; ZEGERs K.Ye.; ZIMN-OVA, !,-A-; IVANOV, K.I.; LIPSHTEYN; R.A.; IBZHETSKIY, A.A.; POVOLOTSKIY# L.I. hnportance of ash content in boiler fuels for electric power .plants. Standartizatsiia 28 no.lt24-25 Ja 164. (MIRA 17:1)  KOSSOVA, Ye.T.; SHALYT,, L.S.; U00VA, V.A. DataXUAtiM Ott, -.14M IlYfir 11 vopl Obt IgAts. 1 410,114, r1001164.0 1614 L 1% domatichodcoy kliniki i klinichookoy laboratorii lAwbigradskogo nauchno-isfiledovateltakogo pe-diatrichaskogo instituta (nauclmyy- rukovoditell - prof. E.I.Fridman (deceased]) (dir. --zatiluzliennyy vrach RSFSR L.S.Kutina), (KOMYS-MSEASES) (LIM)   ,ZERNOVA, V.V. Distribution of net phytoplankton in the tropicAl area of the western part of the Pacific Ocean. Trudy Inst. Okean. 651 'I'l 10 141 IUTMA 16-61    ,_~ERNOVAl V.V.; IVAUCV, Yu.Am Distribution of not phytoplankton deponding on hydr(logical conditions In the northern part of the Indian Ocean. 1rady- Inst. okean. 64:257-264 164. MRA 17:7)  ?M kIMAN,I.I., doteent; ZWOV,B.L.; ZEEO%. inzhener T J, Hemp processing on flax-spinning machinery. Tekst.prom-15 no-7:14- 16 J1,53. (KLRA 8:11) I. KTI (for Feyman) 2. Zaveduyushchiy TSentralluo-nauchnoy issledo- vatel'skoy laboratorii GlavlIna (for Zernov') 3. Kostromakiy lluo- kom~binat lmepi~1,6nlna (for Zernova). (Hemp)   ZMIOVA Ye N LIWN, Ye.P. kand. ekon. nauk, red., (Bibliography of manuscript reports and printed vorks of' the Scientific ReBearch Institute for Mica, Asbestos Cement Elements,, and the Designing of Const,raction for Enterprises of the Mica Industry] Bibliografiche-skii ukazatell rullcopionykh otchetov i pechatnykh izdanii instituta "NIIASBESTTsUMT.n Moskva2 Otdel naucluio-tekhn. informatsli, 1959. 26 p. WIWI 151:1) 1. Nauchno-lealedovatellskiy,,inatitut, slyudy, asbestateogiont- nykh izdelii i proyektirova-niya stroitellstva predpriywUy slyudinoy promyshlermosti. (BibliograpIV-1-fica)   The hydroelectric Bystem of Flavrovo.~ P. 12# (GLASNIK; Vol. 1, No. 1, Ylar./Apr.'1956 SO: Monthly List of East European Accessions (EEAL) Lc Vol. 6, No. 12, Dec. 1957 Uncl,.  ZERNMKII Kiril, Inz. Technical power solution of the Vardar River on the Skopje-TItoy Veles section. Vodoprivre-da, Jug 3 no.12:57-77 160. (EEAI 10:9) (Water)  85909 Z/034/61/000/001/021/021 EO?3/E535 AUTHOR: Zernow, TITLE: Application of Explosive Forniing of Metals. Abstracted by A. Veti'9ka PERIODICAL.4.Hutnickg listy, 1961, No.1, p.?2 TEXT: This abstract isbased on the contents of a lecture given by the author in a Coll oquium on shaping fine sheets9held in Paris. In explosive forming, the shock wave is utilized -which acts against the material to be shaped in -an"open die. The air is extracted from the die space behind the blank in order ti) prevent adiabatic heating of the air during sudden compression. The most suitable medium for transmitting the shock wave is water. The detonation of the explosive under the water surface will generate a shock wave and a closed space occupied by the hot, gases. The main source of shaping energy is the shock wave. The height of the water head above the explosive is important, since.the reflected secondary pressure.waves from the water surface and from the walls of the vessel contribute in the shaping process. If the depth from the surface of the water to the point of the explosion is too small, the reflected wave will weaken considerably. Any Card 1/2  Z/034/61ROW/001/021/02.1 EO?3/E535 Principle and Application of Explosive Forming of Metals, inhomogeneous explosive of a certain activity is suitable for explosive forming. Solid and liquid exl?losives were tried and no great difference was found to exist in the effect's of pressure waves propagating at various speeds. Study of the shaping by means of high s]~eed mot on pictures showed that the sheet is deformed in 10-2 to 20-~ see althou�h on the a f 10 1 to 10_. ... It,verage the pressure effect has a duration o S was found that the proposed method of shaping is particularly suitable for special steels and alloys with high strength, which are very difficult to shape by current methods. It was aleo found that all current grades of steel, stainless steels', titanium alloys, aluminium alloys and other currentlyused materials can be formod by explosion. "Abroad" this method is being used for producing lids of pressure vessels, various spherical shaped containers, corrugated sheets etc. The final shaping is achieved in the cold state by a single explosion, whereby 'the formed articles are very accurate, both as regards dimensions and wall thickness. Sheets up to 25 mm thick were successfully formed by this method. The method is very economical, particularly for forming large com)onents. 'In view of the speed and accuracy this method is very promisi.ng, 8articularly for large scale formIng.- There is 1 figure. ard 2/2  SOV/123-59-15-59860 Translation from: Referativnyy zhurnal. Mashincistrayeniyaj 19591 Nr 15, 3.36 (USSR) AUTHORi Zernya:kcv,-B~9.,~ TITLE-i New-Insulation Paste:for Copper.Ylating.-Frior.to Cementation 'PERIODICAL: Tekhnol. avtomobilestroyeniya, 10~* Nr 6j pp 82 84 ABSTRACT: The application'of.-current%reversal-f.or elootrolytio copper plating makes it possible to obtain slightly porous deposits of copper at a com- paratively high current density and permits the use of a cyanic electro- lyte not containing a depassivatorP i.e. Beignette's salt. Howaver, the current reversal shows a positive effect only in a preheated electrolyte. The increase of the-temperature of the solution, however, has a negative effect on the insulation, which protects the spots of the mac"ie part Card 1/2 not to be plated; thereby the insulation comes off the metal and floats  C NRi AT7002153 CA) SOURCE CODE: LM/0000/66/000/000/0020/0024 AUTHOR: Shcherban', A. N.; Filippenko, L. G.; Zernyak, T. S. ORG: Institute of Technical.Themophysies AN UkrSSR (Institut tekhnichesoy teplofiziki .AN UkrSSR) iTITLE: On chemical equilibrium in a gas mixture assuming an arbitrary relationship ,between volume and pressure 'SOURCE: AN TJkrSSR. Termodinamika teplovykh dvigateley (Thermodynamics of beat engines). Kiev, Izd-vo Naukova dumka, :L966, 20-24 :TOPIC TAGS: chemical equilibrium, gas pressure,gan analysis iABSTRACT: A system of equations is derived for determining chemical equilibrium !in a vessel with adiabatic insulation containing a mixture of gases, assuming that i ;volume is an arbitrary function of pressure. It is shown that this assinnption does not introduce any serious analytical complications as compared with the cases where pressure or volume is assumed to be constant even though the enthalpy and internal energy of the system vary with an arbitrary relationship between pressure and volume. ! !At the same time, the numerical values of the thermodynamic parameters may differ con ~siderably. An example is given showing application of the proposed system of equations jin determining the composition of a gas mixture after chemical equilibrium is reached lin a thermally insulated vessel designed for a linear relationship between volume and 1pressure. It is shown that equilibrium parameters in actual vessels may differ con- Isiderably from those under ideal conditions even with a fairly weak relationship be- Itween volume and pressure. Orig. art. has: 9 formulas. CODE: 20/ SUBM DATE, 12Feb65 C.,d I /I  18(2,3) SOV/1 28-5 0-75-30/35 .AUTIHOR: Zernyakov, B.S.p Engineer TITIE: of Melting Aluminium Alloys PERIODICAL% 1,iteynoye Proizvodstvo, '1959, Nr 51 Pp 43(USSR) ABSTRACT: The Chelyabinsk Tractor Factory saves electric ener- gy by no longer adding chloride of zinc to the bar as usual, but conducting it directly to the melting furnace through a casting-gutter.  m %!P&v A ZIMSHKOV,-G. SupervLoor of a progrescive shop. Prom.koop, no-5:4 My (157. MW lot8) 1,Sekretarl partarganizataii arteli "Aktivist', g. Bor, Gorlkovskoy. (Priakhov, Mikhail Platonovich)   CA lafl~ of the cathodic and the toodid current dm*IU*4 on tits emeat edkiency in the electrolysis of (need lead cUNW. G.A. Abramov and (Leningrad MYtftb.I1tvt.). 23. were carlrW u% % twit- cibic-firOf AVIN'01YEM, With All mol(ta Ph at the Witmat serving an catbotle. and a graphite anode abovv the cathode. Cathodic and anodic c.49., D. and D., win varied iad*- penden I and the cx= each other by varying the current Intetuit autfact of the cathode or the anode. rt WIS shown that the current efficiency q was 0 function not only of D.. but also of i and of D.. Mipti. data an: at i - 8 am - 0.49. U.W. 1.0, 2.0. s., Do 2.0 amp./sq. cm.. A M.I.Q. 3A, 04.2. 95.2, at i - 3.73, Do - I.S. D, - 11,37. 0,50* 0,76. 1,40. 9 - 91.14, 93.0. 93.0, 94.3; at i - 1). - 1.0. D. - 0.2h. OZI. OA). LO, 9 - 88.7. 11U), 112-7. W3.11, At i - 1.23, Do - 0,4. D. - 0.12, 0-10, 0-2A. 0.,'00. 9 - W.J, 87.2. V4.8, 91.3. Thewd.4ta vh,,w (h, cfftvt of 1). indim-ily. Direct demonstration It Provided hV variAtion of Do at cmist. A, e.g., at i - 3.75. D, - OJO. 11. 0.471, 1.00, 1.84,161, - 03.93.94.&1, 04.05. 0.03. at - 1.23. A - 0.12. Do 0.19. 0.33. 0.03, 1,15. v . .1141.15, 83.65. 93.456t4~2%. The current efficiency evi. denny dcareames bat vnth decreasing D. and with demas- ing Do. Furthermore, q is greater If the mille wall of the clectrolyzer is Ingulated; this effmi of Insulation of the mide w4il Is gTeatert witb lower i, e.x,. at I ~ 6 the difference with 111SUIAtt4l 91041 UllinlUlAtC41 wall Ill (MIY 6%. but With i - I -"S Amp. It attsM4 &)%. The drimadcom of r on Do end i Aud oil the Insulatiou of the WAI, it ill1crKTtrd I)v Ihws nwtal which vv a function of them factors, N. Thun &Ui  JWW-w W-0. we W-90,0-w 0 is, -A A- f f -fAM 00 01MCItICS AW PRCOINVII 10018 00 0 Infisteftem of CAdkpdit-'$"~d ~i~co4fc Crftgkg Df4ulties emb OfirITUt Fl" DQd"N ZWdrWYPJA Of FUSM 1A4W Oded4r. (In flyulan.) G. A. Abs2mov and V, S. Zanyakov. Mumd Phkiadnof Mail (Jouml of Appbcd ChethIA&I-V 2.% oLj, I'M. P. 10W0116. Appautus b desallwd and diagrammed. pwrimental datis arv tikbuLitcd and chatted. 0o 00:1 1i '00, 00. . OtIALLUPGOCAL jLIVINATM Cr-AS%WICATKN [WE, ,mot XTOO 1Irf#I1FN 7-st -40a I -?a"; III a" **V III V~c y 4 T v vy Fr Ir u Is 41 00 11 $ it Ad -M u 4 It fl, i7if doll 9,4 OCR OctItt U01 a 1- it 9 1, 9f 0 44,0 3 4 1 1, 0 't it 'a4 R of it t, VR 4w 14 Soo o a 0 4, og 0:0 is -0- :g-0 0 a 0 so wo go 'o o 0 o 0 Soo 0-0,0t'. A-0 O-CO  ZERNTAKOV,,,,Boris;,Spgppmo7~ph;,TREB]2.'M, Aron Markovich-, BURLHOV. Vla- no,- 1.- 111-- r vgs yevich; PbLIVANOV, Vasiliy Fedorovich-, KANZON, Eduard Abramovich; DUHAYEVk Turiy Andreyevich; UDALITSOV,.A.H., glavnyy red.; KALOV, A,N.g kand.tokhn.nauk, red.; TUCHINSKIT. N.Y.. in2h., 2-ed:;-- ZASLAVSKIT, X.L., inzh., red.; SMMHOV, P.V., Inzh., red.; ii5iiPIN, A.M., insh., red. (New method of preparing aluminum alloys in electric furnaces; Efforts to avoid losses in braes smelting; Use of rolled metal with variable cross section for the mE.-iufaoture of truck trailer axles; Now design of rotor blades for low capacit hydraulic turbines: ]Iubricant collection in settling basing Ucm-yi stposob Z prigotovleniia ali-aminievyldi splavov v elektricheskikh pechakh; Porlba a poteriami pri plavke latuni; Primenenie proketa peremennogo sechaniia dlia izgotovleniin osei avtopriteepa; Rovaia konstruktaUs lopastei rabochikh koles gidroturbin malot moshchnosti; Sbor masla v otatoinikalch. Moskva. 1956. 12 p. (Paredovoi proizvodstve.nno- takhnicheWcii opyt. Sar.19. Ekonomiia materialov i norye m9terialy, primeniaemye v mashinostroenii. No.T-56-363/6). (HIRA 130) 1. Akademiya nauk &WR. Institut neuchnoy i tekhnichealcoy in- formatsii. (Technological innovations)  KUTSAY, Sh.YeL.; LYUBGHAK, M.V.; ZEWAMTA, BS, Using molten metal ins"i-e of ingot bars in making siluitin ;alloys in electric furnaces. Suggestioz by Sh.IA.lutsai, He'VAJAbehak, B.Se'Zerniakova'O Prom.energo 11 no-3:22 Mr 156. (WaL 917) LUrallsidy Kirovskly saved. .(Silumin)  LEVGHENKO, Telizaveta Sergeyevna; BOBKOVA, Yelena Nikolayevna; PONOMATMA, Yelena Andreyevna. Prinimal uchastiye st. nauchn. ootr.; DZHORDZHI, A.N., �7',;"MI9STINA, L.D., tekhn. red.; YAKOVUVA, Z.I., takhn. red. (Petrolaums of the Northern. Caucasus] Nefti. Severnogo Kavkaza; spravochnaia kniga. Moskva,, Goatoptekhisdat, 1963. 335 p. (MIRA 16:10) 1. Krasnodarskiy filial Vsesoyuznogo nauchno-issledovateli- skogo neftegazovogo instituta (for Zernyshko). (Caucasusp Northern--Petroleum--Analysis)    053/6 2/000/012/009/011,~`~.~_~ E192/E382 fTHOR: Zero, Tadeusz .;I JITLE: 7-Ir-r-an,'egrids in low-power miniature tubes 73.2 JERIODICAL: Prze,gl4d elekironiki, no. 12,.1962, 710 TEXT: The production technology for the manufacture of frawe -ras worked'out. This i grids i s principally a laboratory technology 1) preparation (smooth he whose main processes. are: ing) of t surface of the grid.support wires and accurate inspection of their surfaces; the roughness of the support surfaces should not exceed the thickness of tl-ae grid-winding wire (8 10; 2) point-welding of the grid frame; the molybdenum support wires are made into a frame by using molybdenum binder strips; 3) g9ld-plating of the molybdenum support wires; 'this should be uniform and durable and about 5 - 10 IL in thickness; 4) grid-winding; a special proto- ~type grid-winder wandesigned and built-, 5) fixing Of 16 he windin here, it was,found that the turns did not require fixing (although. it-does not follow that this is undesirable); 6) inspection of.. the grids~*: the final inspection was effected by the so-called Ilvibroscop ell.,. which permitted investigation of the motion of, the Card l/2.   I mi - ........... as 46d 0 A-41 f1i -0 101 00 -00 .09 xl~s In Now o" Less. coxims, "00 adm It.: &M~ ANA W~~i ISAITJVT~401; in Iwo$ 140 (0__V~ to 0 roe sea, emb t6 good of silk 00" soo 'too It 'too 0 1 L A MITAUU11141CAL Liffsom CtAltoolow to-tm W1 Olt woo 7, amw 44 Ar-. 1-11VAL %few o it 1A 0 It 01, of It It ofIK If v If A (73-17-all It amo 0 IS 04 0000 6069 0 is *Is * 0V 0 0 a 6040**o  ale rAls, Olbinvaim 6 209-2151949); $Ntar low. color and p4rhy than JuIrv wkil. to ani, tjkr~ to a" Itsit. ItIt"beentomIthatialt M.Pwitatfiftkor the *"suirirs delemlion. it contact with Juice can omw aftlerritfladn is==.' Inulvid the pill. after Prellmhuiryllelm- tion is, Ore. advised; Advantages 0 thh Procedurt am (I ~ rensovid of ani resildual , (2) Indep"Wen" of chimps In time to be added, (3)r4ilicticst of foaming In Ist. "to., and (4) Independence of the filter presses from efforl; In into.. x1ftV nearly PutV CaCOs Ili bring filtered. When I he sludge is mot neeled for fertititc., the scarly purv C&C(h In Ist min, shkfp can be retirlimted (to 11mg) about W timim. Centrifugal seM. of the ppt. live) pre4ttecation has not proved o4difActorY. Tests wIth a vacuum rotary drurn filter wcft alio unutidactory unless the Jukv was KtVW%uddvmAtdMvk:lu%ly. Tha simptitst, and ithtlipest nic0hod Ill by decilutation alone: good decantation results am dependent on accurate Ilining In the pre-defecatiou. and a jilit best. Swtetening-out of the coned. pill. is b Pill. might be filtered (10% Of It PrCVIOUS NAWh being Used as filter-aid). at the Vpt. nsight twdiffiw~,l illut In the mkfdle vewl of a diffusion Imitery. The sim- lkst "" It to use? Iwo decaMathmo. tvlandsig the sciwn~ waillIng) liquor to the finj seglamtor. W D. If. 1 MONO    e lri IM if y t i h p 4 r- Ctvc , d w :Cquys u d -rao wi w" 1FNE mete surna arl tuprove- HICTal filtration 91 t1w juice trom the first ~ tt, w~ m tidied Involving the Jeta. of v2riablci of tnis unit optration aud design of a continuous vacuum filter and det-in-,cri, A coli- flutioui rotary vacuum filtrr emplaying properly suppkirted fabric flittsing medi;i w,~ t4srd. The filter Ind pv-i~wns for contititivus discharge of the 61ttr-cakr as sNell ;,s -f the Pjqhaura mrditi-au-i were dcid,   R (1111. 1.039.2 1"jAcilve C36011 all: A) Clarified Juice, and B) JtIlcC voiltaltI1111( t1ce- alpi.sto After 2-nd Cartfortittlart. Xar4wnarste dx(slanlif, w,(Mia n,,v sfj,,i b) xawlerul4te ovad po 11 saturnr,-- C:jk r,)%, z, ',).] 'N', It"44. pp. 7~ -75. 1 f'.1 I ',,b Aq Mcnipt to detergoine W11, -titer and ii,ider witat cunditku dw of carbon before or alto,- Ilia 4,~-mo and it, !tb- st,itictit teparallon to flittr pit s- fl- wl :,i,, -t,. with th, srt-ma(e m i - I - If. i,m~ ..,: Inur.,1 1 -pp--hint; I.:-t ;~i , ;,z 1"-~j )W.1 If-Vitt 1 'j-11) ,he 3 ml The fnllowln~ icombiEmm we-it tirzowit 11 vivirbon addiLd to untlitered juice after the 2-lid vjti~)natian pr,~Iuc- it dtx,iourmalmn effect approachlog that priiducett h7 c~,rtjari ctfig ;4111. A OtIMILd jiliCC OtIly WhCO HIC DOWC eirbun Is Afted in smitiviently arge doses and the duration of cm(act im arferimste e q 10 mJi,tj(Ftq wful cjkrLpar wtj.Ir,j ul jn~~. -f 073 4)vr vvit ,f dr% aw mhIfV,-j im"r may k3c If,.'.tvd With varni'll pl-vir"d 1hat A 1, m - "f W75 I"'t "nt M Ill., -Nght of Ili,- '11.1jis !*" Ecuro .1 1"ng cojil-t lirtwwrl tite (,trifitin and Ihi- juice. Itit, former il"suld be sJdA m pravtice hefure th-  7- cmncar V#m- , ! law ?ero, Barbara stwzew- W12dyshw Ura, H Whs . tie" are ILdsmbed -0m sunazly than zq~ C-Rdus. I& FidCo flat. i W. LWf~~eWh 9-Neg., i Spe-17- crftse of the value at the factar! it - (MMtAgt of ad- SMden at 4720 A.)/(Pexz=tnt of adaorpt" at WW Aj. wczdjo S, No. 1. 14-210955)-kithugh adsomtlou of n0a, it Presents &r purification e In 9u t v l f i msuldnic from the incre2se of the Ca*+ addr., tn4kates the reniord _f und i b1 t . a u grea s o g Isugm scrim-m dis2elvantices from the standpoint of suva UYSIM.. es ra e co -,red tubstances. PLrecotage at nonsug"s r--td depends On cGrIc". of the gala sub. ,wEtkhasartdet%k~ptaceincontamin.~ted"=- AdsOrp adsorbents depeada an their rif in f . lectUd to the defeco-otn. Ad_~ptjo a rg~ d-- " c f o monsu" an pu g y -d ~.a. C0-dcIUAt9n; AdmrPrion by CRCUI oacn, O dCkCQ4AtA1 ~ Wtn. dAmption -( incwg. submallet's Inflowsan opposite pattern 6 not t6ited to the rem--I of the colored sutyst=cm only but involves to & certain extent nonsugars of both "g. and . The retardinc e6ect of viscosity of the Mtn. upon the rate of adsorption is most P.-, ounmi in the caime where high-owl inorg, charactrr. Degree of a&wption by CaLOv depends of Cahstrodutmd; km~: It depends an the total On the amt , arg. substq acts are prrsent. The rp- Ptars tb he ver com uc ted f . isurfaCcofad"Clition, concn,5 ot exceeding 6% CA01 t P A y . ut p rom pk-. bAstrPtirm amd there N ulUoubledly a purtly mech. ' ercen a"' . W Drix. does not Inetwe the RIUMItion- process of minaval and occlailon of cnlt(,qdrif and scraicul- loval partivies; In the MIM of d f ,~ e eco-gatri. A. jzjl~   ~' 77' F1 _ 4~~" 'gogar solutions a -re flon to tth. W, LWO 61 filtration a! rAt4ca =d degree Mix 'W. Zero - Prace Glawtwpl TV Mr -17002) Lab S p0 - - . i I app'~12. dc3M. lkid to w kh u C; a.15 15 -.and imiducalmt. Fitz secotid 54td. chidge), - ' L Filtration Wes (on o PA 70 MY MOof .. . . . cd bj~>509j% oa'dmibtitic. m-th(ckw- ' , -d - ~lll hi ii 4 i h i f pav= Si r x o A w t iocNa i ug middly Wt rues iu ptr sollds =3 of of em in dry OTAA ftiki. W2~5 7Britat.all jlt tie lowtr st lower t4nuji- _'Vitt ration aoo dv&  Caw Of &64 -4p. W. Zmu V , Gat. Cotkmmims 11. 4709411).- s4. Nkrip tomil. Ai 10,391 ; Io~IAII% am given ti the tmilp titleri. um nd results tob- ahted its differ"It Iftetmim. LVW is lint"Otant as 14 lot'. 11-r Ito pulp tputtity, It 6 affected by the Totfil"S' of the com. w ir ask toontent tnmkm Cam WW fat bfttlug Roul. e.g, t toy ch"11. proctomes In the pulp. and by the lifte OW temp. w i h O W nt. W. CO heating. Coke det"s. wm Matte. w t O a P od I to 2 g, in 100 to, of boiling Core. on an est. of the U..6r. aftef 10 min. into stand- T h d i Ttslawmina ew t Ordina , (7 premard PWP, OM% mufar), further depufferited IMIPG ( .10% and OAL, mutiar). and mutated pulps (1.2% x asch being dried at 1111 -ttemo. and 21 vApr). 300 g. e QC*- W'). . Data an tabulated. With West. teatio. (be Olmorivilum Is directly proportional to the mW content; 170' k ith t e b Th i l t th t e co amews w w a m a ove emp.. xcep a overhmdo# canoes a devreasor In color- Willo ternp. Is less The ekZ of on " C.04 a n tuagerous for low-mcrom pulp . ne It very atuall for pulp-Atybig below 120. Thorew"datio 11 Is h f b1 h R . e. e rat er Vol d 14 drying was limild to Will  w IV w w v 0411 a 1 4 ? I 99990 I 0 O.A 00 11 oe d 0 00 If 01111. qj t)JW vade truild vs* o, sea 0. 000 0 saw 101M theisi Sol 1.(4 1 pc~ji( 0 1 AA M M 9Q j% WJI _ . . _ a a lit, of use Is water alid Is We Of ft". W Zero miLkland . . ,, i. moth. MOINSAN44101(in French); ROURW .0. 24-MOU Remit 111MOM-The "Y, ut -at 1, cakd. as g. CaO per NO cc. of sola. in If,O at ' ' .00 and W 6 0.130,0.127, 0.110, (MM and 40 , 00 !sp., the varyintr from 12.61 to 12.32. In 6. 0.1. Opand 0.5 N'NaO)I at 20' the Wy. 6 .00 001, 0,030. OA14 end (1,006. The soly. pcoduct .00 an 1342 X 106 to 6M X IV. In Was. that bold .00 to M N. of sucrMa per 1011 Lv. the soly. of C40 l 2 ) P 00 0 4 X. swfi w. at t M1 OAM to 8.207 (upper lim 0 to 0.007 (upper limit 30 g. sucrose) at !N)'; . 000 5.210 at 400: 0.119 to 3.729 at tk)* and 0.07:.' 2.6tXIatW)'. At a givm temp. the pu Is slightly endent and I d f t k t H O b ot 0 o n s cms . w that in u ep . . w comm- The ratio CLO/sucrose incrwasts frona 32 In Ad"- Of Mm rlkngW from 1 .5 to 24 g. but the Px rt"ns 12.0. W. F. Brut IM "T r 00 a 1 0 1 L A PIMWGICAL LITINAtUlt CLASSIMATICII "a; t UU AT'9m~ It 13 jj a ; ' (I tv It W K, ME a lit it K a it it K 4w A 1 14 t 1 8 '51 0 0 0 000 00 0 a a 4 0 0 a 0 0 4 V 4 0 a a 0 00 0 0 0 0 a 4~ 0 4, 0 0 0 Si ~404 0 0 0! 0 0 gas * 0 0 0,04.00 00 0 4 4.10 6 4 go as a a of 0 o 0 04 0 * 0 0- mass of of*