ZVEMVA M. if. Sipara-tion of zinc from cntions of nnnlYtic groups 11 Pnd III Using anionites. *Ilav.lnb. 24 no.4:387-389 '58. (MIRA 11:4) 1. Loningrndakiy gooWnretvanny'y universitat im, A.A;* Zhdnnovn. (Anions) (Zinc-Annlysta)  MORACHIVSKIY. YuiV.: ZVMVA. M.N.; KUZMCTSOVA, A.Ab~ Separating phosphate-ion from certain cations by means of anion-exchanging substances. Zavalab. 22 no#10:1170-1171 '56. (MLU 10:5) Lleningradskijr gosudarstvannyy universitet4 (.Ions) (Phosphates)  XORACIWSKIT, Yu.V.; ZVEUVAO M.N.; ROINOVICH, R.Sh. Now Separation of lead from barium 'by means of anion-cichanging sub- stances. Zav.lab. 22 no-5:541-543 036. (XLRL 0:8Y 1. Leningradskly goffudaretvannyy universitat.: (Anions) (Barium) (Lead)  AUTHORS: Zvereva, Lf. N., Shibarov, V. N. 307/54- 59- t:-21- /25 TITLE: Separation of Zinc, Lead, and Copper:on an.Anion Exchange Resin (Razdeleniye tainka, svintsa i medi na anionite) PERIODICAL: Vestnik Leningradskogo universiteta. Seriya fiziki i khi'-~Iii' 1959, Nr 1, pp 145-148 (USSR) ABSTRICT: It was the aim of this paper to find the conditions of the separation of zinc from copper and lead by,means of the ion ex- change method. Similar separations with different ion,exohangere from the papers (Refs 1-5) are given. The.ion exchangers of the type EDE-10, PE-9, and EDE-10-11P" viere used for the separation of zinc from lead and copper. In a preliminary investigation it was found that the ion exchangers EDE'10-11P" and PE-q~are better suited for the separation. The quantitative Bepara-clon of. copper, zinc, and lead was carried out as folloyrS.i ' 30 - 50 MI* Solution was caused to flow through the Cl" ion exchanger, copper~vas found partly in the filtrate., The residue wh:Lch remained in the column was washed out with 80 ml 2 n MCI. Thp zinc was) then washed out with 150 ml 0. 3 n HC1, and:; the lead which trao clef t in the column was washed out with 200 ml water. The experimental Card 1/2 results are given in table 11. The method is simpler if there are.  007/54-59-1-27/25 Separation of Zinc, Lead, and Copper an an Anion Er~hang~- Resin only 2 components, e.g. lead and copper. Copper*i.9 washed out with 2 n HC1 and zinc with water (experimental resultb of 4 samples in table 2).A separation of -vOry an'tall quantitios of radioactive zinc froin greater quantities of copper and le'ad was carried out as well by means of the above mentioned method (Table 3), and good results were obtained.~Theauthors thank professor Yu. V. Morachevskiy for valuable advice given for the work under review. There are 1 figure, 3 tables, and 5 ref- erences, 2 of which are Soviet. SUBMITTED: October 26, 1957 Card 2/2 I Fin; Nih-0 ii PH; dim q! i:t:1 1, 1 1! i  of Lrom fiarf VT-W Witt X IT  AUTHOR: Zvereval Y.N. 32-24-4.-V67 TITLE: The Separation of Zinc and the Catiorm of. the 11. and III Aralytical Groups by the Aid of AnioniteB (Otdelenive ts:Wca 0t kationov 11 i III wali tic' heskikh grupp a powr3hohlyu =ionitov) PERIODICAL: Zavoiskaya Laboratoriya, 1958, Vo2. 2J~, Ur 4,:PP- 367-389 (USSR) ABSTRACT: Kraus and Moore (Ref already establiahtd the fact thatzina is completely absorbed on the anionite "dalleiks-111. in the pretence of 2-1 hydrochloric acid, whereas in this wee tht- cations of, them III. analytical group are absorbed in ve.-y smll quan~.ities or not. at all. Kraus, Nelson and Smith (Ref 2) point to the fact that daueks-1 does not absorb alkaline-earth jelemento , and theL B&MC VMS found by Jentzsch and Froischer (Ref 3) In the case of the anionite vofatit L-150 and calciin or magneii-im. 34-iller' and Hunter (Ref 4) a,s zell as Amin and Farah (Ref 5) used anIerlite IRA-400 in chlorc- form for the separation of zinc. Jenf zsch and Pawlik (Ref: 6) showed tbat a maximum absorption 3f zind taken place in vof&tLt L-150 in a 4_6n hyaroohiox-lc acid soluti.on. IrA a -previo-,~s vmrk Card 1/2 (Ref 7) a method of separating zinc and nickel on the anionites  The Separation of Zinc and the Gations of the.II. 32-24-4-'2/6~ and III. Analytical Groups by the Aid of Anionites FE-9,, PEK -aid TM was described. As the xe~ult o! ra number of e:F_ periment3 carried oi~t un,]Ier the aupcmisi(k~~ of Yu..V.Mor,%ohPvak1, in which the ariioniteuPE-9, 'E'DE-10 and .4 M12-1.0-P of M.4sslan origin were med, a proce,33 of analysin ~for the deterw-biatim mertioned in the title J.9 described. In a.'Oolum, (I r= 0) v.1-W the anionile EDE-10. P~ in chloreform., z4--to arA all catlo=i are ab_ sofaed from the test soltticnx contuaining rinc and the aitiona of the IL and III. group. The cations a;m then washed azt with 2r. hydrochloric acid, arA hereafter zino ixi eytracted with water. In this manner it -4:s posr.:*Ible to sepamte oe-3-ci--ims rragneaim, and other a.,Jmline-earth metalls f rom zinc in the rat-io Zn:MO-.-_1 0. 10 to 10: 1 , as well as iron, alumintim, chromdum., obba-1A, mz_lg;wnes e, and nickel -Zn:Merl:l and Zn:A1:Cr-_-1:100G0:iOCOO to 1:100C00:1000004 Zinc was determined comple--tometrisally and in the last ;ase colori- metz-1cally. Tabulated da+,a of the ~:esults Cotairied are giver..' There are 6 tables, and 7 references, I of wlil&., is Soviet. ASSOCIATION: Leningmdskly gosudarstvervW univerpitet im.A.A.Zhdanova, (Leningrad State Urivemity inieni A.A.Zhrliziov) Z 1. Zinc--Separation 2. Zinc--Abuorption Tons--Gliemical effects 4. Alkaline earth metals--Separation Card 2/2      ftL-STOLYAROV, K.P., red.; FEGER, D.P., red. izd-va; BELOGUROVA, I.A.p tekhn. red. (Use of ion exchangers in analytical ahemistry] Prime'nenie ionitov v analiticheskoi khi~ii; stenogramma. loktsii: prochitan- noi Y LDNTP na kratko-orochnom seminare po met.0dam Udmicheakogo analiza. Leningrad, Leningr. dom nauohno-tekhn. propagandy, 1963. 18 p. (KRA 16:6) (Ion exchangers) (Chemistry, Analytical)  ZVMVA, M. V. Recognition of properties through different modes of perception [with summRry In Nnglish], Vap-,Paikhol. 4 no �318?48 MY-Je 158 (MIRA 11:8). 1. Institut teorii i istorii padagogiki APH MrSR, Moskva. (PPAGEPTION)   BjDNIV)V, P. TRIMATSM S. I ZVIMVA, N. Letter to the editors. Ognsupdry 22 no.3tl39-140 157* (Refractory materials) (Nonferrous metajs--Ket~611urgr)  ZVERZVA, M.N. Role of Russian physicians in the development of.the Method of sub- cutaneous injections. Test. vener., Moskva no. 509-51, Sept-Oct 1952.~ (GIML 23:3) 1. Clinical Departmental Physician. 2. Of the Republic Skin-Vener- eological Institute RMR (Acting Director - A. A. Kotdratlyeva),  ZVEREVAS N.A.; KALININAp V.A. High temperature oil sterilizer* Med.prom, 16 no,4149 AP 162 (MIM 15: 1. Nauahno-losledovateliskiy institut eksperimentallnoy khirurgi- ches~qy apparatury i instrumentov. (STERILIZATION-EQUIPMENT AffD SUPPLIES)  kIlLIMMI, OROSHIN N. _qj As AO New method of producing 1,6-hexametkvlene-bis-(dlmethylamine). Hed.prom. 13 no.7:46-49 Jl '59. (KM 12:10) 1. Leninegradoldy nanahno-i-saledovatellskiy inWtut antibiotikov. I khimiko-farmatsevtichaskiy savod "Farmakon". (DIIGTHYLAXIIIA)  GLADILIN, A.A.; GLUKHOT, D.S.; YWHIN, LAPIN, K.W." WONOTA, A.S.; MARTYX07, U.K.; OHMM, MO.; KMALICHIKOV, ?.I.; POLYACHKIII, H.A.,red.; ASTMOV, V.P., tekbno rn4. [Economy of Penza Province-, a statiatical collectionilffarodnoe khoziaistvo Penzenskoi obloati; statisticheskii sborn1k. Penza, 1958. 190 P, (MIRA 11:11) 1. Penzennkaya oblast' . Statistiehealcoya iipravlsnijys.(f or all except Hikhallchikov an~ Antonov), ~Peaza Province-statistics)  V03KRESENSKAYAP N.T.; _ZVII.Ej' LA, Spectrochem1cal determination of gold in silicate riocks and minerals. Zhur. anal. kh:Lm. 20 no.12sl288-1298 165. JMIRA 18t12) Is f/oskovskiy gosudaretvennyy universitet imeni M.Y. Low-anosova. SuInItted May 15, 1964o  VOSKRESENSKAYA, N.T.; ZVEMA,_!L-F:l -11. _YM", A Geochemistry of copper in the Devonian and Carbonif6rouS effusives of Karkalinsk District (central Kaza'khstan). Vest.Mosk.un.Ser./+tGeol. 20 no.5:57-61 s-o 165. (MIRA Mill) 1. Kafedra geokhimii Moskovskogo gosudarstvenn6go universiteta. imp-moil! MIN 111EHI J,11111-1i, i  777777-7177-- CHISTYAKOV, A.D.; BTJRKGVA, 14.V. ORLOVA, Ye.Ml.; GIA7,OVA;, O*Rs~; FED -p D.A.; M-MiJID M.Ye.- ABRAMQVICHo KA.!j PoFdVA, T.P.; MAIVZYVI~ L.T.; BACHITRINA, A.A.; LEMMA, N,114'; PESKOV, B.Ye.; ROMOV9 VOIEVAKHAN.MO-10HUKO~ 1,G.; PETRENKO.. 1.1 IT. J.V.. P11JUS. SMETERV S.M. .11,102.AlEVA-, T.F. -MINNA,; L.,S f3E. Ll~%~YA natichn. f6d ILN4t nauctm, red.; KURGAIISKAYA V,ki,, nalachn. red.,- I-ERTSALOVAi A.N..,nauchn. red.; TOMMITA'TCH, L.V.,, nauch-~. red.; SAGATUSKM N.V... otv. red.~ ROTIKOVSKAYA, A.B., red, (Flanual o~' shor'll-range weather for,~: -3 t' ing ~'Ukowvlstvo po knit~-x:rochrjym prognozam pogoa.v, Lelling"171111, Gidro- meteol,-,dat. Pt 2. 17d.2. !965. at 1 j) 4 (~UHA 16; 1. Moscow. MentralliWy institut prognozorv.~  3/136/62/000/0()l/OOT/009 AQ51/Al26 AUIHORS. Krivunchenko, N.G.; Kolkhir, K.F.; 4vereva, N.I.j Dmitriyeva, Ye.V.; Drugovskaya, M.N., Sokolov, S.A. TITLE% The use of gas-producing resins in rubber rea:laimihS PERIODICAL: Kauchuk i rezina, no. 1, 1962, 52 - 53 TEXTt The disadvantages of dry-distillation of pine tars, for use as softeners in rubber reclaiming are non-uniformity and high cost. In the attempt to find new resins for this purpose, gas-producing ones proved to be the most successful. The Chekhov Rubber Reclaiming Plant developed the composition of a resin and a technology of rubber reclaiming, using the product of the Izhevsk Plant In 1958. This product has the following advantagesu 1) Uniformity in group composition of the softener, leading to improved physico-mochanical prop- erties of the reclaimed rubbers. 2) Reduced production cost of the reclaimed rubber. 3) Increased capacity output of the refining rollers. 4) Increased ca- pacity output of the autoclaves due to a shorter rubber devulcanization process. 5) Improved receiving and storage methods of the resin, eiliminating the use of wooden barrels. The Chekhov Recovery Plant produced 6.5 thousand tons of re- Card 1/2  SA38/6p,/boo/ooi/007/Oo9 The use of ga-c-producing resins in rubber reclaiming A051/A126 claimed rubber In 1959. In 1960, the Recovery Plant consumed 21000 tons of.res- in. There is 1 table. ASSOCIATION4 Chekhovskly regeneratnyy zavcd (Chekhov Recovery Plant) Card 2/2 t A. it F, 4~iiilt~."ILT~4?14q,~i:-,4fs~-.ikila;i~Nd. d It Vr, j U.41 11U.111T.311fill IM IMINAMMIMMUH114, if; .11 1 i;I:i jj    13 -1- 19 5 8 - Z - ZZA-9- Translation from: Refe ativ yy zhurnal, Metallurgiya,:1958, Nr 1, p 12 JUSSR) AUTHOR: Zvereva, N.P. TITLE: Synthesizing Heat-resistant Materials fCaibides, Nitrides; Borides, Silicides, and Sulfides of the Metals of Groups IV, V, and VI I - (Sintez tugoplavkikh materialov Ckarbidy, nitridy, boridy, silits,idy, sul 'fidy perekhodnykh metallov -7 PERIODICAL: V sb.: Fiz. -khim. osnovy keramiki. Moscow_ Promstroy- izdat, 1956, pp 325-348 ABSTRACT: A survey is made of the properties of superduty refractory materials with fusion temperatures of 2. 000i - 4.0,001, and of. methods of synthesizing them. The carbides possess the highest temperature range; then come the nitrides, bori~es, silicides, and sulfides. A system is described for fashioning products out of super- duty refractory materials, and data are included.on the chemical and physical properties of individual superduty refractories. The Author cites some of the characteristics of the tect-tnology of producLs niade of TiC, UN, ZrB2 Mos, , and ThS, Bibliography: 56 reierence;. S. G. Card 1/1 1. Refractory materials-Properties 2. Refractdry materials-SY;nthesis 3. Refractory materials-Temperature effects 4. Refractory materials -Characteristics  AUTHOR ZVEMVA h*F ~ TITLE in an han Sulphids. 20~-2-25/67 _ (0 sullfidakh lantana Russian) PERIODICAL Doklady Akademii Nauk SSSR9 135T9 Vol 113p Nr 29 pp 333-3349 (U.S.S.S.R.) Received 7/1957 Reviewed 8/1957 ABSTRACT, Apart from the polysulphides (L&S2) Ouly lanthanum sulph.ide L 263 : is known, of whio*nly oontradicting partioulars concerning m I- ting point and exterior appearance ara.ave,ilable. The m6nosulphi- de that can be presumed,from the analogy'vith zorium sulphid! was ,produced by the authoress from mettaio lanthanum and lanthanum ni- ng &a a-,datjrial that in highly trate. It might become interest i l heat resistant and fire-proof. irst the nitirate was chlorinated . The produced lanthanum tri-bhloride was then sul- by means of CC1 4 phorated in the current of the dry H S. The sulphonation product , 2 corresponded with 25,4% content of sulphur to the formula L&03- It formed a non-eintered, crystallIne, v4ormilion powdero'Roasting La2S tablets at 1700-18000 in a vacuum changes the ori'inil' a- oolo r into a dark grey one. Here the content of oulphus wao lower (22#37%) which pFoblably corresponds to a'solid splution of L&2S3-La3S4- When beating the L&253-tableto up to 20000 they melt and evaporate. Black crystals of hexagonal stru6ture.re- mained in a small quantity on the lid of the iessel. Thei.were Card 1/2 considered as L&2Q283. LaS is obtained by reduction of L42S3  On Lanthanum Sulphids. with mettallic lanthanum by means of "impregnation". Tft-Itirrous crucible made from lanthanum sulphide La was melted at a tempera- ture of 1250-1600 The reaction product was &,gold-coloured.mat- ter with 19,7~ content of'sulphur. The X-ray ploture of the p'ow- der with lines that only belong to the oube-phase ehowed an iso- structure with CeS. It crastallized was a granting of the;aommon salt type- 9 the m1orostructure of the LaS is two-phaset large oval yellow grains of L&S carry a light grey zone of lantharioxy sulphide on their.borders. LaS-piecea do~not malt in a vacuum at a temperature of 21000.(6 citations from publications). ASSOCIATION PRESENTED BY CHERNYAYEVq I.I.p Member of the kcadtmy,. SUBMITTED AVAILABLE Library of Congress. Card 2/2  -Z vR-v IV. Is I' -fill an  ANDREYENKOi G.V.,- ZVERffAt N.Ya. Effect of phtnyllin on the thromboplastic activity and conceAration of thrombotropinand proconvertin in the blood of white rats. Vop.med.khim.' 6 no.4:182-385 Jl-Ag 160. (141RA 14 -.3) 1.,Laboratory for tho Study of,Physiology and Biochemistry of Blood Coagulationg Biolo ical Faculiy, MOSCOW State University. WICOAGUIAWS)   ZVM,'VA, O.S. K. Holdhaus' "Traces of the Glacial period in the animal king- dom of Europe." Izv. Komi. fil. Geog. ob-va SSSR no,S.-90-92 163. (MIRA 17:6)   AUTHORs Zverevat 0. So TITLEi On the Genetic Boundary in a River Valley and its Role in Hydrobiology (0 genatichookom rubezhe vdoline reki 2yego znachenii v gidrobiologii). PERIODICAL: Doklady AN SSSR9 19579 Vol. 114, Nr 6, pp. 1311-1314 (USSR) ABSTRACTs The history of development of the dra 'inage.area of rivers during the Quaternary is not always,duly -taken into account in hydrobiological investigations. But this historical factor may in many respects determine the conditions of the,drainage area on which, in the end, the preaerit organic world;of waters depends. This kind of dependences were detarmined by the.'author in the Vychegda-river on both sides of the boundary of the first Postmaximum glaciation by a comparison of hydrobiological material (refernoes 30). The section inve stigated is ab'out 400 km long. In the point in which the above-mentioned bound- ary crosses the river (district of the villages Ust'-Kulom- -Derevyansk) the morphology of the valley. and the river bed is considerably changed. Above Uatt-Kuiom (figure 1) the valley is very wide and boggy. On the right side of the river a group of lakes, representing relies of glacier-waters, lies in the Card 1/4 bogs. Here the Vychegda is populated by a fairly well  e, On the Genetic Boundary in a River Valley and its Role in 20-114-L-6-48/54" Hydrobiology. developed plankton and manyfold benthos. Mollusks, oligo- chaetae, larvae of Tendipedidae live in the mud at the bottom. In the microbenthos nematods axe predominant.,The biomass of the benthos amounts to 1-12 9/M~~. Animal life is especially rich in the thicket of aquatic plants. In old arms of lakes the amynt of zooplankton at,tains 9.000.000 indi- viduals per 1 m water.50% of the species of mollusks and leeches known from the entire Komi regionlive here. Many waters in their nature here approach,the stage of eutropbic ponds. Below the boundary of glaciation t~e living world: changes under the influence of the hjydrographio conditions of the valley. The valley becomes narrower, the river bed becomes youngert from a predominantly accumulative valley it becomes one of erosion. The mud and the aqua 'tic vegetation disappeart at the bottom sand, gravel and in place marbles are predom- inant. For a stretch the river almost flows without anyregion of inundation. The river forms meanders through the entire width of the valley, Many tips of meanders are cut into,1he terrace of "' pine groves. Here the mineralization of the water, increased in the previously described section, de- Card 2/4 creases, ail the river is mainly dependent on surface feeding.  on the Genetic Boundary in a-River Valley and its Role in 20-114,;~0/54 Hydrobiology. The interrupted connection with the side lakes causea a reaction tending to acidity and leads to OL general d;~atrophy of the water. At the bottom mainly coarse-detritus-like peat muds are deposited..The living worlCis poor here..In the plankton diatoms and dasmids as well;,as rotifers are pre- dominant. In the benthos - small laxvae of Tandipedidaep oligochaetae and nematoda. The benthoe-biomass amounts to fractions of a gram per 1 m2. The.old arms are chiefly in- habited by river species. Centers of higher biological pro- ductivity may-form in some places due to the accumulation of organic detritus. The chief factora;inhibiting the,deve,lopment of life here are the processes of erosion and accumulation, whereby the river bad is constantly 4isplaced. But tho'changed chemism, especially the disturbed:mineral nutritiont remains the decisive factor. The region of the Vychegda became'un- saturated in its stand of species after the withdraiwal~of the Scandinavian glacier in the region.:of its deposits~ whereas the stand of species above the glacier-boundary is sufficiently manyfold. The wide part above Ust'~Kulom may be considered-a peculiAr.region of refuge in which many faunal elements of the Card 3/4 inteiglacial period were preserveL It is.true that from here  On the Genetic Boundary in a River Valley and its eole in 20-11-4-6-48/,54 Hydrobiology. many species also.spread farther down the river, but.there they occur in other numerical relations and excl usively in- habit the waters of the region of inundation. There are 1 figure.and 4 references, 3 of which are Slavic. ASSOCIATION: Komi Branch of the AS USSR (Komi-filial Akademii -nauk SS SR). PRESENTED: March 19, 1957, by Ye. N.. Pavlovskiyp Member of the~Acadepw. SUBMITTED: March -6, 1957 Card 4/4  USSR / Gonoral Bioloc5y*' Gonoral HydrobioloGy. Abg Jour Rof Zhur Biol,, No 19, 1958v iTo 85694 Author zVorciva Inst Yo-' '* '~4ivon Titlo Tho Gonatic Boundary in tho Rivor Volloy and Ito Si-nificanoo In Hydrobio,loGy, U. Orig Pub Dolil. AN SSSRj 1957) 114, No. 61 1311-1314. Abstract Fro:1 1939-1950 a hydrobioloL'rical:~ study was con- ductod in tho VychoCsda Rivor. anal, tho rocorvoirs of Ito rivor valloy on a 806tor ono portloh or which flows throuOili tho torritory of tho first Poatnaximal glaciation, tho ~ othor bolnG situatod hi,3hor in tho rivcr bod boypnd tho limits of dopoolta from, tho Gilaoiation, BOth soctorst Gonotically difforont, Pro alloarly distinsuishod In mcrpholoGy, hydrobiology, and hydrochonistry, Card 1/2  ZMEVA O*S. .New larval form of Tendipedidae (Diptera) from the Pechora River. Int.obos-36 no.1:231-232 157, (MLHA 10:4) 1. Komi filial Adademil nauk SSSR, Syktyvkar. (Pechora River-Chironomiaae) (Lexvae.)   V ZV.l- Kildedli icon  mum, 00- S.  L as of arvae of T6ndipedidas (Chironomidas) of plains rivers of the guropean part of northern U.S.S.R. Trudy Gldrdblol.O-ya 5:264-274 1~3. (KLRL 70) 1. Komi filial Akadexii uauk SSSR. (Diptera) Maryan)  mp P"a 0. S GETSER, M.V,; IZ"YUROVA, V.K. 8yatem or relic lakon lit tho Dokl. AN SSSR 155 no. 3:677-679 kr 164. (MIRA 170) 1. Predstavleno akademikom Te.N.Pavlovskim.  USSR/General and Specialized Zoology - Insects. P. Abs Jour : Ref Zhur - Biol,, No 6, 1958, 35142 Author : Zvereva, O.S. Inst : Title : A New Form of Tendipedidao (Diptera) Larval from the Itchora River. Orig Pub Entomol, obozreniye, 1957, 36, No 1, 231-232, Abstract A New species of larva kanevi of Genus Tendipedidae, was described, Card.1/1   jjo2jhjX LUI 2L P31gilga Agcggai2DA, Llbrar7 of Oom&e~s, Dedgmter 19524i' Uncliessif iod. ~ !i : : - t : - , :  SEKOLTAR, T.T.; ZVIRMVA 3 A Late results of dental fillings. Stomatologii& no-613-7 11-D '54. (KLRA 8-1) 1. ris kafedry terapevtIcheekoy stocatologil LeningriAnkago meditsinskogo stonatologicheakogo instituta. (INTAYS follow up)  34504 S/169/62/000/002/042/072 D228/D301: AUTHOR: Zverevil.... S__V_. TITLE: Atmospheric transparency in the Arctic PERIODICAL: Referativnyy zhurnal, Geofizika, no, 2, 1962, 29, ab.- stract 2B225 (Tr. Arkt. I Antarkt. n.-i. in-ta, 229, 1961, 90-116) TEXT: The atmosphere's transparency was ddt ermined from the data of direct solar radiation measurements at eight polar statione, lo- cated cn the territory from 69 to 800N and from 53 to 1790B an*d having the longest series of observations (from 5 to 17 years), and also from the data of drift-station observations. Many ofthe direct solar radiation observations, made at different ele-vations of the sung were processed by the graphical method of averaging. The resulting mean-monthly values of the atmosph,eric transparency coefficients are highest (0.816) In the winter months and lowest (0.783) in the summer months, The yearly variation of the transpa- rency for Arctic stations is analogous to that for more southerly Card 1/3  B/16,9/62/000/002/042/072 Atmospheric transparency D228/D302 stations (Pavlovsk, Saratov, Karadag). The small range of the transparency coefficient's yearly variation at Arctic stations in comparison.with those outside the Arctic is explained both by the decreased amplitude of the yearly variation of the water-vapor content at the arctic stations and by the influence of condensa- tional turbidity on the transparency coefficient. At the drifting stations the transparency coefficients are somewhat smaller th,~,q those at the polar stations (0.762 - 0.800).,No dependence of,the atmospheric transparency on the geographic position of the;oboer- vation point is observed in the cold half of the year; this rela- tionship does occur in the warm half of the year, The transparency increases with the increase of latitude to approximately 800H, but it somewhat decreases in the area of drifting stations. A certain decrease in the mean-yearly values of the transparency coefficient in an esterly direction to noted in the zonal distributionjor Ar,,,-. tic stations. The average value of the maximum transparency coef- ficients at polar stations equals 0.830. As the mean transparency coefficients obtained for a number of Arctip, stations differ little between themselves, it is possible to use them for the characteri- Card 2/3  B/169/62/000/002/042/072 Atmospheric transparency o4a D228/D301 stic of the average atmospheric transparency in different areas of the Arctic. Z-Abetracterle.note: Complete translation.-7 Card 3/3     II.UTHOR: TITLE Zvereva, S. V..... New integral atmospheric S/169/62/000/006/062/0931 D228/D-304 eri ajC 8 tiransparency charact '2141'IRIODICAL: Roferativnyy zhurnal, Geofizika~ no. 6, 1962, 27, ab- stract 6B191 (V sb.,Aktinometriya.i atmosfern. optika, L., G-Ldroneteoizdat, 1961, 168-171) T--,'XT: A comparison is made of various new integ gral atmospheric- transparency characterislUics: The limiting transparency C;efficient.a 'Grooosed by Gullnitskiy (RZhGeofiz, no. 8, 19581 5847) and S. III., il..~zik (Me r, toorol. i gidroligiya, inf sb. no. 5 1948) and Makhot- kill's turbidity index (RZhGeofiz, no. 12, 1957: 10445~ with the standard transparency coefficient, turbidity factor and C coeffi- cient in Kastrov's formula. The comparison was made in two direc- u -L tions: 1) kccordin-rt, to z1he stability of each quantity's numerical values when the atmosphere's mass changes, and the transparency is fixed; 2) according to the range over which each of the transparency -characteristics varies. The solar-radiation intensity averages, at' Card 1.12  3/169/62/000/000'-1/062/093 i~ew in-wural atmospheric ... D228/ '304 th,e time of different masses and a variable degree'of atmospheric transparency were used in zhe calculation, these values being ob- ta-Lsned from the observations of Kalitin and Sivkov. KastrovIi; C'co- and Mla'.Khotkinls turbidity index, and-then the turbidity factor, are the most. sensitive to atmospheric 'trans .parency changes; they are als,o the most stable in respect al' 'the change in the atmo- spherelz mass. The limiting transparency coefficients have no ad- o vantages whatsoever over the other characteristics under condidera- tilon. ~_Abstracterls note: Complete translation. Gard 2/2  M*vu MAI %v UP00,41 UPI 'a antlif fit ...-a 1~v c-ptirs 4- f. re"t.1f% hy4Vtpn, A. %filtdolkill ALful V. Zvt,re _~~~jjdjp 1. ZI 4 imie & %lict le- diletion (if the pir"tioll of CO ill viptnt hysluvirliallots by niuvrrskin act-ovditis to that efloatlott CO + HlO oletluxt willito OR X-1104 the M -00 Its, The mutrits of thr r4s 14) 0.5"' .. The ps is ffitsitillatimashr 00 roliched in li,. at .hown h3p the ah&" *quasion. whkh -49 diff"vittlAtm~ this incilmd ffinn vmw of th* otber mclhol,; 04 c .00 of mimnenition. The "Pti-4161n im cuffifril frAll In pirierato .40 Oe J. '4 the estalylol .411'sit oil difficully Awl call Ifq effit'-sird lift 0 mu lly ld"Wills sit, Tho CIA ithporlwAt Ill 1041kat alkali awl the varbormte Imiud Uwd ((it famp making. 00 00 A. Papittraii-Couture r** 43 IS al Is to bed bo 0 1010 1 00 " V. rp fill I If 0 0 0 0 0 00 0 00 0 0 09  rk FIT lied goo, 4 sm!~Imtwfwl 00. If is -ii~Wasi wkb a VA go* 00,3 ne~ WA 004 000 '00 coo goo All-ILA SITALLMICAL W11616114 CLAIWOCAM" tfoo too SN"44 "40 04V off OAt I(M 0 AT IN of 9f o d"a 000000000000 1100000 O*oooooodj*000000000660 e -0 0 0 0 0.6 40-010 6 49 0-4 0to *,o:WO 40 00 a 0 4D W 41 ~o *   L1111-17VIG., Yo R. it. A Z1,1101A T.M,, CA'e M' -, I-ELMEV S.S. Polv-merization of tetrahydroftirml ATI the y)rn,,,onr~ of antlvno~y rentachlorlde and it.9 commpo=18. Vyookom. roud. 17 k1c).Q.,269-2174, F 165. ("Alrd, Vi:3) 1. Fiziko-khimicheskiy institut imorli i Donetskiy filial instituta khimicheskildi reektivcv I onobc c"histykh veahchestv.   LONGINOV# M.F.; ZVEREVA, V.A. Preparation of thin plates for the studfof metals by meano'of 4 trausmission electron microscope. Zav.!~b. 21 no.5:559-561 161. (MIRA:14:5) 1. Chelyabinskly nauchno-issledovatellskiy~inati,tut metallurgii. (Metallography) (zlectron microscopy)  2h 358 3/032/61/027/005/004/017 5~S !) 0 B 11 9/B2 15. AUTHORS: Longinov, M. F. and Zvereva, V. Ad TITLE: Manufacture of thin foils for the e~.amination of metals under a transmission electron microscope, PERIODICAL: Zavodskaya laboratoriya, v. 27, no. la6l, 559-561 5, TEXT: The authors have elaborated a new method of~manufacturing very thin metal foils (thickness: 100 to 200 A) in which the structure of the mas- sive initial sample is preserved. The foil is gradually reduced by'alec- trolysis. During this process a layer of foreign metal is applied to one side of the fail to ensure a constant and uniform current density'on the surface of the foil and, thus, eliminate orrore caused by,irtegular reduc- tion. The method was applied to carbon, structural, stainlesso and tranfl- former steels. The foils obtained were examined under tbe)[1-3 (EM-3) electron microscope. The foil is prepared as follows:A4C~20X? aim piece of the metal to be studied is mechanically or chemically reducea to a thickness of 0.20 to 0.15 mm and then further reduced to 0.05 to 0.03 mm by electro- Card 1/2  2hl S/03Y61/05287/005/004/017 Manufacture of thin ... B119 B215 lytic polishing (for steels: an acetic acid chromium electrolyte is used at 1.5 to 2-5 A). After washing in water and dryingt one'side of the fo il isceated with a foreign metal by electrolysis or vacuum evaporationo When choosing the metal, one has to consider thatthe latter can be chemically removed without damaging the foil. For chromium anUchromium-nickel:.steels, the authors used zinc or copper. A zinc layer has to be protected against dissolution in the electrolyte by a thin paraffin layer. Under the,abovo condit-ions the foil is then electrolytically reducea, on the bare side un- til the foreign metal appears. For removing zinc a hot aqueous NaOH~solu- tion is used, and for copper an aqueous or alcoholic JINO solution.2here are 3 figures and 5 references: 4 Soviet-bloc and I non-Soviet-bloo. ASSOCIATION: Chelyabinskiy nauchno-issledovatellskiy institut metallurgii (Chelyabinsk Scientific Research Institute of Metallurgy)  ZVEREVA, Y.A.;.NIKOLISKIY, Yu.V., inzh.; SAYTANID1, L.D., teldm.red, (Improvement of swamps and-mineral swampy soils; bibliography] Meliorateiia bolot i minerallnykh zabolocheinnykh zemell; biblio- graficheskii ukazatell. Koakva. Izd-vo 14-vn sell.khoz.RSFSR* ~ Pt.l. 1959. 1)0 p. Pt.2. 1959. 155 p, (HIRA~12:12) 1. Moscow. Gosudarstvannaya Inauchnnys bibliotaka. 2, Gosudarst- vemuiya nauchnaya biblioteka (for Zvereva). ). Respublikenskiy . gosudarstvennyy institut po proyektirovaniyu vodnkhozyaystvennogo i meliorativnogo stroitelistva 1'Rosg1provoakhoz*,(.for Nikollakly). (Bibliography-Drainago) (Bibliograpby-Swamps)  v a 0 a! At 0 0 0 0 0 f I! O~p "t 0out Ml AND 06(ittefle k iNt's A a Ad~jdv ot MaMn s* abolof 4 in Imeld7 of 10441&l .00 00 9 It P. K. O"ke &A '.Ttzvemo, tart jkayil -00 4 7IN-VOMAI.-Aq t4m%%tkjjjW I -of LiNs'Uhtilintil rXI 11141h' 00 too 00 woo 00 age I age S L A, attALLOCKAL Lif(ROUIRC CLASSIMOKM 00 se u u 0 AT 0 Of If It 0 a K At a R If K a It It N "A A e is 0 0 * 0 0 0 0 0 00 40 41 0 AN 0,41# 0 Q. 0 0 0; 00 g S 0 g, :*. AP N 0 0 0 0 000000.00 000 Is 0;1 0 919 900 0 Is 0 0 A  M ha IID 440 Oit clofps 044 -.1 - - ma . ; . " 04"WAI A0 POMAM~ lb"I - ----- ---- sea,, 0404 .00 No* 0*9 -00 goo see 00,3 oov Coo goo silo glee goo goo goo moo toot A "IALLUftCAL UltsAvult CLAtWKATO= goo %ado 011AII&VA '114M wwaftl -4 1414M WSP 047 0419 41mmic"I P.- 914 r Ir a ; a $1 ; it I w IN 0 0 0 0 0 0 0 0 0 0 0 a 0 0 0 0 0 0 Q 0 0 O's 0 0 0 0 0 e,o 0 0 0 0 0 01-1'~ 2 ~0.2 . 0 a 0 * 0 0 ioio o a o 6 o 911HOOMMIRMN"91, I Its Rim No  so's H MS U*M " ( " W 00 O 00 W IL.# C Tilihint-11mv JF&OS Mtuft W14ye "d dap M G ' . . . 57 - ,dsha arml V 2-5 P Zvmv Zdr u Ub 10 l VI I J 0* . . . . , . ,*, . ( y * ti7- 1- l1 hi F F AJ . an zp r. Vay coot t. w lc rast e. . 11g, lkwakirnin. and Mg &W Al atknm for the detts. td the ompm. of the ructal by strutlyzing the gas libecatLql im dhmAvivsltbemtt&lin&6l. The vwdKxl isesikvingy suit - al-Ar for Al allap. The tnrt*Uk- Inclaskx" in %Us,% mar tltttl. nUNI! MCVUMtClY by the %"MIWttk- UWI)kUl than e by thr stfavimetric mrtimal. W. R. litins -00 o 0 d see d0.@ 0013 coo zoo oov 00 see 9 00 coo 400 Noe NOO I I - I L A NCTALLUNWAL L171NATVgt CILASIVICATICIN Item 61"1111TO XT -1 iiial') 1411 Inv 404 i 4141al at 4o-- Isk 0 Ir 11 v 6 0 4 u to it 0 911 ' lls W 00 0 a 0 d 0 0 0 0 0 e 0 o 0 0-0 0 0 0.0 ' ~ 0 0 a 00 0 o 0 0 I # 0 0 0 0 00 0 0 00 0 0 0 0  -03-1 foist lot 11 4.1_i. I. i A- N AA N. A A .1 -A/ 00 .00 0414MI1 AND ORG1`9*1111, -f- 0 a fit, 0 o: C 0 Ntenmijitittion of ibe comilibillty 91 MvW 011114ced with ho"ot. M. G. I'Allultmev dild Ir, "Aw4l'u.. so -J). , -90 zaml lid b1b. 7. 0-,WA;hlWsI- lilt- tilt It-filplill 11 X.1 JIJCWJ, gAllrdlitictl 1100, At. 16 li, /it. N1 'IWI ,julinlCM Nj ptcel w",jold. J,V j-%j.,.mA twilh aimi Im,fiNlad 00 1 lHatrs (fk-10 sqjcm.) in vsked lebt tillots 10 111C Ilklitill "I 'Y-* ud of OAX)t N I in KI, I-111vue -J tllc,~dl I.Alillt asill I hil skilli. of I limit Ill ill.- lki"114,11 ii 141111'. ru; all min. the Ilevevul Coll-libility alml l(w 1,14ttil lilt [at-, (tic AICKf', oo a this test (mily Ille.311rial stulaix all-I 11-11 [lit- =00 oxidesink-t vrith the r.mMent. of *0 v lack- tilratilin with Na'SIO, 0 ill Kj) 4 vi'lirmirl- -%fly j I ill loctlicile or al,,I, Omk-:~ lilille 41111 cgs SOIC43 -4# CkV UNC it AT to is' r to Cr to 9 a It 9 it a It It Of KM n I !1LI1 00 If 0 a 0 C 0 a aa a a* eatilil io 0 4 0 at  S-7, 0 OF f 6id sA .I&I-LI14, 0-00 SL G. Tikhmonev dVP IkF, -IC N a. 140., .04D A""Id; V. Also. 19446 A IM) a" StA voto made an To gmy CdA Ff. WhAe 0"4 FS.IR -00 itsd At taid Al allisim (cw th; dewntboAloo of OA mmooldtfi* 41 by the Post llb~mL*d cm dhwAvbTg the moW In aed& Mw meom w 4mpmally owtablo as& for Al alk7so. The moWlbs Loduaiam to &M 40kvminml nxwemmurstdy 8*0 by tho psomMvi wwOwd d" tT T',Met* mow. 0* j coo OOv eta* so Sof see It a 04 a 11 Is Is 0 oto 0 3 u --a a 1 0 0 10 4i a 0 ip a a 00 0 4 a 0 0 0, lo~ 0 a fb ise 0 Ooq a 0 0 o 10 a-*- d) 00  J.P.,kandidat tekhnichaskikh nauk. Technique for determining the composition of protective oiide~ films resulting from electrochemical oxiae c6atir4 of steelvarei .Trudy MVTU n0-36:62-66 '55. (HLRA 9-9) (Oxidation, Slactrolytic)     z V-P,A V ',~rke, FleGtroplat.,ni and Metal Finishine CLI E!;y V. Sept. 1948, p. 591-592; Oct. 1948, p. 667-B68, 674. ranslated from Zavodskaya   NINDLATEV, V.G.; Ye.T.; ZIMINA, K.I.; POPOVAp memo ~500 Isolation of individual normal paraffin hydrocarbons from the, 200-3 fraction an obtained from Romashkin Devonian petroleum. Khim.i~tekh. tol-no-3:11-17 Mr 156. (MMA 9:9). (Hydrocarbons)  Let's prsi~re for tba.40th-emmyormary, of the Great October Ao'clallst Revolution In the proper mnner. Blot. agitl~ vod. transp, no,6:3p.44 (ML~A- 10:4) 1. Agitator teplokhoda Oftrkmeuistan" raspiyokogo parokhodstva. (Merchant warina')  z YER'Ev V, YA. 11/5 2 3 05 Artilleriy.--kaya insbriurental Maja Ra,.,vedka', Uchebnik Dlya' Ai-t~lloriyskAl%h'bcl,-~i.lishcl,. (Artillery Reconnaisnace I ry) D.A PeIrgin, V. VA. ZU.1-W I V. IN. DA"IMN Yo.-.qkva, Voyenizdat, 1956. h83 p. illus., Dit,.C-rs.., Tables. Bibliography: P. h78.  lyl, ~ vi = .V. Yu. T. ----------- "Ohat the eagineer and repAIrman, chould read on boiler repair. F,nergetik no.6:40 Je 05?. 10:7) (I$ibliography-.Doilerfl-.':ointennn,.,o and.repair)  " 14 1 -1-L Al -1 1~ . 1 . . . .. . ...... 1 I i 14 ( d 1 N h L w 1 . M 41 , c .111A. ao Aft6 0 N.-Ii"4VvirvV ,f " UPI, 1940, NO, 4, W-.104(WWAS 004 enth-brill illoi anslythill; NJ 483, Ca 1.72 Pa 14.76, Cie Ll~'Nlive C.) m v " 10W 5 JAM% f m d 00 a to w a . A e . suirkk ores, wtiv avoluctud as 130 X M x IQ 1"al., clAmwitia Is 1,41%Ktimming for the Ions W.. is"atich as the PC In the t"anAyte Is in the (orin u( Fe" I and ao 008 i ruclowillaacaurastwit.betm twoClocatlimmleali digassm batureen thit NO late., ia ulass container of I A I., * Ill ("u"'l; ill the awAlt lAxt"ILds (I'"Ka O'd W. at ItX) anip./vill .11,.awl 40' to 0.11 V. at SW wop./sqw, 0 HAM 150 a-A. tkctro&-% mm. Initial clectsuirte Temp. 40* miad W% c.d. 100. IV. and 230 amp./sq. m, (moln't the mat'l-riskmirl tizillatim of F# , ht t k 4 l b d j 1 1 t th h 1 0 The cathodic- cunvnt efficiency. 1,. Wen to deost" 4 1 ,viel m a o mv. 00 0" a e rM e 1 r y rf g three ist"TVubld.'a 44 Oat ilik-&uOtle. Thi:Codi~Av;j Win) cuffirril expentled oo aniatm oW#.# *~ w1lat ool of Cit. at thr all(utr 14 ahnimi entilvir &JI.Wated an Ili* visthodc i~; sea NJ Ve and Cu. s to The ilirlim of evitactite l it !r#, At lirio t limit I adl. ~ Wimin, h% I hill wilftrolytv. rIW lllut 1410. ' o tilut Al d the I m 1 4h W It I t l o4a 406, tl~fistkin of CkVUvlys* IV4.3amp,-Wv,*a4 withcab. 1. 41 c% " i . as " o u e w . ( sn r, cvaai.tq 44 O-fal sulthlef and tiorso clefuestary 8 (Itul 5 00u IW. 111s). 2&) amp./sq.m., % Is Mill 5 80 10 lfi MAIO so 60 23- ~ii 16i 73 1 W, Iii 110400. Alitir woovol of illettinva S. The alwir too br 001 - . K. 4. . . V't X1 65' waW (Ifte cd *I ; s'. ' 7.74 o Is mp. v "-wiled all utift (0 tnelali Ili the %an* way an the Initial . . . ft7l.w SD-3D.74.I21j' ., , t . . Rud. Withil lls~t Willi, still %voilt bliflo-te.d.,lioth %and V 4110S r I Av ILIM 90 1101 90-V%/ 14 as Woo $IV" & the 1. "till Cu kni"W, cousestuoijily, Itual 009 1' , . , . on the distribution of the =ttm u of tb. malidle I-- 1 he Im-lot ill v*w 44 elito. it( NJ *till Co find o(clita. anti twce. the gullce and the Will "-j;rSM all - T' the slud e h M NJ C A delmmilkin of Co. ii Is advi*14c to fA.-* of kkbcr tel= hi.-hrr CA. fre" though file VIXI'llifliption of ewny . V . I e .. a g nip./sit.m., t . I,. artrifuirfel M.&WIs with lenip. anti with r4z, at :30 amp./sqm., Otto. 14 NI and Co nil" seem LUG at Inv 13.0. 04.11%. r" a I Aniv./stion. The rlccln4v4s ftn be prulne4lM file 7-A N' Il t"liv " j h i un r ,put art " t ion 0 rod a 0 0 ill ill 9 ii 1-6 ~Voc~ it Is Fe it Is to Is of 0 If 0 it ill it is Ku i i I a F 3 00 0001 is 0 0 00 0 0 0 0 0 0 1111 0 0 0 0 0 0 W4111 41 0 0 0 0 0 * 0 40 0 0 6 oj 0 0 0 0 0~0 0 0 0 0 0 so 40 00 0 .0 0 0~ 0 Ole 0 0 0 0 is 0 0 0 0 0.00 0 001 11 . 44 .00 -00 so* as* P v00 noo 090 so* too 0 ttoo  OL, PO/O h4, 7 J`4 of. lij~old-61, he Tu r ot pWA& 14 t P~Mob (in 601100 011 :44 -"'W vkM;Axfa Ou of w ce; dy tuibulorive 'materfat t 89." '000 a, e': -In thia.oaa oV'o, 1.94itrAc.. field* PP= t T~11)4~.;i* lb~ted:,t e4v~4"*e Git riliatiOn 'glass plate* dh-:hqm' 'I wd in X n veaw~ij 4nd,if bAb~':~f tie114 - th- M , Twei Is, kind lone' of direc ior rd:I  Li cv~ 1, . 1. . .. 1 . , I 1 ~ . - . , . - Bob CI/M i 1003 41M 4 60 w f !s Oard  ------------ 0 a OM Com- o, Mail; "V= IV. cc 0-fizIlowing factors at studkil: time of CrW!nC: revolutions per mite., water added as % of Val, o( mill; solkis added as % mill Val.; ooW:Uquid ratio, const. d. pulp in will " % of total Vol,;- Val. occupied by balls as % of total Va.; OW Chamcferilt" "( frni; max. diattis. of f4Wd; aw. diam. of feed. sire charuc- terk%tk-o of txdl mixt.: mix. dians. of halls; and diam. of balts ifunifuminsite 7'bem&z.dlxm.o(1hegmndpm1uctw" affrcied by any of The v"bles but the iladisttibulliou wai harder to change. The SW distribution war. Affected only by the vol. of water in the mill. amt. of balls, and the site cbaracteriatirs of The halls.. hi. jlowh  -A i 0 a see I I N IM,764.-Cum It" 191" MOM We 0 00 11b 00 diMMUMI thOOM IY VkW 14 491 W & fbe Wilti d C w W 4 W ** O 4muio ma _M OM 60 w "g 44 k4atkn 1w tempo Nd of the see , . ims cou uumm The (at W am w to be w4d Mdtod Sea We 0 Too use A S 0 - S LMULLONX&L IntROWIt CLAUWCAT tro 4 141440 "it of* ate 049 w 0 i JU ve a go x - O w a WA a A .6 1 .6 Q.G ~%: w de 4 -1 9. MCI. 0 so 0 we 0 0 0 40 ~s 0160 a lei a0 04.0 s, 0 a a a 0 0-0 W41-00, IN -tall lei 6 0 a- a 0 0. 4):  see 0, 'I IW NOAU040tit UKthW of W6VW (d by Othwir KwdK*,;TK" 111 !to be uft lit too #90 . 406 too *of gee AJLY 'coo L L, a - -IL A '"A" set" - slow IT"Oll- E UK III s 4" 4tv p ta M&P mv l d, Is aIt ; ig 4 4i 9: I me 0 0 e a * 0 0 0 0 : 0 :~i at 6 0 41 , , , ! 0 0 0, 0 ::.o0 6 G Is0 0 4-41 0 All at901644,6 0 0 0.01 0 0 OV 0 * a 6 open! 01"  ::~ V I-- ~ I I I . - I ZORMSHCHIKOV, P.A., prof.; OBRAZTSOV, V.L*, assintent; ZVURNVA, M.Li assisteat. Results of vitaminizing pregnant cows and newborn,calves on the OTrinaateat' let oktiabriam Collective Farm. Zhivotnovodetvo 19 no.12-68-70 D 157. (MIRA 10:12) l.Troitakiy sooveterinarn inatitut, (Calvels (Vitamins)  15-757-4,-4276 Translation from: Referativnyy zhurnal, Geologiya, 1957 Nr 4ffl~ p 33 (USSR) AUTHOR: Zverevap 0# so TITLE: Hydrographic Features of the Komi ASSR, and Their Relation to its Quaternary History (Nek otoryye.osoben- nosti gidrograficheskoy seti territoril Komi ASSR,v svyazi s yeye chetvartichnoy is~oriyey) PERIODICAL: Izv. Komi fil. Vses. georg. o-va, 1955, Nr 3, pp 11-16 APSTRACT: Bibliographic entry Card 1/1  ' VE, E VA) 7. /7, OOA IrO=B b1fdOG. M. sea It. No. 3, ",0q4 bAVO I"k kIM WidWJ rQ4 04 00 too 00- t00 q*0 are* "4141 p i L! si wo tOWA o0oxiv I14"s 11" #0 libs oft* As 4" ---Ii T 04 4 0 0 40,00* 0 0 Ole 00 Oe 13 I: :!:: : :  **A Ila fog Vaiodwixft and T. A. bmirs. 1(dasonlayd f. 0 proo Kkia. Refimt. U04 86 41 -rm Cofficass of Oamis 0 In . spimfirb, comMateri &It* bwas find peat Wait &r4di JW- off cot4ing to riftmst*~-Dukiu.] The laswis of vitamin C did 8 0 not tweed 6-19% an wubi"~Obv veviLbIM with lintru : d li h : an coo tte t em wills sk. he losses, reached Zt-13% 411 an coollft Then faith finster.i The Won" ofvilaosin C vm 44111 :0 1-28% oft keephalt the *v4"ables.ba tlw frostu 111111W. Vetleftblefirmactowco"I wall 42,70 N&C1 u4s.;kvit :100 vm little of the* -41simin, C context. The losses *m 144-M-41% lifter,dtfroming and 7-M.1% after lallflat off the defrosted Frown vegetables kom Itar 600 levesal moviths prasseevvid tha, altpearanesp, taste ww:twl- ! sistenty of (ItA To 1 l abk d f 0 4p ~111111 o " Con up aint 4. o 4 w vitamin C . W. ft. 11*11ti .00 Age-ILA MITALL~AL old* -Mial l" Too Wage @s a"T GO a a To 'I at 's a as 46 0 0 60 41 006 0 60 0 Ol 0 0 0 0 Is 0 41) 0. s o 0 000 0 0 1111111 0141 # 00 0: 4111~0 0-0 0 0 0 0-0 0-0 0- 9-0  USSR/Chemical Technology. Chemical Products and Their Application Food Industry, 1-28 Abst Journal; Referat Zhur - Khimiya, No 21 1957, 6585 Author: Zvereva, T. A. Institution: None Title: Study of the Suitability of Canker-Resistarit Varieties of Potatoes for Drying Original Publication: Sad i ogorod, 1953, No 91 55-56 Abstract: No abstract  BCROWLINA, F.Z. WLOBATBVA, L*G,; ZVMWA, T,A* Determination, of photosynthesis under f iald conditions. Trtdy Inst. fiziol.rast. 10:250-256 155. A,: 9) 1. Kaf edra f lziologli rastenly HoskDvakogo goirAmrstvannogo univervitata imeni M.V. Lomonosova. (Photosynthesis)  ZVEREVA, T.A.; TEPPER. R.Ya.; OGN.",A, R.I. Preparing potatoes for drying. Kona. I ov. from. 13 no.4: 13,14 Ap 158, (HIM ll:'4) 1. TSentralInaya proizvodetvennoya laboratoriya pri Moskovskom 2avode pishchevykh konteentratov lfo.L (Potatoes--Drying)  xAZImIRSKIY, Ta.M., starshiy nauchnyy ootrudaik; ZVEREVA, T.A,', starshik nav,chnyy sotrudnlk; GRANOVSUTA, R.Ta. , mUdisfil-7 -natibEi~yy sotrWnik; FrATIGORSKATA, T.Is, starehiy nauchny7 eotrudnik Tachnical and economic offectivonoso of the stonm-beAting, and., mechanical methoda of preparing potatoeo for #ying.: Trudy VMXKOP no.9:26-52 t59. (MIRA 14-I)i (Pbtatoes-Rrying)  i SOURCE: Ref. eh. Elektronlka I yeye primeneniyer Abs. 8A85 AUTHOR: Aleksand-vov, L. M.1 Mironoy, 9. M.1 Zvereva, T. 114 TITLE-. Investigation of tungsten rearystalUzation U quick eteotria heating CITED SOURCE: Uch. zap. KbrdovsA un-t, vypo 56, 1964, 5~-,57 TOPIC TAGS: tungsten filament, tungsten, metal recrystallftAtio#, tainsile atr6r4;th, annealing TRANSLATION: Prior to annealing, the speciMns were aleaAdd by boiling in a 205~ solution of HaOH for 10 recrystallization process was studied by the variation of the ultimatns;x Pth at room temperature with the annealing temperature 6 S termined on a FUE:9 iestin and time.The ultimat -tre t as de _5~tensjle Mach 0. v') For an annealing time of ',kO adLn, the final Fi~u-ii~-was TCj and for 200 sea, 16DOC. Pmm the aboTe data, about i45OC; for 10 min, almost 15, a curve of pr imary-recrystalliration--acMIat Ion time vs. amneal3M, temperature roras plotted. A metallographia method corroborated Ute fact that the, rec*stallisatlon goes quicker with higher rates of heating. Bib 4.  ZVEREVA, T.S. Foms of clayey fomations and'highly dispenod mJjierals in turf-carbonaceous soils. Pochvovedenie no.11a,U-" 11 164 (MA 18:1)    ZVEMVA M. if. Sipara-tion of zinc from cntions of nnnlYtic groups 11 Pnd III Using anionites. *Ilav.lnb. 24 no.4:387-389 '58. (MIRA 11:4) 1. Loningrndakiy gooWnretvanny'y universitat im, A.A;* Zhdnnovn. (Anions) (Zinc-Annlysta)  MORACHIVSKIY. YuiV.: ZVMVA. M.N.; KUZMCTSOVA, A.Ab~ Separating phosphate-ion from certain cations by means of anion-exchanging substances. Zavalab. 22 no#10:1170-1171 '56. (MLU 10:5) Lleningradskijr gosudarstvannyy universitet4 (.Ions) (Phosphates)  XORACIWSKIT, Yu.V.; ZVEUVAO M.N.; ROINOVICH, R.Sh. Now Separation of lead from barium 'by means of anion-cichanging sub- stances. Zav.lab. 22 no-5:541-543 036. (XLRL 0:8Y 1. Leningradskly goffudaretvannyy universitat.: (Anions) (Barium) (Lead)  AUTHORS: Zvereva, Lf. N., Shibarov, V. N. 307/54- 59- t:-21- /25 TITLE: Separation of Zinc, Lead, and Copper:on an.Anion Exchange Resin (Razdeleniye tainka, svintsa i medi na anionite) PERIODICAL: Vestnik Leningradskogo universiteta. Seriya fiziki i khi'-~Iii' 1959, Nr 1, pp 145-148 (USSR) ABSTRICT: It was the aim of this paper to find the conditions of the separation of zinc from copper and lead by,means of the ion ex- change method. Similar separations with different ion,exohangere from the papers (Refs 1-5) are given. The.ion exchangers of the type EDE-10, PE-9, and EDE-10-11P" viere used for the separation of zinc from lead and copper. In a preliminary investigation it was found that the ion exchangers EDE'10-11P" and PE-q~are better suited for the separation. The quantitative Bepara-clon of. copper, zinc, and lead was carried out as folloyrS.i ' 30 - 50 MI* Solution was caused to flow through the Cl" ion exchanger, copper~vas found partly in the filtrate., The residue wh:Lch remained in the column was washed out with 80 ml 2 n MCI. Thp zinc was) then washed out with 150 ml 0. 3 n HC1, and:; the lead which trao clef t in the column was washed out with 200 ml water. The experimental Card 1/2 results are given in table 11. The method is simpler if there are.  007/54-59-1-27/25 Separation of Zinc, Lead, and Copper an an Anion Er~hang~- Resin only 2 components, e.g. lead and copper. Copper*i.9 washed out with 2 n HC1 and zinc with water (experimental resultb of 4 samples in table 2).A separation of -vOry an'tall quantitios of radioactive zinc froin greater quantities of copper and le'ad was carried out as well by means of the above mentioned method (Table 3), and good results were obtained.~Theauthors thank professor Yu. V. Morachevskiy for valuable advice given for the work under review. There are 1 figure, 3 tables, and 5 ref- erences, 2 of which are Soviet. SUBMITTED: October 26, 1957 Card 2/2 I Fin; Nih-0 ii PH; dim q! i:t:1 1, 1 1! i  of Lrom fiarf VT-W Witt X IT  AUTHOR: Zvereval Y.N. 32-24-4.-V67 TITLE: The Separation of Zinc and the Catiorm of. the 11. and III Aralytical Groups by the Aid of AnioniteB (Otdelenive ts:Wca 0t kationov 11 i III wali tic' heskikh grupp a powr3hohlyu =ionitov) PERIODICAL: Zavoiskaya Laboratoriya, 1958, Vo2. 2J~, Ur 4,:PP- 367-389 (USSR) ABSTRACT: Kraus and Moore (Ref already establiahtd the fact thatzina is completely absorbed on the anionite "dalleiks-111. in the pretence of 2-1 hydrochloric acid, whereas in this wee tht- cations of, them III. analytical group are absorbed in ve.-y smll quan~.ities or not. at all. Kraus, Nelson and Smith (Ref 2) point to the fact that daueks-1 does not absorb alkaline-earth jelemento , and theL B&MC VMS found by Jentzsch and Froischer (Ref 3) In the case of the anionite vofatit L-150 and calciin or magneii-im. 34-iller' and Hunter (Ref 4) a,s zell as Amin and Farah (Ref 5) used anIerlite IRA-400 in chlorc- form for the separation of zinc. Jenf zsch and Pawlik (Ref: 6) showed tbat a maximum absorption 3f zind taken place in vof&tLt L-150 in a 4_6n hyaroohiox-lc acid soluti.on. IrA a -previo-,~s vmrk Card 1/2 (Ref 7) a method of separating zinc and nickel on the anionites  The Separation of Zinc and the Gations of the.II. 32-24-4-'2/6~ and III. Analytical Groups by the Aid of Anionites FE-9,, PEK -aid TM was described. As the xe~ult o! ra number of e:F_ periment3 carried oi~t un,]Ier the aupcmisi(k~~ of Yu..V.Mor,%ohPvak1, in which the ariioniteuPE-9, 'E'DE-10 and .4 M12-1.0-P of M.4sslan origin were med, a proce,33 of analysin ~for the deterw-biatim mertioned in the title J.9 described. In a.'Oolum, (I r= 0) v.1-W the anionile EDE-10. P~ in chloreform., z4--to arA all catlo=i are ab_ sofaed from the test soltticnx contuaining rinc and the aitiona of the IL and III. group. The cations a;m then washed azt with 2r. hydrochloric acid, arA hereafter zino ixi eytracted with water. In this manner it -4:s posr.:*Ible to sepamte oe-3-ci--ims rragneaim, and other a.,Jmline-earth metalls f rom zinc in the rat-io Zn:MO-.-_1 0. 10 to 10: 1 , as well as iron, alumintim, chromdum., obba-1A, mz_lg;wnes e, and nickel -Zn:Merl:l and Zn:A1:Cr-_-1:100G0:iOCOO to 1:100C00:1000004 Zinc was determined comple--tometrisally and in the last ;ase colori- metz-1cally. Tabulated da+,a of the ~:esults Cotairied are giver..' There are 6 tables, and 7 references, I of wlil&., is Soviet. ASSOCIATION: Leningmdskly gosudarstvervW univerpitet im.A.A.Zhdanova, (Leningrad State Urivemity inieni A.A.Zhrliziov) Z 1. Zinc--Separation 2. Zinc--Abuorption Tons--Gliemical effects 4. Alkaline earth metals--Separation Card 2/2      ftL-STOLYAROV, K.P., red.; FEGER, D.P., red. izd-va; BELOGUROVA, I.A.p tekhn. red. (Use of ion exchangers in analytical ahemistry] Prime'nenie ionitov v analiticheskoi khi~ii; stenogramma. loktsii: prochitan- noi Y LDNTP na kratko-orochnom seminare po met.0dam Udmicheakogo analiza. Leningrad, Leningr. dom nauohno-tekhn. propagandy, 1963. 18 p. (KRA 16:6) (Ion exchangers) (Chemistry, Analytical)  ZVMVA, M. V. Recognition of properties through different modes of perception [with summRry In Nnglish], Vap-,Paikhol. 4 no �318?48 MY-Je 158 (MIRA 11:8). 1. Institut teorii i istorii padagogiki APH MrSR, Moskva. (PPAGEPTION)   BjDNIV)V, P. TRIMATSM S. I ZVIMVA, N. Letter to the editors. Ognsupdry 22 no.3tl39-140 157* (Refractory materials) (Nonferrous metajs--Ket~611urgr)  ZVERZVA, M.N. Role of Russian physicians in the development of.the Method of sub- cutaneous injections. Test. vener., Moskva no. 509-51, Sept-Oct 1952.~ (GIML 23:3) 1. Clinical Departmental Physician. 2. Of the Republic Skin-Vener- eological Institute RMR (Acting Director - A. A. Kotdratlyeva),  ZVEREVAS N.A.; KALININAp V.A. High temperature oil sterilizer* Med.prom, 16 no,4149 AP 162 (MIM 15: 1. Nauahno-losledovateliskiy institut eksperimentallnoy khirurgi- ches~qy apparatury i instrumentov. (STERILIZATION-EQUIPMENT AffD SUPPLIES)  kIlLIMMI, OROSHIN N. _qj As AO New method of producing 1,6-hexametkvlene-bis-(dlmethylamine). Hed.prom. 13 no.7:46-49 Jl '59. (KM 12:10) 1. Leninegradoldy nanahno-i-saledovatellskiy inWtut antibiotikov. I khimiko-farmatsevtichaskiy savod "Farmakon". (DIIGTHYLAXIIIA)  GLADILIN, A.A.; GLUKHOT, D.S.; YWHIN, LAPIN, K.W." WONOTA, A.S.; MARTYX07, U.K.; OHMM, MO.; KMALICHIKOV, ?.I.; POLYACHKIII, H.A.,red.; ASTMOV, V.P., tekbno rn4. [Economy of Penza Province-, a statiatical collectionilffarodnoe khoziaistvo Penzenskoi obloati; statisticheskii sborn1k. Penza, 1958. 190 P, (MIRA 11:11) 1. Penzennkaya oblast' . Statistiehealcoya iipravlsnijys.(f or all except Hikhallchikov an~ Antonov), ~Peaza Province-statistics)  V03KRESENSKAYAP N.T.; _ZVII.Ej' LA, Spectrochem1cal determination of gold in silicate riocks and minerals. Zhur. anal. kh:Lm. 20 no.12sl288-1298 165. JMIRA 18t12) Is f/oskovskiy gosudaretvennyy universitet imeni M.Y. Low-anosova. SuInItted May 15, 1964o  VOSKRESENSKAYA, N.T.; ZVEMA,_!L-F:l -11. _YM", A Geochemistry of copper in the Devonian and Carbonif6rouS effusives of Karkalinsk District (central Kaza'khstan). Vest.Mosk.un.Ser./+tGeol. 20 no.5:57-61 s-o 165. (MIRA Mill) 1. Kafedra geokhimii Moskovskogo gosudarstvenn6go universiteta. imp-moil! MIN 111EHI J,11111-1i, i  777777-7177-- CHISTYAKOV, A.D.; BTJRKGVA, 14.V. ORLOVA, Ye.Ml.; GIA7,OVA;, O*Rs~; FED -p D.A.; M-MiJID M.Ye.- ABRAMQVICHo KA.!j PoFdVA, T.P.; MAIVZYVI~ L.T.; BACHITRINA, A.A.; LEMMA, N,114'; PESKOV, B.Ye.; ROMOV9 VOIEVAKHAN.MO-10HUKO~ 1,G.; PETRENKO.. 1.1 IT. J.V.. P11JUS. SMETERV S.M. .11,102.AlEVA-, T.F. -MINNA,; L.,S f3E. Ll~%~YA natichn. f6d ILN4t nauctm, red.; KURGAIISKAYA V,ki,, nalachn. red.,- I-ERTSALOVAi A.N..,nauchn. red.; TOMMITA'TCH, L.V.,, nauch-~. red.; SAGATUSKM N.V... otv. red.~ ROTIKOVSKAYA, A.B., red, (Flanual o~' shor'll-range weather for,~: -3 t' ing ~'Ukowvlstvo po knit~-x:rochrjym prognozam pogoa.v, Lelling"171111, Gidro- meteol,-,dat. Pt 2. 17d.2. !965. at 1 j) 4 (~UHA 16; 1. Moscow. MentralliWy institut prognozorv.~  3/136/62/000/0()l/OOT/009 AQ51/Al26 AUIHORS. Krivunchenko, N.G.; Kolkhir, K.F.; 4vereva, N.I.j Dmitriyeva, Ye.V.; Drugovskaya, M.N., Sokolov, S.A. TITLE% The use of gas-producing resins in rubber rea:laimihS PERIODICAL: Kauchuk i rezina, no. 1, 1962, 52 - 53 TEXTt The disadvantages of dry-distillation of pine tars, for use as softeners in rubber reclaiming are non-uniformity and high cost. In the attempt to find new resins for this purpose, gas-producing ones proved to be the most successful. The Chekhov Rubber Reclaiming Plant developed the composition of a resin and a technology of rubber reclaiming, using the product of the Izhevsk Plant In 1958. This product has the following advantagesu 1) Uniformity in group composition of the softener, leading to improved physico-mochanical prop- erties of the reclaimed rubbers. 2) Reduced production cost of the reclaimed rubber. 3) Increased capacity output of the refining rollers. 4) Increased ca- pacity output of the autoclaves due to a shorter rubber devulcanization process. 5) Improved receiving and storage methods of the resin, eiliminating the use of wooden barrels. The Chekhov Recovery Plant produced 6.5 thousand tons of re- Card 1/2  SA38/6p,/boo/ooi/007/Oo9 The use of ga-c-producing resins in rubber reclaiming A051/A126 claimed rubber In 1959. In 1960, the Recovery Plant consumed 21000 tons of.res- in. There is 1 table. ASSOCIATION4 Chekhovskly regeneratnyy zavcd (Chekhov Recovery Plant) Card 2/2 t A. it F, 4~iiilt~."ILT~4?14q,~i:-,4fs~-.ikila;i~Nd. d It Vr, j U.41 11U.111T.311fill IM IMINAMMIMMUH114, if; .11 1 i;I:i jj    13 -1- 19 5 8 - Z - ZZA-9- Translation from: Refe ativ yy zhurnal, Metallurgiya,:1958, Nr 1, p 12 JUSSR) AUTHOR: Zvereva, N.P. TITLE: Synthesizing Heat-resistant Materials fCaibides, Nitrides; Borides, Silicides, and Sulfides of the Metals of Groups IV, V, and VI I - (Sintez tugoplavkikh materialov Ckarbidy, nitridy, boridy, silits,idy, sul 'fidy perekhodnykh metallov -7 PERIODICAL: V sb.: Fiz. -khim. osnovy keramiki. Moscow_ Promstroy- izdat, 1956, pp 325-348 ABSTRACT: A survey is made of the properties of superduty refractory materials with fusion temperatures of 2. 000i - 4.0,001, and of. methods of synthesizing them. The carbides possess the highest temperature range; then come the nitrides, bori~es, silicides, and sulfides. A system is described for fashioning products out of super- duty refractory materials, and data are included.on the chemical and physical properties of individual superduty refractories. The Author cites some of the characteristics of the tect-tnology of producLs niade of TiC, UN, ZrB2 Mos, , and ThS, Bibliography: 56 reierence;. S. G. Card 1/1 1. Refractory materials-Properties 2. Refractdry materials-SY;nthesis 3. Refractory materials-Temperature effects 4. Refractory materials -Characteristics  AUTHOR ZVEMVA h*F ~ TITLE in an han Sulphids. 20~-2-25/67 _ (0 sullfidakh lantana Russian) PERIODICAL Doklady Akademii Nauk SSSR9 135T9 Vol 113p Nr 29 pp 333-3349 (U.S.S.S.R.) Received 7/1957 Reviewed 8/1957 ABSTRACT, Apart from the polysulphides (L&S2) Ouly lanthanum sulph.ide L 263 : is known, of whio*nly oontradicting partioulars concerning m I- ting point and exterior appearance ara.ave,ilable. The m6nosulphi- de that can be presumed,from the analogy'vith zorium sulphid! was ,produced by the authoress from mettaio lanthanum and lanthanum ni- ng &a a-,datjrial that in highly trate. It might become interest i l heat resistant and fire-proof. irst the nitirate was chlorinated . The produced lanthanum tri-bhloride was then sul- by means of CC1 4 phorated in the current of the dry H S. The sulphonation product , 2 corresponded with 25,4% content of sulphur to the formula L&03- It formed a non-eintered, crystallIne, v4ormilion powdero'Roasting La2S tablets at 1700-18000 in a vacuum changes the ori'inil' a- oolo r into a dark grey one. Here the content of oulphus wao lower (22#37%) which pFoblably corresponds to a'solid splution of L&2S3-La3S4- When beating the L&253-tableto up to 20000 they melt and evaporate. Black crystals of hexagonal stru6ture.re- mained in a small quantity on the lid of the iessel. Thei.were Card 1/2 considered as L&2Q283. LaS is obtained by reduction of L42S3  On Lanthanum Sulphids. with mettallic lanthanum by means of "impregnation". Tft-Itirrous crucible made from lanthanum sulphide La was melted at a tempera- ture of 1250-1600 The reaction product was &,gold-coloured.mat- ter with 19,7~ content of'sulphur. The X-ray ploture of the p'ow- der with lines that only belong to the oube-phase ehowed an iso- structure with CeS. It crastallized was a granting of the;aommon salt type- 9 the m1orostructure of the LaS is two-phaset large oval yellow grains of L&S carry a light grey zone of lantharioxy sulphide on their.borders. LaS-piecea do~not malt in a vacuum at a temperature of 21000.(6 citations from publications). ASSOCIATION PRESENTED BY CHERNYAYEVq I.I.p Member of the kcadtmy,. SUBMITTED AVAILABLE Library of Congress. Card 2/2  -Z vR-v IV. Is I' -fill an  ANDREYENKOi G.V.,- ZVERffAt N.Ya. Effect of phtnyllin on the thromboplastic activity and conceAration of thrombotropinand proconvertin in the blood of white rats. Vop.med.khim.' 6 no.4:182-385 Jl-Ag 160. (141RA 14 -.3) 1.,Laboratory for tho Study of,Physiology and Biochemistry of Blood Coagulationg Biolo ical Faculiy, MOSCOW State University. WICOAGUIAWS)   ZVM,'VA, O.S. K. Holdhaus' "Traces of the Glacial period in the animal king- dom of Europe." Izv. Komi. fil. Geog. ob-va SSSR no,S.-90-92 163. (MIRA 17:6)   AUTHORs Zverevat 0. So TITLEi On the Genetic Boundary in a River Valley and its Role in Hydrobiology (0 genatichookom rubezhe vdoline reki 2yego znachenii v gidrobiologii). PERIODICAL: Doklady AN SSSR9 19579 Vol. 114, Nr 6, pp. 1311-1314 (USSR) ABSTRACTs The history of development of the dra 'inage.area of rivers during the Quaternary is not always,duly -taken into account in hydrobiological investigations. But this historical factor may in many respects determine the conditions of the,drainage area on which, in the end, the preaerit organic world;of waters depends. This kind of dependences were detarmined by the.'author in the Vychegda-river on both sides of the boundary of the first Postmaximum glaciation by a comparison of hydrobiological material (refernoes 30). The section inve stigated is ab'out 400 km long. In the point in which the above-mentioned bound- ary crosses the river (district of the villages Ust'-Kulom- -Derevyansk) the morphology of the valley. and the river bed is considerably changed. Above Uatt-Kuiom (figure 1) the valley is very wide and boggy. On the right side of the river a group of lakes, representing relies of glacier-waters, lies in the Card 1/4 bogs. Here the Vychegda is populated by a fairly well  e, On the Genetic Boundary in a River Valley and its Role in 20-114-L-6-48/54" Hydrobiology. developed plankton and manyfold benthos. Mollusks, oligo- chaetae, larvae of Tendipedidae live in the mud at the bottom. In the microbenthos nematods axe predominant.,The biomass of the benthos amounts to 1-12 9/M~~. Animal life is especially rich in the thicket of aquatic plants. In old arms of lakes the amynt of zooplankton at,tains 9.000.000 indi- viduals per 1 m water.50% of the species of mollusks and leeches known from the entire Komi regionlive here. Many waters in their nature here approach,the stage of eutropbic ponds. Below the boundary of glaciation t~e living world: changes under the influence of the hjydrographio conditions of the valley. The valley becomes narrower, the river bed becomes youngert from a predominantly accumulative valley it becomes one of erosion. The mud and the aqua 'tic vegetation disappeart at the bottom sand, gravel and in place marbles are predom- inant. For a stretch the river almost flows without anyregion of inundation. The river forms meanders through the entire width of the valley, Many tips of meanders are cut into,1he terrace of "' pine groves. Here the mineralization of the water, increased in the previously described section, de- Card 2/4 creases, ail the river is mainly dependent on surface feeding.  on the Genetic Boundary in a-River Valley and its Role in 20-114,;~0/54 Hydrobiology. The interrupted connection with the side lakes causea a reaction tending to acidity and leads to OL general d;~atrophy of the water. At the bottom mainly coarse-detritus-like peat muds are deposited..The living worlCis poor here..In the plankton diatoms and dasmids as well;,as rotifers are pre- dominant. In the benthos - small laxvae of Tandipedidaep oligochaetae and nematoda. The benthoe-biomass amounts to fractions of a gram per 1 m2. The.old arms are chiefly in- habited by river species. Centers of higher biological pro- ductivity may-form in some places due to the accumulation of organic detritus. The chief factora;inhibiting the,deve,lopment of life here are the processes of erosion and accumulation, whereby the river bad is constantly 4isplaced. But tho'changed chemism, especially the disturbed:mineral nutritiont remains the decisive factor. The region of the Vychegda became'un- saturated in its stand of species after the withdraiwal~of the Scandinavian glacier in the region.:of its deposits~ whereas the stand of species above the glacier-boundary is sufficiently manyfold. The wide part above Ust'~Kulom may be considered-a peculiAr.region of refuge in which many faunal elements of the Card 3/4 inteiglacial period were preserveL It is.true that from here  On the Genetic Boundary in a River Valley and its eole in 20-11-4-6-48/,54 Hydrobiology. many species also.spread farther down the river, but.there they occur in other numerical relations and excl usively in- habit the waters of the region of inundation. There are 1 figure.and 4 references, 3 of which are Slavic. ASSOCIATION: Komi Branch of the AS USSR (Komi-filial Akademii -nauk SS SR). PRESENTED: March 19, 1957, by Ye. N.. Pavlovskiyp Member of the~Acadepw. SUBMITTED: March -6, 1957 Card 4/4  USSR / Gonoral Bioloc5y*' Gonoral HydrobioloGy. Abg Jour Rof Zhur Biol,, No 19, 1958v iTo 85694 Author zVorciva Inst Yo-' '* '~4ivon Titlo Tho Gonatic Boundary in tho Rivor Volloy and Ito Si-nificanoo In Hydrobio,loGy, U. Orig Pub Dolil. AN SSSRj 1957) 114, No. 61 1311-1314. Abstract Fro:1 1939-1950 a hydrobioloL'rical:~ study was con- ductod in tho VychoCsda Rivor. anal, tho rocorvoirs of Ito rivor valloy on a 806tor ono portloh or which flows throuOili tho torritory of tho first Poatnaximal glaciation, tho ~ othor bolnG situatod hi,3hor in tho rivcr bod boypnd tho limits of dopoolta from, tho Gilaoiation, BOth soctorst Gonotically difforont, Pro alloarly distinsuishod In mcrpholoGy, hydrobiology, and hydrochonistry, Card 1/2  ZMEVA O*S. .New larval form of Tendipedidae (Diptera) from the Pechora River. Int.obos-36 no.1:231-232 157, (MLHA 10:4) 1. Komi filial Adademil nauk SSSR, Syktyvkar. (Pechora River-Chironomiaae) (Lexvae.)   V ZV.l- Kildedli icon  mum, 00- S.  L as of arvae of T6ndipedidas (Chironomidas) of plains rivers of the guropean part of northern U.S.S.R. Trudy Gldrdblol.O-ya 5:264-274 1~3. (KLRL 70) 1. Komi filial Akadexii uauk SSSR. (Diptera) Maryan)  mp P"a 0. S GETSER, M.V,; IZ"YUROVA, V.K. 8yatem or relic lakon lit tho Dokl. AN SSSR 155 no. 3:677-679 kr 164. (MIRA 170) 1. Predstavleno akademikom Te.N.Pavlovskim.  USSR/General and Specialized Zoology - Insects. P. Abs Jour : Ref Zhur - Biol,, No 6, 1958, 35142 Author : Zvereva, O.S. Inst : Title : A New Form of Tendipedidao (Diptera) Larval from the Itchora River. Orig Pub Entomol, obozreniye, 1957, 36, No 1, 231-232, Abstract A New species of larva kanevi of Genus Tendipedidae, was described, Card.1/1   jjo2jhjX LUI 2L P31gilga Agcggai2DA, Llbrar7 of Oom&e~s, Dedgmter 19524i' Uncliessif iod. ~ !i : : - t : - , :  SEKOLTAR, T.T.; ZVIRMVA 3 A Late results of dental fillings. Stomatologii& no-613-7 11-D '54. (KLRA 8-1) 1. ris kafedry terapevtIcheekoy stocatologil LeningriAnkago meditsinskogo stonatologicheakogo instituta. (INTAYS follow up)  34504 S/169/62/000/002/042/072 D228/D301: AUTHOR: Zverevil.... S__V_. TITLE: Atmospheric transparency in the Arctic PERIODICAL: Referativnyy zhurnal, Geofizika, no, 2, 1962, 29, ab.- stract 2B225 (Tr. Arkt. I Antarkt. n.-i. in-ta, 229, 1961, 90-116) TEXT: The atmosphere's transparency was ddt ermined from the data of direct solar radiation measurements at eight polar statione, lo- cated cn the territory from 69 to 800N and from 53 to 1790B an*d having the longest series of observations (from 5 to 17 years), and also from the data of drift-station observations. Many ofthe direct solar radiation observations, made at different ele-vations of the sung were processed by the graphical method of averaging. The resulting mean-monthly values of the atmosph,eric transparency coefficients are highest (0.816) In the winter months and lowest (0.783) in the summer months, The yearly variation of the transpa- rency for Arctic stations is analogous to that for more southerly Card 1/3  B/16,9/62/000/002/042/072 Atmospheric transparency D228/D302 stations (Pavlovsk, Saratov, Karadag). The small range of the transparency coefficient's yearly variation at Arctic stations in comparison.with those outside the Arctic is explained both by the decreased amplitude of the yearly variation of the water-vapor content at the arctic stations and by the influence of condensa- tional turbidity on the transparency coefficient. At the drifting stations the transparency coefficients are somewhat smaller th,~,q those at the polar stations (0.762 - 0.800).,No dependence of,the atmospheric transparency on the geographic position of the;oboer- vation point is observed in the cold half of the year; this rela- tionship does occur in the warm half of the year, The transparency increases with the increase of latitude to approximately 800H, but it somewhat decreases in the area of drifting stations. A certain decrease in the mean-yearly values of the transparency coefficient in an esterly direction to noted in the zonal distributionjor Ar,,,-. tic stations. The average value of the maximum transparency coef- ficients at polar stations equals 0.830. As the mean transparency coefficients obtained for a number of Arctip, stations differ little between themselves, it is possible to use them for the characteri- Card 2/3  B/169/62/000/002/042/072 Atmospheric transparency o4a D228/D301 stic of the average atmospheric transparency in different areas of the Arctic. Z-Abetracterle.note: Complete translation.-7 Card 3/3     II.UTHOR: TITLE Zvereva, S. V..... New integral atmospheric S/169/62/000/006/062/0931 D228/D-304 eri ajC 8 tiransparency charact '2141'IRIODICAL: Roferativnyy zhurnal, Geofizika~ no. 6, 1962, 27, ab- stract 6B191 (V sb.,Aktinometriya.i atmosfern. optika, L., G-Ldroneteoizdat, 1961, 168-171) T--,'XT: A comparison is made of various new integ gral atmospheric- transparency characterislUics: The limiting transparency C;efficient.a 'Grooosed by Gullnitskiy (RZhGeofiz, no. 8, 19581 5847) and S. III., il..~zik (Me r, toorol. i gidroligiya, inf sb. no. 5 1948) and Makhot- kill's turbidity index (RZhGeofiz, no. 12, 1957: 10445~ with the standard transparency coefficient, turbidity factor and C coeffi- cient in Kastrov's formula. The comparison was made in two direc- u -L tions: 1) kccordin-rt, to z1he stability of each quantity's numerical values when the atmosphere's mass changes, and the transparency is fixed; 2) according to the range over which each of the transparency -characteristics varies. The solar-radiation intensity averages, at' Card 1.12  3/169/62/000/000'-1/062/093 i~ew in-wural atmospheric ... D228/ '304 th,e time of different masses and a variable degree'of atmospheric transparency were used in zhe calculation, these values being ob- ta-Lsned from the observations of Kalitin and Sivkov. KastrovIi; C'co- and Mla'.Khotkinls turbidity index, and-then the turbidity factor, are the most. sensitive to atmospheric 'trans .parency changes; they are als,o the most stable in respect al' 'the change in the atmo- spherelz mass. The limiting transparency coefficients have no ad- o vantages whatsoever over the other characteristics under condidera- tilon. ~_Abstracterls note: Complete translation. Gard 2/2  M*vu MAI %v UP00,41 UPI 'a antlif fit ...-a 1~v c-ptirs 4- f. re"t.1f% hy4Vtpn, A. %filtdolkill ALful V. Zvt,re _~~~jjdjp 1. ZI 4 imie & %lict le- diletion (if the pir"tioll of CO ill viptnt hysluvirliallots by niuvrrskin act-ovditis to that efloatlott CO + HlO oletluxt willito OR X-1104 the M -00 Its, The mutrits of thr r4s 14) 0.5"' .. The ps is ffitsitillatimashr 00 roliched in li,. at .hown h3p the ah&" *quasion. whkh -49 diff"vittlAtm~ this incilmd ffinn vmw of th* otber mclhol,; 04 c .00 of mimnenition. The "Pti-4161n im cuffifril frAll In pirierato .40 Oe J. '4 the estalylol .411'sit oil difficully Awl call Ifq effit'-sird lift 0 mu lly ld"Wills sit, Tho CIA ithporlwAt Ill 1041kat alkali awl the varbormte Imiud Uwd ((it famp making. 00 00 A. Papittraii-Couture r** 43 IS al Is to bed bo 0 1010 1 00 " V. rp fill I If 0 0 0 0 0 00 0 00 0 0 09  rk FIT lied goo, 4 sm!~Imtwfwl 00. If is -ii~Wasi wkb a VA go* 00,3 ne~ WA 004 000 '00 coo goo All-ILA SITALLMICAL W11616114 CLAIWOCAM" tfoo too SN"44 "40 04V off OAt I(M 0 AT IN of 9f o d"a 000000000000 1100000 O*oooooodj*000000000660 e -0 0 0 0 0.6 40-010 6 49 0-4 0to *,o:WO 40 00 a 0 4D W 41 ~o *   L1111-17VIG., Yo R. it. A Z1,1101A T.M,, CA'e M' -, I-ELMEV S.S. Polv-merization of tetrahydroftirml ATI the y)rn,,,onr~ of antlvno~y rentachlorlde and it.9 commpo=18. Vyookom. roud. 17 k1c).Q.,269-2174, F 165. ("Alrd, Vi:3) 1. Fiziko-khimicheskiy institut imorli i Donetskiy filial instituta khimicheskildi reektivcv I onobc c"histykh veahchestv.   LONGINOV# M.F.; ZVEREVA, V.A. Preparation of thin plates for the studfof metals by meano'of 4 trausmission electron microscope. Zav.!~b. 21 no.5:559-561 161. (MIRA:14:5) 1. Chelyabinskly nauchno-issledovatellskiy~inati,tut metallurgii. (Metallography) (zlectron microscopy)  2h 358 3/032/61/027/005/004/017 5~S !) 0 B 11 9/B2 15. AUTHORS: Longinov, M. F. and Zvereva, V. Ad TITLE: Manufacture of thin foils for the e~.amination of metals under a transmission electron microscope, PERIODICAL: Zavodskaya laboratoriya, v. 27, no. la6l, 559-561 5, TEXT: The authors have elaborated a new method of~manufacturing very thin metal foils (thickness: 100 to 200 A) in which the structure of the mas- sive initial sample is preserved. The foil is gradually reduced by'alec- trolysis. During this process a layer of foreign metal is applied to one side of the fail to ensure a constant and uniform current density'on the surface of the foil and, thus, eliminate orrore caused by,irtegular reduc- tion. The method was applied to carbon, structural, stainlesso and tranfl- former steels. The foils obtained were examined under tbe)[1-3 (EM-3) electron microscope. The foil is prepared as follows:A4C~20X? aim piece of the metal to be studied is mechanically or chemically reducea to a thickness of 0.20 to 0.15 mm and then further reduced to 0.05 to 0.03 mm by electro- Card 1/2  2hl S/03Y61/05287/005/004/017 Manufacture of thin ... B119 B215 lytic polishing (for steels: an acetic acid chromium electrolyte is used at 1.5 to 2-5 A). After washing in water and dryingt one'side of the fo il isceated with a foreign metal by electrolysis or vacuum evaporationo When choosing the metal, one has to consider thatthe latter can be chemically removed without damaging the foil. For chromium anUchromium-nickel:.steels, the authors used zinc or copper. A zinc layer has to be protected against dissolution in the electrolyte by a thin paraffin layer. Under the,abovo condit-ions the foil is then electrolytically reducea, on the bare side un- til the foreign metal appears. For removing zinc a hot aqueous NaOH~solu- tion is used, and for copper an aqueous or alcoholic JINO solution.2here are 3 figures and 5 references: 4 Soviet-bloc and I non-Soviet-bloo. ASSOCIATION: Chelyabinskiy nauchno-issledovatellskiy institut metallurgii (Chelyabinsk Scientific Research Institute of Metallurgy)  ZVEREVA, Y.A.;.NIKOLISKIY, Yu.V., inzh.; SAYTANID1, L.D., teldm.red, (Improvement of swamps and-mineral swampy soils; bibliography] Meliorateiia bolot i minerallnykh zabolocheinnykh zemell; biblio- graficheskii ukazatell. Koakva. Izd-vo 14-vn sell.khoz.RSFSR* ~ Pt.l. 1959. 1)0 p. Pt.2. 1959. 155 p, (HIRA~12:12) 1. Moscow. Gosudarstvannaya Inauchnnys bibliotaka. 2, Gosudarst- vemuiya nauchnaya biblioteka (for Zvereva). ). Respublikenskiy . gosudarstvennyy institut po proyektirovaniyu vodnkhozyaystvennogo i meliorativnogo stroitelistva 1'Rosg1provoakhoz*,(.for Nikollakly). (Bibliography-Drainago) (Bibliograpby-Swamps)  v a 0 a! At 0 0 0 0 0 f I! O~p "t 0out Ml AND 06(ittefle k iNt's A a Ad~jdv ot MaMn s* abolof 4 in Imeld7 of 10441&l .00 00 9 It P. K. O"ke &A '.Ttzvemo, tart jkayil -00 4 7IN-VOMAI.-Aq t4m%%tkjjjW I -of LiNs'Uhtilintil rXI 11141h' 00 too 00 woo 00 age I age S L A, attALLOCKAL Lif(ROUIRC CLASSIMOKM 00 se u u 0 AT 0 Of If It 0 a K At a R If K a It It N "A A e is 0 0 * 0 0 0 0 0 00 40 41 0 AN 0,41# 0 Q. 0 0 0; 00 g S 0 g, :*. AP N 0 0 0 0 000000.00 000 Is 0;1 0 919 900 0 Is 0 0 A  M ha IID 440 Oit clofps 044 -.1 - - ma . ; . " 04"WAI A0 POMAM~ lb"I - ----- ---- sea,, 0404 .00 No* 0*9 -00 goo see 00,3 oov Coo goo silo glee goo goo goo moo toot A "IALLUftCAL UltsAvult CLAtWKATO= goo %ado 011AII&VA '114M wwaftl -4 1414M WSP 047 0419 41mmic"I P.- 914 r Ir a ; a $1 ; it I w IN 0 0 0 0 0 0 0 0 0 0 0 a 0 0 0 0 0 0 Q 0 0 O's 0 0 0 0 0 e,o 0 0 0 0 0 01-1'~ 2 ~0.2 . 0 a 0 * 0 0 ioio o a o 6 o 911HOOMMIRMN"91, I Its Rim No  so's H MS U*M " ( " W 00 O 00 W IL.# C Tilihint-11mv JF&OS Mtuft W14ye "d dap M G ' . . . 57 - ,dsha arml V 2-5 P Zvmv Zdr u Ub 10 l VI I J 0* . . . . , . ,*, . ( y * ti7- 1- l1 hi F F AJ . an zp r. Vay coot t. w lc rast e. . 11g, lkwakirnin. and Mg &W Al atknm for the detts. td the ompm. of the ructal by strutlyzing the gas libecatLql im dhmAvivsltbemtt&lin&6l. The vwdKxl isesikvingy suit - al-Ar for Al allap. The tnrt*Uk- Inclaskx" in %Us,% mar tltttl. nUNI! MCVUMtClY by the %"MIWttk- UWI)kUl than e by thr stfavimetric mrtimal. W. R. litins -00 o 0 d see d0.@ 0013 coo zoo oov 00 see 9 00 coo 400 Noe NOO I I - I L A NCTALLUNWAL L171NATVgt CILASIVICATICIN Item 61"1111TO XT -1 iiial') 1411 Inv 404 i 4141al at 4o-- Isk 0 Ir 11 v 6 0 4 u to it 0 911 ' lls W 00 0 a 0 d 0 0 0 0 0 e 0 o 0 0-0 0 0 0.0 ' ~ 0 0 a 00 0 o 0 0 I # 0 0 0 0 00 0 0 00 0 0 0 0  -03-1 foist lot 11 4.1_i. I. i A- N AA N. A A .1 -A/ 00 .00 0414MI1 AND ORG1`9*1111, -f- 0 a fit, 0 o: C 0 Ntenmijitittion of ibe comilibillty 91 MvW 011114ced with ho"ot. M. G. I'Allultmev dild Ir, "Aw4l'u.. so -J). , -90 zaml lid b1b. 7. 0-,WA;hlWsI- lilt- tilt It-filplill 11 X.1 JIJCWJ, gAllrdlitictl 1100, At. 16 li, /it. N1 'IWI ,julinlCM Nj ptcel w",jold. J,V j-%j.,.mA twilh aimi Im,fiNlad 00 1 lHatrs (fk-10 sqjcm.) in vsked lebt tillots 10 111C Ilklitill "I 'Y-* ud of OAX)t N I in KI, I-111vue -J tllc,~dl I.Alillt asill I hil skilli. of I limit Ill ill.- lki"114,11 ii 141111'. ru; all min. the Ilevevul Coll-libility alml l(w 1,14ttil lilt [at-, (tic AICKf', oo a this test (mily Ille.311rial stulaix all-I 11-11 [lit- =00 oxidesink-t vrith the r.mMent. of *0 v lack- tilratilin with Na'SIO, 0 ill Kj) 4 vi'lirmirl- -%fly j I ill loctlicile or al,,I, Omk-:~ lilille 41111 cgs SOIC43 -4# CkV UNC it AT to is' r to Cr to 9 a It 9 it a It It Of KM n I !1LI1 00 If 0 a 0 C 0 a aa a a* eatilil io 0 4 0 at  S-7, 0 OF f 6id sA .I&I-LI14, 0-00 SL G. Tikhmonev dVP IkF, -IC N a. 140., .04D A""Id; V. Also. 19446 A IM) a" StA voto made an To gmy CdA Ff. WhAe 0"4 FS.IR -00 itsd At taid Al allisim (cw th; dewntboAloo of OA mmooldtfi* 41 by the Post llb~mL*d cm dhwAvbTg the moW In aed& Mw meom w 4mpmally owtablo as& for Al alk7so. The moWlbs Loduaiam to &M 40kvminml nxwemmurstdy 8*0 by tho psomMvi wwOwd d" tT T',Met* mow. 0* j coo OOv eta* so Sof see It a 04 a 11 Is Is 0 oto 0 3 u --a a 1 0 0 10 4i a 0 ip a a 00 0 4 a 0 0 0, lo~ 0 a fb ise 0 Ooq a 0 0 o 10 a-*- d) 00  J.P.,kandidat tekhnichaskikh nauk. Technique for determining the composition of protective oiide~ films resulting from electrochemical oxiae c6atir4 of steelvarei .Trudy MVTU n0-36:62-66 '55. (HLRA 9-9) (Oxidation, Slactrolytic)     z V-P,A V ',~rke, FleGtroplat.,ni and Metal Finishine CLI E!;y V. Sept. 1948, p. 591-592; Oct. 1948, p. 667-B68, 674. ranslated from Zavodskaya   NINDLATEV, V.G.; Ye.T.; ZIMINA, K.I.; POPOVAp memo ~500 Isolation of individual normal paraffin hydrocarbons from the, 200-3 fraction an obtained from Romashkin Devonian petroleum. Khim.i~tekh. tol-no-3:11-17 Mr 156. (MMA 9:9). (Hydrocarbons)  Let's prsi~re for tba.40th-emmyormary, of the Great October Ao'clallst Revolution In the proper mnner. Blot. agitl~ vod. transp, no,6:3p.44 (ML~A- 10:4) 1. Agitator teplokhoda Oftrkmeuistan" raspiyokogo parokhodstva. (Merchant warina')  z YER'Ev V, YA. 11/5 2 3 05 Artilleriy.--kaya insbriurental Maja Ra,.,vedka', Uchebnik Dlya' Ai-t~lloriyskAl%h'bcl,-~i.lishcl,. (Artillery Reconnaisnace I ry) D.A PeIrgin, V. VA. ZU.1-W I V. IN. DA"IMN Yo.-.qkva, Voyenizdat, 1956. h83 p. illus., Dit,.C-rs.., Tables. Bibliography: P. h78.  lyl, ~ vi = .V. Yu. T. ----------- "Ohat the eagineer and repAIrman, chould read on boiler repair. F,nergetik no.6:40 Je 05?. 10:7) (I$ibliography-.Doilerfl-.':ointennn,.,o and.repair)  " 14 1 -1-L Al -1 1~ . 1 . . . .. . ...... 1 I i 14 ( d 1 N h L w 1 . M 41 , c .111A. ao Aft6 0 N.-Ii"4VvirvV ,f " UPI, 1940, NO, 4, W-.104(WWAS 004 enth-brill illoi anslythill; NJ 483, Ca 1.72 Pa 14.76, Cie Ll~'Nlive C.) m v " 10W 5 JAM% f m d 00 a to w a . A e . suirkk ores, wtiv avoluctud as 130 X M x IQ 1"al., clAmwitia Is 1,41%Ktimming for the Ions W.. is"atich as the PC In the t"anAyte Is in the (orin u( Fe" I and ao 008 i ruclowillaacaurastwit.betm twoClocatlimmleali digassm batureen thit NO late., ia ulass container of I A I., * Ill ("u"'l; ill the awAlt lAxt"ILds (I'"Ka O'd W. at ItX) anip./vill .11,.awl 40' to 0.11 V. at SW wop./sqw, 0 HAM 150 a-A. tkctro&-% mm. Initial clectsuirte Temp. 40* miad W% c.d. 100. IV. and 230 amp./sq. m, (moln't the mat'l-riskmirl tizillatim of F# , ht t k 4 l b d j 1 1 t th h 1 0 The cathodic- cunvnt efficiency. 1,. Wen to deost" 4 1 ,viel m a o mv. 00 0" a e rM e 1 r y rf g three ist"TVubld.'a 44 Oat ilik-&uOtle. Thi:Codi~Av;j Win) cuffirril expentled oo aniatm oW#.# *~ w1lat ool of Cit. at thr all(utr 14 ahnimi entilvir &JI.Wated an Ili* visthodc i~; sea NJ Ve and Cu. s to The ilirlim of evitactite l it !r#, At lirio t limit I adl. ~ Wimin, h% I hill wilftrolytv. rIW lllut 1410. ' o tilut Al d the I m 1 4h W It I t l o4a 406, tl~fistkin of CkVUvlys* IV4.3amp,-Wv,*a4 withcab. 1. 41 c% " i . as " o u e w . ( sn r, cvaai.tq 44 O-fal sulthlef and tiorso clefuestary 8 (Itul 5 00u IW. 111s). 2&) amp./sq.m., % Is Mill 5 80 10 lfi MAIO so 60 23- ~ii 16i 73 1 W, Iii 110400. Alitir woovol of illettinva S. The alwir too br 001 - . K. 4. . . V't X1 65' waW (Ifte cd *I ; s'. ' 7.74 o Is mp. v "-wiled all utift (0 tnelali Ili the %an* way an the Initial . . . ft7l.w SD-3D.74.I21j' ., , t . . Rud. Withil lls~t Willi, still %voilt bliflo-te.d.,lioth %and V 4110S r I Av ILIM 90 1101 90-V%/ 14 as Woo $IV" & the 1. "till Cu kni"W, cousestuoijily, Itual 009 1' , . , . on the distribution of the =ttm u of tb. malidle I-- 1 he Im-lot ill v*w 44 elito. it( NJ *till Co find o(clita. anti twce. the gullce and the Will "-j;rSM all - T' the slud e h M NJ C A delmmilkin of Co. ii Is advi*14c to fA.-* of kkbcr tel= hi.-hrr CA. fre" though file VIXI'llifliption of ewny . V . I e .. a g nip./sit.m., t . I,. artrifuirfel M.&WIs with lenip. anti with r4z, at :30 amp./sqm., Otto. 14 NI and Co nil" seem LUG at Inv 13.0. 04.11%. r" a I Aniv./stion. The rlccln4v4s ftn be prulne4lM file 7-A N' Il t"liv " j h i un r ,put art " t ion 0 rod a 0 0 ill ill 9 ii 1-6 ~Voc~ it Is Fe it Is to Is of 0 If 0 it ill it is Ku i i I a F 3 00 0001 is 0 0 00 0 0 0 0 0 0 1111 0 0 0 0 0 0 W4111 41 0 0 0 0 0 * 0 40 0 0 6 oj 0 0 0 0 0~0 0 0 0 0 0 so 40 00 0 .0 0 0~ 0 Ole 0 0 0 0 is 0 0 0 0 0.00 0 001 11 . 44 .00 -00 so* as* P v00 noo 090 so* too 0 ttoo  OL, PO/O h4, 7 J`4 of. lij~old-61, he Tu r ot pWA& 14 t P~Mob (in 601100 011 :44 -"'W vkM;Axfa Ou of w ce; dy tuibulorive 'materfat t 89." '000 a, e': -In thia.oaa oV'o, 1.94itrAc.. field* PP= t T~11)4~.;i* lb~ted:,t e4v~4"*e Git riliatiOn 'glass plate* dh-:hqm' 'I wd in X n veaw~ij 4nd,if bAb~':~f tie114 - th- M , Twei Is, kind lone' of direc ior rd:I  Li cv~ 1, . 1. . .. 1 . , I 1 ~ . - . , . - Bob CI/M i 1003 41M 4 60 w f !s Oard  ------------ 0 a OM Com- o, Mail; "V= IV. cc 0-fizIlowing factors at studkil: time of CrW!nC: revolutions per mite., water added as % of Val, o( mill; solkis added as % mill Val.; ooW:Uquid ratio, const. d. pulp in will " % of total Vol,;- Val. occupied by balls as % of total Va.; OW Chamcferilt" "( frni; max. diattis. of f4Wd; aw. diam. of feed. sire charuc- terk%tk-o of txdl mixt.: mix. dians. of halls; and diam. of balts ifunifuminsite 7'bem&z.dlxm.o(1hegmndpm1uctw" affrcied by any of The v"bles but the iladisttibulliou wai harder to change. The SW distribution war. Affected only by the vol. of water in the mill. amt. of balls, and the site cbaracteriatirs of The halls.. hi. jlowh  -A i 0 a see I I N IM,764.-Cum It" 191" MOM We 0 00 11b 00 diMMUMI thOOM IY VkW 14 491 W & fbe Wilti d C w W 4 W ** O 4muio ma _M OM 60 w "g 44 k4atkn 1w tempo Nd of the see , . ims cou uumm The (at W am w to be w4d Mdtod Sea We 0 Too use A S 0 - S LMULLONX&L IntROWIt CLAUWCAT tro 4 141440 "it of* ate 049 w 0 i JU ve a go x - O w a WA a A .6 1 .6 Q.G ~%: w de 4 -1 9. MCI. 0 so 0 we 0 0 0 40 ~s 0160 a lei a0 04.0 s, 0 a a a 0 0-0 W41-00, IN -tall lei 6 0 a- a 0 0. 4):  see 0, 'I IW NOAU040tit UKthW of W6VW (d by Othwir KwdK*,;TK" 111 !to be uft lit too #90 . 406 too *of gee AJLY 'coo L L, a - -IL A '"A" set" - slow IT"Oll- E UK III s 4" 4tv p ta M&P mv l d, Is aIt ; ig 4 4i 9: I me 0 0 e a * 0 0 0 0 : 0 :~i at 6 0 41 , , , ! 0 0 0, 0 ::.o0 6 G Is0 0 4-41 0 All at901644,6 0 0 0.01 0 0 OV 0 * a 6 open! 01"  ::~ V I-- ~ I I I . - I ZORMSHCHIKOV, P.A., prof.; OBRAZTSOV, V.L*, assintent; ZVURNVA, M.Li assisteat. Results of vitaminizing pregnant cows and newborn,calves on the OTrinaateat' let oktiabriam Collective Farm. Zhivotnovodetvo 19 no.12-68-70 D 157. (MIRA 10:12) l.Troitakiy sooveterinarn inatitut, (Calvels (Vitamins)  15-757-4,-4276 Translation from: Referativnyy zhurnal, Geologiya, 1957 Nr 4ffl~ p 33 (USSR) AUTHOR: Zverevap 0# so TITLE: Hydrographic Features of the Komi ASSR, and Their Relation to its Quaternary History (Nek otoryye.osoben- nosti gidrograficheskoy seti territoril Komi ASSR,v svyazi s yeye chetvartichnoy is~oriyey) PERIODICAL: Izv. Komi fil. Vses. georg. o-va, 1955, Nr 3, pp 11-16 APSTRACT: Bibliographic entry Card 1/1  ' VE, E VA) 7. /7, OOA IrO=B b1fdOG. M. sea It. No. 3, ",0q4 bAVO I"k kIM WidWJ rQ4 04 00 too 00- t00 q*0 are* "4141 p i L! si wo tOWA o0oxiv I14"s 11" #0 libs oft* As 4" ---Ii T 04 4 0 0 40,00* 0 0 Ole 00 Oe 13 I: :!:: : :  **A Ila fog Vaiodwixft and T. A. bmirs. 1(dasonlayd f. 0 proo Kkia. Refimt. U04 86 41 -rm Cofficass of Oamis 0 In . spimfirb, comMateri &It* bwas find peat Wait &r4di JW- off cot4ing to riftmst*~-Dukiu.] The laswis of vitamin C did 8 0 not tweed 6-19% an wubi"~Obv veviLbIM with lintru : d li h : an coo tte t em wills sk. he losses, reached Zt-13% 411 an coollft Then faith finster.i The Won" ofvilaosin C vm 44111 :0 1-28% oft keephalt the *v4"ables.ba tlw frostu 111111W. Vetleftblefirmactowco"I wall 42,70 N&C1 u4s.;kvit :100 vm little of the* -41simin, C context. The losses *m 144-M-41% lifter,dtfroming and 7-M.1% after lallflat off the defrosted Frown vegetables kom Itar 600 levesal moviths prasseevvid tha, altpearanesp, taste ww:twl- ! sistenty of (ItA To 1 l abk d f 0 4p ~111111 o " Con up aint 4. o 4 w vitamin C . W. ft. 11*11ti .00 Age-ILA MITALL~AL old* -Mial l" Too Wage @s a"T GO a a To 'I at 's a as 46 0 0 60 41 006 0 60 0 Ol 0 0 0 0 Is 0 41) 0. s o 0 000 0 0 1111111 0141 # 00 0: 4111~0 0-0 0 0 0 0-0 0-0 0- 9-0  USSR/Chemical Technology. Chemical Products and Their Application Food Industry, 1-28 Abst Journal; Referat Zhur - Khimiya, No 21 1957, 6585 Author: Zvereva, T. A. Institution: None Title: Study of the Suitability of Canker-Resistarit Varieties of Potatoes for Drying Original Publication: Sad i ogorod, 1953, No 91 55-56 Abstract: No abstract  BCROWLINA, F.Z. WLOBATBVA, L*G,; ZVMWA, T,A* Determination, of photosynthesis under f iald conditions. Trtdy Inst. fiziol.rast. 10:250-256 155. A,: 9) 1. Kaf edra f lziologli rastenly HoskDvakogo goirAmrstvannogo univervitata imeni M.V. Lomonosova. (Photosynthesis)  ZVEREVA, T.A.; TEPPER. R.Ya.; OGN.",A, R.I. Preparing potatoes for drying. Kona. I ov. from. 13 no.4: 13,14 Ap 158, (HIM ll:'4) 1. TSentralInaya proizvodetvennoya laboratoriya pri Moskovskom 2avode pishchevykh konteentratov lfo.L (Potatoes--Drying)  xAZImIRSKIY, Ta.M., starshiy nauchnyy ootrudaik; ZVEREVA, T.A,', starshik nav,chnyy sotrudnlk; GRANOVSUTA, R.Ta. , mUdisfil-7 -natibEi~yy sotrWnik; FrATIGORSKATA, T.Is, starehiy nauchny7 eotrudnik Tachnical and economic offectivonoso of the stonm-beAting, and., mechanical methoda of preparing potatoeo for #ying.: Trudy VMXKOP no.9:26-52 t59. (MIRA 14-I)i (Pbtatoes-Rrying)  i SOURCE: Ref. eh. Elektronlka I yeye primeneniyer Abs. 8A85 AUTHOR: Aleksand-vov, L. M.1 Mironoy, 9. M.1 Zvereva, T. 114 TITLE-. Investigation of tungsten rearystalUzation U quick eteotria heating CITED SOURCE: Uch. zap. KbrdovsA un-t, vypo 56, 1964, 5~-,57 TOPIC TAGS: tungsten filament, tungsten, metal recrystallftAtio#, tainsile atr6r4;th, annealing TRANSLATION: Prior to annealing, the speciMns were aleaAdd by boiling in a 205~ solution of HaOH for 10 recrystallization process was studied by the variation of the ultimatns;x Pth at room temperature with the annealing temperature 6 S termined on a FUE:9 iestin and time.The ultimat -tre t as de _5~tensjle Mach 0. v') For an annealing time of ',kO adLn, the final Fi~u-ii~-was TCj and for 200 sea, 16DOC. Pmm the aboTe data, about i45OC; for 10 min, almost 15, a curve of pr imary-recrystalliration--acMIat Ion time vs. amneal3M, temperature roras plotted. A metallographia method corroborated Ute fact that the, rec*stallisatlon goes quicker with higher rates of heating. Bib 4.  ZVEREVA, T.S. Foms of clayey fomations and'highly dispenod mJjierals in turf-carbonaceous soils. Pochvovedenie no.11a,U-" 11 164 (MA 18:1)