SCIENTIFIC ABSTRACT GRIGOROV, A.F. - GRIGOROV, K.V.

GINZBURG, D.G. .~ Now body-stamping shops (from foreign publications). Kuz.-shtam. proiz. I no-7:29-33 Jl 159. (MIRA 12:10) (Sheet-metal work) (Automobile industry)  D. G o rlu a r i fA . 1a nr! z'u I -,, r , L. M . I I Di r e cr uP, If -L r) n by tho action (A* water of se(lr- -*!ntc, sc-diur ~ivd vi (,r yuz. it-ta so(lovoy j.rom-sti, Vol. V, 1~h~: T; Trud- Vst;~o, 22q-)!i2, - Biblio : 12 1 te,.!is. SO: 1k) St:Pt- 557, (Letords Iny":!-. S~-atev, 1"e.. 21,Z.  USSR/Chemistry - Soda Production G32,ZBUM, D. "i FD 175 Card 1/1 Author : Mikhaylov, F. K. Cand Tech Sci; Ginzburg, D. 14. Cand Chem Sci; and N. I. Iksofin Title : The heat conductivity of carbonatE rocks and of calcium oxide in lumps Periodical Khim. prom. 3, 44-46 (172-1711), April-May 1,_31,4. Abstract The average heat conductivities of samples of chalk, limestone, and cal- cium oxide from chalk used at USSR soda plants have been determined. Formulas for the calculation of the true heat conductivities of these samples are given. These formulas can be used for se 'les of the mater- ials investigated derived from other deposits, if the volumetric weights are close. The temperature conductivities of the 3 materials have been computed. Illustrated by 3 figures. Data are listed in it tables. 7 USSR reVerences are appended, 2 of them to foreign books translated into Russian. Institution All-Union Institute of the Soda Industry  USSR/ Physical Chemistry - Thernodynaiaics. Thermochwdstry. B-8 Equilibriin,i. Physicochei-deal linalysis. Phase Transitions. fibs Jour Reforat Zhur - Miiriiya, No 3, 1957, 7441 Author Ginzburg, D.M. I- Inst :__In~si u ~~o ~ie Soda Industry Title On the Thermodynamic Properties of the Carbonates and Oxides of Calcitzi and MaViesium Orig Pub Tr. Veses. in-ta sodovoy prom-sti, 1955, Vol 8, 103-1o8 Abstract A critical discussion is given of the literature data concerning the heat effects during the thermal decomposi- tion reactions of CaCO and ,IgCo . The most reliable values for .HO, )3 SO w2 SO for CaCO , CaO, I Z( , 3 Mgco 3 jp and MgO are tabulated. Card 1/1 - 79 -  Category USSR/Atomic and Molecular Physics - St4tistical ptysics. Therinodynamics S-3 Abs Jour Ref Zhur - Fizika, No 1, 1957,No 854 Author Gin4urg, D.M. Title -.-Off-uire~erm~odynamic characteristic of NaOH, Na2CV3, and Na2SP4 at High Temperatures. Orig Pub Zh. obshch. khimli, 1956, 26, No 4, 968-970 Abstract No abstract Card 1/1  USSR/Thermocynamics - Thermochemistry. Equilibria. B-8 Physical-Chemical Analysis. Phase Transitiona. Abe Jour Referat Zhur - 1(himiya, No 6, 1957, 18443 Author M.M. Popov,_P.M, GinzbUrg. Title Specific Heat of Na2COI, Na2S04 and VaOH at High Temperatures. Orig Pub Zh. obshch. khimii, 1956, 26, No 4, 971-980 Abstract The mean specific heat of chemically pure Na2CO3 (within the range from 20 to 1106.60), Na so (within the range from 20 to 1017-10), and Na6H twilthin the range from 20 to 742.80) containing 98.79% of NaOH, 1.2% of Ila2Co3and 0.01% of impurities was measured by the me- thod of mixing in a massive calorimeter. Equations are given for the comput&tion of the mean and true heat ca- pacity (specific and molar) of these substances. The melting heat of Na2CO3' Na S04 and NaOH were computed and they proved to be _73Z -5770 and -1629.3 cal/mol Card 1/2 - 149 -  SOV/ 137-57-6-95Z6 Translation from: Referativnyy zhurnal, Metallurgiya, 1957, Nr 6, p 29 (USSR) AUTHORS: Novakovskiy, M.S., Ginzburg,_D.M,, Ponirovskaya, L.I. TITLE: The Solid-phase Reaction Between Calcium Oxide and Aluminum Oxide (0 vzaimodeystvii okisi kal'tsiya s okis'yu alyuminiya v tverdoy faze) PERIODICAL: Uch. zap. Khar'kovsk. un-t, 1956, Nr 71, pp 103-106 ABSTRACT: A thermodynamic analysis is made of the reactions of formation of CaO'Al?_O3, 2CaO-A1ZO3 and 3CaO-AlZO3 from CaO+Al?,O3 in the solid phase. As temperature rises, the first to form is CaO'AlZO3, followed by enlargement of the crystals and an increase in the amount of compound. When the crystals attain a given size, the formation of a new compound (apparently 5CaO-Al2O3) begins. However, at all temperatures, the end product of the reaction of Cao and A1203 is 3CaO-Al203' S. G. Card I/ I  GrMURG, D.M.; MITKWICH, N.D. Theory of the commervial production of sodium hydrosulfide from gaseous mixtures. Uk:r.khim.zhur. 25 no.1:129-133 '59. (MIRA 12:4) 1. Aharlk-ovskly nauchno-iseledovatel'skiy inatitut oanovnoy khImII. (Sodium sulfides)  5W SOV/76-33-3-20/33 AUTHOR: Ginz,,b,urg,.__P. (Kharlkov) TITLE: Heat Capacity and Integral Solution Heats in the System N&OH - H 20 (Teployemkosti i integrallnyye teploty rastvoreniya v sisteme NaOH - H 20) PERIODICAL: Zhurnal fizicheskoy khimii, 1959, '101 33, Ur 5, PP 1087 - lo92 (USSR) ABSTRACT: The author points out that the characteriotic values mentioned in the title have hardly been investigated for high concen- trations and high temperatures although these data are of 0 importance in technical practice. C P was measured in the con- centration range of from 60 - ~O weight per cent NaOH and at temperatures of from 322 - 750 C. The data are shown in table 1.Hence it appears that the heat capacity of concentrated NaOH solutions is similar to that of NaOH mc-lts. A foriaula, for C P is derived for high concentrations. On account of the comparable data on heat capacities of dissolved and melted NaOH it inay be assumed that the st.,Licture of -oncentrated NaOH solutions is determined by the stracturf, of the melt, Card 1/2 The water molecules are distributed -~,ithin th-is E;tracture. The  Heat Capacity and integral Solution Heats Iii tho y:,teia SC,7,176 -33-5-20/53 NaO11 1120 integral solution heats of NaOL - H1>O ~iure caLulrtted for 0 the range of frout 50 - 350 C. F41-are 1 IAlowu th... j:%)the-vaul lines of the dia raw enthalpy - co,,;cezit,L-itio~, -n system 9 L NaO11 - 1120 at 25 0, 93-330CI and 322eC. solution heats are shown in table 2, the tQ VIP OM L Ul"! COk' ~Z'i C 4,0. 1 t.3 in f1gure 2. The temperature coeffirient. b(Avieen 30c, -,0 )50' was not computed as there occur p"I:,se this 'Ve.-aperature interval. The vai,iatioiio of f heats follow the laws for ruhitivoly at temperatures up to 75'c fourid by fi.. Li. Ka,-,anoiich and K. P. Mishchenko (Ref 8). With a coiicertr-ition increase of soda lye from 08.68 to 100 mol NaOH/ 106D g the of the integral solution heats becoacs positive. There a--- 2 figares, 2 tables, and 13 references, 0 of which are Sovict.- ASSOCIATION: Nauchno-issledovatellskiy Institut 11CM M r I kov (Scientific Research Institute o-f stry, Xhar1kov) SUBUITTM: July 10, 1957 Card 2/2  50) 06222 AUTHOR: Ginzburg, D. V., Candidate of Chemical SOV/64-59-6-14/28 5cieic'es TITLEi The Thermal Conductivity of Lime Obtained by Roasting Lime- atone at Different Temperatures PERIODICAL: Khimicheskaya promyshlennost', 1959, Nr 6, PP 510 - 513 (USSR) - ABSTRACT: In a paper published in 1954 (Ref 1) it was pointed out that rocks of similar specific gravities coming from different deposits possesealso similar coefficients of thermal conduc- tivity. Limestone from the Golubo deposit and chalk from the Golosnikovskoye and Raygorodskoye deposits as well as lime obtained by roasting qolosnikovsk~yt chalk were investigated. The thermal conductivity coefficients of lime obtained by roasting chalk, however, are different from those obtained by roasting limestone. In order to complement the data given in (Ref 1) the thermal conductivity coefficients of lime obtained from Gdulookiy'. limestone were investigated in the present case. Lime was obtained at different roasting Card 113 temperaturesand had been left in the furnace at the same  06222 The Thermal Conductivity of Lime Obtuined by Roasting SOV/64-59-6-14/28 Limestone at Different Temperatures temperature for varying lengths of time after roasting. The thermal conductivity coefficient of lump lime was determined according to a method previously used (Ref 1), which had been dev6loped by the fiziko-khimichookaya laboratoriya NaUchno- issledovatellskogo instituts, ogneuporoy (Laboratory of Physical Chemistry of the Scientific Research Institute of Refrae'tbries). A description of the apparatus is given'in references'l and 2. The lime samples were obtained by roasting (at 995, 1025, 1125, 1200, 1250, a~d 13500) cylindrical samples produ6ed by turning limestone. A laboratory shaft kiln (Fig 1) was used. The temperature was controlled by means of a platinum/plitinum-rhodium thermocouple connected with the apparatus ERM-47- On the basis of the experimental values obtained equations for the calculation of the true thermal conductivity coefficients of the sanples under investigation are given and the following generalized equation derived: At 1.011 -'0.066-104 t + 1-513010-3 7. (where Xt - true thermal conductivity coefficient of lump lime obtained from Card 2/3 limestone at temperature t, I - specific gravity of the lime).  06222 The Thermal Conductivity of Lime Obtained by Roasting SOV/64-59-6-14/28 Limestone at Different Temperatures It is recommended to assume I - 1600 kg/a3 (corresponding to a volume shrinkage of about 10%) in calculating the heat of lime production from limestone on the basis of the above equation, while formula I - 0-79 - 0o00049 t (Ref 1) should be used when lime is obtained from chalk. The thermal conductivity coefficients of lime obtained from limestone of four different specific gravities were calculated and the following tables given: Table 1, characteristic data of the roasting process, table 2, temperature dependence of the thermal conductivity of lime from Golubovka limestone, table 39 comparison of the results obtained for limestone samples from the above deposits, table 49 thermal conductivity coefficients of the Gblubovskiy limestone at various temperatures, table 5, coefficients of the thermal conductivity of lump lime. There are 2 figures, 5 tables, and 6-references, 5 of which are Soviet. ASSOCIATION: Nauchno-isaledovatellskiy institut osnovnoy khimiij NIOkhim (Scientific Research Institute of Fundamental Chemistry, Card 3/3 NIOkhim)  GINZHURG, D.M. (Kharlkov/' - I--------- __ Thermal properties of N&OH and H20 in concentrated sodium hydroxide solutions. Zhur. fiz..khim. 36 no.4:747-751 Ap 162. (MIRA 1516) 1. Nauchno-isoledovatellskiy institut osnovnoy khimii. (Sodiuj* hydroxide-Thermal properties)  Dorl!iiil'y 3v4y  of" 0 C, Rick t c7; I o1A c ale-1 L) t (--. 1'Ok", irlsLI Ll1L  GINZBURG, D.M. Lensity of soda-potash solutions and the vapor pressure over them. Zhur. prikl. khim. 38 no.1:55-58 Ja 165. (MIRA 18:3) 1. Nauchno-issledovutell8kiy institut osno-,rnoy khimii, narlkcia.  GINZBUPG, D.M.; PIKULINAY N.C., LTITIN, V,P. Systat NH3 - F2S - ltO. Zhur.prikIAL'tri. 38 no,9-2-117-2-119 S 165. (M:R,~, 1. institut, o!jp,),,,n,,)y khimii, Khar'kov.  GIINZBURG. D.M. system hH3 - CQ2 - H20. Zhur. prikl. khim. 38 no.10:2197-2210 0 ,65. (MIRA 18:12) 1. Nauchno-isaledovatellskiy institut, osnovnoy khimii, Kharlkov. Submitted May 27, 1963.  GrNZBURG, D.So -wl',~A",,--.- I - , wijdhema nodong as a trichophytid. Vestderm. i ven- 32 no*5973 S-0 158 (MIRA 11:11) 1. Iz Vologodskogo oblaotnogo vendispanserR. (IMYTHMO)  GINZBUHG Clinical and histological aspects of Darier'n diaease. Vest. dorm. i ven. 33 no.2:25728 Mr-Ap '59. (NM 12:7) 1. 12 Vologodslcogo, oblastnaip vendispansern (glavnyy vrach Ye.K. Snvaahkevich). (MIANSIS FOLLICUTARIS, case reports, (%a))  GINZBURGO D. S. TrichoWconee and their pathogens-in Vologda Province during 1949-1958. Vast. derm. 1, ven. no-3:71-74 162. (MIRA 15:6) 1. Iz Vologodskogo oblastnogo kozbno-venerologicheakogo dispensers, (glavnyy vrach Ye. K. Savashkovich) (VOLOGDA PROVOCE-RAIR-DISEASES)  Ut:Lll""c'~~ (" !'-3-1t "i .'.:. , l.", -. ". t , -.~ i : --I , , 41 ~ I nriv,-;? i~,;*~. 2 . " 1j; lj~l - -- - a I - I - -... .. ../." t P.  0 see 0 0 a 0 0 o 0000 a a 31 m 0 JO 31 11 V a A 4 0 -A, (9 Imp -A__*,__JI__A_J a Ago 00 - 00 Abd. Vjswk, An. Aid rj ki A o A 1, 143 f"604).-The adsorption i l 4 b awl v ty Q t, imh and anthracite coodo. and coke of ~00 O.Z.V4.6 Wes dc#A, with soins. 4)f to in KI and with 00 og, a fluklic The samWe (I g.) wat -hakrn in a cloard . 0 :.'w . vowed comats. III) oc. of the soln.. allowed to stand -00 f, kr, WA 36 ask.. mobawn migain and filf'r"I. Theti"t 0 t kW of Mrsts vowe di%-ude4f. Init the irmainder We, .00 00 usedforflUstim. Acleurptiom follows x/w m NC-. X .409 00 dreFrowirs is tin following otdcr- peat; btown coal: mthoacks Diff k i ) 09 J1. . erences w metts actum and themet" remilts (an Within the md. ctrors. H. Z. Kam6ch 00 400 60 go go a x4p '00 00 0 1000 1.4 00 0 0 Z3 S', ct-- floe It - 1200 u "" " a R 0 it 09 KLO M I to " " ' d" i: o 0 o go o o o 0 o 0 0 0 a 0 0 40 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0000004 0 0 e 1 0 0 a 6 0 0 0 0 a 0 0 0 0 off 0 0 0 0 00 of 0 0 0 0 0 * 0 0 4 l  it 0 It I) b j0 is At IF A )v of U It A a v It p 6, 11 14 to It 10 1 -4 11- fl U-". AA N M 0 It to h a I-- adewp6m, 9dubilily and Wital 00 N. F. Hirnsulortilto and D. Z. Gimburx. 1 ' 917 nth WIth t J1 831 3 U S S .00 -4 ra- ).- a t . . i 1. ( . .) 0 , Wic MM (3) Slow Firwitimis me quite conwim In %A. -00 v"Ka * of 2 OMMPU"r contpoica"m (CjgrccLl tv at I pdv ad 11-mompabir curup3morm-IFUb-CO.i 00 a tbr a W of I wwy invormly. "I , i oo 4 1m tu PhNI !-00 - 113 v ol nic rr C, dow vim I* tlw vahw, 4 111.4t 1.,I%1 vww., l1w,1141111i, -00 00 1 it, A mdAlmolowly Imillirl .00 (vow of I truo" olhord Siltv, -it, tmill"o-11 ld a J.dor Atilt floo 47111110111111MI. 115C laffror Orcling Ow p4drity of The Am (RION-CJ10. dirmich -4 tosin. L in %wh zoo 4'"m iftmamors with in lbraml, of I.Jar "wil- 409 00 j 'lent In the nu%l. In it toolit. )f 11, lily,"1411v pgal mjvrtll. 00 j like 110011-1110 and WiCO-RiOll A itud L va, y iuvri,ly, COO zoo 00 v of 00 Ir XO 0 *0 so 1 4 600 ago 1110 0 too 0 ~ 1 too 1.00 so A L A 24 ?&LLUrGKAL LITFNATWMI CLOV111OPKATtOm ties : 40 boo 00 7-- v J.t oo U 11 IV `0 0 " " " AM I a Od 0 0 1 w Im 41 a 1 0 9 . 1 to 0 0 0000 0 4 T I " to, to is a a A w a I 0 0 e 0 0 0 0 0 6 41 so 0 4 0 r 0 0 * 0 0 0 0 0 0 0 0 0 * 0 0 0 ' * 0 o 0 6 _o s 0 000 gig 0 090900900-60 a 00 11111 0 a 00000 goo 000406 a goo 0 ,  03, o A 00 00 W : W-W-W W-W i~oseoooooo 00 000 0 v WT 0 ooo:::OOF n is 1, 1 b A )? JS It 10 11 JJ U R 0 It It A, P W of U $1 0 c a L-A-A-Y-Q- 1- -14 M CC LQ Ct b Ott AND jbP-009ta) J-10 0 00 lwwumw of 16 '91 itpWc adds for their 00 adesiom hm mdud aaeOlila. N. F. Frmaleako and D. -00 04 r Z.,04,!M CoUvid J. (U. S. S. R.) S, 263-70(Ifk%1r.-- ; ~C 00 ~ c f. 6117-Adisieption by wood charcoal from 00 -6sA,, eh--,,4% 0H. ' ~ 00 a . lic I. 1 . a Y W"- -00 loo a sew it iW New from Him to C41116 anti MO. g1j from milled solvents Ftoll + C1119 xhown .00 them Is neither max. not min. In th.- rurve 0 4 altoollptilm front the milti:- CCI, 4- C.11. and 11,0 1- - . -i -4 ( MOIL S li il O V 11 l I N t t ai woo "t Ott "' I"I'l a v l . , Ao 11"1., 11.41 0 :: :0 t DITALLURGICAL UTINATIONE CLA111111PSCATICON 04; BID., i -- 11110 16146') Hip ONT Ou " , - 9 . . u AT 03 As I 0 a & to or At 9 u I a coo ?zoo 1000 411111, 0 '00 boo t:9 RIO tie 0 to 0 .04.. a.". a.- &I. -i ~ loo NO AN -1 TTEW ,Q~ 0010660400600009600066A  4, 41 CA- Sweillog al vuk&Wxod rubber to mixed media. N F. Frniolenko anti 1). Z. Gintlitirg (Ac:0. Sci S " R . N S S .1hisk). KpIlvid Aw IS, M!-7(11V~O V41ilird rublwr nwilt at 143' Inwi mittural nibl%r I'll', S i 'roullestsate K-l" I2A, aldol 1, Z110 :1.%, C I'LIA :0~. ~ Ii., I L .111) o"Ific&V41 1, And PPW I.If !.1 1-40-. 1 -'k 111', .61 W. :1 1 voi 4 M., 21 7 C.1 1.. 4 .1% v I I CI. 110 1 It l"1011, tw 1 41 -1 Mr,Cf ) Thr -Irp-ndri., I, M Ow %,J vikr-ii III, ..I. Ili,- -) qvm~tl if I'mairy 1111,11, of 111- -jj"Jf~ loo-iis .... 1, rhir CCI.-C.110 III Ilit- other 116t, , 111C 111.4% .%~Illlfox ..I. ditliorr (hr Ialtaller 111V listil of Ifir 111111 Th, flotc III allainme"I of eflolil wao Kirral In CJlI, %inallor it CCI.. and IIIIIAllef still III ClfCl, ftlid MtCO, is.  777 &DIDetisturtflon,- of vegetah(el protelni; b* IcAo and D, mff 0", Z. Gimb-irg. Avelf-f -Tt fuss, S.S.R. L933, it VISCOOty, the degree of asymusetry, 6/a, caled-ftom the viscoity, were detd. of GA-1.0% proteirt', ~olns,. of Lupli'm Wtus betom and alter - the addns. of 24Af urea, . A i~orvktc. bufferi pH 10.0, was used a3 tht solvcnt. The viseomSty of the adims. was increased after the addiis ,of urea, butthaj of asymmetry was practically without change tip to' the urea addii. of 4Af ottly wh, '~n the (bla Protelus were denatured by OAt urea the bla InerrAged, Alghtly times). The urea-denatured protehij~ adsorW more azobenzene than the nxtive protelm. the', ad"ptlon was the greatest whea the urea Wit. was 2M R. Wierbi  lion -d propertiGs of the bituminous on t tar, N, I'. Bruloicliko, 1', N. No%.I. *kova. and Ve.ifsi Ak4j, Na,,Uk Dejorut. S-S,R. 19 o, , -Utilitati.)n of Peat tar (1) (tile main waste Product of tile V 9-9ttlexating ovens Operated In glas~fnduslrial Plants Of White RusMa) a, the MA-building mat"", asphalt, is thoroughl)rdiscumed, I clintain Water 4-85, I;Sht Oils (11) (the fraction dimd, at 100-M') 1.45 1 0 Intermediary off (111) (171-22701) 20.N, bravy oil (211- BM*) 1120, anthiartut tit (101-3M*) 34.21, phenot- (TV) 13.1. naphthalene 0, and coke 21.1270. For the production of tile asphalt mattrial the amts. of water, 11, Ul, and IV were reduced to 0.6, 0.12, 10.14, and 2.40%' rest)., by re- imoving the fractions dL4td. at 1000 and 25P. The them, covipn. and Phys. Properties of tile asphalt matcrid prcpd. In this way from I resetuble tliu,,,c of the raw material I prePd. frotti coal tar. Applization of alkalies, salts of org, acidg, !"Ilde's, lecithin, choles cml, rosin mups, s!11-fite P!!'P.:-- alkali mixts, camin, and suffitized ails anti fats for theprepni 91 bituminous emulsions Is de".J.W also, E. VAerbjSt"   iefergem!v Ind Ch 0 sic Y Gininug _(In, Ollass of the Profem '-1, V*- ty, 1. 91 0.5-[:D% 3q, by, deter j "WI 4Ffaaajf#;"j' " in n 21 and the d- C"'se(l Cf Uylumetl from- the IW4 from 0 1' by 2.5% YL'njl .2-0 to, 0-g" 9.4 1 th-mHaftme 2' a If in " nd 8-8 by 1047. Naoll), while b1,1 it, Ri I d the bla to nb,,t 10 (11, 0-%v '"t" prate- of bru. Qrc CO"Cd- was lk little Smaller. - 'd Irllovr UfFA, they adsorbed ' WeTt denatured by t"In' Qmd the .""14"benzene n-vm than the xativt! prG, 'Aas 2,11'. , The . . je 1 6/,, a, t 0 "2 MIttst when the UrQ sclln Almost t%mf"ll fil pratein3l f b"te and tj1atrcGd(bYye1G1Ojw( uturupne 1-2 when the Proteins were denatu J. -77 'ERX S Of I ~0111~ MR W-NOW nm'_;tr~ WO m Ems-  pt frol( "-tipp 'Pith 'u" 77- i 15% and uc: NA "TIcna cagoilI IC. ul~L,  (telas Itt cellucia to their . F. Urtnuleako atid D. Z. G freitsi Acid. Nacuk ) ' 11 l S S R 41T k 1 ~w S 5 aras ., c ' " : lavu . I 9 0, No, 2, 91-13 A Wusjla~ Summary), - -41rott III mnlple~ of yeflow 1UPIlle (1), blue JaPine 00=1110,:und cmgcht (IV) (refermice sull- - A gance) wcro a t v, itta U400,M4011-M 9H 10.u buZer in theattitst. from 0.0025 to O.OW-4),0125 g./cc. The golus. were thta tmted with 0, 9, 4, ac 6 =6./L of Ifea; i i hi f l d b e K s was owe llary. s ttris, t Gl r their rriatiw vis- y cap emitics (v/ix), The dewturation degme of tile Protein by urm was.thetA -found h~.wlcg- the bla'rittio (the degrer- of asymn IIctry d the sor ocittin macronioN. whe re the Lar ge nxi,; and a -, the Small axi3 of (lie singli. ellipsuld (if tile pru. tvill by tile equalilons, I/ja -I - (2.5 + - (q/qal - 1)/te - No jind op - w, livitcm jP - vol. Fractiins of Ow, "Illbamice heing (16,xilvvd. I, - llarti:111sp, vol. III tile "uthtlince III ct'jg., 'r - C4141cil. 14 tile d6vskvi mth~tancv d K CaLcfl frIlm tile W ks b Sinih I j a n g,/tv.; itil - y l P l-), 111c b O 34, 11 la NO) invitnisu for prottin:.., - collens. ants with theconcil. (of Urva. llorv~ zero atal 0.11 urca III the (jr;jtcin scoliss. the degrcc (if Myla- i Inctrv, blis, far tile protcho isarrang(I jit dcmaviog ortlix I HIM anti 20.6, IV 13.55 unit 119.45, Ill 10.7 anti and 11.0. rols. A vionp;irium #)f i1w w0l. 14.7,and It (3- 1301141gical pro1wrti4:4 of artificIA fifour!, Kaflit-11 11,11I) It anti III 414114ZAte that tile 11111M.Ir iltivilgth i-i dirco:tly rcha it w tile ristio ut t ht., U.;Cd ns ills ilkslvN for preiliaillij tile tedilloAt'Xii-A puIptak-s (it artificial filivrs mmmid, from diffmin imttvinti, JS rckr- kI, '5, A  GIIIZBUPG_,_ D. Z. _, and Y MAIDLEITKO, N. F). "Chw-~L,~,e of the 'I's.-,"Mrlctry of Molocules of Vr!g"t.,_)b1Q Alluu-:!Ins lh-dt,!r the Influarcc of Denat zinc D",jr)turvices" (IzrwnenJ.-,7c! usirx:,42trii moi,~,!-ul belIkov pod vliyeniyem denaturiruyushchikh veshchestv) from the book TrLudy ~f -1 the All-Union Conferencc on Colloid Chcni2t I V IT 397-409, Iz. AN M-7-wy ('13oport t,-,J.vcn aL obove_, Coufcrenco, MJnsk, 21-)1 Lk-',' 53) Yerraolonko: Act. I,rlor. AS MOR 7  i_ GINZBURG, D.Z. Relation between the structure of chemical compounds and their toxic effect on the zooqporeLqgia of Synchytrium endobioticum (Schilb.) Perc. Vestsi AN BSSR. Ser. biial. nav. no.3:31-38 160.. (MIRA 14:1) (WHITE RUSIIA-POTATO WART) (FUNGICIDES) (BENZEM)  VA .; -"1 11 - I pro Ic tj I le A ug  L 31070-`x~' F-W f-, L-4 AC(,'h'FSI0N IJIR: AP5006016 3/,-),~iii/641/0()7/006/lobi/ioh8 AUTHOR: qj Ginzburg, E. 1. TITLE., The problem of the pro agation of strong radio waves in the inag p SOURCE. I VUZ- Ra&ofizika,'v. 7,-no. 6, 1964, 1041-1048 TOPIC TAGS: ~J distribu- electric field, magnetic field, propagation vector, electron tion function, polarization, ordinary wave, extraordinary wave, dielectric perm-a- bility ABSTRACT: The equation of the electric'field of a wave is based on Maxwell's equa- tions, and special equations are developed for the wave propagation vector and the electron distribution function. The equation of the distribution function becomes simpler when polarization of the field takes place. The solution of the equation of the elec tric field depends upon its parameters. Solutions are possible for ex- traordinary waves when their. frequencies are neer that of the electromagnetic field and the condition of gyroresonance is fulfilled. Geometric optics cannot be applied to strong waves when the imaginary, term in the formula for complex dielectric per- meability approaches one. The formulas developed here are applicable to the ordi- nary wave when the wave frequency is greater than that of the electromagnetic fieldo Card  %.ord  FWRUS: IYUZ. eadlotlzlilal V. U, no. 4, IU55, U26-627 TOPTO TArs' n7-m,1 nh--I~n homogeneity. ABSTRACT: I s*mngIr the presence of a magnctic fie'd pvoceaus a` th jilLff-M-1-0in'Ln- -ay I a L_ L L e rate of the slowest particl~_s_(_electrons or positive ions). The electric field arising as a result-of the difference in diffusion rates of electrons and ions hind"! ers their separation. The presen .ce of negative ions, therefore, can noift0abIv change the charaeter of the diffusi6(.i piocesn. Althoup ,h the influence of nega ive ions is conniderable in -the lower ionosphere up to about 60 km altitude, it has not! been taken into i'account in works on diffusion in the ionosphere- To solve this problo-m the authors use a method similar to one proposed by A. V. Gurevich in 1963, Card-  L 6311-3-65 IACCES-SI-04. -HR-:--'-'AP5020373 if the concentration of pdrticle$ changes little over the Debye length and during the period of the mean free patn of the charged particles, macroscopic equat'lons call be used to describe the diffusions of electrons and ponitive and negative ions. A linearized system of these eq"tions together with the equation for the longitudinai' lelectric. field is solved by an expansion of.the functions in a Fourier integral. ;The authors &erive expressions for ambipolar diffusion (when the diffurlon process Aproceeds primarily with a compensated plasm-a cbarge).and isotropic diffusion. The f-ffec- which negative ions have on the diffusion proce.4s is deternined. Orig. ar..-. has: 10 form, ulas. ASSOCIATION,. Novosibirskiy elektrotekhnicheskiy institut svyazi (Novosibir-sk Electrotechnical Institute of, Commun i cations) SUBMITTED: 15Dec64 ENCL).- 00 SUB 'CODE; 003_ NO Rtr SOV, OTHER: 000 J~rl .2/2  LYAGIN, I.V.; Hn~UR.G F,,Khf-_ Z+ --#P -+- e+ -* 0- and f, - --* p -~-Iq * -*/~- decays. Zhur.ekBp.i teor.fiz. 41 n6-3:915-918 S 161. (MIRA 14:10) 1. Smolenskii gosudarstvennyy pedagogicheski;r institut. (Particles (Nuclear physics))  IIIANOV, E.A.; VIDMEM, L.P.; GBIZBURq,_q.L.; WOM, V.B. Tectonic development of the lower Paleozoic of the southern r-rt of the Siberian Platform. Neftogaw. geol. i geofiz. no. 10:12-15 164 (MIRA 18:1) 1. Gosudarstvennyy trest po, geologicheskim izyskaniyam na nef'V v Vostochnoy Sibiri.  S~-"'S(VOV, V,V.; " I I I .~ Prospe(Aing gas f ields in the Irkut3k omphl tnea'r:~. N'ef truat.. geol. i goofLz. no.10:22-25 16 ~/ 1. Gosudarstvmnyy trest pc, na -.1-ft, .1 v llosl.ochnoy Sibiri.  GIW,BLRG, E.L. Krivolutskoye swell-shaped uplift is a new zone of possible oil and gas accumulatlons. Neftegaz. geol. i geofiz. no. 10:3-6 165, (MiRA 18:12) 1. Treat "roe t9 ibnof tegoologlya".  EXCERPTA YEDTCX 3ec 16 Vol 7/9 Cancer Sert 59 3906- Malignant pancreatic cysts and their X-ray diagnosis (Russian 'text) BRAITSEVA N. N. and Gmzjiuito E. INI. Min. Mcel. (Mark.) 195-9, 3604 (81-85) Illus, 4 A mali nant tumour is found in 9% of benign pancreatic cysts. According to Ken. nard, a1X)Ut 25 cases of malignant pancreatic cysts have been described up to 1940; 2 report-, on this type of tumour were found in the Russian literature (i~,,35 and j9.18). The authors give a detailed description of ~a additional cases. In bot i, the clinical picture, and especially an exact X-ray diagnosis, arc presented. Both cysts were examined microscopically and recognized as malignant. A survey of the X-ray symptomatology of pancreatic cysts establishes that the diagnosis of malirant pancreatic cysts is only possible throufli close cooperation between the clinical physician and the X-ray diagnostician. rhe Freatest attention must be paid to the natural history of the disease, which can give indications as to the malignancy of the process. BrUckner - Ustrava T I do  GINZBURG, E. 14. Hadiograpky of the temporal bone In a Stenvers projection. Vest.otorin. 21 no.4:84 J1-Ag '59- (MIR& 12:10) 1. Iz rentgenologicheskogo otdeleniya (zav. E.M.Ginzburg) Moskovskoy gorodskoy bol'nitay No-58. (TZIVU?AL BONE--RADIOGRAPHY)  C,T!IZ]31JRC E.M. (14oskva, Ye-24, 3-Ya Kab--llnaya, 3. kv,131) fe-nangloma of the diaphysis of the humerus. Vop onk. 8 no. 10: 81,-85 '62. (MIRA 1717) 1. Iz rentganologicheakogo otielenlya (zav. - F.M.Ginzburg) Moskovskoy gorodskoy bollnitsy No. 58 (glavnyy mich - dotsent Ye.Ya.Khosin).  GINZWRG, H.H. Five years experience with the use of an obturator-adapter. Wach.delo no.l-.1.48-149 Ja 163. (MIRA 16:2) 1. Rentgenologicheakoye otdeleniye (zav. - H.M. Ginzburg) Moskov- skoy gorodskoy bollnitsy No.1;8. .-. (F104&)  GITIZBURG., E.M. - Excessive develorment of the mucous membrane of the stomach. Vostn. rentgen. i radiol. 38 no.4:71-73 JI-Ag'63 (MIM 17:2) 1. Iz rentgenovskogo otdeleniya, ( zav. E.M.Ginzburg) Mookov- skoy gorodskoy klinicheskoy bollnitsy No.58 (glavnyj, vrach- dotsent Ye.Ya. Khesin)*  ~ M.-'~, - .-. 1'.,V-Aillii6 . H ~ P! Cs 1. eob! 11, !, IV: hype: tloipt, rr,,,~ (I cancer of t!,,! 29 ric~.3~49- 53 fly-je `64' kanii, 7.;---d~  G11MURG, E."I., ;-.,_~d. (Processing of liquid wedia; papers of the Scientific Re- search Institute for Fertilizers, and Insectifugesl Obra- botkfl zhidkikh sred; trudy NIUIV. t.k,;;1-va, Laboratorii na- uchno-tokhn. informatrAip 1962. 62 p. (MlRA 17:4)  GINZBURG, E.N., kand.tnkhn.riauk Comparative technological charact,3ristics of' band and trough vacunm filters. Khim.mashinostr. no.2:9-12 Mr-Ap 164. (MIRA 17:4)  t r 1 t-Y of :'-,"'A 17: 12 161  om.1 P, bUlty of M.-I St~m P- Pleat%; Colle-~tlcn at Art-les) 15~59. LZ6 ;, 2,1M -pi.. pmnt.4. Ed. (TI tl. pw): 'Z-3. t-eran--. C..Ud.- f T-!r.;--.1 Sa.o".; rA. (1-ld. book)L IT rr1ko-kiy; T-.. M: 3.1. IV.'J'6Z: ThIs toLl-ti= af o-IclAs Ls sntemded ror -~cii-ucai pere-i or p-r ft&-I~. TC-r -W--y ;1-t2. end stintirle r,*- lmtlvjts. 'Me ar-Acles set f~r-h -tv m-Its at I-stles-Ims ~r, tevlot*L-~lc!:vfklrluAtlt~t L-rd F.S. 2%-Tlll~kc,92 (De;ftx-~-t or Xrt&ls of UA &U-Umlor %-mt Frr1r-ri~4,"tlWt# L-L F.I. Nar=l~klr) Ln tto 7- 1~5~57. ~me ertlcl.s d-1 elth I-h* PrItm of L-ts;.tl~4 - tT,-. of teel -1 of th, f &-." . -- --I= ;.r-s or P-- V:,-- ?~.bl- -6-1.t.d Kith --l-LA hiL'.-7 of "Id~d zimte Lm 1~ 2ipim4 for !~Ijm ~! extre,high ;-s- ba' lf~ QZe U.", oed. =I. reNAlt. of Lm--stlgstt~ of 417 rmonre, ~bom-U~4" or ~tllx -de, Algh t-permt- :L-,. T--. ---s far -jr- -4 t.0-.h- .; t!~--!-A =d I.r tl-,,. ;k-,- .. . ... R.f-ol- --p-Y .&Ll&-l D.W., . - - -A C T Oz BrIttle Structure m.nd ?r~dertlej of Vtl- ~Ms St- Z-1plU I? of, of the copl_ St.. of p%;- f~l or P-cpertles or Cu-wr.W-Tr,;, 15Ahj~tLl T5 I-X-, NO r-l- Fed0t~. On the Iffect of Tcxjpemt~rs Chmmg- -.be C~p strvwb as 1232,MF st"i D-I.. -d or tb. D.M104 D-t or UW st Chiaeelt"L = I-A StT=t~ Sol a . 39 MA '-Z. E&g=toW. TtA AbIlIt7 of lkt&U for P17 Prvss~) 97 &-A X-X- lftmts- 031do-Film BmAlog of Ccnj-Agnt*d Wt.U-. ?.,t. T.3., F-Um of TtL-del Joiats r,,o Saj.~ eod 3.1.4 Tc,=,r L15 VA=AZU: Llb.-7 ar Coog-  (7 1L'Z CS toc' 6; Z's'- tag JIV t, -5 i 54 CV v VIP 92 vr. If  3/1-'7/6P-/000/004/097/201-1 A0521AI01 AUTHORS: Vidman, D. N., Oinzburg, ),;. S. TITLE: The dependence of the dnniping decrement of ,;tainless chi-ornium steel oil the o'ructurc 5tate and mechnnical propev(Aer, PERIODICAL: Referattvnyy zhurnal, Metallurglya, no. 4, 11'02, abstrac 4 j ~ 26 t 1152 (V st). "Ek.,;p1iiatat3. nadezhilo.-O.' inctalla parosllovykh ustanovok". Moscow-Leningrad. Gnsvyiergo.l:-dat, 1959, 89-97) TEXT: The damping decrement was determined by the data of measurement of the amplitude of free oscillations at bending the steaw turbine blades. Mechani-. cal oscillations imparted to a cantilever-fastened bladoviere then trans orme In electrIc ones by means of an induction pickup and recorded with a loop i oscilloscope. Maximum bending stress at the root of the working part was 350 2. ade of material corresponding, by the Chem kg/cni More than 200 blades in, IC&I composition to I X 13 ( IM13) and 2 A 13 (Mil 3) grade:3 of steel were Investigated. Out of the mentioned bladed samples were made which were subjected to mechanical tests. Furthermore, an investigation of mlcror~tructure of blades with different damping decrement values was carried out. Tile presence in -the structure of Card 1/2  3/1-17/62/000/004/03-7/201 The dependence of the damping ... A052/AIOI excess pha5c6, - rron chromium ferrite ov Vvn,e Cr ony-WrIoi nt-, the I)oundnilJoili of grains, - veducon, Lhe divnplnj~ decrement. A poi-Itte I111tholit exceSS phases SOOLIVeS maximum dvinpIng decrement value; bt , b, v ;, hardnel-;.3 and ~ for blades with different damping decrements practLeally (to not change; ak and Increase with an Increase of the damping, decrement, An increase of Lhe clnmpJ.ng decrement by a factor of 1.5 - 2 (from P 0.01'11 to 0.0391) hrtn Iljtlt a 11A.Lle effect on f;W. The obtained daLa perm!.Ued tho recoLienditilon of the following optimum compost S-, 0.15-- tion of stainlpss Cr slenl for working turbl.ne blade 0.20% C, 11.5 - 13.0% Cr, 0.6 - Ojy, tit. There are 7 references. M. MaWeyeva [Abstracter's note: Complete translation] Card . R/2  61812 S/096/60/000/08/012/024 1-7.61 /000 E194/E484 AUTHORS3 Lipshteyn, R.A., Khaykina, S.E~ and Ginzbur S., - - %, L. . , Te �cal Scien-ces -ZL"I Candidates 0 T TITLEt The Resistance of Gas Turbine Metals to Vanadium2-1 Corrosionit -1:~ PERIODICAL: Teploenergetika, 1960, Nr 8, 9P 57-60 (USSR) ABSTRACT. The use of sulphurous fuel oil in gas turbines is associated with vanadium corrosion of the blades at temperatures above 6250C. Vanadium is present in the fuel oil in the form of metallo-organic compounds and sodium in the form of sodium chloride. During the process of combustion the vanadium oxidizes to V205 and the sodium chloride is converted into sodium sulphate. Tests were made in which samples of steel, 6 mm diameter and 30 mm long, were immersed to a third of their height in ash of known composition. Samples that had been treated in this way were placed in an electric furnace where the temperature was maintained constant for periods up to 60 hours with a steady flow of air. After cooling, corrosion products were removed from the samples, either Card 1/5 mechanically or by chemical means. Tests were made on  81812 S/096/60/000/08/ol2/024 E194/E484 The Resistance of Gas Turbine Metals to Vanadium Corrosion austen tic chrome nickel steel grades EYaIT~ xL-A-U..` 61-612A and nickol-base alloys of thtv r~j--11-1011'1-c typt" see Table 1. Test results with ash containing various amounts Of V205 and Na2SO4 when corroding steel gradp EYalT at temperatures of 625, 750 and 800'C, are given in Fig 1~ At all temperatures there is a clear maximlim in the corrosion corresponding to an ash containing 87% V205 and 13% Na2SO4- Pure vanadium pentoxide causes relatively little corrosion at temperatures below 7500C and pure sodium sulphate causes relatively little corrosion at temperatures up to 8000C. The composition of the most corrosive mixture corresponds to a compound of formula Na20- V204. 5V205 which has a melting point of 6254C. It is of interest to compare the corrosion of steel EYalT with this artificial mixture of vanadium pentoxide and sodium sulphate wxth corrosion obtained under practical conditions, Data on corrosion of this steel under practical conditions Lies surprisingly close to the corrosion rurves with the %lard 2/5 artificial a3h at 7500C, see Fig 1. Tests with the  81812 s/oq6/6o/ooo/o8/0l2/024 E19VE484 The Resistance of Gas Turbine Metals to Vanadium Corrosion various steels were made within the temperature range of 625 to 8000C and durations of 15 to 6o hours with the most corrosive mixture of' artificial ash, As will be seen from the results given in Fig 2, the temperature is a decisive factor and the rate of corrosion greatly increases with tne temperature. Fig 3 shows the amount of corrosion products formed also increased with time, there is often an initial induction period followed by an auto-catalytic type of curve. The different grades of steel do not all perform in the same way at different temperatures and the differences are discussed, The corrosion products of different steels also differ in appearance, The low corrosion rosistance of steel EI-405 is attributed to its 2.5% content of molybdenum. It is supposed that the molybdenum oxide M003 formed during vanadium corrosion of the steel has a high vapour pressure at a temperature of 750 to 800*C which tends to throw the scale off the metal and to bare the metal surface to further corrosion. It is concluded that the use of molybdenum should be Card 3/5 avoided in steels subject to vanadium corrosion.  81812 s/o96/60/000/08/012/024 B194/E484 "'lip Resistance of Gas Turbine Metals to Vanadimm Corrosion The nickel--base Nimonic alloy behaves better than chrome-nickel austenitic ste-~L but i,. could not be successfully used in gas turbines burning high sulphur fuel oils at temperatures of 650"C and above sincel in the presente of the corrosive mixture of vanadium oxide and sodium sulphate, Nimonic alloy has a 12% loss of weight after 60 hours at 7500C and 18% at 800"C. The problem acr-ordingly arose of improving the vanadium corrosion resistance of gas turbine blades of steels EI-405 and Ei.-612 by ~hemical-thermal treatment of the surface, saturating them with chromium., aluminium or nitrogen. To this end, samples of these steels were appropriately treated and the corresponding test result!i are given in Table 2. Treatment of steel EI-612 with chromium plus nitriding gives a :onsiderable improvement in corrosion resistance at 750'C but increasing the temperature to 80otC completely removes this effect and even impairs the resistanse of the steel to vanadium -orrosion. Additional special investigations are Card 4/5 required to elucidate the reason for this effect., It is  81812 s/o96/6o/ooo/o8/ol2/024 E194/E484 The Resistance of Gas Turbine Metals to Vanadium Corrosion interesting that_p ~atinia~il' porcelain and quartz are also subject to vanadium corrosion at high temperatures- There are 3 figures, 2 tables and 8 references, 7 of which are Soviet (4 of these being Russian translations From Proceedings of World Petroleum Congress) and I English. ASSOCIATION2 Vsesoyuznyy teplotekliniclieskiv institit (All-Uni,in Thermo-Technical Institute) ard 5/5  LAGU14TSOV, I.N., kand.tekhn.nauk; GINZBURG, E.S., kand.takhn.nauk Metal for principal models of now power equipment. Teploenergetika 7 no.5:3-12 My 160. (MIRA 13:8) 1. VBesoyuznyy teplotakhatcheakiy iastitut. (steel) (Power engineering--A~uipment and supplies)  3h " 97 S/695/61/000/000/003/005 B139/BIO4 /,P, 57/ AUTHORz Ginzburg, E. S. TITLE: Metal for tu rbines with high and qupercriticaL )team para- meters SOURCE: Gorshkov, A. 3,1 V. Yo. Dorunhchuk, and N. V. Kuznetsov. edo. 11ovysheniye parametrov p ara i moshchno3ti agregatov v teploenerget ike; sbornik statey. Moscow, Gosenergoizdat. 1961, 112 - 121 TEXT: The housings of the shutoff valves and steam chambers of the C-B~(-150-1 (SVK-150-1) turbine for 150 Mw, 3000 rpm, 170 at and 550/52000 were originally made from the high-alloy austenitic steel of type AA-1 (LA-1). The manufacture of large castings from this steel is difficult For this reason, welding together of individual forgings from 90-405 (E1-405) steel was introduced at the LMZ Plant in cooperation with the TsNI1TMASh and TsKTI. The SVK-150-1 turbine has austenite valve housings in an outer perlite cylinder, and inner perlite cylinders in austenite jet chambers. The fltW-150 (PVK-150) 150-Mw turbine from the KhTGZ Plant and th e flBV -200 (PVK-200) 200-Mw turbine from the LINIZ Plant for "he steam Carr J 1  S/695/61/000/000/003/005 Metal for turbines with high and B139/B104 parameters of 130 at and 565/5650C entirely consist of perlitic steels Titanium alloys (Table 1) are used for the blades of the last stage of the k-300-240 (K-300-240) turbine (length 866 mm), To make possible the use of perlitic steels also for 600-6100C, new heat-resistant steels were developed on the basi6 of 12 chrome steels. In order to roduce lique- faction phenomena, the TaNIITMASh is modifying 1~14-5(TsZh-)) iteel with calcium, Austenitic steels, alloyed nickel steels and perlitic steels with cooling are used for the CWP-100 (SKR-100) topping turbine for !00 Mw, 300 at, 650'C. At present, forgings of 3-4 tons are produced from -:) W-612 (EI-612) steel, and such of up to 13 tons from 311-726 (E1-726) steel., Owing to the high coefficients of linear expansion and low thermal conductivity of the austenitic steels, the starting of the SKR-100 turbine is problematic, and additional heating of the flange joints must be provided. For austenitic steels at temperatures of 650 and 7500C, the rate of oxidation of the turbine steels in air lies in the order of magnitude of thousandths and hundredths of millimeters annually There are 7 figures and 3 tables. Table I Mechanical properties of titanium alloys. Legend: (i) content Card 2/  S/096/61/000/002/009/014 Elll/E194 AUTHORS: Lipshteyn, R.A., Candidate of Technical Sciences: Khaykina, S.E., Candidate of Technical Sciences, and Ginzbur4 9 3 Candidate of Technical Sciences TITLE: Vanadium Corrosion in Boiler Installations PERIODICALs Teploenergetika, 1961, No.2, pp. 61-62 TEXT: The authors shov that vanadium corrosion of boiler tubes working on high sulphur fuel oils is appreciable. Results are shown in Table 1 and give comparative data. on corrosion of type ~ ~ I -r (EYalT) steel in 60 hours at 750 OC by artif icial and real deposits. Previous work (Ref.1) suggested that corrosion did not occur if there was no oxygen in the gases. The present investigation was undertaken to study the influence of oxygen concentration in thel&as, Type ~JA-405 (EI-405) steel (0.11% C, o.46% Sil 0.72% Mn, .1 Cr 13.2~6 Ni, 1.36% Nb and 2.5% Mo) was used. The washed and dried ~ mm diameter, 30 mm long cylindrical 5 s weighed and then, while embedded in an artificial ash (gecimen wa 7% V2051 13% Na2SO)+) at 800 t 5 OC, was subjected to the action of a nitrogen-oxygen mixture (up to about 95% 02)- Card 1/2  S/096/61/000/002/009/01)f Hill/3194 Vanadium Corrosion in Boiler Installations The apparatus (figure, page 62) provides for measurement of gas- volume changes produced by reaction with the specimen/ash. Specimen weight changes were also determined. The results (Table 2) show that the higher the oxygen content the greater the corrosion. The results suggest that combustion gases with 3-1+% oxygen will produce vanadium corrosion if metal surface temperatures are over 650 OC and the deposits are relatively high in vanadium. Corrosion will start on superheater and radiation tubes. There are 1 figure, 2 tables and 3 references: 2 Soviet and 1 English. ASSOCIATIONs Vsesoyuznyy teplotekhnicheskiy institut (All-Union Heat Engineering Institute) I Card 2/2  I    BOREVSKIY, Ye.l., inzh.; (LT.'iOVSKIY, S.I., inzh.; GINZBURG, F.S., krund. 7 tekhn. nauk Study of the performance of metal and the -Tistruct!.)n of the glpnd when starting a P-100-300 KhTGI*-' steis, turb-die T-p1c- energet-lka 10 110-10Z13-18 0163 (;URA 1*747' 1. Vsesoyuznyy or.~enu Tnvlovogo tt--pI-,-)'.ekhni2bes- My institut Imeni Darzhinskogo IL Kharlkovskly furbinnyy zavid imeni S.M. Kirava.  BERMAN, L.D., doktor tekhn. nauk; C4,VZBURG, E-S,, kand- tOkhn- muk; DUBNITSKAYA, L.Ye.,, iizh.,- PROKHORGVA, YO-I-, inzh- Operational tests of tubes from aluminum alloys in condensers and 4ater heaters. Elek. sta. 34 no.5:28-32 My 163. (WMA 16:7) (Pipes., Aluminum-Corrosion) (Gondensers (Steam))  4 MI, 0 Is ti a Is w ts is t? 0 -A- M- 0 -2 016octsilf A.* 140016VII .01. 0 ZAIJPI-G~--F 4- 0 S 0 0 0 4 is sea TM am df - Min mod. (t 8 S. R.) to. 1243. (low.. buto. Z -ktCr a review of the clmn. and pbyliw. I"q; 1, MI pr-wli- of WWzmids. lbg mulaxic, epithenaing, wA dixid"ag action o# the carotene-coo1g. prtpus. Vitaderm 0 0 ar~[ Cuuton err PtAnted out, M. 6. Ifoort 90-3 0013 00- t a I aI L a mfTIKL~4k Lin""" MISSWICATION ISO* goo go* see U 9 AV 10 111~ j, j it j 4 it Is -0 -0 - - - - - - - - - - - - - - 16609*1990640e to 69909040006040 go** 0000000&0904090060909  4 6- 6-0 Aj QI. I L t-.,M- I I_X AA All- CC 90. Atkt I..$ k -1hp. PNWJ~_ L-M -M Im 0-19Ti 44~lp lve oo State of Potassium In h b $l V. 0. O uff (-To I IN-1, 11 livalA N laciml 4 Md & Kfilvi . ), , , I Y 0m, I$ mit M-Towill fl o Is 418 th l 4 a , - t t ,lllmfl e w A%4 . , y #%W. Mad. It, N.. 4/5,1944) it &*4urAt 00 Ulwas and rabbh birmud In hypotwir henwipi, " K lW is We llmatwd fnwu rwyQN*O,,. - mare hvilm o i .11 0-1 fill), 4w4., I, u It LV W3 Is 0 V a M a a It .1 .1 a, .1 li it Za An I s m w a 9 w of I a a 3 1 T 'm *****goes 0 0 0 0410 000 0 0 ego**** ego* eq age go 10 a 0 0 0 0 0 0 0 0 0 0 000 000 0~0 *see *be 0 'A a 0s0 *see* : lee lee zoo to a Noe gov ego Vol too Cleo woo 40 0  .7 1, DARM, G.V.; GINZBURG, F.G. Omethods of chemical blood analysis." S.D. Balakhovskii, I.S. Balakhovskii. Reviewed by G.V. Derviz, F.G. Ginzburg. Biokhimiia 20 no.6:749-752 K-D f55- (KLRA 9:3) (BLOCD--AIIALYSIS AND CHIMISTRY) (B&IAKHOVSKII, S.D.) (BALAKHOVSKII, I.S.)  /C7 USSR/Hunan and Animl Physiology - Dlood. Dlood Transfusions T-4 and Blood Substitutes. Abs Jour Ref Mur - Biol., No 10, 1953, 45943 Author GinzburG, F.G. Inst :'-=- Title Specific Permeability of Erythrocytes and Its Sit~pifi- cance for Their Precervation. Ori(,, Pub V sb.: Sovrem. probl. gamat-ol. i perelivaniya krovi. VYP. 32, M., Medgiz, 1956, 62-63. Abstract As a 5 percent glucuse solution (I) was added to humn erythrocytes (E) at a temperature of 60C, they becane enlarged by 37-49 percent (about 43 percent on the ave- raae) in their size, while at a temperature of 100 C, they hemolyzed rapidly ')ecause of perimability by I. At a temperature of 60 C, E size did not change percep- tibly in goats, and at a temm erature of 130 C it became only sliditly enlarged after 24 hours, a phenotienon Card 1/2  VINOGRAD-FUMNLI. F.R.. prof.; GI117,BURG. F.G.; FJWOROVA. L.I.; KAUKHCIIISHVILI. 19.1. ......... Blood preservation at tomapratures lower than 0'0 C; preliminary report (with summ ry in Anglish, p.61-621 11'robl.gemat. i perel. krovi 3 no.1:27-34 Ja-Ir '58. (MM 11:3) 1. Is TSeritral'nogo ordens 4nina Instituts gematologii i pereliva- n1ya krovi (dir. - deyetvitellnyy chlen AMN SSSR prof. A.A.Bagda- sarov) Hinisterstva zdravookhreneniva S=. (BLOW FUSIRVID, off. of cold (Rus))  VINOGRAD-PIMM 1, F.R., prof.; GINZBURG, F.G.; YNDORovA, L.I. Preservation of blood in frozen state. Akt.vop.perel.kravi no.7: 91-97 '59. (KIRA 13:1) 1. laboratorlya konservirovantya krovi (zav. laboratoriyey - prof. ?.R. Vinograd-Finkell) I blokhimichookaya laboratoriya (zav. labora- toriyey - prof. G.V. Derviz) TSentrallnogo instituta gematologii i perelivantya krovi. (BIDOD-COLLECTION AND PRESERVATION)  VINOGRAD-FIKELO, P.R., professor, kand.biologicheskikh nauk; GINZBURG, F.G.; YXWROVA, L.I.; KAMCLMSHVILI, B.I. Low-temperature preservation of blood. Priroda 49 no-7:88-89 JI 160. (MIRL 13:7) 1. Nentrallnyy institut gematologii i perelivaniya krovi, Moskva (for Pedorova)e 2. Moskovskiy tokhnologicbeakiy institut uVasnoy i molochnoy prouTahlennosti (for Kaukhchesh- vili). (BWOD--COLLICTION AND PRESOVATION)  VE-40GIULD-FEIKELI F.R., prof.; KISELLV A.Ye. dotsorit; GII';ZbUI'L,, ~,F.G FEDOROVAP L.I.; KAUKHGIIUSIIVILI, E.I. Use of deopfreeze for the prolonged preservation of blood in a frozen state. Probl. gemat. I Iyo-rol. krovi 8 no.5:3-16 My'63- (,'-URA 16:8) 1. Iz TSentrallnogo ordena Lenina imtituta Comatologii i perelivaniya krovi (direktor - dotsent, A.Ye.Kiselev) Mini- sterstva zdravookhraneaiya S&9R. (BLOOD-COLLECTION AND PIMERVATION)  VINOGRAD-FINKLII, F.R.9 KISELEV, A; Ye. dotsent ., GINZf3JRG, F.G., I .i 1 1,; I'MCUiliF, L.I.; OJRDYA',jA, F.A. FiDorig!A, L.I.1 SSEVOIVA, IT., TAf,l-czl,'AYA, T."i.; ',IJDRYAEP(J',"-, Long-term preseviat-ion of blood in frozen state. Voon.-med. z'rrur. no. 1-27-33 Ja 166 ('MIRA 19:2)  T an do TAMP d Ginaboirs AW 1). IAWUU (z4vW.7:v7=.ra . sm. On 1064-IONZJ-(Ia HumM). The exbUop; 14mmm4miaginal theory of as ity is Ur*MWwlkxy. because It don not elm" tC=v=&."mt` analm at the boviWavy between the nonaW mW sapmoond"ve phamea to be detemitted, and 'Too corivet description o(thadmetrudion I *UprWWWA"v%y by a magnefla Gsld at by an elect. current. 0. mW L rAilemorml to oundmi a theory few from thew de". ItArmtiuna am 49datW for the T functions of the " suprameductive alectrum " hdrodam] into the I "' mad for the vm~ ""U61. A muhL of the it. I'.. given for the is membi.infin.". sopm- oand"ire region or * supmoondwOrs WAIns). T)w theory enables the sur&m tension to he expressed in kirm of Use crit"I amiagnegle firld 4ad the delAh of pene4l"ion of a &M Into the ouprimondurtor. In a istruiag &W =Vd*.,"Aob of penegration depervis an the starnath of time Sold. mA this eflect she-AM b- clesriv discernible in suproom. ductn of vmWI dimensions. The doomwfina of supn&. vonsluativity In thin lamine by a nwnetie iield pmo" by mas" of a !nd-Order phsm transition. while OWY in Isamwe of thickma gresitar than 4 tv,"n critical value in the tronal- t"i of the let order. Though the critical rxk*nW magam4W IWJ ineremars with decreasing thickener of the hunink thr ~rhk*l current, which &vtrq)ys suptsicauluctivity in the lamin&. decreamrs with J~mftmilut thicknees-0. B. H.  tI0, 1 li;= to umxfum of t 0 a ~ -h ifi fl f l A F d : oll o im were m uto . no. a u= !b '. 0I an put P , , I . ~ -;StudIC4 as a mrstAt ef wbkh 2 cchm(m having Inderell&nC Ic2dam wue devek dri NX-ftm-tht: 41PP11 iltd. ' !#r. DiCh Was 6a,161 on C*Pptq~ uaig _, etate alit! c-.xtu. of Pu With, ether, e.. d Ii Inc tho Pu train Va, E~CrA On. ,wa.l added to the tumn, P.A. ard them 'n-ti, for all Ilt, U waptd. hom the! gGID. -M h"ted at W Ac. 11teamt, of Pa waa dctd, by c~pptt-. with th-,nnium mindclatm. The xc~mftzr& soln. was we-asured for a-actl-iity with ail t1CCtXOMCte.r, 1U Gtdtr to IrC-- the PU (MEZI 'Ph by pptv. of the many) (Micetate, VX, was uzed as fiulh?arm After tim diacetate Met UXI coutcnt Ln mn detit. r ' c " ' The hydroxide I)pt. was dis- b v i on a rc(OH)i opt' p . 11. then tile SQ1n, m's plactd It., an ckn~frolu- NOS, mr foe measurment. The frecin- of Pu Itum Ila wa! ild contg. 43 5% U. After Lep. otudied for a pit6blen 41 of - l i 1 5tj l di Z~ a l t T ti. were n kidi. s: e . a he hydroi ebya de pl FCI solm, trnnsftrred to a'd:fius!~? will the Ra content wos, dctd. by the u-vid crnti.-Iou method. For dein. of the Fo a stilm of urmy; conteat the study jpo rpmde a.  ; , , ~'~ .1 -*IiW- -AgN v ;-, g7ggg - :.-. - 1 - _. Ag . j " - -,7-M - NO ,- .o ,-- rA_ ME., NMI; ;--"3. ON ~,~ : - - - 7-fll 11 ~ -.:-,  STARIK, I.Te.; GIIEBURG, F.L. State o'f' -,m-lcro~quantlt tell of radjoelements in dilute solutions- Part 8: Adsorption of lantbanum on quartz glaca and plexiglas. Radjokbimila. I nh.?!171-173 '59, (HIRA 12-8) (Lantbanum) (Adsorption) .1  STARIK, State of microquantities of radioelements in solutions. Part 14: Study of the state of americium in aqueous solutions. Radtokhimiia 1 no.4:435-438 '59. (MIRA 13:1) (Americium)  STARIK, I.Ye.; RATNER, A-P- [deceased]; PASVIK, M.A. CdeceaBadl; GINZBURG, F.L. Use of phenylareonic acid for the separation of neptunium and plutonium. Radiokhimiia 1 no-5:545-547 '59. (MIRA 13:2) (Benzonearsonic acid) (Neptunium) (Flutonium)  21(0) AUTHORSt Ginzburgp_F.-Le, Rozovskaya, N. G. SOV130-59-6-29140 TITLE: The State of Microquantities of Radioelements In Solutions (Sostoyaniye mikrokolichestv radioelementov v rastvorakh) PERIODICAL: Vestnik kkademii nauk SSSR, 1959, Wr 6, pp 122-124 (USSR) ABSTRACT: These problems were the subject of an All-Union Symposium held in Leningrad from March 3 to March 5. 1. Te. Starik spoke about the lack of interest in the research of the molecular form of elements. I. To. Starik, I. A. Skullskiy, No I. Ampelogova, L. I. 111menkova, L. Do Sheydina and F. L. Ginzburg reported on the investigation of the state of the microquantities of zirconium, polonium, protactinium. and americium in aqueous solutions. M. No Yakovleva and M. A. Shuohalina delivered reports on the methods of investigating the state of uranium in natural waters. V. M. Vdovenko, L. 11. Lazarev and So Ya. Khvorostin dealt in their report with the investigation of the state of radioelements in nonaqueous phases.V. M.Vdovenkoj, To. A. Smirnova and No A. Alekseyeva spoke about the degree of hydration of complex compounds of uranyl nitrite and nitric acid in organic solvents. A new method of determining the composition Card 1/2 of complex compounds and the calculations of the instability V*1'  The State-of Microquantities of Radioelements in Solutions SOV/30-59-6-29/40 constants was recommended by V. M. Vdovenko,A. A. Chaykhorskiy and L. M. Belov. A. K. Lavrukhina showed that the forms of existence of a radioelement depend on its concentration in the solution. V. I. Kuznetsov and P. D. Titov explained the effect of the co-extracting by the formation of mixed polyanions. A. M. Trofimov and L. N. Stepanova recommended a method of determining the degree of ionic charge of radioelements in a solution. S. Ye. Bresler, Yu. D. Sinochkin, A. I. Yegorov and D. A. Perumov showed that the use of specific sorbonts on zirconium basis may be of practical value for the investigation of the form of radioelements in solutions. An. N. Nesmeyanov dealt with the substitution of hydrogen in benzene by the atoms P32 , As76 , Sb 124. V. M. Vdovenko emphasized the great interest displayed by the scientific public in thisS ymposium in the name of the Organization Committee and said that approximately 250 scientific collaborators contributed to the work carried out by it. Card 2/2 ~,5  *IIulj -14% -1 In.- poom j- A-Tz- TJC"'qTP rT- .91 -11 V._*T-_A.?A j.M. uT 1,1 -T4%T- 'S 'A 'A '(2-l" q4 d q _T -,I vvT%..jjdft f! Yj__ rv~. -1.-zod t-.J;Tp jo "..j -1 Tlddo fq .-Tset" =vT%.uT=,%4p .%m "; =-T;vz.-r-r-rT" Tzo%d-Rd rl- .71-v -..$ "Tu" _.Tt4j. ; -T-%-Td ;- -is-:v; z-ld--a (/I x.1 d'o. l.i.- vw;j.. m ;. ftwqz. -; Iq =Tsv=. ..1 ., jo In -TerrvTV oqz P -T$.DTlddv T-g It Tsui" J. is _Tz~oTvw. ut,"Tpuum .-To Irtt. o.Tj"GTv%x ..I. _jw.lot M% ;' tqoid q% no ,a J" C Pn-,T.; Itu =a& qtT A ru,.n. tm. , TqT.c~o., 1-t13 lpvzPuTu" ~n MT U Ml a su~vjTp wzj jwdTvj4xw& OOZ mq% 7t$%t - cmi.oduLf. V t";Iytzm (WW.) qLt-til dd 'Z IA U I-A 1656& 1-X;lj-u- w-ftuuv2T l't"lacresa _,"'!uT. kctmfu..IA) 1xI.T__,QTrx vo -Tood try Irma S A I NORZOT (0) lz V/  STARIK, I.Ye.; M-fnWGOVA, N.I.; GUMBURG, F.L.; UMBET, M.S.; SKULISKIY, I.A.; SIIGHI;B6'TKOVSKIY, V.N. Holecular state of ultraminute quantities of radioelements in solutions. Radiokhimiia 1 no.4:370-378 '59. (MIRA 13:1) (Radioactive substances)  GINZBURG, F.L.; ROZOVSKATA. N.G. State of microscopic quantities of radioelements in solutions. Vest. AN USSR 29 no.6:122-124 Je '59. (MIRA 120) (Radioisotopes) (Solutions (Chemistry))  2)87b 8'/6'/OC--,/oc-- /ocg/c,.--o A09 7,/A1 29 J AUTlIC23g 3tarl.k. I.Ya~, Gin-burg, TITUvi The otate of ml.,~.-^oquantitleB of radl,:,clcxent~ :--:. 4-iluted Scl'.:ticirs XVI. Am invoGtigation of the etate of by tl~e me th '134 YEBIODIUL ~ Radi-,k',,,.imiya j v 3, no 1 , 196 1, 45-50 .1 T"EX &-a ' h,~ r, 9 c ca d u ~, t e d a d e t a i I E, rl 3 t u d Y ~ nhe ~l f a irra m reeine and c-.mpsrid tht- doln orith pro-- detz'vel *11 amez-ici-Am ~,- (R;.f 10- :~CnAderaticns werc, gi---rer ,o the fron. the point ~f -L,-! Ea f ~. ml. r - - -r 4-mg c~3ndit'-t~,na :~f Ths~ t attent*im w&3 g'.ign to th, n-.-,,dy cf HCl melis. I~L was showil tY.&' tht, lj*,~- centratE-~ ECI hae e. grr-a-t ef Lle.-,t iA gl~cu, srpala- t4or, if ,,. , 1*- I'1 -9 a ~ ia r r,, - e a,- i r-, '~' c- t L e n - ~ 3 , ~, A a o - b -. ! - -, .- t t e ~ - , a. t i c ~: - L,'he .4 the met'hod :- autho-s atel~ f ic~n-sxc~hange fnr ttudying the q t 8 ~x r I IIZ -In ld,tra.-,c e 9 i a a u n d e. r e t a:-,l C Ird I  23,176 Thce statc --f A05 I /A! 29 t:-zu vas dependtng r.-.n t,ht- jH .,f -t~jp and _,.,~.a-ianrrattun Th-3 KV -2 (.KU--2) &nd Dcvex--5^j _,aiA a3 the %,J_~Orb- 3* rant-9. A;3 wo-ll &3 -if thr, -1 "h a Kr-:Ylp, A~--17 (0-17) a.,xd d'-,A- !io.~iatl~d &,mino gr,-,-,jp* nf the ~f-itra-amm-,,niim bann,, Tha ab_'1r)npt_1.in Ara from a.-Iitions ^41 -~,ariouo pH waa ,onduoted on KU-2 ir. "ho potqss!-jm fr,~-r. ar-d A7-1~ in the 110- !~rm. 'The oozbablItty -f Am .).) th'~~ icr~ltel V%q d6termiled ~t t.~Trez-ature -..inder %i,)nd!.tLnv3 if ,~.ihieving an adsoz,p~41.,;% etat.-,-, The .-.1%,ioentrat-ion of Am .4n the flater phaae waa dot--,rmt:ted a,-~ord'_.ag to the of an aliqu,)t part of the 5olutioa, The reslia'*3 ~-)f twbe experiment.a were erpressea in cp4 -,f ad_:zorpt-'rin det~-.rminad by the formula? A, - A p;~rcentaga ~f adsci-.ptlon - -- 100, where A is the initial aitivity af A 2 the solution (in pulses/min), A.,- +he equilibrium activity of the soluticn On pulseVmin'). Tho relation hip oi Am sorption to the pH of solution was studied on the K'J-2 cationite and 0-17_1nionite. The sorption was oondu%;t.- ed from soliations in the presence of 10 M KNO 3' Fig 1 ahows the relation- ship of Am sorption on KU-2 resin to the pH of the solution,. It is seen Card 21r~  e r o a u a 1 e Er T Jp., " f , - . 11 -~- -, - . , :- " i ~ If, - '.. -, *. -1 - .- T , :! ~ , ., " ,'.i -- 5 ~ r1 a, IL'a C. 'r, Aal r zn ui~ ;k. In Its Ull ta t v r. e r  by ~11C- 1, IIJ 0 Y_ f A T. e 7 c f: L, n,~ T ii e 1 ~n h a :-ge. 0 5 In add; Itt there a w&Y L, aolutl -,- and ~he I "large, cf "he Am in.:: "n Z,~ by thfj ia huff. &-', f .3 h bi -he Ca.-d 4/6  23876 5/186/61/003/WI/009/020 The state of microquantities A051/A129 the sorption of Am 241 from nitrate solutions (1-18 M) in solutions of various pH, it is shown that in solutions of pH-4 to 1 14 ENO simple Am ions prevail with a charge of 3+; with an increase of the pH of tRe solution (pH:,- 4) the positive charge of the ions decreases due to hydrolysis; 2) in the colloidal state Am is not adsorbed by the cation; the sorption of the colloidal par- ticles of Am by the anionite reaches 80%; 3) the results of investigations of electromigration and sorption of Am on the anionites in nitrate solutions show that positively charged Am complexes are formed in solutions of 1-4 M ENO - Neutral complexes of Am are dominant in solutions of 4-16 M ENO . Thare are 6 figures, 1 table and 24 references: 12 Soviet-bloc, 12 non2Soviet-bloo. Card 5/6  STARIK, 1,.Ye.; GINZ7BURG, F,L. Nature of ameri~:ium colloid behavior. Radlokhimiia 3 no.6,.685- 689 161. 1 14:12) kAmeldciwa)  STARIK, I.Ye.; GINZBURG, F.L.; SHFYDINA, L.D. Adsorption of radioisotopes from aqueous and water-ethyl alcohol solutions. Radiokhimila 6 no. lil9-26 164. (MIRA 17:6)  STARIK, I.Ye. [deceased]; GINZBURG, F.L.; RAYFV3K1Y, B.N. Diffusion method for studying the state of radiaiscrtopes. Part 1: Methods of measuring the diffusion coefficients of radioisotopes in extremely dilute solutions. Radiokhimiia 6 no.4:468-474 164. Diffusion method for studying the state of radioisotopes. Part 2i Coefficients of Zr self-diffusion in hydrochloric acid solutions. Ibid.t474-479 (MIRA 18t4)