PRTROTP toAol RIMTIIV, X,Y*.; 5ITSOTA. RA, Tr4o"storifleattoit of dMethyl pboaphito vith otbylens Col, Zbiuro ob, khAn. 33 mo.53U85-1498 WI 1b3. (MIRA l6t6f '(*tbrl phoophites) (Noterifi(tation) (kowleng 93,yaoi)  ACCESSXOW NR-. AT4034002 9/0000/63/000/000/0170/0174 AUTHOR; Petrov, K. A.j Wifaut'YOV, Z. YG.,* TrME: phosphorus-containing polymers. X. Synthesis of polyphosphite-based polyphosphonates SOURCE: Geterotsepny*ye vy*sokomolskulyarny*ye soyedineniya CHateroebain macromolecular compounds); abornLk statey. Moscow, Xad-vo "Nauka," 1963, 170-174 TOPIC TAG$: polymerization, pboophorus containing polymer, polyphosphits, polyphosphonate ABSTRACT: As a further stop in the authors' polymer studies data are given on the synthesis of polyalkylalkylensphosphonates, poly-.A -bydroxyalkylalkylens- phospbonates and poly-&i. -aminoalkylalkylenspboopbonates by the Michaelis and Becker method using acid polyalkylenephosphites. The following polymers were prepared, identified and described: polybemylbexamethylanaphosphonate, poly-.& bydrozybmmylboxametbylonsphospbdta, poly-.4 -dibutylaminobamylhexametbyl enephospbooste, polydietbylaminomathylbemmekhylenapboaphonate, poly- t -propyl- aninoisopropylhexomtbylemphospbonate, poly-distbylaminmothyl-p-xylidenepbos- obonate. nalybutylamin -bia-motbylbwAmethylonaphosphonate, and a copolymer of  lot ACCBSSXOtf M AT4034Q02 J-dibutyleatinobtaxylbexamethylompboopho"to and di-(hexamethylonapboapbato) dimulfide. The preparative procedure consists essentially of reacting the reagents for several hours at 90-13SO; the yield varied from 48 to M for different individual products, OriX. act. has: 4 chemical equations. ASSOCXATIOIN.- None SUMMED: 13Nov62 DATE ACQ: 30Apr64 RNM: 00 SUB CODE: OC MD OF SOV: 009 OTMM: 004 Card 2/2  PM;1T,-V, Nl.FJOrlYFT, E,Ye.i GCLITSOVA, *...G.; MY. ;)u2ynwrr.. PL.-t 11: jynthes-'L ~f po4imric anKi.cgs of phosphoru3-contaldrg na. 5:92')-133 I-ty 164. f IE RA Vpokom.s6tid. b I 17: 6':  GGLITBOTA, TOO*, (Alm*-AW A"ss"s%%1rk;Wt1ve effectiveness of intravenous, intraiwarterial, and Intraearotid infusion of blood in acute hemorrhage and shock* Pateflatol. I Asp. terep, 2 U0,3:44 yq-JG '58 (MIRA 1117) Is Is katedry patologichookoy fisiologit (tsy$ - seelyshenay doyatellawaki Prof. O.S. Glossan) latakhokogo seditsiuskogo Instituts. (atom-TRANSFUS lox) (MMOMUMN) (SHOCK)  GOLITSOVAP To G., Cand Med rvi (dies) -- "The comparative effectiveness of Intreve'nous, iyytr"rterial, and intracerotid transfusion of blood In acute blood loss mid abook". Alum-Ata, 1959, 1.0 pp (Kazakh State Med Inst), 300 copies (XI,, lie (), ].~X;O, 1213)  OUMw, O,S,.; GCLIMVA, T.G.1 ZIKZMA, A.I.; LONSHCHAKOVA, A.S. Wjp*-ktm~---~ Wfoot of hMwthemia on the darre1opment of experimental nepbro- omloinools In ratsb Arkhapate 23 no.4837-42 '61. (MIRA 14:6) 1* Is kaflaby patologicbeskoy fisiologii (71&v. - prof. 0.S. Mom=) I ,kafedry patologichaskoy anatomi, (tay. -- prof. P.r. Oobk.*ur) lanakhakogo usditsinOogo inatituta. (IMWKMKU) (KIRMS-DISRASIS) (CALCIM H&TABOLISM)  Country TISSR Caugory 'Urobiolorv. Vicrc~ss Patho7mnic ~'or -su- ard Animals AL):3. JOU1, tier :%ar iltol.' ";a 2 '), Author Institut. t T It! F~-udy of the Viabilily of kn'thrs,~ d-,ores Fxmsed -to Or.tF, Pub. : Inform. byul. biml. prou-sti. 1QI)7. No 2. Ab3tract- : ?h* physical, aultural-morphological, virulent properties, reactivity and viability of spores of 26 different series of arnLrax vaccines wore attidied tift, bogin frozen once or twice at -420-440 for three days with subumquW. thawing at 180. It waa e6tablinhad teat after freezing tbi physical properties of the Ouithral vaccines are maittained, but the viability of the #~vroa Is reduced considerably. The virulence and reactivity are altored.-Il. v&. Bov*Lrmkava *T.A., Kokoreva V.B. Card; 1/1  L 45668-66 BWT(M)/HWP(t)jVa, 14f~SL.ID/WW ACC N&i 06OWi~---- SOURCE CODE' UR/01941"10647 Qvj AUMOR: Gglltogn . Ye. I. WON"*., ORG: Power Enalneering.Institute in. Krzhizhanovskly (Energoticheakly inatitut) I TITLEt Density of lithium, s!~um and L)q~ium up to 1500-16006C MUM-. Teplofizika vysokikb tomperatur, v. 4, no. 3, 1966, 360-363 TOPIC TAGS: th4rinacouple, lfthlumi, sodium, platinum, 111 4 metal Densities of lithium, sodium and potassium were d4ttezuiftq4 up 'to tm tvi*i. ~of i6adve, Spe"al qVautus md measuring techniques developoCto, ovim,wo AM "M blab #-bmmicai 6etivi" of 'these, pidlients we djo- 0 7 "8 of 10, to. ;0 -atim. dwo "_W viiww awlins more ad a son at ptess, total va& siaturstion Pleasure. Measurement of the ratio of nase to volume Q# ;the samplib at a poisi Aere the temperature variation was very wall was made to Qb-' :tain a precise demsity-tempersturd relationship. The teiRperature was determined us- ,ing cbrociel-alumel thermocouples below 12000C and by platinum-platinum-rhodim tbirmo !*ouples; at higher temperatures. The donsity-temperature relationship is linear up to Above this tpmpersture a strong drop in density occurs, analogous to that of non-metallic liquids naw the critical temperature. Analytic fame for the experi- mental data ware deri"d for the linear range. The experisentai *z.~w are t0.3%, UDC: 669.88t532.14  . . . .. , - -4,~ ~ A~ - i6x,4A, - - - - -4~ .. . * .~,- A- , . .. - , .,! .4~-tjr . . . . wqw Ale' I Ilk  VOROBIYKV, Malay KonstantimovIch; "GOLITSSWIDT Vladimir Avostavlob [deceased); KAR '-Rh hil I )N?1Wt8M1'Wnw--M2R=Av Vera leonidovna; KRAS144OV, 0 Somstantin Solmonovichl 1XVINSHY, Yu.V., red, [LaboraUry vork in pbysical chemi.Btry] Pr&ktikum po fisiohemkoi khimii. Izd.3., perer. i dop. Moskva, Khi- x1isp 1964. 383 p. (MIRA 18:4)  SOV/1 37-58-11-22369 Translation from: Refe.rativnyy zhurnal. Metallurgiya. 1958, Nr 11, p 75 (USSR) AUTHORS: Kirillov, B. S,Garenshteyn, M. M. , Tkachenko, V. K. , Goltvenko.,-A.1.1,. TITLE: An Investigation of Dynamic Processes in the Live Train of an 1170 Blooming Mill Under More Severe Conditions of Rolling (Issledovaniye dinamicheskikh protsessov v rabochey linii blyuminga 1170 pri trihestochennorn rezhime prokatki) PERIODICAL: Izv. vyssh. uchebn. zavedeniy. Chernaya metallurgiyu, 1958, Nr 1, pp lZ8-137 ABSTRACT: An investigation is made of dynamic processes in the live train of a bloomii%g mill (B) by comparing regimes for rolling 6.9-t steel ingots in 13 and 11 passes. The results serve as reference material for dynamic stress analyses relating the more intensive B rolling operations. The analytical and experimental investigations include derivation of the magnitudes of the static, motive, and dynamic moments at different phases of the passage of the metal (Me) through the rolls. The static and motive moments in the period of Me contact display a linear change and may be deemed constant when a steady- Card 1/2 state process is in progress. The dynamic moments are investigated  SOV/1 37-58-11-22369 An Investigation of Dynamic Processes in the Live Train (cont. ) by means of the equation for the moment of the elastic forces of the spindle induced by the inertia of the flywheel masses in the live train of the mill during the contact phase and the steady rollin& process. The effect of the law governing the increase in and the value of the moment of resistance during contact upon change in the dynamics of the process is demonstrated. Dynamic phenomena are virtually equal upon rolling in 13 and in I I passes. The fluctuations in the torque moments induced by the elasticity of the system do not exceed 3%o of the static load. V. 1. Card 2/2  GOMSHOM, IK.K*, kav4.t*khn.a&uk; KIRILUW* B.S., kand.takhn.nauk; TrACHIM. T.K., insh.; Q.Ojg3jMp A.I., irsh.; POGORMILISMY, V.I., inzho.; IMRAIWS, P.D., --rj-isF.--,TJMC Z.A., insh.: FIZICLUM, V.A., insh. Betablishing the moot satisfactory conditions for rolling on b1ooming mills with increased load on the main driving motor. IzV* vy** uohmbo save; chern. "to no.3:91-101 Mr 158. (XM 11:5) 14hdanovskiy setalIvrgicheskLy institut i savod wAsovetal'". (Rolling mills-XMectric dLriving)  3/l)7/6CA=/0C9/'005/029 A006/A001 Tranalation frorml Rerarativrw 2hurnalo Me-al:urgiya. 196c~ 9. T. io'-)~ # '20243 AUTHORS: K1.1,1110V4 B.6., Gorenshteyn, M.M., Goll:venkc, A.:, lkachenkvc. V K TITLE: Woulatlon of the Multi-Purpose Spindle of a Polling Mill - 11 PERIODICAL: 8b. nauchn. tre Zhdanovsk. metallurg, In..t.. 1960, No. 5~, pT. 372- 381 TMU - A comparison is made of the existing vrethds fcr r-alcuiating mul.,,-, purpcse spindles of a rolling mill. The magnitudes :;f error when using cre or the other method ivere rei,ealed. As a result. of 11,e _0-.idy '_-~ was estatliah-_d :hEL-. t-he discrepancy betweon the theoret-Ical caicullati~ins , --f a f.-rk al.1 ex. perimental data is explained by the inaccurate a::-_,-an*.-'.ng f-. te -wlls~lng stress. Aj, Tselikov recommends to use the method of the strength of materials applied tz the Siven caaoi when calculating bore rc.lls. When zal_-allating the b-,q'ies zf a roil new coeff�,~ienta are introduced which can be ILSI.~i as % ba.~is of aprroximate cal- ~culaticns. K.U. Tranal tor's note- This Is th- full translatLon of th.- original Rjzs!ar abstract, Card IN  z _Z S/137/62/000/002/060/14,4 A006/A101 AUTHOW 3: Kmptistin&, M. I., Kuzema, 1. D., SavchenRo, A. M., Shiryayev, V. I., Goltvenko, A. I., Grishina, Ye. N. TUTLF,-: A rapid mtbthod of calculating the efficiency of three-high sheet rolling rills PERIODICAL: Referativrin, zhurnal, Metallurgiya, no. 2, 19~')2, 18, abstract 2D86 ("Sb,nauchn. tr. Zhdanovsk. metallurg. in-t", 1960, no. 6, 186 - 198) TFXT: Calculatlon data were checked by the oscillographic timing of a mill operation for all the br:Lgades when rolling the main conventional sheet types of the mill assortments. A method was developed for calculating the efficiency of three-hig;h mills on the Nisis of i3ai analysis of reduction ccnditions, and force and power indicos of rolling. The theoretical calcii1ation of the efficiency of sheet rolling m,111s im given. The problem is discussi-d how to check, the mill amount of work. rAN,itractPrIs note: Conplete translation] L N. Yudtn,- Card 1/1  ROMANOT, D., h:swA.t*kta.n&uk; 90 _:k FITSA, K., inzb. Using piliso with pedestals formed by blasting in sagging loose *oil*. Stvoloi arkbit. 8 no,6S31-32 Je '60. (KBA 13 16) (YAlporoublye-Filing (Civil engineering))  BIVCEWG, I., inzb,; GOLTVXO EsoltroianytAia, X.], insh.; BMAIROV, HO x LI-12~ E lb xWen 0 M. , insh. I SHAM=, T., izzh. T r. K. , I IM* of themal cutters for working granites. Radmt.i konstr. 4 xio.601-53 " 162. (MnA 1502 (Mrsoutting-Equipment and supplies)  lash. I MLWKO, V.0. I Insh. R**f insulator made of local raw materials. Stroi.mat. 7 no.WS-29 7 161. (MM 24:3) (BDofing) (Insulation(Heat))  3(8) PHASE I BOOK EXPLOITATION SOV/2268 Glavnaya geofizicheskays observatoriya Voprosy fkziki atmosfery (Rrobl*ms in Physics of the Atmosphere) Leningrad, Gidrometeoizdat, 1959. 74 p. (Seriest Itst Trudy, vyp. 82) Errata slip inserted. 1,250 cooles printed. Sponsoring Agencyt Glaynoye upravleniye gidrometeorologicheskoy sluzhby pri Sovete Ministrov SSSR. Ed. (Title page)s N. S. Shishkin, Doctor of Physical and Mathematical Scienceal Ed. (Inside book)i T. V. Ushakoval Tech. Ed.: M. I. Braynina. PURPOSEs This is,sus of the Observatory's Transactions is intended for students aba, Witbore - 0:rf'WYb0tptW;1*eteorology as vell as for professionals :in the field. COVERAGE: This collection of articles is mainly concerned with the results of investigations on the physics of the atmosphere carried out in 1956-57 at the OW, Division for the Physics of Free Atmosphere. The authors discuss the dwvelopment (formation) and disintogratton of convective clouds Card 1/3  Problems in Physics (Cont.) SOV/2268 and the relationship between the cloud structure and aircraft icing. A now method of affecting supercooled clouds is described. One article is devoted to an analysis of the frontal structure of anticyclones. References accompany each article. TABLE OF 0014TENTSs Shishkin, N. S. Growth and Disintegration ,Uispersion7 of convective Clouds During lion-stable Stratification of this Atmosphere 3 Vasillchenkop I. V, Computation of the Characteristics of Convective Cloud Flow 22 Zavarina, It. V. Phase Structure of Clouds and Aircraft Icing 26 The article analyzes the results of observations mad* at Shossaynaya near Leningrad and at Arkhangol'sk for the purpose of establishing the effect of matec"lo'gical conditions on aircraft icing. The probability of icing as a functLon of cloud forms is presented in several graphs. Card 2/3  Problems in Physics, (Cont.) SOV/2268 Golf -~YAkp-v, H. F., and P. N. Krasikov. Investigation of the Effect of Magne11UHV7Ant1monid& on tht Formation of Ice Particles in Supercooled Water Fog 36 Krasikov, P. N., and G. A. Chikirova. Effect of Ammonium Chloride Admixture on the Stability of Water Fogs 41 Pr-.renchuk, 0. p. Frontal Structure of Anticyclones 45 Sal'man, Ye. M. Methods of Rader Exploration of Cumulus Clouds 68 AVAILABLEt Library of Congress Card 3/3 MM/lsb 10-9-59   NUM", H.8w; MUU3v A.S., s.x. GKIdatlon (W n-butane In the gaseous phase under pressure. gas. pros. no.1006-4.3 0 158. (KIM llsll) (IMtam) (Ozidation)  ACCEMON NIL: AT4033630 8/0000/63/000/000/0007/0017 AM014 FuMPA, X. S. (00aWr of ObOM1061 Ww") I TAVIN, V. V. I V1WSrM4kk% bt. V.; Golltya"Val N. A. TITLE: Uquid pbaso oxidation of cyclohexane by atmospheric air at high temperatures SOURCE: Poluproduldy*dlya sinteza poliamidov (Intermediates for PDlyaMide "U- tboals). Moscow, Gooldilmizdat, 190, 7-17 TOPIC TAGS: cyclacmane, cyclobexanol, cycloheranone, cyclohexane --vidation. liquid phase oxidation, cyclobexane air oxidation, high temperature cyclohexane oxidation, cyclobex=e oxidation Wnetics ABSTRACT: Tbe Idiietics of the liquid phase air oxidation of cyclohexane were studied In the absence of catalysts at temperatures of 160, 170 and 180C and pressures of 20. 35 and 50 at3m. It was established that high temperature oxidation is of practical in- terest when the reactiom lasts lose than one bour. The ratio of cyclohexanol to cyclo-i heoumone, resulting from the o;ddation of cyclohexane, increases the temperature rises. The specifla activation energy of the reaction was 3. 5 to 5. 6 kcal/mol at pressures 6f 20 to 50 atm. 03ddo0olL at ** India" temperatures ocic~urs in the diffusi(m area, L e. cam 1/2  ACCEMON HR. AT4033630 the rate of oxidallon Is not governed by the rate at which the reacUon proceeds, but is dibterroAned by the rat* of oxygen absorption in the cyclchwme. "The analyses were cozried out by L G. SolovIyova, by a method &YvelopW In the analytical. laboratory of GIAP. It Orig. art. bu: 9 piq" and 2 tables. ASSOCIATIONt None' DATE AOQ- 06APrG4 ENCU 00 SLTSM=ED: 120U113 BUD CODE: OR NO REP SOVI 016 OTHER: 007 2/2 cam  LIFFS$ V.V.; IA;UXrSEVA, L.K.; GOLITYATEVA, N.A-.; FURMAX, M.S. Analyzing the composition of acids forming during the liquid- phase cx~dation of cyclohexane by air oxygen. Khim. prom. 40 no.9A56"71 S 164. (MIRA 1711l)  ,GOL#rZWN, T.Klh.. insh. Constructing hydraulic atructiwas without building cofferdams. Uet.i shal.-bet. no.l.-23-27 JS 160. ()aPJ- 13:5) (Hydroelectric power stations) (Piling (Civil engin"ring))  GOUI, M. -11, "Principles of experimental psychology." Vop. psikhol. 10 no.2s177-180 Mr-AP 164o (MM 17t9)  BALAMqcU, 10,; 11,11CII, I.; PUFAN, C.; POPH.XI), I.. ' .0LU, M.; (;AZiNG'.-I' A.; CCJNSTAIJT11;t,~-V:, P. Contributis.vis to the study, of I.Ye world of the young generation. Rov pathologie 11 no.10-21 165. 1. Miair of Psycholoa of -.he University c;f -Ucnare&-,. Sub- mitted August U, 1964.  "f MW MDar t Pyrethrum, A. Prepar, t1on f om V. T. -Miliss-kogo Ya. m*idti~p and G. 1 5 rnfFtrua kkn-Sa Mg-- US-2 e I - a DA&-=tQMM'tsevticheshM Instituta 1955, V*1 To VIP, 123-132 :ftom ftjer~ti= Zhurnal--Khimiya, No 4, Feb 57 Abstract go 1240h by A. Grapov) "Describes extraction of oleoresin (1) from dry flowers of Dalmati"'.; sles. with abhyd us dichloroethane (11) by boiling and at room temp- ure. dalcium tlorltle (III), placed in a stream of boiling (1), de- :1, Uses the activity of (1). Copper sulfate (CS) and Tikha-Askan clev * Incredne the ilctlylty of (1). An insecticidal dust is also fox 'Ocre"" T (U). Ireathoput with isoWl alcohol or methanol (IV) in the pre E~(C4S)Itqld to a 4ecrease in: the activity- of (1); and (rv) in the pre::*-, AnA fte,,,Fe lightened with basic  ,'I, J:rui,: ;Jivx-Diol., Yo 27, 1~58, 930,23 - 'It*r!c~r Goltib, P.CX-xL.-l' YLZhI.-3v:-'-' D. Ti-, 1L of I.-Lion yolul~ I -' 's Oi**iG 1"Wo: Za cm,s. 1958, AT, 17c 1, 73-,1,2. -b ss i; r--. c t 02 i,,i 14 yuanL: p-'-cs ~ms b'w- th, I.roc -:ctliod frai thc d--y of -.hcir b--'r-~'-h tn the %C,.; of !~ rickitli. Up to t*,,; ar)~! n-- ' 6 dayr th;.~ -ilz; did i.A xmct to a lowrlir of UW tcnpcra~'-uru 3: th--- frui Z-, + I do~,Tuu. to 3 1 y , r nd..Ilt-S L, ~l r L.Urc f,~:'Ll. 1.6 71ic 02 t" L/2  KONOPLYOTSEN, A.A. ; SEVENOV, S.M.; GOWBI , A.G.; JUIU~TWYEW, S.S. '.Hog.1ona.lization of the northern slope of the Trans-Ili Alatau and the alluvisl Ili Depression adjacent to it according to the character:gstice of the regime of ground waters. Trudy no.10:139-151 164. (MIRA 17: 10) 1. '1sescTu=yy nauelmo-issledovatellskiy institut gidrogeologii i inEhememoy geologii.  QOW,4~ r&.,;.4 VORMSKIT. le.l.; IjYAM. A.Ye., spetered.; TIAMA INA. G.Be, "r64 -. YARN. B*M.. tekhn. red. [Adyawnd qoratlat "thodu for wrappiug meblues] Peredovys metody rAo%:r us sa"Ay"dushchM mashitakh, Moskva, Pishohm- pramUdat, 1956. 29 P. (Wapping vachines) WU 110)  GOLUB, A. 1. S~wlwordzatdon of hAding in yeadto TSitologiia 3 no-4:481-484 A-Aig 161, (RIR& 1418) 1. Otdol biafiWd Imtituta b:L*Iogii Urallskogo filiaU AN SWR, Svwdlav k MAST) (OZLL DIVISION (BIOLOGY)) (TIWERATURE.PHYSIOLOOICAL EFFEGT)  HDRI. P~,Lwj GQ~tW. A . OMMMSEWN.P.M.; LOMOVSKIT, D.P. A*tomati*#Uy, eantrolled sicip leadors. Opeupory 25 no.10:448-452 160. (Hnk 13:10) L Milcitoveldy clolowita" kowaluat (for Motik). 2. Ukrenergocherset (for Golub'. Grateershtern, lobkovakiy). CIIAOMIte) (loading and unloading) (Antos&tto oontrol)  GPOLUBI p A.X.; ZAYISIV, A.I. botrurnent fbr precis* =mu=e=mnt,,oJ' machine-shaft speeds. h-lbarostrosaie no.12t27 D 161. (MIM 14:12) (Tachometer)  UM&V, A,X,, kmbdL,4tmkhnra*j OOLUBI A.I. GOIMMIR, A.A. H~&amlio romoval of oUt hrtu nechoploal self-cleaning filters. Rnmrg, i *1014trotekhe FrCoo rweli6lp-64 0629 (HIRA 15:6) 1. Ma-enoo.-Soobsruet. (Air filters)  4NOTKOV, A.M.; BMZREV, V.S.1 TMOVSKIY# A.Ye.; BUTENKO, V.A.; GOLUB, A.I.; DUDAVSKIY, I.Ye.; KOIXSNIX, X.I.; SOKOLOV, I.N.; MASLOV, Increasin$ the stability of arches and walls of large-capacity steel-smelting electric furnaces at the "Dneproopetsatal" Plant. Stall 23 no.3t222-224 Mr 163. (MIRA 16:5) 14 7Avod "Neprospetestall", Zaporoshakiy savod ogneuporov i Proymktny7 institut i inspektaiya po slushbe i kachestvu opouporov, (Electric furuaces-Design and construction) (7APproshlys-Iron and steel plants)  Lu U, USSR/ChOnical Te,:kmology - ChomIcal Products and Their Application. Treatment of Solid Mlneral Fuels, 1-12 A~st Journal: Ftefe3mt 2anLr - KhImlya, No 19, 1956, 62536 Author: Gartman, DI. V., Golub J, A. 1. Inatitution: Noine Title: Catalytic QKidation of Phenanthreme and of' Anthracene Fractions. Conmunication 1 Original FerickIlcal: Zb. prikl. khimii, 1955, 28, No 5, 507-515 Abstract: Phmnaxithrene (1) and anthracene fractions were oxidized for the purpome o:V producing phthalic anhydride (32). The catalyst vas fusecl vanadium pentoxide. Optimal operating conditions vere de- temWed by vapor phone oxidation of pure naphthalene. At IV600, curitact %Um -2 seconds and ratio of air to vaporized substance -1,5 I./g rield of acidic products recomputed as II was 91% or 70 of theory. On oxidation of pure I optimal temperature 44,B-"90, air to I ratio (1/g) 20:1, contact time 4-6 seconds. Yield of Ca:rd 1/2  UMB/Chamical Tectmolo" - Chemical Products and Their Application. Treatment of Solid IUZWal FWls, 1-12 Abet JDurnall Reif erat 2aiur - KbImiyas -110 .19, - 1W, 62536 Abstract: acifte products recompa ed as 11, 69.8-71.9%. Acidic products consist on the average of 86% n and 14% maleic anhydride (3:11). Ott axidati** of redistilled, washed anthmeene fraction, boiling ranse 310'.3450, yield of acidic products an the basis of I is 3-32-22% of vkdch 78-90% is II amd the remainder III. In addition tbera are obtained 62.7% anthraquinone on the basis of theoretically calculated anount of anthracene present in the fraction. By boiling w-Ith 5% al)MI1 and sublimation an anthraquinone MP 2860 is obtained which doeo not depress the malting point of pure synthetic anthra- quinove and has identical other characteristics with the latter. Yield of "idic products an catalytic oxidation of unwashed first Whracwie fraction is 287-51$ of the theoretically calculated on the -~Iisis of the phanantbremej 188.14% of these are 11 and the re- maindc- Irl. Mn addition there is obtained a 42.54% yield of antbra- qidnomv an the basis of the antbracene. Large yield of acidic priduc's cm oxidation of antbracene fractions, exceeding greatly their yield from pure I confirms the propostion concerning the ad- viwtvges of corqposite utilization of a number of compounds in mix- tur-4.vj for the purpose of obtaining the same product. Caril 2/2  go / C~ , -IZ- - GOMI, H.V.1 GOYA% A.I. Catalytic oxidation of basic POIYOYclic *OmPOUnds Of coal tar and some of its fractions. Zhur.prikl.khim. 29 no.8tl256-1265 Ag 156. (min 10:10) 1.Voutoch3*7 asuchno-iseledovatellskiy-uglekhimichooki3r institut. (Oxidation) (Coal tar) (Phthalto anWdride)  AUTHOR: 69-59-7-13/27 TITLE: Catalytic Vapour Phase Oxidation of I'llaphthalene and Haphth!i,lene Fraction (Kata lit iche szkoye parofaznoye olrisleniye naftalina i naftalinovoy fraktsi-J) PERIODICU: Koks i Milmiya, 1958, Nr ?, pp 44-4? (USSR) ABSTRACT: As tho catalytic oxidation of pressed naphthalene and naphtbalene fraction waj not tested on Soviet works, while the former process has been successfully operated for mmay years abroad and the latter process for a few years in Sweden? an experimental oxidation of pressed na.T.,hthalene usiaG Soviet catalyst (used for the oxidation of crystalline iiaphthalene) i,.ras carried out. The -'-'-oz-k was considered as a preli~ainary staCe for the industrial experiments on the oxidation of naphthalene fraction. The results obtained indicated that no difficulties in oxidation of pressed naphthalene should arise. The yield obtained was ?6% of phthalic and 5% of maleic anhydride (of the -theoretical). For furth-er investl~~ations of the oxidation of various individual compounds and technical products derived from tar, a lar-er- ilot plant was desi6ned of a throughput of 8 k8/day Card 1/2 (Pie'~'urX Crystalline and pressed naphthal,-~ne and  Catalytic Va-pour Phase Oxidation of Haphth--:Iene and Naphthalene Fraction naphthalene fraotion rare successfully oxidised on this plaat viLh. a ?0% viold of technical anhydride, i.e. -i;ith a yield about 10% lower than on indu trial 1~jits (the rel.oulLs obtained are assembled in thLs' tr-ble~- Therc are 1 table. I figure and 7 reference-c~, 6 of which are Soviet, 1 German. ASSOCIATION: VUKh]21 -I. Napkithalenes-Oxida t Ion 2. Catalysis--Appli,2ations Card 2/2  --arl. teklin. m,,ilz; JISCI, Of vlrlall~, no. u.  ro)WBI t All:..t -lin2li. Mechwiization of the horizontal turn of a trans book. Mashino- stramie no.6e99-IOO N-D 164 (MIFU 18,--Z)   GMUB. A.K. Origination of chamistrr as a science. Ukr.khlm.shur. 20 no.3:325- 334 154. (KLVA 7: 8) 1. Xljr6vskl)t go"arstvenW univerattat im. T.G.Shavehanko. (Chemistry-Sistory)  IV41 USSR/ Imorganic Cbemistry. Complex Compounds C. Abe Jour : fieferat 2hur - Xhiziya, No 4, 11" Author : Golub A.M. Title :~~OC*ZaWical Study of Complex Silver Thio-yamt-s Orig Pub : Zh. obahch. khimil, 1956, 26, No 7, 1.837-1848 Abstract : Potettiomtrically and by the method of solubility in aqueous and anhy- drous solvents has been ascertained the predominant for=tion within the regidn of medium and highs CW ebneentrations of the complex ( ~i_ hav"g the diss6cilltion constant 2.86 . 10 11 at 200, 3.56 . 1!ffo 400 and 5-36 . lo-!? at 6&, and a heat of formationnJ 25.5 kcal at 20-600. Equilibrium constant has been calculated for the reaction AgCRS(s,4ij) + n CM = Ag(=),nu_- in vater and acetone solutions (nPAn value ()", 1 5 and the solubility ra-oluct of Ag= in aqueous solutions (4.14 . 10-12- ), it is shown that in acetone solution, in contradistinction to an aqueous, there Is formed Ag(CSB)i. 'A molecular compound XCW.Ag0S.3(CHj)gC0 has been isolated. The conclusion is reached that complex-formatio2i exerci- ses greater Influence on mLgaitude of eqL*dlibrium electrode potential than nature of savant. G_ USSR/ i4a 44istry, Thermadynamics, TherTiochomistry, PI-6 EquLlibriuras, PhYs-Mm' Anal-is) PhASO-TrAnSitions. AbB Jour : Pkf Zhur - Khizdya) Uo 7, 1957, 22331. Luthor : A. ?,. Go1iib, 0. H. Kilimnik. Tnst : 17 --- 11  c---( c, i, L' 1~ , R, m - (W.XM,, A,li.', Blum. 0.-0. 41':w " It"stleating the thtooranate complexes of cadmium. Report No,j; Vnv. neore.'Wo. 2 no.M2723-2733 D 157. (NM Ila) II Itlyevelki:r ComWaristvennyy univernitst Ia. T.0. Sheychenlro I labo- nutoroa imargaulaheskoy klilill. (Cadmium thiocyanate)  6-7-t) ~-Vb) A.M ~ -0019 ",",[HolUb, A.M.] Devs1optMMt Of chwistrY Of solutions. Nauk.xap.4ivaln. 16 uo.15'.13-29 '57. WRA nal) (Solution (Chemistry)) I ff 11 11/I -.  GOLUI, A.R. CHOI*b, A.X.1; TSIT=nTA, T.I. [TSybgw7Us,, T.I.] Plarcurv xtodanine complexes. JF&nk.sap.kjv.un. 16 no.15-'101-107 15?- (KrRA 11:3a) (Xoroury organic coupounds) (Abodanine) (Complex compounds) A f  C-1 L t i f 3 , Ai J "') APINOA: Golub, it, 14. and Saacy,Lonko, V. F.. 73-1-4/26 TITLO 2or=tion of the Simplest Zbiocyanate Complexes of Lead. !. ,J,oziplexes. (RodanidnyysKompleksy Svintza. I. Obrazovaniye Prosteyshilch Kompleksov.) PAiiIODIOAL-. Ulaainskiy MiizicheskiZ? ~*hurnal, 1957, Vol.23, No.1, pp - 17 - 21 (USSIZ). AB8TiiAO"2,- ':.Ihiocy~wate compounds reseiable halides in a~_,,-.y ways, but can be iawstibated only with difficl'ilty, in "';.'aich ~~anse the7 differ from lead halide comulexe_-. 2h!~ simoler th1oc:ja=-Lte complexes quoted in litcru-~uie incluae Pb(CirS),,, Pb(OS)GI axd Pb((;NS)Br (viz. (1),: Herty, ~,. IL., alli C_ Bog6o, il. R; J. Am. Ohem. Soc. 18Q?, Vol. 10, 820.) It can be that com plex 6roups consistin- of thiocyanate ions and lead ions musb be fomed in the ru Zio 1:1, 2:1, etc. as was shova by Golub,, A, U. (Naukovi, Zapittkci KD'-,', Llilr&. Z,binAkj No.6, Vol.70,V55). Invesil-igations were carried out In tba systems Pb -, V"NS- -H 0 E=eriments were car- ried out now in limits of cone en~r~tions of CITS-ions from 0.00548 to C;.1161-mol potentiometrically and spectrophoto- uletricall~r..' The exi . _~ie complex 6roups Pb(CIIS), and PWIWS)~,- was =11,8111MOW-' llaeasurino the optical ~~kj 1). '.~Jjf$ 1 2Z~aa,]. Pb(OUS) ';zoups wore cerd. 1/2 2  Thiocyanate Gomplexas of IAaLd.I: Foruation of the SimpleR- 1-4/26 GDaplexes. revealed by potentiometrie measurement; these exist in rvgioas of low concentrations. Dissociation constants of these complexes were calculated and are tabulated in table I# The heat efftot of reactions during the formation of tho complexes VbCNS at temperalZures between 20 - 40' 0. ave evaluated and tabulBted (at 40"' C)(table 2.) At higher temperatures (40 0) t4e PbQNS* complex prevailed. Higher temperatures (up to 60 C) cause disintegration. Tbere are 2 tables, 3 sTaPhs, 5 references, 3 of which are Slavic, SUBMITTEDs Apelr#" 300 1956. ASSOCIATIM: XUw State University, imeni T. G. Shevchenko. (Kiyevskiy Gosudarst-veanjyUniversitet im. T.G. Shevchenko.) AVAIL&BLW-. Ltbr=7 of Congress Card 2/2  .jw -und.khI=IcbzWkh nauk; DMIMK, ey V OOLUB Andr 4,1~r akovISTIOb LDW07k, S.IA]; PILIPXM, A.T., red. [Rar* and dispersed elements and their importance in the national eeonovO Rtakient I rovoliani elousitty ta ikb snachennts. v narodnomu hospodaretvi. Ryiv, 1956. 43 p. (Toyaryetvo dlia, poshyrepula poli- tychlWkb I naukMkh suan' Ukrainalkol RSR. Ser. 4. no.10). (Chemical elements) (MRA 12t2)  ATJ THOR: Gol:ub~ A. M. S07/156-58-4-18/'49 TITLE: ThO Formation of Selenocyanate Complexes of Silver With Higher Coordination Number in the Solution (Obrazovaniye s1?3enotsiana,tnykh kompleksov serebra vysshey koordinatBii v rastvore) PERIODICAL: Namchnyye doklady vysshey shkoly. Khimiya i khimicheskaya t*khnologiya, 1958, Nr 41 pp 685-689 (USSR) ABSTRACT: B.T the potentiometric method the formation of the seleno- cyanate complex of silver in aqueous 80luiions within the range of medium concentrations (0.3-1.5 mol/l KCNSe) was investi- 2 gated. Under such conditions mainly the complex [Ag(CNSe) is formed. In mixed aqueous acetone solutions (6-7 mol/1 acetone) the complex [Ag(CNSe)4]3- is easily formed. Salts in crystalline state with the following anions were produced: EAf,(CNSeQ_, [Ag(CNSe) 3j 2- and [Ag(Me)4~3_. New salts of Card 1.12 the silver selenocyanate complex were iso ated with potassium: KAF, (ClrSe)21 KAg 2(CHSe)39 K2Ag(CNSe )3' K,Ag(CN3e )4 . The 3alt  SOV/156-58-4-18/49 The Formation of'Selenvoyanate Complexes of Silver With Higher Coordination Number In the Sol-atlon KAK~(Cxse) is decomposed on heating without melting. On heatJng 3 is converted above 40000 the compound KA92(CNSe)3 KAe(C3Se)2 . The salt K3j`g (CNSe )4 was isolated in slow crystal- lia&tion in the vacuum exsiceator on P205 in the form of color- lems cz7stalse This salt can also be produced from acetone solutions by miring AgCNSe and KCNSe at a ratio of 1:3. It was zonfirmed thal. in working with solvents more active than water the coordination number of the complexes increases. There are 4 figures and 6 references, 5 of which are Soviet. LBSOCIATI011 - Kafedra noorganicheakoy khimii Kiyevskogo gosudarstvennogo univarsiteta im. T. 0. Shevehonko (Chair of Inorganic Chemistry at the KJ.yev State University imeni T. G. Shevchenko) SUBMITTED: lfarch 10, 1958 Card 2/2  5(2) AUTHORs Golub, A. X. SOV/153-58-6-3/22 TITLE: On Nomenclature in Inorganic Chemistry (0 nomenklature v neorgthnicheskoy khimii) PERIODICALs Izvestiya vysshikh uchebnykh zaveden-Jy. Khimiya i khimicheskaya tekhnologiya, 1958, Nr 65 pp 14-19 (USSR) ABSTRACT: The prDblem mentioned in the title is among the most burning once in theoretical. chemistrv. Major reforms In the field of chemistry have always been accompanied by a new classification of sabstances and by a change in tLe bases of nomenclature. As chenistry is an international scienre, 144 is only natural that its language should not be removed from the science itself" and that it should not lose contact with the principles that have been established thert!in with regard to definitions. Ir- the drawing up of a national noman~llature care must te taken to avoid isolationism. The achievements cf international science must not be pushed aside in so important a matter as is that of nomenclature. At the same time, however, the national nomenclatre aliso has to take account of the pe -uliarities of the national language. It is necessary that the term for any given substance Card 1/3 should readily illustrate both "he composition and the naturr-  On. Nozenclaturs in Inorganic Chemistry SOV/153-58-6-3/22 of the substance concerned. The Russian nomenclature in inorganic chemistry, as it is used today, in many respects falls short of these requirements. Whereas, in the thirties efforts were being made (Ref 2) to adjust the Russian nomenclatum to the international one, there has of late been an increasing tendency to revert to 19th century Russian nomenclature, which, in fact, is nothing but a slightly modified German system. However, international nomenclature is not entirely flawless either (Refs 4-6, 17). In the paper under consideration the author restricts himself to a treatment of the acids, salts, and complex compounds, as the other substances have beer, dealt with an a previous occasion (Ref 6). The rest of the paper is subdivided as folloves acids and saltst terminology of the acid-, basic-, and thio-saltsl com;lex and molecular compounds; terminology of compounds with a complex anion, compounds with a complex cation, molecular compounds with an unusual element valaricy, and finally double salts and double complexes. Numerous examples of obscure or confusing terms are quoted in respect of all the categories enumerated, and in many cases improvements are sugFested. There are 22 references, 16 of Caxd 2/3 which are Soviet.  On Nomenclature in Inorganic Chemistry SOV/153-58-6-3/22 ASSOCIATIONs Kiyevskiy gosudarstvennyy universitat imeni T. G. Shevchenko, Kafedra neorganicheakey khimii (Kiyev State University imeni T. G. Shevchenko, Ch&ir of Inorganic Chemistry) S'U DR I T TED iSeptember 17, 1957 Card 3/3  AUTHORSt _GoiP-h4_&t_A. Ivancbenkc, G. TITLEt 1. Investigation of the Zinc-Tbiocyanate Complex in a Solution I (I. Izucbeniye rodanidnykh komplekeov tainka v rastvore) PZRIODICAM Zhurnal Ileorganicheakoy Khimii, 1956, Vol-3, Nr 2, p:1.333-338 (USSR) A,-STRACTs A suitable method for the production of Zn(CNS) was worked out and imvestigations of its property were performed. Zinc- thLoayanate has the following compositions Zn - 36,01 1%, CNS - 63,99 ~*. Zinc-thiooyanate is easily soluble in water and the aolubility increases with increasing temperature. In benzene and dioxane it is insoluble. In acetone and absolute alcohol it in littlf soluble (0,8 mol/1). In a temperattwe interval of 210-225uC Zn(CNS)2 melts with the beginning of doootaposItion. By thedeterminition of the electric conducti- vity of the mixture KCNS-Zn(CNB)2 in alcoholic eolutions the assumption is expressed that the complex K[Zn(CNS)j is pre- Card 1/2 sent here. The investigations i+queous solutions flake a  78-2-13/43 Investigation of the Zinc-Thiocyanate Complex in a Solution negative course, as the zino-thiocyanate complex is unstable. Por investigationscf the system KCHS-Zn(CNS) in acetone so- lutions ison'ola in itia4 solutions of 0,2 mol/l were used. The complex K Zn(CNS)A is determined in an acetone solu- tion by the dirzerminat n of electric conductivity. The ooin- plex-solutiona were also investigated by potentiometric meth- ods. Asindicator-electrode the authors used zinc-amalgam opposite a saturated calomel-electrode. The results in aqueous soluttons, showed the prosInce of the folIowing com- ploxess ZnCNSr, Zn(CNS) Zn(CNS) - and Zn(C S) - The dis- sociation constants of ih'ese four complexes as iell* as the thermal effect in the formation of the Zn(CNS)2- complex in the solution, which amounts to 5,7 cal, were also determined. There are 3 figures, 5 tables, and 15 references 7 of which are Slavlo. SUIVITTEDs December 30, 1956 AVAILABLEs Library of Congress Card 2/2  GOUM, A-M- 010401IT-4,.M.M. kaind.ktdm.nauk: KRAMARMT, N.A. Solonlum. Wauka I shyttia 8 w.10:13-15 '5R. (MIRA 13-4) (selenium)  ~ rX., , , ' ' GOLUB,,,~ 1,~ , %wainkan teradnology mad nosenclatmv in inorganic chemistry. Ulm% kh1u. shur. 24 no.1:118-129 158. (MIRA 11:4) I.Kiyovskly peudarstvennyy univervitet In. T.G. Shevohenko. (Ukrains-Chattistrr, Inorganic--Terminology)  AUTHOR: Golub, A* 11. SOVI 20-12o-6-25/59 TITLE: The Influence of the SolVent on the Coordination Interaction and the 7ffect of the "Negative Complex Formation" (Vliyunlyo raotvoritelya na koordinatsionnoye vzaimodoystviye I effokt "otrituattflInogo kompleksoobrav.,ovan-yall) PERIODICAL: Poklady Akademii nauk SS3R, 1958, Vol, 12a, Nr 6# pr*1255-1258 euo i; I ABSTRAC?i As it was proved earlier (Ref 1) the character of the complex* f=nution In the presence of medium cincentrations of sol- vente such us ulcohol# acetone, and dioxans remains unchanged in aqueous systems as well no in pure aqueous solutions. Higher concentrations, however, may considerably reduce the rattetion of corplex formation (Ref 2). In order to explain this latter influence the authors studied the system ~'d2+ _ CH _ H 0 dioxane potentiometricallyg Before investi- Ratinr the a0lations it was found that cadmium nitrate and cadrium perchlorate are Pasily soluble in dioxane. Therefore, It could be expcct-~d that ordmium ions form complexes with Card 1/3 dioxane In the presence of ruter. This, however, will probably  :3-al 2o-12o-6-25/59 ,The Intl4onoe of, the '.11olvelit on the Coordination Interaction and the ---'ffect of the PornAtion" not,41sturb the determination of the composition of cadmium thlocyanato~oomplexes. On Tablm I the values of the die- a" 'lation of the complezea Lae given which dominate in a Meltaln. rnngo of concentration of the complex former. As can be:,~~Sleon from Table 1 and Pig I the complex Cd(CNS)- appears alkeady at 2~,5 mols of dioxano# i.e.lmore easily thn, in atiiiisops solutions Yoreover, a complicated complex Cd(CHS) iLo',bboerved'in-a mixed solution with 2~5 mols of dioxane.4 Ift;Ithe case of sti'll higher di9xans concentrations (Tables 2,3)~aloo the complex Cd(CM;)'4_ was observed. Thus, the introduction of dioxane extendg# so to speck, the possibili- ties 6f the coordination of cadmium. ist first sight this WOXIU~be co0radiatory to the formation of molecular com- pcru'~ft~di of diozan* and cadmium salts. In order to find a de- finile solution:of this problem the author aiso carried out pot0hitionetric measurements in the system Cd t- H 0 - Dy 11 2 (whaxie-Dy denotes dioxeme)b The results are given on Table 4. InatesA of the expeoted. reduction of tne values of the elec- trode potentials a slight increkse, could be noticed. From Card 2/3 this follows that no complex groups of cadmium with dioxane  Oum , Andrev. lub, A.K.j,tMM=o, N.I. kand.kUm. .: S# We P*D.j red#; BALTASNA, b.Te. (Baliasna, re :PGd.: MALAo 0.0., tokhu.red. [Methods of classification and terminology in inorganic chemistry) *ptomatylm i larminaloglia v neorganichaii khImil. Xylv Tyd-vo rqivalkobo %mly., 1959. 147 p. (kRA 13:1) (Chemistry, Inorganiu-Nowncisture)  GOLUBI. AA [Holubo A.H.) laveist4jAion of metal perchlorates, Viarqk Xyiv.un.noo2&S*r-fizt&, kid%4 nool:105-107 159. (KU 14ta) (Perahlorstes)  SA'N'0/000/004/002/008 A166/A129 AVTHOR: Golub, A. M. TIME: iestlgation into metal perchlorates. The preparation of anhydrous perchlorates of heavy metals PERIODICAL: Referatii7,,yy zhurnal. Kh1mIya, 1960, no. 4, 109, abstract 12877. (Visnyk Kyyivstk. un-tu, 1959, no. 2, ser. fiz. ta khimiyi, no. 1, 105 - IVI) MT: For theoretical consideratior-s a new metbod of obtaining anhydrous per~,,hloretes (and nitrates) of heavy metals by the introduetion of non-aqueous' solvents containing oxygen donor atoms (dioxane, acetone) iz proposed. The hypo- tbesis Is adranced that medium bismuth perchlorate could be extracted from a mixed water-diozane or water-acetone solution. The conclusion is that the per- chloralves (aiW nitrates) of beavy metals form molecular compounds with dioxane. Author's summary [Abstracter!s note: CorTlete translation] Card 1/1  ~5(2) 'OTHORS. 4olubi, A. M--., Pomeranta, G. 13, .31008-4-4-11/44 MLE. Complex Silrer Selenocyanates (Komplekanyye selenotsianaty serobra) PERIODICAL: Zhurnal neorganicheakoy khimii, 1959 Vol 4, Nr 4, pp ?69t-774 (LISSR) ABSTRACT: The potentiometric method was used to investigate the condi- t1oms needed for pneparing complex silver selenocyanates in aqueous and acetone-water solutions at 200~ The complexes A.g(CItSeI2'_ and kg(CNSe)3- were determined. The dissociation 13 4 conatants of these compounds at 200 were determined: Ag K - 1.61.10-14 (in aqueous solution) and 2.6,10-15 3 3 .15 (in acetone-water solution)- Ag(CNSe)4 . K - 1.57,10 (in acetone.-water solution). At higher concentrations of the complex.-former KCISe in aoetone.-water solution the --tomplex ioxt Ag(CNSe)3,, forma, The solubility of krMe in the 4 Card 1/2 prosence of KCNSe ions in aqueous and alcoholic solution was  CDMP10X Silver Selehooyanates SOV/78-A-4-11/44 inventigated, Cryatals form after some time in saturated solutionti of silver selenocyanate in the preaence of potassium selezwyanate,, Fine cryatals precipitate from acetone-water solutions with an excess of potassiura selenocyanate Analyses of' these crystals indicated the composition KA '92 (CNSe) 3' The salt. I's stable in the air, is diffioultly soluble in water, but easily soluble In aqueous &olutions of sodium thioaulfate and potassiam se~'ez,oeyamate Three tables summarize the rosults of the potentiumetric measurementa at a) constant silver concentration, t.) constant concentration of seleno- cya.vate ion. and c) constant acetone concentration. There are 4 figures, 3 tables and 8 references, 5 of which are Soviet. ASSOCIATION% Kiyovskiy gosudaretvannyy universitet im, T G Shevcheako Kafedra neorganicheakoy khimii (Kiyev State University Imeni T,~ G. She'vchenk.:, Chair of Inorganic Chemistry) SUMMITTED: Julas 10. 1957 Card 2/2  5(4) SOV/78-4-6-22/44 AME[ORS: Golub, A. M., Kosmatyy, Yu. V. TITLE: The Potentiometric Investigation of Lead Selenium Cyanates (Potontaionetrichaskoye isaledovaniye selenoteianatov svintea) PERIODICAL: Zhurnal neorganicheakoy khimii, 1959, Vol 4, Nr 6, PP 1347-1351 (US'9R) ABSTRACT: The Itad selenium cyanate complexes were investigated in aqueous and mixed solutions. The potentiometric method was used for the determination of the stability and composition of these complexes. The composition of the complex is not changed in aqueous solution in the case of constant and changing ionic concentration of the solution. The complex has the composition Pb (CTSO)4- 6 . The dissociation constant, the complex formation react on, and the thermal effect of this complex war detected 0 at 20 and 30 - The dependence of the log LPb(C.qSe)xi ----T- &04 on the log 1CNSe-j in the aqueous solution is given in fig- ixrs 1. The influence of the solvent on the formation of the Card 1/2 lead selenium cyanate complexes was investigated and the results  SOV/78-4-6-22/44 The Potentiometric rnvestigation of Lead Selenium Cyanates of the mixed solutions are given in the tables 2 and 3- It vas foi3nd that the stability of the complex is increased by the adiltion of acetone. The Increase of the acetone concen- tration, complioates the composi ion of the complex. It is poa- nible that the complex Pb(Ma)~ - is formed by a higher 8 acetone cono e tration. The dependence of the loo., [Pb(CFSe)xon in the mixed aqueous-acetone , In 2+j log ICrIse 0 solution was investigated at 20 and given in figure 2. There axe 2 figures, 3 tables, and 7 referenoes, 5 of i0ich are Soviet. ASSOCIATION: Kiyevsl~iy gosudareivennyy universitet Im. T. G. Shevehenko (Kiyev State University imeni T. G. Shevchenko). Kafedra no- organichookoy khimii (Chair of Inorganic Chemistry) SUBMITTED: Ptirch 25, 1358 Card 2/2  50) BOV/78-4-6-23/44 A UT HOR S Golub, ft. Iff., Kilimnik, G. M. TITLE: On the Problem of the Coloration of the Copper Thiocyanate Complex in Solution (K voproau ol okranke rodanidnykh kompleksoy medi v rastvors) PERIODICAL: Zhurnal neorgamicheskoy khimli, 1959, Vol 4, Nr 6, PP 1352-1356 (Ussit) ABSTRACT: Spectrophotometric investigations were carried out in aqueous and alcoholic KCSS-CuCNS-eolutions, aqueous Cu(C10 4)-solution, alcoholic solution of N(093),j CuCl-LiCl and Cu(CNS),-KCNS in acetone medium. The results are given in the figures 1 and 2. It was found that the rod color in recently produced Cu (0N$)2_XCNS_s0lut'on 'a equal to that of a longer stored CuCTIS-KCNS acatone solution. The alcoholic Cu(CNS), solution has a yellow coltr. The compound Cu(CNS), is decomposed by the addition of acetone under the separation of monovalent copper thiocyanate. It is assumed that the coordination atruc- ture of the thiocyanato ion and the copper ion in the acetone Card 1/2 solution is changed and that a donor-acceptor interaction  SOV/78-4-6-23/44 On the Problem of the Coloration of the Copper Thiocyanate Complex in Solution takes place between the central atom and the acetone molecules. A colorlean crystalline salt of the composition K 2Cu(CNS)3 was isolated from an acetone solution (Fig 3). The crystals nre easily solved in acetone, the salt decomposes in water. The crystals decompoag only.partly in alcohol. The cry W. 0- a 3- melt by heating at 55 165 , and decompone at 220 230 under proftetion. of gaseous substanocs. There are 3 figures and 8 references, 4 of which are Soviet. ASSOCIATION: Kiyevskly gosudarstvennyy universitet im. T. G. Shevohenko (Xiyov State 'University imeni T. G. Shavchenko). Kafedra np-vganicheskoy khimii (Chair of Inorganic Chemistry) SUBMITTED: March 26, 1958 Card 2/2  5(2) SOV/78-4-7-17/44 LUTSORI. Golub, A. N.' TITLE- Investigation of the Selenocyanate Complexes of Lead by the Solu'billty Method (Inucheniye selenotsianatnykh kompleksov evinton. metodom rastvorimosti) PIRIODIGAL: Zhurnal nmorganicheakoy khimii, 1959, Yol 4, Hr 7, PIP 1511-1581 (USSR) AB$TRACT: On the basis of one of the author's earlier papers (Ref 1) the following rule was deduced for iodide-, thiocyanate- and seleno- + nUA--2K XeA , where MeA is a cyanate Complexes: X" k a k+n k diffioultly soluble salts KA and KnXeAk+n two easily soluble salt-it. In stable complexes n has a low value (1 or 1/2), in non-stable complexes its h4heat value indicates high co- ordination numbers# On the basis of these rules it was assumed that in the system Pb(CNS9)2 - ICNSe, aqueous solutions, in which Pb-complaxes show little stability, must contain IIb(CXS9)4-_joAsj whereas in acetone solutions, in which the com- 6 Card 1/2 plexos axe more stable, Pb(ase) 3-ions muct be found to occur*  SOV/78-4-7-17/44 juvestigati= of Jbe Selanooyanate, Completes of Lead by the Solubility Method Experimenta2 results (table 1 and figure 1 acetone solutions, tOl a 2 and --figur* ~2- aqueQue solutions) confirm this expeotaticn and Ous aloo the rmle,set upe.Inventigation of the properties of A" P~ was carried out in col- laborati*z with Yu. To. Kosaatyy. If complex solutions are storod over longer period&, shiny black films are formed on the glass wallop which are said to be due to photolysis. It prair possible to oiyefal2lze the salt KPb(me) 3 from the acetone solution, and the salt ir4Fb(CNSe)6 from a va-ter-acetoue solution. The micraphotographs of the two salts are given by figvre 3. There are 3 figures, 2 tables, and 5 Soviet references, ASSDCIATION: liyovskiy gosudaretvennyy universitet im. T. Go Shevchenkot KafedroL neorganicheakoy khimii (Kiyev State University imeni T. Go Shevahenko, Chair of inorganii Chemistry) SUBZITTED: March 25, 1958 Card 2/2  GOUB. A.M.; ROXAMM. L.I. -. SAWYLIMEO, V.H. Liesd zlhodanl4e oo-Pplemes. Part 2: Composition and stability of Adion, coupluices. Ukrkhiu.sbur. 25 no.1*50-54 159. (MIRA 12:4) 1* 11yevskly gosudarstvanny universitst in. T.G. Shevebanko, kafedra neorganicheskoy khtult. Nad tblocyanate)  MWASOVAp Ullp Sarlpayevm; BOGAMIY, Alo~ni-v VqavolodaTiah; aty.red.; TUDCLBVA, ft.ioq rud. .........I (Obunist" Lu the vorrice of people] Xhimila no alushbe norodno Kiev, 1960. 31 p. (Obabobeetvo po rasproatransniiu politichaskikh A. wiuchofth susail Ukroinskol M. Ser.5, no.12) (KIRA 14:2) (chemistry)  QCWBO Androy MatTey'Ovich EKOIVb, A.M. k%nd.khim.nauk-. PETRUSMO, ~ Chtrueenko, A.M.). kund.f ilosof.nauk; BOLOWA. V#P.. kand.khim.nauk. glavuy red. [B.I.Mandolsev's periodic low in a fundamental law of nature] PeriodycJmvi sakon D.I.Wendelleieva - fundamental'nyl sakon pryrody. Kriv, 1960, 56 p. (Toyarystvo dlJ.a poshyrennia polityebofth I asukovykh xnan' Uicrainalkoi RSR. Ser.5. no.3-4). (KIRA 13:7) (Periodic law)  .1 .1. 1 AUTHOR$-. A, X._M~ tostrava, R. A. S/07BJ60/005/03/039/048 6IM 1 - 6 B004/DOO5 TlVLtt Tavestigotion of qomplex ?_or in the System VO 2+ _CXS- - Solvent PMODICALs Shuxnal noorganichoskoy kbialig 1960, Vo2 5, Nr 3, pp 726-730 (USSR) AMTRACT: The, object of the present paper was the determination of more oon- plioat#4 complexes than the known VO6CN+. At firett the authors report on the Investigation of the electrical conductivity In the system VC 24 -CNS- - solvontb Water, and water + 50% of acetone, were too$ as solvonts. fte conductivity was measured acoording to Xchlrausoh's mothod. An 10-7 osoillograph was used as null in- strumento a Sonerotor of typo ZO-10 &a current source. Tigure I Ohows ttst with increasing Ion concentration the conductivity changes Monototwuoly. The devistlon from the additlvitgy (diagram A%, Campo- sItion, fig 2) shave indistinct nazina. which are ascribed to 'the complexes V0Gb'+ "a VO(SCN)2' These complexes are little stable so that the Investigation of the conductivity yielded no clear rosultso Therefore, the system was investigated by an SP-4 spectro- Card 1/2 photometer in the wave band 326-1000 mp in aqueous solution an well  Investigation of Complsx Porsation in the system S/07SJ60/005/03/039/048 VO 2+ -C15- - Sol"O B004/3005 SUBMITTED: as In sollitione of water with 25, 50 and 75% of acetone. Figure 3 abowe the absorption curves for VO(CIO 4)2 and VO(Clo 4)2 + N&CNS' figure 4 the dependence of the optic density on the composition. The varying course of the two absorption curves suggests a com- ploz formatlonj In aqueous solution, the complexes VOCNS+ and VO(=S)2 axe formed. An addition of nonaqueous solvents leads to a displacoment of -the water sioloculoo from the innyjr sphero, and to a formation of anion ooapl*xts including VO(CRS)4-. Thor* are 4 4 Upres Azd 5 references, 2 of which are Soviet. Dsoosber 16, 1958 Card 2/2  "W 4 907 S/078/60/005/05/14/037 i.;? o B004/BO16 AUTHORS: I,. Romanenko,L1, 1. 1P TITLE: The influence Exercised by the Nature of the Solvent Upon the FormatioA of Thioo3ranate 6-2~sx!.slOf Vivdl9nt MOrcurY PERIODICAL: Zharnal meorganioh*skoy khimii, 1960t Vol.- 59 No- 5, PP. 1085-1089 TEXT: The authors made a potentionetric investigation of the thiooyanat* con plexes of mercurjr vbich form in pure noz-aqueous solvents or at high oonoentr;_ tions Of such solvents in water Acetone and methanol were used as solvents The equilibrium consiazt1br Hd+ + 11S Hg2,+ was determined. The composition 2 2+ of the complexes resultod, graphically from the diagrams Ig Hg lg.CKS (Fies-1-4). The *xperimental data am* present,ed as follows: value of X H 2.,I'./[Rg 21 in 92 J the various solvents (table J)j potentionetric Investigation of the system Rg 2.& - CXS- R2D - C11 01 (Table 2); system Rg2+ - CRS - - H2 0 - CH3 COCH3 (Table 3); system He 2+ CWS- - CH OH (Table 4), and system Rg 2+ - CN5 - - Y (Table 5). The statement made by A. I., Posigun (Ref. 3) that the anion complexes of mercury with I  6~w 6 9s-j'9 The Influence Exercised bj the Nature of the Solvent S/078/60/--105/05/14/037 Upon the Pornation of %11*47azate Complexes of B004/BO16 Sivalent Mercury tbiocyaouto ions may pomss*s the coordination number 6, vas confirmed. With in- creasing concentration oC the non-aqaegue solvent the composition of the anions becomes,nore complioated'up to Hg(CNS)g- 1 vhoreas In anhydrous solvents simpler 4. complexon are formad. The IS CNS)6 aomp1mm fore in aqueous solution at KCN$ con- oentrations of betusen 2! and 3.4 moles/l. The dissociation constants of the com- pl*xos lgg(Cn)2-,, 1tS(CV3q-, and Rg(CXS)t- in th* various solvents vere calculated. 4 There ate 4 figured, 5 tables, RW 5 references, 4 of vbich are Soviet. ASSOCIATION: U evskly gosudarstvowkyy universifet in. T. G. Shevchenko (XY ROT State University imeni T. Q. Shavahenk SUBUrMD- September 20, 1958 Card 2/2  S/07 60/OO5/O09/C27f/O40,/-(,X B017YB058 AUTHORS: Golub, A. 9, and Skopenko.-V V TITLE: CoEpor Selenocyanates PITIODICAL: Zhurnal noorganicheakoy khimii, 1,960, Vol 5, No~ 9, pp. 1973 - 1976 TT-XT: Copper selenacyanate complexeAn acetone solutions were investigated by spectrophotometric and solubility determinations, V-iff dependence of the solubility of copper (I) ihloride on the con- csntration of K^VNS* in acetone was ascertained. and the results are graphically represented in Fig. 1. The equilibrium constant of the complex KCU(CNSO)CI" was calculated as being 0 24 Spectrophotometric examination of copper seleLocyanate complexes in acetone solutions shows that tile following complexes may appear in the solution: 0- CACI(CNse)-, Cu(CNSM) 2-~ Cu(CNSe) 3 and Ci(CNSe),, The compounds KCu(CNSe)C1 and CuMe were isolated and their properties investigated. Card 1/2  Copper Salencayanfuten S/0718/60/00~,/009/027/040AX BO-VBO58 The compound KCu(C11Sw)Cl is a colorless. f-Inely crystalline p,-wder which lecompones very easily in water &n-1 alcohol The copper solenceyana.Le CuCN$o in practically unsoluble .n water, acetone, or alcohol, ani stable in a dry state at normal temporatures This compound do-.omposem when heated., Copper aslenocyanate is easily soluble in WISe solutions under the formation of complexes, The solubility proluct; of CuCNS9 at 20C~C amount3 to 1 82 10-10 The authors mention papers by Vr- F. Toropov, Yu V, Karyakin, and I I. AngrelDT. Thare are 2 figures, 1 table. and 8 Soviet references. ASSOCIATION: Kiyerakiy gosudaretvannyy universitat Im T G Shevchenko Kafedra neorganicheakoy khimii (Kiyov State University imeni T. G. Shevchonko, Chair of Inorganic Chemistry) SUBMITTE"DI: June 12 1959 Carl 2/?  GOLUBj A.M. [11caubp A.M.]v MM,khim.rAuk analysis, Nauka. i zhyttia 10 no. 12:40- 41 ~D 1150. (MIRA 14:4) (Xurnakov, Nikolai Somenovich, 1860-194-1) (Chemistry# Analy-tical)  "/6" /009 /0, P,/'XX 127!, J~ ;, ~1, 2 /Bol Golp;~,_.A.11. &nd Rlomr,ncnk~!, L.1- VITLE: R)~or.,anlde Complexes of Lead 3. Anion Complexes of Lend Wi th the Ccord-, r t,,:)n PERIODICAL: Ukrminskiy khimicheskiy zhurnal, 2~6 No. A PP. 418-422 TEXT: The authors of the present paper stud,.~-i :) the effect of th~, n~.- trate iona on thia lead complex formation, 2) thv value of the diBSOciation conatant of rhodanide complexes, aril ~)' d_ata zr the i s :-'. 11 - tion of the molecular lead rhodanides with the c,)vr-_ir.,t:on -~;-,ber 6. T1- determine the composition and stability of the nitra*,~, _eai complexcul the solutions of lead perchlorate (with con,-,tant con~~entraticr) and sodium n2.trate wore potentiometrically irivectigated. A saturated calorie'- electrode served aB reference electrode and 'lead ama~cam as indicator The Pb(Clo 4) 2concentration was 0.01 M, -.hat of !3,cd-,u~. r.-.~rate ~) 2-2 M The equil~brlum electrode potentials were -,h.,_r7'_i!A(PFTV-1 ) potent iometer. The reduction of the lead elec!rode pot-n-ial w.-th in. Card 1/3  116165 Rhodanide Comploxes of Lead. S/07;~/61--,/'C26/'004,"000/01.5/'XX 3. Anion Coaplexes of Lead With the, B02 ~/BO64 Coordination Number 6 creasing nitrate icn concentrations in the system Pb" - NO 3* H20 Indicates tho formation of lead nitrate complexes. The PbNO, ompiz., ta , n was graphically determined on the basis of the po*,:!rticmetric data The dissociation constant was calculated and found tr,1,Efairly -,table; it amounts to 0.16 an the average, V. M. Samoylenkc assisted n invcstirat-tC the nitrate lead complexes. Furthermore, a potentaometri~. invest,.gat.,.on r-as made (:if 1he formation of the lead rhod-Inide ccmpiexe., of the anzc% t ype at conalant ionic strength of the solut:ons c" wft~3 mairtainet! with perc*hlorate jons. The fnrmation of the was confirmed an(). the actual value :.-,f it,~ dissc.:;iation c2nstar.*, waE found to 'be 1.83.10'2 at an ionic stiength of 6 ~1. On the tas:s cf K.B. Yataimlrskiyls data and by me~-.ns of the aferementioned cc-nstant. 7. The th,,rd the solubility product of Pb(CNS),, was fc,urd to b- problem wui siolvel,ii '.,y crystallizing KCNS - Pb~~CNS f Tte anal:is:is. of the iialt obtained yielded: Card 2P  8,6165 Rhcdanide af LeFd S/C-"1311601n~2~-- /00410091 0'~./XX 3 ,. Anic-ti C..mple~:e:3 t:,f L ead With PO ~~ ~/'BC64 thf: Coord:inatic7 N-amber 6 I'll CKS K 28-73, 48-56, 21-71% as nampa-,i wi-n *~~v lhv~reliru- C om') 02'. t A ol, 2~. :0, 4 8 - (114 21.96% tor KPl, (VIS) C: nseqjimt IY t1ji; leud r hoduni-cip ccmIlex w-, th th'- c~~.):A;n,Lt ori numt.,r m-:v be obtfilned only in the solutij- bu t a 1 9 c a - r7 0 7- :: OMI. F, r d There arc, 2 fi~- pjre;~. 2 tables ani 5 refere ncef,: 3 c -,r,. 2 US kSSOCIEATION: X yevak y goBudarstvennvy un lver,,~itet SUUTTTED: Card 1/3  SMCMID, F.D., katd. khim. Holub, A.M.], kand. khju. nat*0 dotseritj Otv. eid.; VIADRO, Sh.Ta., red.; MAMI(;HLTX* a.A., te)~Ii. rsd. [33amic prInolples wW Javs of cbevistry) Osnovni poniattia i za- kal khimii, Kyiv, Tovarystvo dlia posbyrannia polit i nauk. a=n' UILSR~ 1961. 34 P. (Chmiatry) iM IRA 3.5 11)  LITINETSN=p Im*t Borlsovich[Utyne 1171, I.B.], kand. tekhn. mk; 6. _.j[,-.LJIobtb, A.M.], kmd. khim. am*, otv. red.; 72 -..,0QK;B Arl pujWAP- A.Se-P rode (14.1'.Lwowsov so the famder of plWaical chwdstryl H.V.Lamonoowr.. *awvopaI*%bvyk fiqebzoi Mail. 4iv, 1961. 38 p. (Toyarystvo dl~* podbVremia politvohvM i nimkovykh -1 Ukraina'kQi RSR. Ser+6s mo.7 4monomov, Mikhail Vasillevich, 1711-1765) (KMA 1429)  GOLUB, A.M. I'lloliab.1A.M.); XII.IM,IX, G.H. [Kylymuyi, H.1-1.1 -I--,--..-,-.- MOO of ! It laurves Iri the coagwative stab~llty char acteris tics of c0u~).exoifl. Dop.AW UFSR no.71932-934 161. (KaU 14:8) 1. KJvevmkiy gooudarstv*wiyv universitet. Predstavleno akadomilton AN USSR Xu.K.De3 !- okJAjL [Dell- a -kyi, IU.K. ]. (Complex compoundd) v~ -, ~ I  GOLUB q A,M. ~, SKOPI.ADO V.V. ww-wowb"lop"ill Silver welonocywzte complexes in mlxed and !-.ctlanol solutions. Zhw-. noorg. 6 no.1:140-11,3 161. (MI-A 1/.;2) 2. Kiyoveoldy ;'-c)uud&rut-vemirf univ'ersitat Im. T.G.Shovehealco. (smmtqql~ (Chomintry)) ' (Silvor cm-apoirids)  GOLUBI A.H.t MODIOX0, F.T. Potentiamstric investigation of iodide complexes of silver in the N&wl EMO~ - MaXO~ eutwetic. Zhur.neorr.khim. 6 no.10:2344-2346 0, (MIRA 14t9) , I t1 .. 1. J:Ayevskiy rosudarstvenroy universitet imeni T.G.Shevchenko, kafedra n*orranicheakoy kbinii. (Silver iodide) (Potentionetric analysis)  OOLUSLAA,tj IKKOMOP Lale Thloeyanwto complexes of 100do Part 4s Effect of indifferent ims on Uho emposition of the couplexec, Ukr. kbi-. shurs 27 w. linZ l6a,, (MIRA 102) !~* Uyevokiy pndaretv*My universitat im. T,G, Shavchenkat kmf6dra mearganicheskI kbiali (74 C;~~mdn)  .GOLUBg A,,Kp SNOIROBWATIROP TO.Ps 0 (1). Report No. 2. Urk. khim. sbur. 27 Boo 161. (MM 34:21 10 Uyevskly gonudarat"nowy universitat im. T.G* Shevahankas I*fWJm-v*4wSwdobs#kqy Irbial I a (Th&Mva compoumdo)  .ODLUB# AXI GOWZM., 0.1. "W-Uns doubU salts of lead iodide. Ukr. Whim. shur. 27 imol2Q3$--Ul 161. (MIM 340) I* tLrmskiy gosudimstysmy =ivernitat i3R. T. G. Shavahankop kafefts asceptdohaskay Wall. (ioad UkUft)  GOIA)Bt A.M.; ~QWJZTSP 0*10 I '. k, lodidW - omplexan'of lead in monaqueom solventso Ukr. kbin. shw. 27 tio.2t241-146 161. (MM 3.40) 1. Xirmskiy goiudarstva=yy uidversitet im. T. G. Sheychenko, kafedWagarganjaegkoy jr%juji, (Lead COMOUnds)  GOLUB, A.M. j OGIMNIK, S.S. -.1 ...... -.. ~ I Thiacyanide compimme or tin (V Ukr.khim.zhur. 27 no.3:28-1-290 161. (MIRA 14:3.1) 3. Kiyevskiy gosudaretverm" universitet Im. T.G.Shevchenko, kafelim meorganicheskoy khlimli* Tin compounds) hicepmic acl d) R