SCIENTIFIC ABSTRACT ZIGEL, L.A. - ZIKMUND, M.

 0040c# Mgt: A00; 0 "t Mgt: &$w 0ploft - i 4w, --o6 Us Ot" 4r 4xvGxmgtw43tfii--, it" Ono i, r7 Cie "Atkuld Wav PM74.1 30 dimthyl AA31; P. S. .00 see Zoe coo roo too* coo see i) ftv f- its Jm~," I Solana"&* 4mv cot 11311110#1 F 4 t w j U $A I II ;*A00 1 1 Ig- IN94'0 A $'I 419 .61 It I Wa It a. Ku W- 0, e--O- 0 40: a - fW-00lop AL of q'A M-M:-P.:.*-4:!** 'o. Ii 10: 0'*  t6i own a low 40 iA lot'' SOW, ago sw into a 00%0 900 see goo 00 room WwOlip $4"W M40 GMT la"nocif i .~ , L94 77it b 9 a 0 4 4 a a s a 4 3 4i :0 o -e.: 0 o 0 si~ 04, -07 0-) 14's Af .0 0 a 0, a-.*- a 0 -0 1-0 #1101, I *-: 0 ~* L.0- t 7  1111i pip '11117 Gi U1 VOOC lists eft* 06CON2119%. *ask Yield, I ka. 'llit above is treated with itit) S. 1,i,;. limits. ILUY to FMVVUt strung ovellicaling of ~lhe ollisit.. after hi l h W i " w c worl"atm I s exid. with KtlO; the solvent i-b Techakal Iyathods of 4-m - a..- d' at Previously to tolot; r Yield, -1545(r~. 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Ill In hostive. thm collimed by dilits. in slormo. the 114 1 elicit, with 401-111, ill several juntiamllC4,1111 Is. chalk for - Nulling thor libmalrol lilts. the frotlillied alf1da. letivol, 4#0 0#3 0 7-8 be%.. after whk-b the pcW-llct is wpAlml with water, fil d d W . tetr r sold freed of imAvtnt by Jilin, im mermoo; , 0 0 M-141100 jr. bramilarehlivoki atetak Is olkimitiod, To 11, - 1M of the abav l d It i h I too 00 r, coo t 2 s r-ovacr. t e 0. em s adtlol ollowir a wall. of driv IICNNII, ill Kit) 1. she. E(Oll. f i logo w th coollistil bellows (K) the in st. 6 loll stand for W I tit got g hors., rtAuxed lot 1 -1 .6 hro.. tics "x4ing, the adit. is dJAI.: *1 th water " vad. With llito the a layvt is nude . 18. &tit. with SJD ir. NAOU and 16M CC IEL H and selficiz d S . e an a mcoom Imth lot 1-:2 hors., OvIed. soddided by IICI. mole. o0 muz and "star are distd. I)6 is 30tup to 04 the Orlithesed .,A, and the O'CSIdUt IS Mitred Olot *ill& K9C" tMyWd VUL1,-:Al X. Me 0 1 I.W40. Oserak, on. Me; G. M. Koemulapuff ;Sa.1 A atl&LLL%KK&L L"tRA7"1 CLASSIFICATION tie* I lam gole 0 v I,** -AP QRS, aft MIM0111 l ' 1 411A11 ater able sit U a AV 10 s1, "A It 4 I l it it i it a i i I a I a 9 a a 3 V -0 go 0 I'll 0 0  Ow 0.4 00 06 .00 Oss -06 008 god 00.3 aOo see 00 4:00 a*O 1 See IL M47ALLUMIC&L LOOnva cWwarAyiew be* wo* last" "it Q%V 4#4 alaw aw 0., is. u a 0 Q all; ;v b 0 ; 1. 4 "t M A I Is fw, 0 0 '1 v 0 A 0 9 1 ,6 .0 a 0 010 0 0 0 0 0 0 o,* 0'.6 0 0 I~ 0 *10 * 0 0 0,00 0 0 0 04 * ; 0 Go* 0 * 0 I A Q-0 0 0 0 0 0 0 0 O;L* 0 *"* ;a 0 0.1 ~o *_* 0 0 0-_0_Q:0 0 0 0 Q 00 CI  B/054/60/006/02/05/021 B022/13007: AUTHORS: Kondratlyev, K. Ya., Zifiolog~ 0* A. TITLE: The Problem of(~hermal Probing of the Atmosphere Tith the Aid of Photometric Data Obtained in Twiltght A-1,1 PERIODICAL: Vestnik Leningradekogo universiteta. Seriya fiziki i khiniij 1960, No. 2, PP. 45w48 TKXT: The main difficulties in using the photometric method at twilight: for the purpose of investigating the atmospherical structure are aerosol- and multiple scattering. In the present paper the at~empt::was made to investigate the influence exerted by th ese two factors by: using cel,Otial photographs in twilight. Measurement of sky brightness at,twilight was carried out in the region of Mount Elbrus in an altitude of 3700 m.above sea levell this was done during the period from July to September* 19594 Fig. I shows the calculations of vertical temperature di6tribution~oarried out on the basis of the mean values of all data obtained4 Fig. 2 shows the time-dependenoe of the change in brightness at tv" light in the isenith. The results obtained show that the twilight-method in Its usual form Card 1/2  ---------- The Problem of Thermal Probing of.the Atmosphere 9/05,Y460/000/02 2 /05M1 With the Aid of Photometric Data Obtained in BM BOOT Twilight permits only an estimation of the mean temperature values. The f olloviii;4 persons are mentioned: T. G. Negreliahvili (Ref. 5),'N* B. :Divari (Ref. 8)0 Fa F. Yudalevich (Refs. 6v 7),:V- 9. Feseakov (see~Ref. 5)1 and W. M. Shtaude (Refs. 3P 4). There are 2 figures and 8 Soviet references. Card 2/2  H/004/61/000/012/001/001 D022/D~105 AUTHOR: Zigel, P., Docent TITLE: Are there any intelligent.beings on Mars? PERIODICALi Tudomfiny 6s Technika, no. 12, 1961, 400-409-~ TEXTt The author deals with the possibility of the,~existence of men on: Mars., It is a known fact that regular dark streaks resemblingalcanal network cover the Mars surface. The canals are continuousl* leading.either:into a "sea" or into another canal. It can be assumed that the whole network,:is fed under pressure by a mysterious installation in'order to supply,;Mar.6 wit~th water. The oases in the canal network look-like colonies of Mars inhabitan a. In the winter these oases b~ecome paler but their cores remain visible'and the possibility of these oases being towns must not be overlooked, Deimos"and Phobos, satellites of Mars, rev lve around Mars in an almost circular, .orbit) Kat.of the Soviet artificial satellites or having a trajectory similar to t space ships otbiting around the Earth. According to S. Shklovskiy the Mars satellites are more than 10 million years old. The author, how6verg maintains Card 1/3  D022/DlO5 Are there any intelligent beings on Mars? that both Martian satellites appeared on their traje~tory,about 100:y'eare ago and that they were created by the inhabitants ofAfars between 1862 and 1877. He supports this statement with the argument that these satellite 8, similar to the.artificial satellites of the Earth, are continually bombarded by micrometeorites and that, thereforeq in the course of several millions of years both Martian satellites would have been destroyed, particularly in view of catastrophic collisiow which occur in space.: In 1952, a new green patoh the size of Ukraine and known as the "Laocoon-knot" suddenly appeared on the Mars surface. This patch becomes darker in colorevery Year,but:main- tains its contours. All dark spots on Mar~ are supposedly vegetations. It is baffling that a large area of the Martian desert becomes green and that this assumed vegetation becomes richer from year to.year. This can be taken as a proof of the Martians' struggle for existenoe under:the advers6!con- ditions on their planet. Other similar changes have.also been obse;,~Ved, pre- viously near the so-called Sun-lake area of Mars. Sometimes sudden,' very strong lights appear on certain spots of the Mars s urface followed by a small Card 2/3  H/004/61/000/012/001/001 D022/D105 Lre there any intelligent beings on Mars? cloud or smoke formation resembling an explosion. Such phenomena were ob- served in 1937, 1951, 1954 and also recently. These.phenomena last.a few minutes or a few seconds. The existence of intelligent beings on Mars is, howeverg still a hypothesis. Much can be expected from the space rockets which could photograph the Mars surface and its satellites and provide us with more explicit data. There are 4 figures. Card 3/3  AUMRs Gu1j"ev, S.D. lag Conference 00 Cr7stA1224"tinn Of Mst&:A(SOv&shcb--' a go kri.stallisatait setallov) PERIODICAU Izvestlya Akadoxti Back SWR n4a Telchnicheakikh' Bank, 1958, Or 4. pp 153 - 1~50(2361SR, ARSIRACTs This conference was hold at the Institut mashix%ov*d*niym AS SM (ImSitute of Mechanical Nagizaaring of the Ac.Sc. USSR) on June 28-51, 295a. About 400 people participated mad the partlaip&ffts Included specialists in the fields of fosAdL7 n4talluraY crystallography. p Les, weldIne, b4&% UWgic&l ct-U&tz7 mathematical pastes and other roUlal sub sets. In ;!:Ution to Soviet participants forql~p vif tars included Professor D. C-11X1 (Zest Go;cany) mad N.I. Chvorinov (Cz choslovakim). This conference an cr7w1-"1&4%JOu Of Z#=W" the fourth conference rslAtinZ to tU- gameral problem. of the theory of foundry processes. -.2r~Q214; 'artsin Ketbods of a SM 0=1 08 'If -unlf- f g;r Castings (UP to 20 and of 1" 4 - Sea I' V-X- JF0T1tXk1Y A.#. Mikql-;hja T T--P11J&v - '12111usMe Of Zzternai Crjrstalllaire ask Us Xtruztize and pr--pertlas of Steel Ingots- .rum (Cawchoslov"ia) AtLou S.T~Zr - 'On the crystalliAl Of $444 -Cry.tgllls&tlon of Continuously Cast Iq1Ot and Influence on it or the Properties of CardVIO Liquid ft-l"I L-L~A9XQzszskiy and 0 D Zi 1- ,zafluance of Movement of the Metal I. It; ~L,0.1.1 Core an us Crystallisatical Of Steel Ingots and Castirga-; 1.36-t9in, A.A. Xovikcv& and B.B. Gu1jayev 'at r1W. ;=$ted iXAt1OA &A iLazlcal Properties of Steels at Za; T.Ift. .,;*,7zszk - "Influotco of Isocalatliffil1w rration of the Crust and the Speed of salidi--ation of Igot.*; 0.p. *ft&m-1 Stresses and Deformation in the Crus~ oZ C27OUIUSIMS Ingots; T.G. OxaKIP and P.I. deals with Problems of foraWt-170a, Of the primary At,,4C%,,re of stmetural steel and the LzIfluenco on it of tts towereture of pouring. wbw features Of or castings made of AUGYO Olt% special Pr-cpart-l" and of AuzZ&=.1t!z st&*19 Nam 40"t with in the fall*Wizz papers. I-11 J2=-v - Of IJ20cul&tlcn On tht Structure and on the Px- .partles of HL,&h_&jcy BUmIe; F-F- X44U&hla, F.T. Akns=v, N.F. lAk:_1kc .4:1 JLY- ftdLaa '-Occurrtaco re alloys and Habt Card:7/10 arA 1xxV#rLmggt,, 2_-Tgztigatio= of ths rr4, .06, Of Cr7st&I112atiOn of Cast Blades Made of Refractory We- V'; A-X-MLrj--Ov Cz=!Aared the process of r" &to  SolidificationbOf Metals; (JUMNOL.) Trans. of 2nd Conf. on*WX& Theory of Foundry Processes, 56; Moscow Mnshgiz, 1Q18 I ' Zigell O.D., Engineer; L.I. Morozenskiy, Candi a e of Technical ? _g . and I.Ya. Granat, Candidate of Technical Sciences. t iences ciences; Factors Determining the Development of Extra-axial Chemical and Structural Heterogeneity in'Steel Ingots and Casting3i 338 Tageyev, V.M., Candidate of Technical Sciences; and Yu.D. Smirnov, Engineer. Investigation of the Process of Formation of Extra-axial Heterogeneity in Steel Ingots and Castlngs~ 352 III. IMPROVING THE QUALITY OF PRODUCTS BY REGULATIKG~ THE CONDITIONS OF SOLIDIFICATION OF CASTINGS Postnpv, L.M., Engineerj and B.B. Gulyayev, Do.ctorzof Technical Sciences, Professor. Investigation of the Effect of Metal Solidification During the Fillirig of the Mold on the Quality of - Steel Castings 7h 31 -T Mady4nov, A.M., Candidate of Technical Sciences. Control of the-1 Process of Steel Solidification in the Mold in the Production of Heavy Ingots 397 Card 6/8  SOV/123-59-15-601172 Factors Determining -the Development of Non-Axial Chemical-and Structural Heterogeneity In Steel Bars and Castings intensive flows occured near those sections of the crystallization front which are. located horizontally above the liquid metal or vertically, where the vertical component of hydrostatic pressure is directed upwards or equal to zero. Near the front sections located horizontally below the liquid metal, e.g. in the bottom part of the bar,' the flows were developed weakly or did not appear at all; here the supply takes jPlace mainly at the expense of the above-located layer of metal. The 'flow intensity near the in- clined sections may have a number of intermediate values, depending on the'ahgle and direction of inclination. For instance the flow intensity.'is greater in bars growing wider at the bottom than in bars with vertical walls, and s.maller In bars growing in width at the upper part. In both cases the difference is the more considerable, the more slanting the walls are. Also the extension of the crystallization front affects the flow intensity. On the basis of the comparison of the data obtained on the flow direction of the metal supply with the actual data on the location of dendrItic heterogeneity ("whisker") in bars of bubble-free steel., it can be concluded that these flows are the causes of the appearance of "whiskers". Another necessary condition for the formation of whiskers is the existence of a zone of .9olid-liquid metal'. Wa high solidification rate this zone does not develop, therefore "whiskers" are not formed. Card P_/3  71GET ~ 0. D., CTI'TIEOV, A. I., and "An Investigation of the Therno-1 Work of the I-Tucleator VAed in the Pouring of Steel on a Continuous Conve~yorll report presented at the 7th Cmiference on the Interaction of t~* (~ostiim7 Miculd ara the Casting, sronsored by the Inst. of M~echanical Enr ineerimr; Acad. Sci. USSR, 25-26 Januai-y 1961.  AUTHOR: Zigell Engineer SOV/133-58-8-9/30 TITLE: Conference on the Problem 'of orystallisa.tion of Metals (Soveshchaniye po probleme kristallizataii metallov)'. PERIODICAL: Stall, 1958, vr 81 pp 709-?10 (USSR)~ ABSTRACT: The conference took place in January, 1958,lin the Moscow Institute of Mechanical Engineering of the Ac.Sc.7USSR. Altogether, 48 papers dealing with theoretical and 'Dro- duction problems of the wystallisatIon 6f:'m Ietals,were' read. In a paper on the present state- and~tasks'of studies of crystallisation and properties of cast metals, B.'B.Gulyayev analysed a large experimental material on:the influence of the conditions of solidification and i-nocula"u-ion'on the structure and properties of cast metal. Papers on the problems of the theory of crystallisation of metals and further development of views on the mechanism of.the' appearance of nuclei and growth of crystals were read by: A.S. Kamenetskava, B.Ya. Lyubov, V-11. Malinin, G.P.Ivantsev, xi.L, Pokrov,9kiy and D.Ye.Ovisenko. V.Na, Sirota (Member of the Ac*Sc- of the 'Pel6rusaian ' ;-, SSR)'oommunicated the results of work on the.development.of physico-mathematical theory of nucleation and growth of crystals. B.Ya.Lyubov Cardl/6  SOV133-58-8-9/30 Conference on the Problem of Cry-stallisation of Metals communicated the results of calculations,of the velocity of solidification of metals.in large volumes, taking into consideration-the deEree of over-coolijag,..showing the' insignificant role of the latter in.the heat balance,,but pointing out its iwportance in studies*of the formation of structures in ingots. V.Ye. Weymark,* M.V. Mal'tsev and. I.I. Goryunov gave experimental results confirming the influence of modification on an increasesin fineness,of the structure, an increase in indices of mechsaical properties and an increase in the rate of solidification of iron .- carbon and non-ferrous alloys. On the basis of investi- gations of the influence of the velocity of crystallisation and composition of alloys 'of Fe-C and AI-Si systems on the quaatitative characteristics of their structure,.it was established by O.N. Magnitskiy, A.A. Denlidova and: B.B. Gulyayev that in pure metals and alloys of an eutectic COMPOBitiOn there is a simple dependence of the size of primary grains on the velocity of crystallisation'. while in alloys of the type of solid solutions, the relEdionship is more complicated. The influence of ultrasonics on the Card2/6 crystallisation and properties of alloys was discussed by  SOV/133-58-8-9/30 Conference on the Problem of Crystallisation of Metals N.N. Sirota, Ye.A. Lekhtblau, E.M. Smolyarenko and I.I. Teumin. I.V. Salli communicat6d the results:of 'Studies of tte.influence of high cooling rates (of the order ',of 1000 C/sec) on the character of aystallisation. N.N.: Belousov and A.A. Dodonov reported on the influence,of pressure on the structure, properties a6d~shrinkage defects in castings. 11.V. Simonenko, N.N. Belousov and ViS.i:Xoles- nikova. investigated the.structure of copper alloys obtained by a galvanic-diffusion method. The process of diffusion of zinc from the gaseous phase into solid copper leads to the formation of alloys of a uniform s .tructure and chemical composition similar to copper alloys obtained by-thel:usual casting methods. Investigations of.large ingots:carried out by V4I. lapitskiy and co-workers and V.N. Novitsk,iy and co- workers gave some practical indications:as to how'non- uniformity in ingots of killed and rimming steels' can be decreased. Papers on the quality of metal obtained by continuous casting were read by A.P. 2ronov (on dpecial features of crystallisation of continuous ingots!and the influence of the fluidity of steel on their strualtur4j), Uard.3/6 G.F. Ivantsev (on thermal stresses and deformations appearing  SOV/133-58-8-9/30 Conference on the Problem of Crystallisation of Metals in the solidifying cxo,.~;t.of continuously cast xect6ngular semis), L.I. Morozenskiy and O.D. U0,011 Sipeci6l: f eatur e 8 of ageing of continuoasly cast semisY and Ye-D. Zaikhaiov (on the dependence of meolianical properties of semis:from ape of indentation on continuous casting of i alurdnium the shc U alloys). K.P. Bunia (Corresponding Memb.ez, -,*', of the A0.80. Ukrainian SSR) and Yu.Z4. Taran read a paper on "Eutectic crystallisation of grey cast irons" in which they~,analysed some specific features of the formation of graphite ~~ inclusions and gave kinetic 6 e' S-shaped curv s of uteciie transformation based on experimental.data. Pr6f.,Czikla (East Germany) reported on the theory of crystalli6ation of graphite in cast iron. Ya.v. 14alinochka report,~d,on )i-~ liquation of silicon. A.A. Zbukov developed alnew ' h o scheme of structural diagrams of cast iron in whic n ':t only the3ate of cooling but also some special features,of the liquation of silicon were taken,irito~.consideration. I.I. Khoroshev investigated the medhanism,of the formation of centres of crystallisation of graphite.incastings. from white iron showing.that a peliminary heating.'or iso- hermal hardening increases the number of crystallisation Card4/  SOV/133-58-8-9/30 Conference on the Problem of Crystallisation of Metals centres and thus sharply decreases the annealing proces s. Two papers were read on the formation of nodular graphite. I.A. Shapranov and E.V. Petrova communicated that,the~ introduction of magnesium leads to the separation of,* graphite before the solidification of the cast iron'takes place and the presence of a large number of crystallisation centres and an increased silicon content promote gr'aphiti- sation process after the solidification o1f iron. B.S. Millman explained conditions of~the formation,of spheroidal graphite. I.L. Mirkin gave the results:Of quantitative determination of Mo, Dli-P, etc., along the cross-section of a dendrite*using localised speciraI: analysis and photometry of microradiograms. Using.micro x-ray and microradiography, B.A. Mov6han.made quantitative determinations of admixtures in aluminium. alloys in the f axis and interaxial spaces of dendrites (surface area.o 0.003 mm diameter). L.I. Morozenakiy and O.D. Zigel studied the movement of metal during~solidification of ingots using radioactive atoms. Using specially developed technique of determining mechanical properties at high temperatures, u.v. Guglin, A.A. vovikova and B.B. Gulyayev Card5/6  sov~/133-58-8-9/39 Conference on the Problem of cry-otallisat-Lon of Betals obtained strength and. --lasticity characteristics for a number 'of steels at temperatures near to the solidification temperature. The conference gave recommendations-on the further directions of the research work in the fiela of study of the process of crystallisation,of metals, * improvement in the quality of ingots and castings and a wider application of the results of research in practice. Card 6/61. Metals--Crystallization 2. Cast metals_~-Properties 3. Crystals --Growth  SIOV/ 137-58~9-18699 Translation from: Referativnyy zhurn,al, Me tallurgiya, 1958,~ Nr9, p7,8 (USSR) AUTHORS- Zigel', O.D., Morozenskiy, L.I., Granat, I.Ya. TITLE: ,_~_s &verning the Appearance of Extra-axial Chemical Inhomogeneity in Steel Ingots (Faktaryj opred,elyayushchiye razvitiye v stallnykh slitkakh vneosevoy khimicheskoy neod- norodnosti) PERIODICAL: V sb.: Staleplavilln proiz-vo. Moscow, Metallurgizdat, 1958, pp 75-88 ABSTRACT: A study of the process of ingot formation.was first conducted with billets of high height-to-cross -section ratio produced by continuous casting of steel. P32, W185, and S35 were,inmtro- duced into the metal in the tundish. Macroscopic radiography of templets showed the isotopes to be in.layers parallel to the plane of crystallization of the metal, the dissemination thereof into the ingot proceeding' downwards at'a rate of 10 m/min under the conditions of the experiment. This distribution of the isotope reveals the cause of its dissemination into the ingot to be primarily transfer by streams of ~ liquid metal, the* move- Card 1/1 ment of which is induced, in the crystallization of an ingot  SOV/ 137-58-9-18689 Factors Governing the Appearance of Extra-axial Chemical (cont.) of killed steel, primarily by shrinkage upon transition from the liquid to~the solid state. Metal containing W185 was added to in sand molds. of various shapes after they had been filled. It was found that 'the radioactive tracer enters the casting in flows of metal along the front of crystallizationat a rate considerably greater than the rate of motion of the metal in the' rest of the liquid mass. Th~e direction of displacement of the metal in the casting is not determined either by the temperature distribution in the casting or bk the temperature of the metal in the incoming flow. The angle to the hori- zontal of segments of the front of crystallization has a significant effectupon the formation of longitudinal flows along the front. The influence ofidisplace- ments of metal along the front of crystallization upon the degree of extra'- axial chemical inhomogeneity was verified by loam casting of a 1.5-t ingot the sides of which had tapers of 30, 20, 5, and 07o. The appearance of ; , 11whiskers" adjacent to the vertical edge was noticeably more intensive than near the edges with 307o taper. The intensity of the metal flows along the front of crystallization depends upon the rate of solidification. Zona.ljn-~ homogeneity may occur only where the rate of crystallization is, capable of giving rise to an intensified flow of metal along the front, and the formation of a region where 2 phases exist simultaneously. This explains the forma- tion of pronounced inhomogeneities in the hot top of an ingot and the abse nice Card 2/3  SOVI 137-58-9- 18689 Factors Governing the Appearance of, Extra-axial Chemical (cont.) thereof toward the bottom. The differences in the chemical composition of the steel affect the intensitXIpf "whisker" development because they result in different degrees of shrinkage of the metal. L.K. 1. Steel--Processing 2. Steel--Crystallization 3. Steel---Structural analysis 4. Radioisotopes--Diffusion 5. Steel--Radiographic analysis Card 3/3   IT ii P, ! 11 willi'll "llail, I R I f I T -pip, I F. 1 11 u- I I I . 11     21A 77po 66251 AUTHOR: Zigenlaub, R. sov/181-1-7-7/21 TITLEt A Method of Attenuation,in the Theory of'Eleatrical Conductivit PERIODICAL: Fizika tverdogo tela, 1959,,Vol 1, Nr 7, PP 1053-1061 (USSR) ABSTRACT: The nethod of attenuation is intended to be used for eliminating the shortcomings of the formulas developod by Xubo, Nakano, at al. (the exact terms of the eigenvalues and eigenfunctions of the Hamiltonian H are unknown; if HI contains a small parameter,, incorrect results are obtained by the method which extrapolates the formulas correct for small t to arbitrary,t). In problems of electrical conductivity the Hamiltonian of the system is.divided into two-parts: R = H + HI . While H is characte-ristic:of a 0 0 system of infinite conductivityp HI defines theloccurrence of 4 finite resistance. An.expression of electrical conductivity in the H.-representation is desired. The author,presents.a general method of transition to the H - representation (called "method of 0 attenuation" cimilar to the corresponding mothod.'in the quantum Card 1 /5 field theory) and deals.with the case in.which Ht is small  11 t, 11, , , 66251 A Method of Attenuation in the Theory of SOV/181-1-7-7/21: Electrical Conductivity dt H0 + H, i(t) (where J(t)js the current operator), is transformed in the H 0 -ropresentation, into. dj(t)m E + JW i dt Em J j(t)mn ml In J(t)mIH,In The Laplace transformation is applied.to this equationl~ 'After retransformation the relations L r e St ds J( )k h- z(s)k 90tdo J(+), s+T 1,r>0 and t 2 ir i mn kk 2-Tri mn k(s) are obtained. The operator is treated in a similar Wayt:- F e- F~m this it follows: LCO Lao u(s) 'kads F( ;k) e ds F(,~~ : Mn mm' 21ri s+E.+I.l Imm + iDm n7 T1-1ri s'+%+~l Card 2/5 00  66Z51 A Method of Attenuation in the Theory of S07/181-1-7-7/21 Electrical Conductivity and, as an expression of electrical conductivity in the'constant field, 6, lim e~.',~, t d t R e(Nmmi i (t)m +Z: F~).j j t k + /I On 14 mm k*m ;A jm~A mm E40 tr. 0 F(P)m F( + n + j (tr- + Pomni/.t t) kj &M m4n m4ntl(44 If the inequality HI H ml H Iln is satisfied mn (TM 'Omi+' too it holds: J(t)k Jk e d8 kk- 21ri B+r2 njjk1aUr1(S+1%T-+(s ill r>0 (A 00 Card 3/5 In the presence of an alternating field the accurate depend  66251 4 A Method of Attenuation in the Theory of,. Electrical Conductivity of the aftereffeot-versus-time.-function must be known.~ (A) becomes ixt j(t)k Jk a dx Ick 21ri x (B): where +Rk(x)-' XkTX7 --00 +H' c kk) Bk(x)= ~(C4k-x)-?k(C4jex)l and r) R ?k(~ knl Xk(y).. z I% 21 n The author.investigates the asymptotio,:behavior of (B)'for','large t-values and obtains: ri Card 4/5  66251 A Method of Attenuation in the Theory of SOV/181-1-7-?7/21~ Electrical Conductivity 00 -4x( 1)(o) I .'II : J(Ok j e k + Im eixt kk k X(2) W, k dx The method apparently offerwa X+ (1)(X)-i X(l)(.) k way of avoiding the limited applicability of the kinetic'equa;tion.. In conclusionp the author thanks Academician U.N. Bogolyubov~,for the fundamental idea of this investigation, V.~L. Bonch-Bruyevi,ch, L. E. Gurevich, A. G.-Samoylovich and M. I. Klinger. There are 6 references, 3 of which are Soviet, ASSOCIATIONt Moskovskiy gosudarstvennyy universitet.Fizicheskiy fakull tot (Moscow State University, Department of Physics) SUBMITTED: July 25, 1958 Card 5/5  I Ell W M,Ta Ill' 11 1 ZIGMUAUB9 Calculation of the electrical conductivity of a so-miconductor vitb high impurity concentration. DokI. AN SSSR 117 no.31395-398 1 1570 1. Moskovskiy gosudarstvanny7 universitet im.' M.T. Lomonosova, Predatavleno akeLdemikom N.N. Bogolyubov7m. (Semiconductors)  NRa SOURCE COM U11/0107 AUTHOR: er); Shkoltnik S. (Engineer) .0) Q~ngine , 1.4 1 r A 0) ORG: none TITLE: -Stereophoniciset "Belarus 1-62-st~reoff SOURCE: Radio, n 0. 3# 1965,,32-33 TOPIC TAGS: circuit.design electronic equi e166, -onUa pments e166, 7 A13STRACT: .'!he stereophonic set "Bel arus 1-62-stereoN ;designod;ib~, t.h.e: M. ad I'm -Radio Factory-is a combination of al if t en-~tube iV4- FM ar~6todyna a a P1 stereophonic 4-speed record.player. It has :&: long-va ~i bandpt. hroadca~ t. Ing bandt and three short-w4va bainds (3#9-71,70 111.0;6- 12* 1 MW lin addition to the ultrahigh-freqyency 65.8-73 Mictband.. 11ie::JritdrmCdtA4 AM frequency Is 465 ket FM - 6.5 No* The AM band width is continuously!;-,- With !Xtetnal ante ii the son Itivityll: Narying from 4-4o5 kc to 9 11 kc* And 2.4 ~is 10-30 ~LV for long and medium waves# 20; 50t j~4 V for t s r tlvraves ./o.V for UHF. An Image rejection is 40-W b, FM slope,~~of 4hd resonant!. 9 pres 8,61 characteristics are 0.35-0.45 d,b/kc at a!~120.180 ~c.b;itnWWWO.r :AX up ton is 26-30 db. Rcminal power of each 4udio amplifierl is 44, its pic U 1P thd' n'~ sensitivity not less"than 150 nVe hum and noise not worme :50-60 db 1he audio amplifier repraduces the AM aud to. frequency band wl th 604000~ 1 i Card 1/2 A  L 9449-66 ACC NR: AP6001992 WI a 60-16,000 C/sac... Nonlinedr.Aft diStortl6nS. Xdi 50VOWULatio ,c/o cs lard not greater than 3%,, F11-474 The ticle demari~e6~ln dk: Is 'the com- .construction and operation of each circuit element avAloupplIO. zhe L`~Uib ~es- ICJPR-~7  ;-j 7'. -ACC-M AP400394Z --SOURCE ;COOE-i:_~ Uk/0 5/06,0M05/61078/0684. AUTHORS Freydin. 'A, S. (Moscow); Novokreqhchenov,;~ P. - (tf6sco4) Zigern-Korno V..N (Moscow)~ ORG: none.- T iis TITLE:, Dispersion of.str IengWpr Iopirties 4 joints 5#. 1965 78-84: _S.OURCE MekhantkA' p6limerov, no TOPIC TAGS: aluminum alloy,z,;, adhesive$. 44, C=M c'4 fi. AJ IM4.1160M., epoxy: ---AB TRA T er tA~ The dispersion of:strengtb piop ties o'Cl.~d",,0tvb j6t!~i ~of aluminum al loy with the;told setting~l e a d h 6'5~'i e 0'('t 0, T 9 ~. ~1)h Uoxy been investigated.- It was found by matherm ical ano'tstatistical-mdthods that the presence of a.filler and~the'slze') f. 1:~t s Oticle:s' Oil 1 Us exert &~istran* a f t~! on an additional heat treatment after glueing~o~ fa% ,the dispersion of-strength properties of,the adhesiVit inis. ln~. conl~ J6 sideration of these findings, it is possible to~ reduce the disper0i_6ii~ of strength properties and to Lmprove',the ro-liabilit* oil'the~ adhe~ Ve, I i 4 3 ttssed~ ow A joints.,'"0OrLg. art. hast- figures and 3 tables. utho a -abstra t) Card 1 2 UDC: -.6.7 8168 8 3.15 0 744 *.66~j 7 11t 4 2 .176. ~4 _41 M-NIHMM  06.7/ OTH R 73 - 002 7 ----77   ziuuriv L.A , gornyy inza, Workers of Rine No.38 are fightin.; for the tit-le of anterpri3c 0." (I commnist labor. Ugoll 36 no.2:56-%, F 161.1 MU 3,1,.-2) 1. Nachallnik shallchty No.1' tresta StalinogonAuzoll ko-.:binata Tulaugoll. (Tula Basin-Coal utnes and zdnin~;-Labor ~roiuct tivity'), ~i OHN M., IV 1,111:911if PAIPH, 11FIFH'i E '~Mlv   AUTHOR; Zigenlaub, R. 20-3-.4/5-2 ---------------------- TITLE: Calculation of the Electric Conductivity of a Semiconductor With a High Admixture Concentration (Raschet elektroprovodnosti poluprovodnika s vysokoy kontsentratsiyey primeei). PERIODICAL: Doklady AN SSSR, 1957, Vol. 1.17, Nr 3, PP- 395-398 (USSR)~ ABSTRAOT: The present work investigates the soaftering of current carriers by the charged admixture by.& method already previous described (Ref. 3, 4, 5)- It io possible, in.this case, to do without restrictions of the type T ;01> ' b/ X T ( rr here denotes the relaxation time of the medium). At first the general formulae are derived. Here only current carriers of a type are assumed which are, for reasons of oertaintyp described as electrons. The Hamiltonian of such a system has the form H a X + HI 0 HIP H C C. Yt g HI characterizes th interaction of the electrons with the charged admixture Iterst it In the quasi-momentum oran electron in the conduction 2one Card 113 a r and air  Calculation of the Electric Conductivity of a Semi- 20-3-i2/0 conductor With a High Admixture Concentration ASSOCIATION: Moscow State University imeni M. V. Lozonosov (Uoskovskiy goeudarstvennyy universitetlim. M. V. Lomanasova) PRESENTED-. July 3o 1957, by N. N. Bogolyubov, Academician SUBMITTED: June 26, 1957 AVAILLBLE; Library of Congress Card 3/3   III f 91 ;N1 III lift I Iffil! 1114111 N frill :,,I I jrqq,- "IEVI Neurological symptolni' 4nd differyallol, diagnosis of jonlo b b.11aral(o latoxication. R. Z' =uu_and U.' _h U i, ;tax' Aus"). JgU)~T eitctrc -die findings are analized. ienceph, erapy i.,t. i. intravenows itijections of procalne wbich not only combat the symptoms but also prc~ent the apt- ance of the withdrawal.syndrotne. A.. H. lit MMUMM"a ISHOROIJKLEM FL Mto NA 1 1 1 N IA 11 11 ME  x3g Hat as= S. A. 761ke Q 111runts 0 W040L. W, Leurad-Lowtathal. Anti 1~. iV;45; RW;lv. Crav. j MAW. Af,"44. St., ILW,110-,(IM); d. C-4. 43 MM4.-M and W-func- tlww ph"Pois appw to rtact with In 1b* SAMO ,i th Sy Products In wa u m*a*4"dWW temols ipv% KH briti s sail l d b k (C 1 I l i ) , c * nue am n & wb t pheno v p y can react with czeen phenot to low N110 and Form linked by methyfeut VWPS. Formation 9t qui- virthidt drdvs~ is rrWdW as a minor side reaction, l 5 A W t . o x 1 mtrary to llultmh (C.A. 44~ Mg). ' li.n.1hested3hre.at 130-140 . frous bentine gly"'A' otar"110" a d 'h thil "d . . C . l (r yellow, microcrpt. powder of awl. wt. 712 .4 % X. M darkens an heating, lowing "411, and M in 7 ars. at 19G-190* the N content drop to 6.43%. fleal- Ing M 3 hm a] IWMOI with 8 mals. l 0 N A= M i hi h which reta ns on and w c cc. .4% C y dibydmty-4.4'.5.3'.tctrarWbyMphtnylnmhane. 11 M is Gnt heated OW 7 ba. at j9r~-1004 and then Is heated wilib 11 Is abm'dw final pmduct(Mcwtaw 0.7%'1. i HC c. sumably pr t as asernethint With R 4 ifi th 1 HO v L d M . e t as e gim 24,5-HO ,( . e"W d io* V to 71* was le " -I OWI adda" of i,40B:HOM"II;6H;bH 4th 3. z &OH, Reaction of a.#. portions 44 a W N lid  P-Mr.CC.IwII (Vb) with I N, I Ill the following temps. Save wtittly eutwozylarnine detiv%7 firit (om And Ali c4awwrial reMoi having the (olloving wol. Utz., % X And X- X It)" -a tribentylan"ne Iltsirs. tittoLigh Attion of the manottistual. values: 11.7; I50-.9th%6-33. 10.1; IM'. A mjjLI. 01 2 S, I And I W. IMAGE &&1. 1(1.2, two*. got. 3.110. 14-0. =*- -- 2-&5- -- ratthy1dibrnsylaminn (11) bested 50 lain, at 130-W* sivft A twit. of IUA A. VI with 8 9. Purified fc& ObUiDed At 130*- Mt, and bested 4 bee. at IW-200* gives M4. YX-diI1Yd?M'5X'di' beturlaminc (W)~ In. 182% In noull lant. P14. III It k?J.tslyjdipAMy("d4a- m. 1560 and SA-60-hYd-Y-3- in ol.tained front I , It And 1.3 g. I "'Tuted brs, In I re. -=, 213.9'. The rftlu 1grittle. Ukewive III rtsulu *bw a Intel. of 2,441tWi- Prinwi. at list *14 2,541(XiieC)CAC110 on besting HgOll and 11 is heated alone or In Kylene sda. (yieltis neatly with &q, IICI, Reaction of 3-9. Portions Of PhOll (VU) quaot.) AM when 3,Sr36fftC4IIOH and U am heated 1-2 hri.. With 3J 9. 1 at The following tcMP#- gives fISISIS ccult. the MWellisnuffeLtedby1twW4 following 'I", N: 130', 9.64', 130'. 6.15; 170% 7.94; ltk)', with 2,4-CIX411A)II (IV IIn 140 at IW*. besting I C. 11 And 7,M, 21U , 4.48. A mist. of 6.9 g. VII and 6 s. fesill oil" 1.1, F, IV I bm. at 130 givel Z,2'JJyirax)4.S4iw4vA talned at 13u,. heated 2 he$. at IW-2100. gl- 2 4'- wad .,,,S ji(AhvO&k4 smiuMm.2081. TheiMmAvIli 4,4v-(IILW~Jf*)rClI,- The resins Obtained at 1704. "01% i, nbtai~ed by heme. F 0.5 It. 2.3,&HOM*.CJfXJI.NII. and ..d =o'. with sk. IICI give 2. and 4-IiOCJ14CII0. 0.95 It. 2 4MIX44CF(ra In x7ime. it to, 240-21 wo Fc,r..tion o(aidthydes byffCI cleavage Of the various rt~ with ;P4 a Oil Kivft V. The coo - of 1110 a III. int 6 awribed to atomethLUAMICIP11 In the "one. ShIct. be"Bylamine 41criv, does not omw wbm U is bfttcd 2 It". n" dialdchydex result. atoguetw" -WY form wt 140- with PbOAc.:MW%frvC4If*OfI or$ 4 6-StraC41fioll I at the ends of th. .4. Mr. PIMM. The catalytic etle" 4 orthothwdve'~b~* CM fOrtbAtkX; = G. G. ZIVUOW- W- -'ichA* of the tribenirylamint dair. cannot be tompkitcly explainal d.. And H. Wk-jenherM. JUd. 1017-23.-1n tka reaction . the bw& of the li-efft" of Ifult1wh (C-4. 44,30u) am, of (Cll,),*%, with 2.&blcCJWH or with large excTuft (d I. acrib,41 to The inILrnjrdI&j& lom&lJon of " especially re, uih-yI-%Ia* dcrivs. rental. Ape active &dtfud. A. P. Shetward  V104vadoo *lob &4600imw sompouads. IN. phow- a plior oomlpqvnds~ R. Xicliri. Mj~i~m%r It. Wit"- linger, anif A. KAinnier U tax . IlmoguJi. u, M-W1930- d. C.A. 4S. 617N.-Compda. of (be I MAW,% 0.110CAWROH (1). it vs H=-. on, (OH Ph are tleavot! by dimmium sahe in RWIN IIOCJI*ClfoPb and fp-HOCjli)XO (1111) am not' of the gff,.~420C 'A' r f ble I In being ). but the I* (PAN 4. IW)6 A oxides can not diffir as usuch from U as Is ofien a cause, like U they can not N ck&vW. *_uCC41WH And Zito SOC16 krm (3.4-Me(HO)CM.I.M. docas p Wbkh also can " be clavol. (P-HOCJI.W;z *2+ m gf, NCJI.%o)jCJl;QIf. in. 279'. 13 4- 1 Q's- me( 10)Ci V) and M form 6? -M:VNC'ji. 1. In. "'n1frif. 44 S W. 0%idstlon of with % HXAh In HOA L suffoxick, M, 1774'. In an sit 1 10 4bydm ~xe "11) WWII 3,4,52-11ru'Vil mucifulf w4stl "resini w1with"M12"C6 in ifftco.Lop.111", "t he eth I (bogeumm! (T in. S7.3.. Ill A. ( V wit It k. WO"I'l for"Ned P 417 X I (VI tn. 94,51. - Stint. t I HC1171.Br.(Vh) formed tint t~- "of ~'Wld vt (MV a. 60 am IM". va - 140). and K&SH In sq. MeCO fanned VM- 5 2 rT . ~PhXt)CJ_f&CIf#C1 (1Z) likewise pvv the HowtimIldifferilminvuLa formile with M&SH the bemal onamptax in. 101 6 4- gmdvly i;;~~ the '2'5- (ill Cori in. .57.6 which on bydrW=, fanned 3.2.na. INCH II6)MeCqI*fft))Af SCIIJI& CH$CjI,Me(OII)CIIjSII-S.2,1. at. MV. Tbew thin ethos am cle-Aved toy dLumium sulls. StfWWO of phatiolotlid*W b asodbum. a. zoilier. if. Toppler, and, W i fltkotkz~. Jk&wk PAsm; to. 21.~32 (1051).-PlINg (z and pimmortihookk 311 110 a of ng, mats xv iorm I P16NA :qm) 152% 6% S4p-ft0WI.CO)Cu1H RM 11'. ;ix at lio. Cill % 1(010N 141 23% i~ ~Ii-~o one Mfg. a 0411.~ 17% 11 % 0311 w9vis call antil. 2 mals. I carefully buffeml. 70% 2. IOH"'~ in. I V.m.242-30 witmabownt the Compd. by M-L- tion with 14g0li ill KOH bs.~ g the Xkmmvfi~ Indoliume (IV) vx~ IN-60 And des with a 'i ~Ki6 (4.3-11001dVi4i HA. tn. 1751 Most - Imin =1 . iri. IWO', flact Ke"4011111 "N of ~ I, in. 11160.~ Sintilk"r tf~atmu""q of Mv sh=ad that 14 alp is sym.; The malim"eve. lat -and XM in. 2*A-T* 129' &W IMDQ (Rt ootm_r~ to. I I I- 13%trup. MaosubMittited, n AMUW; to XXV.' That ~rmsmlts hit fulcriwoed so meaulaq that %be o*xvd he= to lx C" mt~ base a pmommsently fted 4idmim,341 wing to Its I Inctuals. Z. farm the MW nmw*m Immulation lonoNlog both rbp as tiltmolif stid an futerusefitto ciatiattium 'ne two Ica. :Irxkn famu lw"tat in dill. and comad. alkali an of type I! or clostly mmbk, it ud'sq nallff Foe Isom The custoular , I, waft MW tirk"IT, =ructinvokmadopt"l. TbehilurvatXtodnt. mact In very oxiod. alkali Is not daily under4tond ana, Ill is able tom" wmlcr tbest conditions and PhOff and X CoUple Under these 001dWom &W. TAI. &NMI-  a-)ki Ooskrr. Mad. Wim, ANA.-Nal"m Kkur. S14.4- Alit. f1b, 158, M-01949); d. C.A. 44, MU.-Like v-(p4IOCJl.COjC4H4COjH. J-110CJI.COPh fails to cou- ple with diazonium, compds. (p-O.NC*It4NjC; (1). 2.4- (O~N)IC4HsNja). g-jHOCJ-L),CO (U) Is fikewise,jum. p.HOCJ14CH(OH) In N&OH with I b cleaved into 4- m. 213* (from PhUe or PhKOJ, and gilt (2.4-dinittaphetylb M. 11cusylpherot with I lira pAwnw. Cucalamd crystals from AcOl m. 172-3% 9e oxime of U. tn. W04' (decomp.) 1clOcrIcr, 11444W. S. 100(IN84)). ott empling With P-N Nih 0; ~ no prist foe 1) gives a dask In-own," t pa It 1.2=1). (#-HOC.H.)#CO with I couples numolly dibydm "etillesIrmnPhNOI.M.M0 . 4,541-me#01O)C411104011, m-GNC4If#SO&Na. and 10% aN NA011. Wiled fix I bf., Five 4,5.2-Mej(jjO)C*IjwCHO. m. 0* (cf. Gatteramn, C.A. 2. $30). which don " rcwt with 1. 6,2.3-Afe(HO)- fllOCI1k)C4H&CRO 12.4-dinkfophenylb M. 239,- 40'(decompa.)IisUkgwigoir,attdl. 616. B.Ziegier"O.Zimner. 0940)~Thc ruction of o4vesolphthakin (1) in &1k. win. witht-MeWWO lw* been tomulated by IA*Mri (C.A.' 42,&OA6) as jitj a mono- gad a W(P-101YIS10 deriv.6(l. m. 27r SM 106 mp. to coutm-it. Ithalciii b" beca he ckzvt" W!"' CA, 2( "~"C'O)* ~Z d hLd hd C ~t 1~ he tin ~t L IV 4-1_1 7 U ~14 N. ptj. cltll.  POWOMAW (1) t114 be difignatime4 by their kwb4vkmiwkh tiod R.P.= gfi d yi d.=m law to X-MOM&MY-1 "V-#. Trmy4m alum One family papask"ble Uisw dniva. DractO tknaf, n-COM flif". ho t 4 Vat VIM 0 1 1, M21116011 10" 2.4 -d Y&OVOIr"a4mrs"dihi besxyhwkw6 bmialed m4 Its 1IC1 wk no~ 1761. , aft AcsO WW N110AC a gIvv* 4 44K"0 129*, W"LAA W.U119 144*. Tb*HCItt&  prCHI&W14 of the coadotn"Up" of 3,4 41 moth y1olmaillit with Ittimailloothydd. C., lllltslqw~#, F. Zkgkl, W, 1*'Is*, .11141 It. Afasswilsh. 61. :01-0i IWO 0; 0. 1. 44, 1 ";14 to. liclotell IIr(:Ifj)C%ll0II 41) 11 g.) and 2 3 4-lltil~v IwAird 4 bra, ;nt it wolitt Imtb:t~t rustled. 1vtoiorn, ~jpl, rjuilit tittil. with twit, titw(, and Itw rvsklllc dal, ru. flaacd in. it. irlth initt.1 in.p. %A14 M; 10) A 4 41 milk v(PAfq,q (W. 1341 1 jl,mg.) moll 1.3 In 2.1 till. 14011. 114-Alett I 111ill, till the "31vt 14101 wilts US ml Ow *Als, rvar'l and the r%~Idue tvcry*t,I. foom dit. Ititill, 11.4%v :.! 41 hydroxy-3-b"mo-4.4 ";,.. *-Itim met ;vLexylimotAsmor (V). rcxt,. tn. in ' oh"impic, 1. To 10. is its 1-n out. CC4 ~ an aliv. unit. of Or in tit ull. COs W.1, a4ded Alopitiw - iIt forditig cin a W.1irr-1koll. tlw 44-wilLmr-yrillair 1110diwt ttW'4tC(I With Ik1tWI1&jV%. fillVit'll. rV-Al%t.. AJUI 0141. r"1#111r rrmptd. Irm awthyler-Iolw%jut im .&,I Holl cis tive m. 143". , Brimititmilon ill, the --jim swilner of dikydravy-4,54.4 %5*-trtra tie at'" gAvt. 111. Bruinination W -JivjrfA)sl- At*, ave IV, on. Tre4trucist with flog iti cct~gawv JX-bijW#womdAr -4.$,J, 61 -Ldrd#n1tk?M#x%44qeA- a Ids(vitsmis".1 (from Coll* Isi Floo, %Atd. With JICI. "uCCd 11ith 242 (1117st, tht Eli() lain. WAA" with wwrt. smutralilrd with NallCON, dtw ivith i CWI.~ thr thr,41 ttvc%,t.I. fit" ~kijjtj. pre. ivkulm~ t4W. .1, P. fki"4hy   Pre tv.11cl, vt~ 196' (fltronw.). tv.110,11as almi lwm bylit, Md m%litafthm ChIWW. 0. Z, With" b&POOIDS IICI sai iltrottab tht filtrate, fnxn (he nff and F, Alrotubtfiltr I Univ. C.... A,,,,kYArZ- 'relm. of . It iv%ve%.NsrjlI with I1jCI.4d4Wdr%j%- 411111, so. Wl w 6. A .44vt IV). in. 167' 1(tant 1,8 HCHO hfdtt%l Ott 3 II;b ill~i &]it. (difule front the pmpn. of V. MOC Wf Tho waxhed with air., drk4t. and fnIrld. further treated with DxCl, And the KIW. ad wL3hed with 7 * AcOlf. Pve 01 , if-~ fP-HOCsH-- or Wl~ JIvO and estd. with EtOAf-trye fo-OdxJI.Coelf, "a --,HC1 (111-11CO. in. IC- I -11:C10) ~v - CH*)tNBx(VDim.l67-$',, HCImt"v"AcOU1dA- 13.0.6"IS04. in. 1r.1% was obtained bY treating 1 11- mmll anti. of Xat)Ar triluxod 2 brs.. cooled, poured iut,~ U.HClinSOcc 4jif,7 .- ~ ak-. with NxHCOj. adding 10cc- dil- HrO, let stand 12 hm. and the Product ferrysid, front H . an a Mp both. cooling. and recryset from CjI# PVT (ftM411,COCII1CHfhXAC (VII). tit. 141'~ it I The, filtrate Imm tbt P-Pa. Of MCI- IIJICI (2 1-4 a. Ph-NUNHOCI. and 3 R. XIOAc in tit If'o. PTO an C4. becoming miliewhat cryll., M re. V11 Ji,%I 40 ce. HtO hmt*f 2.3 lum. tm a 114' aftef 12 lkt.. which, after rmOvAI 01 At Sufffilat"t hath ga%v It (VIII). Ill. How. WSSPDUnd wiib&k,. and rectisid. Irm H.0-16. scvml dmP ctmcd. MCI, givks 00-11COCO"ect"r W-70 Hei gas wu tried (m). in. 191. 111 was Otto thmsh the filtrate obillined the Pre .1lo, VAN of Vr I by heating 1 9- 1, 1-5 9- ~Wv CII&O. and 0.1 1. added. the mixt. lei %land l2hmn.. it* V filtertd44.th- VN4 MCI 1.5 firs. Ott A 11,0 bath- U-IIC1 (3 C-) in filtrate neutralized with Wj NaOll. the pill. itulmadjed' '10% NaOIj -W 75 cc. &1c.. rellumed 30 -iD-, in warm aq, vic., ctiacd. MCI added. the lxk~- !-P".. -W 23 ce. product rmystd. frotil r4u,mund with MCI. and the I 'if (IV). ln.~ 194 titemidurrecrysid.1rons 11,0coats. IICI.vvmc.lV.HCI. I AcOH gave q.HOcH.COCHCHt)t% IV WASPItUded to W. mle., heated. and coned. MCI added  raQW oll 211 lA u h I , c rm cc. g , n , n, 13Sjuguird 3 t f and the remlild. from AvOll 0" IV-11C). ly,11CI i qviluxedibi. excmAcOmWN&OAcfmpmd,%as4tb# eves, td. ftm C.Ife ps)e VU. Sipm. 0t I b b Ul o to cc. 10% N%OH and 30 or. sk. "# y win.. cooling. seat and ts. the producit hvm C"ClU k- 110=1110CH ( P- I ll N -, PVT IV.HCliu AOH unit B&CI PIMVI IV-HCl .30OW H h 0 6 CH2 O i an a t . r. a# equiuml. smst. of 1. heated w v batb,pveU.HCL l(lg.),0.6g.MeNH.HClimdOA S. 36% C11.0, heated 31) min. an a HO bath, filttmd, and we from ate ec td l d h h d i Orm a9, SkJ, and rL 0 S-) with 4 Mal PhAc (MOMM by steam, distn:r - -equim X1 'sd 2 A i . a e. an . P w t s e the product was , 'Met ), m. 191'. 11 in' p-II0CHX0ClfrCIli,% -HCJ lIZ H~CN save IPU and 1 . - &A . equ ,ZA. vi. Hennan b . Adiuk execo alkali with DiCl pve V. IX (I j.W C. ft- ,N'HNH,.HCI. and 2 g. -%*()Ac in 45 m 33VA., cON heated an a 1110 bath I br. pvt VM. ~ (PhCO`CHOCHJsN.HCl and sorne (PhCOCllCllsClIs)sNMe-llCl (Q vem ob_ taimd from the condeamtke of PW. CHO) &VA NH4a ;H- OH a7 Ei - . Heating I X. X with 4 mol. equi". 2.4- ( And 2 md. twivs. NaHCO% pve 40-61%, 2A'-dibydromy- ,14 its- , .. --pq, I ml, IT, SRI I mm.  d 30. it It- .0i Ild 6ho  q, I I , ,,1 11 -111, IMIP 1111if Iq 14 I!III*!1Ij VZOVII If P M! I II E AP Ali RadoMmag prowmas of phanalforlm" do. resks XVU. mad"dog with b0 y1ft 0. 3. A. zinkir. cl-_Wt and It. Wkwaberser I Univ. Gras, as. AHO. Jfal"A.80,10D-909491--~-Atri- bentylat"Int structure Is now amigmed to ructiam ptodmis of 2.0-Me"Wil JI) and (ClIsUNo (U) previoutdy de- scribed by Make and St. Pucher (C.A. 43, BlMi). The "Kum. c"11MOIN6 (C.Of"0044 in previous ankle) (Ill), calarlem, m. 177.5-8.5 with decumpo. Is obtained bT duxbg a xykm solo. at 0.43 j. I &W 1.0 g. U for 1-9 .7- NII& and UtNIls evolved, or by bating a usixt. -land 112-3bm atl"U.. ill lartgaraleW ass compal. compd. mvioWy cab- amixt (IV) with I num. tained by heating M with dil. 11130~ and thought to be A dibcUlylamino dcriv. 6 now shown to be a salt *1 1 avA. IV and I mat. 11s8%. The "It M ( I QNW m. Is 1-2 1; Its stractum Is shown by Its synt main raw 2.0.4 - Mcs(ClIsCOU4011 and Mis In Will in y went of the reaction prodwt with If either way Yes In on okutram"t"Im N; I ~1_11 treatment larthe Ir" bug with U in Attaimpts to C de ytbotxibcao6ndmbaw(lVjwemt-aiticu. zu Meatedalasmor better bested In mIxt.wiLh t for 2 at ilso- g1,;;; 4.4*:7ihyJr*"4 $',S'-WdmdA I dipAm3immAdj!n. The sulfate of W. CvHwCN-XSJVZ (VI). m. 191-2 with decocapa., Is obtained by 1-hr. te - duzin at ill with dit. HsSOt. CH as and 2 U101s. Qilia)r ii,,vitusesitat. M B 7 Im the nitrat of 1Y. CallisAaKs. m. 171-2* with decompa.; and on treatment with' picric acid aw cv) Stu. I. CJ4 it gives a vkmte of IV. Caiff.- TbefriamOk of froat AOvO,sodI1vSOaIm.I43*. Cf.C.A.41 A. P. S. 774U. 44,3WA. 1."AR umam I I In W a mi I gill Im A 11  Vard-lim pact"" ad ph"d-tWuW&kj& r"ins. RM4491011 With hs-M$ft7kMMM2W*. S. A- q"kr- C$,,A1VUM. G. We* W. Schaden and H Mon. KIM (11111y.. (kas., Austria). UPWA. 61. iWmio- rl" (19M); cf. C-A - 44. 2274J.-The Primary reaction between 2.4-CitColl,011 (1) and (CIIO)$V.4 (11) gives 13,11.2-CWHO) - CJfjCIfjjj%1I (M). A milt. of 0 mots. and I atol. It heated 3 he*. at 1254, stesm dlstd. to remove unreacted I and 11 and crysid. from EtOH-HtO gives 66%M. shorter besting or leso U yields less UL M m. 197-a'; with DxCl and NaOff it forms a tribenzoste to. IR7* While with TINO, it gives a pitroso cocapd. Cjfm0s%t" bright yellow. tn. The most lmporunt;;~ rtzajon in the hardening Is prottably formatloo of J3,3.2-CWHO)Cj111S- Cffj (IV) white formation of ytl6w axomethlim couptis. bydchydrogenatIon o(Uaccurs toe kner d4grec. AmIxt. nd beated 311, hre. at 10-Z0, In C% 12 114t I and III T"Ult frots besting I niols. ~k HOW 3.3 V. and M P.8 Motin -dibyd f3hn-AtI30'-W* H& and roxy-3,5-d hloro-.1 41-dimethyidiphavifteth- VI) M. I"' lite Obtained. A milt. of IA g. I ant, I hated 10 brs. at 130' I~o gives VI. Yellow awntethine compris. analttgotss i to those oittaired in the reaction of V anti 11 (C.A. 44, 3W- .187) see probably foerned from t and 11 to itwit d mt. even a, 125". The product of reattion of I uwl. I anti I tw. U 6, t I:3*.L When reflax"I With RtOlf and 11c1. VIA- 110axii,ci-to (vu) m. or. vnforms a .4-dinitm- pberty1hydratorte. oningr red, m. 2M-7 *and Identical with the "K daiv. pttlxl. from the Wehrle obul"d I- as F. q hy the TlemAnn-Rcimcr reaction. A.  V. 14 1 ILI 11, ,~Oduct., 1.1atu 1. 44, . .-,']'1k- biqh-moil. lift&.11010 con- lest.4ation product it prolkAbly -OCllm'.%liCON11Cllv 1% rit-AV"l by 2.4-dimethyll- phenal in scid .1  ~ 7. U.- Woo bouliffial mod 0. askorld (Unly. 0-s. Aadda). MIMOSA, 930). 4df. C-4. A zmk.-up In 00% VW 193 - Idibentylawift (1) 932- 1 r.6.4dralmew b N, witit 2 y ftting (Cliolllo "is. ?.A obtained AFHY no tilbewylawkno degiv. WhIlit beatedwitit buthutftd V"OwtrjawjnrceImpd..3A- A jjo(Me)X4HCMNHC11.c 1)8(2,3 6 - 110 fOli MO Nift ban be* old altz witb fi at W1 2. opta, '.t. 43 3 . t.W 3, lit N 4 AM tw= Fitch in dw"". iwk t is u" W by PhOAcooln.itkanto offtsNW11"I =16-410012.-Vat 180" and then conmas awmethholt the 1 of the 141ter bring shown by forma. aldehyde hy"phi, A. F. Slollewd ............ I-; i Ii 1 11.1. ~a:l Hill: IIMA ilwix; llvlli~HH 1011;:h Ii:I,JCI: .1 ~.l T PF  II I A I T1 11!! YUGOSLAVIA POP-CMIC, S.; PUJINI D.; 9IG-MC.. B..; SESTAK, V.; PUACA, V. ind. VUCKOVIG, it FABEG, Belgrade; Veterin,ar (Voterinarski centar) Sombor; ZZ [Acronym not identified], Kolut; 'EPK [acronym not identified] 'Wrbas", Animal Feed Factory (rabrika stocne hrane) Vrbas; and PD Lacronym~not identified] "Elanit. Srbobran. IlEffect of Vigofac in Fattening Swine with Varying Levels of Animal and Plant in their Feed." Proteins Belgrade, Veterinarski Glasnikp Vol 19, No 12; 1965;'p'p 925-929. Abstract [English summary modified]: Study of Pfizer'slanimalz.feed additive.. ViSofac in 7 groups totaling 64 pigs. Improvement In:body weight and'feed uae. efficiency was pronounced on animals reciving marginally adequate feed# but was least in those receiving good rations. Three tables, 1 Yugoslav and 3 Western references; ms rec 2 Nov 65. 98 U  KOVACEVIC9 M.; MILUTINOVIC, R.; KOWTOVIC, M,j ZIGIC, X. Our experience with the treatment of pulmonary tuberculosis resistant to clanoital tuberculoatatio drugs. Tuberlmlon 15 no,W50~253 AP-Je 163. Is, Gradsla bolnica sa grudobolne grada Bsogmda, Bezanijoka Koss. - Upravnik: im. dr Ljubisa Ilia. T TUBERCULOSIS,, PULMOXAR!) D DRUG EESISTANCE, MICROBIAL) r (ISONWID) (STREFINKYCIN) (AMINOSALIGYLIC ACID) (ANTITUBERCULAR AGMM)    p Fri m mali umhzotlya: BEWAU, MI.A.0 ~Vracb; vrach; ZIG4 GOLUBEVAP N.S., vrach; SDIMOVA, A. It. CD --ical asppots and diagnosis of epidenic lwr~a4-1(Jil In adults in Leningrad. 'Trudy UNI 301-0-53 163. (MIFUl 18:3) 1. Bollnitna imoni S.P.Botkina v Lenin, Figurinal nau;7.hW rukovoditell prof.  ZIGHANTOVICHgK.; BHUSTIM,I. Using natural gasoline to improve automobile fuel quality. A~fs tranep-33 no.9:20-21 $155. (MMA 8: 112) 1. Kuybyehavokoye tovarno-transportuoys upraylemiya Glavneftesbyta (for Zigmantovich) 2. Kuybyehevskiy oblastnoy avtotreat (foi Sh*ister') (Gasoline)  Svordlov, A. 3.0 ZiFpmd,' F. F. and. t4im,010V V. V. lion thts problam of ixtr2cting 14nolin from thi rinrrg'!,,*attr of tho Kazanmk f-ur Trudy Ktzarisk. khin-t -a It viol. irto iti. Kirovi, 11n:14 13 N I I 1 LIR, n. 85-19 30: tj--~3264, 10 A -Iril 1953, (Latopin "2114,11-11 'nYk'tl Stat*Y, 114,9     . . .111141, ..., .... ---- ------ - ----------- - - - - - - I - - - -  ~A/184/63/000/001/004/005 A059/A126, ~i Cail of. N6'Mioal:8 oi~ftoeo,i vac6agin, :K. D.j dit I pro," taoti~o ;Ooiltings,b~sed on J r be.: 0 pro. v. '6 ~36 0 6 r e lep.. no..~ 1, 190, ~4 MA&Lin6 q`C6f-,j3-" -d 61 otive,oostin praye -on,thorpoj,astlo!~Prot! Wjmd- Apparatov..(Depark~ PPY tt cheski ~b: kaiiwsky,! WmW-tedi iogi I= of . PMOOII~M Afid hrio y 6n ~h filloy-~ AB'-t6.: (AB-16) (Wg`u'~rovo bitumen mixed wi t 1 1. , -1 - .,; " . -.. Id ~ ~ ed as,'tho coating. materials. erl.wers-us d Moz simp *,thanIhat'designs :by:the t one"., to .ttl 9'fil ed tri h'! o* dons a edoi t "ie~4;: az~-t6r Tilled: ~-nitro tiv,' gas & 0.0~:iir"w(i:~6~.x~ned~,','O~timum orushing 4* ijj~%Vj6j-A~6t~ 4n. O~.2 "0" 1 2-  SOV/124-57-- 8-930E Translation from- Referatlivnyy zhurnal, Mekhanika,,, 1957, Nr 8, p 76 (USS'R' I AUTHOR: Zigmund, F. F. TITLE- Analytical Calculation of the Isothermal Temperature Ditf6ret')ce n Multiple-pass Heat Exchangers (Analiticheskiy raschet izaterm", cheskoy raznost-1 temperatur v mnogoVhcdovvkh teploobt-fi,ennikakh) PERIODICAL: Tr. Kazarsk.. kh;m. -tekhnol, ;n-ta, 1955, Nr 19-ZO. ~pp9 1 C. 7 ABSTRACT- An examinat-lon of the problem of analytical methods foz,1, the dete r - ' i' h; mination of the design temperatur 'e stress for multiple-pass eat. exchangers. The probl.-m reduces to theideterminat;or 4'the~ccel--- ficient rf isothermicity,* i. e. , a factor by, mean.s of which the availL- able ternpe~ature stress is transformed intc the effective'are.- The author examines heat exchangers with pai~allel Ifluid flow,, with multiple cross-flov, circulation of the shell lluid, and of the mulil- pass battery type. Calculation formulas are gi ven ior each case, and examples are adduced to illustrate the calculation pro cedurt.. Bibliography: 9 references. A. A. Gulhmar. Card 1/1  USSR/Fluid Mechanics. Heat Transfer Abs Jour: Ref Zhur-Mekhanika, No 6, 1957, 6854 Author Zigmund, F. F. Inst Title The influence of the direction of fluid flow on the temperature conditions in heat exchangers. Orig Pubi Tr. Kazansk. khim.-tekhnol. in-ta, 1955, VYP. 19-26_1 381-420 Abstract: The temperature conditions in heat exchangers under con- stant aggregate beat carrier conditions are studied. A classification of heat exchangers is made, with respect to the nature of the heat-carrier flow and with respect to the construction of the heat exchangers. Specific constructions and conditions for their efficient use are analyzed. Calculation formulas and specific examples . of the calculation of the mean temperature difference fcr various construction types of heat exchangers are given. For the sake of simplification of calculations, the Card 1/2 I" -W TQ MOM "1.0. USSR/Fluid Mechanics. Heat Transfer Abs Jour: Ref Zhur-Mekhanika, No 6, 1957, 6854 Abstract; "Isothermicity factor" Is Introduced,, which, multiplied by the difference or the Initial fluid tempe ratures, gives the value of the mean temperature difference Auxiliary graphs are constructed for the determina;ion of the "isothermicity factor" with respect to the initial and final temperatures of the heat carriers for various designs of heat exchangers. Examples of calculations and auxiliary graphs are given for the design of heat exchangers with complex flow systems, and also for heat exchangers in which one of the fluid is s .tationary and for heat exchangers with concentric coils. Card 2/2 ................................... ----------- .................. ....... ------------ M '31 ONE' .. 01 la, M, I MN IN, W11 I MIN, TO I I =1, 1 M11 i E 1 0 - 11 1 11 i 0 : 71.4 IT ". 111; IN i D   11,111111 lilt; 31111 1 111 l I 11YI.; 1111411 Ill 111!! :1.1 ILOIN, Boris Afanaslyevich; AIZSHE;V, I.F.s dots., kand. tekhn. nauk, retsenzent; -ZIRPM L F F.. j inob. p retsenzAi; XORCHUMW Ill. G. I prof ...otv.red.; jKATVL",MA,V-.V.,,recj,; URITSYMA, A.D., tekhn.red. [Land transportation.of timber1Sukhoputxqi'txanspc-rt lesa- uchebnoe-posobie dlia. "entov'lesokhoziaistvannogo fakull- teta. Leningradp Vses. rwcbrqi lesotekhn.:in-t, 1961. 22.0 p. (MIRA 15ill) (Lumber-Transportation) if WON l lit ij3jj~! ;I 1q]-lqui pill!! F Ily !1111Y.11fl, I HFURNWPIES H-HR"111 Ill 01111 =04111   '/ - - ~ -I - -10, "'z..1 1 11 USSR/Fluid Mechanics Abs Jour: Ref-Zhur Melchanika, No 8, 1957; 9108 :Author-- :Zi~mund,'F F Inst Title An-analytical calculation of the isothermal temperature dif ference: in multi:-pass heat,-eichangers. Orig Pub: Tr.!Kazansk,' khi-b.'_'tekbnol. in-ta, 195.5, vyp. 19-20J~ 99-107 Abstract: The problem of an analyticalmethod of.dete rmining the mean rated temperature difference for multi-pass heat exchangers is investigated. The problem reduces to finding a coefficient of isothermicity " i.b., a factor which would convert the available temperature difference into an effective differenceo cases of heat exchangers with parallel fluid flow., with multi-stage cross-flov circulation of the inter-tube fluid ) and . of exchangers of the multi-pass battery type are discus- sed. For all cases, design formul~Ls are given, and Card 1/2   S/170/62/005/004/008/6;i6 B111/B102 AUTHORSs Xasimov, B. S., Zigmu TITLE: Rules governing the flow of films in a vertioal cylindriciLl tube PEKODICAL: Inzhenerno-fizicheakiy zhurnal, v. 5, no- 4P '1962, 71 74 TEXT: The stationary flow of single and two-phase~:viscous films under':the effect of the force of gravity is studied. It is found -that the film thickness increases with the path of flow. Consequently, the mean velocity of the liquid decreases. The problem is dealt with by two different methods: (1) by assuming that the velocity profile,is parabolic over the film thickness, and (2) without simplifications. In the former:cas,e, the function 6 = f(x), i.e., the increase of the film,thickness, is given as a function of the path.of flow with reference to V. G. Levich (Ref. 9: Fiziko-khimicheskaya gidrodinamika (Physicochemical'Hydrodynamics), Fizmatgiz, 1959). It is a complex rational function linear in first approximation. In the latter case, the solutions of the.Navier Stokes, equation and of the continuity equation v and v are expanded in:power X Card -1/2  S/170/62/005/004/008/016~' Rules governing the flow of B111/B102 ser-ies and broken off after the fourth~term. The formulas show that both single and two-phase flows have only an approximately parabolic velocity profile. The solutions obtained agree with the experiments by H. Brauer (Ref. 3: VDJ, Forschungsheft 457, 22, 17, 1956) andiTh. Sexau"-(_R'ef--_4: V/ Porschungs, 10, H.6, 295, 1954). There are 10 referpnoest 3 Sovidtland. 7 non-Soviet. The three references to English-language publications~read as follows: A. E. Duklert 0. P. Bergelin, Chem. Engin. Progr., no.,11, 1952; A. E. Dukler, Chem, Engin. Progr., no. 10, 1959! 1. W. Dunning,et al. US Patent 277924. ASSOCIATIONt Khimiko-tekhnalogicheskiy institut imeni S. M. Kirova, g. Kazan' (Institute of Chemical Technology imeni S. M. Kirov, Kazan') SUBMITTED: April 10, 1961 Card 2/2  I lilausi I - I I I III , Itl ! : [ I I : 1 1 j 1 1 . .1; . I :: I q, :111 1, 11 MI.I.  s/123/61/000/013/025/025 A052/A1O1 AUTHOR- Zigmund, F. F. TITLE: Calculation of temperature stresses in heat-exchange equipment PERIODICAL: Referativnyy zhurnal, Mashinostroyenlye, no. 13, 1961, 9, abstract 13Kh47 ("Tr. Kazansk. khim.-tekhnol. in-te, 16~0, no. 29, 168-169) TEXT: It is reported that on the basis of theoretical'studies of the general distribution laws of temperatures in the flows,circulating in a system, equations and formulae are derived, which make it possible to plot the tempera- ture curves of the flows and to find, on this basis, the maximum temperature stresses in the elements of heat-exchange equipment. 0. Tolkova (Abstracter's note: Complete translation] Card 1/1   I , I I I I : ; , ! I I I !~ I I , I I ~ I I , I I ; I , , I I I I li I I ~ , I ~l I , i I F, , fil 7 11 ! F I I - I [ - - I I t 1 1, I'lli, I I I F '-'14 '1  (Fainting, Industrial-Equipment and,supplies) IN rim, "IMMIAM-11 11 M,   ; Hi 1.411;:111M 11 MAIN I'll, Iflif 11111 M111911M 019119517111  Qpti7n-n e)f battery beat '7ru.-It, =21 no,lF:113- 122 '53 D?"!)I. WII,~. 12: 11) (Heat -exchari-ors) (Hent-T-rammission) P, mum mompm.: m. "n-im 11 "WIT. I elffil T, e~ "I, "Milffiriv imloulff, FIT, 11,1111 r11".11 .1 71,  -IGI!U-,7,-, F.Y Dotnmlaini~- RVATWi-e a rrnst,-,i;-A- 7r~)-i;s. Trxy 1:17irl no.18-18M88 153.[Pilbl. 1541. in:ll) (Ileat exchsngor2)  P--nn3 o--:' imcre-usin,,7 the hez,,-nir efticler-cy of exchanl~.ors. I-mort No.l. ~~--'Iaratnses ulth an, Invariablo Firection of fl!lic. fll-)W between pipi3. Trudy MITI no*18:189-21? 153 (IMIA. '54 re - 11) Mat oxchangers) (H8,"kt--Transnlssio*n)   BLINOV, O.S.; BELENIKIY, Ye.L.; BRAUSEVICHp S.T.; DON?KHOV,B.A.; ZI NUB,-Z,3_4 ITSIKOV, G.B.; LEVER, A.A..; LESHCH-BORISOVSKIY, A.I.; MURTUZALIYEVp S.A.; PIIR, A.I.; YUZIKHIN, Ye.Ye.)- YAKIMOVI I.D.; SHCHELKUUOVI-V.V.p retsenzent; GONCHAROVI A.F., otv, red.; KOHPHUNOV, N.G.p otv. red.,-;NIKOLISKIY, B.V,, otv. red.; POOTIREMV) G.A. (deceased SLUTSKER, M.Z., red. izd-va; SUBKOVA, R.Ye., tekhn. red. (Lumbering; land trans rtation of timber)'Lesosagotovki- pp suk4)putnyi transport lesa. Spravochnik. Mosk-4a, dosles- bumi'zdat, 1962. -504 p. (HIRA 16:7) (Lumber-Transportation)  Zigmund, J. Mechanization of large repair workse P* 89. (Vol- 5, no. 2, 7eb. 1955.) (Resolution adopted at the meeting of active wo rker e,,oIf the chem ical, iIndus.try, 7ebrua.rY 5. 1955. in Pragas..p. 45.) (Excerpts from an address delivered by J. Pucik, Minister of the Chemi cal Industry. p. 47.) CHDUCKY PRUMYSL SO: Monthly List of East Empean Accessiong (YUL) I LC I V014 4s:NO. 9s Sept. 1955s Uncle  ---L- 33(jY-3-bb DIP URM SOURiCE CODE: CZ/0043765/ )110834/085 ACC NR, AP6024210 Auffloilt ZiMM2&_jgxjjmjM, (Engineer; Candidate of sciencont Bratislava)i ZQdok.I olf ~Snginoer; Bratislava)l Valont, A6 ~Graduate chordst; Bratislava) ORG: Institute of Inorranic Cherdstry -Slovak Acadeln of Sciences, Bratislava (Ustav anorganickaj chomio Slovenskoj akademio vied) TITIB: Titanium chloro cowplexesl(l.) synthesis of the couplax fft C1 sub 3py~sub SOURCE: Chemicko zvesti, no. 11, 1965, 854-859 TOPIC TAGS: complex compound, organotitanium compound. pyridine, chemical -reactor, chemical synthesis ABSTRAC T: Yield of the solid complex fft 013 PY 3 b ;the react ion of the alpha form of titanium chloride with pyridne dissolved~ in hexane was studiedAn a-laboratory'ronotor at.~20'0. The .influence of molar ratiost'pyridine concentrationjo method of .mixing and residbnee time was investigated. Beat reaulto were o'6tained when molar ratio of pyridine to ohlorid'o was 3:1, pyridino concentration in hexane was 1.0-1.2M#.and -the reaction figur Jk_S7 .time was 1 houre 98% 7~kpld was obtained. 'Orig-4it- hast 2 as-i SUB CODEt 07 SUEH DATEz 2Wu3.65 CRIG REF: 004 SOV REFt boo Lsard 1/1  MRs XM23845 SOURCE CODE: CZ/0043/6.5/000/009/0723/0726 16 AUTIORt 7Akmund, Miroplay (Enginaer; Candidate of sciencos 1 Bratislava) Fordok, Rudolf ~(Engineer; Valent, Alidar (Graduate chemist; BrltialavAj- :0RG:,,'Xnstitut8 of Inorganic ChemIstry, Slovak AcadozV of~Sciencest Bratislava (Ustav.anorgardolmi ~Hebde .5,Lovenskaj &1=1ende milling of t Laborator7. rotating sphere reactor for the preparatAon.arA mbstances In a controlled atmosphere Chanicke mati., no. 9. 1!963, ';J'bKC !&GSI chamdeal, reactor, labOrAtM7 glassware 7 iz' -,-A%mMGT: The reactor is' ;of-F G the atmosphero wUch jj; coxitrolled. nay be either*liquid or gaseous; the rotation provides nbcing and milling of both, the 1 raw materials and the reacUon product* The presence, of the glass balls in the reactor prevents precipItAtIon of deposits on the walls of the reactors The.apparatus was -Orig art, his; 1 figure 'construbted by F. Kost. LJPR_U    11 1 1. Hl", 11141144 !11i I I Ilia INS! i'01, K "L, A v Aji.ILAIPUMILLILA f lim a! mm, MUM ME R Ld It LIi If it I I ft aI 1011.111 1   11 T 11 H, II '! '1l 11 1 il" 11 -11 1 -!,: 'I . - , I ~ I ". - - I , - - . I . .