SCIENTIFIC ABSTRACT BELU, O. - BELIGINA, Z.T.

CMATRI IRumania H-27 CATZGORX I A33. MR. IAMIM.. iO. 1959. go- M24 AVMOR I I LI Tomestug ?,I* IM, IAgronableal Research n lin a ~ TITL9 ITednology of the Kakl~g of Patural Dessert Wines of the PHurfatlay" And n1mays" Typo ORM. M. IAn. Ins%. corcetart agron., 1557 (19581, 25, No 6, 495-116 ANTRACT 9To produce dessert wines, tests vere made of addition to the vim must of concentrated aus%j refined sjA&r, crude spirits distillate and of littlo-aged spirits dIst Illate (LAD). The best r*sUts were obtained an adding LAD In saall 0 time diring fermentation. TtA sugar cantmt a goad be at least AD c/lItorg and the content f the mustI of extract In the wine at least 24-32 x/liter. The method can be carried out using conventional vioe-maktng W;mtnt. Authors SmaM. Bodartal, C.; Dumitrescu, T.  BELTI, O.;L7-PADATU, V. ~bdification of the physicochemical characteristics of grapes artifidially infected with Botrytis ginere p6 467. COM11IGOILE. Bucuresti. Vol. 9, no. 5, May 1959. Monthly List of East European Accessions (BEAI) LIC, Vol. 9, no. 1, Janjary.11960. Uncl.  BELUBEKOV A.A., MASTFAKOV, A.M,; MOSTRAN, S.A.; REZNIK, B~A. ) Strengthening the bottom zones of gas wells by gravel flIters. .Gaz. prom. 10 no.9:53-56 165. (MIRA 18.11)  13 f, I ti bemo 1,-~ t, BIISB m P~ospective business. Sor. potreb. koop. no.li26-28 Ja 158. (MIRA Iltl) 1. Starshiy okhotoved Ama-Darlinskogo ondatrovolo promkhoza. (Amm Darya Talley-Muskrats)  A,.Io, Prof.; GUS.11MV, A.G.,- prof. Improvement of oxygen therapy for parturlents, in asphyxiation of the fetus and newborn infants. Aserb.zed.zhur. no.11:84-87 N 159 :4) (MIRA 13. 1, rz akusherskoy klialki (sav, -.prof. A.I. Belubekyan) Azerbay- dsbanskogo gosudaretTennogo inatituta usovereheustvoTauiya vracbey, i Ir rodillnogo otdolentys, klihicheekoy bolluitey in. Dzhaparldsoo (OTTGMT--TEMLMTIG USA) (AUH IA)  TY 1: 11 -MAK _.At;K�j prof.~- (Balcm) case of the delayed appearance-of the second fetus in miultiple births. Fellde iakush, 25 no#1109"50 N 0609 (KMA 13:11) (TWINS) (LABORO COMMATID)  BELUEEKYAN. A.I.; NAZARLI, S. Kh. " A -own w -- Asphyxia and birth injury ifi the f,At%3 c-id newborn infants and theIr proph)laxis. Amerb. med. zhur. S 162 (MIU 18:1)  ~,MMEEKYAN Management of-labor following a cesarean section according to clinical material for 8 years. Azerb. mad. zhur. 41 no.8: 33-37 Ag 164. (MIRA 18t11)  BELUEEKYANp Aele -11. Antenatal death of-the fetus and the role of women's consultations in its prophylmde. Azerb. mod. shur. 42 no.800-55 Ag 65. (MIRA 18t11)  HELUBEKYAN, M.V. Boundary layer in a conducting fluid in the presence of a longitudinal magnetic field. Inzh.-fiz. zhur. 6 no.8t97-105 Ag 163. (MIRA 16z10) 1. Politekhnicheakiy institut imeni M.I.Kalinina, Leningrad.  ACC NR. AP7002691 SOURCE CODE: UR/0424/66/000/006/0050/0056 AUTHOR: Bagdasaryan, G. Ye. (Yereva6),' Belubskyan, H. V. (Yerevan). ORG: Institute of Mathematics and Mechanics, Academy of SciAnces, Armenian SSR (Institut matematiki i mekhaniki AN ArmSSR) TITLE:. Flutter of a cylindrical shell in a flow of a compressible conductive.fluid in preience of a magnetic field SOURCE: Inzhenernyy zhurnal. Mekhanika tverdogo tela, no. 6, 1966, 50-56 TOPIC TAGS: cylindric shell!, shell flutter, dponfiba shellystability, magnetic field aero magneto flutter, aero elastic flutter V4"'o ZS A`d`y1n`aamicF8ta6' of an ien"f0ite circular cylindrical shell is in- tte dity Ated'in an outer longitudinal supersonic flow of an electrically perfectly n ctive inviscid gas with a certain undisturbed velocity at infinity. Inside ell the gas is at rest under pressure equal to that of the undisturbed gas ere is an outer magnetic field parallel to the shell axis. The investi- on is carried out assuming the validity of the following assumptions: rc off-Love hypothesis on nondeformable, normals; 2) conventional simplifications in the theory of shells with a large index of variation; 3) disregard of the electro- magnetic effects in the shell; 4) equality to unity of the magnetic and dielectric permeabilities of the gas and of the shell material; 5) correctness of the Maxwell - equations for the vacuum in the inner space of the shell. The following initial Card 1/2  AP7002691 equations and relationships are used in accordance with these assumptions: a) the equations of magnetogasdynamics for the outer space of the shell; b) the equation of the shell motion;-c) an expression for the normal component of the outer surface load; and d) the equations of the magnetic and electric fields in the vacuum. Equations (a) and (d) are linearized on the assumption that the disturbances are small, and linearized equations (e) are obtained which describe the states in the outer and inner spaces of the shell and satisfy the boundary conditions on both surfaces of the vibrating shell. A characteristic equation is obtained (by a simultaneous solution of equations (a) to (e)) from which the natural frequency w and the divergence speed U (by putting w - 0) of the shell can be determined. The effects of Mach and Alfv4n numberal of'the rate of elastic wave propagation V, and of magnetic field intensity on U are mentioned. The condition of attaining the flutter speed Mf, as well as instability regions of the shell are discussed, and an expression for Mf in the case when V < U is derived. Orig. art. has: 3 figures and 43 formulas. [WA-521 SUB CODE: 20/ SUBM DATE: ~3lAug66/ ORIG REF: 004/ 2/2  B=BFJMAN, M. V. Derivation of the equations for a magnetobydrodynamic boundary layer, Trudy LPI no.230:107-110 164. (MIRA 17:6)  BELUCII., Inre ---- :m~ "Cancer registration and studies of incidence by surveys" by Percy Stocks* Reviewed by Imre Beluch, Stat szemle 38 no.,4:434-435 Ap 160. I/ ;  T.. STI, REMCA and A, F, MMOVA .I "Investigation of Some Delay Systems of the Pin Type" from AM6t&tigw ing Ind. So: B-3,080,964   PHUX I BOOK ZOL4DITATION 30V/~292 zAmrorontsiya po oiektronike everkhvyaokoy chastoty Trudy (Transactions of the Conference on Superhigh-Prequency Else- tronics) Moscow, aosenersoizdat, 1959. 2TI V. 3,500 coPles pi7inted. Sponsoring Agencyt Vsoaoyuxnyy nauchnyy sovet po raaoflzike I radio- tekbnlka AN SSSR. Zda. (Title page)s 1. "i Dzhlslt, Professor. w4 To. 0. 3olovIyevo Candidate of Technic. 3clenceo$ Zd.s S. Akalunlz; Tech. Ed. a G. To. Larlonov. FURPOU: =a book Is Intended rar scientific and technical personnel concerned with the development and operation of superhIgh-frequency r devices. 1. COVERAGE: The book contains a number or papa" 4eaUng with the more 1~ Important problems of oupart4gh-freqaency electronics. The papers were submitted at the Conference on Zlectrml called by the V uchnyy &ovet po radlofirike I =Otekbnike AN SUR Mr-cm, 001,10atIfto Council for Radlophysics and Radio Zmglneer- Ing, AS UM) and the BYurc novoy tokhnlJa NO 31-RSR (Bureau or Modern Engineering, Ministry or Defense. U33R) and hold In Moscow In 2957. The report& deal with the-falloulng toplazz probletm of the theory and calculation of the delay systome or traveling- wave and backward-wave tubazi cortair.-phenomena oacurrIPS In a cylindrical a*atron bean finding ItseIr in a uniforia magnetic field; the focusing of long boamis by maps or periodic magnetic and electric fleldnj and &ome problem %oncorming reflex kIrstrons. Modern types of cathodes for superhigh-frequency devices are do- scribed. X6 personalltles are mentioned. Reforsaces accompW most or the reports. by a' Arens tar er a ontinoter With 20- Pulse Power 58 Oveharow V T. CyllzdrLO&I Xl*GtrOn In A VDif"Or's Magnetic 80 Zoxolv, 1. ah. Concerning the Problem or raousing a Cylindrical rraWna-ftc~-ron.yjow in & y&r1o"o.magnatio shah_ _-T~ j=%i hroheTwome , &YA _ r3o, chov. a~d Dr %a a otle j~~Id' orl . '. Wit yoms S ya am With a or 95 wave Tubes 3haplas; or long z2octron Dams by Axially S. oy_W~ 103 Electrostatic yields Y* A- A a. Ta . Electron Waves In A Periodic and o rob a a Ai �r - creation IWith a nold Of Wave rc.~ old -~rt 212 s guide 3,ystem* al as Ingta2lation for the Automatic Calculation and jeatories in Electric and Kag -grMs ~ Charged-ParticlO TrA 133 notla ftelds In the Presence or a space Charge .0Qj9AkQv ~B. M . and V 3h@ 2&61o Propagation of Electra- i_y. electric Gas a ng a Helix and a DI ISO mgnati-0--waves in Dall-I 110ij Computation of a hat1w1re .Qh Q99F.Lon 409"quawra 172 M 7tubinshtey n. B To. AnalytUO-Orsiphical. Method or Deternialng the -Looses or 3;0zrj*a2 Thpo"cotion SuporhjZh-Frbqasncy Filters 287 Concerning the Electronics of the R~f2sx'XU&tr*n 202 Sh vat, and V. D. ;Mftv. cascade Electron Bunching Y- Von- i W a A~a lysis a a-Uroxno~rcn Tsar*vA S. M. Precont-DRY Cathode Types for 3up~rh1Zh-F-qu*nQY -.*Wo-os aNW-Possible Ways or Developing Now filgh-ZfflalancY Cathodes  06338 AUTHOR: SOV/141-2-1-10/19 TITLE: Calculation of the Field of Transverse Electromagnetic Waves in Rodded Delaying Systems .PERIODIOAL*. Izvestiya vysshikh uchebnykh zavedeniy, Radiofizika, 1959, Vol 2, Nr 1, pp 84 - 93 (USSR) ABSTRACT: Cardl/3 The wave admittance and the amplitudes of two spatial harmonies are calculated in a multi-wire line with conductors of iectangular section. These parameters are of fundamental importance in studies of the dispersion and coupling impedance in.slow-wave structures. In previous publications, (R.C. Fletcher - Ref 1 and J.C. Walling - Ref 3) the field between the conductors has been assumed uniform and the results yielded prove to be unacceptable (errors in the parameters considered may be 100% for L = L inFigure 1). The formulae found in here, taking non-uniformity into account, are 4% in error when p/j> 1 and exact when p/L4 6o . The formal definition of wave admittance in terms of current and potential is Eq (1), which applies to both the one- and two-dimensional structures 0 f Figures la and 16, respectively. The current depends on  06338 SOV/141-2-1-10/19 Calculation of the Field of Transverse Electromagnetic Waves in Rodded Delaying Systems the integral round the conductor section of the normal component of electric-field strength and consists, in the two-dimensional case, of the components 'of Eq (5). The second two terms allow for edge effects.- These latter may be calculated in terms of Iledge-capacitances" and use conformal transformations as in -eigure 2. The wave admittances, using these capacitances, are Eqs (8), (9) (line a) and E (10) (line 6) . The edge capacitancEs depend on' Ll t and W in Figure 2a and are listed in Tables la and 16. Which table is used depends on whether I >, f(ji) or n4 f(ji) , where f(II) is plotted in Figure 3. In the formulae quoted in the tables, 1~ indicates Jacobi's theta-function. Table 3 lists simplified formulae giving errors no greater than 1.2%. The conditions attending the use of these formulae are given in the lefthand colilmn. It should be noted that formulae,(8) to (11) for wave admittance are based on the approximate Eq (5). The greatest error occurs Card2/3 when p = 01 0 = rr , Ii - 1 . Compared with the exact  06338 , SOV/141-2-1-10/19 Calculation of the Fie 1d of Transverse Electromagnetic Waves in Rodded Delaying Systems formula the maximum errors for PA = 1.5, 1.0 and 0.5 are respectively 0.8%, 3.8% and 16.8%. Table 5 gives formulae for calculating the amplitudes of spatial harmonies. The appropriate conformal transformation is in Figure 5. The author thanks A.I. Sharko for assistance in computer programming. There are 5 figures, 5 tables and 5 references, of which 2 are Soviett 1 French and 2 English. SUBMITTED: July 301 1958 Card 3/3  s.`_4i/61/oo4/OO4/Ol3/O24 ElxO/E435 AUTHOR. Be-lug&,, I.Sh. TITLE: Calculation of resonator delay 5y8teM3 by ths- electrostatic equivalent method' PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy, Radlofizikw,, v.4, na.4, 1961, 689-702 TEXT: The author attempts to avoid dif fieUlties and inaccuracies of previous attempts to calculate the basic characteristics of resonator delay systems by taking into account the field in the, plane of the tips of the "comb", calculated in the approximation of infinite depth of comb and infinite dintanoe of the comb from any condt-_.zting surface. Satisfaction of the Floquot condition is assumed!, Design.formulas are obtained for various cases, such as l1near and radial, with slots In the outer or inner regions of.the- bounding circle. There are 5 figures, 4 tables and'11 referenceir: 5 Soviet-bloc, 4 Russian translations from non-Soviet publications and'2 non-Soviet. The 3 references to English language publications read'as follows: Ref.2: W. Kleen, Electronics of microwave tubes, Acad"emic Press Inc., Now York, London, 1958; Card 1/2  S/141/61/004/oo4/ol3/024 Calculation of resonator delay E140/E435 Rsf.5: W.Valkinshav, J, A-ppl. Phys., v.20, 634 (1949); Ref'.11: P.M.Morse and'H.Feshbach. Methods of Theoretical Physics, 1953. Russian translation v.1, IL, M., 1958. SUBMITTEDt September 10, 1960 Card'2/2  S/141/61/001*/005/013/021 E025/E135 AUTHORs Beluga, I.Sh. TITLEi MUltiwire lines composed of round conductors PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy, Radiofizika, v.41 noo5o 1961, 942-934 TEXTj This paper was presented at the Conferenre MV and SSO USSR on Radioelectronics, Kharlkov, 196o. The solution of the electrostatic problem equivalent to the calculation of the fundamental wave of a multi-conductor line formed from ideal conductors of circular cross-section arranged so that their cross-sections form a two-dimensional oblique lattice is considered. The potentials and fields are assumed to satisfy Flock's conditions. The solution of the problem is obtained by replacing each charged,contour by a system of charges and multipoles located at its centre derived from a Laurent expansion and summing these over the lattice. The field due to a single column of charges is first calculated, then, by summation of columns, that due to the lattice of point charges. The fields due to systems of multipoles are calculated similarly. Card 1/2  Multiwire lines composed of round .. s/i4i/61/004/005/013/021 E025/EI35 The wave impedance, losses due to non-uniformity of current on the zontours (proximity effect) and the amplitudes of the spatial 1-.armonics are calculated. Tables are given showing the effect of the number of terms taken and of the spacing of the conductors in the lattice on the error produced by taking only a given finite number of terms of the expansion.. There are I figure, 3 tables and 10 referencest 6 Soviet-bloc-9 1 Russian translation of non-Soviet publication, and 3 non- Soviet-blo~-. The English language references read as followFt Ref.4t Chiao-Min Chu, J. Appl. Phys., v.29, 88 (1958). Ref.63 J.C. Walling, J. Electronics and Control, v.3, 239 (1957), SUBMITTEDi January 19., 1961 Card 2/2   BELUGA,.,-A,!~~ Wave conductivity of a shielded multiwire line with rectangular conductors. Izv. vys. ucheb. zav.; 'radiofiz. 6 no.5rI070-1071 ,63. (MIRA 16:12)  EELUGA, I.Sh. Methods of partial regions based on the steady-state of some functionals. Radiotekh.'A elektron., 9 no.3t459-468 Mr 164. (MIRA 17:4) 9IM-cm, AM--%M PRE  ACC NRt AUTHORz Boluch, Jozor raduato engineer; cracow) IF17,10 0' RG; none TITIZ: Polish shortwavo tolomotor-,"Telemotor OG-111 Lb - SOMCE. Goodotski list, no. 1-3, 1966, 45-55 TOPIC TAGS: telemetry equipment, goodesy/OG-1 tolemtr y equipmant ABSTIUCT: Following a brief survey of the existing ele-etronto tolemeters pro- 'I I I duced*In various Western and Eastern countriesg the author concentrates on the description of the Polish shortwave telemeter designed in 1962 at the Do ~partmont of Radiology of the Warsaw Polytechnic. The Instrument is presently. An widespread use in Poland for geodesic measurements in the 100 m to 13 kin r,qnge. The article presents the general description of the instrumentg its ;principles of operation, principles of measurement, technological data, and da:ta processing procedures. The last section deals with the use of the Tele- meter OG-1 in go esic work, The standard deviation of the instrument is 1 (3 + 5.10 Dw M)-cm; basic ineasuring fr uencies - 15v 13.5t and .14. .14.85 Me; carrier wave frequency - 8.8 to 9.1 Go; warm-UP, time 10-25 ~nin; power supply112 V, -37 Ah battery; weight of one station unit witb.- antenna - U.4.kg;. stable- operation within the -100C tL+ 350C limits. Orig. art. has: 5 figures, 5 forrmAn 'and tablo~s. LipRst 36,8W7 SUB CODE: 09. 08 SUBH DATS: none Card 1/1   41kKIF I I T. 00 Oc in Ia I'm FSQvIQtQI,-W104I lie y dop"" & AND A. F~ IOUIT011041. MWO I Kedomi. 6 Oll 16,21T(ghIP!,rT~h, Imlowshig olcumotolis of the wimiallwSk-at Itiolustry W retructury 00 p"Idul-tai I"Ir trum high-cmde mqov-var ClAy "Mir it ""'C4 %air it; t"t "T"uksr" (amil "Icko") VA41ft 0-4 t)cujhk.#"k eLly. of Ow $0110viring ch~erist" " Substitul" In (be amnufacture of &xw plostors'. Wh WAM (4&3)6 AIA 30.6 (3',AX16 FoAh 1 004 :H 0 AU C400.7 (1.0). MzO 0.3 (0,3k Wtion Itsia 7.Uq (I I NV; 1; Sintiming Irmporralm 12m, (12w*); owl rortniortarl"m ]-,:N)* lie 8 00 plaw of low uwUnkid strimilib but wilb it wdttf atworptim sit 4c; wem prvilamd from the scWt Smile tvithnut the use of fluoirs. lwairistnt dw day was fifst gim a pLulk- amirking. Rcguliu smir Asy, wben Irmini by #be plovilk, nwillowl. w*% miWartevy low %iJkiml plostrii lwuvUU%l C5 to A'"' , 161,1-Ar unoi 4%41.tnl I" OOV emninelvial the p6tra worm fill-innt in sronmopiw InAtic prrp"*% (S-ootap prorlmiturit"t CAI and 2M atntA Re*$-h..m The ImmWis 41M)UH114110 1011) 12T." few trgltklr gradr Anil '. too N- (tiorivultvi Smir slut to Ism mcchan"I vitivoigth, Inomillkicut destormHon anal stmath tit the mwtwn, Ttw W"V dM' '"r"S Is"na at 1M)" in 11 lot"N'lly "XisliSing 21111-10%. phime. They had 4 ectidewy towatt! sur(4tv defumuttilm. The addition of IrMspAr nmy I* rai3ed to 10";, sirpending on the firbig III K. 7' 777. sic 00.1n. -- "Un a is I 11 IN 0 1 T"Pa .01 0*4 .04 444 *04 0*4 fill Ago i me! 404 Wei lei 0 49 4 3 9 IF 1 A 4 III it 4m i i 14' .u Srav go In a O's : * 0 o 0 1 0 Sass to 400 0 0 foe 0 $41140410410o so 0 0  al i 1 -1 4 ?A ~A LEAR -l 1 4 lk, AND f. L, 60941tilt *4 bell 00 C fell H. Mid of po"we, grals also. "d misfus of *a mb "m the *fWmp 94 tefasak pk%& 8 h'Rll k"13A A%tw A, V. ZoLo- 1H , W _ liviw6ments were Tum, %& i Ketaw. I lAl 20- cowulticled with (1) Nl"ev* dAY 0 SA(N 0% VIA%. AIA% M At, vestis 2-90, cat) 101. MKO WK lault"S Nt- IVISA"oli ness 1610T., slifferills temperature IINl* 1.) LINNO. atut Islat- lkily (AtITClWjl CLISS 1. and (2) %U90COV1,11, ClAY 1)(SAlhVilft. ily (AtterIxig) ctits 1. The firing 114W. 0 .3 goo 0 llklI)",%tullllW, TIk- pratest rffcvt ou the dinicnakinAtIrvu, tions vra% caused by prestore. For 110 to 211 Attu. the deviA. coo 0.0-11 tions rewbed 13 mm aM at 3W Aim. o.4 to a3 mm, IW%lu),r variation Witte. 7 a d Wle had ao 4ni&-unt effect on chances kn Dom dimettalous. the same was true of gruln Aisr (skvrs of 4-5 Jl[ to Ult) opmkAp per m.#). Tho WSW the pm*mvv. the kwcf to 150 atm. chaneux grain sixe affected the water abrAteption, but at over 211) aim. this was too vo 0 too 0W. too 4.#4*0 Ott got 61164V aps at 0 1 4 3 O's 0 0 * 0 to 0 dt * * 0 * * 0 a 0 0 0 A i  1ITTITT11-1, S ., '. Tlrod,lclion o'~ ornamental :' oor tilc~,. St-0%. i 1--r. 9 110. ) 052 11 1, - ~~ 1 - 1 1; 1  (3mLu6rA t! rual.Abat- No No. 2 1954 Jr---vitrial Fumaceep ;I -is, etc. 1626* .-:U�-UUD CHM KILNS WIIH THRE ZONES. Bolugal 6 M. 9 Zolotarogg, A.F. wA Onilitakeyal, T.G, Wqklo Koran. (Class& Corandox 1( Monow) 9 Mar. 19530 170 is).  1Y41_d6:1q AUT11OR: None Given 72-2-19/20 TITLE: For the Industry of Oex-mics - a Progressive Technology (Kerami- cheskoy promyshlennosti - peredovuyu tekhnologiyu). PMIODICAL. Steklo i Keramika, 1958, Nr 2, pp. 46-47 (USSR) ABSTRACT: A technical conference of the functionaries of the ceramic industry took place in KhaVkov in December 1957, vdiioh was organized by the Ukrainian administration of the Scientifio-Technioal Society of the building material industry and the Ministry of Building Material In- dustry of the Ukrainian SSR. The conference was attended by functi- onaries of the works producing ceramics in the Ukraine and the Russian Federation, the Economic Councils of Stalinsk and Khar1kov, the state-controlled offices for Economic Planning of the USSR, the RSFSR, and the Ukrainian SSR, the Building- and Build ing4L&terial Department of the TaK KFU and of the Scientific Research- and Plan- ning Institutes, The results obtained in the Ukrainian Ceramic Industry and prospects for the future were discussed. Particular attention was paid to the utilization of progressive experience in the industry as well as to the introduotion of new teohnioal methods, Card 1/4 high-efficienoy equipment, and a progressive technology.  For the Industry of Ceramics - a Progressive Technology 72-2-19/20 1.) I.I.Moroz (Minister for the Building Material Industry of the Ukrainian SSR) delivered a report on the work and the prospects of the ceramics industry. 2.) A.A.Kopeykin (Director of the NlIstroykeramiki) spoke about the work carried out by his institute. He was reproached for talking too much about future plans and too little about work already completed. 3.) A.A.Grebennik (Head of the PEB NIIstroykeramiki) , after his re- port, was criticized for the same reasons as Kopeykin. 4.) Dudnik (TsO UPSM Ukrainian SSR, Khar1kov) spoke about the in- troduction of new equipment and assembly lines. 5.) N.I.Dikerman (Chief Engineer of the Administration of the Mosstroymaterialy) stated that the efficacy of the brick obarg- ing devices for tunnel kilns at present no longer corresponds to the increased efficiency of the kilns. 6.) A.N.Lyutenko (Chief Engineer of the Administration of the Economic Council, Khar1kov) spoke about production reserves of plants. 7-) S.M.B elqga (Chief Engineer of the Metlakh Tile Works Khar' kov) Card 2/4 'WpOe -about'the mechanization of production.  For the Industry of Ceramics - a Progre3sive Technology 72-2-19/20 8.) L.K.Parnovskiy/(Direotor of the Ceramics Factory, Lvov) spoke about success aphieved in production. 9.) P.Te.Andrianov delivered a report on the ceramics industry of Italy. 10.) M.D.AbramovicV(Direotor of the Combined Plant "Keramik" at Kiyev) spoke about the organization of the production of mosaic tiles. 11.) B.M.Brekhovskikh (Chief Specialist for Glass of the Gosplan USSR) criticized the lack of reports concerning the stage of furnace technology. -.11 12.) A N Lyutenko,( G.A. Soldatov, S.M.B elugal", M. V. Gordyga and F:K:Perr4!(reported on the unfavorable situation of the raw material sector, vddch impairs the delivery of high-quality raw materials to factories and plants. DeoiBions were made for the purpose of improving industrial work, for the purpose of reducing time needed for smelting and drying, with a view of speeding up mechanization and improving the quality of products, as well as of increasing production and reducing Card 3/4 initial costs.  . . For the Industry of Ceramics - a Progressive Technology AVAILABLEt Library of Congress Card 4/4 72-2-19/20  BILUGA, S.M.: VUL'ISON, D.A. Continuous rotary mills. SuMested by S.M.Beluga, D.A.Vullfoon. RatsA izobr.v stroi. no.9:89-91 159. (MIR& 13:1) 1. GlavnVy inshaner Kharikov 11kogo savada matlakhakikh plitok Khartkov, ul.XDtlova, d.67 (for Beluga). 2. Glavnyv mekhan!Lk Kharlkovokogo zavoda metlakhakikh plitok KharIkov, ul.Kotlova, d.67- (for Vullfson). (Milling machinery)  BFALUGIN biatipurpooe mandrel cutting--tool-bolds Mombin stroitell no.S.t26 A,g (KERA 14:7)  MAGAZANIK. B.S..; KHILEVSKIY, K.V.; BZLUGIN, A.A.; SALIMIKOVA, K.I. Use of physical factors and physical exercise therapy In the ompound treatment and prevention of some diseases.-" A.N.Obrosov. : Reviewed by S.S.Magazanik and others. Vop.kur.fitioter. I lech. fis.kallt. 21 no.1:80-81 Ja-Mr 156. (KIRA 9:9) (PHYSICAL THOLPY) (MOSOV, A.N.)  13;~A.A.; NIKITINA, I.F. Scientific session of the Svercllovsk Scientific Research Institute of Physical Therapy. Vop,kar,fisioter.li.lech.fiz.kmllt. 21 no-3: 88-94 ji-S 156. (MM 9:10) (PUSICAL TMUWq)  SHIM, D. G. RWGIN, A.A. Observations Of ultraviolet erythema in tumors, abscasses, and cysta of the brain. Zhur. nevr. i paikh. 56 no-3:262-264 156 (MLRA gt7) l..Nervnaya klinika Sverdlovskogo nauchno-issladovateliskogo instituta fiziaheskikh matodov.1echenlya i kurortologii Ministerstva zdravookhruneniya RSM. (BRAIN, diseases, diag., ultraviolet arythem as diag. sign (Rus)) (ULTRAVIOLET RAYS, ultraviolet erythema as diag. sign in brain die. (Rua)) WIN, ultraviolet er7thema as diag. sign in brain die. (Rua))  A SHIM, D.G.; XHIINVSKIY. X.V.; BBLUGIN, A.A. Mechanism of the development and clinical role of ultraviolet erythema. VopAtir.fistoter. L lech,fit.kullt. 22 no.6:15-21 " '57- (MIRA 11:2) 1. Iz Sverdlovskogo nauchno-issledovetel'skogo institute karorto- logii i fiziotervoli (dir. - kandidat maditsinskikh nauk H.V.Orlov) i is Sverdlovskogo gosudaretvannogo meditainskogo institute (dlr. prof. A.F.Zverev) (UIMVIOLIIT RAYS--PHYSIOLOGICAL XFYXGT) (SXIN)  MMUGIRs A.A. Observations on ultraviolet arythema in epilepsy, VoP.kar.fisloter.-i looh.fiz.kallt. .2,5 to.lt43-47 160. (KM 1315) I.,Ix Brardlovskogo Instituts. fisiabaskikh metodoy lechenlya Ministerstva, zdravookhraneuiya RSIM (IPUMT) (ULTRAVIOLIT HATS-PUSIOLOGICAL Zn   BE.UJGIN, A&P.j PETROV, V.P. Improving the roll of a foundry conveyer, Mashinostroitell no.3.2:17 D 161. '(MIRA 340.2) I (Conveying machinery)  ANASTASIADI, A.P.; BOROVSKIY, V.R.; VYBORNOV, G.V.; KOPELYANSKIY, G.D.-;'MAK, I.L.; PECHURO, S.S.; PITEVSKIY, I.M.; RACHEVSKAYA, K.D.; REYZNERt--YU.B.; RYBAK L L --TSEPELIOVICH, M.R.1- 'SHUMAKHERp L.I.;.IIISHKEVICH, M.O.Ide;e;;ed]; AGEYENKO, Yu.G., nauchnyy red.; IZGIH~.A-j , nauchnyy red.; KOGAN, G.S.., nauchnyy red.; KRZHEMINSKIY, S.A.v nauchnyy'Md.; MITSKEVICH, M.I., nauchnyy red.; SILENOK, S.G., nauchnyy red.; TRIIESNIK* Z.Ye., nauchnyy red.; ZUBAREV, K.A., glav. rod.; TROFIMOV, I.P., red.; SKRAMTAYXV, B.G., glav. red.; BALATIYEV, P.K., red.; KITAYEV,, Te.N.,, red.; KITAYGORODSKIY, I.I., red.; ROKHVARGER, Ye.L., red.; KHOLIN, I.I., red.; CHERKINSSKAYA, R.L., red.; RODIONOVA, V.M., tekhn. red. (Manual on the production of gypsum and gypsum products] Spra- vochiiik p6 proizvodstvu gipsa i gipsovykh izdelii. (BA A.P. Anastasia4i i dr. Pod red. K.A.Zubareva. Moskva, Gosstroi- izdat, 1963. 464 p. (MIRA 16:7) (Gypsum) (Gypsum products)  P-RUGUT, D. A. Topographical artillery service. ARTILLEFUTYSKAYA TOPOGRAFICEMAYA 0 SLUZHr-V.. Textbook for Artillery 4M cers Colleges. ~:Oscow. Uil. Fubl. of the ','in. of Armed Forces, IJSSR. 1948. pp. 4515.  Z- FELTICID3 D Artilleriyskaya Instr=ental Oaya Hazvedka; Uchphnik DIva, Artilleriyskikh Uchilishch (Artillery Reconnaisance, by) D. A. Delugin,, V. YA. ZVE MV I V. H. DALMILIN. Moskva, Voyenizdat, 1956. h83 P..Illus., Diarrs., Tables. Bibliography: P. 478.  kandidat voyonnykh nauk, polkovaik; ZVJMZV,V.Ta., polkovnik; DANILIN, V.K., Inshener-polkovnik; VMCbIOTXV, P.A. polkovnik, redaktor; KONOVALOVA, re.K., takhnicheekly'redaktor. LArtillery reconnaissande by Instftmeats; a textbook for artillery schoolej Artillariiskaia instrumentallsais, razvedkiL; uchabnik dlia artilleriiskikh uchilishch. Moskva, Voon.izd-ve H-va obor.SSSR, 1956, 483 pe (HLBA 10:6) (Military reconnaissance') (Artillery, Field and mountain)  RNLUGI!, Dmiqiy_A1*imAu4r_qvich, kandidat vqyennykh nauk, polkoynik sapasa; M.A., teichn.red. [Artillery topographic service; a manual for artillery schools] Artillarilskaia topograficheakaia sluzhba; uchebnik dlis artille- rilskikh uchilishch. Izd. 2-e, perer. i dop. Moskva, Toen.izd-vo H-va obor. SSSR. 1957, 591 po (KIRA 11:2) (Military topography) (Artillery)  BILUGIM, S.A., iuxh. Yurniture finishing with grained paper-bass films. Der.prom. 9 no.4.*20 AV 160. (KRI 13:9) 1. Nookovskeya mebellnaya fabrilm No 14. (Wood finishing)  ,,-,I I I-L 1, C- irIy "I. , I-.,Iz:ro-re t'.c orCanizntlon of' '~u:hincrcs in --ate Ba;-J: est !)I.!!- `~nn. i hunl. 11 no. 6, 195-2  S/570/61/000/019/008/008 B107/BlO4 AUTHOR: Belugin, V. F. rITLE: Monthly forecast of maximum usable frequencies for the F2 layer in the form of world charts in Moscow time SOURCE: Akademiya nauk SSSR. Institut zemnogo, magnetizma, ionosfery i rasprostraneniya. radiovoln. Trudy, no. 19 (29), 1961, 140-150 TEXT: Predictions of maximum usable frequencies and the respective critical frequency foF2 for the F2 layer can be given in various forms: (1) As a function of the geographical latitude and daytime for a certain geographical longitude; to get an idea of conditions on the whole globe, a set of such zonal charts is used. (2) As a function of geographical longitude and latitude for a certain time, i. e., world charts. This representation has the advantage that the maximum usable frequency can immediately be found by corresponding charts. Since January 1961, the IZMIRAN has therefore been publishing forecasts in the form of world charts in Moscow time. Two methods of designing such charts have become known: (1) (Ref. 5: C. M. Minnie. J. Atm. Ter. Phys., 3, N 2, 124, 1953) Card 1h  law 8/570/61/000/019/008/008 Monthly forecast of maximum usable... B107/BI04 Forecasts given by ionospheric research stations are entered for local time into a chart, and the isolines are drawn; from the chart, the foF2 values for areas of equal geographical longitude and latitude are determined, and entered into charts for a certain world time. (2) (Ref.6. CCIR, Doc. 9-th Assembly, VI/73-E, Geneva 1958) The chart is compiled immediately in Moscow time or world time for which purpose the daily foF2 response for the individual ionospheric research stations is also taken into account. In 1959, the author suggested a simplified method of making monthly forecasts of the IZMIRAK as follows': The stat Aons give 0 their predictions with respect to two meridians, namely , Ill0east and 69 west latitude. In between, interpolation is performed at 30 intervals along the geomagnetic latitude. Forecasts obtained in this manner have been published.tentatively for July, August, and October 1959, regularly since January 1960. Comparisons with 5-month predictions for individual zones showed that approximately 90% of the data deviated by 0 - 0.5 Mc/sec only. Comparisons with British forecasts (Ref. 2, see below) and measured values also showed good agreement. There are 6 figurest 2 tables, and 7 references: 2 Soviet and 5 non-Soviet. The four most recent references to English-language publications read as follows: Ref. 2: Card 2/3  .A~ S/570/61/000/019/008/008 Monthly forecast of maximum usable... B107/BlO4 Predictions of radio wave propagation conditions, Department of Scientific and Industrial Research, England, 1960; Ref. 3: Ionospheric predictions series. S. Commonwealth of Australia Department of Interior, 1956 - 1960; Ref. 4: World maps of P2 critical frequencies, maximum usable frequencies, for 4000 km, August, 1958, Tokyo, Ref. 6: CCIR, Doe. 9-th Assembly, VI/73-E, Geneva* 1958. Card 3/3  PLANOVSKIYp A.N. Diagram t-x-y for multicomponen't mixtures. Xhim. i tekh. topl. i masel 10 no.20-13 F 165. (MIRA 18t8) 1. MoskovskiY institut khimicheskogo mashinobtroyaniya.  EELUGIN,_.Yj_F*j-,.PU-NOVSMj A.N. Reducing multicomponent mixture to a pseudobinary. Diagrams T - Y.. I and I -Y. Milm. i tekh. topl. i masel 8 no.7:36-40 11 163. (KcRA 16:7) 1q Moskovskiy institut khimicheskogo maahinostroyeniya, (Distillationp Fractional) (Phase rule and equilibrium)  BELUGINj V.P.; PIANOVSI(It, AoNo , Redaction of a multicomponent mixture to a peaudobinary one, taking the reflwc-to-product ratib into account. Dim. i tekh. topl. i masel 8 no.9t6-10 S 163. (HIRA 16:11)  DYATICWA, H.M.; BEWGIN, Yu.F. Certaln remarks concerning the applicability of Blerrum ard Schwatzenbach's methods for calculating the ronstants of diaso.,iation of acids. Trudy IW no.25:374-384 163. (MIRA 18t6)   L Z: 4 - ;X7 VL -530 7!~05 XMT9T_0M_WR: APSOI-2976 UR/0078/65/010/005/1131/1137 546.65:5141.49+661.86',A/.868.7 V. Ya. Bel AUTHOR: Pyatlova N. Mt.1 Temkina. ugin. Yu. F.; Lavrova, 0. Yu.; Bertina, L. E. ; lozefovich, F. D. Ka1qykofjd,-1Tr",T ',, -12NMOV, -~e. P. TITLE: Complexing of beta-hydro5cy4ithylimirfodiacetic acid with rare ear-th elements i !SOURCE: Zhurnal neorganicheskoy khiniii, v. 10 no. 5, 1965, 1131-1137 TOPIC TAGS: beta-hydr6xyethy1iminodiacetic acid, ratv earth complex formationf dysprosium separation, yttrium separation, rare earth element, complex compound IABSTRACT: The authors studied the cabacity of 8-hydroxyethyliminodiacetic acid to fform complexes with- rare -earth elethents -. determined the composition of the con - plexes formed, and calculated the In'stability constants of the latter and the dis sociation constants of the camplexing agent. Such quantitative characteristics of complex-forming processes facilitate the determination of optimum conditions of separation and purification of rare earth elements. The appreciable diffc-_rrences between the instability constants of the complexes shcW that this complex-ing agent: can be used for the separation of rare earth metals. The difference in the pF of j -Card 1/2 _7  5304?-t;5 ACCESSION NR: AP.5CI2970 :the complexes of dysprosium-and yttrium, equal to 0.71, iG particularly notabli~,' since it exceeds any previous value attained with other cor.-Plexing agents. Expert Ments involving the separation of a binary mixtm,,-- containing 30% Y20-3 and '70% DY203 ''-,'Y 7M'anS c-,f 0-hydroxyethyliminodiacetIc acid were very successful. I t was nd tlh.~it as tihe atoraic numb-ar of the rarti earth metal jncma~;es, the stability of the coniplexes rises shar-ply at first (from lanthanum, to europium), then remains approximately constant (from europium to lutetium). Grig. art. has: 8 ftigure-sl 2 tables, and 11 formulas. ASSOCIATION: none SUBMITTED: 16Sep63 ENCL. 00 SUB CODE: IC GC.-; 01V 0t 7 Card  ACCMIM IMI AP50105M *0020/65/1 Gj VW31OW1061 0 fi-UTHM22 ~chnik, ~K. I~. (Academician); Medved', T. Ta,j E~ydami n2j_ M. V.; Bel 'IM of omm'lex formtIO-4 of Phool loorganic 'C~~~ pl P, SOURCE: AIT SSM. Dokl-~471 V. 161# no. 3, 1965t 607-610 MPIC TAGSt phosphonia acid, complex compmdp chalatep metalorpnic compound 0STR ACT-, Me complexing pnTartiez of etbarlendiar-Anobi=etb_vlphosphcmic acid W), aoid (11) and e4zlivIenedi&---.UnobiamethylpLhosp~--c-a4c e I" r!an !-ave --it 1-;Imt !3,4 .','~mm Fo ';er, aaqrt i tr a ton curyo I 1,40tralt4tz,-- acllds zuk". --g a double bet&=e A~otuzre. CvmFl(ix formation wit-ti -na oation-s Mg, 'Z,, ;XIC Nit GO, zat Mat Fe +3 , Be, Y, La, Pr, NA, 8a, Da, (M, 'I"b, Dy, Ro, Fir, Tu, Yb, LU The uK values of the aoida were deterabied. Formation of hydrogen waplexes wm obsax*veed for a 10 oompoaition of components with all cati=s with tho +3 -axaeptl= of the alkall Garth Wki=z. ftr Fe I Or, ilt *it Th# uA the rar4 earth elemmta the formti= of bydroxy coWlezes ww abserred. The rare earth elements Card 1/2  ASSOCIATICHs 14zatitut kbf-loheakikh rmttivar i cooloo chin, ~ k:h4mjchesklkh Veshmliestv (Inatitate of Chadcal R "--qul~ts WA ngh r Vltt4~r) I rUtitUt to for Orpncalemntal of P-`~- SCTI 005 ESCL 00 OT-M t 009 MM CM I OC Ccrd 212  '17 PKhwZ'__ ~Uv- Ways of analyzing regularities in changes in the physical proper- ties of rocks, Geofia. isal. i probl. neft6gaz. iuga Sib. plat. no.2:218-223 162. (MIRA 15:8) (Rocks-Testing)  KOLOVERTNOV, G.D.; BORESKOV, G.K.; DZISIKO, V.A.; POPCVP B.I.; TARASOVA, D*Va~ EEWGTNAM GOG, Tron-colybdenum oxide catalyot of methanol oxidation to fomaldehyde. Part It Specificr activity as a function of the catalyst composition. Kin. i kat, 6 no, 681052-10% N-Ty f65 (MIRA .19:1.) 1. Thstitut kataliza Sibirskogo otdelenl~m AN'SSSRo Subuitted January, 25p 1965.  Iffect of the,pH"In the.proUpitatl6v of aluminum soaps on the viscosities of. their oleogelB. DakI44 Aimd. Xn* S.S.S.R. 8?j 635-? '32. (MMA 5:11) (CA 47 nool);6226 153) 1. Inatitut fizI6~sko khIalis Aked xLY& px* SeSaGeRes XPscOw*   the vuc-04fy uf Lbcij Q.Icqgct%' A- A. ic" V. lttluu- iu;4, D-Ujjv J.L;J. S-S S ft ~4. L", m ;= U-r A 47, ri ;,-~j pptd. VUH 9 ut"ll 21"), Waj~ ;z-,=.d with d Alik - 4 'SadtLaitepll' 111c pit 'f WH tavil. tbnir"%~~va d Ii tY t-4c 1a�, SLMutV-%"-Ut!- (kc =,x vv, ;,it i W~C-A- 40, t~&V~ jv~ Ctlie PPU. at PH 0. 7. ~a'f 0 avA 1-11 "d av, ritre Mat a rollcd~ *Ja. rl PIA'SO'N' %vash'.d, r-"Pj dyif~~ tav 'ap pr,~F4. fr,,m j;A 7 Lcd .9, dh'~ wqs pou at 21)" bot dmt,-~---wd in 't pv r~," jz qL  BELUGINA, 0. V. BELUGIMAj, G. V.: "The colloid-chemical basis of methods of preparing aluminum soaps of naphthenic acids and the stability of their oleogels." Acad Sci USSR. Inst of Physical Cherdstry. Moscow, 1956. (MSSERTATION FOR THE MGREE OF CANDIDUE IN CHEMICAL SCIENCE) So.: Knizhnaya letopis' No 152 19563 Moscow.  NzS74- tl 6- IAI AUTHOM Belugina, G.V., and Trapeznikov, A.A. 69-20-1-1/20 Mtls The Effect of the Conditions for the Preparation of the Alu- minum Soaps of Naphthenic Acids on the Properties of Their Oleogels (Vliyaniye usloviy prigotovleniya alyuminiyevykh myl naftenovykh kislot na svoystva ikh oleogeley) PERIODICAL: Kolloidnyy Zhurnal, 1958, Vol. XX, # 1, pp 5-12 (USSR) ABSTRACT: The authors developed a precipitation method for the pre- paration of aluminum-soaps in which aqueous solutions of Al (so ) and sodium.soaps are poured togetherp the pH being heid cinhant. The general view of the laboratory equipment used in the precipitation of aluminum soaps of naphthenic acids is shown in fig. 1. It was established by experiment that the thickening properties of the soaps and the structure and sta- bility of their oleogels are strongly affected by the following factors: 1. The ratio of free to bound alkali (fig. 2 and 3). The vis- cosity of the oleogels of Al-soaps grows with their free alkali content, attaining a maximum at 75-100%. The stability decrea- ses when the alkali content increases. The most stable oleogels are those precipitated with a free alkali content below 50%. Card 1/3 2. The pH during the precipitation (fig. 5). The viscosity of  69-20-1-1/20 TheIfEffect of the Conditions for the Preparation of the Aluminum Soaps of Naphthenic Acids on the Properties of TheirOleogels the oleogels precipitated at different PH values (10-3-5) grows with diminishing PH passing through a maximum at PH 5. 3. Temperature. The thickening capacity of the Al-soaps increases with the temperature (20-920C) passing through a maximum at about 800C. Thermal treatment of the prepared soaps also raises their thickening capacity (fig. 8). The precipi- tation and treatment temperatures have no significant effect on the stability of the oleogels. Diminishing the concentrations of the A12 (SO ) solutions and particularly of the sodium soaps used for piehPitating the Al-soaps raises the thickening capacity. A comparison of the thickening properties of the Al-soaps prepared by the f1direct" precipitation method and by precipitation at constant PH of the medium showed that on precipitating under optimal conditions (PH 5, elevated temperatures) soaps with higher thickening capacity are obtained by the latter method. The dependence of the visco ity on the time of keeping the oleogels of soap in various solv:nts:(cryoscopic benzene, aviation gaso- Card 2/3 line type B-70, gasoline, pyrolysis products of kerosene con-  69 -20-1-1/20 The Effect of the Conditions for the Preparation of the Aluminum Soaps of N.aphthenic Acids on the Properties of Their Oleogels taining a considerable quantity of unsaturated hydrocarbons) is shown in fig. 11. The correlations found for Al-soap gels in a pure non-polar solvent, like cryoscopio benzine, hold also for the gels in industrial solvents. The results of this study were used in process development of Al-naphthenate soap production. There are 10 graphs, 2 tables, 1 photo, and 25 references 8 of which are Soviet, 6 American, 5 British, 3 German, 1 Ca- nadian, 1 Indian, 1 Scandinavian. ASSOCIATION3 Institut fizicheskoy khimii AN SSSR, Moscow (Institute of Physical Chemistry of the AS USSR, Moscow) SUBMITTEDs February 20, 1957 AVAILABLEs Library of Congress Card 3/3  69-58-2 -23/23 AUTHORSt Trapesnikov, A.A.; Rzhavskaya, F.M. TITLEt News in Brief. The Effect of.the Ratio of Free to Bound Alkali During Precipitation of Aluminum Soaps on Their Thickening Properties (Kratkiye soobahcheniya. Vliyaniye sootnosheniya svobodnoy i evyazannoy shchelochi pri osazh- denii alyuminiyevykh myl na ikh zagushchayushchuyu sposob- nost') PERIODICALt Kolloidnyy zhurnal, 1958, Vol XX, Nr 2,.pp 254-255 (USSR) ABSTRACTs The composition and the thickening properties of aluminum soaps are determined by the molecular weight and the natu- ral organic radical of the acid, and by the ingredients and preparing conditions of the acid. Among these factors, the ratio of free to bound alkali plays an important role. In this article, the preparation of aluminum soaps from naphthenic acids with a molecular weight of 250 is des- cribed. The temperature was 800C. The free alkali con- tent varied from 25 to 200 %. Figure 1 shows that the best results were obtained with an excess of 75 % of free alkali. There are 2 graphs and 5 references, 3 of which are Soviet, Card 1/2 and 2 English.  69-58-2 -23/23 News in Brief. The Effect of the Ratio of Free to Bound Alkali During Precipitation of Aluminum Soaps on Their Thickening Properties ASSOCIATION: Institut fizicheskoy khimii AN SSSRjMoskva (Institute of Physical Chemistry of the USSR Academy of Sciences ,#Moscow Moskovskiy filial VNIIZhMoskva (Moscow Branch of the VNIIZh, Moscow) SUBMITTEDs July 6, 1957 1. Aluminum--Soaps-Composition properties 2. Aluminum--Soaps--Thickening Card 2/2  50) AUTHORSt Belugina, G. Yo, Zakiyevaq S. Kh.p BOY/20-126-2-25/64 hebinderp-Ps Aep Academician, Taubman, A. B. TITLE3 Onthe Stability and Viscosity of Concentrated Suspensions in the Oleogele of Metallic Soaps (Ob ustoychivosti i vyazkosti kontsentrirovannykh suspenziy v oleogelyakh metallicheskikh myl) PERIODICALt Doklady-Akademii nauk SSSR, 1959, Vol 126, Nr 2, p1318-321 (USSR) ABSTRACT: In the course of the investigations discussed in the present paper the aluminum soaps of naphthenic acids were used as structure-forming additions. They form oleogele with peculiar structurally mechanical properties. These properties of oleogels depend on the molecular nature of the dispersive medium and may be regulated by variation of these factors. In this connection, the authors investigated the time- -dependence of the viscosity of the gels of aluminum naphthenate in hydrocarbon media and in concentrated suspensions which are built up on the basis of such hydrocarbon media. Ordinary technical surface-hardened oxidized aluminum Card 1/3 powder with particles of aluminum powder from 6 to 13 served  On the Stability and Viscosity of Concentrated SOV/20-126-2-25/64 Suspensions in the Oleogels of Metallic Soaps as dispersive phase, The dispersion medium used was the purified basic paraffin-naphthene fraction of the fuel T - 1. The production of the aluminum soaps used for structure-formation is briefly described. A diagram shows the typical curves lglt- T for a 2% aluminum-naphthenate-gel. Here IL denotes viscosity and T - time. The introduction of a solid phase increases initial viscosity considerably, but without changinp the character of its aging. Analogous curves of aging are given for 2%_ and 4%-gele of an aluminum-naphthenate of other composition. If benzene is substituted for the paraffin-naphthene fraction, the initial viscosity of the gel is reducedp but the viscosity of the gel in the suspension undergoes practically no change for the duration of one month. The decrease of viscosity in the oleogels of the aluminum-naphthenate and in the corresponding suspensions is probably a consequence of the latent formation of aggregates. There are 2 figures, 1 table, and 10 referencesp 9 of which are Soviet. Card 2/3  Qn the Stability and Viscosity of Concentrated SOV/20-126-2-25/64 Suspensions in the Oleogels.of Metallic Soaps ASSOCIATIONs Institut fizicheekoy khimii Akademii nauk SSSR ,(Institute for Physical Chemistry of the Academy of Sciences, USSR) SUBMITTEDt February 26t 1959 Card 3/3  S/020/60/132/02/3s/o67 B004/BO07 AUTHORS& Belliving, Konstantinova, V. V., Zakiyeva, S. Kh., Rebinder, P. A., Academician TITLE: - Investigation of the Gel-forming Ability of iluminum Oleates in 'Benzene PERIODICAL: Doklady Akademii nauk SSSR9 196ot vol. 132, No. 2, pp. 380-383 TEXT: The authors discuss the behavior of the gels of aluminum soaps of the general composition Al(0H)n(00CR)m, where n + m - 3. They mention the dependence of the properties of such substances on the number of hydroxyl groups, on the association of the moleculest and on the molecular weight and the type of acid radical. It was the aim of the present paper to investigate the behavior of the aluminum soaps of unsaturated fatty acids on the basis of the 2exam5 le of oleic acid. The aluminum oleates were prepared by the reaction of Al (S04 with an alcoholic solution of sodium oleate at 700C. From the aluminum oleaLs gels were formed in pure benzene. The influence exerted by composition on the viscosity was investigated on 8% gels, which were precipitated in the case of an alkali excess of 25-200% . Fig. i shows the dependence of -q on the content of free alkali Card 1/2  t. - I Investigation of the Gel-forming Ability of S/020/60/132/02/308/067 Aluminum Oleates in Benzene B004/13007 after 5, 7P and 30-32 days. n-attains a maximum at 50% alkali excess (n 7.1 and a second lower maximum in the case of an,alkali excess of 150% (n - 7~- The soap precipitated with alkali excess of 200% was no longer soluble in b nzene. Like in the case of saturated fatty acids, bisubstituted aluminum soap (n of oleic acid had the greatest viscosity. The stability of the gels was low (Fig. 2). This is ascribed to the low chemical stability of unsaturated fatty acids. However, also %-naphthol added as entioxidizing agent does not influence gel aging. This aging does not depend on the composition of the aluminum oleatel which fact distinguishes the Al oleates from the aluminum naphthenates (Fig. 2). Fig. 3a shows the increase of viscosity with increasing concentration of the soap. The dependence log-q* K + a logG (1) was found (K and a - constants,' 0 n concentration). Increasing concentration (Fig- 4) retards the aging process. However, also 12% gels age and are durable for not more than two weeks, whereas 4% gels of aluminum naphthenates remain stable for longer periods. There are 4 figures and 8 references, 4 of which are Soviet. ASSOCIATIONt Institut fizicheskoy khimii Akademii nauk SSSR (Institute of Physical Chemistry of the Academy of Sciences, USSR) SUBMITTEDt February 6, 1960 Card 2/2  ..BELUOINA9 G.V.; ZAKIYEVA, S.Kh.; KONSTANTINOVA, V.V.; REBRIDER, P.A. Stabilization of concentrated suspensions by -the structure form4tian of the dispersion (hydrocarbon) medium. Koll.zhur. ~3 no.6:6,~8- 668 N-D 161. (MIRA 14:12) 1. Institut fizicheskoy khimii AN SSSR, lloskva. (-Suspensions (Ghemistry)) (Hydrocarbons)  3 801 81069 /62/024/006/005,009 BIOI/B180 /.2.P 0, AUTHORSe Zakiyeva, S. Kh., Bel_V Konstantinova, V. V., _Lna, Rebinder, P.~As TITLEi Effect of the solid disperse phase content on the limiting viscosity of concentrated suspensibna in a structurized medium PERIODICAL: Kolloidnyy zhurnalt 4. 24, no. 6, 1962, 678 - W TEXTj'.The aging of a suspension of aluminum*(particle size, 6 13p) dispersed in a purified paraffin-naphthene fractipn, thickened with 2-' by P weight of aluminum naphthenatel was in4estigated for T the solid disperse phase content, which..ranged from 5 to----~I% by volume-. Measurements were made of go the limiting visoosity,of the medift and ofq,, - %-K(4p) the limiting viscosity of the suspensiong where K(ip) is the relative viscosity of the suspension dependent on 9. An investigation of % and as. VIP dependent on age.showed that within 21 days the Y6 of auspensions.w4th v - 5 - 23% dropped to the same value as the 9. of the unfilled gel. This means that the particles of the solid disperse ph*se did not form any Card 1/2  8/06 62/024/006/005/009 Effect of the solid... BIOIYZ180 additional coagulation structure. For more strongly aged gels with lowered 10 values, K(y) is higher in the low 9 range (up to 23%), and lower at 'higher T (31%). At T - 31% the particles of the disperse phase begin to act as an active filler. The fact that the K(T)lq of all highly structuralized media, ise, gels with 10 >115 Poiceep is independent of 10 UP to T - 23 - 27% suggests that the suspension is completely stabilized. There are 2 figures. ASSOCIATION# Institut fizioheskoy khimii AN SSSR, Moskva (Institute of Physical Chemistry of the AS USSR, Moscow) SUBMITTEDi July 12, 1962 Card 2/2  UNITEVA, S. Kh.j AIWGINA, 0*,V.; XONSTANTINOVA, VO Val P,,A* Effect of the solid.disperie, phase content on the intrinsic vincosity of concentrated suspensions in a-structurated medim. Koll. shurs 24 no.6:678-681 N-D 162. (MM 16: 3.) 1. Institut fisicbeekay kbimii AN SWR,, Moskva. (Colloids) (Viscosity) (Sqspensions(Chemistry))  J.; ZAKIYEVA., S.Kh.; REBINDER, P.A. KONSTANTINOVA V.V.; BELUGINA, Effect of ourface-act'ive agents on the strength of structures of concentrated nonaqueo'us suspensions. Koll.zhur. 25 no.5t555-560 S-0 163. (KIRA 16: 10) 16 Institutfizicheskoy kh4mil AN SSSR, Moskva.  ~CHIRKOV, Yu,I,j BEMUKHINA, GeV. Microclimate and heat balance on crops of irrigated and nonirrigated corn in 1.461davia. Trudy TSIP no.145.-90-99 165. (MIRA 18:10)  GAUURG, D-Yu.; ISLYAKWA, T.M.; VE89MVSKIY, Changes In the peat surface during its gasification. Inzh.-fiz. zhure no,9:99-102 S 160* (MLRA 13:7) 1. GasudarstvenW institut azotnoy prom7ohlennosti, Moskva. .(Peat gasification)  GOOMG, D.Tu.j BiLUGINA, L.K. Changes in the porbts otrii6ti&e of- coke dw-bW its gazification with carbon dioxide@ lnzh.-fiz. zhur. no.12:86-90 D 160. (MMIA 340) Gosudaretyennyy patichno-iosledovatellskiy i proyektnyy institut azotnoy promyahle=osti i produktov organicbeskogo sintezap g. Moskva. (~,oke)  B/138/62/000/012/007/010 A05IA126 AUTHORS; Gamburg, D. Yu., Kazakov, A. V., Lelyakina, T. M., Belugina, L. N Veselovskiy, K. B. TITLE: Investigation of carbon black produced by electro-oracking of natural gas to acetylene PtRIODICAL: Kauchuk I rezina, no. i2, 1962, 22 24 TEXT: Samples of acetylene carbon blacks, obtained from dry collection and produced in one of the electro-craeking plants, were studied in 1959 - 196o e Institute by the MATI (GIAP - Stat of Scientific-Research and Design of the Nitrogen Industry and Products of Organic Synthesis), in cooperation with H1114PIl (NIIRP - Scientific Research Institute-of the Rubber Industry). Inves- tigations were conducted to determine the possible use of these samples as fil--; lers in rubber mixes. The major disadvantages of the investigated carbon blacks." were found.to be: the high volumetric numbers, elevated ash content and a low density which In some cases not exceeded 40 - 50 9/1- Work has been carried out to Increase the density by 3 to 4 times and reduce the volumetric number'from 34 Card 1/2  -GAMBURG, D.Yu., kand. khim. nauk.- LEYAKINA, T,H., inzh.;.ELUG~INA, Inzh Reacting surface of solid fuels and surface of coal ashes. Teploenergetika 10 no.8t3&40 Ag 163. (MIRA 16:8) 1. Gosudars tvennyy Otoyektnyy i nauchno-losledotatellskiy institut azotnoy prozWshlennosti. (Coal gasification)  GAMBURG, D.Yu.; OWGINA, LELYAKINA# T.M. Coke surrace changes dependent on the nature of the gasi- f~dmg agent. lUdm. i tekh. topl. i masel 9 no.l.-38-41 Ja 164, (MIRA 170) 1. Gosudarstvennyy nauchno-iseledovateltakiy i proyektW institut, azotnoy prcWahlennosti i produktov organicheskogo sinteza,  AZIMOV, G.I.; LAPINER, U.N.; PCHILINA, V.A.1 CHLOT, A.F.; SMGINA, O.P.; DUDITSX&TA, O.A. Problem of milk secretion. Biul. eksp. biol. i mad. 40 no.12:10-14 D 135. Mu 9:3) 1. Is kafedry fiziologii shivotnykh (sav.-saslu2hennyy dayatell nauki prof. G.I, Asimov) Moskovskogo pushno-makhovogo instituta (dir.-Prof. V.S. Yershov) (LACTATICK. physiology, radioactivity of milk from both uddere, of blood & of urine after admin. of radiophosphorus labeled milk into one udder in goat.) (PROSPECRUS, radioactive. labeled milk, radioactivity of milk from both udder, of blood & urine after admin.) WRINE I radiophosphorus, after admin. of labeled milk into udder in goat) (BLOOD, radiophosphorus, after admin. of labeled milk into udder in goat) I  BILUGINA, O.F.. Receptor system of the udder in cows and goats and blood composition. Bluleekspebiol, I mod. 43 no-I supplement:42-45 057* WRA 10:3) le Iz kafedry fiziologil shivotnykh (sav. zaslushenuyy doyatell nauki prof. G.I.Azimov) Tessoyuznogo eallskokhosyaystvannogo instituta saoc66go obrasovaniya (dir. - dotsent P.P.Ipatov) Predstavlena deyetvitelinym chlenom AMR SSSR profesuorom Y.N. Chernigovskino (BFIRASTO pbrsiol. eff. of me seage of udder in cows & goats & of lactation on blood picture) (BLOOD same)  AZIKOVI G.I.j ORL070 A.F.; 0 ReaUciption in the marnary gland. Zhur. ob.biol, '23 no.3:237-238 MY-Je 162. (MIM 15t6) 1. All-Union Gorrespondence Institute of Agriculture, WMARY GIANDS) (ABSORPTION (PHSIOLOGY))  USS-3/K,v.m,:~.n Patkiologdcal). ;.bs Jour: AI.ut he Inst Titlo canC- Ininal Lorpl'iology (Nomml and Circulatory SysteLl., Rof Zhur-Bial., Uo 16, 195%C7 74,1301 Bella ~ Svordlov Brancl'.1-11-Union Socioty o-f Ln:~to- mists, Histologists ane. EmbryoloSisls. On Intororganic Vossols o.-L' t-ho Liv-,r. Orir, Pub; Sb. nauchn. rabot. Sverdl. otd. Vsas. o-va anatwov gistologrov i embriologov, 1557, vy'i) . 1113-65 Lbstr,ict: Intororganic anastmoses bAwoon tho branches of t,ic hopitic artery apparently aro alvays prosent, but in some cases thoy arc d--.vclo- pod sufficiontl17 voll, in others, insuffi- cientlyi as a rQsult, after lig;-ttion of one Card 1/2  ~MSR/Hijman and Animal Physiology (Normal and Pathological)* T-3 Bloods Blood Diseasese Abs Jour Ref 2hur_--Bible,,-16~16., 1958, 74715 Author Motharovai YOON., Beluaina,'-V.T. Inst Title Treatment of True Folvoythemia With Radioactive Isotopes of Cobalt.and Phosphorus's Orig Pub Vestn,'I-rentgenol.',zi~::L"0&01,"','1957, No 1. 34-4o Abstract During- treataent`~ of - patients vith' true polycyther-Lia, in or- der-twobtain resistant~and:long remission Co6O and~02 - vere-sinultane6usly administered to-*the.cervical sympathe- tic~ ganglia'.(SQ. Remission with treatment only of 02 con- timed 2-4 years (average total dose of P32 7&5 13iCrOCU- ries); with use of both agents remission was lengthened up to 5 years (average general dose 4-5 microcuries)o Irradiation of the SG of the cervix is justified in serious cases with polycythemia with high hypertension and with a Card 1/2 48 -  ~;vnnl,-.cnal stata c f th egastro--Irttpst nal tran-t r ie nosphc s 41 in ad pi ra tnerapy or polyz~-yTheaia vara. Mod. rad. 10TO.505-40 My 165. 'M!,U 186) 1. Aadicterape,~tlaheak,.)ye otieleniye '~'Ientralfnogo nauchnc-lealedo- ~,d-mvcokhraneniyk S33).R, LonIng-rad.  2MGMA L. T. Reentgenotherapy of esophagoal cancer by rotational methods Tests rentgsp Nookys, lo*2t26-33 Mar-Apr1l 1953. (a IML 25:5) 1, Candidate Nedical Sciences. 2. Of the Roentgen. therapeutic Division (Head - Profs Th. Is ArkassIdy)f Central Roontgonologio&3.,;,Radologicalj and Cancer Institute (Director - Prof, -KNs,Pobsd1nsk1y).  t pEek"loa of the bloqd Rjl-~ il. ;:.- T.'em obt~rf,~d- A dr, ,;L.:. L 0) the pQu~blilty '-f inter-ruplins ~t -L dc----i- iLnca tli~re ayz ro Lf~r,.3 c,- ~cx~, m4talcra cf njt