SCIENTIFIC ABSTRACT ALADZHOV, S.G. - ALAKOZ, A.K.

- I 1~ EE L vmk A ALftDz 1 6 tw ~Lt:rAwkOV3 yuG F)140            ,~WMV,st.G.; ZHIVKOV,E.S.; PNIOV,G. Oar experience with clinical electroretinograpby~ Na---~h. ',i-. v'q~sh. med. inst. Sofiia "" no.401-95 163 1. Aus der Universitatsaugenklinik- (Direktor, r*r.B.Zhivkov) und dom Physiologischen Institzit (Dlre~htor z Prot. T. Gotzev) des Madizinischen Institutes in Sofia. -I-  -00 Wr(m)/NP(j) RM 39 AUT110,11: Pudovik, A. N.; Is Va. 13. A.; Alduwrova, Ro S.; Aladzheva, I.A.1, OaG: Ifazan' Statto.- University :Uo V. I. Ullynnoy-Lenin (Kazanskiy gosudarstvonnyy universilEwt~ TITTZ's Addition of nucleophilic reagents to 2,3-di(d~othylphosphono)-butadiono-1,31 SOURCO: Zhurnal obshchey Mdmii. v. 36, no. 1, 1966, 3.61-162 TOPIC TAGS: phosphorus acid, phosphorus compound, exoU-ierrde reaction, IR spectrum, potassimn compound ABSTRACT: The, addition of nucloophilic reagents., di~neth~l- ana diethyl- phosphorous acids, ethyl marcaptan, and diethylamine to butadiene was found 'to proceed in the presence of alcoholatos of the alkali metals. Addition' proceeds oxothomally in the 1,2-position, I Dimothylphosphono-2,3-di(di-' .othylphoophono)buteno-3, 1,2,3-tri(diethylpho;phono)butono-3, 1-moreapto- othyl-2,3-di(diothylphosphone)butene-3, and 1-diethylamino-2,3-di(diethyl-, phosph;~-ne)butene-3 wore synthesized; their structures wore established by study of their infrared spectra and oxidation with potassium permanganate. D-PRS: 35,9982 SUB COD'~: 07, 20 / SUBM DA7153: 21Apr65 / ORIG REEF: 001 Card 1/1 UDC: 547.261118 ... - 0  -Arr Cz*Am,-ii6 tiemo6aq SUB C(118 SUE31ITTED: WIA6 0 REF $W.t -:-~:002-  L 990%~,ST Acamica n: '~.~P,300268 and aie atablein.storage and distillatIon. 3QMe,-:Of their Physical c0nstants~ and yields are given in table I of-the Enclosure, The diphosphiteslentWr all reactions characteristic 6f P(III)wcontsinirg compounds; triethylene diphosphitep for example., reacts with an equimolar amount of sulfur to f0= triethylene bisthiophospbsteo Reactions of,the,phosphites with haloalkanes are of general interest.. Mius, - t#etbyle)ie diphosphite and bromDethane undergo an Arbuzov rearrangement at 130C to. form ethylene ethylphosphonate and dibromoethane, probably by mechanism -B as shown In Fig. 1 of the Enclosure. The* Arbuzov rearrangement can be used to prepare polYmers from the di 1!2.~phites. 7 Heating of a diphosphite with an equimolar amount of a dihaloalkane such as 1 dibrowet;h!3ne or dibromobutane. produces highly viscous,, resinous P-containing polymess. Heating of a diphoslihite with a catalytic quantity of iodoethane produces hard, glassy polymers which are slightly sol~le in organic solvents. The preparation and properties of the polymers will be described in greater detail in a separate paper. Orig. art. has: 3 formulas and 1 table,, C. raw: site State~Univer6i !=U Kazan. )Kosuders dnny*y ~xmiver t X map _Q.t.' 2,OJul 3 2, a ::W*. -02 1 2 /-~,DATZIC 5 16 _MjM:_ 001- No DO Cord   PUDOVIKO A.K.;--ALADZHEVA, I.M. Acetylene-allen cetylene rearrran ements of phosphites vith a . 9 .. ,acetylene bond in an-eater radical. Zhur.ob.khim. 33 lo.2-OM-7-8-F 163. (MIRA 16:2) 1. Kazanskiy gosudarstvainVy universitet. (Phosphorous acid) (Rearragnements (Chemistry)) (Phosphinic acid)  FUDOVIK, A.N.; ,�~APZHEVA, 1. ~~_ Eaters of ethyloneglycoldiphosphorcrw acid. Zhur.ob.khim. 31 no.6: . 2052-2057 JO 161a (KMA 14 a 6) I* Kazanskiy gosudarstvennyy universitet. (Phosphorous aoid)  BEKIAROV, Em.,, inzh.; ALADZHEM, E., inzh.; ANTONOV, ~., inzh. ..I Use of ferroal-loys as electrodes in electric-spark plating. Mashinostroo-ne 11 no.7/8:7-14 JI-Ag 162. 1. Postoianen konsultant, "Mashinostroene" (for Bekiarov). I  nAA-DZEALI.TAX, M. S. ' Treating tuberculous gonitis. Ortop., travm. i protez. 17 no.',:52 Ja-7 156. 1 (MINA 9:12) 1. 1z travmatologichaskogo otdalonlya (zav. - F.A.Rudanko) Voroshilov- gradskoy bollnitsy (K= JOINT-TUBERCULOSIS)  DIMITROV, D. , inzh.; VULEVA, Em., ir.,zh.; ALADMU,4, E., inzh. Influence of geometric factors determining the preciaian of the universal triple-,law chuck of the Y-190 type. Mashinos- troene 12 no. 11:12-15 N 163. 1. 1-fashinnc~-elektrotekhnickbeski institut.  ALADMIDI, Nisim The Fatherland Front as a tool of the Bulgarian Com=ist Party in conformity vith the objectives and requirements of the strategy. Godishnik khim tekh 6 no.1:147-167 159 (Publ. '60)  AIADZM N. - I Modifications ot some internal furiatione- of the dic-tatmobip of the Proletariat under the conditions of the victorlou,3 sociall'am It Bu2garia. Godishnik khJxa tekh 7 no.1/2,~349-3-70 160 (publ. 16:Q.  ALADZHEM,-,~,. On the characteristics of the transition to socialism in the People-Is Repub3Ac of China. Godiq~pik, kh~m tekh 5 no.2:1-17-139' -1~58 Nble 160.  M VIK, A.M.; ALADZHZVA, I.M. Addition of ammonia and amines to isoprene oxide. Zhmr.ob.khim. 28 no.9:2497~-2500 S 158. (MIRA 11:11) 1. Kazonskiy -osudaretvennyy universitet. (Ammonia) (Amines) (leoprens)  FMVIK, A.N.; ALADZHLTA, I.M, Claisen rearrangement of allyl eaters of thiophosphoric acid. Zhur. ob.khim. 30 no.8:2617-2624 Ag 160. (MIPA 13:8) 1. Kazanskiy gosudarstvennyy universitet. (Phosphorothioic acid) (Allyl compounds)  PUDOVIK, A. N.; AT=HEVA, 1. M.; SOKOLOVA, I. A.; KOZLOVA, G. A. Folyphoophitee. Part 4: Reactions of dialkyl phosphoryl chlorides with glycols. Zh-ur. ob. khim. 33 no.1:102-107 163. (MIRA 16:1) 1. Kazanskiy gosudaretvennyy universitat. (Phoaphoryl chloride) (Glycols)  FUDOVIK, A.N.; ALADZIWVA, I.M. Acetylone-al.lene-di4no-r,wxrrangements fo diphosphites with a %, ~( -. acetylene bond- in a common eater radical. Zhtir.ob.khim. no.2s706-709 P 163. (MM 16:2) 1. Ka2anskiy gosudarstveivigy universitet. (Diphosphorous acid) (Rearrfmgements (Chemistry)) (Butadiene)  FUDOVIK, A.N.; KhTSAINOVA, N.G.; ALADZIOVA, I.M. --------------- Reaction of nucleophilic addition to alkynyl.phosphinitea. Zhur-ob.khim. 33 no.3:1045-1046 Mr t63. (MIRA 16:3) 1. Kazanuldy gosudarstyennyy universitet. (Phosphinic acid) .(Unsaturated compoiaAs) (Addition reactions)  FUDOVIK, A.N.; ALADZHLVA, I.M.; YAKOVENKO, L.N. Synthesis and reaxTangemc-iit of diethylpropargy]. phosphite. Zhur.ob.khim. 33 no.100443-34"~ 0 163. (FlIRA 16:U) 1. Kazwiskiy gosudarstvennyy universitet.  PUDOVIK, A.N.; ALADZHffA,,I-X.-- Thermal or "pseudoclaisen rearrangements of allyl and prepargyl asters of phosphorous acid. Dokl. AN SSSR 151 no.5:1110-1113 Ag 163. (MIRA 16:9) 1. Kazanskiy gosudarstvannyy universitet im. V.I.Ullyanova-lenina. Predstavleno akademikom B.A.Arbuzovym. (Phosphorous ftld) (Esters) (Rearraigements (Chemistry))    18274o-6 ~4  I I FUI-JCVjK, A.11,.; I 1.1,1. " PATJ'USjjE',,.,,,., OF ... -- Interaction d-11"'j~y2phosphoryl chlorides With 215-dimethyj-3- hexyne -2,5-diol. Zhur. ob. kilim. 34 no.9:2907-20II0 S 164. 1. Kazanskiy gosudarstvennyy universitet. (MIR% 17:11)  PUDOVIK, A.N.; AL-ADZHEVA, I.M.; YAKOVENKO, L.N. Synthesis and rearrangements of propargyl phosphites and allenyl phosphonates. Zhur. ob. khim. 35 no.7i1210-1217 Jl 165. (MIRA 18:8) 1. Kazanakiy gosudari4vennyy universitet.  ALAIDMOV, V. Aladzbovp V. - Ruko'vodstvo po smo'Y.odobivaneto. (Sofiya) Zemizdat (1952) 67 P- (Handbood on the production of resin) SOt Monthl List of East European Accessions, Library of Congress, Vol. 2, No. 9. Oct* el.  LXVGHMO,G.I., admiral. otvetstvenun red.; DMIN, L.A., dots,, kand. geo'gr. nauk, inzh.-kontr-admiral, glav-nyv red.; YMMKIN, IT-S., polkovnik, zamestitell otvetstvennogo red.; AIWI'KTN, P.S., admiral, red.; V " V.Ae', prof., kand. voenno-morskikh nauk, admiral, red.; I XCH4 -- V.% * 'koutr admiral zapa'sa, red.; AGENASOV, V.I., kpnd. istor. ns4k, kepitan 1 ranga, red.; BARANOV, A.N., red.; 31W, V*Acs'prof., kontr-admiral v Otstarks, red.; BXMOVNYY, I*G.9 prof., doktor ietor. nauk, polkovnik zapasa. red.; BOLTIN, Te.A.9 kand. voen. neuk, general~-Wor,'red.; VIRSHININ, D.A., impitan 1 ranga, red.; VITUR, II.A., prof., doktor geogr. niwk, red.; GELIPPM, G.M., dots.', kand. voenno-morskikh nauk, Impivan I ranga, red.., GLINXOV. Ye,G., inzh.-koiitr-admiral v otstafte, red.; 7311SBY37, I-*D., vitse-admiral, red.; ZOZUIYA, F.V., admiral, red.; ISAKOV, I.S., prof., Admiral Flota Sovetskogo Soyuza, red."*, KAVRAYSKIT, V.V. [deceased], prof., dektor fiz.-mat. nauk, inzh.- kantr-admiral v otstavke, red.; XUBSNIK, S.V., red.; KOZLOV, I.A.. dots. Imud. voenno-mor~,'-'La nsuk, kapitan 1 rianga, red.; KWAROV, A.T., vitae-admiral,*red.; KMMYAVTSIV. M.K., g'eneral*leytenant tekhnicheskikh voyek, red.; ITUSHKOVSKIY, M.V., dots., kand. istor. nauk, polkovaik, red.; XWSIMOV, S.N., dots., kand. voenno-morskilffi nauk, Impitan I ranga, red.; CKW, ~-B-, prof., doktor iotor. neuk.' red.; CRLOVq B*P.o prof., dektor geogr. neuk, red.; PAVLOVICH, W.B., prof.,, kontr-admiral v otstavke, red.; PANTSM370 Ya.A., admiral, red.; FITIRSKIY, N.A.', Imnd. vaenuo-mors'kikh neuk, kontr-admiral, red.; PIATONOV, S&P.,.goneral-loytenant. red.; POZNYAK, V.G., dots., general leytenant, 'red.; SALXSHCHZV,' K.,k,., prof., doktor tekbn. tauk, (Continued on next card)  I3VGHRWO, G.I.--(continued) Card 2. red.: SOCIROV, A.L., prof., doktor istor. nauk., red.; SKORaRTMOV, L.A., kontr-admiral, red.; SNMINSKIT, V.A.., Pr,of.i doktor voonno-morskikh nauk, in'zh.-kapitan*1 ranga, red.;*SOIoOV1Y11V, I.N., dots., kand. -voenno-morskikh nauk, kapitan 1 ranga, red.; STALBO, K.A., k6ntr-admiral, red.; STAPANOT, G.,A. [deceased], dots., vitse- admiral, red.; TOMLSHWICK. A.V., pro:F., doktor voen*no-morskikh nauk, kontr-admiral * otstavke, red.; TRIBUTS. V.F., kand. voenno- morskikh nauk, admiral, red.; CHIRNMOV, F.I., k6utr-admiral, re'd.; mm, Yeoye., prof. doktor voenno-morskikh nauk, kontr-admiral, red.; CHURMOV, 'A.I.,,tek~n. red.; VASIVINA, Z.P., tekhn. red.; VIZIROVA, G.N.,~ tekhn-red.; GCRCKH(Wq V.I., tekhn. red.; GRINIXO, A.M., tekhn. red.; KUBLIKOTA, N.M., tekhn. red.; H&LIMM, VoI., tekhn. red.; SYTTMSKATA, G.V.. tekhno redo; CHMODMOVA' L.P., tekhn. red.; aljR3ffIC11,'I.V.q tekhn. red.; BUKHA3107A, N.L, takhn. red.; NIKCLA.YWA, I.N.,'tekhn. red.; RADOVILISXILYA, tekhn. red.; TIKHOMIROVA,'A.S., tekhn. red.; I~BLOOIMN,, P.D., tekhn. red.: 10YKO, V.1.1 tekhn. red.; ROMANM, 1,G., tekhn. red.; TAROSHVICH, Klyel,:, tekhn. redo [Sea atlasJ Morskoi atlas. Dtv. red. G.I. Ievchonko. Glar. red. L.A. Demin. [MosWal Izd. Glav. shtaba Voenno-mor'skogo flota. Vol-3- [Military and historical. Pt.l. Pages 1-451 Voenno-istori- chaskli. Zamestitell otv. red. po Ill tomu N.S. FrumIcin. Pt.l. Listy 1-45. 1958. _ [Military and historical maps, pages 46-5~J (Continued on next card)  L]ffGBjiiTKO, G.I.---(contimed) Card 3. Voenno-istorichoolde karty, Ustv 46-52. 1957. (mm 11;10) 1. Rassia,(1923- U,S.S,R,) Ministerstvo obororq. 2. Nachal'nik Glavnogo upravleniya geodezii i kartografii Ministorstva, vuArennikh del SSSR krer 13'aranov). 3'. 0hlen-korrespondent Akademii nauk SSSR (for Kalesnik). 4. Daystvitellnyy chlen Akademii pedagogicheskikh nauk RSFSR (for Orlov). (ocean--Kape)  admiral "Military strateg7," edited by Marshal Sokolovskii. Reviewed by V.'A.AlaNzov.' Nor." sbor. 46 no.1:88-96 Ja 163. (MA 16 s 1) I (strategy) W" It  IGNATIYEVA, G.V.; SARAYEVA, N.T.; KHROMETSKAYA, T.M,; Ubjr--TA, A.G.; MASTYUKOVA, Yu.N.; NESTEROVA, T.P.; ALAFUZOYA, S.B.; YERSHOVA, A.S.; BARANOVA, T.V.; BEKLEMMHEVA, Ye.D.; SHIPOVA, Ye.P.; SUKHANOVA, R.V.; KHLYABICH, G.N.; KHANTSIS, S.S. Clinical and epidemiological effectiveness of a reduced dose of T-globalin (1.5 ml) in seroprophylaxis of measles. Zhur.mikrobiol., epid. i immun. 42 no.12t57-61 D 165. (INIIIRA 19%1) 1. Moskovskly Institut epidemiologii i mikrobiologil; Institut viru- sologii imeni Ivanovskogo AMN SSSR; Moskovskn~ia sanitarno-epidemiolo- giche3kaya stantsiya,- Rybinskay,a sanitart-to-episliimiologi.cheskaya stantsiya; Vladimirskaya sanitai-no-epiderqiologif--heskaya stantsiya i Ob"yedinennaya detskaya poliklinika, Makhachkal:i.  IGNATIYENAP G.V.~ SUMAROKOV, A.A.; LENNPIA, A.G.; AUFUMVA, S.V. Immunological effectiveness of pertussie-.dirhtti(3ria-tetanus vaccine. Mir. mikrobio'L., epid. J immurl. 40 no.10:58-62 0 163. (MIRA 17:6) 1. 1z Floskovskogo inst-Ituta epidemfolcgii i mikrobiologii i sanitarr,o-epide-mol-og'-clieskoy stants-4i Len4norarlskogo rayona Mosk"ry.  ALAGA, G. Yugoslavia (430) Science-Periodicals Neutrino. p. 183. Hrvatsko prirGdoslovno drustvo. Q_L_ASK9; MATHEMATICIO-TINGKI I ASTRON014SKI... Zagreb. (Five no. _~_y~ear; bulle-tln-o-ti-niit-iie-mati-es, physics, and astronomy issued by the Croatian Society of Natural Sciences. French, English, or German summaries). Seri a II, Vol. 7, No. 3, 1952. E"t European Aoces�jons List, Library of Congress Vol. 2, No. 6, June 1953. Unclassified.  1~virikiv TV rd JW-0D,JCbtTKAND-4)AMMA P- I Mat, a- farticta and gamr-a Inigg b xb~6. dWomed twI94 glv*r.; ~wbtle for W g0iiitaa decaj M.0 givan for tho cleddo dW wgqwtIv, are - 'I eA DottiNle tr"flow, Referenout; O~Of "Iiaiou roles Ir vL.L~Ay-: nixt gapaxr.2 a ifeW (auth) sill  it _79li-07-thi-T Z 4.6~ ~ijatien of the corrections I specirdt'and their , I.-Cation to holmium-166.0G. Alaga, aR`(l-*B-.LakN6. Gb I*z "ml. fiz. i A Rion, SEF (1057)Cm Mi-glish): C.A. 50, IM4b.-.A tensor pseudo- smiar mixt. 6 used to account u.11. for the large logft - 8.1 vallac and approx. allowed -Talle of tile 11010 ~ FT114 ground state (0- 0+) transition. .-A- Gco. V sv:f~  Nuclear Physics Structure and Properties of Nuclei c-4 Abs Jour Ref Zhur - Fizika, No 8, 1958.. No 175o6 Author Alag"., Jaksic Bi Inst culty,~-Scientific Institute "Ruder Boscovic" Zagreb, Yugoslavia Title Calculation of the Corrections for t . P, Analysis of the Spectra and Their Application to H. 99. Orig Pub Glasnik matt-fiz. i astroni, 1957) 12, No 1-2, 31-74 Abstract 1, detailed analysis is made of the known methods for calcula- ting theh -spectra corrections necessitated by the finite dimension of the nucleus and by the change in the wave func- tion of the electron inside the nue eus. For the ease 0--> 04 transition in the decay Hol66-->& ~6, the calculations have been numerically evaluated. Me results of the calculations are given in the form of a series of graphs. The charge dis- tributions inside the nucleus was assumed to be parabolic. Me interaction selected was a mixture of P and T variants. No possibilities are considered: (1) pseudo-scalar coupling 'lard 1/2 YUGOSLAVIII/Nuclear Physics - Structure and Properties of Nuclei c-4 Abs Jour : Ref Zhur - Fizika) No 8~ 1958, No 175o6 constant considerably greater than the tensor one; (2) matrix element of the T interaction has an anomalously small value. !,ssumption (1) does not agree with experiment. Assumption (2) makes it possible to explain the allowed form of the spectrum and the large value of it, which equals 8.1. See also Ref- erat Zhur Fizi-ka) 1957) No 0) 22132.  YUGOSL.AVIA/Nuclear Physics - Structure and Properties of Nuclei C-4 Abs Jour Ref Zhur - Fizika, No 1, 1959, No 430 Author Alaga G., Sips L.) Tadic D. Inst-.1 Institute Ruder Bosk6vic, Zagreb, Yugoslavia Title The IiQ uence of the Pseudoscalar Int raction in the Decay of Pr Orig Pub Glasnih mat.-fiz. i astron., 1957, 12, No 3, 207-217 Abstract A theoretical analysis has en made of the hard compcnent of the beta spectrum of lt~ (FO - 2.99 Mev, log ft - 6.6), correspondini to a 0----" transition between the ground 44 14pe states ol r.L- and Nd I asswuing the TP variant of inter- action with;supplementary account for the possible influence of the nuclear forces. The beta interaction was used in the following form < 4 P L M Card 1/3  YUGOSLAVIA/Nuclear Physics - Structure and Properties of Nuclei c-4 Abs Jour Ref Zhur - Fiziha, No 1, 1959, No 430 performed prior to the discovery of parity non-conservation in r- decay. in the remarks it is indicated that, in par- ticular, it is necessary to tal~e into account the possible presence of the A variant. The theoretically-computed form of the (~spectrum is obtained for the pure A variant, and this form coincides with the experimental allowed form within 3%. Card 3/3  , A G )c Distr: 4F,3c/4E3d ;e Calculation of some relativIstir corrections to the allowed J~fo _'p U . and rbidden $-transitiori ' I" a I Sips, '111(l D.- I il~L m ~"Fm _ VY Tadic. Glasnik jnal,~fii. i' ~ MT-Srr (1958),--S,.)rue values of coUplilIg COMB. tCSllIt ill Lill Ob- Semble effect otL the spectra, half-life, KIP* ratio, and angular Correlations. By assuming a siligle particle moving In a static field and by applying the Foldy-Wouthoyseii transfunnation, these corrections ivere caled. The correc- nre independent of the inodel.  ALAGAP-G. (Zagreb); SIPS, L. (Zagreb)j TADIC, D. (Zagreb) Corrigendum and addendum. Calculation of some relativistic corrections to the allowed and 1-forbidden beta transitions. "Glasnik nat.fiz. i astr.," 13 '58. Glas mat fis Hrv 16 no.3/4:263-264 .161.  S/054/60/000/00/008/021 zf 4 00 B020/Bo67 AUTHORS: Materova, Ye. A., Alagova, Z. S. 82088 TITLE: An AttemDt of Using Membrane Electrodes-in Hydrofluoric Acid Solutions PERIODICALi Ve3tnik Leningradskogo universiteta. Seriya fiziki i khimii, 1960, 140. 3, PP. 80-84 TEXT: In the present paper the authors try to use membrane electrodes consisting of ion exchanger resins to investigate HF-solutions. It is known that electrodes consisting of cation exchanger resins give a theoretical hydrogen function in acid solutions in a wide concentration range; in fluoride solutions electrodes consisting of anion exchanger resins show opposite behavior with respect to the K ion. Hence reasons exist to assume that membrane electrodes in BF-solutions can be used for measuring the pH and for determining the anion composition., The equili- brium in HF-solutions was investigated by many authors, and it was found that hydrofluoric acid dissociates according to the following schemei Card 1/3  8 e- c Q P, An Atlv--~;mj~z of U-jing Ele--,rode,~ in V054/60/000/003/008/021 Hydrofluoric Acid Solutions B020/BO67 BF H + F K, lip, RF + F- = HF- K (2) 2 2 ('HF~ )/~'HF 'F- ) The methods of determining the quantities K1 and K2 are given in the monograph by I. G. Ryss (Ref. 5). The authors determined the values of these actftvity coefficients at 15, 25 and 350C in a concentration range from 0.001 to 1.0 M. To investigate the hydrogen function ijP HF-solutions, membrane electrodes consisting of sulfocationites CEC(SBS)'and KY -2 -(KU-2)lwere used. The fluorine function was investigated by means of electrodes made of the monofunctional anionite A(?-17(AV-17) and the polyfunctional anionites ~,63 -101T (EDE-10P), AHI-2~ (AN-2F), and IIIMF -I (MIG-1). The hydrogen function of the membrane electrodes was studied in HF-solutions by means of the galvanic cells I and II. The pH values measured for the e.m.f. of cells I and 11 and for those measured with a hydrogen electrode are listed in Table 1, and graphically shown in Fig. 1. The table shows that, in the concentration range investigated, E, remains constant with an accuracy of tl mv. Table 2 shows that WK Card 2/3  An Attempt of Using Membrane Electrodes in S/054/6o/ooo/oo3/oo8/o21 Hydrofluoric Acid Solutions B020/BO67 82088 6Eexp agrees with 8E'' theor with an accuracy of some millivolts in the entire concentration range investigated which confirms the hypothesis of the mixed function of membrane electrodes consisting of anion exchanger resins in HF-solutions. There are I figure, 2 tables, and 9 references: 5 Soviet, 2 USA, 1 British, and I German. L41' Card 3/3  88259 1 S/076/60/034/012/011/027 6t r1blo 13020/B067 AUTHORS: Materova.,, Ye~ A, and klagova, Z. - S.. TITLE: Study of the Electrode Properties of Anion-exchanging Membranes PERIODICAL: Zhurn&7. fizioheskoy khimii, 1960, Vol. 34, No. 12, pp.., 2752-1"758 TEXT; The authors att.empted to studl the electrode proporties of the anion exchangers of different basicity and different chemical character in halide solutions with special consideration of the chlorine-o, bromine, and fluorine functions of the anionite membranes. The electrode membranes were produced from the resins AG -17,(AV-17),OAL, A13-16 (AV..16), (EDE-10P), AH -2 ~ (AN-2F) and MMr -1 ~MMG-1). To study the chlorine f unc- tion, electrodes were produced from resins saturated with chlcrine ions. The bromine electrode membranes and some fluorine electrodes were produced from chlorine electrodes by introducing them into & 1.0 VaBr or NaF solution. The remaining fluorine electrodes were produced from resins which had been converted into the fluorine form. An AgC11-, AgBr- Card 1/3  88259 Study of the Electrode Properties of 5/076/60/'034/012/011/'027 Anion-exchanging Membranes B020/BO67 and a sodium-glass electrode served as reference electrodeB. The emf of the current circuit with electrode membrane was measured by an ordinary potentiometer. An amplifier with electrometric tube was connected to the currcnt circuit when using glass electrodes. The measuring accuracy was 0.2 - 0.5 mV. Usually, 10 to 12 electrodes of each resin were studied. All experiments were made at room temperature. The results of measurement of the membrane potentials with different galvanic cells are illustrated in Figs.1--117by representing emf as a function of the negative logarithm of the mean activity of the electrolyte. The figures on the axis of ordinates refer to the lower curve. For better illustration each of the following curves is displaced in upward direction by 40 mV as compared to the preceding one. The membrane potentials measured by some galvanic cells are given in Tables 1-4. The chlorine function of the anion-exchanging membranes was studied in K01, NaCl and HC1 solutions. Fig. 1 shows that the linear relation obtained between the potential and logarithm of the mean activity of NaCl for all electrodes within the limits of measuring errors holds in a concentration range of 0.005 to 0.5 M with the angular coefficient of the straight line corresponding to the theoretical value. The bromine function of the electrode membranes was studied in NaBr Card 2/3  Study of the Electrode Properties of Anion-exchanging Membranes S/076/60/034/012/011/027 B020/DO67 solutions. As is shown..by. Fig. 2 a linear dependence of the electrode potential on the logarithm of the mean activity of NaBr was obtained in the concentration range of from 0.005 to 0..2 mole. The same holds for the fluorine function in the concentration range from 0-05 to 0-8 mole- There are 3 figures, 4 tableal and 12 references; 3 Soviet) 3 USi 4 British, I-German, and 11hdian. ASSOCIATION: Leningradakiy gosudaretvennyy universitet im. A. A. Zhdanova ---(Leningrad State University imeni A, A..Zhdanov) SUBMITTED: March 19, 1959 Card 3/~  ". Y 'k ~ )~, -i i~:A' , ',0.A. ; , i'.;;. -; KU"", -~.. i.l.. -[-:.~,Tll,~Ct I '-. :, ~ -., ~ ; . .- --lf,.ut-rode behavior of* cation-ci,,-' .! , C, i ccrta,ln o 'Lee Lrolytoo wLtli twcl- ailt.4 three- :-, Ifil: 19 no.16:31U,0-103 164 . (z lll.k 17:11)  .ALAJBrG, Antur Conference on rore stimulative rpmuncrnticn (-f' worker!~ h~ Id in BL11ja Lul,.-,i. Energija Hrv 10 no. 1/2-09-61. ID-'l  ALAJBW,, Antun , "Problens of electric rcwqr distribution in Croatia" published.by the ftofessional Association of Enterprises for the Distribution of Flectric Power in Oftatia. Reviewed Iy Antun Alaibeg. Energija Hrv 10 nc. 1/2:65-67. 161  AI.AJBEG, Antin Operational and orgenize.tional pro.blems of "Elektrodalmacija." Ihergija Hrv 10 no. 3/4.-122 161.  ALAJBEG, An Gonsultations on the projecting eund building of electric irBtallations for the dwellings. EnergiJa Hrv 12. no.9/10:332-33/+ 162. K--F,   AW, Kh.M.. i-nzh. Couforence on the utilization of automatic and remote control and relay protection. -Blek. eta. 30 no.3:95-96 Mr 159. (MIRA 12:5) (Automatic control) (Remote -introl) (Electric relays)  S/058/62/000/006/120/136 41306 A062/AlOl AUTHOR: Alakhov, Ye. K. TITLE: On increasing the precision of phase measurements for centimeter band waves PERIODICAL: Referativnyy zhurnal, Fizika, no. 6, 1962, 34 - 35, abstract 6Zh229 ("Sb. tr. XIII Leningr. nauchno-tekhn. konferentsii posvyashch. dnyu radio". Leningrad, 1959, 88 - 93) TEXT: A method is proposed for measuring the phase difference with com.;- pensation of phase errors for reducing the measurement errors. A theoretical analysis and an experimental verification show that for a correct choice of the line length and a really attainable travelling wave ratio n = 0.9%the general measurement error is 00;5 instead of 10 as obtained by the usual methods. V. K. [Abstracter's note: Complete translation] Card 1/1  66187 SOV/146-59-2-5/23 1".1)'THOR: Alakhov, Ye.K., Aspirant IPME-, Device on Reflecting Clystron in Autodyne Conditions on 3.2 cui Wave for Measuring of Secondary Radiation Circular Diagrams ',~'ERTODICAL: Izvestiya vysshikh uchebnykh zavedeniy - priborostroy- eniye, 1959, Nr 2, pp 28-33 (USSR') A-333TRACT: At the present time, the principle of modelling, where the object is superseded by a model and the measure- ments are performed at different ranges of radio-waves, is widely used for measuring secondary radiation cir- cular diagrams of one or another reflecting objects. To this end, a measuring device operating at cm-range with a generator of a reflecting clystron type has. been designed. In Fig 1, the layout of the new de- vice is given. Its principal component is the reflect- ing clystron in autodyne conditions which serves at the same time as a generator and receiver of radio- waves. Blectromagnetic flux received through an an- ard 1/3 tenna acts upon the autodyne generator which emits a  66187 SOV/146-59-2-5/23 Device ozi Reflecting Clystron in Autodyne Conditions on 3.2 cm Wave for Measuring of Secondary Radiation Circular Diagrams low-frequency signal, corresponding to the size of the model reflecting surface. The signal enters the amplifier and passes then to the recording meter where the secondary radiation circular diagram is re- corded. Autodyne generators are usually character- ized by their sensitivity S. Having made the neces- sary computations, the author concludes that the maximum sensitivity value corresponds to the gener- ation zone edges; for reflecting clystrons of usual industrial types, it lies within the following li- maZ__30+50 v at Rn=20 kohm, io=20'25 ma, where mits: S R is the load on the autodyne generator. To check tRe performance of the new device, an experimental installation has been constructed (Fig 3). It con- sists of a clystron generator, horn antenna and a vane with the model and a control gauge mounted on it. According to Doppler's effect, the useful signal Card 2/3 possessed a periodicr- character with frequency 41_~  8360 S/058/60/000/008/007/009 0 0 A005/AOO1 Translation from. Referaiivnyy zhurnal, Fizika, 1960, No. 8, p. 332, f 21138 AUTHOR: Alakhov, a K T=j Instrument for Measuring the Phase Difference at Points of an Electromagnetic Field in the Microwave Band IVA PERIODICAL: Nauchn. tr..Leningr. in-t,tochnoy mekhan. i opVki, 1959, No. 29, pp. 101-110 TEXTt The author describes a method for measuring the phase difference of oscillations of an electromagnetic field at SHF by the balancinL detector method, when the detector operates in the standing wave rAnge. It Is noted that the accuracy of reading the phase difference can not practically be attained to more than 10 by the present methods, whiah use the balancing detector operating on the basis of travelling waves, because of the difficulties in obtaining high travelling wave ratios. It is shown that theerror of measurements may be lowered down to a !F--- of one degree, when choosing the proper operation *tnthS Card 1/2 ~oe  83649 s/058/60/000/008/007/009 A005/AOOl Instrument for Measuring the Phase Difference at Points of an Electromagnetic Field in the Microwave Band parameters. The error did not exceed 0.50 when the method developed was ex- perimentally verified. There are 10 references. K.A. Pobedonostsev Translator's note: Thi.5 is the full translation of the originaL Russian abstract. Card 2/2 W a'.  S/058/60/000/007/005/014 AbO5/AOO1 Translation from: Referativnyy zhurnal, Fizika, 1960, No. 7, P. 309, # 17871 AUTHORS: Shchelkunov, K. N., Alakhov, Ye. K. TITLE- Measuri Oscill4ions and Other Small DisplacementsWith the Klystron-AutodynT' PERIODICAL: NaLuchn. tr. Laningr. in-t tochnoy mekhan- i optiki, _ 1959, No. 29, pp. 125-129 TEXT. The authors discuss briefly the possibility of using SHF oscilla- tions for measuring small displacements. Results are presented of an investi- gation of the method of measuring oscillations or other small mechanic displace- ments by the klystron autodyn. The measuring apparatus consists ol' a klystron generator and a waveguide emitter. When the distance between the emitter and the surface, the displacement of which is being measured varies, the total V/ resistance of the klystron load changes, which causes a variation in its anode current. The method is notable for simplicity, and it may be expected that a displacement of the order of some microns may be recorded by this method. D. N. Klyshko Translator'e note: This is the full translaoion of the origjr%al Russian abstract. Card 1/1  S/146/61/004/0012/001/011 B124/B206 AUTHORS: Zilitinkevioh, S. I., Shohelkunov, K. N., Balobey, F. P-p Alakhov, Ye. K. TITLE: Devioe.for measuring secondary radiation, operating with a reflecting olystron-autodyne PERIODICAL: Izvestiya vysehikh uohebnykh zavedeniy. Priborostroyeniye, V. 4, no. 2, 1961, 3-9 TEXT: This article describes a device developed at the kafedra radio- tekhniki Leningradskogo institute. toohnoy mekhaniki i optiki (Department of Radio Engineering of the Leningrad Institute of Precision Mechanics and Optics)., where the problem of replacing reception- and transmission channels was radically solved through application of the autodyne principle by means of a reflecting olystron, the latter serving not only for generating the emitted oscillations, but also for detecting oscilla- tions which are received as a consequence of secondary radiation of the objects concerned. When the object to be investigated is shifted in the radiation field of the deviie, the reflected high-frequency energy acts on Card 1/8  Device for measuring... 2 2548 S/146/61/004/002/001/011 B124/B206 the olystron-autodyne and generates at its output resistance a voltage with Doppler frequency proportional to the energy of the secondary radiant flux. The device-for measuring the parameters of secondary-radiation sources was built according to the block diagram shown in Fig. 2. It contains the following main components: 1) the measuring channel consisting of the clystron generator, a directional coupler, an antenna and a measuring ampTifierl 2) a system for controlling the clystron- autodyne sensitivity, consisting of a generator for sensitivity control, the clystron-autodyne, a measuring amplifier and a sensitivity-oontrol indicator; 3) a system for controlling the autodyne-generator power output, consisting of a directional coupler, a detector, an amplifier and an indicator for output control; 4) a system for recording the movement parameters of the model, consisting of a device for recording the rotation (electronic counter with rotation indicator) and a velocity recording device (velocity pickup and -indicator); 5) a control panel intended for switching on and adjusting the entire measuring device as well as other devices representing part of the measuring complex, and 6) the current sources. The clystron-autodyne is connected with the antenna and serves for generation, reception and autodyne detecting. In the presence of a Card 2/8  S/146/61/004/002/001/011 Device for measuring... B124/B206 moving object in the radiation field of the device, the reflected energy passes to the antenna and acts on the clystron autodyne, thus causing working conditions corresponding to the change of its outer high-frequency load. In this way, an intelligence signal with Doppler frequency is generated in the load resistance of the olystron-resonator circuit. For easier calculation of the autodyne-generator reaction on changes of the outer high-frequenoy load, the notion of sensitivity is introduced with the aid of which the ratio of the signal voltage obtained at the load resistance of the autodyne, to the corresponding change of the outer conductivity of the clystron is denoted, i.e., S - 1y- Uslan ext/yext The analysis of the expression for the sensitivity shows that this strongly depends on the selection of the operating point within the generation zone in the reflecting clystron. The approximate dependence of the sensitivity along the generation zorte is given graphically in Fig. 3, from which it can be seen that maximum sensitivity during opera-, tiort can be obtained at the zone borders, the working conditions of the generator-autodyne being, however, rendered very unstable thereby. For an Card 3/8  22548 S/146/61/004/002/001/011 Device for measuring... B124/B206 increase of the dynamic range of the device and the stability of its operation, the operating point of the olystron within the generation zone must be selected with a sensitivity of 0.8 to 0.9 of the maximum value. The noise level of the device lies at 1 mv, warranting at least equal sensitivity for the receiver channel as for the direct-amplifier-receiver. The voltage pulsation amplitude was reduced by means of suitable filters and a high degree of stability of the supply voltages; a further measure for increasing the sensitivity was the selection of the working frequency band of the measuring channel. Fig. 5 shows a simplified diagram for sensitivity control. The device described mainly serves for measuring the secondary radiation energy, which is required for measuring reflection coefficients of surfaces of different shape, COMDOSitiOn and struct-are, for measuring secondary radiation diagrams of various objects, etc. It can also be used for contaotless measurements of displacements and vibra- tions with small amplitudes, for measuring vibrations with arbitrary maximum frequencies, etc. This study was recommended by the Department of Radio Engineering of the Association. There are 5 figures and 4 Soviet- bloo references. Card 4/8  22540 S/146/61/004/002/001/011 Device for measuring... 3124/B201- ASSOCIATION: Leningradskiy institut, tochnoy mekhaniki i optiki (Leningrad Institute of'Precis ion Mchanics and 0 tlcs~ SUMAITTED July 8, 1960 -wiring diagram of the device. Fig. 2 Block Legend: 1) power indicator, 0 "I 2 -er amplifier, 3) detectort 4) sensitiv 0 ~ ? ity-6ontrol indicator, s en sitivity-control generator, 6) to th6 5 recording devices, 7) measuring ampliffer~.8) olystron gene-7ator, 9) directed coupler, 10) devic e with movable model, 11) v6l"ity indicator, 12) rotation indicator, 13) counter, 14) Lrom the travel- (r3tdt-i-on, angl e) pickup, 15) from the velocity_ (rpm) pickup, .16) supply sources*,' 17).-copturol.ranel. Card 5/8 V  zZW S/146/61/00,t/002/002/011 B124/B206 AUTHOR: Alakhov, Ye. K. TITLE: Measuring error and effective range of the device with reflecting clystron under autodyne conditions during the investigation of secondary radiation PERIODICAL: Izvestiya vysshikb uchebnykh zavedeniy. Priborostroyeniye, v. 4, no. 2, 1961, 10-13 TEXT: Devices for measuring the secondary radiation fields of electro- magnetic wives, which are based on the autodyne principle, are oharao- terized by means of the sensitivity S, related to the electromagnetic flux absorbed by them. This flux develops due to reflections from the object investigated (model) with the effective reflection surface a. In this case the relation S - (U IADVa) 44=2 (1) holds, where U. is the voltage of the intelligence signal in the load resistance of the autodyne generator, & the wave length, D the amplification coefficient of the device antenna and r the distance of the device antenna from the model. Card 1/5  2 Z549 S/146/61/004/002/002/011 Measuring error and ... B124/B206 (16.3r4/D')(U2/X2S2) (2) 8 holds therefore for the effective reflection surface. Tt is assumed that the antenna of the device is well tuned to the high-frequenoy channel, i.e., rAWO, where r A is the reflection coefficient of the antenna. The parameters, which mainly influence the size of the measured surface a are: 1) the sensitivity of the autodyne generator, S; 2) the amplitude of the signal at its load resistance Us, and 3) the length of the generated wave X. All errors of this device during meawirement of the effective reflec- tion surface a can be categorized as follows: 1) those conditional on the application of the autodyne principle, and 2) those caused by the indicator and the generator of the device. For long-time measurements (2 to 3 hr) on a spherical model, the deviations for a selection of the operating point within the generation zone of the clystron with P red >0.1 Pmax amount to 1.0- 1.5 %, where Pmax is the energy of high-frequency oscillations in the middle of the zone. For the majority of reflecting clystrons used, the mean sensitivity lies in the range of from S - 30 to 40 v at R I - 15 kilohm and a resonator current i. - 20 to 25 ma. The instability of the wave Card 2/5  S/146/61/004/002/002/011 Measuring error and ... B124/B2o6 produced by the autodyne-clystron-generator amounts to 0.1- 0.3 ~.. A measurin am lifier of the type 28-MM (28-IM), an oscilloscope of the type 3HO-1 (ENO-1 or an automatic recorder of the type "He~jjatfl ( ItNeyman") can be used as indicators for determining the voltage of the intelligence signal. This measurement error is further affected by the reaction of the autodyne generator on the voltage change at its electrodes owing to the freed voltage of the intelligence signal in the circuit of its loading impedance Rl. This measurement error amounts to 1.5 -2 % with previous calibration of the 28-IM measuring amplifier by means of a standard signal. The total error of measuring the effective reflection surface of the model a is Ma/dImax 018 %. For determining the effective range of the nev d evice, Eq. (1 ) As written down in the form r = rD'\r(a (, U 4RF) (4). For given Smean = 30 v and U s. min ~ 0. 9 Mv, rmax!2e 40 ff VS e~) is obtained. For the mentionei ratio s-ignal/noise = 2, the-selected quantity U a min is determined by the noise level in the loading impedance of the autodyne- clystron generator because of the oathode-ourrent fluctuations. For devices based on a different principle of operation, but also using a Card 3/5  22549 5/146/61/004/002/002/011, Measuring error and.... B124/B206 reflecting olystron. as generator tube, rrl max"--30VXD Va (6) holds on the basis of the radiolocation equation (Ref. 6: Bogomolov A. F. Osnovy radiolokatei:U (Principles of radiolocation). I'Sovetskoye radin", 1954) at a radiation energy Prad - 15 mv and a'receiver output Prec min - 10-8 W. The effective range of the new device is thus as big as that of devices -with crystal detector, but the new device is much simpler. Moreover, the autodyne principle permits the use of a joint transmitting and receiving antenna, which in the devices used so far involves great difficulties. Finally,. the biggest possible distance of the antenna of the new device from the model investigated is determined at a given gradient of the high- frequency energy reflected by the model. On the basis of Eq. (5) the following is obtained for born antennas (D-70) and the wavelength X (om): on scale-10 r 3 2 ~/O - -1c, X2 r 11* 28 ~/O. 1 04 on scale 20 on scale 30 r