SCIENTIFIC ABSTRACT AGISHEV, A. S. - AGLADZE, R. I.

1123 5/0 5 6/062/04 3/004/00 6/061 B102/B180 A ~;'r H 0 R: Atishev, A. Sh. Nucleax maGnetic resonance investigation of the rotational motion cf molecules o~ a liquid PE-110D] CAL; Zhurnn', frkcperimentallnoy i teoretilbheskoy fiziki,.v, 43, no. 9-(10), 1962, 1154 -1157 TEXT: To describe the random rotation of mole-lules K. A. Valiyev and I,',. 41aripov 196 2) introdixced a rotattonal diffusion tensor. 5-oinc of their foriiinlw3 are used to test the hydrodynapic model'. Ti the ffl.%fietio- relaxotion ti:p.(-, of protons in orranic liquids is related %%ith T1r flie chmrarlterii;tic Ome of 6c rotittionnl'and T of the alturnritint-_ -1 -1 -la randou, rbot.ion of' the, molecitle by 71 ~ Tir + Tla* T1 was Moas.iired fit 2401" by tho Li-pin echo metho"L (16,361,j1c) for different concontrationr of buiv-lenq n,iphthi-t.14?np and intliraccne in CCI 4 and extrapolu'tcd to zero. concentrution. ~il .or V-cse "'iree cor,,.)ouncis the T1r values obtained i%ere: 54.0 sec, 24.8 sec card 1/2  Nucle;ir 1. i c A-esomince 3/C)CJ006/(-)61 di:)2/i5l so ;ind' 12.5 !;uc. rc)t-3~inn ti:%es, 'C , were then c--ilculate f - - t.-, r d -~j ; C'e %-.-)Ic1,q, rctitin!! )hcre nn.-I ellipccdd, .-.nd the one describe6 in J. "hys. 3 1:i~" ',v hUtc*,cIl amli Ei3ner. Cm,prison of thene I . ),j, 86, 1. ~ - V v:ith ilic one c~iloul-itr;d Fcoi~i the measured T r V1111c, qho'.~,-S that UP -Itchel-Bjuncr miod;~! , h4(-,-. acrount o1 the 'L'orrn of the molec"11c, yields, f'ar the best aprec;ncnt. The ellipsoidal model is sornewInt buti.i-r than the sp'-~erical but both yield exni-~-crnt~d values. This is to the f:ict that the InYd.rodynnrAc models give an of t-w offecti,;e :1;olecular dl-.:ionsions. There is 1 table. I C-ird 2/2  L W712-6-5 PAFW cl A I SS TO N Ij "!Mb. 1,4 00(! 0 10 D1137 'M 37, 6 h F i z i ka, A 1) s 1)2~ AUTHOR,'~~ MTED: 'SOURCE- Sb-. Materl-My ue n. !~onfer~enCsii-.-Kn~z-ahtk-.-gas.-Iyed Kazan'. 1963, 389-392 TOPIC TAGS. spin lattie,~ relaxation. nuclear rnav-motic, rei;onance, paramagnetic im- purit~. dej,assing, vacuum equipmert T-R,%NSLATPN~ A setup is described for rernoviniz i-xaramanetic impurities from samples f,,r nuclear nia4,rnetic resonance researt-h Ifoy Pure fi.-~rnagnetic liquids are no the Of oxvgen) 'P)t' :n~Lall:w~,n Is a r- d is - nne t d t a , ;);)] (,,- The ~.wuurn sectwn is ni.id~, m( -I rl o C 0 C) S Card 1/2  L 16712-65 ACCESSION NR: AR5000779 rsVl,-1f)P (IMIIF-1,11 pump !)v a k"va!- 'kincto") P1 i \.I(,Lium is produced h% a 21l') 1-v 1;1j!11 'plinij, Fhc !!-.! tr, Lht, -taiiliti-r I I-11PL tot %% !Ili thrt- d\ t'~- t5d: -~)k tif)nS x0i;--h nia.Ke I' I i t t h T- ill f r! s ~w( I s I ("A 'It(th repeated until tne pumping out of thc sall'113IL' ;i. La ni is hed ,i):i-x i rnu r), -%macuum of -, 2 X 1,0-5 mm fig. The is ~1'.'I;Cd off irl the fro-/.en state under vacuum The efficiency of degassing is demonstrated urith an example of measuring the --,pin-lattice relaxation tirlc e)f water. he-venc, -N~clrlhexane etc. V Gromov. SVB CODE Card 2/2  V-126/6VOiDO/001/016/67 B039/E420. AUTHORS: Agishev, A.Sh., Zinyat6v, M.Z., Kashayev, S,-X.G,, ~uc ~~ve~no, N.S., Samigullin, P.M. TITLE: A spin-echo spectrometer PERIODICAL: Pribory i tekhnika eksperimenta, no.i, 1963, 78-83 TEXT: The spin echo spectrometer permits absolute values of important kinetic-parameters to be obtained, for example parameters connected with tho structure and motion of particles of materialt such as the transverse (T2) and longitudinal (TI) times of relaxation of nuclear magnetization and also the coefficient of self-diffusion D for particles of liquid or gas. When using this spin-echo method the material is located in a nonuniform constant magnetic field H. and exposed to a high frequency field satisfying the magnetic resonance condition. The deviation of the direction of magnetization of the sample from the dirittion of Ho depends on'the duration of the pulse. For a deviation of 90* the HF pul6e must satisfy the'bondition yHltl = IT/2 where y - gyromagnetic ratio of the resonating nuclei, HI - amplitude of HF pulse and t1 duration of the pulse. Card 1/2  S/12o/63/000/001/oIL6/072- A spin-echo spectrometer E039/E420 In order to obtain a deviation of 180*, double this pulse length would be required. A detailed description of the apparatus is given. It consists basically of a programming unit which. enables six different methods of measurement to be used, a transmitter, a high frequency head and a receiver. The field Ho is about 3844 Oe and is produced by an Alnico magnet. This field c,.iirog corresponds to a proton revonance frequency of 16.365 Mc/s. Nonuniformity i% about I Oe in a sample of about 2 cm3. The duration of the 900 pulse is about 2liaec. Errors in thet measurement of Tj and T2 are about 5%. Control measurements were carried out on an aqueous solution of 4 mole/litre VC'C12 and values of Tj and T2 equal to 160 and 112 VL sec respectively obtained, For pure de-aerated benzene Tj was 18.82 see. Values of' T and T2 from about 20 p sec up to 100 sec or more can be measurod ly thim method. There are 6 figures. ASSOCIATION: Kazanskiy pedagogicheakiy inatitut (Kazan' Pedagogic Institute) SUBMITTED: February 24, 1962- Card 2/2  ACCESSION NR: AP4012516 S/0056/64/046/001/0003/0009'- AUTHOR: Agisbev, A. Sh. TITLE: Investigation of Brownian rotation of nonspherical molecules of a liquid by nuclear,magnetic resonance SOURCE: Zburnal eksper. i teoret. fiz., v. 46, no. L. 1964, 3-9 TOPIC TAGS: nuclear magnetic resonance, liquid, liquid molecule, Brownian rotation, nonspherical liquid molecule, normal paraffin molecule, hexane, octane, decane and dodecane, tetradecane, hexa- decane, octadecane, activation energy, viscosity barrier, dipole dipole interation, spin relaxation rate, characteristic rotation time ABSTRACT: As a sequel of an earlier study of*4):-ownian rotation of an aromatic series of molecules dissolved in carbon tetrachloride, (ZhETF, v.- 43, 1154, 1962) the author determines the characteristic Card 1/,4',-)L  ACCESSION NR: AP4012516 rotat ion time of normal paraffin molecules d'4 ssolved in the same solvent. The paraffins investigated are hexdne, octanep decane, dodecane, tetradecane, hexadecane, and octadecane. The experimen- tal and theoretical resuits are compared and,it is shown that.the most accurate of all theories of Brownian rotation of liquid'.mole- cules is the hydrodynamic theory in whicA a 4icrofriction factor is allowed for. Temperature measurements show that the activation energy for the reorientation of the investigated molecules is equal to the viscosity barrier of the solvent. The contributions of the intermolecular dipole-dipole interactions to the measured spin-re- laxation rates are investigated and are found to decrease with in- creasing molecule'size. ."In conclusion, the author takes the oppor- tunlity to thank K. A. Valiyev for guidance and continuous interest in the work." Orig. art.'has.- 3 figurer., 101formulas, and 2 tables. ASSOCIATION: Kazanskiy gosudarstvenny*y pedagogicheskiy institut (Xazan' State Pedagogical Institute) Card 2/.4,)--  L('V~ V Z.  ACCESSION NR: AP4035479 AIMTOR: Valiyev, X. A. ; NA~hpv , A..Sh. 8/0051/64/016/005/0881/0887 TITIX: Investigation of the character of Brownian rotary movement of molecules in liquids SOURCE: Optika i spektroskopiya, v.160 No.5, 1964, 881-887 TOPIC TAGS: Brownian motion mechanics, molecular rotation, nuclear magnetic reso- nnnee, electron paramagnetic resoaance ABS MICT: Rotary Brownian movement of molecules in a liquid iv defined as chance wandering of the orientation of the molecules with respect to the laboratory system of coordinates. The most convenient parameters to use in treating the problem are the Buler angles. It is assumed that the ambience of the molecule gives rise to a potential barrier, which the molecule must overcome in rotating to the orientation in which the energy of its interaction with its noiglibors attains anothur minimum. The problem is first approached theoretically making ~se of the equations doscrib- ing rotational diffusion (M.A.Leontovich, Statiiticheskay'a finikAfftatistical Phy- sics7 M.-L.1944), and tenser analysis is employed to find the relation between ro- Card 1/2  ACCESSION NR; AP4035479 tation through a given angle and the correlation time (the time between two succes- sive rotations). Some experimental data obtained as a result of spin echo measure- ments on solutions of nitrobenzene and camphor in CS2 and CC14 are described. These arc then discussed from the standpoint of the theory and evaluations are made of the mean angle of rotation on the basis of Langevin equations for rotation of mole- cules. Use of the theory of Brownian rotation of molecules in the diffusion approxi- mation appears to be justified, although it is noted that the theoretical evaluav tions of the mean angle of rotation may actually be underestimAtes. Orig.art.hasi 9 formulas and 1 table. ASSOCIATION:' none SUBMITT~D.,'18JuI63 DATE Aft 22Kay64. ENCM. 00 SUB CODE: 98 NR PIEF SOVt 011 On=t 007. Coid 2/2  AGISHEVY A.Sh.; YEMELIYANOV, M.I. Spin echo study of the progressive diffusion of nonspherical molecules in liquids. Zhur. strukt. khim. 5 no.3:377-382 M,Y-Je 164. (MIRA 18:7) 1. Kazanskiy pedagogicheskiy institut.  BURNIIIN,'P.I., podpolkovnik meditsinskoy sluzhby, kandidat meditsinskikh nauk; RAZGOVOROV, B.L., mayor meditsinskoy sluzhby, kandidat maditsinskikh nauk; AGISHN.A.T. Feasibility of necreatonW in combined third-degree burns. Toen-med. zhur. no.1:23-26 Ja 156. (HLRA 16:5) (BURNS, experimental, necrotoqr.(Rus))  AGISWCV, A..V.,. Large cyst of the pancreas causing gastric obstructicn. Xhirurgiia 35 no.3:117-118 Hr '59. (HIRL 12:8) 1. Iz khirurgichesko otdeleniya Moskovskoy gorodskoy kliniche- skoy bollnitay No.6 F91avnvy vrach N.S.Shevyakov). (PANCRUS, cysts large cyst causing gastric obstruct. (Rus)) (STOIIACH, dis. obstruct. caused by large pancreatic cyst Olus))  AGISHEV, A. V. Hashimoto's lymphoid goiter. Khirurgiia 37 no,5tl27-128 My 16L (MIRA 34:5) 1. 1z 2-go khirurgicbeskogo otdolerday (jav. - prof. D.L. Vasa) Moskovskoy gorodskoy kliticheskoy bollnitsy No.6 (glavnyy vrach N.S. Shevyakov). (TEMID GLAND-DISEASES) (GOITER)  AGISHEV, A.V. Two caste of gastric lipomao MArurgiia no*8;3.16-3.17 Ag,1616 MIRA 1585) 1. Iz 2-go khirurgieheakogo otdeleniya (zav. - prof. D.D. Vaza) Moskovskoy gorodskoy klinicheBlcoy boltnitsy No.6 (glavnyy vrach N.S. Shevyakov). (STOMACP,-TUMORS)  AGISHEV, A.V. Riedells goiter (fibrous thyroiditia). 14a Probl. endok. i gorm. 8 no.2:125-126 Mr-Ap'62. (MIM 16t7) 1. Iz 2-go khirurgicheskogo otdeleniya (zav.-prof. D.L.Vaza) Moskovskoy gorodskoy klinicheskoy bollnitsy No.6 (glavn:ry vrach V.S.Shavyakov)*. (GOITER)  AGISHEV, I.N., inzhener; IVANOTA, G.M., inzhener. Apparatus for the recovery Of silica gel. Ilek.sta. 25 no.12: 44-45 D '54. (W-JU 7: 12 ) (Steam boilers)  AID P - 4015 Subject USSR/Power Card 1/1 Pub. 26 - 4/31 Authors Agi5hev, 1. N. and 0. M. Ivanova, Eng5. Title Improving steam separation processes In medium-prea5ure boilers. Periodical : Elek. sta., 11, 10-15, N 1955 Abstract : Authors report on the remodeling of a 3-drum boiler at a power plant in Siberia. The steam separation processes in a reconditioned equipment are explained in detail. Further remodeling of the equipment at this power plant, e.g., two double-drum boilers, is reported. However, the authors claim further research and tests are necessary. The use of cyclone type separators is advocated. Nine diagrams. Institution : None Submitted : No date  D,IAIIGAZI,Y-!,V, K.T.; AGISHEV, 11. Kh. - --- -1- 1 1 DoLoinining the resources of assil-.J~jble phosphates in so-iis by the -use of the phoophoms isotope I '.Vest. AN Kazakh. SSR 20 no. 1.2:15-24 D 164 (MIIT~ l8cf-0 1. Ch-len --kc rres pond ent All KazSSR (for Lmnangaziyev).  AGISHU. R. Agis hev. R. "Tn the mines of Pureya", (The develoFr-ent of new coal deposits, outline), Dallnity Vostok, 1949, No. 1, p. 6-1+-'~107. SO: U-4630p 16 Sept. 1953) (Letopis 'Zhurnal tnykh Statey, No. 23, 1949).  ASIXRITOVI, N.A., red.; BURTSEV, M.I., glavxLyy Inzh., red.; BURYAK, A.R., red.; GLOTOT, D.I., tokat', redo; ZAROVITTT, F.I., di:patcher. red.; HOSANOV, V.A., red.; TSUKOV, I.V., red. Ed ceased]; AGISHHVj,,.%K,&,.red#; MARKOVA, S.M., red.; KAYDAGOVA, M.D.. tekhn.ftid-,'"'~-" (Energomash; 25 anniversary of the Khabarovsk Blectric Power Machinery Plant] Enorgomsh; 25 let proizvodstvannoi deiatell- noeti Khabarovskogo zavoda energoticheokogo mashincetroeniia. Khabarovsk, 1958. 349 p. (MIRA 12:9) 1. Khabarovskly zavod anergeticheakogo mashinostroyeniya. 2. Khabarovskiy zavod energetichoskogo mashinostroyaniya *Zner- gomash" (for all except Markova, Kaydalova). 3 ZaT01"Awlalm, partiyny,m kabinetom zavoda 'Energomash" (for A;ikrito~a). Sekretart partiynogo byuro zavoda *EnergomasO (for Buryak). 5. Deputat Khaborovskogo gorodskogo Soveta deputatov trudya- shchikheiya (for Glotov). 6. Direktor zavoda "Energomash" (for Hosanov). (Khabarovsk-Machinery industry)  AGISI.IEV, R.-Ya., Cand 11hys-Lath Sci--(diss) "Cortnin boundary-value -~ 4- tWpe.11 Yazan'q problems for one differential e::uation of 19,5b. 6 pp in cover (Lin of 1: Zan t 150 coPiez (1M,30-'13,121)  AGISHEV, V.K, . 1 on the agenda-mechanization of the processing of realnous vood, GALdroliz. i lasokhim. prom. 18 no.6:32 165, (MIRA 18-9) 1, TSentrallnyy nauchno-insledovatallakly i proyaktnyy Inatitut lesokUmichaskoy promphlennooti,  AGISHEVp VA; BUSALAYEV, L.V, Ejection suction pump. Mashinostroitell no.11:43 165. (MI RA 18: 11)  Name: AGISHEV,, Ye. I. JFRS/DC-23.4 CSO DC-1237 Dissertation: Non-magnetic impulse mass analyzers Degree: Cand Phys-Math Sci O-4x'4CW . : Acad Sci USSR, Leningrad Physicotecbnical Inst f >,,,% uc't:~ INOW Date, Place: 1956, Leningrad Source: Knizhnaya Letopis', No 47, 1956  7 e ~ 7 - I IMPUIS ZLU! 2V3   AUTHORt Not given PA - 2873 TITLE: Dissertations (July~-Deaember 1956), Department for Physical- Mathematical Science. (Zashtchite dissertazii. Otdeleniie fisiko- matematicheskikh nauk, Russian) MIODICAL: Vestnik Akademii Nauk SSSR, 1957, Vol 27, Nr 4, PP 132-132 (U.S.S.R.) Received; 5 / 1957 Reviewed: 7 / 1957 ABSTRACT: The following dissertations were submitted at the Institute for Crystallography for the purpose of obtaining the Acadeado degree of "Candidate of Physical and Mathematical Sciences: E.D.DMWA: "Experimental Research of the Stratif iea Spiral Growth of Crystals of the Gaseous Phase". At the Physical-Technical Institute: S.M.RIVKMt "Investigation of the Behavior of Unbalances Current Carriers (Experimental Investigation of the Frooess of Motion, Generation, Recombination of Non-Balanced Current Carriers)" E.I.AGISHEV: "Non4fagnetio komentun-Mass-Analyz era" V.G.BOWBRY: "The Investigation of the Thermoelectronio and Repeated Electron Emission in the Solid and Liquid State of Brass, Silver, and Germanium as well as in Tin.11 Card 1/2  PA - 2873 Diusertations (July-Deoember 1956). Department for Physical- Mathematical Science. I.I.NOVAK: "The Use of Infrared Spectroscopy for the Investigation of Some Types of Intermolecular Interaction". L.K.FEKER: "The Properties of Atomic Nuclei in the CaLse of Low Energy Excitation." ASSOCIATICK: N ot given PRESENTED BY: SUBMITTED: AVAILABLE: Library of Congress Card 2/2  AUTHORS: Agishev, Ye. I., Ionovy N. if SOV/57-58-8-27/37 TITLE: Mass Spectrometer With a Pulsed Ion Source (Mass-spektroskop a impultanym istoohnikom ionov) PERIODICAL: Zhurnal tekhnicheakoy fiziki, 1958, lir 8, pp, 1775 - 1788 (USSR) ABSTRACT: Since the present work is a continuation of"that reported in reference 1 problems bearing upon the resolution and the in-, tensity of the mass speotrograph are approached in this paper, Further experiments carried out with test mass spectrographs in the laboratory are described. These experiments furnished the design data for industrial equipment similar to the series of test apparatus. The evidence advanced provides the following information of the particular features of the pulsed mass spectrograph: 1) The resolution of the spectrograph can be raised to values as high as several hundreds. The resolution *is basically limited by difficulties arising in the design of an amplifier with a sufficient amplification factor and a band width of the order of 100 me. 2) The intensity of this appa- Card 1/3 ratus operating'with an ion-focusing source is higher than that  SOV/57-56-8-27/37 Mass Spectrometer With a Pulsed Ion Source of magnetic mites speotrographs with the same resolution. This is due to the fact that practically no limitations are imposed on the diameter of the aperture of the ion source in mass spectroscopes. 3) On account of the direction and velocity focusing it is possible io analyze the ions being formed in the ionization chamber. Thus the intensity of light is in- creased and it is possible to investigate ionization processes with a small probability (for example the photoionization of gases).4) When the accelerating potentials U 1 are small the resolution is determined from the initial energy. distribution of the ions. Bence, the mass spectroscope can be used in the measurement of the width of the mass-peaks of the source energies of split-off ions* A knowledge of the initial energies is highly important in the investigation of the binding energiet of atoms in molecules, 5) The oscillograph permits to localize simultaneously the whole mase spectrum of the gas under in- vestigation corresponding to one definite moment of -;`.onization. 6) The modifications of the gas composition in the ionization chamber in principle can be located by the pulse sequence of Card 2/3 the ionizing pulses of the electron current which in the de-  Mass Spectrometer With a Pulsed Ion Source SOV/57-58-8-27/37 scribed equipment is 10-4sec. This particular feature of the device is of importance in the study of the time ccurse of various processes. The Scientific Superior Gollaborators E. Yas Zandberg and Be A. Mamyrin assisted in the construction of the test mass spectroscopes. There are 8 figures and 5 referencest 4 of which are Soviet. ASSOCIATION: Leningradskiy fiziko-tekhnioheskiy institut AN SSSR (Leningra Physical and Technical InstitutejAS USSR) SUBMITTED: July 10, 1957 Card 3/3  AGISHEV, YO.I.) AVLYAKOV~ YU.I. Thendonic emission from nickel in the presence of balldes, Zhur, tekh.fiz, 29 no.12s1480-W3 D 159. (MA 14:6) (Thermionic emission) (Nickel)  24.6~oo, 24.7400 77316 SOV/57-10-2-1,)/18 AUTHORS: Agishev, E. I., Belyalcov, Yu. I. TITLE- A Nonstationary Thermionic Emission From Nickel and Tungsten in Vacuum PERIODICAL: Zhurnal tel(hnicheskoy fiziki, 1960, Vol 30., Nr 2, pp 223-225 (USSR) ABSTRACT: Using a time-of-flight (pulse) mass spectroscope de- scribed earlier by Agishev and ionov (ZhTF, XXVIII, 1775, 1958), the authors were able to observe a short-living m/e 100 peak during fast heating of nic8el and tungsten emitters up to a temperature of 600 to 900 C. The effect was reproducible and lasted only a few seconds after which one could observe the "stationary" peaks of alkaline metals. The effect was obtainable even after introduc- ing CC14' freon, and butane, up to a pressure of 10-5 to 10-4 mm Hg. Platinum did not show this effect. Card 1/4 Although the authors have no explanation for the ;ffect,  A Nonstationary Thermionic E~mission From 7173-16 Nickel and Tungsten in Vacuum SOV/57-30-2-13/18 they present various experimental results. The curve shown on Fig. 1 represents the relationship between the maximum current, I, and the time of cooling of the emitter. The emitter was first heated UP to 850 0 C and held there for 10 sec. It was then cooledofor a time t, after which it was again heated to 850 C, aftd the maximum current taken. The curve was reproducible, and the effect in general does not show signs of wear. The authors also investigated the Imax as function of the minimum temperature to which the emitter would cool down during the time t. They further obtained a curve showing the maximum e/m 101 ion current versus the maximum temperature of fast heating. The tungsten emitter showed a similar behavior. The authors noted that the effect disappeared after heating the emitter above 12000 C. This could mean that this very probably complex ion results from adsorption on the emitter surface of some residual gas components of the system. Card 2/4 Heating above 12000 C then destroys the "active" surface  A Nonstatlonar~r Thermlonic 1--~nisslozi Froiii '(7 3 16 Nickel and Tungsten in Vacutun Pig. 1. layer responsible for some catalytic action producing the 101 ion. The platinum surface is probably free from this catalyzer even at low temperatures. The 1-ons could be the result of some organic radical with low potential of Ionization. Professor N. I. Ionov discussed results and supplied advice. There are 2 figures; and 2 Soviet references. Card 3/4  A Nonstationary Thermionic Emission From "(7316- Nickel and Tungsten in Vacuum QOV/57-30-2-1-~~/18 ASSOCIATIONi Physico-Technical Institute AS U-SSR. Lenincrrad (Fi-ziko- teklinicheskiy institut AN SSSR, Leningrad) SUBMITTEM A UgII 13 t 14, 1959 Card 4/4  14ELEKHINA) V.P.; Prinimali uchastiyet DYUZHLVA, Yu.V.,, khimik- AGISHEVA, A.S. , khimik; MUINAp V.P.) khimik,- KWENKOVAI A.W.-,MMM- Materials-for setting up a sanitary protective zone for Klin Thermometer Manufacturing Factory. Uch. zap. Mosk. nauch.-issl. inst. san. i gig. no.6: 41-44 160. (MIA 14: 10) 1. KlinskeFa sanitarnaya epidemioloticheskaya stantsiya, (for Agisheva). 2. Moskovskaya oblastAaya sanitarnaya opidemiologichoskaya stantsiya (for Kukaina., Kosenkova). 3. Moskovskiy nauchno-issledavatellskiy institut sanitarii i gigiyeny imeni F.F.Erismana (for Dyuzheva). (KLIN--AP,,"-POLLUTION) (MERCURY-TOXICOLOGY)  ABR,010Y, M.M..j. dots,; AG.I.BHEVAt--8PA.&-- . . ..... Chemical composition and physiological effect of.ext~ract!?.from the loaves'and fruit of Z7gophvllum fabago L. Nauch. trudjr San-ark. inst. 8ov. torg, 60255-259 '57. (MIRA 12t7) (Calt;op)  AGITSKIT, V.A.; DTNIKINA, S.Te. --i"M ~~- - IwP*I*#",Iw~- Underground leaching of copper& Gorozhurono.11:35-38 1 156. (MLRA 10:1) IsUnipromed'o (Copper mines and mining) (Leaching)  FICH, M.A., akadamik, radaktor; GREXHOVA, M.T., professor, redaktor; ATZERMAN, M.A., doktor tekhnicheskikh nauk, redaktor; GINZBM, V.A., professor, redaktor; GMELIK, G.S., profea3or, relaktor; LEO1?T0VIGH- AMEONOVA9 Ye~Ao, dotsent, redaktor; ZHWATSOV, N.A., dotsent, redak- tor; PETROV, V.V., kandidat tekhnichaskikh nauk, redaktor; NIKOLAYEV, U.N., doteent, redaktor; AGITOVA, N.A., redaktor; BRYISM, A.Me, redaktor; AIEKBEYM, T.V*,8" n,8ftwkty redaktor. [Delicated to the memory of Alekoandr Aleksandrovich Andronov] Pamiati Aleksandra Aleksandrovicha, kndronova. Moskva, 1955. 718 P. (MIRA 8:4) 1. Akademiya nauk SSSR. (Mathematical physics)(Automatic cor4trol)(Astrophysics)  DEVYATYKHp G.G.; AGIULOV9 N.Kh. Effect of the take-off rate on the efficiency of film rectifyJng columns. Zhur. fiz. khim. 34 no. 11:2509-2512 N 160. (MIRA 14:1) 1. Nauchno-iseledovatellskiy institut khimii pri Gorlkovskom gosudarstvennom universitete. (Distillation)  ArtlYA17) T. W',IYAN, E. T.: "The charactE-ristics of c~f loc-;l s~ec,.~ nrjrl the brreds frm, the Sn-Ittilz rerion of 'uhr. Ja-n~nltn S-SPI to con'lnue C~, .1 Rr" L, Improving Yorevvi), 1955. Mir HiChcr FrWention VU,SR. Yerovar, Zowyctrx- inary Inst. (DissortatJon for the Degree of' CanJidate of' Arricultural Scienc--,s) SO: Knj.zhnnya Letoris' No; 47, 19 Yovember 1955. 1'0!7c01-,-.  ---us- S-R-/_ Fa-r-in _,VnAvia_1_s. ___C_att1e-.__ Abs Jour: Ref Zhur-Biol., No 12, 1958~ 54746. Author Agiyan, E. T., Matinyan, R. M., Minasyan, R. 0. Inst Not YtTen-.---, Title The Problem of the Frequency of the Feeding of Calves. Orig Pub: Byul. nauchno-tekhn. inform. Arm. n.-i. in-ta zhivotnovodstva i veterinarii, 1957, No 1, 11-14. Abstract: During the first two months of feeding milky rations to calves twice and thrice daily, no differences in their development were ascer- tained. In the second half of the milk-feeding period, during which rations were supplemented with roughages and concentrates, the calves fed thrice daily, according to the author's opinion, were developing more uniformly and intensively. Card 1/1 21  USSR / Fnrm Animals. Sheep and Goats. Q-3 Abs Jour : Ref Zhur - Biol., No 141 1958, No 64475 Author : Agiy=) E. T. Inst !-ArMOTO--scientific Research Institute of Animal Husbandry and Veterinary Medicine. Title : On the Quality of the Wool of the Finei-Wool X Coarse-Wool Hybrids of the Spitak Rayon of the Armenian SSR, Orig Pub* : Tr. Am,. n.-i. in-ta zhivotnovodstva i veterinarii, 1957, 2~ 53-66. Abstract : The results of the crossing of the local coarse-weool ewes of the Mazekh breed with rams of the Caueasian fine-wool and Soviet Merino breeds in the kolkhozes of the Spitak Rayon of -the Armenian SSR are described. There was a con- siderable increase of the production and improvement of the quality of wool in the crossbreeds. The wool of the adult hybrids contains more down wool and intermediate fiber than Card 1/2  kand.sel'skokhozyaystvennykh nauk; AGIYAN, E.T., kand.- MANUKYAN, M.A., - I sellskokhoz.yaystvennykh nauk Structure of the flock in sheep farming of the ArmeniAn S.S.R. Trudy Arm. nauch.-issl. inst.zhiv. i vet. 4:41-52 160. (FdRA 15:5) (Armenia-Sheep)  ACC N% AT7004334 SOURCE CODE: UR/0000/66/000 000/0161/0171 .AUTHOR: A izim, A. M. (L'vov); Kirianaki, N. V. (Lvov); Marenkov, V. B. (L'vov) ORG: none :TITLE: Encoders and decoders in a six-channel radio telemetry system '~SOURCE: AN UkrSSR. Metody i sredstva preobrazovaniya informataii (Methods and Imeans of infornation conversion). Kiev, Naukova, dumka, 1966. 161-171 'TOPIC TAGS: telemetry system, analog digital encoder, digital analog decoder .ABSTRACT: Developed by the L'vov Polytechnic Institute in 1961-62, the radio- .telemetry system is intended for simultaneous measurement of temperature (T), salinity (S), and depth (H) at six points of the ocean at a range up to 50 km from the receiver -carrying ship-, a depth down to 200 m is measurable. The encoder is based on a bridge circuit with a resistance box in the comparison arm; the lowest resistor in this box is 30 kohms. and the highest, 60 Mohms, which permits neglecting relay- :contact resistance and relay -insulation resistance. A binary-decimal code with weights 242'1 and a polarized relay in the measure, magazine simplify the circuit, cut!: Card 1/2  ACC NRI AT7004334 ;down consumption, and accelerate conversion. High sensitivity of the bridge is ensured by its pulse supply; the pulses are taken from a capacitor intermittently connected to a storage battery by a relay. The decoder installed at the ship isolates subcarrier frequencies of 5, 7, 9, 11 kc. from received (amplified and detected) radio signals. After a second detection, an AND-gate singles out the starting pulse, and :an OR-gate generates clock pulses used for counter operation. A digital-analog converter yields data to a recorder, a punch, and a display unit. Other details are given. Orig. art. has: 3 figures and 8 formulas. SUB CODE: 09, 171 SUBM DATE: 14Jul66 I ORIG REF: OOZ L,~.ard 2/2  (- -,AGKATSEV,.Vlad --- - Abayloy-tch; NIKOLAYEV, V.G., red.; DATRIYEVA, Ye.U., ---- -tekhn. red, [For further expansion of fruit culture and viticulture in North Ossetia) Za dallneishii pod"em sadovod'stva i vinogradaretva v Severnoi Osetii. Ordzhonikidzep Severo-Osetinskoe knizhnoe izd-vop 2960. 27 p. (MIRA 14:21) (North Ossetian A.S.S.R.-Fruit culture) (North Ossetian A.S.S.R.-Viticulture)  AULADZE2 G.D., Cand Agr Sci -- (diss) "On the :!roblem of the characte _Vstics.of the vegetative-leyer and-We establishment Pf fii6ding-;ppice of the Shirak-F.Idarskiy~,7 winter vastures." Tbilisi, Pub House of Georgian Agr In5t., 1956, 22 pp (Min of Agr USSR. Georgian Order of Labbr tied Banner Agr Inst) 100 copies (KL, 32-58, 110) - h5 -  USSR/Colloid Chemistry. Dispersion Systems B-14 Abs Jour : Ref Zhur - Khimiya, No 8, 1957, 26395 Author :S.N. Papuashvili, M.Ye. Shishniashvili, L.D. Ag~ Inst :Academy of Sciences of Georgian SSR, Insfi-tute of Chemistry Title :Nature of Acidity of Al-Bentonite and Influence of Exchange- able (Mobile) Aluminum on Its Colloidal-Chemical Properties Orig Pab !Tr. In-ta khimii AN GruZSSR, 1956, 12, 23-35 Abstract :It is shown that the variety of bentonite - Al-Bentonite W is gradually saturated not with H+ ions, but with A13+ ions during the process of refining by electrodialysis and, consequen- tly, instead of its H-variety, the Al-variety is formed con- trarily to the usual idea. The formation of Al-bentonite is the result of partial destruction during the electrodialysis process in colloidal minerals, at which the amount of exchange- able A13+ rises sharply with the decrease of pH of the sus- pension to a certain limit. It is shown that at the poten- tiometric titration, the amount of alkali absorbed by I is proportional to the amount of exchangeable A13+, if the chemical interaction of the alkali with the alumosilicate Card 1/2  USSR/Colloid Chemistry. Dispersion Systems B-14 Abs Jour : Ref Zhur - Xhimiya, No 8, 1957, 26395 nucleus of I was insignificant. The influence of the con- tent of exchangeable A13+ on some colloidal-chemical pro- perties of electrodialysed suspensions of I (structural viscos- ity, dynamic shearing stress, stability and water yield) was also studied quantitatively. The hydrophilic nature and the electro-kinetic potential of colloidal I particles decrease with the increase of the exchangeable A13+. Card 2/2  PAPUASHVILI, S.N.; Influence of mobile aluminum and silicon on the structural cohesion and shearing stress of cley suspensinns [in Georgian with swm=7 in Rassianj. T=ly Inst.1ftm. AF Gruz. SSR 13:3-16 157.(MM 11~--4) (Aluminum) (Silicon) (Clay.)  FAPUASHVILI, S.N.; SHISHRIASTIVILI, Me.; AGUM2, L.D. Effect of electrolytes on the structural and neebanical Dropnr- ties of an askanen'. suspension. Trudy Inst.khim. All Gruz.SSR 14: 73-82 158. (141W~ 1.3 - 4) (Ammng"l)  NRI AP6031950 SOURCE CODE: UR/0251/66/043/003/0593/0598 AUTHOR: Papava, G. Sh. ; ASladze Tsiskarishvili, P. -D. ; Vipogradova, S. V. ;& Korshak, V. V. (Correspomding member AN ORG: Institute of PhyRiqal and Organic Chemistry im. P. G. Melikishvili Academy of Sciences druzT9fR_(Institut fizicheskoy i orgamicheskoy khimil Akademii nauk Gruzgn); Institute of Hetero-Organic Compounds,_Academy of Sciences, S9SR (Institut elementoor- ganicheskikh 6oyedineniy, Akademiya nauk SSSR) TITLE: Mixed polyaryl ester-penton block-copolymers SOURCE: AN GruzSSR. Soobshcheniya, v. 43, no. 3, 1966, 593-598 TOPIC TAGS: block copolymer, polyaryl ester, penton, phenolphthalein, bisphenol A, isophthaloyl chloride, terephthaloyl chloride a I P 4 5 ABSTRACT: Several mixed polyaryl este p.!jnt~nltl s1were prepared by polycondensation of various amounts of penton, phenolphthalein and for bisphenol-A,. and terephthaloyl and/or isophthaloyl chloride. The copolymers yidlded strong films,- from chloroform solutions. The effects of individual components on the properties of the copolymers were studied. The results, given in the form of tables, indicate that: 1) introduction of up to 10% penton does not substantially lower the softening temperature of polyaryl esters, however, larger amounts of penton lower this tempera- ture; 2) for equal penton content, the softt_:_ ing temperature of the copolymers is affected by the structure of both the bisphenol and the carboxylic acid; 3) intro-  AP6031950 duction in the copolymer backbone of components with a different structure softening temperature of the copolymers; h) small amounts of penton (up to crease the crystallinity of the copolymers, while larger Eanowits lower this nity and inprove their elasticity. Orig. art. has: h tables. SUB CODE: 07, 1l/ SUBM DATE: 20Nov65/ ORIG REF: 001/ -- lowers the 2.5%) in- [BOI Card P/Pz(I  n7A. Me h0tictft of YoUllic Nalmest by the rJectrolysil of Its Still 193P. Th*v r&1661(iii of dept Its 4.0JUMIAL, a 111~11 I.r.0 jzI.:D;AnrPr P'tutions (4 the full-hate, chiw0c. nittait... 4.~, tIot. 6.t.it- . wo,l other #41t- 44 tilt Inetal, Vill, Int-Iliggled. 0( 11".. oilA O"fulvilip Of 11" chloridt, and ou)p6tir, (mitaim,g, bi-, wimit.),1111) 1. f", pr"J.~j tullthl, Tbe iticiAt farourable conditions for a 111;,'ll % P 111 1.1 hi 111. ILI -, 'A I tV 11 UWI 11, I- as folltmJ6 : 11 ) roucrwral:r in 14 wa 1):,, 11- ~ .11 . ". r I--- h I rp v;.'. -.'AI- 11i "luration (with chlork!, tlec tr"l%-t(, votl"WFAI'A ;It, I'l 1'r .Mo; 11,11- oz~o."'I":tol., lit"t" the belter); 13) Impersturr- >3;F C. pn III n.1-1 I., : !I I !..I it- .11 1 A--- '15 snip, dm.', di-Iii-nditig on t(mjot.ow, s,! wl,r li,t.q if gn... lare vfSO, is add,,I to lite gltilruhle. ii, A. I,. It,, I.. diL.1; (5) ps muft N, insimauird j ') 111, 2,1 ~, , ~, I 1 1-7, -3 for chloride Fluticago , iii, itr,luIt, I I- I : I't the C41hkidV 11 DUCIMUM ; 17, 1 VOI-J, -1.). 1. 11,11-i- J(,% -i-srhmi tt" I; (Si a io,d, -~rapl.st, i I, i,d t,.t I.:; tvi, wt, t~.! ; .!,It .,It aij--4--l' v. Thr caum- 4 The LaatAjwo,~ 1,! 0.1, 1, d, T-o- I- j- ai,i the of vivetrulPic at, bi i, !~% v I, I" ~j t. ._ V I! %  14 b IS p to It is 41 0 In It willifit ~ FOO: 0 dlitI Is.k, 0 04 0 0;; 0,0;; OoRi 0", oot: O'et 0". 002 Sol a 00 01 On 00 0, C, 00 joo 00 IVY !It M."N "'N' '601 ""VZ 0* glauttlavul Iwasl -I'vily I )I lawlis pow 1-:130 !~!.lf 00 go-, 00., r 00- 00 4%, ISM1,44 o* 00  VIP 14 E R, Tom. NZ msw,- Z N 4 O. M; aude in 00 v "Imlow 11"Ity diffiLbt- cam of tr "rim d=ot= all he~ t& . ' Amrdko on #+ tbe pot=W d tk sWU*Ja in a standad aWn. (L c. m4a. wkb (bi aafty cva. y - 1), E, 6 - 1.14?,r. to '3 h humm W" tm cam=, wbamu thAt of MII90' nm mkos. indk-ate asho that tbt MuCh and XuA depend on = the nli m 62. The dLffa=m betw tm &- coo of a mtd. ado. and that of a 0.1 M Mom,z= 0 2 Thb ifi d b d . v. was Ycr . e y txp j of Mo fr=o sq. wins. is, =7h:== = of H on thr =1% 001~ by adda. of 1n " = & dm1 1 t1 t k dectmirte. W. R. Henn t SLA OCTALLURGICAL L"CRAT(MI CLAWICATIU - --- - - A. ! 114-4 lit w10 CUT *it II&LI1 Go *my Its b u Ig AV to As . j 1 14 AM L S I ftd a a 9 1 If 0 9 a 0 3 1 v I," Ir.6v :04 096`91109-0":101 :0 00*000 0 0 0 0000 00 00 0*006 0 **so 006004 0090 oo *0 0 Wo 0 0 too w0 0  t T k of A lor- amccatit A LA b I- 111diommu I "velluts of susimilk fusuffameop M_ , lelihmilm 1019. No. M 111J(hi 00 im. Rojivrej. lkw. IWO. Nile A. bli 41. C. A. .-The fornislitmof MOO, front Mathand clotherisk. pyrolubilf, Palluniturle, JAU34narunis, 4 bmusthe we leached out mWy with Ah. Theuxtile Or" of Met in vocitart with Mn()~ mul hqu4t Rh + 111(i 06 icksm Mom than ON% OF Mu during 3-1 hri. A caidul 09 itinuival of istilmiriii" anti addit. W N114 all. 1~ ti-I v all' ItH .1kXTWWVkT1rDJY1i' tIP111.01 AID. see *0 Sin the Property of Frj()Jf)j 10 tie ppid. oul tit %illn. at a -3 lower fill than that lot I.Ittl0li), 6 u.-,f, I:v*, %, pir. '041111 It"nuatily olkiis"t to Fe, , I fly tile luldil. Of divimlym 00 0* With. 1jilit. Of Ni anti Cit. as well a, of 1-tW Ouputt 1.1c tin tit Za arm Cu, front tile ric'ettOlvic -In. 4. caullill 41111 .00 toy ddi N S complete Plain. of Ni anti co 14111111r, a 00 1 ~M%07R41i, Nism Coca" lWpptd.lAJ~j'y Add. Jr4 rift-trolylic Mri puwtkr whicli dvvusDp*. water still lit. Ogg crtswo life PH vidue, Ij)ld, MB1011), fristilt slit pilin, UINiWWco, The limhudi P114KI-441 for proclucins uIrl Id - lee jk Ma WW MaLh from ores take Into mrvuln tile it-tomy Fl4fil of HjS0j formed durisix the clectrailp4% it( NinSO.. Tln~ H.A mu be UDW to kWh btw quantities [if %tit floin the UM. 11W kWhillS Of Ml CAINMISIT Oft' Call lie CHT601 !400 Out Wilh Went dectroly"t. Nill hyth Ollie (Aflutly lit- duties The tWomy of Ni, Co anti othri notillvitou, inid too 0 noble jaccals. W. R. Itcon Als 11L& btYAtLLAGKAL L1111111t4t CLOWKATION 9.2-- cis -if ~GL u AT 10 it *--, V At It It a it it lt 6( 1 a a I an 00 4? tp e-0-0-0 see 0g 0 else ofmit&&& a a Ah  00 00 The COMPICI Ion of allied solutions of mantatteev Anil 00 Chr'", (11. S. d. tf.(fj Atld S' 14.) 10, 11140 fl(lall)) 11 1, 00 ewpis. III thelu,tvitfimuritic timstimi willail.1 N NAI)II M %flicli 4 NII.Claild Nill"41. f it I, "011.11111iIIIIIJIllit'All N411S. 44 Mot ADA III, 'Illiph'IL kill ' . IICVAIIc W l1w I'm- 0 s maiiwi, the I)II of the aq. tima. i, ImArt than th,it of tht I ~oilns. of either c(ituptnient almic. Thv givat IlArr actiun see to ', cof the system furthris the electmlytiv delt,mititin of Mu. 00 retaittilic a 'Nknst. fill 4 file 0(virtavil'. It a1vt cxplaitli 1h, 1,11111tv 0 Mn I'. 6-ml Mokoill, 11111 ~ Ill the pir"tit'r %i( 4uo 0 00 Nil, ~~dt- ill the itimlytit'al wwrilme. CA1116414' It,11,114.1, 00 liwi rm It-% Iw mmA *ihm A Slit aild NI 1, all - all, mm- 'Allill Motor .11111illa thilli 111-C flit Of Mil 64111 lihmc~ ro o 15 it-fi-tentvc chamt. Illane 00 ago 0.0 z too NJ coo coo 1 p zoo mo 1 ~ age 0 -00 1.111FRAIVIII I V. U0 0 111~1 Ill sit'. 0, ' _ ,. 1 * we 0 0 40 ~o u to il T 11 4 T 1 V :?I An a aw 0 ola I ill IN I a a it T Is: 0 0 : 0 a 0 0 0 0 00 0 0 0 0 0 61 1 ' 0 0 0 0 0 0 0 00 @so* 0 00 00 0 v 10 0 00 0 go to 0 I 0 o 0 0  R. 1, A MA", mont fed fitto the KOMIC "Imapartmeat ad a haphraim rell , UA Is dmmited (m the anode &4d Mn oil the cath(VIC. -09 -00 too ZIP* 00 0 00 ,e .1 .1 (,$Cot W(i ltt~t tA%VF 1~ A IN lol- - u So ft ti r *V It IT Ir A') d  - ,AA &"I J 00 A I '?~- - 00 06 00 go J! 90 00 Is 00 A ~pj", - .- IU"61ytk foovery of Mo. R. 1. Asta-Irr. Itualt. &kl. Feb. 28, 1941. Ain Is Iriteiii wt All bell whimir. Whk-h Paso% over Is ol)Wdr lite eJn-tl.,. IYdC Oell. 'nUl tht dePusit is hfulen U11 awl 1AII, Into a vesso fiw With Inal liquid. 0 .00 *0 0 me =00 ago -go rofs 0 ago z too -will N o 1 it I Q a 0 0 669600 0 0 0 0 00400000004041i 4 1 ff - I Z. A*f TAE 04 KAL LIT(RATGRE CLAS%IFK4?iCx Ar. QU 11 Av N3 w,. I I a ?w 0 0 0 0 0 0 0 0 0 0 0 0 *1* 0 0 00 66 00 6 'o 0 0 6 0 a if 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 *1* 0 00000  "Pa" d set 1141, OL 206-310).- The effect of acidity, too WX rU~ A on aw dkc&wp of Me p a and of ovided Nit, sea H an during the Olectrol)"'m I t a f 0* 1 1 a sq. solstioss of Me Wits w by PfOWA COW I c.d' The d1wbarp p-ota Of MA was d=by rin tw tm Increase In a-] and Ow pre-senes of N14# WtL The Wo wu =19~ If , i by decrease in px. rim of T W.-I decrvIAM - - . of No Ults. AM the FrWwe of foal of snon positive than Un. -100% yWd was obtained under sea conditions: (a) us@ of a III& between Ow a** 0 4 so of x-Mn Pd"W . (d) a temp. u%s pw L. and of W. t9w I rjle 14H. a Ca CA Of -aaodk dIsWutloa of V. &m&=9 in alludiss in ack molutfoas was Studied. 4A wa, to behave Amamly to Un Itall. The product = in alkallbe andis vaW km KWO to Ma- depeadins wool "'t im: (1) rapidly ox4lind in'LW. with com4ftlom .0 ct with It In the cold to H v vd dMy. Aq. adds rew 0 produce H, am vilwoo4y: on warudxk& the "utiou of Hs becotm upid. In HNO both H Go 0 &M N, we produced LI) is see .*W Ilb.9yed. XQI sobboas bArdly react wftb. a _ _ y ih6 wK bet ~svd" "I wba bolled. Ulm the g is t"U'r ox to XAQ DIVAllitim in an i6vt PA Riva irlww Of poms rma we 0 Q, which bacomm powdery I t to in air, the Ks (r t m hot (EQ instastammoad amid's with evolut beat; it cow- N.G. boo Ito" 10"MI 14"80 "Il, OWT ON RSAARI 09 GOV III IF U AV a I All I I I Cd 0 0 9 1 x v a a 0 3 11 v 0 a 6, a no x a a PA as 1' 1-0 0 0 0 0 to 0 0 0 0 0 0 0 0 00000 0 to 0 0 060060 0 so All * 0 0 0 4) 0 0 0 0 0-111 0,1111 0 0 0 0 0 0 0 0 0 0 0 0 & 0 0 0 411 0 a  poicit 111 1ND rat elf go 10 00.) ,3 Mae zoo Ploductiolt of "IttAllie Mn by elef 1"I6 Bull. &wad. im V% R. S. A.. 0djoje 1, v0 Of*-A9UvNO- 1-2, 45-03; cf. C. A. 36, nw3ou of phys.. chEtn., tech. aud inech. fratureq of tkTtrolyl k Mn proditclicm. 13 rvfe~cncvs. %I. K. zoo A S's I L AMIALLUP(Ail LITIMAIWIt (LAW"C'"t" its 0 t3:: 9 r 7i *qb uVAT PO All;' ItKitnIs m 13 0 1 .%a oese *see to 00g0 0 0 000 00 o, 0 000 0000 09 0a0- 0-0  A 11. L-A-L-L - A X A AIM pbt~(Pfni M94f I 40C r 60 y#lo of mar.Saarie oru lots. of A it! lk~ I& 141i.ti Chem. lll%t,, (knozi.,in 9S.S.R.). .9 4x Ger-ria" S.S.S.R. 3, I(Y-17-W"(19412) (ill 'he -"I, f: 0 RuWan). 11, tie tratism of I lit miullytir througli the dis- Oil infect, pliwl of tile r1rct"YSIV, the tell act& 00 plinksm in((* the- cathOirte vativ-s MnOs to --tile an the a, a storage l"lirry, the %In 41-Imnited being the knode. raillotir: this give-I tite it) sit r.m.f. vilipowl to that of the Such ccll% vannot f-c mA,le to functitin spin. 71m bem 00 It *6 threlvaN, all's M411. al Ibrd.,l-Witing Mot (this results ill a t-ith,-le tuatt r Nin dri-eition it ittainic" steel with *0 further Increase (if the suit. of MnOli); them ii no way (it I,(';; Ct awl W~ Ni. T-4tvp etching rrnukri, it unjitlit. 0 "g III tile dillerrnty ill the thermal expalits1*11 .00 It ping that procc4t ,ther th3n renewing the electrolyte. able. 01" An IIII AlInve 4, V.,lerr is a ppto. of NInJOH)v which is tit \1n arul -tmi, sud(Icrt changvt of temp. cause blisteri-it 0 oxidlitA by air lit the easier, the, hillivi, the And cracking. CatlvA" thus damaged are no tons, r -00 ecosen. III Mnq), still the lem the atnt. tit (NildlSO.; the a, the metal tendt, to diwilre rather than to de. 0 00 plyt, settling on the -,nithatle lowrrs the It overvaltage suffi- lmitt. The same hapjwn. tin sudden changes of cA.; 9 ciencly to %tot, depirsition of Un altogether. This cannot best cou'lition, are tictwectl IA an's 4.0 amp,/K. din., =00 be trinedirIf by Ont. r-ingle Adjustment of pff No neccW- I be limit It! c.d. at which \in dcpoiits at all is high" with 00 late& changing the rledrolyle. Nonoxidized Mn(010, a fresh .41 airlivss st erl cat We I ban with a cat re e: hade almidy .3 does not intedere with the deposition. Raised temp. violets with Mn. T,.i high cal. results in isonadherent Z91111 00 lowers the If otivrvoltage and thus the drp- drudrite4 leading it) fitruiation (it Nfn hydroxides. The 00 ositirin IA %in. . Tile best trulp. range is J" in higher tile CA. the lower .1h(KIN be tile jill of the clec- *0 1 "0 0 instiMentli rtilu,:inc medium, Nin' ions formed at trttlytr. It it recumnsrudol it) maintain the rmcn. a i the sno,tv tuiltrate into the cathrilyte and deconip. accord. (SHO.IX). tel wren 1711 And 1N) C.,T; with less than that, CO itogtcj2bfn hill - + hill * "I'thelatter tesultingin the 1,11 rnu-t be kept unmmoirtically I-#*. The revom. vil of its 1A still Urrmation tit to couple Mn/,kfnO, which mewled concti . in MuSo. is W 'it g. 4.: higher c~mlents Zoo dism4yes %in anti prrvoits its depwilon; highrr-yaIrtit ravm ppin.of Mn((Ill I,. At o,,j high a concu, oxidatiort to Nfn ions coming froin the anixie compartment hare the Nfl)(010, and in,lu. 4 art- accelerated. 141th a itamertlect. T)ietwt-.wncec)fsulfples,NaS.KvS.(%114)15. c~vrrvt h4th compri., Isle q). gr. is 1.1, the required voltage ~499~ lws. wa. I(Attut lIviteficial, the aptintum amt. olrrespond- 4-41 v. at an electrode di,tance ctf 8-11-1 cm. Systematic 91-91 ills to 1.0 Cv. (U ViCKfiuTlWtttX)CC.0fCath01y1e. Ftem, rctnoval tot Mn dcridritc- and of MnOl is etienzial. Pres. 0 of *ulfiglv results in gray depo-Jts coull. S up to 0SM", clice (if i'llis al' Fc, Ni. co. Cu. 111). Zu hinderti the depold- % 0 0 ~jj a larger excesi jupilrmwi depthitiDit allooh,ir. Excesi tion of Nin through formation of couples In which Mo is ;:101111, %U164C call be removed by filtration through rlecu*tic~ - soodic, Abundant lis evolution causes vertical stristion i a ILA OITJIILU116KAL LFTERATURE CLASSIOPICAIWId of the. deposit. N. Tbm t:00 t IV- Ire 0 tVI46j 40 Qftv off V U AV so It to a at a a a x it a it It W *1o 0 see 0 0 fir 0 00000 too 0 4111 9,111110 jLj.L~jv- .000 see 00 9 J, f  oil oil 041 040 041 06) oil 0 to 04) oil JP oil ANC, 100i tputs$ Tht-Mill Abu relplevill V11to Outwit of NOWU xw"m It. i, WlK (S,ot.WrA. .41,04. Xduk #1ft;li%AA Ill,13. 4, 117, 313. _&L C Ab-_ IM7. 4L 3378).--lin Russian). Forro.umugasip- tmangant-w WOI. i~m 12-02, nickel "2, 4x;bslt U-0. sulphur 0-01, carloon 3-M. plum- phom 021). Whim 2-230,o) Is lasoubcd with Hjr~O,, which mimerts all nortAls mto sulpluou's. 7U 11 uor is tnstw hot vah ground. screened pyrolusitc, "1 p6mpbom 041. silicon V% irtat 1-112. A A It SL A U 0 AV so Is 41 0 00 .00 -09 84-01), nuonga") 54~01, nickel tMO%) or with a pote of vkvtrolytic MnOg, the mutralization and rtocipitatism of NOH) being completed with 2 additions of inorr powd,-n-d 1 F1 m)-mat4sum or JdROMH,, 1. the IMtvd liquor nickvi (and oo6dt. if d h i d f h i d N O .00 e t e rvins n er o t tate on copper an prvwnt) is precip PO. 90 Iran am dbl4mW by mot4WIc vAngatim (ouvwntatinij). Un filtrate thus l d d " i d f l i f f l 99 or e ectm c on o tee t thm rea eposit from oxtrantoom am yt y . mangancom from an Wectru" contmoinfng 85 g.p. MMO,, loo g.g. (N~,Jrko, 9 -t ith ali ph t d l dde4 t 3 d b t l tb CO 9 a ween woo e an va o e = ragm s e, (a . w j. a &mix/ y and Jlln MnO till) d Th tO; t =00 v. o ano e ( s l d t th idi J l i ;d fr l o s am returne e ox z removi 6r interva om Ow b& ng A at regu 0 nrutr&IWV process. Per I ig. noetallic tnsn~, tLe exWjditum of -k- i d 20 k%L l t t l d b 10 d M O t 0 o wom uc s aft n a r ca an oy-pro energy range e . , o-1-0-3 kg. lexcess over the amount returned to the pnxv"). FtJOH), sludge 411 0-77-09 kg., sulphide, sludV (NL% JdaS) 004-0-075 kg.. 06S0. 1-8-7-7, kg. 0 Current efficiencies with mpect to manganese moAt-d frum 30 to 68"u; fity of manganew (Vollmord method) 99-81-99-92%. hig6r if mIculated 0 . ti. diffamon. The ftim of exim-tion of from the Initial r see ferro-mangarwo 4- pyriolumile, in the forni 4 numNsurdo ut,tal. rangt4l frinn 63 to TV-5%, In tho fom of MnO fromm 13-3 to " 24-4- tot&l extra4crtion from U-U to 91-41!~. averace 84-00.. Eitraction of nickel, 0 PITALLUPOICAt LITERAIL41 CLASMCATION 9z" 111081 .1, O-V cat BILLDCNI a a i I 1~ a., is, -6 -1-1-T T-T-1 -Tr----i a j I % a 04 0 a I If 94 5 Is it 0 it DPW 01drits Ottlit Irm KLO n I XA 4) 0 0 0 0 0 0 0 0 0 0 0 0 0 0 a 0 0!9 0 0 0 0 0 a 9 0 0 0 0 0 0000 0 a so 0 4 00 4 4111111 a 0 Gie 0 41 6 0 0 6 0 e 9 0 6 0 : : : : :  Plil-cilirl AXD pikoviliviti, MOC4 "WiWk Deposition of Majuatim from Aquotium Solatims. 0 ?Amr. Prillad. Khjim~. 1913, 18, &37-349, Prit. AM_ M. I It I If, C viisoo in I). (y1 A 'Af If I A rgi- All, I Fiji) aIn Ix,ra I, it v tankm fs,r,+,vtr, I.% -i- all, it Ituidi,,11-n-in Fi, "nii,IAI... I,YwOlftitifisc 111,- 1,11 1., 7, And 1"'Ill Ni" 41111 VW Iq All 1114'Alf Of NAr4. 'Ahit'll Ill'14-II)II All% AIMI I J",, tif tho flinligaitcoe p(Twilt. stailde"a PIC4.1 cath(Mirt.. 1111", 11-841 1,11 Ivn, M, a Ivinp. If 240,25 C., and a rathtithe VA. 111 21 "llill,~N41AIII.. Aw II.A. Till. drilikitit flintaillm W.9"', Iff IIIIII)RAtivite und ..All III, -JAXIIIIA ill thi'l. lap-6 (r,y.. (1-5 crat.). The (%dugli" cormIlt it-Ill ri.a( Iff's And Ior I Lu,. or ON 1111411I.M. 6 U kWh. art. rpylin.d. 3 6 - I L A NITALLIONIMAL LITNIPATLO1 CLAISSLOKATko :11 it at 71, _F&_, 61111,11 ad Otto Ill 1 .1 - I* it I -of 0 ago ze 0 see too use  *6 A 011111 00 9f 00 a go 00 sit "'M two clotiv, 119cistilylk flers Alloyc W A&U4&c slid Id. 'Ve C.-Istrolivill 1,1411"1 Clivisi. W.1 1. Bag. Arad. Sri. Carlias Y.S.N.X, S, 1175 "U11910011 and CO-Ma. P-Mll. stwl "f .4". , were de timiled b Rutt Ml Z . n- q. I y y p tit the radfatest at ro(xn temp. All cleccrulyttes were roll fit 20,10 mitt, In KAn'A. of UnSOO 38 g.tl 75 S./I.. MSAX 1, 3, 5, 8. 10. IS, slid W g_ I , c d. 0 Ill amp.laq. dris., the deprAls contained 9,M, '-'1. 6 Is, Ulf. 3-M. .542. 3.412V" Nin; current effikiracim st (ral- cutated as if the deprKits meet all NZO 23.7, 36.5. 45.6. 47.6. .54.6, 74.9. 82.11. In Wns. contfl. Nin."All, 7 g., I., 00 11.110s, 25 g. I., M50, 4. 0%, and 7 g.-I.. VA. 41.211 gimp I- allitys with 11.45, 10.31, 0.28". Mit were IV- with V - .13 9 37.7 37.7%, that to. to dri-lis ' d' ' Nl Ni Th i h 0 h j M e . yi, n Ixt l. i n t e with Increas Win fit the alloy 1% alwarv touch lower than that (ado sit Sig , I II 't NNSAI. -IV,it it, jj,,tp*- w of tr d 00 ec a Main-sitiedelitmit. !iliuflfir cooditiout 14rvdil tit list- (I. cisition of other-Mrs, alloys. 9 INS. 2519. 15/5. 2313, ~.A.), (N]WOiti. 75 0, 0 epinits contitinM 1.13, 2.ti'2, 21, 2.25 ~, N n. 1 98.0, 97.7, 97-0. 07.2V". Silm. oll i-Vs "of _04 W It A.. WHOM. 75 j.X. Ntnl;o. 10. Z1, 'it, it .11., c.d. alhout 0.3 ampJssf. din.. gave 41,211, 0.37, 0.' , I so "o, Nit; in the depcialts. At the Istler concti., increaw tit r~it. (0.2.0.3, 0.5, 0.0 snip,lsq. din,) rrmilieti in Imested Mrs, contents (0,71, 4.41. 8,03, 9.33) with marked tendency toward a Iltrift; at the satne time. -1 fall% sh4q)ly. Ill I 711 /1.. r if, WNSO, 40 II.A., ZnSO4 40 0.9, 1.5, 1.7 amp./sq, din., alloys with O.W, 0.71, 1.441';, tie* d 'led N1 Ms alloys show good rrisislaticr to A 1111ALLURCKAL LIT1114111 ft- L___ were "c;t.;"Itob-eWttIeat higher Mrscontenic 1111,4111. . - . I .404P N. Thon i 'roe U IS IV 00 T 11-ir-1 a 1111 A R a K a ts it 01 too too I fall I it 'W 0 so 0 1 if of ~UjRjkjt. - - -  4 111 AjoiD -flip lop A%V AT.~_9VPJW.1 11400111111, AW WWII& thall ill Tiww W" 04" Disn"NIXIFoximps IWUUM. It. 1. Wadze And 1'. 11of"In" Lob.. 10 b t i 011 l l d N11 i l I i h Oe rate so on w nollitk)o to oi 11 n a " t ut t expipel ing wi y . 1 ah-oholit, dimethyllovilzinic, ooludon. Determint, the liter air the PApfution .60 by parallel vo!uptnptric~ gralpimpetric, and electro-atudytical methods. I)e- 0* a termine the rquffibrium point #Afolkpss,. 1"Wee a i%Arn;w strip of 61W I*Ivr 04, ' (it % X, non.1 ovot atutlimpt Mrip of filter ps ver M."Irned Ill diforth3l- db b p l Z .00 oat irinit ihrt 1 M lln%NVO glyou"W w4ulk-al. an a pieVf whhecar ; l m l h fil 1 l .60 OW 1P spolution fi l drop of t]K- solution oil t e tem plAtIV it Inna ter palivrit. d h di th l l h I i i 11111111 0 4111,111 1i w npo yoxinte. e nwilt one Ulo stene t y through the upper paper t,) t g . . 15 I ' 0 4 a l' , Unto complete preel itation of M (mm the solution, a chLeptetrrilpt." It red =*O 0410 spot of NJ dime Otinle III f0mcd On the lower laller. No rrA allot is 1 vilel f rm d whe e o n no ts are present. 7 he titration of the aLlne solution is i d t i 3 h i 041 carr e ou n e4em w th a gradual inerepaw In the pstcuravy of the titra". , 04) 7U 1114ution in the last beaker must be conceutritted to detect even tmeeps of wee . X1. No more than 10-15 niln, in required for all 3 samples. Tlwtpx~~nnwnls W r i d t 1 6 t l l also e e our e ou it e so 11 IlYnt ut octa with pH ranging from 5-5 to.The 2 go* Ott quantity of dimpeGyJ81yoxinte up-4 for 3 titrations does not exceed that Tip Mcluired for grayinietriedetermination. TbepresencrofMildorstpotinterfert, d 2:9 0 with the etermination of NJ. Fe and (ID ions have a detrimental effim oil the 90 titration. 'so NJ M I* determined in the presence of even MZ I PC , b and "I g. or co per I The detrimental effect of Fe l b iUl o 00 . ca l e avo r l e addition of eimas N&F to the nolution. In the abaerpw of Co jorul. th; jolts interf in ith th d t ti i b 00 d i er e e erm n& on can g w e removed it% the uplual manntr, and Xideterminedintbosolution. Todeert,&K-ti.,,Iutntit%.(~ratcnixilrvquirrd. . the alcoholic solution of dimethylitlyoxicur can be replaved with spipleoull Ii h l l 0111116 uvet y yoxime Ilar the first InwittIwion, 5 ellfiltrilt'rX are Riven. g N,! A S 0 . S L APIT ALLURMAL LITERATLAII CLASIMPKVION 94, - sit s To.; .11 IIt I d -10 " --6 $n'll cot: -0*0 U it AT 10 Is to 0 it It of K K a it a It U it it III: KID AI 0 0 0 0 0 0 a 0 a go iO` 0 Oi , 00 0 ta 0 0 *'o 0 0 0 0 0 0 0 0 0 0 0 0 IN 09 0000 - - -  17, AGL&H', R.I. OPT Preparation of manganates and permanganates by means dissolution of metallic manganese Lin Georgian with Rusaian]. Trudy Inst. met. i gor. del& AN Gruss. SSR (Manganese-Mlectrometallurgy) of anodic summary in 2:1-33 149. (MM 11.61)  AGIADZB, R.I.; PURTSILAWN, Kh.G. Preparing depolarizere by the actiYation of Chiatura pyrolusite and red manganese [in Georgian with summary in Russian], Trudy Inst. met. i gor. dela AN Gruz. SSR 2.-61-73 149. (MIRA lltl) (Manganese ores) (Electrochemistry)  ~,-- LWRANj A.S. Bleotrode potential of manganese in aqueous solutions [in Georgian with eummary in Russian]. Trudy Inst. wt. i gor. dela AN Gras SOR 2:7,447 '49. (mm llfl) (Manganese) (Blectrochemistry)  VThe VrepmWn of bjAum no .6 cadmium Ialloys in fusetl i mattlium by tletftolylls. R. 1. Agladze and A. Sh. Avatiart< Trudy Iftst. MeW14 i G'~F~Rvvk 3-,fkad. Njuk Grusm, SS.R. 2. 89-93(Russlazu, summary, 9")(1049).-B), Oct- trolysis of a fjM mixt. of 40-73% BaCh and 27-60% KCI at 7f)D-3D' with a liquid Cd'cathade it was pmible to oh- tain alloys ron1j. up to 40% of Ba. The alloys svere very friable and ebtrukally active. The activity increased with all ina--ase i t and content al Ba. The myrent el- f3tienry was foT alloys with 'Z-W%v Ba. hi, C.  AGIAMI, R. L 35182. Metod Poluchentya Mangmatil Barlya. Soobshch. Akad. Rauk Grus. SSRg 1949, No. J. a. 275-80. 801 Letoplef Zhurnalinykh Statey, Vol. 48, Moskva. 1949  AGLADZE, R.I.; GDZELISHVILI, M.Ya. Metallographic study of manganese alloys. Soobshcheniya itkad. Hauk Gruzin, s.s.R. lo, 615-20 '49. (MLRA 3:10) (CA 47 no.18:9240 153) 1. Inst. Metals Mining, Acad. Sri. Gruzin. S.S.R., Tiflis.  Aq~~D~Rt' R.I., radaktor; CHIRYAID23, G.V.-, tekhalche-ekly -r6d-akt-o-r------- [A collection of laboratory and Industrial studies on Tkibuli liptobilite shales] Sbornik laboimtorrqk~ i sayodskikh isoledovanti po tkibuilskii liptobiolitovym slanteam.. Pod red. R.I.Agladso. Tbilisi, InBtitut metalla I gornogo ale, 1950, 250 PeC-SUPPlement to the colledtion) Dopolnenie k abornilm... 1950. 51 p, (MA 10:2) 1. kkademlys' nauk Gmainwkoy SSR, Tiflis, 2. Deyetvitellnyy ohlen Almdemil nau~k Grazinskoy SSR (for Agladze) (Oil 5halse)  1, AGLADZF,. P. I., Acad, DZHAPAPIDZ-,,, L. N. ?. USSR Wo) 4. Manganene 7. Inventigation of manganese chemical sources of current. Soob kN Gruz SSR No. 9, 1950 9. Monthl List of Russian Accessions, Library of Congress, Apri2 -1953, Uncl.  L.,%Ale-l -ouie ot electric curient tased an n an gnese R I I i,~. MhapArid7l. 1: 1413 N g -rn, 7 ca, -6. TM`iso. Sothifthens)YI E AkaC AT71U7,:7ii-S'~'77) 1, T),w)-primary cells which CmIlloy as till- wg, III-:1allic Nin and as pos. clectiode a IlliNt. of with Fraphite or jvv the clec. vharactt-rktic~: the acetyletle Had: r cells hale high ~ui(4 (ap.wit% *vtcs with Nil, io!)-. give the k~,t iq 'A. d, Itolvic; INIII k pa~,J- vatc,l awl ow (olz; (lo w.t lm%t, ;qiprl,6,111l~ vaparit V; in wellklv acidic. ": millfal ;,l till, OvCtride is 1011oli~,li, hVII(C Ow 'Mn T~ Im,-, pwll mab~!Av. A ILI Lv 2  of mantanees In aqueous solutions. 91tTA Ugratt (Metal Ntioing tmt., Tiflisl. u. Khim, 24" Inn-7(low)-l-hr 1%,trilliAl of ss~ electrolytic (99.91,J) Nin WAs measured of 04-25" in solno. of MnSO, (1). JNIItWi (IM Ktg)' (M), 11,R), (IV). WSO. + IIPSO, M, and AltiSO. + VNII.,W), (VI). 1. In III, the potent ial did not deMd on KISO. concti. Int. IV. and V, it became m4wv neg. with incre-Asiog diln. It changed with litne when the elreirmle mis lielit its the ooln ; this wat due to tl,e formation of o%41" ou the clecimle sur. face in slightly oxidizing sad neutral solits. In 0.5 N 9-tins. of IWI%bicb were 0.01, 0.1. anti 1.0 N in MnSO' as -ru as in 0.1 N onto% of lf~Soj which were 0,01, and 0.1 N in ),IuSO,, the potemial cletiendrif solely on the II-ion concri. In the other cosev investigated It deKnded tioth on the It ion ismill tin **4oa cvtocm. In 11. the potential bemme less with loom" dUn . possibly because of the forrmation 4 IM.KNH,)I.-- c'umoles. km. The unit traplama. 7 tkm was advance4 for the shift towards tuart, 1jej. rsotentijill whem (NI44WO, wasaddexi to hin.W,14 solno. X1. 14.  - Aug 51 'Preparation of Potapsium Manganate and Permanga- Date by Anodic Solution of M~tallic Manganese," R. 1. Agladze, G. M. Domanskays, I "Uur Prik Xhim" Vol XXIV, No 8, PP 787-797 Anodic soln of electrolytic metallic Mn in K2C03 aud dil KOH solias yielded KMnO4, in concd KOH scans K2XnO4. In chemically pure KOH solne small 4=t of sludge (mostly M;iQ2) formed. Use'of tech *jiprade KOH decreased y1eld slightly. Detd optlim- conditions for prepn of K2MnO4 and M04 190T25 UM/Chemistry - Manganese (Contd) Aug 51 Consumption of 11 kw-hr/l kg of product and con- virsibn of 80-90% of anodic M6 are feasible.  ~U=/Chemistry -'Oxidants Oct 51 "Preparation of Sodium Manganate and Permangar:ate by Anodic Solution of Metallic.Manganese," P. 1. Agladze, 0. M. Domauskays. "Mur Pr!k Khim" Vol YMV, No 9, pp 915-924 Describes method for anodic soln of electrolytic MetaUic Mn in NO-2C03 avid diLate TTa0H solne to. prop NaHr04 and in coned NaOH solns to prep N&:;~(UO4_ Piscusses optimm-temp, anodic ad, cathodic area. Xetbod makta"possible prepn of NaMnO4 with energy cousum ption of 4-6 kw_t=/kj7, or Wa2Mn04 vith 20 193T~4 MSR/Che=:Lstry - Wdants (Contd) Oct -51 kv-hr/kg, vith yield of 80-95% in respect to MU, current y1eld of 30-58% for iiaoH soins, 20- for Na2CO3 So'ns'  Chemical Abstracts May 25, 1954 t-btallurgy and Metallography Shapes made front elegUolyde qtpganep by the trietallo- cell 9M 111,1101%. R. IrA adze,, V. Al: ertzhiani, alm I" 7:140MI13MV1110nif-M s?"Unte., Acad. . Gcorx-!all N.S.R.' Titus). )oOOjIIc4fnS)U A kad. Lvaux urusin. a.a. M, 13 _2O.D7W9W).-Powdcr9 and plates of electrolytic iK were shaped under pressures of 1-8 tous/sq. cm. and then sintered at 7OD-1100*. Pressure and grain size had -little effect on d. of green shapes. Crushing strength of green shapes made of plates and coarse powders (O.g-d.15 and 1.0-0.8 mm.) increased as pressure Increased from 2.2 to 8.0 tons/sq. cm., while that of shapts made of fine powders (0.06 to 0.25 mm.) increased shat-ply up to pres- sum, of 6 tons/sq. cm' and then dropped with rising pres- sure. Sintering for I hr. at IIDO' was sufficient to obtain satisfactory products. D. of sintered products increased with dispersion of powders, B, Z. Kamich   AGUM, R.I.; NOXHOV. Y.M.; TOPCHIASHVILI. L.I.; GYARAKADZI, N.D.; TAVADZZ, rodaktor; NIMM, K.V.. tekhnicheskiy rodaktor. (Alloys of manganese with copper. nickel and zinc; a collection of papers) Splary margantea a madliu. nikelan i tainksm; abornik rabote Tbilisi, Izd-vo Akademii 4pi~k Grazinskei SM, 1954. 121 p. (Xanganooe alloys) (MiaA 9:~)  W2,12 r-  A G! EZ ~x I., :.; DZHLPARI=, L*N. Potentials and corrosion of metallic manganese in ammonlium chloride* Soob. AN Grus. M 3.5 no.3:143-150 154. (MMA 815) 1, DeystvitelInyy chlen Akkdemii nauk Grusinskoy SSR (for Agladse). 29 Akademiya, nauk Grusinskoy SSR, Institut metalla. i gornogo del&# Tbilisi* (Manganese-4orrosion)   AGIADZE,R.I.; BERIKASHVILI,I.G. I MWMMMMWO%~, Obtaining permanganates by means of an anodic diffusion of ferro- manganese in aqueous solutions of potassium dydroxide. Soob. AN Gruz. SSR 15 no.6:335-342 '54. (HIaA 8:6) 1. Deystvitellnvy chlen Akademii nauk Gruzinskoy SSR (for Agladze) 2. Akademiya nauk GruzInBkoy SSR, Institut metalla i gornogo dela, Tbilisi. (Permanganates)  14 to In, Ott salti Id. A I dze and (ax! 5m, i La I f tu j expi). snakris), the follovyins conditiona were found to be best fee anDdk soln. of Ittrmariptiese in phosphate For fomation of Nami.0" ust NOW. 160-200 s /I W-20 emp./sq. dm. anodic c.d., 7-9 amp./Lq. d "', ~atp~ e ciency 5;.Iins temp. u to 25* giving curren r~dj7_7 It ffi product yiet of power comwiriptim IS-Z kw,-by./kI. h'aldn0,. For niaking KNI 0 th condiftm Wcm: lZ'HP0. am g./L. up to 20", din, anodIc c.d., 7-15 wnp./I dm. cathodic c. ., g)y- 30-40%curimntefficitney. sin aCO-90% product yield M at 14-19 Jrw.-br./kS. KMnOs. Or. for KMnOt, an after- ante wmld be: X.P0. 600 S./I., at 13-22 amp./sq. din. anodic c.d., 7-18 amp./, dm. cat);odic c.d.. tip to " 20*. giving 87-43% currentelciency and 96% product yield with power consumption of 13 kw.-hr.lkg, KMn%. G. ~1-K~ Py  a~loa' 4f ASIM100111111 00, Gd ' i" h " zt " z 5 c x9lys NO 016-20 c'74 ~Th (1955).-The b(~sl anolyte will, All Fe-hin anodc at 500 CY decreases and quality of Cr de- posit is lowered. There are considered the chemical reactions and transformations which take place during electrolysis of solutions of Cr salts of law valency and in particular the change in nature of electrolyte due to the property of Cr salts of yielding violet and Card 2/3  USS~/Chemical Technology. Chemical Products and Their Application -- Electrochemical manufacturing. Electrodeposition. Chemical sources of electtical current, 1-8 Abst Journal: Referat Zhur - Khimiya, No 2., 1957, 51154 Abstract: green modifications. It is shown that a preliminary heating of the 86lution causes a lowering of pH, which is associated with the forma- tion of the green hydrolyzable modification. On keeping of the solu- tion the green modification changes to the violet and the pH rises. Increase in concentration of (NH4)2SO4 and Na2SO4 increases CY of Cr, which in the opinion of the authors is associated with a shift in equilibrium between green and violet modifications, in the direction of the latter. The opinion Is expressed that the conflicting re- sultsoof a large number of factors which affect the discharge of Cr3+ ions,, such as temperature, pH, presence of additions and their concentraticm, the length of storage of the solution and the dura- tion of electrolysis., as well as concentration of Cr3+ and Cr2t. Card 3/3  USSR/Physical Chemistry - Electrochemistry, B-12 Abst Journal: Referat Zhur - Khimiya, No 1., 1957, 519 Author: Agladze, R. I., and Ionatamishvili, T. V. Institution: Academy of Sciences Georgian SSR Title: On the Anodic Polarization of Chromium Original Periodical: Tr. In-ta metalla i gorn. dela AN Gruz. SSR, 1956, Vol 7, 157-174 Abstract: The anodic polarization curves (PC) of Cr, Fe, and ferrochrome M have been measured for different solutions and current densities W Of UP to 30 a/dm2 at 350- In a (NH4)2SO4 solution (100 gms/1) at p'H 0.1-4.8, chemically activated Cr dissolves at the anode with the formation of lower-valency Cr ions until a limiting value for i (ilim) is reached. As i is increased further, a sharp jump in is observed on the PC ardCr begins to dissolve with the formati of Cr6tions. The addition of Cl- and So2,- to solutions of CrSNnand NH4Cl as well as by decreasing the ~Pof RH4C~ solutions. The anodic dissolution of I leads'to the formation of Or t and Fe3t ions in Card -1/2  USSR/Physi~al Chemistry - Electrochemistry, B-12 Abst Journal: Referat Zhur - Khimiya, Wo 1, 1957j, 519 Abstract: 1-5 N Na2CO3 solution. In 1-4 N Na2CO solutions bending of the PC and forward and reverse hysteria are o Berved; these the authors connect to the formation of an Fe(OH) film on the anode. During anodic dissolution of I in NaOH (10-78 gms/1) a film is also formed at the electrode; the nature of thia film depends on the concentra- tion (C) of the VaOH. At low C a brittle film is formed and a break is observed in the PC. For high C the film is compact and no-break is observed in the PC. Studies of the PC's of pure Fe and Cr in Na2CO and NaOH showed that in these solutions under the conditions invelgated Fe is completely passive while Cr dissolves quanti- tatively with the formation of Cr6,t Card 2/2  USSR/Chemical Technology - Chemical Products and 1-9 Their Applications - Electrochemical Manufacturing. Blectrodeposition. Chemical Sources of Electrical Current. Abs Jour Ref Zhur - Khimiya, No 39 1957, 8911 Author Gdzelishvili, Agladze, and Ungiadze. Inst Institute of MetwIm-and Mining Industry of the Georgina Academy of Sciences. Title Electrolytic Deposition of a Copper-Manganese Alloy. Orig Pub Tr. In-ta Metalla i gorn. dela AN GruzSSR, 19569 79 175-182 (in Georgian with a summary in Russian) Abstract The electrolytic deposition of Mn, Cu, and of an Mn-Cu alloy from electrolytes containing acetic, citric, and boric acids as well as Card 112  USSR/Chemical Technology - Chemical Products and 1-9 Their Applications - Electrochemical Manufacturing. Electrodeposition. Chemical Sources of Electrical Current. Abs Jour Ref Zhur - Khimiya, No 3, 19577 8911 sodium oxalate and ammonium sulfate is described. Deposits of satisfactory appearance of Mn, Cu and Mn-Cu are obtained from electro- lytes containing boric acid, sodium oxalate and gelatin, which are characterized by high over- potentials. The polarization curves show an inflection point both in the case of Mn and Cu and in the case of Mn-Cu. Cu and Mn are plated out at low D; higher currentdensities are required for Mn-Cu, the Mn content in the depo- sit increasing with increasing D; the current efficiency in the latter case decreases with increasing D. An increase in thd temperature Card 2/2  us SR/Chemical Technology - Chemical Products and 1-9 Their Applications - Electrochemical Manufacturing. Electrodeposition. Chemical Sources of Electrical Current. Abs jour Ref Zhur - Khimiya, No 31 1957t 8911 leads to a reduction in the Mn content in the alloy and an increase in the current. Metallographic investigations have shown that all Mn, Cu, and Mn-Cu deposits have the same finely crystalline structure. Card 3/2