SCIENTIFIC ABSTRACT KALFUS, M.K. - KALGANOVA, R.I.

COUNTRY Czechoslovakia 0-2 C AT SGORY ABB, JOUR. AZKhi*:L. I i,;o. 16 19;9P ~io. 5?159 AUTHOR I IM . TITLE 0RIq. PUB. ABSTRACT yield 83%, mp 141.2-14i.?d (from butyl acetate). A mixture of 0.05 mol V and 0.2 mol 80% HGOOR is treated with 32 ml alcohol &ad left to stand J' 15 hre at 4*t X-formyl-K'-cyanoacet,.Ylhydraiine is obtained, yield 68.5%, mp 11.53-2-153-V (from ale). 0.1 mol V is treated without cooling with 18 oll water and 0.125 mol. (CJI~CO)20, the solution is evaporated at 90-95*/10 am, and N- acetyl-NI-i.sonicotinylhydrazixie (VI) is iso- lated, yield 0,1%, mp 162.2-162.5a (from butyl CARD: 5/9  OOUNTRY Gmechoslovakla G-2 44TWORY ASS, JOUR. JIU im- i~Ql- 16- 19591 AUTHOR Ot. PUB.. 8 Lporite~ t~ vg O~ift4la. (90-9,~ ire* iw, 'With ant 8,., apparatilp~~ F~th ;_qxtracti.~'.60010 bra) give lb-; i ` Yield~ 26%,. lip 150. to. 5 -151 Q tf LIcib: alc Pi 03 i0l VI~IW reflimed *Wk, 0.055;:Z01- POC3.1 -in 50 'iml P~ Ik,: t6'.105 mi'n',: tp~c'j C6 a q~ ire alic ue is~ trib ,a-to di,as.-in dist:Lll~d': off, atd" rVu.. k Cho precetang t 6 py ne e trac-til, evi'vo- -M-L' 1.0 ftted t67 15'~~20';; Mixed f6i 310 ndin~)iritb: - the, presence of characiRD CARD  KAL I FUS, M. K. Cand Chemr~ Scj. -- (di BS) "POtenitt-=Otrib - Study! Of the Induetrtia'-D Pra"as of Acetylene H~rdration According to Kucherow." Alma-Atap 1957. 19 pp wiffil diiagrams, 22, am. (bljjmi of Higher Educatlon USSR, Kazaklii State Univ. JIMI 3. M.,XXZM Kkmowt ChemW& Faculty, Chair of CatalyBiS and MIn of Chemto&- Industry USSR. MbLim Administ atiorv of Rubb6r Industry. Karaond Plant 2-V SyxLthettw Rubbsr~ CentreCl ScialMSPAR ReBVOM Laboratory!), 200.copbes (XL, 25-57,109)  AUTHORS; Vetrov, G. P., Kallfus, 1,11. K. 67-5-5/12 TITLE The Practice of Itemote Air Supply Of Ca CXjUen Plant 'by LeauG of a FiDeline (Pzakt:Lka zc~_,ora vozdulcha "cislorodnYm taekhom ]~o truboprovoclu -,a lallnew rasstoyanii). FERIODICkLt lKislorod, 1957, /0 ifr 5, pp. 24-25 MUM) ABSTRACT: in the factory area of the Plant for Synthetic Caoutchouc in Karaganda there are beside the technological halls trio more Great carbide halls as well as halls for the production of great quantities of acetylene, which serve also for its hydr- ation to acetyldehjde. Dttxing production in these halls it is unavoidable that acetylene is constantly effused into the air. The air fractioiiating blocks are equipped with acetylene ad- sorbers. Theja oculd, however, not save the plant3 frou an ex- Plosion ia 1953. Of late, a:Cter t.'10 ir-3tallation of the new pipeline, the adsorbers a5:o not longer switched on. The remote air-auppl,y, as a protection against air impurities, was intro- `--4 '~, IcsJ9. From the war%in6 practice of' the oxyt!-an -plant  The Practice of -iomote itir 5upply of an Oxygen Kant by 67-5-5/12 keans of a Pipeline. of the condensation-caloriuetria method. In connection with I.-he air-supply from the area of the o-xygen plant the authors also inveotigated the viind dir3ctions and their influence on the accumulation of acetylene in the apparatus in the course of 13 daYs- On this occasion it turned out that the wind dire- ction as well aa the distance betweon the air fractionating hall and the source of impurity influa%ce t.,,c accumulation of acetylene iii the apparatus. 'Whoa tho pipeline for the air- -suplily is sufficiently distant froza the Iroduction site of acetylene it can not corapletaly -avoid the entrance and the accuii-julat-ion of acetylt--ne but it can decrease, its content in the apparatus, There is 1 table. AVAILABLE: Library of Con&ress 1. Acetylene-Determination 2. Air-Purification Card 2/2  XALIFUS. M.K. - Zffect of the components of the acid catalyst on the condenstalon of acetaldehyde. Trudy Iust.khim.nank AN Kazakh. SSR 2:218-221 '58. (MMRA 1212) (Acetaldehyde) (Catalysts)  FALFUS, Yauryv Testing the aging of caoutchouc by means. of the lwmetJc via,;ometer. Polimery 7 no,4tl36-139 Ap 162 1 Iaboratorium Fizyko-Chamiczneo Zaklad N&ukowo.-Bad&wcvyq Zaklady Chemiczne, Oswiecim  P/014/62/041/004/001/004 D204/D301 AUTHOR: Kalfust Maurycy TITLE: __ Accuracy. and ap~,_,Cati'on of osmotic determinations of the-molecular weights of polymers PERIODICAL: Przemygl: chemic zny, v. 41# no. 4, 1962, 173 - 176 TEXT: A review based almost exclusively on Western.work. Osmome*try is considered the simplest and theoretically most sound method of determining the mean molecular weight. A number of inherent errors is discussed and exemplified. 1) Errors in osmotic pressure measure- ment. It is thought that modern static osmometers possess suffi- cient accuracy. Greater difficulties may arise in connection with 2) osmotic membrane errors, due mainly to,insufficient selectivity and lack of understanding of membrane action and structure. 3) Er- rors in extrapolating the osmotic pressure to zero concentration* The need is stressed for sufficient experimental results to indica-: te the method of extrapolation required. Despite the above osmome- try is believed important in determining the number-average molecu-~ lar weights in the range 30,000 - 500tOOO and to be particularly .___Card_1 /2,--.  P/014/62/04-1/004/001/004 Accuracy and application of osmotic D204/D301 useful in cases of well fractionated polymera, There are 2 figures and 20 references: 3 Soviet-bloc and 17 non-Soviet-bloo. The 4 most, recent references to the English-language publications read as fol- lows: R.U. Bonnar, 11. Dimbat, P.H. Strossp Number-Average Molecular Weights, Londont 1958; P.W. Allenp Techniques of Polymer Oharacte- rization, London, 1959; F. Alvong# OP SamuelBont J. Polym.., Sci, 24 353, 1957; L.H. Tung, J. Polym. Sci-P 32P 477, 19580 ASSOCIATION: Zaklad naukowo-badawcz ZCh Obwipcim (Scientific Re- search Institute ZCh OK%Viqoim) Card 2/2  P/014,/62/041/006/003/003 D204/ '307 IAUTHORS Sachajdak, Jadwiga, and Kalfus. M&Ury-Qv TITLE: A viscometer for the rapid determijiation of the time viscosity of 3-5 ml samples PE111IODICAL: Przemysl chemiczny, v. 41, no. 8, 1962, 464 466 TEXT: A description is given of a new variation of the Ubbelo?~de viscomeier (Fig. 1). The important features are; a) The ability to dilute the polymer sample in the viscometer itself, to allow deter- M111aGions at a series of concentrations, and b) the absence of taps reauire laborious washing. The sample (3-5- ml from a thermo- statt-ed burette) is poured into (9), (8) is connected to (6), and 'he . U measurement is carried out. Vessel (9) is then taken off, the sample 2.s diluted, and the measurement is repeated. 4-5 dilutions are nossible. For the viscosity measurenentu itself, (2) is closed ,at the top and the test solution is Teezed out from (9), by inean's of a rubber bulb on (3), through (7) int. dia. 2 mm) and through the bent measuring capil 'lary (16 cm, long, 0.47 - 0.75 am. int. dia. up to above graduation mark in (4). Tubes (2) and (3) are then Car%d  P/014/62/041/008/003/003 A viscometer for the rapid D204/D307 opened and the time of gall of the meniscus through the meawiring capillary is measured. The determination is repeated 3-5 times. The results are in good agreement with those obtained with an Ostviald viscometer. There are 5 figures and l.table. ASSOCIATION: Zcakl'ad naukowo-badawczy zaklad&v chemiczhych Obviiqcimt (Scientific Research Establishment, Chemical Works, 06wip,cim) Card 2/0 -2  KAIFU$, Maurycl Single cell oomometer with a mercury oeal. Proem-chom 41 no*3tlg,9- 160 Mr f62, 1. Iaboratorium Fi:sykochemiozne Zakladu flaukov- Badawozago ZCh Oswiacim.  KALFUS, Haurycy ---------- --------- Precision and ~Lpplication of the osmometric determination of the, molemaar weight of polywre. Przem ohem 41 no.4:,173-176 Ap 162. 1. Zaklad Naukuwa-Badawazy Zakladow ChemicwWahv OsvUcim.  SACHAJDAK, Jadwigal- KALYUS, Maurycy A fiscometer for speedy determination of the intrinsic viscosity in the 3-5 ml sample. Przem chem, 41 no-8:464-466 Ag 162, 1. Zaklad Naukowo-Badawozy, Zaklady ChemiczneJ Oswiecim.  KALFUSO Mauryoy Now aj~ ~ttw -,:Cor physicochemical research in the Scientific Research.Department of the Chemical Works in Oswiecim. 'Przera ohom 41'no*8470 Ag 1620'  KALFUS, Maurycy; KOPYTOWSKI, Jerzy; LESNIAK, Stanislaw; SKUPINSKA, Zbfii7- Determination of the molecular weight distribution of,Ker S 3012 butadione-styrone rubber. Polimery tworz wiel]c 9 no. 2: 54,.57 F 164. 1. Chemical Works, Oswiecim,  KALFUS, Mauryoy, SKUPINSKA, Zofia Experiments in fractionating polymers in a preparative centrifuge. Polimery tworz wialk 9 no.11:475-476 N 164. 1. Scientific Research Laboratory of the Chemical Works, Oswiecim.  KOPYTOWSKI, Jerzy; KALFUS, MAurycyj SKUPINSKA, Zofiaj IESNIAK, Stanislaw Effect of the molecular weight.distr-0AAlor )n certain 4 * i properties of Ker S 301' butadieneN-styrene and it3 vuloanizatea. Polimery Wor-, WIeIK 10 ho,,405-59 F 165. 1. Chemical Works, Oswiecim. Submitted July 1, 1964.  -,KALIFUS M.- KOPY'WVSKI, Ye.; SKUPINSKA, Z.1 1,L',NV-AK, S. Molecular weight distribution and physicomechanical prcperties of butadiene-styrene rubbers. Vysokom. soed. 7 no.921655-1659 S 165. 18:10) 1. Osventsimakiy khimicheakly kombinat, Pol'sha.  POLAND KALRUS, M., Dr Laboratory director, Dept* for Scientific Research, Oswiecim Chemical Laboratories (Kierownik pracowni ZaIdadu Naukowo- Badavczego Zakjad6w Chemicznych Ofiwigcim) Wroclaw, Wiadomosci chemicznej No 11, Nov 1965, pp T45-762 "Determination of molecular weights of polymersusing the Archibald method."  EWP( j) Ij Kc RIM ACC NR1 AP6018459 SOURCE CObf.--da (A) AUTHORt Kalfus M Dr.); Graff,_J. (Graduate Engineer); StrzolecM h~rtd (G'iid- uato Eng eer ORG-. Research and Development Department, Chemical Wods, AueghA111L Poland (Forschung3 und Entwicklungsabteilung der Chemischen Worke) TITLE: PolymerizatioAconditions and molecular weight,distribut.ion of pq e SOURCE: Plaste und Kaufachuk, no.1, 1966, 4-8 TOPIC TAGS: dimerization, polymerization accelerator, polymerization inhibitor, polystyrene, molecular weight, peroxide) emulsion polymerization ABSTRACT: The article reports on the results of an experimental investigation to obtain preliminary information on the problem of detormining what deviation rrom, standard polymerization parameters produces the variations in tbe parpmetera of the polystyrenes produced commercially. To this and ovary effort was mado to fabricate a given and definite typo of polystryreno under fixed and given polymorization con- ditions. The molecular weight distribution of polystyrene,.prepared by peroxide initiated emulsion polymerization, war. determined and it was found that of all the polymerization conditions, the only changeo in the initial heating rate and the ~17  KALFUS,T. Dinger of beat damage to the lone during the Nalbran-Echeic oper- ation. Geok. oftalo 21 no*W549 Mr 065. 1. Ocni oddelani, Obvodniho uotavu narodniho zdravi-y Liberci, (vedoudo MUDr. T. Kalfus, Me.),,  KALFUS,-T.; CECII, M.; TEMINt K& Leptospiral uveitis. Cas. lek. cesk. 104 no.25:687-690 25 Je'65. 1. Ocni oddeleni Ob7odniho ustavu narodniho zdra%"i, (radauoi 3MUnr. . T. Kalfus, CSc); Infeani oddeleni Ob7odniho ustavu narodaiho zdmvi (vedoucit MgDr, Ve Hase1c) a Mikrobiologicke oddolleni Obvodniho ustavu narodnibo zdravi v Liberai (vedouci i HUM-. V. Mmmdovs),,  KALFUSS T. IOur axper~ences with Sta.1lardr-a operatibno Ceuk. oftal. 20 1no.4t3n-113 J1161+ 1e Omi qddeleni OUNI v tib6rci; vedouoit MUDr. TXal6st CSo.  KHOBLOGH, Rudolf, MUDr.; XALFUS, Tomas, MUDr- Prevention and some problems of industrial traunatoloa of the eye. Gesk. ofth. 12 no.l:.12-20 Iftr 56 1. Z ocni kliniky v Plzni, prednosta prof. MUDr R. Knobloch. (M, wounde.and injuries In indust., prev.) (WOUNDS'AND INJURIMS eye, in Inclust., prev) (INDUSTRIAL HrGI M prev. of eye inj.)  KALIF-KALIF. S.M.; MARTYNIOV, A.V. Percentage bridge for testing resistance boxets and high-prealsion d.c. bridges. Izm. tekh. no.UW-41, N 164. (MIRA 18:3)  KAWANOV, A.-F., Eng. KAIMOV, A. F., Eng. Building Forms of local planning of production-line construction. Biul. stroi. tekh. 9, No. 17, 1952 Wathly List of Russian Accessions, Library of Congress, December 1952. UNCIASSIFIED;  1~ Cq mo V" VCROBIYNV. A.A., professor, doktor fisiko-matematlohaskikh nauk: VOROBIYNV. N.I., doteent, kandidat tekhnicheskikh nauk; Tmm- NA, M.N., inshener; VCROBIYBV, G.A., inxhoner; rALYATMII, I.I., inshener; TRUBITM, A.M., inshener; BaTRIVSKIY, V.S.,.Lnzhener; UWANOV, A.7., Inzhener; KUCHIN, V.D., Inzhener. "High voltage electrical engineering.' Part I &a 11. A.A.Akopian and others. Reviewed by A.A.Voroblev and others. 11ektrichestTO no.S-. 91-92 Ag '54. (mm 7:8) 1. Xafedra tafthniki vypokikh napryazhouiy I kafedra slektrolsolya- tsionnoy i kabellnoy tekhniki Touskogo politakhnichaskogo inst.Ituta in. lirova. (Blectric engineering) (Akopiau, A.A.)   and VOROB-YEVj G.A. "On the Problem of Measurement of Breakdown Energy of Solid Dielectrics," PP 97-102, in, 4 ref Abst: For a clarification of t~he rrechanisin of breakdown of solid dielectrics, interest is devoted to determining the amount of energy which leads to a loss of dielectric strength as well as the amount ofenergy causin,4~ the mechanical breakdown of the dielectric due to the Influence of a high-voltlige field. In the arlticle results are given of a measurement by the calorimetric meth-od of the total enerGy absorbed in a pulse rupture of solid dielectrics. SOURCE: Izvestiya Tomskogo Politekhn. In-ta im. S. M. Klrova (Newss of the Tomsk Polytechnic Institute imeni S. M. Kirov), Volume .01, Works of the Con- ference on Solid Dielectrics,- Tomsk, September 1955, Tomsk, Publishing House of the Polytechnical Institute, 1956. Sum 1854  SOYI I I Z -58 -2 -1849' TranslatiDn frorn: Referativay-y zhurnal, Elektrotekhnilra, 195$, jqr 2, P 8.(M;R) AUTHOR: Yarob'yev, A. A. , and Kalganov, A. F. TITLE: A.9pociation Between theil-lea-t- ~_s ~"f Gaiies and Liquids and Their Physical and Chemic,4 Characteriatica (0 qvyavi elek-tricheakoy prochnosti . Mdkcatey n Ukh- fi-.-.ika-1-Jzim1cheakixn1 ovo, A g az 0 v I Z.. f otvayn-) PERIODICAL: Izv. Tomokogo politek-hn. in-ta, 1956, Vol 9 11: pp 103-107 ABSTRACT: Electric strengtl*of six groups of gases (H? 02, -N? ., Cl.Z, BrZ, 12,; HC1, Mr, HI; CH30H, CZH50H; C1130, CH3Br; CH31; CZH5CI, CZ14?,Br, CZH51, CZH12, COW and limit normallitruld hydrocarbons are juxtaposed with Uhei:r respect; e phi v ysical and chemical charactexistics. It is shown that the electric strength, of gaijes with-4a one g.-roup ixtcreaoes with inczease.in inter- -nowc-lar b I - onds w1hich are characterized by dent;itv aad, polarizability of the eas and -also that electric strength of gases decreases with ir-crease in intramo- lec-=tar forcea. For liquid hydrocarbono, the electric. st'rength grows with in- crease )f in-termoleculax bonds that are characterized by the boiling point, Card 11?.  SOV/112-58-2-1849 Association Between the Electric Stxength of Gases and Liquida and Their ~ . . evaDtratior- heat, surface tension and density. Breakdown of a liquid is a step- by-step process of destructioa; first intermolecular bonds and then, as the energy grows in the discharge channels intramolecul-7-r forces. Recom. menda- tiona are given for selecting gases and liquids that haye high electric Otrength. Bibliography: 13 items. Tomskiy politekh-uich. in-t (Tomak Polytechnic Izzati-t-ute), Tomsk. Gard 2/2  I - ;I "." I I 1'1:~ 15MMINNNUMNIfOMW OBITM, A.J~., KAWANOVI A.)r, Energy r4ta"tions in the electrical spark-over of gases (with ummary In English). Zhur.fI%.khIm.jl no.7:1455-1458 Ill '57. (MMA 10: 12) Politekhnicheskiv Inatitut, Tomsk. (Electric discharges through gases) nAAV VVDTATMAr"f)VP_) -,nv//.AnQ  High-Voltage Testing (Cont.) SOV14809 8. Voltage measurement and stabilization of an electrostatic generator with a moving belt 125 9. Description of designs of electrostatic generators with moving belts 141 10. Principle of operation of electrostatic rotor generators with a di- blecttic transporter 152 11. IYescription and technical characteristics of electrostatic rotor generators 164 12. Characteristics of electrostatic generators 168 13. Electrostatic transformers 178 14. Nuclear generators 184 Bibliography 196 Ch. III. Rectification Circuits. Cascade Generators --J.- Rectifiers and certain a-a rectification circuits 198 2. V61tage-multiplication circuits 218 3. Circuits illustrating the principle of operation and the theory of performance of a loaded cascade generator 228 4. Effect of spurious capacitance on the output voltage of a cascade . generator under no-load conditions 25-14 5. Cascade-generator circuits for generating high cum-onto at low pulsa- tion 267 Card,V'6-  69409 s/144/60/000/04/004/017 E194/E455 AUTHOR: Kalganpy.~.,j,.,F~.Aspirant TITLE: A Small Self-Exciting Rotor-Type Electrostatic Generator.& PERIODICALt Izvestiya vysshikh uchebnykh 2,avedeniy,.Elektromekhanika, 196o, Nr 4, pp 20-26 (USSR) ABSTRACT: Rotor-type electrostatic generators with rotating segments can develop voltages of hundreds of kilovolts and may be made self-exciting. Design formulae for such generators are generally inadequate and do ~ot allow for. stray capacitances. This article derives design formulae for the particular case of a cylindrical-type generator, allowing for stray capacitances. The article includes design calculations and test results on a generator rated at 75 kV and 100 microamps. An elementary schematic diagram cof the generator is given in Fig 1. In the absence of stray capacitances, the characteristic equations of such a generator are given by Eq (1), (2) and W- In practice, the output voltage is reduced by stray capacitance to earth, which ~ Card 1/3 may be represented by Eq (5). Then the output of the  69409 5/144/60/000/04/004/017 E194/E455 A Small Self-Exciting Rotor-Type Electrostatic Generator generator is given by Eq Its maximum output is given by Eq (11). The stray-capacitance factor for machines is approximately known from experience and it is shown that such strays may appreciably reduce the . output, particularly at high output-voltages. In order to obtain high output-voltages, several pairs of rotor and stator plates may be used with a potentiometer arrangement to ensure the appropriate voltage distribution;' the schematic diagram of a generator with three pairs of plates is shown in Fig 2. The optimum number of pairs of plettes may be determined from Eq (14) and the characteristic equatio'ns of ouch a generator are represented by Eq (16) to (21). A numerical example of.generator design is then given with. a schematic cross-section in Fig 3 and a photograph of the finished generator in Fig 4. The construction is briefly described and some of the materials used are named. The generator was filled with carbon,dioxide at a pressure of-22 atm. In order to determine the Card 2/3 actual stray-capacitance factior, the generator was  ~l 4/6069409 Sj /000/04/1004/017 EJ.94/E455 A Small Self-Exciting Rotor-Type Electrostatic Generator. tested with external excitatioYA, The volt-ampere characteristics for various fixed values of excitation are plotted in Fig 5. The strety-capacitance factor is found from these curves to be about 0.4, which is about double the value used in the calculations. The electrical characteristics of the generator consequently differ somewhat from the calculated values. The corrected value for the maximum output is 5.8 W, compared with the actual output of 5 W at 54-5 kV and 91 microamps. It is concluded that the agreement between the designed and experimental values is satisfactory. In conclusion the author expresses his gratitude to Professor A.A.Voroblyev, to Doctor Ye.K.Zavadovskiy and to Engineers V.P.Shcherbinin and P.P.Galinskiy. There are 5 figures and 24 referencess 12 of which are Soviet, 4 German, 5 French, 2 Czech and I English. ASSOCIATION:Tomskiy politekhnicheskiy institut (Tomsk-PolZiechnical SUBMITTED: December 8, 1959 Institute Card 3/3  KAWANOV, A.F., aspirant; POLOTOVSKIY, L.S., Imnd.tekhn.nauk, dotsent Now operating principle of a capacitative d.c. generator. Izv. vys. ucheb. sav.; elektromekh. 3 no.4:129-133 16o. OMU 13:9) 1. Tomakiy politekhticheakiy inatitut (for Mlgauov),~ 2* Leningrad- skaya Krasnoznamennava voyenno-vozdushnaya inshanernaye, akeidemiya. (Electric generators)  20705 S/120/61/000/.001/043/o62 Eiq4/Ei84 and Shcherbinin, V.P. AUTHORS; Kalganov TITLE: A Self-Exciting Rotor Type Electrostatic-GPnerntor With Output Voltage of Given Polarity PERIODICAL: Pribory i tekhnika eksperimenta, l96l,No..1,pp.l42_*JL44. TEXT: Small high-voltago sources with outputs of up to a few watts may be built as electrostatic generators with cylindrical transporter-conductors. The authors, assisted by the graduate of Tomskly politekhnicheskiy instttut (Tomsk Polytech- nical Institute) P.P. Galinskiy, have designed, built and investigated a generator of this kind for 75 kV., 100 microamps. Fig.1 shows a section through the generator. The generator rotor is a solid of rotation, 14, with two systems of~metallic plates,- main and auxiliary each consisting of four plates. The rotor turns about the centre line 15 and is retained by bearings on the flanges I and 9 which are made of insulating material. The generator stator consists of four metal plates rigidly connected to the some flanges. The assembled generator is contained within a steel frame 3 and operates in an atmosphere of compressed gas. Card 1/7  20705 sh2o/k/ooo/ooi/03A62 E194/P,184 A Self-Exciting Rotor Type Electrostatic Generator With Output Voltage of Given Polarity The generator operates as follows. If an accidontal charge appears, for example, on stator plate 4, a charge of-opposite sign is induced on the transporter 6 of the auxiliary rotor4 A charge of the same sign as the exciting charge is draini to the earthed casing by the brush 8 through the commutator plate 7. After half a turn of the rotor the transporter 6 occupies the position of the transporter 11 and a charge passes through the brush 10 to a stator plate 12. This induces a charge of opposite sign on the transporter 13 of the main rotor which at this instant is connected through the brush 7 and the commutator 16 with the earthed frame. The charge induced on the transporter 13, the polarity of which is the same as that on plate 4 of,the stator, is transferred to the brush 2 which is electrically connected to the plate 4. The charge on this latter plate is thus increased and this increases the charges induced on the additional. plates of the rotor and transmitted by plate 12 of the stator which still further increases the charge on plate 4 of the stator and so on Card 2/ 7  2o7o5 $/12o/61/000/001/043/06t.) EjL94/El84 p A Self-Exciting Rotor Type Blectrostatic Generator With Output Voltage of Given Polarity until an equilibrium condition is set up. In general, a generator with m-plates on the main rotor may be dosigned from the following formula (from the condition s of obtaining the maximum power); 2 2 1 Pm= M nC(1/2 Ed) (2 + am)- I = 1/2 mnCEd U = 1/2 Edm/~2 + am), 2 1 = Ed(l + am)/(2 + am), where Pm is the maximum power, I and U2 are the 'output current and voltage, Ul is the field voltage, E is the working field intensity in the gap between the stator and rotor, d is the gap length, n is the rotor speed, C is the maximum capacitance between the transporter of the main rotor and the main exciting plate, a Is a stray capacitance coefficient equal to Card 3/7  207,05 S/120/6:L/000/00-1/043/o62 E194/Ei84 A Self-Exciting Rotor Type Electrostatic Generator With Output Voltage of Given Polarity the ratio of the stray capacitance of the transporter to the maximum capacitance C. The optimum number of rotor plates is determined from -the empirical formula m = (0.15 - 0.2) D/d where D is the rotor diameter. From the given ' values of current, voltage, stress and speed it is possible to:determ~ne the necessary maximum capacitance C and to design the trans.7. porters of the main rotor. The dimensions of the auxiliary rotor are selected experimentally to make up current leakage over th 'e insulation of the main exciting plates of the stator * In the example built, the length of transporters of the main rotor was 9 cm. All the plates were made of duralumin. The gap between rotor and stator and plate thickness was 3-5 mm. All insulating parts were made of transparent plastic. Other constructional details are given. The rotor was driven by a motor type JIWC -2 (DShS-2), of variable speed up to 3000 rpm. The generator Card 4/ 7  20705 S/120/61/000/001/043/062 E194/E184 A Self-Exciting Rotor Type Electrostatic Generator With Output Voltage of Given Polarity together with the motor are located in a steel cylindrical casing with an internal diameter of 99 mm and length of 0.5 metres. The cylinder was filled with carbon dioxide at a pressure of 22 atm. Tests of the generator with external excitation,.with the additional rotor cutout, showed that the stray capacitance factor a = 0.4. At a speed of 3000 rpm the generator operating with self-excitation develops a maximum output of 5 W at a voltage of 55 kV and a current of 92 microamperes. E = 278 kV/zm. Thus there was good agreement between the calculated and experimental results. The generator output pulsates at a fr(;quency of 4 n. ' The main disadvantage of the self-exciting electrostatic generator with transporter conductors isIthat the polarity of the output voltage cannot be predetermined because the accidental charges may be of either polarity. A simple circuit based on diodes was used to overcome this defect (see Fig.4). Diodes were connected in the eakthing circuits of the brushes as shown in Fig.4a when it was necessary to obtain a voltage of negative polarity. In this case, Card 5/7  20705 S/12o/6j/ooo/oo1/o45/062 E194/Ei84 A Self-Exciting Rotor Type Electrostatic Generator With Output Voltage of Given Polarity of charges induced on the rotor transporters onlythose of definite sign can be passed to earth. By use of the change-over switch shown in circuit Fig.46 the polarity of the output voltage can easily be changed. This circuit for obtaining a given polarity can be simplified by using a common diode connected in the brush circuit of the main rotor and both types of circuit have been tried. There are 4 figures and 5 references: 1 Soviet and 4 non-Soviet. ASSOCIATION: Nauchno-issledovatellskiy institut yadernykh issledovaniy, elektronikl i avtomati1ci TPI (Scientific Research Institute of Nuclear Research. Electronics and Automatics, TPI) SUBMITTED: December 2, 1959 Card 6/7  a, S/057/62/032/008/011/015 B104/B102 AUTHORSs ~Felicij N. J., and Kalganov# A* F. TITLE: Measuring the short-circuit current of an electrostatic rotor generator with dielectric transporter operating in various gases and gas mixtures PE910DICALt Zhurnal. tekhnioheakoy fizikip v. 32, no. 8, 1962, 1001 1011 TLXTj The short-cirquit currents of an eleotrostatio rotor generator wiLh. dielectric transport4r were measured in various gases (0, N, Ce and mixtures of these) as functions of the exciting voltage, of the pressure# and of the gas mixture compositions. The short-oirouit current I 'in H sh 2 expressed as a function *of U, (Fig. 1) rises steeply at first and flattens out at higher U1 values, These experimental curves differ considerably so a function of U from the theoretical, The short-circuit current in N U is ent#ely different from that in H Kt medium ftessureep up to 50 at,;: 2* `~7 ~n Card "1/3  B/057/62/032/008/011/015 Measuring the short-circuit... B104/B102 Ish " f(U,) has two inflection points, between which it depends linearly on UV The amperage decreases as the nitrogen pressure increases. At pressures of less than 6 at the amperage in hydrogen is higher than in nitrogen whatever the exoi 'ting voltage. At higher presour,es the amperage in nitrogen is higher if an increased exciting voltage is applied. In CO the threshold voltage rises rapidly with increasing pressure, while. 2 the amperage decreases. Only at small pressures is the amperage in C,0 2 higher than in H or N Mixtures of N and CO have better electric 2 2- . 2 2 characteristics than the pure gases. In most cases the current-in H 14 2 2- mixtures ia higher than in pure He The use of an Bell, mixture cati reduce the threshold eraiting voltage in ah electrostatio generator, VWRO tho 81440 I table. 3 ASSOCIATIONt Laboratory of Electroitatics and Physics of Metalp of the Scientific Research Institute imeni Fourier of the Grenoble' University, France Card 2/3  ---------------- KALGMIOV., Aleksandr Fedorovich; PATSEVICH,, Vasilly Viktorovicb, aal b%ximum power rating of electrostatic generaters, IOV, VYB* ucheb. zav.; elektromekh. 6 no.8;917..;921 163. (WU 1639) 1. Starshly inzhener.-Vauchno-lasledovatellskogo inatituta pri Tomakom politekhnicheekom institute (for Kalgq;aov).,2. Kafedra teoreticheskikh osnov elektrotekhniki Tomskog4 politekhniches- koge instituta (for Patnevich).  ACC NR-. AT7003986 SOURCE.CODE:' UR/6606/66/0001000/0005/ooio' y Lukutin, V. A.; Patsevich, V. V. AUTHOR: Voroblyev, A. A.;_~4&4qq., OIG: Tomsk Polytechnic Institute (Tomskiy politekhnichoskly institut) TITLE: Theory and technology of electrostatic machines SOURCE: Mezhvuzovskaya konferentsiya po elektronnym uskoritelyan. 5th, Tomsk, 1964. Elektronnyye uskoriteli (Electron accelerators); trudy konfer-ontsii. Moscow, Atomizdat, 1966, 5-10 TOPIC TAGS: electro tatic generator, particle acceleration ABSTRACT: The' .'phenomena transpiring in the electrostatic generator-and their analogy to the phenomena in the electromagnetic generator are briefly reviewed (e.g., D. Gignoux, "Electrostatic generators for space application", 102-eme Colloque du SNRC, Grenoble, 1960). Formulas for maximum power of disk-type and cascaded- conveyer generators show that the maximum specific power (per unit volume or weight) is inversely proportional to the stator-rotor gap; the load voltage and current are independent of the gap. Small gaps are preferable because they mean smaller spuri.ous capacitance, and the available power becomes closer to its theoretical value. The latter statement was proved theoretically and experimentally, on a single-disk generator, at the NII of Nuclear PlWsicss Tomsk Polytechnic Institute. An electro- static generator with parallel-connected poles and vacuum insulation seems to be mosti promising. Orig. art. has: 8 formulas. Card jjj__S~M 3  000,61"/0,00/00,0/0622/0026 ACC NR. AT7003969 SOURCE CODE: td/ AUTHOR-.Kalganav-;-k~-F.; P~,tsevich, V. V.; Sivkov, Yu. N. Q.~' il_BLA ORG-. Scientific Research InstItute of Nuclear Physics, Electronics, and Automation, Tomsk Polytechnic Institute (NII yadernoy fiziki, elektronikii avtomatiki pri Tomskom politekhnicheskom institute) TITLE: Effect of conveyer capacitance to ground on the operation' of bar-type electrostatic generators SOURCE: Mozhvuzovskaya konferentsiya po elektronnym uskoritelyam. 5th, Tomsk, 1964. Elektronnyye uskoriteli (Electron accelerators); trudy konforentsii. Moscow, Atomizdat, 1966, 22-26 TOJC'.LQ electrostatic genQrator, particle acceleration ABSTRUOT: In a"companion report (see Abstract AT7003986)o onlY two direct capacitances were taken into account. However, in small-size bar-type electrostatic generators, direct capacitances of charge conveyers to ground (shaft housing) may become considerable; they are denoted by C4 in the inner-rotor (lefts and outer-rotor (right) generator designs (see figure below). By applying the same electrostatic- equation method to two numerical examples (nimber of conveyers-, 2m = 14 and 2m = 22), these conclusions are reachedt (1)'The inter-conveyer capacitance C. is responsible for a natural charge polarity reversal which augments the load current; (2) The D;qrd 112  ACC NR-. conveyer capacitance to ;ground abruptly reduces 1generator voltage and Icurrent; the effect of this capacitance on Igenerator voltage is tby one order of .magnitude stronger than Ithe opposite effect of ,inter-conveyer Icapacitance; (3) Intro- Iduction of a second istator, which shields the irotor from, all pounded :parts;'-'is particularly ~efficlent in improving Uh 9 generator operation. ',Orig. art. has: I i4 figures and 9 formulas. 0 P 0 00- R gV, -7 + \~boo-00(~ 0 0 00 10 01 a 4-. 7, UO )0 00 4 )0 I SUB14 DA.TE SUB GODE: 09 001ar66 ORIG REF: 002 !Card 2/ 2_  B IB 111. I*onid Pavlovich; VARYOWMMV, Y.G.; KAWANOVO D.-I.;, ~OSTAROVSXIY. T.S.; PUSHKIN, V.S.; TRAXHTANBMG, G.L.-f-HAW&IGH, A.G., red.; STJDAK& D.K.. takhn.:red. [School and office oupplies, musical instruments, photographic upplies, radio equipment, athletic goods, hunting and fishing : quipment, tcqsl Tovary shkolino-pielmenaye, kantioliarskie, mu2ykal'- nye. foto, radio, sportivnyo, okhotnichli, rybolovaye. igrushki. MoBkva~ Goo. izd-vo torge lit-ry, 1958. 328 P. (MIRA 11:4) (Manufactures)  ZHILKIN, V.B.; Prinimali uohastiyet ITELISON, O.M.; MUNOV, D.K.; KADOBROV, V.D*; OLEYNIKOV, I.S.; SWRNOV, V.f-.T'VMVMFU1D, M.K.; KONYASHIN, YO.I.; LASKIN, R.L. Experimental use of titanium in bydrometallurgy. Titan i ego splavy no.8:273-Z78 162. (MIRA 16:1) ti~~ovtetallurgy-Equipment and supplies) (Titanium-Corrosion)  XALGANOV, G.N.,inzh.,red.; UVAROVA, A.Y.,tekha. red. .- fqwwl~l [Clockworks; theory,doeign, and mterialeJ Chasovyo mokhanissy; tooriia, raschety I materialy, Kookys, Gos. nouchno-takha. izd-vo mashinostroit. lit-ry, 1958. 129 p. (MIRA 11:12) 1. Nauchno-iseledovateliskiy institut chasovoy promyshlonnosti. (Clockmking and watchmaking)  A.Lf; PfibVUKHOV, A.L.; ISKONT8XV, A.N.; "--4AY-O-V-# A--AiL KHaITONOV, Tu.A. Improved technology for the conversion of lachkanar vanadium pig iron, Stall 20 no$ 12:1081-1086 D 160.1 (MIPA 13:12) 1. Urallskiy aauchno-ineledovatellokiy institut cherrqkh metallov i Chueovskoy metallurgicheskiy zavod. (Kachkanar-Cast troa-Metallurgy)  BOGOMOIOT, G.V., prof,; ULGAMV, M-1. .... . e...... ........ ~~;' il. I -IdW4""A R~4 Geological and hydregoolog .ical elemants in prospecting for iron ore In White Russia. Dekl. AN BSSR 3 nool:20-25 Ja '59., (NM 12:3) (White Russia-Iron ores) (Prospecting)  !~AI-Gr.ANC)Vi BOUTREV, G.P.;- VOGKAN, D.A.;. NOYMAITSKIY, I.P.; VERK. D.L.; DYU'GAYKV, IA.; KAWN, Y.H.; KUPMKO, A.A.; UZMMOV, H.R.; ARSENOTET, S.Ta.; 73GORKIN, A.N.;XCHWOV, P.P.; KUZIKIN, VA; STRMTS. B.A., PATKOVSKIT. A.B.; SOL131SLAVSKAYA, B.M.; IRMOR. D.B.;- FINMMISMIN, A.S.; SHAPIRO, I.S.;. LAPIN# L.Tu.. Prinimali unhastlye.- NNSKATA, G.I.;- FIMOSEYNO V.A.; KASPILOVSKILY, Ja.B.p MWOVA, K.V.. BARDIN, I.Psj, akademik. otv.red.; UTFAIR, X.I., skademik. nauchnyy red.; SMUNILIN, almdemik. nauchnyy red.; ANTIPOV, HeLt nBuchvj7 red*; MMTJUICHIKOV, X.P., nauchnyy red.; TJCRCFMVI B.N., nauchnyy red.; KAGANOV, M.I, , nauclinyy red.; L SAMARIU, A.H*, neuchnyy red.; SLWDZ= ij nauchnyy red.; KKUBNIKOV. T.B., nauchnyy red.; SMYS, N.A.. nauchnyy red.; BANKVITSM, A.L., red.izd-va; POLTAKOVA, T.V.. takhn.red. [Iron ore deposits In central Kazakhstan and ways for their utilization] %helezorudnya mitoroxhaoniia TSefttrallnogo Kazakh- stana i puti ikh ispollsoveniia. Otvetetvennyi red. I.P.Bardin. Moskva, 1960. 556 p. (MIRA 13:4) 1. Akademiya nauk SSSR. Neshduvedomstvennays pontoyannays komiselya po zholezu, 2. Gosudaretvennyy inatitut po proyektirovanism gorn.ykh predpriyatiy zholazoruduoy I margantsevoy prowyehlennosti i promyahlennosti nemetallicheskikh IskopayemVkh (Giproruds) (for Boldyrev, Vogman, Arsenlyev, Tagorkin, Koraskov, Kuzimin, Streleta, (Continued on next card)  BOUTRIV, G.P.--(continued). Card 2. 3. Institut geologicheskikh nal* AN Kazal-hokoy 30 (for Ilovokluttekly). 4. TSentralino-Kazakhptanskoye geologichaskoye upravloniye 14inisterst- va geologii i okhrany nedr SM (for Vark. DyMayev, Kavan, Kurenlco, Uzbekov). 5. Ilauchno-iseledovatellskiy institut mekhanicheskc7 ob- rabotki polesnykh iakppayemykh (Kikhanobr) (for Patkovskiy)e 60 Gosu- darstvennyy 4netitut proyaktirovaniya metallurg.zavodov (Gipromz) (for Boleslavokaya, Indenbom, Finkallahteyno Nevok-nys. Fedoneyov, Karpi- lovskiy). 7. Mezhduve4omstvenus;ya poBtoyannaya komissiya po zholazu AN SM (for Shapiro, Zernova. l1alganov). 8. Gosplan SSSR (for Lapin). (Kazakbatan--Iron ores)  IALGANOVI K.I., otv.red.; TBMGOSOV, Z.A., otv,red,; SHISS OV, vexes ~L,i,zd-va; KASHINA, P.S., tekhn.xvd. [Studies of the geological station of the Kursk Magnetic Anomaly] Haboty gornogeologicbme oi stanteli na Kurskoi magnit- noi anowlii. Kookwa, 1960. 28 "11P. (XIM 13 -.7) 1. Akademiye nauk SSSR, Institut gornogo doles (Nursk Kagnatio Anowly-Iron. ores)  , geolog. laureat Leninalroy premil; MGA fiQ1,JWk-h-a i-1--I va novi ch KOSSOVSKIT, Hoisey Abramovich, zkrurnalist; LTUBD(OV, I.K.,. red.; KONOVAL'YUK, I.K., z1adshiy red.; VIMNhl[AYA, B.N., takhn.red. Elurak Magnetic Anomaly] luraknia vagnitnais anomallip. Moskva# Gos.izd-vo goo lit-,-yg 1960. 70 P. (HIU 13:7) F=k Magnetic Anomaly)  SURIN, Vladimir Konstantinovichp inzh.-Coolo :;KATXtANOVp_M.I.,, Laureat Le- S11-- ninskoy i Stalinskoy premiy, kand. geo ogo-mineralog, mauk, red,,,-, SOLDATOV, I., otv. za vyNsk; NWTOV, V,j toun. red, (Geology andminerals of Oral Province) Geologi(~heskoe stroenie i po- leznye iskopaemye Orlovskoi, oblasti. Pod red. M.I.Kalganovae Oral., I Orlovskoe knizhnoe izd-vo, 1960. 162 p. (MIU 14:12) (Orel Province--Geology, Economic)  RAKffl4ANOV Vitaliy Pavlovich; KPL M.L kand, eol,,-rdn,.naukq WNW lle,,, Kam d-V ..,va; T Ct4lROVA, S.G. a m a otvared.; POPOVAp T.S., re izd tekhn. red.; DOROKHINAj I.N., tekhn. red. [Rich iron ores of the weathering surface in the Kursk l4agnetic An=a3,v as revealed by the studies of the Mikhmy- lovka] Bogatye zlieloznye rudy kory vrmtrivaniia Kurskoi magnitnoi anoralii; na Drimere Kikhailovskogo restorozh- denlia. I-loskv.-I Izd-vb Akadenauk, 1962* 151 ps, (Mmu 15:7) (Kursk Magnetic Anmaly-Iron ores) (Kursk Magnetic Anotna3y-Weathering)  YANITSKIY, Aleksandr., LeonidovicbL..&tArfiW mailchnyy ootrudniki:L~~M-~I- otv.rea.; WHTIU, P.S., tekl4ored. lq!Uocene ool~te iron ores in northern Turgay'and tkAdr genesisI 03.igoteenovye golitovye zhele~nye rudy Severap Turgaia i ikh genez~b Moskva, Izd-vo Akad. nauk SSSf~ 19W. 218 p. (Akadesdia napk =R. Institut geolagii rudnykh mosorozhdenii, p**bgrafii,, mineralogii i gsokhimij. Tr~~, no.37) (MIRA 15:10) 1. Inatitut goologii rudnykh mestorozhdeniy3'F6trO9ra;Viip mineralogii i geokhimii AN SSSR (for Yanitskiy). (Turgay Gates--Iron ores) (Turgay Gates-Oolillp)  a I ir'l., Vll -;jj 1,!,; T.r geal.- min. W-111K. otv. reti. ng gyeol~.-;t -6tudy of the nat-Ural plastic and mpture I.Ieformadon .,f roc~.s] Inzhonanio-geologicheoikoe i7vchcnia este.Avewnykh piisticheskikb i razr)miykh,de- fcm,atzJ~i gorny-kh or-od. MoA-val Nauka-, a964. 149 p.  ARTSWYEV~ Aleksandr Vasillyevich; KnGA11OVj M.I.p. kand.geol.- min. nauk., otv. red. [Eng4meang.geological study of the natural plastic and rupture deformat4ons of rookel Inzhenerno-geologi- cheekoe i2abbenis estestvennykh plastichaskikh i 'raz- ryvmykh deformatsii. gornykh porode Mookvaq Vauka,- 1964. 149 P. (MIRA 17,n)  iskyRIKOP Maviya Frokoflyevna; KALGANOV, M.I.v nauchn. reu. - ~ I c [Key to the texture and atructure of Ore. -Op"J- delitell tekstur i struktur rud. Moskvap Nedra, 1964. 154 P. (14IRA 18:1)  YUDIN, V.I.; TARTAKOVSKAYA, R.Z.; KRUSHCHANSKAYA, D.Z.; FTDORISHCHEV, T.I.; Prininala uchastiye IEREZINA, S.S. RYABININ, N.A.; KALGANOV Production of pine, tar for the needs of the rubber industry based on the utilization of waste resins from the Ve(rkhnyaya Siniachikha Wood Chemical Combine. Kauch.i rez. 21 no.8t4l~-51 i1g 162. (MIRA 16:5) 1. Sverdlovskiy zavod rezino-tekhnicheskikh izde.Uy i Sveralovskiy nauchno-issledovatellskiy institut pererabotki drevesiny (tor all except Berezina). (Verkhn,yaya Seniachikha-Wood-using industries-By-products) (Wood tar)  FEDORISHCHEV, T.I.; RYABININ, N.A.; KALGANOV ~LN. Tar softener-for rubber, Gidroliz. I leaokhim~prom, 16 no.DI3-16 163, (MIPA l6t2) 1. Sverdl*vakiy nauchno-iseledovatellakiy inatitut~percrabotki drevesiny. (Wood tar) OR-abber)  raA unizoV, yo.; POWNSXIY, G.; MIUNW. G.; XAWANOV, P-- Aggulatq the accounting and control operations Of fimucimg and issuing long-term credit. Den.1 kred. 18 ao.601-59 Je 160. (UM 1:)s6) 1. Xreditqy i53*ktor Winizekoy oblaotuor kontarr Goobsulm (for ;==v , 2, Gl&vW bi*hgsltsr Kabardino-lbalarskoy respublikanskoy koutory Goebania (for Kishnev)- 3- Revisor Sxolenw- skoy oblastnoy kontory Gosbanks (for UlganOT). (Credit)  KALGANOV, S.A., in.A. Using calcium chloride in contro,1114g dust and consolidating road pavements. Avt.dor., 23 no.6:24 is 160. (MIRIL 13:6) (Roads. Gravol) 4 fI,  HMOV, A.; KAW'ANOV, V.;jROTSMO, N.; STRONGIN, Y.Lo, red,; SOKOLOVA, U0.109 te'k'hno-r6d*- [storage of fruits and vegetables In natural wateral Khranenie plodov I ovoshohei v vodoemakhe Moskva, Gos. izi-vo torgovot lit-ry, 1957. 39 P. (KIRA 11:4) (Vegetables--Storage.) (Pruit--Storage)  iv,-, - %d - . 'i ( ;, I I " Ifj 1. 't. . . 1, , I - - ! .-l. 1-~~ ~ -.. i, - -M~l -,~ t"t .) i - -, I -. --- ~ n.-' lra---~!. av, 2,1 ; ., - . . - i I .,-. 1! -1., t~ , " z ", Q ~tj, ! ';~, 6 1: . . , ( t- I..f 11 A118 - 8 1  AUTHOR: Kalganov, V.A. 6_58-5-1011 7 TITLE: thsQues~on he, Organization of Grinaing Work in Cartographical Planta . (K voprosu ob organizatsii shlifovallnykh rabot na kartagmficheskikh fii"b)-ikrJ:h) FMODICAL: Geoaeziya i Kartografiya, 1958, Nr 5, Pp. 54-;'5() (USSR) ABSTRACT: In the grinding shops of the departments for1he preparation~of` printing blooks in cartographical institutes and in the editor. ts office for the ccmposition of geographical maps photo-measurements of time were carried.out in 1957 during the grinding of aluminum plates for the production of printing blocks.' Photo-measuremerits of time offer the possibility of studying the technological side of the grinding process at various cartograpbical iastitutes with great accuracy, to find the most economical method of opera- tion, and to pass on experience gained. In the case of the mod-- of operation described, from three to four machine tools can be operated by one man. Only if it becomes necessary to operate five and more machines, a second man is necessary. If vmrk Is properl'y arranged, one machine tool after another is prepared and put into Oara 1/2 operation at the beginning of a shift. In sonie cases, as e.g. at  On the Question of the Organization of Grinding4lork 6-58-5-10/17 inCartogranhicsiplants kinsk, all machines are first prepared and then put into operation. This method causes waiting intervals. In other cases (Tbilisi) pumice stone is still being used instevl of porcelain balls. At many institutes instructions concerning grinding are not follovred, and the working places of grinders are not properly supplied 1. GrIndets-Operation 2. Photography-Applications 3. Industrial Plants-Organization 4. M*Ping Card 2/2  - UWANOV, V.A. Establishing labor norms for offset brigades. aeod. I kart* no*7:49-55 JI 1609 (MM 13:9) (Xap printing-Pto duct Ion stan"rds)  KAWAIIUV,, V.A. ----------- Ecoilomic ef ficiency of the engravirg meth&l. Geod,i kart, no.7:54-.61 n 162. (KEPI 15:8) (14iLp printing)  a PRO til V01"! ffirtimignIql= a 4 11404 !!ir!i Ll~~6~ -EWT( Fizo j=~ C'E =3:~~ tqi/ob 2/00416W ACC NRs AF 7341. AUTHOlt: tachnical sciend a TO Candi.da ova V A, (Engine") Ma: xwne j TITM M&a and mica-bast) Lna a at hike t"Peratu SCURM Blektiotekhnika,'no, 20 19661, 45-'4T TOPIC. TAOSvmica~ mica product, high temperai~re: matetial ~1!1 thermal. stress are. 1BSTRACT: Experimental vcaues,of the,electrio,strength. of i6a -a~A-~Mlca -pr6~wt6~. compared with'the values obtained: fk= calculations b~seal, 0;~ ~ the 1eiem6nt~~ ~heo py of thermal, breakdoiwn.' Commercial 0008-~-041-tmn thick: Specik~~d !6~, mi~caniie! iA6a mat, mica-glas6 cloth, Ud micaplast tested "or bi~eaw%in 50 C~S. lt!.Was! found that~,Ap, to 300C~ the breakdoini Volta~s of all Aov~ Interi sjracticiLlli does not dep6hd on temperature; beyond: 3=. i Ue:breakE1c%-ft 3iis ofr! rap~dly~ Experimenital and theoretical curves:Ig Ubr f(I aj~, /T) ~pro int6d'ithich sho"9'tha", within, a 500-60W temperatur j, a purev, t6mal" bre*cw~ tok6a Aauf$ ur.~K art$ ha-i: 4 f5gures dndA for= SUB OM 0 Al non if SM WE: ORIG RV.-. 0031 C ard 1 7 MMOMIRM MINIM  7,lllNYJN$ G.N. (Leningrad); KOGAN, ".A. (Umingrad); BOLDYMV3, VA. (Lentrigrad) 0 11.1% Uonlngi,ad); Practices Ln the oloctrouilicatization o1' soll~- ir Umingrad. Osn.,fund. i mekh,,grun. 7 no.b5-6 165. (MIRA 1814Y  SITWILIX) N.P., Inzh.; KAIAANOV, V.I. Economic efficiency of metal deposition procennes. Sbor. at. . N1ITIAZHMAS11a.Ura1mashzavoda no. 302-98 164. (MIRA 1717)  N iu a RM211 H 1811 777 1 - V7 t Chetd -a4a. - Otioa processe , T Tiib Ailthors 2~ Shvets- a, L- S; Kostsova A -0 GJ~: j~ Altle ~OirtAt tigitioh of "ulfo'aoids. Inve alkin ~~; a't t,-.A on' ~o be a etl tzesu a chloride'with-.aromatio' am6i6a .Perio,dical -24/0 1 4.30 402, ~'M t 95 r z1at '4 on ~batwea'n- beta.-ichic'M t fd Thd:xe ,act, -6s- b#64 if , n amines anili diioj,~P-4pllaue ld~ Ed l -dndn T 61-~Airoan '~ ftks:-de` I lia - j land oh : op3 _ - ' ' rp: suke, oride, m:dlc&o'rlo 6afi4~ of beta-chloroethan e C"hl :t -d,~scr U ~! ~ l . . l f fed -The., -reaction prc4xicts- obtai6ed iar6, listed. h# the- l f th AuA x u6~ t 4 ~r itqmper e f Alirc on : ds o e reac ion o . yie ola a, is -- r ere noes Sk and~:4 UMR~1(1845,v! 1953) T016~,- U 5 . . 'Institution Statd- idm6rai jhi:~_ u Submitted s. 4, Febpxa* 9~ q  -1131TIJUM ' Ht! wo." PRICAMiN 11CH III t-~ GOLIDGAWER, K.K., dAtor mod. nauk (Moskva, I-ya Cheremushkinskaya u1., d.24/25, kv.1.00); KAILANOVA I.N... Thrombosis and embolism of the mesenteric vessels. Vest. khir. 89 no.110:15-18 0 162. (MIRA 17010) 1. Iz 6-y Moskovskoy gorodskoy klinicheskoy bollnitsy (glavnyy vrach - N.S. Shevyakav).  .................... KAWINOVA, K. Adviser, teacher and friend. Sov. profsoiu2jr '16 uo.18:35-37 S 160. 1. Zaveduyushchiy kuliturno-massovym otdolom Nookovskogo oblastnogo soveta profsovuzov. (Factory libraries)  (:::: I W t 711 TAUBKIN# S.,kand. takhasnauk, - JUWAffOrA-ff.-'Jnxh. The SK-L f irorproof paint made of silicates. Pozh. clelo 4 no, 7:11 ii 158. (MIRA 111-8) (Point, riroproof)  USWChemdetry - Metallurgy. Rafining of Metals 11 &n 53 "The Effect of Teaperature on the Regularity of Jolnt SepmmUca (xf Ions During Electrolytic Refining of Metalop'O A. L. RotivMj, V. L. Jlsqrfata, IN, S. Kozin* 0. :F. Nalganova DAh SM, Vol 88, No 2,, PP 301-304 The effect of temp ca the ecatajdnaUm of RL oathodes vith WvftU ar Cul, Znp ~b# Co, and Mn was studied under various awditIons. In the flimt rind seemd cawtv* the rate of selp of admixt an the cathode In lialted bj diffuni4yap wad ~ thip =to of selm of the ba3e metal, by diftuaim or delayed discharge. U the third case. the rate of nep of the admixt and Us base metal In detd tU, diOATed d1wharge. In the fourth case,, the rate of soya of admixt In LUdtad to, dolmyod diseWwp" Lnd that of the bass metal,, by diffusimp Premmted ty AMMI A.'M. 1~moaklrl 21 Nov 52. PA 255T19  A S/136/60/000/010/olo/oio E073/E535 AUTHOR: TITLE,. Purification of Nickel Ilutions pper from Co a Fluidized Nickel Powder Bed PERIODICALt Tsvetnyye metally, 1960, No.10, pp.114-86 TEXT,. Experiments were carried out in 1957 at the Severonikel, Combine of purifying nickel solutions from copper in a fluidlzed nickel powder bed. The nickel powder is fluidized by means of an ascending flow of the solution which is fed in fro m the bottom. In the experiments powder was used which was obtained by reducing nickel protoxide with small coke having an activity of 55%. The powder contained 84.1% Ni and 4.43% Cu and the bulk of'the powder had grain sizes between 0-5 and 0.074 mm. The required speed of -the solution to obtain fluidizing was measured in a glass column of 30 mm. diameter fitted with a porous bottom of an area corres- ponding to 5.6% of the cross-section of the column., The critical speed of the solution to obtain fluidization was found to have a linear dependence on the average particle size. In the experiments a speed of 4 to 6 times the critical one was used. Experiments have shown that an equal mixing intensity of the powder -with a Card 1/4  3/136/60/000/010/010/010 E073/E535 Purification of Nickel Solutions from Copper in a Fluidized Nickel Powder Bed nonuniform grain size can be achieved by using apparatus with a cross-section varying along the vertical. In the semi-industrial plant,which had four chambers of differing cross-section, the solution was circulated at a minimum rate of 4 M3/hour and a max.imum rate of 6.5 m3/hour. A nickel solution containing 400 to 600 mg/litre of copper, pH = 2.3 to 2-7, was subjected to purifica- tion; the fluidized layer was 4 to 5 m high and consisted of nickel powder. The solution was purified down to 1-4 mg/litre Cu with a double consumption of nickel powder of an activity of 55%- The utilization of the nickel during the cementation process was 60 to 65% per stage. A better utilization of the nickel powder can be achieved by using a counter flow process in two cementators. In the first one the solution with a high copper concentration is driven and also the cement copper from the second,comentator in which the final purification of the electrolyte is effected by fresh nickel powder. Following these tests, an experimental industrial set-up was built (Flg.2). It consivts of a metallic. Card 2/4  5/136/60/000/010/010/olo E073/E535 Purification of Nickel Solutions from Copper in a Fluidized Nickel Powder Bed welded housing which is lined with pid resistingbrick and has:a removable cone (Fig-3). The insidoe the cone is lined with rubber and turo tangentially placed pipes are fitted to enable tangential feeding of the solution into the cementator. The cementator contains three holes with rubberized bushings into which valves are fitted enabling periodic removal of cement copper from the various strata of the fluidized layer. It is proposed to develop pneumatic control of the equipment. The installation was tested with a solution containing 59 to 62 g/litre Nii, 0.02 to 0.04 g/litre Fe and 0.40 to 0.56 g/litre Cu and pH = 2.5 to 3, To create this fluidized layer during starting up the powder was fed in for two days at a rate of 120 to 160 kg/hour, whereby the speed was lower by a factor of 1.5 than the normal speed. After producing a fluidized layer, at a feeding speed of 200 kg/hour, and a circula- tion of the solution at the average rate of 160 M3/hour, 1.2 to 4.0 mg/litre Cu remained. About 20 to 25% of fine cemented ccpper was carried away from the cementator by the cementator solution. It Card 3/4  S/136/6o/ooo/olo/m/olo E073/8535 Purification of Nickel Solutions from Copper in a Fluidized Nickel Powder Bed was found that two cementators -with an approximate volume of 325 m can substitute 5 to 6 mixers of a total volume of 80 to 60 m each or .16 to 17 percolators applied to percolation purifying in nickel works. This cementation process in a fluidized layer is also applicable for purifying zinc electrolyte from copper and cadmium, for the precipitation of gold from cyanide solutions and for other processes. There are 4 figures. ASSOCIATION: Severonickell Combine Card 4/4  3/149/61/r,oo/005/002/008 AOo6/Aloi AUTHORS: Lipin, B. V., ~~~~P. TITLE: Investigating the process of anode dissolving of raw nickel PERILODICAL: Izvestiya vysshikh uchebnykh zavedeniy, Tsvetnaya metallurgiya, no.5 1961, 81-89) TEXT: At the "Severonikelf" Combine the authors studied the effect of the composition, the structure and the preparation method of raw nickel anodes on indices of anodic dissolving. They employed the method of the statistical processing of over 200 laboratory tests made with anodes of various composition, which had been prepared under different.casting and cooling conditions. Tile samples were produced in the refining shop, melted in laboratory furmaces, and obtained by electrolysis. The electrolytical conditions were: t - 6.oC, Da = 200 amp/m2; the electrolyte composition was 54.6 g/l Ni; 40 g/l Na2304; 25 9/1 Cl-; 25 g/1 H3 B03; pH of the inflowing solution was 4.4; circulation 15 1/hour per 1 m2 of the cathode. These electrolytic conditions were the same for all the experiments. The results obtained, which are illustrated by a series of graphs, reveal that the optimum composition of the anodes is assured Card 1/2  3/149/61/000/(>05/002/008 Investigating the process of anode ... A006/AlOl by the following content of admixtures: not over 4 - 4.5% copper: 0.5 - O-8X sulfur; 0.2% carbon; 0.1% silicon, 0.1 - 0.15% oxygen. The cooling of an(xles should be rapid and conducted under the following conditions: after the metal has been cast into the mold it should be slowly cooled during five minutes, and then sprayed with water. The metal refining conditions should en3ure the production of slightly oxidized metal with a minimum carbon content, without using deoxidizers. The described melting and refining conditions and the recommended composition of the metal ensure the production of porous anodes,. thus improving all the indices of elcLcrochemical dissolving. The article was recommended for publication by the Department of Metallurgy of Heavy Non-ferrous Metals at the North-Caucasian Institute of Mining and Metallurgy. There are 7 figures and 6 Soviet-bloc references. ASSOCIATIONS: Severokavkazskiy gornometallurgicheskiy inBtitut (North-Caucasian Institute of Mining and Metallurgy); Kombinat "Severonikel" (Severonickel Combine) SUBMITrED: May 30, 1961 Card 2/2  KHEIMSI V.L.; ROTINYANO A.L.j KUDANOVA Oo?*; LMTNFISH., P&G, Wes of a oimUtaneous electrochemical disoMr1re of it basic metaa and aAmixtureq..the depolarization. effect: taken Into account. Zhi~r. prikl.khim. 34 no.?x1519-1528 JI 161. (KERL 14&7) (Electroplating) (Polarization (Electricity))  KALTJTOTA, 0'. P. Investigating membranes of ion-eixchange materials In the elektrolytic refining of nickel. TSvet. met. 38 no. 12.-1,0-44 D 165 OMTRA 19:1)  KAWANOVA, R. I. Cand. Med-. - Sci. Dissertation: "Conditions of Certain Regulatory-Protective Systemi of the Female Organism (Reticuloendothelium and Vegetative Nervous Systems) During the Second Half of Pregnancy, Delivery and the Early Postnatal Period." Inst of Obstetrics and Gynecology, Acad. lied. sci, USSR, 4 Dec 47. SO: Vechernyaya Moskva, Dec, 1947 (Project #17836)  KAWASOVA, R.I., kandidat meditsinskikh nauk; WWANOV, L.G., direktor. Clinical considerations on the narrow pelvis. Akush..i gin..no-3:33-37 'W--Te '53. (KM 6;7) 1. Institut akusherstva i ginekologii Ministerstya zdravookhranoniya fWR . (Pelvis--Abnormities and &eformities)  ICAMANOTAl R. L; GRASHCHINKOVA, Z-P- Conduct of the placental stage. Akumh. i gin. no.5-.35-41 8-0 '54- (XLRA ?112) 1. rz Institute, akusherstva I ginakologil (dir. L. 'G.St4panorg nauchrVy rukovoditel4 prof..F.A.Beloshapko) MInIsterstya zdravo- okhranonlya SSSRa (IABORI third stage. conduction)  T XLLGANUVA. R.A., kandidat maditBinakikh nauk V--t'-04 I -'# Iffect of psychoprophylaxis of pain in labor as related to various methods of preparation. Akushe I gin. no.6:31-36 N-D 154. (MIRA 8:2) 1., Is Instituts, alcusherstva I ginakologit (dire L.G.Stapanov) nauchny7 rukovoditell - prof* P.A.Meloshapko) Ministerotva sdravo- okhraneniya. (LABM painless, psychopropbylactic methods, evaluation)  ---XAI4ANOVA-9--'R.I.. starehiy neuchnyy sotrudaik High upright position of the head [ifith sumary In lliglishl. Akush. i gins 34 no93:8-10 Vq-Je 158- (MIRA 11:6) 1. It rodillnogo otdeleaiya (xave - starshiy nauchrq7 sotrudnik R.I.Kalganova) Institute akusherstva I ginekologli (dire - dotsent L.G.Stapanov) Hinisterstva zdravookhraneniya RSFSR. (LABaR. PM]RITATI(N breech, with high upright position of head (Rua))  KALGATTOVAJ, R. I., Doe Med Sci (diss) -- "A clinically. narrow pelvis". MoscowIf 1960. 27 PP (First Moscow Order of Lenin Med Inst Im I. M. St!chenov), 250 copies (KE., No 14, 1960, 136)  KALGANOVAJ, R.Il. (Kallumovas R.L.J., starshly nauchnyy notrudn'ik- ConcerAing Vistenis, sign. Fed., alawh. i gifi. 22 no.3:59--60 160#, (MIRA 14:4) 1. Nauchno-iseledovatellskiy institut alowherstva i~ginekologii Ministe'retva o-khrany zd I MR (direktor - doktor med.nauk O.V.Makeyeva.) [O.V.Maki:rileovvar). (OBSTETRICS)   KAWANOVAp R.I. Transversely contracted pelvio. Sov,med, 21t no.3;8244 Yx 160, OtIPA 1413), 1. Is Nauchno-iooledo7stel'skogo instituta akusherstva'i ginekologii Minioterstva zdravookhraneniya RSFSR (dir. - dolaent L.G.Ste ov),b (PELVIS-4fflORMITIES M DEFORMITIES) Pam