SCIENTIFIC ABSTRACT KORITSKIY, A.A. - KORITSKIY, YU.V.

KqRII.TsKlyf A&A., inzh. RApreeentation Of toctonic faulting, on geologica.1 survey maps Of Stratified deposjt,s~ f7rUdYIVNIW. no.50.-329-335 763. (MIM 17x10)  5W SOV/2o--123--5--31/50 AUTHORS: Molin, Yu. 11., Buben, 11. Ya., Voyevoda1iyj.V.', Corresponding Member, Academy of Sciences, USSR TITLE: The Investigation of Free Radicals Formed in Solid Bodias in the Process of Irradiation by Past Electrons (I~'IElloflovuni."e svobodnykh radikajov, obrazuyuslic-hikhaya v tverdyk-h tela'K.' v protsesse oblucheniya bystrymi elektronami) PERIODICAL: Doklady Akademii nauk SSSR, 1958; Vol 123, Nr 5, pp 662-683 (USSR) ABSTRACT: The au~thors endeavored to detect radIcals of short life-ptimes in solid 'bodies formed by fast electrono. The present paper gives data concerning radicals of life-times of some minutes. The authors constructed an apparatus for t~jn_' immediate re- cording of the spectrum of the paranagnet-*6 electron resonance during the irradiation of the inveatigated specimen. Prepara- tion of the samples is discussed in short. The experimcnis were carried out at room temperaturc.. ThQ author3 observed a signal of paramagnetic electron resonance during the irradia- tion of the specimen and after the interruption of the irradia- tion. More than 20 various substances vere inve3tigated, Card 1/3 namely polymers (polyethylene, nyloi.,, (.,apronp, polymethyl SOV '2o.-123-5-31/50 The Investi, j / - hc, gation of Free 11,;dicala Formed in Sa!*,,j t of Irradiation by Fast 1*"lactro!)!,, I notacrylate, teflon, and varicua af rubber), solid organic acids and their salts (OxatiC acid an(I their salts, succirtic acid arfd their sodiiiin sall, stearic acid and citric acid) 1 aromatic compounds (Ilul)htfi,110110 - a-liaplithol2 P-napht1fol, benzoyl peroxide., metol). In all the in'vestigated samples, the concentration of the radicals reached oaturati,= at doses of some dozens Of magarad. In the c'a,-e cf the majority of the investigated substances, the prod-aced radicals were rather stable, their life-tine amounted to some h~iirs(in some cases also to longer periods). SOE'le d0tail~, are -iven ill short. During the irradiation of I)olyrt,,, 1 t' y ane" the authors could re- cord the radical -CH~,..Cff_cH ** which is not stable at room 2 2 temperature. The spectrum of thf-3 radical is shown in a fig- ure. According to measurements at temperatures below room temperature, the rate :)f conversion of the primary radical into the second one decreases with a de-,3rease of temperature. T17,-ere are I figure and I Soviet referen~-,e. 2/3  SOV/2o-123-5-31/50 The Investigation of Free Radicals Formed in Solid Bodies in the Prooesa of Irradiation by Fast Electrons ASSOCIATION: Instit-ut khimicheekoy fiziki Akademii nauk SSSR (Institute of Chemical Physics of the Academy of Sciences, USSR) SUBMITTED: August 11, 1958 Card 313  R -- I - - I KORITSKIT, AL.T.; HOLIN. N.Y.; SHAKSUT. T.N.; BUBSU, N.Ta.; ' T.T. Study of radicals by means of electronic paramagnetic re- somews, duringtba Irradiation of polyethylene by fast also- trons. Tysokon.vo*d. 1 no,8:1182-1193 Ac 159. (MM 13:2) 1. Institut khimicheakoy fialki All SSSR. (Polyethylene) (Radicale(Chemstry))  24(7), 6(3~ SOV/51-d-b-18/34 AUTHORS s Buben, N.Y&., Voyovodskiy, YU.N., Chkheidze, I.I. and Shamshev, V.N. TI TIZ Electron larampotic Resonance Studios of Free Radicals Formed by Irradiation with ftst Electrons (lasledovaniye metodem elektronnogo naramagnij;aogo rezonansa avobodnykh radikalov, obratuy-Ashchikhoya v protses~* obluchouiya bystrysi eloictronami) PnxOD1CAL,.Opt*& i spektrookopiya, 1959, Vol, 6, Nr 6, pp 806-807 (USSR) ABSTRACTs An electron paramagnetic resonance (e.p.r.) spectrometer with high- frequency modulation of magnetic field working at 9W0 Mc./s van used to measure the effects of fast-electron Irradiation in situ. The samples Irradiated were kept at "-temperatures from -160 to +15000 and the radiatLon dose reached 106- 107 rad/sec. At room temperature radicals produced in various polymers, solid orGanic acids and their salts and in some aromatic compounds were found to be stable ttheir liftme me of the order of several hour* and sometimes longer). At low temperatures oop.r. resonance showed the presenco of atomic hydrogen in irradiated acpeous solutions of sulphuric acids and some of Its salts. card 1/3 Irradiation at low temperatures and subsequent warming up produced changes In the *.p.r. spectra which could be either reversible (caprons) or  SO'V/51-6-6-18/34 Electron Paremagnotio, Resonance Studies of Free Radicals Formed by Irradiation with Fast Electrons irroversibl* (dieRrboxylio acids, p*lyformIdshydo). Such studies were made on radicals produced by electron Irradiation in oxalic acid, polysthyl,sno and paraffin. In oxalle acid the e.p.r. signal is a vingle line vhosv width is due to interaction between an unpaired alectroxi and magnetic i2aments of protons. The observed e.p.r. spectrum of oxalic anid is not related to the presence of water of crystallization bat it is due to radicala of the type R -- C ~00 formed by romeral of the hydrogen atom from the carboxyl group. I.p.r. studios showed that radicals formed '~y electron irradiation of oxalle acid had disappeared at the rate given by dn/dt = An kat 25PO K = 10-21 CM-3/iec). The presence of water of crystallization affects strongly tie rate of disappearance of these radicales the value of K in anhyd-,rous acid in higher than In the hydrated compound. Irradiation of polyoth;rleno at roan temperature producec CH2--M-GH2 radicals ftich are stable at low temperatures. GbmW in the o.p.r. speetr= of card 2/3 S 01/51 -6 -6 -11 8/34 Electron Faremagnetic Resonance Studiee of Free Radicals Formed by Irradiation with Fast Electrons irratiated polyethylene show that the initially produced radical tmusforus Into a secondary radical which is more stable; the rate 'of this conversion da-creases with decreaso of temperature. The e.p.r. spectrum of paraffin ehowed that the original radical is the same as that in polyethylone, i.e. it is duze to removal of the hydrogen atom from one of the mothylene groups, but the lifetimes of the original radital,s in polyethylene and in paraffin are different. There are 3 Soviet reforencos. Card 3/3  5W AUTHORSs Molin, Yu. N Koritskiy, A. T., BOV/20-124-1-35/69 Buben, N. Y&:: Yo-yev-oa-sk-Tv-,v. ~.o Corresponding Membert AS USSR TITLEz Investigation by the Method of Paramagnetic Electron Resonance of Free Radicals Formed During Irradiation of Oxalic Acid (Iseledovani,ye metodom elektronnogo paramagnitnogo rezoninsa svobodnykh radikalov obrazuyushohikhsya pri obluchenii shohavelevoy kislotyi PERIODICALs Doklady Akddemii nauk SSSH, 1959, Vol 124, Nr 1, pp 127-128 (USSR) ABSTRACTi The procedure developed by the authors for the purpose of observing free radicals by the method of paramagnetic electron resonance in connection with the action of fast electrons on matter also permits the investigation of the creation and annihilation of radicals in solids. The present paper contains preliminary data concering the properties of radicals formed by the irradiation of oxalic acid with 1.6 Mev electrons. The signal of paramagnetic absorption in oxalic acid consists of a single line having a width of about 4-5 Oe. The corresponding C a:.rd I g-factor is similar to that of diphenyl-picryl hydrazyl (2.00306).  Investigation by the Method of Paramagnetic Electron BOV/20-'124-1-35/69 Resonance of Free Radicals Formed During Irradiation of Oxalic Acid After irradiation has been discontinued, signal intensity decreases at a rate that depends on temperature. A diagram shows one of the curves for the variation of radical convirb which was plotted at room temperature. In the temperature interval of +100 to +400 the 'recombination ct radicals is described by the equation dn/dt - -kn 2, where n denotes the concentration of the radical and k a temperature-dependent constant. At +25 0 the value k TM 9.10-22 CM3/sec was found by employing the usual methods. According to the quadratic law of recombination it would be expected that, at constant temperature, the steady concentration of radicals after saturation is proportional to the square root of the efficiency per dose of irradiation. A table contains data on the dipendence of the steady concentration of the radical on the density of the electron flux. Accumulation of radioals is, however, not described by a simple kinetic equation dn/dt - w 0 -kn2, but it is of complicated character. For the Cara 2/4 purpose of determining the nature of the radical in oxalic 3  Investigation by the Xel;hod of,Paramagnetic Zlectron SOV120-124-1-35169 Resonance of Free Radicals Formed During Irradiation of Oxallc Acid noid, the authors compared the spectra of the paramagnetic resonance of irradiated oxalio acid, suooirLio acit, and iiteario acid as well as of some of their salts. The following Yras founds also in the rather complicated spectra of succinio acid and stearie acid signals of paramagnetic resonance occur irhich are analogous to the signal in oxalio acid. In the spectra of the salts, such signals are either of only weak .4ntensity or they lack entirely. The experimentally determined law of quadratic recombination is indicative of the fact that the radicals are destroyed by the interaction of*tvo radicals. Either the diffusion of a radical in matter by the transition of a hydrogen atom from the neighboring molecule to the radioal~ or dislocation of a free electron according to the system of conjugate hydrogen bonds may be considered as possible siechanisma. Further investigations are necessary for the purposs of determining the true mechanism. There are 2 figures, 1 table,and 2 Soviet references. ASSOCIATIONs Institut khimicheskoy fiziki Akademii nauk;SSSR (Institute C ard 31,~ for Chemical Physics of the Academy of Sciences, USSR) -3  68173 r) SOV/20-129-6-41/69 AUTHORS: Slovokhotovaq N. A.9 Koritakiy, A. T., Buben~ 11. Ya. TITLE: Double Bonds in Polyethylene Irradiated by Past Slectronaly PERIODICAL: Doklady Akademii nauk SSSR, 1959, Vol 129, Nr 6, Pp 1347-1348 (USSR) ABSTRACT: Polyethylene was irradiated in liquid nitrogen with 23-300 Mrad Eind the infrared spectrum was recorded at various temperatures (Fig 1).1mmediately after irradiation, an absorption band at 5166 am-Imay be observed, which confirms that the double bonds 4z of the tranavinylene type are formed at the inntant of irradia- iion by stripping off H-atoms in two adjoint methylene groups. The intensity of the band 909 cm-1 corresponding to the intensi- ty of the vinyl group depends in a high degree on temperature and on the intensity of irradiation. This is explained by, reaction of the vinyl group with free radicals1formed by ir- radiation. Irradiation at temperaiures belov--700 0 with 206 Mrad causes the bands 985 am- 1 and 944 am-I to occur in the spectrum (Fig 2). The band 944 cm- vanishes again with a tem- Card 1/2 perature rise and is probably caused by short-lived radicals. Card 2/2  PHASE I BOOK EXPLOITATION SOV/5410 TashIcento'k-aya konferentsiya po mirnomu ispolIzovanlyu atomnoy enzrgii, Tanhkent, 1959. (Trai3actions of the Tashkent Conference on the reaceful U-,en of 1vtor-le Energy) v. 2. Tazhikent., Izd-~vo mi UzWISR, 1960. 4419 p. Errata slip inserted. 1,500 copies printed. Sponzoring Agency: Akademiya nauk Uzbekskoy SSR. Responsible Ed.; S. V. Starodubt3ov, Academician, Academy of SO!enCe3 Uzbek SSR. Editorial Board: A. A. Abdullaycv, Can- d-Idata of Physics and Matbpnaticn; D. M. Abdura-5ulov, Doctor of lKedical Sciences; U, A. Arifov, Academician, Academy of Sc4encc5 Uzbek 35R; A. A. Borodulina, Candidate of Biolo.-ical Sciences; V. 11. Ivashev; G. S. Ikrartaova; A. Ye. Kiv, Ye. :1. Lobanov, Candidate of Physics and Mathematics; A. -r. Nikolayev, Candidate of M'edical Sciences; D. Nichanov, Candidate of Chenical S-zlences; A. S. Sadykov, Corresponding Member, Academy of Sciences USSR, Abademician, Academy of Sciences Uzbek SSR; Ya. N. Talanin, car,F- ~&  17 L, .,Tran:vactiona of the Taitilcont (Cont.) SOV/52110 C-an'didate of Phypics and Mathematics; Ya. Kh. Turalculov, Doctor Of Diolo~;ical Saienaes. Ed.-. R. 1. Khamidov; Tech. 1-:d,-. A. C1. Babakhanova. VLM Tr, E : The PublI,:ation is intendcd for acientific wcrkeri and empicy9d in entei-prioes whqre radioactive icotcpaa and nuclear radiation are u3ed f,:,r rezearch in chemical, Zoo- lcgicaj., and technological ficld3. CVvT,RA-5E. Thl.= collection of 133 article3 repreZents the second vol,Ame of the Tranz~a,~tiona of the '-r'azhkent Conferercte -on, the Fl:.a:!EfUl USeS of Atomic E%nergy. The individual artlilea deal witb. a wide range of problema in the field of nuc!~,a- radiation, Inr.ludinS: production and chemical analy~--Is of ralica--tive lsotcpes; investigation of the kinetics oC chemical r-~actions by miaani Of isotopes; application of spectra". analysis for the -anullaaturing of radioactive preparations; radioaztive methods for determining the content of elements in the rooks; and an anal"Isia of methods for obtaining pure substances. Certain Card P/?0  17 Tranna.3tiona of the Taohkant (Cont. sov/541o ins-'rurents used, ouch an automatic rogulatora., floi,,.motorz, levol L,,*Lu.-on, and hi8b-conaltivity gammn-rolnya, or(., dozoribed. No ifer6onalities are mentioned. nuforonoca follow individual article'l. TABLE OF CONTENTSs RADIOACTM 130TOPIM, A,LTD NUCLEAR BADIATIO',,l IN MarillZM10 MID GEOLOGY Lobanov, Yp. 11. (Inatitut yadc.-;noy fiziki U7.SR - Inatituto of Nuclear Phyaicz AS UzSSR]. Application of Radioactive Inotopou and Nuclear Radiation In Uzboltiotan 7 Taksar, and V. A. Yanuohlco,73kiy [Inatitut flziki M 1,atv SSR - Institute of Physics A.1, Latvian SSR1. Probl,,.-mo of the Typification of Automatic-Control Apparatus Based on the Use of Radioactivq Isotopes 9 Card 3/20  Transactions of the Tashkent (Cont.) SOV/5410 FI^,yr,I.man, D. G., V. V. Glazunov, and L. G. Shakhidzhanyan (Tn5titu'~ evolyutsionnoy fiziologii im. T. M.. Sechenova AN SSSR inititute of Evolutionary Physiology imeni T. M. Sechenova AS USSR), Use of Scintillation Beta-Spectrometry for De- t4=.ration of Small Wantities of Radioactive Substances in Blologival Objecto Fonnnarev, A. N., and 17. L. Tallroze (Inatitut Ichimicheskoy C12ikl AN SSSR - Institute- of Chemical Physics AS USSR]. Use of the ~_zuteron-Exjhange methoo for Studying, Under Simulated Con- ditions, the Elementary Reactions af Atomic Hydrogen, Occurring in Radioly6ia of Solid Hydrocarbons Ber4.zIcin, V. G. [Institut neftekhImIcheskogo sinteza AIT SSSR Institute of Petrochemical Synthesis AS USSR]. Methods and E,TaIpt3cnt for the Chromatographic Investigation of the Products of Radio ysis of Hydrocarbons Slovoldhctova, N. A A. T. Koritskiy. and 11. Ya. Buben. (In- stituta of Chemicai'My-Wal-c-s-13-USSIry. Double Links in Poly- Card 19/20 416 420 425  Tranaactions of the Tashkent (cont.) Sov/54jo ,:-thylelL, Irradiated by lligh-Speed Electrons 1-.ve' .rkov, Yu. D., Ya. S. Lebade-v, and 17. V. Voyevod:3,:iy (in- wtc,of Chemical PlLyznica AS U.23R]. Xnvc.,ti c a tion of the Fc- i~%t,4onis of Free Radic~ala in I=adiated Teflon arkovich, S. V., and A. A. Ivl(o [Institute of Phyalcal Or- Chpnilatry AS BeISSR). Deuterium Exchange on Solid Sur- fa~?c.ti "n the Caa Phaac. Deuterlum Fxchangc in Ethylene on an industria! Aluminosilicate Catalyst AVA7LABLE; Library of Congrezz C;ar.*.l 20/20 430 431 440 JA/rnm/lw  86745 1/110/60/000/006/020/045 5y'0 6(1,9 4, E032/E3i4 AUTHORS: Molin, Yu.N., Kar"skiy. A.T, Sem enov, A.G., Buben, N.Ya. and Sh7a-mi-h-e-v; V.N. TITLE: Apparatus for the . Observation of E.P.R. Spectra of Solids During Their Irra'diation by Fait Electrons PERIODICAL: Pribory i takhnika eksperimenta, 1960, No. 6, Pp- 73 - 77 TEXT: The electron paramagnetic resonance method (Z..P.R.) is being widely used to study the properties of radicals in materials subject to ionising radiation. Usually, such studies are carried out in two stages. In the first stage, the sample is irradiated and in the second the E.P.R. spectrum is recorded. This method is not always convenient because it cannot be used to determine short.-period processes taking place in the specimen. In order to temove this disadvantage the present authors have designed an apparatus in which the spLecimen can be irradiated in situ in the E.P.R. spectrometer. The E.P.R. spectrometer, employing a high-frequency modulation of the magnetic field and working on a wavelength of about 3.2 cm, was described in detail by Semenov and Bubnov in Ref. 5. The Card 1/5  86745 S/120/60/000/006/020/045 9032/Z314 Apparatus for the Observation of E.P.R. Spectra of Solids During Their Irradiation by Fast Electrons absorbing call in the spectrometer is in the form of an ki..'ectangular resonator with a Q-factor of about 1 000. T e ource of the ionising radiation was the electron accelerator of theInstitute of Chemical Physics of the.A5 USSR, which gives electrons of up to 2 MeV in energy. Fig. I shows the method of introducing the electron beam into the resonator of the spectrometer. The electrons are introduced through a cylindrical channel in one of the pole pieces of the magnet so that they enter along the lines of force. The presence of the channel, whose diameter on the pole-p�ece face is 6 mm, leads to a deterioration in the uniformity of the magnetic field. The nonuniformity at the specimen was found to be 0.8 Oe/cm in the direction of the axis of the channel but very small in the perpendiculqr direction. Since usually o ''N" the E.P.R. line width in solids is ~f~the order of 10 Oe, i ' such a nonujaiformity does not reduce the resolution of the spectrometer when the thickness of the specimen is of the Card 2/5  86745 S/120/60/000/006/020/045 Z032/Z3i4 Apparatus for the Observation of E.P.R. Spectra of Solids During Their Irradiation by Fast Electrons order of 1 or 2 mm. The entire apparatus is placed in a special enclosure which screens it from X-rays. In the region in which the radiation strikes the specimen, there is only the magnet, the resonator and the high-frequency field modulator. The constant magnetic field and the modulation fields are adjusted by remote control. The power is introduced into the resonator through rectangular waveguides having a total length of about 25 m. These had practically no effect on the sensitivity and stability of the spectrometer. The electron- beam current was monitored by an ionisation chamber (5 in Fig. 11, which was placed above the specimen 8 . Additional magnets were provided for controlling the beam. The ionisation chamber was in the form of two foils, each 5 11 thick, and separated by a gap of 5 mm. Ions produced in the gap between the foils are extracted by An elebtric field derived from a storage battery of 160 V. *The dose delivered to the specimen was determined from the formula: D = Alt Card 3/5  867h5 S/12o/6o/ooo/oo6/O2O/O45 E032/F.314 Apparatus for the Observation of E.P.R. Spectra of Solids During Their Irradiation by Fast Electrons where I is the electron current in pA at the beam shutter 4 (Fig. 1), t is the time of irrAdiation and A is a constant for the given substance. The latter constant is given by. dE A - n d~ I where dt/d" iathe rate of loss of energy in the irradiated specimen in eV/9/cm n is the number of electrons in 1 pA of beam current, A/I is the ratio of current densities at the beam shutter and at the specimen. Card 4/5  86745 S/l2o/6o/ooO/oo6/O20/O45 E032/9314 Apparatus for the Observation of E.P.R. Spectra of Solids During Their Irradiation by Fast Electrons The constant A was determined in special experiments in which the specimen was replaced by special probes having the same dimensions as the specimen. In the measurements reported in the-present paper the dose rate was varied between 3 x 106 and 3 x 10 3 rad/sec. The temperature of the specimen was varied by blowing a stream of nitrogen from a dewar filled with liquid nitrogen. In this way, any temperature between -150 and +150 0C can be obtained to within + 1 0C. The specimens were in the form of discs 3 or 5 mm in diameter and 2 mm thick. The discs were placed in the resonator at the end of a thermocouple. Acknowledgments are expressed to V.V. Voyevodskiy for his interest in the present work. There are 7 figures and 7 refe.-ences: 6 Soviet and I English. ASSOCIATION: Institut khimicheskoy fiziki AN SSSR (Institute of Chemical Physics of the AS USSR) SUBMITTED: November 12, 1959 Card 5/5  33104 S/636/61/001/000/029/056 B116/B102 AUTHORS: Buben, N. Ya., Koritskiy, A.-T., Shamshevq Vo N. TITLE: Effect of additions on the formation of free radicals during paraffin radiolysis SOURCE: Tashkentskays, konferentsiya po mirnomy ispoltzovaniyu atomnoy energii. Tashkent, 1959. Trudy. v. 1. Tashkentq 1961, 192-195 TEXT: One and a half years ago, at *-h* IXhF AN SSSR, direct measurements were started of the concentration and the radiative yield in free radicals in the solid phase at different temperatures by means of electron paramagnetic resonance. V. L. Talfroze, Yu. N. Molin, V. V. Voyevodskiy and the authors have found already that at low temperatures the depndence of the free radical concentration in the frozen hydrocarbons and in polymers is non-linear already at low doses. If the doses are several hundred mrad the curve practically does not rise on further irradiation, although the forming radicals are stable. Later, the authors found that the conditions under which the radicals are formed vary considerably if a Card 1/3  33104 s/638/61/001/000/029/056 Effect of additions on the ... Br16/BiO2 small amount of additions is introduced into the irradiated body. E.g., paraffin was irradiated with 1.6-9*v electrons at -1000C. The spherical (diameter: 4-5 mm) specimens were fixed to a thermocouple and inserted into the resonator of the apparatus. The paraffin temperature was kept constant with cold nitrogen. The radical concentration in the paraffin was determined by eomparing the. signal intensity of the specimen with that of the calibration substance (CUC12 *2H 20). Already A small amount of CCI4 additions reduces the radical concentration. The same effect is produced by an addition of hexachloro benzene and a somewhat weaker effect is produced by a benzene addition, while heptylenet octylene, and ionyl alcohol additions produced no effect. In all experiments the total concentration of the radicals decreased. At the beginning of irradiation (up to 20-30 mrad), if CC14 additions were present, an additional narrow line vras observed besides the ordinary spectrum of the alkyl radical. The intenflity of this line rapidly increased up to a certain value. This is explained as follows: Electron ecxitation in paraffin can be transferred relatively easily. Very prob4bly the hydrogen atom is detached under formation of an alkyl radical where the C-H bonds (e.g. near the molecules of the additions) are weakened. This causes an irregular distribution of the radicals which Card 2/3  32820 ,57. 11600 S/02 0/62/142/001/0191021 BI 45/B1 01 LUTHORS: Koritskiy, A. Top Shameh*v, V. N., and Buben, N. Y&. TITLE: Energy transfer in radiolysis of toluene with adnixtur*s PZRIODIGAL: Akadomiya. nauk SSSR. Dcklady, Y. 142, no. 1, 1962# 120-122 TEXT: The effect of small admixtures of CCI 49 b*nzoyl perozide, and CS 2 on radiation yields of radicals obtained when irradiating frozen toluene, and on the epr spectrum was studied by measuring the electron paramagnetic resonance (*pr). When toluene containing the dissolved admixtures was cooled rapidly, it was obtained in an amorphous form. The arrangement of the apparatus and the method of determining the yields of free radicals had been described before (YU. M. Holin, A. T. Xoritskiy, A. D. Semenoy et al., Pribory i takhn. skeperin.p no 6 (1960) A. T. Koritskiy, Yu. 9. Molin ot al., Vysokomol*ko aoyed., 1., 16,82 (1959~). An increase of the initial yield, Go Of radicals by 4 to 5 times was observed with a C014 molar part of 5.1o-4 at -1600C. Th: ;h1pesof the *pr spectrum corresponds to a superposition of spectra of th 0 3 nd 66H 4- CH3radicals. With a Card 1/2  37h33 S/190/62/004/005/009/026 B11O/B144 167 AUTHORS: Molin, Yu. N., Koritskiy, A. T., Shamshev, V. N., Buben, 11. Ya, TITLE. Temperaturo changes in the epr spectra of allyl and other radicals in irradiated polymers PERIODICAL: -yysokomolekulyarnyye soyedineniya, v. 4, no. 5, 1962, -690-695 TEX": Oriented samples obtained by fourfold stretching of isotropic polyethylene were irradiated with fast electrons (1.6 Mev, 200 Mrad) and kept at 800C in an N 2 stream until complete recombination of alkyl radicals was reached. The basic structure of the epr spectra of the allyl radical lips lips if,It.. if. lips of irradiated isotropic low-pressure polyethylene is explained by Card 1/3 ri/190/62/004/005/009/026 Temperature changes in the epr spectra ... B11O/B144 interaction of the unpaired electron with P-protone, and the temperature change of the spectrum is explained by a change of the interaction constant. The five separatd components of the spectrum at high temperature correspond to the interaction of the unpaired electron with four ~-protons. At low temperature, the and r32-protons of spectra with seven components are not equivalent, and L H 82 - 2ZIH~1. A reversible change of the spectrum with temperature was found. P-protons are equivalent at 800C. and at 350C i~SH32 o 2L\H i~i* The components of the two spectra show doublet separation owing to interaction with the rA 0-proton. For isotropic polyethylene at 95 and -900C and for oriented polyethylene at 80 and -1100C the authors obtained LH P1 19; 1-3; 18.5; 13.5; = 19; 26; A" - -; 20 H P2 18.5; 27; k -5; 19; 611 CIO 5.5; 5.5, respectively. The different values of A-hydrogen at low temperatures are caused by a distorted geometrical structure of the radical, which is due to the influence of the crystal lattice of the polymer. 'Tensions thus occur in the allyl radical at low temperatures. Card 2/5  S/190/62/004/005/009/026 Temperature changes in the epr spectra B110/B144 They may distort the valency angles and disturb the sp3 hybridization of the bon-Is in carbon atoms carrying '3-hydrogen atoms. This may lead to an unsymmetrical arrangement of these hydrogen atoms with respect to thf; plane of the C-C bonds. A temperature rise reduces the influence of the crystal lattice. A four-component spectrum (- 25 oerstedsi 1 : 3 t 3 1 1) 11 H of the radical -C-C-C-N- was observed at 360C. The unpaired elect:ron I 1 11 H 1. H_;, 0 reacts with one and two rl-protons. As with the allyl radical, a drop in temperature changes the number of components. There are 4 figures and 1 table. ASSOCIATION: Institut khimicheskoy fiziki AN SSSR (Institute of Chemical Physics AS USSR); Inetitut khimicheskoy kinetiki i goxeniya Sibirskogo otdeleniya AN SSSR-(Institute of Chemical KInetics and Combustion of the Siberian Department AS USSR) SUBMITTED; v1arch 27, 1961 Card 3/3  36525 3/08 62,1000/006/023/117 0 B171YB101 AUTHORS: Buben, N. Ya., Koritskiy, A. T., Shamshev, V. N. TITLE: Effects of additives on the formation of free radicals in the radiolysis of paraffin. PERIODICAL: Referativnvy zhurnal. Xhimiya, no. 6, 1962, 65, abstract 6B453 (Tr. Tashkentak. konferentsii po mirn. ispollzovaniyu atomn energii, 1959. v- 1. Ta8hkent, AN UzSSR, 1961, 192-195) TEXT: The authors report some facts showing the importance of the electronic excitation energy transfer processes in radiolysis of some solid organic substances and indicate some aingularities in the,formation of free radicals (FR) in these substances. The conditions of accumulation of FR M a solid organic substance sample change considerably when small amounts of additives are introduced in a system exposed to radiations. The alkyl FR are formed by the separation of H atom from a CH 2 group through the bombardmani of paraffin with fast electrons at a temperature of about -1000C. In order to investigate the kinetics of alkyl PR Card 1/2  S/08 62 00/006/023/117 Effects of additives on the... BMYB10~0 accumulation, a paraffin sample containing additive and having the shape of a small ball, 4 to 5 cm in diameter, fitted on a thip thermocouple, was placed-in the resonator of an electronic paramagnetic iesonanoe device. The sample was then irradiated with a:1.6 Mev electron beam, and its temperature was regulated by a cold nitrogen jet. The FR concentration,has been determined by the comparison of the intensity of signals emitted by the sample with those emitted by a standard source oontaInIng a known numbor of paramugnatio purticlon (.%CI.,* 2H 2.0 Smull A:= U a 1. q c, r C C 14 a z d h a za C -~U a ra b a z z 41 z a add *. I -r -0 a -- C r. 1 --4- b -. -1 -0 1=!V the &Ikyl 7-3 S;~ c effec-s ri~=*- -~,.e-atene, cc--e--e, and =nyl a`cclLo' as. A= discovered effects has been attempted. (Abstracter's note: Complete translation.] Card 2/2  KORITSUTY, A.T~-, SHWHSV, V.N.; BUBEV, N.Ya. Energy-trazwfer in the radiolysis of toluene s-ith addition agontp, Uokl. AN SSSR 142 no.1:120-122 Ja '62. (MM 14:12) 1. Institut Icbimicheskoy fiziki AN SSSR. Predstavleno akademikom V.Y. Nondratlywym. (Toluene) (Radicchamistry)  3/844 62/000/000/091/129 D204YD307 AUTHORS: Slovokhotova, N. A,,, Koritakiy. A._T,, Bubeng N. Yas, Bibikov, V. V. and Rudnaya, G. V. TITLB: The action of fast electrons on polyethylene at low -tem- peratures SOURCE: Trudy II Vsesoyuznogo soveshchaniya po radiatsionnoy khi-;' mii. Ed. ~y L. S. Polak. Mosc-ow,.1zd-vo AN SSSR, 1962, 531-535 TMET: The aim of this work was to determine whether the double bonds found in irradiated polyethylVne (PE) form directly during irradiationt or whether they arise frojn sbcondary radical inter- actions. Low- and high-pressure PE was irradiated with 1.6 Mev electrons, in liquid or gaseous N 29 and the specimens were examined, 4 ir spectroscopy. Trans-vinylene-type b6nds formed when high- pressure PE was irradiated with a dose of 206.Mrad (966 cm- 1 band),. both at -196 and +500C, with similar energy yields, showing that. Card 1/3 3/844/62/000/000/091/'129 The action of fast ... D204/D307 such double bonds form by-direct interaction of PE with the elec- trons. In liquid N2 irradidtion of the same PE with 200 Mrad also increased the proportion of vinyl-type bonds (9o9 cm7 1 band), by a factor of 6 in relation to'unirradiated PE. The proportion of vi- nyl bonds in low-prensure'PE' decreased for doses up to 25 Mrad, and then increased; the dev~elo~pmont of unsaturation. was leso pro- nounced at higher temperatures, Such bonds are both formed (direct- ly) and destroyed in irradiated PE. The destructive process pre- dominates at higher tei;iperatures owing partly to the increased mo- bility of polymeric chains, but it is also connected vith energy transfer processes during irradiation. Both types of PE exhibited a 985 cm-1 band when irradiated with doses of 300 Mrad, in liquid N2, and-after warming up to 26, 50 and 12000 over a period,of 5 minutes. This band indicates the appearance of conjugated double 1 bonds. The 944 cm- band, corresponding to allyl radicals, was also observed. This band was only stable below -1000C in high pressure .,PE and disappeared rapidly on warming to 50OC; in low-pressure PE Card 2/3  3/'844/62/000/000/091/129 The action of fast ... D204/D307 0 the same band was stable up to 100 0. This difference is explained by the higher crystallinity of low-pressure PE. Additions of ben- zene or toluene considerably reduced the intensity of this band, owing to the participation of additive molecules in energy trahafer processes; the same lowering effect was observed with respect to the conjugated double bonds. There are 4 figures. ASSOCIATION: Institut khimicheskoy fiz1ki AN SSSR Fiziko--k:himi- cheakiy institut im. L. Ya. Karpova ~Institute of Chemical Physics, AS USSR; Physico-Chemical Institute, im. L. Ya. Karpov) Card 3/3  3/844/62/000/000/093/129 ii D204/D307 AUTHORS: Bubent N. Ya., Koritskiy, As T. and Ghamshev, V. N. TITLB: The effects of additives on the low-temperature radiolypi& of polyethylene (PE) SOURCE: Trudy II Vseeoyuznogo.soveshchaniya po radiatsioi.11noy kh~- Mii. Ed. by L. So Polak. Moscow, Izd-vo AN S36R, 1962, 540-546 TEXT: The kinetics of free radical formation in high-pressure PE (by itself or with additions of CC1 4 or benzene) irradiated with fast electronag were studied by BPR spectroscopy, using me-thods described.earlier (Pribory i teklmika eksperimenta, nos 6j. 113 (1960); Vysokomolekularnyye soyedineniya,, 1, 1182 (1959)). At -17000, with 5% additions and dozes of 0.25 - 7 1.1rad, signals were detected from Kadicals forming from 001 4 molecules# which were superimposed on the usual spectrum of irradiated PE and which rapidly disappeared at -600C; no such signals were again detected when the specimens were -warmed up to 300C, cooled and re-irradiatedv showing that the radio- Card 1/3 S/P44/62/000/000/093/129 D294/D307 The effects of ... lysis products of CCl are.-iost to the system or combine with the 4 I ed in PE containing 1 VA PE., Similar phenomena, were observ of At -.1250C, -101)1~j addition of- C6H6 lowered the initial energy yield (G) by 30 - 40V- (for doses ~up tor-30 Mrad)q but lowered G only sliglitly at higher doses (.uV to--270 DIrad). A 1-5~'~ addition of Cci 4 did not initially affect d,'Ibut led to a rapid slowing down of the rate of radiolysis at doses,of 50 - 100 Mrad. This was particularly noticeable,when the amount of 0014 was raised to 19~- The rates of H ) bec omet lower radical accumulation in PE (pure and with 9~ 06 6 when the temperature was raised from -150 to-670C, but only at-do- ~sedexceeding 5 Mrad. The,presence of CC14 led, howevert to a con- siderable decrease in the rate of radical accumulation when the temperature was raised. The radioly8is products of C01 4 are bOl 3 and Cl (atom or ion); the qt,Aantity ".6a 3 is estimated to.be -100 -times greater in PB/CC14 than.in,,pure C014 , at -150 0C. The Cl is Card 2/3  MOLIN, Yu.N.; KORITSKIY, A.T.; SHAICHEV, V.N.; BUBEH, N.Ya. Temperature changes in the electron paramagnetic resonance spectra of allyl, and some other radicals in L-radiated polymors. Vysokom. soed, 4 no.5-.690-695 * 162. MMA 15:7) 1. Institut khimicheskoy fiziki AN SSSR i Institut khimichaakoy kinetiki i goreniya Sibirskogo otdoleniya AN SSSR. (Polymers) (Radiation) (Radicals (Chemistry)--Spectra)  8/020/62/147/005/026,1032 B100186 AUTFORS: Koritskiy, A. T., Lukovnikov, A. F. TITLE: Formation of diaryl nitrogen oxide radicals on reaction between amines-and peroxide radicals PERIODICAL: Akadem,iya nauk SSSR.' Doklady, V-141, no- 5, 1962, 1126-1121 TEXT: A study was made of the reaction of the inhibitors diphanyl amine and phenyl-p-naphthyl amine in frozen cumene irradiated with 1.6 Mev electrons either in absence of oxygen or at oxygen pressurcobetween 5 and 10 atm. E. p. r. spectra were taken to test'the formation of radicals. Results: (.1)'An inhibitor addition of 1- 3% to cumene hardly affected the yield and character of the resulting radicals. (2) A radicals, which disappear on heating above the melting point# form in the absence of oxygen. (3) In the presence of oxygen, R06 peroxide radicals are obtained. Heating above the melting point changes the e. p. r. spectruq1 of these radicals. A 1:10 triplet occurs which corresponds to the Ar NO 2 spectrum. The formation of these diaryl nitrog n oxide radicals foll owo I.,- the reactiork; !'~:Card 1/4 ROO + HNAr. -> ROOH + NAr2; ROO 4 NAr2 > R& + Ar2NO.  3/02()/02/147/005/026/03'! Formation.of diaryl nitrogeq oxide ... B101IB186 :1 1 i Irradiation of the system,c)~mene + 0 + Ar NH above the melting point 2 2 yields no Ar iO radicals. the instability of Iradical.s is explained by 2 ---> H i0 the reaction Ar i + AF2NR. (4) Experiments,showed that 2 6. 5)2 radicals decompose in the presence and abseince,of 02 owing to reaction with i or R061yielding ROX(C H (5) Irradia"~tion of the system 5)2' cumene + cumene hydroperoxide + amine also yields Ar No radicals on 2 heating above 0 0C. When irradiation begins, the Ar NO concentration 2 first increases, then decreases to a limit which,depends on the .irradiation intensity. 'After irradiatign has been stopped an after-effect occurs - a long-lasting increase in Ar NO concentration up to a limit . 1. 2 which depends not so much.on the hydroperoxide,concentration as on the irradiation dose and irradiation temperature, and which follows a first- order reaction. The oonceOration of Ar 2iO raoicals decreases immediately when irradiation is repeated. The decrease in Ar io 2 Card 2/4  S/020/62/147/005/026/032 Formation of diaryl nitrogen oxide ... Bloi/BW concentration on continuous irradiation and the after-effect are insufficiently explained by the experimental resillts. The former may be due to any radiolyeis products delaying the radical formation, the latter to incomplete oxidation of the amine (e. g. into diaryl hydroxylamine) and subsequent oxidation by ROOH into Ar2iO. (6) The yield of paramagnetic particles remains unaffected by diphenyl amine, is increased by hy0roperoxide additions,*and is increased considerably by hydroperoxide + diphenyl amine. This is probably due to the- excited' [ROOH-HNAr21A compllpx formed by an H. bond'*. Conclusion: A possible interaction betweenlamines and peroxide compounds or their conversion products must be taken into consideration.There are 3 figures. The most important Engliah-language references are; J. R. Thomaa~ J. Am. Chem. Soc.p 82, po. 22, 5955 (1960); D. B. Denney# D. Z. Denney-, J. Am. Chem. Soc., 82, 1389, 1393 (1960). A ASSOCIATION: Institut khikicheakoy fiziki Akademii nauk SSSR (Institute of Chemical Physics of the Academy of Sciences USSR) r i Card 3/4  S/020(62/147/005/026/032 Formatioh of diaryl nitr6glen oxide 'B1013 186 PRESENTED: July 19, 19�20 by V. N. Kondrat',jov, Academician SUBMITTED: July 11, 19621 n Card 4/4-  KORITSKIY, A.T.; SHAMSHEV, V.N. Energy transfer during radiation oxidation of aromatic hydrocarbons. Dokl. AN SSSR 153 no.1:111-113 N 163. (MIRA 17:3.) 1. Institut khimicheskay fiziki AN SSSR. Predstavleno akademikom V,N. Kondratlyevym,  - - - - - - - - - - S11 90/63/005/004.1~O ~/020 B101/B220 AUTHORS z Slovokhotova,114 A.. Koritskiy, A. T., Karging V4 'it. I Buben, N4,,Ya.,, BibiR5`V--i77.__V_., 11"ibheva, Z. F., Rudnaya, G. V*'- TITLE: Effect of fast electrons on polyeth lene at low temperaturm. 1. Doublo'bonds in irradiated polyethylene :PERIODICAL: Vyaokomcleku_ly;a_rn~7e soyedineniya, v. 5, no. 49 19,53, 56-5-574- TEXT: High-density polyethylene (PE),jow-density FS, and P.E.obtained-by radiation pelymerizationg. were irradiated with 1.6 11ev electrons in 1--qui4 or gaveous 1; . The dose was varied from 25 to 300 Mrad. The IR spectra 2 viere studied from -196 to + 500C. The intensity of the 966 cm"l band proved to be independent of the nature of the PE and of the tea perature. Hence it-is concluded that-thetrans-vinylene bond3 form in the primary irradiation act.--On'the.contraryl uhe 909 cm band, characteristic of w six tim&s as large;and at. vinyl bonds was ith 200 11-rad anct at -196o -500C only 2-5 times as laarge as 'in nonirradiated PE. With dooes below 25 Mrad the initial concentration of vinyl groups decreased, whereas With Card 1/2  5/190/63/005/0044/01,5/020: Effect, of,fast electrons one, B101/B22O higher doses it increased. Thus irradiation indu,--es the formatl't.on as well as:the disappearance of vinyl double bonds, the disappearance being ~11'avored:by higher temperatures., Fru-m the.experimental fac t lhwL the N /11 ratio of the.trana-vinylene tothe vinyl groups is 16 fox PE ob- tv V tainod by radiation polymerizatio-no but 14 vith hlg~i-density PS., it is aasumed that tho moat probable prooeasia it migration of ono, 5y anti tho f ormation of vinyl gToups-by.the H atoms splitting off from two, neighboring C atomstat the end of the molecular'ehain. There are 3 f igures and 1 table.. ASSOCIATION: -Fiziko-khimicheakiy inatitut im. L. Y&. Xarpoya (Physico- 6hemi-al.,Instiltute imeni L. ia, Karpov) SUBMITTEDi October 11,:1961 Card 2/2  20 S119616310051004104 Biol/B220, &UTHORS:: Slovokhotova'.N'6._A.i -Koritskiy, A. T1. Kargin, Vi A., Buben' N. Ye., 11 WOVE Z'. UTLEi Effect-of fast electrons on polyethylene at low temperatures 11'4 - - Conjugate&.: double- bor.,L~s_, -and -:allyl radicals in .irradiated polkethylene~ no. .4,1461i, 575-580-, PERIODICAL: Vysokomolakulyarnyye soyedineniya, v. 51 TEXT: The IR and epr. spectra of irradiated polyethylene werij studie.d. ..Resultst. (1) Irradiation With more than 50 Mrad induces the formation of conjugated double bonds which are.oharacterized by the 985 cm-1 band. (2)_ At low temperatures allyl groups form-which are characterized.by-the 944 em band detected also -in the epr spectrum- (3) 'When benz6ne or toluene were admixed to the-polyethylene the yield in allyl radficals and conjugated bonds was.reduced .4 protective actian of the beirzene ring: owing to chargo migration in assumed*. There are 4 figures* ASSOCIATION. --Piziko-khimicheskiy institut im. L. Ya. Karpova, (1?hysico-. chemical Institute imeni L. 1&., Karpov) Card. 1/2.,  Doc 45 Insulation, Electric Imalation, Temperature Characteristics "Short Daration,Action of High Temperatures on Paper #Md Cotton-Paper Insulation," Docent A. V. Kor.ttskiy) Cand. Tech Sci, All-Union Corr Power Eng Inst,,* vp "Test Ilektro-Prom" No 12 Marq experiments hare been conducted to study the performance -of paper and-'cotton-paper insulation operating for' loog-.ppriods at teaperiLtures.. o lose to these maximum set up by COST'. 'Morlteirly presents regulto'of microscopic studies on structure of.in- sulating material subjected to short exposure to high 20/~9T29 MajZlectricity (Contd) D6c 48 teveeraturea caused: by short circuiting the trans- former. 26/49T29  XORITS11Y, A.T., kandi.dat tokhnichookikh nauk (I(oskva). Tenth annlvorsu7 of the All-Uslovi IftestrIcal JWglnoorl.vg Corre- spondence School. Blektrichoetwo vo,M92-93 0 157. (KM lotg) (Correspondence schoolia and courses)  KMBAKIN, V.S.; IARIONOV, A.N.; CHILIZIN, K.G.; GOWVAM, A.Te; MMOZOV, D.P.; RIMSTMA. N.S.; )[ORITSKI A.Vt.:. VXSEBMWSKIY, S.N.; TISHdHINW. N.A.; YMX,'V.S. Doctor'af Technical Sciences I.I. Petrov. Elektrichestvo no.12: 83 D '57- (MIRA 10:12) (Petrov, Ivan Ivanovich, 1907-)  T S'V~_ AUTHORS: Petrov, I.I., Professor, Doctor of Technical 105-158-5-27/28 Sciences, Koritaki-v, A.V. , Docent, Candidate of Technical _�o~ienoes TITIX: A Manual of Electrical Engineering (Elektrotekhnicheskiy spravoohnik) PERIODICAL: Elektrichestvo, 1958, Nr 5, pp. 94-96 (USSR) ABSTRACT: The above manual was published under the joint editorship of the professors of the Moscow Institute of Parer Engineering A.T.Golovan, P.G. Grudinskiy, G.N. Petrov, A.M.. Fedoseyev, M.G. Chilik-In. (chief editor) and I.V. Antik, engineer. Second revised edition in ,two volumes, 1152 pages, price 79-75 rubles. Publisher: Gosenergoizdat, 1955. The work consists of four parts: 1.) General Information, 2.) Electrotechnical Materials andEquipment, 3:~ Generation, Transmission, and Consumption of Zlectric Energy,. 4 Technology of Measuring and Control. The book contains tables concerning electrical equipment in- oluding costs P' formulae for calculations, schemes and their des- cription, standards, eto. The work is, howevert not free from Card 1/2 basic errors. The material dealt with is not more voluminous than  S/144/60/000/05/014/014 B194/E255 AUTHORS: Koritski~, A.V. Candidate of Technical Sciences, Docent, and iav-Linsxl 1q. Ya., Candidate of Technical Sciences, Docent TITIE: Book Review PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy Elektromekhanika, 1960, Nr 5, pp 134-135 ~USSR) ABSTRACT: 114LZi-ation Electrical Generators"00y A. I. BertjUy, VX OBORONGIZ, Moscow, 1959, is a new textbook for technical colleges. The review is generally very favourable though a few minor defects are pointed out, 3 -1 1 - iTy - " " . ... ~'' .1 '-- ASSOCIATION: Vsesoyuzniy i6ochniy energeticheskiy institut (.&11-Union Extra-Mural Power Institute) Card 1/1  N.A.; BRON, O.B.Z_g2AjTALIY,_Aj.; 6AKHAROV, P.V.; SOTMOV., B.S.; STUPEL', F.A.; TSMIN, Ta.Z. Sevqntieth anniversary of the birth of professor B.F.Vasbura. F-le*trichestvo no.9:96.s 6o (MIRA 13: 10) (Tashura, Bork Fedorovich, 1890-)  311Y, A.V., prof.; XELINIXOV, NJ., prof.; TIMOFEM, D.V.,, ImId. MW.-fiauk Nonsymetrical three-phase to tw~-phase transformers for electric power siffly of single-phase traction networks. Elektrichestvo no.1:48-51 J& *63. (MIRA 16s2) (Eleatr~c powe r distrAttion) (Electric transf6raer"s) (Elsetric riLilroade-Current supply)  ACC NAs AP6033861 SOURCE CODE: UR/0413/ INVENTOR,.. Lakhov, V. I.; Vinokurov, V. A.01_~orLtel!'i , A. V. ORGO. none 72 TITLE: Evaporative cooling system for electrical equipment. Class 21, No. 187135 SOURCE: rzobroteniya, promyshlennyya obraztsy, tovarnyye znaki. n.. 20, 1966, 72 TOPIC TAGS: -cooling, evaporative cooling, electric equipment ZVI ABSTRACT: An Author Certificate has been issued for an evaporative cooling system for electrical equipment. To avoid the necessity of supplying cooling agent to the equipment, the moving parts and various structural elements are made of porous metals. such as porous powder steels, saturated with a liquid cooling agent which evaporates - during the equipment's operation, providing Intensive and uniform j9horm-tern cooling. SUB CODE: 09, 13/ SUBK DATE: 3ODec;58/ ,Card_ 1/1 UDC: 621.313.017.72  MOROZOV,, Yu.D.j KORITSKIYp G.G, Classification of instrwnnts for olectric arc and oloctric slag welding and hard facing. Avtom. avar. 17 no.3t62-64 Mr 164. 1e DonetsIdy politekhnicheskiy institut.  t f RM AC~ Nj."o AA02 09 UNF029165/600/01570-WiFow Vol Ir *.rf' rr r4-)7;- INVEWM: akr! e. S.. sam"ke skaveA. lez.- PO&I B&IRAPin 'i - __ - -.9 _._ V. .; chaml 31. a.; Kabus M- A. Wil-ta-ank-1-j-, 9 saw, V. L K.; Znamnskaya, Mug.-i T A.; Korif ~T_G. K. Yr. iT ry. J-b- ,_Tj -1--"W4 S;L ORO: none . A a TMA: Nothod or allaisAmg UVd4l l*ritmet-comlamt ftr rolllLft IUAm steel etriPs- Clams 23. ft. IT3369 SOUWR- Armaten, Isobrotemy I tovuwu soak". no. is. ]L965. 6a t TOPIC TAGS: lubricant, coolant. liquid Imbricautt rolling lubricant, c2ld mgLods strip rolling ABSMCr: This Author Certificate introduces a okbod for the preparation or a Uquidl IC4 , fatty acid used, fbir coolant-lubri rt,baV,;Tftleoebt*mmide of autbetiq nA% re Instance, in MILLI ransforwrlor stainless-steel 'strips. To obtain a stsbae lubricant which would make -it -possible to roll the strij; to a required* thicluiess * an alkylaulfanate, alkylarylaulroadR, or bydraiWethWI mine or ratty acid contailtift fIv* Hydroxy radicals is ad&d to the mathylemblasmide or synthetic fatty acid.. FA* a varianto the op"ifi*d compments =v mited and them emulaitied in water. [is) BUS 0O1xtFFjm,1WS0* DA"mj"l/ Ono W, WO/ MAW, am/. m CWd WCt _621,092g6n,1,016,11  KORITSKIY. G. V Teorema szego dlya nekotorykh chastpykh klassov odnolistnykh funktsiy. Matem. SB., 36 (1929), 91-98. SO: Mathematics in the USSR, 1917-1947 Edited by Kur-osh, A.G., Markasevichlo A.I. Rashevskiy, F.K. Moscow-Ieningrad, 1948  USSR/Jkthezatics - Schlicht Reflectiom Jan/Feb .53, "'Certain Properties of Schlicht Con-formal Ref-lec-. tions,"I 1. Ye. Bazilevich and G. V. Koritskiyj Moscow "Hatemat Sbor" Vol 32 (74), No 1, pp 209-218 If a unit circle is reflected conformally into a certain schlicht region by means of complex-value function regular in this circle, each level line of ~ given function (in form of a star) lying within ~ convex level,line must be itself convex, and similarly for star-shaped reflections. S. N. Wrgel- yan. posed the'problem, of whether or not the number .of points of recurvature of the level line is a 241T81 monotonic function of radius rho. Author shows 'tbat this problem is solvable in the negative sense. 84bmitted 29 Apr 52. 241T8i  SUBJECT '01SUR/XATHEILLTICS/Geome try CARD 1/2 PG - 7 AUTHOR KORIZKI.T GeV*: TITLE On the curvature of the level curves and their orthogonal trajectories for conformal mappings. PERIODICAL Mat. Sbornik 24 103-115 (1955 reviewed 5/1956 Thelconformal Mappings of the circular lino.14. r-cl a called level ourves. Completing an investigation of Zzorovi,6 (11ligin. Mat. lurrn, 4jL 2TS-298 0952)) and by .use of a meth6d due to BesileviLl:(W46ow),,the author considers the upper and lower bounds foilth-e-curvature of the el lines and their orthogo- rialtrajectories. z n Consid6r the functions F (Z) f IUI(l-kpzp)-#mdz (p-2,:3,.,,), where p M kM Om em is an arbitrary integer, )WM is an integer.and satisfies the conditions n 1 e4 Er . OP (1-r )2 (1-r) 2 r k )2 1 f( Z)j < r2) , 0 (4 - (1-r (1-r is no longer star-shaped (convex) for r sufficiently near to 1. Card 2/*  28656 S102 61/140/002/001/023 Certain properties of level lines . . . C111YC444 Theorem 3 (Theorem 4)- For the class 7 of the functions F(~) = 1 , f(z)16 SqS -19 there exists an absolute constant f(113) z A S= J/a.~, 7.667 1 is star-shaped (convex), but there are functions F(~ for which a certain arc of a level line, lying in the ring F (A s + F.) 2 > 0 Card 3/4 28656 Ce 3/0210/01/140/002/001)/023 ..rtain properties of level lines C111/C444 ((-q i )2 + 2 (Ak > 0 is no.more-star-shaped (convex), if in sufficiently near to 1. .There is 1 Soviet-bloc reference. ASSOCIATIO11: Moskovski-y institut stali imeni J. V. Staline. Noscow Steel Institute' imeni J. V. Stalin) PRESENTED: April 22, 1961, by M. V. Keldysh, Academician SUBMITTED: April 22, 1961 Cal~d 4/4 BA.ZILEV.ICIJ  KORITSMYy K.I. Hffect of twist on the structure and physical parameters of yarn. Izv.vys.ucheb.zav.; tekh.tekst.prom. no-5:30-38 161. NIRA 14-11) 1. TSentrallnyy nauchno-issledovatellskiy institut khlopchatobu- nazhnoy promyeblennosti, .(Yarn-Testing)  A 009 of 8 W 0 0 f 91 It u It u tt 16 11 111 -ewe i, W-A 1 u a a a 14 go 1~141-01-0 flits -00 -00 '00 o00 49 tbi Aban Omd. No. 1, twkn C, the itme we"Stim ulditation coefl. of be tFw~ the= famulm is gifta: a - U.22 a + 0-20 4310 + 23-0, Wbffc x It the no. of Alwfo in IhI, "u-1 cmas meow, . the earn. .1 [vim a d 0 tiw 61W mle"dib- Is sulats. of difmat It uds of M.stfust th" B -no. mum bw cowwww IN $Mo. to corregitmalim filwr kftthO- It dw B WAIN" of 2 dilkleat cottons diffir by 3% - - (0, ff.. 45 mW 40). Then a Ight. of the two is n to ot br rRepw M. G. 1610am sum Slyffstv. Wool) 14114&3 It 04, 449 VUL114"t alstil 4.K Ql- III All I S 10 ad 0 0 2 1 ff 0 5 a S A' 10 71 1 - I a 1 11 4 mr Cr ff it a IUD A 1 1. 0 0 0 0 : a : : * 0 0 0 a 0 0 18T44400:::1041100*411411100 414041o41 0 veso 0004110000410**S* -04 .00 000 see  IORITSIIT, Konstausia Ivaasylch, dektor tekbalchaskikh nauk, prafeetw; asent; MLLICKlIff, Tu.A., roda"er; IL1131A, S.M., takhaicheekly mdektor, [Manufacture of feacy, twist yens] Prolavedefte fassmoi priashl. Moskva, Goo.amuchme-tekbaoisd-vo Klulstorstva tokstillsoi promphl. 383R. 1955, 169 p. (Um) (Spinning) Mu 9: 6)  KCRITSKILI.L.,dAtor tekhnicheskikh nauk Twisting techniques in foreign countries. Tokst.prop-15 no,.9:40-44 S 055. (NUO 8:11) (Cotton shinning) (Spinning machinery)  KORITSKIY,1.1., doktor takhnicheakikh nauk ~-, - - .i, ~ z - lquipment, used In twisting abroad. Tokst.prom.-15 no.10:60-63 0055, (Spinning machinary) (KLRA 8:L2)  KDRITSKIT, I.I., doktor tekhaichaskikh nauk. For an improvement in twisting techniques. Taket. prom. IL no.l: 15-19 Ja '56. (WaA 9:4) (Cotten spinning)  'ORITSXlY, XDnotentin Ivanovich. prof., doktor tekhn.nauk; GRILIMM , I Aleksandr Aleksandrovich; SOKOWVA, V.Ye., red.; KOGAN, V.V., teldin.red. [yam and thread manufacture] Krutillnoe i nitochnoe pro'Lzvodtava. Pod red. X.I.KDritakogo. Moskva, Gos.nauchno-tekhn.izd-vo lit.-ry po legkoi promyshl., 1957. 309 P. (MIRA 11:1) (Yarn) (Thread)  I - __ - - __ - - KORITSKIrt-K. 1. 9 -prof * Twisting theory. Toket. prom. 18 no.2:35-37 7 158. (Tarn-Research) (MIRL 13:3)  Rzoblems of the design of staple fiber yarns. Izv.vys.mdhsb.zav.; tekh.taket.pron. no.2:23-29 160. (MJMA 13:11) 1. TSentralinyr nauebimo-issledovatel'skir institut khlopchato'bumashnov promyshlennosti. (Tarn)  KORITSKlY. K.I Design for strength of combination yearns. Izv. rjs, ucheb. zav tekh, teks, prome no. 21t24-31 161. (MTIL4, 14-.;1 1..TSentrallnyy nauchno-issledovateltakiy institut khlopchaLto- bmazhnoy promyshlemosti, (Textile fiberu~ Synthetic) (Spinning)  KORITSKIY, K.I. Design and calculation of rayon cord characteristics for strength. Izv.vyo.ucheb.zav.; tekh.tekst.prom. no.1:42-49 162. OIIRA 15:3) 1. TSentral'nyy nauchno-issledovatel*skiy institut khlopchatobu- mazhnoy prov7shlennosti. . 11. (Rayon spbning)  AUMU]6~914-ttn aanoqah,, KOMAfVV, II.G. , ret8enzent; GROPUVA, T.G,, red.; BATYREVA, G.G., tekhn. red. (Fundamentals of the design of yam properties] Onnovy pro- ektirovanlia svoist-w priazhi. Moskva, Gizlegprom, 1963. 2-45 po (min 16:6) (yam)  KORITSIUY, K.I. Coefficient of utilization of the strength of the yarn i:a the fatb- ric. Izv.vys*ucheb,2AV.; takh.takat.prom. no. 3:19-26 1153. I- (IMU 16:9) 1. TScutrallm nauchno-isuladovatellskiy institut khl*pa,fl.&tvbu- mazhnoy promysl-dennesti. (14xtile fabrics-Testing)  KOST-'-'OV Al(ksandr Aleksandrovich; ~LWKERG,K 7e., kand. tekhn. nauki retsenzent, tekhn. nauk, U- prof... retsenzent; CHUCREYEVA, V.11., red. [Ring spinners in cotton wanufacturel Kolltse-krutillrrye mashiny khlopchato-bumzhnogo prol.7vocl.0,va. MoAva, IA)gkala industriia,, 1964. 230 p. '~MIRA 17:10) uchastiye: SHISHKINA, R.M., ispolnyayushchaya obyazannosti starshego nauchnogo sotrudnika; YAGUBOVAP MARINTINA, Yu.S., mladshiy nauchnyy sotrudnik Core yarno its striacture and properties. Nauch.-issl.trudy TSNIIKIIBI 160 (publ. 164-1:25-55 (MIRA 1812)  YFRFIMINA, N.S.; Design of cotton fabrics; review of literature material. Nauch.- ins, trudy TSNIKHBI za 1962 g.t189-222 164. (MIRA IM) KORITSKIY 1 ~."4 F;ibric resistance to tearing deformation, Nauch,-isa, trudy 11SINTERI za 1.962 g.t222-237 164. (XMA IM)  KORITSI'LIX, V.; STERIN, Kh, -'-Nciiri~eath Conference on Spectroscopy* OptA apektr, 12 no.5.-662-664 Vq 162. (IMIA 15:5) (Spectroocopy-Congresse3)  LEBEDEV. V.K.; KORITSKIY, V.A. . Resistance to short-circuiting of a welding transformer With 16ing coils Avtomosvaro 34' no,7:21-24 n 161, (MIRA14:1) 1. Ordena Trudovogo Kmanogo Znameni Institut elektrosv&rki im. Ye.O.Patona AN USSR. (Blectrio welding-Equipment and SupplieS)  LEEEDEV, V.X.; KORITSKIY, IT.A. Transforier for measuring secondary currents of resistance welding machines. Avtom. avar, 15 no.1:23-30 Ja 162. (1-im 14:12) 1. Ordena Trudovogo Krasnogo Zarmeni Institut elektrosviLrki imeni. Ye.O. Patona AN USSR. (Electric welding-Equipment and -supplies) LEBEDEV, V. K.; KORITS?JY, V. A.; SiDoRENKo, M. N.; HAKAROV, M. D. ............. ............... - , Now transformers for manual are welding. Avtom- evar. 15 no.11,51-55 N 162. (MIRA 15:10) 1. Ordena Trudovago Kman090 ZnamOni Institut elektrosvarki..,---~ imeni Ye. 0. Paton& AN UkrWR. (Blectric welding-Equipment and supplies)  POTA?1EVSKIY, A.G.; KGRITSMY V.A.; Prinimali ucbastiye: 1SCIBIT, V.S.; MAKAROV) ~5~vmjl~iFl "k-L.; KULIKOV, N.N.; SIMEOVSKAYA, I.V.; PAICI-bUi) S.M.; RMOTOVA, L.P.; TATARIVOV~ G.V. Ob-45&a attactmait for welding In C02 using FS-3(k-), FSO-300j, and JIS-500 trcmalfonaors. Avtoni.svax. 15 no.10:68-70 0 162, 15-11) (Electric wolding-Equipaont and supplies)  C74 a 00 00 :00 00 4p 46 4p P& lee Is t? it 12 0 It 3 39 If 0 10 Q 41 43 43 4 4'110 Cc ca -ILJL-L- IN mcglis 1 1-7, the Chuswv MQUI 11. atud. Pei. U.S.S.R.. 0. 673-5( 194S).-The llt,~wtncr promm is PIP * l by the cant ent of V and Cy. The st-I houW ee mitain IMA More th" 0.1% Cr and atxxlt ' v "0o A I*W snabsk 6 I1WIPk with The in 4--S n lin. l After tbe Insomductitm of soccual auaj~,ti the tin. o( de. ee fre"Ve mchs fe" frout 13 % 1112%. S. PAkwer lee I smarow of ferrous mews. -V-.-G, Kuritskif i S U S R " . . . . ., S&. phy'T. 9. (M.181611 summary).-A report on the mate uf %pectral =0 Amd"Is In The industry of fLuous 111tial. its VSvk. %Z P&k%wcI 1 %o %0 Igo too V*o we ~44 0 11,34410 .1&P mv 09C U It AV 10 H 0 41v~ 1 wr m 9 a a 1 1, b 4% OT 0 a 0 0 0 0 0 0 * 0 a 0 0 0 0 4 0 0 0 9 0 a a a a a a a di d a a a a a a  011010 *0110*oft 4100 *go e 00 :000000 0 0 00 0.109 0 0: 000090000400o o 09000;,Ooo 0 v x it a A a 41. al 41ST CM AT S TS UVW "I IMA! Sib --------- P~ a I T ur 2'1 1 a & I --A : . -9 Mott 41~ Ati a Z IOg k 04P 4.1 -"-o pmp a"& A S MM V! 104P pw " "I PA ' e ftn = kd - ( " 04P m A rm mlmpmp r "Iv I ap- 0- dp-w o SNOW O M VUW . p j LL " P -a- ftnw- a" im Am"- 4RI pup ANr ' WO IN PNOW VAIM 9 p WWW iWdft MWhp f WR V q got 041 "A 9"ISMOMW 4MIONWN* OR "PPM on wmd I Onewp ftz -momftm top IrIfm je Iff MI pm Ps" - Sol 64 pi- wWf~ )e PD"- Ansm"em V -Mafu ' . IN U WOM mono 0 JI o 1 to M =pump aqp P " , 09 Wo a l IMM p "" &A!Fnyl. -A -Anneim m6mm" "m 0 Deg f *mom 11 P"w INo pmvwp PIP&P -be smirod-ume" "-m ~ 's pain& , - .. tab" JO OF*"=, ~M -d , , " I 00 LIOI ml vonspa OW IDS IL9-,= I 00 00- lop u l 0 0 l g 00 Pe -11064Y_ i; j X N 9 of a, 2 a 1 14 11 11 11 -3 6 1 1 f 9 4 f I - 0 o 0 o p o 0 0 9 0 0 o 4) o 0 0 o 0 0 0  41 as aftmefteve aw 40 as Ow d IM lkfaietiftril pos" 406WO41 wS*h__V_G_ =tan_jAw,#. .4"l-N4.1 S.S.S.R-Nf. Fle. 11, 1:1WAT(MU); c(. C.A. 411. 014%l'4, -,III * vtou"ool "wiL. The dwarms AS of the wirld it, id llw o"Alylit.".1 luirl. fix Cr, Mn. N1, rkr.. km" its vvinstalwy Own l1w,lk"l, 4 dw ofeettry"mw tons litil."N 0-10 rum. nis.awtl. 'Wir III The lowl thol flop 41681, 14 l1w 01"ek Olkil 1% 4114"11 v lot tum . onal ""tw4twilt1w. IIW,I.- aftlio" Of so".141it W * "PArt diam. Is I"" vioul4ruly euvvied by tho #I-d Agwe Imm 11w cult W the crtm& wtka. the imilkwav d lbe tuso is deld, by differences of The (gone., WAS delluxi- 4fritted by detes. in alelch the ManIfIl" wever "Pt at a Mut. legrap. The loweelts 61"" in &I* of AS spinet the Ivinp., for the pain Wk. N-Fe. NI-Pe. Cr-Fe. and Vu. Fe, AOW 111101 the bftliP#-Iip Of W111*% Of 1410 .1114611 A III&" (leffilwor 10-M 5.) infl-MlIKv. a Sylle"folk, rivin III A.T. N. INM  0 00 00 0000 010 X049 44 4 4 At 0 ina A~ 4-.f- 9 N L K L a 41LI 0tv -00 A 0 M INFLUms or sia m swit or snum Cm TNE RESULT3 Or m .00 3PWT=-MALT21# MAIMS T.Q. a XQrtUkU.4W T.De Iftamle .00 (ZaTod "bGfttsri3*,- 1940 TO 000 VIRY, PP 508-015)o (in ule an)~ ~66 R I WISOMS at tko dkv* OR4 mass at thou specium ft *a results of Its spostrims smalysis me investiptod In a "rise ot as- 441 potiments Is *M& %a, follming stwAard oanditima 11or tive profte- tion of the spoctra were ebeerveA., (1) Condensed spairk with two gaps We 0 'j V!i~ Mae sooording to btlaki's scheme; (2) transformer 110/io,*00 V"j (8) empa- city 090WI (41) "It-ladvotame at oscillatory airoult abmAt 2w; (5) met spark j'ap of SJ m; (6) working gap 3 sme; (7)auxilliery oleo- C&O 0 fte saw trode, of carboat, 5*6 = In dia, on4ing In a 45 -ame itruno4vtod to 41" a plow 14.6 m In 41a; and (8) slit 0.015 see wido. Am oppreelablo Wo* SyStOMILUO 0MV IS 06 41OUNUISSUM Of +AL4` MagRAGO41, MAIIJOIS, v chromium , alsislg copper, molybdommms, vanadims, and igzageUm In the 4*0 1464 steel was found. to appear Wm tho size, of the specimmm wailIA-9dueed see below a certain valmoc This error It duo,to the diettmbaned-ot %he gov, ~j 0~ spark which occur* whom, the also of tim plane exposed to It bases 8*0 1*40 than this Ilao at, lbo Repark staine* 'Phe spark sialn depoado as 10 O~ u**KA% LIMAIM CtAt4thqm WOOD IOVQVIN %it ORV 434K smisleo tilt 't ft iwo-ii-c" A Ia to A S 10 fm 0 11 9 1 W of 9 A if lt~ W U 11 "'0"; poll, psi an mi -gt~ltmt No it I In 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 00 014 0' Goose 00 0, 0 -'s 0 a a 0 a " 0 a a *1* 0 a0 - *'~O be ~ 0 We 0 w I  so so 00 00 60 00 A& at 6% a, ~ - 9 V V V W W - - - - - the nature of the gesmiratere For the standard conditions used It was found to inry tram 0 mik In die for low-alloy statols to 12 m In d1a for &Uloloss st"Is. - The reduation of the mikso all the spoobten beloor a certain value we* also famd to cawo an appreciable mystefttl* Orror In the amlytioal results, this IWI ting value 4"omd- ing m the t1mirval sharseterlstics or the mtal anal:r"d (its themal capaoity &M ihirml sandustivity) and varying to a (sertain oztftt for different elemonts. The experinwatal results obtalobd indicate the need for care in the aholes or relative dimensions fl3r stcadcrd mW ision used in spostrm awlysise With st4usdards having an affeetive mork- Lug plane 104.2 = ti dia, spol~s with working plimes ot dismeter 4~10-12 m ami be amilymed, 'but ubm the plame of thit staxidard Is lose iihm 10 = In die swiy those spesimms with a plane 'it smatly the sams diamter can to sm4psode- For saodLtims other than those used In Iftis Investigation, the mmmerleal values of the above lIaLting dimmelints would be difforeat wW should be determ"od experismstall)FO-48SO 00 00 00 001 00 00 00 00 *6 40 06 0 9  ';W, -an Mb.W rft~"f egg so!l "oimwn Visa -WIL '4"Oft -4" "1014, C Th" i fee sqw. P . "d r ~4i'*j d"j"l &4'Mf'j"h' ,(Allopng Olmwols In Aga a g0'2 --ooy* 'b` It,* -00-4 'f k 11V tieposlil , go ~. wwl. NMI Aw also 4w " a T On WV4"a maijyoo owl (4 K40 04 . got Not woo be* " T 40 4 1 O S * 00*000*00600000000 *0 *Soo  KORITSKIY' V. G. USM/Yetals - Alloys Apr 50 Spectrim Analyais "Application of the Carbon E:Lactrode for Spectr= Analysis of Alloys," 1. X. Veselovskaya, V. G. Koritskilrj L. N. Filimonov, Moscow Inst of Steel imeni I. V. Stalin, 81 pp "Zavod Lab" Vol XVIv No 1. Discusses application of carbon electrode in spectrum analysis. Carbon electrode# having definite advantages im application to analyzing low-alloy steels, may lead to systematic errors when usod for analysis of some high-alloy steals) as stain- less, acid-resisting, and heat-resisting alloys, and also of alloys on bases of copper, nickel, cobalt, and othermetals. Investigates and discusses influence of earbon electrode on analysis process, and compares its action with that of inietal electrodes. PA 160T70  KORITSKIYY V. G. USSR/Metals - Chromium May 50 Analysis, Spectrochemical "Spectrochemical Determination of Chromium in Carbides." 1. M. Veselovskays, V. G. Korit- skiy, Moscow Steel Inst imeni I. V. Stalin.. lj pp "Zavod Lab" Vol XVI, No 5 Describes spectrochemical method used by authorb in studying phase diagram of iron- chromium-carbon system. Method is much more efficient than usual chemical analysis because it does not require one-gram sample of carbide, separation of which from alloy Is time-consuming operation. PA 160T79  ~ , Z- - ~ I -. - . . . .I '. ~, - -, ~~ ~. 1  KORWSKlY USSR/Ch6mistW* Spectral abalysip - rArd :1 /J. Pub. 4 ,3 53/97 Tau- Plan -fbi% a 14UMArd -bathod- of ~zarksd spectral ala3$-sis of steel -Periodical: 3 far. AK-8,49R,S f~ !A12 274477), Wr-Apr ere, 3k Abstract t standard spectral analwls methods whiW-would- Needs are expressed for , utilize standard Soviet.,mde -devices, and wouldwarrant an accuraey aim lar to Uat of a chemical analysis. Briefly described in.this report is a matho4 , which could be used as a basis for the 1formulation of l standard,mathods of markedspectral analysis of"steel. The use of the l ~Xsp-'V_ spec trograph' with alit, width of 15,t,',, height 1is su"ested. ~ ~ t for the ftandard method. new Institution tal: A Institutes Moscaw The I. V. S in:Ste submitted  AVRASIN, Ya.D.,kandidat takhnichookikh nauk; BERG, P.P., professor, doktor tekWcheskikh nauk, BEWSHTSU, M.L., kaadidat tekhnichaskikh nauk; GENBROZOV, P.A.. starshly nauchnyv sotrudnik; GLINAR. B.M., inshemer; DAVIDOVSKAYA, Ye.A.. kandidat takhnicheskikh nauk; YSIZHII, P.M.. inzhener.- YARAMIN, N.I., Icandidat fiziko-matematichookikh nauk; IVANOV, D.P., Icandidat takhnichookikh naul; UOROZ, L.I., inzhener; KOBRIN, M.M.. kandidat tekbnichaskikh nauk;J;QlJM&&.J. dotsimt; ZROTIOV, D.T., inshener; KUDRTAVTSAV, I.V., professor, doktor tekhni- chemkikh nauk; EJLIKOV. I.V., kandidat tekhnichaskikh nauk; IMMOT, V.A., Imadidat tekhnicheakikh nauk; LIKINA, A.F., inzhoner; KLTVMV. A.S., kandidat tekhaichookikh nauk; KILI MLN, B.S., kandidat tekhniche- skikh nauk; PAVLUSHKIN, N.M., kandidat tekhnicheskikh nauk; PTITSTH. V.I., inshener (deceased]; RAKOVSKIT, V.S., kandidat takhnichaskikh nauk. HA HTADT, A.G., kandidat tekhnicheskikh nauk; RYABCHSNKOV, A.Y., professor, doktor khimicheskikh nauk; SIGOWEV, S.Ta., kandi- dat takhnicheolrikh nau ; SMIRTAGIN, A.P.. kandidat teklmicheekikh nauk. SULIKIN. A.G., inzhmmr; TUTOV, I.Ye., kandidat tekhnichaskikh nauk. KHRUSHCHOV, KX,'profassu, doktor tekhnicheskikh nauk; TSYPIN, 1.0., Icandidat takhnicheskikh nauk; SHAROV, H.Ya.. inzhener; SHARMU, Ta.l.,, doteent; SHNNIXV, B.A.. kandidat tekhnicheskikh nauk; TUGANOVA, S.A., kandidat fiatko-matematichaskikh nauk; SATILI, I.&.. doktor takhtdclieskikh nauk. redaktor; SOKOLOVA, T.F., tekhnicheskiy redaktor [YAchine buildor's reference book] Spravochnik mashinostroitelia; v shesti tomakh. izd-ve mehinostroit. lit-ry. Vol.6. (Glav. red.toma 3I.A.Satell, Izd. 2-ce, lepr. I dop.) 1956. 500 p. (MI& 9:8) (Kach4hor7-Coustruction)  ALOTGAUZAN, O.N.. lutudidat fisiko-matowtichookikh nauk; BIMNSHTATN, M.L., kandidat tethnicheskikh nauk; BIANIMR. M.Te., doktor takhnichaskikh nauk; BOXETRY, S.Z.. doktor tekhnicheskikh neuic; VOLKHOTITINOTA, U.N., kandidat takhaichaskikh nauk; BORZDTU, A.M., doictor t*khni- cheskM navik; BUNIN, K.F., doktor takhnichaskikh nauk; VINOGRAD. N.1., kandidat tokhnicheakikh nauk; VOLOVIK, B.Te., doktor takhnichs- skikh nauk [deceased); GAMOV, N.I., inshener; GILUM, Yu.A., doktor tekhnicheskikh nauk; GMUlt, S.S., kandidat takhnichookikh nauk; GOLIDUBARG, A.A., itandidat telchnicheekikh nauk; GOTLIB. L.L. kandt- dat takhnicheskikh nauk; GRIGGROVIGH, V.I., kandidat tekhnichookikh nauk; GULTAYNT, B.B., doktor takhnicheskikh nauk; DOIGALIffSKff, T&.K# kandidat takhnicheskikh nauk; DtMOVTS]ff, P.A., IcinditLat takhnicho- skikh nauk; KIDIN, I.N., doktor takhnichoskikh mauk; 11PNIS. S.1h.0 inshener; ITSKff y-G.. kanclidat takhnichookilch nauk; LANDA. A.F., doktor tak Icheskikh nauk; LNUIN, I.M., kandilit tokhnichaskikh nauk; LIVSHITS, L.S.,-kandidat tokhnichaskikh nauk; LIVOV, N.A., kandidat takhnichaskikh nauk; KALYSHNV.K.A., kandidat takhnichaskikh nauk: KRIESON, G.A., doktor tekhnicheektkh nauk; MIUMICH, A.N., kandidat tathnicheskikh nauk; MORO2, L.S., doktor teltnicheskikh nauk; NATANSON, A.K., kandidat tekhnichaskikh nauk; 11AHIMOV, A.K., tuzhener; NAXHLKOY, D.N.. kandidat takhnichaskiidi nauk; POGODIff- ALUSIM, G.L. doktor takhnicheakikh nauk; POPOVA, X.M., kRudidat takhnichookikh nauk; POPOV, A.A., kandidat tekhnichaskikh nauk; RAKHSHTADT, A.G., kandidattskhnichookikh nauk-, ROGILIBIRG, I.L., kandidato takhnichookikh nauk; (Gontinued on nimt card)  ALITGAUZAN. O.N.---- (continued) Card 2. SADOWUM.T.D.. daktor takhnichookikh nauk; SALTTKOV, S.A., inzhener; SOBOLEV, N.D., kmndidet tekhaicheskikh nauk; SOIAMIMUN, A.G., kandidat tekhnicheskikh nauk; MUNSKIT, Ta*S., kandidat takhnichookikh nauk; UTUSKIT, L.N., kandidat takhnichasktkh nauk; FRIDMAN, Ta*B., doktor takhnichookikh nauk; KHINTSHIN, Y.F.. kandidat takhnichookikh nauk; KHMJSHCHU, X.M., doktor takhnicho- skikh nauk; GHMRNASHKIN, V.G., kandidat tekhnicheakikh nauk; SHAPIRO, N.M., iushener; SHEDLINIX. L.M., kandidat takhnicheakikh nauk; SHRATBXR,:D.S., kandidat tekhnicheskikh nauk; SECEAPOV, N.P., doktor takhnichookikh nauk; GUDT5OV . N.T.. akademik. redaktor; GGRODIX. A.M. redaktor izdatelletva; VATNSHTM, Te,B,, takhnicheskiy redaktor [Physical metallurgy and the heat treatment of ateel and iron; a reference book) Metallovedenie i termichasksla abrabotka stalt t chuguna; spravochnik. Pod red. B.T.Dudtoova, K.L.Bernshteina, A.G. Rakhahtadta. Moskva. Go&. nauchno-takhn. izd-vo lit-ry po chernoi i tevetnoi astallurgii, 1956. 1204 p. (MIRA 9:9) 1. Chlen -karrespondent Akademil nauk USSR (for Bunin) (Steel-Heat treatment) (Iron--Heat treatment) (Physical metallurgy)  ~1.: "Sarac problems in the tiiotlpod of' sf.ec'v-,:. c~.nnlyzi3 of st,001.1. !,!in ",-;i,-,-her Education USSIZ. lk-,sco-wr inst. of SWal Lnomi I. V. Stalin. 110scow, 1956. (Dissertat'Lor,3 for tl-,c DaQrn-e of Candidate in Teclinical Sciences). SO: Knizhna5,a letopist llto. 22, la56  r 3- 2 -8/9 S. M. AUTHORSs Koritskiyj, V.G., Nalimov, V.V., Nedler, V.V., Payakiy, -Fu-sanoi, A.K., Filimonovq L.N. mission Spectral TITLEs A Short Survey of the Development of the E Analysis in the USSR ( Kratkiy ocherk razvitiya emissionnogo spektralfnogo analiza v SSSR) PERIODICALs Uspekhi Fiz. Nauk, 1957, Vol. 62, Nr 2, i)P. 435 - 454 (USSR) ABSTRACTt A voluminous investigation of the flame 13pe0tra from a Bessemgr converter (bessemerovskiy konvertor), wai3 published in 1876 by D.K. Chernov. D.K. Chernov furthermore found several inter- esting laws with respect to the relation between the flame spectrum and certain stages of the Bessemer proces.(bessemerovs- kiy protsesR). All these laws, however, were of an entirely qualitative character. First publications on spectroscopy were published in the Soviet Union at the end of the twenties. 1931 S.G. Landsberg turned his interest towards practical spectral analysis, and together with his studentei he started the system- atic elaboration of the practical applications of the emission spectral analysis. From 1931 to 1950 about 1000 investigations were published in~the scientific journals of the Soviet Union, Card 1/3 and this number doubled up to the present. This indicates a A Short Survey of the Development of the Emission Spectral An 53-2-8/9 USSR alYsis in the very wide range of the research dealing with this subject. Tho majority of this papers were published :in the journal #tZavod- naya laboratoriya".(Plant Laboratory) and "Izvestiya Akademii Nauk SSSR, Seriya Fiziaheakayall, Tho ftrat seotion of this our. Vey deals with apparatus for tho spectral analysis, In the machine-bUildng industry spectral analysis is utilized for the control of the casting of iron and non-ferrous metals as well as for the control of semifinished products, single parts and finished Iroduction parts. By these means the metals deliver- ed to the plants are also controlled. Spectral analysis was empbyed to a special degree in the automobile plant "ZIL". In iron metallurgy the spectral analysis is used for the express- analysis of steel during its production and for the final ana- lYsisp the so-called "marking analysis". Further possibilities of application in iron metallurgy are enumerated. In the metal- lurgy of non-ferroue metals and in irort metallurgy as well, the semi quantitative methods of analysis are employect with success. The spectral analysis also makes possible a fast and practical- 1Y simultaneous determination of the chemical elements contain- ed in the mineral raw materials. There art, 13 figures, 3 tables Card 2/3 and '75 Slavic references,  SHAYNTICH, Aron Borisovich; NALINOT, T.T.. kand.takhn.na.uk, retsensent; KORITSKIY,~j .J.,G., red..; TSMALIST, N.W., red.izd-.Y&-,, TLUINA# [Methods of evaluating the accuracy of spectral emalysIGI.Metody otsenki toohnosti spektrallnogo analiza. Sverdlovsk. Gos.nanchno- tekhnAzd-vo lit-ry po chernoi i tevetnol metallurgli, Overdlovskoe otd-nie, 1959, 54 Pe (KM 13:3) (3pectrum analysis)  BERMHUFTH, L.Ye.; KORITSKIY. V.G-f- Spectrum analysis of thin metallic films. 2344-1345 159. Zav.lab. no.11: (MIRA 13:4) LHoskovskly Intitut stall, (Metallic film- Spectra)  5W AUTHORS: TITLE: PERIODICAL: ABSTRACT: Card 1/2 3011/32-25-4-1/71 Koritskiy, V~ G,~ Polyakova, V. V., Filimonov, L. N. StandardS for-the Spectrum Analysis (Ob etalonakh dlya opektrallnogo analiza) Zavodskaya Laboratoriya, 1959, Vol 25, Nr .4, ]?P 387-390 (USSR) The problem of a unification in the manufaotwe of standard samples (SS) for the spectrum analysis arises in the USSR. In the present paper it is pointed out that at present the only in- stitution especially charged with this probleta is the Laboratoriya standartnykh obrazteov Urallskogo instituta chernykh metallov (LSO) kLaboratory for Standard Samples of the Ural Institute of Iron Metals), and that there only SS for the analyses of iron metals are being made. For the manufacture of SS for the analyses of other metals there exe at present about 1R different organizations where this work is done, for the ma- jor part in an unorganized way. In particular, it is suggested to reorganize the LSO to the Institut spektrallnykh etalonov i khimicheskikh normaley (Institute for Spectral Standards and Chemical Standards). For the-more special analyses 6f pure met- als, for instance, the institu~tes of the proper branches of in-  Standards for the Spectrum Anal~rsio SOV/32-25-4-1/71 dustry, such as Gipronikell, Giprotsmo, Gintsvetmet, VNIITevetmet, VAMI, TaXIIolovo etc ahould be appertaining-An example for passing from the usual small-eicale manufacture of SS for the "proper use" to a common manufactuxe of SS was already given by a firm which prepared a series of' 50 high-quality SS of the bronze Br. AZh 9-4, A sugge5tion for am extended centraliza- tion of the manufacture of SS was also mad.e by the Kamerisk- Urallskiy zavod obrabotki tevetnykh metallov (Kamensk-Ural Works for the Processing of Nonferrous Metals). Gool SS for copper al- loys MT9 2 are issued by the Kaluzhakiy turbinniy zavod (Kaluga Turbine Works). Some shortcomings of the present manufacture of SS are pointed out, and it is stated that in the planning and execution of a controlled manufacture of SS an important part is played by the works laboratories, the technical departments of the firms, the administration of the Councils of Economy, and particularly the Komitet standartov (committee of Standards). Card 2/2  SMITITSKIY, Nikolay Semenovich; KORITSM , V.G., retserment; BREU-I, T.K.., red.; KOZLOV, V.D., red.; BRUDNO, K.F.., tekhn. xtd. [Visual meUods of emission spectrum analysis] VizuaVnye metody emis- sionnogo spektrallnogo analiza. Moskva, Gos.ize,-vo fiziko-matem.3-it- ry, 1961. 314 p. (MIRA 14:12) (Spectrum analysis)  HURAVLEV, Turiy Matvayevich; KORITSKIY V G . retsenzent; IVANOVA, T.F., rateenisent- �K-O.R-I"M;ONvq G.~., red.; KRYZH)VA, M.L., P red. izd-va., MATLYUK, R.M.,'tekhn. red. (Effect of structure on the results of the bpectrum analysis of alloys] Vliianie struktury na. res-alltaty' spektrallnogo analiza splavoy. 14oskva, Metallurgizdat, 1963. 151 P. (MIRA 16:8) (Alloys-Nstallography) (Spectrum analysis)  KORITSKIY, V.G., kand. takhn. naiuk --------- Spectroscopy and its applications; a congress in Minsk* Vest. AN SSSR 33 no.n:120-121 N ~163. (KIRA 17t1)  0-0 9 9 9 w v 0 0 0 41 u a As 040 ilt A It 6.0 Factroull 13 00 f -90 go -0* Kbuk~ -00 jIOWA, .09 me, tim with ~GAIUO w# of II&ANU G. M- : 40 001 00 00 600 see see .00 400 ago age LIT244,11WK CLASSAFKATOON too - ---------- 4.844,; "t, Pv dal 'I'Lli wiiaw Joe W-b S-T-- ad 0 9 Aa a 3 4 v u 11 AV 00 ul" go! 00 0 oll* 00 op 0 0 0010 00 0 0 0000 00 0 0 fy 0 0 0 0:9 0 0 0 0 0 a 0 00 0 0 0 0 0 0 0 OIA