SCIENTIFIC ABSTRACT VLASENKO, G.A. - VLASENKO, N.A.

VLASENKO, G.A. Village or city? Zhil.-kam. khOz. 11 no.1214-5 D 161. (FURA 16:11) 1. Pre&.odatell Straohenskogr) r,ayonn,--wo ispolflitellnogo koraLteta 0 ~bldavsk,.)y  BWAGO)tN, I.A.; VLASENEOj_~G.; KHCDAKOVSKIY, N,A. Organization and methodology of oonducting industrial taste of parts of drills f or wear. Sbor. *~uoh, trud. KGRI no,19.-15-2D 162. (MM4. 16:5) (Boring machinary-Testing) (Mechanical wear)  MA-9UNK0, G.S. o 1995 7 SEE ILC, ZOOLOGY  b.~-YABINSKIYt f * *f V.S.9 inzh.; VLASEI,*K0- G V inzh. D542 wattmeter. Vest. elc:,tropror.. 31 no.12:69-70 D 160. (l,-'Tj-A 14:2) (Watt:,neter)  VIA SENrK.Gl, G. ' -11 USSR/Physics Aerosols Dispersions Nov 48 "A Continuous Method for Ultramicroscopic Measurements of the Particle Concen- trations in Aerosols and Other Dispersed Systems," B. Deryagin, Corr Mem, Acad Sci USSR, G. Vlasenko, Lab of Surface Forcer, Inst of Phys Chem, Acad Sci USSR, 3 3/4 pp "Dok Ak Nauk SSSR" Vol LXIII, No 2 Among many advantages adduced for this method are: less time is spent in measuring small particle concentrations; aerosol volumes are more quickly and correctly measured by the counter system employed; and it makes future introduction of automatic calculation for aerosol particles possible. It should be applicable to many scientific problems. Submitted 10 Jul 48. PA 55A9T81  hemistry - Aerosols 5E- USSR/C jul7A "Flow Ultramicrophotometric Method of Dispersion Analysis," B. V. Deryagin, G, Ya. Vlasenko, Inst of Phys Chem, Acad Sci USSR, Lab of Surface Forces "Kolloid Zhuil' Vol XIII, No 4, pr, 24c,-2;,,'~, Describes method for dispersion analysis of aero- r_4 sols and other colloidal dispersion systems in state of flow by method of ultramicroscopic count of particles. Equipment specially devised &nd used: flow ultramicrophotometers for dispersion analysis of aerosols using photometric wedge for gradually reducing illumination of zone in which 188T3 MSR/chemistry - Aerosols(Contd) JIJI/Aug 5 1 fl,ashes are detd. Measuring aerosol systems (in- cluding water mist) shows comparative ease with vInxich the fractional composition is broken down fobserveA7. Developed graduating method permitting transition from the "optical" to the "geometric radius" and carried out measurements on oil aerosols. 188T3  -~ %,j ~. V. ,VL ~, ~-17-01 G. V~ p -~, Colloids Flow method and a-paratus for moasuring partial connentrati.ons of aeroso-Is and oU-r i - rolloid-dispersa systems. Trudy Inst. fiz. khimii A"., SSR No. 1, 1952. 9. Monthly List of Russian Accessions, Library of Congress, December 195iiF Unclassified.  - - V -I Pt ~ L NI r\ C,, 'I ~L - DIRYAGIN, B.V.. chlon-korrompondent; VLASICHKO, O.Yu. .V, Cont.inuous ultramicroscope. P~riroda, 42 no.11:29-35 N 153. (XIRA 6:11) 1. A)mdemiya nauk SSSR (for Daryagin). (Microscope and microscopy)  DMAGIR, B.V.; VLASENKO, G.Ya., kandidat khimicheakikh nauk Determining the degree of duat pollution of air bv continuous microscopy,. Bor'ba a ail. 2:223-229 '55. (KLRA 9:5) 1. Chlen-korrespondent Akademii nauk SSSR (for Deryagin) 2. Inatitut fizicheekoy, khimii Akademii nauk SSSR (for Vlaoenko) (DUST)  VIASEITKO, G.Ya., kandidat khimicheskikh asuk. Mew"WROWWWO. Results of mass ultramicroscopy used in determining the degree of ust pollution in coal mines of the Donets Basin. Bor'ba s oil. 2:230-234 155. (HLRA 9:5) 1. Insitut fizicheskikh nauk Akadenii nauk SSSR. (DOHVS RkSIN--MIN-9 DUST)  60803 5-4 0 SO'T/124-59-9-10-152 Translation from: Referativnyy zhurnal, Mekhanika, 1959, Nr 9, p 113 (USSR) AUTHORS- Vlasenko.- 0,Ya,,- Deryagin, B.V., Kudravtseva, N,M. Prokhorov, P.S., Woro-iWilova, A.I., Churakov, V.V, ky TTME: Flow Methods for Investigating Atmospheric Aerosols PERIODICAL; V sb.; Issled. oblakov, osadkov i grozovogo elektrichestva. Leningrad, Gidrometeoizdat, 1957, pp 185 - 188 ABSTRACT- Not only the number of particles within the volume unit, but also their dimension distribution can be deter-mined by the ultramicroscopic flow investigation method. For this purpose, an optical discriminator (photometric wedge), maktng it possible to obtain the particle-brightness distribution, was mounted into the target illuminating device of an ultramlcroscope,, A new wedge-graduation method is described; the graduation curves of the dependence of particle dimensions on the wedge position can be obtained quickly, when applying the method mentioned. The authors report on the flow method applied to the study of the Card 1/2 atmospheric condensation nuclei. For this purpose, a simple VV'  80803 SOV/124-59-9-10352 Flow Methods for Investigating Atmospheric Aerosols accessory device is developed for "revealing" the condensation nuclei con- taining In the atmosphere. This accessory device consists of an air- moistening chamber and a cooling channel, in which vapor condensation on the condensation nuclei proceeds. The condensation nuclei, enlarged in this way, are carried away by the air current, arrive at. the cell of ths- ultra-microscope, and can be recorded by the observer. The optimLLM opera- tion conditions of the device were determizzied experimentally. By the ultra- microscopic flow method, the automation of registering aerosol particles or Arevealed" condensation nuclei can be brought about, The design of an auto- matic counter developed for this purpose is presented. 1his ~_ounter carries out the registration of aerosol particles of high numerical concentrations without failing. S.V, Severin Card 2/~  S106 61/023/002/007/G08 BI 01 YB208 AUTHORS: Deryagin, B. V., Churakov, V. V., and Vlasenko, G. Ya. TITLE: Flow ultramicroscope with automatic count of aerosol particlest PERIODICAL: Kolloidnyy zhurnal, v. 23, no. 2, 1961, 234-237 TEXT: The dust content of air is measured with a flow microscope by visual observation of the dust particles flashing up in the light. The visual observation is, however, tiresome. The present paper therefore describes an automatic counting device. Fig. 2 presents the scheme of this apparatus which uses a BAK (VDK) ultramicroscope. The aerosol is sucked into cuvette (1), and passes through the illuminated zone (2). The light scat- tered by the aerosol particles is focused by objective (3) to the cathode (4) of an ~3Y-19 (FEU-19) photomultiplier which is at a distance of 500 mm- In front of the photomultiplier there is a rotary diaphragm (5) with apertures of 0-5, 1.5, 7-5, and 30 mm diameter for adapting the light intensity to the aerosol concentration. If the apparatus is remote-control- led, (5) may be mounted on a SA-404A (BD-404A) selsyn motor (6) which is Card 1/4  3/06 61/023/002/007/008 Flow ultramicroscope BIOIYB208 driven by selsyn~motor (7). A 75-w and 10-v lamp of the type K-21 in Fig. 2) wan uood as IIght source. The optical discriminator (8) with 5 apertures containing neutral gray glatia filterii of difforent donnition was used for subdivision of the particle size. (8) is fastened on uie axis of a CL(3 (SChZ) telephone relay (9). The latter operates Aen the contact is closed on disk (10). Simultaneously, the two-way cock (11) on the axis of (10) is opened or closed. (10) and (11) are driven by electric motor (14) (15-20 w), The other end of the motor shaft drives air pump (15) which produces a partial vacuum of 20-30 mm H9. When (11) is open, the aerosol is sucked in, When (11) is closed, (15) is connected with (1) via capillary (12) and U tube (13), the change of the liquid level in (13) being equal to the aerosol volume sucked through (1). The voltage of the photomultiplier is increased by pulse amplifier (16) and conveyed to mechanical counter (171P In order to be independent of voltage fluctuations in power supply, the photomultiplier is fed by PG-300 (GB-300) batteries. The aerosol concentra- tion is calculated from the following equation: N = na/V (if = number of particles in 1 cO, n = number of particles obtained by the counter. V = volume (cm3) of aerosol sucked throu6h the cuvette, a = constant for the corresponding aperture of the rotary diaphragm). This device allows to Card 2A  S/069/61/023/002/0r,7/008. Flow ultramicroscope B101/B208 measure aerosol concentrations between 10-107 particles per cm3 without d .ilu- tion. It records purticles of a diameter from io-5 to 2o.io-4 cn approxi- mate~y. Determination of aerosol concentration and division into five frac- tions according to particle size taker, 7-12 min. A. Ye. I'likirov an,.' A. G. Laktionov are mentioned. There are 3 figurer, 1 table, and 6 refer- ences: 5 Soviet-bloc and 1 non-Soviet-bloo. The reference to English- languaa,~ publication readsas follows: F. T. Gucker, C. T. OlKortski, J. Amer. Chem. Soo., 69, 2422, 1947. ASSOCIATION': Institut fizicheskoy khimii AN SSSR, Laboratoriya poverkhnostnykh yavleniy (Institute of Pl.ysical Chemistry of the AS USSR, Laboratory of Surface Phenoi,4ena) SUBMITTED: April 28, 1960 Card 3/4  Flow ul trainicros cope to BI 01 YD208 Legend to Pig. 2: a) reductor; b) the rolay of tho optical diuoriminatorl ..c) remote-control unit 144 8 OAL_ 7 j 001 6 .4 1 ff NPW 00 A9 S/06 61/023/002/QO7/000 Card 4/4  L-06543-67 --- MCI) - _JK ACC NR, AP6020683 SOURCE CODE: UR/0016/66/000/006/0083/00881 el AUT11OR: GGromyko, A. I,; Vlasenko, Xa'* jerokikh, 1. 1. ORG: Virology Institute, Academy of Medical Sciences,SSSR;(Institut virusologii im Ivanovskog'o AMN SSSR); Institute of Physical Chemistry, Academy of Sciences,SSSR- (Institut fizicheskoy khimii AN SSSR, Moscow) TITLE: Determining the physical parameters of viral aeros- s.Report 11.Using con- tinuous ultramicroscopy to design working conditions for aerosol chamber SOURCE: Zh mikrobiol, epidemiol i immunobiol, no. 6, 1966, 83-88 #610n7F01C,09A- OHINMIOFIV, TOPIC TAGS:A aerosol, biologic aerosol, viral aerosol, ultramicroscope, aerosol cham-- ber, visual control, dosimetry, medical experiment/1VK-2,6iomzo.,c.9, chamber, VDK ultra- microscope ABSTRACT: Continuous ultramicroscopy was used to determine concentration and dosimetry of viral aerosols and the results obtained by this visual method were com- pared with previous theoretical calculations. Continuous ultramicroscopy had been found to be the best empirical method for obtaining data on the time required for the attainmnet of a maximal equilibrium concentration in an aerosol chamber, and for the evacuation of aerosol from the chamber. An aerosol composed of a suspension of mouse lung tissue containing either influenza virus(;(strain Pr-8, type A) or ornitho- sis virus (strain psittacosis Lor.) was -used. The aerosol was produced in an IVK-2 UDC: 616-022.1:  L o6543-67 ~ACC NRt 'AP6-020683 0 aerosol chamber by an atomizer consisting of a metal sprayer mounted in- a glass globe; the size of particles leaving the atomizer was measured microphotometrically, Using a type VDK continuous ultramicroscope, "flashes" produced by particles crossing the illuminated zone in a given time were counted. The rate of flow was regulated to produce not more than 50-100 flashes per minute. When the given number of particles had been registered, counting ceased and the volume of air which had entered was measured. The conimetric concentration of the substdnce (n) was calculated by the formula f d W where N is the number of "flashes" counted, w is the volume of air, and a is a con- stant of the device for a given opening of the atomizer diaphragm. The particle- size composition of the aerosol was determined by the sedimentation method, using a modification of the Stokes-Cunningham formula for the radius of the particles. In the simplest form, this formula was: e-3,34. 10~1 Cx where t is the time in seconds of particle settling. Table 1 shows the rate of settling in relation to paritcle radius Card 2/5  L -06543 _-67 AP6020683 Table 1. Relation of rate of..5ettling to radius of aerosol particles. IIe a 1 settling (in sec) : P arhicle ra ius ~I ( in 1j) Particle Time of iu lsettlin in v~ (in sec~JW 1 1 3.31 25 0.67 5 30 0.61 8 1.19 35 0.57 10 1.06 40 0.53 12 0.96 45 01,19 Is 0.86 50 0.47 17 0,81 55 0,46 20 0.75 60 0.43 22 0,71 Table 2 shows data obtained using continuous microscopy on the time required to pro- duce a maximum equilibrium concentration of aerosol in the chamber. Card_ 315  L o6543-67 20683 0 Table 2. Relation of degree of chamber saturation with aerosol particles to dispeysion time.\ ..3 fla Number of aerosol5 par3 4 ticles (in 1 X 10 Cm 5 1.6 1.3 1.3 - 1.4 8 3.8 2.8 3.8 4,1 3.6 10 7,7 8.2 7.2 - 7,7 15 6.7 6.2 6.5 7.8 6.7 20 6.9 6.2 6,5 7 6,6 25 8,2 7.2 8.2 6.2 7.4 These results were compared with theoretical determinations using the formula t = 2.3-v/L (v = chamber volume = 220 1; L - input rate of atomized aerosol - 38 I/min), which showed the time required to obtain an equilibrium concentration to be 13.3 Mir; the result using continuous ultramicroscopy was 10 min. Atomizing the ornithosis suspension for the period of time needed to create a maximal equilibrium concentra- tion produced an aerosol which would kill 7-8 g mice exposed to it for 1 hr in 5-6 days. Using continuous ultramicroscopy, the time needed to evacuate the viral aerosol from the chamber was determined visually.  06541-67 AC N R: AP6020683 Table 3. Degree of evacuation of aerosol from chamber in relation to number of air changes Number of changes 8 C i'4 IM .9 ~' al Background 0.03 Before removai 7,75 First air change 0,3o Third air change 0,15 Fifth air change 0.03 Tenth air change 0,03 Previous studies had shown that the chamber would be sufficiently disinfected after three air changes; however, continuous ultramicroscopy revealed that only after five changes does the count return to normal levels. These data demonstrated the expedi- ency of using continuous ultramicroscopy, based on the principle of counting aerosol particles in a continuous air flow, to study the physical properties of biological aerosols, and to determine their concentrations and paritcle sizes. Also, it was established that this method will determine the time necessary.for maximal saturation of a chamber with an aerosol with sufficient accuracy. Orig. art. has: 2 figures, 3 tables and 5 formulas. [EL] SUB CODE: SUBM DATE; 2lMay65/ ORIG REP: 022/ OTH REP: 002/ Card 5/5 J~  .7 - j,:fJT(1VT J K L _0586~6 1-ACC NRi- AP6024444 SOURCE CODE: UR/O AUTHOR: Groqrko, A. I.. Danilov, A. I.; Vlasenko G. Ya. ORG: Virology Institute im. Ivanovskiy, AM SSSR (Institut virusologii) TITLE: Determining the physical parameters of viral 11310' Report II. Studying _Zi_jaM=O I the condition of an aerosol cloud in the IVK-2 chamber and the significance of observed shifts for dosimetry of an infective agent by aerosol. SOURCE: Zhurnal mikrobiologii, epidemiologii, i immunobiologii, no. 7, 1966, 94-97 TOPIC TAGS: aerosoA aerosol chamber,ydosimetry, virus disease, aerosol infection/ M-2Achamber OL~%L40JL ABSTRACT: The objectives of this study were: to determine the ccncentration of sub- stances dispersed in aerosols; to establish the dependence of concentration on time; to clarify the fractional composition of aerosols; to calculate their gravimetric (weight) concentration; and to determine the quantity of aerosol entering the respiratory system of an animal during exposure. The greatest reduction in particle concentration in an aerosol occurs in approximately the first thirty minutes; however, between 30 min and 2 hr the concentration does not change significantly. Knowledge of the quantity of particles and their concentration by weight is necessary in deter- mining the quantity of aerosol substance aspirated by an animal; it was previously established that an hour's exposure to aerosol was sufficient to produce infection, card 1/4 uDc! 616-022.1:/576.858:615.417.  Xed NRt -AP60i~~-44- --C)----" but the shifts in aerosol concentration occurring during a given pericd weere not considered. Weight concentration was deterrdned by taking particle weight as equal toi volume and using standard computational methods. Thus, knowing the weight concentra- Table 1. t d ang ' ' e in aercEpl t Ut ra concen nf spraying n c e r ansa am ar r Qf rosol Table 2. Fractional Compostdon LeSeN10-5-3 1C Time in-' n I . CM3 of aerosol after injection into, . .terval-'-. ( ) f, min FL Diameter o I 0' '. B~~igr UP'& 0.01 7,73 0.07 8,22 - 792 - - aerosol r. 0,04, I 7,77 particles 7 6.2 8,8 - 7 3 - (in y) !2 10 6.8 7 5.6 6.2 6 4 15 5,2 5.2 5.6 5.2 5.3 (1~-I 4 12 10 6 8 0 20 20 6.2 5.6 6,9 5.2 1 6.1 1.5-1 1 - :7 80 80 &5 90 84 70 25 4.4 5.2 3.4 3.8 4.2. 2-J 10 6 3 4 8 10; 1 30 5.2 4.8 5.2 5 2 5 ' ~-4 6 2 2 33 3,6 3,8 3.8 4 1 :8. , 3 40 3,8 4.1 4.1 4A 4,1'. 45 3.8 3.6 3,9 - 3.7 60 M 3,2 3.6 3.6 3#4 75 3.4 396- 3,3 3.4 394 90 3.4 3.3 3.4 3.6 3.4 105 2,9 3.2 3A 2.8 3,1 120 2.6 2.3 3.4 3.2 2.9..: er 24 hJO,03 0,03 06 0,04: -AfIt  j~ Q58-66, 67 I-Act-INIR. Ap6o~444 'Table 3.-'-quantity of various asize in chamber at different time intervals ;Time 1~vmb r of partiCles n hj afte. u 1510 linjec- r;Z n 1 it ion 0.5 0.3 1.2 1.6 I I A kx_.~ (in min) I Table It. Gravimetric (weight) concentration of virus-, containing material in an aerosol cloud at various intervals aflgx--in~ection-intn..Cl-iAmbpr To ravimetric concentration (in Total 3 ty after m fbr pardales cfradius u) quanti . g/M nje ti or sub .(i ~ 0.5 0.5 1.2 -1.6 stance i 1 3). :, I I (in mjz : /M ____ - - ' ' 5 15.2 1226.4 518.3 749 2508.9 5 2.92 58.4 7.3 4.38 73 10 39.9 1075.2 272.6 218,9 GW,q 10 7.68 51.2 3.84 1.28 64 11459 - W 20 31.7 108818 129.9 208.6 6.1 51 85 1 83 1 22 61 30 15.9 063.9 144.8 - 1124 6 30 3.06 45:6 2:04 51 45 15 4 652.7 210.2 878:3 45 2.!)G 31.08 246 31 60 35:4 Soo - 241.4 776.8 J GO 6.6 23,13 3A 31 tion and dispersion composition, the amount of material entering an animal's respira- tory tract may be determined for any moment in the exposure period, using the formula D = C-V-P-t (C= concentration of aerosol substance in g/ml; V = respiratory volume of animal in ml/min; P = weight of animal in g; t = time of exposure of animal to aerosol). The following data were obtained on the amount of material aspirated by mice in differing time periods: 1 - 5 min - 0.1 mg0f substance absdAed; 5-10 min - 0.06 mg; 10-'20 min - 0.12 mg; 20-36 min - 0.009 mg, 30-45 min - o.1 mg; 45-6o min - 0.09 mg: The methods currently used in determining the fractional composition of aerosols do not Card V4  L-o5P 66- 6 -ACCURs yield absolutely accurate results and the possibility of using photoelectric devices to automate the counting of aerosol particles is considered. Orig. art. has: 4 tables. [ELI SUB CODE: 16, o6/ SUBM DATE; 21may651 ORIG REF: oo4/ oTH REF: 003/ A9a=RBB3r,4 kh Card 4/14.-  VLASENKOJI A.V. Banded structure of miaskites. Sov. gaol. 6 m.7:140-143 ,T1 163, (MIRA 16:8)  'VLASENKO, A.V. Geological stmewre of the Ili-Khem gold deposit. Izv. vys. uchab. zav.; tsvet. mt. 1+.no-4:3-9 161. (MIRA 14:8) 1. Severokavkazakiy gornometallw-gicheakiy inst~itut, kafedra mineralogii i petrografii. (K~rtushubinskiy Range--Gold ores)  VJAb7MO, A-V. Armhibolites in the Illmen Hountaino. Naiich.dokl.vvs.shkolv gool.-geog.nauki no.2:78-82 '59. (MIRA 12:8i 1. Ordzhonikidzevskiy gornyy institut. (Ii'men 14ountains--Amphibolite)  VIASENKO, A.V. Anorthoclass in Il#mon Mountain alkali rocks. JWUch. dokl. Y73. shkol3r; 9001--960g. nauki no-3:124-126 '58. (MIRA 12:1) 1*UrdzhonIkAdzevskj)r gsrnyy in~titut. (Il'men Mqunt&ins--Rocks, Igniusus)  VIIA.SL,1.1?:O, A. Y,-,-,. Beets and Beet Sugar Sugar beet cultivation in Uzbekestan. Sov. 10, no. 2, 1(1)5". Monthly List of Russian hccessian~, Library of Con.gress, ',av 119r,2., Unclassified.  USSR/Cultivated Plants - Commercial. OII-Bcaring. Sugar-Bearing. M-5 Abs Jour : Ref Zhur - Biol., No 7, 1958, 29890 Author : Vlasenko, A.Ye. Inst Title : Agrometeorology, Agrotechny and Bush Structure of Cotton. Orig Pub : Sots. so kh. Uzbekistana, 1957, No 5, 17-22 Abstract : No abstract. Card 1/1 - 14 -  -1 VIASY11KO, B.; GEORGIYEV. K. State standards for canned steved meat should be reconsidered. Mias.ind.SSSR 31 no.5:31-32 160. (MIRA 13:9) 1. Yesaentukoki7 konservny7 zavod (for GecTgi7ev). (Meat, Canned-Standards)  VOLYNCHIKOVp N., inzh. (g.Lebedyan'); ZAMKOVSKIY, I.; OKNER, Kh.; NIKOLENKO, M., inzh.;-191~ENKO, ~.- (g.Krasnodar) The reader continuos the discussion. Sov. profsoiuzy 18 no.8: 26-18 162. (MIRA 15:4) 1. Predsedatell mestkoma sluzhby vodosnabzheniya st. Simferepoll (for Zamkovskiy). 2. Predsedatell postroykoma stroyupravleniya No.3 tresta "Promstroy", g. Dushanbe (for Okner). 3. Chlen mestnogo komiteta proyektnogo instituta "Mosbassgiproshakht", g. Tula (for Nikolenko). (Socialist competition)  VLASERKO, -Georgiy. Yf-fimovich; GLUZBERG, M.M., red. [Active, industrious, built of reinforced concrete] Zhivoi) trudovoi, zhelezobetonrori. KbarIkov, Frapor, 1964. 136 p. (VIIRA 17:12) 1. Predsedatell ispolnitellnogo komiteta Kharlkovskogo gorodskogo Soveta deputatov trudyashchikhsya (for Vlasenko).  VUSENKO, I. Work organization with collective farms in the main brinch. Den. i, kred. 21 no.8%63-66 Ag 163. (MMA 16:9) 1. UpravIyapinheMy Petrovskim ofdeleniyem Gosbanka Stavropollskogo kraya. (Petrovgkiy District (Stavropol Territory)--B&nks and Banking) (Petrovskiy District (Stavropol Territory)--Collectivo farmn-Finance)  STDOLIR, M.; SOCKHM, 0., tekhnik; VIASEM, -L. tekhnik We are using local building materials. Sill. bud. 7 n0-5: 11 Kr '57. (MIRA13:6) 1. Nachallnik Boguslavokogo rayonnogo otdela, po stroltd- stvu v kolkhozakh. (Boguelay District--Building materials)  TiASMO, I.-., iuzh.; BMMLDM, T., inzh. And where Is the lobby? Znan.ta pratsia uo,3:28~-Zq mr 6o. (XIBA 13:6) (Kiev-Sabways)  VLASENKOY I. Erroneous istyle of supervision. 14est.prom.i khad-PromYs. 3 no.3:31 Mr 162. (MIRA 15:3) 1. Direktor Toguchinskogo derevoobrabatyayushchego kombinata,, g. Toguchin, Novosibirskoy oblasti. (Toguchin-Woodworking industries)  V i A 7", "T1 11 'fhart is 1), tt,~,r. "o-st :lron, J- udl.prcrys. 2 n-~ .4 5 "1 1. Dirt-1--tor T(-),,,7,-uchinsI-oro (:cro7.oc-)brab--tyv,,tytirliclic-;o -blast'. birskrwa r (I-xvosit,J.rsI-- -'industries) (W'a-fe Payment systona)  38189. Vlasenko, I. A. Transheynaya kulltura tsitrusorfkh na Ukraine. (Opyt Botan. sada Odes. gos. un-ta). Byukletent Glav. botan. sada, vypts. 4, 1549, s. 48-51  VIASKUKO. I.A.; DOMBROVSKATA. M.V. Effect of prolonged exposure to darkness on chlorophyll content in citrus In trench culture. Doklady Aked. nauk SSSR 82 no.3:465-J;68 21 Jan 52. (CTMI 21:5) 1. P~reaented by Academician A.Te. Arbuzov 21 November 1951.  A Authort Vlasankop I.A. and 'Jomborvo'kaya, U.'V. Titles Dynamics of carbohydraten in citrus plants onl;jr conditions of trench cultural Journalt Doklaay AkMeali flauk SSSR, 1951v Vol-77t No-It p. 125 Subjects Platt Vhysiolog7 Froms D.S.I.R.  CW Us 4yn mica of carbohydra(its in Citfus Pants %W441 all conditions d trencl; cultw* J, A % .With Mill M 'to 'M;. : Ply 14dy .11144 rhintl V%kAYA ((WV%~A StAte t, , Nauk S.S.S.R. 77. 124-7(19.51 total vArbohytirate 4-1-rilent djoM its the beginning of Viinter (Dectinher) in Ncw-Cetirgiatit lemem and in Vushiu tangerine; this appears to be the revult of decreased amt. of light in the trench dur. ing this pericid. The Meyer leffm anti Washfilglon Davirl #)r.inge maintain a high level of curbithydrults, owing to their Lick of sensitivity to shade. The WIAI CaVlXJhYdr8lCX tit the leuvri of I it anti 2nd new th4x)ts (in all the PLIA, I ~vhirh 4evelop in the "t remifs ir"itst. over jaijua7- .Nf,Lrrft iti long ai the trinp. i% rither crinot. and low (1 -3 ki~ hkigheir teruji. (4-26*1 the '**r% Georgian Irinon aftil 11;r a lem-M show, a .50% decline in tolal carfinhydiAle!, (forn Friontary to Alyril and virnr 25-1n% of the no. nf lcavr,arr shcd in this lwFiod. The fr!,ollsithow that undt-r prcAuctictit cmiditimi% it is ,,.tti4fjettwv to cover the pUnt Ifenches with I'lMique malerw% withlitit vi,ible 1141n) to thr jilAtits during the winter nionths. G. S1. K.  - 1. VLASENKO~- I.!-. P. USSR (600) 4. Agriculture 7- Cultivation of citrus fruits in the southern Ukrine. Odessa,Obl. izd-vo, 1951 9. Monthly List 2.f Russian Areessions, Library of Congress, February, 1953.Unclassified.  Vuts-~IIKO, !.A.; BABrIlKO, 'V.I. Phyoiological characteristics of durum winter wheat. Va:;Ch-. val". Od. ped. inst. 25 no.2:120-124 161. (1-J11RA 18:2)  VLASaKO, I.A. DCHEROVSKAYA, N.V. Photosynthesis, Chlorophyll, Citrus Fruits Effect of prolonged exposure to darkness on chlorophyll content of citrus in trench cul- ture. Dokl. AN SSSR, 82, No. 3, 1952. Monthly List of Russian Accessions, Library of Congress, June 1952, Unclassified  losy;nthesis., "hi.-Ophyll, 'itms .-ruit3 -IOU ~ to -r'A-.nS5 on i~ff,~Ct of chloro;~hyll cont2nt of ;-r Lur,!- Uncl. Russian Accessions) Library of Congresop Sot Monthly List 2f  le k# of carbolty4talles In dtm leknis soldier 1.14111=1"trosch caftiars. 1, 4niellow"kO 4nd N1 ~ VI A4164Y .4 k.#4 A1,116k S,N.S.R. 77. 125-7#(Mftt)~ -The Will mitobveltiolo 1'"otefit (Ilop. in the Isegineling of olinter 111c%vember) in N-C-roreti,sii lcuum AM In l'u-blis Unge"ar; these apl,ems to be *he froxill of (Imesoml nine. .4 Wit In the trench dair- Ing this perlool. The Moyer lertion terol Witolaington n4vrl orinse inalestain a high Irrel of nuboleydralps, owing to thriv, Lick of stensitivity to shAdr. 'no toul rarflohydrAlve so the letvr% of lot -,tn,l uriv ishmits, (in till the pl.ossni in the shatle frotdill melt. uvvf JAIIUWV - go the froill, it rather C'ma. ideal low (1 -36, A. he ,nip. (4-LMOV) the Now Ovorgian letteint Aml FurrkA kimm ithow a W'70 derline In total c-.oyhohydrAlm fingn P-Iwuaty to Apdl Rtul wime 21S.10% of The no. of 1"V~ air alulf In this preitill. Thl, "-soilit allow that undtf pr-l-tion -uhtions it I% %m.(~-torv to enter the pLoet Irron-be-i with otvorie inusterial. withmt vi4blir hAtm to the pl.sms during the "inter swuniths, 01 M. K.  40V.Vw. - . 57 `77' Grullnuou- t lemmlertwoppic Melhiml uf Dfalwrolon Anxlysl- ot' Arro,"Pt. anti fly4roools. 14 V. IN-migin .111ti C I...T%lof-Itlo, Voltak Akodrinii SmA SSSII. t~ 21, Nlj~ 1951. p. &-,A ', , At.)%,- i-tluxl o1 '1114I)MIg tIld t"llopff..) '11.plwoll~ j, bru-H) tlr~filll and  T. G. Use of fertilizers Mensk, Balarunkata aI-a,.!cni.La navijk, 1931L. P; I). 6 . 1. Fertilizers and manures.  _VL t-71 USSRA4edicine Veterinary, Coccidiosis; Drugs Card 1/1 Author Li, P. N., Aspirant, and Vlasenko, I. P., Veterinary Technician Title Treatment of coccidiosis in calves with osarsol Periodical Veterinariya, 31, 42, May 1954 Abstract Treatment of coccidiosis in calves is discussed. The treatment consists of administration of the drug, osarsol, and milk per os 3 times a day. Therapeutic dose of osarsol is between 0.2-0.5 g, depending on the age and weight of the animal. The course of treatment is between 4 and 6 days. Institution All-Union Institute of Experimental Veterinary Science Submitted  LI. P.N., aspirant; 'FUSEU0, I.P., veteeinarnyy tekhnik. F Acetarsone therapy for coccidiosim in calves. Yeterinarlia 31 no.5:42 Ny '54. (KM 7:5) 1. Vaesoyusnyy institut eksperimentallnoy YoVeftowli (for Li).  VLASENKO, I.P., inzh.; SUKHOMLIVOV, R.M., inzh. Study of the stresses in the pistons of the ZMW diesel engine. Teplovoz.i sud,dvig, no-3:138-163 162, (MM IW) (Diesel locomotives) (Diesel engines)  VLJISL~11..-~Cy LP.S, ,,ekhri. nw~!- the frequencies of torque vibrations of the shaft of type P100 diesel generatcra. Vest. TBITIT I-ffS 24 no.6137-39 I f1i ~ . (MIRA 18.-9)  7a (MIRA ISO)  VT Op P', p kand . te I, i~.V Torsional vibra~-,ra cf shift of' r",p generatA:,rao 76-st-w-ashimostr. 45 no.9'17-210 5 165.  VLASaXO, I - S.. ~ Some conclwions to be derived from the eVerimental use of alternating current for the electrification of the Krasnoyarsk Railroad* Zhel.dor.transp. 42 no.8:10-16 Ag '60. (HIPA 13:8) 1. Zamestitell nachallnika Krasnoyarokoy dorogi. (Railroads-Electrification)  VLASENKO. I.S. Krasnoyarsk Railroad Is preparing personnel for work on electric loconotives. Elek. I tepl.tiaga 2 no.4.'7-8 Ap 157. (MIRA 12:3) 1. Zamestitel' nachallnika dorogi po lokomotivnorV khizyaystvu, g. Krasnoyarsk. (Krasnoyarsk Territory--Electric railroads) (Employees--Education and training)  VLASF.Tlliro, I.V.v inzh. Dynainic take of iJis initial temperatum of gas TO gas turbine systoms. Teploanergetika 11 no.4:57-.60 Ap(164. WRA 1. Nc-vsr'.--,y zavod imeni V.';'. Len:~na. 17z6)  STEMPKGVSKAYA, L.A.; VLASFKKO, I.V.; HITELIMAN, B.Yu. Removal of zinc salts from waste waters on a semi-industrial.anit. Khim. volok. no.1:33-36 162. (MIRA 18W 1. Institut obs'hchey i neorganicheskoy khimii AN UkrSSR (for' gtempkovska~a, Vlasenko). 2. Kiyevskiy kombinat (for MitelvmAn).  ACCEMON 01 APhOL%25 AMOR# Tussakov I* V* (ftemer) TMEt Dynamic ova shoot of the initial g" twQmtsre T. In g" torbins Instal- lotions SDURGZi Teploonergettkap no. 4, 1964., 57-W TOPIC TAGSt gas tumbine 4art up, turbine temperaturo trazwl"# transient gas turbine operation# turbine temperature ov hoot =MTt The dynamics of the turbine temperature overshoot during a cbege in operating conditions were considered f or the configuration shown in Fig. -1 on the Enelosuro (where the vol=e 3 irmiudea the combustion chomber volum) with the go2lowing assumptionas quasisteady conditions,, instantaneous combutLon cbsnepap constant compressor and turbine M% during the transiant Tho dynamic equations yI934 the following aqwession for IaTfto8 UCW02/3- -7  Acusaw at AW25425 di x e,r,. I' K, CT.-P-.-j-r dP do 00 (vheree fuel oonmuiption, Gg flow through turbine# flow through compressor., m - polytropic indext TS - compressor outlet temperature,, &at -Mlto ~ststic). Thus the temperature overshoot in Independa* of the v~lumie between the compressor and the turbine, which effects only the duration of the process, Even for dubstantial voluens the temperature ovwshoot is ruched during 0*1-0*2 seconds which supports the assumption of corstant RM. The parbiel has the major ap Oversbooto Origo art. base 24foavdas and 2 figursee Influenm on the topwatw" ASSDCIATIONs zVoy savad In* V. I., Zadna (Iffeldy Nechins, ionic=@ 00 DATS ACQs 20kpQ gas 01 IM Ct ND IW 30s, 000 000 i  -7- ACCESSION MR, AP4oosigas J, co, (ti of Card 313  MHOMOVA, R.I... VLASEVKO, I.V. Extraction method o-f detemining the moisture of freve-ficawing materials. Zav. lab. 30 no.11:1332 161+ (MIRA 18:1) 1. Institut avtoinatiki Gosplana UkrOSSR.  OGNEV, R.K.; VLASENKO. I.Yie, Causes of crack forviation in impregnated electrode production. TSvet. met. 38 no.8r60-64 Ag 165. (MIRA 18:9)  OTMV, -M.; ~~ISPMZLO, 1, e. Heat dilsitsition and shrinkage of carbon materials saturated vith petroleum pitch. TSvet. met. 37 no.10:48-50 0 164. (MTTIA 18:7)  ARDRYUSHCHENKOI F.K.; VLASENKO, I.Ye. Cathodic and anodic polarization of titanium in fluoboric -id solutions. Izv. vys. ucheb. zav.; khim..i khim. tekh, 6 no*3: 1+55-458 163. (MIM 16:8) 1. Kharlkovskiy politekhnicheskly institut Imed Lenina., kafedra tekhnologii elektrokhimicheskikh proizvodstv. (Electrodes,, Titanium) (Polarization (Electricity)) (Fluoboric acid)  47 T r"J' ACCESSION NR APS('Oi~lpl AUTHM Gjpn!L_~. K., Vlasenko, 1. Te. Thertral expansion and contraation of pitch iru'premnated carbon materiale Tavetnyye metally, no. 10, 1994, 48-5n ITOPTIC TAGS: carbon, carbon product, heat contraction, heat expansion, pitch Abet~ract: Measurement of thermal expan-ion and contraction of carbon ,'.ffpedi.mena was accorplished on an especially designed apparatus. Specimens, 71 160 i~= long and 60 mm in diameter, were used in the experiments and were ' seleQted from industrially annealed billeta. AGEap~ite powder was poured In th2 container to protect the 3pecLmens from QXWaLton. Each specimen was tested twice: f irst, in the non-Ijapregnated condi- tion, and after impregnated with induntrial pitch. The noa-impregnated carbon specimens, sittilar to most solids, were subjected to thermal expansion during heating and to compression during- cooling, The coefficients of thermal expansion were different in directions: parallel and perpendicular to the compression axis. AnLaotropy of the phyaical properties of graphite-carbon materials is Card 1/4  L 2507-65 ,ACCESSIOU UR: AP5W,303 explaiqed by the anisotropy of their structure kormed in the Zeepreaston' of the carbon maes: aolid particles -)f coke in coa-iression on breaching presses are arranged with their 'bong aidea nainly along ttie eomp;-esaion axis. 1 expa.7isLor) of the i i-estigated carbon Up to 6500C the Inear therna materiala is deacribed bry Ehe following equztiunn: parallil to compression IDX in ct -20"~, psrpendivu)ar to the compression ax is 6iflevencc betw~fzven t he e r-T~ a n 4. 1n0 7~ rer 14 1 A 11 d axiz, the transition from one regularity to atscrt4er ia a c c o mp ia i e xic t-- P 9 5 uniformly. The behzvfor of the pitch-impregnAted Ep-actmens during heating is d J f f ere-t f r~m~ t ~ie 'Ir belha-, - ' ~-, -' - v I IrIll. Under therie conditiona to "lie Propertlea of the -'49E~ n;~terl~' ~ Ire acder" "ntf! Pcop-et .cauced by the physical and chemilczl transforL-til-Ions of the pitrh. Card 2/r'.  ACCESSION NR: AP5006~03 Change in the length of the Impregnated 9P:ecimens during heating as opposed to their length at the corresponding temperatures in the non- _~mpregnatcd state is shown. in the interval 500-900% thermal compressicn of the impregnated carbon material is observed, caused by the formation of coke from the pitch. The valumetric compression of the pitch begtna at 2700C and it is especially notlcenbli~ in the interval 370-550c)C where an intanaive liberation of the volatile oubstnnees occurs; tte pitch looes 55-70% of its mass. However the pitch still contains volatile fractions and, gradually losing them, it goes from the liquid to the. viscous stage and later to a plastic state; it is contracted in volume and it is not able to marge tho more stiibly linred particles of the annealed waterial. At tem-peTatues eKceedinE, 500-5700 G, the cohesive strength of the particles of (~olce and semi-cake forred from the pitch is compared to the cohent-re strength :)-L- par,~clf_-3 et the baac material, and the compression process of the secondary coke ts accoz-apanied by the compression of the entire material. The compression process proceeds quite intensely in the range S50-800 0 C. At hieher teeperatures the coa-preasion process gradually subsides -- the prop- ertkes of the secondary coke approrimate. the properties of thii primary coke Masa. Card 3/4  L 25407-65) ACCM1011 11R: AP5006303 The capAbilfty of impregnated carbon matecifils for thermal compression is a very important property which must be considered when compiling graphs of the heat treatment of impregnated pr9ducta. To prevent the cgacking of the impreg- nated products their heating in the range from 500 to 850 C should be conducted at a reduced rate. In induatrLal treata with tne products heated in this range at the rate of 1450 C/hour, there was 50 breakage; product& heated at the rafe of 1100CAour had 25% breaka-ge, while Lhere were no cracks in the producta heated at the rate of 550 (-Aour, ASS,OC1AT--',%i none 3MITT'rED i 1 00 F"Ic L: cp~~ ILD SUB CODE: MTt NO RYF SOV! 003, i PR S Card 4/4  2400.5 D247/M05 AUTHORS% knduush.-ht---nko, F.K.., and Vlasenkc, I.Ye~ TITLE: Cert.ain properties of titanium in scj~tT.:Drs PERIODIG'AL: ZhArr,,:.,1 p-iklaJi-ioy Kli~Jnil, it. 34, no. b, 1961, i2c)fs .. - Z- ~ 1,1 TEXT: Among ',he eie t,:-'.j'.eo re~,Qmmetiuf-.., I.or use in app1ying tita- nium (Ti) me"al '1%9~ to Ti 3 a group pre..L.-z, It F- ions inhibits the c. T i , A r 17,;,-) A, -n t r) IL 11, -F i nu P o u s soiu--Ion e E: n tra t.Lc, r, (, " 00 1 s 'su f fl e n t t o n c,, t pa ra on c 4f su r f ace 'I o r applying a metat earr:,i-l -.,ut In eolu~i,--i.:,, cortainirig 11F. batisful,,to!y wit.-, the 11 'wise .,ias ob- ~aj'ned by anod--, v* thr- T1 :wc'u,.e ill i 3o~u,.-,(,n of HP eThylenegly~o. .i'~ ~f via,.er added. F~-,: :zinc- Curd 1/5  14(00~- 1 4,, C 6/C 7,' Ce r T. a-. r: et r o .-ii emi D2 4 7 /D';' pla4 I n f TI an ~: '~ny'Lf.-nt-r' ,,ion of Zn fluorLde Rnd HF uas Doi used ana for copper solutJon of C, _i hydrof luo- borat,,~ in water was 1~sea. Tne r:-Iesen-, paper des'- ribeL3 exper-Imental studies of the process of solu * _-o-n ana elec -..rochemical behavior of Ti in HHF,' solut'c.n'-, D~-.,_,rminatione vik,-re made of the ia!~e of T! dissol,,ittaon ir, a-,ids of 1--ary-ng romj,~)tntlon ar;.d the for,m of TI t*rans_,z-_-I,')n into so-l-,t-ion -and .he p,I-.en-Iai of Ti and redox poten- tial of the raedium were rpeasured. "I"'ne apparatus used is shoran. De- terminatatins were made, in a stream t.,f 112 passed through the appa- ratus. T.1 and P, eie,_-trode rjcjter.~I.alo were r:ieasured witli a cathode t pe vol~me-ter. A4-.r,,'2. The u~4.:~ssolutior_ of Ti was studied Y. at 300C in aquejus Sol,-_itions con'~ainlrig 500,250 wid 125 g/1 HBF4 and in alc3iiol and ethylenegilycol :3oliitions ccritaining 250 g1l HBF4, The ['13P4 oo-lu-,lon wai, preDarta UO' MIXt-',II,e of equivalent. amoun,us oi 1.,oric and hydrofiuorl- ac-ld-, a!,d :contained a certain proporr:on :~f_ IIF du~'- *,c, .n~-_,mplete or hydrolysis, The pro- por-tion of oolution. per tni-~ surface ,,,: T'. was 3,91 ml/cm2 in ail experiment.3. C:,,rves of T; d-Issolu-.1ori, -_ih::,Yin in Fig. 2, have a Card 2115.  Ir -" 'r 2r )4/V -j"/ - JI/ 'i 7 5 r t ELI D~ and conform to the equation: P 0- , T b Vil.C'rU P kra ~asz, of Ti specimen 0, and b are vjlll,.,~n Jepend on solution composition, temperature, Ti -.y ar.a amc,, n' rif per unit surface of specimen; T Is Ji e n ft~~_rs. rate ua~ Jisaoiutlon -'s determlned as the first _'._~n. ~_,eo t;'T b - (4) I of .1-1 (mg/ :'[112 ~ hour) . The inf luen- Cc, of ~Q'rj:!'. r. the --an be ~iaLculated from t 11 e o E- q:'I 0 ri r d e r MI I~e.J grapiiically fr-om experimental datav. -an be -~,l i 1 Gq 1, C~ d a t:, a r a b cj i C CU I'll C- a, 4 o n L K T J' vill e r e lTl i e n t r..j T 1-1 U in tt-.e oj'.)tJon, K Card 1/5  24ock5 7,1 e r t a;. r, el e c t ~- o,~- h tm 1, D2 4 7 /,Dl,~ C' 5 and m are constant_--- 1-ormosition. -I'mrirl-cal formulae are 61*,,(--- 'ne -.a-,hodc. Current dens-itles I~A_l .3 vrt:re -0,6 to -0.7 ',;0" zsz govern- ng bolu- J I i .., ~ -; o r. ~j ~-m ~-,d -; a :- i e d f r o m - 0 . 03 -~ o Redox .,..,c, t en t 1 a'. -~ ~; volt8, There Lr~- : .; 2, tat_iV3 anl 16 references- 6 So%'ie t- bloc, 4 nun-SG,/,.e.-u-Loc. Tfi,., rel'erences to tlit, English--lani;uage publ i ions read as f0;lowj: ll,.orloka, A, U.,;iuzono, J, Japan Inst. i'letals, 20, 7, ~:,.ln-nie L_ St-anej, Abner Brenner, Te(-hr-. Proc. An, Elee_ 1;?i, 1956; Techn. Proc. Lm. r,T E' senbe_--gr, and R.11. Delarue, J. L Electroplater's Soc_ 17, Elel-troch. Soc. , ~105. 3, 164)? ASSOCIATION: Kafedra tekhnolog~'i eleKtrokhimicheskikh proizvods-rv Khar kovskogo politekhnichesirogo insTituta i,.-leni V.I. Lenina (Departme!iT of Blec*.rocilerncal Production Tech- _. . Khar ' kov, imenji. - no Log-, Fo'y'eclri.!~. Institu*;', V.T. SUMIT TT77D: y 6 9 6 0 Card 4/5  Certain electrochemical ... SZ2 0(105.lzr3IzfreZrr7Zn2r, D247/D305 Fig. 2. Graph of Ti dissolution.in IIBF4* Legend: P - gravimetric losses of speci:~ens (rglcr,.2); t4me ir. hours; A, - aqueous solutions of 500 9/1 11324; A - aqueous solu- tions of 250 and 125 g/1 HBFA; - alcoholic golution of 250 HBF4; 73 ethyleneglycol solution of 250 9/1 -'~'IDF4' P NO. 2. I(pnDue PaMopennn 120 TRTalldt zi paCTROPaX 60P~TO- PHOTO BOAOPOAnOfI ItHW10TIJ. P - ZIOTePK neen Oapastion (mrIC-41), , - avewn Me). 80 A, - a SOAMOM RCTBODe. COUP. mamen SM On HIPA; A a DDAIlux PAX. COMPRIAUDIX 20 ii t5 riin 9DIRIO. B - a WIPTOROM r~T.7p,. coaepipAwex 2W r/a III) ,, 2 OTIMemratwonesom vnmope. co- 40 AOPHfAtUeM 260 rIn 11M. Card 5/5 jy PF Or  ACCESSION NR: AP4009785 3/0065/64/000/001/0047/0050 AUTHORS: Vlasenko, I. Ye.; Ognev, R. K. TITLE: Use of petroleum bitumens for impregnating carbon graphite materials SOURCE: Khimiya'i tekhnologiya topliv i masel, no. 1, 1964, 47-50 TOPIC TAGS: carbon anode, carbon electrode, petroleum bitumen, coal tar pitch substitute, graphite electrode manufacture ABSTRACT: Because the literary data is scant on the use of petro- leum bitumens instead of coal tar pitch to bind carbon when manu- facturing graphite electrodes, tests were run with BN-III, BN-IV and oxidized petroleum bitume*ns for impregnation of calcined carbon samples of electrode materials. The operation consisted in beating these samples to 300t5C in an autoclave furnace, pumping the air out for 30 min (Pabs-0-9 kG/cml)j filling the autoclave with bitumen and keeging it un er pressure of P kG/cm2 for 3 hours. Bitumen BN-III as a softening point of 2003~5and differs from coal tar , pitch in that it has more volatile tractions boiling out at 360C,* ard C 1/2  ACCESSION NR: AP4009785 less free carbon and absolutely no oc-,r- components. The impreg- nated samples were then graphitized. It is concluded that impreg- nating mixtures not onl fill pores and cracks in the sintered electrode samples but a Llso interact with this material resulting in a greater electric resistivity and strength of the impregnated samples. In its impregnating properties, the BN-IV bitumen ap- proaches oil pitch (pitch + 5 to 15% anthracene oil) presently used for impregnation of electrode materials. Orig. art. has: 1 figure, 2 tables. ASSOCIATION: UkrtsvetmetjUkrainian Non-ferrous Metals) SUBMITTED: 00 DATE ACQ; 1OFeb64 ENCL: 00 SUB CODE: CH NR REF SOV: 002 OTHER: 004 Card 2/2  NW~YK.O., I.Ye. ; OGNEV, R.N. Use of petroleum bitumen for the impregnation of carbon graphite materials. Khim. i tekh. topl. i masel 9 no.l: 47-50 A 164. (MIRA 17:3) 1. Ukrtsvetmet.  L 576-63 FAi?(cP)/M-(ui)-/-BDS--,,AMC/ASD -J13/JG/WB--'---_. ACCESSION NR: AP3000192 S/0080/63/036/004/0921/ogop AUMOR-, Andryushche!~~_o..F. ~K. j Vlazenko) 1, Ye. ---------- TITLE: Method for treating the.-surface of Ti,before chromeplating SOURCE: Zhurnal prikladnoy khimiip v- 36., no. 4, 1963a 921-C22 4 F :-TOPIC TAOS- Ti.. Cr plating, NH sub Za sub 2p MF sub I!, CoF sub2 ABSTRACT: To remove the passiVe film on Ti so that VA".res better, the authors describe a methocl consisting of mechanical cleaning, removal of grease and rins ing, and immersion in a solution of NH sub 4 F containing ZnF sub *~o MF nub 21 or CoF Bub 2 at room temperature for 15 aeconds to 3 m1nuten, Qualltative analysen showed that the films contained metallic Zri, Ni, or Co and S. Changes occurring in the p--tential of Ti in aqueous solutions of NTH sub 4 F (5C0 9/1) and/or the other metal fluorides are shown in a graph. After this treatment, the Ti is pickled in I&p HCl for 15-30 seconds, rinsed in tap water for 15-30 seconds, plated with standard Cr electrolyte, and rinsed in hot and cold vater. Orig. art. has; 1 figure. "If. V. Golizdra and T. A. Lebedinsk participated in the study. Card -- ----  HAZLOVA, I.V.; STAKHAN'OVA, KAPAi,rr,y,%N',,,I,,, M.Kh.; VI,A,',':j'4'KO, K.K, Heats of dissolution of scjium arAl rr)tassium in aqueous solutions. Zhur. fiz. khim. 39 no.1:1245-1-."8 My ioz. (MTF,k 18:8) 1. Moskovskiy ordena Lenina khImiko-teklinicheskly in3til,iit Im. D.1. Mendeleyeva.  VLASENKO L.M Chromatographic variant for the fractional detection, isolation and determination of biomth in toe forensic chemical analysis of cadaveric material. Apt.delo 12 no.3:41~47 My-Je 162. (MIhA 16:1) 1. Nauchno-issledovatel'skiy inatitut sudebnoy meditsiny Ministeretva zdravookhraneniya SSSR. (BISMUTH) (CHEMISTRY, FORENSIC) (CHROMhTOGRAPHIC ANALYSIS)  VLASENKO, L.M. Chromatographic isolation of morphine In the forensic chemical study of cadaveric material. Sud.-med.ekspert. 5 no.3;38-43 Jl-S 1 62. (MIRA 15:9) 1. Nauchno-issledovatellskiy institut sudebnoy meditsiny (dir. - prof. V.I.Prozorovskiy) Ministerstva zdravookhraneniya SSSR. (MORPHINE) (AUTOPSY)  VLASENKO, L.M. Basic trends for the introduction of distribution chromatography in forensic chemistry. Apt.delo 14 no.205-82 Mr-AP 165. (MIRA 19,-1) 1. Nauchno-issledovatellskiy institut sudebnoy meditsiny, Moskva.  VLASENKOS M.., kapitan How to drIve sheet-piling better. Voen. vest. 41 v 61. 16:21)  VIASUKOY M, Workers made possible the achievements o" 'he enterprise. Mest. prom.i khud.promys. 2 no.3:18 Mr 161. (MIPA 14:4) 1. Direktor derevoobrabatyvayushchago kombinata., floVosibirsk. (Novosibirsk--Woodworking industries)  86-11-29/31 AUTHOR: None given TITIZ: To Be Published (Vykhodyat iz pechati ... PERIODICAL: Vestnik Vozdushnogo Flota, 1957, Nr 11, p. 90 (USSR) ABSTRACT: It is announced that in the near future the following books will be published by the Military Publishing House of the Ministry of Defense of USSR: 1. Some Problems on the Theory of Automatic Aircraft Control (Nekotoryye vaprosy teorii avtomaticheskogo upravleniya samoleta) by V. P. Dmitriyev; 2. The Fundamentals of the Theory of Aircraft Turbojet Engines (Oanovy teorii aviatsionnykh turboreaktivnykh dvigateley) by M. I. Vlasenko-, 3- -The Treatment and Storage of Aircraft Armament (Obrabotka i konservatsiya, aviatsionpogo vooruzheniya) by 0. V. Artemenko, V. V. Nazarov, F.D. Piliy-onko, under the editorship of G. I. Krotov, Engr Lt Col. AVAILABLE: Library of Congress Card 1A  SMIRNOVA, G.V.; VLASENKO, M.M.; SURIKOV, M.P. (Makhachlcala) Iffect of insulin on protein metabolism in aged persons. Tr"-h.delo no.6t649 Je 159. (KIRA 12:12) 1. lafedra biokhimii (zav. - dotsent M.P. Sarikov) Dagestanskogo meditsinskogo instituta i Norskiy dom invalidov Taroslavskoy oblasti (zav. meditainskoy chastlyn - vrach M.Mo Tlasenko). (INSULIN) (PROrEIN MWABOLISM)  v SEIIXO,, M.Ta, Stratametric stuvey of boreholes (Yrom 'Mining Journal' Je 1954). Razved.i okh.nedr 22 no-1:59 Ja '56. (MLHL 9:5) (Boring)  ~-IVLASMO. 11., arkhitektor Controlling smoke in housing developments around_pjActric 7over stations. Zhil.atroi. no-7:6-8 Je 160. (MIRA 13:7) (Smoke prevention) ft  - VLASE:EO, N., arkbitektor (Sverdlovsk) Organizing the system of enterprises serving public neels in settlements of the LRcraine. Zhil.-kom.khoz. 10 no.3:~-12 160. (MEU 13:7) (Ukraine--Gity planning) (Ukraine--Municipal services)  USSR/Optics Fhys ical-, Optics,, K-5 Abst Journalt Referat Zhur - Fizika, No 12, 1956, 35731 Author: Sinellnikov, K. D., Shklyarevskiy., 1. N., Vlasenko, N. A. Institution: None Titlet Optical Characteristics of Complex I)iterference Light-Filters Original Periodicalt Zh. tekbn. fiziki, 1956, 26, No 1, 96-loi Abstract: For the green region of the spectrum, complex interference light filters were prepared) consisting of 3 reflecting layers and 2 di- electric layers between them. The'djelectric usedvas barium fluoride, and the reflecting layers were silver. In some cases the third reflecting layer was a multilayer dielectric coating. The optical characteristics ofisuab light filters were investigated using a matching method previously proposed (Uch. zap. KharIkovsk. gos. un-ta., Tr. fiz. otd., 1955, 60 147). The transmission band was recorded with a DFS-4 spectrometer with a diffractiLm grating, having 600 lines/mm. It was shown that the-transmission, band of Card 1/2  USSR/Optics - Physical Optics, K-5 Abet Journal: Referat Zhur - Fizika, No 12, 1956., 35731 Abstract: complex light:filters is 5-10 times narrower than in simple inter- ference filtertr (30-100 A instead of 2oo-400 A), and the trans- parency is 1.5-2 times better (30-64 instead of 20-30%)- The use of a multilayer dielectric coating instead of a silver reflecting layer improves the quality of the filters. FVrther improvement in the optical characteristics lies along the path of replacing of all the silver layers with multiple-layer dj#-ectric coatings. Caxd 2/2  51-4-20/25 Complex interference optical filters with improved charAc- teristics. (Cont.) R2 = 93% for Ml and M2 respectively, an overall transmission of 30% *as obtained with a pass band (centred on 5000 A) of only 4~ A and "contrast" of about 105. A method of prepar- ation of.filters, similar to that for Fabry-Perot etalons) is also described. Two high-quality glass flats were covered with the usual layers (silver and barium fluoride) by vacuum evaporation; they were the MlD.LU2 systems. A wedge-shaped layer of air D2 was left between the two plates. Light from a monochromator (of wavelength of the maximum of the filter pass-band) was made parallel by means of a lens focussed on the exit slit of the monochromator. This light was directed on to the filter. When D was wedge-shaped hundreds of inter- ference lines were visible. When the two surfaces M2 became parallel the lines disappeared and the illumination became uniform. Then, keeping the plates parallel, they were adjusted by screws to give maximum uniform illumination ("consistent state). There are I table and 6 references (4 of which are Slavic.). ASSOCIATION: Kharkov State University.(Kharlkovskiy Gosudarstvennyy Universitet. **N SUBMITTED: September 15,1956. 2;12 AVAILABLEt "brarY of Congreas  -ii-431378-65 ME (1) pi-14 ACULSION "J.: AP50064 V, S /0(51/65 /018 /003/0446 1/o466 AUTHORz U4senko,_ N. A. ~-f an lectric field and ~Iltra- SOLWIE: (Yptikz,. i speklroskap4ya, 7 nc !7ul f-1 H 1 - itatcr &I luni~ nor , P-1 ecti-I c ft C- 1~. cffert , ultra- lum-inescence ABSTPACT- 17he investigation was maide under conditions -wlien the excitation of the vas nut a:-_,_Mpa:~!, 'r ,f thp 1iminescence centc7- and by *_~ir 771- :'.av-,~ In, va Card 1/3  h3878-65 ACCESSION NR: A-P5006-4~4 tsii (Materials of Seventh Conference on Uminescence) p. 36', Tartu, 1959). e Zn-5-,T)L- filmm was deposited on glags coaterl vit'h a conductI ng film of SnO~, which served as a transparent -lectrode. Thp s econe. -11rctrode was on phos~;hrr- 7"',- y - ti 4 -,,,i t PT~-K - - r, ,np I! T~ amp .,I. + wa s !yr.- -I and FL;7;7~ a n(, e S - - - a In, 2a 11 -,-er Card 2/3  28141~~6 EWP (k ACC NRs AP6013082 (1) '(m)/E'.1P(t)/ETI IJP (c) JD/10 SOURCE CGOR: UR/0048, 7-7 AUTHOR: Vlasenka, N. A.; Khomchenko, V. S. 3 ORG: none TITLE: Inv;stigation of low-voltage electroluminescence of ZnS:Cu:Cl films rReport, r - Fourteenth Conference on Luminescence held in Riga 16-23 September 196 7 SOURCE: AN SSSR. Izvestiya. Seriya fizicher-kaya, v. 30, no. 4, 1966, 688-691 TOPIC TAGS: electroluminescence, crystal phosphor, zinc sulfide, frequency characteristic, voltage characteristic metal film ABSTRACT: The present study of sublimated ZnS:Cu:Cl films was undertaken in view of the paucity of data on these low-voltage ~e I iiophors. The films were pre- pared by a two-stage technique;the active film thickness var In the raMe from 0.2 to 3 microns. The electrons w9rre of SnO. trid Al. The*metal electrode was applied either directly oVer the phosphor layer or over an'insulating subcoating of SiO. Excitation was by ac, which yielded a higher brightness# or by dc (for specimens with a thin SIO coating). Specifically, there wore investigated the olectroluminesconce spactrum and Ito frequency and voltage characteristics, the brightness waves under excitation by a sino voltate and by square pulses, the effect of probing pulses, transient processes, and the temperature dependences of the characteristics. It was found that many of the properties of ZnS.,Cu:Cl films are similar to the corresponding  L 28331-661 ACC NR, AP6013082 0 attributes of electioluminescent calls prepared of this phosphor In powdered form: similar blue-green band Intensity dependence on the excitation conditions; analogous frequency dependence of the brightness; similar brightness wave shape, etc. Figures show the electroluminescence spectra at different frequencies of the low voltage (7 and 14 volts) and the shape of the brightness waves under excitation by alternating polarity square pulses. On the basis of analysis of the experimental data it Is in- ferred a) that the electroluminescence Is a two-stage process (as in the case of the phosphor-powdor cells), b) the effective field acting In the luminophor differs from the applied voltage, and 0 that the experimental data do not conflict with the hypo- thesis of impact ionization. Orig. art. has: 1 formula, 2 figures anLI 2 tables. SUB CCDB:' 20/ SUEU DATE: GO/ ORIG REPI 003/ OM REP., 007  VLASENKOY N.A. Simultaneous effect of an electric field and ultra7icle,, radiation on the luminescence of ZnS-Mn phosphor Opt. i spektr. 18 no-3:461-466 Mr 16~,. (,',ilRfi 18: 5)  v I.A.',ENIJ", , ?",,A. ; , A.*L. I,'echaniEra underlying the excitaticr of in ZriS,tn films. Opt. i sFektr. 18, no.3:467-473 Mr 165. (MIRAP 19:5)