SCIENTIFIC ABSTRACT PROSIN, G. P. - PROSKURA, I. P.

A= NRs AM5027749 Problems of investigating the troposphere by means of refracto- meters, the mean level of signals, meteorological conditions and topography, fluctuation of arrival angles and distortions of antennai directivity patternoslosses in antenna gain, and quick and slow fadlngs of signal levels are discussed. The statistical character- istica of the oignalsat diversity reception In time, space, fre- quency and angle as well as the distortion of signals in the commun- Ication systems are also investigated. The long-distance propagat- theory is analyzed, and the engineering method of calculating field Intensity at long-distance tropospheric propagation Is given. At present, there in no theory of Long-Distance Tropospheric Propagat- ion which can be applied effectively enough In practice. Thus, in the Investigation of that propagation, considerable attention has to be paid to experiments. The special characteristics of geograph- 1cal conditions of the territory Involved should be taken Into con- sideration during the analysis of experimental data and In their practical application because the conditions of propagation In arctic and tropical climates differ'from those wdsting over seas and*continents. A considerable part of the monograph deals with the 1nvestigatioraof long-41stance tropospheric propagation carried out over dry*land routes, 800 km long, In the central part of the USSR under the general supervision of B. A. Wodensidy and A* Go- Arenberg (up'to 1957). Vo 1, Siforow laiiestIgatod probleers- con- Cmd 2AO  ACC NRs AH5027749 nected vilth diatortiom and fluotuations of signals. Referenoes follow each chapter* TABLE OF CONTEWS: Foreword Ch. 1. Radio Engineering Kethods of Investigating the Troposphere Dielectric Constant -- 5 ,Bibliography -- 16 ph. n. Results of Troposphere Dielectric Constant keasurements 17 1. Relationship between the mean value of the air refraction Index and altitude. Standard radio-atmoophere - 17 A. Fluctuations of the air refraction Index- - 24 3. Some notions on the troposphere uod*1 - 43 lAbliography 45 Ch. M. Average (mean) Signal Levels In Long ]DIstame Tgopospheria Propagation of Ultrashort Waves ( L T. P - V 8 W) - 48  A1,15027749 1. Equipment and measuring methods for the mean signal level 48 2. Signal attenuation function in LTP USW -- 54' 3. Relationship between mean signal level and the distance 57 4- Relationship between mean signal level and the wavelength 63 5# Relationship of moan signal level and -the shadow ang3m, of both transmitting and receiving antennas --1,.65 6. Diurnal and seasonal variations of mean signal level 72 Bibliography 75 lCh.' IV. Effect of Air Refraction Index at the Earth Surface on the. Mean Field Level In LTP USW -- 77 lo Correlation of the mean field level with the air refraction Index at the Earth Surface* -- 7T 2* Possibility of predicting field Intensity variations 81 -Bibliography 86 Ch. V. Fluctuation of Hadlowave Arrival Angles W Instantaneous Patterns of Antennas Directivitles - W Is Methods-of measuring radlowave arrival angleo-and recording of instantaneous antenna directional patterns e9  AM5027749 2. Fluctuation of radlowave arrival angles in horizontal and vertical planes -- 92 3. Instantaneous antenna directional patterns 92 Bibliography 102 Ch. VI. Louses In Antenna Gain of 17.P USW -- 1.03 1. 1)6termination and methods of measuring losses-in antema gain 10 2. Experimental data on losses in antenna gain -- 108 3. TheoretIcalinvestigations on losses In antenna gain 114* Bibliography 120 Ch. VII. Theories of Long instance Trapospherlo'Propsgatlon Of USW- -- 122 1. Introductory remarks 122 B0210graphy 2o Theory of scatterbg radlowaves by tropospberls tubulent DonhoageneltLes - 130  A14502T749 Bibliography 150 3. Reflection of radlowares from dielectric nobbomageneltles, of definite d1mensiona - 151 BIbliography 171 4, Reflections of radlowaves from laminated tropospharls, nonhowo- Seneities of random character - IT2 'Bibliography 179 Ob. VIII. Engineering Method of Doeign-Calculation- of Field Xntensity Attenuation -- 180 Basic rules of calculation method -- 181 2, Diffraction'horizon ( a distance, beginning of vhIch, the value Of the field intensity, calculated according to theldiffreation formulae is smaller than the measured Intensity) 182 Deterodnation of field standard attenuation - 182' 4& Meteorological conditions correction 184. * Local topography correction - 185 Estimate or losses In antems, gala 185 card SAO  ACC NR& Al-15027749 7- Estimate of fadings 186 Bibliography -- 188 .M1, IX. Statistical aharacterintles of the Envelops, Phase and Fre- quency of the Random BIgnal In IJTP USW -- 169 1. Statistical characteristics of atmosphere dieleatrIc constant signal components in MF -- 189 2. Distribution-lawn for the envelopes and phase of various signal components -- 193 3. Distribution laws of num-signal envelope -dimensional distribution functions of Instantaneous value 4-Nulti oe envelopes and phases of the spaced signals In minute Intervals 207 5. Parameters of multi-dimensional amplitude and phase distribution functions of spaced signals -- 210 .;6. Statistical characteristics of Instantaneous values of the en- velopes of spaced signals In minute Intervals -- 222 7, StatistIcal characteristics of Instantaneous values of spaced sIgnal-phasos In ednute Intervals -- 239 Statistical characteristics of Instantaneous value of phase first derivatives of spaced signals In minute Intervals - 248  AM5027749 :9. Statistical characteristics of Instantaneous values of the first derivative of phase In minute Intervals -- 257 B~bllography -- 260 X, Experlmental Investigations of Rapid and Slow IP adIngs In P SW -- 262 1. Methods of measuring and processing experimental data -- 262 2. One-dimenslonal distribution functions of 21gul Instantaneous values -- 264 3# One-dimenalonal distribution functions of signal averaged values-. 278 4- Period and frequency In rapid fluctuations of signal onvolope-283 Bibliography -- 287 C4, XI. Experimental Investigation of Signal Statistical Character- istics at Space, Frequency, Time and Angle Diversity Reception - 288 1z Soace-diversity reception -- 288 2. Frequency-diversity reception -- 295 3. Tim"Iversity reception -- 299 4. Frequency-time diversity reception - 305 AUSIO-diveraltr reception 30T cmd BAO  ACC NRs AM5027749 Bibliography -- 312 Ch. XII. Investigation of Amplitude-Frequency and Phase-Frequency Signal Characteristics at LTP -- 314 1. Measuring and processing methods of experimental data 314 2. Amplitude-frequency characteristics -- 321 3. Phase-frequency characteristics of LTP channel - 325 4- Frequency characteristIcs,or signal group,tlue delay 334- Bibliography -- 350 Ch. IIII. Signal Distortion in LTP USW -- 351 1. Theoretical Investigation of distortions appearing In multi- channel FM LTP communication systems -- 352 2. Experimental Investigation of dletortlon-In LTP -- 384 3. Distortions appearing during TV transmission over trOPOsVh*rIG radio links -- 389 Bibliography -- 392 Appendix Automation of Signal Statistical procesming 394 2. Quantification of continuous signals and ooding 395 2, Signal quantification Instruisents -,3ff .  SOV/12-0-59-2-16/5o AUTHORS: Kilin, S.F., Prosin, G.P., and Rozman, I.M. TITLE: A Multi-freque*r~ ~e ~uorometer with Double F*requency-Changing (Mnogochastotnyy fazovyy fluorometr s dvoynym preobrazovaniyem chastoty) PERIODICAL; Pribory i tekhnika eksperimenta, 1959~ Nr 2) pp 57-59 (USSR) ABSTRACT: Much progress has recently been made in fluorometry directed to fast processes. Sensitivities of 2xlO-11 see have been attained (Ref 1). which are not accessible with pulse techniques applied to photomultipliers and oscilloscopes. Phase fluorometers measure the fluorescence time which is defined by OD tgfp= 3 RW sin t..) t dt/ OS R(t) cos at dt7 where rp is the phase shift between the emitted and exciting fluxes, (,> is the modulation frequency~ and R(t) is the fluorescence decay law. In generalg -Vf is a function of ej i only if the decay is exponential law Card is'V f independent of frequency and the same as the mean 1-/6 life of the fluorescence -, . The decay law cannot be established unambiguously by measuring --ef at different  SOV/120-59-2-16/5o A-Multi-Frequency Phase Fluo:-ometar with Double Frequency-Changing frequencies (Ref 2)~ but such measurements can be used to determine whetlieT the decay is Gxponential, and "U-o test any proposed decay law. Strictly speaking, only unperturbed mole(-.ules fluoresce exponentially. Quenching agents cause the de(jay to deviate from exponential (Refs Bimolecular quen-jhing occurs when the emission is excited by ionizing radiation with a heavy ionization density; the decay lwd is then much affected (Refs 6,7). Sol.ntillaticns excited in this way show an initial sharp peak, which passes gradually into an exponential decay. If primary photons play a major part in the scintillation (Ref 8), the photon cascades these primaries prod-ace must give a decay curve that shows an initial rising section. Attempts to establish the decay curve for anthi~acene have given entirely contradictory results (Refs 9,10). If the m9dulation frequency is not too low, i.e. if s:Ln o t (or Cos w t) has time to change appreciably during the mean decay time, tM7 -t~f is sensitive to the shape of the decay curve, and the shape Card 2/6 of the -Vf(w) spect7.-um may be used to indicate roughly the form of the decay curve. The phasemeter system  SOV120-59-2-16/50 A Multi-Frequency Phase Fluorometer with Double Frequency-Changing described previously (Ref 11) has been extended by adding units to perform phase measurements at 8, 127 15 and 20 Me/s. Fig 1 shows the block diagram. The mixer, 1, receives frequencies f and f2 from a quartz oscillator and from a ~AS-6 signai generator. A resonant circuit selects the beat frequency Fl = fl - f2 and feeds it to an electron-beam modulator. The mixer, 2, receives the frequency Fl from the photomultiplier (which detects the fluorescence), and f2 from the GSS-6. A resonant circuit selects the frequency F2 = Fl+f2 = fl. Thus the double frequericy-changing enables one to make phasa measurements at a fixed frequency of 20 Mc/s7 whereas the beam is modulated at frequency Fl. Now Fl differs greatly from fl and f2 , and so the various frequencies can be separated very thoroughly by the filters.. The frequency fl (20 Me/s) is stable (quartz oscillator), so the main causes of phase drift are frequency instability in the GSS-6 and instabilities in the resonant circuits, in the electron beam, and in the Card 3/6 photomultiplier (an FEU-25). Under the most unfavourable conditions, with Fl< f-~ (modulation frequency 8 Me/s), 4  SOV/120-59-2-16/50 4 A Multi-Frequency Phase Fluorometer with Double Frequency-Changing when Af 2/Fj. > Af 2/f 2 the zero drif t is about O..",:P/min. An 8-positicri sample-holder is used to change the sample and check the zero reading quickly. Numerous measure- ments made with the instrument indicate that the root- mean-square error is about 10. Fig 2 gives some results for plastic phosphors, (Ref 12). The fluorescent additives were excited by the light produced in a separate polystyrene disc OL --- 310 mp.) , which was excited by a modulated beam of 30 kV electrons. The ilastic phosphors containing tetraphonylbutadiene. and triphenylpyrazoline showed no dependence of 'rf on frequencyl within the experimental error. Calctulations show that T f should fall uniformly with frequency if the decay consists of two components, both exponential but with different values of The anthracene content of 10-2 g/g (Fig 2 curve 3~ gives 4o l = 2.7xlO-9 sec and = l6xlo_~ see. L _r2 Anthracene in benzene gives.the same value of-T (Ref 13);-V2 relates to anthracene bound to polystyrenes (Ref 1LO. The phase difference between the modulated Card V6 electron beam and the fluorescence has to be measured in this method; the two signals are of different physical  SOV/120-59-2-16/5o A Wti-Frequency Phase Fluorometer with Double Frequency-Changing types. There are severaL ways of making the measurement (Refs 11, 15). If we use several different frequencies to measure the phase difference becween two different values of T , we can draw up enough equations to determine TI, and t2 , and to eliminate the unknown initial phase of the electron beam. Measiirements made with several pairs of phosphors show that it is impossible to get agreement between the values of -C1 and 'r2 for all combinations of the frequencies (any two frequencies suffice to give^tJ and'r2 9 so the number of combinations is 6). Hence ~he decay laws are not exponential. The results for polystyrene (which is the basis of the most plastic phosphors) can be explained if we suppose that some of the excited molecules interact with one another, i.e. that bimolecular processes occur. We would get the reverse dependence of -?C~f on frequency if we were to assume primary photons present. Some more detailed aspects of this topic will form the subject of a separate paper. This is a complete translation apart from Fig 1. Card 5/6 There are 2 figures and 15 references, of which  SOV/120-59-2-16/5o -k Multi-Frequency Phase Fluorometer with Double Frequency-Changing 3 are German, LP are English, 7 are Soviet and 1 is translated from English. Fig 2 captions.are: Relation of Vf to modulation frequency for various phosphors,. 1) tetraphenyl butadiene in polystyrene, 3xlO-4 / 2) triphenyl- Card 6/6 pyrazoline in polystyrene, 2xl()-2g(9N; 3) anthracene in polystyrene, 10-9 g/g. SUBMITTED: February 13, 1958  .U- 45163-66 ,qw Tj_ ----- ----- ACC NR: AP6027521 (A) SOURCE CODE: UR/0317/66/000/005/0036/0039 AUTHOR.-' Tenen, D., (Colonel); Prosin, N., (Colonel) ORG: none TITLE: Training equipment SOURCE: Tekhnika 1 vooruzheniye, no. 5, 1966, 36-39 TOPIC TAGS: training equipment, logic circuit, military trair~ing ABSTRACT: A description and specifications are given of a trainer designed for both group and individual training of military personnel in subjects programmed beforehand. The trainer is a set of electromechanical and radio engineering logic circuits providing simultaneous control of the rate at which the material is master-,' ed. The trainer operates under four regimes: group training with an instructor, group training without an instructor, group and individual control, and, finally, individual training. A block diagram, circuits, and an overall view of the device are given in the original article. [DWI SUB CODE; 09/ SUBM DATE: none/ Card  ESTLTOVA, Ye.T.; PROSIN, P.I. Revistor-or-Ilare `=ates ~at ~_ the Omsk Petroleum Refinery. Neftianik 3 no.5:28-29 My 158. - (MIR& 11:9) 1. Starsbiy inzh. ?Sentrallnogo byuro normativov truda, (for Istato- va) 2. Nachallnik otdela. truda, i zarplaty Omskogo neftepererabaty- vayushcbego zavoda (for Prosin). (Omsk--Petroleum refineries) (Wages)  P -, AUMOEB: Entztarr.., Yee Te., Sm.,41or and. "rwfm PO 1. I-eA O:c the 4.6 he PargCrZ2.1 end ?eV D- VMS: TuYmUve 7hvislora of Wwtmeals WWs *&v the. auct RcTinery (05ztv svmba~noy P10,7 %v2ml-m U& Qwce-cu neft3zer,-,xebvt~y- PER3XMMOAL: Neft-wralk, 1938, 'e 5s V? 26-129 (MBAI) AMTRWT: -411ram Owsk raf.'-w.-,y hm tenta.-blvely e4oyted a utm methoe- of rawamm'ting its U-jr1cmen. 720 snt~zar wtQ-!,.n3 t.'aat tblu IF, L2 111-2a VI-th =Pip-,,Vq teken in conmectlon with. the pmposad wevisim of wage sceles m2d of technicall essigmwnt regu-1-ations. Me mw wear- achedult, shown by the. imthor ia tr,~Dle 1, pzvmldes a seale ccatain-ang 8 c-atesories. As ccMared -orlth the prevIcras -w-Fge sculA., the re:V,.ac-.--7 --ateo -we:-,- --alsed on the average '0j 38 Perce-at. 2:e am L-eas Wt the old ones ;Fze itilicated by t~, a;.tLo-- !-n table 2, Me wqe Iamvems =Ze it possible to =ecl=3i* Jobs vzd to vidun tha S13-,rpe of voe--mm specia1iZetian, Me In---P-ative ;:evnrd s~mtwn Ls3 elzo !Senmn x-e-vilsad. Pieca-zete p.,,v ias beem left unch?aSed for a ca- cv.~~4-Soz-, e, jobs. For sme -Jolvz Card 1/2  Tentative Revision of Woe-cwul a (Goet.) 92-58-5-206/30 teMorary pierm--mrste scale hez been LAX-Odl-m-ed., TILIAks 11"D Cad JOf.:2t C."M-ets Of vorkmen,, mawpmit. ead wxgarv--'3oxsL, the orgenlyatiou of -w-oz-k IMrowd and it bees= possib2-s to f2-oI--UU lZr percent ol the wo"T esslgwd by the plan. Me coratract-bomas reba scale has been ralvad lay 3f-6 vercent r-rAd It has been docided that thk hl&~ast- 'boxnns of ai InfUviduml woeuwu uhixM not *=gad 40 yewcant of his regulAr pV.# Im tablt 3 tl,7,e wxle-wir ohovs the mwmt of montbly :pay :m-.,%AVed on the beals of :,--Y.4spd a*&jt,t7 operp-to= of VaermaCl cracklug 1xilts, ataos- pherle-Vemmm pl;e and b7 mcbm-Ltes o:Z difffemut cetagorlex. Me Imt--o- duer.lon of, the mey ~p,-7 scale lfo:e woAAm:a im-Ased the profte;blvzy of !a - --. Bowwrer, -",*~A%,e stlu mmerms pi"clUxlo reiAting -'w-o the m-almaratla/. -)f vorkmr - litch ba-m not, ye'r. Im-em solvad. Mere eav 3 tebles. ASSOCIALIZOM: r4lone4milup7a LV7=10 nommr.1-MV truez (Omz~;--mw- Alum= OT 1.1bar I',' mom and J ecale-ioazz ); OVal t:r4a i a:rr.~I&r.- Qma'ra,30 SZ (Pe- 2a1 Fr-7 D*s.7'.Imaut w7 the Ik-Lqk Raff:La"~-1f;) 1. Ntrolam industx-y--UM 2. Persomel--Campensatida Card 2/2  ACC NRi AP6.UU5965 SOURCE CODE: ~55 UR/0089/65/019/003/0311/0312 44 V AUTHOR: Bochvar, I.-A.: Keirim-Markus. I..B.; Moiseye A. A., Prosina. T. I.- _Lakublk, ORG: none 51-1 TITLE: Measurement of the background external radiation exposure f the urban population in the USSR ..SOURCE: -Atomnaya energiya, v. 19, no.. 3. 1965, 311-312 TOPETAGS: radiation dosimeter, gamma irradiation, radioactive contamination, man ABSTRACT: Preliminary results are presented of the-measuremen t of the background external exposure of small groups of people from 26 cities in the USSR. The studies were started in the second half of 1963. Individual dosimeters of the infrared spectroscopic type using thermoluminese t aluminophosphate glass'-were employed# ..allowing gamma doses from 0.02 to 2 X iZ9 rads to be ine-as5`r"e-(3'.`- -Ten people from each city wore the dosimeters continually for 167 to 325 days. The drop in instrument readings during the time of exposure was measured for control dosimeters* -.A table of results and error limits is given. Analysis of the data showed that the exposure levels depend largely on the type of rocks and soils in the cities; attempts to observe a correlation between exposure dose and latitude or height above sea level-were unsuccesfule Orig. art. has: 1 table* SUB CODE: ,06-,/ SUBM DATE: OlApr65 ORIG REF: 002 / OTH REF: 004 L Qlrd ~UDC: 539.16.04  BOCHVARP I.A.; KEIRIK.-MMKUS, X.B.; MUISEILII~ A~A,; FROSINA, T.,'~,~ YAKUBIK, V.V. Measuring the exposure ol trf.,n ~nnablltar,,g 'r, tile U.c.c.p background radiation. ALom, energ. 19 no-39311-3;2 S 16~. (KRA 18g9)  ACCESSION NR: AP4034803 S/0293/64/002/002/0304/0306 AUTHOR: Bochvar, 1. A.; Vasil'yeva. A. A.; K&LrLu-Markus, 1, B.; Prosina, T. I.; Sergeyeva, N. A..; Uspenskiy, Le Me TITLE: Tissue dome of cosmic radiation received by Vo F, BykovskLy and .V. V. Tereshkova during tandem orbital flight SOURCE: Kosmicheskiye issledovanila. y. 2k no, 2, 1944. 304-306 TOPIC TAGS: tandem flight, Vostok 5, Vostok 6, cosmic radiation, thermal neutrons. ABSTRACT: Dosimetric readings taken during tandem orbital flights of the Vostok-5 (Bykovskiy) and the Vostok-6 (Tereshkova) show that the cosmic radiation dose a absorbed by cosmonauts were 80 i"5 arad and 44 �5 mrad,respectively. Comparison of the above figures with measure- ments taken during preceeding flights show that the average intensity of the absorbed.-radiation war, 0.65 mrad x hr-1 or 16 mrad x 24 hr-1. The estimates of absorbod doses of thermal neutrons were (L�15)-10-4&nd ,(7t15)-10-" rem for the Vostok-5 and the Vostok-6. rjagactively. There-.. for the respective fluxes of thermal neutrons were -16)~105. and .Card 1/2  'ACCESSION-MR-s. AP4034803 (8 t 16).105,CIF2 while their densities vers 0*2 U and 3 V cm-2-sec-~- respectively. The radiation levels on the outer skin of the space capsules vers approximately 2-3 times higher than inside the- space ships* ASSOCIATIONs none SUBMITTEDs 140et63 DATE ACQs- 20May64 ZNCLS 00 PUB CODEt AM NO RSF SM 004, OTHERs 002 Card  BOCHVAR, I.A.; VASILIYEVA, A.A.; KEIRIA-MI'RKUS, I.B.; PROSINA, T.I.; SYRITSKArA., Z.M.; YAKUBIK, V.V. Ionizing radiation dosimeters based on measuring the thermolumi- nescence of aluminum phosphate glasses (IKS dosimeters). Atom. energ. 15 no-1:48-52 il 163. (ERA 16:8) (Radiati6n -Do'sage) (Aluminum phosphates)  F-POSRU., ?, - 1,faclid"PrY -40tis tr' Young r-pachine 'ouilders, Tekh- molod. n~). 1, 19,52. Monti-ly List OC Russian Acq-e-sslons2 Library or- Congress) Mzrch 1952--  KOTWICA, Stanislaw; PROSINSKI, Antoni; RUCINSKA, Zofia; SULAT, Henryk Neurological changes in atrophic dematitie of Pick-Berxheiner (vith a report of 3 cases) Neurologia ate. polska 11 no.1:33-42 Ja-F 161. 1. Z Kliniki Chorob Nervowych AM v Lodzi Kierownik: prof. dr nauk med. E. Herman. (AGRODSMUTITIS case reports) (NE URO LOGICAL MANIFESTATIONS)  - Economic results of panolux, improved le,~ther. D.153. PRME-GLM) (Centralne Zar?,--idy PrZem.-TsIa Carbars,-!-~ro, k-7-iwr;iczeg-o 1. Art/kulow O"Ikormnych) lj:)d-,. IT01. 10, Do. 7i July 1955. So. East -17--u-0-lean AccessLons List ol. 5, '111o. 9 Septer*er 19116  pRosiNsm, s.; GIECE7,4ICZ, T. The influence of moisture upon the yield of products from the destructive distillation of wood. P. 15 (Prace) Voll 3, no. 4. 1957, Poznan. Poland SO: MONTHLY INDEX OF EAST EUROPEAN ACCESSIONS (EEAI) LC, VOL. 7, NO. 1, JAN-1958  PROSINSKI., Stanislaw; CZECHOWSKI, Zdzislaw; LUTOMSKI, Kaziriiierz Tars and oils obtained in xylite thermolysis as wood protection agents. Koks 9 no. 1:3(~-33 Ja--F 164. 1. Department of Chemical Technology of Timber, College of Agriculture, Poznan.  PROSINSKI, P~anislaw; ADANSKI, Zefiryn; SKIBA, Stanislaw Possibilities of utilizing wood waste in order to obtain lignin construction material. RGczniki wyz szkols. rol Poznan. 16: 79-90 163. 1. Department of Chemical Technology of Wood, College of Agriculture, Poznan.  PRDSINSKII-Staniolaw; CZECHOWSKI, Zdzislaw; HULISZ, Stanislaw Allyl alcohol occurring in some fractions of distillate obtained in hardwood pyrolyais. Roczniki wyz szkola rol' 'Poznan 16'* 225-133 163. 1. Department oC Chemical Technology of Wood, College of Agriculture, Poznan.  4 PROSINSKI Stanislayj CZF.CHCWKI, Zdzis-law;.. HULISZ, Janina; RULISZ Stanislaw Studio* orv the- pe"MA1itjL-*f - using-certain- pr6duets- obtaiaed in the thezwlysie of coniferous wood for solubilisation of naphthalene-in- gaw-pipe" Koke-7 ne.6-.242-243 N4- 162-. 1. Katedra Chemicznej Technologii Drewnaj, Wyzoza Szkola Rolnicza, pompAn, i Fabryka Rozlcladowej Destylacjji Drewnaj. Gryfino.  rr~-- V 4 LQ 1 POLMD/Chemical Technology - Chemical Products and Theiir Application. Wood Chemistr_y Products. Hydrolysis I Industry. Abs Jour Ref Zhur - Xhimiya, No 1, 1958, 2657 Author Prosinski Stanislaw, Giecewicz Tadeusz Inst Institute of Wood Technology 1-9 Title Effect of Moisture Content of Wood on the Yield of Products of Thermal Decomposition Orig Pub Prace Inst. technol. dvewna, 1957, 3, N~ 4, 15-33 1, Abstract With increasing moisture content of the wood an increase takes place in the yield,of aqueous distillate, and to a lesser extent in that of acids, CH-OR and cbArcoal. Increased moisture content has a Ntrimental effect on the yield of uncondensable gases and tar. It is shown that op- timal moisture content of vood that is subjected to distil- lation Is 1-2-18%. Card 1/1  PROSINSKI, Stanislaw; PRZYBYLAK, Antoni From reseirch works on the extract obWned from stinm wocd of the grdl6n Scotch pine (Finus Silvestris L.) Pt. 1:. Attempts to obtain fraction of resin acids. Sylvan 106 no.3- 1-9 162. 1. Zaklad ChemiczneJ Technologii Drewna Insty-tutu Technologii Drawna i Katedra Chemiczna Technologii Drewna, Wyzsza Szkola Rolnicza, Poznan.  POLI.ND/Chor.Acal Technology. Chemical Products H-4 and Their Ipplicatiorn..Corrosion. Cor- rosion Control. Abs Jour :Rof Zhur-Khimiya, No 72 19597 23734 imthor :Prosinski2-.S9 Giocowiezovia, P. Inst Z Title :Investigation of Corrosive ILction of Pro- ducts Dorived fron, tho Destructive Distil- lation of Wood on Certain Metals. Orig Pub :Pracc Inst, tochnol, drowna, 1953, 4, No 2, 46-58 Lbstract tCorrosion resistances of Cu) of acid-rosi- stant stool and of 98 percent purity la with respect to raw liquor to extract (4.6 porcont CH3COOH), black acid (57 percent Card S 1/4 1H _11R  POLIJID/Choraical Technology. Chorjic,,.l P-roducts H-4 and Their L-pplications. Corrosion. Cor- rosion Control. Ii.bs Jour Ro-f Zhur-Khimiya, No 7, 19599 23734 CH COOH), to waste vaters (3-4 percent C2COOH) and to gaseous modia was invosti- ga;ed. The obtained results indicate that: 1) 1,1 possesses the greatest stability to black acid under operating, conditions of the equipment involved (the decrease in weight in the liquid phase - 1.6 percent, and of the gaseous phase - 0,8 percent); Cu is the next (decrease in weight whon in the liquid phase - 1.1 percent, whon in the gaseous phase - 12.5 percent); the acid-resi- stant stool is unstable under the above con- ditions. 2) In the raw liquor the most stable Card 1 2/4  POLIM/Chomical TochnologY. Chanijeal Products H-+ and Their 1,.pplications. Corrosion. Cor- rosion Control. ;,bs Jour Rof Zhur-laiiniya~ No 7, 1959, 23734 material is the acid resistant stool (decrease in veight when in the vapor phase was not detected); tho least rosi- stant is Id. 3) In the waste viater the acid resistant stool is tho i-iost stable material (the docroase in weight, whon in the liquid phase is 0.0 percent, in tho va- or phase it is 3.3 parcent); Cu is the next the decreases in might are 0.0 percent and f 3,2 percent in liquid and vapor phases respoc- tively), The resistance of I'd is loss than those o--:-' steel and coger. 4) Is for the ex- tract (oxperiment of 00 hour duration),, the Card 3/4 M-/_7  POLUTD/Chonical TochnologY. Ohomica-I Products H-4 and Thoir J~ppljcatjons. Corrosion, Cor- rosion Control. I,bs Jour : Rof Zhur-Khiriiya, No 7, 19592 23734 acid-resistant stool is stable in either liquid or vapor phases. The decrease in the waight of Cu is 4.5 porcont. -- F. Slomyanskaya Card s 4/4  1. _Wxj&k1 S, Glevewlc2owa P. Varra-dail nf Caffth, St-Ifflik by Pro- due-&-of Destructive Wood Distillation. jj3adanfa. nod korozjq nfal(Mrych met2U przez prbduldy ro*1a, dowe Oolityllmll drowna", (Pr.-We Inst. TvChnob Drowns. NO. 2). PM_ Mill, - 1958, PWN, 13 Fv., - 9 figs., Anvestigatiorys -were undertaken to study the effect of certain r'. dedvatives of destructive wood-distillatlon on certain metals, and to ascerWa which metals are most aultAble fat manufacture of parts . of induAdal apparatuo-An examinatkm was made of the effed on i M)yPollsh 3 9 'Y' e1. and 1 Yolish; made,: copper It (MR), acid-4csistant ate altninlurn (Obs/e of pure Al'con tmt) of the 511pu4ne Products: 4) raw, MIXt4re; 2)-extraiot (4.601s of Anegarlsold content, 3) bdaKk acid (57th of, vinegar acid - oondent); 4) waste Hquors (0.41/s. of Yinegair acid content). Tests were emled out under oundittona resembUns ~ thwe In industry.. TI* investsgat5ons resulted In the folkwkw order ot Killabillty, of the three metals 1or , al;Vavatue . Intended to "be kvpt in contact wM ble& aeW, 'akurAnLum average J* 16 welight of ARMPMs after - 140 hours, lkpod elate, JAP/a wW vidlatile state 00/4; copper - oorr4xad* Am in %might 1.104 12.50h; iteei acid 1-fesistant- lowest rwistance to biack add, average loss -in wolight, forpectivily 45.64/*' mud .70.30/s. Steel zha%~Vd, on the: -other hand, relatively good resistance to raw n7lxture (loss In weight of sarroples 'liter 140 h least ours :was 0.01/9 for liquid and volatile state alike),  I . . I ~ v . ~;. 2~:, J.. - . .1 .'s ,; t -~ I.-  PFDS1?4SKI, Stanislaw; CZECHOWSKI, Zdzislaw Separation of prrocatechin from the phenol fraction of leaf wood tar by means of butyl acetate. Koks smola gaz 6 no.6:215-218 161. 1. Wyzsza Szkola Rolnicza w Posnaniup Katedra Chemicznej Techno- logii Drowna,  t1~qq:TS.U., Stanislaw; CICHOWICZ, Zofia; PAPRZY(;YI, Oswald Surface treatment of porous fiberboard to protect it from moisture. Roczniki wyz szkola rol Poznan 16:101- 123 163. 1. Department of Chemical Technology of Wood, College of Agriculture, Poznan.  IP~RO~ ~Sta~n~islaw; ADMISKI, 7efiryn; 3ABICY!, Ryszard; GRZECZM%kr,,Tadeusz Chemical composition and some physical and mechanical properties of poplar wood from a plantation irrigated by town sewage. Roczniki wyz szkola rol Poznan 16:91-100 163. 1. Department of Chemical Technology of Wood, College of Agriculture, Poznan.  M PROSINSKI Stanislaw- ADAMSKI Zefiryn 74--' Studies on beechi~ood dJgestion in hydrotropic solutions. Roczniki wyz szkola rol Poznan 16, 67-77 163. 1. Department of Chemical Technology of Wood, College of Agriculture, Poznan.  PROSINSKI., Stanislaw; SURMINSKI, Janusz; IIAUFA, Barbara Chemical composition of narrow-leaved reed (Typha anFustifolia) and experiments in obtaining cellulose pulp from it. Roc- zniki wyz szkola rol Poznan 16: 135-139 163. 1. Department of Chemical Technology of Wood, College of Agriculture, Poznan.  ,lasycanic ~re~ma sosnowf,,,-,,o roztworem fluor!m- sodu. Poznan ffanstwove 1-1-Mamm. Tiaukow-e71959- 56 p. Foland. (Poznanslde Towarz two Przyjaciol Nautc. Koridzja Nauk Rolniczycb i Lesnych. Prace, t.6, zesz. 2r Monthly list of East European Accessions (EEAI) W, Vol. 0, 1,To. 2, 'rob. 1960 Uncl.  PROSINSKI, St.; BABICKIO R. On a now method of cellulose determination by using diluted solutions of nitrogen and sodium hydroxide. Sylvan 104 no.1:95-99 Ja 160. 1. Zaklad Chemicznej Technologii Drewna, Instytut Technologii Drewna, Warszawa. J ~ ; , 'r.  ?"100101116011AC SM hGO TfAWMft 040COA16 W. Gruber &8d G. PVC1111110 (Vtl1iV., Vkl=). M6111481i. $1, M7-42 (19mr--Twe-filuipact Tfavatirs odm4w. which growla an old OR of Sm and pines, was dri"t In air. pullrcriatist In a mA. wd 7150s. Natal. with FtjOfor 14 clays, then with EtOH id " min. Tk 91011 frairskin (2.5 11.) containitil only tansair will aW. phlobalplaime. The 5 g. amorplailms white Powdrs from the FlrO esta., repeatedly crystd. firtint MeOll wkb an" arlismii). Naive not mew. trassarlovaifir aid (1), ralluslarm Wily netillea. ill. jalts 47,27' (McOli). stabilson with(jut clet-timprit. at bow the Comlin. CoILACla (- CH.). land contallts a C "Olli awl a wCondary fiffoup. I with Cl I'N" gives the 31ar ester (U), an. 1e 114.79" (CHCla). wbL-h, heated 10 lars. with 5% KOII, Sava 1. 1 with AcO wW pyridine (2:1) gavv amyltra- failetessofic arial. M. Ma-11". aspand. to 1. Acrtylation o( 11 am Me aMyl9mmetenolate. m. 104-45*. aspood. to 1. U kft wkb 1. 1 mats. chromic seW in cbromik-seld stabilized AaM. and the dects creen sold. esid. with EhO. dfW. Bad tiatr"M. fmals locia-boiling benzint with AlA, gave Me &Gnobsomoae to. l(k%-7* (o2isw. tn. 178-0"). wbkb with 104,'o KOH in H20 gave graclaidesiolaic craid. m. a*-G*. [Akv the trkaparat derivs., U splits off HjO, probably with eon- trawtim diff dw rins. when shaken 12 lan. with F" in do. petr. ethw. dild. with RW. wished with KOH and HO. da . selsorbect an AI.O.. &M washed with pefir. etber. Stwift a compid. na. IZ?.-4*, jejo 62.07' (CHCN). I 1110, ill 21'.. at IN)* culd 70) 111111. 1.7 11 ~:.Njvr Is Ilpfilli(I'llA1.1 I'll-lift'l,,.'vilm'. 111,16 at- plewlice Ill adi"1111C ".0.1 0 Mt in,.. It nitio br A trilrflw"t 1hativelle frsidues will, 3 .*)t cl,rreAlmind with silly known hy(litilytriterlwilic but doe% n Callboxylic Swids. -  Tnumosmamm. U. C amboll. W. caubw mad G, (us v!V 10"100). toe -000* *1 ZINVI cc. adw peow.0:41t AKA4 (w ke Water add. ve a AW CUM)- C1011 VVIN, lwmr: a. 0 181V "Ar v MZA~ W I - .dwid With IV Amid W-1 vpM AMh.- tramwteuw. R(:CHOH)ue- ~ 0. Ilwye. Is, 9140 I . (CIIC16); amisdo. w. 184 b dw r%wat &; M. &md IW losiveavooloct -.130-2;Joll? 00.3. 'WD us.) od&W wM CrOs b ALIOR the peadve ~ booted I br. with Lbeg. NNOMJWin 40ce. (CHr OWS. 4wo . Ne Wed, and dw ado. hosted 3 Ift. at SM' save 35% A sm, W7. Abe M wM CrOm gave bo=d"wmok. (it. m. IW7', oxim, m. 1764% fror A. so. an-fe. mdood with H. m. 22541TV wM& with CIH6?4 ~Bve tow Afe eaw (VIU).=.W refused with IV save IL m. Sll~-7% jowt R. Austin  d"91 Tisonst"ic sad Ill. Mlealum debyllmdom. AV (;rulm-( and G. 11ftKke (Uldv. Vioull's). Mamlith, IU, 2,*;) SMAI); ), in, heateil 30 hirs. at :jA)-Xjo* with 1.5 tim" ill, quantity of red Se g4ve off IIA) and a InlAll AM. Of VOIJ111- oil which formed no pkrAte cw ityphriAte. The re~uluv, i xld. with Et-0 3nd CsIl.. xAvv 1) a. of a thick 4ark bro-v, 'Ml Which was distd. very slowly at 0.1114"I'mr. HeIrm J-~)'. '"Y -nmll amts. of mAterials fonsking pic-rates m. ILS W "1 100 were oblaiunl. The W-I l(l* firmlion purifitit % ea the picratc. give l,2.S,6-tdF4mrlhy1nap1jlhukxe, colorb- llet'llIcs. in. 11)7-9* (pirrale. orminge-reil needle,, in. 14h 5W; CJ1j(.YO2,i compd.. gold-yellow umilt-s. m 167-7(jO , which g4ve the aur-acteristic yellow changing to bmwit. then to blue oil heating with Ifl-SO&. The 110-1.300 frAe. timi, purified via the picrute. gave l,2,7.S-Jr1r4mrlAY1phrm- -axlArrxe (1). C,jfIj,. cokxlem shining smdr-40 in. I;x4-9*; purnte, red umAlri. m. it jokmale, gtgd-velltm lit"lles. in. Ult,"" : C.11,(,%.003 rpow. yellow ISM11,3, Ill :AW? 0' (Ungiri, ' al.. CA, 44, IWO. I in glacial A,4)11 Willa l-'rf). gAVV the 'Julff.ff" in. -1m)-1 " hich. hr~atg-l b) H.M. With o-CJIfNlf,h in glarial Aa4)lI ove the quim,ro Imo, J~erip, in, 115 W. Traintlenalie j. id imi,t lbri,bw- miitain a phenAntlimir. gnmillills. jamel E". Aumiii  Trassisle"it"14. IL Cooversionle the parent by& carba. W.Ckub" And Uslsuslie (Univ. Vienna I - Alon- u1sh. It. 10244K 19,W); of. C.A. 45. 197flit.-Tratnetenaler ACk1.R(-C11Ol1)CO,ll(k - C.11. ~Cll'xl)' was convell"I nistate (1111 (4.1 a.) ju;~N) cc. Atm. eth" dTvjnw-J A,vily int., re. orther vtositS. 0.3 1. AlLill. (IV I. lusiled. jot~uml i"t'. ice water. aL-idilied. and extit. gave 3.2 X. did. R(:CllO1D. ClIfOll M in. 19D-2UD*: diacrkk. ru. 10."'. 1.1j: "3.10- (Cilb.). V with P-Mcc.11-Soicl in C.11'N ga- the Wwwasifonale which cooild not be purified but waste- Anced with IV and chrocnat.-Sraplictl with AtA. giving anic(clu'l, R(:C1(01l)j'fe (VI), In. 146-7'. (.1j., 611.4o, (T11CL); acdak. ui. 134-15". V1 treated with Kit in the sante way as M, lost 11#0 to gives proiJuct tit VW2',1-11, 69.5'. V1 (400 tog.) oxidized with CrO, in AcOl ( and the product heated I hr. with I.Scc. NlIjOll.11i0in 40cc. (Cllr ,Oilt. 40WL~g.Na added,and the mixt. heated 3 loss. at 21MV :4Vc M'% U. M. &5-7% (.1if 05.75 .. Ahou. Ill with CrO, Aye Mr traosoilemortak. R(CO)CO.Sle (VU), tit. Wry 7'; -rime. in. 17&-0*; fret acid, in. ZM-G'. V11 "isced with XftsOil and.Va assbove atid. R(.,Cff,)CO- 11. in. 225-4' (?%). which with Clio%*, gave the Me ester (VIU). in. 93-3 . VM reduml with IV gave 11, tit. M-7*, juiard in.p. wilb Hubtaiardalsovor. &,-7*. lAnct F. Austin  PWUCGMPbk IS P= G. H. Kautscksik a am 1. C*WZ#W. (Rumsbus Zone Rd.) 1%9, 1. lum-littfilix a O.&g. ample 30 min, with, pyridint, 31) min. more with fresh pyridine, filter, make up to IM cc.. dil. 2-10 cc. of this soln. (depending on the amt. of S prelfut) to 10 cc. with pyridine. mix with 3 cc. of a soln. contg. 12.5 g. ArOll. 277.2 g. AcO.'N;s. too cc. 2% tylow solo., alml SM cc. water, and (let. the S content PDIAr~ Xrophically. Either acetoor or pyvWinc can be u~l as solvent W Ilds delu. However. [be stnk. 0 twesem in acetone Vt obably rmix with the 8 and thus iutroqtum an error which is avoided when pyridint is used. St. G. M.  ABLOV, A.V.; .cs-rlI o4, cor~:In- Vllur. neorg. 6-:8-635 165. Ll  30401 1,0190 S/058/61/000/009/013/050 A001/A101 AUTHORS: Ablov, A.V., Proskina, N.N. Triix, Light absorption by polymer compounds PMUODICAL: Referativnyy zhurnal. Fizika, no. 9, 1961, 90, abstract 9V108 ("Uch. zap. Kishinevsk, un-t", 196o, v.-56, 17 - 2.3) T M The authors studied absorption spectra In the visible-ind ultravio- let.ranges of.spectrum by coordination polymers of the following composition CQ(NH~) (NO (I) and Cc en .(NH,3-) (NO (11 They show that in All cases 3' 2) studied the fu2 additivitk-of absorption o? colored.ions is preserved. Absorp- tion spectra of,pelymer compounds'of both composition (1) and (II) differ'from each other. Cobaltic hexanitrite saltlions ("geksanitrokobalti4t,ion"3 are very unstable in aqueous solutions, especially at pH-values 7 6. [Abstracter's note: Complete translation] Card 1/1  ABIM, A.V,; PROSKINA, N.N.; GHA I'll R INA , L.F. ........ Infrared aboorption spectra of the products of the add-itioi, of aromatic amines to cobalt, zinc, and cadmium halides. Zhur. neorg. khim. 30 no.6:1350-1354 Je t65, (11-IrRA 18-6) 1. Inatitut kh1r.1i AN 114oldavokoy ISSR.  ABLOV, A.V.; PROSKINA, N.N.; SHAMMIKlY, V.N. Infrared absorpt-iori spectra of t-rans-,,-.hyrlrGxy-.'z'_nes ,-4' trivalent roLvAlt with sulfanf2amides. I"hur. neor-, - f.- 11-n. 10 iio.6:1355-1359 Jfj 165. (NUl"A IS: 6) 1. Institut kh-imii ANI l4oldavokay SSIHI.  YO,. I - 72417- PFOSYORYAKOV, YEE. 1. Materialy k flore TurkneniEtann Izvectiya Tur~=. ~ilialp- Ak-ad. nauk SSSP, 19~9, Ro. 1,.s. 28-32. 501. Letople' Zhurnaliny" St,-tey, Vol. 44  ALDCDZHLNOV, R-A.,- ~BRONSHTZU, TS.G.; QUIUMMOYS Ye.I., professor, cloktor biologicheskikh nauk, otvetstT"enn-Y-Y-1qMktor; ZHURAVLIV, B.S. redaktor isdatellstva; SHIMIKOV, A.T., tekhnicheskiy redaktor [invertebrates of Zeravshan Valley; a systematic catalog of species with an indication of the beneficial and injurious forms] Bespozvo- nochnye shivotnye 29ravehanskoi doltay; sintematicheskii perechen' vidov a ukazaniem poleznykh i vrednykh form. Tashkent. Izd-vo Akademii nauk UzSSR. 1956. 348 p. (MIPA, 9:10) (Zeravehan Valley--lavertabrates)  PROSKORVXOV. Ye.I.; DZHLLLLOV, A.S. Biology of one of the Central Asiatic tulips. Trudy Bot.sada AN Uz. SM no.5:127-132 '56. (KLRL 10:2) (Samarkand Province-Tulips)  T_ ~77_ AID Nr. -9821-11. 4 Jtule DIFFUSION TITANIUM IN NIOBIUM (USSR) OF SILICON AND Arzhanyy, P. M. ,R. M. Volkova, and D. A. Proskoshkin. -IN: Aka~demiya nauk SSSR~Institut metallurgii no. 11, 19620 003/019 S1509162106010111 4 and composition Solid s~a4-e diffusion.of S1 and Ti.in Nb, primarily structure of. the'phases formed in,the process of diffusion,have been studied. Specimens of n1obium, contedning 98. 9% Nbf 0. 41o Ta, 0. 151a Pb,.O. 137o Fe, 0. 0816 N, .0. 0 916 0, 6~ 0156 Sij 0. 141o Cand 10-5 Jo B,were impregnated with silicon and.. tit 8000C. tanium: at temperatures of, 900* to I -it was found that the diffusion layer forme& at 9000to 1100*C of a.single phase, a solid solution o consists titanium in NbSi 2, This phase has the same hexagonal la7t ti c-e 'as NbSi 2 but with parameters e lz~ 4. 779 and a ~:v 6. 493 kX#- its. microhardness is 1200 kg/mm2. ~]Below this layer, Iat 1200*C aInd 1300*C, a seco.nd, diffusion ~.j layer. 5 to 6ji thick is formed which contains .82% Nb. Its structure could Card 1/2  _-11 4 itme UD 98P DIFFUSION OF SILICON (Coat 1d] SJW6;2100010.1210031019 -:not be determined. The total thickness of -the diffusio laye' s depends on the n r ':te uIr mPerat e and -duration of impregnation; e.g., in an impregnation lasting 6 hrs it varies,between 21,R at 900*. and 21O.g at 1300*C. Titanium accelerates the diffusion ~o f silicon in -Nb., - Oxidation tests at 1000, 1100, U50, and 1200'C showed that for the first 20 to 100 hrs (depending On temperature) the oxida- tion foUows.a logarithmic rate. The oxidized surface. is smooth. -After 75 :to 80 hrs at 1100*C or 18 to.20 hrs at 12000C the oxidation rate increases sharply and the o3dde layer turns- spongy. However, no o3dde peeling or tib20.5 emergence on the. surface was observed. . Generally, SI-Ti diffusion coat on Nb.was found to h ve almost 501o high 6r -oxidation resistance'than QL Si coati g,. The oxide film was fo, 0 -phase. -- Fb205 with n und to consist f a :lattice parameters a- 21. 38, b =1 3. 79, and c = 20.12 kX and an a-phase ;3i02 with parameters. a - 5. 02 and, a: a 8. 22 kX. ~ The surface of the film consi s-ts of rutile and a S ation wa's found to i02. The activation energy, of.oxid 'be 3600 kcal/mol.,' [NDI car& 2/2  -FROSKOUMMIA) N. F. "Sur les alcaloides de Salsola hichteri. III. Sur 1e salsoline, possedant une activite optique et sur l1elimination de deux alcaloides nouveau;x.11 11roskournina, N. F. e-6 Ore,.-.how,, A. P. (p. 1999) SO: Journal of General Chemistry (Zhurnal Obshchei Khimii). 1937, Volume 7, No. 14.  NINA, N. F. "Recherches dans le domalne du garmine et du garmaline. Communication IP. Konowalowa, R~ A., Proskourning-, N, F. et-Orekhow, A. P. (P. 1256) - SO: LmmyAl of Gener4l Chnistry (Zhurnal Ob3hchei Khimli) 1936, Vol. 6, No. 9  pRoSKOV, S. M., MIKIREV, A. Ye. ."Serpencular Solar Streams with Force Free Magnetic Fields" Soviet'Fapers Presented at Plenary Meetings of Committee on Space Research (COSPAR) and Third International Space Sumposium, Washington, D. C., 23 Apr - 9 may 6p-  GOCHkKOV9 B.G.;,.,MOSKOVSKIY, A.M.,;.-SHMOIAGIY, Yu.V.; 14AUER, A.A. High-frequency wave trap filters with 50 to 330 kc. attenuation band. Energ. i elektrotekh. prom. no.1:20-22 162. (MA 15:6) 1. Krymenergo. (Electric filters) (Electric power distribution-Communication systems)  AT SIT W f~-%# ca F w n PU 0"1 ..Dt. At Ogg i go, 0 "roes 10*0 OO= Tel oo= 00 to. 00 a go 44 dad 'f-frol" PW!,7 c1 "2m MWA so 0- X-ty" ~x 1 00 go 'N, d- 11, 4 sin as 13 0 w I-A- r-1 AA I -I v 11 1 4 1 r-T- a -I I f 03 r," ff &, 04 it " a se q K ai Istillels it $life OaS 0 0 0 0 O'sl'o 9 0 0 00 0 0 0 0 0 0 0 0 0 0 0 w v v 1, 0-0 0 q 0 * 0 0 0  0 6 & * o * 0 0 o * 0 e * a u 33 is n IW A Sp a M 41 a a 0 if r -0 A t 0 P9 a V# 1W)IIanlIT13. VIS's ;~w po tone aip )I (si 1) A Y-f-r-VA W I f V J' U-0 'w 7 w t., "1 1! if r-tr �r it Is if $I (I it gi 11 gs 14 AI 10 f 0 o 0 0 a 0 0 0 0  0 IF ;v M;A gild .5 javas A A it w umamumpocou 41 It it Ev %W "d A AtWAG"u. --, "n), F.* kiiatiVittes the beat &.w Lnd h~.t k-.% (or ~"s pMw of wwr mesa. mM 11" cach app. in tbc plant LruJ indket" him the arain eva%licuitt-ts ton 1w ItIMICIMI'd 01 Lee tz-- :30 0 !,O0 qzG _110. 4.4 %Bill, lt~ 14, u to colt we( wit ItIt Pctfff ItKkWn I JKA 3r, g~ 0 0 0 a 0 0 te 0 0 0 0 0 0 9A gov, 0 0 00 9 it  P, Q A-1 .1 -"M lvll~-Ij. 1-1- AA. N rA 00 tt 1 1, All, "d a. 10 V. m.0 a, 9" 00 sum iowl~w son, lacbrim 00 aw A. J2, (41011. -09 -00 no 0 zoo 9* rie .00 00 00 00 00 i ASO.SLA OtTAtLUNCKAL tITINATLAC CLAISIOKATION 9 1-, tpe -Li a-II Q!--0-s ts Mw t7 IV a n t9 IT %I akm o o o 0 4p 0 9 0 0 0 0 90 0 4 9*00 : 0 0 0 0 010 0 0 0 0 0 9  9,400941 000004 0*000 asse, 4 00*40 tits* to as A I A v y1v -A Y I AN a Q a U't 00 00 29 WROMY in Sopf factories. kv. Coal 404 weam "' -00 , 1-fify the heat flow alsof brat lmw~ Gor rv,.fy -00 T!. ar maistif. and for racli app. m thr phant awl 0 oe, it 00 t I IMIGGS911 hft the steels COBBOVIOn can be d1adniabod. see 00 90 ftank Maromb es' odIj 00:1 s' 0*0 ,Igoe Zoo oo so 0 til . 2 ETALLOICKAL LiTfO414ft CLASSIFKATIC. i -7, T u Ss AV -0 41%1' W-4 i U 0 B FPITIV COM Kit Ifif It Ita if MM10A 1114 &n 0 0 0 I 0 00 0 00000 0 0 41 0 0 0 0-0 0 0 0 *1* 0 0 411 0 0 0 f 0 0 0 0 0 0 0 is  w GOLIDMAN, A.G.- PROSKUIU, A.I.; LYSENKO, S.F. 7 Excitation spectra of the Gudden-Pohl effect in luminophors based on copper-activated zinc sulfide. Opt. i spektr. 18 no.5.894-896 My 165. (MIRA 3.8.-10)  !TOPIC TAGS: emission spectrum, zinc compound optic material, optic Ely, phosphorescence, luminescence, photoconductivity activil -is a continuation of earlier work (DAN SSSR v. 149 AB8TRACT: This -.-,,1419,, 1-9.63 and v. 150, 519, 1963), in which the emission spectra of f',P- 4 - M q-n nhncxnhe-.-r wqR rm-nmirpti. To m- a s -  L. 64497-65, 4ACCESSION IR: AP5012 23, tiowof-the.-activdtion center s by:short,~-wave.Allumlnatlon but also A:- stable internjil -elebtrio~ a eld Pesulting trom the superPosition of an external field on the nhnsnhnr in thp r%rnc3--^-  WOMMOR R 711-P w P, IN I&I ~ WE ED i-MAN L064497 -65 t -012 23 ,and the -Guddewwfthl_ f lash emission centeraboincide in the same phosphor as-long as there is not prot-ective field to create special ! I Qudden-Pohl centers. tVIe th"t N. N. Kalibap~c conditions for ~buleff_ or . 1. - - -.-- - -.-- ---I r C1 _0 &I-    GOLIDMAN, A.G.p akadendk;. HMNMA_A.I. Determining the spect.ral composition of the Gudden-Pbhl flash in zinc-milfide luninophors. Dokl.Aff SSSR 149 noo3:567-570 Mr 163, OMIRA 16:4) 1. Institut fiziki AN UkrGSR. 2. AN Ukz6SR (for GoIldman). (Zinc sulfid"pectra)  GOLIDMAN., A.Grp [Golldman O.H.]; DUDNIK, V.P. [Dudny4IV.P.]; PROSKJRA, A.I (Proskura_, 0.1.1 Frequency characteristics of the brightnesE; of electrolumi- neacent cells with zinc-sulfide powder electroluminophors. Mcrofiw.zhur. 6..no.6:7%7~764 F-D '961. (MM 16:5) 1e Institut fiziki All UkrsSSR) Kiyev. (Imineseent substancel)    L -11938-& EWT(1)/An('1')/EWP(t)/EWP(b) UP(c). JD- _'ACC NR, -AP6001649 7.SCMCE C0Mt.-:".1M/CM)51jffi3/q19/ /0 30 _906/0943 9 1, *V'5~5 39 AUTHOR: Golidmang AeGe 1Proskura, A* 1, LY t*6" S.1p. se ORGi non* TITLEs Three types of,Gudden-Pohl effect and th e pho phorescence of copper- activa.ted zinc sulfide SOURCRv b~tlkaj spektroakopiya, v. 19, no. 6, 1965, 943-950 TOPIC TAG.S:_ zinc-sullfide, phosphorescence, luminescent center ABSTp he authors consider a characteristic property of the Gudden-pohl ef f ectfflwl which consists in the conservation for an extended period of time in the solid dielectric of a certain portion of the absorbed light energy in the form of-iohized.luminescence centers and electronsq with their radiation recombination controlled by the electrical field. The mechanism of GPE center excitation is consideredg and three types of GPE aredescribed. The possible interaction of these types is analyzed. The paper,deals primarily with a study of.the physical nature and laws of the 2nd and 3rd types of GPE, with partic- ular attention given the derivation~of the 3rd type and itscontrol. The 2nd type., is the effect arising as the result of the preliminary combined effect of shortwave radiation and the internal electric field; the 3rd type is the 112 UDCt 535,373 Card J,  L 11938-M ACC NRt AP60.01649 effect.obtained as the result of new excitation arising without new radiation. The excit-ed luminescence centers of the GPEI in coppe tivated zinc sulfide luminescent materials are regarded as phosphore-sdqMde?=rs protected by local fields against recombination. The characteristics of the 2nd and 3rd types of GPR are defined and methods of con-trolling these processes are devise4 Orig. article hast 2 tables and 6 figures, SUR.CODffv 20,, 11 SUBM DAM 06Ju164 OTH RRFs 003  SWMNKG-SMIN, Leonid Aleksandrovich; LISMSKIT, Nikolay Longinovich; SUARTS. Viktor Alakeandrovich; KORZH, Petr Ivanovich;_PRO.SKURA, G F kademik, rateenzent (deceased]; TKMOT, T.N., d~-tm--ni~--- '~-~nd.tskhn.nauk, retsenzent; SMCKA. K.S., red. [Atlas of drawings and diagrams of gas turbine units] Atlas konstruktaii i ekhem gazoturbinnykh ustanovok. Pod obahchei red. L.A.Shabenko-Shubins. Koskva. Goo.nauchno-takhn.izd-vo =Bhino- stroit.lit-ry, 1960. 183 -p. WRA 14:1) 1. Chlen-korrespondent AN USM (for Mmbenko-Mmbin). 2. AN U= (for Proskura). (Oas turbines-Design)  34431 S/185/61/006/006/008/030 2V,3~;_00 (IIY71t13~) D299/D304 AUTHORS: Holldman, O.H., Dudnyk, V.P., and Proskurap 0.1. TITLE: On frequency characteristics of the brightness of electrolumineseent cells with zinc-sulfide phosphors PERIODICAL: Ukrayinslkyy fizychnyy zhurnalg vo 6, noo 6, -1961, 761 - 763 TEXT: The frequency characteristic of an electroluminescent cell with a ZnS phosphor is mainly determined by its capacitance being almost linear (in case of a constant voltage)9 viz. i = 24-rfVC. The frequency characteristic of the brightness B of a cell is approxi- mately given by the formula B = afk, where a and k are constants (0-C k -c 1). If a resistor is connected in series with the cell, a maid mum appears on the frequency characteristic at a frequency that is lowerg the greater the ballast resistance; the brightness decrea- ~es fast with frequencies higher than that corresponding to maximu-in brightness. Insertion of a capacitance in parallel with the ballast resistorg leads to a certain linearization of the characteristic. Card 1/2  S/185/61/006/006/008/030 On frequency characteristics of D299/D304 Thereby it is possible to regulate the capacitance (in a certain interval), so that the brightness becomes practically independent of the frequency. It is expedient to form a resonance circuit, Icy inserting an inductance. This has the following advantages: a) The voltage at the cell is increased (three- to tenfold) as compared to the source voltage; b) The brightness is greatly increased (a hun- dredfold); c) The current source is more efficiently used; d) The electroluminescence yield is higher. The frequency characteristics of electroluminescent elements reflect also the peculiarities of the electrolliminescence mechanism,, Thus, if dissimilar luminescent centers are present (ZnS-Cu, Ifin), the frequency characteristics un- der similar electrical conditions, but in different spectral reg- ions~ have different exponents k. The frequency characteristics for the variable luminescence-component and for its constant component are in a different ratio, depending on the luminescence relaxation process. There are 4 figures, ASSOCIATION:. Instytut fizyky AS UkrRSR (Institute of Physics of the AS UkrSSR, Kyyiv).,[Ab3tractor's note: Essentially com- Card 2/2 plete translation]  .--EQQQKM GOLIDMAN, A.G.J. akademil Oa"'J~ Ao I. On the nature of Gudden-Fohlls effect.. Dokl. AN SSSR 150 no.3.*519-522 My 163. (MIRA 16:6) 1. Institut fiziki AN UkrSSR. 2. AN UkrSSR (for Golldman). (Phosphors-Spectra)  PROSKMO, Second number of the OTMW of the Geological Institute of the %j1k Acad~Mt -of Sciencie, IsY.Otd.est.nauk AN TM2h.SSR no.2:113-115 158. OaRk 13:4) 1. Tadshikokly gosudaretvenzWy universitate   MAKEYENKOp M.M.j FROSKURIN, LEYDERMAN, G.I.; SOLNTSEVA, Z.V.; NOVANP - , V.T.; TSULIMOVp A., red.; POLEVAYA# Ye.9 tekhn.red. [Moldavian Economic Administrative Region] Moldavskii ekonomicbeskii administrativnyi raion. Kishinev, Gos.izd-vo PKartia Moldoveniaske,w 1961. 168 p. (MIRA 34:6) (Moldavia-Economic conditions)  PROSKURINA, Z,N. Liquation of spheroidal graphite in magnesium cast iron. Dokl. AN BSSR 4 no. 11: 466-468 N 160. (NIERA 13;12) 1. ]Fiziko-tekhnicheakiy inBtitut AN BSSR. Predstavleno akademikom AN BSSR K.V. Gorevym. (Graphite) (Cast iron)  PROSUELA .dorovich , Georgiy Fe- --jProskmra. H.F.]; ROZOVSKIT, I.L. 6-n'd-.-iekhn.nauk, oty.red.; SMCF47MT, L.O. ESokolovalkyi, L.O.1, red.izd-va; RAKHLINA, N.P., takhn.red, EHydrodynamics of turbines] Gidrodynamika turbomehyn. Vyd.3. perer. lyivl*i Vyd-vo Akad.nauk URSR, 1959. 578 P. (MIRA 13:3) (Turbines)  PROSOU, G.F. Generalized characteristics of hydraulic-turbine rTmners. Sbor. trud. Lab. gidr. mash. n0.7:3-15 '58. (MIRA 120) (Hydraulic turbines)  SOV/124-58-5-5347 Translation from: Referativnyy zhurnal, Mekhanika, 1958, Nr 5, p 55 (USSR) AUTHOR: Proskura TITLE: The Theory of a Plane Cascade in a Finite Flow (Teoriya plo- skoy reshetki v ogranichennom potoke) PERIODICAL: Sb. tr. Labor. problem bystrokhod. mashin i mekhanizmov AN UkrSSR, 1955, Nr 5, pp 3-18 ABSTRACT: The author determines some of the characteristics of a stationary straight cascade containing a finite number of blades by arbitrarily introducing for the cascade a nominal specific speed which is a function of the distance between the shroud plates. This specific speed is used in an empirical expression for the coefficient of cavitation for a hydraulic turbine. The analytical results, however, do not agree with the experimental data. The content of the article fails to correspond with its title, since the peculiarities of a flow past finite cascades are not discussed. 1. Turbines--Cavitation 2. Turbines--Theory G.Yu. Stepanov Card I/ I  pPesIrVOI Cr-O"I'ri )~ PROSFITA, GEORC-Iy FETDPOVICH. EknoprimentAlInnin j,i(Iroaero(JInapdm. Ghpst'I. Mo~kva, fir)saviaa,.r+ci--dat, 1933.- 'lop, ').j fl.jus., platens, dla~,m Oiblicj-,--phy: v. 1~. n. 306. Title tr.: Eyperirmental hydro---!ercd-,rnamirr,. Ell Course of the Kharkov lnstituti, of Aeronautical StAip:--~.7 Part I. TL570.P75 SO: Aeronautical Sciences and Aviation in thp Slovi-t. *to-nion, T il~rary of Congress, 1955.  IVANOV N.V- (Kiyev, poselok Kc- -hevatoyel; KOST110, 1. (Vitetek); P~;SKURA, I.F. (Kerchl) Statements by workers in kerwazit onterprises. Stroi. mat. 10 no.906-37 S 1641 (MIRA 18:2) 1. Glavnyj, ilizh. Kor.chevatskogo zavodoupravlenkya ('or Ivarov). 2. Nachallnil, konstruAtorikogo byuro Vitobslkogo koubinata stroitellnylrh materialor (for VitabEik). 3. Rul-covoditell labora- torli legkikh zapolniteloy i .91-1.rcitellnoy keramik-i Krymskogo filiala Gosudarstvennogo nauclmo-.--qledovatellskogo Ins-ti-tuta stroitellnykh materialov i izdeliy. (for Frookura).  PROSYURA, I.P., kand. sollskolhoz. nauk; D.,%CR'VSKIYp S.A. A valuable g-recen fallai crop. Zemlele-;c 27, 0 1. Direktor opytncgo khozyaystva "ObroBhlroll Nauchno-lasledovatell- skogo instituta zemledeliya i zhivotnovodstva zapadnykh rayoriov UkrSSR (for Bachevsl~iy)-  KIYAK, Grigdxliy SLpanovich[Kyiak, H.S.]; PR~~a ~Pavl~ovich; YUKHIMCKUK,F.P.(IUkhimehuk.F.P.], kand. selikhoz. nauk, red.; LISOVICHENNO, Y&,VjLtsovychenko, IA.V.), I*d.; POTOTSKAYA,1-L.A.[Potots'k&,-L.A.], tekhn. red. [Cultivation practices and production of forage lupine seed in western areas of the Ukraine] Agrotekhnika, i nasinnytetvo kormovobo 14upynu v zakhidnykh raionakh Ukrainy. Kyiv, Vyd- vo Ukrainskoi Akad. sellakhosp. nauk, 1962.- 75 P. (MIRA L6:5) (Ukiaine-Lupine) (Ukraine--Seed production)  USSR/Cultivated 'Plants Fodder. M. Abs Jour : Bef Zhur Diol., No 4, 1958, 15682 Author ; I.F, Fro-kura Inst : - Title : The Effects of Fertilizers on the SliGhtly lakaloid Lupine Yield and Fodder Quality. (Vliyaniye udobrenniy na urozhay i kormovyye kachestva mloulkaloidnor,o lupina). Orig Pub : Zhivotnovodstvo, 1957~ No 51 65- Abstract : At the kolkhoz near the city of LIvov experiments were conducted for two years on the study of the effects of mineral fertilization on the grain yield of the slidit- ly alkaloid Nosovskiy white-seeded lupiney on its al- bumin and alkaloid content. The mineral fertilizers wWre applied under the plow in 1955 and under a deep sprinC; cultuvation in 1956 at the rate of 45 kiloLTans of active substances per 1 heetara. Card 1/2  USSR/Cultivated Plants Fo&Ier& M. Abs Jour so Ref Zhur Bioli., lio 4i- 1958, 1568a The Grain harvest was: on plots without fertilizers 11 centners, on ferti-lized plots with Kk 14.6, with kainite 14.4, P 1202 P 12-3., Ky and Pe 15.6 contners c 'F 6 per 1 ha. Potash fertilizers raised the albumin of sli&itly alkaloid-lupine and lowered its alkaloid con- tent. To raise the yieldint; capacity and lower the alkaloid nature of the lupine it is recom-iended that those potassium and phosphorus P and kainite fortili- P ;tied under the p1mit- zers which are less scarce be ap ine;s when cultivatinG on sandy loam. soils. CarO 2/2  USSR/Cultivated Plants. Fodder Plants. Abs Jour : Rof Zhur-Biol4q No 159 1958, 63231 Author : Pros -a- Ti P_ Inst :-Ullir SSR Vlestern_Rayon Scientific Research Institute of Aegiculturo and Animal Husbandry. Titlo, : Tho Effect of Basic Agricultur-cl Moasures upon Yields of Fodder Lupine Seed. Orig Pub : Inform. byul. Nauk.-dosl. in-t zorlorobstva i tvarinnitstva zaIdAdn. rayoniv URSR, 1957, No 2t 42-V, Abstract : A study was conducted of tho influonco of sowinS dates, soi-Ang norms, and fortiliza- tion on the yield and quality of sead of yollov fodder lupine (Nosovsk whitc-seed va- riety) on weakly podsolizod, sandy loaD. soils Card 1/2  USSR/Cultivatod Plmts. Fodder Pl,,mt-s. M I.,bs Joui, Rof Zhur-Biol., No 157 19589 68231 (Bryukhovits Rayon7 LIvov Oblast'). The bost rosults wQro obtained whon lupine was sown on early dates (not lator than the first third of April) in narrow rows, and rith a S01:1ing norn of ho kg/hoctaro, The a.-:cj_murj yield (141.8 porcont of the control) was ob- tainod by using potassiun anC. phosphorcus for- tilizcrs together (15 kg/hoctario of active ria- torial), since nincral fertilizers .-tore very offoct*vo, especially potassimi. It has boon dotomino-d thrn~, potassiLrri salt and kainit09 and also suporphosphato and phosphorite fertilizers have almost i!:'Lorrcical effects on lupine yields. -- B. T, Konik. Card 2/2 84