SCIENTIFIC ABSTRACT GUZHOVSKIY, I.T. - GUZIKOWSKA, M.

ACCESSION NR: AT4036078 ASSOCIATIONs None SUBXITTEDt 00 DATE ACQ: 2lMay64 SUB CODE: ME NR REF SOV: 003 ENCL: 02 OtHER: 001 Card 3/5  ACCESSION NR: AT4036078 ENCLOSURE: 01 IMCVC9 2~ Block diagram of set-up: I conical source; 2 capacitor bank; 3 - glass tube; 4 - vacuum chamber; 5, 6, 7, 21 generators; 8, 9, 10, 18 - dielectric antennas; 11 - input horn of waveguide channels; 12, 13 - horns irradiating the plasma; 14, 22 - double waveguide tees; 15, 16, 17* 23 - detector heads; 20 - matching unit; 19 - vacuum seal, 25 to vacuum pump Card 4/5  A CCH S S '1. 0, r%~'4036078 nx1j" 10. lions) \2 \J 0 0 /Go 200 tiwycex a e c Distribution of charged-particle densl.ty in plasmoids at different voltages (kv): 3 (1), 4 (2), 6 (3), 8 (4) . and 10 (5). Tim. wasured from start of discharge Card 5/5 FNCLOSURE: 02 M./sec 2 Al JU 1.7 Wra kV Dependence of init'Lal velocity of different layers of the plasmoid on the initial capacitor- bank volt-age; densities: 1 - maximum 2 - 1012 (Doppler effect), 3 - 1012 (hf signa. rwtoff), 4 10 (am-3) 5 x 10 '~M  L 2o96-613 E,'!T W/K.11G (k)/BDS/E;S (r) -2 AFFTC/ASI)/Esij-.3-/11'-'~'Jt/St,D, P Z.- 47P-!--;'7-Po- ~/p ab-4 AT/ijp(c) Acamou im: . AF3oo6492 -R-Y- S/0170/63/066/009/0057 AVMOR: A S.; Guzhovs14XL 1. T zowkiy, Yu. Prive-zentsev, Chura3rer, V A TITM: Microwave Methodo for diagw81ngplqsmqjY,\ SOME: 1whenerno-fizichmakiy. zhurnal, v, 6., no, 9s 196~.* 57-60 plasm TOPIC TAGS: id electron concentration distributionj, plasmoid critical electron density,, plasmoid sharp- hvnt boundary,, plasmoid velocity measurement, "STRACT; This &rtiaU decai-lbas microwayo methods for OAW, Quirs plaffW1449 The distribution of electron concentration in a p3 afamoid was studied and the: velocity of the pl as id determined. . Plasmoids vere produced by means of thei did- charge of a capacitor bank (6 jif)., through a conical source and were propagsted~ in a glass tube (6 cm in diameter.and 113.0 cm in length) with a residual pressure not exceeding 2 x 103 nevtons per square meter, Probing of plaswids vas carried ,out at three frequencies- 9 x 109, 37.5 x 109, and 75 x 109 *pop vhich aorr spona .to critical electron densities of 1012 s 1.7 X 1013 and 7 x 1015 cie 3., respectively,: The transmitting and receiving antennas vere placed at a dititance of 50 cm friam the plasmoid source. It was found that plasmoido have a sharp fiont boundai~, Card q~ -b Lq k";!L'T&Ulf"~i' P'l  L 15501-6 - 63, ACCESSION NR: AP3006492 The plasmoid electron density at a 3-kv capacitor voltage vas on'the order of 3.013 car'5 With an increase in voltage the electron density also increased to M value of 10'5 cm-~ at a voltage higher than 10 kv, The velocities of plumolds with electron densities of 1012 cm-3 ha7e been measitred. by 'the Doppler effect. Velocity measurements of low-density plasmoids (1010-1011 cm- 3) were made by a method which employs a cavity resonator (9.6 cm in diameter and 100 cut in length) i in which the Rn made was excited at a frequency of 20 X 109 cPs, A plasmoid was si=Uted by means of a metallic rod inserted into a glass tube placed In- i I side the resonator. The insertion of the rod resulted in the detwLing of the rwqra-~_--~ tor and, at points corresponding to the cavity resonance diiLlensions,, resulted ih a sharp increase in the indicator volte*,e. From readings taken at various vol- tages across the capacitor. ban%, graphs were plotted of distance versus time 1for plasmoids vith a density of 5 x 10 10 cm-3. These graphs shoin,-d that different I plasmoids movedvith different speeds, which resulted in a decrease of the steepnes's-of the plasmoid front as it moved along the tube. Orig. art. has: 4 figures. iASSOCIATION: Fiziko-telchnicheskly institutAN USSR, Kha 11W (Physicotechnical Card 2/1 7_--- --- - ----  AZOVSKIY, Yu.S.; GUZHOVSKIY, I.T.; MAZALOV, Yu.F.; MANK, V.V.; SAFRONOV, B.G.; CHURAYEV, V.A. Conical induction source of plasma bunches. Zhur. tekh. fiz. 33 no.10:1149-1158 0 163. (WRA 16:11) I~j7  SINELINIKOV, K.D.; AZOVSKIY, Yu.S.; GUZHOVSKIY, I.T.; FANCHENKO, V.Ye.; SAFRONOV, B.G. Interaction of plasma bunches with an axially symmetric magnetic field. Zhur. tekh. fiz. 33 no.10:115q-1168 0 f63. (MIRA 16:11)  E! ~, !!w4rd ",'If I lilt IV214-.111AM -I U11111i I 01~:Al' P 1 ACCESSION NR: AP4035693 S/0057/64/034/005/0841/0846 AUTHOR- Azovskiy, Yu.S.; Guzhovskly, I.T.; Safronov, B.G. TITLEs A conical source of plasma bursts with electrodes and pulsed admission of gas S,OURCE: Zhurnal takhnicheakoy fimiki, v.34, no.5, 1964, 841-846 1 TOPIC TAGS: plasma, plasma jet, plasma source, hydrogen plasma A13STRACT: A conical source of plasma bursts was constructed as shown In the figure (Enclosure 01), and its behavior was investigated. The work was undertaken in an effort to develop a source that would produce bursts comparable in purity with those obtained with an induction source (Yu.S.Azovskiy, I.T.Guzhovskiy, Yu.P.Mazalov, V.V. Mank, B.G.Safronov and V.A.ChurayevZhTF 33,1149,1963) while employing the simple external circuitry of previously Investigated plastic sources (Yu.S.Azovskiy, I.T. Guzhovskiy, B.G.Safronov and V.A.Churayev,ZhTY 32,1050,1962). Hydrogen (usually 2 or 3 CA was admitted to the discharge chamber, and after a delay of 210, 270 or 350 microse,c (of which about 175 were required for the valve to open) a 6 microfarad capacitor, charged to between 5 and 20 W, was discharged across it. The resulting Card 1/4  AOCESSION XR: AP4035693 plasma bursts were investigated in various ways: 1) the ion content was analyzed with a mass spectrometer; 2) the visible radiation was detected with a photomulti- plier and displayed on an oscillograph; 3) the currents In the plasma bursts were detected with a movable magnetic probe (1.4 mmdiameter, 8 mm long) and displayed on an oscillograph; 4) the cut-off of 37 500 megacycle microwaves wan observed; 5) the relative energies of the bursts were determined with a thermocouple probe. The plasma bursts contained from 70 to 90% hydrogen, including a small quantity of H+2 and H3. The principal impurities were carbon and oxygea from the pump oil vapor, and to a lesser extent, sodium and silicon from the glass walls, and copper and zinc from the brass electrodes. Several bursts were ejected during each discharge. In general, one burst was ejected during each half cycle (A.5 microsec), but two or even three bursts were frequently ejected during the first hall cycle. This multiple- ejection during the first half cycle Is tentatively ascribed to radial oscillations of the pinched diaghorgs. The plasma bursts completely out off the microwaves; their charged particle density therefore exceeded 1.7 x Iola ca-3. The velocity of the bursts was directly proportional to the discharge voltage and Increased with decreas- ing delay between gas admission and firing. The first burst ejected was the most ra- pid. With a 210 microsse delay and a 10*kV discharge potential, the velocity of the Card 2/4  ACCESSION mR: AP4035693 first burst was 5.3 x 106 cm/sec. Currents circulated in the plasma bursts in the same direction as in the winding about the discharge chamber. These currents do- creased with time at a rate approximately proportional to the velocity of tile burst, so that the current had decreased by a factor a when the burst had traveled 7.2 cz frop the source. Similar behavior was observed in the much more rapid bursts from the induction source (loc.cit.supra), the corresponding distance in this case being 8.8 cm. It is accordingly suggested that the decay of the current is due less to the finite conductivity of the plasma than to expansion and interaction with tile wall of the drift tube. "In conclusion the authors express their gratitude to V.A. Churayev and N.G.Shulika for their participation in several preliminary experimentC Orig.art.has: 5 figures and I table. ASSOCIATION: none SUBMITTED: 09Kay63 SUB dODEi ME Card 3/4 DATE ACQ: 2011aya4 NR REF SOV: 004 ENCL: 01) UMR: 000  ACCFSSION WRi'AP4035693 ENCLOSURE 1 01 0 Conical plasm mourcet 1) brass ring electrode, I.d.9 on, 2) glass wall of conical discharge chamber (vortex angle 500) supporting a 12 turn colenoid, 3) brass cylindrical electrode, o.d.1.3 cal 4) valve head, 5) teflon seal. Card 4/4  'ACCESSICK MR: AP4040302 8/0057/64/034/006/1011/1012 i JAUTHOR: Azovskiy, Yu.S.; Guzhcrvskiy, I.T.; Safronov, B.G. ITITLZ: Concerning measurement of the energy of plasma bursts with thermal probes ISOURCS: Zhurnal tekbuichookoy fialki, v.34, no.6, 1964, 1011-1012 JTOkC TAGS: plasma, plasma source, plasma jet, plasma temperature ~ABSTRACT: The energies of plasma bursts from a conical plasma gun described else- jwhere (Yu.S.Azovskiy, I.T.Guzhovskiy and B.T.Safronov,Zh77 34,73,1964) were measur-1; led with a number of differently constructed thermal probes in order to obtain inn ~,formation concerning the errors involved in such measurements. The probes were 1.4 !cm diameter cylinders of 0.1 mm copper foil, closed at one end, and were positioned! -Lwith-the open end toward the incident plasma. Probes were tested for which the ra- tio L/D of length to diameter was 0 (disc), 1,2 and 3. The equilibration time of the iprobes was of the order of one second, and the cooling time (due mainly to conduc- :tIon through.the thermocouple leads) was of the order of one ainute. The probes itested with and without a conical shield, thermally Insulated from the probe, which; :prevented the plasma flowing past the probe from coodng In contact with the outer Card 1/2  'ACCESSION NR: AP4040302 wall. The energy indicated by both the shielded and the unshielded probes (teupersp~, ture rise divided by heat capacity) increased monotonically with increasing L/D. IFor the unshielded probes this rise was nearly linear; the curve for the shielded !probes reached a constant value for L/D greater than about 2 or 3. The low readingst iobtained with the disc and the short cylindrical probes are ascribed to the forma- 1 .'. ! tion of a plasma "cushion"., due to a shock wave propagating up stream, which shields !the probe from the plasma. The high readings obtained with the long unshielded cy- Ilindrical probes are ascribed to heat influx through the cylindrical wall of the jprobe.In contact with the flowing plasma. The reading of even the flat probe was ismaller when the conical shield was employed than when It was unshielded; this In- :dicates that plasma can strike the rear face of the disc. It In caDcluded that !while thermal probes of an shape may be useful for relative measurements over a 'Y Ismall energy range, absolute measurements require a deep hollow shielded probe. Orig.art.hast 1 figurew. ASSOCIATIONs none SUDMITTEDt 24Jun63 DATE ACQ: lWun64 XML: 00 SUB-40DES Us NR PJW SOVs 004 J.Cqrd 2/2  -0 L 5 z-6/Po-4/PaV-10/Pi-4 !JP(c) AT ACCESSION NR.-~AP5000835 S/007/64~)34 12/215; 2114 AzovskiV.YU.S.* GuzhOvskiy, I. T Mazqlo-4 YU.P., Pi A M. OR: TITLE: Interaction of plasma bursts with an axially gymmit'tric:twignetic -^014-M 2. SOURCE; Zhurnal teldinicheskoy finiki, v.34, no i 12, 'l 964 212Q.4134 TOPIC TAGS-. plasma interaction, plasmaid, magnetic field ~Iastij~ 4ffect' plilsm'a!' difr 9 us ion s a continuation of earlier wotic K.D.Sin6l-'Inikov, ABSTRAM The present study wa Yu.S.Azovskiy, I.T.Guzhovskiy, V.Ye.Pancherd-Eaand B.G. S4~r'onov'ATF 33 16!1963) den voted to Investigation of the interaction of plasma buxa~-.% wii4 an axiali' M Y syzl e- tric magnotia.field. As compared to the earlier work, in.the ViNsent stuqly thare were used purer hydrogen plas= bursts, produced by a cohical'~*Urcew th!p-alfl,ed gas Injection. Primary~ attention was given to the interagition!of the bura~*.s With an, inhomoLencous tiold (only prellminAry measurements were made JA a, uniforta;fIel.d). The theoretical aspects of the phenamenon are raviewel Vriefly. The apparjitus; W-11S basically the same as in the earlier work. TypIcal oscillograxis ol the algrnaill; from the magnetic probe are. reproduced. These Indicate the dititribation of tho fiel.d ard IN  _K9 !EHIMP -11MR111tis t." !iz I Y ~1 1". 111110191ifiltu L 23814-65 S`i-i'Tft )/E-1.-,'G(0/8-PA(rp 'P7z-0'/Po-4/Pab-10/Pi-4 !VP(c) &Z ACCESS ION NR! APS000836 S/OoWd4/034/012/213~/iI39!; AUTHOR: Azovsk GuzhovskjX LT mari' istr0t V~M TITLE: Interaction of plasma bursts ith an axially symme .t~.ric matn"etic field.., 3 i SOUftCZ: Zhurnal tekhnicheakoy fiziki, v.34i n9.12, 1964, 21$5-2130; TOPIC TAGS: plasma interaction, plasmoid, magnetio field pl"ma ij:ffect, plaa'iz dif- fusion r ABSTRACT;, In tho present work, as In tho atudy Oescribed 1);!av ioi "s Jjy (p v-icO in 4 ticlo in this issue of the journal (P.2129) see Abstract: ILCC.N9.AP5000835~ thi-re was investigated the interaction of plasma bursts:withan 'imhomoLze4eous magJ14!tic' field, the -difference being that in the present work there were uised denser~ bursts (n > 1014 cd-3). The experimental setup is diagramed in th.o'~Bnclq'sv':re. The 6,o sor- ica-connected coils were located So am from tho source and, produced a double th=V field. The source was filled with either 100% hydrogen or 76%. It ~ad 25% He; in both cases each gas injection equalled 3 cm3 (atmospho .ric pressure). The source wis. tiu- gored 6 millisoc after switching on the mignatic tiold, so that the burst inferaot- ad with the maximum field. Tho following equipment waa used to meMure the 1) Uirst 1/4  L 23814-65 ACC9SSION NR: AP5600836 parameters.incident to the interaction-, a photomultiplier (il4ually ian FM-l 9) to; detect the integral -radiation, and ISP-51 spectrograph wit .,hashort.-facus dameta for photographing the plasma radiation spectrum,. an ISP-51 ~r,~ecti~igraph with a long-focus camera for following the behavior of indiviauat ~ipect~jkra line's UrA Ithe' continuous radiation, a high-speed photographic device for:,recordLng the radial compression of the burst, and a magnotic probe for record I aq the ~ 4j,4rren 1. induced in the burst. The photomultiplier and.probe output sighals *qre ais* played on ~_n oscillograph. Some typical oscillograms are reproduced. The~qxperizental results are presented mainly in the form of carves giving~the variatl.ton o1 . the burst -adi~- us, density and electron temperature as a funqtion;of the rio~..ftotid! held ~ and tho variation of the position o9 the injected bursts and refleo~.LNi shoick wave with tiize. .With arrival of*successive plasm. bursts In thenonuniform, fl. old ;',eglon therai builds up a "cushion", resulting in a shock wave propagatindi in oe opposite. diree- tion to the plasma stream. "In conclusion, the authors express thdir gratitud4l~ to: X.D.Sinellnikov, N.A. izhyan and R.G.Safronov for disoussioi.ilof the. results,~";Ito k2who partillpat in some of th4*1 V.G.Padalke for useful advice, and to V.P.Gayduko ..preliminary experimeats.' Orig.art.has- G.figureig. 2/4    Tf I i Ii,! ; 11 IM V119,09A il (d )~Vrr(l )/SEC -2/EVV(n'- )-2A-1r,(-M)/R2C-4/EPA'(,0 -:)I L 49258-65 EVU I I /Pl-4 1JP(C T-~~7~c,,ZT/P i -4/Pk--4~ ACCLSSION NR: AP5010802 UR/0057/65/0$5/004/0643/0649, AMOR: AzmkLy,Yu,,S,; Ounhovipkiy 1,T, tp .,Tri'LE- On the motion of,plasma bursts-in field free space I~SOURCE-. Zhurnal teldinicheskoy fiziki, v. 35, no* 4, 1965, 6441-649 !TOPIC TAGS.- plasma, plasmoid, velocity measurement, dopplar. ~ffectw expanding, !gas electron temperature ical. ~ABSTMICT: The authors have measured the velocities~ of plasma" hurst1j, a c .plasma gun by means of the Doppler affect. Two.different frequenc;61~s Were empioye~- (3.2 and 9.0 Gc/sec); the measured velocities themfore correopond U, the aotLq*ns of two different density regions within the burst. The plasmit Wrote were Pro- duced by the 28 W discharse of a 27 Vfd capacitor through a canical plasma gini. com- taining 'approrimately 3 ci~ of h1drogen, and traveled in a 91 um distizater 50 en long: glass tube and subsequently in a 18 an dinmater 200 am long, p3astic tid>a. Vha maasured motions of the tvro particle density regiom (1.1 x 1011 arjj 1.1 x IOU cm"O) are presented graphically. A theory of a Zrealy pLasmn :J.!i briogis, do- .veloped for both the ono- and thm"Imensional aAEea. TULs theory, %As emplotiad t4) Card 1/2  9 r - I I i ~ 1  T 340. ACC NRt 613 ? xr5022289 SOURCE CODE: UR/3137/64/000/049/0001/~-_; w/ AUTHOR: Azovsk Yu._S.; Guzhovskiy, 1. T.; Maz!go*v, Yu. P.; Pistryak, V. M. q q, ;- ORG: Academy of Sciences &rSSR, Physicotechn (Akademiya nauk UkrSSR, Fiziko-tekhnicheskiy institut) TITLE: Motion of plasmoids in field-free space SOURCE: All UkrSSR. Fiziko-tekhnicheskiy institut. Doklady, no. 049/P-008. 1964. 0 dvizhenii,plazaennykh sgustkov v svobodnom ot poley prostranstve, 1-13 2- 1, t( q I TOPIC TAGS: plasmoid acceleration, plasma diagnostics, hydrogen plasma ABSTRACT: The speed of current sheets of a given density was determined by observing the main part of a plasmoid which moves in field-free space. After the ejection of a plasmoid from the source, it initially moved into a glass tube of 9 cm diameter, then into an organic glass tube of 18 cm diameter. Hydrogen was used in the experi- ment. In the present experimental conditions, the first dense plasmoid ejected was studied. It occured during the third half-period of the discharge. Sheets of dif- ferent densities move with different speeds; those of lower density are faster. With the increase of retardation (neutral gaze injection into the source) the speeds of both sheets decrease. The greatest'delay occurs in the small diameter glass tube. This results in a decrease of the curvature of the plasafoid front. The motion of card 1/2  ACC NRi ATS022289 ? sheets was measured by the microwave reflection doppler effect. , The use of the speed of sound in plasma to characterize plastaoid thermal expansion-is discussed. In con- clusion the authors express their gratitude to.B. G. Saf jym and N A KhizhnyaJc for reviewing the results and to R. V. Ahmeroy fot his help In settiv up the e eriment Orig. art, has: 6 figures, T't-L-le, 6 formulaA. StM CODE: 20/ SUBM El 0 G REFt 005/ 11 REF: 003 Card 2/2 HIM VITH111 I C)  L 2494 EWT(1)/FTC/EPF(n)-2/W(m)/EFA(w)-2 DPW AT ACCESSION HR*. APS020726 UFV0057/65/030/008/1405/140T If 1j, AMOR: Azovskiy, Yu. Guzhovskty# 1. T.1 Mazalov, MI.; Piqtr ak, V, M. 13 TITLE: On the motion of plasma bursta-In a uniform axially symnetric magnetic.' field ~Ilyy"(T SOURCE: Zhurnal tekhnicheskoy fiziki, v. 35, no. 8, 1965, 1405-1407 TOPIC TAGS: plasmoid, magnetic field plasma effect, plasma temperature, plasma density, homogeneous magnetic field ABSTRACT: The authors have continued their previous investigation of the motion of plasma bursts in axially symmetric fields (ZhTF, 34, No.12, 1964). The work roported.here concerns mainly the motion of the plasmas In the uniform portion of the field. The apparatus is described in the previous paper. Thu plasmas lied charged particle densities of about 2 x 1013 Cm-3 and velocities near 6 x 106 cm/soc, and contained 10% of heavy ions. The gas pressure within the plasmas was measured with a compensated magnetic probe of the type described by F.Waolbroeck et al. (Nuclear fusion, Suppl. 2, 675, 1962) and the diameters of different sections of the plasmas were measured with a pulsed plasmascope consisting of a light- shielded 7 cm diameter saintillator with control grids. The variations of the Card 1/2  L 2494-66 ACCI 3SSION NH: AP 5020726 duration of the magnetic probe signal, the charged particle density, and the plas- ma temperature as the plasma drifts in the uniform field are shown graphically for different values of the magnetic field strength. As the plasma stoved down the field its length increased, its radius remained practically unchanged, and its temperature and charged particle density decreased. The possibility of a de- cronso of temperature during longitudinal expansion of m plasma in a magnetic flelt has beep. pointed out by F.Waelbroeck et al. (Ioo* cit.) mul by F.J4Scott and O.C. Eldride (Phya. Fluld9j.4# 1558# 1961). Orig. art. hass 3 formulau and 3 figures. ASSOCIANOM none SUBMITTED, 28Dec64 ENCLi 00 SUB CCDE t ME NR REP SOVi 004 UrIWRI 002 2/2 Card  T, ACC NR: AT6020403 SOURCE CODE: To/ooco/65/000/000/0068/0076 CJV) AUTHOR: Azovskiy, Yu. S.; Guzhovski Z1 I. T.; Mazalov) Yu. P.; pistry-a~k' V. M. 6,2, ORG: none TITLE: Interaction of plasmoid 'with an axially-symmetrical etic field. II. SOURCE: AN UkrSSR. Issledovaniye plazmennykh sgustkov (Study of plasma clustbrs). Kiev, Naukova dumka, 1965, 68-76 TOPIC TAGS: plasmoid, plasma interaction, plasma magnetic field, plasma injection, plasma density ABSTRACT: The first part of this paper was published in ZhTF v- 33, 10, 1963- U11- like in the earlier investigation, pure hydrogen plasmoids were used produced by a chemical source with pulsed inlet of gas (described by the authors in ZhTF v. 34, 841, 1964). The main purpose was to determine the interaction of the plasmoid and the character of its motion in an inhomogeneous magnetic field, in the case of dense plasmoids for which the adiabatic conditions are not satisfied. The apparatus and the test procedure are described. The tests yielded plots of the dependence of the density and radius of the plasmoid on the position of the plasmoid in the magnetic field, the dependence of the position of the plasmoid on the time, and the radial distribution of the particles in the plasmoid, the dependence of the vacuum magnetic field, the induced-current field, and their ratio on the vacuum magnetic field at the center of the solenoid) and the dependence of the radius and density on the magnetic 1/2  L 43914-66 ACC NR: AT6020403 field. While most of the results can be reconciled with the qualitative theoretical descriptions of this phenomenon published by others, the plasmoid exhibited an unex- pected acceleration in the region beyond the point corresponding to the imum, cur- rent. It is noted in conclusion that the results differ greatly from the earlier investigation, primarily because the plasma used there consisted essentially of heavy carbon and oxygen ions. The maximum compression rate in the magnetic field was pro- duced where the magnetic field had a maximum gradient. The induced current first in- creased with the field, and then more rapidly than the field. However, once the plasmoid has been radially compressed, the induced current began to decrease rapidly. A noticeable crowding out of the magnetic field was observed, causing the axial field in the plasma to drop to about 15% of the vacuum field. The induction of the current was accompanied by a certain slowing down of the plasmoid motion, thus indicating that the translational energy was converted partially into radial and rotational energy. Orig. art. has: 9 figures. SUB CODE: 20/ sm DATE: iiNov65/ oRiG REP: oo6 2/2 pb  ACC NR: A76020,1404 r% ATHOR: Azovs]-dy, Yu. 3. Akhmerov, R. V. GuzhovGkiy, 1. T. Mazal6v, Yi;. P. Piatryak, _V. M. ORG: none -t I'STLE: Interaction of plasmoids with an SOURCE: AN UkrSSR. Issledovaniye plazmennykh sgustkov (Study of plasma clusters). Kiev, Naukova dumka, 1965, 76-84 TOPIC TAGS: plasmoid, plasma interaction, plaswA magnetic field, plasma density, plasma shock wave, plasma injeA~on, plasma radiation ABSTRACT: This is a continuation of the preceding article in the saxne sourceIcc. Nr. Aa6o2o403), which in turn is a continuation of an article published in ZhTF v. 141 33, 10, 1963. In this part of the investigation, a denser plasma was used (n > 10 cm- 3), and the plasma diagnostics was essentially by optical means (photomultipliers, spectrographs, and high-speed camera). The plasma was produced by a conical source, propagated through a glass tube, and interacted with a magnetic field produced by coils located 50 cm from the source (Fig. 1) - The time- integrate'-~ radiation spectrurn was photographed near the maximum magnetic field grad4ent (directly ahead of the lasma coils) and in the region of the homogeneous field (betueen rhe coils). The P1 was either cure hydrogen or 75% lkydrogeti and 25~" helium. The re~;ullts show that. the integral radiation, the continuous radiation, and the radiation of the helium Lnd the .112  ACC NR: AT6o2o4o4 impurities had the same character, whereas -the 2 3 glow due to -the hydrogen was much longer. The latter is due to the longer recombination time of the hydrogen. An increase in the triagnetic field increased all the components of the radi- ation (approximately bY 3 times as the field Fig. 1. Diagram of setup.1 Valve, increased from 0 to 0.2 - 0.3 Tesla), after 2 - induction source, 3 - glass tube,i! which the increase slowed down. Measurements 4 - magnetic coils. were also made of the dependence of the radius, density,-and electron temperature of the plasmoid as functions of the analytic field and the dependence of the position of the injected plasmoid and the reflected shock wave in the plasma as functions of the time. Attention is called to the fact that a fields up to 0.20 - 0.25 Tesla all the plasmoids are compressed to an equal degree, but at larger magnetic fields only the first plasmoid is compressed, and the others are not. This is related to the occurrence of a shock wave at stronger magnetic fields. Orig. art. has: 6 figures. SUB CODE: 2o/ Sum DATE: 11N(n-65/ ORIG REF: 003/ OTH REF: 002  _~ t .."T AEC N'R: 'AT60204l9____ ----SOURCE CODE; UR/0000/65/000/0 /0 03 12 00 2-ii6i AUTHOR -. Azovskiy, Yu. S. Guzhovokiy, I. T. Mazalov, Yu.__P. ~Jstry2k_, V,_h, ORG: none TITLE: Plasmoid motion in a field-free region SOURCE: All UkrSSR. Issledovaniye plazmennykh sgustkov (Study of plasma clusters). Kiev, Naukovo dumka, 1965, 203-212 TOPIC TAGS: plasmoid, plasma generator, plasma density ABSTRACT: Plasma expansions in a field-free region were investigated by observing the density and energy profile of the plasma. A theoretical review of a simple plasma con, figuration is given and compared with the experimental results. The plasma was gene-,- rated by a conical electrodeless discharge and injected into a 250 cm tube. The mea-, surements were limited to the third and densest plasmoid (1011 cm-3 to 1012 cm 3). The density distribution at any time was measured with a microwave interferometer. The mea- surements of ion and electron velocities and temperatures in all three dimensions are tabulated and the weak dependence on the initial density and type of expansion of thesq quantities is pointed out. A rather strong effect of neutral gas density became appa-i rent from studying the expansion parameters as a function of the delay betveen the nqu-, tral gas injection into the plasma generator and the discharge of the capacitors to pro- C.rd 1/2  L 41C69-66 X&-N k-.-A'T G-OTO-4-19- duce the plasma. However, the theoretical predictions indicate that the experimental results can serve as an estimate of plasma expansion. Orig. art. has: 6 formulas, 6 figures, I table. SUB CODE: 20/ SUBM DATE: IlNov65/ ORIG REF: 005/ OTH REF: 003 Caid 2/2  Y)" i j Ml' ACC NR: AP6028606 SOURCE CODE: UR/0057/66/036/008/IL357/1363 AUTHOR: Azovskiy, Yu.S.; Guzhovskiy Pistrynk,V.M. iORG: none JITLE: InteraZtion of plasma bursts with an axiall symmetric m _1d. 4. SOURCE: Zhurnal tekhnicheskoy fiziki, v. 36, no. 8, 1966, 1357-1363 TOPIC TAGS: moving plasma, plasma density, magnetic field plasma effect, plasma temperature, plasma structure, plasmoid , )9)e1,qi_ 177o96jV.F_7-1C_ #1:"fe401 PA'.45MIF) I A.J 'rrPF? 07-/OAJ ABSTRACT: The present paper presents results of a continuation of earlier work of the authors and Yu.P.Mazalov (ZhTF, 34, 2129, 1964; ZhTF, 35, 1405, 1965) on the interaction of the plasmas from a conical-electrode plasma gun with an -7~Rlly symmetric magnetic field. The apparatus has been described in the earl. 1 .1pers. The plasmas from the conical gun entered the 20 cm diameter plastic drift tube with a velocity of about 6 x 106 cm/sec and a charged particle density of about 2 x 10 13 cm-3. A longitudinal magnetic field of up to 1.2 kOe was maintained in the drift tube by a solenoid. In the work reported here the plasmas were investigated with a double electric probe consisting of two parallel 0.8 ma diameter 5 mm. long molybdenum wires mounted 2 mm apart. The probe could be moved both radially and axially and was used to investigate the structure of the piftsmas and their radial and longitudinal expansion in different parts of the drift tube. Three regions of extireme values of Card 1/2  L 45921-66 ACC_ NRI --- AP6028606- .idifferent plasma parameters were noted; a region of maximum induced current (recordBd jwitli a magnetic probe), a region of maximum particle density, and a region of minimum radius and maximum temperature. The maximum induced current and particle density regions occurred in the inhomogeneous portion of the magnetic field; the minimum i radius region was farther from the plasma gun in the homogeneous part of the field. In strong magnetic fields a portion of the plasma was reflected by the field and formed a peculiar plasma "cushion" which exerted a definite influence on the inter- action between the plasma and the field. The longitudinal expansion of the plasma in the uniform field region was much more rapid than the radial expansion. Plasma temperatures derived from longitudinal expansion velocities were in good agreement with the temperatures given by the probe measurements. The authors thank K.D. Sinel'nikov and B.G.Safronov for discussing the results. Orig. art. has: 2 formulas and 8 fiaures. SUB ODDE: 20 SUBM DATE: 07Aug65 ORIG. REF: 005 OTH REF: 002 Card 2/2 mis  GUZHOVSKIY, Y.Y. [Ruzbovs'kyi, Y.Y.] (Kiyev) Eccentricallv compressed tbin-walled rods of open profile within and beyond elastic limit. Prykl.makh. 5 no.2:179-190 '59. (MIRA 12:q) 1. Kiyevskiy in%henerno-stroitellnyy institut. (Elastic rods and wiresY  24(6) "D'OV/21-59-9-6/25 AUTHOR: Ctfuzhovs'k~y, V.V. TITLE: On the Stability and Free Oscillations of Thin-Walled Bar Systems PERIODICAL: Dopovidi Akademiyi nauk Ukrayinslkoyi 10LISR, Nr 9, 1959, pp 953-958 (USSR) ABSTRACT: In this paper, the author outlines the methods for determining the critical load and the first frequency of free oscillations of thin-walled sets of bars of arbitrary cross section having an open shape. The value of the critical load~-O) is determined from the (7) - (9)2 : N N N = NX -CL-- -at C 6L:y GK N N tjrl Card 1/3 Pl'+ a-A CX _421 't- OUY CY 4 12.  SOV/21-59-9-6/25 On the Stability and Free Oscillations of Thin-Walled Bar Systems The first frequency is found from the equations (10) - (12) : L C;y_- 064 r2 Cy, oue T S ~2. x -~~ ; GI - a ~ ax rr X Cx, t Cr~ The solution is simplified by considering the deforma- by considering the deformation of the relatively in- stantaneous coordinates of -the center of rotation. It is noted that the most complicated part of the calcu- lation is the solution of the transcendental functions. However it proved possible to determine these functions from the 'knovin table Z7ref 3_7and Z7R,:~.C 5-7 in the for- Card 2/3 mulae of the method of deformation. There are 7 Soviet  SOV/21-59-9-6/25 On the Stability and Free Oscillations of Thin-Walled Ear Systems references. ASSOCIATION: Kyyivslkyy inzhenerno-budivellnyj, instytut (Kiyev Engineering and Construction Institute) PRESENTED: By F.P. Byelyankin, Member AS of UkrSSR SUBMITTED: February 20, 1959 Card 3/3  rM711TOVSKly) V. V., Gand Tfch Sci (diss) -- "The stability qnd oscille'ions of thin-walled rods and frames". Iriev, 1960. 16 pp (Min Figher F-d-tic TT?r SSP, Kiev Construction Engineerin.- inst, Chair of Constniction Meclr),, TSC' copifn; (,np ~,To 11, 1960, 13?)  AUTHORa TITLE.- 26075 S/198/61/007/004/003/004 D218/D305 Huzho-vA-.y-,y, V. V, (Kyyiv) On the stability of thin-walled rods and frames beyond the elastic limit PERIODICAL: Prykladna mekhanikag v. 7, no, 4, 1961, 415 - 421 TEXTg The article deals with the question of the stability of elastically reinforced thin-walled rods of arbitrary profile and of frames constructed of such rods,, The solution is based on the Engesser-Shenley theory LAbstractor'8 note; Theory not statedb The critical force is to be evaluated from the interval of loads in which it acts; ihe lower limit being the tangent-modulus load, and the upper limit being reduced-modulus load, Nt and Nred res- pectively7 Numer.;Lcal analysis shows that in the case of thin walled rods of U- or angular profile, the difference between the value of Nt and Nred is not great. Thus, in the following solution Card 1/ 8  26075 S/19 61/007/004/003/004 On the stability of D218YD305 the critical force will be estimated~ The method is based on the use of the diagram of d against e[Abstractor's note; Symbols not defined, but clearly 6 = stressq a = extensionIq whence 6 e + rect + tang - G~rect) V1 - m-,m = Et/E (1) (Fig. 1)(Abstractor's notet E, Et not defined], The determination of the critical forces is based on the previous determination of the line of centers of re- volution of the transverse sections of the rod, and leads to the s'olution of the problem of arbitrary section thin-walled rods~ The tangent-modulus force for a section of the rod is then given by Nt Nwtr2 - (4) a xC x + a yCy V2 T I +I (Lf~_-w G 2 = 2 2 2 2 x Y where N +r = E 1 )~, (5)9 r +a +a (6) W~ t 2 E d 9 x 9 P Card 2/8  3/106/61/007/04/003/004 On the stability of 26075 D218/D305 Et is Young's tangential modulus, cX9 c y are the coordinates of the center of revolution, a X, ay are the coordinates of the center or bending, IX ; Iy (I x > Iy) are moments of inertial referred to the principal central axes x and y, I W is the sector moment of inertia, GI is the torsional rigidity;'t, ')Ii are the displace- ments of thg section of the rod, and 0 is its rotation- For a U- profile, where N t = 0J, then 2 ( N. r2 12 2drect%r2 M 2 - M ( (?2 (otang F(? + aXcX + acy) + a.c. + ay,,)F - d 21 (2'y rect) + fftang rect - &tanE-*' Por N > Nt the torsion of the rod produces an additiona. iormal Card 3/8  116075 S/19 61/007/004/003/004 On the stability of ... D218%305 stress. In the zones of the section where this additional stress is positive, breakdown occurs according to Hookels law. The redu- ced modulus forces -correspond to an unrestrictedly large displace- ment of the section. The value of the reduced-modulus load may be found from 2 N = Nyt(i - (2)9 N = N -ox) (3), N (5) t aY t Xt( 1 - a. Yt 2 v6E I N t X xt t2 and (4), the geometrical characteristics duced section. The coordinates of the center found by the method of elastic solutions 3 2 Alex + A2cX + A3cx + A4 = 09 A, = q - 1; (5) being referred to the re- of revolution are from 2 2 A2 = [(q - 1)(p - a. - (61) Card 4/8  26075 On the stability of ... S/19P,/61/007/004/003/004 D218/D305 2 2j 1 P) + ax + qay ax A, = (2 - q) Q2 -a' q - p; A4 Y Lvk-t - Nyp N-1 r2 N., NX N., N,, V2E 2 V2 El v El V1 X. N, 12 NX~ N,r2~ +GI,. C, (a2 + p Q2) + (0 + p and 4a2 x x In the case of a U-Drofile v2 c,= OT 4V2 E - 0 X2 X2 Card 5/8 (61) (7) (13)  i 26075 S/198/6!/007/004/003/004' On the stability of ... D218/D305 and T 4E + V-fl . (12) Frames in building and machine construction lose their stability predominantly beyond the elastic limit. The differential equations of deformation of a rod according to the basic Lngesser-Karmann approximation theory -~re given. The fo.rmulae for calculation by the deformation method are Bab UTI ()a + Pr lj~ - Mr, + Nil) abj (17) MX ix ap (PY + Py (av + Py byb] ab ab T a T b T ab tv -, + my ab ax where r Va + PXT (PbT (ar tab Card 6/8  26075 S/198/61/007/604/003/QO4 On the stability of D218/D305 where TI, tub X, Y, W; TI, fl; V Ti I tg VTi Vri VT1 - sin v V T1 Ti T tg V T V Sirl Vr, 71 2 tg 'Ti - VV 2 tg ri- VT1 2 V2 N12 Cy V2, C. 2~ N P Vro Q2 + a, c. + a. c,,) c. a. r, TI., c., - 0, Gld 12 El.- [Abstractor's note: Symbols not explained]. As an example a frame. of U-profile rods is considered. There are 3 figures and 8 referen- ces: 6 Soviet-bloc and 2 non-Sovi-et-bloc. ASSOCIATI6N: Kyyivslkyy inzhenerno-budivellnyy.instytut (Xyyiv In- stitute of Civil Engineering) SUBMITTED: October 15, 1960 Card 7/8 1-T "11  SKRGIYMO. L., inzh.; KOCRAN, L., inzh.; MZHU, G,.; ILIMOV, L.; KMLNVA, L. No. these are not trifles! Okhr.truda i sots.strakh. no.10: 39-41 0 '59. (MIRk 13:2) 1. Korrespondenty gazety "Titebakly rabochly" (for Guzhva, Klimov). 2 Spetelallmyy korrespondent zhurnala "Okhrana i truda i so;siallnoys strakhovaniye" for (Khmaleys). (Vitebsk Province--Industrial hygiene)  GUZHVA, N.A., inzh. - Electric power supDly of the "Zaria CommunismaR State Farm. Energetik 13 no.3127-29 Mr 965. (MIRA 1817)  GUZHVBNKO, G.P.; SOKOLOVaIT, -..K. lncr*a%TU the zone of operations for each winder. Tekst. prom. 17 no.B:-9-10 Ag 157, (Km 10:9) 1. Nachallnik otdolaniya trudovogo kontralyn Kiyevokoy khlopke- pryadillnoy fabriki (for Gushvenko). 2. Naohallnik krutilino-notall- nogo teekha (for Sokolovskiy). (Cotton spinning)  NARODITSKIY, L.A., inzh.; GUMBBKO, G.F., lnzh. Reducing the expenditures for carding machine modernization. Tekst. prom. 20 no. Ut62-63 D '6o. (KIRA 13:12) 1. Kiyevska7a khlopk rya&illnaya fabrika. lCarding machines)  GUZMITKO, G.P. Schools for oxchanging information on progressive pr2WC8A. Tekat. prom. 18 no.8:70 Ag 158. (MIRA 11:10) I.Zaveduyushchiy nornativno-isaledovatellskoy laboratoriyey po trudu pri Kiyevskoy khLopkropryadilluo7 fabrike. (Ukraine-Taxtile schools)  GUZHVENKO, N.S., aspii-ant 4, Designing beading machines taking into consideration the critical speed of cans filled with liquid products. Izv. vys. ucheb. zav.; mashinostr. no.7:84-88 165. (SERA 19:12) 1. Submitted November 11, 1%,3.  LOZAg G.M., akademik; GURVID, F.F., assistent Organization of state farms in connection with Wecializaticm and of production. Izv. TSKhk no,1:160-.176 161. (MIRA 14:3) 1. Vsesoyuznaya akademiya sellskokhozyaystvennykh nauk im. V.I. Lenina (for Loza). (State farms)  GUZIAKIEWICZ, J. GUZIAKMICZ, J. Repairing tracks during a transitional period. P. 52 V ol. 8, no 3, Mar. 1956 PRZEGLAD KOLEJaIY DROGOWY TECHNOLOGY Warszawa, Poland SO: East European Accessions V o1. 6. no* 2. 1957  GUZIAKIEWICZ, J. GUZIAKIEWICZ i1s. Przeglad. p. 16 ., J. Draining tracks at stations, crossings., and switch ra d Vol. 8, no. 4, Apr. 1956 PRZE)GLAD KOLEJOWY DROGOWY TECHNOLOGY Warszawa,, Poland So: East European Accession, Vol. 6, no. 2, 1957  Eyample of a reque,.-,t for imterials for mirface viork by the roarhirtster. Frzorl ad Dro,r.-. Dodatek. P. 12. (PRZU-,LAD KOLIJO',,TY DRCGOWY) (.-iarszawa, Poland) Vol. 10, no. 1, Jan. 1958 SO: Monthly Index of East European Accession (Ea!) LC `,o1- 7, '110. 5, 1958 -,~ ", H  1;U.,'IAKD`.1IC1Z', J. An example of wori< organization for the exchan,~e of a sin!je rail. Przer.lad Drog. Dodatek. P. 13. (PRZ3-,LAD XCU~JO.'-ff DRX-OWY) (Warsmwa, Poland) Vol. 10, no. 21, Feb. 19.58 S30: Monthly Index of Fast European Accession (D~AI) 11)" 7ol. '7, "o- 5, 1958  GMAKIEWICZ, iozef, %=.inz. Losses of the Polish State Railroads cauzed by lowering of the speed of traim. Przegl kolej drog 14 no.5:91-92 My 162 1. Dyrekcja Okregowa Koloi Punstwowyoh,t%Atowice.  G'JZICKI, Startislaw, prof. I Pror6or Karol Adamiecki and his achievements in the fields of organization and management. Przegl tedhn ?9 no.10:432- 434 My '58.  GUZICKI, Stanislaw, prof. The Association of Scientific Organization and N-magement. Przegl techn no.51-;6 21 D 860, 1. Frezes Towarzystwa Naukowego Organizacji i Kierownictwa, Warszawa.  GUZIEL, A GUZIEL, A. Using norograms in setting out directions. P. 69 No- lp 1956 GEODEZJA SCIENCE Warzawa, Poland Sos East European Accession, Vol. 6, no.2, Feb. 1957  GUZIEL, Alojzy Analysis of the correctness of the estimated quantity of resources. II. Przegl geol 9 no.4:196-201 161. (Ew 10--g) 1. Ministerstwo Przemyslu Cieskieg. (Geology)  dbZI&L, A. Standards of mining map preparation and completion. Rudy i metale 6 no.10:467 0 961o  MISIURA,J. GUZI&IEIA. Modified oxihemometry. Sveik. apsaug. 9 no,2t47-48 F'64. 1. Vilniaus Talst. V.Kapsuko v. universiteto Medicinos fakul- tetas ir Respublikine Vilniaus klinine ligonine.  tAZ17L , - '. Ojzy' mgr iriz. Imitructlin on Water hal-arA In cr-- ii~-Jy I r-e',aji '~ no, 8-,- 4" 57-458 A4 '64.  GUZIK, Antoni, mgr in~. Exergy of technical games obtained from the air. Energetyka przem 10 no.11:384-387 N 162. 1. Katpdra Energetyki Cieplnej, Politechnika Slaska, Gliwice. 1. .,I,  GUZ IK, G.A. e- . Varintions in the extent of' functional scotoma produced by unconditioned nnd conditioned ntimullo Probl.fiziol. opt. 12t82-88 158 (MIRA 11:6) (SCOTOKA)  GUZIKY G.A. Planctional ecotoma and its elimination by means of a mi r campimeter. Uch.zap. GNII glaz.bol. no.79159-163 162. (MIRA 1695) 1. Iz otdeleniya okhrany zraniya detey Gosudarstvemnogo nauchno- isslvdovatellskogo instituts, glawykh bole=ey imeni Gel1mgolitse, i gl4znogo btdeleniya Polilcliniki No.7 Mosk-vy. (SCOTOMA) (STRABISMUS)  .GUZIK) G.A. " Ambulant surgery in concomitant strabismus in childre of pre- school and primary school age. Uch.zap. GNII glas.bol. no.7:125- 127 162. (MIRA 1615) 1. 1z otdeleniya okhrany zreniya detey Gosudarst7ennogo nauchno- issledovatellskogo instituta glaznykh bolezney imeni Gellmgolltea i glaznogo otdeleniye Polikliniki No*7 Moskry. (STRABISMUS)  I "I MfilrIll I Ill 11121P. L 1714-66 Bvrr(i ACCESSION NR: AP5024302 UR/0084/651000/010/0021/0021 AUTHOR: Kulivev, J.. a, Ruc.;tamov, A.; Guzik, 1. Aliyev, N. TITLE: Helicopter lands at sea [Newly designed helicoptPr.-Inndinji ptittform forgoviet "Texas-t owe r"-type drilling rigs) SOUPCF: Grazlidanskaya nvlatsiya, no. 10, 1965, 21 TOPH' TAGS: lielleopter pad, well_(trilling, off shore tilt drilling ABSTPAGI : Deqc r[hed is a new hr, I I ropte r landing, pI at fn rip ior a bot tom-ancho red "Te xas-t owe r" -Lype off-!diore drilling rig, designed by Ole Azf!rl)aydzhan State Design and Planning Sc tent t fle-Re!wn relt Institute for Off-Shore Oil. (Givromorneft')..l.., -... .. -X....-- -- - -.-- , - ---. ..- ... A: 'file supporting structure Is of welded steel pipe, and the 23 x 23-in landins platform 2 consist.9 of double planking over 180x 160-mm -rood beams, for a tota.1 areta of 531) m A number of other design aspects are presented along witli %larloun uconomtc and supply considerations relating to the use of Hipse landing platforms and helicopters in off-shore drilllng operations. A side view of the rig and platforin and a top view Card 112 Card 2/2  A hallcopter lands in the sea. Grazhd. av. 2-; nc.!C-:-'! 0 165. (M-1-111~-- 18:12) 1. Zamestitell lirektora r0 proyekll- rovani- yu predpriye+iy dlya dobychi neftJ s miorskot-v Liu.- (for Kuliyev). 2. Nachallnik Azerbay-1zhansko-l-,r) uprav2enliya grazh- danskoy aviatsii (for Aliygv).  KAUFM , V.P.; GUZIK. I.S. Determining the economic effectiveness of geological prospecting. Geol. nefti 2 no.12.*11-17 D 158. (MIRA 12:2) 1. Ministerstvo nefyanoy pi-omyshlonnosti Azerb. SSR. (Petroleum geology) (Gas, Hataral-Geologr)  KULIYEV, I.?!;.,_('tUZIK, I.S. Using movable installations in offshore test drilling. Azerb. neft. khoz. 38 no-7:lk-48 J1 159. (MIRA 13:2) (Oil well drilling, Submarine-Zquipment and supplies)  __GUZ1K I. S. --- j__ Axtra-deep drilling in the United States. Azerb. neft. khoz. 39 no-5;44-45 Yq 160. (MIR& 13:10) (United States-Oil voll drilling)  KULIM, I.P.; MOKHALOV, M.N.; (RJZIK, I.S. Results of and prospects for using floating rigs. Aserb. neft. khot. 39 no.il:46-48 N 16o. (MM 13:12) (Caspian Sea--Oil well drilling, Submrine--Equipment and supplies)  GUMP I.S. Drilling speed records in the U.S.'A, Azerb. nefti. khoz. 40 no. 3:34 Mr 161. (MIRA 14;5) (United States-Oil well drilling)  NAZIROV, R.K.; GUZIX, I.S. Economics of offshore oil field construction made of reinforced concrete. Azerb. neft. kho7. 40 no.10:45-47 0 '61. (MIRA 15:3) (Azerbaijan--Oil well drilling, Submarine) (Reinforced concrete construction)  GUZIK, -T40~ IONAP L.A. Some problems relative to the construction foundations for off- shore drilling. Azerboneftkhoz. 41 no.4t46-47 Ap 162. (MIRA 16:2) (Artificial islands)  GUM, I.S. Some economic problems of offshore petroleum production in the United States. Azerb.neft.khoz. 41 no.847-48 Ag 162. (NIRA 16:1) (United States-Oil well drilling, Submarine)  GUZIK, K. T --CH""OLOGY PE! IODICAL: PREZGLAD GEOLOGICIZIN. Vol. 6, no, 3, Mar. 1951, OUZIK, K. Preparing topographic nets for poly- nel cartographic and geologic n, no traverses by analyzing photogrametric pictures. n.. 111, Montbly List of East European Accessions (M-AI) LC Vol. 1, no. 4 April 1?59, Unclass.  GUZIF K. JAC=7C'i,,7'-KA, J. Remai,kE on the trorphogenesis of the Zkopne Triangle in the Zal~opme Depreusion. k,203. ACTA GEOLOGICA 1OUNIU. Warszawa., Foland. Vol. 9, no. 2, 1959. Monthly List of East Euro~ean Access-lons (EE:AI), LC. Vol. No. 9, Sej-tembtr 1959 Uncl.  GUZIK, Kazimierz Utilization of aerophotogrammetric and terreBtrial surveys for mapping the geological map of the Polish Tatra Mountains, scale 1:10,000. Kwartalnik geol 5 no.1:182-195 161. 1. Katedra Geologii Ogolnej Uniwer"tu lWarszavskiego.  70, Z-00:1, 110 --on T -7014- 1 c Ut I I I zatic n of ?-I -n LIS-NIBIOV!, --%.tur of enSlnojr-r.;!; pp. ITT-IL2. 2. lm MInInp," Prof. Z:,~,--.unt FOYA-'~~nit. loct~r of . tu.-ra Irt Giolorica I Rero arc' docent r~--i- m alert -14rn;'~o-oSrx~790 r7 &nd A~rlcultt:fe, Viller;? Fz-,CnCi- ZV-, -mast-z- of ~-~ItwjrinG, pp. 12V-2CO. wnd Fcrectr7,' ' Krz7s--tof RUDZI-T. pp. 201-2,05. - 'Larost-reosrs% -.Bed for the Dattr~inatlia of the Vood su:-P,17 In LcVl4r:?q.,, =njtor of metrIng, of tl,s Znpnrt~ent of Foros' X~m-67cnt of ttl tutu -Phvtov-&~;:etry w--d Country Plzrum-Ing," %(Ilk-tor RrC-77; 7-,. 2C-94 A. 'PhotoTrs-zetr- Vaed for Pool and Rosd of V.0 of 2vc J~:~ of the Vrroiv (Tato Lira, i t:-.! Pollt-ichnil-I WarazavokIt".1 pp. 215-218. 5. -Pboto7-%-.-ttr!e D~cumnntatlon Ln Arohitnctur-!, A-:*Ieolo- S7 and of en,"Ln'D '16 wa--ow ?C i tn. "fo, ;7t'W~l Ware -ft,.ra;r. 1 1).1 " ; P;). 2IS-2?1. -Ph*toSr%,-7at-a -eth~,da for the inventory of M atertc-il !:On j&r. CISZZ, =ftntir of 7-0 .,or of t7,3 c.L.UrLID2 (~as- t~7~;-. ;~olftlcra X--]; pp. 221-225. - ' '::,, ?7-t. Zr. j'&n PIOTFL'.-~S=, Zdzisllav ADXI-~ CZ!:-JL=; pp. 205-226. 2/2  S/035/62/000/012/054/064 A001/AIOI AUTHOR: Guzik, Kazimierz TITLE: Methods of identification and photogrammetric processing of aerial photographs in cartographic-geological investigations of the Geological Division of the Warsaw University and Laboratory of Geological Sciences at the Polish Academy of Sciences PERIODICAL: Referativnyy zhurnal, Astronomiya I Geodeziya, no. 12, 1962, 22, abstract 12Gi48 ("Przegl. geod.", 1962, v. 34, no. 5, 192 - 197, Polish) - TEXT: Geological identification of aerial p4otographs is one of the basic_!~ methods of geological investigations; its value increases by using metrical properties of photographs for determining quantitative characteristics of in- vestigated geological processes and phenomena. The Laboratory of Geological Cartography of the Warsaw University together with the Division of Geological Sciences at the Polish Academy of Sciences are carrying out methodical works. Attention is paid to ways of teaching aerial methods for student geologists. [Abstracter's note: Complete translation) D. K. Card 1/1  GUZ'IKJ, Kazimderz; KOTATISKI, Zbigniew Tectonics of the lower mountain region near Zakopane. Act& geol. Pol. 13 no.3/1+.'387-424 163 1, Katedra Geologii Ogolnej, Universytet, Wars-Wrao  GUZIK, Kazimierzi Geological structure of the southerm and western slopes of Mala Swinica in the lower mountain region near Zakopane. Acta geol. Pol. 13 no.3/4:425-444 163 l. Zak-11ad Kartowania Geologicznego, Uniuersytet, Warsz,-wa, i Prac-wnia '~'artografii Gaologicznej, Zed--lad Nauk G--olo-i--z- nych, Polska Akademia Nauk, Warsz-aja.  L 5lig-66 7E;jT(%i)PEfA(h) ACCESSION NR: AP5026300 UR/0144/65/000/008/0863/0873 519.49+681.142 AUTHOR: Guzik, V. F. (Engineer); Glukhov, O.D. (Engineer TITLE: An Interference-free trigger circuit operating at I Me SOURCE- IVUZ. Elektromekhanika, no. 8, 1965, 863-873 _0 TOPIC TAGS: trigger circuit, interference immunity, circuit design, digital differentw analyzer ABSTRACT: A trigger stage with counter input made of standard Bj type modules and operating at I Me is proposed. In addition to two standard B, t3'pe modules, it contains four D913 diodes, three MLT-0. 25 10 kQ -110% resistors, and two XTM or IUK-1 200 ""f +_10% capacitanees. The paper presents a comprehensive formulation of the problem, describes in detail the design and operation of the basic circuit. of the trigger, mid reports on the comprehensive experimental tests of the unit (optimum operating conditions, inter- ference stability, and binary scalar operation). Results show that the trigger unit devd)* for the digital differential analyzer (with a 600-kc frequency) can be utilized in arbitrary Card 1/2  L 5119-66 ACCESSION NR: AP5026300 circuits the maximum operating frequency of which does not exceed 1 TvIc. Orig. art. his: 2 formulas, 12 figures, and 1 table. ASSOCIATION: Taganrogskiy radiotekhnicheskiy institut (Tagwwog Radioeng ieerin~ Institute) SUBMITTED: 20May64 ENCL: 00 BUD CODE: EC,~ NO REF SOV: 007 OTHER: 000 Card-2/2  PM P ~AFW lfd~D/~Sb(~ ~~S/ L21OW-65 MU?/~WT(d)/EW ~r I/S k 4/PCC-4/Pd 4. IITP(0~ d )/RAEM(i)/ESD(dp) - X518S ACCESS1014 nv Ap5o03751 G/014h/64/000/0o7/0W4/0 0113 AUTHOR S Gur4k, V. F. (Assistant j ccaputer ea. gincering, dept)~ T ITLEI Trmwistorized aritlinatic apparatwor a.: totLtrolling Zonatruc0d on the basil; of a dicital differentia anal r SOURGEs .trom&h=1ka, w.- 7,* IMa, 804-81j TOPIC TAGSt digital computer,, integrationp di-crerentiation.' W'IDPAWIX! comonem mugwW-Wat. is the main unit of dwita act: A parallelflgLk~,, differ* ential analyzer is deserited. It hits a WaLa cyclical freq?Adn4y of I t1c; the maximum number of dLgLtal plAcea is 251 tke maximum nuwb~-r ae itEputa into the integrator is 7t and integ tion is by a fortula of the increment coding aystem is ternary; the binary ayste-ta igi uned in calau- at: ilation; the main elements are semiconductor triodes ard dtodea. The prLacLp elementary operation perfor=d by tha intagrator is the addMon o f~. binary digits, uhich is acemplishad by =&nm oe parattel utorage summatoc. The opzizal parameters oe all the atemetnta ara giverto Work La. Wing One to raise the cycItcal frequene3r. but incranat beyorid 2 Me is tiaLte4 %sy tag, ge Ir othe direct ttansEtion aiauft and %vvtd r ire (Uthar cuduoing thdi'tw=ber, Card 2/2  WIMM L 21009-65 AC=101f NRt AP5003751 of digital places or working out the funct ona cir&ft of tbzq,~ nt=~60r an ,another principle. The high apeed of tha davice Vomits a con4olll'i* cisaine:'.1 constructed on the principle oC a aeries-paratlel differential anali*or to function in the natural time scale Lit controlling high-speed production processes,_Ctrig, _qxt,, hgs fbMU2RLj.* .. ... . AMMATIONt &Xe&a rjchidliteltnoy tekbdki T4=0F]IM&O ru4joteklmicheekogo inatituta LDmartmorrh of Comm gineering of that.Tm --ter En. Em nAl ex1m. SWUMED9 116eP63 Mom 00'. SUB 00-DEt app.UL, 10 REF SOVt 002 OTIM. t 000-1. Card 2/2  611'41K, Vyachaslav Filippovich, assisteriL Transistorized arithmetioal unit of a control computer based on a digital differential analyzer. Izv. vys. ucheb, zav.; elektromekh. 7 no.7:804-813 164. (MIRA 18:5) 1. Kafedra vychislitellnoy tekhniki Taganrogskogo radiotekhni- cheskogo institut#.  GUZTK Vyachpsallav 4. b. "r-13~ , No I 5-~- 3 ta b le e Lromekh. (mi W, 181: 10) 1. Ta,rlp-mrcg,9kiy rndVlL,--k-hn-icl-n',dY IrlstAt"t,  GUZI~,_ Zl--)f ia;, m&r ~ LOFLTA. Ronnan, mgr in--,, Obtainin.g Inert ,lardetion of monocIry9falline corumlvm, Rutnik P 30 no,,3:.83-86 ILr '63.  ZATONCHKOVSKIT, A.D.; BERNSHTEYN, M.Kh.; KIRIYENED, N.V.; ABRAMOVA, V.V.; GUZIKHIN, U.S.; SHMIRLING, B.M.; YABED, Ya.A.; PRM, Ta.A.; 2W Artifialvil leather for tho tippers prom. 16 no.1:20-23 Ja 156. (Shoo industry) (Leather, of open atimmar footwear. Lee. (MIJU 9:6) Artificial)  -777, ANT'  GTLIKOV, A.M. [Clinical- T)rosthodontial Klinicheskoe zuboprotezirovanie. Moskva, Medgiz, 1952. 259 P. (Kwu 6--7) (Teeth, Artificial)  GUMMV, 11.L. Uproshchenn~-i sposob opredcleniia kasitelln:-Vh napriazhenj4' nri kr~l- chenii kr- ., la. (Ticklinika vozdushnogo flota, l?45, no. 7/8, p. 27-30, diairrs Title tr.: Sj-iT,,)le method of deterrang tarigential stresses induced b,.- the torsion of the wing. 'iI504. T4 1945 SO: Aeronautical Sciences and Aviation in the Soviet Union, Library of Congress, 1955  tmm/ onaurnes... '1947 Wing Profiles Stresses "Approximating the Weight of Pover Sheathing during Given Defommation of Buckled Wings," N. L. Guzikor, 6 pp *Tekh Voz Flota" Io 3 (228) Sh*athing for plane wings can be divided into two types, strong and' weak. For the aerodynamic prof Iles of wings for fast planes, allowance Pniqt be made for the fact that the torsion Is greatly regulated. Therefore, it is important to be able to approximate the weight of the sheathing for any given wing pro- f Ile. From that data it is easy to determine the BS 2 V=/Aeronautlos (Contd) Mar 1947 ttickness of the sheathing necessary for a paxticu- ilar wing profile. Presents mathematica.L formulas ~for calculating the weight of sheathing. ~s 2M,  GUZIKOVY P. A. (PI-Or.) 111lethods of Painless Child-Dirth for the Masses," Sov. Zdrav., SO.6, 1949 11 lid., Chair of Obstetrics & Gynecological Glinic. Molotov ],Is(.. Inst.  GUZIKOV, P.A. Penicillin propbylaxis of ophthalmia neonatorum. "ishegin. Ifoo5: 37-41 Sept-Oct 50. (= 20:5) 1. Of the Obstetric-Gymcology Clinic (Head -- Prof. P.A.Gasikov), Molotov Medical Institute.  GUZIKOV, VA., inzhener, - - - Now method for recording torsional vibr&tions. Izobr. v SSSR 2 no.l: 11-15 J& 157. MR& 1a:4) (Torsion) (Tibratica-Mes,suresents)  G,AVY,M)-DZIERZT1TSKA, Irena. TOWPIK, Joref, MORRIS, Wanda, GUZIKOWSKA, Xtiria Level and retention in the blood of domeRtic procanT-p-enVc-Ml~ln. Polski tygod. lek. 13 no.16:591-596 21 Apr 58 1. (Z ZaklAdu Antybiotyk&w P.Z.H.g i z Instytutu Dermatologii i Wnerologii w Warazawte) Adres: Varazawa. u1. Chocimaka 24. Zaklnd Antybiotykov P.Z.H. (PENICILLIN, rel. apdas procaine penicillin. level A retention in blood (Pol)