SCIENTIFIC ABSTRACT SHVEDKO, L.P. - SHVEDOV, N.YA.

TWOF-EY3VA, L.A.; ZHOMT, I.F.; TWIPELOV. N.V.; GOLOVACIMIA, V.YL,.; GOU11TOTKO, G.P.; DUBOVIK, N.H.; KOROBB"TNIKOVA, A.I.; MIRONOVA, L.P.; MERNTOV, S.P.. MATAFONOVA, Z.G.; MVEDFO, L.P.; VAS-11TOVICH, M.I. S,P.rot, for plague and other opizootle diseasRs In a Transbalkmlla-~ Tle,~~llij focus. Raport lfc).2. 17,v. Itir. got). naur_,~.-i s n".. prot (MIRA 13:7" (TIZAYSBAIKALIA--ROD,vNITA--.DISEASES AND P.&JIM) "IR  ZHOVT-Y'Y, I.F.; ITEKIPELOV, N.V.; BUSOYRDOYA, N.M.; A .X2'L-OV-,'iGKS7A, --T.Ye..; DTj-BOVIK, I.M.; DTJBOVIK, V.I.; ZHIVOLY-PIN;,, R.?.; A N.; F3 0.1.; TIY-OF3Y-WT-%, A A.; SH =-, TO, L.P. SaazcL for p1l;v-ue and oth~3r epizootic disaasa,,~ in T-ransbalk-allan plag,-a Ra-cort, it--,3t. 15:3-1? 147 (MIR--- 13:?) (TR.kNsBil,!F,ALIA--ROD.~--,NTIA--DIS'~PASES AND FRS-S)  SHVXDKO, Y.K. Methoi for obtainink geological data for mining in the Dihezkaz- gan copper deposit. Izv. AN Kazakh. SSR. Ser. geol. no.2:3-13 16o. (MM 13:8) (DzhezIcazgan region- C:)pper)  0     NIXITIN, V.N.: E~I~VDKOV~~A..; SKORODUMOV. B.A. Threfid"nrafile iLndercutting in vortex milling. Stan.i. instr. 25 no.4: 22-~25'. A- 9 is shown ih Flg.*36. The points in Fig.,3a represent the experimental values, while.the sloping line was calculated on the basis of Eq. (1). It is seen that no satisfactory agreement between the calculated and .the experimental results is.obtained in Fig. 3G4 The'dependence of-frequency on V for two values of the reflector voltage is illustrated in Figs. 4. Pis. 5 shows the dependence of f on V Fig. 6 shows the dependence of f on the power P of the g~enerator on the distance between the.plungers of the three tuning lines from the axis of.-the klystron. The above experi.- mental data indicate that the representation of an oscillator 'With a retarding field by means of a closed electron beam is quite feasible. The abo~ve concept should be regarded as an attempt to explain the elecC,~on oscilla .tions in a system with a retarding field which,i gene-.,al agreement with the available experimental data Card /,s6 J. n  q Ell 130.111 1 1 82454 s/i4i/60/003/03/009/ol4 Ela24E3P2 An Electron-wave Oscillator with a Retar i g ield and modern the 'orles,~ It is not, howev*er, a-complete theory~, There are 7 figures and 22 refere_nc-es: 12 Soviet, 8 Englis I French and 1 German... ASSOCIATIM ..Saratovskiy..gosudarstvennyy universitet~ (Saratov State University) SUBMITTED---- December-24, 1959 4w Card 6/6  "z?/194/62/000/004/085/105 D271/D308 .OLUTHOBS: Shevchik, V. N. and Sl~-,,redov, G..__x TIT-UE: Study ol' some characterIstics of an _~IectIOrl-wava oscillator P4, no.-4, 962, abstract 4zh118 'Uch..zap. Saratuovsk. 1960, 0 Un-t 0 69, 77-89) T_'--'XI_11: -Results are re'llorted of an exierimental -s tudy of re-Ua.-d_LnC-,- _ en- *z., 190611, 3 -z -ield electron-wave oscillator (Hzh? dence of the oscillation frequency on the CU:111--en-1. densi-6y, fixed electrode voltages, - was investigated. INo subs -car,7. ial -l--re- quency variations.were "LoLuid. -The in-fluence of t1ne grild 7penetra- tion factor or, the oscillator characteristics and the relauLon be- tween the frequency and retarding'field lena-Uh were studiled. Fre- quency characteristics are given of two-catuhode tubes with retaIrd- i --,g f-i eld. Results are shown of the calculation- ol~' interaction of ojDositue electron beams by the method of )ostvula-ue.d field. Z-A-b-' -- strac-er's note: Complete zranslation. u card 1/1  Liam SF~xClux, Vj;.; SINEDOV G N - SOWMIFA, A.V.i Prinimala uchastiye ---, oaio -- TRUEET8KOV, D.I., aspirant; VINDIKOVA I,A,, red.; MMI, V,V., tekhr.. red.- [Oscillatory and wave effects'in electron =~rents at super- high frequenciesIvolnovye i kolebateltryeJavleniia 'velektron- llykhpotokak-h na sverk-In-ysokikh chastotakli. Saratov, Izd-vo 34rato-vskogo urd-v., 1962. 334 p. - '(MIRA 15:10) gn (1-1,icrowave tube s (Mlicrov'aves) (Electrorw '.etic Waves) IT 11 1 FV,4t, rx~p,-- u MR ~-V' 1I,!THH 11HP-mgm-, 1-` TN i~ 1      A.UTHOR 2 Shvedov, I~6JOscovi-) SOV/20-122-4-7/57 TITLE: Proof of the Theorem on the HomeomorDhism of Polyhedra and Point Sets (Dokaz9,te11stvo teoremy o go.meomorfizme poliedrov i tochechnykh mni~,zhestv) PERIODICAL: Doklady Akademi-~ na-,;,k,SS3R,1958,VO1 '122.Nr 4,.PP 566-569 (USSR) ABSTRACT: Aleksandrov [Ref 1 2j proved the. theorems In. o.rder that the n 'P 1: nets R ana A R - 'be homeomovphic it is necessary , and aufficient- that their ge ometric.spe-otra S in Rn and S' in R P~Ossesa confinal parts s and s1which can be confinally completed to the same abstract spectrum i Vae awthor proves the sam=~ theoxem, but he uses.the notion IlConf4rjalll -in an t;ssentially simpler and more natural sense than Aleksandr-ov did. namely -.- The sp;~--trum q- is the confinal part. of +he --pectrum if the dire-ated set- of the com- plexas forming' 6j i-q the confinal pa"I't, (in ordinary sense) of the dliTected set oP 4--.he camplexe3 forming and if the 1 C JB W are the same as in (Notations of Rvoje in ar  Proof of the Theorem on -cli,2 Hom-morphism of SOV/20-1 22--ij--7/57 Polyhedra and.Point Set-5 Aleksand3:ov [Ref 1,2j). There are.2 So-vie" ~-eferences. ASSOCIATIONs Kafedi--s irysshey geometril i topolo3ii 1, a -s k ov k ogr,,~ gosudarst- veraiogt--~ universit.-~ta T;',.V.Lcmonos:i,;-a (Chair ',)f Higher Geometry and Topology of the Moscow $tate, Un4versity imeni PREUNTED: may 6. by P.S~Alaksandrov, A--~aOemician SUBMITTED: A p111 20; 1 ~15 Gard 2/2  A U T LHO R i. Shvedov, I.A. TITLE: Projection Spectra.,and,the Completeness of Topological Spaces PERIODICAI:_ Doklady Akademii"nauk SSSR, 1-959,, Vol 128,11r 2, pp 250-252 (USSR) .ABSTRACT: .,..The author uses.the notion of the projection -spectrum introduced by P.';.1Ueksandrov Ref 12 iii order to inVe'stigate', by approximation,-of the spaces with t.he aid of simblicial.complexes, stems,of open coverings the conne'etion. which ex, I oll s oetween sy -e and the extensione of this space.,It is of a top6logical spaG assumed that-all considered. apaces'are T--spaces. Most- of the results are -eneralizations.of the corre:spondiii~-theorems of Yu. 4~li o fRef 3',4-7 on uniform' aces... Th 6 author' gives -iSmira v sp seven definitions and eight-theorems. There are 4 references, 3 of..,which are Soviet,. and: .1 -,A-merican. AS"-~'OCII,',LIIOI::Idoskovs'-Ii-y gosudarstvenryy-universitet imeni M.V. Lor-o;-n-osove- 1.1o ~, c ow State University imeni. I.I.V.Lomonosov~"- JkTz~.Y Is, 1959, by P.5-.Alekoandrov, Academician.- SU'_K,~IT'_~;D: !;';a7f 14? 195:9 .L-_4       8A07 S16261661-1321061321668 ".,b60005 66 0 0 A'UT*HOAS:...- , Zayt sev i. V'j. M. y J.okhil, P.- F.,,.~'Shvedo*2: K.: K. TITLEr. ic, Metho*d -o*f' Measuring.:the of Explosion Products P19RI-ODICA':_.. Dok.lady Akademi i nau~k. S'SSR,-. 1q6o,,,-_vq1. ~1329.,No. 6, _Pp. .1339.!-1340 TEkT:.' rn c'Oh'traLit t"o'tIhe -'~ calc'ulation.-o f. :the dz O'nent 'o f- the Poisson adiaba- p ti~ cu'r,V6.0f ihe-explosion.,~ produc t si'carried out- iii RefBo- 19 2, the authors applied thb,: dikebt measurement of - thw 'speed' of the explosion products; a copper-. or foil,* 00-9.5, mim' thick,,- wad moved thiough the ex- plosion p oducts~ in an -electromagnetic- fiel,d,. snd the emf recorded by means; of a9OK -17M (OK-17M). catho'de.-ray~:osdilloscope. Fig. I shows the experiment4T -appara us in which th*e..magn etic-,field was generated by means of dire6tourrent-in two halves OfIthe 6611'winding distant from each other by-the-coil-radius, according to a-suggebtion by B.,K. Shembelf. Fig. 2 shows an qscillogram from.which the spee4 ~f.the explosion products was calculated by-extrapolation.for U6-begipning of the foil movement. Card 1/2.  Z1020J601133101 43/P70 B004/BO07 AUTHORS-., t ev9 V.~M*9, Pokhil,.,P. F.9 Shvedov, X.'K.. TLEs- Measurement of the Velocity:dfsounidyin Detonation Products TI PERIODICAL..-7 '.D,oklady..Akademii nauk SSSR, .1,96-09- Vol, 1,339 No- lo PP- 155. .157 TEXT,,- The authors describe.a method of'measurink the.velocity of sound in detona Iti on products of explosiveaq which c6naistain ihe detonation wave '(pairaffin)- The reflected wave bein" reflected from'-an inert substance px~opligat6s in the - detonation products -with, the -velocity of soundg and is recokaed by.an osail-loseope. Fig. 1.'shows the soheine:.bf the x erimental sAup'.a,nd an oscillogram..By means of the equation c -~-J/(Dt - 3) S(D u .the average-velocity.of sound was calculated for a time interval'r- (S distance between the explosive*azid-the inert substance, D = velocity of the.detonation frontj u - velocity"of the detonation p Iroducts9I c - velocity of the-~reflectad wave). The results..obtained for trotyl'and Tr50/50 (TG.50/50 ~-JO % trotyl + 50.% trimethylenetrinitroamineTZro shoym in, Fig.. .2 and Table 1. By using the phase equi tion suggested by Card 27777,W  ACCESSION Nk: 206 :"5'/0207/63/C)00/00610131/0134 AP4005 . . AUTHORS: Dremin'.A. N. (Moscb'w),- Koldunovi: S. A.. (Mos"6ow);..Shvedov., I. K. (Moscow) TITLE. Initiating~a detonation in cast.'trotyl by means of-la-s-ho6k,wave SOURCE: Z~urnal prikl. miekhafi~ i -tekhm. fiz*',, no. 6,.1963,131-134- TOPIC TAGS: detonation,:explosivo,'shock wave, troty1, high explosive, combustion,;, shock initiation, shock detonation.initiation ABSTRACT: TNT used in this -study had 'a sp. gr. of 1.62 and was' subjected to a shock wave with pressure.at'the wave front of 100 000 atm. The* shock~wave was produced by detonating a charge 80*m in diameter and 130 long next the test - ' 20 mm sample, with a plate of, plexiglass thick betweenO The velocity ofthe shock wave and the velocity of material were measured over the entire range from site of shock-wave entry to the establishinent of normal detonation. The relationships of * velocities to distance are shown in:Fig. 1 on the Enclosure, It is seen that the two velocities depend -on distance in A similar fashion. The authors have shown that chemical reaction begins imnediately when affected by a shock wave of this magnitude. They conclude that in the non-ideal regime (as set up in this experi- men for detonation) a detonation*occurs at the interface (with the plexiglass) Cc T.  ACCESSION NR: AP4.005206; almost instantaneously - ofl'arrival ofthe shock- trave, but the am plitude of the wave .is insufficient-to'cause 'chemical reaction as.is'-:cbserved for ideal detonation. The observed reaction',tiust.then begin at.defects', such as-cracksj pores,- etc.p where "hot points," are forr4d. The possibility,,of initiating detonation is deter-' mined by the ratio betueen -amount of generated energy and amount of energy loss associated with attenuation of the shock waVe) whether in passing through the TNT or through the inert m~teriial. The velocity. . 9 -ofthe wave front and ~consequently, all the parameters at ihe front and the-ambufit.-of'generated energy affect one another in such a vray that an increase in amount-of generated energy-leads to an increase in velocity of'the front and to-aa increase in pressure, and an increase in pressure leads to an increase in velocity-P`.' Orik. art. has; 4 figures. ASSOCIATION: none SUBMITTED: 13May~3 DATE-ACQ: 09Jan64- MCL: 01 No REF SOV 004' OTHER: 009 SUB CODE: PR Card 2  1 iV'E '101 iK V I-JiFTI- N NI I KC 0 V" S o' t-'ne, e)-' PZhV-20 ammontle and some ofher A,; -l'-18JVeE. Vz-:-i,7. dslG no.52/9--l '63. (MIRA 17:12) 17Z-2-7 _761 '1 1:94: ~r* ~l ~dpl 1 i i  JL 10497-63 EpR h-pF (a VEWT (m) 1BW__AnTC1ASD_P I rjL ACCESSION' ITR: AP3000429 6/63/037/005/1182/1186 AUTHOR: Gallperin, L. N.; Shvedov,.K. K. ~TITLE: Method and-setup for studying transient detonatiofi~processes .1~ 19,3,: 118. SOURCEt AN SSSR. Zhurnal fizichoskoy khimii v. 37, no. 6' 2-11186 4, 3TOPIC TAGS: 'deflagration-detonation transition, solid, prcjjdlant,~~ trot ylp ;nitromethane, hexogen, detonation velocity 'ABSTRACT: The Institut khimicheWcoy fiziki Akademii nauk SSSR (institute of ,:Chemical Physics, Academy.of Sciences SSSR),,has developed'.t'a method and an:., erimental setup for studying a-erl-a-g-r-ZaTion: to-idetonati'oh~:~,iranslti6ns in solid! tand liquid explosives. The method is based.on the.reducti6n of irosistance of a: con 6md. the advancing sisting of a pairof insulated wires, when short, y reaction front- In contrast to F. C. Gibson' s m0thod (F. C.* Gibson, 14. L.'towser- -c aand C. A. Mason, Roy. Sci. 'Instro, 30, 91 ,6, 1959), the sensor is"fed with d' :pulses, which improves the signal-to-noise ratio and e1iiiinites'calibration: cf !the measuring' COPP wire 1. 1 Lim in dia or circuit. The sensor consists of a or met .wound with PE eads trom the spnsor~ EM insulating wire 0.1 mm in diameter. The I ,are connected to a coaxial cable. In the experiments two i6nsijig,7elements' w~e:re Card 1A [Him ~J~j:i   ACCESSION M; AP4034282 S/0207/64/000/002/0154/0159 AUTHORS: Dromin) A. 11. (1110scow); 5hv dov, K. K. (14oscow) TITLS: Determining the Chapman Jouguet pressure during the tinko of reaction in the detonation waves of powerful explosives SOURCE. Zhurnal prikladnoy makhaniki I telchnicheskoy fiziki, no. 2--, 1964, 154-159 TOPIC TAGS: explosive, detonation, trotyl, Chapman Jouguet tegion, oscillograph, polytropy index, chorucal reaction APSTRACT: Experinental measurements were taken of the ma3s velocity u, pressure p, and time of chemical reaction *(; during the detonation of solid explosives in the ideal detonation regime. The method used was based on, the work of A. A. BrishY 14. S. Tarasov, and Z. A. Tsukerman (Eloktroprovodnost' produktov vzry*va 1-ondensirovanny*kh VV. Zh. experim. i teor. fiz., 1959, t. 37. No. 6(12).. 1543) and A. 'N. Drem1n, K. K. Shvedov, and V. A. Voreternikov (Tssledovahiye detonatsii armonita PZhV-2O i nekotory*kh dru,",ikh VV. Sb. Vzry*vnoya delo, 1963, No. 52/9). This method exploited the phenomenon of electromagnetic induction for 'those measurements. Aluminum foils were used for conductors with a thickness of 0.1 rM and a width of 12 to 15 mm, and were bent to form a horseshoe. The experiment Card 113  AGGESSION NR: -AP4034282 was conduO-'%ed*at a constant nagnotic field of 400 oors~odi (�l. 5j-)) created by ~- ---.,tionarf alectrorzgnots. As the detonation wave passed by the charge, the crossbar of a data unit moved with the mass Volociby perpoedicular to the rugnotic field. The omf from 'the onds of the data unit was recd~rded by an oscillograph. it was assftred that the nrasonce of the data" unit in the explosive did not distort the orofilo of the dut,-j.-Iatioa- wave. An abrupt rise followed by a smooth drop in the maass velocity was observed fro-, the escillo,,7,ra.M t-alcen in inert media. For checkin[; th.is work, tne velocity in front of -the detonation wave waz measured for trotyl at various derigitico for whilclh datc 'had boon obtained earlier by different n,01)]OdS. Tjja raffnitudes of the velocity u, reaction 'tire 'C, speed of detonation D, the prosoure in the -Chapnan-Touguet region p, 'he index of polytropy n, and the thickness o.1 the reaction =ne a are related by the fornula P D, YYija (D - 0)) r where