SCIENTIFIC ABSTRACT KOROBEYNIKOV, V. P. - KOROBITSIN, V. G.

'~4376 C2 8/207/62/000/001/018/018 6, 11152/11138 AUTHOR: .-KorDbeynikov, V. P, (1.1,oscovi) TITLE': Particular solutions of the hydrodynamic equations of a diluted plasma in,axisymmetric motion PERIODICAL: Zhurnal prikladnoy mckhaniki i teklinichookoy fiziki, no. 11 .1962, 153 TEXT: In cases of cylindrical symmetry the equations for the motion of a diluted plasma are dv a PR-. P-L I_dp_ du + -7 (P-L+h) p dt ar P P dt or h d h, d Pjh d = 0, d P ---7- = 0 (1) w 0. h-1, 0' dt H 2 H2 4 h,= dt at + ar , h=h4P+h1, V~ 81t 8:% pj_ and r.1, are the components of the stress tensor in an orthogonal system of coordinates where one axis has the di:rection df the magnetic line of Card  S/207/62/000/001/018/018 Particular solutions of the... B152/B138 force, r is the distance from the symmetry axis, v the radial velocity, 11~ the azimuthal component of the magnetic fiturld, Itzthe component al6ng the z-axis. The system (1) corresponds to the equations obtained by CheT-j Goldberger, and Low for the hydrodynamic model of a diluted plaama. When hz 0, the system (1) h an a particular solution of the type Y td1ildl, 'pj_ = r-V(AP + D) R-h, hq, P-~ (B (tP - PI) + All (PI, P) F-* P',P CP'tt-4. j - rts-1, (diz/dt)lc~2Ap-~l.-281nti-Cli-3.~G (2) P(�) is an' arbitrary.functiong A, 13-1 Cl D, M, G, are arbitrary conatants adapted to given initial and boundary conditions. A. 0. Kulikovskiy (DAIT SSSR, 1957, v. 114,.no. 5) already o'Otained a solution of type (2). Since, with C >0 and'B >0, IL(t) can neither be zero nor become infinite, a plasma particle which at t = 0 is at finite distance from the axis of symmetry, cannot depart to infinity nor can all the particles be con.stricted.iolan infinitely thin line. When hZ / 0 and hj / 0, the system (1) permits the solution . i. Card 2/4  S/207/62/000/001/018/018 Particular solutions of the,:':. B152/B138 d,, C P, - H " Ca dt P.L B 11 Y i+1 w h. Cjaltt-t. h, = kCltb It-4, p~ k W114-%B-2 a= --in- kA-B) (3*) dt J2 2A III IL + litt-8 + Clk-4 V k + t G (2 + 6) 1,, 2k + 2 V_k (k + E (k, + + G + A, B, C, Cip r"7 G, and k are-arbitrary constants. The solutions (2) and (3) may be generalized for the case where the particles have the rotational velocity v,V = 4_2~2,p(~), whereaPQ) is an arbitrary function. This generalization has been stated for m gnetic hydrodynamics with iootropic prosoure by Yu. P. Ladikov (Nakotoryyo toohnyye resheniya uravneniy neuetanovivahikhsya dvizheniy v magnitnoy gidrodinamike (some exact solutions of equations of nonstationary motion in magnetic hyd'ro- dynamics), DAN SSSR, v. 137, no. 2, 1961). When h = 0, 4 z P LC P, P- . The r and t dependence of the other functions sought is expressed by the (2) equations. Similarly, the (3) solution Card 3/4  S/207/62/000/001/018/018., r,;irticular solutions of the..* B152/B138 iv terjeralized, where only the dependence of hz changes. [Abstracter's note: Essentially complete' translation.] There, are 3 references: 2 Soviet and I non-Soviet. The reference to the English-language publication reads as followe: Chew, C. F., Goldberger, M. L., Low, F. E. The'Boltzmann equation and the one-fluid hydromagnetic equations in the absence of particle collisions. Proc. Roy. Soc. A.-, 1956,-v.,236, 112. SUBMITTED: October 25, 1961 Card 4/4'    420U S/207/62/000/004/002/006 1024/1242 9 AUTH,',)RS: Korobeynikov, V.P.9 and Ryazanov, E.Y. (Moscow) TITLE; The influence of a magnetic field on the propagation of plane and cylindrical ahock*waves PERIODICAL; Zhurnal prikladnoy mekhaniki i tekhnicheskoy fizi4 no.4, 1962, 47-51 TEXT: The self-similar problem of'piane or cylindrical gas motion due to instantaneous energy rel~easb at the plane (or axis) of synunetry was investigralved for both small and large magnetic Reynolds numbers. A strong explosion finite conductivityq and a .magnetic field perpendicular to the velocity vector are assumed. Por small magnetic Reynolds numbers the reverse action ofthe gas Card 1/2  KOROBEYNIKOV, V.P. (Moskva) , Analogy between a cylindrical explosion and a hypersonic gas flow past a body. PMT no.6:45-49 N-D 162. (MIRA 16:6) (Explosions) (Aerodynamics, Hypersonic)  S/040/62/026/005/016/016 D234/D308 --- AUTHORS: Karlikov, V. P. and Ko'robeynikov, V.',P. (Moscow) TITLE., Motion of a plane piston in a medium having finite conductivity9taking into account the effect of elec- tromagnetic field PERIODICAL: Prikladnaya matematika i mekhanikd, v. 26, nb. 5, 1962'9 970-972 TEXT: The'velocity of thepieton IJ is assumed to be constant and the conduc:tivity is assumed to vary in th~- direction of U as sx-1. The magnetohydrodynamic equations are formulated taking into ac- count the displacemenVourrentB. At the initial time instant (when the pistons begin to move), a constant field Ht directed along the, A axis, is giv4e/jhe solutions are expanded in powers of a small POP where DO,is the velocity, of the shook wave parameter q for H 0 and Po the initial density. The authors find the zero .0 Ca rd 1/2  KOROBEYNIKOV, V.P.; CHUSHKIN, P.I.; SHAROVATOVA, K.V.; ORLOVA, I.A., red.; KORKINA, A.I., tekhn.red. (Tables of gas dynamic functions of the initial stage of a point explosion) Tablitsy gazodinamicheskikh funktsii nachallnof~stadii tochechnogo vzryva. Moskva, 1963. 57 p. (Akademiia nauk-~'&SSSR. Vychislitellnyi tsentr. Soobshcheniia po vychislitellnoi matematike? no.2). I (kM 16 CR  L 17038-63 Epp,/Epi'i(b)/F,~iT(I)/F.Vid(k)/BDS;;!-. ASD/ 8/207/63/000/002/916/025 _____7_-3/AF,VL_ PIS 4/Pd-4/P'Z-4-:---:IKN/JliB/.~~T--~ AFFTG ESD --AUTHOR- Farlikov. - V~- P. Kbgqtq _ynikov, 1L. PI,, and Rn&gggy, Ye. V. SaGoolf TITLE: An, app e qgior~ problems in certain. roximate method for colving ML ideally compressible media IERIODICAL: Zhurnal prikladnoy-makhaniki L takhaichookoy fiziki, no. 2$ 1963, 132-1AI 9=: During explosions in Cortain ideal madia, like water or vater-containing ground, the motion of tba liquid, near th6 gaceoua cavity agreau with the thaoretical calculations of tba displacement for the caaae of an explosioa within an incompressible liquid. N. N. Koch Ina and. 11. S. bbl I nikova (Ref . 2: DAN SSSR.. 1961, vol. 138, no. 2) enumaratk the prGpe media having the above-mantioned characteristics. Under such circumstances the compressibil.ity substantially influences the fluid. motion only. within a relatively narrow region adjoining ths shook wave containing large gradients of density, pressuze, and. velocity. Tba authors expect that.the just mentioned facts are favorab2a for the existence of an approximate Jolution. of the problem stated, in the title. They start at tim t 0 wIth an instantaneously produced spbarical volw2s of gas within ,Card 1/2   L 18716-63 EPR/E?Mb)_/BDS_ P6-4/Pd_4~ WW ACcEssioN im: Ap3oo6122 8/0207/63/000/004/0048/0057 AWHOR: Kordboynikov, V. P1, (Moscow); !'3husbkin,,P. 1. (Moscow) TIW.. Calculation of the initial stag.* of a point %plosion In various gases SOURCE- Zhurnal prikladnoy mekhaniki iitekhnicheaboy fiziki, no. 4,, 1963,, 48-57 TOPIC TAGS: point explosion, back prestiure, blast vaveL, linearized problem, plane!~ wave, cylindrical wave,, apherical wave., adiabatic exponent, hypersonic flow, self similarity model, blunt-nosed body.. slext.der body ABSTRACT: A nu=rical solution of a lirearized point-explosion problem with back pressure taken into account Is considered in the cases of plane, cylindrical, and apherical waves in gases within a wide range of adiabatic exponent y. A method ip outlined for the solution of lineariz-& blast-wave problems which is very con- 'v%enient for computer calculations. A pn)gram was designed for the BEM4-2 com- -Vater vhich makes it possible to obtain oolutiona for various values of Y (1 < Y < 7) in the cases of plane, cylindrical,,'and spherical waves and to ob- tiin functions of the total energy,, temIxirature, and entropy In linear approxims- '.~Ion. The results, vhich are presented Im tabular form, contain both autosimilar Card 1/2 - ------  L 18716-63 lasswx PR: Moo6122 and linearized functions. The linearized solution of the blast-vave theory was a:~ plied to the problem of hypersonic flow over blunt-nosed slender bodies 10 --:- 21). Comparison of the resulto obtained by linearized solution with those obtained by numerical solution for the flow over bodies indicated the poo- sibility of applying the solution of the problem of blast-vave theory to solve the problem of hypersonic flow over blunt-nosed slender bodies and vice versa. '112he authors thank K. V. Sharovatova and It. T. DLh~aembayev for making the cal- culations." Orig. art. has: .9 figures, 21 formulas and I table, ASS=IATION: none SUMOMD: 25Apr63 DATE ACq,t llSep63 EXCLt 00 SUB CODE: Al NO MW SOV: 010 OTMM; 006 Car d 2/2  AIDD Tir 9148-11 22 ~.APA1 PARAMETERSAND SHAPE --OF- A SHOCK WAVE FRONT PRODUCED By A ~N 7 (USSR) IN77ENSE tXPL6,916N Korobeyrnikov, V. P., and,V.- P, Karltkov,'~ INt Akddarniya m%uk SSSR. bo d -v-. 8, 6. 21 Feb -1963, %1271-1274. S 1020163 /1481006 1006 /023 An approximate inethod is presented for calculating the parameters and shape of a shock.wave ina. point -explosion in an i.jahomogeneaus medium. Analytical relationships plermitting determination of the shape -are given, to gether.with the law of its change, with time. A theoretical determination of the wave front parameters . based on data on the strong-detonation and asymptotic laws of shock wave decay is carried out. It is assumed that the point exp~losiontakes place in an ideal gas (adiabatic index, 1. 4). The calculated values of excess pressure AP 2/pl are plotted iq a. graph. The results of a numerical calcula- tion carried out on the "Strela" computer for the case when h=8 and Z ~ 3 a - re given in a table, It is concluded that the method can be applied to. the' pToblem, of explosions in a nonisothermic atmosphere. Card 1/1  _,- - I . - # 1 .1 , '. I ~ ill,11YIN IF. 1. rX . . I vloscow) "On the analysis of explosion In compressible medial? report presented at the 2nd All-Union Con6ress on Theoretical ana Applied Plechaniest Moscowl 29 Jan - 5 Feb 64.  nronagar turl- Gf exu Los ion- induced -Plcs tc-n ir t~- anc, at jlz~ p C i -;c  of il-I . , 1-14 .-, -! : -T I *-A,;v~, 7.Nc:~ 11- '. " ~ 1_1,". i - " f. (1-I TIE R -  TITLE% Interaction of shook waves in an ideally conducting Can with a week magnetic field SOURCEt Zhurnal prikladnoy mkhaniki I takhnichookoy fisikip noii 4. 1964a W-114 TOPIC TAGSt shock waves conducting gas, magnetic field ABMIM The problem is considered of the perturbation of a weak magnetic field H 0 by a strong shock wave propagating in a perfectly conducting stationary ideal ga3 whose initial density in Po It is assumed hat t where P* and V* are respectively the density and the velocity behind the shock wave. The gas mation is assumed one-dimensionalj the gas-dynamioal flow parameters dopend a nly on one coordinate r (and the time Q0 and the influence of the magnetic field an the perturbed gas motion ia no acted The three cases of spherical N - 3). cylin- drical (N) - 2)9 and plaw 1) "shook %raves are considered with P. aid U. LOonstante For ths splarical wavothe fifad Ho is initiaW directed along the 9, Sard- ACGMION HRI AP4044726 Adz;- Acuwia mi AW44726 5/0207/64/000/004/m.13/M24 AUTHORt Korobsynikovp Ve Pe (1104004) &Nis,* for the cylindrica wave ff. Wtiany dirafted at an angle 0( ffts the 2 iudes and for the Plane wave u iatially has the components 'Mr.L!ML1r. 0 Thavis using the ISAPOU0 field Induction equation and the continuity ;;11~tion, is !found that Mr - jz~ 0 caw Me sin 0 P we M, -me sin 12 sin -ro, HV -Melia f2coelp PF, R"Mmeems-L (VM2), ISO IN M, 8,r its, mve J) Pe. where ro is the initial coonUnatq of a i9as particle at rs Orig. art,. Us, 19 equations* f ;ASWGIATIONS none SUBMITTED O9Apr64 JWLs 00 'SUB CODEj HBO EM No IW Ek)V: 005 OrHIRts 002 C.rd   AccmSION  41,~CC7.1- SION XR: AP4013322 S/0020/64/154/003/0549/0552 AUTHORS: Korobsynikov. V. P.; 0hUshkint P. 1. TITLE: A method for calculating point explosion in gases SOURCE: AN SSSR. I)okladv*, v. 154,, no. 3,, 1964, 549-552 TOPIC TAGS: hydromechanics, hydrodynamics, point explosion, gas point explosion, explosLon, wave, gas explosion ABSTRIM: The propagation of explosion waves In a quiescent gas with the presence of back pressure in plane (v = 1 ), cylindrical (v = 2) and spherical (V = 3) cases was examined. The problem presented has, a self-similar analytic solution in the case of a powerful explosion; when bacic pressure is not important. The linearization method Is used for computing the Initial stage of explosion with back pressure. A problem without self-similarity and. with consideration of back pressure can be solved In an approximate manner by Introducing inter- polation equations for the unknown functions, the unknown parameters of which are defined by special integral relations. A precise solu-1- Card 1/2  ACCESSION NR: A24013322 tion can be obtained by numerical methods. Authors applied the method of integral relations as presented by A. A. Dorddnitsy*n (Tr" III vsesoyu=. matem. s"yezda, 1956, 49447 (1958D , and 0. X. Beloi-.:L tserkovs1dy and P. 1. Chushkin (Zhuri. vy*chisllt. matem. I matem. fiz., 2, no. 5731 (1962)) for a.viumerical solution of an explosion with back pressure at v = 1,2 and 3 and with various values for Y (adiabatic index). The gas was assm2ed to be-ideal and hafing a constant adiabatic index. "In conclusion, authors wish to thank V.P4 Karlikov for valuable discussions and participation In the aevelop- 1 ment of the Initial variations of tho calculation scheme as well as Ye. Bishimov for compiling the program and carrying out the computa- tions." OrIg. art. has: 7 equations. ASSOCIATION: Matematicheekly Institut Im. V. A. Steklova Akademii nank SSSR (Mathematics Institute of the Academy of sciences SSSR) i SUBMI TTED: 27Jun63 AOQ: 26Peb64 ENOL: SUM CODE: 2H, M NR RIP sovs 009 OTS211, 001 Card 2/2  SHCHEGLOV, A,P.; KOROBEYNIKOV, V.P.; ISAKOV, V.M. ------------- Correlation of Cambrian sediments In the Western Sayan Mountains and Tuva, Trudy SHIGGIMS no.29:50-60 164. (MIRA 18:3)  1; 1784-6 F.WT(1)/F.WPW/EWA(d)/FC9f k)/ZWA(h)A~A(C)Z~TCW/EWA(1) WW.- AC--:C NR& 7EP5028050 UE01046/65/011/004/0468/0462 SOURCE 'OODE. AUTHOIL Korgbeyw1myt V.P.-OstmMovo GLA. ORG: , Leningrad State Univer's (LentIWa .dskiy gusadardvenayyuniversitet); Institute of Mathematics. AN SSSRt Moscow (Matematicheakiy Institat AN SSSR) /04 TITLE- More on cavitation disintegration- SOURCE: Alwaticheakiy zhumal, v. lit'no. 4, 1965, 458-462 1q, Ts"~ TOPIC TAGS: cavitation, fluid &_w~ ps flow, shock cave_ pERagation, shock wave ABSTRACT: One of the main reasons fdr:the caviWon, disintegration of the surfaces of solids In contact with a moving fluid Is the bursting of. the -gas bubbles which adhere to the boundary of separation. As a result of this -phenomenon there Is an explooloa which is microscopic in dimension but huge In intensity on the boundary between the solid surface and the fluid. ra this case the pressures and forces wbkh cause dislategration. are so high that the solids behave basically as fluids. This paper favestigates the processes which accompany the propagatioa of a strong shock wave in two contiguous fluid semispaces. It is assumed that the source of the shock wave to an explosica at a point on the surface of separation of the two media. Aa exam- ple Is presented of an approximate calculaUon of the dIstr1bQt1oa of energy between, the media v-1,th adiabatic indexes A - 4, X = 5, and it = 7. An Investigation Is also made, in the frame- work of the model used In the present at*, of the. Idnematles of subsequent deformations of the substance of a solid wall. Orig. art. has: I figure, 11 formulas, and 3 tables. card 1/2 UDC-.. 534.29/532.528  KOROEEYI,aKOII.. V.P. Calculation of one-dimensional flows in cylindrical and two-dimensional explosions in an ideally conducting gas allowing for counterpressure and the prosence of a magnetic field. Dokl. Aff SSSR 165 no.5:1019-1022 D 165. (MIRA 19:1) 1. 1-fatematichoskiy institut im. V.A.Steklova UI SSSR. Submitted April 19, 1965.  01i OUR04 OODE AP6002415 R 00 0 1 005.1019 10 2 AUTHOR: Korobeynikov, _Vw&P~.;-Sedov, L.I. (Academician) ORG 14'athemat-I,cal Institute" im-. V. A., St-eklov, Academ y oIf Be is nceIsi of Ithe (Matematicheakly 1:4 J~ IT 17"LE Calculation of-one dimensional flow In cZlindrical and plans exolml_Q_~S'An an ideally conducting.gas, taking Into account the-_ba-a_k-_ pressure and the magnetic field -Doklad -;-~V _-__5----1965--.-lOlq 1022-~ SOURCE AN _SSSR. :1 ,TOPIO TAGS: chemical,explosion, external magnetic field, shook wave ABSTRACT: Let-there be~.assumed-._a~cyllndrioalor a plane pointexplosion In a stationary electrically.conducting gas In the presence of a magneti field. It is further assumed that, the conductivity of the gas is,in- finite, and.that the gas is an Ideal -one.with aconstant ratio of the apecific-h6at~capacities#Y E0 isthe energy evolved in -the elc- A plosion, calculated for unit length In -the cylindrical case (-r = 2) .and for unit. area In the'plaae case (-r = 1) . Let the magnetic field .be parallel to the axis of symmetry (the axis of the explosion) and parallel to the plans. of symmetry (the' plane of the explosion) for the Card 1/2 UDC: 534.222.2 Z - - ----  MIZIN., V.G., inzh.; SAFONOV, B.P., inzh.; SEROV, G.V., inzb.,,,!,9~9~~Y.NTKOV.. -V.V., lnzh.,- FISHMAN, B.D., Inzh.; STRAKHOV, V.M., Inzh. NIKdTIN, Yu.K. Production of 75% ferrosilicon with coke from a charge with - an increased content of jas coal. Stall 25 no.2:133-135 F 165. (MIRA 181.3) ). Kuznetskiy zavod ferrosplavov i Kuznetskiy filial Vostochnogo nauchno-issledovateltekogo uglehimicheskogo Initituta.  I)MAVIN, A.A.; STRAKHOV, V.M.; KORODEMIKOV V V - SEROV G.V.; MIZIN, V.G. -- ==-L~ f I Influence ofthe quality of the carbon reducing agent on production indices of 15~ ferosilicon. Stall 24 no.11:1004-1006 N 161+. (MIRA 18:1)  KOROBEYNINOV, YU.N. Reduce the idle periods of automotive transportation units* Goro khos-Mooko 34 no,70-10 JI 160*' WU 13:7) 1. Moagorfinv4raylenlye. (Moscow-Transportation. Autoinotive)  RAKOVSKIY, V.Ye.; PBTROV, 1-.K.; GMTKO, V.S.; GALXNCHIK,, LZ.; FOZIWTAK# V. So ; KUNASHXBUCA KOROWIGH, *][*Poo red*; VERZALo AJ.; redo,-. KOmD3J7NI)1QV,.Tu.T*., red. (Technological arrangownt fo:r the production of mineral wool shasts with saptopol binding imateriall Usrabotka takhnologii proisvodstva plit Is m1norallaoi vaty a 04kropelevoi eviaskoi. Minsk, Isd-vo *ZyIasd&,v 19511. ~4 p. (MIRA 12:2) (Minerall wool) (Sapropels)  PETROV, L.K., otv. red.; BELYAY,-K.f., red.; VFMAL, A.I., red.; KORENEVICH, N.P.., rpd.; KOROIEUIKOV yu ye. r9d,; NDRGUNOVA, G.M., tekhn. (MIding materials made of local raw materials] Stroitelf- nye materialy is watnogo spla. Minsk, Izd-vo M-ya vyssbego,, orednego spetsiallnogo i professionallnogo obmsovaniia BSSR 1962. 199 p. (MRA l6s4~ 1. Minsk. Nauchno-iosledovateillskiy institut stroitellnykh Ma- terialov UPS i SNKh BSSR. (Building materials)  PETROV, L.K., otv. red.; BAZAYEVA, L.A.., red.; ITSKOVICH, S.M.y red.; KORENEVICH, N.P.8, red.L.KOROBEYNIKOV. Yu.Ye., red. (Agloporite and agloporite concrete) Agloporit i agloporito- beton. Minsko Nauka i tekhnikal, 1964. 390 P. (MIRA 1815) 1. Minsk. Gosudarstvennyy nauctuio-issledovatellski-y Institut stroymaterialov,  BULY,IHp A.; ~OROBEYNIKGVA.. A., ekonomist; MURTAZINA, Kh.,s IMLYUBOVSKAYA, V. Work conscientiously and have a creative attitude toward worki Fin. SSSR 23 no.10:59-61 0 !62. (MMA 15:10) 1 Starshiy inspektor 2hdanovsk6go rayonriogo finansovogo otdela (ior Bulkin). 2. Kiyevskiy rayonnyy finansovyy otdel (for Korobeyi-d.kova). 3. St.E&shiy ekonimist Timiryazevslcogo rayonnogo finansovogo otdela (for Murtazina). 4. Starshiy ekonimist Finansovogo upravlenip Ispolnitellnogo komiteta Mosgorsoveta (for ITelyubovskaya). (moocow-Finance)  BURMISTPOV.. N.A.; MIATSKEVICH, V.S.; SOSIX., M.A.; OSOYMMY K.I.; BOZHKOj V.S.; MOSFJLLE;V., I.A.; GOGIN., N.Me; DANKIKIM, V.I.; EEZRUCRENKO., I.ML* Experience in competing for the idght to be called an enterprise of commmiot labor, Vest* oviazi..21 no.n:22-2 5 N 161. (MMA 14 111) 1. Nachallnik Pervomayokoy kontory.svMi g. Moskvy (for Burmistrov), 2. Nachaltnik otde:leniya ovyazi Kupino, Shobekinekogo rayona, Belgorodskay obl, (for Korobeynikova). 3. Nachallnik Noginskoy' rayonnoy kontory avyazi Moskovskoy obl. (for Xhatakevich) 4. Nachallnik Teykovskoy kontor7 ffy-yati Ivanovskoy obl. (for iosin). 5. Nachallnik 16-1fo otdeleniya ,a7azi Dzerzhinskav Gortkovskoy obl. (for Osokina~. 6. Nachallnik Sovetakoy kontory evyazi Kaliningmdskoy oblasti (for Bozhko). 7. Uachallnik Sovetskoy kontory svyaz:L-K=skoy obi. (for Mosk~lev). 8. 'Nkvh&l'xdk--ZuMi-nakoy- kontor7 ovyazi g. Gortkogo (for Gogin), 9. Fachal .Inik ShchelJmnovskogo otdeleniya ovyazi Yukhnovskogo rayonav Kaluzhskoy obl. (for Danilkina). 10. Nachallnik Bobrovskoy rayonnoy kontory svpzi Voronezhokoy oblasti (for Bezruchenko), (Telecommunication-Employees)  'r TIHQUY.MVA,L.A.; ZHOVTYY, I.F.; =IPSLOV, Y.N.; GOLOVACHM, Y.Ta.; GMDMINKOO P.G.; DUBOVIK, I MMONOTA, L.P.; IMINOV, S.P.; SHVADKO : L Incidence of bacterial infections in steppe rodents of southeastern TranabsUmlim. Tez.i dokl.konf.l:rk.gesonsuch.-iesl.protivochume inst. no.2:63-65 057-6 (KUL 11:3) (1~RANSPAINALIA--RODMIA--DISP6ASM AND PESTS) (BACTERIA PATHOGIMIC) , ~ At  TIMOFMVA, L.A.; ZHOVTYT, 1.7.; MIPE107, N.Y.; GOLOTACHNVA, V.Ta.; GO'RDIYM,O, G.P.; DUBOVIK, N.M.; XOR073EYN1KO'1A,,_AJ.; MIROTTOVA, L,P.; WIRINOV, S.P.. KATAFONOVA,'!,7_.67.,- _SffVMKO, L.P.; vAsmovraff, m.i. &arah for plague aind, other spizooti, diseases In a Trausbalkallan, plague focus. Repoew 16.2. Izv. lrlr.go~'. nauch, -is 91, Prot IVO-chum. inst. 200-13 159. (MMA 13:7) (TRANSBAIrALIA--RaMITA--DISiBASES AND PASTS)  KOROBUNIKOVA) A. V4p "Fusarioses of Clovers of Sverdlovsk for Degree of Candidate of Biological M. V. Lomonsov., Sverdlovsk, 1955 Oblast.. and Ways of Canbating Them." (Dissertation Science) Moscow Order of Lenin State U imeni So- M_1036 28 Mar 56  b -ey 0 BOGAGHNYA . .I KOROB14YNKOA S"ILEN90, Ye.P., kand.biol.neuk, ot veto t;'-'nw -rewa'A or r-46WOVA, T.S., radaktor; rZMODNNOVA, L.A., tekhasrodaktor [Pests and diseases of clover in Sverdlovsk Province and ways of controlling then] Vrediteli i bolesni klevers v Sverdlovskoi oblesti i mary bor'by a xximi. Sverdlovsk, Almd. anuk SSSR, Urallskii filial, In-t biologii, 1957. 46 p. (MIRA 11:2) (Sverdlovsk Province-Clover-Diseases and pests)  "-~B~EYKIK~OVA -Aj. Effect of nutritionp toweraturet moisture# and the pH value of the medium on the developent of sow species of the prus Vus&rium, Trudy Inst. biol, UYAN SM no. 1501-81 160. (MIU 13:10) (FUNGI# PH M PATHOGENIC)  KOROBEYNIKOV.A, A.V., kand.biolog.nauk TWD in controlling corn diseases. Zashch. rast. ot vred. i bol. 8 no.420 F 163. (NIRA 16:7) 1. Laboratoriya zashchity rastniy Ural'Bkogo nauchno-issledova- tellskogo instituta sellskogo ~hozyaystv4i (Corn (Maize)-Diseasen and pes4) (Disulfide)  L 19672- ~.EWP(J)/spy(c)/Ew(l)/Ewp(q)/EWT(6)/EWP*'(B)/BDS/ZEC(b)-?-- 63 .:AFFTC/ASD/IJP(0 -.?c-~4/Pr-4/Pi-4 OQIRMIWWIJDIMAY ACCESSION W S/0058/63/0~0/608/E035/E035' AR3006981 :SOURCE: RZh. Fizika,, Aba.18E243 AUTkOR: ova, ~G.. V- =r6b2ynilc :1-TITLEs. Growing of some,singli crystals,for.anailysis by the nuclear quadrupole resonance method CITED SO'URCS: Tr.'Yestestv.-nauchn.,~ in-ta pri Permsk. un-te, V. lif no. 1, 1962, 45-50 TOPIC TAGS: single c rystal crystal growth,, nuclear quadrup6le resonance, paradichlorobenzianet-p"aradibromobenzene, zbhe melting'-. TRANSLATION: Crysta&,of paradichlorobenzene~(C 6H4C'2:)'." M and of p radibromobenzenel(ii) were growl i -melting f',ur'nace com- prisi-ng a pyrex tube.2s3 mm In diameter and 500 mm long.. A glass qard 113 zil  L 19672-63, AcdSSION NRt AR3006981 eter and 100 teh" tube (13.6 mm in diam ~mm long) witha drawn-out end, was filled with crystalline pow4er,of 1~-(temperature 53_~C), s d' daled, placed in boiling,yater,,, and .-,then d?~opp intb the'.heated e i furnace. The drawn-46ut :below the zone of *maximum 'ove thp 0-.-'Ybv~`Par-- our zoner, the. ampoule was d --a -a,--ra e o 4 _.:the'zone-` f ;OPPO temperature being 540C.* Th6,temperature dro:p~.'..n4~1'1:11 6' crystalliza, tion front was 100C. After. the end of the'crystall`~zation, the e 2--i 'hours for anneking. 'Si crystal was left in the furnac a ngle crystals of 11 (melting temperature 87*C) of 7.3 mm diameter were grown by the same method ae 88*C in the zone and-,a temperature drop. 15-160C. Crystals of I with 0.1-3.5 mol. %.,.of II added were 1-- grown at a zone temperature of-870C, while crkstals -of II with 0. .3.5 mol. % of I were grown at a temperature 6i 880C. - The'quality of the crystals was monitored by'quadrupolettesonance usihg,a NQR spectrometer. The quadrupole resonance lin4.bbtained on CV~!~-ex~~- perience Zeeman splitting in the g-Aae-jof-.a-e-i-nc~te----Ury-stal specimen. Cord   r~ OR06F-YrVi1~0V61 C, 25(6) PHASE I BOOK EXPLOITATION SOV/2798 Rodigin, Nikolay Mikhaylovich, and Id _Ylgorovna Korobeynikova Kontroll kachestva Izdelly metodom vikhre 3 Eddy Currents in Inspecting 'the Quality of Piece Parts) Moscow MashgIz, 1958. 61 P . (series: Obmen tekhnicheakim opytom) Errata slip inserted. 4,500 copies printed. Reviewers: N. A. Krasyukov, Engineer, S. B. Shubina, Engineer and 0. 1. Alisionok, Engineer; Tech. Ed.; N. A Dugina; Exec. Ed. (Ural-Siberian Division, Mashgiz): G: A.- Sarafannikova. PURPOSE: This book is intended for engineering and tech- nical personnel engaged In Inspection of parts and.auto- mation of production processes In the metalworking Industry. COVERAGE: This brochure discusses the physical basis of the eddy current.method employed in the Inspection of both full and hollow cylinder shaped piece parts. It describes oscilloscope circuits for simultaneous observation of two parameters and presents practical Information on the design Card 1/3 . Use of Eddy Currents (Gont.) SOVAT98 of instruments. No personalities are mentioned. There are 20 references: 7 Soviet, 7 Ge!rman, and 6 English TABLE OF CONTENTS: introduction 3 1. Concept of Eddy Currents 4 2. Nature of the Eddy Current Method for Inspecting 7 Dimensions and Physical Properties of Parts 3. Use of the Eddy Current Method in Inspection for 9 Quality of Solid Cylindrical Parts 4. Choice of Frequency 23 5. Use of the Eddy Current Methad In Inspection f'or 28 Quality of Hollow Cylindrical. Parts Card 2/3  S/520/59/000/022/020/021 E073/E535 KnrnhPXniknVA T Y.P-. AMOR: