SCIENTIFIC ABSTRACT SELIVANOV, K.V. - SELIVANOV, P.YA.

VLOIKIRSKIY, T.A., doktor tekhn.nauk; SHVYLPOV, A.K., inch,; S19L &--. _~ _mrTANQV K.V., inzh.; 14BLINUOV, O.Ye., tekhnik Using gas welding under pressure for rolling stock repairs. Zhel. dor.transp. 42 no.6:58-62 Je 16o. (MIRA 13:7) (Gas welding and cutting) (Railroads--Maintenance and repair)  U01=3M, T.A" , doktor tekhn.n-auk- I. nItNIKOV) O.Ye., tel-ImA- KOLESNIKOV, L.A., tekhnik Gas-presaure welding of railroad train parts with acetylene s-ibstitute gases. Svar. proizv. no.12.-28-31 D t61. (MIRA 14:12) Vsosoyuznyy nauchno-issled0itellakly institut zheleznodorzhnogo tranoporta Minimterstva putcy ambehcheniya. (Gas welding and cutting.-Fiquipment and supplies) (Locomotives--4-faintenance and repair)  SELIVANOV, L. Watch schedule and number of crew members on ships of the dredger fleet. Mor.flot 22 no.12s22 D 162. (KM 15:12) 1. Starshiy inzh. TSentrallnogo proyektno-konstruktorskogo byuro No. 8. (Merchant marine-Watch duty)  BELOUSOVA, I.M.; SELIVAUOV, L.M. Accounting for the change in the physical properties of component5 in the calculation of a multicomponent mixture rectification. Khim. prom. 40 no.10:782-784 0 164. (MIRA 18.3)  SELIVANOV, L.M. (Moskva); ZYKOV, D.D. (Moskva) Motive force of mass exchange during the distillation process In cross flow conditions. Izv. AN SSSR. Otd. tekh. nauk. Yet. I topl. no.2:10'8-173 Mr-Ap 162. (MIRA 15:4) (Mass transfer) (Distillation apparatus)  SELIVANOV.-L.M.(~bskva) Equation for mathematical machine computation of the number of actual, plates in disti-Ilation columns. Izv. AN SSSR.Otd,tekh.nauk. Y4ete i~ topl. no.5:227-232 S-0 162. (MIRA (Distiliation apparatus)  KRMINA, G.S.; SILIUNOV, L.N.; SHIR4SKAYA, T.I. Mnission and conductance and a condenser-type cathode. Radiotekh. i elektron. 5 no.8:1338-1341 Ag 160. (MIRA 13:8) (Cathodes)  wid D.Adi] 11"11A, V. 11. "Fluorlrie content ir, the iti-Vers of the linioi, (in connection vith the occurence of mottled erwnel disease) Dokl. Ak. Nauk SS-'-T, 14, pp. 361-41 1937. -ne F conter', of various portions of ten large rivers in the -~cviet Union does not exceed (3.2 p. p. m. A higiner F content was found in waters located in the rc-~~-Ions of the -,-M-biny a,:--itite de~,-)Osits.  - , - ~ - , ' 4v " 10 ., a IL:v, - - - - - - o t 04 9 1 : ; : 0 4 ;1 a r 0 r. 1. - -. -0 V a , I n a Is A it - V M 41 - 41 Q a a c 4, L L Z AA 01 fill Ut Af I I Cagnpoaltion of the n'U,j of Pilmillov. (,.Ppf 11'rend"ll"d. ,, ITrr. ~. I . H. .", s 80. lilr&~_ , T_ 11 1 I 1, 111 11 IMI'l ,, ),, ""Im w it'.. - Kilff shu%rd himCo !~j I , ! . CA(l, jsj~s 1*306 Aill ... 1. 1 igrx.. fire. re 0 till 0 0 400 00 :-so I I L 1.111111101,111 CLASSIFKATIOU 06 3~9 C', 's, I IPC a it It x K An S 80A0 9 a I M 84 0 a 10 13 nIXA 3a . a to to IT If or dc 0 0 0 0 0 0 , 0 a 4 0 0 6 a 9 * * 0 0 o 0 0 0 a F 0 0 0 0 4 1 * 0 * 0 9 0 0 0  Seli-ranov, L. S. Three meteoritic falls in the U.S.S.R. (A) L. S. $eli,ranov. (B) D. P. Maliuga. (C) E. L. Krinov (Nature, 1937,--1V2-, 623, 623, 624. (A) The stony meteorites of (A) ' Kaimiaz, (B) Kaptal-Aryk, and (C) Lavrentievka are described. All three can be referred to the chondrites. L.S.T.  W] I a ~ 1 , ' I 1 I t, 1) a 0 A 1 s I to to q b I t a 4 A I A 'A M U it- tt The geo- and biochatmistry of scattered brortune. 1. -411110 Ararnine in plants and fresh water L. S I,,- J.'1' I R, I;, S S. I llo~v~ li;~ wit It it (C-r 0~1 W I I A livift"tiltitt lift A v et lots. 1'. 0 A F to- it, It, U, t.;, I Is%, IV, ~I. a 1, 1411.1 14.4111, fr.'m 3"It. &'I'1. -If lit tit (IV~h WAtarr 4 V.111.al 11-91,111, .4 tit,. I k C"Itt-Wit"I A' 41LAHICII AtIll V%aP'I- I" "1 .4, 11), firPMI;."'i lit, Al"I I I [,1, 1- -of planli 1).IOPLV Up IjkV till- plant Soll'. ISP~ -11111 I-ca" ..'1 -0* of I I I", Ill" liffit %44fl- AIII-1111119 it' IIK-AIVA. k-alcin"I with alLuli ill atcel tile r-pfilo- o4j, t-00 00 ~O Hill, -11'cl-l ail 5diffift-li, I-ala- wa,ItV,I with licit wat,r. f-its ")",h ~14 I~ w-11 tv"t'J"t"I I" vt~ Z:I -I,- Iv A 9 111 * lNutial 11,1111ali'mi-I lilt 1'. .70 0 00 .3 It - ".7 , 1- It, v -I Wat,r froiin I I rive Cis ':taritaitas,al 6-14 x q.S X 14, It) 11 ~ lit Va.,, boall"I Siltv =0 0 00 a lir. witd, -t" fri-to Ix-at jx),is. if fre,11,31, silt c,,jItjijj,-,j 1 14, 2 9 < I iprings And coo, 11% 1..; x gk,r dry wt. and 13 of 1-11 k'-)'ItJin&Nl 1 .400 j tit 1- .11 a, m 11, lit- I", Cl fir rati" ill lit a - 7.1-, fr-I. - 1". 1 It, I, Ct '-'altuilt ad 00 laildi'lant'I'l(.1 I -M)11):1 I( vautvr pbinti wa, I p-r toy -1 '1 It, routs- - In tivur,a all,, Cl fir I ruti-) i,I N~91 -17 1 o.-& wat,r. , jjajpj,~s I,, air and ppin, A ;o. r I,- that its -,oil and I-I of 7s4v) 27 it or-,I o. Ow Cl fir rutio 1, :114 1 114'a WaNr. -, Cl .'tl'I If) I fir ", 1110'.t.1 Air, ff X Ili z:oo 11- Bromine in soils. silts &ad pests. 1,1,) d. I,,, via 1, r, " - I I I .,-; C 1. - lit la`~ fir. n -% Ill ~'; 1 4 1, in 1;,, r I, - Is. 1 -11 :j j 1;,,r a IV t it , If lit -'." .3-5 g; ~ Of , bc: ot lit "~ 0. n < 11, I;r and n X I" 'Uil~ go . "ry s,411C itiAt, lo-d .4, witis ail alk~ -lin., aill"I ' plarlt'~ III lit and W < Do Z*o 411 111o" I To,, 1:11' Anti rvrWat-Ily vx(d. Willi tiot watpr; :11 -,#*. ra-f"-j, trial plants 1"Pi it Bromine in teffes 0 , , "I,- flitrivd, evilial., dri.-d an.] ealcincd. I'll, 14.7, S: ill I:r,-n. Is. 14, 9- Dolll~ 14 fir In -11~ JI'll 10 plaitt, tit thc- N-th,tti H14,:L S- rt~icitltl and in DAim'141). SOO 40 loot wit It I S '111.1 all, ~411- 1,14o'cal it) Ml I)Ailfl/- A,ra. 1!.A ll,.lt 111,,, j;r,-ist,itt 4 -1, 00 Ifig 114%1, %lilt I C "I K;Crst)7. fly Il't"ing Its air Cuttvilt oil ill [Vf1'I"rAtc- Z-1',; 1, Ill tull", IV- that) m Ill- Thr-olls Ilj~ -11i fill ), wa. ir-.1 aud ccilhi'ie-d in a rv- It o AILII 6 g(r,11 ,,, ..a ,,I ail irid i4m, 41 KI arld ~larvh atoll lifrAo!'d fig. -I. . 1.1 drv- S. $1 A &ITALLLIC.ICLL t-lrFR&Tc.;( CL&WFICATIC, -00 00 air q n u a u it 0 0 0 1 0 7A I",a n 4 a a 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 a 0 0 0 0 0 0 1 0 11 0 0 0 : 1 0 1 0 0 0 0 0 0  JL )kV Miss OOA Tt-LMMj-J rA I" "Mintlej 060411 sell at,dw 'F" river Waste Sad 0*4 ~:Y .&.Jwv= H. P. lee ka 1 1939 go 14 /Alpi R#wW. Zhur. 1940. No. 7. ivVVIO a of allow weft Invostipted for their ask coo- 00 wnt and the coitlank of "Jue it"01. ib I0% IICI- The watent, o(ash varied frolu 71.1 to wd un the dry -09 009 subatime) and that of the Insol."LU: (rom 63.9 to 0 0 A WO The content of the IHWA. re4lue partilleird that '00 004 of 1. The content of origunixon at the hotiout varied .010 twtwwa OM anct 16.7j./'T m, 19t wa. 111"IRWO.Mal 1wither to the content , 4"M a that .11 1110 61.4. see iriduit. lilgill of these sImimens were examd. to greatei "0e 0413 delail. Tbvrtsaduo("y~(orthcIfCIcxls furnatural '4 aft Sivell. 400 toolswee and of the ottatents of C. N and If. 000 Fbir stall. aUdim sobt, obtained by prewhis out the- 4imett was 70-W% of W total cortlent of Water. coo W. k. How 00 a AAL! AA6g- 1100 NO!" 0`41 * d !2049 we 11 tt CLAIUPICAIMP %jaw, VIV11031- wig M ONT All V WORD VOIGNO wig c1MV 499 k" an A t v ow 9 a 4 u 0 0 11 .1 a ray I IN AT 00 All; tt at a o 16  0 0 0 W n I, C 33 1 .1 ,'K I t5 1. '? Is A 00 00 a Chemical analysis of the meteonle Sarstov. L. S. 1"99 i Gimpt. rend. aead. sci. 1'. R. S. S. 26, :N9 i4 1=00 11,10)(in Fnjilkh).-A stony meteorite that f'-II .11 ' 1 zo a j ~%-Iot. 6, 1918in IIw former" ,uratow government, towaintil . in i lit- tionitiagnetic traction SiO, 44XI, TiOt 11. 12. Al!t)j ;:00 I NI, Crro, 0.71. I-rO 14.4113, Cat) 2.33. Mirt) '--:.4:1, Mitt) 0 III, NaO 0..50, K,O 0.11), PO, 0.74, U O.Ull, fir go 1 AXAX47, FrS 6-5:1, hygroscopic mmiturc 11.04, and mil- 00 tide S 2.27%; in the magnetic fraction Fe 64. it). Ni N !Po, 0 Co 0.41, StO, 3.15, CaO 1.00. MgO 4.17. %itto 0-07. so 1110, 11. 17, total 6 1.62%, hygto~ropir moisturr 11.01'. ' rrsiduc in~l. in fiat aqua rexia rio, and Alit 1. 0 00 If Irarrq. Re iwv,I. revid uc vAintainvd SiO, 7.m. A1,4 I. 52, 0,0, 0.311, Cao 0.7". MgO 2.11. \III($ 0 111, N-0 I 4X and P.0, 0.01%. 9 refrr~nrtri. A. 11. K. too tT.LLu.GK-k A I S L 4 0 3 41.3 n  :is 0 0 0 0 0 1, v jj J, D 36 J, 30 4: 47 42 1) T% I c v tF r n I, 1. 0 ru - S I . , . ~Z Ift I Ale :b. 29111,42111 1VAIM111711. Is 68 000,4069t'!' ~', ~ *or so-- YV17 0 00 0 ot~ of .4 -11 -Y fir (11 so %Irnha lu-mut" JII.L *,O~Jxjj 4b ppr in) urqi jai jamal AIq-,p-,! I! !rf-~ PU!VV~M~ 00 *m: pun (XV I 1 10 'Julanza aqI "-~Xm I.X1 V~Jpn).mv q.,qIIA 0- qI" p1r.1ruir) jiv ")j r. q aq) 111 00 002 A. P.,Ir-" III M, in S)II33ur" Jfj pug I.) 3q1 JOI cinip I -t'O IS 00- (f)hjI ~r 0 00 11301 4trq 3A!"Wm tq 001WON pug a so- so 00 so- 40 oo-, o 0-1: vlip/ 0 0,; 00 so A A I v 5 j 4 v CION fin is %mix aw an "o -0-0 -0-0 1*, 10, ~, 1. we 0 0 0 0 0 0 0 0 0 0 0 0 0 - - - - - . . - --- --- 4 14 -i '01 a a ,4r 0 0 0 0 11 0  01 0 0 0 0 0 0 0 . 'd y I A I t U W t,~ W cl, I I I S, . 1 , I And of Ill, diOl if ... t$-, -11.. An.) 1-1~ -11"Ilmd 00 14, M1,11V 1-1 111.- 11.1114, -, Cl. 1.."0 If,, 1., 1.36 1 . 1e e 00 00 1,. A-ky, load Inghrr JIMMI- I, ~1 ,I nairl. In Ill. 'j". "I t I S It ...... ..... . ; 11"llid - it :; : . 'i I A 11'. 111 it, ),w hch"It'l, In 00 00 ALO-2, If ~9411, 00 *0 0-0 ;09 4io 40 4;0 o ' &.0. 0 TO is An I % A NI 4S 1 l 1 4 1 0 I j n if .,.3, 13 o ; ; 0 0 0 0 t~ 00 go 0' OA  If VC 7L 5 USM/Ceochemistry Biochemistry Brcmine Aug 1946 "Tho Geochemistry and Biochemistry of Bromine I I Diffusion, L S Solivanov, 68 pp "Trudy Biogeokhimicheakoy lab" No 8 Methods of determining small quantities of chlorine, bromino, and iodine; bromine and other halides in the atmosphere and in atmospheric precipitations; bromine in fresh and salt waters; bromine in waters and turfs of swamp areas; bromine in earth and fresh- water plants; bromine in the sea. Nim-arous tables an! a bibliography. 3T37 FA 3T37  3RLIVfi-NOV,L.S.(Moscow) Origin of chlorine and bromine in the oceans salt. 31ul.Vulk.sta. no.11:26-34 147. (M1RA 8:11) (Salinity) (Chlorine) (Bromine)  SMIVANIOV, L. V. "An Investigation of the Simplest Schemes of Drifting Sea Currents at Shorelines." Cand Phys-Math Sci, Marine Hych-opbysics Inst, Acad Sci USSR, 27 Dee 54 (Wig 15 Dec 54) Survey of Scientific and Technical Dissertations Defended at USSR Figher Educational Institutions (12) 10: Sum. No. 556, 24 Jun 55  S/194/6-1/000/0-112/046/09-1 D256/D303 A'JTHORS-. Lazebnikov, M. G., Perronskiy, V. I. and Selivanov, L. V. TITLE: Measuring soil density by means of gamma-rays EERIODICAL: Referativnyy zhurnal, Avtomatika i radioelektronika, no. 12, 1961, 28, abstract 12V238 (Avtomob. dorogi, 1961~Yno. 3, 24-25) 4 TEXT: A field soil gamma-densitometer is described for rapid mea- Burements of soil density. The system of the instrument is based lLpon passing the gamma-rays through a layer of soil placed between .he Source and the detector, the recorded intensity being depen- ~_ent upon the soil density. The described instrument comprises an integrator with a 100/uA microammeter measuring the grid current )f a triode tube, whose anode potential depends upon charging a n-apacitor by current from a gamma-ray counter-tube. It is possible aith the described instrument to determine the soil density at depths down to 25 cm without destroying its structure. The accuracy Card 112  S/19 61/000/012/046/097 Measuring soil density D256YD303 3 of the instrument is approximately + 0.03 g/cm . Two different con- structions of the instrument are described: Fork-and feeler rod- shaped. The basic electronic diagrams and the systems of construc- f 4 tion for both types of instruments are given. There are _Lgures, note: Complete translation. la r d 2 '2 -a ~  SEL111411OV,- L-V~ Determining the -*a itude of the error of discharge meaw-urements 9M - in rivers by the "are& 791OCity' method. Meteor. i gidrola no.2,49-50 F 162. (MIRA 15:2) (Hydrology)  SELIVANOV, L.V. State of the problem of evaluating the accuracy of water-discharge measurement in open channels and streams. Izm.tekh. no.5:58-59 My 163. (MIRA 16:10)  ACC NR- A117004581 SOURCE CODES UR/0362/66/002/005/0545/0547 AUTHOR: Sol ivanavo-L.. V. ORG: -Hydrol.Qzi-ca.1-Er!~j-ejz-t-int-S-,-Yo, Zhuk_(Gidroproyekt) TITLE: Detannination of the coefficients of friction and energy dissipation a wave motion of a liquid using data from shipboard measure nts of wind A2-- waves in the ocean\4~ SOURCE: AN SSSR. Izvestiya. Mika atmosfery i okennap va 2g no# 59 1966p 545-547 TOPIC TAGS$ friction coofficientg wind velocity# atmospheric density ABSTRACTS On6 of the two main eq"tiona of tho w&ve fileld'is-tha onargy ,eqv.ation,, which can be written in the form d E = Mj - Ep- , t Lore E is the energy of wave motion of a column of liqttid with a unit ,croon section; M~ is the energy per unit surface of the seap imparted*. -to tho'Waves from the'wind per-unft'time; E P is the -dissip"ion energy per unit surface of the oca per unit time; t is times The effect of normal and tangential wind stresses is represented by the romula 2 I k2PSI(V 0) of 'n 42) Card I  ACC NR. APL7004581 :where k2 is the dir~6n'oionless friction coefficient; pIfis &ir.density;'.,.T V is wind velocity; a is wave apood;,6 is wave steepness* E p can -represented in the form E (3 Y* b &c 'where b is the dimi~nsionloss-numerical coefficient of energy dissipa- i Ition. lr~.this paper it. is shown that wave measurements with a_'cai-16 on the 12th and 14th voyages of tho "Kikhail lomnoAry" in I e ra~ I ~~a~v 'the Trade Winds zone of the Atlantic (with a large fetch of 'waves and .r a constancy of wind direction) made it possible to determine the'Yalues., or the coefficiento of fricti6n and dissivation of. wave.*Aotion. -**O_. must, be obtained expe OrIgo, 'art."iass formulas and I table, 5"Ss 38937 7 SUB CODEs 04 SUBM DATEs. 30Ssp65 ORIG REFI. 003 Card 212  .,r- :Lrtzn;znt7.rnc) ~c- el 7' va  V I I. 'N'a, F. I-andidat peogrAficheakikh nauk; SNUMOV, I.I., lnznener- gidrograf. Gyrocompass in the Arctic. Vor.flot 17 no,6.24 Je ~5?. UIM~ 10:7) I . Glw7aoye -uprav I eaiye se7ernogo morskogo nut i. ~Arctii regionR--GyrocOrMaS3)  SELIVANOV M . . --v - Depth measurement by sounding apparatuses. Mor.flot 21 no.5:14-16 My 161, (MIRA 14-5) 1. Nachallnik gruppy Gidrograficheskogo predpri.,*toa Glavsevmorputi. (Deep-sea sounding) t  SELIVANOV, M. More on the sagging of ships. Mor. flot 22 no.11:16-17 N 62. (MMA 15:12) 1. Nachallnik gruppy gidrograficheskogo predpriyatiya Glavnogo upravleniya Severnogo morskogo puti Ministerstva morskogo flota. (Displacement (Ships))  SELIIIPJIOII. M. Theodolite for position finding during navigation in ice. Mor. flot 23 no.4:19-21 AP 163. (MIRA 16:5) 1. Nachallnik gruppy gidrograficheskogo predpriyatiya Glavnogo Upravleniya Severnogo morskogo puti. (Navigation) (Sea ice) (Theodolites)  MMOVSKIY, M.A.; PETROV, N.A.; FLODIN, A.A.; SELIVANOV, M.P., redektcr; RO W-107A, L.A., reEakQr; KOMVEMVA, reagL-ba-r; [Int,roduct-icn to the chemical analysis of coal (qualitative and quantitative analysis] Vvedenie v Ichimicheskiy analiz uglei; kq~- chest-rennyi i kolichestvannyi analiz. Moskva, Uglatekhizdat, 1954. 238 P. [I-licrofilml (MIRA R: 5) (Coal-AnalysiB)  SELIVANOV, M.P. [Safety in chemical laboratory work] Bezopasnost' rabot v khimicheskikh laboratoriiakh. Moskva, Kedgiz, 1954. 319 P. (MLRA 8:2) (Chemicals indastry-Safety measures)  MENKOVSKIY, Mikhail Abramovich; FLODIN, Aleksey Alekseyevich; SELIVANOV, otv.red.; KAR OVICH, T.L., otv.red.; GARBKR, .9 Izd-va; IL'INMC,1YA, G.I., tekhn.red. (Analytical chemistry and technical analysis of coals] Ansli- ticheskaia khimiia i tekhnicheskii analiz uglei. Moskva, Ugle- tekhizdat, 1959. 335 P. (MIRA 12:11) (Chemistry, Analytical) (Coal--Analysis)  NADEINSKIY, Boris Pavlovich; SELIVANOV, M.P., red.; LIPKINA, T.G., red.izd-va; GRIGORCHUK, L.A., tekhn.red. LTheoretical principles and calculations of analytical chemistry] Teoreticheskie oboanoveniia i raschety v anali- ticheskoi khimii. Izd.3., perer. Moskva. Gos.izd-vo *Vysshaia shkols," 1959. 443 P. (MIRA 13:7) (Chemistry, Analytical)  VAYGACHEV, A.Z.; SELIVANOV., M.N. In the tracks of previous expeditions; from the history of the exploration of Franz Josef Land. Probi.Arkt.i Antarkt. no.7.61-63 161. (MIPA 1/+:10) (Franz Josef Land--Exploring expeditions)  __A6CNR._jp ___ - - -_ ___1 6033520 SOURCE CODE: T-JR/0413/66/000/018/0159/0159 INVE NTOR: Selivanov, M. P.; Turbin, B. G.; Levin, L. P.; Semenov... Yu. M.; Ugryumov, M. S,.ISh~_edunenko. L. A ; ~osullnikov_ G. ORG: none TITLE: Electromechanic signal converter, Class 62, No.. 186296 SOURCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 1.a, 1966, 159 TOPIC TAGS: electromechanic converter, electromechanic signal converter, electromagnetic device, servomechanism, electrohydraulic servomechanism, electropneumatic servomechanism ABSTRACT: The proposed electromechanical signal converter is intended primarily for electrical hydraulic and pneumatic servomechanisms. It contains a housing, a permanent-magnet electromagnetic device, pole pieces with adjustment screws, a coil and a portable system unit which includes an elastic element, an armature terminal, an operating slide element, and a magnetically permeable bushing. To improve operational reliability, ensure the possibility of operating in Card I / 2 UDC: 629.19 629.1351138 629.132  W6C AP6033520 corrosive liquids, and improve the dynamic properties of the converter, the operating slide element is hermetically separated from the electromagnetic device and by an air gap from the magnetically permeable bushing. The slide element and the armature are a single unit, and the sealing element also serves as. the elastic element of the portable system. The adjusting screws are fixed to the polei of the permanent magnet so as to make it possible to use the converter for servo- mechanising with various output characteristics and in order to ensure the smooth tuning of converter characteristics [Translation) SUB CODE: 09/SUBM DATE: 22J4164/ 2/2  a u it it I; .. 11 It 4 .1 J4 It JJ D Id J14 1: 11 id n 16 v a 0 0 it 4; is 45 it, r of AHOY steel plate gulp in slearic (Smelt. Ins) fairvaces. S. (40. YfAtRiv Atuf M, V, SvIlvarguir. Sidi a cl. C.A.41, 1070A.-cr-M-Alo wd was in an ch1c. furmcc ficun charles cntg- '()'71 66 coo Zoo go* be tjo 0 13-bip Z A 2 1 L 6 NfTAjLVF(,KAL 11.11fOaTt41 CLASSPIWICOO T- -T- -j a a T I AM 1 11 1.0 w -3 d3 a 2 .0 1% 9 w 9v 17 to it~ n of cg K u K U it it It mw n i  SELIVANOV, N. Cheese Factories Mechanization of labor-consuming work in cheese cellars. Mol. prom. 13, No. 8, 1952. Monthl List of Russian Accessions, Library of Congress, November 1952. Unclass if ied.  1. 31aTVANOVI N. 9. U89R (600) 4. Dairying - Apparatus and Supplies 7. Covered steam pasteurizers without agitators. Moloch.prom., 14 no. 2., 1953, 9. Monthl List of Russian Accessions, Library of Congress, April -1-953, Uncl.  SELIVANOV, It.; MVOSELOV, N. Why collective faros of Kalinin Provicne do not fulfill their construction plan. Sall.stroi. 9 no.1:3-5 Ja-.? '54. (MIRh 13:2) (Kalinin Province--Farm buildings)  SELIVANOV, N. '~r-"W-1 m4tw'OA Provide all new settlers with dwellings. Sell.stroi. 11 no.3:10-12 Mr 157. (MLRA 10:5) 1.Starshiy inzhener,O1&vkoIkoz9troya Miniaterstva gorodskogo i sellskogo stroitel'stva RSFSR. (Housing, Rural)  IT~ 3i~blvli~;Ov) I , Libullptor lechniques of sculpture. lUn,tel-h. 6 no~4:70-74 Ap 162. O-Zirtt. 15:6) (SculrAure-Tecilmique)   :00,IVANOV, N.A., veterinarnyy vrach. Clinical and pathoanatomical data in hexachloran poisoning of horses. Veterinariia 30 no.2:47-48 F '53. MRA 6:2) 1. Vel'skiy tBantral'nyy zoovetuchastok.  SELIVAINOV, N.A.; EYSMAN, A.A. In the service of criminal investigation. Priroda 50 no.6:69-73 is 161. (KIRA 14-5) 1. Vaesoyuznyy nauchno-isoledovateltskiy institut krimin-alistiki, Moskva. (Criminal investigation)  7- , . - - ~a P .  Sal . I I I I I I I I I I ' l' " " A A__.L I ft -A., * " M r Q I J 'Y _.T.. IF I Y I 41 'If - 14 1 .Cf xegoomtion of carbon disuldde In the viscose industry. ' 00 N jirkA. RV 11. 1. P/ 1 1940. No. 1. :1 Ill. Kii,w. ;'. 1940. H, I '"' - - I it a 11, fit. . W. I I, ~., -00 0 9 ,.( vi-itirwriprox. ~N-;U% rd C% (.in 111.- .1. of.-riful- I 1, 41-1 Im III, .11111thiation fit alki'll 1 '41411- M."I 0 111, -06 .184"114 11W -pil"ImIg ,; A 011.1 4111finx fit" fit-01111VIII o1 111, 121,14% C. * IrIll"11MIX In (lie WWI after 'pultillis Call th- tritenlrim"i fly Ift,411tig t thr tlt%-r widl water at 70 my, Allif %tINAlluent mnifl-II'A. S i f 1 f h i, Sol ntim, wl"wratton o iwit o 4w t e n"it C. - An app. t'. - .1~ Reltvilegati.ml 4 C. (,i% S, I inq " collodlrt 0 0 'WV 11'r mkill& ..'muliskoll. All'i im" III, "' Sol 1"". mm~. up to 3U of CN It.-ml 0 0 zoo see jig 06 0 t, Z7,5 -.~ I- 'r- aw i)~;. 0 0 0 S, a 0 It I w III a Al a 3 1 9 0 Oi lei i 0 0 0 0 0 IS IS 0 0 IS 0 a 0 0 IS 0 IS 11 0 4 0 0 0 0 0 0 0 0 a 0 0 a e  The sUcking together of the sUple, A. 1. M"is and %. 1. 'i0tvallovi Erkilit. Pram. 8, NO. 3, 16-18(11M8); Cililil. .Zeel?. (RU-IAu ZOUC IGI-1 1040. 1, 1 IWO.-The %ticking together of flat indlOdual filts In the Insnul. Of Viscose $topic to attrilmted to Incont- I-Wrly C~gvtrrmvd wanthate. Better WHAIttit of %be In- lividnal 111.1% In lit. plall. It"Ill 14 attal'i"I with hwim"Iml "'S' VAII Of IhC AIRUAI VCltJAVI SpItkullill. No alh king tngrtlwf of the IndividuAl fibers was ol~rv~j with &,4n. ning: the tensik strength of the fibers was, werras"I front 1.68 to 1,96 g. per denitr stud the elongution reduced from .33.11 to 27.9%. Good circulation of the pptn. bath to re- dum the variation its a6lity Is also Importnat.  SURKOV, Viktor Danilovich, prof.; LIPATOV, Nlikolay I'likitovich, dots. BAIW;OW;KlY, Nikolay Vasillyevich, kand. tekhn. nauk; Prinimal uchastiye SELIVAXOV, Irand. tekhn. nauk; IVANOVA, II.M., red.; SOKOLOVA, I.A.., tekhn. red. (Technological equipment of dniry enterprisos]Tekhnologicho- skoe oborudovanie predpi-iiatii molochnoi pronWshlennosti. Moskva) Pishchepromizdat, 1962. 576 p. XRA 15:8) (Dairying.-Equipment and supplies)  f. T A I N i 'Af- L 07 7 A T i A Y A w V A  kand.tekhn.nauk; RABINOVICH, Ye.I.2 VOROITOV, F.D., prof.;-=VAN-OV kand.tekhn.nauk; IMIYEITKO, A.M., inzh.; TKACIMEEO, I.A., inzh.; KUSTOBAYEV, G.G., inzh.; IVANOVA, N.G., inzh.; RYABCHIKOV, F.D., inzh.; GRUZNOV, A.K., inzh. I Developing a technology for the casting and quality investigation of 21-ton rimmed steel ingots. Stall 22 no.8:709-713 Ag 162. (MIRA 15:7) (Steel ingots)  VORONOV, F.D., prof.; MOROZOV, A.N., prof., doktor tekhn.nauk; kand.tekhn.nauk; SlaRNOV, YU.D., kand.tekhn.nauk; RABINOVICH, Ye.I., kand.tekhn.nauk; CELPEOV, G.I.Y inzh.; TKAGRENKO, I.A., inzh,; BIKTAGIROV, K.K., inzh.; FILIPPOV, V.M., inzh.; KUSTOBAYEV, G.G., inzh. Making St. 3ps capped steel in Magnitogorsk Metallurgical Combine open-hearth furnaces. Stall 22 no.8:716-718 Ag 162. (RIRA 15:7) 1. Magnitogorskiy metallurgicheskiy kombinat i Chelyabinskiy naucluio-issledovatellskiy institut metallurgii. (Magnitogorsk--Open-hoarth process)  SELIVANOV, N.M.; TKACHEIIKO, I.A.; MAKARYCHEV, A.R. Research at the Magnitogorsk Metallurgical Combine. Stall 22 no.8:718-719 Ag 162, (MIRA 15:7) (Magnitogorsk--Steel ingots)  KOLOVY M.I., inzh.; YERSHOVA, L.P., inzh.; SELIVANOV, N.M., kand.tekhn..auk Effect of grain size on the magnetic properties of cold-rolled electrical steel. Stall 22 no.8:744-747 Ag 162. (MIRA 15:7) 1. 1-tagnitogorskiy metallurgicheskiy kombinat. (Sheet steel-Magnetic properties)   -------------------------------- N AP4048658 k . rom o, sheet f the treated steel firipr64ed. The: deji6e: of anisotropy of the tensile' . temperature and at low temperatures -increased and,the -s6n4iti~iiyA,6- -mi6chanical'.', ' r. -L. G. Ganeyeja too he --t0sts.-:,, aging was reduced. "Eng -,,has: 6 figures. ~ASSOCIATION: None ij CQDE:-PAW.'.- :SUBMITTEM 00 ENCL-~ 00 NR REF SOV: 602: -OTHE]ft:' 000 .Card 2/2  VORONOVi FJ)~, F'11-~TOIV, AD,, inzh,j D:-7-,'NEKO, D.I., inzh,, BIGEY V, A,M,, kand. tekhn, nauk; TKACIIENKC, 1,A., 1-nzh,; SELIVANOV, N,M,, kand. tekhn, nauk; ARYCHENKOV, V.P., inzh. UOe of boll intennI.N.Prs in .he rapid pouring of rimmed steel. I Zlt-all 25 Ap 16~55. (MTRA 18M) j~ ML,-gnitogoz-akAy metallurgicheskiy kombinat i Magnitogorskiy gornometallurgicheskiy jnBtitut.  S/153/62/005/006/001/015 E071/1092 AUTHOR,';: Selivanov- Sazykina, T.A. and Zubova, G.A. TITLE : Physicochenical properties of selenates. XVL. Investigation of the behavior of cesium ,Plenate on hea-cing P3',~IODTCAL: Izvestiya vysshikh uchebnykh zavedeniy, Vhimlya i Ichimicheskaya tekhnologiya, v. 5, no. 6, 1962, 859 - 863 T EXT: Since there are no literature data on the behavior of cesium selenate on heating, investigations were carried out on this subjpct by differential thermal analysis, determination of changes i~i weight and composition as well as X-ray photography of Cs 2 SeO4 at various temperatures. Cesium selenate used in the tests was,obtained by oxidizing cesium selenite with 306'a H 0 2 2 The selen~te was prepared by neutralization of cesium carbonate with selepious acid. It was found that cesium selenate decomposed; slightly when heated from 200 to 6oo 0 C, formins cesium selenite. 0 Further h.eat:inS up to 1 000 C did not produce any changes in compositibn and structure. There was a reversible endothermic Card 1/2  S/153/62/005/006/001/015 Physicoche,mical properties .... E071/E392 effect on the heating curve at 608 OC which could be explained as being due to the polymorphic transformation of the rhombic -cesiuni s(~lenate crystals into hexagonal. The second endothermic effect on the curve at 985 0C corresponded to melting without decomposition. Cesium selenate was noticeably evaporating at 900 OC and over, without changing its composition. There are 1 figure and 3 tables. ASSOCIATION: Kafedra obshchey 1 neorganicheskoy Idiimii, Moskovskly khimiko-telchnologicheskiy institut im. D.I. Mendeleyeva (Department of General and Inorganic Chemistry, Mos6oif Institute of Chemical Technology im. D.I. Mendeleyev) SUBMITTED: September 22, 1961 L-C-ard 2/2,  SELIVANGVA, N.,M.; SAMPLAVSKAYA, K.K.; MAYYFIR, A.I. Physicochemical properties of selenates; the heat of formation of copper selenates. Trudy WMLI no.38.-30-36 162. (MBA 16:7) (Copper selenates) (Heat of formation)  SELIVANOVAI N.M.; SAMPLAVSKAYA, K.K.; STRELITSOVy I.S.; MAZEPOVA, V.I. Thermal decomposition of alumi= selenate. Zhur. neorg. khJm. 8 no.7:16,45-1653 JI 163. (MIELA 16:7) (Salanates) (Aluminum compounds) (Thermal analysis)  SE, L VI ANOV 4 , 11 ~ fl, , ApproxImat, of the heats of formation of selenates. Zhur.neorg,kiliin, 8 no.9,2024-2028 S 163. (KIRA 16:10)  L T.TP(c) JD ACC NRs A116019765 (A) SOURCE CODE.- UR/0370/66/000/003/0003/001N i AUDIOR: Kraychonko, V. F.; Is 1. V atov, 1. _., Khlebnikov, A. Ye.; Dashevskiy, Yu. A. L~Cbedev, Ya. I.,; Selivanov, N. P1.60-) ORG: none TITLE: Improving the quality of open hearth steel metal alloys by treating it with rare earth SOURCE: AN SSSil. lzvestiya, Wtally, i1o. 3, 1960, )-111 TOPIC TAGS: rare earth metal, metallurc gic process, metal physics, me.La I property) 010j(h 2,V-?,, V-0~ A 13,'~T JC T :Tiiere is very iiLtle Publ shed information concerniri~j the effect, of rare earth metals (REM) on tile properties ~f steel, and Oil thf! Optimum conditions fc usi.- of such metals. This paper itivestihates the effects of REM oil specific pro, of steel, notes procedures for alloying steel, and indicates optimum RMI content to achieve desired combinations of mechanical properties. Chemical thermodynamic data anti composition of REM alloys are presented in order to provide a better understandingI of the principles involved in alloying steel with HEM. Experimental melts were pro- duced in a 150 ton induction furnace as well as in 25 and 200 ton basic open hearth fu;:-naces. Mishmetal, a rare earth alloy containing 56.1% Ce and 41.3% La (other REM, iron, and impurities totaled 2.6%), was used as the deoxidizing agent. Studies were made of both cast and wrought metal states and tables of mechanical properties are in-, UDc: 669.141.243.4 r_.4 1 /9.  L .45h35-66 ACC NR:AP 019765 cluded. The impact strength of steel _40Kh21NIfm,meltPrl in a 25 ton furnace and top- poured at 1580*C, is given. Results of the expr~rii;wnts showed that in all cases the addition of REM increased steel ductility. This increase was grea'test when the mish- metal was able to reduce sulfur content in Hie solidified ingot. Desulfurization wap best accomplished when it was initiated in the ladle prior to pouring into the mold.- Optimum conditions were concluded to be ladle deoxidation and, desulfurization by add- ing 0-15-0.20% mishmetal. (calculated). to the' molten steel (1560-1580*C) immediately .I lafter tapping from the furnace. The mishmetal reaction begins and most of the sulfur is removed by the time tile steel is poured and solidified. The procedure lowers the 0' The mishmetal significantly reduces nonmetallic inclu ion sulfur content 25 t 30%,. s content, as well as changing the shape, composition, and distribution of that content. iFinally, the REM alloy increases impact strength of the rolled steel 27 to 47% (transverse test samples) and of cast steel by-47 to 65%, with a simultaneous increase in ductility. Orig. art. has: 12 tables and 6 figures. i SUB CODE: I SUBM DATE: 25 May 64 / ORIG,REF: 026 / OTH REF: 001 L " Card  84096 SP58/60110-/006A03/V'0 AD-,jA00I TI-si.tion r, N.r.rtLvojT sh,,,nei. rui". 1960. No. 6. P. 29, f 13140 SLel' ikowa_X V.. ZIralle ~?M . QrI,h&y*v. r~A,, Xit-Y017', ~-B . ~. NP., Khl.n. .7-k. W'A. TrTLE An la.atron Ae..I.r.t0T with 3.5 P40Y Output Energy MMCDZCAL, Tr. 3.a.il AN Uk,= P. Wrn. i.pl'sobaalyu Loon. parlit. Kly-,, All Ukr5=. 190. PP. 16-23 T1= 7he authors describe a Itnear eleatrva -olaratar with a travel. ling wave or 3.5 Y- amergy. A wk-c.LU I.-d.L -Ltt- disk. -. used - -..I ... tt~g art%-. Th. nee ... Ary lam Of -,. chat. velocity var1.t1c. Is brought about b .-I. of the dimsmat~ Of the apertures I. -.he disk.. Th. ZW- 1 ..g ..v.y X.U.1141di~lded into threo action*. Xn the fire' station, thv phase velocity I. art:d fr~m 0.5 to 0.97 a, In uhe second and third station it is #qual to OJ9 PM 0.09 a respeotively. -be electron equilibri= 0-a increas- during the "It',stion P-683 Its initial Val.. I q-1 to '-5- " IS chol.. according the opts- sVt~ Mdltlm. ':h* am~tAttonal V&XU0 Or Lhe h.r. pcrwor at the accelerator input is goo kv; the accelerator field int"Sity amo-t. hareat to 16.5 kv/,ca. lbe aacel*rst~ mtpjt Power (abcut 600 kv) in ab-mod In a stool 1044 wIthmstar sooll"I A;vroaLmteLY 3~O kw a.ra dissipatod In the waveT~-.io wells. An additions.1 axlsy~trical magyati* field with an Intensity up to 400 0. is do-jap9d by Soleraid.,f:r focusing 'hq .1.0tron. long -.he -I, Am :lectraft gum ith th~ a a trade. -.M-- - electron 4ourcoj It optrates Pul SAC s7umhron:-IY with 'h* &%Cn4trao Ker-1-t-1 WA pra,ld"s for a be" of 5- 6 - d1siast.r at the I.;.t. 7he Output Paraostera of the accelerator .:.Urd we. the cu~o - I. bo.t 10.~O a,a In the Pulse of ?L-00 duration. the '-4- aurrtnt is about 20-~Q ~ A; the bean di-,t.r 1$ 3-4 iss -t'.h the di-r. Swade ar4le of 7J0-4 - 3.10-3 radim: the energy bem half.vid6.h 1. alut e1g, AMRXIATIM, Pit.-tekh.. 1-t AN UkraM (FjL!qjao-M1AIn-inx Institute a., --ho Ukrainian, of ftt.y., Treo.lator's notat Ihis Is the full translation of the original Ftul.L- abstract. Card 2/2 \16  LVANOV t" -9-30 14 l6r/.  SINELINIKOV, K.D.; RUTKVIICH, B.N.; SAFRONOV, B.G.tSELIVANOVN.P., otv.za VYP, [Nonadiabatic traps for charged particles) Neadiabati- cheskie lovushki zariazhennykh chastits. KharIkov, Fiziko- tekhn. in-t AN USEER, 1960. 479-494 P. (MIRA 17:2)  AU'2HORS1 TITLE ScuacEt 8/861/62/000/000/012/022 B125/B102 Selivanov, N. P., Faynberg, Ya. B. The possibility of using traveling-wave linear accelerators to accelerate heavy particles Teoriya i raschet lineynykh uskoriteley; sbornik'Btatey. Fiz.- tekhn. inst. AN USSR. Ed. by T. V. Kukoleva. Moscow, Gosatomizdat, 1962, 174 - 185 T%,XTt The efficiencies of standing-wave and traveling-wave linear proton a--.celerators are estimated by comparing the specific losses in rf power. A comparatively long time T 0-60 r-seo elapses before the stationary state has become established, and this prevents the use of magnetrons or Klystrons for supplying traveling-wave accelerators. Break-down phenomena bletween the e.rive tubes precludes increasing the mean accelerating field or shortening the accelerator. Traveling-wave waveguides containing metal discs are cal-. (:ulated using the approximation method of V. V. Vladimirskiy ("Zh. tekhn. ..IizU, 17, 1269 (1947)) and 11. J. Hansen (Appl. Phys., 20, 260 (1949))- In -dansen's dispersion equation Card 1/3  S/861/62/000/000/012/022 The possibility of using... B125/B102 I Jl(ka)= Jj(ka)NO(kb)-Nj(k(t)JQ(kb) k1a J a Tk-n) ka JJO (kit) N, jkb) - Nq (kb) J9 (knTI MI J, I and N are Bessel and Neumann functions, and kb 2nb/51 or ka 2 71'a P, are the relative radii of the waveguide or of the disc aperture. b and a are: the corresponding absolute radii. The phase velocity of the wave in- creases continuously along the accelerator. Even when the most effective focusing methods available are used, the radius of the proton bunch remains smaller than a. For small phase velocities, the increase in efficiency due to the decrease in b is compensated by increased attenuation of the field in them accelerator. For optimum design of the accelerator, all its parameters have to be properly chosen to render the correspondence complete. When weak accelerating fielas are used, the losses in the initial part of a traveling- wave linear proton accelerator are advantageously small. At final energies of 1000 h1ev, howevery they are about 1.5 times as large as those in standing- wave accelerators. New methods of focusing that are more effective will invert this ratio. Since stronger accelerating fi6lds can be used, a smaller value can be chosen for the total length of a traveling wave proton Card 2/3  S/86 62/000/000/012/022 The possibility of using ... B125XB102 accelerator than foi that of a standing wave accelerator. This advantage is k.rgely compensated,by the absence of a sufficiently effective method, for decelerating the traveling wave. More eff-eotive focusing methods, employing waveguioes of 10 am wavelength, will furnish proton bunches a few milli- M'3ters in radius; this will considerably increase the efficiency of the t.va-veling 'wave linear proton acceliprator. This paper was written in 1949* There are 6 figures. Card 3/3  U882 S18611621000100010131022 B125/B102 .kUTHORSs Selivarfov, N. P., Faynberg, Ye. B., Stepanov, K. N., TITLE: Choosing the best variant of a linear proton accelerator SOURCES Teoriya i raschet linqynykh uskoriteley, sbornik'statey. Piz.-.. tekhn. i1st AN USSf- Ed. by. T. V. Kukoleva. MOSCOW# M 1962, 186 - 202 Gosato izda Two theories are studied; that of waveguides with dielectric disce fitted inside, used to accelerate protons-to high energies, and that of radial focusing using alternate focusing and'defocusing lenses. When the.,,- dielectric constant & - a'(X,Y120 and the conductivity d - 6(x,y,z) are timd-- independent, 61 t k2r - di-;rr-grad(ln k2) . -(4n/c)j holds, where k2 . io(iol- + OON, W denot-ing the frequency and j the"current density. ._.In the case of an axisymmetric field and zero current the product A(r,z) . R(r)Z(z) is formulated so as to obtain the components of electric and magnetic field strengthat Card 1/4  Choosing the best variant of ... 5/861/62/OOU/000/013/022' B125/B102 E, E,,J,, (nir) el N",')" E, ;rk, tit (a + b) nir) e1 (WI-k's); b _0~ (12). iE I H'; + J, k'2 - C ae+b The boundary conditions �A I I IA (2 A A lz=~,+ - Z- dz ')z '+0 take account of the jump-like change in the properties of the medium at Z.. The formulas (12) agree with the known expressions for the compo- nents of an electromagnetic field in a waveguide containing an anisotropic dielectric, if the following condition is observedt The discs made of a- homogeneous isotropic dielectric, that are fitted inside the waveguide, must be equivalent to an anisotropic dielectric having the effective F_ components ..Card 2/4  Tj Choosing the beat variant of#,fp S/W~62/000/000/013/022 B125/B102 (a+r-W(a~b). (a+b)e/(a6+b). The mean phase velocity in a wave- F,U:ide containing discs is smaller than that in an empty waveguide; it is gr:.~ater than that in one containing a dielectric. The attenuat n of the fields due to the infinite conductivity is pr'Oportional to e-~t where a* m2cs e2 - b C2 R, -7 b=,) b) 6 It a-ad m 2.405/R. The power losses per unit length from a waveguide contain- ing dielectric discs amount to D, (1-e-e)S=d'~S. When the structural jeriod remains constant, the phase velocity of a wave in a waveguide fitt6'd Y ith dielectric discs is varied by changing the ;telative thickness, a/b,, (if the discs. Linear accelerators with alternately arranged magnetic lenses :?ossess regions of stable motion in the y and z directions corresponding to 3ertain values of magnetic field gradient and lens length. The stability condition of the motion in such traveling-wave accelerators reads H' -11,COSTS ",+U2 (cl. -'a,). (25), Card 3/4 02), at-Ul eE co s T,  3/86 62/000/00d/015/022 B 1 25Y13102 AUTHORS: Faynberg, Ya. B., Selivanov, 11. P. TITUt Investigating the initial part of a linear electron accelerator SOURCEj Teoriya i rasch(_,t, lin~_-,ynykh uskoriteley, abornik atatey. Piz.- tekhn. inst. AN USSR. Ed. by T. V. Kukoleva. Moscow-, Gosatomizdat, 1962, 211 - 230 TEXT; The accelerating system of this linear accelerator consists of a waveguide fitted with metal discs. V"hen the entrance field strengths ar e not too high, e.g. eE 0 180 kev, and ~ >0.5,- the phase oscillations cal- culated by the quasi-classical approximation method are correct. The phase stability deteriorates in an attenuating ffeld, and is improved by an in- creasing field. The amplitudes and frequencies of the phase oscillations derived by numerical integration of the equation of motion for the partidle agree tolerably well with those calculated in quasi-classical approximation. The numerical results imply a constant waveguide radius in the initial part, cf the accelerator. The effect of the space charge on the phase velocity cf the wave is small anyway if the currents are large; it becomes even Card 1/2  -:/861/62/000/000/015/022 Investigating the initial part ... B125/B102 smaller when the relativis-~ic correction is taken into account. The r-f energy absorbed in the accelerated bunch can be disregarded in accelerators of low amperage. For accelerators of large ampErage, the energy conserva- tion equ~_ition (Nilat) + D t- 1)1- 0 is used to determine the change in the accelerating field strength due to aboorption of energy in the bunch, a~d hence the maximum duration of the accelerated particle pulse for which the condition for particle acceleration in fulfilled. IV is the power supply of tie accelerator, D the losses in the walls, and D 1 the power absorbed by tie bunch. The flux of accelerated particles can be very large when the pulses are short. The longitudinal and transverse electric fields set up b,y ellipsoidal electron bunches of uniform density are considerably weaker than the accelerating r-f field. N;~vertheless, the bunches can greatly affect some of the electrodynamical parameters of the system. This paper was written in 1952. There are 9 figures and 8 tables. .ir,i 2/2  8/661/62/000/000/016/022 B1 25/B108 AUTHORS, Selivanov, N. P., Faynberg, Ya. 13., Gillman, M. Z. TITLEs Calculation of a linear electron accelerator for 4 Mev SOURCEs Teoriya i raBChOt lineynykh uskoriteley, abornik statey. Fiz.- tekhn. inst. AN USSR. Ed. by T. V. Kukoleva. Moscow, Gosatomizdat, 1962, 231 - 242 TEXTi A travelling n/2-wave linear accelerator segmented by annular metal discs (as suggested by V. V. Vladimirskiy) is calculated with the Walkinshow-Brillouin (J. Appl. Phys., 20, 634'.(1949)) method which ensures high accuracy in determining the phase-velocity of the wave and the frequen- cy of the system. The dispersion relation# actually a determinant with an/ infinite number of rows and lines, need no~ have more than three rows in order to give sufficiently accurate results. It is derived using the con- tinuity of the tangential components of the electric and of the magne 'tic fields and solved by graphical means. Leaving-the ratio of thickness I of the disks to wavelength ), unchanged, the solution also remains unchanged. It can be used then to calculate the inner radii a of the annular disks for any frequency W. The spacing between the discs,~s then determined by suc- Card 1/2  S/861/62/000/000/016/022 Calculation of a linear electron... B125/B106 cessive approximation for a given h-f power flux S 0at the input of the accelerator, taking the loss in power-into account. The initial 0.7-Mev- section of a 4-Mev linear accelerator was calculated, constructed, and tested at the Fiziko-tekhnicheskiy institut AN U*SR (Physicotechnical Institute AS UkrSSR). For X - 10.6493 cm, the outer radius of the disks (wave guide) b ~ 4.491, and 1 - 0.398 cm, the results were as follows: The distances between the single discs had to increase from 13.62 am to 23-94 mm between the first and the 44th disc and the infier diameters 2a in- creased from 31.26 mm to 39.36 mm. Experimental and calculated data were in good agreement, so the entire 4-Mev accelerator was completed after cala- culations with the same method. Results were very good. The present work was composed in 1953. There are 5 figures and 5 tables. Card 2/2  B/861/62/000/000/017/022 B125/B108 AUTHORSt Akhiyezer, A. I., Paynberg, Ya. B., Selivanov N. P. I . , K 0 v-a -ie Y i~z h ny a k j Stepan6v, F. N., Pakhomov, V. N. A.,'Gorbatenko, 111. F., Barlyakhtan, V. G., Shanshanov, A. A. TITLEs Linear electron acceleratorefor high energies SOURCEi Teoriya i raschet lineynykh uskori ,teley, abornik statey. Fizv- tekhn. inst. All USSR. Ed. by T, V. Kukoleva. Moscow, Gosatomizdat, 1962, 243 - 309 TEXTt This paper, finished in 1955, is a voluminous report on the most important results obtained at the Fiziko-tekhnicheskiy institut AN USSR (Physicotechnical Institute AS TjkrSSR) between 1948 and 1955 as to the proper choice of an accelerating system ana its optimum parameters. as well as on the dynamics of the electrons inside the accelerator. One of the most efficient systems is the n/2 traveling wave type accelerator segmented by annular metal disks (designed by V. V. Vladimirskiy). The calculation of such a waveguide with the -ialkinshow-Brillouin method (J. Appl. Phys., 20, 634 (1949)) is demonstrated. The radial motion of the electrons in a Bev- accelerator under the action of terrestrial magnetism and gravity should- be Card 1/2  Linear electron accelerator... Sz/861/62/000/000/017/022 B125/B108 compensated by the combined magnetic fields of rectilinear currents and a small number of electromagnets. In such a case, detectors are necessary indicating the displacement of the beam by the fields of the correcting magnets. Owing to the great length of linear accelerators, an additional- radial focusing on the principal section is necessary. In the first se6tion and in the injector this will be achieved by strong longitudinal magnetic fields. In the principal section radial focusing can be achieved by short magnetic lenses (diameter 50 cm) producing a longitudinal magnetic field of -looo oe/cm, or by a system of four-pole lenses. Both systems can reduce the beam radius at the output of the accelerator to 0.5 cm. There are 1 figure and 18 tables.  AUTHOR: Znamenskiy, il. N. and .9()V/138 T I T LE Preparation of Water - Oil Emulsions with the Aid of an Acoustic Hydrodynamic Vibrator, (Prigotovlenlye vodno- maslyanykh emul"siy pri, pomcahchi zvukovoga gidrodinami- cheskogo vibratora). PERIODICAL: Kauchuk i Reziria, 1958, Nr.4. pqu. 35. (USSR). ABSTRACT: The physico-chemical laboratory of NIIR developed during, 1957 a method for preparing water - oil emulsions based on using the emulsifying action of the vibrations of a sound band. The hydrodynamic vibrator used for creatin- C:> the vibrations is of very simple construction. The vibrations. are created in a metallic plate by an impact at the end plate by a jet of liquid which is* under a pressure of several atmospheres (Fig;l). The emulsion is repa:~ed in a plant, the setting-up of which is shown in M.2. 100 litre of emulsion 07tth a con- centration Of .the dispersicfi phase equal to t30 - 65%) can be inade during one hour. The efficiency of the plant can be inereased'considerably when preparing less concentrated emulsicns~ The frequency of the vibrations = 2 - 5 kilohertz.' The pressure of the liquid, which is Card 1/2 of the order of 5 - 10 atmospheres, is achieved by using  SOV/138 -58-4-11/13 Preparation of Water _' Oil EmulsiorDwith the Aid of an Acoustic Hydrodynamic Vibrator. a pinion pump ShDP-18. 100 kw of electricenergy is used'foor 1,000 litres 6f emulsion. This apparatus' was used in the 1natitut6 for preparing aqueous emul- sions of-dibutylsebacate, diootylsebacate, vaseline oil-and 6ther plastoisers which are used in the rubber industry. ASSOCIATION: Research Institute for Rubber and'Latex Goods. (Na uchno-issledovatel'siciy institut rezinovykh i lateksnyk-h izdeliy). Card 2/2 1. oil-water mixtures--Preparation 2. Plasticizers--- Production 3. Vibration mechanisms--Design 4. Sound--- Applications  ADTHORS: zrlamens:rciY, !.1. 11. and Selivang y,,v7 _ TITLE: Des"-ruotllon of 11atural Rubber in Solution by 'Ultrasonic Vlave8 (Destruktsiya natural'no-o lcauchu%_~~. v rastvore - pod vo-,deystviyeni ultraizvulcm) PERIODICAL: Kauuh-,.i'~,- i Hezina, 19558. lir 9, pp 37 - 38 (1135-10 ABSTRACT:' Natural rubber in Solution in benzol (0.63/c,) was sub- je3ted to ultrasonic vibration in the 22 - 1000 kilo- cycle range by a mia-r-neto-strictive generator. Des- truction of the rubber was gauged by viscosity deter- mination of the solution, usinL, an Os-~wald :-iscometer. Fic.1 shows the relationship bet~,,reen viscoslt7 and dr- L ration of subjection to ultrasonic vib-ration for five different frequencies. With the exception of the cunre -,or 1000 kilocycles, the curves fit fomula (1). The material subjected to ultrasonic vibration tends to reach an equilibrium condition depending- or, the frequen- cy. The final or equilibrium de-ree of destmotion cn,angges little in the 22 to 500 1-1ilocYcle ~ranEa. At 750 kilocycles "-ere is marOced decrease in the speed a-nd des ree of destruction. At 1000 !,-ilc---y,.,les the des- ~ Card 1/2 tru,;ti on Is sli, 1-it, -viscosity chanLo~es show a linear  SOV/138-58-0-11/11 ,Destruction of liatural 'lubber in Solution by Ultrason-Lo Waves relationship with duration of test. The curves show that the process of destruction is almost entirely completed within 30 minutes of subjection of the poly- mer to ultrasonic vibration under the -iven conditions. The relationship found between degree and speed of des- truction to intensity of ultrasonic vibration, leads to the conclusion that intensities oLI the order of 77 to 10 vlatts/crnl~, are sufficient to cause a reduction of viscosity of the solution to 20% of its initial value, and this evidences cons idera-ble, chan[;es in the poly.-mer. Piz-.01 shw-rs the relationship between viscosity (relati~q Uo initial state) and intensity of vibration (watts/crq-) for a 30 minute test at 300 kilocycles. There are 2 Figures and 1 Table, also 5 References: 3 Soviet and 2 En,~lish. A.SSOCIATION:lTauchnot~isaedovatellskiy institut rezinov-%rich i lateir- sny1ch izdeliy(8cienL-U'ic 'Research Ins-b-itute for Rubber and Late-2- Products) Card 2/2  S/G31/6O/0OO/02i/o16/O18 A005/ACOI Translation from: Referativnyy zhurnal, Khimiya, 1960, No. 21, P. 86906 tr AUTHORS: Znamenskiy, N. N., Sdlivanov TITLE: The Application of Elastic Vibrations to Certain Processes in the Latex Technology PERIODICAL: Tr, N.-i. in-ta resin. i lateksn, izdeliy, 1959, sb. 2, pp. 146-154 TEXT: The authors jtudied the preparation processes of emulsions of various liquids and the washing off processes of rubber articles from latex by means of a hydrodynamic vibrator. The vibrator with cantilever fixing of a plate ensures the most stable operation conditions. The resonance was observed at 1.5 - "; kc for 10 at liquid pressure. The distance between the nozzle and the plate varied hereat, fz-om 10 to 3 mm. At the distance between the nozzle and the plate 4 0.1 mm, plate vibrations were observed at a frequency of < -, kc. In tH= majority of the tests conducted, water was the liquid driven through the vibrazor. The adjustment of the vibrator was performed by means of a sound pressure gage constructed by the authors on the basis of the developments of the Akusticheskiy Institut AN SSSR (Institute of Acoustics of the Academy of Sciences USSR) together with a frequency Card 1/2  SIC, Ab !16,VOGQ1,:) 21/01, 6 SVC _18 A005/AOO I The Application of Elastic Vibrations to Certain Processes in the Latex Technology meter ~~-6 (ICh-6), 'the device permits the measurement of the vibration frequency and the relative value of the sound pressure in the liquid. The 20,10-emulsion of lubricating oil was obtained sufficiently stable after a few passages of the liquid through the vibrator. The addition of surface-active substances considerably increases the emulsion stability. Gloves produced from latex by way of ion precipitation were placed into a vessel with flowing water in which 'the vibrator operated, The washing off of the gloves was accelerated by about I- times at frequencies of 5-8 kc. With decreasing frequency down to 1-2 kc the effect sharply decreased. The possibility is pointed out of the operation of an industrial Unit for the preparation of 60%-emulsions with an output of 1-2 !/min. 1. Pil'm--~nshteyn Translator's note: This is the full translation of the original RuZsian abstract. Card 2/2  210-66 N1. AT6013179 SOURCE CODE: UR/0000/61/000/000/0145/0165 AUTHORS: Znamenskiy, -11. N.; Solivanov, 0. A.-; F~o~rm, ~L.S.~; Chernaya, V. V. ORG: none TITLE: Some investigations of the application of ultrasound in industrial process- ing of resin SOURCE: Moscow. Oblastnoy pedagogicheskiy institut. Primeneniye ulltraakustiki k issledovaniyu veshchestva, no. 14, 1961, TOPIC TAGS: ultrasound, emulsion, chloroprene, natural rubber, polymer degradation, elastic oscillation, ultrasonic wave propagation A11STRACT: Application of ultrasound in production control was investigated along the following lines: propagation velocity of ultrasonic waves as a function of the composition and method of processing resins; effect of ultr er~') ,asound on natural rubb in benzene, chloroprene in dichloroothane, and chloropren 1,qvatex; application of u:-trasound to intensify production of aqueous emulsions of plasticizers and to finely disperse ingredients of latex mixtures. A definite relationship was found botween the propagation of elastic vibrations and the propertiep and compositions of rubbers and resins. Natural rubber in benzene solution is degraded when treated with ultrasound from 22 to 1000 kHz, the process depending upon the ultrasound inten- sity, as shown in Fig. 1. Ultrasound also degrades c/-chloroprene in dichloroprene, ard 1/2  L L2210-66 ACC NRt AT6013179 Fig. 1. Degree of pg2ympx_ degradation as a function of the ultrasound inten- sity. 1101a,hy-d- '7' to conrt JOO kjjz T z const 30. rLin- - 4 2 0 2 4 8 10 f2 14 75_7 ,watt/CM2 whi.le the ~L-polymer, which hasa more stable three-dimensional structureP is dissolved to an insignificant extent in tho solvent. A detailed descript k, n of the process for preparing finely dispersed zinc oxide and water-oil emulal _~ is given, and diagram of the equipment are shown. Orig. art. has: 6 tables, 5 kdations, and 1 figures. SUB CODE: 11, 20/ SUB14 DATE: 22Apr6l Carcl 21/2 af  BORISOV, I., kand. tekhn. nauk; SELIVANOV, P., kand. ekonom. nauk Comparative effectiveness of lumber transportation by ship and by rafts. Rech. transp. 24 no.11:6-8 165. (MIRA 19:1) 1. Gorlkovskiy institilt inzhenerov vodnogo transporta (for Borisov)~ 2. TSentrall-iyy nauchno-issledovatel'skiy institut lesosplava (for Selivanov).  SELIVANOV, P.A. New method of comaninication for main gas pipelines. Strei.pred.neft.prsm, 1 no.1:11-13 Mr 156. (KWA 9:9) (Has, Natural--Pipalines)(Telemateriiag)(Radic rela7 systemis)  SELIVANOV, P.A., inzheaer (Mosk-va) Organization of communications on the Stavropol-Moscow gas pipaliza. Stroi.pred.neft.prom. 1 ne.5:17-20 J'l '56. (MLRA 9:9) (Gas, Natural--Pipalines) (Radio relay systems)  SELIVABOV, P.A. Some probiama of economy for radio relay lines. Vast. Fiviazi 17 no-5:16-18 My '5?. (WJ7A 10:5) 1. Glavnyy inzhener proyekta Gosudaratvennogo soyuznogo proyektnogo instituta Ministarstva avyazi SSSR. (Radio relay systems)  Sa 1 V " -[I () I" , P . A - Yolotovslraia GES i plotoperevozki na Knme. (The il.'olotov electric po'uer stetion and r-ft trpffic on the Fnma river). (Rechn-.- trn-n!Fnort, 1947, no 5, p. 13-6; r-ap, sketch). DLC: TC6Gl.R4 S~O: Soviet Transuortation and Communications, A Eibliography 'ibrp---y .' :L- of Congressy Reference Department, 'NashinaTon, 19b2, Unclsssified.  3E11WIX-VI F. A. Lumber - Transportation Transportation of timber along the Kama-Volga course. Les. prom. 12 no. 9, 1952. 1952 9. Monthl List of Russian Accessions, Library of Congress, Denpmher -)=, Uncl.  SF,LIVANOV,,,Petr.Akimovich-, SHCHERBINSKIY, ya.N., red.; VALLAKH, T.G., red.izd-va; BRATISHKO, L.V., tekhn.red. [Analysis of the economic operations of timber floating enterprises] Analiz khoziaistvennoi deiatellnosti leso- splavno.go predpriiatiia. Moskva, Goolesbumizdat, 1959; 47 P. (MIRA 12:6) (Lu~ber--Transportation)  SELIVANOV, P. A Urgent questions of labor organization and wages in timber work. Sots.trud 5 no.3:124-125 Mr 160. (MIRA 13:6) 1. Vsesoyuzn3ry tsentrallnyy nauchno-isaledovateliskiv institut lesosplava, Leningrad. (Lumbering--Transportation)  -S-,,I;IVAI,IOV .. red.3 FLESKO, Ye.P., red. izd-va; PARMINA, N.L., tekhn. red. [Uniform working and evaluating norms in lumber floating] Edinye normy vyra-botki i rastsenki na lesosplave. Moskva Goslesbumizdat, 1961. 135 P. (14DU 14:12~ (Lumber-Transportation)  f ,PjLlYAHQYtL_~ ~h- NEFEDOV, S.I., red.; MIKHAYLOVA, L.G., red. izd-va; VDOVINA, V.M., tekhn.red. (Economic efficiency of the modern of timber rafting] Ekonomicheskaia organizatsii i tekhniki lesosplava. 178 p. organization and technique effektivnost' sovremennoi Moskva, Goslesbumizdat, 1962. (MIRA 16:6) (Lumber--Transportation)  c --riv tr: c ~,-.tctric 1: y 1 4; S~ 11-utc,i;.-~ti(,. Con-L-cl hl,~c-Lrlc Furnac~s,l' V. V. i:U.-dry,-Vt3eV, !Offe, L 1. %-:1uslikov, P. J.. S-livarov, E. -'. fo,.,ovl PlLnt i.-;f!ni ~.olctovl i,i---iZtrv of ilr---~:.z~nt, r, st~~ff' Of -:i(~ ~-ot of ~-!-Ct-ric !Uto, atic C,-' tro-13 to prt-v-nt in, c d o u L.,;-l -L. instz.,,lled ty-,e Su:-; icn rC T f if th i~rizn In -L C I ~ I s 0  L i VII NC V , 1'.. 'i ..,I nZh ~ , crmulaioi for the C111;--dalicn of thie lengf.'-.,3 and ui : - :, ~.,f a lorg iinti. Iz-,,. vys. ucheb. zav.; geod. - - I .. a,!,rc~ f . n -j . 2 %! ' "- - i ~i 16". 0,2-v. l?.9,  KULAKIRIETIM, R.M., J-nzh.; BABINSKIYv A.Yu.; ~LF,4MTGV?__~~Ta.; MAAKHOVSKIY2 L.I.9 kand.tekhn.nauk Consultation. Tekst.prom. 21 no.2:8&-89 ja t61. (~9RA 14:3) 1. Gosudarstvennyy proyektnyy institut No. 1 (for Kulakbmetlyev). (Textile machinery)