MYASNIKOV, Ploksandr Leonidovich, pi-of., red.; RYWRI, lzraill ff% Abrwnovich; BONDLINKO, B.A., red. (Incidence of hypertension and coronary arteriosclei-osi~. and living conditions] Rasprostranenie gipertonicheskoi bolezni i koronarnogo ateroskleroza i usloviia zhizni-; Leningrad, Vedi,,:.ina., 196,1. 160' p. sbornik State4 1. Direktor Iw4iWta terapii AMI SSSR, deystvitellnyy chlen AMI OISSR (for Myasnikov). 2. Institut terapii AMN SSSR (for Hyvki n) .  BOGATSKIY, Georgiy Filippovich, kand. tekhn. nauk; BONDAUNKO., Bori8,,AnAXe.X.~,y -)~ VIiafm-iii'- kand. arkhit.; LEONTOVICE -V's7~o`lodovich,, inzh.; SURYGII;A, E., red. [Course planning of populated places] Kursovoe proektiro- vanie naselenMkh most. Kiev, Budivellryk, 1964. 142 p. (MIRA 17:10)  BONDARENKO, B.A. Polynomial solutions of static equations, and hamonic polynomials. Izv. AN Uz.SSR. Ser. fiz.-mat. nauk 9 no.5: 82-83 t65. (MIRA 18:11) 1. Institut matematiki imeni Romanovskogo AN UzSSR. Submitted May 21, 1965.  BOMURUKO, B.A App~ication of of a prismatic 156- - (T;rsion) alternating methods for solution of problems on torsion T Idar, Trudy Inst. mat. i makh. AN Uz. SSR no.18.-43-51 (MIMA 10:4) (Approximate computation)  SOV/124-57-8-9256 Translation from: Referativnyy zhurnal. Mekhanika, 1957, Nr 8, p 98 (USSR) AUTHOR: Arzhanykh, 1. S., Bondarenko, B. A. TIT LE: On the Expression c~f the General Static Solutions of the Theory of Elas- ticity by Means of Definite Integrals (0 predstavlenii obshchikh resheniy statiki teorii uprugosti opredelennymi integralami) PERIODICAL: Tr. In-ta matem. i me)chan. AIN UzSSR, 1955, Nr 16, pp 34-38 ABSTRACT: The harmonic functions contained in the expressions of the general solutions of the elastic ity- theory equations in P. F. Papkcvich's form, supplemented by fhe component rot r x H, are expressed in the inte- gral form of Whittaker 1T GX f gx (x cos ~ + y sin (~ + iz, ~) d~ Tr etc. The paper provides the expressions of deflections and stresses in terms of six arbitrary functions. Card 1/1 A. 1. Lur 'yc  SOV/124-58-4 -4383 Translation from: Referativnyy zhurnal, Mekhanika, 1958, Nr 4, p 98(USSR) AUTHORS: Arzhanykh, 1. S. , kBondarenko L-A- TITLE: On the Differential Equations for the Stress Functions of an Anisotropic Elastic Substance (0 differentsiallnykh u~ra-%~rieniy4kh dlya lurik.tsiy napri(,azheniy anis6t-rophogo uprugogo tela) PERIODICAL: Tr. In-ta matem. i mekhan. AN UzSSR, 1956, Nr 18, pp 35-41 ABSTRACT: The authors offer six differential equations of motion for a uniform elastic anisotropic medium containing 15 arbitrary functions, with the help of which it is possible to form various modifications of the differential equations of motion. The com- ponents of the displacement vector are expressed by the deri- vatives of the 15 functions, while six functions are not included at all. 1. Elastomers--Stresses 2. Differential equat I?PA. Ter-Mkrtich' yan 3. Functions Card 1/1  SOV/124-58-11-13038 Translation from: R,eferativnyy zhurnal, Mekhanika, 1958, Nr 11, p 168 (USSR) AUTHOR: Bondarenko, B. A. ----------- TITLE: ------70-n-0--ne Class of Solutions for Dynamic Equations of the Theory of Elasticity (Ob odnorn klasse reshe,niy dinamicheskikh ura, nen:y teorii uprugosti) PERIODICAL: Tr. In-ta matem. i mekhan. AN UzSSR, 1957, Nr 21, pp 41-49 ABSTRACT: By employing the reviewer's formul ae of the dynamic displace - ment vector (Tr. In-ta matem. i~ mekhen.AN UzSSR 1954, Nr 13, pp 19-11; RZhMekh, 1957, Nr 7, abstract 7469) and by utilizing the Whittaker concept of a wave function [Whittaker, E. T. j Watson, G. N. , Kurs so-yremennogo analiza. (A Course in Modern Analysis). Vol 2. Moscow, -1934], the author obtains an explicit expression for the components of a dynamic displacement vector expressed in two versions by means of generic functions of the C3 class. 1.S. Arzhanykh Card I/l  SOV/124-58-3--3158 Translation from: Referativnyy zhurnal, Mekhanika, 1958, Nr 3, p 89 (USSR) AUTHOR: Bon4a-V-6nko, B. A. TITLE: The Application of an Alternative Method to the Solution of a Problem on the Torsion of a T-section Prismatic Rod (Primeneniye al'terniruyu- shchego metoda k resheniyu zadachi o kruchenii prizmaticheskogo sterzhnya tavrovogo secheniya) PERIODICAL: rr. In-ta matem. i mekhan. AN UzSSR, 1956. Nr 18, pp 43-51 ABSTRACT: A problem on the torsion of a T-section prismatic rod is solved by Schwarz' alternative method of the solution of Dirichlet's problem for harmonic functions in an example when the cross-sectional area is the sum of two (according to the meaning of the theory of multiples) areas, in this case of two rectangles. Recurrent formulae are pre, sented fc;r the calculation of the Fourier coefficients which form a part of the expression of the torsion function for one of the two rectangles by means of the Fourier coefficients from the expression of(V torsion fmction or the other rectangle. The coefficients &k~ ), Ak' "s Tis ?-), and L. are computed incorrectly, Card 1/1 N. 0. Gulkanyan  Aj-UT-1 PHASE I BOOK M(PLOITATION sov/4796 Akademiya nauk Uzbeksoy SSR, Tashkent. Institut matematiki i mekhaniki Is.sledovaniya po'matematicheskamu anal I zu i mekhaniket v Uzbekiatane (Research in Mathematical Analysis and Mechanics in Uzbekistan) Tashkent, Izd-vo AN Uzbeksk SSRp 1960o 259 pe Errata slip insertedL. 1,W0 copies printed. '0Y Sponsoring Agen4: Akedenlya naur Vzbekskoy SSR. Institut matematiki i mechaniki imeni VA. Roianovskogo. I V, - IteaPt-W.: T.S. Arzhanykh, Corresponding Member, Acadwq of Sciences UzSSR; Ed.: -4".QWs1nskap; Tech'. Ed.: ZJ. Gor'kanya. FURME: This collection of articles is intended for mathemetic-iam, -mechanic i~' -A aspirants, and students taking advanced courses in divisions of physics and mathematics at univernities and pedagogical schools of higher education. COVERAGE: Thp, collectjoi~containe 17 articles daslir4g with the results of investi- gations on the theory of integrating differonttal equations im mathematical physics and mechanicst the theory of n=bers, iqnd the problem of the beat approx- imation of functions. Individual articles discuss elasticity, flow close to a  Research in Mathematical Anelysis (qont.) SOV/4796 rotating disk,, transverse vibrations of beams, motionof an automobile after impact, themal stress, etc. No personalities axe mentioned. References accompW 14 arti:JL*s. TPLE OF CONTMM: 1. Arzhwykh, I.S. On the Derormation of Space-Time Under the Action of an Electromagnetic Field 3 2. - Jimdamaker-16A, On Gradient and Vortical Solutions of Dynamic Equations of the Theory of Elasticity 17 3.- Grebenyuk, D.G * On Certain Ve~ghted, Polynomials of the Degree*N n4 the Least Deviating From Zero Within the Inter%sl, Whose Coef- ficients are Connected by Several Linear Relationships 30 4. Grebenyuk- ,, D*G. On Polynomials of Several Variables,'Whose Coefficients are-06nnectealy Several Linear Relationships., the Least Deviating From a Given Function In a Certain Domain (D) 70 50 Grtbenyuk; D.G. On the Minimin of Certain IntegraLls With Infinite U*itsof Integration 84  1, J62J'000/001/038/061 V044 C111/C222 AUTHOR: Bondarenko, B.A. TITLE: On the gradient and vortex solutions of the dynamic equations of elasticity theory PERIODICALs Referativnyy zhurnal. Matematika, no. 1, 1962, 59, abstract 1 B 282.("Issled. T)o matem. analizu i mekhanike v Uzbekistane". Tashkent, AN UzSSR, 196o, 17-29) TEXT: The gradient and vortex parts of the general solution of the dynamic Lam6 equation 2 aLgrad div UL - 8 rot rot 14, 0 t are written with the help of the formulas of I.S. Arzhanykh (RZhMat,1956, 2264) in spherical coordinates. [Abstracter's note : Complete translation. Card 1/1  27143 11 L) ~, 112 S/166/61/600/004/001/007 B112/B102 AUTHOR: Bondarenko, B. A. TITLE: Potential and vortex solutions of the dyn,=ic theory of elasticity in the case of dispersion PERIODICAL: Akademiya nauk Uzbekskoy SSR. Izvestiya. Seriya fiziko- matematicheskikh nauk, no. 4, 1961t 3 TEXT, The author solves the equation: 2-* u/8 t2 0. a grad div-il-6curicurit- a u Its solutions have the:form: --0 =-A- - "") --+ 2X0 D u B grad (z0 MB ttp --1 Fo D " U A curl(x,,Lr A - 2 ty). --:31 r is the position vector with the comp2iients x Z: JZ0= (a - p)/2a, X0 = (a - p)/2p. -t, A, y andyare determined from the equations Card 1/2  Potential and vortex solutions of the ... 27143 S/166/61/bOO/004/001/007 B112/B102 cl 9, = 0, 0 a Da, = 0, -P%OrrAj. The operators 0 CL and D.t are: P72 02/at2 aV2 Dty Dt, Dt + 6. I. S. Arzhanykh (Informatsionnyy byulleten', No. 1, VINITI, M., AN SSSR, 1960) is mentioned. There are 4 references: 3 Soviet and 1 non-Soviet. ASSOCIATION: Institut matematiki im. V. I. Romanovskogo AN UzSSR ( Institute of Mathematics imeni V. I. Romanovskiy AS Uzbekskaya SSR) SUBMITTED: March 1, 1961 Card 2/2  8/044/62/000/009/040/069 A060/A 000 AUTHOR: Bondarenko, B. A. 11ITLE: -approximate solution of the first and second fundamental problems Qf. the theory of elasticity for a parallelepiped PERIODICAL: Refe'rativnyy zhurnal, 14atematika, no..9, 1962, 24, abstract 9V121 ("Tr. In-ta matem. AN UzSSR", 1961, no. 23, 93 - 110) TEXT: A sequence of polynomial solutions for the homogeneous'equations of the three-dimensional static theory'of elasticity is constructed. To solve the problems mentioned in,the title the author appliesathe method of,least squares, using the polynomials constructed by, him as coordinate functions. S. G. Mildilin [Abstracter's note: Complete translation] CArd I/11   KRAVCHINSKIY, Boris Davydovich; PgtD_k red.; LEEEDEVA, G.T., tekhn. red. [Physiology of the water-salt metabolism of body fluids] Fiziologiia vodno-solevogo obmena zhidkostei tela. Lenin- grad, Medgiz, 1963. 310 p. (MIRA 16:10) (WATER METABOLISM) (BODY FLUIDS)  -UNDARU'Q,Pj. (Lenin&r,,d, D-88, Muyka, d.40, kv-3); GLUMN', B.Ys. ~Leningrad, D-11, ul. Rakova, d.lro, k%7.07) Clinical forms of ILLng cancer in the initial ank. 9 no.6:9-14 163. 1. Tz kliniki fakul'tc-itskoy teranil (wichqllnik Beyyer) VUennc-inedit--q-Lnskqj c-rd*ena Len-irs, akadeic"i Kiri~va i Basz~ej.iuvoy kIInichfv,.:3koy bollnitsy imeni ~`hizrinov-,kcgo (I Iavnyy vrar-h - A. L. Ma tusov).  _F'ONMARENKI), B.A., do-Lssnt; GLUMAR0, 13. Yt~--. Ca!3e of isolated the srn-11 Intesl~i-ne~ an abstxac~t. Probl. genat. J ro,-rel. krw-~ 9 no.1.2g-54 D t64 (MIP,4 IBSI) 1. Kai I'm fakullt~atslcoy -LerapJA (na--ha~tn-J.K - prof. V.A. Voyenno-meditsinskoy akadsmil inicni S.-M. Kirova I klinicheslcava boltnitsa imeni Chuctnovskogo (gla-vnyi vrao-h A.A. Makarov)q L~ningrad.  23754-66 mwT (d) /E,,-,,T (M) /Fyp lip W PPJ ACC NI. AP6008547 SOURCE CODE: tJR/0166/66/000/001/'0003/0011 AUTHOR: Bondarenko, B.A._, ORG: Mathematics Institute im. V. L RomanovsIdy, AN UzSSR (Institut matematiki AN UzSSR) TITLE:~ jjol a system of differential equations in the statics~of elasticity theTry [The essence of this paper was reported at the 11 All-Union Conference on Computational Mathematics hold in Moscow in January 1965) SOURCE: AN UzSSR. Izvestiya. Serlya fiziko-matematicheskikh na~~ no. 1, 1966, 3-11 TOPICTAGS: boundary value problem, elastick LheiM5 differential equation system, solid statics ABSMkCT: Boundary value problems in the statics ofelasticity theory in transfers consist of the determination of the functions u, v, and w to satisfy the system 7, da I t' + 0 V x 0A 0 2W=0 V + rd Co  66  BONDARPNKO, B.B. Case of osteolyals of medicinal origin. VeRt. rent. i rad. 39 no.4t 78 j)-Ag 164. . . (MIRA 18:7) 1. KF-,fedra propedev4l.ki vrmtrennilrh bolezney (zav. - prof. M.L. Shcherb& (doceasedl)'i kafndra rentgerologli i radiologli (zav. - prof. Rokhlin) I Leningradskogo meditsinakogo instituta imeni Pavlova.  BONDARENYO, B.B. Mechanisms of a1dosterone literature. Probl. endok. 1. Xafedra prr,iedevtiki vroatrennikh M.L. ShcherlA [deceased]) tuta imeni Pavlova. secretion control; mirvey of the i gorm. 11 no.1:114-119 Ja-F loj. (MIRA 18:5) bolemey (zav. - prof. I leningraOokrpo Insi--i-  'BONDARENKO, B.B. (Leningrad) Effect of aldoeterone on alettrolyte metabolism and k1driel, function; a survey of the literature. ilat. liziol. i ekap, i terape 9 no.3v84-" MY-Je 165. (MIRk 180)  M j7;rnm - i wo god do Foster- ago 000 Ndt wd' Iment map too ow 0011 -Too So* zoo Igoe Wo 0 1k1 /'-LAft&.M A I IIIAGOO mit Dow cot OK % u is Av a I F I - 01 1 a 3 0 T ; I A jai T, An I I a &d 0 0 61 a A Mm - als, a, 0 N "I 1900000000 0 * 000 a 04000 * 0 0 0 0000 0 0 0000000 0 * 0 0 gi  0, 0, 40 * 0 0 0 0 0 0 0 0, 41 0 # 4 0 rp I I 1 L A A 2 A A , 9 W if It OU010 DID "all v J) 30 JS Al v S291011 A;31 Ub ft v AaL F Q __ __ 4_1 I-A.-t AAL -a CC QP .1 A.- Lj so 7 1 o - 011"tttll A40 -60 t lf-( t..'hN I S The Pist" dit"tim poxnAltstl(wo. Neftyanik to Usk jB Of 11 53 t NcK, 4 S, 72 tX MO --its the one of crud oil. rnerntly built at Crusny. 47JG % of distillates are made. The furl tLwd I% I HP% of the distillate obtained. and 112% of Mram (caW. on the crude oil terated) 6 umd in 00 a dlictu. The crucle (Al at 32* is pumped from atcoragr through gatoliar. korromorm. gas- ni and fuel-nil hooot extbangrm into a preliminary evagxwvtcw where part of the gwooline )~ 7 0' b h 2 i ill h l L d d s i,% The oi , i% t d. 14 Own pk y 2 its an Imuor rjug pr m td up at 1 t p = 00 4 leer tradkoa% are xviod. in the main (ckwrihc%f its do,tall) armnlrd in tanoirm. The 410, evaptwatoor. while vlor vapan are corormcculivrly in am W), In-morne and is- line twin lower* working in tand"n. The lurnam arr equipt" with Our-put tmircu. 00 tattin. The combuition, bo"Wr. is IncomWe. sinew the due Ira% i- tod"'Ittnt below Its, o the flame, The joulmThralrd *train u.Wd In (11411), jhMild be onliwil"tHl 11) 3:111" tw- ' Il 1 A a** of .3 tsunti mok % 313 . A, muor Or truip of the toil in llw majo evalxwottoe , Jae 0 zoo sow 00" 1804 sea 4 & 0 r ~ 1 1 0 6 2 * 6 " see Net . tie* S - - S L A -171LUOPOICAL LITIRMIt CLOWK47100' ties ~43.11, , No, A#, ~~ .3 1" , ' - * - , - - . 'l 1 0 IV it at U vt U It n o x 'A A I a rw 0 M oo I W 4 1 As 40 rv 2 1 0 0 e t 0 0 9 Is 0 0 0 0 0 0 0 e 4 1 . 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ' 0 4 0 0 0 e o 0 0 0 0 0 0 0 0 0 0 0 0 411 0 0 0 @1o a 0 0 0 0 0 0 0 0 :  A a 9, A IF 1% 1 K L R A -1 A I pp 1 4. atW is G-UL A I Sat,91.0 AND L. KOIRM"K N 7 - ;ith th, f"ultx ot rXIM nlnq. me 0 so coo '00 4PO.i *6 0 ' 00 7~ S* set its r[nu ufq m1an I W-k 0 f 0 0 0 * M` 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 oio 0 e 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0*  I I 1 9 IQ 11 U is w o U it to " 11M It n a 14 A h V A n . 30 11 IJ U JA 33 Is 1) 31 30 AM 41 41 41 44 6 E 0 L -4-A, -9 A AAAR CC A- A 4 1 L - Ij 41 w '.V 41~ -Ci g$ ;N-1-UNDIRS - - . - --I 7-01) Do .1 i*--,,-- , _ -VICCISHI A%O PAC-PIR14% '.N. -00 i 00 A; of tMoSOark_pnwuT*.ncsnAm tube still coo5truded in Grotoy by the Foster- We a ft k 2 kii N G yani fOx-Iftes e , Wheeler Cori~ 11 1. Po"Apamito ANP N. F. HOODANOV. atin.-prmssirr tutte Mill 1-1 -,WI 11"Issit. 00 ti-ni daily capacity. pruducing ga%4ine. bravy naphilia, krrt~ur~ ;a% oil and flit I 'vil' 00 a omnectcd to a vacuum still foc the d6tn. of the fuel oil into t-putille oil, machim, ot). cylkn&f stock and heavy Wilms. is described in detail. A A 0 -00 Do 1 .00 x9o 00 a 00 coo 90 =go Zoo 0 0 ;1 l voo 00 ZI 90 DO u 5 0 - S L A &IIALLUnKAL LIMATURI ctAssirKATIC" ANA -it r__--s_._V- 0 U a AT -0 is: ; I * I * _;' I- , 0, IV 11 OP of Is a of It Is a it 9 0 0 0 a Die 0 0 0 0 0 0 0 0 0 0 6 0 0 a 14,000000.1000000000000000 zoo t;Oo tz" DO, 0 _Vx'I AD n 1 2. s" ' 1 9 Ow 0 M 9 1 Ir 04 0 0 010 0 0 0 o 0 4 0 o 0 o 0 * 0 o o 0 0 6. SoGjooooqOoooqo&ooooooc~  it 11 14 is is II0 too If if fill 0#4 a )o If If . I, 14 It v 11 11 1* 4a #1 U it 1% A-L-D-L-1-AL h- it A.- 0 0 (C m ft ' A . 110 I.o P.Otm! . ."I 8, TK- I ~ * O," Selacdom of the tm of a tube GO for petirohlum CI distillfill0ift 44*00&., IN. I. f1crularrnko and V. S. ' No. 3. 7&O.-In Corn the Radler (1), Imiti- M . still furnaces it I% stated Alco ( (2 ) r r t I I l) h. .'5tWttvr bmt-Irmisfet factor thm (2) and -of twcsuw tlw hiAh velocities 4-4 the t I =Jhu ecting minas in the outer awil of the W d .61111 tcctft the surface of the conmilon tulw%. $mvnc of br titmurr cirra" by the vmokr siack of (1) 1% v pent for S u:., 10 increa-ing the velmity In the convection qection, while =06 in (3) it is used fur luminif the flow of go".- Thu- (1) rquippt4i with short vuoke marks In %pile of lurnwe" "I" ,5 he higher velocities of the voinbutlion flawt in IN- channel. thil 1wirruilling a 'analirr rmvmtkm ~-Ihm and bridirr wall. The i,r#"v of oldr vrall tubes in lilt- file j .60 . Imm of the (1) protects the wells front excexxivc wear, ' ago r 0 1~01 ahich show cracks in (2) and 13) Ixmuqr of overbraling. 00 ZOO e The radiant Kction of (1) is placed entirely outside of the Ilw of c(trubustiori glim.", while in (2) the ratif tulms are heated hY the hot con bustion smes as well as hy tadiant 00 1; best. A di%advantatc of (1) vvnsists in the adrub*iori of 1, excesmv air into iberou~ticm oil, A.A.FinritiliviLk . zoo 1 A I.. I L &jTALLukrICAt LIVERAIL41 CLASSOKATIOpi -&i o I IN 1k s A] U a AV '80 AS!'; it to it op 44 Of 4 111 91' K t9 it it Of WAD fl 1 '14 go 0 0 00 0 0 0 6 0 iq a 00 Gee 0004 0016 6 0 0 0 0 0 0 0 0 6 0 0 0 0000-  o- P~ If 09 ***w- e : 'J""M Oil pi 10 11 5 11 U N 11 4 if a a id at 0 A CC I- JL IL jv_u I L A Al If I O?p!#l IL 1.6 A.0 4 T. 00 off 90 -04 SbAd-&-fi- of cook" fag re"Wila. B. I. tku'da. -.00 S.Ako-&M A. 1. U". peffivulanct d vw~nl% ali4yacd &nd viuk"1% 0 IM t1wir inilmircutent wr modr. A. A. lh--hallumck roe zoo 00 00 01*0 .1 Its A SITAMAWAL UVERAUNII CL&SSWK&tW* tie 0 llglooj oil 00, Oll 84111190", i" to mollf U 0 AT 00 41 it 91 mw . III 0 0 o, 0 0 00 1 0l 00 0 0 Ir a 0o o e, 1 0 : 0 Of 0 111 0 0 0 0 0 0 0, 111 0 0 0 6 0 0 0 0 0 0 0 0 0 0  ; 10 - S a I a t a it U U U 4 1, 0911406'RiviWall 2-9-L . . .-. v -.2, 'M' - -USSO- 9L -,T i c 00 U U us ]a v all to 41 4 A-AJ 4-4. - -Vvj COCU14O." the re"t Ovalaft of tube $1111c 11, 1 Gnmeposkil Neftwinib *- No. 1% A4 s A. A. 11-whilingk ,AS*-%lL A0 T L I ALLU*GKAL L01441041 CCAUVOT" SS1003 %it Omv Oft 434411 am c" AS1 U 0 4v 10 U --- J--w ft) 0 0 9 g 'A VIDT64 ~Se- 0 0 0 0 0 0 0 0 6 00 -00 goo '00 '00 '09 ,00 woo W90 q:g  to lor-aw-'al-IOWT-6 9-0 a A L 81 -A I ILI' 16, 10, U AA lit 6.11 i.-0 I-11pool is[, PVP't~kf. P 1.11pt. 14. 1-1 .00 -00 Cokukdm d Ambots" with two c&mWre. a. 1. *0 hu-Im VAO.- Grommooftsba 1. *1 41 -00 4106rd), A" analyWh i- vvrn 411 the Iwif-willamer '-f "I'. I 1111W A A f4whiltitgI, 43 v 00 00 5*0 too 0 too 0 ILA MITAMPROICAL LITINATLOE CLASOPICATICId Z= ~:L Ll 1 use.. NO-jmV IIII&I'l 00 ONT Lit U AV so al. ZA An I 1 4 0* 0 a 9 1 N IN 9 a a I it at 40 ~ I r 0 0 4 0 0 9 0 0 0 0 0 0 0 0 111 a 0 0 e 0 0 0 0 0 0 0 0 0 6 0 0 0 4 0 a 0 0 0 0 0 0  00 4 to 4r! LVtWAL 1.11111AU" C%At%WKAVMf1 MANI ft it rv it 0 4 , A' 1, IT 0 0 0 0 0 1 0q * 0" 11 0 o 0 0 0 * 0 o go 0 1 .60 'K =Iknd M. AserbA&* ~,,v qtVw,v Kim. 1939. A molh, ltm~l -60 .0 .60 we* coo Pee goo Coe bee We IF dc it, 00046 o Co.  I JI f 6 a ]I a u D m SiVA P"Wl Is aw 'A Noy@%" KAN. Ill, A. Utz Bmbuisktk 00 TIMAIMI CLASSOKAIMN ASI-$LA 611TAMOMI(st U 141403 "it GMT all b u it AT 10 is jp I'll"n Ila so IN 0 0 0 0 T'sm ; 0- ; ; ; ;I** a 0 0 0 6,0%0*6966999 tic., 43.0, 1,13011 Ow a.- 114 7-9 -7-1 I w 0 it IN 0 43 4 0 0 e 0 0 0 0 : 0 : 0 0 0 0000000 0 0 ****eel *00 too :me  BONDARENKO, B - I - "The Determination of Product Yields in Catalytic Cracking," Pet. Ind., No. 1, 1951-  AID P - 1138 Subject USSR/Chemistry Card 1/1 Pub. 78 - 16/25 Author Bondarenko, B. I. Title Material accounting in the catalytic cracking process with re-eirculatlon Periodical Neft. khoz., v. 32, #11, 56-62, N 1954 Abstract General discussion of fraction distillation in cracking with re-circulation is presented. The relative amount of the re-circulating component or the coefficient of re- circulation is computed with experimentally-determined formulas and correction coefficients. Distribution of the distillating components is tabulated for various operating conditions. Three tables, 2 charts and 2,~Russian refer- ences (1934-1950). Institution : None Submitted : No date  AID P 2695 Subject USSR/Chemistry Card 1/1 Pub. 78 - 13/21 Authors : Bondarenko_, ~. I Grushin, A. F., Ivanyukov, D. V. and ZlotnlK Ye. Title : Experiment in reconstruction of an oil-refining installation Periodical Neft. khoz., 33, 5, 58-62, MY 1955 V,itract In the reconstruction of an oil-refining installation its capacity has been increased and higher fractions obtained. The flow diagrams of the old and the reconstructed installations are shown. The main difference is that in the new installation the charging stock enters by two different lines, one part (about 55%) through heat exchangers and the other part (about 45%) through the coils of the vacuum line furnace. Institution : None Submitted : No date  T. T AID P i Subject Chemistry Card 1/1 Pub. 78 - 12/20 Author Bondarenko, B. I. Title New foreign oil processing plants Periodical Neft. khoz., v. 33, #1o, 60-71, 0 1955 Abstract New petroleum fuel processing plants located out'side of Russia and its satellites are described, namely: Petrofina Refinery (Quebec, Canada); Ferndale Refiner of the General Petroleum Corp (Washington, U.S.A.)~ Gewerkschaft Erfll-R4ffinerie Emsl' and, Lingen-Holthausen (West Germany); Durban Refinery (South Africa); Kwinana Refinery (Australia); Aden Refinery (Arabian Peninsula). Some others are briefly mentioned. Diagrams, tables, 22 foreign references, 1946-1955. Institution : None Submitted : No date  k: BONDARWO. D.I.; NIKULIR, D.D.; SUKRANOV, V.P.; KLNYMXNOVA, K.F., redaktor; TROPIMOV, A.Y., tekhnichookiv redaktor [Catalytic cracking) Kataliticheskii kreking. Moskva, Gos. nauchno- tekhn. tzd-vo neftianot i gorno-toplivaoi lit-ry, 1956. 208 p. . (Cracking process) (MLRA 9:9)  IVANYUqr, D.Y.; BCODAR121KO, B.I.; GRACHXV, D.S. Increasing the productivity of a pressure snd vacuum refining plant by means of radical reakrangement. Neft.~hoz.34 no-7:38-46 J1 156. (Petroleum--Refining) Owk 9: 10)  PHASE I BOOK EXPLOITATION 1-183 Bondarenko, Boris Illich Ustanovki kataliticheskogo krekings (Catalytic Cracking Units) Mascav, Gostoptekhizdat, 1958. 303 p. 2,500 copies printed. Ed.: Kleymenova, K.F.; TechoSdo: Trofimov, A.V. PURPOSE: The book is intended for engineers and technicians specializing in petroleum refining. COVEME: The book describes catalytic cracking units with circulating catalysts. Flowsheets of industrial catalytic cracking units are given. Methods of pre- paring raw materials and the construction of the mat important units are discussed. The author thank Ya.N. Frenkel~ for reading the manuscript, B.K. Amerik for his coments and also K.F.Kleymenova and N.V. Hatveyevs. for their assistance in preparing the manuscript for publication. There are 253 references, of which 61 are Soviet, 188 English and 4 German. Card 115  Catalytic Cracking Units 1-183 TABLE OF CONTENTS: Foreword Ch. I. Purpose and General Nature of Catalytic Cracking Units Ch. II. Terminology and Definitions Ch. III. HaW Materials for Catalytic Cracking Units Ch. IV. Catalysts Ch. V. Methods for Preparing Raw Materials for Catalytic Cracking 1. vacuum distillation 2. Light thermal cracking of mazuts and heavy residues 3. Preparation of distillates by coking petroleum residues 4. Obtaining raw materials from mazuts and petroleum asphalts by tom ing '4#pbe 0V jt -b 113rqwne, method'. the, 5& Preparation of distillate raw materials in-c-stalytic cracking units 6. State of aggregation of raw materials prior to contact with catalyst Card 2/5 3 5 15 28 35 48 48 53 65 69 T2 84  Catalytic Cracking Units U83 Ch. VI. Types of Cracking Processes Ch. VII. Cracking and Regeneration Section of Units With Circulating Pelleted or Spherical Catalysts 1. Flowsheets for catalyst circulation 2. Counter:r-aw reactor 3. Unifthw-react6r- 4. Regeneration of the catayst 5. 'Mati-zone regenerators 6. Regenerators with few heating and cooling stages 7- Air-lift of the catalyst Ch. VIII. Sections for Cracking and Regenerating of Units With Circulating Povdered or Microspherical Catalysts 1. Fluidization and circulation of catalysts 2. Reactors 3- Regenerators 4. Cyclones 5. Relative position of reactor and regenerator 6. Fractional distillation sections 7- Converters for orthoflow crap-king units Card 315 94 103 103 108 in 118 122 128 134 139 140 145 154 165 169 175 179  Catalytic Cracking Units '1183 Ch. 1K. Catalytic Cracking Process Conditions Ch. X. Balance of Materials and Quality of Products 1. Balance of cracking of various types of raw materials '2, Yield of products in catalytic refining 3- Empirical formulas for determination of the yield of cracked products 4. Quality of cracked products Ch. XI. Industrial Cracking Units With Circulating Spherical or Pelleted Catalysts 1. Units for cracking distillate raw materials 2. Houdresid units 3. Elements of design of a direct-flow reactor Ch. XTI. Cracking Units With Circulating PowdereE or YAcxospherical Catalysts 1. Pluid flow units -- models I, II, III, and IV 2. Modified fluid flow units 191 203 203 220 226 228 236 236 243 246 252 252 271 Card 4/5  Catalytic Cracking Unite 1183 3, Orthoflow units 274 4. Heat balances of reactors and regenerators. Catalyst circulation Ate 278 Appendix 1 294 Appendix 2 294 Appendix 3 295 Bibliography 296 AVAUABLZ: Library of Congress Card 5/5 TWR" 2-13-59  PARKHOMENKO, Vasilly Yefimovich, dotsent; PICMJGIN, A.P., inzh., red.: -ME . roteenzent; LEV11M, Ye.S., vadushchiy red.; BFM*VUAL%.RT'w.4GA.~tekhn. red. 0 [Technology of petroleum and gas refining] Tekhnologiia parerabotki nefti i gaza. Izd.2., parer. i dop. Moekva, Goa. nauchno-takhn. izd-vo neft. i gorno-toplivnoi lit-ry, 1958, 452 P. WIRA 12:1) (Petroleum--Refining) (Gas, Natural)  11(4) ' SOV/92-58-9-28/36 AUTHORS,. Staff Member of the Petroleum Insti- ., and Sukhanov,, V.P., Staff Member of the Gosplan tute of the USSR TITLE: Formation of Coke in a-Reactor and Gas Oil Recycling (Koksoobrazovaniye v reaktore i retsirkulyatsiya gazoylya) PERIODICAL: Neftyanik., 1958, Nr 9, pp 29-30 (USSR) ABSTRACT: In a letter containing a reference to a book by B.I. Bondarenko, published in 1956 and entitled "Catalytic Cracking", 1. Sivakov, senior operator, raises the question as to how the increased recycling of the light gas oil affects the formaticn of coke. At the same time in a letter referring to the same book G. Konyayev, engineer of the Salavat refinery, asks for the clarification of a similar question on how the gas oil recycling influences the formation of coke. They both state that the actual results of catalytic cracking operations contradict Card 1142  Formation of Coke in a Reactor SOV/92-58-9-28/36 Bondarenko's assertion that the higher coefficient of recycling gas oil inoreases the yield of gasoline and decreases the yield of gas and coke. In reply to the above-mentioned letters the authors Of the Dresent article confirm that, in principle, the statement contained in the Bonarenko book is correct. However, the authors emohasize that the yield of catalytic cracking products depends on the different conditions under which the catalytic cracking unit is run, as well as on the composition of the feed stock used. These conditions are discussed at length by the authors who point out that the problem is rather compli- cated and many factors should be taken into account to permit one to draw the right conclusion. Refiners and members of sci- entific institutes are invited by the authors to express their opinion in Neftyanik as to how they propose to reduce the formatLon of coke in a catalytic cracking unit. ASSOCIATION: Neftyanoy institut.im. Gubkina i Gosplan SSSR (The Petroleum Institute im. Gubkin, and the Gosplan of the USSR) Card 2/2  ALITSHULER, Anatoliy 'fevgenlyevich; KOROTKOV, Petr Ivanovich; KAZANSKIY, Vasiliy Leonidovich; GERASIM91W.0, Nikolay Mikhaylovich; B(HfDA- RWO, B.T., kand.tekhn.nauk, red.; LUBASHRVICH , I,P,, kan ~. _-bdd-._f,-UFRHMOVA, T.D., Yedushchiy, red.; MMINA, B.A., teQ.red. (Production of lubricants from high-sulfur petroleum crudes] Proizvodst,ro smazoehnykh masel iz sernistykh neftei. Moskva, Goe.nauchno-tekhn.izd-vo neft. i gorno-,toplivnoi lit-rY, 1959. 189 P.- (MIRA 12:10) (Lubrication and lubricants) (Petroleum--Refining)  BRAZHNIKOV, Vasiliy Timofeyevich. Prinimal uchatitiye: RALINOVMAYA, N.P.. inzh.. SKOBLO. A.I., rateenzent; ~1011DARWO, B.I., retsenzent; 71FRMOVA, T.D., vedushchiy ra~a7 I,;, B.A., takhn.red. (Present-day units for manufacturing lubricating oils] Sovramennye ustanovki dlia proizvodstva GM82ochnykh masel. Moskva. Gos.nauchno-teldmAzd-vo neft. i gorno-toplivnoi lit-ry, 1959. 355 P. (MIRA 12:11) (Lubrication and lubricants)  MOLDOUIN, A.Ya., inzh.; Prinimali uchastiye.' KHOKHR)"41OV, P.A., dotsent;- BONDARENKO B.I. dotsent Choice of a phenol-reclamation flowsheet in 5elective refining of oils. Nauch.zap.UkrnUproeI(ta no.4:132-140 161. (MIRA 15:1) (Phenols) (Petroleum--Refining)  SKOBLO, Aleksandr Ionovichp dots.; TREGUBOVA, Iri4a Ananlyevna., dots.; yEdOROV, Vikolq Rikolayevicb, dots.; -J30NDAMWK,,O -BL p kand. tekbn, naukt reteenzentl BABUSHKINA, Sr.-t-`ved. red.; KLMIENOVA, X.F., ved. red.-; POIDSINA, A.S.y tekhn. red. [Processes and equipowt of the petroloum refining and petro- chemicals industries] Frotsessy i apparaty nefteparerabaty- vaiusbohei i neftekbimicheskoi protWshlennosti.. Moskva, Gos. nauchno-tekhn.iza-vo neft. i gorno-toplivnoi I:Lt-ry, 1962. 652 p. (Petroleum-Refining) (MIRA 15:2)  BONDkRENKO B.I. Nov petroleum refineries-in Canada. Rhim.i tekh.tonl.i masel 7 n'o*2:6E~-72 F 162. IM-IM 15:1) L. Moslcovskiy institut neftekbimichesko'y igazovoy promDrahlennosti im. akad.Gubldna. (Canada-Petroleum reVineries)  BO'DAII'MW) B.I.; NICHIPOROIKO, 0.3. ~,~ ~ - , - ~- , Investigating gas-o-,:ygen b=nero of low output to obtain rcduc-in,), gas. Gaz. pro:..,. 9 no.9:27-31 164. r7:10)   71;~ iie*-SeMs ts~-anapresentg -tabuhtedlW I ar qAt dqtE~,`c e previous V do oncernin R th - -1 comp.eted unitg for remote MWsurements of both A.C and DC current ~~ A volta4-es "The work was part, icipated in by a group of coworkers of the SPAB includling ya. IS j. ke B -h Yu. _);~aji;, A. A. Nadel A Ond(I V-V. S asher ah, as well a., -.I,-!Larkov tmd L,V. FAyd V.-N, 'Cheim-mvAily, La,-V-01-ch-epko - - who aro ociated with other onlonpy- so= ~o~v ass V.I. i3rnsbtqym and Ye, 1. Andrianov, - - - - - - - - M. jic ff , N'Tes f~i W rwthe SP 10. Orle. art. has.- 2 filrures i--rjrl 1 t M, OrTce ng ~71 CF4 a lo , ASSOi!IATION: none SUBMITTED: 29SOP64 BNCI;- VO :SVB CODE- EE;T-,g No RI-F SONF.. 000 OTHERi: Goo 2 ,2 C d ar ------ WM 1191 111  ZATULOVSKIYP B.G.; PONOMAREVA, G.V..; DZETSINA, L.V.; P2PAEENKQ,..B.I.; GUMANY M. M. Further study of sporadic cases of exanthematous typhus in Kiev. Zhur.mikrobiol., epid.i immm-M. 32 no.12:109-112 D 161. - OAM 15:11) 1. Iz Kiyevskogo instituts, epidemiologii i mikrobiologii. (KlUI-TYPHTJS FEVER)  BONI)ARENKO),-,.. ~,, -i ... "I., . ~.K.; DEHIDOVIGII, V.N. A generator of chaotic pulses. Geofiz. prib. no. 12:90-92 162, (MIRA 17:5) 1. VMOIA.  YERMDLIYEVA, Z.V.; TRAKHTENBERG, D.M.; BONDARENKOO B.N. Isolation and characteristics of prodigiosin from Bacterium prodigiosum in submerged cultures. Antibiotiki 9 no.5:397- 403 MY '64. (MIRA 18:2) 1. TSentrallnyy institut usovershens,tvovaniya vrachey I Vsesoyuznyy nauchno-issledovatellskiy anti,biotikov, Moskva.  DOnDARENKO B.N Deep cultivation of Bacterium prodigiosum. Antibiotiki 9 no.9: 814-818 S !64. (MIRA 19:1) 1. Kafedra mikrobiologii (zav. - deystvitellnyy chlen AMN SSSR prof. Z.V. Yermollyeva) TSentrallnogo instituta usovershenstvo- vaniya vrachey i Vsesoyuznyy nauchno-issledovatellskiy institut antibiotikovp Moskva.  AMA . A.R., Inshener (g.lovochorkamsk); SITNIK, N.1h., inzhener.(g.Ncvc,- S"Wff-'MICXMW, V.A., Inshener (g.Nayocherkaesk). Single-phase industrial frequency electric locomotives.Zhal dor. travep. 37 so.11j&-14 N 155. (KWA ;:2) (Blectric locomotives)  DONDAREM , B.R.-. YANOV,, V.P.; CHFRNYAVSKIY, S.N. Further dpvelopment of the construction of els-etric locomotives. Zhel.dor.transp. 47 no-lo-43-49 Ap 165. (NIRA 18:6) 1. Direktor Novocherkasskogo elt-Itrovozostroitellnogo zavods i Vsesoyuznogo nauchno-issledovatel*skogo i proyektno-konstruktor- skogo instit-uts elektrovozostroyeniya (for Bondarenko). 2. Glevnyy inzh. Vsesoyuznogo nauchno-issledov-tellskog- i proypktno- konstruktoirskogo instituta F-lektrovozostroyeniya (for Yanov). 3. Nachallnik otdels tekhniko-ekonomicheskikh isslpdoveniy V.-;Psoyuznogo nauchno-issledovatellskogo i proyektno-konstruktor- sk-ogo institutn elelctrovozostroyeniya (for Chernyavskiy).  5W SOV/162-58-3-25/26 AUTHOR: Bondarenko, B.V. TITLE: The Problem of the Nature and the Determination of the Thermoionic Constant A (K vopr osu 0 prirode i opredelenii termoelektronnoy postoyannoy A) PERIODICAL: Nauchnyye doklady vysshey shkoly, Radiotekhnika i elektronika, 1958, Nr 3, pp 184-191 (USSR) ABSTRACT: The possible reasons of the divergence between the experimental values of the thermoionic constant 4 and its theoretical value A = 120.4 a/cm degree- are investigated for differgnt cathode types. The author arrives at the following conclusions: a) The theory of ppots cannot satisfactorily explain the anomaly of the value A in the case of semiconduc- tor cathodes without contradicting the results of cathode investigations by electronic microscopes. b) The anomalous values A, obtained by the Richard- son method for semiconductor cathodes, may be ex- plained by the temperature dependence of the work Card 1/3 function, found by means of shifting the character-  SOV/162-58-3)__25/26_____ The Problem of the Nature and the Determination of the Thermoionic Constant A istic, which is caused by a change of the location of the electrochemical potential level. c) The Richardson method does not provide reliable values of the work function in case of coated cathodes. The method of determining Pie medium work function at A 120.4 a/cm degree acqording to measured values o? the current emission and the cathode temperature, is more reliable for any type of cathode. This me- thod permits a eimultaneous determination of the temperature dependence pf the work function within the range of_meapuring temperatures under the condi- tion that 1 M=j, whereby IT is the medium factor of electron reflection at the emitter-vacuum boundary. There are 11 graphs, and 13 references, 3 of which are English, 1 German, 1 Japanese, 1 Indian and 7 Soviet. Card 2/3  BOV/162-58-3-25/26 ;he Problem of the Nature and the Determination of the Thermoicnic Constant A ASSOCIATION: Kafedra elektronnykh i ionnykh priborov Moskovskogo fiziko-tekhnicheskogo instituta 'k (Chair;; of Elec- tronic and Ionic Devices of the 1,,,Ioscow Physics En- gineering Institute) SUBMITTED: March 29, 1958 Card 3/3  BONDLONO OSTAPCHENKO, Ye.P. Thermionic properties of alkaline earth tungstatea. Hauch.dokl. vys,uhkoly-, radiotakhi slaktron. no.4:239-245 '58. (MIRA 12:6) 1. Hoskovskly flolko-tokhnichaskly Institut. (Alkaline earth tungstates)  BONDARENKO, B. V. Cand Tech Soi __ (diss) "Peculiarities of the thermoeleetronio properties of semiconductor-type cathodes." Lmow.j 1959. 22 pp (Min of Higher ~Iduoation ISSR. Mos Phys-Teoh Inst), 130 copies M, 47-59, 114) M20-  66325 SOV/162-59-1-25/27 AUTHOR: Bondarenko, B.V. TITLE: The Thermionic Properties of Scandium, Yttrium. and Lanthanum. Oxides PERIODICAL: Nauchnyye doklady vysshey shkoly, Radiotekhnika i elektronikap 1959, Nr 1, pp 211-219 ABSTRACT: The author presents the results of an investigation into the thermionic properties of scandium, yttrium and lanthanum. oxides. Sofar, the thermionic proper- ties of these materials have not been studied in a wide temperature range. These oxides have a suffi- ciently high melting point with a known crystal struc- ture and they are of interest for manufacturing ther- mionic cathodes working at higher temperatures, as for example, the thorium oxide cathodes. The pure scan- diura, lanthanum and yttrium oxides were pulverized and prepared in a methyl alcohol suspension, which was applied to a tungsten core, 2 mm wide, 5 cm long and Card 1/5 35 microns thick. The density of the oxide coating T  66325 SOV/162-59-1-25/27 The Thermionic Properties of Scandium, Yttrium and Lanthanum. Oxides changed within the limits o4 '' 2-4 mg-cm-2 at a thick- ness of 25-30 microns. The experimental device was a planar diode with a system of working and protecting anodes. The emission of the working anodes, placed on both sides of the cathode strip, was measured by a galvanometer with a maximum sensitivity of 5-10-9 amps, The cathodes to be investigated were connected to one of the arms of a Wheatstone bridge. The cathode tempe- rature was determined by the resistance of the tungsten core. The maximum error in determining the work func- tion -P T accordi to the graphs of C.G. Jansen and R. Loosjes ZR-ef J4 amounted to 0.25%. The voltampere characteristics of the cathodesy plotted in the range of anode voltages of 100-500v, sbowed a saturation character, whereby the saturation current value was = 400 v for determining -P T. The correc- limited to Ua. tion for the chottky effect was equal to 0.012 elec- Cp,ri 2/5 tron-volt, with an electrode gap Of 3.5 mm, ie. it re- L41*1  66325 SOV/162-59-1-25/27 -,he Thermionic Properties of Scandium,Yttrium and Lanthanum. Oxi-des mained within the accuracy limits Of -f-T measurements. The values of the work function -P T were calculated according to the density of saturation currents for certain temperatures at a value of the thermionic con- stant of Ao = 120.4 amps-cm-2, whereby also the tem- peratures factor of the work function could be de- z~ T termined for measurements in a temperature range of 1300-20000K. It was established that _A~_ kP does not on- n~ T ly change its magnitude in this temperature range, as for example, for scandium and yttrium. oxides. A quali- tative explanation of the behavior of Ins f is given for -=T the state of a cathode, immediately after the thermal activation and also for the stable emitting state. The sign of 6 f is negative at low temperatures and posi- a r (1 3 /5 L T Lr  66325 SOV/162-59-1-25/27 The Thermionic Properties of Scandium, Yttrium and Lanthanum Oxides tive at high temperatures. The investigation results for scandium, yttrium and lanthanum oxides are compi- led in a table. These oxides are of interest as ca- thode materialsp except lanthanum oxide, -whose emis- sion is somewhat lower than that of scandium and yttri- um oxides; lanthanum oxide is highly volatile in the range of operating temperatures. The comparison of the thermionic properties of scandium and yttrium oxides with those of thorium oxide shows only insignificant deviations. According to measurements of Menar fRef 97, well-activated thorium oxide shows also a break of the Richardson lines at high temperatures, resul- ting in values of '-fo = 1-6~1.7 electron-volts at A = 2-lo-3amps.em-2-degree- . This means that at-T 20000K, the current density of a thorkum oxide catho- de will be equal to 3 = 4-10-lamps-cm-2, which corres- ponds to \-F T = 3.60 electron-volt at Ao = 120.4 amps. Card 4/5 cm-.2-degree-4. Yttrium. oxide cathodes are easily sin-  66325 SOV/162-59-1-25/27 The Thermionic Properties of Scandiumq Yttrium and Lanthanum Oxides tered on a tungsten core and have other advantages com- pared to the thorium oxide cathodes. There are 3 graphs, 1 table and 11 references, 9 of which are Russian, I German and 1 English. ASSOCIATION: Kafedra elektroniki Moskovskogo fiziko-tekhnichesko- go instituta .' (Chair ' of Electronics of the Moscow Engineering Institute of Physics) Lr SUBMITTED: JulY 199 1958 Card 5/5  DONDARENKO$ B.V. Thermoelectonic properties of titanium,, zirconium., hafnJ,=,. and thorim oxides. Nauch. dokl. vys. shkoly; radiotekb, i elektron. no.2030-335 159. NIPA 14:5) 1. Kafedra elektronnykh i ionnykh priborov Moskovskogo finiko- tekhr.icheskogo instituta. (Thermionio emission) (Metal oxides)  BONDARENKO, B.V. Temperature dependence of the work function of a tbermionic cathode. Trudy MYTI no.4:62-71 '59. (MIRA 13:9) (Thermionic emission) (Work function)  iOND Methods of determining thermionic emission constants of 8eml- conductor cathodest, Trudy WE no.4:72-84 159. (MIRA 13:9) (Semiconductors) (Work function) (Thermionie emission)  ~v AUTHORS: Dondarenico, D.V. and Tsarc TITLE: Thormo-electronic Characteristics of the IMetal 0--,zide-- of the III and IV Groups (Teri,-ioole1ztroi-.myye svoystva oir-lislov metallov III i IV grupp) PERIODICAL: Radiotelchnika I elelctrani.,za, 19591 Vol 4, 1'r 6, -,.p 1o59 - io6o (USSR) ABSTRACT: The imetal oxides Sc2031 Y,032 La2031 Tio 2-, Zro 2 and RfO 2, have comparatively high aieltii-i-r, 1points aild are 1--herefore of' Interest as the materials for the cathodes opcrating at high te.,ziperatures. ThO2is an oxide of the same type. The invest-4gation described aimed at determining the emissivity of the above oxides. The cathocl-- prepared from La.0- and Ti02 were activated at a temperature of 2 200 0K, 0while the remaining c.%---;des -,-jrere activated at 2 600 K. The current-temperature curves for all the materials are indicated in the figure on p 10.)g. I t is seen that the Riaharftn curves for -all the oxides exceLlt Card 1/3 Ti.02con:5ist of two linear portions. This is thought to  soviog-4-6-23/27 Thermo-elez;t.,,cjnic Characteristics of the Metal Oxides of the III and IV Ciroups be due to the dependence of the electrochemical potential of the semiconductor cathodes on the equilibrium concen- tration of donors within the investigated temperature interval (B.V. Bondarenko - Ref 10). The table on p 1060 shows the values of y and A obtained from the Richardson curves. The work function of the cathodes (PT is also shown in the table. From the investigation, it is concluded that apart froin ThO, and Y20 31 the hafnixua oxide Hf02 is the most promising material. This is principally due to the fact that HfO. forms very stable layers which are strobgly attached to the t-un-rsten core of the cathode. Card 2/3  sov/log-4-G-23/27 Theri,,ic-electronic Characteristics of the Metal Oxides of the III I and IV Groups There are 1 figure, 1 table and 10-refereaces, 4 of which are English, 1 French and 5 Soviet: 1 Soviet reference is translated from French and 1 from English. SUBMITTED: JanuarY 5, 1959 Card 3/5  Id - I 'Oka :0.1 S Pik. M IL s -p 31 1 HIS v 4" 9 1 1.3 3 E 140 2 -on all E 1H' -All it. Ir -j I vAl"Si 31 In ilu .3 .1 .81 131  3 6 (//.3 71 -94, / jc~ 84075 S/181/60/002/009/016/036 B004/BO56 AUTHOR: Bondarenko, B. V. TITLE: The Temperature Dependence of the Work Function~in Hot Cathodes of the Semiconductor Type PERIODICAL: Fizika tverdogo tela, 1960, Vol. 2, No. 9, pp. 2140 - 2151 TEXT: The author discussesthe different results obtained by measuring thermionio emission by employing various methods (Refs. 2-5)- For the purpose of explaining this problem, finely ground So 203Y Y2031 La20 39 TiO2, ZrO2, HfO., and basic Ba, Sr, and Ca tungstates of the type Me 3W06 (particle size < 1 V) were suspended in methyl alcohol and applied onto a 30 p thick tungsten band, which served as cathodes The teperature de- pendence of the work function TT was measured at 10-7 - 10- torr within "Oha temperature range of 300 - 20000K. Fig. 1 shows the function 12/3 = f(U k) for Y 0 and Ba WO Fig. 2 shows ~T (T) for Sc2031 Y2 03P a 2 3 3 3v Card 1/4  8h075 The Temperature Dependence of the Work S/181/60/002/oog/ol6/036 Function in Hot Cathodes of the Semi- B004/ '056 conductor Type La203v TiO 21 Zr02' Hf02 ; activation of the oxides occurred at 2200 - 2600'C. The lower values of FT relate to the maximum degree of activation of the Gathode, and the higher values to the stable state. Fig. 3 compares the current'aharacteriaties of the tungsten filament (T = 27000K) and the oxide-covered tungsten band (T - 3000K) at the be- ginning of the experiment with that after 60 min. Table I gives the thermionic properties of the metal oxides of the III and IV groups of the periodic systemg and Table 2 contains those of the tungstates. Fig. 4 shows the occurrence of the intrinsic conductance of Ba 3W03 at Tc,18000K. This effect is not observed in oxides. From these data the author draws the following conclusions: 1) The high emission of ther- mionic cathodes consisting of oxides of the III and IV group is based upon the fact that, in consequence of the activation at high temperature, free metal penetrates into the oxides. The oxide coating is then no pure semiconductor but a mixture with metal. 2) In the case of stable emission the values obtained for TV which characterize the temperature dependence Oard 2/4  84075 The Temperature Dependence of the Work S/181/60/002/009/016/036 Function in Hot Cathodes of the Semi- B004/BO56 conductor Type of the mean work function, agree with those obtained by changing the space charge- 3) The experimental values Of YT within the temperature range measured at a stable state of the oxides agree with the theoreti- s3ally expected temperature dependence of the electric potential in donor semiconductors. They are not influenced by the surface-state fields. 4) Between TT and the lattice constant aOA there is a qualitative con nection in the case of a cubic crystal structure. With increasing a0A, 6 'h AyT/AT rises, so that the thermionic constant A - Aoexp(-l/k)( yT/ T) becomes smaller, 5) The lattice constant of the oxides is reduced by a value, which is uniquely connected with the concentration of the excess metal it contains. The radiographically determined contraction of the lattice proves the occurrence of oxygen vacancies and also that the entire excess metal is in the lattice and not on the surface. 6) All eauations obtained by transformation of the theoretical emission equation with A = Ao = 120.4 a.cm- 2. deg-2are applicable only subject to certain Card 3/4  84075 The Temperature Dependence of the Work s/181/60/002/009 016/036 Function in Hot Cathodes of the Semi- B004/BO56 conductor Type restrictions. The only reliablR method is determining the work function by calculating it from j - A T4exp (-?T /kT) on the basis of the values 2] 0 measured a.cm and TOK. The author thanks Professor Boris for j E Mikhavlovich Tsarev for supervising this investigation. There are 4 figures, 2 tables, and 14 refewences: 7 Soviet, 3 US9 2 British, 2 German, and 1 Japandse. ASSOCIATION: Moskovskiy fiziko-tekhnicheskiy institut (Moscow Institute of Physics and Technology) SUBMITTED: June 5, 1959 Card 4/4  0e" 4" s/log/60/005/008/008/024 '~'3110 E14O/E555 AUTHORS~ Bondarenko, B,V., Ostapchenko, Ye.P, and Tsarev, B~M. ,rITLE~ Thermionic Proprrties of Alkali-Earth Metal Tungstates PERIODICAL; Radiotekhnik* i elektronika, 2960, V01,5, Noa~ pp.1246-1253 TEXTZ The work functions and structures of a number of compounds, listed in the three tables.. were studied by means of X-rays and electron-microscopy: The objects were, firstly, to find the barium tungstate compounds with optimum stability in vacuum at working temperatures of 1400-1700'K~ -iecondly, to find those with the best emission propertLes,, and, thirdly, to determine the effects of substitution of calcium and strontium for barium in the tungstates, The technology employQd has been previously destribed (Ref,l), It was found that these tungstates may be synthesized by sLntering in air, as well as j_n hydrogen as previously done, The high-temperature stabil),ty of' Ba 3W06 and BaWO4 was already known from the literature,- a new phase Ba2wo 5 is found to have the same property. A number of compounds has been studied for the first txme. It was found that Ba 3W06 on tantalum Card 1/2  I S/109/60/005/008/oo8/o24 E140/E555 Th6rmicnic Properties of Alkal.1-Earth Motal Tungstateg $,. has better emission properties than on tungsten, For the tantalum base the basit tantalate is superi.or to tung5tatc. There are 3 figures, 3 tables and 3 references: 2 Soviet and I non-Soviet, SUBMITTED,~ December 21, 1959 Card 2/2  83276 .T6, S/109/60/005/009/026/026 ?r3120 B14o/E455 AUTHORS: Bondarenko, B.V., Yermakov, S.V. and Tsarev, B.M. TITLEa Thermionic Propertiesilof Alkali-Earth Metal Tantalates PERIODICALs Radiotekhnika i elektronika, 1960, Vol.5, No.9, pp-1553-1555 TRXTs This is a continuation of earlier work (Ref.1) in which basic barium tantalate was found to have higher emission properties than barium tungstate. A table of the 22 compounds studied is given on P-1555. It is found that basic barium tantalate has higher emissivity than basic bakium tungstate but is less stable thermally. Its limiting iemperature is therefore 1500*Kv as compared with 1700 to 1800 X for the latter compound. There are 3 figures, 2 tables and 3 Soviet references. SUBMITTED-4 April 1, 1960 Card 1/1  29327 S11091611006101010261027 D201/D31~P AUTHORS: Bondarer-ko, B.V., Yermakovp S.V., and Tsarev, B.M. TITLE: Thermo-electric properties of barium hafnates and perrhenates PERIODICAL: Radiotekhnika i elektronika, v. 6, no. 109 1961, 1773 - 1775 TEXT: In conjunction with the results of study of thermo-electric properties of barium tantalates by B.V. Bondarenkop Ye.P. Ostap- chenko, and B.M. Tsa4ev, (Ref. 1: Radiotek ika i elektronika, 1960,, 5P 8p 1246) which were shown to be Aghtly befter than ihose of barium tungstanatep the authore give the results f their de- termino,g thermo-electric properties of barium hafnates of type (BaO)n (Hf02)m with n : m = 2 : 1; 3 : 1; 5 1; 7 : YV and of ba- rium perrhenates (BaO)n (Re207)m with n : m I Or 2; 2 : 1; 3 : 1; 5 *0 1; 7 : 1; The study of barium hafnates and rhenates with diffe- rent content of barium oxide was required to d*termine the influen- ce of barium oxide on the thermoelectric properties of complex oxi- Card 1/3 4/  29327 S/10 61/006/010/026/0t7 Thermo-electric properties of D201YD302 des and to find the composition of oxides which would be stable in vacuum at operating temperatures. A tungsten tape, cleaned by heat- ing in vacuo, was used as the base. The temperature was being de- termined by a tungsten iridium thermo-couple. The process of acti- vation of cathode consisted of prolonged heating with the outflow of emission current# starting; with the temperature corresponding to a low emission 10-8 - 10-7 ampere2 and ending at the tempera,.-ure beyonfpwhich the emission started to fall due to the increa8es i,.,)rk functionep. After the activation has been finished, the emission was measured within a wide range of temperatures after increasia~, it and decreasing until a stable and reproducible emission curr~.-;nt was obtained. All analyzed substances had a minimum of the work function, corresponding to that of a simple model of an n-type se- miconductor. The thermoelectric properties of barium hafnates ard rhtnates as obtained in the experiment are given in tabulated 'Lorn~ The results obtained show that as compared with those of tungsiena- tes and even tantelates of bariumf the rhenates~ and in pariieular hafnates of barium have somewhat better emission properties~ It is stated in concluBiong however, that until the above substances c-A rV Card 2/3  29327 S/10 61/006/010/026/027 Thermo-electric properties of D201YI)302 be recommended for use in thermal emission cathodes, further inve8- tigations into their evaporating and thermal stability properties have to be carried out. There are I table, 2 figures and I Soviet- bloc reference. SUBMITTED: June 159 1960 41 Card 3/3  16 16 S10581621000100910551069 A057/A101 AUTHORS: Bondar nko, B -._V,, Tsarev, B. M. TITLE. On the nature of temperature dependence of the work function of semiconductor thermocathodes PERIODICAL: Referativnyy zhurnal, Fizika, no. 9, 1962, 3, abstract 9-3-61 ("Tr. Mosk. fiz.-tekhni in-tall, 1962, V. 8, 14 - 2o) TEXT: Investigating thermoelectronic properties of semiconductor cathodes in a wide temperature range, usually a break* of Ric~bardsmb straight lines (RS) is observed. The breaks of straight lines for thermocathodes of the semiconduc- tor type have the same character; at low temperatures the'RS are much steeper than at high temperatures. It is.demonstrated that the behavior of experimen- tal RS for semiconductor thermocathodes can be explained uniquely by the ve:ria- tion of the electrochemical potential in a wide temperature range. A considera- -tion of the variation of the electrochemical potential in different temperature ranges makes it possible not only to explain the physical meaning of the values obtaineff from the inclination of the RS, but also to calculate from the experi- Card 1/2  S/058/6P,/000/009/055/069 ~On the nature of temperature dependence of... A057/A101 mental data the value of the external viork function, the energy of ionization of the admixture and its concentration for the semiconductor. There are 6 ref-~ erences. A. F. [Abstracter's note: Complete translation] Card 2/2  44198 B/109/62/007/012/020/021 D 271/P308 'AUTHORS; Bondarenko, B. V. and Yermakbvp S. V. TITLE: Thermionic properties of carbides.of metals belonging to groups IV and V PERIODICAL: Radiotekhnika i eloktronika, v. 7, no. 12, 19.62, 2099-2101 TEXT: Measurements of thermionic emission of some metal carbides are reported. Experimental diodes had cathodes of W tape with a thin film of investigated carbide on one aide.and a thermocouple ,on the other side, and Ta anodes. The effective work function was determined from measured values of temperature and emission cur- rent density. A linear dependence of work function on temperature was found in the temperature range investigated. The following va- -lues of the work function To + ~TT eV are tabulated: TiC: -4 TE 6T- + 1.10-4 .3-46 + 2.10 T (1300-- 11500K) and-3.6 T (1750. 2200 K).t Card 1/2  B/109/62/007/012/020/021 Thermionic properties of -to D271/D308 zrc: 3.24 + 2.10-4 T, HfC: 3.42 + 1.75-10-4 T, VC: 3.85, practically invariable in the range of 1300 - 21000K, NbC: 4.1 - 2.5-10-4 T, TaC; 3.98 - 1.5-10-4 To Work function values at 300 0K, 1400 0K and 20000K are also tabulated, as well as the carrier concentration at, 20000K. The sign of the temperature coefficient of the work func- tion 'depends on the character of doping ceniers: donor in metal carbides of IV group and acceptor in V group. Zr and Nb carbides are the most pro~iBing for use in thermionic cathodes. Current den- sity of 3.6 A/cm was obtained for NbC'at 20000K, There are 3 fi- gures and 2 tables. SUBMITTED; May 25t 1962 ;Card 2/2  BONDARENKO, B. V., "The use of rare-earth metals for thermionic cathodes." report presented at the Conf. on New Trends in the Study and Applicatiors of Raxe Earth Metals, Moscow, 18-20 Mar 63       L 15-57-1-291 Translation from: Referativnyy zhurnal, Geologiya, 1957, Nr 1, P 40 (USSR) AUTHOR: ondarenko,-- B.-V. TITLE: Geologic Explanation of the Magnetic Field at the Pripyat'Depression in the Southeastern Part of the BSSR (K voprosu geologicheskogo istolkovaniya magnitnogo lya Pripyatskoy vpadiny vYugo-Vostochnoy chasti BSSRTo PERIODICAL: Izv. AN BSSR, 1955, Nr 1, pp 53-61 ABSTRACT: Three types of interrelationships become apparent when the geological structure of the Pripyat depression in BSSR and the geophysic9data are considered togethet: 1) Intense gravitational minima, coincident with a depressed and undisturbed magnetic field, are located in the district of granitic rocks over a relatively Card 1/2 large section of the Precambrian foundationi- 2) Intense  Geological Explanation of the Magnetic Field (Cont.) 15-57-1-291 gravitational and magnetic maxima correspond to the distribution of gabbro rocks at the protrusions of the Precambrian foundation. 3) Intermediate zones or stages of the gravitational field and magnetic maxima correspond to the distribution of the effusive rocks associattd-with deep tectonic faults in the,,pyrstalline I foundation, Card 212 V. V. K. %f-