SCIENTIFIC ABSTRACT BORISOV, V. T. - BORISOV, Y.

Document Type: 
Document Number (FOIA) /ESDN (CREST): 
CIA-RDP86-00513R000206410008-0
Release Decision: 
RIF
Original Classification: 
S
Document Page Count: 
100
Document Creation Date: 
November 2, 2016
Document Release Date: 
June 9, 2000
Sequence Number: 
8
Case Number: 
Publication Date: 
December 31, 1967
Content Type: 
SCIENCEAB
File: 
AttachmentSize
PDF icon CIA-RDP86-00513R000206410008-0.pdf2.41 MB
Body: 
AFFT /1-D/-7SD-,3/!JP, D- U Ag -CE N_ NR: AT3001926 S129 XC SSIW 12/ 2/000/00010 AUTHORS; BorW-0 DukbLin, A. I. 'TITLE: Effect of the thermal regime on the shape of columnar SOURCE: Kris tallizatsiya. i fazovyye perekhody., Minsk, Izd-vo AN BSSR, 1962, Z85-288 'TOPIC TAGS: crystal, crystallization, crystallography, maximum-rate principle,: ,front, growth, growth rate, spherolite, salol, fissure.. ABSTRAGT: Thd paper describes results of an experimental investigation of the maximum possible rate of displacement (RD) of the crystallization (CR) front (F) under given external thermal conditions. The RD of the CR F depends'on the degree of supercooling at the surface of the growing crystals. The tests were made on salol. The crystal growth was observed and photographed for different bath tem- peratures (T). It is note(I that the structures characteristic for each T are readily 'reproducible. The multiplication of the number of crystals per unit length of the CR -F appears to be due to the formation of fissures, near which fan-shaped gro ups -,of . small slightly-dis oriented crystals are formed. A decrease in the number of crys- .tals per unit length is occasiofted by the development of pinching-out processes. q .Card J/ 2 A L 19392-03 ACCESSION NR: AT30019Z6 The results of the present study show that the equilibrium between these two counteracting factors is regulated by the heat regime in accordance with the princi-' ple of maximum growth rate. A schematic graphic plot shows that the rate of growth of the crystals vs.T achieves a certain plateau-like constant region with a drop-off at either side. Experimental data supporting this conclusion are cited. It, is postulated that the appearance of the plateau is linked with a change in the struc- ture of the CR F and, more specifically, a comminution of the crystals with a de- crease in the bath T. It is also concluded that if an experimental determination is made simultaneously of the RD of the CR F and its structure as 'fuhctions of the bath T, then the crystals must be large on those segments of the curve where an in'- crease in rate of growth occurs, must then progressively decrease in size as the T' is reduced over the segments of constant rate of growth, and must invariably have a fine structure (with~ a planar CR. F) along the descending branches of the curve.- The experimental results of the measurements of the linear rate of growth and of the size of the crystals, adduced in a graph, support this postulated relationship. Ority. art. has 4 figures. ASSOCIATION: none SUBMITTED; 00 DATE ACQ: 16Apr63. ENCL: 00 SUB CODE: CH, PH, MA NO REP SOV; 003 OTHER: 000 Ccirrj 2 / Z BORISoV,W.,,-kand.fiziko-matematicheskikh nauk; BUKH.TV, A.I., kand. fiziko-matematicheskikh nauk Mchanism, of the growth of metal crystals. Probl.metalloved.i fiz.met. no.7:363-371+ 162. (I-MU 15:5) (?btal crystals--Growth) ~,-BQUSOVT-VwT.-,-kanff-.fizik,o-matematicheakikh nauk; GOLIKOV., V.M., kand.tekhn. nauk; SHCBERMIZEKIY, G.V., kand.fiziko-matematicheakikh nauk Meet of the interface on diffusion in polyorystals,. Probl. metalloved.i fiz.rwt. no.7:501-521 162. (MM 15:5) (%tal crystals) (Diffusion) S/07o/62/007/002/012/022 4, wd o E,13'-'/El6o AUTHORS: Borisov, V.T., and Dukhin, A.I. TITLE. Influence of thermal regime on the structure of the crystalline front in one-component systems PLRIODICAL: Kristallograf.iya, v-7, no.2, 1962, 260-285 TEXT: The principle of the maximum rate of growth is numerically applied to establish the relationship between the dimensions of the crystals in the crystallisation front and the rate of advance of.the front (velocity V). In the part of the theoretical curve of V against supercooling, the appropriate form for the crystals to take where the curve rises is that of coarse needles, and in the part of the same curve where V Ealls, fine needles. The change of the dimensions of the crystals in the intermediate region leads to the appearance of a plateau. Observations made on crystals of salol growing in a film between two'glass plates or on a thick copper plate confirm the theoretical deductions. There are 5 figures. Card 1/2 Influence of thermal regime on the ... S/07o/62/007/002/012/022 E132/Ei6o ASSOCIATION: Institut metallovedeniya i fiziki metallov (Institute of Science of Metals and Physics of Me t a 1s,) Tsentrallnogo nauchno-issledovatellskogo instituta chernoy metallurgii im. I.P. Bardina (Central Scientific Research Institute of Ferrous Metallurgy imeni I.P.- Bardin). SUBM'ITTED: June 27, 1961 Card 2/2 32816 0 1 !M~ 8/020/62/142/001/912/021. B104[B102 4UTHOR: Borisov, V. T., no TITLE Ki tko diag;amo of alloy crystallization PEAXODICALt.: -Akademiya nauk SSSR. Doklady,. v. 142, no. 1, 1962, 69-71 TEXT:,, On the:condition that the compositions of the liquid and solid phases reimaih-unchangedt equations describing the velocity, v, of ~he cry 'dtallizatioh front were derived for a binary alloy within the thermo- i nam os of non-equilibrium processes: y RT -y)) + q, (I TIT,) 1, v (I -7y) .;B, (I. x) Jx2V y2V' In ((1-X)/(1--; (4), y)tr + RT IMWY) + qb (I = Tffb) I = vy. ,where X and y denote the concentratigpe .. of the component b of the bina .11 ~ ry allo'y' In,the liquid and the solid Rhg-opi respectively, V is the energy of displacement. The coefficient,s,B 4fB , related to atomic mobilitiest b are functions of the composit ~Pvl jAd other variables. If v - 0, (4) v.do*scribes,the alloy e ilibtiiA~"4Aagram. If v / 0, (4) determines the qu stable concentrations in'th- e *4",6s'contacting at an interface moving at Card 1/Z 328A 8/020/62/142/C)OI/012/021 Kinstio. diagrams of alloy B104/B102 a.gi.len:velocity, -For a given Y, the funotions x(T) and y(T) represent -non -equilibrium diagram. The diagrams as a whole determine the o~xatallitatio:n kinetics of.tbe alloy under different conditions. The derivatives (ax/av)-' and (ay/ov) indicate the deviations of the non- vao V=O equilibrium solidus and liquidup;lines from those of equilibrium. If the state of the crystallizing alld~ is described by a phase point on the equiiibrium s6lidus line, crystallization is always accompanied by a change.in composition. There are 1 figure and 7 references: 4 Soviet and non-Soviet.. The reference to the English-language publication reads as: follows: K. A Jacksong Canado . Fhys.,.~,61 03 (1958)- ASSf)CIATION: Institut metallovedeniya i fiziki metallov Tsentrall~ogo nauchno-issleaovateilskogo instituta chernny metallurgii I. F. Bardina (Institute of Metallograpliy atid Physics of Metals of.the Central Scientific Research Institute of Ferrous Metallurgy imeni 1. P. Bardin) -PRESENTED; July 20, 1961p by G. V. Kurdyumov, Academician SUBMITTED; July 14, 1961 'Cara .2/2 34747 S/020/62/142/003/014/027 B142/B138 AUTHOR: Borisovs V. T. TITLEI'- Two-phase zone during crystallization of an alloy in unsteady conditions PERIODICAL: Akademiya nauk SSSR. Doklady, v. 142, no. 5, 1962, 581-583 TEXT: The diffusion supercooling which always precedes a moving flat interface diminishes as the unevenness of the crystallization front increases. The two-phase zone formed is thus due to the,striving of the crystallizing system toward a state of equilibrium. Assuming the establishment of such equilibrium throughout, the liquid, solid, and two-phase parts of the alloy can be described phenomenologically. The present paper deals Pith unstead conditions when the crystallization front shifts according to the t 1~2 law and all functions describing the 1/2 state of the alloy depend only on X~t . The equations for the diffusion, heat conductivity, and liquidus curve of a two-phase medium e(SC')'-2tCS'+2e(SC)'=O, T'+2~(S'+T')=O, T=T.4-C. (3) Card 1/4 S/020/62/142/003/014/027 Two-phase zone during crystallization... B142/B138 are obtained after introducing dimensionless parameters. If the temperature is eliminated, the equaiions e(SC')'+2E((1-k)S'C+.SC')=O, C'+2E(S'-C'-Y=O'. (4) are obtained for the two-phase zone, the solution of which, C C (~; tit C" P"), S = S (t; ~1' Ci, PI) (5) - I I determines the section, concentration and temperature in the section 1/2 0 (liquid zone). x/2(at) The solutions of the first two equations, ECII + 2~cl = 0, T"+ 2 T' 0, for the liquid zone give the coordinates of the starting point of crystallization in the equilibrium diagram. Together with T 2 determined from the equation for the liquidus curve, concentration C2 and the section S 2 at the end of the two-phase zone give the end point. The solidified alloy is inhomogeneous. The distribution function for the crystallizing liquid is: Card 2/4 VIV S/020/62/142/003/01.4/027 Two-phase.zone during crystallization... B142/B138 L(C) - -dS/dC + S*6(d - C2). The Eiolidified alloy shows composition 2 , inhomogeneities in the direction traversed by the crystallization front. The temperature equation is solved for, the solid zone in 04(1.t.. T(O) is the constant temperature at the outer boundary of the ingot. The range of the two-phase zone is determined by eliminating C and from cl-co *(t) =, To-rA+C1+V(V To-TA+Ct (I - k) C1 ,T W rA - T (0),- C, (S) Ft- _kM If T the initia .1 temperature, is high enoug .h, no transition zone will vl~ be' formed as the third equation will not then be fulfilled. L Abstracter-s note: To understand this paper Ref. 2 (V. T. Borisov, DAN 156, no. 3, 1961) must be used,, as the definitions are given there, There are 2 Soviet references. Card 3/4 . . 9/020/62/142/003/014/027 Tw'o-p)4aBe zone during crystallization... B142/B138 ASSOCIATION: Institut metallovedeniypL i fiziki metallov Tsentrallnogo nauchno-issledovatel'skogo instituta chernoy metallurgii im. I. P. Bardina (Institute of Metal Science and Physics of Metals of the Central Scientific Research.Institute of Ferrous Metallurgy imeni 1. P. Bardin) PRESENTED: SUBMITTED: August ~1, 1961, by G. V. Kurdyumov, Academician August 14, 1961 Card 4/4 BORISOV, VJ.. Labor productivity and how to increase it in'the production of gas. Gaz. delo no.10:67-70 163. WRA 17:4) 1. Shebel-inskoye gazopromyslbvoye upravleniye. BORISOV, V.T.; VINTAYKIN, Ye.Z.; POTAPOV, L.P. Characteristics of the thermal vibration spectrum. Fiz. tver tela 5 no.9t2530-2537 S 163, (MIRA 16:10) 1. Institut metallovedeniya i fiziki metallov TSentrallnogo nauchno- issledovatellskogo ihstituta chernoy metallurgii im. I.P.Bardina, Mskva. BORISOV, V.T.- 6#iises leading to-failure in starting the engines of TE1 and TE2 dfosel locomotives. Elek. i tepl. tiaga 7 n0-4:34-35 Ap 163. (NIRA 16: 5) 1. Pbahchestvennyy mashinist-instruktor depo Moskva~Kiyevskaya- Passazhirskaya. ,4Diesel locomotives) L4' ti/ V2U/ 0.~/ jOOb/012/ 27 t :L69m-63. LW(q)/E-W(WBDS ~AFFTQ/ASD JD OEM Ir. , and Shcherbeainsidy. G. V. Borisov, V. T., Golikov A, * - L TITLE: Statistical calculation of the self-diffusion coefficient in metals FMIODICAL: Akademiya Milk SSSR~. Dcklady- :v. 1491 no. 6, 1963, 1391-131-0 TM: The aralysis. of experimental results on the basis of the for=a1a of diffusion coefficients provided by the theory of absolute reaction rates does-not nake it possible.to directly associate the values of the preexponential factor and activation energy with soma definite physical characteristics ct a sifostance. This .~is achieved by more detailed analysis of activatea state on the basis of a suitable modell or a statisticall calculation. Therefore, the authors describe a statistical -en~ tion of self-diffasion of atoms over the vacancies or positions of penetration in pure metals or weak solutions. A formda for the equilibrium concentration of vacancies is presented. It is found that the coefficient of diffusion over the vacandies does not explicitly depend on the characteristics of vacancies in equilibrium stat e but is determined by the potential energy and normal frequencies of activated -state. There are 2 figures. A.Ssocnwioll: Institut metallovedeniya i fizihi metal-lov Tsentral'nogo naudono- :Lssledavatellskogo-instituta.chernoy mettallurgii, im. 1. P. Bardinna U3a5titute- .of Matauosra hy~and Metal Mnics, Central Scientific P Research In3titute of Ferrouslietallurgy imeni 1. P. Bardin) StaMITrE D: December 4J. Card 1/1 BCRISOV) V.T. Mechanism underlying the normal growth of crystals. Dokl. AN SSSR 151 no.6tl3ll-1314 Ag 163. (MHU 16:10) 1. Institut metallovedeniya i fiziki metallov TSentrallnogo nauchno-issledovatellskogo instituta chernoy metallurgii im. I.P.Bardina. Predstavleno akademikom G.V.Kxtrdyumovym. BO.Tf T.5 O'~ ; T 1 9 V~T, (YQskva); &OLIKOV, V,YI, (Mosh-va),% DUP114N, G.N. (Mosklra) Letermining the coefficients of' diff-usilon In alloys in presence r, of Several phas-Is. Tzv, AN SSSR~ mete t gor. delo no.41:147- 152 JI-Ag 164. (m-rRA 17-.9) - m BORISO GOLIKOV, V.M.; DUBININ, G.N. Kinetics of difftision in binary ejyr-t,5mEi irk 1,he prc;ence of several phases. Fiz. met. i motallove~d. 20 no.3-69-77 JI 165. J_ (~j TRA :L8;11.) 1. Institut metallove&rdyit- i fizik- wmud3ov Moak-;a; TSentrallnyy Ins,,_111tut chernoy metallurgii imeni I.P.Baxdln,~ i Mvskuvskiy aviatsionnyy institut imeni, S.OrdzhonikJdm,. Unit for cooling,test pieae3 down to low temperatures. Zav. lab. 31 no.2s232-233 165. (MIRA 18-,7) 1. Moskovskiy institut khimichoskogo mashinostroyaniya. GOLTKOW, V..M.; BORISOV, V.T.; SHCHERBEDIMEY, G.V. All-Union scientific conference on diff'usion in metals ind s1loys. Hatalloved. I terms obro met, nos 2-58-61 7 165. (MIRA 18i12) F,'.%TT(m)/EV1P(t)/E**2I IJP(c) FDN/JD/JG/I)j- ACC NR: A116027601 SOURCE CODE: Ult/0126/66/02,2/001/0159/0160' AW'1110131: Borisov, V. T.; Goli1iov, V. M.; SlicherbodinsMy, G. V. ct ORG. TsN RMETim. I. P. Bardin TITLE: Diff'usion bf niolybdoniiiii in iron and in ui iron-niolybdenuin alloy SOUB'CE: Fizika inctallov i inctallovedeiiiye, V. 29", no. 1, 1966, 159-160 TOPIC TAGS; metal diffusion, molybdenum, surfaceactive agent, molybdenum containing alloy ALBSTRACT: R is of interest to investi-ate the diffusion of a surface-active componcnt e in: alloy alroady containing the same component. Theory indicates that for surface-activ su stances, undcr the conditions of a Ilicrinodynainic cquilibrium, the coefficients of volume dif- fusion and diNusion. along -rain boundaries should not inarkedly differ from each other. If, ~on 00 the other hand, the coniponcnt diffuses throigh a pure solvent, it chiefly penetrates along 0 Lie -rain boundaries. Tbereforc, if I-lie concentration of the active element' is increased (to its equilibrium value), its mobility along the grain boundaries must decrease. L%,Io is a surface-, c' -active element with respect to Fe. In this connection, the authors investigrated the diffusion L 0902o-67 -ACC NR,_'_AP602780l_ 96 of Mo (i. c. of the radioactive isotope i1do electrolytically deposited on the surface of speci- 111clis) hi polycrystalline specimens (witli nearly uniform grabi size: 5-10 P) of pure Fe and Fe-Mo (0. 7% Mo) alloy. The mean diffusion coefficient Dav) avera-ed for both volume diffu- sion and diffusion alonrr grain boundaries, was determined by larninar analysis, while the 0 0 coefficients for volume diffusion D and diffusion alon- -rain boundaries were separately Vol 0 0 determined by I-lie absorption-ldnetic method. Findings: for diffusion of Me in pure Fe; D av 0. "a c%p (-749, OOO/RT), and Dvol = 7. 8.103 exp (-73, OOO/RT). For diffusion of Mo in Fe-Mo alloy: Dav = 2.24-102 ex-p (-64, OOO/RT) and D Vol = 1. 3-104 exp (-75, OOO/RT). The temperature dependence of D aV and Dvol (Fig. 1) indicates that the values of Dav, determined by laminar analysis, are higher, and the activation energy is lower, compared Nvilln I-lie corresponding characteristics -for purely voliune diffusion. Tbis is associated with the effect of grain bounda- ries, which is n-iuch smaller in the case of Une Fc-'Mo alloy. And indeed, the findings ob- tained by the absorption method indicate that, while activation energy and )Vol are similar in both pure Fe and in Fe-Mo alloys the mobility of Mo atoms along grain boundaries is higher in i2iir-c Pe'tlian-in UI-e-_ F e_-~.ML6 alloy. These findings confirm the above reasoning on the effect of surface-active elements. Curd 2/3 i. oc)o.-,o-67 ACC NR- Al"6027801 - gig va /So*" b 10?* .0 950 S50 101 -12 MO-0 1. Temperature dependence of D., (a) and Dvol (b) for molybdenum: I - purc Fc; 2 - Fc-Mo; 2a - Nvidth of inter- granular layer; 0 = Dl/D (DIis the cooffi cient of diffusion along grain boundaries). 9 104 SUB CODE: 11P 20/ SUBAd DATE: 26Jun65/ ORIG REF-. 004/ OTH REF: 001 Card 3/3 nst BORISOVP, V.T.; DUKHIN, A.I.; MATVEYEV, Ytt.Te. Problems in the theor7 of'orystal grovth in metal systems. Probl. metalloved. i fiz. met.- no.8t269-280' 164. (MIRA 18s7) BORISOV, V.T.; GOLIKOV, V.M.; SAVILOV; Ye.S.; SHCHERBEDINSKIY, G.V. Studying the diffusion of 'carbon in iron. Probl. metalloved. i fiz. met. no.8-.305-310' 164. (MRA 18:7) BCRISOV V.T.,; VINTAYKIN..''Yo.Z.; POTAPOV, L.P. a-- Determining the characteristics of the spectrum of thermal vibrations by X-ray measurements. Probl. metalloved. i fiz. met. no.8:413-422 164. (MIRA 18-7) 1 V X-ray diffract;on !"IdY of PCTSill- c V no. 363-364' Mly '64. J! 11 IRi17 f,j jj~ akanym. BORISOV,,V.V., inzh., red.; NEVIROVSKIY, B.S., kand. voyen. nauk, red.; LETSKAYA, N.M., inzh., red.; SHIFRIE, A.Sh., inzh., red.; RUDENKO, L.D., inzh., red.; DYATLOV, T.D., inzh., red. [Construction specifications and regulations]Stroitellnye noriiV i pravila. Moskva, Stroiizdnt. Pt.3. Sec.D. ch.11, Pt.3. Sec.M. ch.4. 1964. 011111A 18:4) 1. Russia (1923- U.S.S.R.) Gosudarstvennyy komitet po de- lam stroitel'stva. 2. Gosstroy SSSR (for Borisov). 3. Na- uchno-issledovatellskiy institut organizatsii, mekhanizatsii i tekhnicheskoy pomoshchi stroitellstvu Akademii stroitell- stva i arkhitektury SI;SR(fnr TIPTPirovskiv ,, Shifrin). 4. Go- -ildarstvennyy proyektno-iz,-s'.ZLL,.a.Llskiy.i.nauckmo-issledova- tellskiy institut Grazhdanskogo Vozdushr.,ogo Flota. (for Letskaya). 5. Proyektnaya organizatsiya, Gop,idarstvennogo komiteta, po sudostroyeniyu SSSR (for I~,at-ov,,4udenko). BoHJ-'-VV Valvr'j~y Voo! I I-vc,-,i i, 1,,; BALWN, Kh V, [Miracles performei w~th:)irt I'miracles"- with acidanda al s:~ribing ohemi~,al exporimpnts] Chudessa Wz 11-c-budes"; s pri- lozheniem c-pisanila hhlm-,cht-skakh Leningrad, Cb.--v~-, "Znanie" R.SFSR, 1965. 39 P. (mm", ]~:IiD) AID P 2862 Subject USSR/Engineering-Electricity Card 1/1 Pub. 28 - 2/7 Author : Borisov V V Title : Utilization of wind energy on the main pipelines Periodleal : Energ. byul. 9, 10-12, S 1955 Abstract : The author describes several wind-motor installations of 0.1 kw and up to 1.0 kw generating capacity for lighting and other purposes. They also supply current for anti-corrosion protection of the pipeline in those spots where a local source of electric energy is lacking. Three pictures and 1 table are attached. Institution : Central Aero-Hydrodynamical Institute im. Zhukovskiy (TsAGI) Submitted : No date 3DRISOV, Y.Y., Ingh. IsTing underwater pipeline* byAhe method of drawing. Biul. Btroi. tekh. 12 no.1:14-15 A 155. (MIRA 11:12) 1.Ministerstvo neft M oy prouVehlennosti SSSR. (pipelines) BORISOV, V.V. Washing paraffindepoette from main oil pipelines. Neftianik 1 no.11:18 N 156. (KM 9:12) 1. Starshiy Inzhener otdala okepluatateit magistridinykh trubo- provodav Glavneftesbyta Ministeretv& neftyanoy promyshlonnosti. (Pstroleum--Pipelines) BDRISDV-0-7 Y Inzhener. Electrical protection of pipeline$ against corrosion. Rnergetik 4 no,7:21-22 Jl 156. (MLRA 9:9) (Pipelines) (Electrolytic corrosion) BORISOV. V.V., inzhener. Blectric welded pipes with spiral joints for pipelines. Gidr.strol. 25 no.10:56 N '56. (MIRA 9-12) (Pipe--Welding) B'QA'ISQVt,,j'Wji3'd.r TaalI.'jWlch; NOTIWF, KeM., lush., vadashchly red.; Pcwsi*~~ciAe-'- -tek-hu. red. [Repalri of p1pallneal Ramat magistrallm7ich traboproyodav. I ' hno-takhn. fzd-vo neft. i gorno-toplivnoi 11 v oskim*1 Goo. M lit-ry: 1958.MIO,08 p. (retroleumi-pipalluen) (XIBA II.-q) BORISOV, V.V., inzh. - -- WwwA0w--%w MU-353 excavator. Stroi.truboprov, 3 no.12:26-27 D '58- (MIRA 12tl) (1xcavating machinery,) 14/k 5) AUTHOR: Borisov, V.V. SOV/93-58-12-Wl6 TIM: Aerial Supervision of Main Petroleum Lines (Vozdushnoye nablyuderdye za magistrallm;ymi nefteprovodami) PERIODICAL: Neftyanoye khozyaystvo, 1958, Nr 12, pp 67-69 (USSR) ABSTRACT: The length of Soviet main pipelines exceeds 13,500 km and together with the connecting local pipelines exceeds 15,000 km. These pipelines are main- tained by about 500 men living in settlements near the tracts. This type of super- vision was satisfactorr 5-10 years ago when the diameter of a pipeline did not exceed 10-14'! but is unsuitable for pipelines of 20-2811 and larger diameters. Under present maintenance conditions losses due to leakage amount to hundreds of tons per 1 kn of a 28" pipeline contain-lng 278 cu, m of peturoleum product. There- fore, they suggested that the main pipelines be supervised by means of two-seater Ka-15 gyroplenes. One gyroplane can replace 25 maintenance men and guard such pipelines as the Ufs.-Chelyabinzk (400 km,), Ufa-Kizbyahev (525 km),, Allmetlyevsk- FaVbysheY--sex&t6v - 1650 km), and Allmet' yevak-Gorlkiy (580 km). Card 1/1 9(2) SOV/92-59-3-17/44 AUTHOR: Borisov, V.V., Staff Member TITLE: Ultrasonics Help Pipeline Personnel (Ul'trazvuk na sluzhbe u truboprovodehikov) PERIODICAL: Neftyanik, 1959, Nr 3, p 18 (USSR) ABSTRACT: According to this article, the determination of the length of the pipeline section which is to be overhauled is a very important job. Until recentlythe thickness of pipes and the depth of their internal cavities have been determined on the basis of the sound produced by knocking the outside surface of the pipeline. This method was inaccurate and as a result it was often necessary to repeat the overhauling of the pipes. Now, an ultrasonic defectoseope of the UZD-7N type is being used for this purpose. This instrument operates according to laws similar to those of geometric optics. The- ultrasonic signals are depicted by luminous curves. The use of the instrument contributes to the safety of overhauling operations and makes the overhaul of pipelines much more Card 1/2 Ultrasonics Helps Pipeline Personnel SOV/92-59-3-17/44 expedient. It is expected that the ultrasonic defectoscope will find wide application in refineries and bulk plants, and will help to reveal defects in the walls of various apparatus, storage tardcs, pipelines, etc. ASSOCIATION: Roaglavneftesnabsbyt (The Rosglavneftesnabsbyt Organization) Card 2/2 28(1) SOV/92-5-9-3-23/44 AUTHOR: Borisov, V.V., Staff Member TITLE: Trunk Pipelines Should Be Provided With Photo- telegraphic Communication (Fototelegrafnuyu svyaz' -- na magistrallnyye truboprovody) PERIODICAL: Neftyanik, 1959, Nr 3, pp 20-21 (USSR) ABSTRACT: The author states that the pipeline network of the Soviet Union extends for many thousands of kilometers and is now used for transporting hundreds of thousands of tons of petroleum from oilfields to refineries as well as carrying petroleum products from the refineries to the regions where they are consumed. The job of transporting petroleum by trunk pipelines, distributing various petroleum products. and transshipping them requires the services of highly skill6d personnel. Orders issued by the management of pipeline or- ganizations are usually transmitted to transshipment points, control offices and terminals by telephone. This takes much time and interfers with the primary duties of the pipeline personnel. The control of pipeline operations could, however, easily be facilitated by installing phototelegraphic apparatus Card 1/2 Tr;Lnk Pipelines (Cont. ) SOV/92-59-3-23/44 at pipelines. With their help orders and instructions could be transmitted. Presently# Soviet Industry turns out phototelegraphic apparatus of the FTAP type, FTAM-2 type, and the "Record" type. These apparatus transmit texts, tables, sketches and maps using existing wire lines. They are fed by a.c. current with 127 or 220 voltage and a frequency of 50 cycles. The carrier frequency is 1900 cycles. These apparatus are designed to transmit black-white pictures which are re- produced at the receiving point on a photographic or electro- chemical paper. The text and pictures can be transmitted di- rectly to the receiving point at a distance of 100-120 km. The apparatus could also be useful for connecting oilfield administrations with the oilfield units they control. ASSOCIATION: Rosglavneftesnabsbyt Card 2/2 ]BORISOV V.V. inzb. The MU-353 excavator for main pipelinee. Bezop.truda v prom. 3 no.l: 24-25 Ja 159. (MIR& 120) (Pi elines--Maintenance and repair) Mcavating machinery) MITROFANOV, S.I.-, MILIK-STIPANOV. Tu.G.; SOKHIN, Yu.Mq; BORISOV, V.V. Ore dressing on a shaker trough. Myst-met. 33 no.1!17-22 ja 6o. (MM 13:5) (Ore dressing- A uIpment and supplies) B tlSOV_, Vl~dimir Vasillyevich- S=AUIIK, G.Ta., vedushchiv red*; TROFIMOV, A.Y., tekhn.red. (Remote control of pipelines] mgistrallnya truboprovodami. neft. i gorno-toplivnoi lit-ry, Dispetcherskoe upravlenie Koskva, Goo.nauchno-takhn.izd-vo 1960. 119 p. . (MM 13:12) (Petroleum pipelines) (Remote control) S/137/61/000/011/037/123 A060/A101 A=ORS: Mitrofanov, S.J., Melik-Stepanov, Yu. G., Sokhin, Yu. M., Borisov, V. V. a4 TITLE: On a new application of movable heavy media for -the concentr don of minerals with specific gravity exceeding three PERIODICAL: Referativnyy zhurnal. Metallurgiya, no. 11, 1961, 7, abstract lIG50 ("Nauchno soobshch. Yakutskiy fil. Sib. otd. AN SSSR", 1960, no. 3, 50 - 61) TEXT: One of the problems of this work was the finding of the cheapest-, but sufficiently efficacious materials for the moving layer. The following ore mate- rials were studied: hematite-magnetite dredge slimes, magnetic fraction of jig- ging concentrate - 1 mm, ground up magnetic fraction of the jigging concent-rate I mm and even - 1 + 0.5 mm. The best results were obtained with a rnoviAg layer of ilmenite -magnetite material. Its high.9pecific gravity of 4.75 makes - t pos- sible to vary the specific gravity of the moving layer between wide limits depl.ne- ing on the grist fineness. In course of the investigations the necessary rq- _ eters were studied. When the volume of the weighting compound is great "'ier tne Card 1/2 rsr S/137/61/000/011/037/123 On a new application of movable heavy media... A060/A101 vibratory action on the heavy moving medium in 11 HVI ("Vzh") apparatus acts to render it denser and raise its specific gravity to 3.15 - 3.2. An electronic ap- paratus has been worked out for the control of the specific gravity of ;L-.he medium, using a capacitance transducer as the density indicator. A semi-industrial in- stallation "VZh-311 has been designed and constructed, and is being tested. The schematic diagrams are given. A. Shmeleva [Abstracter's note: Complete translation] Card 2/2 22487 S/186/61/003/003/005/018 E071/E435 6~J, J oU 0 AUTHORS: Karpacheva, S.M., Adhmskiy, N.M. and-Borlsov, V.V. TITLE: Extraction of Cesium With Carbonic Acids PERIODICAL: Radiokhimiya, 1961, Vol.3, No.3, pp.272-283 TEXT: The distribution of microquantities of cesiuml34 between its aqueous solutions and fatty acids (or solutions of fatty acids in benzene and isooctane) was investigated. A mixture of fatty acids obtained by redistIlling a technical fraction (C3-- C9) was used. Specific gravity of the mixture was 0,917 9/cm i refractive Index was 1.4260; mean molecular wt. was 1401 Acidity was 6.59 M. The extraction was carried out at 25%. The contact time was 30 minutes, settling time not less than 12 hours. The distribution coefficients a were determined as the ratio of the y activities of the organic and the aqueous phases. The y activit4 of aqueous solutions before extraction was 1.2 x 10- g/equiv. of Ra; the pH of the aqueous phase was varied by adding various quantities of NaOH or HN03- The starting solution was prepared solving chemically pure sodium nitrate to which radioactive CalAywas-added. The experimental data are C&rd 1/6. 1/ 22487 S/186/61/003/003/005/018 Extraction of Cesium ... E071L/E435 tabulated and also given in Fig.1 to 4. Fig.1 is a plot of log a vs pH with the NaN03 concentration as a parameter, Curves 1, 2 3 and 4 relate respectively to 0, ZN, 4N and' 6N . Fig.2 gives I;g a for Cs vs pH of the aqueous phase for various diluting medi&-. (l - 4 isooctane, (NaN03) = 0; 5 - 8 benzol (NaN03) = 2 N). Fig.3 gives log a for Cs vs log (HR)O, i.e. the logarithm of.the concentration of the monomers in the diluent for pH = consts 1 - 4 isooctane (NaN03) = 09 pH = 50; 5 - 8 benzol (NaNO 3) = 2 N, PH = 4.4. Fig,4 shows KI = (S)B/(HR)o Vs the NaN03 concentration in the aqueous solution. On studying the dependence of the distribution of cesium between the aqueous phase and fatty acids on the concentration of sodium nitrate within a range of 0 - 6 M and PH of aqueous phase within a range of 0,,2 to 6.3, it was established that the dependence of logarithm of the distribution, coefficient on pH is not completely covered by the linear sector, characteristic for the middle part of the curves. A:t all concentrations of sodium nitrate, the curves obtained begin with a section with an insignificant gradient and end with a sector on which the increase of the distribution coefficient stops and then Card 2/,k U 444,-,( S/186/61/003/003/005/oi8 Extraction of Cesium E071/E435 even begins to decrease. It was found that the slope of the middle section of curves log a =- f(pH) = about 0.9 . It was shown that the deviation from its theoretical value of 1 can be explained by the fact that with increasing pH the concentration of HR in the organic phase decreases. At pH above 5, the coefficient of distribution passes through a maximum; this can be explained by a considerable decrease in the concentration of HR due to the passage of sodium Into the organic phase and increase in the solubility of water in the latter, As regards the dependence of the distribution of cesium between the aqueous phase- (at a constant ionic force and pH) and solutions of fatty acids in benzene and I-sooctane on their concentration In the organic phase, it was found that for the section with a proportional relationship log CL Z-.f(PH), the slope of the curves log a = f flog(HR)OI is nearly 8. Therefore, it is possible that on extraction of cesium, the compound C5R'7HR is formed in the organic phase. It Is shown that with increasing concentration of sodium nitrate in the aqueous phase the coefficients of distribution are decreAsing. This can be explained by the Card 22' 87 S/189/61/003/003/005/Oi8 Extraction of Cesium E071/E435 foiiowing two main causes.- a decrease-in the solubility of fatty acids in the aqueous phased decrease in the activity of cesium with increasing ionic forc:e of the aqueous solution. On studying the distribution of fatty acids at equilibrium with aqueous solutions containing various amounts of sodium nitrate, it was found that on varying the concentration of sodium nitrate from about 0 to 6 M, the coefficient of distribution K3. =~(HR) aqueous/(HR) organic decreases from M85 to O~022. Whereupon the solubility decreases from 0,068 to 0.018 mole/1. On the basis of literature data a rough evaluation of the activity coefficients of cesium in sodium nitrate solutions was made. , On increasing sodium nitrate concentration from about 0 to 6 M, the activity coefficient of cesium decreases from 1 to 0.2. The extraction constant of cesium from sodium nitrate solutions was calculated as (3.55 + 0.35) x lo-3. There are 6 figures, 8 tables and 10 vefe7ences: 9 So-vlet-bloc and I non-So-viet-bloc. The reference to the English language publication reads as.follows; A.Katchalsky, H.Eisenberg, S.Lifson, J.Am.Chem.Soc.,73, 12, 5889 (1951). SUBMITTED: May 24, 196o Card 4/-L' I/ S/186/61/003/003/007/018 E071/E435 AUTHORS. Karpacheva, S.M., Adamskiy, N.M. and Borisov, V.V. TITLE: Extraction of Iron (III) With Carbonic Acids PERIODICAL: Radiokhimiya, 1961, Vol-3, No-3, pp.291-294 TEXT: The dependence of the coefficient of distvIbutlon of trivalent iron between aqueous solutions of its nitrate and fatty acids on pH of the aqueous phase (within a range 0.48 to 2.5) was studied. As the extracting agent, a mixture of fatty acids (without a solvent), obtained by redistilling their technical fraction (C - C9) ' was used which had-the following properties: mean molecu ar weight 140, sp.gr. 0.917 g/cm3, refractive index 1.426o, acidity 6.57 M. The ratio of organic to aqueous phases was I to 5. The concentration of iron in the starting solution was 10 g/l. pH of the solution was varied by additions of sodium hydroxide. The experimental procedure is d'escribed in some detail. The experimental results show that at pH = 2,5, the aqueous phase is practically free from iron. The dependence of lg a =.f(pH) for iron is represented-by a straight line lg a = - 0.74 + 2.10-pH. It appears from the analysts of the experimental data in which the Card-1/2 s/186/61/003/003/007/018 Extraction of Iron ... E072/E435 hydrolysis and a decrease in the acid concentration in the organic phase was taken into consideration, that the interaction of iron with the extracting agent takes place with the formation of FeR3 or F:R3-HR. A compound of trivalent iron with organic acids was isol ted; its chemical analysis showed that its composition corresponds to Fe3R3-HR. The results obtained agree witb the distribution data. There are I figure, I table and 7 references; 6 Soviet-bloc and 1 non-Soviet-bloc. SUBMITTED: May 24, 196o Card 2/2 PHASE I BOOK EXPLOITATION sov/6072 Mikhaylov.v A. I.,, V. V. Borisov and E. K. Kalinin Gazoturbinnyye ustanovki zamknutogo tsikla; teoriya i raschet (Closed- Cycle Gas Turbine Plants; Theory and Design). Moscow, Izd-vo AN SSSR., L 1962. 145 P. Errata printed on the inside of back cover. 4000 copies printed. I Sponsoring Agency: Akademiya z1auk SSPR. Institut dvigateley, Ed. of Publishing House; V. M. Klennikov; Tech. Ed.: G. A. Astaflyeva. PVRP6SE: This book is intended for designers and for scientific and engineering personnel. I COVERAGE: The book reviews works on the method of calculation of closed-cycle gas turbine engines, with,particular attention paid to the design of a stage of turbomachines vorking on various gases. Methods of calculating heat exchangers are given and means of reducing their weight and dimensions are indicated. Information on atomic gas turbine engines, based on non- Card 1/9 2 Closed-Cycle Gas Turbine Plants; Theory and Design SOV/6072 Soviet sources, is included. No personalities are mentioned. Them are 57 references: 26 Soviet, 28 English., and 3 German. TABLE OF COYITJM: Introduction 3 Ch. I. Thermal Calculation of a Closed-Cycle Gas Turbine Engine [CCGTE1 12 1. Determination of gas parameters along the flow passage area of a bCft 12 2. Useful vork and efficiency coefficient of a CCOTE 18 3. Influence of cycle parameters on the efficiency coefficient of 1~ CCGN 21 Ch. II. Thermal Regeneration and Intermediate Cooling of Gases In a (YCGTE 25 Ch, III. Influence of the Properties of the Working Medium on the Basic Parameters of a CCME 29 Card 2/9 2 BORISOV, V.V.; XRASILINIKOV,.I.N. Scattering of waves on random inhomogeneities of a medium with a variable refractive index. Probl.dif.i raspr. voln-2ilM-110 162. (MIRA 16:4) (Scattering (Physics)) (Radio waves) (Refractive index) BORISOV, V.V.; KORROLY, V.V.; TUNKCAT, V.P.; TVIROV, V.I. Deoxidation of steel by aluminum-sil icon. Stal 1 25 no.8:810 S 165. (MIRA 18:9) 1. TSentrallnyy nauchno-issledovatellskiy institi,t chernoy metallurgii i Metallurgicheskiy zavod "Serp i molot". 74,C, 5, ovive-Gred vismillary Veins. N_.I* 12RD ~D G. A. 0. Pj ,#a. Ila KALAXTAN. Sirkaredyi; i Neraw. rem.. I No t1, llp~ 15-14I.-The great need for vanklary wam (livilvi witakhrmit, r1c.? wal The need to mxk=W on lite) haw hirted a wamh fur a suil" coutpowilkin and firing wlK-d- uIr that reutdif Ism" conshilting the uwAW two firing-4 (IAAque and gisse) into one. lies( mutts wnr obtained %ith a burly tit The folliming couipmitkmi: Sith 711W M.W. AlikN 24 (110 (&4Q), FrAII, 0,70 ju 10). Tith, I' d- 10:xl). COO Will MAO it V (0,27,11 Nk,(I it 49 KA) UYA ww),L 11W %ANCIliwivat of awidily of this coutpopition is 0.36. iiInd the expansion clu-thek-tir 1. 099. Pxsl viritults vvwe obtalnect usititz slate t4 the Mir VJV. AI#4h 11,117, 0, it 17. 1'i1 h 1141K Cat) 1:13.%, Mgt) 11043. N*,0 LA.. K.0 IVA, III0, III clintal. "of o :j" IIW tit y Wily witt, canfully .4ped I. J dust. Preferalily 1*6&W. anti finislied. It was then Skmd by dipping and again kept till its nuisture coneent wait War d to not ovor 2%. It wastlienfirM. The lenspentwe ocisedule is tit paramount impo"aft" mod abould be caretallY kept. It is bronaht up to SN' in 9 to 9 lur.. from JKW to Still' fit 6 hr, imu &10' to 700' in 8 br.I from 7110* to W' in 6 hr.. and from Kili" to 12501 In I Isr. At t1tis terapelmsturv. IZW to i2jv*,itiskq,Ifarato41wr. Tbeproductawere"tirelly valitionclory. TW orw-firing "withod rvdwccd the NO c-m-awartr4iou 35 to 40N and at the sante limit doubli-d the oultal of tbe IUMK". WHO. -58-9-24/51 SOV/177 AUTHOR: -.Borisov, V.V., Captain of the Medical Corps TITLE: Application of AntitQxic Belen'kiy Serum in Yar,.Lricu- losis PERIODICAL: Voyenno-meditsinkskiy zhurnal, 1958, Nr 9, PI) 74-75 (USSR) ABSTRACT: From 1956 on, the author treated 47 patients suffering from furunculosis vith injections of Belen'11--iy serum. For one injection he took from 100,0 to 400,0 and mostly 250,0 of the preparation. Prior to the applica- tion, the serum was warmed to body teoperature. The first injections ivere performed directly from the ampules with the aid of a tube system arid droppers, subsequently from the Bobrov apparatus. In 81 serum Card 1/2 injections, 6 reactions were observed, the qeriousness -OV/177-58-9-24/51 0 Application of Antitoxic Belen'kiy Serum in Furunculosis I of which were determined by a scheme suggested by D.M. Grozdov. The results obtained confirm the good healing effect of Belen'kiy serum in chronic furunculosis. One case report is presented. Card 212 BORISOV, V.V. 33861. Chastnoye goln-jechnoye Ztrayenlye 9 Maya 1948. Byullyetyen B Vsyesoyuz. Astron,,-Gyeodyez. 0-va, No 6, 1949, C.29-31. SO: Letopis' Zhurnallnfch Stateyp Vol. 46, Yoskva, 1949. MITROFANOV, S.I.; NELIK-STEPANOV, Yu.G.; SOMIN, Yu.M.; BORISOV, V.V. New application of movable heavy media for the concentration of minerals having a specific gravity exceeding three. Nauch. soob. IAFAN SSSR no.3:50-61 160. (KRA 16:3) (Ore dressing) 16 . -BO.RISOV,,.V.V. Sin , ied pumping stations. Stroi. tr*oprov. 8 no-5:30 Xf , M Fif 163. " ~ DURA 16:5) 1. Glavnoye upravleniye po materiallno-tekhnicheakomu snabzheniyu predpriyatiy neftyanoy promyshlennosti pri Sovete 14inistrov RSFSR. (Petroleum pipelines-Buildings and structures) (Pumping machinery) BORISOV. V.V. PrfLet4ce of repairing pipe-lines. Neftianik 5 no.8:15-16 Ag 160. (MIRA 14:8) 1. Sotrudnik Qlavneftesnabsbyta RSFSR. (Pipelines--4-taintenance and repair) V'V- 11(l),26(i) PHASE I BOOK EXPLOITATION SOV/2391 Mikhaylov, Aleksandr Ivanovich, Georgiy Mikhaylovich Gorbunov, Vladimir Vladimirovich Borisov, Leonid Aleksandrovich _fv-a-s_n_1R_0v,and Nikolay Ivanov-1-ch- Markov Rabochiy protsess I raschet kamer sgoraniya gazoturbinnykh dvigateley (The Operation and Calculation of Combustion Chambers of Gas-Turbine Engines) Moscow, Oborongiz, 1959. 284 P. (Series: Moscow. Aviatsionn institut Imeni Sergo Ordzhonikidze. Trudy, vyp. 1067 Errata slip inserted. 3,610 copies printed. Ed.: S.I. Bumshteyn, Engineer; Ed. of Publishing House: S. I. Vinogradskaya; Tech. Ed.: V.P. Rozhin; Managing Ed.: A.S. Zaymovskaya, Engineer. PURPOSE: This book is intended for scientific workers and engineers engaged in designing combustion chambers of gas- turbine engines, and also for students in advanced courses In this general field. Card 1/6 The Operation and Calculation (Cont.) SOV/2391 COVERAGE: The book contains experimental data on the aero- dynamic structure of flow in combustion chambers, hydraulic calculations for gas and air conduits, distribution of fuel in the gas flow, and the description of the equipment used in the investigation. On the basis of the experimental data obtained, an analysis of the operation of combustion chambers is given. The book also contains a description of hydraulic design and verification calculations for combustion chambers, the calculation of the structure of flow -, and the calculation of the concentration of the fuel mixture. Chaoter I was written by N.V. Inozemtsev, Ohapters II, IV and V by G.M. Gorbunov, Chapter III by A.I. Mikhaylov, Chapter VI by V.V. Borisov, Chapter VII by N.I. Markov;V,V. Borisov, and E.L. SolokhAr Section 5 of Chapter III was partly written by L.A. avasnikov, who also contributed to Chamer V. The ex- perimental work and the preparation of experimental data was done ,by G.G~ Gakhun, F.L. Sol 'okhin,-S..I. Shakhwin, V.V. Polyakov, Yu. P..Rykov, A.-I. Tinogradov,;V,A-. Golubev, Ye. V. Trofimova, and A.' V. Garyachevat..There'are 34 references, all Soviet. Card 2A The Operation and Calculation (Cont.) SOV/2391 TABLE OF CONTENTSi Preface 5 Introduction 7 Ch. I. Operation and Characteristics of the Turbo-jet Engine Combustion Chamber 14 1. Operation 14 2. Combustion-chamber characte'ristics 33 Ch.I1. Aerodynamic Structure of Flow in Combustion Chambers 42 3. Basic theoretical considerations for the calculation of the flow structure 42 4. Experimental investigation of the structure of flow in a combustion chamber with a bladed swirler 52 5. Calculation of the aerodynamic flow structure in a gas-turbine engine 92 Ch.III. Hydraulic Resistance of Chambers 118 Card 3/6 The Operation and Calculation (Cont.) SOV/2391 6. Evaluation of hydraulic losses in chambers 118 7. Hydraulic resistance of intake-end elements 124 8. Change in static pressure and total.pressure during the flow of the air into a cylindrical conduit through openings in the walls 132 9. Discharge coefficients in gas flow from one channel to another 139 10. Depth of the penetration of a jet of air Into a moving stream 149 11. Change in the static and total pressure of a flowing gas during admission of heat 157 12. Distribution of losses In elements of the gas-air passages of the combustion chamber :L64 Ch. IV. Method of Calculations for Gas-turbine Combustion Chambers with Bladed Swirlers 166 13. Hydraulic design calculations for the combustion chamber 167 14. Hydraulic verification calculations for the combustion chamber 185 Card 4/ 6 "The Operation and Calculation (Cont,) SOV/2391 15. Determination of velocity fields and average stream- lines in the flame tube of the combustion chamber 191 16. Calculation of velocity fields in the flame tube of the combustion chamber 195 17. Example of the verification calculation of a one- burner compartment of a.ttxrbo-Jet (combustion) chamber of unit construction 202 Ch. V. Fields of Local Concentrations of Fuel in the Combustion Chamber of a Gas-turbine Engine 216 18. Determination of a local concentration in the liquid phase of the fuel 218 19. Determination of the fields of local concentrations in the vapor phase of the fuel 232 Ch. VI. Investigation Methods and Apparatus Used for the Investigation of the Operation of Combustion Chambers 245 20. Measurement of the gas velocity 245 21. Measurement of local temperatures of gas 250 22. Apparatus for the experimental determination of Card 5/ 6 The Operation and Calculation (Cont.) SOV12391 local concentration of the fuel 268 23. ApDaratus for the experimental determination of the zone of ionic conductivity of gas during combustion 276 Bibliography AVAILABLE: Library of Congress Card 6/6 282 IMS/ec 9-30-59 MIKIIA'YIDV, A.I.; KALIN111, E.K.; KLEIINIKOV, V.M., red, izd-va; ASTAFIYEVA, G.A., tekhn. red. [closed cycle gas turbines; theory and design] Gazoturbinrqe ustanovki zamknutogo tsikla; teoriia i rasebet, Moskva) Izd- vo Akad. nauk SSSR, 1962. 11+5 p. (MIRA 15:5) (Gas turbines-Design and construction) BORISOVV V. V - - - .-, (Borysov, V. V. I Youthe study macbinex7. Makh. sill. hoop. 14 no.2:5-6 F 163. (MIRA 16--4) 1. Zaveduyushchiy Dragobitskim otdeleniyem "Sillgooptekhniki* LIvovskoy oblasti. (Lvov Province-Agricultural machinery-Study and teaching) BORISOV),. Vapi~~.Matveyevich; GORBACTILV, I.N., red.; MYAKUSHKO, V.P., red.izd-va; KARLOVA, G.L., tekhn. red. (Fire prevention at enterprises of the woodworking industry] Pozharnaia okhrens na predpriiatiiakh derevo- obrabatyvaiushchei pronWshlennosti. Moskva, Goslesbum- izdat, 1963. 101 P. (MIRA 17:2) USSR/Cultivated Plants. Potatoes, VeGetables, Melons. M Abs Jour: Rof Zhur-Diol., No 17, 1958, 77680. Author Porisov. V. Yn- Inst Crimea Agricultural L-igtitute. Title Periods of Sawing and Planting of Vegetable Crops for Crimea. Orig Pub: Tr. Kryusk. s.kh. in-ta, 1957, 4, 219-248. Abstract: On the basis of an experimental study and generali- zation of leading experiments in the cultivation of vegetable crops in open and protected ground in Crimea Oblast, the department of veGecable grow- ing recomends periods of saving, planting and the start of harvesting of vegetable crops in the 7 zones of the oblast during spring and autuy.-.n sowing Card 1/3 USSR/Cultivated Plants. Potatoos, Vegetables, Melons. M P,bs Jour: Ref Zhur-Diol-, No 17,1958, 77680~ and during repeated cultivation. For realization in the earliest periods, it is recomended to saw spinach, sorrel, parsley, celery, onion-nutrmg flower, lettuce and some other crops such that before the onset of a stable auturn cold, the plants succeed in forAng a root system and sprout above the ground. Onion-carline thistle and garlic should be' set in later so as to form only a snall root systerl. Winter planting of the Derbentskaya variety of cabbage is also possible in the oblast. The proposed agricultural engineering contributes to the decrease in quantity of boltina plants and assures an early mid high harvest. Optiml pericdo are developed of planting and sowing and of a scheme of crop-rotations in the protected ground. Reversal Card 2/3 66 BORISOV4-Y-16- -- Mercurimetric determination of chlorides in materials of plant origin. Uzb.khim.zhur. no.2:56-59 161. (~au 14:.10) 1. Samarkhandukiy sellakokhozyaystvennyy institut imeni, V.V.Kuybysheva. (Chlorides) (Mercurinetry) BLUSOV,-Yakov i3o"isovich: MIEZIE, I.A., red. [Plans, initiative nnd life] I'laDY, init.,Antiva i. zhim'. MO. I lzd-vu 11"Ovetskain Rossiin," 19(d,. 95 P. (M1RA 17:8) 1. BORISOV, n. 2. USSR (6oo) 4. Hydroelectric Power Stations 7. Lights of communism. Sov.zhen. No. 1 1953. 9. Monthl List of Russian Accessions, Library of Congress, April -1953, Uncl. DORISOV., Ye. "Striking Equations.," Znan. sila, No 7, 1952 Automatic ganfoling machine. IUn.tekh. 5 no.4:57-58 Ap 1611. (.';,IRA 14:3) (Games of chance (Mathematics)) (Electronic calculating machines) BORISOV, YEVOIsNU "Armor" of the TSimlyansk Dam Znan sila no. 6, 1952 BORISOV, Ye. In the economics section of the all-Union conference of depart- ment heads of social sciences. Vop. ekon. no.3:112-117 Yx 162. (NIRA 15;3) (Economics--Study and teaching) .~ L, PL / - - V), ~gr r BORISOV, To. low method of selling textile goods. Nov.torg.takk. sa.2t10-12 157. (Textile fabries) (" lot 8) YE. BORIWY, Ye.; WOMONATIV, P., rsdaktor; IGHATITIVA, A., tekhnicheekir ~,"47:ir v6i. [Basic index of the work of an enterprise] Oanovnoi pokazatell raboty prodpriiatlia. [Moskva] Mookovskii rabochii, 1954. 31 P. (KIRA 7:9) 1. Direktor zavods imeni Vladimir& Illicha(for Borisov) (Industrial management) BO _ZOLOTAREV, A.; KASHUTIN, P. _22~ov ~Y, Social and economic problems of technological progress. Vop. ekon. no.11:150-155 N '61. (I"IRA v~:11) (TechnolofW and civilization--Congresses) BMISOTI Ye. Ipproachas in a helicopter. Kryl. rod. 14 no.2.-22-23 F 163. (MIRL 16:4) 1. Starshiy inspektor-letchik upravliniya aviatsionnoy podgo- tovki i sporta TSentrallnogo kcmiteta Dobrovollnogo obahchestva nodeystviya arnii, aviataii i flotu. (He3-icPpterm-PiIoUvz) BORISOV~ Yevg. I Excellent in a "GRID* vaj. Znan.-sila 37 no.9:7 S 162. d: (MIRA 15:12) (Astronautics) n~.. gemral~mvynr zapisa, kand,vcycrn~k., naiii: ~.oyal l,'ighwr o~ th.-~ Janini2t pprr-yzi cn the 70th I anriv6fary of the birtr of IP. B'SaiTarr'l-l'- Kam- vooriz,"i. 1~11 4 no~10;68-90 Oy 2.7!-"