SCIENTIFIC ABSTRACT BOYKO, C. V. - BOYKO, K. S.

L 12384-65 WP(e)/EPA(s)i-z/W(M)/FPi(n)-Z/EPA(w)-2/EPA(bb)-Z/OdP(b) P4b-101 Pq-401-10/Pli-4 _,ZCCZSSltN NRs A?4048536 S/0286/64/000/019/0032/003Z,. WW/Wil ev. K. T.; B#rsukov, M. I.; iAUTHORt taygorodakiy, I. I.; Dondar :Lot oreako Min .1-Mitkovich, G. I..; Parvenkov, G. S.. Boyko, G. V. JITLZI Method for manufacturing flat, tons pyroceram products.. :Class 32, No. 165528 :SOURCE: Byullsten' Isobratenty I tovarny*kh snakov, no. 19, 1964, 32 TOPIC TAGSs An--Author Certificate has been Issued for a method of i manufactu Vng f let foam pyrocaram (altall) products based an glass ~uade from slage - The gloss to he'at-tre'sted In two stages-in order to :obtain a porous surface, while maintalising a nonporous subsurface. I ~,While the subsurface to being cooled, the surface is heated to 1100-ISOC above the crystallization point to a viscosity not to ex- !coed 400--r5,00 poisa,-&ad maintained under those coadittono*for 10-30 IAISOCIAT109o.~_.aoie Card .1/4 1  BOYKO, G.Ye. Mineralogy of ozocerite of the Borislav deposit. Min. abor. no.15:285-297,161. (MIRA 15:6) 1. Gosudarstve=yy universitet imeni Ivana Franko, Livov. (Borialav region-Nocerite)  YATSFXKO.. Ye.F.; BOYKO,, G.Yo.; D014TSOVA, G.M. Higher 3.iquid.hydrocarbons indOrpathion ozooerites. Izv.vys;) uchob.zav.; neft' i gam 5 no.f-.*71--75 062. (IURA 15: 1. Lsvovskiy gosudaretvannyy universitet imeni I. Franko i Ukrainskiy nauchno-issladovateltakiy geologorazvedochn)-y institut. (Carpathi$n Mountains--Ozocerite) (Hydrocarbons)  BDYKO, G.Ye. Mineralogy of ozoooritein the Dzvinyach and-Staruni deposits. Min. sbor. no.16z"9-45J 162* (KIRA 16:10) 1. Gosudarstvennyy universitet imeni, Ivana Franko, LIvov. (Carpathian Mountain region-Ozoeerite)  BOYKO G.Ye . ELIMOVSKAYA, L.K.; RYLITSEV, Ye.V,; TUILKE'VICF, V.V.; YATSENKO, Ye.F,.'; Infrared absorption spectra of the higher liquid hydrocarbons of Garpathian ozocerites. Trudy UkrNIGRI no.5:378-381 163. (MIRA 18:3)  ADAK IN, N.1 BOMO, let bukhgalter-okonoodst, SurP'So- staff In the coal industry. Fin* SSIR 19 no.6:63-64 Je 058. (XIM 11: 6) 1 -lachalinik Udlyewslwgo gorodskDgo finmeovago otdola (for (Kadiefte-Coal mines and mining)  BOIKOI L, inzh. (Odessa) Frameworks from preaasembled. reinforced concrete supports. Muke-elev. prau 28 no*6:26-27 . A 162. (MIRA 15:7) (Grain elevators) (Concrete construction)    BOYM, ITan AlokmayOTich: TEPLTAKOT, G.V., red. [Swyatogorsk; a brier study on Its history and local lore] Sviatogorsk; kratkii Istoriko-kraevedcheskii ocherk. Kharlkov, Stalinskoe oblAzd-TO. 1959. 105 P. (KMA 13:2) (Bryatogorsk--History) (Svyatogorsk--Zconomic conditions)  ~06-? YW C 2~ - USSR /themical Technology. Chemical Products 1-21 and Their Application Medicinals. Vitamins. Antibiotics. Abs Jour: Rererat Zhur - Kh1miya, No 9, 195T, 322T7 Author : Boyko I Title : Drying of Chemico-Pharmaceutical Preparations by the Method or Spraying in a Current or Heated Air Orig Pub: Med. prom-st' SSSR, 1955, No 4, 16-19 Abstract: Description or the newly developed design of a drying unit which makes It possible to effect very rapidly the drying of chemico-pharmaceutical Preparations (including those that are thermola- bile), by the method of spraying in small-diameter chambers (about 0.6 m), without altering the Card 1/3  USSR /themical Technology. Chemical Products 1-21 and Their Application Medicinals. Vitamins. Antibiotics. - Abs Jour: Rererat Zhur KhImiya, No 9, 1957, 32277 sterility or any other property of the prepara- tion. The principle of operation of the pro- duction unit is essentially the following: air heated at 85-145' is admitted under a pressure of 1.2-1.5 atmospheres into a purification fil- ter and flows therefrom to the upper part of the drying chamber, onto an air distributor, where a rotary forward motion, along a spiral path, is Imparted to the flow of air, which on moving downward entrains the jet of the solution being dried, which is pneumatically sprayed through a nozzle. The use of the spraying principle of drying simplifies considerably the production technology, by eliminating, in particular, the Card 2/-3  USSR /themical Technology. Chemical Products 1-21 and Their Application Medicinals. Vitamins. Antibiotics. Abe Jour: Referat Zhur - KhWya, Mo 9, 1957, 32277 use of flammable solvents and the necessity of a subsequent grinding of the dry preparations, which lowers the prime cost of the latter. As a practical example a description is given of the results of drying of Novarsenol, which ensures the retention of the standard indices of this preparation. Card 3/3  op BYLINK33A, U.S. e!zm6la Spray drying of antiblottes. Kedprome 12 nOO7:41-46 11 158 (KLRA 11:8) 1. Yeanonsnyy nauchno-losledovatellskiy InRtitut Fintiblotikov. (AMBIOTICS)  BOTZD I.D., POPOVA, L.A. Use of waste sycellun from antibiotics production for feeding live stock. Nsdepiom 12 noeW59-60.Ag '58 (KIRA 11-.9) 1e Is opyt'a panitailliuovogo savoda - g. Debretsen, Vengerskaya Narodnaya Respublikas (MGI) (FMING AND F=DM STUFFS)  ZHUKOVSKAYA, S.A.'. AMMOVA. L.A.; BOYKO, I.D. Use of a jet extractor for the recovery and purification of ery- throcqcin and tetracycline. Med. prom. 13 no.5:26-33 Yq '59. (JUM 12:7) 1. VsesoyuzrWy nauchno-isaledovatellskiy institut antibiotikov. (ANTIBIOTICS) (IXTRACTION APPARATUS)  BOYKO, I. D. "Study of the Aeration Process as Related to the Phase Contact Surface; Methods for Increasing the Efficiency of Aeration Devices." presented at the lat Intl Fermentation Symposium', Rome, Itdjy, 9-14 may 1960. All-Union Scientific Research Institute of Antibiotics, Moscow.  Te.S, Dryine of streptosWein solutions by sublimettion. Ked.proa. 14 no.l.-40-45 Ja 160. (YnA 13:5) 1. Vilesoyanyy naucbno-leeledovatellekly Inatitut antiblotikov. (smxmwcn--MRTM)  BOnOD, " I.D.; ZEMTSUTA, S.A.; JRIMN, T. 1. r" Coustructlon of a oyllimdrIcal vacum flIter for hard-to-filter cultural flulds of antiblotles. Yed.prom. 14 no.3:32-38 We 160. (MINA 13:6) 1. Yeasoyuzuyy navabno-Issledovatel'skly Institut amtIbIotIIwv** (PIIMM AND PIUMLTIOI) I  BOYKO, I.D.; ZHUKOVSKLYLO S.A.; ANNENKOVA, L.A. Investigation bf the aeration process in-aeration installations. It Aeration by means of mechanical mixers and bublers. Med. prom. 14 no*9:36-41 S '60. 13:9) .1, Vsesoyuznyy nauchno-wisoledovatel'skiy institut antibiotikov. (DRUG 114DUSTRY-EQUIPWM AND SUPPLIES) (CMYGEN-INDUSTRIAL APPLICATIONS) (ANTIBIOTICS)  BOYKOP I.D.; ZIIUKO,VSKAYAv S,A,,- ANIENKOXTAP L.A. Investigation of the aeIration process of aerating devIces. Part 2: Jet aeration. Med,- prom. 14 no. 10:13-15 0 160, (MIRA 13:10) 1. Vsesoyuznyy nauchno-Issledovatellskiy institut antibiotikov. (OXYGEN-IOUSTRIAL APPLICATIONS)  -- --- ------ ANIENKMA, L.A.; BOYKO, I.D ZHUKOVSKAYA, S.A. Extraction of terranycin from native solutions with the use of a jet extractor. Med. prom 15 no.11:43-45 N 161. (MIRA 15:6) 1. Vsesoy=7y nauchno-iseledovateliskiy institut antibiotikov. (TERRAMYCIN)  S/243/62/000/007/001/001 102111215 AUTHORS: __Aqxk2,L_Q~Bylinkinz, Ye. S., Temchova, V. F. and Nechayeva, M. G. TITLE: Extraction of antibiotics from culture fluids without separation of mycelium PERIODICAL: Meditsinskaya Promyshlennost SSR no. 7,1%2,18-25 TEXT: Filtration of culture fluids as the first step in extraction of antibiotics is time consuming and resulu. in a loss of 10 to 20% of antibiotics. Better results were obtained by a direct extraction method (Bartels C.R., Kleinman. G., Korzun, J. N. et al., Chem. Eng. Progr. v. 54, 1958, 49; Wirtels, C. R., Kleinman G. U., Patent 278631, 1956). This method has been successfully applied for the extraction of streptomycin by filtra. tion through cationites K134171-2 (KB4P-2) and KE-2 (KW2) with the addition of 0.8-1.0% sodium to the culture fluid. This method saves time and increases the yield. There are 4 tables and 3 figures. ASSOCIATION: Vsesoyuznyy nauchno-issiodovatel'skiy institut antibiotikov (All-Union Institute of Antibiotics Research). SUBMITTED: May 19, 1%I Card 1/1  ,-BDYKO, I.D.; BYLINKINA, Ye.S. Spray drying of antibiotica. Mad. prom. 16 no.2:27-35 F 162. NIRA 15:3) 1. Vaesoyuzriyy nauchno-issledovatellskiy institut antibiotikov. .(ANTIBIOTICS) (BIOLOGICAL PRODUCTS-DRYIVG)      POPOVA, L.A. Production of antibiotics In France. Med. prom. 17 no.9:58-62 St 63. (14IR-A 17:5) 1. Vsesoyuznyy nauchno-issledovatellskiy institut antibiotikov.  w   BOTKO, I.I..-insh. Testing a veneer pooling lathe vith autowtic knives. Der. pros. 8 no.9:24-25-.$ 159. (KMA 12:12) U~stovskly fanerm- derevocbrabstyvaMhohly kombinit. (Towers and veneering)  On the theory of the nobility of electrons in semiconductors, Pit, tvar. tale. 1 no.4:574-578 159. (KINA 12:6) l.Mookovikly gosudarstvannyy univers Itat Fizicheakiy fakul'tet. (Semiconductor#) (Blectrons5  3/181/60/002/01/24,1035 'BOOB[BO14 0 0 AUTHORS: Boyko, I. I., Ras hba, E. I., Trofimenko, A. P. TITLEz Thermally Stimulated Conductivity_of Semiconductors PERIODICALi Fizika tverdogo tela, 1960, Vol. 2, No. 1, pp. 109-117 TEM The theory of thermally stimulated conductivity was established on the basis of a sufficiently general semiconductor model (Fig. 1). It is shown that the depth of the local level can be determined by studying the curves of thermally stimulated conductivity at different rates of heating. A preliminary comparison was made between theory and experiment. US samples with an admixture of Au were investigated. The gold was introduced at 550-6500C. Measurements were made by means of an apparatus described in Ref- 5. The rate of heating could be changed within the range 0.5 1.5'deg/see. Three peaks of thermally stimulated conductivity were found in the samples under consideration. At a heating rate of v - 0-5 deg/see, the peaks are found at 110, 240, and 2900K approximately. The relative values of the high-temperature maxima changed considerably from sample to sample (Fig. 2). The 2400K peak of that sample which did Card 1/4  Thermally Stimulated Conductivity-of S/181/60/002/01/24/035 Semiconductors B006/BO14 not show the highest high-temperature maximum was studied in detail. From this the authors concluded that the temperature dependence of P and r is negligible. Fig. 3 illustrates the determination of the adhesion level from measuring points. 6 is determined by the slope of the straight. They yield almost the same values of the activation energy E. - 0.34 ev. Fig. 4 shows curves representing the electron concentration n(T) for three values of v. As may be seen, there is satisfactory agreement between theory and experiment. The greatest divergencies occurred at the end of the nkT) curves within the low-temperature range. The dependence on n(T) - exp T found in experiments was considerably smaller than that predicted by theory. This is probably due to the fact that the sample had*a smaller number of centers the activation energy of which was somewhat below 0-34 ev. It was theoretically found (equation (27)) that the recombination near the n(T) maximum was mainly monomolecular. The authors thank Engineer A. I. Sheretun for having prepared the samples. There are 4 figures and 5 references, 2 of which are Soviet. C- ak"~ SY/O-_ ;LK Card 2/#1  83000 S/181/60/002/008/019/045 Boo6/BO70 AUTHM Boyko,_I-__I- TITLE; The Problem of the Role of Adhesion Centers in the Process of Relaxation of, PhotoconductivityN> PERIODICAL: Fizika tverdogo telap 1960, Vol. 2, No. 8, pp. 1835-1840 TEXT: One of the most important methods of measuring the relaxation time is based on the investigation of the decrease of the concentration of minority carriers after illumination is switched off. But the existence of traps, which may be interchanged with the current carriers from the conduction band, disturbs the falling-off curves and-leads to difficulties in the interpretation of the experimental data. S. M. Ryykin has several times pointed to this fact. But, it may be assumed that-a-measurement of the recombination time measured according to the first-part of the falldng-off curve with sufficient accuracy excludes the trap-induced distortions. In the present work the author investigates the falling7off curves of the pho~ocondlactivity without the restrictive Card 113  83000 The IProblem of the Role.of Adhesion Centers S/181/60/bo2/008/019/045 in'the Process of Relaxation of B006AO70 Photoconductivity assumption that the filling ofthe adhesive centers with electrons be insignificant. He is able to show-that the form of all,the investigated falling-off ourves~gives satisfac tory data on the character of the recombination and adhesion. An n-type semiconductor is then considered whose energy diagram is characterized by one series of adhesion levels. The drop of the photocurrent after switohing-off of the illumination is described by the system of equations (1a,b), and the recombination time of the band electrons by (2). The equation is treated under the assumption that the lifetime of an electron on the adhesion level is very large compared to its lifetime in the conduction band. The process of the drop of current may then be split up into two stages characterized by two very different instantaneous falling-off times. The first stage is dominated by a rapid disappearance of the electrons from the conduction band on account of recombination. Here the traps have no opportunity of discharge. The second stage occurs for sufficiently small concentrations of the band electrons, when the electrons from the conduction band are trapped by traps and recombination centers - a process which is almost Card 2/3  83000 The Problem of the Role of Adhesion Centers S/181/60/002/08/019/045 in the Process of Relaxation of Boo6/BO70 Photoconductivity completely compensated*by'the new appearance of electrons which are thermally released from the traps. From the electron concentration n(t), an approximate equation is obtained, and relations for the reciprocal lifetimes T, and 'r2 are given'. The course of these reciprocal times as functions Qf electron concentration, temperature, and reciprocal temperatur4 is shown in a series ot diagrams. .Some of the characteristic parameters of the model considered here ca -n be determined according to the method of thermally stimulated conductivity. A o~omparison of the parameters so obtained with the corresponding experimental values gives information on the limits of applicability of the model. The author thanks Academician of the AS UkrSSR-V. Ye. Lasb.~arev for his interest, and E. I. Rashba for guiding the,work. The re are .3 figures and 3 Soviet references. ASSOCTATION: Institut fiziki AN USSR Kiyev (Instit.ute.of Physics of the AS UkrSSR, Kiyev) SUBMITTED: January 3, 1960 Card 3/3  AIX 83008 5/181/60/002/008/027/045 Boo6/ ~.o63 AUTHORS: BoykoD I. 1.v Rashba, E. I* N .1 TITLE: Thej~r~rtiaa 0f_Saz1nnnduetQ,-~s With a Loop of Extrema. aField Perpendicular to the Loop Plane PERIODICAL: Fizika tverdogo telap. 1960v Vol. 2, No. 8, PP- 18714 - 1883 TEXT! Following two preoedi papers (Refs. 1 and 2), the press paper ng gives a-theory for the magnetio susceptibility of semiconductorsthe extrema of which 1~e on a loop. The depthp A 9 of this loop depends on various factora~ and varies from -10-5 to 10-3 ev. Therefore, the present paper deals,with some special.cases. The free energy of the carriers in the band is.caloulated without considering the change in -the free energyp which is-related to a possible redistribution of the carriers between the conduction band and the impurity levels. First, the authors study the magnetic susceptibility in a non-degenerate electron gas in a general way, after which expressions are derived for the following special cases: Card 1/1  83008 The Properties of Semiconductors With a Loop 8/18 60/002/008/027/045 of Extrema. II. Magnetic Susoeptibility in a B006YB063 Viol& Perpendicular to the Loop Plane a) high temperatures (A A, 2 B > B in the most interesting one if'the absorption edge i onnected ;ith transitions taking placein the proximity of the poinst f - 0. In the opposite case, th:maVorption threshold is connected with transitions c Whi h are far away fr k - 0. When proceeding ocording to Ref. 6t K(W) r J(K, f A Q - C + 6 )+ K2 (cj) ej (2), is obtained for the absorption coefficient where is the frequency of the incident light 1 for x > 01 M2/4(A A), r is a constant of the same and,A(x) for x ( 0 2 order of magniVe as in.the case of a quadratic dispersion law. If the transition at 1 0 is allowed, Card 0  ' 25683. 8 6 00 0 06/02 /18 1/ 3/0 3 7/ es ... B1 02YB~02 Optical prbpbrti , TWA re (3) ? A) C V;[T= A 4 K k hi . a holds. Wi th inorea'sing.frequency, K(cj) tends to OW _ i. e., the result known for i quadratic dispersion law is obtained. "For-.transitions forbidden at T- 0, K, (CJ) +d) + where- -D is~a oonstant.of the order of For a wurtzite-type crystal D -'24/3. At lic') --c >> 6 , K(Cj)-V ci As may be seen, the.effeci. of the'loops of the-extrema consists in a decrease of the exponent of,. , the 0j) la%v by half i0. vdlue as compjrod,~to tt~o ciao of the-quadratic . dispersion law in the frequency range 6Where 6 .:~s the minimum'distance between the bands. If band 1 lies above band 2 _YM, Card 3/40 W,  25681 00 0 S/181/6 1/ 07/00~M3. 3/ Optical properties ... B1 02/B202 and-if A onistant' e A21 B>B th above facts hold, accurately.up to-a b ' i (A A)~ s rep ace d by (A - A ) and (B B) by (B - B The ) 2 2 2 . . 2 :formulas hold, up;to a constant, also for direct band-to-band . transitions accompahfia by in elootron-hole'pair.production the Coulomb interaction of electrons and holes is negligible. In. the O Iof indir6ot transitions ~ooompanied by electron-hole pair~produotio T an expres'bion of the'form (2) is obtained for K(Q) where, howeverl. 2 + jV2 oc ./4A -6. For allowed transitions K (,Acj- and 'at, G-)2 iwd'. D 6', K is obtained. Forforbidden bands . cases are-possible: a) band-to-band tiansition,is primary, sea erinig.' ' -from a phonon is slecondary'and b) inv'e*r se case. The expressions obtained for K(Gj) differ in both.cases.' The author-tbanks E., .I., Rashba for having:supervised the.studies. There are 1 figure and reiferences: 7 . 4 Soviet-bloc and 3 non-Soviit-bloo. The referkices to English- I.P ws: Ref R.'Elliot language publications read as follo 5t hy~s. Rev. , 108, 1384P 1957; Ref. 6: J. Bardeen, F. Blatt, A4 L. Hall,.Photo- conductivity.Conference h. a. Atlantic City in 1954, N. Y. 1956; Card 4/0 0&S5_;e  3991; A s/l6lZ62/004/008/015/041 6 0 (D B125YB102 TITLE: Combined resonance in semiconductors with inversion center PER.10DICAL: Fizika' tverclogo tela, v. 4, no. 8, 1962) 2128-2136 TEXT: Formulas relating to the scheme shown in Fig. 1 are derived, including the resonance transitions the matrix elements 4/j, U I I r_-T (7) 2ch. _V_,Lq.%UXjCM (hwo AX 4X a W:r uk~ hwo-i-A'y 'hwo-2j'v)~th for the transitions in silicon, and more,compplex matrix elements for those in germanium. Their starting point are the effective Hamiltonians of silibon and germanium for a left-hand circularly polarized electro- magnetic iield with the vector potential Card 1/#  S~ 161/62/C)04/006/015/041 Combined resonance in ... B125/B102 U (icosot + jain&)t)cosQZ (4) which is per'pendicular to the static 0 -ip magnetic field (Q being the wave vector of the high-freque.ncy field, Z11H). One summand of the perturbation Hamiltonian, corresponding to the vector potential (4), describes the direct interaction of electron spin and magnetic vector of the radiofrequency wave. It also describes the ordinary paramagnetic resonance with the free carriers. Thb second summand describes cyclotron and combined resonance. The paxama.n4atic resonance transitions are most intense at the frequency E -)/-h(for n,-n-). In the present approximatlon Ge also has n n transitions n ~-tn + I which are additional to the transitions n+z~- n-, at the frequencieski where cj is the frequency of par (joycl par. n paramag etic resonance and 6) cycl is the frequency of cyclotron resonance. The triplet intensities of t~e combined resonance of Ge have the same order of magnitude. In (7) V is the complex velocity operato--;-, D is the 2 representation of the group of rotations and 61 (2eH/-,'a c)j U X and 0 xx Y'. Card 2-  s/181/62/004/008/015/041 Combined resonance in ... B125/B102 and ~.-L B 11 2 + jg1212 The matrix elements for the transitions 2 .0v silicon and germanium are calculated also for the vector potential U01ccosot Cos QY (high-frequency field) and for the vector potential .,u 3. cos&)tcos QY~ The magnetic wave vector is polarized parallel to 0 the static magnetic field., Fig. 2 roughly shows the intensity of combined resonance as a function ot the static field.direction with respect to the crystal axes. At the frequencies q an - (A)cycll germanium par' . d I Cjpar + has three distinct resonance peaks with intensities of the same order of magnitude. In semiconductors with inversion centers the perturbation theory,applies independently of the magnetib field st-rength. There'are 2 figures. ASSOCIATION: Institut poluprovodnikov AN USSR, Kiyev (Insti.tute of Semiconductors AS UkrSSR, Kiyev) SUBMITTED; March 20, 1962. Card 34*2  AUTHOR: Bqy4p_2_1. 1. TITLE: On the yidth of ectbined resonance bands SD/A IZVP- t2l Acassion m: AP5w1548 S/0185/64/00~/012/1286/1290 SOME: Ukrayins')Wy fizychnyy zlmmal, v. 9, no. 12, 1286-1290 TOPIC TAGS: spin resonance,, cyclotron resonance., band width, paramagnetic re- sonance, crystal symetry, semiconductor crystal structure ABSTRACT: The factors governing the width of the bands of combined resonance',- with the band carriers are analyzed. The matrix Hamiltonian is expres--sed--asi--a sum of terms corresponding to the configurational and spin motions of the electron in the crystal and the spin Hamiltonian component perpendicular to longitudinal conductivity is diagonalized. The interaction operator is likewise transformed and resolved into a current operator whose diagonal part describer cyclotron re- sonance and the nondiagonal part describes ccabined resonance. it, is then shown that in semiconductors with inversion center the spin-resonance band width in usually relativistically amall, whereaB the cyclotron-resonance vildth is deter- mined by the nonrelativistic interaction. In crystals without'sy.-metr$ center rd 1/2  I-L 2113345 ACCESSIOn M: AP5=548 if the r-elStivistic Parmeter goviraing the -width of the spin band ceases to be smaul and in s=e cases can becme equal to the cyclotron resonance band. At the same time the intensity of combined resonance can become of the same order as the cyclotron resonance intensity. "The author thanks E. Y~ Rashba for a discussion." Orig. art. haz: 10 formulas. ASSOCLATION: L3,stitut napivpravidnykiv AN URSE (Institute of Serd, conductors, AN UkrSSR" MaNa=: I&ar64 ENCL: 00 SUB CODE: SS2, NP KH W GOV: OD2 OTM: 001 ,-Card 2/2  DALCNKOVA) M.N.; BOYKO, 1.1.; YE-211Q4KO, I.N. -W 1,11blecular scattering of light and its relation to the atructure of polymer solutions placed in an electric field. Ukr. fiz. zhur. 9 no. 5:559-563 My 164. (RIRA 17:9) 1. Ukrainskaya sellskokhozyaystvennaya almdemya.. Xiyev.  RASIIBA,E.I..,- BOYKO I.I. Kinetics of conductivity electrons in a variable el-ectric field. b1cr. fiz. zhur. 10 no.1:113-114 Ja '65. (MIRA l8t4) 4 1. Institut poluprovodnikov AN RrSSR, Kiyev.  rL 2205.-66:-:.EWT(1)/.Drr.(M)/-T/.Ewp(-t)/Srp(b,)/.EWA(b)~,.- ~jjp(c) --JDAT- KMEMM, AR: AP5017335 iWo,313:L/6 5/007/WT/2239/2242 1 AUTHOR i Miad#Lwj L P.; Raebbap Be1o; Rql%ngn[~ TME Occurrence of-ftft-equillb `&iers when eu*ent passes tbruugh allsti- I.es.13y deformed gernanium SOME: Fizilm tverd4d td1aPV- 7.9 no* 7., 3~65., 2239-2242 TOPTC TAGS i germanlum$. i3emiconduqtqr,cVrjgrp e*st1c deformation ABSTRACT-., This is a continuation of earliei~ ii6ik V. 6 3247, 64), mhere it j, 3~ -wat sho-om that under certalwoonditiono ~curront flowing through homogeneous organiel crystals with anisotropic electric conductivity can give rise to non-equilibrium carriers and to a nonlinear volt-ampere characteristic. nie present in7estigation waz.ftvoted to an experlmentikl, observution of this effect. The reintion between the field intensity and the current density. is derived theoreticaUy for this casesi The experiments., performed on higb-reoistlvity germani-im (4.0 n-cm at 300r,).. In' wbich tbo- nnisotropy ims 'produced by hcmogeueo'~,.s remilted in teristics -which were v %:-IV Sivoll- to.thoge derived thecareticaLly, "Me atithorf, ~tbank V. To. lAshkarIT t M X. Sheynimmfor a diecimsion and Va Yes Pakbowr for participating Jn- calculfflo-nee'OkUo' hit.-O has; 2 figures and 3 fornul"o Card 2/2   ACC NRt. AP6002024. SOURCE CODE: UR/0185/65/010/012/1309/1321 AA AUTHOR:, Boyko, I. I.~ ORMO~ Institute of:Semiconductors,AN UkrSSR KieT (Instytilt napivprovidnykJ.v,AN_URSR).-: L; 5.5 TITLE:_-Man -band s a Y_ quas.1clas ic I waved notions in semiconductors in .06 presence of an external-constant magnetic field' SOURCE: Ukrayins I kyy fizychnyy zhurnal,,,.v. 10, no. 12, 1965, 1309-13M. ..-TOPIC -.TAGS:.- wave function.- semiconductor band structure,, conduction ....,,electron, "Schrodingerequation , Hamiltonian, external magnetic field, constant magnetic field 'ABSTRACT: 'The Hamiltonian of the band electron in an external constant magnetic field Is expressed.An,.,the form of a matrix in the many-band -formalism of -the- effective-pass method; the elements of the matrix constituted by the wave functions are sought in the form of a series in ascending powers of Plancktalconstant. For simplicity only terms quadratic in the quasimomentum,or containing a combination of the quad- momentum and,tbe,external magnetic field are considered. To find the correct phases oftbe,obtained wave functions, they must be matched with the exact solutions near points where the conditions for the ap- plicability,of,the:quasiolds6ical approximation are violated. In the ~Card 112   ACC NR, AP7000365-- SOURCE CODE: UR/0413/66/000/022/0140/0140 INVE14TOR: Hashnikov, Yu. I. Lebedev, 0. N.; Weskov, -Y. V.; Rozenberg, 14. M.; iBakulin, A. I.; Boyko. 1. 1.; Krupenya, B. I. ORG: None jTITL-E: A7mechanism for forced Impact.destruction of a diaphragm. Class 47, No. iSOURCE: Izobreteniya, promyshlemWe obraztey, tovarnM anaki, no. 22, 1966, 140 TOPIC TAGS. pneumatic device, gas pressure 'ABSTRACT: This Author's Certificate introduces a machanian for forced impact destruc .tion of-a diaphragm. The unit consists of a striker and a ball catch vhich holds the I triker in the cocked position. The kinetic energy of the striker is increased by irigid connection to a piston which uses gas pressure to awn the striker after the .ball catch is released.  RC .1--striker; 2-piston; 3-ball catch SUB CODE: 131 SUM DATE: olFeb65  -BOIXO-r-~ ~Ovic I kand. sellkhozo nauk; BUYANOV, Vasiliy Andreyevich,, inzh.; FILIN,, A.G.,, red.; BODANOVA, A.P.j. tekhn. red, [Freight haulage vith tractor trains]Perevozka gruzov avto- poezdami; opyt maiakov-avtotransportnikov. Moskva., Avto- transizdat, 1962. 106 p. (KUU 16:1) (Tractor trains) (Transportation., Automotive)  BOTED, 1.1., g]AvW veterInariwy.. vrach Noginskogo rayona, Mookovskoy oblastI. Incorrect references, Yeterinarlia 34 no.3:87-88 Mr 157. (MLRA 10:4) (Artificial Insemination)  :Subject USSR/%ining AID P 1769 Card 1/1 Pub.78 T/26. Author Boyko, 1. N. Title tudy of o1i producing and injection wells in Tuymazy (Bashkirya), Periodical The organization of brigades testing oil producing and injection wells is described, as well as their equipment and the methods used for determining various data on well pressures, water levels, coefficients of productivity and.of permeability, core analysis, etc. Charts Institution: Control and.Neasuring Instrument Shops KIP; (Central Scientific Research Laboratory) TsNIL Submitted Nodate  BOTKO, I.N. Investigation of patrol@= and pressure wells In Tom&W. Neft. khoz. 33 no 3:29-34 Mr,055. (MLRA 8:6) (;~;;azy--011 wells) (?Wmsy--Gas, Natural)  BDYlO, I. N.. . Reciprocating scrapers Neftlanik 2 no*8:20-21 Ag 157, (MIRA 10:20) 1,Nachallnik tsekha, kontrollno-ismoritellnykh priboroy uprsvle- ulya Tuymazaneft'. .I (Pipes. Deposits in)  1~ I - -,-- .A~ Kcr A- 1.4~ ~11 ~ -~ Press for calibrating dynamographs. Neftianik 2 no-9:21-22 5 '57. (KLHA 10:9) 1. Nachallnik taekhe kontrollno-IsmeritelOafth priborov Nefts- promyslovogo upravlanlym Nymmazanaft'. (Dynamometer)  BOYKO,, I.N. Indicators of automatic waste-water discharge. fleftianik 7 nD.9:20-21 S 164 (MM 16..?) 1. Nachallnik tsekha kontrollno-izmeritel3nykh priborov i avtomatiki neftepromyalovogo upravldniya Tuymazinskogo tresta neftyanoy promyshlennosti.. (Tuymazy togimi-Petroleum-Desalting) (Liquid level indleatcrs)  BOYKO, I.N.; LFPESHKINA,,V.T. Important possi4lities for increasing protein-rich foeds. Zemledelie 25, fib'-*208 F 163. (MM 16: 5) l..Kafedra Senledeliya-Malitopollskogo instituta makhanizataii sellskogo khozyaystva. (Peas)  ,.60 meid atudies of wind currents along the aborea Oear where there is deep water in the layrakam Reservoir. Trudy OR no.98s247-262 962o (M3RA 15312) 41~ Reservoir-4cean curr~mtn) (Winds)  BOYXO, I.T.; DTATIL, M.P., mokbanik Self-propelled vibration table. Auggasted by I.T. Boiko, M.P.; Diatel. Rats.1 izobr.predlov strole u0*13:7-8 159. (MIRA 13:6) 1. Nachallnik Routovskogo tzekha koubluats. "Stroydetall" tresta RD*27 Glaymonoblastroya, stantelya Strorka, Moskovskoy oblasti (for Boyk~). W. Reutovskly tsekh kombinata "Stroydetall" treata, 10-27 Glaveonoblatroya stantmiya Stroyka Moskovskoy oblasti (for Dyatel). (Vibrators)  ao~Ko, I.V. 15-57-3-3787D Translation from: Referativnyy zhurnal, Geologiya, 1957, Nr 3, p 187 (USSR) AUTHOR: Boyko, I. V. TITIE: A Study of the Relationship of Phase Composition and Mechanical Properties of Frozen Ground to Temperature and Pressure (Issledovaniye zavisimostey fazovogo sostava i mekhanicheskikh svoystv mbrzlykh gruntoy ot temperatury i davleniya) ABSTRACT: Bibliographic entry on the author's dissertation for the degree of Candidate of Geological and Mineralogical Sciences, presented to the Vies. 'n,'-i. 4olln. *ii~-t (All:. Uhi6~ Scientific Coal.In*stitute Moscow, 1956 'ASSOCIATION: Vses. n.-i. ugolln. in-t (All-Union Scientific Coal Institute)q Moscow Card 1/1  , 0 , b, of dayey 6~11i. 1. ~Cmvplixt W V 29.- 473--C(IM dtt,, Mko Zhur. PrikW. _,Kh imi of'strengthening tl IMO by' tlectr6chen. the follovving t%pt. 4fit soil vvith a aCJ thrcoAXu**ik v W&S utd soln )y e . . , % Crated electrodes burled -in. the:iAl As. the cwent ( ,U.) Pused throkislitbe ooll, CA++Xptd, near the cathode jak, zone spru - u was this thodle ntil the process W . 0 y: the'lacreased rJec. resistance. - - With, placed in orated, filled with w~suf*c nonmetalic boxes Of Cal 1he Initiss! acidity of the picanodimspace l+ 0 . was Iseutralized'and, gmdually-the entire mp~ %tWeen tht electrodes w filled with dio; Wid vms snore complew a n ma; d e rapid on the sutfacd than im depth. A block oll !-1501.re iredSOdays at the expetsse of 15W kw. Isrs./cu. m~ qu -a a cA of 5-7 nia./sq. cm. initially and 1-2 ma./sq. Cm. t at the CO&, The d.'of the finished material was LW-1.75 and 'It libsorW 20-5% of its wt. of HjO. , Howeveri its 3 months in wat r ned unclianged aud Strength afte, 1. er ernai 4a steaming for 12 hn. at 85-90* it increased to 32.6 kg./  I'XlertrorbeznM~ camenUtion- OVCIAYWY~ - Dolkr, J. Appl. Chem. U.S.S.R. 29, 517 CA 50,  BOYKO, I. V. BOYKOj I. V.: "Investigation of the phase state and the mechanical pro- perties of frozen soil as a function of temperature and.pressure." Min Coal Industry USSR. All-Union Sci Res Coal Inst. Pechora Af- filiate. Moscowp 1956. (Dissertation for the Degree of Candidate in Geologicomineralogical Science.)  -- -- -------- BOM, I. V. uInvestiptiom of the Dependence of the Pbase Compoottlan ssA the Nocbwdcal Propertles of the Frozen Boll an Tamperstwe and Press=*. " dissertatlan defended for the 6*W" Cand. of Goo - calpKinnmIcSical Sci. at the Pamdtmt X=t. In VO A. ObrucbsT (Jan-JUZY 1957) Ddwso of Dl"U-tatl~' Beat. or Goologleal 4bogMMoal Sol. Vast. Ak Nauk ~, o 1937, Vol. 27v lo. ]L20 pp. 113-M  o vfo BOUO , I.V Properties of frozen loose rock. Shakht.stroi. no.10:8-13 0 157. (MIRA 10: 12) - (Mining engineering-Cold weather conditions) (Frozen ground)  0= qq -2-* jo L-jqrx tryormAy euTqwc3 .T02"v'4MWoA am j! TvTJ3wnPul Jo ~GOT-41punod Sin jo DuTT3z#g ~~~ (u0T^.nT09 Tvu0TwUsw"-0AZ) vgulvrTrq pa:;woK japull punwi) UQZ-W ATIOTLIU&JO.1 JO XUjAWtQ WnffTrWW -A--V-AW*WqW=Z- 6TT Pur-o-M uwzc6ld AT4"uwwoa u0 quo,"vw-d SUTPTTVW UT &*~TJOdXl 10TA09-U09 a V -LL&4-A-q5' Ctr (u0jagn",M) GUOT2&VLW4& PUS PUnGJD JO SUTAVOR Got O'4v2V uoz*Ad a u7 pur4jo am SuTdool Aq 9uTA*I Lbotlopunod j0 mdoa stp 2uTeS*j"a oot o Uo 22ou "a -�&OTCROV -K 'A US U 'A % f Gi. PUnOJV NUT.M4q Om JO ILTTT3306 GOASUA SUMOOV O-4Ur soma.swon ougad pas SUOT2"Unad Suva& 62"audo pasic - -UTOV eta sulmodooll Pon 3wook jo 94 alux-A CFT OSUTV TOUTA& POW01 T H ouTiossev jo oPM40 M-LOW4 PUS x;gMw 1 3"Sox j0 ATO 9 UOTSWPUMA& Jo SaTsowelvaim TuToods U '4*GAJVWOJ a I fuoT2wP=qd BuTtaTesa -r- 3--upling STU 96 NuTisses 30orboeqng InTit PUnQAo UOSCAd u0 v3UWTJ IVTJ3011PU 30 T"o vianDed aim al See rdsolve DUT Tj "aft -Torftx PUS SOD"11,10 Go"Olk"OUDD a" -.1 I.-MM UPAIS SZO SOOU4JOJ&t of -&*RDCTM 'D 'A JoOfOjOJ4 94 9043TAN WON, UOTIOMD"O's VUMAAUOM PUS 000"llounod j0 ZME Va JQJ UT wollooTt4fid -9 o3nalavul qojvooov oTjT*mTvo) avorig am ad OT pea,,"Jd OJOR 0ZJOdOA OqZ 'Vg= SIM Jo fUDIX" Z~WJW'U WUDT%Irp,ww,T SUTVTP%q PUS snousyd UT POUT'S 0008100*8 US MT V%wW0A T quej CTT*UIXTJD Wodw onvagov jqooQ STS lwwum -wisvtrq PUS "*U=Td IVTJX 'aseSaymig wo'glowspooo joi popowaut OT M STq& 2XV08M -lopposs .7 .41 I-Vff -q"& t9 A*OA*qvqwbg 'M 'N SOME Sub TTqTQ JO 'VB .VO,3uwd SoTdov 00C,T *V* .VaguT ftys wav.LM *d rrAoizaroo 'noveow taTlos %vo9jvwOd UG .... a) SUOT2TJJN UD sou"ejuca eta j0 UOT40 'AR"twas MRCT"Owuqaft SO vAlTvbJoj2vo3u&wwVwV MQ090df "U.rwUoT"" od OATUwtJvqwOAos NOMLIMAIM 1009 1 ACV f(oE)tT    BOYKO, I., Som notes on the proJect of a continuous corn receiving and processing I  BOYKO) 1. Waterproofing and water lowering in the conar~ruction of the fouvdation ditches of motortruck scales,,Muk.-elev. prom. 29 no.11228 N 63. (MIRA 17:2) 1. Odes*oys upravleniye khleboproduktov.  BOYKO 1, V,, Heat and humidity conditions of the air in mines of the Vorkute, de- posit* Trudy SOIM no*2:51-58 '62o (MDU 17:1)  L 40720-65 ACCWSION 14R: AP5012180 uR/oo66/64/Ooo/oo5/Oo24/0O26 AUTHOR: BoAR-1 -I. V& (Candidate of geological and mineral sciences); Shchelokov, V. K. (CaLaidate of technical sciences) k2, TIMS: Icehouses equipped with notbanical cooling b SOURCE: Kholodillmaya tekbnikA,:vo.5* 1964, 24-26 TOPIC TAGS: refrigeration engineering, refrigeration equipment, cryogenic engineering ABSTRACT: The use of natural lei for refrIgeration purposes Is videspread in the USSR, being favored by the cold climate. Cold storage o-n th-Le busis has been successful throughout the central Mn. in the "se of pot4ttoes, vegetables, fruits, berries, certain dairy products, and various salted wA pickled products. Bovever, this method is not fidequate to wintain the necessary temperatures (belov 0-20) for prolonged sumeer storage of frozet meat, finh, butter and other bacic food products; in addition, it entaliz- sanitation difficulties, vhile the service life of an installation ia usually no more than 20 years, and constant repairs are needed. Card 113  mechanical cooling accessories. The model plant based on this principle was the one at Vorkuta, constructed on the basis of V. M. KRYLOV's system. Here, instead of dispersed lee-brine cooling, there was a single brine bath located near the entrance; thmugh this passed the incoming air for init%.,ial cooling, after vbich It moved on to the functional chambers. During the sumer months the air in the letter vas maintained at -10 to -1.50. One of the authors of the Present article suggested the introduction of mechani- cal coolers for perishable foods; a plan for this innovation was worked out by "Vorkutaugall" and the plant van re-equipped accordingly. As nov con- e _c are_:and-a ce-cbAizberj'~tl~e tarlier batti chamber ntnr serves as additional storW space. The plant holds 150 tons. The ice massif Is covered vitb cinders abd savduct (1.5 a), 7be abell of the en- trance-cbsuber is cinder-filledi it is cooled by an iee-brine mixture. The mechanical accesvories are housed in a small contiguous structure,, they in- clude an ammonia compressor (21V-15; rating 50,000 kcal/hr; 480 rpm), an element condenser 16 KE, and a vertlcal-pip,6 vaporlaer, 20TA, vitb 20 n2 cooling ourface. 2/3   POYNO , i.V. Fossibilit,Y of using noil conent fron local rmtorials in ,Ilrc- conctruction in the.Pochora coal basin. '-,~mdy SOL-2;' r-.1:10~- 115 160, (!iru 14:"Ll)j (Vor',-uta region-Coal. rdres and mining) Won OMMO   KALICHENKO, N.; BOYKO K. 'Council of Ministers of the Ulwainian S.S.R., regulation 116.2213, Jialy 27j-l960,. ".On transferring the provincial administration of rharmacies to the' jurisdiction of the health departments of the p.tovince,executive committees". Parmatsev. zhur. 15 no.6:3 160. (MIRA 14: 11) 1. Predsedatell Soveta Ministrov USSR (for Kallchenko). 2. Zavedu- yushchiy delami Sovete, Ministrov qSSR (for Boyko). (UKRAINE-PHAMACY)  L 48307-65 T ~'Z!" P ion, AP50 qbT AC 5 !AUTHOR: Boyeva, K. I * (Engineer) ITITIX: Weldinikequipment at the 1964 Exhibition of the Achievements of the National !Econcmy R -the USSR SOURCE: Svarochnoye proizvodstvo, no. 4, 1965, 42-45 TOPIC TAGS: welding equipmert, TIG welder, aiitomstic curvilinear seam welder, ~plasma metallizing gun, friction welder, light alloy spot welder, stored energy spot welder ABSTRACT. Welding equipment shown at the 1964 Exhibition of the Achievements of the National Xc onmy of & MISR 1) ~a TIC, welder for automatic welding in f ixed position of the joints of alloy steel pipe.11nes 6~35 = in diameter with a wall thickness of 1-2 mm. VT15 or VL Tkmgife-n rdlectrodes are used in weld-in'g with no ;filler vire. A modernized VCC-120 welding rectifier supplied short-pulse welding cu-rrent. 2) An AZ-1 unit for automatic welding of thin-wall structures -with curvilinear ~cints located along the surfaces of bodles Tf-rotation.in an lner-'~ gaz atmosphere. The' unit cLn weld parts vith a minimum inside diameter of 2V60 am- and a maximirn outside diameter of 780 mm- 3) A UPU-2M gun for plasma-jet metallizing  ACCE~SION. Iffl. AP5000677,-~ the inner and outer sur es f bod' s of rotation and flat parts with refractory gpgc 0 ie metals 'L'IThe 3. U. 'Iconsumes 15-LO kv at a maximum current of 500 amv; the 40 m/hr. 4) Minsk Tractor 0. 8-1 2 rmm metallizing wire is fed tit a rate of 25-- i Plant showed an ESM -1 machine fo r friction weldingN~G carbon and. low-alloy steel i-ar s of up to 1000 MM2 cross section. The parts to be welded ar,2 clamped by a !push-button controlled pneumatic device:and rotated in the vertical plane.. The Imachine develops a maximum pressure of 12 tons e~nd makes 7' weldments per hour. The Izhevsk. Machine- Buij~ ~ng -_~Iant exhibited a TTMI-I unit Por wou' welding of :1,5) Ilight alloy parts 1.5 +1.5 mm thick. The machine has a 1000 kva welding transform~- ier; the electrodes are cleaned automatically. 6) The "IIESO exhibited an auto- matic IqTPU-300 spot welder or parts made of light alloys -and a,:: -Lr and of heat resistant Nhardenable, and stainless ateels.ItThe 300 sput welder has a nominal current of 32,000 amp, develops a 1500 kp, press-ur- h e elec- trode tips, and welds light alloy parts 0.3 + 0.3 mm thich, and r steel parts from 0.5 + 0.5 to 3 + 3 mm thick. 7) An MTK store d-eneEff--He I d e r reL;i~;- --l- tr~an-_- &ip~t _--ldInS-_-of-par r-made-of, light- alIqla, 'nusl nd ti tw"O'Lum C'f Iqw-:' _c 4 - J- .p; -the el:tfi~ 'd Ij -batte'r hqur--~ 'Orlg~--art- -:bq0_ up e:-t ps and produces xq: MS  PANCHENKO, I.D.; BOYKO, K.M. 'Use of variaus electrode materials in the polarography of fused salts. Ukr.khim.zhur. 31 no.2z190-194 165. (MIRA 18:4) 1. Institut obahchey i neorganicheakoy khimii AN UkrSSR.  KAHYSHEV, N.S., otv. red.;,BOYEVSKIY. A.S.# red.; VIKTOROV, D.P., red.; DEYSLE, V.F.9 red.; M.P., red. (Studies of the-Voronezh section of the All-Union Botanical Society] NauchrWe zapiski Voronezbskogo otdeleniia Vsesoiuz- nogo botanicheskogo obshchestva. Voronezh, Izd.-vo Voronezh- skogo univ.p 1964. 106 p. (MIRA 18:5) 1. Vsesoyuznoye botanicheskoye obshchestvo.  DZXMMLTY, Yu. I.; KAPTSOVA,, T. N.; BOYKOO K. M. Polarographic Investigation with fused sodium metaphosphate as the support. Ukr. kbiz. zhur. 28 no.5:595-599 162. (KM 3-5: 10) 1. Institut obahchey I neorganicheakoy WWI AN UkrSSR. (Polarogrspbr) (Sodlux metaphosphate)  L 08454-67 &q*r(m)/EwP(0/E'rI Ai663~6i* (A) 0) SOURCE CODE8 UR/0080) '0391008/17,37/1742 AUTHORs Delimaz~zkiyj 14. K.; Boykop K. M. ORGI Kiev state Shevchonko (Kievskly gosudarstviewff univeral- nk tot) TITUS Polarographia study a the corrosion rate in salt malts SOURM Zhurn&1 prikladnoy khimii, v. 39, no. 8, 1966, 1737-1742 TOPIC TAGS$ carbonate# nickelp co r# corrosion rate, polaro&aphio analysis '10 AB~TRACTS The corrosion of niekel*'a'nd qqpp _!jr In the molten eutecticjZCC~ (64 mole %) _42CO~ (36 mole %) was atud~od at 6400C by a polarojii~h!C~ technique. After the N1 or Cu "cimen had been immersed in the malt for various periods of time, it-4as re- moved, and the Ni or Cu content of the corrosion medium was determined polarographi- caUy. It was found that both Ni and Cu passJnto the melt in the form of divalent ions. The corrosion rate was determined from the hoight of the polarographic wavese A satisfactoz7 agreement was found between the polarographic and photometric data on the corrosion re of the two metals. The corrosion of Ni and Cil is due to the formation of NiOttda=v and their dissolution in the molt. The faster corrosion ob- served at the start in probably due to the dissolution of wdde film already present on the specimens. Oho of thezaasons for the appearance of oxides In the carbonate melt may be the high-tempersture reaction of nickel and copper vith oxygen dIssolv",   rv PHASE I BOOK MWITATION 1194 Boyko, Konstantin Semenovich Miozrascbet ua promysblennom, predpriyatil. (Cost Accounting in Industrial Enterprises) [Moscow] Moskovskly rabochiy, 1957. 110 P. 7,000 copies printed. Ed.: Cbernov, Ye.; Tech. Ed.: Yegorova, I. PMOM:: We book is intended for industrial workers. COVZM=s 2M book briefly reviews soms cost accounting problems involving materiel and to-ohMeal sualyj, fiscal operations, actual expend-itures per unit of product- ion, profitabilift,, eapital assets, turnover tax, etc. of a Soviet industrial establishment. No persoAalitles are mentioned. There are no references. TAMZ OF OMVIRM: The Socialist Nbthod of Business Yunagement, 7 Capital Assets 23 Card 1/2