USSR/Cosmochemistry - Geochemistry. E~rdrochemistry, D Abst Journal: Referat Zhur - Khimiya, No 1, 1957P 732 Abstract: conditions. This is supported by the presence in the ore district of moisture-loving flora which in future geological prospecting can b6 used as an indication of the occurrence of GC. Card 2/2  TOSKOW Mv -YOO ""Aw~ - M - "'JA - - Stratigraphy of Mesozoic deposits In the lower reaches of the Syr Darya. 1zv.AN Kazakh.SSR. Ser.geol. no.24.-107-111 156. (MLRA 10:2) (Syr Darya Valley-Geology, Stratigraphic)  YOSKCBOYNkau&T MA-b "P'v.W4%!p' ~ ~ - .WA~ Stratigrapby of Paleogane deposits In the lower reaches of the Syr Daxya. 1zv.AX raxakh.=R geol-no-25:57-78 156. (Km 10:2) (Syr Darya Valley-Geology, Stratigraphic)  A LTWH VWKOBOYI KqV L. FA - 2925 41"'." - ?! A TITLE -Un the reri 'od of Settling of the,Platform bystem in the East of the Hear-Aralian Region.. (0 vremeni =tanovleniya platformenogo rezhima v vos.tochn= Friarallye - Russian) iralODICAL Doklao Akademii Na,!, bba,.1957, ~ol 1,13, Nr 1, ~p 165,a6d, (Ub.cj.R.) Received 6/1957 Reviewed 7/1957 A1jdTRAGT The region of cretaesoz rock between Kazalisk and.Dzusal was regarded as a buried. continuation of the Kara-Tau-chain. -It was, however, found that it is a great sepFated Dzuzal-~levation~ Iti the coreB.of tl,,,-- Ar=- tures of aecond and third order older sediments of the upper cretaceous -system a*~pear '* which could not be detected on the surface. lounger rockff of the fold-complex, aa perm, are knovin vqither in these mountains nor in thi Hunge-stoppe(Botpakdala). This led mapyresearch workers to believe that the mesozoic rocks"of the syr_Dar~&_lower oourse inA the Turgay-val- lay are based on the palasozoic complex. During t" last years borings were carried out in the North and North-East of the station Tyuratam and to a great extent dialocated.red and dark,--grey argillitea and saadstone were found. Gradient anglea of 3o-750 were observed. Neither microflora nor microfauna was found, a fact which compl~icaied the determination of age. According to exterior features these strata are assuzied to'belong to cambrium, and the ailurian age was assumed t*e the latest. This was then brought forward 23 main argument for the hopelessness of finding Card 113 oil in these regions. Uadame Murakhavskaya, N.I,, now herefrom isolated  On the Period of Settling of the Platform tsy3tem FA - 2928 In the zast of the Near-Aralian Region,,, a 3pore-pollon-complex which is characteristic for,upper trias sedi- ments. According to their lithologic composition this stratum of trias. rooks ia-subdivided into three 3uites(beginning at the bottom) - under takyr3ay, takyrsay and upper takyosay suits. From four models of the under tak-yr3ay suite spores and pollons 9-ra Isolated and the motherplapts determined* Ulcroscopie investigation disclosed some glauconite grains were found which indicates the marine origin of these sediments. WhatWa have said before makes it possible to nay that the goo3ynclinal regime east of the Near-,kralian-Region existed up to thD and of trias. The for- mation of the structures of these.regions was completed by the old ci=eri- on folding phasc, Tb~-dovelopment of a platform regime must be connect*d with the and of.the Jura period. As for as the formation of the b2sic strmetures of the folded fundament of the Eastern Aralian Region was com- pleted towards the and of Triaa it is probable that in the wide depressicn5 even in the Jura period a marine or lagoon regime could exist as the suc- 0033or of Trias. This circumstance increases the chances of finding oil since it makes such horizons as the lower mesozoic era appear promising for oil. (I ill., Itable, 5 literature references). Card 2/3  I PA - 292a On the Feriod of Settling of th~natform System in t1m Kra of the flear-Aralian-Region. ASSOCIATION Institute of Geological Sciences of the Acad*my of Science of the K~.zakh ba,(Institut Geologicheskikh Nauk, ba) PRESkMa BY SATPAYE-Vq K.I., '"Member of the Acadenw. BUBVITTIM 5.3.1957. AVANABU Library of Congress. Card 313  VOSKOBOYNIKOV, 14.Ye.; IURTYNOVA, 14-ya- Stratigraphy of the Marin8ftleogene in the Kzyl-Orda region. Izv. AN Kazakh. SSR. Ser. geol. nauk no.51.60-62 163, (MIRA 17:1) 1. Institut geologicheskikh nnuk All KazSSR, Alma-Ata i Yuzhno-Kazakh- stanskoye geologichoskoye upravleniye, Alma-Ata.  AUTHOR: Voskoboynikov, M. Ye. 2o-119-6-39/56 TITLE: The Position of Nummizlitic Limestones in the Paleogene Cross Section of Northern Fria:altye (Polozheniye nu-mulitovykh izvestnyakov v razreze paleo- gena Severnogo Priarallya) PERIODICALt Doklady Akademii nauk SSSR, 1958, Vol- 119, Ur 6, PP- 1191-1194 (USbR) ABSTRAM The investigations of the last years have shown that the frequently nummulite-bearing limestone horizon can be followed in the cross section of the marine Paleogene on the large territory from the Caspian Sea to. the Prikara- tauskiy district. (Table 1). It corresponds to the basin of the carbonate facies of the Eocene, which are relieved northwards by silicate facies (Ref- 5). Therefore it is very important for the right understanding of the Paleo- gene stratigraphy of the region mentioned in the title and of the neighboring regions to determine the position of nummulitio limestones and their interrelations with Card 1/3 the layers lying below and above them. Some published  The Position of Nummillitic Limestones in the 2o-119-6-39/56 Paleogene Cross Section of Northern Priarallye data and critical considerations state the diasgreement of the researchers with regard to the age of individual Paleogene horizons. Then follows a detailed description (from bottom to top) of a cross section in the lk-luurdan defile. Based on this description and on that of the neighboring reeionB (Ref- 3) the author made the following conclusionst 1) The parcel of the quartz-glauconite- -sands of the Akzharskaya suite cannot be a littoral fa- cies of the Tasaranskaya suite but forms an independent stratigraphic unity. It is older than the Lower Eocene nummulitic limestones of the surroundings (Refs. 3, 4). The nummulitic limestones (Tuguzakiy horizon) are not an antiolinal. facies of the Tasaranskaya suite, but they are a quite independent stratigraphic unity. 3) The higherlying brownish gray loams neither may be united with the quartz- -glauconite-sands of the Akzharskaya suite to one suite nor with the limestones mentioned under 2). They also form an independent unity. By means of preciaing the position of the nummulitic limestones the correlation of the strati- graphic scheme of the Paleogene sediments of the northern Priarallye with the neighboring regions (Table 1),aas Card 2/3 rendered possible.  The Position of Nummulitic Limestones in the 2o-119-6-39/56 Paleogene Cross Section of Northern Priaral'ye There are 3 figures, 1 table and 7 references, 7 of which are Soviet. ASSOCUTIONj Institut geologicheskikh nauk Akademii nauk XazSSR (Institute of Geological Sciences 13 Kazakh SSH) PRESENTEDs December 21, 1957, by K. 1. Satpayev, Member, Academy of Sciences, USSR SUBMITTEDt December 18, 1957 Card 3/3  VOSEDBOYNIKOV. ?4.Y0. I--. - 1~ ~ Triagaic 4appaits in the lower Syr-Darra Valley. Vest. 01 Kazakh. SSR 14 no.8:73-77 Ag 158. (IMIRA IWO) (Syr Darya Valley-Geology, Stratigraphic)  BAZHANOV, V#S*; VOSKOBOYNIKOV, 14#Te.; GLADKOV, I.I.; MNUSHKIII, L.B. - --' - -"V-- Stratigraphic position of recentljr found remains of marine mammalo on the Mangyahlak Peninsula. Hat. po Ist,, fauny i flory Xazakh. 2:17-27 '58. WIFA 11: 7) (Mangyahlak PenineulaPaleontologyj, Stratigraphic)  15-57-5-6950D Translation from: Referativnyy zhurnal, Geologlys, 1957, Nr 5, p 176 (dSSR) AUTHOR: Voskoboynikov, M. Ye. TITLE: GeologgicaT-St-ra-c-ture of Southeastern Port of Aral- Kazalinsk Depression (Geologicheskoye stroyoniye yugo- vostochnoy chasti Aralo-Kazalinskoy vpadiny) ABSTRACT: Bibiiographic entry on the author's dissertation for the degree of Candidate of Geological and Mineralogical Sciences, presented to the In-t gool. nauk AN KszSSR (Institute of Geological Sciences of the AS Kazakhstan SSR), Alma-Ata, 1956. ASSOCIATION: In-t geol. nauk AN KazSSR (Institute of Geological Sciences of the AS Kazakhstan SSR) Card 1/1  VOSKMOTMKOTI M.Ye. ~JF'b s ition of mummIltio Itmetones in the profile of ftleogens deposite in the wrthern part of the Aml Sea region. Dokl. All sssa 119 no*4~r1191-1194 Ap 158s (UM lls6) 1.,Iustitut goologichookikh nauk AN XhxSSR. Predstavleno akademlk= K 10.Satpayevymv (Aral Sea region-vIdmestous)  BATTALOvA, Sh.; VoSXoBDyN,XoV ~ M-yc-; LIKEROVA, A.A. Bentoniteg Of thO YangYahlAk P-ninlla, V08t. All raaejc~ SS" 'a nO-10135-1,/. 0 162. (MIRA 1'7:9)  VOSKOBOTNIK, N.I. Speed of electric logging In complex measurements taken at definite time intervals. Frikl. goofiz. no.23:202-216 '59. (Logging (Geology)) (MIRA 13:1)  ~~ li, 1. "Teoting loogging Cables" PrikladnaP ge0fiZika; cobor.-Ak statey, V", 21 (Applied Geopbysics; Collection of Articles) M~ 21) Moscows GootoPtekhizdat: 1958- 221 P-  neral Problerz. Q-1 Abe jour t Hof Zhur - Biol.) No 7) 1958) 30901 Author Shain 8,Ss) Vookoboynikova 14A, Inst Title The Nutritiousnoos of Red Clover Hay and of the Clo7cr- Timothy Grano-Mixture. (Pitatellnost' sena klevera krasnogo i klevero-timfeye- chnoy travosmesi). Orig Pub Zhivotnovodstvo., 1957., i1o 4,, 56-59. Abstract The profitableness of sowing the clover-timothy mixture, as compared,with the.soving of pure.clover and timotrty, is pointed out. The crop of the hay of the clover- timothy mixture surpassed Via crop of the clover hay (from the same area) as to feed units., by 76%., and as to digestible protein, almost by 40%. Card 1/1 8  16-7800, 24.6ooo 77334 SOV/57-30-1-i3/18 AUTHOR: ~~skLbo Ikov, 0. M. TITLEt Accuracy and Limits of Application of the Diffusion Approximation to the Solution of '/ -Rays Propaga- tion Problems PERIODICALi Zhurnal tekhnicheskoy fizilci, 1960, Vol 30, Nr 1, PP 90-95 (USSR) ABSTRAM Recently DyadIkin Izv. AN SSSR, ser. geofiz., Nr 4j 1955 the author Rzv. AN SSSR, ser.geofiz.,Nr 3, 195fl; and Novozhilov (ZhTF, 33, 1287, 1957) discussed an approximate method for calculating the propagation of 'Y -rays in uniform media representing the multiple scattering of relatively soft Y -quanta as a diffusion of disordered particles satisfying the condition Card 1/13  Accuracy and Limits of Application of 773311 the Diffusion Approximation to the SOV/~7-30-1-133/18 Solution of -Rays Propagation Problems where S - intensity of the flow of quanta; n - distri- bution density; D - coefficient of diffusion. Depend- ing on the manner one averages the mean paths and life- times of quanta, Eq. (1) can be used for investiga- tions of the spectral composition of the scattered radiations or for investigations of integral (over energies) space densit.,r of the distribution of quanta. To apply this simple diffusion approach, it is suffi- cient that conditions be satisfied k, > 1; r-!-; al >,cj, Card 2/13 (2) where k initial wave length of quanta (in Compton units); r distance from the source of radiation; - C-1 and T - respective coefficients of Compton  Accuracy and Limits of Application of the Diffusion Approximation to the Solution of Y -Rays Propagation Problems 77334 SO'1/57-30-1-13/18 interactions and photoabsorption for quanta of wave- length ki, These conditions limit very much the region of applicability of the method. On the other hand, the author believed that the character of 'Y - ray interaction with matter leads one to expect chat the Eq. (1) and consequently the diffusion method should be valid in a much larger region. To check this assumption experimentally, the author compared his experimental dat~Oiith theoretical conutations for radiations by Hg (k 1.82) and Co (mean k 0.41) in water and sand with small additions of lead. 1. Experimental Setup and Procedures. Materials described in Table I were placed in a cylindrical container with a 40 cm diameter and 60 cm high. k2 is the limiting wavelength value of the spectrLun of scattered waves. An aluminum tube 30 mm Card 3/13 in diameter and 1.5 mm, wall thickness bias used in the  Accuracy and Limits of Application of the Diffusion Approximation to the Solution of Y -Rays Propagation Problems Table 1. Characteristics of Serial number of the mediuml basic component; (d) addition gm/cm3; (f) wet quartz sand; 77334 SOV/57-30-1-13/18 scattering media. (a) (b) compositioni (c) of leaa, %I (e density, (g) same; (h) water. (a) (C) (d) (e-) k, - I (P) 0 - 1.63 7.46 2 (1) 0.5 1.61 6.16 3 1.50 1.65 4.87 4 0 1 11.92 5 0.50 I.M5 8.92 6 L.34 1.013 5.46 Card 4/13  Accuracy and Limits of Application of" the Diffusion Approximation to the Solution of )/-Rays Propagation Problems Card 5/13 773311 s0v/~7-30-1-13/18 center as container of probes. The probe con3isted of a thick lead cylinder screen fitting the aluminum tube and having at the bottom an approximately 2 mCurie 11003 6o or 0.3 mCurie Co . On the upper side of the screen were located gaseous discharge tungsten /I -counters. Distance between the source and the center of the counter could be varied between 21 and 43 cm. The center of the counter cathode was always located 10 cm under the surface of the scattering medium. Statistical errors were less than 2%. The author made sure that the introduction of the probe does not significantly distort the true value of the measured quantities. He also assumed that the counters will give counts proportional to the number of incom- ing photos until the K-photoaboorption limit of tung- sten is reached. For rays containing intensitte com- ponents of wavelengthu larger than 7.4, one can expect a disagreement between theoretical and experimental data. 2. Evaluation of Results. At distance r from a  AcCU1'aCy and-Limits of Application of 773311 the Diffusion Approximation to the SOV/57-30-1-13/18 Solution of, Y -Rays Propagation Problems monochromatic point source of strength Q in a uniform medium of density P , the intensity of '/ -radiation is given In the diffusion approximation Vy the equa- tions (3) r lit= -9- 3 (k, k,) (4) 4% q= k1 wavelength of primary rays; k2 - mean wavelength at which the photoabsorption of multiple reflected card 6/13 quanta occurs, and determined from  Accuracy and Limits of Application of the Diffusion Approximation to the Solution of Y -Rays Propagation Problems dkz= Card 7/13 77334 SOV/57-30-1-13/18 - mean full path length of_quanta in the medium until the moment of absorption; t mean nosine of the scattering anglej Cr and 'r respective Compton scattering and photoabsorption'coefficients, expressed as functions of k. On Figures I and 2 are experimental results (full lines) for media numbered in Table 1. Dashed lines are the corresponding theoretical curves. Table 2 and 3 contain the comparison of measured and  Accuracy and Limits of Application of the Diffusion Approximation to the Solution of -Rays Propagation Problems ja Fig. 1. Deere of scattered Card. 8/13 Intensities Hg 77334 SOV/57-30-1-i3/18 -radiation  Accuracy and Limit;, the Of Application of' Diffusion Approximation to the Solution of Problems -Rays Propagation r1of 77334 SOV/57-30-1-i3/18 Card 9/13 Fig, 2. Deere se Of scattered Intensities COW -radiation  Accuracy and Limits of Application of the Diffusion Approximation to the Solution of Y -Rays Propagation Problems Card 10/13 77334 SOV/57-30-1-13/18 computed parameters m, q, and A q, the difference in q between its value for pure sand and the scatterer in question. The author explains changes in the above parameters by (a) the effects of the 4 mm Fe filter used when measuring scattering by water and (b) by the Influence of the changes of the average atomic number due to the added Pb on the value of k2-, and therefore, on the sensitivity of the counter. Con- clusions. 1. Diffusion approximation can be used for not exact computations of the integral intensity of the soft Y -radiations with initial wavelengths of the order of 2 Compton units and at distances larger than two free path length of the quanta. 2. The analytical form of the intensity vs. distance rela- tionship and other features characterising the diffu- sion process are preserved even in case of fairly hard radiation (k, > o.41). The diffusion method can be used in this region for qualitative investigations of  773311, SOV/57-30-1-13/18 Table 2. Parametera of D.Lffuuion Y -quanta of jig 203 (a Serial number of the medium; (b) experi- mental; ~c) theoretical. 10, lot (bJ I (C) I (b~ (C) 93S 8.76 0 0 2 0.98 0.94 10.11 9.51 -+-0.76 -+-0 7S 1 1.05 0.91 11.07 10.71 -+-1.72 . -+-1.9s 4 0.77 0.76 944 8.10 4-0.09 -0.66 5 0.68 0.71 10.17 9.07 -1-0.8.2 0,31 6 0.61 0.63 IUS9 11-29 1-2.01 OM Card 11/13  77334, SOV/57-30-1-13/18 Table 3. Parameters of Diffusion '/ -quanta Co 60. (a)_ serial number of the medium; (b) experimental; (c) theoretical. (b) W q -r (c) I - (b) lip 1 5.36 6.54 0 0 2 0.95 0.92 5.63 6.77 -j-0.27 -o-0.23 3 0.84 0.97 5.75 7.08 -t-0-39 4-0.54 4 0.00 0.79 6.01 6.58 -0h5 .0-0.01 S 0.'$] 0.72 5.90 7.00 -f-0.54 -40-46 6 0.62 0.60 6.35 7.72 4499 4-1.19 Card 12/13  Accuracy and Limits of.Application of 77334 the Diffusion Approxiniation to the SOV/57-30-1-13/18 Solution ot '/ -Rays Propagation Problems Y -ray propagation under condition of geometry not allowing an exact calculation using exact methods. There are 2 Pigures; 3 tables; and 5 references, 4 Soviet, I French. ASSOCIATION; Ural' Branch AS *USSR, Institute of G"'physica) (Urallsk-ly filial AN SSSR, Institut geofiziki) SUBMITTED; February 20, 1958 Card 13/13  TIKHOMIROV9 V.V.; VOSKMENSKAYA, N.A. Memorable dates for Ilovember-December,, 1963. s6v. eol. 7 no.ltl42-150 Ja 164. IMMA 17s6) I*' Geologiche5kiy Inatitut AN SSSR,  VOSIOBOYNIKOV, X.P., [deceased] dotentl MMIKIN. N.Y.. kandidat takhai- I ~= ChIGNPIErTM; UVIN, X.M., starshiy propodavatell. Designing cylindrical pitch gears cut by standard hobbing cut- ters. Sauch.trudy NPI 30(44):33-61 155. (MLEA 9:11) (Gear cutting)  I - -- r-IrK~-'~,,!'-Ni-,U - I.-I."Vw I fiscidi llm~ UYIN -ri 0 3.1.9 Insh. Idghter block and tjlckl~. Lek# sta, 29 ("O'stIvC maoh'0-2te/~ F '580 'nor.r) (1(M Ilt3)  Vozl,obo~mikov, IfThe nagnetostriction of ternar-,, allbys of iron-nic kel -cobalt. Nin Educr-'4-,ion RSFSR. llioscml state 1~ edav;ogical Imst ineni, V. 1. Lenin. Mosew, 1956 (Dissertation Ifor tho degree of Candidate in Physicoirmthem- tical Science) Xni-hmn letonis' 110. 25, 1956. Moscmir  AUTHOR3 Voskoboynikovi S.I. SOY-115-58-4-25/45 TITLEs A Highly-Sensitive Method of Measuring Vagnetostriction (Vysokochuvstvitelinyy metod izmereniya magnitostriktaii) PERIODICALt lzmaritellnaya tokhnika, 1958# Nr 4t pp 59-61 (USSR) ABSTRACTi Kornetskiy fRef. 17 and Selisakiy fRef. ff havo devised a highly sensitive optioo-mochanical method of measuring magnotostriction. The method described in the article is a development of this, devised by the author In ToBIIChERMET, and differing from the former in that it consists of a double Class 11 levert the and of which turns a needle with a small mirror (Figure 2). The construction and operation of the magnstostriation gage is described and compared with the Kornetskiy-Selisekiy device# It is su- perior by havings a constant amplification, independent .Card 1/2  SOV-115-58-4-25/45 A Ilighly-Sensitive Method of Measuring Magnetostriction of the pooition of tho light indicatort greater sensitivity and the ability to measure both longitudinal and transverse magnetostriction. Its maximum relative measurement error is 4~~ for longitudinal and Z, for transverse measurement. There are 2 dia6ramat I graph and 3 references, 2 of which are Soviet and 1 German. 1. Magnetostriction--Measurement Card 2/2  AUTHOR:_Y ~kobgnikov, S. I. SOV/126-6-6-7/25 -TITLE: Magnetostriction and Magmetization of Ternary Iron-Ifickel- Cobalt Alloys with Iron-Nickel and Iron-Cobalt Baees (Magnitostriktsiya i namagnichonnost' troynykh splavov zhelezo-nikell-kobal't na zhelezonikelevoy i zhelezokobal't- ovoy osnovakh) PERIODICAL: Fizika metallov i metallovedeniye, 1958, Vol 6, Nr 6, pp 1011-1016 (USSR) ABSTRACT: The present paper reports the results of investigation of magnetostriction and magnetization of ternary iron-njckel- cobalt alloys of compositions which were not studied so far but which are important in practical applications of these alloys, Magnetostriction was measured by means of an optical- mechanical system. This system uses a double lever and was developed by the author at the Institute of Precision Alloys of the Central Scientific-Research Institute for Ferrous Metals (TsNIIChERMET). The apparatus is shovm in Figl. Changes in the length of sample 1 on magnetization are transmitted to t-he driving.lever I of length b . One end of the lever I is fixed an.d at a distance a from this fixed point the lever I and the sample 1 are coupled mechanically at a point A . Card 1/7 The other end of the driving lever I is attached rigidly to  SOV/126-6-6-7/25 blagnetostriction and Mag etization of Ternary Iron-l-fickel-Cobalt on Alloys with Iron-Nickel and Iron-Cobalt Bases a driven lever II of length d at a distance c from the fixed end of the driven lever. The free end of the driven lever II rotates a shaft 2 which has a small mirror 4 attached to it. A ray of light is sent out by a source 3 and is reflected by the mirror 4 on to a scale 5. Llagni- fication. produced by this system is given by K = 2iR/D ~ where i = bd/ac, D is the diameter of the shaft to which the mirror 4 is attached and R is the distance between the scale and the mirror. In the apparatus used by the au- thor. i = 25,~ D - 0.5 mm and R = 1000 nim. Under such conditions the value of the magnification K is equal to 100 000. Calibration of the apparatus using nickel showed that a displacement of 1 mm on the scale corpesponded to a change of length of the sample by 1.01 x 10-0 cm. Samples were magnetized in a solenoid and their magnetization was measured by means of a ballistic-galvanometer. Two series of iron-nickel-cobalt alloys were prepared. Technically pure iron, electrolytic nickel and electrolytic cobalt were melted Card 2/7  BOV/126-6-6-7/25 Magnetostriction and Magnetization of Ternary Iron-Nickel-Cobalt Alln:;-, with Iron-Nickel and Iron-Cobalt Bases together in a high-frequ6ney induction furnace. The melt was poured out to form sheets of 120 x 60 x 10 mm size. Samples were prepared by rolling of these sheets down to 3 mm thick- ness. The samples themselves were in the form of strips 110 mm long and 3 mm wide. They were annealed in an atmos- phere of hydrogen for 6 hours at 11000 C with subsequent cooling in air. The final thermal treatment was carried out in a Silit furnace in 10-9 mm HS.vacuumi it consisted of 0 heating to 110000 for 3 hours with gradual cooling to 200 C in steps of 500C (3 hours in each step) and final cooling to room temperaturn. The chemical composition of the alloys is given in a table on p 1012. Values of the longitudinal and transverse magnetostriction at saturation X it and X~L were determined from curves X,,(H) and X.L(H) by extrapolation of the linear parts of the curves to the X-axis (Figs.3a, 4a and 5a) and are given in the table on p 1012. Fig.2 shows longitudinal and transverse magnetostriction plotted in a corner of the Fe-Ni-Co phase triangle.Abvarious points in this triangle,corresponding to the compositions of the alloy!~ Card 3/7 the magnetostriction values are given in the form ofvertical  SOV/126-6-6-7/25 Magnetostriction and Magnetization of Ternary Iron-Nickel-Cobalt 0 Alloys with Iron-Nickel and Iron-Cobalt Bases lines. The lengths of these lines above each point represent the longitudinal magnetostriction and the lengths below the point represerit the transverse magnetostriction. On the sides of this triangle the author plotted also some values of magnetostriction at saturation of binary iron-nickel and iron-cobalt loys taken from the work of Ylasiyama (Ref.1) and Shulltsetchultze) (Ref.2). The table on p 1012 gives also the values of the saturation magnetization I a , as well'as the values of %U = 2(% W and R X11- % U. When R = 0 magnetic texture and volume (bulk) magneto- striction are absent. When R is positive bvJ* magneto- striction occurs on magnetization, while negative R signifies, magnetic texture in the direction of measurement. The table on p 1012 shows that in the m-phase region of alloys with iron-cobalt base containing up to 30% of cobalt (samples .1-q), the bulk magnetostriction is small and the "second rule of even effects" is obeyed approximately. In alloys in the Card 4/7  SOV/126-6-6-7/25 Magnetostriction and Magnetization of Ternary Iron-Ifickel-Cobalt Alloys with Iron-Nickel and Iron-Cobalt Bases same region but with more than 3001o cobalt (samples ?-.12), considerable bulk magnetostriction occurs on magnetization. In transition (a +.y) alloys, large changes in volume on magnetization occur in samples of alloys 15 and 20. Similar large volume changes occur in y-phase permalloy-type alloys 26-27. Magnetic texture is present in alloys 9, 22, 25 and 28. From X (H) and %L(H) curves two further types of curves were constructed: magnetization as a function of magnetostriction I(%) and magnetostriction as a function of the square of magnetization X(12) . Typical' I(%) and X(I2) curves are shown in Figs-3, 4 and 5. Presence of magnetic texture in the initial magnetic stat-e of a sam 1e may be deduced from I(%) curves. For example, the IR) curve in Fig,,49 for the alloy 28 shows that on magnetization of the latter to above 500 gauss, its magnetostriction is equal to 0 which indicates the presence of magnetic texture. Figs.46 and 56 show that the shape of the I(X) curves is not the same for all alloys. One type of the IW curves, shown in Fig.46, is characterised by increase Card 5/7 of magnetization up to a certain value above which it does  SOV/126-6-6-7/2 Magnetostriction and Uagnetizati.on of Terna y Iron-HickeR_,obalt Alloys with Iron-Nickel and Iron-Cobalt Bases not depend on magnetostriction. This type of curve occurs in alloys in which volume chan es are observed on magnetiza- tion, The second type of 1(%5 curves, as shown in Fig.%, is characterised by increase of magnetostriction with mag- netization up to a certain value of the latter, above which it is independent of magnetization. Such curves occur-in a-phase alloys, whose volume change on magnetization is small. and for*hl-.h the "second rule of even effects" is valid. ThG X(j2) curves make it possible to find the values of magneto- striction constants X100 in the C1003 direction in mono- crystals, using Akulov ankl Kondorskiy's formula (Ref.3)i 2 X - (3/5)%1OO(I/Is) When this formula is used for an allo with 1.2% nickel, 25.6% cobalt and 73.2% iron (alloy Nr 3~, the value of the magnetostriction constant was found to be X100 = 53-5 x 10-6 comparedvdth the longitudinal Card 6/7  SOV/126-6-6-7/25 Magnetostriction and lAagnetization of Ternary Iron-Nickel-Cobalt Alloys with Iron-ITickel and Iron-Cobalt Bases magnetostriction of polycrystal samples X if .~32.2 x 10-6 This means that if an alloy is produte'd with the texture oriented along the OP91 axis, magnetostriction can be in- creased by a factor 1.5. Such a method of increasing magnetostriction was developed by Bryukhatov (Ref.4) for nickel and by Nesbitt (Ref.5) for an iron-cobalt alloY,3001o of iron. There are 5 figures, 1 table and 5 references, 3 of which are Soviet, 1 Japanese and 1 English. ASSOCIATION: Moskovskiy institut inzhenerov zheleznodorozhnogo tran porta (Moscow Institute of Railway Transport Engineers) SUBMITTED: May 28, 1957. Card 7/7  ARUTYUNOVP N.B., inzh.i red.; VOSKOBOINIKOV,:,Y.G., doktor tekhn. naukv red.; GOTLIB., A.D., prof.p doktor tekhn.nsukq red.; GUSOVSKIY A.A., inzh.,--red4; KRASAVTSEV, N.I., kand. tekhn. nauk, red:; NURASOV, Z.1.,,-akad*aLk.,.-red.j- OSTROUKHOV, M.Ya., kand. tekhn. nauk, red.; POKHVISNEV, A.K., prof., dol,,tor tekhn.nauk, red.; RAMH, A.N., prof., doktar tekhn. nauk, red.; TSYLEVp L.M., prof.,-doktor tekhn. nauk, red.; POZDNYAKOV, G.L., red. izd-va; -ISLENT!YEVA, P.G., tekhn. red. [Blast furnace process according to most recent developmeits; on the 100th. anniversary of Academician M.A.Payloy's birth) Domennii protsess Po noveishim iseledoyaniiam; It 100-letiiu so dnia rozhdoniia akad. M.A.Payloya. Moslftal Metallurgizdat, 1963. 325 P. (MIRA l6j8) 1, AN Ukr*34-R (for Nakrasov). Want furnaces) (Paylov, Mikhail Alakaandrovioh,, 1863-1958)  A sex 0 1 4i a 000 00 j a Cb"ge in Jjau age Ud;Up9*i11" 04 G. %'o&k,*4*kW, SW 6, &JI-60VIAO-10 vl"wg- 'ifne"' 'Ji ,jw0tiw to kwm what changes occur In The , tf6 ! cvwpc%. t4 the ag elements as well as In the p"S I al"109 cam1punrals, The Me f3 impa"a"t twauve in "FICItiffs tbg Oln"ntlafe it may bcco1W fir"091'r to COITMf IIT 449-11'". lm;wowvnm;'u%. tithe gang may inc-a- 11. gl F(O(n *,vast on. dig Ifeel-mill alml c1mic"..111afft imalyw_% rip"ItAs Were tkrlvnj for 1hr relalim lwIwrtn the Ff "MArct ti an are Andl the quanticy arm! cadnpu.,olutbe pug. A slealar exptemakm wai also 41trivrill.w Ii theore. 71w4e relations bobf for 3 Ural Fe otts. Thr V ttrntent its a comcntrate Is falcd. from V - tmol Ve + W08 and the total Ranc Z, - 98 lXFr. TIK compn. o( the gang Is rcad trom a graph. #-ILA SITALLUNCICAL LITIO&TVZI CLA$UrKATWO ------- U is '0 "(f 0 6 0 of a Is a x a tj it w 0 14 a -1 w 6 0 0 as 0 0' as 0 *_0 0 00 qp 0 0 * 0 0 0 SOO 000 V00 roe got *0 a** 9410 ve 0  R A L? L . 004 I I eft A' hoot is **a Wm-fwv*" at Was ky". V, 0. vtwko-* 00 00.1 'J`f*"4bjk*U7W OW Opts. WOO 10 &1- $be best fMtrnf Of hingt-furnocir sucs Ali temp*. of thrit, "normal" q. For -00 t Stiss IWIPM-0 U alsols were Used which coutolned twoldre Sk0j, Wh and COO &too Mat) 0.9-2.0, UnO 0.1-41.4, 009 to IS and Im Irnips, at which the Wast have 4 n( 6, 7 and 11) polites. '60 0 Fm simpikily FeO, Mail and Will were whidrd Inim ifie 0 "Otal analywo anti 8 we* left In the frrr state, I 'r, the -ttm . -1 h 1 t 1 l 1 t 1 lm as 1 i, al -a *its Is , wat Siyt I A fit h 1, 1, 00 14141110'S 44 1409614 VA110"ill M611111111, At 0 14 At jililitr%, ' 4f *'4W* and *I I he m. Is. are, tools, i ftvtWh V,AI01,2A, I And CnO 48%. 440, 407 anti 468 cal.: (at W4 4N. A1,(N 1 w anti CR042% 373 443owd 410cal.; for Wh.U. A1,(% iVU 443 and 4 V I I W 84(h U 3 1: d C O 43~~ .00 004 ., an & , . . A W~ 1.5, and COO 2 1 Ofi. 4d6. > 490 and 3(m) cal. *. for f4i N 7 1000 *00 ,11t and 3W. fw Ml~ 41). 4 1. Al.0i, MY, &M COO Mt% 390,4 I M 004, , ATMI AW ral., five Al,(h 2N anti CAO 30%. 4=1. 4 "(% 441 AIM 33 and C&O 26 . 411t), OR and 4441 mi.; tnr 0' 40 404 l 4 1 7 11 00 ca .; A Z4 t AA-4 92 s 4-U cal., iWAf0;3Q;A" b3, and CAO fcw Wh 33. AW4 10. and C0013 . 4K 474 and > to 111. too W For ciptimure remits pie Ines potbored with coke thrmW ' _ 400 it e lkmwv" obe ruin. temp. of the ., 9 and a min. twat content at this temp. (am" cal.). Increstaing the as* content to 4"* (tit a cc". alumina content of 7 -1WIri d b i i i l 11 r4 an ow eat capac vely t jernaut" tugs of comparat low Isavilrctus (em Vit"ll with C61cv*l and 83 as .%t N Sit h 66 and r" MIOL!' ad Aloh IX% cmtg ,a . . 7 d A M h i A k vi - 4 , an at temp*. accord % =r ng to W4 l b 4i h i *W V 3 ) . ut accor est capac co ng to . to" "San ( . ty , a - 14. it 411TALLU"KAL jjT[#Ajj "quit* sit oncove beat to attain The I (AMOS. W osars) than do ibe dais pmfucvd wit tolit. Their ts Ik I - p slow) 11"0*iv. capacity is W-W cal, at tonSo Oars, Twenty(irfir"tocirgo lt*~tAv W. It. Iftn" ',I i diet a" III i u a AT iau If I I I Me too 0 0000 got 0 090 000 0 0 0 0 9P 0 00 a 4 0 .8 0 0 0 414 6441 000 0 * a 0 so 0 0 1 0  of A VICKISMS A.& 09CO1114% -011 .1 hr I'm I P" 1. Met: -.-!SrdM1r*VWN" on 102 atirta. so A empo=t slags with varying contents of SiOr, AIA and rIef 00 C&O and with team. Contents of MC0.1foo, Vto arld S. Tbc relation of the ov. beat capacity of dap t?!tr of J, andtbechem.c pn.conbeexpre."edbyempkicilequa- 09 lions; for temps. of 20-13504. L%O - 0.16V + 9.201 X 10-Is - 0.277 x lo,ssl + 0.130 X 1040 + 0.17 x 10*0 1** 0 0 - (C&0/%.")): for temps. of OW-16000, VA 00 0.15 X 10-11 - 0.479 X 10-411 - OXG + OA16 (I (CpO/Z..".)). Zw. is tht $arn NOs + AJA + UCO 00 _-#'5Fe + MnO in the dag. In the temp. Interval ROD- 12 OP he expd. values of the beat capacities of various oo t stags deviate sometimes from the c". values - stags with ro the same CsO/Zw. values can bave di&;;;t beat capacities. This is attributed tothe fact that the citarse. 4 ter of the beat-espacity changes of the dags Is decd. not re o only by their Pa.. but also by the relat" between (be amt. of the lild and 07". pbases mW by otber pbyvksl factors. At and lower Umps. the best capacities a( &lats at a coast. imp. depend mainly on Mcir cbem. compn. Six refewces. W. R, Henn awe f two U06K INIC40 .12 mg cat 431111chil NIA111 4" C" its r q . ) . P 0 a T FA I a &j 0 a 6 1 V 01 1 A a 3 1 9 K a I IN It a IX a It a I YA 0 0 0 0 * 0 0 a 0 0 * 0 * a 0 o q 0 0 0 0 0 0 a 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 9  we 0.01001 ga's 4 loalso*** ea 6 a as a 0 0 0 6 u is XV&39.njl vu Jim Jim man as u As a 4,1! a* A 11 a I L 11--to _jj fit I.P i v_-*D441 A :-*a glomerstiou of Krivorrog ores. G. I. Experimental si -00 so 1-kinin and%'. G. %usLulKoiniloy, 1'rorspiPraktAffir. No. 6. h4-WJM7r;7'cr-pfiFZMQ struir.- Agskuneratilms was conducird with lit Chief typts of Klivinut or". 11-npn 111 S~ m~;Wt.. Fell 'U." lest 40*nl: (1-14, 7 !_69 f T, men. :;4:"VJO%.' 41.1".40 color. 00 ~V:41-bvnrso.IVA-43.5%. Drectirwast).2.1imm. Eipis. 1~ww that lit obtain giKxl rr%tilt% she charge thimlil have -00 A o"j"Iffir fin tkill-for,%alull! 11,; Gn Viold'.1 aggloomlairs net .5 "list. aws W Pil"; tire In'.1ovi W", 0 stmog isoll J.'Colm Lavirr to".h. p1ojWrlk,4 I he pro- 101tic 0111minra froto lot" of 14~j 4" allose N(h. Zee duction of nocnial aulorriefair turvesi-nds to content of 241-9_5% coo v RO in pirtmiuct. Fxpl.. with Fish and ;m-or (ar Mists. gave JAA. mullb. 'Mixt. of both ,hould contain W I AIN1111 Wo-o S101. It. Z. Katim 11 ZOO 00 -a goo so 4 a 00 00 9 ::00 00 MOO .00 00 :*7 I L A AIVALLUO'CKAL s.1T1MATk#t (LA$SA*WATjoN odp 90 11- a 3. J'i I it 0 0 soils, 1~0 - .1, u a -Y -jr, I --- T W " 11 It to 01 of 9 it t4 low jj 1 ;14 rod 0 a 0 1 if N WX' goo 00000000*oo.oo:;Goooooooooo*esoooooo0000 0 1U141 0 0 0 0 0 9 0 0 0 0 0 0 e 0 0 0 0 0 0 0 Ole 6 0 0 0 0 0 0 0 0 0 0 0 a TZ~Wm  v0sx0noyllixovy V. 0. Voskolboy%ikov, V. G. "The reduction snelting of sulfur", Trudy Tsentr. nauch-isoled, in-ta chernoy zintallurCii, Isn-ne 1, 194-8, p. 5-4/6, - ~~Ibl-IoZ; 33 itemx- SO: U-2888), 12 Feb. 53, (Letopis' Zhurnal lnykh Stat-ny, No. 21, 191,9).  VOSKOBOYNIKOV) ViG4- VOSKOBCYLIIIKOV,, V.G.--l'Sulfur in Jortestic Industry." Dr Tech Sci, Inst of Metallur&r imeni. A.A. Baykov,, Acad Sci USSR, 28 Jan 5h. (V!;C,--~EMAYYA !-',C6KV~=A 19 Jan 54) . source: sum 166, 22 July 15~,54  VQSI!K!~~OBOYNI~XQV~.G.; KHROMDVv V.A,; MEMO# A.F.1 WRTCHAN, L.S.; TSKEVICH, O.V.; BIRW, A.I. YAthematical analysis of certain do n parameters of thermal 11!98, conditions of the blast furnace proo a [Sbor. trud.] TSHIICHH no.290~-23 163, (MIRA 17:4) 1. TSentrallnyy nauchno-labledovatel'skiy institut chernoy metallurgii (for Voskoboynikov, Khromov, Reboko, Wrtchan), 2. TSentralInyy ~auchno-isolodovatelfskiy institut komplekBnoy avtcmtq-luizatsii (for Mitskovich, Birman),  N t"WM Use of oxygen in @teal smelting. Sbor.trtA.TSNIICEN no.13:12-17 156. MVA 9:11) (Oxygen--Industrial applications) (Steel--Ketallurgr)  6S r P? SAMARIN, A.M.. otvetstvennyy redaktor; TSYLEV. L.M., professor, doktor, redaktor; YOSKOBOYNIKOV, Y.G., doktor tekhnicheakikh nauk, redaktor; OSTROUKHOV."WOU".", ~'idel-tekhnicheskikh nauk, redaktor; CHMOV. I.N.. redaktor 12datelistya; KISIIAVA, I.A., tekhnicheakiy radaktor [Investigation of'blast furnace processes] Issledovanie domeanogo protaposs. Moskva, 1957* 255 Pe (MLRA 10:4) 1, Akademlys aauk SSSR..Inatitut metallurgii. 2. Chlen-korrespondent AN SSSR (fot Samarin) (Alast furnac3s)  \JOS 1~0 V'C' 137-1958-1-202 Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 1, p 32 (USSR) AUTHORS: Voskoboynikov, V. G., Adabazh' yan, A. K, TITLE: Prospects of Development of Automation in Blast-furnace, Steel- smelting and Rolling Operations, and the Problem3 Before Science in Connection Therewith (Perspektivy razvitiya avtomatizatsii domennogo stal.eplavillixogo i prokatnogo proizvodstv i zadachi nauki) PERIODICAL- V sb. : Sessiya AN SSSR po nauchr. probl. avtomatiz proiz-va. Kompleksn. avtomatiz. proizv. protses~-,ov, Moscow, AN SSSR, 1957, pp 122-138 ABSTRACT: The need for automatic control of open-hearth furnaces, and for overall process-controf mechanizat;*on ard automation of rolling mill operations.is indicated. It i!i also nece.-3sary to pro- ceed toward the overail proce,~, s -control automation of control of Hast furnaces. The basic and essential prnblem3 involved in further proces-,~control automation are posed for each of these primary field-, of iron and steel production. The unsatisfactory organization of the invest1gat*Aons and planning operations now Card 112 under way ~'s noted, azi ii the need to claborate new continuous  137- 19 58- 1 -202 Prospects of Development of Automation in Blast-furnace, (cont, technological processes susceptible to automatic overall-process control. M. L. I# Open bearth furnaces-kutomatim 2o Blast furnacen-4,uto- nAtic-n 3- R03-ling 2milIN-Lut0matien 4. Ste6l industry--:Equiy- ment-USSA Card 2/2  ,V05X066VN1NUV, V. 137-58-5-9026 Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 5, p 40 (USSR) AUTHORS: Voskoboynikov, V.G., Goloskov, B.V. TITLE: Desulfurization of Pig Iron With Magnesium (K voprosu ob obes- serivanii chuguna magniyem) PERIODICAL: Sb. tr. Mosk. vech. metallurg. in-t, 1957, Nr 2, pp 40-52 ABSTRACT: Metallic Mg (MM) has been initially employed in foundries as a modifier which spheroidized the graphite contained in pig iron; more recently it has been employed as a desulfurizing agent. Attempts to utilize MM for desulfurization purposes have usually failed: after desulfurized pig iron had been subjected to blowing in a Bessemer converter, or after it had been reduced in an electric furnace, the amount of S contained in the metal was found to be greater than it had been in the original pig iron. This was explained by the fact that, instead of removing the S, the MM caused it to form chemical compounds in which the S could not be determined by means of standard chemical analysis meth- ods. The success of the Kanash plant in producing Bessemer steel with low S content from desulfurized pig iron was the Ca rd 1/2 reason for a special investigation ordered by the TsNIIChM.  137-58-5-9026 Desulfurization of Pig Iron With Magnesium Addition of 0.3-0.35% Mg under laboratory conditions did not produce any supporting results, although a high degree of desulfurization was observed in individual experiments. Shop experiments employing radioactive tracers have shown that the Mg treatment of pig iron will reduce its S content by 65- 70% on the average. Negative results obtained are explained by the diffi- culties connected with the removal of the slag which consists of MgS and forms a pulp-like mass mixed with pig iron, on the surface of the metal after the pig iron had been desulfurized; as a result of this condition, the S contained in the fraction of sla8 which had not been removed, re-enters the metal during the blowing process, The Kanash plant achieves its low-sulfur converter steel by employing effective methods of slag removal. M. 0. 1. Iron--Desii1furization 2. Magnesium--Applications Ca rd 2/2  VOMBOYNIKOV) V. G. (Dr. Tech. Sci.); ADARASHIYAN, A. K. (EnC.) "Trends of Development of Autmation of Blast Furnacep Steel Meltinr and hollinE Production and Problems of Science," paper rend at tho Session of the Acad. Sci. MR, on Scientific ?.roblems of Automatic Production, 15-20 October 1956. Avtomatika i telemekhanika, No. 2, p. 182-192, 1957. 901522~,  MANTSEVP R.M.; GUBERT, S.V.; CHARIKHOV, L.A.; VOSKOBOYNIKOV, V.G.; STOSHA, Ye.A, For an overall mechanization and a widesTread automation in tallur y* Metallure 9 no.6sl-3 Je 164. (HIRA 17t9 Vu 1, Diroktor Gosudarstvaruiogo soyuzncgo insti" ta po proyaktirovanlyu egatov atalelite ogo proka tnogo proizvodstva dlya, chornoy mtal- 'lurgii (for Mantsevr. 2. Diroktor Gosudarstvannogo soyuznogo instituta po proyektirovanlyu motallurgicheskikh zavodov (for Gubart). 3. Glavnyy inzh. TSentrallnoy laboratorii avtomatiki (for Charikhov). 4. Zamestitell direktor Instituta novoy metallurgichaskoy takizilki. TSentrallnogo nauchno- isoledovatellsko7o instituta chernoy meta.Uurgii im. I.P. Bardina, (for Voskoboynikov)~5.;amestitell clirektora Vaesoyuznogo nauchno-isaledovatell- .,~,Skogo i proyekGnolconstruktorskogo instituta mtallurgicheskogo mashino- .t,~stroyeniya (for Stoaha),  Y-OSKOBOYNIKOV, V.G., prof., doktor tekbn. nauk; MERET31N, B,N., prof.; LrJ9-i6-DIMZKIYJ, V.A.. Inzh.; MISHIN, P.P., inzb.; RUM, Yu.O., inzh. '!..; 7.one Dynamics and control of coke burning processes In the tuy',rr of a blast furnace. Stall 24 no.11:975-980 11 164. (MTRA IP: 1)  AST.RGV(fnu),. Centrrl Research Institue of Iron and Steel (possibly the Central Scientific F~esee_rrch Institute of Ferrous IF0051101Y YC- 7. ASIMOV who vas Feand, Central Laboratory - 1-Z!tPlIoLraphic Laboratory, Gorkiy Metallurgical Plrnt, in 19W5) - "Continous crustin.g. - present and future pro3pects" MIMLALENICH, Goorgly, ECE Steel and tnCineerlng ~.Secii~on- .1k and modern stoelm,, InC." Based n,.Mnly on information developed for the EC2 study, "Comparison of steel-making pro- cesses," vhich will be distributed at the opening meeting. RUDX.O:~ A K., Chief Engineer, Steel Plant imen' Dzerzbinskiy - '"Sintering practice on a large -s cal a WSY0BOY1111MV, V. G., Central Research Institute ~6.1=on ah~ttee~l(possibly the Centrall Scientific Research Institute of Ferrous Metallurgy) - "Developments at the blast furnace - top pressure, sinter practice, hydro-carbon injection, oxygen" roport to pro.-ont.--d at tha Intar-m-g--loral Sympoz;j ni or. Iron and Stool in AU "~'Vionz ~'commic and Socia"  GOLIDSHTEYN, Nison Llvovich;-3Q prof,,, doktor tekhn. nauR. rotsonzent; ITEXRASOV.. N.K.p doto.pfkand. tekhn. nauk., re- tsenzent; VATOLIN, II.I., kand. teklm. tauk, retsenzentl LEPINSKIKH, B.M.j, retsenzent; POPEV, S.I., prof. doktor takhn. nauk,, red,; BURIKOV, M.M., red. izd-val TURKINA, Ye.D.p tekhn. red. (Short course on the theory of metallurgical processes] Kratkii kurs teorii metallurgicheakikh protsessov, SvDrdlovak, Goo@ nauchno-tekhn.izd-vo Ut-x7 po chernoi i tsvetnoi metanurgii, 1961. 334 P. (MIRA 15:2) (metanurgy)  VOSKOT~0riMA4 Ve G. ILI 1'P 118111 -a-f- 5INVIII.:I 913 4 $u 1.111101 1 a 'IOU wiv 301 0:2 .18 Jill mil Jill 'fig I " I .131 Ulf 11A U ----------- ut ts.. I 16 iA Ulm  SOV/137-58-9-18533 Translation from: Referativnyyzhurnal, Metallurgiya, 1958, Nr9, p50(USSR) AUTHOR: Voskoboynikov? V. G. T IT LE: _..W4~e~ctoi Sulfur Contained in Coke on the Coke Consumption in Open-hearth Smelting (Vliyaniye soderzhaniya sery v kokse na raskhod koksa pri domennoy plavke) PERIODICAL: V sb.: Issled. domennogo protsessa. Moscow, AN SSSR, 19570 pp 138-147 ABSTRACT: Experimental data provided by the author can be used to solve problems dealing with the distribution of S between cast iron, slag, and gases and, in particular, to determine the alkalinity of slag required to obtain a desired composition of cast iron. The compUtations are based on the equation Lt = (zSres/f S) Wn where Lt is the constant of distribution of S between the slag and s the cast iron at the temperature t of the slag at the time oi its dischar'e; ES the quantity of S remaining in the furnace 9 res expressed in percent with reference to the weight of cast iron; n the relative amount of slag; [S] the sulfur content in the cast iron expressed in percent. If the values of ZS and n are tres . Card 1/2 known, it is possible to compute the value of LsNand, subsequently,  SOV/137-58-9-18533 The Effect of Sulfur Contained in Coke (cont. ) .the coefficient of distribution of S at a temperature of 14500C with the aid of the expression L1450=Lt/ , where is the temperature coefficient, which is compute9with tAe aid of empirical formulae in accordance with the temperature of the slag at the time of its discharge; in turn the temperature of the slag ma~ be calculated from the S content of the cast iron. Once the value of L145 is computed, the alkalinity of the slag (RO:SiO,) -required s for the achievement of necessary conditions for desulfurization may be com- puted with the aid of a graph derived by the author. The computational results indicate that the additional consumption of coke due to its increased S content, increases with an increasing richness of the char e. At a yield 0-2. 1 o/o S. an 0. o increase in of slag, n=O. 75, with -a coke containing I' 11 the S content of the coke corresponds to a 1.40/o increase in coke consump- tion. At a greater content of S in the coke, the consumption of the latter increases and, at 2. 50/0, reaches a value of 2. 10/6 per 0 I$o S contained in the coke. At a yield of slag n:--O. 5 and a sulfurous coke i2. 50/o S), a 0. 10/6 variation in S content produces a 50/o change in the consumption of coke. 1. Open hearth furnaces--Operation .2. Coke--Consumption K. 3. Sulfur--Performance Card 2/Z  VOSKOBOMIKOVP V.I. History of the origin of geographical names in Kamchatka. Izy. Veen. geog. ob-va 94 no.1:53-61 Ja-1? 162o WRA 1513) (Kamchatka-Names, Geographical)  VOSEDBOYNIMV, VLI.,, inzh. Rose-type gas and heat protection apparatus, Bezop. truds v prom, 2 no.8:28-30 Ag 158. 1 (MIRA 1217) l.TBantralluaya nauchno-iosladovateliskaya laboratorlya voyaniziro- vannykh gornospasatellnykh chastey, (Safety appliances)  1,8(5) SOV/112-59-3-5573 Translation from: Referativnyy zhurnal, Elektrotekhnika, 1959, Nr 3, p 186 (USSR) AUTHOR: TITLE: Investigation of Ventilating Conditions in Mines During Underground Fires by Means of an Electric Simulator (Issledovaniye ventilyatsionnykh rezhimov shakht pri podzen-mykh pozharakh s pomoshchlyu elektricheskoy modeli) PERIODICAL: Ugol' Ukrainy, 1958, Nr 1, pp 19-24 ABSTRACT: Using electric simulators parmits adequately controlling mine ventilation, necessary for conducting rescue operations, during fires. Investigation of air redistribution in the ventilating system, depending on the point of fire, mining conditions, and rescue operations, can be conducted on an AEMVS electric simulator of ventilation systems built by Dnepropetrovskiy zavod selenovykh vypryamiteley (Dnepropetrovsk Plant of Selenium Rectifiers). The simulator is based on an analogy between air distribution in a ventilation system and current distributio-n in an electric network of the same Card 1/2  SOV,/112-59-3-5573 Investigation of Ventilating Conditions in Mines During Underground Fires by . configuration. The electric network resistors are selected with an allowance for the fact that the air flow through mine tunnels obeys the quadratic law. The coefficients for equations describing air distribution in the ventilation system are taken from data of the latest mine depression survey. The basic circuit diagram of the AEMVS simulator and its power-supply data are presented. A case of simulating the thermal depression of a fire and of various ventilation measures is examined. Five illustrations. ' Ye.G.S. Card 2/2  1 VOSKOBOYNIKOV, V.I., starshly nauhhnyy sotrudnik Use of electric modeling to establish favorable ventilation conditions in mines during underground fire extinction. Ugoll Ukr. 4 no.7:16-20 J1 160. (MIRA 13:8) 1. TS~ntrallnaya nauchno-is aledava tell skaya laboratoriya Voyonizirovannykh goraospasatelluykh chaetay. (Mine fires) (Mine ventilattoa--Zleetromachanical analogies)  VOSKOBOYNIKOV, V.I., starahiynauchnyy sotrudnik Study of the parameters of a ventilating current passing through the focus of an underground fire. Trudy Sem.po gor.teplotekh. no.4:42-48 162. (MIRA 15:8) 1. TSentraltnaya nauchno-isaledovatelickaya laboratoriya po gornospaBatellnomu dolu, (Mine fires) (Mine ventilation)  VOSKOBOYNIKOV, Vladimir Ivanov-1ch Acaderic dep .Tee of Doctor of Mledical Sciences, based on h1s defense 17 March 1955, in theCouncil of the Ode~~sa State Medical ln,~t ineni Pirogov, oil his dissertation entitled: "The Significance In Legal 14edicine of Prelindnary Blood Tests." Academic degree Doctor of Sciences SO: Decisions of VAK, List no. 27, 24 Dee 55, Byulletent '110 SSISR, Uncl. JPP3/MY 548  ~OSKOBOYMKGVt V.K. ~r~reot o~rultrasonico on the peripheral nerve h%rs and nerve en~Iings. Biu:. eksp. biol i meds 50 no,12s%~-102 D 1601, (MIRA 101) .1. 1z'kafedry gistologii (nauchnyy rukovoditeie - Mf, N.P. Zayisev) i kafedry fiziki (zav. rof. Ye.M. kubl p skii) 4n slavokogo meditsinskogo institu~a,(dir. - dotse'nt G.A.Babenko)., Predstavlena doystvitellnym chlelibim AMN SSSR V.V, Parinym. (NMES 9 PERIPIMM) (ULTRASONIC W~VIW~PHYSIOLOGICAL E"ECT)  1-1-9 Professor# doktor; SHAIDUGA, N-Tao, assistent;.VOSKOBOTMIXOV, Now method of rumenotoaV. SboretrudolOwleyst.inst. 21:425-411 152. (HLRL 9:12) 1. Ilafedra operativnoy khtrurgii Kharkovskogo vaterinamogo inati- tutao (Yeterinary surgery) (Stomach-4agery)  GUBAREVICH)"(A. G.; VOSKOBOYNIKOV, V. M. "Experimental and clinical data on pituitrine and calcium cILI-oride effe,:'. cn cow uterus." report submitted to 5th Intl Cong, Animal Reproduction & Artificial Insemination) Trent, Italy, 6-13 Sep 64.  v6sx6nm.tKOV, V. M. Assistwnt Professor, Vitebsk Veterinary Institute. d Pathogenetic therapy with antiblotica for mautitin control in cown, i) Yeter1rviriya, Vol. 37, No. 12., P- 51, 196o.  USS.R/Discasee of Fam Animals - General Probleze. R Abs Jour: Ref Zhur-13iol.p No 15, 1958, 69469. Author Shalduga, N. Ya-JVoskdboynikcYv, V.M.; Korrpantsev, V.A. Tnat Title 'Intm-Ossecrus and Intravenoud Alcohol-Chloral 1~ydrate Induced Narcosis in Swine. Orig Pub: Veterinariya, 1957, No 7, 63-64. Abstract: Chloral hydrate in a doze of 0.1 g. was dissolved in 33% alcohol. In intra-osseous narcosis, the solu- tion was injected either into the red bone narrow substance of the second segment of the sternum or into the upper opiphysis of the hunerus. In intravenous narcosis, the solution was injected into the groat ear vein. Narcosis was setting in Card 1/2  V03KOBOY111KOV, U.I., dot~;onL --------------- - Enucleaticn cf the corpus luteum stimalatea the function. Veteriratlia 41 no.2:P2-84 F 165- WIF;, 18:3) 1. Vitebskiy veterinarnyy institut. xma, t MENEM  GUBAREVICH, ya prof.; -V-OSKOBOYNIKGV,.V..~. , dotsent; KOCHETOV, M.V., kand. veterin. nauk -- --. -1 -'-. -- Detecting subclinical forms of mastitis in cows. Veterinarija 41 no.9t85-86 S 164. (MRA 1814) 1. Vitabskly veterinarnyy inatitut.  V_OSKOBOYIIIKOV. VOM., dotsent Combined treatment for the retention of vlacenta in ows. Veterirarl'a 4.1 no*3s69-70 Mr 164- (MIPA 18i1) 1, Vitabskiy veterinarnyy institut.  VOSKOBOYNIKOV,.V.M., dotsent Using the cesarean section. Vaterinarila 40 no.10t39-40 0163. 1. Vitabsidy veterinarnyy institut. (MIRA 170)  MAUIMOV. V.L.dots.; VOSKOBOYNIKOV. V.M.,dots.: KOVSHIKOVA, L.P.,assistont Conduction anestheela in diagnosing Infectious balanitis In bulls* Vetorinariia 36 no.1:64-66 Ja 159. (HIRL 12:1) 1, Vitebskly veterinarnyy institixt. (Vaginitio in cattle) (Novocaine)  Sff/LL,Ak~A, 'V~;Sf:0?PjYNIKOV, Y.V.; kC*P'.':'2--;nV. V.A. lntrn-osoa-~-~z ani intravennun alco'nnl-clilo7al !n sv;r,~, Veterirs-litt "t no-7,.63-64 j1 15'. pl~-:8j l."harlkovskiy vaterinarnyy inst'tut. (;,netthesla in vaterinary ~urrarj) (Caloral) (Alcohol-TheraTcatic use)  VOSKOBOYNIXOV, V.H..p assistant. lumbar epidural anestheoia in cattle, Sbor. trud. M=r'. Tat. LnBt. 22:399-407 054. (KLRA 9:12) L rafedra operativnoy khirurgii i topograficheakoy anatomii Kharl- kovskogo votarinarnogo instituta. (Anesthesia) (Veterinary zurgery)  VOSKOBOYNIKOV, V. H., (Assistant Vrofessor, Vitebsk Veter!irmr7 institute) Intravenous injection of novocain-penicillim solution in mastitis Ve'erinariya Vol. 38, no. 10, October 1961 pp 59  VOSKOBOYNIKOV, V.M., dotsent Pathogenic therapy ccmLined with antibiotics in treating mastitis in cows. Veterinariia 37 no.1201-53 D 160. (MIRA 15W 1. Vitebskiy veterinarnyy institut. (Udder--Diseases) (Cowo--Diseases and pests)  VO5XOBDYNIXOVf-.V.Mi, doteent Intravenous injection of a novocaine-penicillin solution against mastitis, Yeterinariia, 38 no,1009-60 0 14. (MMA U12) 1. Vitebaki3r vaterimmyy institut. (Novocaine) (Penicillin) Odder-Diseaoe-0  ~ -) yAll Ni)() VCJ~2 /~ 0 17 ( ~. Vk/. VOSKOBOUIROV. V.1i., inzhoner. 'dater level indicAtors. Bezoo.truda Y prom. 1 no.9:36 S '57. (HLRA 10:9) (Liquid level indiesitors)  WS SUBJECT: USSR/Technical Schools 27-4-7/19 AUTHORs -Vookoboyalko-vt re I., Director of Technical Sebool Nr. 19 QN-ov-o-olbi rsRT_ TITLEs News about Teaching (Novoye v uchabnom protsesse) PERIODICAL: Professionallno - Tekhnicheskoye Obrazovaniye, April 19579 4 (143), pp 16-18 (USSR) ABSTRACTs The article oxplains the theoretical and practical instruct- ional methods used by the school with emphasis on industrial training. The author emphasizes that the foremen pay too little attention to the quality of the work done by the students, for which different reasons are quoted. However, corrective measures are being undertaken. There is one photo. ASSOCIATIONt PRESEXTED BYs SUBMITTEDs AVAILABLEI At the Library of Congress Card 1/1  VOSKOBOYNIKOV, Ye. Now elements in the educational process. Prof.-takh. obr. 14 no.4: 16-18 Ap 157. (XLRA 10:4) 1. Direktor teihnicheekogo uchillahcha no.19, Novosibirsk, (Novosibirsk--Technical education)  A.A.- VOSKOBOTNIK DUBIIIXO, T.P.; ILTMIS, V.I.; il~, F.L.; BUIIGMX, H.I.; UrABEMIT, L.K.; KARGOLIN, D.I.; %=IRA, KOT.9 kand.ekon.nauk; BUGARETICH, T.S.: 'EMWNA, V.A.; XALIHOTSM, K.D.; KKWCSMMICH, O.A.; TTABUT. H.A., red.; LIZARCHIK, K., red.; KALSOHITS, G., tekhn.red. [Reference book on the establishment of work norms on collective farms] Spravochnik po normirovaniiu truda v kolkhozakh. Hinok# Gos.izd-vo BSSR, Red.sallkhoz.lit-ry, 1960, 151 p, (min 14:3) 1. Akademlys ael'skokhozyayotvennykh nauk ESSR. Inatitut ekono- miki. 2. Institut ekonomiki i organizatoil sellskokhotyayetvennogo proizvodstva Akademii seltakokhozyaystvennykh n'auk BSSR (for Vookoboynikov, Dubinko, Ilyushin, Trublevskaya, Danchuk. Bugarevich, Kuptsova, Kalinovskiy)- 3- Starehiy inspektor Upravleniya po orgkolkhoznym delam Hinisterstva sellskogo khozyaystva BSSR (for Meleshkevich). (Agriculture--]Production standards)  IOMER, ILI.; VCGKCBOYITIKOV, Yu.L. 1 - Results of a competition for a better proposal to reduce the cost of designing and building tank farns. Transp. i khran. nefti i neft- prod. no.6:33-34 t64. OaHA 17: 9) 1. Glavneftoonabsbyt UkrSSR.  VOSKOR)YNIKOV, Yu. n~. Vulcanization of Conveyor beelts, Nt' i put.khoz. 9 no.4.109 16.5. (MIRA 19:5) 1. Glavnyy lnzh. Kamyanitskogo shchobanochnogo zavodap stantalya KairLyanitsy, I,Ivovskoy dorogi,  RAYTSES, V.B.; SHILKOVA, T.S.; VOSKOBOYNIKOVAL-NA,~'t, Reviewed of A.A.IUrgenson's book "Nitriding in the power machinery industry.* Metalloved. i term. obr. wt. no.9s62-63 S 163. (KRA 16slO)  S/276/63/000/002/018/052 A052/A126 kUTHORS: Lyakhovich, L.S. , and Voakobop~ku-&"-Rv*-. T IT Tvj: Effect of iaothcrmic hardening on the propertiee A 40X(40W oteol with boron PERIODTCALt Referativny zhurnal, Tekhnologiya manhinostroyoniya., no. 2, 1 3y -F In c-ollection:"Novoye v meta.-oved. 6 a b S t rF.c t21) I ter""'nol. torm. oDrabotr. stali". Chf~lyabinak, 1~b2,21'-21) "X. -)ut )v ' onipro-typa iz,rict X X -4 re U, Llc :,.jL,rl 'l- L-16 M i S I r. az, "-1,)t The temperature of heating for hardening was (16o 10LIC, the holding for the samples was 5 min and for the blanks 14-Omm in di!imeter, 18 min. laother- mic hardening was carried out in an alkali bath (100% NaO10 with a mochan- ical 3tirring at 550, 350, 400, 450 end 4500C for impact 9amplea and at 33,-;0C for trie oLanks +-.):nm In 7ne nolding in the nardeni.ng medium for impact qnmpleE3 was 2-,-; a-nj 5, T, i, -ind for tne biankq 4uiam In iia- Card 1/2 fid  --`-Effectof 1861he-imic hardening-.-.. A05-2/-AI26 motor, 20 min. ?he cooling eXter inothermic hardening was made in water. The toughness and hardness of t1le ateela at different holdings and cooling temperatures was determined. The fracture of the steels ELfter igothermic hardening and their microstructure were analyzed. There are 3 figures and 5 referances. I. Kialyakove, (Abstracter'S nota. ~omple.q tr&nslation.) Card 212  VOSKOBOYNIKOVA, S. B.- Cand Mod i -- (diss) 'Intravenous and iixtra-osseous (.4u, r -- to anesthesia of children 1-4. A, 4U re arations arbiturio noi 0 Khar1kov, 1967 12 PP 20 0m. (Kharikov'ObjLastnq Clinical Hospital. Kharlkov -Med Inst), 200 copies. (KL,p 15-57v 107)  SOLOVITET, V.; VOSKOBOTHIKOVA, S. ...... Raise the standard of economic work. Fin.SSSR 19 no.8:65-68 Ag 158, (MIRL 11:9) 1. Zaveduyuobchiy Kirovskim rayfinotdolom Moekvy (for Solovfyev). 2. Starshiy ekonomist Kirovskogo rayfinotdola Moskvy (for Tookoboynikova). (Moscow--Finance)  VOSKO'BOTN S-B, kand.-med. nauk (Zharlkov, ul. Artem, d. 23, kv. 18) Two cases of traumatic diaphragmatic hernia. Nov. khir. arkh. no.2: 111-112 Mr-Ap 159, (KM 12:7) 1. rafedra detskoy khtrurgil, (zav. - prof. A,V, Gabay) na baze Kharl- kovskoy oblastnoy klinicheskoy bollnitey. (DIAPHRAGM--HMIA)