SCIENTIFIC ABSTRACT KUSEMBAYEV, KH. N. - KUSHAKEVICH, S. A.

VIROGIUDOV, V.S.p inzh.; ALIT511ULEA, M.A., kand. tokhri. rtriuk; r-OLYAFOV, V.G., Inzh.; KWIOUX111, A.1j.p inzh.; KA;,JIAZIII, V.I.p doktor tokhn. nauk; ZAIKIN, S.A.; inzh.; OSTROVSKIY, G.P.p inzh.ldeceasod); NAUMUTKO, P.I.p inzh.; BOBRUSHKID, L.G., inzli.,* RUSTAMOV, I.I.p inzh.; SHIFRIN, I.I.p inzli.,- GOLOVANOV, G.A.# inzli.; ICIASOVSKIY, L.A.p inzh.; TSIMBALENKO, L.N., inzh.; RAVIKOVIC11, I.M., inzh.; BAZILLVICH, S.V., kand. tekhn.nauk; Zoll I I.P., inzh.; ZZUBAREV, S.N., inzh.; TIKHOVIDOV, A.F., inzh.; SHITOV, I.S.I. inzh.; GAMAYUROV, A.I., inzh.; KUSEMBAYEV, Kh.N., inzh.; DEKHTYA,9EV, S.I., inzh.; VORONOV, inzh.; BURMIll, G.M., inzh.; BARYSHEVI V.M.., inzh.,- GOLOVIN, Yu.p., inzh.; M"IERIKO, K.F., inzh.; :ffCHKOV, L.F.$ inzh.; NESTERMKO, A.M., inzh.; KABA11OV, V.F. 1. inzh.; PATRIKEYEV, N.N., inzh.Cdeceased]; ROSSMITI A.F., inzh.; SOSEDOV, 0.0., inzh.',* POKIOVSKIY, M.A., inzh., retsenzent: POLOTSK, S.M., red.; GOLIDIN, Ya.A., glav. red.; GOLUB-vATjTIK0VA,G.S., red. izd-va; MUMMA, Z.A., tekhn. red. [Iron mining and ore dressing industry]Zhelazorudnala pro- nyshlonnost'. Moskvap Gosportekhizdat, 1962. 439 p. (MIRA 15:12) 1. Moscow. TSentrallrjyy institut infomatsii chernoy metaUurgii. (Iron mines and mining) (Ore dressing)  MUSTAFIDTA, A.M.; KUSEMBAYEV, Kh.N. Seleotion of effioient dimensionis for the working face of the ESh-6/60 excavator in the Sarbay Pit. Trudy Inst.gor,dela AN Kazakh.SSR 9s88-94 162. (MM 15:8) (Kustanay Province-Kxcavating machinery)  YU,;L4FINA, A.M.; RLOEMMAYEN, - USCJV, F.M.; SAIM"o-OV, G.KY,. Selection of the optimum parameters for the dump In using ESh-6/60 walker dragl1nes In the Sarbay Mine. Trudy Inst. gor. dela AN Kazakh. SSSR 10:105-109 163. (MIRA 16:8) (Kustanay Province-Fxcavating machinery)  KUCWEI: II L~.I. CanIU01. Sci -- (dirs) "InHeators oil Carbohydrophosphorous Yetabolism in tho Livor of imttw_ P./,, I/ I Cattle". L'vov, 3.957, 16 Pazn,3 (1-4*i"iculturo e--~ , u AsSR. LIvov Zoo-/vot In3t). 100 copies (-,1, 10-51319 120). - 19 -  21-4-24/24 AUTHORSt Gzhytsfk77, S.Z., CorreaPorxHmg Member of the Ukrainian Academy of Sciences,and Kusen, S.T. TITLE: Investigation of the Glycogen Level in the Cow Liver (Doolidsh- annya rivnya hlikohenu pechinky u koriv) PERIODICAL: Dopovidi Akademii Nauk Ukrainalkoi RSR, 1957t #49 PP 413-416 (USSR) ABSTRACT: Extensive investigations were conducted on determining the glycogen concentration in liver samples of cattle obtained by means of biopsy, The glycogen concentration fluctuates from 0-595 to 4.327 %, being higher in winter than in summer. Indi- vidual fluctuations were also observed. Administering of glucose into the blood (as well as administer- Ing glucose preceded by an injection of insulin) results in a double effecti an increase of the liver glycogen concentration With a low initial level, and a decrease when the level was rather high. Card 1/2 The regulation of the blood sugar level in cattle is probably  TITLE: Investigation of the Glycogen Level in the Cow Liver (Doslidzh- ennya rivnya hlikohenu pechinky u koriv) 21-4-24/24 due to the great capacity of the liver for synthesizing sugar from volatile fatty acids. The article contains 2 tables, There are 10 references, 2 of which are Slavic. INSTITUTIONt Institute of Agriculture and Livestock Raising of the Ukrainian Western Regions PRESENTED M SUBMITTEDi 2 October 195b AVAILABLE: At the Library of Congress Card 2/2  GZHITUIY, B.Z., professort GOLOTACH. Y-Ne, Imndidat biologicheek1kh nauk; PUPIN, I.G., k&udi"t biologichookikh nauk; PAMT, Y.Tu,, Imudidat b1ploctchookikh,muk; KUMM' S.I. pirant. Itiology of chronic hamaturia In cattle, Toterinarile. 34 no.3t44-" W 157. (mm 1016) 1, Ohlon-hrrespo"out Asdonji mauk Ukrainskol SSR (for Gehitskly), shivotnovaUtva sapadnykh raronov Vemiiakey (RomaturIO (Cattle--Diseases and posts)  II)OV/21-58-2-27/28 AUITHORS: Gzhitakiy, S.Z., Correspondi"19 Member of the AS Ukr3OR? and S.Y. TITLE: -V-efh-63T5-af-jv"LX_BiOP3y in Cattle (Metodika biopsii pecheni krupnogo rogatogo skota) PERIODICAL: Dopovidi Akademii nauk Ukrain3lkoi RORs 1959, 'Tr 2, pp 228-229 (USSR) ABSTRACT: Very little has been written about the np?lication of biopsy to cattle. The reason for this has been the technical diffi- culty of obtaining pieces of an organ from live animals, Therefore an apparatus for performing biopsy was designed in a laboratory of the 3cientific Research Institute of Agri- culture and Cattle-Breeding in the Wiestern Regions of the UkrSSR. The present article gives a description of this apparatus and of the method of its application for obtaining liver tissue from live cattle. The laboratory porformed about 250 of these experiments, and liver samples were taken from some cows over ton times. There are: 1 photo and 8 references, 2 of which are Soviet, Card 112 1 German, 2 American, and 3 English.  ?,',ethods of Liver Biopsy in Cattle SOV/21-58-2-27/28 ASSOCIATION: Nauchno-issledovatellskiy inatitut zemledeliya i zhivotno- vodstva zapadnykh rayonov Ukr53R (Scientific Ilesearch In- stitute of Agriculture and Cattle-Brooding in the 7.'estern Regions of the UkrSSR) 3'~'B,Y,ITTED: April 8, 1957 NOTE: Russian title and tions appearing in literation. Russian namos of individuals and inatitu- this article have been used in the trans- Card 2/2  HORS: Fuaen', S.I. and Pupin, r.(,. UTH TITLE: On the Problem of Rhythmic Fluct~iqtions of the '2-ico,-en Con- tent in the lAvor of Cattle (K v,,prosu o ri t~-,iichrostl kole- bani y soderzhani~ia plikoeena v pecheni krupno.p,,z) ro,,xntoro skota) ! C) D I C A LDopovidi Miademii nauk Ukrains'koi 1-n.-R, ':r PP 977 - 979 (USH) 1IBSTRACT: The authors nresent the results of investip-ations carried out on 13 cows from the Llvovskiy mya3okombinat '71,1vov '.'eat Combine). By means of biops.-,,, samples of liver tissue were taken 5 to 6 times, at 20-minute intervals, from each animal. In addition to this, liver samnles were taken 4 times from 3 cows at one-minute intervals. The concentration if zlyco- e,-en in the liver tissue was determined by the method of 1103d, Kramer and Somo,7,yi fief. g. The results of these studies show that the glycogen concentration is constant!-: cl-anrinx wl-iich confirms a previous h.vpot~,esis, by the aut~iors and Soldatenkov ZRef .47, as to rhythmicity in the exchan,7e of carbohydrates in the liver of cattle. sz):--e animals a 20-minute cycle of glycopen concentration fluctuations 'gas observed, in others a 40-minute, and with still others, even a lonf-rer cYcle. A transient form, when the 20-,,,niinute c,,.,,cle Card 1/2 alternates with a longer one, occu--s most freauently. '.'~ h e n  On the ~'roblem of Rhythmic Fluctuations of the ';Iycoglen Conte-1, in t~J, Liver of Cattle the glycogen content was determined in various parts of the liver samples of the same animal, onl.v insignificont differ- ences were established, a fluctuation in the range from 10 to 140 There are 4 graphs, 1 table and 9 references, 4 of which are Soviet, 1 American, 2 Fn~-lish and I Scan- dinavian. ASSOCIATTON: iNauchno-issledovatel'skiy institut zemledeliya i zhivotno- vodstva zapadnykh rayonov UkrSSR (Research institute for Agriculture and Cattle-Breeding of the Nestern Regions of the UkrSSR) PREUNTED! By IMember of the UkrSSR, ',',.F. Gulyy SUBM,ITTED- April 3, 195B NOTE: Russian title and Russian names of individuals and institu- tions appearing in this article have been used in the trans- literatior 1. Liver--Analysis 2. Liver--Performance 3. Glyco,.7en--Determination Card 2/2  PUPTN, 1. G. and LUSEN, S. 1. (USSR) "Biochemical Processes Jn Rimen of Cattle." Report presented at the 5th Internat:onal Biochemistry Congress, Moscow, 10-16 Aug 1961  2~ur. 35 3 t~~, C147,' 1 ..-hem  KUSENI, S.I.; FORODKO, i.S.; DOTWA, V.Ya. Arginaso aci.Lvity of the muccous -membranezi of tFa gu3trointestinal tract wal'i. in 11-~tal and adult cattle. Dop. All IIRSR no.5:617-620 164, (HIRA 17:6) 1. IJkv,,iiu.,,kiy iilotLtut I blo- zhivotnykh. Prodstavieno ~kmdemlkom AN 11krSSR. I.I.F.Gulyn. philyi, vu.).  M N POIRODKO, "LJWDA, '--.Y-3. ArginFL5-- nctivity In Of fed c7, C-talt chloride. Dop. All (MI-RA 17:9) 1. Ukrair:zkiy .1-1ziclorli j. bickidmil gf,,llskoknr)zynyr,#,,i.,!n!~~ki~ F r- c: 1v 1 o i i akndomikam All lJkr'j'iR M.F.Gul~7,. F lyip 1.%f- ,  S.I.; SHVETS, S.F. [Shvets', S.F.] Phenols in.procipitates obtained during the action of trichloroacetic acid on liver tissue and the digestive tract wall of adult cattle and retos6s. Dop. AN URIR no. 12:1625-1628 164. (MIRA 18:1) 1. Ukratnokiy nauohno-ia*ledovfttel'skiy institut fiziologii biokhlmll selIsk6Xbozyaystvennykh zhivotnykh. Predstavleno akademikom AN UkrSSR M.F.Gulym [Hulyl, M.F.J.  KUSENI, S.I.; MASLYANKO, N.F.; KOTSYUBA, M.D. On the chemical composition of fetal mammary glands in cattle. Ukr. biokhim. zhur. 36 no,2t267-275 '64. (MIRA 17tll) 1. Ukrainian Research Institute for the Physiology and Biochemistry of Domestic Animals,, Lvov.  KUSENI, S,I.; SHVETSP S.F. [Shvets'. S.F.) - ~ --z-- Concentration of conjugated phenol compounds in the tissues of the liver and the walls of the alimentary tract of fetuses and adult cattle. Ukr. biokhim. zhur. 36 nc.5:756-766 164. (MIRA 18:6) 1. Ukrainskiy nauchno-issladavateliskiy institut fiziologil i biokhimii sellskokhozyaystvennykh zhivotnykh, LIvov.  KUS'EN', '3,1,; YANt TICH, V.,C,~ V,H.1 Content c-~* and ketone bcaie7, ~n ~hf-z li-ver, and -Irine - I nc.l,;1.72- of catAle as relaled to theIr age., Ukr. biakf-,m. zj-p.,-. -7 1 '11() 1615. (MIRA 18.~,) ; Tj'Kr,,Jniin flrs~i.arr~h it C.,i' %1,.r., oj - - In i - . . Lll~,, .- - . of Domcmt,, Ani-mals, Lfvov.  KUVNI~ S.I.; SOLOGUB, L.I. (Solahubt L.I.] I- I - Content of carbohydrate-phosphoruo metabolism products in the liver SXA blood of cattle as related to age. Ukr. biokhim. zhur- 37 no.31437-446 165. (MIRA 180) 1. Ukra-inskiy hauchno-issladovateliskiy institut fiziologii i bio- khWi seltskokhozyaystvennykh 2hivotnykh, LIvov.  6EL-D KUSENYO, F.G.; GFLYD, P.V. . -~7~~ The thermochemistry of the Oxides and carbides of Nb. report submitted for the 5th Fhysical Cheinical Conference on Steel Production. P, ~!Cr-,C(- W I "! - -) -- .) 0 juti Wj  , "' MYSIRKO, F. G. ; UL I D, P. V. Heat capacity ard changes of the isothern-tsobar potential during the formation of Mobium dioxide. Trudy Ural. politekho inst. A0692:121-124 059, ()WU 13:12) (Nidbium oxid%)---Thermal properties)  KMICM, F.G.; GELID, P.V. Heats of formation of niobium oxides and carbides. Izv.Sib.otd. All SSSR no.2:46-52 160. (MIRA 13:6) 1. Urallskiy filial All SSSR. (Niobium compounds) (Heat of formation)  6965,6 (7) S/180/0'0/000/02/012,/028 0 0 EM/E135 AUTHORS: Gelld, P.V,, and.Kusenko. F.G. (Sverdlovsk) TITLE: )nJand S-Re-c-Ifl-effe-at of Niobium Oxides and Carbides at High Temp raturris 1\ PERIODICAL: Izvestl~ra Akademii nauk SSSR,Otdelenlye tekhnicheskikh nauk, Metallurglya i toplivo, 1960,Nr 2, pp ~9-86 (USSR) (# I M) ABSTRACT: The authors outline the present partly unsatisfactory position on the specific heats and heats of formation of substanc-,gs involved in the increasingly important c~ar.~,)thermic process for the reduction of niobium oxides. Table 2. compares heat-of-formation values given by various workers (Refs 12-16), showing considerable differences. They go on to describe their own investi- ga t4 or, of the heat contents of* niobium oxides and carbides at 273 to 1840 OK. The niobium pentoxide used for preparation was purified by fractional precipitation and vacuum heating. Lower oxides were prepared by vacuum heating of briquettes made of this with niobiumt finally Card at 1800 OC, Chemical compositions were determined as 115 described by GUT,evich and Ormont (Ref 19) for V - C - 0; phase compositions by X-ray diffraction with a type RKD  69656 S/180/60/000/02/012/028 HIII/E135 Heat Content and Specific Heat of Niobium Oxides and Carbides at High Temperatures camera. For temperatures up to 1500 OK the classical method of mixtures was used, the apparatus and differential method being as described by Serebreanikov and Gelld (Ref 21)2 with 12-g samples, carefully degassed, sealed in a Pt - 10% Rh capsule. Experimental errors are estimated as not exceeding 0.8-1.0%. For determina- tions at 1500-184,0 OK a vacuum high-temperature calori- meter was used, the thermal equivalents of both calorimeters being determined electrically against the reliably known (Refs 227 23) thermal capacity of oorund:um. Heat capacities of capsules were found in a special series of exgeriments. As previously (Ref 21) experiments at 0-25 0 were carried out to convert I%H values to 298.16 0K. The heat contents for Nb20 are shown in Table 3. The authors represent their Lta which relate Card to the high-temperature modifioationv by 2/5 6HT a 38-76 T + 1.77-lo-3T2 + 7.318-105T-1 - 11+162 298.16 (3q 1)  69656 S/180/ 60/0 0 0/02-VO !2_102-8 Elli/E13 r" Heat Content and Specific Heat of Nlobium Oxides and Carbides at High Temperatures and compare (Fig 2) their results with those of Orr (Ref 18). The same Table gi~ies the data for NbO5t; the7 are represented In Fig 3~ The relation is T + 3,o,.,1.k-.jo-3T2 + 2~421,-105T-l - 4+60 t~x T (Eq 4) w,hll,. abo-,,e 1080 OK it is 6 HT 298~16 = -8060 + 21.2ST (Eq 6) The resul"Us for NbO and Nb are shown in Tal&.,~le Lr and Fig 4. The relations are represented by,,, respectively', AH T = 10.04T + 1.175-lo--3T2 + 0,783-105T-1 - 3359 and 298J.6 (Eq 8) AHT = 5.60T + 0.655-lo-3T2 - 1727 (10) Card 298.16 3/5 The latter relates to a sample with 0,5% by weight of dissolved and combined oxygen. For --arbides the results  69656 S/180/60/000/02/012/028 Elll/E135 Heat Content and Specific Heat of Niobium. Oxides and Carbides at High Temperatures are shown in Tables 5 and 6 and Fig 5. The relationships are., Nb C T 50: 6H298 0 16 7.91+T + 0.750.lo-3T2 + . . + 1.025-105T-1 - 2776 (14) Nb CO-7491 &H 298.16 8.95T + 1.1^7.lo-3T2 + 2- + 1.26-105T-1 - 3190 (16) Nb CO.8678tAH298.16 9-70T + 0,995-10--3T2+ + 1.51-105T-1 -31+85 (18) Nb C 0 T 00 H~98 16 1 79T + 0.863-lo-3T2 + 10- . . + 2.15-105T-1 -4-013 (20) The authors point ou t that their data together with Card available data can b e used for thermodynamic calculations 1+15 on equilibria in the systems Nb - C - 0 and Nb - H - 0 and related ones. LK  69656 S/!80/60/000/02/012/028 Hill/9135 Heat Content and Specific Heat of Niobi'uM OxIdes and Carbides at High Temperatures There are 5 figures, 6 tables and 24 references, of which 12 are Soviet, 10 English and 2 German. SUBMITTED: November 30, 1959 iwm  '7-) S.- AUTHORS: Kusenko, F.G., Gel'd, P.V. TITLE: On 3ome Properties of &_02 6 82U0 s/14q/6o/ooo/oo4/Oo_3/0Oq PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy, Tsvetnaya metallurgiya, 1960, No. 4, pp. 102-106 TEXT- In a paper published recently on the heat capaciib~ of Nb02 within a temperature range of 298-1,5000K, the authors assumed that Ege-re was a phase trans- formation near 7500C. To check this a8sumption and tb.study the properties of Nb02 near the temperature of the supposed transformation, the authors investigated the heat content, electric conductivity and thermal expansion of synthetic Nb02 within 298-1,5000K. The NbO2 compound was prepared from a briquetted mixture of purified niobium pentoxide and niobium metal powder, by annealing at 1,5000C In a tungsten vacuum furnace. The temperature dependence of the NbQ2 beat content was investigated by the differential mixing method. To protect the preparation from oxidation, it was placed in a platinum-rhodium alloy ampoule. The heat content of the empty ampoule and of one containing the sample was investigated in an adiabatic calorimeter. The temperature was measured by a potentiometer. Results of the experiments are shown In Graph 1. The temperature dependence of NbO2 heat Card 1/2  82h4o On Some Properties of Nb02 s/149/60/000/004/003/009 (1): T content up to 1,0100K can be expressed by the Mayer-Kelly formula A R;11 - -546o + 14.681 T + 3.078 - 10-3T2 - 2.421 - 10:1-1. The temperature dep'Mence of the Nb02 heat ca acity is described by formula (2); CP W 14.681 + 6.156 , I 10-3T - 2.421- 109T-2. Above 1,0800K the heat content increases linearly with temperature up to 1,5000K. In the range of 1,010-1,0800K the heat content in- creases at an anomalously high rate, resembling temperature dependences of substances undergoing phase transformations of second order. The heat capacity increases rapidly but monotonously with raising temperature up to 1,0100K. It Is constant over 1,0800K. Between 1,010 and 1.0800K a typical A.-Point is observed. The data obtained indicate the possible phase transformation of NbO2 near 7500C. To verify this, the temperature dependence of electric conductivity and thermal expansion of NbO2 were studied. It was established that NbO2 was a semiconductor whose energy gap changed from 0.66 ev at 2980 - 7150K to 1.41 ev at 9500-1.0500K. The trans- formation of Nb02 appears on a graph (3) where the curve 6=(p (T) suffers an abrupt bend at 1.0500K. Dilatograms of two NbO2 samples (Fig. 4) reveal clearly the changes in the temperature curves of expansion near 1.0500K. Consequently, the conclusion is drawn that NbO2 undergoes a phase transformation near 1.0400K. There are 4 graphs and 9 references: 7 Soviet and 2 English. ASSOCIATION: Ural'skly politekhnichesRiy institut (Ural P61ytechnic Institute) SUBMITTED- September 18, 1959 Card 2/2  S/079/60/G30,1/011/025/026 B001/B055 AUTHORS: Kusenko, F. G. and Gelld, P. V. TITLE: On the Heat of Formation of Niobium Pentoxide PERIODICAL: Zhurnal obshchey khimii, 1960, Vol. 30, No. 11, PP. 3847-3848 TEXT: M. P. Morozova and L. L. Getskina, in their recently published report (Ref. 1), stated that the heat of formation of Nb 205 from the elements is 472.5 kcal/mole. This value was obtained from the heat of formation of a preparation containing 98.5% Nb. At about the same time, the authors of the present publication studied the heats of formation of niobium oxides and niobium carbides (Ref. 2), using a metal which also contained 98-52% Nb. The heat of formation of Nb 2 05 as determined by them, however, was 458.6 kcal/mole. The great difference between these two values (Refs. 1 and 2) induced the authors to carry out further calorimetric mea3urements using purer metal (99.01~6 Nb, 0.94~6 Ta, 0.04~4 0; no Ti, Fe, Si or C) which had been sintered close to its melting point. Two series Card 1/2  On the Heat of Formation of Niobium S/079/60/030/011/025/026 Pentoxide BOO1/BO55 of tests were carried out and the completeness of oxidation was checked after the tests. The mean values of the two test aeries were 99-33% and 99.10%. Corrections were made for incomplete oxidation and the Ta and 0 content of the initial product, assuming that tantalum is quantitatively transformed to Ta 205 (499 kcal/mole, Ref. 3) and that the oxygen forms a solid solution in niobium with a heat of formation approximating that of the niobium oxide formed from the elements (Ref. 2). The calorimetric data and corrections are given in the table. From this it can be seen that] the heat of formation of niobium pentoxide,6M it -455.1 +- 0.5 kcal/mole, a result which is in agreement neither with the authors' previous results (Ref. 2) nor with those of G. L. Humpherey (Ref. 5). So far, no other exact studies on the present calorimetric question have been published, so that supplementary checking measurements will have to be carried out. There are 1 table and 5 referencest 4 Soviet and 1 US. ASSOCIATIONt Institut khimii Urallskogo filiala Akademii nauk SSSR (Ural Branch Institute of the Academy of Sciences USSR) SUBMITTED: March 5, 1960 Card 2/2  KUSENKOt F. Go, CAND TECH SQ,If "ON THE THERMOCHEMISTRY -04~ OFI~CARBO~,kWTHERMIC REDUCTION OF NJOBIUM TETROXIDE."SVERD- LOVSK9 1961. (MIN OF HIGHER AND SEC SPEC ED RSFSRt URAL POLYTECH INST IM So M* KIROV). (KLV 3-61, 217). 223  3/ 1 - 7/6 2/CGG/V03VC0 1/201 51X)11~jlo 10 AUTHORS: Kusenlro, F. G., Gelld, P. V. =TLS: On thormoc'lheni3try of nloblum, ox]des and! carbidez PERIODICAL: Referativnyj z1lurnal, NetallurZiya, no. 4, 1(1~6)2, 6, a~c;.-.tract 4AZI, (V sb. "Fiz-1rhim. oznovy proiz-va st-ali", ,:oscow, ;4N SSSR', 1961, 41 - 51) T-7-'T: 7he ticats of .'or,,::a'6!on of Y,) oxide.- and carbI.1je.-, arr rP;e;--,rIned by combustion in a cylinder; heal. capacities are measured b., the method of mixing ~n aun adiabatic calorimeter (thesubstances ...,ere placed in '-.ermatlcally soldered Ft_-~h-ampoulez) . Lo-aer Nb oxides were prepared f rorn %,b,O- (0.00'_'~ Si, 0.001% "'IE, 4 D 2~., ',,Tb 0.01% Fe, 0.001% A!, O.Oir~ Zn, 0.11/3' Ti, 0.001,05' Cu) and ':,-o metai (93.5 0.3r, Ta, 0. 1% Ti, O.Grz~~ C, 0.028,~j' 11 and abcut 1,% 0) . F cr tne preparation of car- bides acetylene carbon black was used. "Lrle f0IJ0'.'.'jnZ -,k,'2%1tG -,.:ere obtained: for Nb 0 -458-6*0.4 kcal/r,-ole; C - 38.70' + 3-514 jo-3 7.318 '_'05 -~,11298 p 105- 2 cal/deoree role (298 - 1,500oIC); for Nb02, 11'2~'98 -191-7-170.4, Cp 14.0181 + 6.1-6 - io-?'T - 2.421-105T-2 (298 - 1,0100-4), respectively. At about Card 112  S/:37/62/CGI3/G04/CO1/2O1. On theznochemistry of niobium oddes and carbides A006S/Alo: !,C40`7K, ","C02 is transformed, .,;hich is crjn_`_i,,:::ed, by :~ioasu: electric con- ductiv'~Y zmd ther-mal e;rpLns-;cn. ~--Ie t U.0 I U -ransformat.-!.,,~n " '9 kcalk..ole. in the 1,080 the he-at cap,_cilty cf and equal to 21.23 cal/degree.mole; f or 7,5100 -3 F,6c)p 9 7.7 + 0.5 ..lo heats of for- ma-tion of hijher and lower 1111b carbl(aCS Wit'.114'1 thO CIL; 6f 01ty WC-0 0 .1 , i . equal to: for ~~W 17.5 kcaI/g-atcm + C) ,-Ln(-, for 0,72-1.00 '1103 = - 11*CCO - 39-0.51 `~ 1102)3 - 14 .5 kc~i/g-atom (Nb + C) . 11-lea-L cx,;acJ* ties Of carbides Of three~composit2;ons within the 298 1,500014 ra~iGe are expro,-,sed by equations (in cai/degree/mole) : ftr NbC C 12.10 + 3.2733-10"T - 3.4-2.'-,()5,,,-2 C) p 0 r L, -,()5-,-2 .L Or 17DC 867, CP = 11.24 + 7-I&I-10"T 3.4-a).1 and f or :~_CC 0 .7491 Cp IO.LL + 105,-2., , 1.172.10-:;-, - 3.40- L a6reement of the empirical equations of heat capacity with experimental data is about [Abstracter's note: Complete translation] Card 2/2  3/149/61/000/0()2/003/017 A006/A001 AUTIHORS% Kusenko,, F.G Gel'd. P.V. TITLED On Equilibria in the Nb_C_O Sys-Lem PERIODICAL: Izvestiya vysehikh uchebnykh zavedeniy, Tsvetnaya metallurgiya, 1961, No. 2, pp. 43 - 52 TEXT: Among the methods of obtaining niobium metal, the-carbothermic method is coming into extended use. Literature data on its thermodynamical sub- stantiatlon (Ref. 1, 2) are only approximate and not based on reliable information as to the temperature of formation, heat oapacities and stendard entropies of a series of compounds of the Nb_C_O syst-em. Only re3eratly some authors (Ref. 3-12) have gathered new information on thermochemical characteristics of niobium oxides and carbides, permitting a more precise calculation for systems containing con- densed phases of ocnstant compostion. Equilibrium conditiona in direct and in- direct reduction of niobium pentoxide with carbon monoxide were studied. In indi- rect reduction reactions (1 4): Nb205 + CO 2NbO2 + C02 W Card 1/6 Nb02 + CO NbO + C02 (2)  3/149/61/000/002/ID03/017 On Equilibria in the Nb-C-OSystem A006/A001 NbO + CO - Nb + C02 (3) Nbx0y + CO . Nbx0y_1 + CO 2 (4) are analyzed. Temperature relations for ~ q and lgKr are described by equatiDna (1) 6, ZO - A - B-T and (11) lgK, - C __ DT-1. In direct reduction the interactions r of the gaseous phase not only with niobium, oxides but also with carbon are con- sidered, C + C02 . 2CO (5). The indices of reactionsof direct reduction are (6)_ (8): Nb2o5 + C - 2NbO2 + CO (6) NtO2 +C - NbO + CO (7) NbO +C - Nb + CO (8) To describe process (5) the following polynomial-n (Ref. 11) are employed: A Zt - 4o8oo - 41.7 T, lgKr - 9.114 - 8918 T- . Values of A Zt and lgKr.thus cal- culaled are shown in Pigures 3 and 4. Since redusticn of niobi= pentoxide devel- ops as a rule step-wise with intermediate formation of Nb02 and YbO, it issaffi- clent. to analyze reactions with the participation of NbC, Nb2C, Nb, NbO, C and CO. ind 40eS of interaction with the participation of higher oxides and carbides can be found from characteristice of reactions 6,7,8 and frcm the reactions below (9- 18) Card 2/ 6  17 Oil Ecl,.i,* I Ab'ZI.a In V.S !Tb..C .0 syeten tIbO + 1,5 C.' (1,5 rlbpr, i C 0 NO 4 2,'~ NbC f CO NbO 4- Ilblpc y~b + CO NbO 4 ?A)C' .:)?4b -t CO 314b0 + IThO 2Nb.-,C + CO Nt C "TbO2 .91b0 +- C:O ~,NhC N b 0 MO -~ CIO 1,11C 4 XTv lrbl-~c Nb + c + C m02 c For thn temp ratizrc dope ne.(.nc ol,\ Z, and li-,K, -it is~kY,,~OK (-Flvurt~ 3) -n be ~,.)~~,rllbcd wlll~vi "v and I! and ;IV c-..,l no:),,~rf I ~' I e! Ito f, C~ 1'. 1 *6 r, I "',d c r, T.,d ~.whozr~ df,qw tr- f-,-m 4-he Card 5/6"  . 3/0 17 Cm Eqlj i I bri,,t In h~- 0 "~!yet ~:m liho lilto NtO 15 1 2 rcdurtllon of lFtO to metal. pro,,pel~- 16~~ Fi ID' i.- Pntalllng 40ij: formation 4.)f' cR-ibidej. Tf Oi~, nbt,8'n t". f'rcrr thc tl-irniolyn-unl,~.ell point, of u! Ca, r, T 'r- ~ L f 0 Z-.r, be o.-,rldlv~d t,) a 1~,wer d I on )tvid mc,+ I- 'Indi.,.cs ct.' t)lc~ fit.agc of thr- vro~*cl.~-, by f.-cn. ditio-aA of oarhothsrric reduction. This i, po~.qbl,~ above. Howev6r, und,~,r ronditionn of ~t -,,!l 4 Con.,,ldc-ring, th4', ferma!Aor, cf !icl t-I ct o~vi~~n In n1cblum (R-:-f. 18, 19) thct re-C47'C"ilty cf I-R.tri ani llo.wi-r prc-~~z~urc-*. Ar ari-IIVZJ3 of eclullibrium conditic.:- .!~t I:. L-.,,)-d t�ie 11:'llt-, or the -z'tudv. 3 .~atinfactvrv agreernent with and 1--ard 4/6  s/14g/16 i/ON/002/003/t) 17 On Equilibria in the Nb-C-O System A006/AO01 10 _Z4 490 0 12,V KV if 40 SO 1200 16W V Figure lt Figure 2: The effect of temperature on changes of Temperattiretdep~!ndb,~,iea,bfleqiillibri- isothermal-isobaric potentials during um constants In ret4uction reactions the reduction of niobium oxides with of niobium oxides with carbon monoxide. carbon monoxide. The number of curves corresponds to the numbers of reactions. Card 5/6  t 0 ~;41 ?~i 49/6 I/000/1002/1003A 17 On Eaullibria in the Nb_C_O System 6.g. Ix 51 r2 r2 -6 .9 .9 14 14 148 15 17 60- 7 .19 40,1 Rot] 1,?170 7600 'A' 444 NO _T2100- ~16W -0 Figure Changes in-the isothermal- rigure 41 Temperature dependence of isobaric potentials of a series of equilibrium constants in the Nb*c_o processes in the Nb_C_O system system There are 3 tables, 4 figures and 19 references: 9 Soviet, 8 English and 1 German. ASSOCIATIONt Ural'skiy politekhnicheskiy institut (Ural Polytechnic Institute) SUBMITTED: April 12, 1960 Card 616  PONIZOVSKIY, A.M., kand-*-khtm. nauk., ,)Lv. AIAV, red.; KUSEIIKO, Yu.M.., red.; SrAY.,tOV, S.N., kand. khim. nauk, i~d 9 [Problem In the overall processing of sea brine and the production of saline building materials] Voprcsy kompleks- noi pererabotki rassolov inorskogo tipa i ~,olucheniia rap- rjykh stroitellkvkh materialov. Ki-ynlzdat: 1963. 151 P. (MIRA 17:12) 1, Akademiya budiv-nytstva i arkhitektury U,'LSi. Iistytlut budivellnykh materialiv i vyrobiv. Ki- filial.  TSIL'FjUl, A.A.; ASENOKIj.I.--~ Rare case of incapsulation of a parasite. air-Lrf:iia 35 no. 5:126-- 127 11Y '59. (KRA 13:10) 1. Iz oblastnoy bollnitsy (glavnyy vrach V.G. Vallter) Birobidzhana i gor6dskoy polikliniki No I (glavnyy vrach M.L. Feshekhodlko). (WOW-O, INTESTINAL AIM FkUSITIC)  SUSTIC, Vladimir, dr.; KUSER, Josip, dr.; RIBARIC, Ljubomir, dr. ~w- -- Emergency surgery in injuries of the abdomen and retroperitoneal space. Med. glasn. 15 no.7/8:319-332 JI-Ag 161. 1. Kirurski. odjel Opce bolnice "Brace dr Sobol" u Rijeci (Sef. doe. dr Ante Medanic). (ABDOMI wds & inj) (RETROPERIMNEAL SPACE wds & inj)  KUSEV., G.j, Inzh.; GRCZEV, G., inzh. Some poculiaritios in the intornal roboring and polisidng of the L ' ,7 4000 mm. and D > 600 mm. long hydraulic eylinders. Mashinostroem 12 no.l.-26-27 Ja 163. lo Zavod Olffir. Smirnenski". Sofiia, I  -, ry : ~J,~ I -J,,.,V, 'ordar, kNaradnaya !?o!ipuoj!.ka ,~-,Igariya) "to-oophonic ampilf'er. Pad',) no.1i2e-29 ,~. ~ lf:,;~ 4 - ;~~ ~ , , IL .. I - I.- I  L 18575-63 Empti)/EPF(c)/mir(l)/W(q)/EWr(m)/B[)S AMC/ASO/M-3/rip(c) Pc-4/Pr-4 ACCESSION NR: AP3001301 S/Ol8lA3/005/006/ 5/1737 AUTFORSt Belikova, G. S.;,Nusev, Vs G.s Fridkinp V. Me TITLEt Nonlinear photodepolarization of cXyAta1_9 resulting from a space-charge- limited photocurrent SOURCEt Fizika tverdogo telaq ve 5, no. 6t-1963$ 1735-1737 I TOPIC TAGS: photodepolarizationg carrierp space charge, volt-ampere character- istict photocurrent, drift, mobility, dielectric constantg injectiony I, N, anthracene, corona discharge ork on nonlinear photo- ABSTRAM This work is a continuation of earlier w depolarization produced by relatively large displacement of carriers. In the, present work it is shown that the relative potential, V/Vo, depends on initial potential, Vo, in inverse fashion however, diminishing more rapidly as the value. e u of Vo rises. To test this conclusion, th a short investigated the photode- polarization of single crystals of anthiracene on he surface of which positive ions of nitrogen have been adsorbed from coro a discharge in air, The method has the advantage of excluding injection of carriers Into the crystal. The technique .Card 1/2  L 18575-63 ACCESSION NRt AP3001301 C21 ihas been described in de tail in previous papers (V. M. Fridkint Yu. N. Barulin FTT, 4~ 2982, 1962; DAN SSSRI 1459 1, 78, 1962 Measurements were made on a. plate of anthracene with an area of about 2 cmi-and a thickness of 0.3 cm, cut parallel to the (001) face. Depolarization of the crystal was effected by Illumination in monochromatic light having a wave length of 405 mp. Results show that V/Vo declines more rapidly with Increase in V and that the relation deviates somewhat from that predicted by the theoreticaT derivation; i.ea, the Th space-charge-limited photocurrent obeys the square law. e deviati6n In theo-2 retical and experimental values may be explained by variations in degree of refinement of specimens or by the presence of shielded space charge, the radius: of shielding being as great as the thickness of the crystal specimen. Tests made at different intensities of light show agreement with results of other authors.: Orig. art. has; 2 figures and 5 formulas* :,ASSOCIATION: Institut kristallografil AN SSSR, Moscow (Institute of Crystallox~-_" Sciences-, USSR); institut fiziki Bolgarskoy Akademil nauks Sofia tinstitute of-PKV-Sics, 1 ari n Academy of-Sciences) SUBmITTED: OlFeb63 DATE ACQ: Oljul63 ENCLt 00 SUB CODE1 PH NO REF SOVs 003 OTHERt 006 Card 2/2  KUSS-VIC, IWKO Mthoma~ical Reviews V01. 14 No.9 Uotobar 1953 Rechanios  -~&thommtjosl Reviews 91, 14 No- 9 ()Otober 1953 Meohanios o. Rdsolution des 6quallons d'Alas"4 I rines parrij m6thode des cceffic vits 15dfit"Mla" te ntcm3t-%'Acad- I Vougoslave, cI, Scl. math. Phyo- Bull, I 19S2). rah. (N.S.) 5. 25-3 ( listed aiy)vc. AbbreviAted vcroiol, Of tile. rajwr I  KUSLVIC~ R., dr "Mazmal for civil engineerau F. Slajher (Schleicher, F.I. Vols. 1-2. Reviewed by Ra Kusevic. Gradevinar 13 no.11:367 11 161.   KUSEVIC, Rajko, prof., dr inz. (Zagreb) Iterative solution of equations of the third order. Gradevinar 14. no.12:440-442 D 162. 1. (;1an Redakcionog odbora, "Gradevirm ".  t~v Ic own teitinidilam and Uncturo of picitilli rtloax f0t the Wepd= of Yugosl4vian PharmacoPet', U. V F-pl-V portt2 (Inst. Control Drugs, 7asrcb). -j~And M Al"m juga;kv~ 6, 133-4111906).-VUirla lampkz of leaves and ducCure of d1glW4 have biten exarvd. The stability of the tincture '~%s v" -1mr, and the mults [ varied wldilyi' On. tlic W4 of muto obtabncd~ it wai f=d that. Ibc v4lldity pe" imb 1*-.'0 days. the " QU fit dr3jac ~17q, and rah oouw4t . ....... WYM  VIP ----V~ t A Qt dftfllu~i t"'rcf1t -Ito c I a at (i,"  J.; Jli!JzlrjG, V. Cr.:np~j,!.son of' J,*,:,;-t,:I,~,~~ I OF priper c I n-u-,,,ntognqlhy. Ac t- ;-w ~i. I iii-~ ,d . 18 :.-~ I i~l, . ~, rz 1) . I i I ute the t',, c, I r .  Vl-, Vladlmir, dr Pharmncoutical packaging frrm, tiv, reqi;irorr,c-nts g! -ag-r!L 2,r) no.9: for '.~'osting and -or.,..rul of C-f Croatia,  KWENJYMY, 1. A. DrXed. Sci. "Frequency and Character of Tubercular Degeneration of the Bronchi in Va-rious Forms of 2xiam Pulmonaty Tuberculosis, 11 Prob. Tuber., No.3, 1948 Lab. Pulronary Pathology, AMS USSR - Inst. Normal and Pathol. Morph.  POMELITSOV, K.V.; RABINOVA, A.Ta.; STRUKOV, A.I.; KUSITITSKIT, I.A. Roentgenographic and anatomical parallels in limited tuberculous affections of the lung. Probl. tuberk., Moskva fro. 1:42-46 Jpz- Peb 52. (C.U41 210) 1. Professor for Pomelitsov; Candidate Medical Sciences for Rabinova; Corresponding Member of the Academy of Medical Sciences USSR, Professor for Strukov; Professor for Kunovitakiy. 2. Of the Moscow Oblast Sciontific-Research Taborculonin Inotituto (Director--Prof. F.V. Shobanov) and of the Institute of Morphology of the Academy of Medical Scien'.ee's USSR (Director-Academician A.I. Abrikosov).  ;,-Ic~i an(I ar*L,-);:.Ic tub-culo-lis. 6ov. meJ. 16, n.-,. 195-2. LL;t Df' PLIS ir-,n I.ibr,,.r,y oP  KUSBVITSKIY. _I.A., prof.; GOLUBEV, N.A., zasluzhanyy vrach RSYSR Pathogenesis and course of tuberculous abscess In oateoerticular tuborculoste [with sumar7 in Yrenchl. Probl.tub- 36 no.1:102-108 158. (MIRA 11:4) 1. Iz khtrurgicboskogo otdelenlya sanstoriya uKrasnava Rosa" (zav. II.A.Golubay, glavn~7 vrach L.Vo.Anisimov) Moskovskogo oblzdravotdels. (TUHTGUIAIS. OSTBOARTICULAR. comol tubore. abscess, pathogen. & course (Rus))  JUSEVITSKIT, I.A.. prof., RODIONOV, S.I.. LYWROV111K, L.L. Gaae of myolosclerools In tuberculous spondylitis [with summar7 in French]. Probl.tub. 36 no.5:115-11$ '581 (MIRA 11:8) 1. 1% annntorlyR "IrAnnayn Rosa" Moaoblzdrnvotdels (glnvnyy vrach L.V. Anisimov). (TUBERCULOSIS. SINAL, comol. myeloaclerosis (Rus))  IKUSEVITSKIY I.A,,..prof. Some problems In the pathologiotil anatany of fivraus-cavernous tuberculosis of the lunge. Probl.tub. no.6t96-103 161. (MIRA,14:9) 1, Iz 13-go protivotuberkuleznogo dispansern (glavnyy vrach Ya.M. Gurtavoy) Uningradakogo rayonnogo otdola zdravookhrane- niya i patologoanatomiohookogo otdoleniya Nav. B.P. Kesareva) bollnitay imeni Botkina. (TUBERCULOSIS)  SHTENBERG, A.T.; Kfll'~F~V[T,*K~IY7 et, n-nin'st a VL,[-. Pit. 22 ne.3*2-1-47 M.Y-,,,- '03. :z otlittlq gif"'iyelly tutE, eili~,:y,?ny na.,a.  SlITENBERG, A.I., KUSEV17"MY, 9 ordinatrir Effect of predominant carbohy(irate nutritj~n in iodine deficiency a-"sociated with Erri.e functionil on the develorment of experimental Vr-p. pit. -l" no.1!1,3--51 Ja--F 164. (MIRA 1'1:8) 1. 1z kafedry giglyeny pitar'.-ly,,i lFv,--,-dlf-,v-z~?,i,(-, ,w?~Itsinskogo instituta.  VF.SHALKIN, Ye.N., otv. red.; hU:;E . _yed. (-'3urgical patholoa and ane,-,thesia] Operatsionnaia pa- toloGiia i narkoz. Mos-l-va, Nauka., 1965. 226 p. (mlwt 18%9) 1. kka(lemlya nauk S351t. Sibirokoye ottleleniye. Institut okoper-Imental 'nay blologli i r-editrATW.  Wi~ 'I'VITSKI-Y- J I.A., Prof. Autr,p.-y data on Wherculm- changeo in ;.atlenL.,: wi li; viocern-I dineaqos. Probl. tub. 412 no.8:711-77 16!1. (MIRA 28.12"1 1. PatologoarLatomichenkcye otdeleniye (zav. - prof. I.A.Kusevitskiy) r, M,-.-,;~va. 53-Y gorodsRoy bollnitsy (;-Iavt,..Yy vrach S.G.1,11"' e I \  KUSEVSKI, Boris, inz. Releasing brake valves. Tehnika Jug 19 no. 2:Si.,pf)l.:-'::aob-.acaj 11 no. 2:369-370 F 164.  JAKUBOWSKA, Jadvign; KUSENICZ Danuta Thiamine content in autolysates of wine- and beer-sedizient yeasts. Acta microbiol. pol. 11 no-4:363-372 162. 1. Z Katedry Mikrobiologii Technicznoj Politechniki Lodzkiej. (YEASTS) (THIAMINE) (BEER) (WDIE)  Kushldlcz, Danutd VitamAn B requirements of SAJzc.3a(~chnr(firj,~ev. misroblol. Fol. 14 nc.2g155-160 ,5. ~ y, Teruhnit:ftl 1. From the Dapa-rtaent of YridwitTlal Unlverb'L-~.y,, lildz.  XUSEYEV, 0. Take care of military and public property. Voen. znau. 39 no.3:4-5 Hr 163# (MIRA 16%7) (Socialist property)  rA LA S k-) , r. K - DURININ, Al-eknandr Iosifovich; PEDTATEVA, NA., redaktor; BEGIGHEVA, M.N., tekhnicbeakly redaktor; KUSH, I.K. [Mading cargoes onto seagoing veasels anchored offshore unprotected] Gruzovye raboty na otkrytykh reidakh. Moskva, Goo. izd-vo vodnogo tran- sporta, 1954. 153 P. (MIRL 8:1) (Ships) (Anchorage) (Loading and unloading)  YEV,c=, V.S.;KOMAROV, V.I.;KUSH, V.7.; ROGANOV, V.. CTL."OGOROVA, I - V.A.; SHIMCHAK) IU, (Asymetry in the apgular distribution of neutrons emitted In the capture of AV--mesons in calcium) Acirmtriia v uglovom raspredo- lenii neitronovs ispuskaoirqkh pri zaklivato Av,--mezonov v kalltsii, Dubna,, Ob"edinonnyi in-t iadernykh isal., 1961. 27 p. (M IRA 14: 11) (Tieutrons) (Hesons-Capture) (Calcium)  2 01 6", 5 S/120/61/000/001/02o/062 9 Ll E03.'*/L3 Vt AUTHORS: Yevseyev, V.S.: Komarov. V.I,, Rush. V. Z. ' XT -S -h -1~111 c I i a k, M. M. Roganov, V.S. , Chernogorova, V. TITLE: A Multilayer Scintillation Detector for the Recording of Neutrons in the Presence of y-rays PERIODICAL: Pribory i tekhnika eksrA-rimenta., 1961, No. 1, PP. 68 72 TEXT: A description is given of a neutron detector having a high sensitivity to neutrons but a low sensitivity to y-rays. The detector is designed for the energy range 5-20 MeV. The detector is similar to that reported by Baker and Rubbia (Ref. 4). The multilayer detector is based on the difference between the ranges of protons and electrons of the same energy. The detector consistb of a number of thin scintillators, each having a thickness h . The scintillators are separated by opaque partitions.. The device is so arranged that scintillations from layers 1, 3, 5--~ etc. are recorded by one photomultiplier and scintillations from the remaining layers by another. If the energy of an electron is sufficient Card 1/4  20685 S/120/61/000/001/020/062 A Multilayer .... E032/E311i for it to penetrate into a neighbouring layer, tlien coincident pulses will be produced in the two photomultipliers, The electronic circuitry employed is such that it rs~jects coincident pulses. Non-coincident pulses arising in either of the photo- multipliers are analysed by a kicksorter, In this way, one can separate recoil protons from electrons dun to y-rays, The multilayer detector con.4sts of 28 discs (diameter 80 iruv h = 4 mni) .The discs are made frow a plastic, based on poly- styrene with the addition of 296 p-terphenyl + 0.25. aNPO. The neighbouring discs are separated from eath other by pieces of black paper, 0.05 mm thick, The detector cutisl8ts of' two identical parts placed in series, In each part,scintillations from "even" discs are collected through perspex light pipes by the corresponding to multipliers, whilst the scintillations from the "odd" discs are collected by two other- photomultipliers. In order to prevent the light from the "even" discs from entering the photomultipliers belonging to the "odd" discs (and conversely), the side surfaces of' the discs are separated into four equal parts and two (opposite) of these are covered Card 2/4  ~068'D- I/ooo/ool/02o/062 A Multilayer .... E032/E314 by an aluminium foil, Altogether, the detector ijisorporateB 6 photomultiplers of the typa ~41/- - (FEU-29),, Each photo- multiplier was placed in a separate magnetic sc-reen made of soft iron. The light guide6 were not in optical contact with the scintillators,which reducedthe amplitude of the pulses but Sitrplified the operation. Pulses from each photonailtiplier group were amplified and equalised in amplitude, The maximum amplitude of Co 6o y-ray pulses was about 0.01 V. The pulses were then fed into an adding circuit and the pulses from the adding circuit and those from one of the photomultiplier groups were fed into a coincidence circuit and a dis---riminator, which were so arranged that coincident pulses uvre rejected while tnose which were not in coincidence were allowed to pa:3s on into a kicksorter. Detailed tests carried out on this detector have shown that its sensitivity to y-rays is lower by a factor of 2 and it sensitivity to neutrons is higher by a factor of 2, as compared with the detector reported by Baker and Rubbia in Ref. 4. It is said that this is due to the fact that the thickness of each scintillator in the present instrument is Card 3/4  20685 S/120/61/000/001/02o/o62 A Multilayer E, u 3 ~-' /1 -"3 14 lower by a factor of 1.2 while the total thickness of the devico is smaller by a fnctor of 2, 1(. as i,~ith Ref, 11, There are 6 figures and 6 references., 2 Soviet arid 4 non-Soviet.. ASSOCIATION: SUBMITTED: Oblyedinennyy iustitut. vadernykil issledovaniy (Institute for Nuclear Research) February 5, 196o Card 4/4  YEVSEYEV~t V.S.; KOMAROV, V.I.; KUSH, V.Z..; ROGANGV, V.S.; CHER.NOGOFOVA, V.A.; _ SH114CHAKO M.M. Asymmetry of the angular distribution of neutrons emitted in the capture of 1*4- - -mesons in calcium. Zhur.eksp.i teor.fiz. 41 nool:306-307 J1 161. (KUU 14:7) 1. Ob"yedinennyy institut yadernykh issledovaniy. (Mesons-Capture) (Neutrons--Scattering)  oimt)ot frj,.i oil 1. 10 13  g 10 0 losses 0, 1 o, 111 0 .0 : I 4 If ?I it It 14 If a 41 a K 1, d 4 A 4 1 , : V A a c a L 1 I I At ML 1111 A A ~ - - - - - . ..0 - , - , 00 A . - . . so -410 -00 .00 00 so '00 *04 We AdboAn of 00onsseW Arm Mob Dwtu Amixesbac In MA~ OOZ lp trums. H. Kissbakevich (M"4wV (M"vrifid). JIM 16), 77-7s)-lin 1twotiaml ln6W"uwrcW briumithestm in packets atkkingovcurain the crntre of the sbwU durWX aa=aW* in muffie funmwf* after the sheeta have fxvnprevkwlypkkiedit-oulphtfiowki. Me")graphicinvestioationsAW nkrhankel tests h4ve shown dist We adhosinct is cloo to difluxior; mraa~urwd by roml4rto removal tot air. fabricating ta&tc". sAW ultio" ln)m 11W MjAAV 1 000 ~twmntheshcvu. To obviAte " tylo (A w"tc. it i4suflititut, after rtibux of the packet, lowTarasetbeabseseand thm to rrpack them. Thesirthua fro 0 intructuord comsAriciv Preveno MhuirmL-S. AL 40 fro 0 0100 Flo* - t ~il, ~SV ~W 'a, iglooj WIP 04. 9-1 go V- 1-7 -9T -r-- S 0 -W 0 0 0 1 Is 14 9 a 0 1 6 b All 1 11 ; Op M M It 91 it W, In Il of W910 it IKA 4, v gal a 0 IN 0 0 0 41 0 0 0 0 0 0 1  0:09 #0 ***go** 0101, 0000000000 0 0 #-w-w-w-W 0,711 2 1 4 1 a ? # 0 4 on A I f--A- I ~-R- it A so d a-Brem H. A. Kujt44kvvk+ (Mr(dUsty (,Vtfatitirria), U-97; (10-11). 64-77).-(1n 1TC66UWj Works'os1wrinwnta on Ow htpt-rulW of %.bmia and the multing mtwhAnkal ph,jwrtwo tA the rujW brammearedeeryibrwi. The rmultsarvxivenin 11; N. I L A*47ALL&WGICAL LITTRAILOI C&KATION u U AV 90 0 it tg n 114-5"i 04 ISAV lot -"j 142 L Aj T a 9 a 0 u ad 04 too age we: WOO Noo  N I. a A t Q A L AA a CC I cr A ' . p"Mtt 09 A 00 -00 00 All 0 00 "T114 SWAUM d CWWWWWO sad AmsmWw to Mockmakw propwti.$ 90 "d knkUn Of OWNW: IM-Tembsk. D. G. Ifut,"tui scul S. A, KUAA~_ JSM(7).75-1421. - (in llumagn.j )jrfI;w1 f 00 o Ju A., 'ning the brat workisw pnnwrtko tA thr 6wsal inu Tomismik Arr 11 at, riw. with 01wim! ff(CMGC* It) the edcvt of defurinatitk" at III .,ow c' alul 90 Cos :ubortitwnt anno%ling Itw 1-3 bro. of 51A) -for 1'. tin the tri-h4nit-al pe, J.-rtm,a 00 r4l mili ItAstrw-fum; &mp* C. is the b"I allf"ling tenliratur, if. Ilan). *0 00 4 than 311". by m6cf-workulIt 00 A*L! ,0* i z*o 1400 i Igo 0 ts too* io~ 'too If 3 An L I I "M 0 TAW 00 AV 0 it t) tv it ft 44 of a it w If a cc it Of . ooo!oo*oo** 0 0 0 00 0 0  ~0041? TI Of 4 A--f- L 7: f of 0: insumom d mah Dwa cd Ddwasum LuA Anankm T-punk-- C"W IWO. DdK=&UW M tM UWARMW PCOOKUM Of N. A. Kumhghr4l (Ma4arg (me"artw). IM (11), M &,).-I In Rumian.) 7%p'9WrQa`or&formMbon of wpp" by cokl-uotting Lffunts a awwo d M"imurn am"y is t.btAlryd by an intownw"le &naml as 3L'O*-6W C.. mW winim um at 71A)" V. MOT". no fiml umtelhog tomip"Slum h&A a gtftwr or sTlW$,-f edect. but ne'ror masks (be c4ed o(the interuirdkie trmtomL Ile m*Wt* AWnvol are d1u4niftl by diagmaw of the chanwe in mechanlral Inupert".-S. A. 9 1--- W049 U s A, 0 41 tPeply 1049 W49 ;111 ;ul N w 0 9 A a 3 2 .00 see 00 also COO ,See lei: 0 4 0 a 0 0 0 4 0 0 0 0 0 0 0 0 M-A-2.0 0 0 0 0 0 6 * 0 0 0 * 0 0  410 u 14 a Ilk IF is p 0 1 16 11 00 001, 0o 00 o o o Cam" of Cruka tn Lbe Cam-ROW" Of at"% JAEOU 'ds-- CU). 00 _ 1937. 11). Ill,, jim, It, in brwa .111, 0o . ..... 00 00 ' go J; Imms, dilva u4-1 Wiwi III., hol n4ling l,rww, Th'. I'sibmw A Ih,, jjji:~As An* Itmit-r %, -1.1 th.111 A).1 I.- --1-U N, I, Ill 46~ao 00 .00 '&o * =00 too ago go* ate, I 1144IIAr CLAIiIIK11104 At. -"-, I ~' .9- - - -' - ." ~1* ...... 41. .0- - 1- 0 IIA4 U n ji 10 1, It 0 *Ole/ 0.6 00 0 o 04 Go*** 000000 0 6, 4111 go 0 0 0 of q 010 6000 0 609000 00 0 0 go 0 00 0  0 11 a a 16 S pig 0 0! %044441200 40 . O AW : Eftwe of Thkk~ Of Flat To"i8o" an t6 R l f 0 em u o the K A. 1937 - t l 12 00 , ol . , Ft. r, pll. thO I'Mult f e - an inyvotigatil)II (if he (.ffo.l_t J,r 41 14-4 hicknemoolon the tornioile stmn th f fl " (i g at test-pievem colt frq'llj Plit.,.ts tum. in thicknm and cold -worked to var . 7*1 in d I ,,!,,. 3, 1c, egrt g ;-Lile mirenial, was fmirml CO illCrlNIW 'Aith 1-111--rk-141 milminjenn, whilAt will, r1mitilI44 in Illi.-kil-m L"",, %-re illimerv(41 ill the 7, roe 90 00 we* 100 I11.1i L A, IIIIIALLURGICAL U11111411fac CLAIVOCATIC011 Igo 0 via.. O-Slil Rao.. IIIIIIJI". &A Goov I%i WON$ -0 "it O"V as, gulmool; _qO 0 I=- T T_ eIT - a AV 10 is a 411t Vq it 6 0 06000 oil 00: 0000040040000 00000000 0 0 0 * so 00 :00*0:0*000- 66,06069066000:000400900006*40  0 1o 0 * 0 6909000000 1 - 4~ ;' 1, 1." q~ -I 4,40900 *4000 4 0 is of* 41*000 6 1 1 y a Is 11 9 it " is 17 a 0 a i A' I A? A CA-k A -A -A_.JAXL_A_X L-4-JI-PA I T11" t L-AFLAt ~ #.. so A 019clims &NO footfall#% C.4 a 00 _00 The Use of btpir-~m; in Rallf"C H. A. NushAevich. Of a' lVetallurg, IM, No, 10-11, pp, 123-140). (In 99 rkluctions in rolling am defined as reductions per pan which, by 00 00 2 the method of calculation developed ky Kirchberg, involve a 0 coefficient of incresm in length greater than 2, i.e., a reduction 0 a gmter than 50%. The old theory that reductions greater than LO% will lead to cracking of the metal is shown to be wrong, as (lie increase in length of the metal in a lism is shown to be :o the mult of triaxisil compression rattler than a process akin to see 00's drawing. The author goes on to give experimental data. obtained use in tile mlling of Peveral steels anil aon-ferrous alloys. Super. a** reductions In the hot-rolling of both ingots and &-mi-rolled mskyWs were found to be fe"Jible without detriment to the structure eou or mechanical pmperties. In conclusion, the author eonsiticri; 7, gee 00-4 mathematically the question of pressure an the rolls, the gripping goo of the metal by the rolls when r9lUng with super-reductions, the x*0 jlju V efrectofthis method of rolling on tile output cap,,,ity offolfing.mill coo Wilts, WW the saving in fuel mita lis 4 rest;lt (if the loss fm uent Oro 0 reheating uirod beca tbe redurod 1"t )(Mot-4 during rur" Ali iner, rm Q, 6=1COOf 4*0 a Ina nsumptiou is the one wrious drawti to the PrOcOn of rolling with. super-reductions. 1040411 !too ACIALLUNCICAL LIT two CLASSAPICATON 3 0 ~14 "it a., a" am -V.' It. U Is AV I L a fW 0 It I 'I or IN 9 a a 1 11 11 Ap.0 114110tor It 900 *1** 0 * * 0 9 0 0 0 ta no la, A*' 0900 9 0 0 0 0 0 0 0 0 0 0 0 q 0 '0 '00 00 09 so 0 0 * 0 0 * 0 0 0 0 0 0 0 0 * * 0 0 0 0 9 0 0 0 0 0 0 0 0  Ai 1~11'.!, 0- ii q r I.;  KUSHAKZVICH S.A.- LAZAREV. M.N. Operating machines for continuous annealing of nonferrous metal strips by the electric resistance method. TSvet. met. 29 no.10:64-69 0 156. (MLRA 9312) (konferrous metals--glectrometallurgy) (Rolling Mille)  SHULIKINP S.M.P kand.takhn.nauk; KUSHAKEVICH, S.A.9 inzh.; IIOTAPLNKO, Yu. I., inzh. Characterintics in the technology of the jr.anufacture of hot- -%rolled sheets of 48-OT3 titani= alloys. Matallurgiia 2:282- 293 159. (MIRA 24:3) (Rolling (Motalwork))(Titanium alloys)  69830 S/136/60/000/05/011/025 E071/E235 AUTHORS: Morozov, L, N, Kaiu,~in, V. F., Kaganovich, I, N Kushakevich, S. and Agarkov, V. F. - -------------------- TITLE: Mastering the Technology of Rollinolon a Merchant Milikq % of Rods from Titanium Alloys on a Metallurgical Works PERIODICAL: Tsvetnyye metally, 1960, ~~ 5, Pp 57-61 (USSR) ABSTRACT: The possibility of rol ing rods from titanium and its alloys (OT4kland VT2-1)"Ion a merchant mill and the quality of the products made were investigated. Chemical analyses of the ingots rolled are given in Table 1. Ingots of ON alloy, were obtained by a vacuo-argon melting and those h of VTZ-11 y a double vacuo melting, As semis for rolling forged squares 80 x 80 to 230 x 230 mm, 1100 to 1400 mm long were used. The rolling was done on a mill 600 with water cooling of bearings and rolls at a rolling velocity 2 to 2.7 m/sec (Table 2). Temperature of the beginning of rolling 1020 to 10700C and that of the end of rolling 950 to 9800C. The main parameters of roll passes for rolling rods of 16 mm diameter are given in Table 3; mechanical properties of rolled and annealed products are given in Table 4; examples of the microstructure of Card 1/2 rods are reproduced in Figs 1 to 3, a comparison of the  69830 S/136/roO/000/05/011/025 E071/E235 Mastering the Technology of Rolling on a Merchant Mill of Rods from Titanium Alloys on a Metallurgical Works appearance of the surface of forged, pressed and rolled rods from VTZ-1 alloy is shown in Fig 4. It is concluded that rolling of titanium alloys is feasible. Under works' conditions, semis for rolling should be forged squares 230 x 230 mm 1100 to 1400 mm long. In order to obtain the best structure in finished products, rolling should be finished at a lower temperature, ie, below the range of the 0 phase. There are 4 figures and 4 tables. V~ Card 212  69696 J-2 ps- S/126/60/009/03/019/033 E091/E435 AUTHORS: Lerinman, R.M., Shchegoleva_L_T.V Kushakevich, S.A and Selitakaya, S.I. TITLEt Electron Microscopic Investigation of Structural 14 Transformations in Titanium3Manganeseyland Titanium- AChrom1um Alloys PERIODICAL:Fizika metallov i metallovedeniye, 1960, Vol 9, Nr 3, pp 437-44o (USSR) ABSTRACTz The transformation of the P-phase on tempering quenched Ti-Mn and Ti-Cr alloys were studied. The following binary alloys, containing elements which stabilize the P-phase, were used for the investigations Ti-Mn (10.5% Mn) and Ti-Cr (9.4% Cr). The alloys were prepared from titanium sponge of TGO quality, manganese of MR1 and chromium of KhO quality. Ingots were prepared by double vacuum melting. For the alloy containing Mn, the second fusion was carried out in argon. The composition of the alloys is shown in the table on P 438. The ingots were deformed by hot rolling and forging and the alloys were water quenched from 8509C (ie from the P-region). The time of heating Card 1/3 prior to quenching was 30 minutes. Tempering was carried V  69696 S/126/60/009/03/019/033 E091/E435 Electron Microscopic Investigation of Structural Transformations in Titanium-Manganese and Titanium-Chromium Alloys out by soaking for I to 25 hours at 400 to 550*C and cooling in air. In order to reproduce the structures of the alloys, single-stepped angular prints (replicas) were prepared (Ref 10). The specimens were first chemically polished in anhydrous boiling ortho-phosphoric acid for I to 2 minutes. They were then etched in a mixture of 20% HF, 20% HN03 and 60% glycerin.The etching time varied from a few seconds to one minute. Apart from the electron microscopic investigation, hardness tests were made on a Rockwell machine with a diamond indenter, using a load of 150 kg. In Fig la,lb and 1B, the microstructures of specimens of Ti-10-5%Mn alloys as tempered at 4oo 9C for 1, 5 and 25 hours, respectively, are shown; in Fig 1g, 1d and le, those of similar specimens tempered at 5500C for 1, 10 and 25 hours, respectively. Fig 2 shows the microstructure of a Ti-2.4% Cr alloy (a - after quenching and tempering at 400 C for one hour; b - after quenching and tempering Card 2/3 at 5000C for 25 hours). From the above micrOBtrUCtures  6M6 S/126/60/009/03/019/033 E091/E435 Electron Microscopic investigation of Structural Transformations in Titanium-Manganese and Titanium-Chromium Alloys it can be seen that an w-phase appears in Ti-Cr and Ti-Mn alloys after quenching and tempering at 400*C. It has the shape of very 'finely dispersed platelets, 300-400 A thick. Periodically, chains of equiaxed particles and individual equiaxed particles can be observed which point to the fact that the w-phase has an equiaxed shape from the very moment of its formation. Gratitude is expressed to YU.A.Bagaryatskiy and V.I.Dobatkin for the discussion of the results of this work. There are 2 figures, 1 table and 10 references, 7 of which are English, 2 French and 1 Soviet. ASSOCIATION:Institut fiziki metallov AN SSSR (Institute of PhysicB-of Metals AS USSR) SUBMITTED: April 22, 1959 Card 3/3  L'6319J-65 'r M ACCESSION IIR: A~561_0�Tj f4-?-Ut)7- Kff/jb0i-~__ Z6136/65/m/oo8/oo84 oa 5 66q.2q5-mk.i2;62l-7TL2 6 6 -7 AMHOR, Krassatkovi, M~ Ye 6 k;ry ab n , N. P.- Kushakevich S. A.; Mikitin, Ye K~ )Bazhenov, Yu. M.; Tokmakov, P. Ya..; Gritseako, Yu. P. Ye. A.. er 7, tPITLE: Iwrestigation ofthe mechanical properties and structure of titAM um. L oys during -rolling- 3OURCE: Tavetnyye metally, no.*B, 1965, 84-85 r-OPIC TA N, titanium alloy, titanium alloy rolling, titanium alloy structure, ititaniuri- -alloy. mechanical ~MTRACT: IC The mchanical prop Al dtucroatructure of BT5, apd ~BT~ titani.- un. alloys Dolled on rolling i'lill 300~Tt Verxious tamperature"s and with various re- Specimens 20 x 26 x 1140 ~ductions have been investigated. were preheatel an --end temperature f 800 650, 990, 1000, and 1100C . Th"%._ trolled wIth a rolling stren IIF%f LM thk _Seri atr, h ed that tensile e alloyn increassed a-- rolli em- -Irwe Perature d eased fr~Ew_1100 to CC.- Microscopic examin-ation revealed that r ~1. a - tallization, as not.completed at Boo 850C, but only at 90~,1-1000C. Tba recrystal- Itzdd structure- improved ductilit~rlt the valuer, changcd according to the curvel,hav- card 1/2   L I Z86-66 - 9WT(m)/EWP(0/EWP(b) lip(c) 14JY1/1JD ACC NR: AP6001109 SOURCE CODE: UR/0136165/000/012/0086/0089 (N) AUTHOR: Kushakevich, S. A.; Khanina, Z. K. ORG: none TITLE: Features of the pickling of titanium alloys by the sulfuric acid method SOURCE: Tsvetnyye metally, no. 12, 1965, 86-89 TOPIC TAGS: pickling, titanium alloy, sulfuric acid, ammonium fluoride, hydrofluoric acid, metal scaling ABSTRACT: The traditional method of removing scale from the surface of sheets in a solution of 6% HCl with 4% NaF involves a considerable unit consumption of expensive chemicals. Hence the authors investigated the ways and means of improving the compo- sition of the Ti pickling agent. in particular, the reason for the sharp drop in the activity of HM during the pickling of Ti was elucidated: the oxygen of the ambient air converts Ti(II) to Ti(IV) which is an inhibitor and passivates the solution. Hence, 30 other pickling solutions were tested. Of these, a 20% solution of H ,SO wit 4% NH4F at a working temperature of 60*C proved to be of the greatest interest. tt is three times as effective as a 6% solution of HCl with 4% NaF. The presence of F- in the H2SO solution, even in small quantities (0.05 mote/liter) (introduced in the form of AH'F or HF) increases the dissolution rate of Ti 20-40 times depending on the 4 1/2 UM: 669.295:621.794.4  L 13286-66 ACC NRt AP6001109 acid concentration. Activity of the solution was determined according to the diffe- rence in weight referred to a unit surface area of the specimen (g/m2). Studies of the characteristic curves of activity of solutions with 5, 10 and 20% H2SO4 and I to 557. NH4F indicate that the most active -- with respect to the number of times it can be used and the amount of metal pickled -- is a.20% solution of H2SO4 with 3-4% NH47 (37-46 picklings). In the H2SO4 solutions containing HF, the activity is so high as to be excessive, thus leading to considerable heating of the solution and to cor- rosion of the metal as well. Hence solutions of this kind, to be effective, must con- tain a minimal content of H2SO4 (5%) and 2-3% HF. The absolute activity of the solu- tions with HF is lower than that of the solutions with MH F and decreases at a faster rate. Thus it may be concluded that the best pickling agetit for Ti alloys to a solu- tion containing 20% H 2s04 and 4% NHO. Orig. art. has: 3 figures, 2 tables. SUB CODE: 07,11/ SUBH DATE: none/ ORIG REFt 000/ OTH REP: 000 Card 2/2  L 'V GOD -/oo I !~ .UVO, 156/61 L n ".-,ov, 11. Ye.; Kushakc-rich, S. A.; Tokrn;eov, P. Ya.; A.; 0. Gritouako, Yu. P.; Mat-Vycv, G. 01-"G: none M~ T r,,'EA'dopt-ion, of rolling large round profiles from titanium alloys \',I ------------------------ SOLMCE: Tsvetnyyc metally, no. 8, 1966, 77-80 TOPIC TAGS: titanium alloy, metal rolling, metal forming The rolling of lart-,e diameter (25 - 60 nm) titanium alloy stock was studied P;-ior to rollinc, the Specimer's were heated for 10 min in an induction furnace up to a temocrature of 1270--1370K, and for 5 min in a 3ilit furnace a'. a temperature of 1270-~' -1370'K. A achematic of the rolling acheme is presented (see Fig. 1). The rolling -=~;.in was calculated after the formula of N. Ye. Krasnikov and N. P. Sk--fabin (Tsvetny-je metally, 19065, No. 4) jh h)? (/I h)l ,;here 6 1h io the absolute compre3sion, B width of zone before pasaa0e, H and h 0 liciL,,'it oA" zone before and aftor passa6;-o rospectively, and r - the radius of the .;orkin-r rollor. It vian found that the experimental data were in good agreement with L~ I LC~! d 1/2 1 UDC L69-295T422.1 622.77-L2--j  L 106~~16-67 .ACC NP4 AP6029673 YT_ S ~70 W ~j L 7\ N!Y IZ7 AzIr C Q, I Fir% 1. Schematic for rolling large round profiles on rolling stand 450 10, i L-ric above cqwation. The degree of mold fillin,- for hexa,~:onal, cquare ' and oval (-Uculatod after I. Ya. Turnovil'~iy (Pormoizmencniye Pri plaoticheskoy w) MetallurGizdat, 1953)- Cho results are tabulated. It ia con- _-o1linr,: of large diameter stoc',,, mz.~do of ti-tv-,Iium alloys VT3-1, OT4, ~i, ~728, V-115, VT.14, and others yioldD products with safip~,,'dct OT 0 C~ri,7,. art. has: 1 table, 3 crapho, and 4 Oquat' no. ORIG RUi 006/ Wil PMa 001 UB CO 1~/ SUXI DATEz none/